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614 lines
13 KiB
614 lines
13 KiB
import {
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BufferAttribute,
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BufferGeometry,
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Color,
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FileLoader,
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Loader,
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LinearSRGBColorSpace,
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SRGBColorSpace
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} from 'three';
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const _taskCache = new WeakMap();
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class DRACOLoader extends Loader {
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constructor( manager ) {
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super( manager );
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this.decoderPath = '';
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this.decoderConfig = {};
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this.decoderBinary = null;
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this.decoderPending = null;
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this.workerLimit = 4;
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this.workerPool = [];
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this.workerNextTaskID = 1;
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this.workerSourceURL = '';
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this.defaultAttributeIDs = {
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position: 'POSITION',
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normal: 'NORMAL',
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color: 'COLOR',
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uv: 'TEX_COORD'
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};
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this.defaultAttributeTypes = {
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position: 'Float32Array',
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normal: 'Float32Array',
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color: 'Float32Array',
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uv: 'Float32Array'
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};
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}
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setDecoderPath( path ) {
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this.decoderPath = path;
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return this;
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}
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setDecoderConfig( config ) {
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this.decoderConfig = config;
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return this;
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}
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setWorkerLimit( workerLimit ) {
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this.workerLimit = workerLimit;
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return this;
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}
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load( url, onLoad, onProgress, onError ) {
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const loader = new FileLoader( this.manager );
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loader.setPath( this.path );
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loader.setResponseType( 'arraybuffer' );
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loader.setRequestHeader( this.requestHeader );
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loader.setWithCredentials( this.withCredentials );
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loader.load( url, ( buffer ) => {
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this.parse( buffer, onLoad, onError );
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}, onProgress, onError );
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}
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parse( buffer, onLoad, onError = ()=>{} ) {
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this.decodeDracoFile( buffer, onLoad, null, null, SRGBColorSpace ).catch( onError );
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}
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decodeDracoFile( buffer, callback, attributeIDs, attributeTypes, vertexColorSpace = LinearSRGBColorSpace, onError = () => {} ) {
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const taskConfig = {
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attributeIDs: attributeIDs || this.defaultAttributeIDs,
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attributeTypes: attributeTypes || this.defaultAttributeTypes,
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useUniqueIDs: !! attributeIDs,
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vertexColorSpace: vertexColorSpace,
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};
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return this.decodeGeometry( buffer, taskConfig ).then( callback ).catch( onError );
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}
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decodeGeometry( buffer, taskConfig ) {
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const taskKey = JSON.stringify( taskConfig );
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// Check for an existing task using this buffer. A transferred buffer cannot be transferred
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// again from this thread.
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if ( _taskCache.has( buffer ) ) {
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const cachedTask = _taskCache.get( buffer );
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if ( cachedTask.key === taskKey ) {
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return cachedTask.promise;
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} else if ( buffer.byteLength === 0 ) {
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// Technically, it would be possible to wait for the previous task to complete,
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// transfer the buffer back, and decode again with the second configuration. That
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// is complex, and I don't know of any reason to decode a Draco buffer twice in
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// different ways, so this is left unimplemented.
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throw new Error(
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'THREE.DRACOLoader: Unable to re-decode a buffer with different ' +
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'settings. Buffer has already been transferred.'
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);
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}
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}
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//
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let worker;
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const taskID = this.workerNextTaskID ++;
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const taskCost = buffer.byteLength;
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// Obtain a worker and assign a task, and construct a geometry instance
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// when the task completes.
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const geometryPending = this._getWorker( taskID, taskCost )
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.then( ( _worker ) => {
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worker = _worker;
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return new Promise( ( resolve, reject ) => {
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worker._callbacks[ taskID ] = { resolve, reject };
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worker.postMessage( { type: 'decode', id: taskID, taskConfig, buffer }, [ buffer ] );
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// this.debug();
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} );
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} )
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.then( ( message ) => this._createGeometry( message.geometry ) );
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// Remove task from the task list.
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// Note: replaced '.finally()' with '.catch().then()' block - iOS 11 support (#19416)
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geometryPending
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.catch( () => true )
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.then( () => {
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if ( worker && taskID ) {
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this._releaseTask( worker, taskID );
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// this.debug();
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}
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} );
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// Cache the task result.
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_taskCache.set( buffer, {
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key: taskKey,
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promise: geometryPending
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} );
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return geometryPending;
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}
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_createGeometry( geometryData ) {
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const geometry = new BufferGeometry();
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if ( geometryData.index ) {
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geometry.setIndex( new BufferAttribute( geometryData.index.array, 1 ) );
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}
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for ( let i = 0; i < geometryData.attributes.length; i ++ ) {
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const result = geometryData.attributes[ i ];
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const name = result.name;
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const array = result.array;
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const itemSize = result.itemSize;
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const attribute = new BufferAttribute( array, itemSize );
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if ( name === 'color' ) {
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this._assignVertexColorSpace( attribute, result.vertexColorSpace );
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attribute.normalized = ( array instanceof Float32Array ) === false;
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}
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geometry.setAttribute( name, attribute );
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}
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return geometry;
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}
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_assignVertexColorSpace( attribute, inputColorSpace ) {
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// While .drc files do not specify colorspace, the only 'official' tooling
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// is PLY and OBJ converters, which use sRGB. We'll assume sRGB when a .drc
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// file is passed into .load() or .parse(). GLTFLoader uses internal APIs
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// to decode geometry, and vertex colors are already Linear-sRGB in there.
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if ( inputColorSpace !== SRGBColorSpace ) return;
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const _color = new Color();
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for ( let i = 0, il = attribute.count; i < il; i ++ ) {
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_color.fromBufferAttribute( attribute, i ).convertSRGBToLinear();
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attribute.setXYZ( i, _color.r, _color.g, _color.b );
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}
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}
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_loadLibrary( url, responseType ) {
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const loader = new FileLoader( this.manager );
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loader.setPath( this.decoderPath );
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loader.setResponseType( responseType );
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loader.setWithCredentials( this.withCredentials );
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return new Promise( ( resolve, reject ) => {
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loader.load( url, resolve, undefined, reject );
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} );
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}
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preload() {
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this._initDecoder();
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return this;
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}
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_initDecoder() {
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if ( this.decoderPending ) return this.decoderPending;
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const useJS = typeof WebAssembly !== 'object' || this.decoderConfig.type === 'js';
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const librariesPending = [];
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if ( useJS ) {
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librariesPending.push( this._loadLibrary( 'draco_decoder.js', 'text' ) );
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} else {
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librariesPending.push( this._loadLibrary( 'draco_wasm_wrapper.js', 'text' ) );
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librariesPending.push( this._loadLibrary( 'draco_decoder.wasm', 'arraybuffer' ) );
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}
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this.decoderPending = Promise.all( librariesPending )
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.then( ( libraries ) => {
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const jsContent = libraries[ 0 ];
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if ( ! useJS ) {
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this.decoderConfig.wasmBinary = libraries[ 1 ];
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}
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const fn = DRACOWorker.toString();
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const body = [
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'/* draco decoder */',
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jsContent,
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'',
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'/* worker */',
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fn.substring( fn.indexOf( '{' ) + 1, fn.lastIndexOf( '}' ) )
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].join( '\n' );
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this.workerSourceURL = URL.createObjectURL( new Blob( [ body ] ) );
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} );
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return this.decoderPending;
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}
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_getWorker( taskID, taskCost ) {
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return this._initDecoder().then( () => {
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if ( this.workerPool.length < this.workerLimit ) {
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const worker = new Worker( this.workerSourceURL );
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worker._callbacks = {};
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worker._taskCosts = {};
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worker._taskLoad = 0;
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worker.postMessage( { type: 'init', decoderConfig: this.decoderConfig } );
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worker.onmessage = function ( e ) {
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const message = e.data;
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switch ( message.type ) {
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case 'decode':
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worker._callbacks[ message.id ].resolve( message );
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break;
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case 'error':
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worker._callbacks[ message.id ].reject( message );
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break;
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default:
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console.error( 'THREE.DRACOLoader: Unexpected message, "' + message.type + '"' );
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}
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};
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this.workerPool.push( worker );
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} else {
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this.workerPool.sort( function ( a, b ) {
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return a._taskLoad > b._taskLoad ? - 1 : 1;
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} );
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}
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const worker = this.workerPool[ this.workerPool.length - 1 ];
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worker._taskCosts[ taskID ] = taskCost;
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worker._taskLoad += taskCost;
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return worker;
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} );
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}
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_releaseTask( worker, taskID ) {
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worker._taskLoad -= worker._taskCosts[ taskID ];
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delete worker._callbacks[ taskID ];
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delete worker._taskCosts[ taskID ];
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}
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debug() {
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console.log( 'Task load: ', this.workerPool.map( ( worker ) => worker._taskLoad ) );
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}
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dispose() {
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for ( let i = 0; i < this.workerPool.length; ++ i ) {
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this.workerPool[ i ].terminate();
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}
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this.workerPool.length = 0;
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if ( this.workerSourceURL !== '' ) {
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URL.revokeObjectURL( this.workerSourceURL );
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}
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return this;
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}
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}
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/* WEB WORKER */
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function DRACOWorker() {
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let decoderConfig;
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let decoderPending;
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onmessage = function ( e ) {
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const message = e.data;
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switch ( message.type ) {
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case 'init':
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decoderConfig = message.decoderConfig;
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decoderPending = new Promise( function ( resolve/*, reject*/ ) {
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decoderConfig.onModuleLoaded = function ( draco ) {
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// Module is Promise-like. Wrap before resolving to avoid loop.
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resolve( { draco: draco } );
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};
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DracoDecoderModule( decoderConfig ); // eslint-disable-line no-undef
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} );
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break;
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case 'decode':
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const buffer = message.buffer;
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const taskConfig = message.taskConfig;
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decoderPending.then( ( module ) => {
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const draco = module.draco;
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const decoder = new draco.Decoder();
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try {
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const geometry = decodeGeometry( draco, decoder, new Int8Array( buffer ), taskConfig );
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const buffers = geometry.attributes.map( ( attr ) => attr.array.buffer );
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if ( geometry.index ) buffers.push( geometry.index.array.buffer );
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self.postMessage( { type: 'decode', id: message.id, geometry }, buffers );
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} catch ( error ) {
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console.error( error );
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self.postMessage( { type: 'error', id: message.id, error: error.message } );
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} finally {
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draco.destroy( decoder );
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}
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} );
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break;
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}
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};
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function decodeGeometry( draco, decoder, array, taskConfig ) {
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const attributeIDs = taskConfig.attributeIDs;
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const attributeTypes = taskConfig.attributeTypes;
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let dracoGeometry;
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let decodingStatus;
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const geometryType = decoder.GetEncodedGeometryType( array );
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if ( geometryType === draco.TRIANGULAR_MESH ) {
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dracoGeometry = new draco.Mesh();
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decodingStatus = decoder.DecodeArrayToMesh( array, array.byteLength, dracoGeometry );
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} else if ( geometryType === draco.POINT_CLOUD ) {
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dracoGeometry = new draco.PointCloud();
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decodingStatus = decoder.DecodeArrayToPointCloud( array, array.byteLength, dracoGeometry );
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} else {
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throw new Error( 'THREE.DRACOLoader: Unexpected geometry type.' );
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}
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if ( ! decodingStatus.ok() || dracoGeometry.ptr === 0 ) {
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throw new Error( 'THREE.DRACOLoader: Decoding failed: ' + decodingStatus.error_msg() );
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}
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const geometry = { index: null, attributes: [] };
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// Gather all vertex attributes.
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for ( const attributeName in attributeIDs ) {
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const attributeType = self[ attributeTypes[ attributeName ] ];
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let attribute;
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let attributeID;
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// A Draco file may be created with default vertex attributes, whose attribute IDs
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// are mapped 1:1 from their semantic name (POSITION, NORMAL, ...). Alternatively,
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// a Draco file may contain a custom set of attributes, identified by known unique
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// IDs. glTF files always do the latter, and `.drc` files typically do the former.
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if ( taskConfig.useUniqueIDs ) {
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attributeID = attributeIDs[ attributeName ];
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attribute = decoder.GetAttributeByUniqueId( dracoGeometry, attributeID );
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} else {
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attributeID = decoder.GetAttributeId( dracoGeometry, draco[ attributeIDs[ attributeName ] ] );
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if ( attributeID === - 1 ) continue;
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attribute = decoder.GetAttribute( dracoGeometry, attributeID );
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}
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const attributeResult = decodeAttribute( draco, decoder, dracoGeometry, attributeName, attributeType, attribute );
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if ( attributeName === 'color' ) {
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attributeResult.vertexColorSpace = taskConfig.vertexColorSpace;
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}
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geometry.attributes.push( attributeResult );
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}
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// Add index.
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if ( geometryType === draco.TRIANGULAR_MESH ) {
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geometry.index = decodeIndex( draco, decoder, dracoGeometry );
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}
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draco.destroy( dracoGeometry );
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return geometry;
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}
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function decodeIndex( draco, decoder, dracoGeometry ) {
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const numFaces = dracoGeometry.num_faces();
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const numIndices = numFaces * 3;
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const byteLength = numIndices * 4;
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const ptr = draco._malloc( byteLength );
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decoder.GetTrianglesUInt32Array( dracoGeometry, byteLength, ptr );
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const index = new Uint32Array( draco.HEAPF32.buffer, ptr, numIndices ).slice();
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draco._free( ptr );
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return { array: index, itemSize: 1 };
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}
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function decodeAttribute( draco, decoder, dracoGeometry, attributeName, attributeType, attribute ) {
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const numComponents = attribute.num_components();
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const numPoints = dracoGeometry.num_points();
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const numValues = numPoints * numComponents;
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const byteLength = numValues * attributeType.BYTES_PER_ELEMENT;
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const dataType = getDracoDataType( draco, attributeType );
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const ptr = draco._malloc( byteLength );
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decoder.GetAttributeDataArrayForAllPoints( dracoGeometry, attribute, dataType, byteLength, ptr );
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const array = new attributeType( draco.HEAPF32.buffer, ptr, numValues ).slice();
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draco._free( ptr );
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return {
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name: attributeName,
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array: array,
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itemSize: numComponents
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};
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}
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function getDracoDataType( draco, attributeType ) {
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switch ( attributeType ) {
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case Float32Array: return draco.DT_FLOAT32;
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case Int8Array: return draco.DT_INT8;
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case Int16Array: return draco.DT_INT16;
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case Int32Array: return draco.DT_INT32;
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case Uint8Array: return draco.DT_UINT8;
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case Uint16Array: return draco.DT_UINT16;
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case Uint32Array: return draco.DT_UINT32;
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}
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}
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}
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export { DRACOLoader };
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