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@inweb/viewer-three

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JavaScript library for rendering CAD and BIM files in a browser using Three.js

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JavaScript

/////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2002-2025, Open Design Alliance (the "Alliance"). // All rights reserved. // // This software and its documentation and related materials are owned by // the Alliance. The software may only be incorporated into application // programs owned by members of the Alliance, subject to a signed // Membership Agreement and Supplemental Software License Agreement with the // Alliance. The structure and organization of this software are the valuable // trade secrets of the Alliance and its suppliers. The software is also // protected by copyright law and international treaty provisions. Application // programs incorporating this software must include the following statement // with their copyright notices: // // This application incorporates Open Design Alliance software pursuant to a // license agreement with Open Design Alliance. // Open Design Alliance Copyright (C) 2002-2025 by Open Design Alliance. // All rights reserved. // // By use of this software, its documentation or related materials, you // acknowledge and accept the above terms. /////////////////////////////////////////////////////////////////////////////// (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, require('three'), require('@inweb/viewer-three')) : typeof define === 'function' && define.amd ? define(['exports', 'three', '@inweb/viewer-three'], factory) : (global = typeof globalThis !== 'undefined' ? globalThis : global || self, factory((global.ODA = global.ODA || {}, global.ODA.Three = global.ODA.Three || {}, global.ODA.Three.Extensions = global.ODA.Three.Extensions || {}), global.THREE, global.ODA.Three)); })(this, (function (exports, three, viewerThree) { 'use strict'; function toTrianglesDrawMode( geometry, drawMode ) { if ( drawMode === three.TrianglesDrawMode ) { console.warn( 'THREE.BufferGeometryUtils.toTrianglesDrawMode(): Geometry already defined as triangles.' ); return geometry; } if ( drawMode === three.TriangleFanDrawMode || drawMode === three.TriangleStripDrawMode ) { let index = geometry.getIndex(); if ( index === null ) { const indices = []; const position = geometry.getAttribute( 'position' ); if ( position !== undefined ) { for ( let i = 0; i < position.count; i ++ ) { indices.push( i ); } geometry.setIndex( indices ); index = geometry.getIndex(); } else { console.error( 'THREE.BufferGeometryUtils.toTrianglesDrawMode(): Undefined position attribute. Processing not possible.' ); return geometry; } } const numberOfTriangles = index.count - 2; const newIndices = []; if ( drawMode === three.TriangleFanDrawMode ) { for ( let i = 1; i <= numberOfTriangles; i ++ ) { newIndices.push( index.getX( 0 ) ); newIndices.push( index.getX( i ) ); newIndices.push( index.getX( i + 1 ) ); } } else { for ( let i = 0; i < numberOfTriangles; i ++ ) { if ( i % 2 === 0 ) { newIndices.push( index.getX( i ) ); newIndices.push( index.getX( i + 1 ) ); newIndices.push( index.getX( i + 2 ) ); } else { newIndices.push( index.getX( i + 2 ) ); newIndices.push( index.getX( i + 1 ) ); newIndices.push( index.getX( i ) ); } } } if ( ( newIndices.length / 3 ) !== numberOfTriangles ) { console.error( 'THREE.BufferGeometryUtils.toTrianglesDrawMode(): Unable to generate correct amount of triangles.' ); } const newGeometry = geometry.clone(); newGeometry.setIndex( newIndices ); newGeometry.clearGroups(); return newGeometry; } else { console.error( 'THREE.BufferGeometryUtils.toTrianglesDrawMode(): Unknown draw mode:', drawMode ); return geometry; } } class GLTFLoader extends three.Loader { constructor( manager ) { super( manager ); this.dracoLoader = null; this.ktx2Loader = null; this.meshoptDecoder = null; this.pluginCallbacks = []; this.register( function ( parser ) { return new GLTFMaterialsClearcoatExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsDispersionExtension( parser ); } ); this.register( function ( parser ) { return new GLTFTextureBasisUExtension( parser ); } ); this.register( function ( parser ) { return new GLTFTextureWebPExtension( parser ); } ); this.register( function ( parser ) { return new GLTFTextureAVIFExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsSheenExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsTransmissionExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsVolumeExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsIorExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsEmissiveStrengthExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsSpecularExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsIridescenceExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsAnisotropyExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMaterialsBumpExtension( parser ); } ); this.register( function ( parser ) { return new GLTFLightsExtension( parser ); } ); this.register( function ( parser ) { return new GLTFMeshoptCompression( parser ); } ); this.register( function ( parser ) { return new GLTFMeshGpuInstancing( parser ); } ); } load( url, onLoad, onProgress, onError ) { const scope = this; let resourcePath; if ( this.resourcePath !== '' ) { resourcePath = this.resourcePath; } else if ( this.path !== '' ) { const relativeUrl = three.LoaderUtils.extractUrlBase( url ); resourcePath = three.LoaderUtils.resolveURL( relativeUrl, this.path ); } else { resourcePath = three.LoaderUtils.extractUrlBase( url ); } this.manager.itemStart( url ); const _onError = function ( e ) { if ( onError ) { onError( e ); } else { console.error( e ); } scope.manager.itemError( url ); scope.manager.itemEnd( url ); }; const loader = new three.FileLoader( this.manager ); loader.setPath( this.path ); loader.setResponseType( 'arraybuffer' ); loader.setRequestHeader( this.requestHeader ); loader.setWithCredentials( this.withCredentials ); loader.load( url, function ( data ) { try { scope.parse( data, resourcePath, function ( gltf ) { onLoad( gltf ); scope.manager.itemEnd( url ); }, _onError ); } catch ( e ) { _onError( e ); } }, onProgress, _onError ); } setDRACOLoader( dracoLoader ) { this.dracoLoader = dracoLoader; return this; } setKTX2Loader( ktx2Loader ) { this.ktx2Loader = ktx2Loader; return this; } setMeshoptDecoder( meshoptDecoder ) { this.meshoptDecoder = meshoptDecoder; return this; } register( callback ) { if ( this.pluginCallbacks.indexOf( callback ) === -1 ) { this.pluginCallbacks.push( callback ); } return this; } unregister( callback ) { if ( this.pluginCallbacks.indexOf( callback ) !== -1 ) { this.pluginCallbacks.splice( this.pluginCallbacks.indexOf( callback ), 1 ); } return this; } parse( data, path, onLoad, onError ) { let json; const extensions = {}; const plugins = {}; const textDecoder = new TextDecoder(); if ( typeof data === 'string' ) { json = JSON.parse( data ); } else if ( data instanceof ArrayBuffer ) { const magic = textDecoder.decode( new Uint8Array( data, 0, 4 ) ); if ( magic === BINARY_EXTENSION_HEADER_MAGIC ) { try { extensions[ EXTENSIONS.KHR_BINARY_GLTF ] = new GLTFBinaryExtension( data ); } catch ( error ) { if ( onError ) onError( error ); return; } json = JSON.parse( extensions[ EXTENSIONS.KHR_BINARY_GLTF ].content ); } else { json = JSON.parse( textDecoder.decode( data ) ); } } else { json = data; } if ( json.asset === undefined || json.asset.version[ 0 ] < 2 ) { if ( onError ) onError( new Error( 'THREE.GLTFLoader: Unsupported asset. glTF versions >=2.0 are supported.' ) ); return; } const parser = new GLTFParser( json, { path: path || this.resourcePath || '', crossOrigin: this.crossOrigin, requestHeader: this.requestHeader, manager: this.manager, ktx2Loader: this.ktx2Loader, meshoptDecoder: this.meshoptDecoder } ); parser.fileLoader.setRequestHeader( this.requestHeader ); for ( let i = 0; i < this.pluginCallbacks.length; i ++ ) { const plugin = this.pluginCallbacks[ i ]( parser ); if ( ! plugin.name ) console.error( 'THREE.GLTFLoader: Invalid plugin found: missing name' ); plugins[ plugin.name ] = plugin; extensions[ plugin.name ] = true; } if ( json.extensionsUsed ) { for ( let i = 0; i < json.extensionsUsed.length; ++ i ) { const extensionName = json.extensionsUsed[ i ]; const extensionsRequired = json.extensionsRequired || []; switch ( extensionName ) { case EXTENSIONS.KHR_MATERIALS_UNLIT: extensions[ extensionName ] = new GLTFMaterialsUnlitExtension(); break; case EXTENSIONS.KHR_DRACO_MESH_COMPRESSION: extensions[ extensionName ] = new GLTFDracoMeshCompressionExtension( json, this.dracoLoader ); break; case EXTENSIONS.KHR_TEXTURE_TRANSFORM: extensions[ extensionName ] = new GLTFTextureTransformExtension(); break; case EXTENSIONS.KHR_MESH_QUANTIZATION: extensions[ extensionName ] = new GLTFMeshQuantizationExtension(); break; default: if ( extensionsRequired.indexOf( extensionName ) >= 0 && plugins[ extensionName ] === undefined ) { console.warn( 'THREE.GLTFLoader: Unknown extension "' + extensionName + '".' ); } } } } parser.setExtensions( extensions ); parser.setPlugins( plugins ); parser.parse( onLoad, onError ); } parseAsync( data, path ) { const scope = this; return new Promise( function ( resolve, reject ) { scope.parse( data, path, resolve, reject ); } ); } } function GLTFRegistry() { let objects = {}; return { get: function ( key ) { return objects[ key ]; }, add: function ( key, object ) { objects[ key ] = object; }, remove: function ( key ) { delete objects[ key ]; }, removeAll: function () { objects = {}; } }; } const EXTENSIONS = { KHR_BINARY_GLTF: 'KHR_binary_glTF', KHR_DRACO_MESH_COMPRESSION: 'KHR_draco_mesh_compression', KHR_LIGHTS_PUNCTUAL: 'KHR_lights_punctual', KHR_MATERIALS_CLEARCOAT: 'KHR_materials_clearcoat', KHR_MATERIALS_DISPERSION: 'KHR_materials_dispersion', KHR_MATERIALS_IOR: 'KHR_materials_ior', KHR_MATERIALS_SHEEN: 'KHR_materials_sheen', KHR_MATERIALS_SPECULAR: 'KHR_materials_specular', KHR_MATERIALS_TRANSMISSION: 'KHR_materials_transmission', KHR_MATERIALS_IRIDESCENCE: 'KHR_materials_iridescence', KHR_MATERIALS_ANISOTROPY: 'KHR_materials_anisotropy', KHR_MATERIALS_UNLIT: 'KHR_materials_unlit', KHR_MATERIALS_VOLUME: 'KHR_materials_volume', KHR_TEXTURE_BASISU: 'KHR_texture_basisu', KHR_TEXTURE_TRANSFORM: 'KHR_texture_transform', KHR_MESH_QUANTIZATION: 'KHR_mesh_quantization', KHR_MATERIALS_EMISSIVE_STRENGTH: 'KHR_materials_emissive_strength', EXT_MATERIALS_BUMP: 'EXT_materials_bump', EXT_TEXTURE_WEBP: 'EXT_texture_webp', EXT_TEXTURE_AVIF: 'EXT_texture_avif', EXT_MESHOPT_COMPRESSION: 'EXT_meshopt_compression', EXT_MESH_GPU_INSTANCING: 'EXT_mesh_gpu_instancing' }; class GLTFLightsExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_LIGHTS_PUNCTUAL; this.cache = { refs: {}, uses: {} }; } _markDefs() { const parser = this.parser; const nodeDefs = this.parser.json.nodes || []; for ( let nodeIndex = 0, nodeLength = nodeDefs.length; nodeIndex < nodeLength; nodeIndex ++ ) { const nodeDef = nodeDefs[ nodeIndex ]; if ( nodeDef.extensions && nodeDef.extensions[ this.name ] && nodeDef.extensions[ this.name ].light !== undefined ) { parser._addNodeRef( this.cache, nodeDef.extensions[ this.name ].light ); } } } _loadLight( lightIndex ) { const parser = this.parser; const cacheKey = 'light:' + lightIndex; let dependency = parser.cache.get( cacheKey ); if ( dependency ) return dependency; const json = parser.json; const extensions = ( json.extensions && json.extensions[ this.name ] ) || {}; const lightDefs = extensions.lights || []; const lightDef = lightDefs[ lightIndex ]; let lightNode; const color = new three.Color( 0xffffff ); if ( lightDef.color !== undefined ) color.setRGB( lightDef.color[ 0 ], lightDef.color[ 1 ], lightDef.color[ 2 ], three.LinearSRGBColorSpace ); const range = lightDef.range !== undefined ? lightDef.range : 0; switch ( lightDef.type ) { case 'directional': lightNode = new three.DirectionalLight( color ); lightNode.target.position.set( 0, 0, -1 ); lightNode.add( lightNode.target ); break; case 'point': lightNode = new three.PointLight( color ); lightNode.distance = range; break; case 'spot': lightNode = new three.SpotLight( color ); lightNode.distance = range; lightDef.spot = lightDef.spot || {}; lightDef.spot.innerConeAngle = lightDef.spot.innerConeAngle !== undefined ? lightDef.spot.innerConeAngle : 0; lightDef.spot.outerConeAngle = lightDef.spot.outerConeAngle !== undefined ? lightDef.spot.outerConeAngle : Math.PI / 4.0; lightNode.angle = lightDef.spot.outerConeAngle; lightNode.penumbra = 1.0 - lightDef.spot.innerConeAngle / lightDef.spot.outerConeAngle; lightNode.target.position.set( 0, 0, -1 ); lightNode.add( lightNode.target ); break; default: throw new Error( 'THREE.GLTFLoader: Unexpected light type: ' + lightDef.type ); } lightNode.position.set( 0, 0, 0 ); assignExtrasToUserData( lightNode, lightDef ); if ( lightDef.intensity !== undefined ) lightNode.intensity = lightDef.intensity; lightNode.name = parser.createUniqueName( lightDef.name || ( 'light_' + lightIndex ) ); dependency = Promise.resolve( lightNode ); parser.cache.add( cacheKey, dependency ); return dependency; } getDependency( type, index ) { if ( type !== 'light' ) return; return this._loadLight( index ); } createNodeAttachment( nodeIndex ) { const self = this; const parser = this.parser; const json = parser.json; const nodeDef = json.nodes[ nodeIndex ]; const lightDef = ( nodeDef.extensions && nodeDef.extensions[ this.name ] ) || {}; const lightIndex = lightDef.light; if ( lightIndex === undefined ) return null; return this._loadLight( lightIndex ).then( function ( light ) { return parser._getNodeRef( self.cache, lightIndex, light ); } ); } } class GLTFMaterialsUnlitExtension { constructor() { this.name = EXTENSIONS.KHR_MATERIALS_UNLIT; } getMaterialType() { return three.MeshBasicMaterial; } extendParams( materialParams, materialDef, parser ) { const pending = []; materialParams.color = new three.Color( 1.0, 1.0, 1.0 ); materialParams.opacity = 1.0; const metallicRoughness = materialDef.pbrMetallicRoughness; if ( metallicRoughness ) { if ( Array.isArray( metallicRoughness.baseColorFactor ) ) { const array = metallicRoughness.baseColorFactor; materialParams.color.setRGB( array[ 0 ], array[ 1 ], array[ 2 ], three.LinearSRGBColorSpace ); materialParams.opacity = array[ 3 ]; } if ( metallicRoughness.baseColorTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'map', metallicRoughness.baseColorTexture, three.SRGBColorSpace ) ); } } return Promise.all( pending ); } } class GLTFMaterialsEmissiveStrengthExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_EMISSIVE_STRENGTH; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const emissiveStrength = materialDef.extensions[ this.name ].emissiveStrength; if ( emissiveStrength !== undefined ) { materialParams.emissiveIntensity = emissiveStrength; } return Promise.resolve(); } } class GLTFMaterialsClearcoatExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_CLEARCOAT; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const pending = []; const extension = materialDef.extensions[ this.name ]; if ( extension.clearcoatFactor !== undefined ) { materialParams.clearcoat = extension.clearcoatFactor; } if ( extension.clearcoatTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'clearcoatMap', extension.clearcoatTexture ) ); } if ( extension.clearcoatRoughnessFactor !== undefined ) { materialParams.clearcoatRoughness = extension.clearcoatRoughnessFactor; } if ( extension.clearcoatRoughnessTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'clearcoatRoughnessMap', extension.clearcoatRoughnessTexture ) ); } if ( extension.clearcoatNormalTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'clearcoatNormalMap', extension.clearcoatNormalTexture ) ); if ( extension.clearcoatNormalTexture.scale !== undefined ) { const scale = extension.clearcoatNormalTexture.scale; materialParams.clearcoatNormalScale = new three.Vector2( scale, scale ); } } return Promise.all( pending ); } } class GLTFMaterialsDispersionExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_DISPERSION; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const extension = materialDef.extensions[ this.name ]; materialParams.dispersion = extension.dispersion !== undefined ? extension.dispersion : 0; return Promise.resolve(); } } class GLTFMaterialsIridescenceExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_IRIDESCENCE; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const pending = []; const extension = materialDef.extensions[ this.name ]; if ( extension.iridescenceFactor !== undefined ) { materialParams.iridescence = extension.iridescenceFactor; } if ( extension.iridescenceTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'iridescenceMap', extension.iridescenceTexture ) ); } if ( extension.iridescenceIor !== undefined ) { materialParams.iridescenceIOR = extension.iridescenceIor; } if ( materialParams.iridescenceThicknessRange === undefined ) { materialParams.iridescenceThicknessRange = [ 100, 400 ]; } if ( extension.iridescenceThicknessMinimum !== undefined ) { materialParams.iridescenceThicknessRange[ 0 ] = extension.iridescenceThicknessMinimum; } if ( extension.iridescenceThicknessMaximum !== undefined ) { materialParams.iridescenceThicknessRange[ 1 ] = extension.iridescenceThicknessMaximum; } if ( extension.iridescenceThicknessTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'iridescenceThicknessMap', extension.iridescenceThicknessTexture ) ); } return Promise.all( pending ); } } class GLTFMaterialsSheenExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_SHEEN; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const pending = []; materialParams.sheenColor = new three.Color( 0, 0, 0 ); materialParams.sheenRoughness = 0; materialParams.sheen = 1; const extension = materialDef.extensions[ this.name ]; if ( extension.sheenColorFactor !== undefined ) { const colorFactor = extension.sheenColorFactor; materialParams.sheenColor.setRGB( colorFactor[ 0 ], colorFactor[ 1 ], colorFactor[ 2 ], three.LinearSRGBColorSpace ); } if ( extension.sheenRoughnessFactor !== undefined ) { materialParams.sheenRoughness = extension.sheenRoughnessFactor; } if ( extension.sheenColorTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'sheenColorMap', extension.sheenColorTexture, three.SRGBColorSpace ) ); } if ( extension.sheenRoughnessTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'sheenRoughnessMap', extension.sheenRoughnessTexture ) ); } return Promise.all( pending ); } } class GLTFMaterialsTransmissionExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_TRANSMISSION; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const pending = []; const extension = materialDef.extensions[ this.name ]; if ( extension.transmissionFactor !== undefined ) { materialParams.transmission = extension.transmissionFactor; } if ( extension.transmissionTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'transmissionMap', extension.transmissionTexture ) ); } return Promise.all( pending ); } } class GLTFMaterialsVolumeExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_VOLUME; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const pending = []; const extension = materialDef.extensions[ this.name ]; materialParams.thickness = extension.thicknessFactor !== undefined ? extension.thicknessFactor : 0; if ( extension.thicknessTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'thicknessMap', extension.thicknessTexture ) ); } materialParams.attenuationDistance = extension.attenuationDistance || Infinity; const colorArray = extension.attenuationColor || [ 1, 1, 1 ]; materialParams.attenuationColor = new three.Color().setRGB( colorArray[ 0 ], colorArray[ 1 ], colorArray[ 2 ], three.LinearSRGBColorSpace ); return Promise.all( pending ); } } class GLTFMaterialsIorExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_IOR; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const extension = materialDef.extensions[ this.name ]; materialParams.ior = extension.ior !== undefined ? extension.ior : 1.5; return Promise.resolve(); } } class GLTFMaterialsSpecularExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_SPECULAR; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const pending = []; const extension = materialDef.extensions[ this.name ]; materialParams.specularIntensity = extension.specularFactor !== undefined ? extension.specularFactor : 1.0; if ( extension.specularTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'specularIntensityMap', extension.specularTexture ) ); } const colorArray = extension.specularColorFactor || [ 1, 1, 1 ]; materialParams.specularColor = new three.Color().setRGB( colorArray[ 0 ], colorArray[ 1 ], colorArray[ 2 ], three.LinearSRGBColorSpace ); if ( extension.specularColorTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'specularColorMap', extension.specularColorTexture, three.SRGBColorSpace ) ); } return Promise.all( pending ); } } class GLTFMaterialsBumpExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.EXT_MATERIALS_BUMP; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const pending = []; const extension = materialDef.extensions[ this.name ]; materialParams.bumpScale = extension.bumpFactor !== undefined ? extension.bumpFactor : 1.0; if ( extension.bumpTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'bumpMap', extension.bumpTexture ) ); } return Promise.all( pending ); } } class GLTFMaterialsAnisotropyExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_MATERIALS_ANISOTROPY; } getMaterialType( materialIndex ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) return null; return three.MeshPhysicalMaterial; } extendMaterialParams( materialIndex, materialParams ) { const parser = this.parser; const materialDef = parser.json.materials[ materialIndex ]; if ( ! materialDef.extensions || ! materialDef.extensions[ this.name ] ) { return Promise.resolve(); } const pending = []; const extension = materialDef.extensions[ this.name ]; if ( extension.anisotropyStrength !== undefined ) { materialParams.anisotropy = extension.anisotropyStrength; } if ( extension.anisotropyRotation !== undefined ) { materialParams.anisotropyRotation = extension.anisotropyRotation; } if ( extension.anisotropyTexture !== undefined ) { pending.push( parser.assignTexture( materialParams, 'anisotropyMap', extension.anisotropyTexture ) ); } return Promise.all( pending ); } } class GLTFTextureBasisUExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.KHR_TEXTURE_BASISU; } loadTexture( textureIndex ) { const parser = this.parser; const json = parser.json; const textureDef = json.textures[ textureIndex ]; if ( ! textureDef.extensions || ! textureDef.extensions[ this.name ] ) { return null; } const extension = textureDef.extensions[ this.name ]; const loader = parser.options.ktx2Loader; if ( ! loader ) { if ( json.extensionsRequired && json.extensionsRequired.indexOf( this.name ) >= 0 ) { throw new Error( 'THREE.GLTFLoader: setKTX2Loader must be called before loading KTX2 textures' ); } else { return null; } } return parser.loadTextureImage( textureIndex, extension.source, loader ); } } class GLTFTextureWebPExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.EXT_TEXTURE_WEBP; } loadTexture( textureIndex ) { const name = this.name; const parser = this.parser; const json = parser.json; const textureDef = json.textures[ textureIndex ]; if ( ! textureDef.extensions || ! textureDef.extensions[ name ] ) { return null; } const extension = textureDef.extensions[ name ]; const source = json.images[ extension.source ]; let loader = parser.textureLoader; if ( source.uri ) { const handler = parser.options.manager.getHandler( source.uri ); if ( handler !== null ) loader = handler; } return parser.loadTextureImage( textureIndex, extension.source, loader ); } } class GLTFTextureAVIFExtension { constructor( parser ) { this.parser = parser; this.name = EXTENSIONS.EXT_TEXTURE_AVIF; } loadTexture( textureIndex ) { const name = this.name; const parser = this.parser; const json = parser.json; const textureDef = json.textures[ textureIndex ]; if ( ! textureDef.extensions || ! textureDef.extensions[ name ] ) { return null; } const extension = textureDef.extensions[ name ]; const source = json.images[ extension.source ]; let loader = parser.textureLoader; if ( source.uri ) { const handler = parser.options.manager.getHandler( source.uri ); if ( handler !== null ) loader = handler; } return parser.loadTextureImage( textureIndex, extension.source, loader ); } } class GLTFMeshoptCompression { constructor( parser ) { this.name = EXTENSIONS.EXT_MESHOPT_COMPRESSION; this.parser = parser; } loadBufferView( index ) { const json = this.parser.json; const bufferView = json.bufferViews[ index ]; if ( bufferView.extensions && bufferView.extensions[ this.name ] ) { const extensionDef = bufferView.extensions[ this.name ]; const buffer = this.parser.getDependency( 'buffer', extensionDef.buffer ); const decoder = this.parser.options.meshoptDecoder; if ( ! decoder || ! decoder.supported ) { if ( json.extensionsRequired && json.extensionsRequired.indexOf( this.name ) >= 0 ) { throw new Error( 'THREE.GLTFLoader: setMeshoptDecoder must be called before loading compressed files' ); } else { return null; } } return buffer.then( function ( res ) { const byteOffset = extensionDef.byteOffset || 0; const byteLength = extensionDef.byteLength || 0; const count = extensionDef.count; const stride = extensionDef.byteStride; const source = new Uint8Array( res, byteOffset, byteLength ); if ( decoder.decodeGltfBufferAsync ) { return decoder.decodeGltfBufferAsync( count, stride, source, extensionDef.mode, extensionDef.filter ).then( function ( res ) { return res.buffer; } ); } else { return decoder.ready.then( function () { const result = new ArrayBuffer( count * stride ); decoder.decodeGltfBuffer( new Uint8Array( result ), count, stride, source, extensionDef.mode, extensionDef.filter ); return result; } ); } } ); } else { return null; } } } class GLTFMeshGpuInstancing { constructor( parser ) { this.name = EXTENSIONS.EXT_MESH_GPU_INSTANCING; this.parser = parser; } createNodeMesh( nodeIndex ) { const json = this.parser.json; const nodeDef = json.nodes[ nodeIndex ]; if ( ! nodeDef.extensions || ! nodeDef.extensions[ this.name ] || nodeDef.mesh === undefined ) { return null; } const meshDef = json.meshes[ nodeDef.mesh ]; for ( const primitive of meshDef.primitives ) { if ( primitive.mode !== WEBGL_CONSTANTS.TRIANGLES && primitive.mode !== WEBGL_CONSTANTS.TRIANGLE_STRIP && primitive.mode !== WEBGL_CONSTANTS.TRIANGLE_FAN && primitive.mode !== undefined ) { return null; } } const extensionDef = nodeDef.extensions[ this.name ]; const attributesDef = extensionDef.attributes; const pending = []; const attributes = {}; for ( const key in attributesDef ) { pending.push( this.parser.getDependency( 'accessor', attributesDef[ key ] ).then( accessor => { attributes[ key ] = accessor; return attributes[ key ]; } ) ); } if ( pending.length < 1 ) { return null; } pending.push( this.parser.createNodeMesh( nodeIndex ) ); return Promise.all( pending ).then( results => { const nodeObject = results.pop(); const meshes = nodeObject.isGroup ? nodeObject.children : [ nodeObject ]; const count = results[ 0 ].count; const instancedMeshes = []; for ( const mesh of meshes ) { const m = new three.Matrix4(); const p = new three.Vector3(); const q = new three.Quaternion(); const s = new three.Vector3( 1, 1, 1 ); const instancedMesh = new three.InstancedMesh( mesh.geometry, mesh.material, count ); for ( let i = 0; i < count; i ++ ) { if ( attributes.TRANSLATION ) { p.fromBufferAttribute( attributes.TRANSLATION, i ); } if ( attributes.ROTATION ) { q.fromBufferAttribute( attributes.ROTATION, i ); } if ( attributes.SCALE ) { s.fromBufferAttribute( attributes.SCALE, i ); } instancedMesh.setMatrixAt( i, m.compose( p, q, s ) ); } for ( const attributeName in attributes ) { if ( attributeName === '_COLOR_0' ) { const attr = attributes[ attributeName ]; instancedMesh.instanceColor = new three.InstancedBufferAttribute( attr.array, attr.itemSize, attr.normalized ); } else if ( attributeName !== 'TRANSLATION' && attributeName !== 'ROTATION' && attributeName !== 'SCALE' ) { mesh.geometry.setAttribute( attributeName, attributes[ attributeName ] ); } } three.Object3D.prototype.copy.call( instancedMesh, mesh ); this.parser.assignFinalMaterial( instancedMesh ); instancedMeshes.push( instancedMesh ); } if ( nodeObject.isGroup ) { nodeObject.clear(); nodeObject.add( ... instancedMeshes ); return nodeObject; } return instancedMeshes[ 0 ]; } ); } } const BINARY_EXTENSION_HEADER_MAGIC = 'glTF'; const BINARY_EXTENSION_HEADER_LENGTH = 12; const BINARY_EXTENSION_CHUNK_TYPES = { JSON: 0x4E4F534A, BIN: 0x004E4942 }; class GLTFBinaryExtension { constructor( data ) { this.name = EXTENSIONS.KHR_BINARY_GLTF; this.content = null; this.body = null; const headerView = new DataView( data, 0, BINARY_EXTENSION_HEADER_LENGTH ); const textDecoder = new TextDecoder(); this.header = { magic: textDecoder.decode( new Uint8Array( data.slice( 0, 4 ) ) ), version: headerView.getUint32( 4, true ), length: headerView.getUint32( 8, true ) }; if ( this.header.magic !== BINARY_EXTENSION_HEADER_MAGIC ) { throw new Error( 'THREE.GLTFLoader: Unsupported glTF-Binary header.' ); } else if ( this.header.version < 2.0 ) { throw new Error( 'THREE.GLTFLoader: Legacy binary file detected.' ); } const chunkContentsLength = this.header.length - BINARY_EXTENSION_HEADER_LENGTH; const chunkView = new DataView( data, BINARY_EXTENSION_HEADER_LENGTH ); let chunkIndex = 0; while ( chunkIndex < chunkContentsLength ) { const chunkLength = chunkView.getUint32( chunkIndex, true ); chunkIndex += 4; const chunkType = chunkView.getUint32( chunkIndex, true ); chunkIndex += 4; if ( chunkType === BINARY_EXTENSION_CHUNK_TYPES.JSON ) { const contentArray = new Uint8Array( data, BINARY_EXTENSION_HEADER_LENGTH + chunkIndex, chunkLength ); this.content = textDecoder.decode( contentArray ); } else if ( chunkType === BINARY_EXTENSION_CHUNK_TYPES.BIN ) { const byteOffset = BINARY_EXTENSION_HEADER_LENGTH + chunkIndex; this.body = data.slice( byteOffset, byteOffset + chunkLength ); } chunkIndex += chunkLength; } if ( this.content === null ) { throw new Error( 'THREE.GLTFLoader: JSON content not found.' ); } } } class GLTFDracoMeshCompressionExtension { constructor( json, dracoLoader ) { if ( ! dracoLoader ) { throw new Error( 'THREE.GLTFLoader: No DRACOLoader instance provided.' ); } this.name = EXTENSIONS.KHR_DRACO_MESH_COMPRESSION; this.json = json; this.dracoLoader = dracoLoader; this.dracoLoader.preload(); } decodePrimitive( primitive, parser ) { const json = this.json; const dracoLoader = this.dracoLoader; const bufferViewIndex = primitive.extensions[ this.name ].bufferView; const gltfAttributeMap = primitive.extensions[ this.name ].attributes; const threeAttributeMap = {}; const attributeNormalizedMap = {}; const attributeTypeMap = {}; for ( const attributeName in gltfAttributeMap ) { const threeAttributeName = ATTRIBUTES[ attributeName ] || attributeName.toLowerCase(); threeAttributeMap[ threeAttributeName ] = gltfAttributeMap[ attributeName ]; } for ( const attributeName in primitive.attributes ) { const threeAttributeName = ATTRIBUTES[ attributeName ] || attributeName.toLowerCase(); if ( gltfAttributeMap[ attributeName ] !== undefined ) { const accessorDef = json.accessors[ primitive.attributes[ attributeName ] ]; const componentType = WEBGL_COMPONENT_TYPES[ accessorDef.componentType ]; attributeTypeMap[ threeAttributeName ] = componentType.name; attributeNormalizedMap[ threeAttributeName ] = accessorDef.normalized === true; } } return parser.getDependency( 'bufferView', bufferViewIndex ).then( function ( bufferView ) { return new Promise( function ( resolve, reject ) { dracoLoader.decodeDracoFile( bufferView, function ( geometry ) { for ( const attributeName in geometry.attributes ) { const attribute = geometry.attributes[ attributeName ]; const normalized = attributeNormalizedMap[ attributeName ]; if ( normalized !== undefined ) attribute.normalized = normalized; } resolve( geometry ); }, threeAttributeMap, attributeTypeMap, three.LinearSRGBColorSpace, reject ); } ); } ); } } class GLTFTextureTransformExtension { constructor() { this.name = EXTENSIONS.KHR_TEXTURE_TRANSFORM; } extendTexture( texture, transform ) { if ( ( transform.texCoord === undefined || transform.texCoord === texture.channel ) && transform.offset === undefined && transform.rotation === undefined && transform.scale === undefined ) { return texture; } texture = texture.clone(); if ( transform.texCoord !== undefined ) { texture.channel = transform.texCoord; } if ( transform.offset !== undefined ) { texture.offset.fromArray( transform.offset ); } if ( transform.rotation !== undefined ) { texture.rotation = transform.rotation; } if ( transform.scale !== undefined ) { texture.repeat.fromArray( transform.scale ); } texture.needsUpdate = true; return texture; } } class GLTFMeshQuantizationExtension { constructor() { this.name = EXTENSIONS.KHR_MESH_QUANTIZATION; } } class GLTFCubicSplineInterpolant extends three.Interpolant { constructor( parameterPositions, sampleValues, sampleSize, resultBuffer ) { super( parameterPositions, sampleValues, sampleSize, resultBuffer ); } copySampleValue_( index ) { const result = this.resultBuffer, values = this.sampleValues, valueSize = this.valueSize, offset = index * valueSize * 3 + valueSize; for ( let i = 0; i !== valueSize; i ++ ) { result[ i ] = values[ offset + i ]; } return result; } interpolate_( i1, t0, t, t1 ) { const result = this.resultBuffer; const values = this.sampleValues; const stride = this.valueSize; const stride2 = stride * 2; const stride3 = stride * 3; const td = t1 - t0; const p = ( t - t0 ) / td; const pp = p * p; const ppp = pp * p; const offset1 = i1 * stride3; const offset0 = offset1 - stride3; const s2 = -2 * ppp + 3 * pp; const s3 = ppp - pp; const s0 = 1 - s2; const s1 = s3 - pp + p; for ( let i = 0; i !== stride; i ++ ) { const p0 = values[ offset0 + i + stride ]; const m0 = values[ offset0 + i + stride2 ] * td; const p1 = values[ offset1 + i + stride ]; const m1 = values[ offset1 + i ] * td; result[ i ] = s0 * p0 + s1 * m0 + s2 * p1 + s3 * m1; } return result; } } const _quaternion = new three.Quaternion(); class GLTFCubicSplineQuaternionInterpolant extends GLTFCubicSplineInterpolant { interpolate_( i1, t0, t, t1 ) { const result = super.interpolate_( i1, t0, t, t1 ); _quaternion.fromArray( result ).normalize().toArray( result ); return result; } } const WEBGL_CONSTANTS = { POINTS: 0, LINES: 1, LINE_LOOP: 2, LINE_STRIP: 3, TRIANGLES: 4, TRIANGLE_STRIP: 5, TRIANGLE_FAN: 6}; const WEBGL_COMPONENT_TYPES = { 5120: Int8Array, 5121: Uint8Array, 5122: Int16Array, 5123: Uint16Array, 5125: Uint32Array, 5126: Float32Array }; const WEBGL_FILTERS = { 9728: three.NearestFilter, 9729: three.LinearFilter, 9984: three.NearestMipmapNearestFilter, 9985: three.LinearMipmapNearestFilter, 9986: three.NearestMipmapLinearFilter, 9987: three.LinearMipmapLinearFilter }; const WEBGL_WRAPPINGS = { 33071: three.ClampToEdgeWrapping, 33648: three.MirroredRepeatWrapping, 10497: three.RepeatWrapping }; const WEBGL_TYPE_SIZES = { 'SCALAR': 1, 'VEC2': 2, 'VEC3': 3, 'VEC4': 4, 'MAT2': 4, 'MAT3': 9, 'MAT4': 16 }; const ATTRIBUTES = { POSITION: 'position', NORMAL: 'normal', TANGENT: 'tangent', TEXCOORD_0: 'uv', TEXCOORD_1: 'uv1', TEXCOORD_2: 'uv2', TEXCOORD_3: 'uv3', COLOR_0: 'color', WEIGHTS_0: 'skinWeight', JOINTS_0: 'skinIndex', }; const PATH_PROPERTIES = { scale: 'scale', translation: 'position', rotation: 'quaternion', weights: 'morphTargetInfluences' }; const INTERPOLATION = { CUBICSPLINE: undefined, LINEAR: three.InterpolateLinear, STEP: three.InterpolateDiscrete }; const ALPHA_MODES = { OPAQUE: 'OPAQUE', MASK: 'MASK', BLEND: 'BLEND' }; function createDefaultMaterial( cache ) { if ( cache[ 'DefaultMaterial' ] === undefined ) { cache[ 'DefaultMaterial' ] = new three.MeshStandardMaterial( { color: 0xFFFFFF, emissive: 0x000000, metalness: 1, roughness: 1, transparent: false, depthTest: true, side: three.FrontSide } ); } return cache[ 'DefaultMaterial' ]; } function addUnknownExtensionsToUserData( knownExtensions, object, objectDef ) { for ( const name in objectDef.extensions ) { if ( knownExtensions[ name ] === undefined ) { object.userData.gltfExtensions = object.userData.gltfExtensions || {}; object.userData.gltfExtensions[ name ] = objectDef.extensions[ name ]; } } } function assignExtrasToUserData( object, gltfDef ) { if ( gltfDef.extras !== undefined ) { if ( typeof gltfDef.extras === 'object' ) { Object.assign( object.userData, gltfDef.extras ); } else { console.warn( 'THREE.GLTFLoader: Ignoring primitive type .extras, ' + gltfDef.extras ); } } } function addMorphTargets( geometry, targets, parser ) { let hasMorphPosition = false; let hasMorphNormal = false; let hasMorphColor = false; for ( let i = 0, il = targets.length; i < il; i ++ ) { const target = targets[ i ]; if ( target.POSITION !== undefined ) hasMorphPosition = true; if ( target.NORMAL !== undefined ) hasMorphNormal = true; if ( target.COLOR_0 !== undefined ) hasMorphColor = true; if ( hasMorphPosition && hasMorphNormal && hasMorphColor ) break; } if ( ! hasMorphPosition && ! hasMorphNormal && ! hasMorphColor ) return Promise.resolve( geometry ); const pendingPositionAccessors = []; const pendingNormalAccessors = []; const pendingColorAccessors = []; for ( let i = 0, il = targets.length; i < il; i ++ ) { const target = targets[ i ]; if ( hasMorphPosition ) { const pendingAccessor = target.POSITION !== undefined ? parser.getDependency( 'accessor', target.POSITION ) : geometry.attributes.position; pendingPositionAccessors.push( pendingAccessor ); } if ( hasMorphNormal ) { const pendingAccessor = target.NORMAL !== undefined ? parser.getDependency( 'accessor', target.NORMAL ) : geometry.attributes.normal; pendingNormalAccessors.push( pendingAccessor ); } if ( hasMorphColor ) { const pendingAccessor = target.COLOR_0 !== undefined ? parser.getDependency( 'accessor', target.COLOR_0 ) : geometry.attributes.color; pendingColorAccessors.push( pendingAccessor ); } } return Promise.all( [ Promise.all( pendingPositionAccessors ), Promise.all( pendingNormalAccessors ), Promise.all( pendingColorAccessors ) ] ).then( function ( accessors ) { const morphPositions = accessors[ 0 ]; const morphNormals = accessors[ 1 ]; const morphColors = accessors[ 2 ]; if ( hasMorphPosition ) geometry.morphAttributes.position = morphPositions; if ( hasMorphNormal ) geometry.morphAttributes.normal = morphNormals; if ( hasMorphColor ) geometry.morphAttributes.color = morphColors; geometry.morphTargetsRelative = true; return geometry; } ); } function updateMorphTargets( mesh, meshDef ) { mesh.updateMorphTargets(); if ( meshDef.weights !== undefined ) { for ( let i = 0, il = meshDef.weights.length; i < il; i ++ ) { mesh.morphTargetInfluences[ i ] = meshDef.weights[ i ]; } } if ( meshDef.extras && Array.isArray( meshDef.extras.targetNames ) ) { const targetNames = meshDef.extras.targetNames; if ( mesh.morphTargetInfluences.length === targetNames.length ) { mesh.morphTargetDictionary = {}; for ( let i = 0, il = targetNames.length; i < il; i ++ ) { mesh.morphTargetDictionary[ targetNames[ i ] ] = i; } } else { console.warn( 'THREE.GLTFLoader: Invalid extras.targetNames length. Ignoring names.' ); } } } function createPrimitiveKey( primitiveDef ) { let geometryKey; const dracoExtension = primitiveDef.extensions && primitiveDef.extensions[ EXTENSIONS.KHR_DRACO_MESH_COMPRESSION ]; if ( dracoExtension ) { geometryKey = 'draco:' + dracoExtension.bufferView + ':' + dracoExtension.indices + ':' + createAttributesKey( dracoExtension.attributes ); } else { geometryKey = primitiveDef.indices + ':' + createAttributesKey( primitiveDef.attributes ) + ':' + primitiveDef.mode; } if ( primitiveDef.targets !== undefined ) { for ( let i = 0, il = primitiveDef.targets.length; i < il; i ++ ) { geometryKey += ':' + createAttributesKey( primitiveDef.targets[ i ] ); } } return geometryKey; } function createAttributesKey( attributes ) { let attributesKey = ''; const keys = Object.keys( attributes ).sort(); for ( let i = 0, il = keys.length; i < il; i ++ ) { attributesKey += keys[ i ] + ':' + attributes[ keys[ i ] ] + ';'; } return attributesKey; } function getNormalizedComponentScale( constructor ) { switch ( constructor ) { case Int8Array: return 1 / 127; case Uint8Array: return 1 / 255; case Int16Array: return 1 / 32767; case Uint16Array: return 1 / 65535; default: throw new Error( 'THREE.GLTFLoad