/** * @author Kai Salmen / https://kaisalmen.de * Development repository: https://github.com/kaisalmen/WWOBJLoader */ 'use strict'; if ( THREE.OBJLoader2 === undefined ) { THREE.OBJLoader2 = {} } if ( THREE.LoaderSupport === undefined ) console.error( '"THREE.LoaderSupport" is not available. "THREE.OBJLoader2" requires it. Please include "LoaderSupport.js" in your HTML.' ); /** * Use this class to load OBJ data from files or to parse OBJ data from an arraybuffer * @class * * @param {THREE.DefaultLoadingManager} [manager] The loadingManager for the loader to use. Default is {@link THREE.DefaultLoadingManager} * @param {THREE.LoaderSupport.ConsoleLogger} logger logger to be used */ THREE.OBJLoader2 = (function () { var OBJLOADER2_VERSION = '2.3.1'; var Validator = THREE.LoaderSupport.Validator; OBJLoader2.prototype = Object.create( THREE.LoaderSupport.LoaderBase.prototype ); OBJLoader2.prototype.constructor = OBJLoader2; function OBJLoader2( manager, logger ) { THREE.LoaderSupport.LoaderBase.call( this, manager, logger ); this.logger.logInfo( 'Using THREE.OBJLoader2 version: ' + OBJLOADER2_VERSION ); this.materialPerSmoothingGroup = false; this.workerSupport = null; this.terminateWorkerOnLoad = true; } /** * Tells whether a material shall be created per smoothing group. * @memberOf THREE.OBJLoader2 * * @param {boolean} materialPerSmoothingGroup=false */ OBJLoader2.prototype.setMaterialPerSmoothingGroup = function ( materialPerSmoothingGroup ) { this.materialPerSmoothingGroup = materialPerSmoothingGroup === true; }; /** * Run the loader according the provided instructions. * @memberOf THREE.OBJLoader2 * * @param {THREE.LoaderSupport.PrepData} prepData All parameters and resources required for execution * @param {THREE.LoaderSupport.WorkerSupport} [workerSupportExternal] Use pre-existing WorkerSupport */ OBJLoader2.prototype.run = function ( prepData, workerSupportExternal ) { this._applyPrepData( prepData ); var available = this.checkResourceDescriptorFiles( prepData.resources, [ { ext: "obj", type: "Uint8Array", ignore: false }, { ext: "mtl", type: "String", ignore: false }, { ext: "zip", type: "String", ignore: true } ] ); if ( Validator.isValid( workerSupportExternal ) ) { this.terminateWorkerOnLoad = false; this.workerSupport = workerSupportExternal; this.logger = workerSupportExternal.logger; } var scope = this; var onMaterialsLoaded = function ( materials ) { scope.builder.setMaterials( materials ); if ( Validator.isValid( available.obj.content ) ) { if ( prepData.useAsync ) { scope.parseAsync( available.obj.content, scope.callbacks.onLoad ); } else { scope.parse( available.obj.content ); } } else { scope.setPath( available.obj.path ); scope.load( available.obj.name, scope.callbacks.onLoad, null, null, scope.callbacks.onMeshAlter, prepData.useAsync ); } }; this._loadMtl( available.mtl, onMaterialsLoaded, prepData.crossOrigin ); }; OBJLoader2.prototype._applyPrepData = function ( prepData ) { THREE.LoaderSupport.LoaderBase.prototype._applyPrepData.call( this, prepData ); if ( Validator.isValid( prepData ) ) { this.setMaterialPerSmoothingGroup( prepData.materialPerSmoothingGroup ); } }; /** * Parses OBJ data synchronously from arraybuffer or string. * @memberOf THREE.OBJLoader2 * * @param {arraybuffer|string} content OBJ data as Uint8Array or String */ OBJLoader2.prototype.parse = function ( content ) { this.logger.logTimeStart( 'OBJLoader2 parse: ' + this.modelName ); var parser = new Parser(); parser.setLogConfig( this.logger.enabled, this.logger.debug ); parser.setMaterialPerSmoothingGroup( this.materialPerSmoothingGroup ); parser.setUseIndices( this.useIndices ); parser.setDisregardNormals( this.disregardNormals ); // sync code works directly on the material references parser.setMaterials( this.builder.getMaterials() ); var scope = this; var onMeshLoaded = function ( payload ) { var meshes = scope.builder.processPayload( payload ); var mesh; for ( var i in meshes ) { mesh = meshes[ i ]; scope.loaderRootNode.add( mesh ); } }; parser.setCallbackBuilder( onMeshLoaded ); var onProgressScoped = function ( text, numericalValue ) { scope.onProgress( 'progressParse', text, numericalValue ); }; parser.setCallbackProgress( onProgressScoped ); if ( content instanceof ArrayBuffer || content instanceof Uint8Array ) { this.logger.logInfo( 'Parsing arrayBuffer...' ); parser.parse( content ); } else if ( typeof( content ) === 'string' || content instanceof String ) { this.logger.logInfo( 'Parsing text...' ); parser.parseText( content ); } else { throw 'Provided content was neither of type String nor Uint8Array! Aborting...'; } this.logger.logTimeEnd( 'OBJLoader2 parse: ' + this.modelName ); return this.loaderRootNode; }; /** * Parses OBJ content asynchronously from arraybuffer. * @memberOf THREE.OBJLoader2 * * @param {arraybuffer} content OBJ data as Uint8Array * @param {callback} onLoad Called after worker successfully completed loading */ OBJLoader2.prototype.parseAsync = function ( content, onLoad ) { this.logger.logTimeStart( 'OBJLoader2 parseAsync: ' + this.modelName ); var scope = this; var scopedOnLoad = function () { onLoad( { detail: { loaderRootNode: scope.loaderRootNode, modelName: scope.modelName, instanceNo: scope.instanceNo } } ); scope.logger.logTimeEnd( 'OBJLoader2 parseAsync: ' + scope.modelName ); }; var scopedOnMeshLoaded = function ( payload ) { var meshes = scope.builder.processPayload( payload ); var mesh; for ( var i in meshes ) { mesh = meshes[ i ]; scope.loaderRootNode.add( mesh ); } }; this.workerSupport = Validator.verifyInput( this.workerSupport, new THREE.LoaderSupport.WorkerSupport( this.logger ) ); var buildCode = function ( funcBuildObject, funcBuildSingleton ) { var workerCode = ''; workerCode += '/**\n'; workerCode += ' * This code was constructed by OBJLoader2 buildCode.\n'; workerCode += ' */\n\n'; workerCode += 'THREE = { LoaderSupport: {} };\n\n'; workerCode += funcBuildObject( 'THREE.LoaderSupport.Validator', Validator ); workerCode += funcBuildSingleton( 'THREE.LoaderSupport.ConsoleLogger', THREE.LoaderSupport.ConsoleLogger ); workerCode += funcBuildSingleton( 'THREE.LoaderSupport.LoaderBase', THREE.LoaderSupport.LoaderBase ); workerCode += funcBuildSingleton( 'Parser', Parser ); return workerCode; }; this.workerSupport.validate( buildCode, 'Parser' ); this.workerSupport.setCallbacks( scopedOnMeshLoaded, scopedOnLoad ); if ( scope.terminateWorkerOnLoad ) this.workerSupport.setTerminateRequested( true ); var materialNames = {}; var materials = this.builder.getMaterials(); for ( var materialName in materials ) { materialNames[ materialName ] = materialName; } this.workerSupport.run( { params: { useAsync: true, materialPerSmoothingGroup: this.materialPerSmoothingGroup, useIndices: this.useIndices, disregardNormals: this.disregardNormals }, logger: { debug: this.logger.debug, enabled: this.logger.enabled }, materials: { // in async case only material names are supplied to parser materials: materialNames }, data: { input: content, options: null } } ); }; /** * Parse OBJ data either from ArrayBuffer or string * @class */ var Parser = (function () { function Parser() { this.callbackProgress = null; this.callbackBuilder = null; this.materials = {}; this.useAsync = false; this.materialPerSmoothingGroup = false; this.useIndices = false; this.disregardNormals = false; this.vertices = []; this.colors = []; this.normals = []; this.uvs = []; this.rawMesh = { objectName: '', groupName: '', activeMtlName: '', mtllibName: '', // reset with new mesh faceType: -1, subGroups: [], subGroupInUse: null, smoothingGroup: { splitMaterials: false, normalized: -1, real: -1 }, counts: { doubleIndicesCount: 0, faceCount: 0, mtlCount: 0, smoothingGroupCount: 0 } }; this.inputObjectCount = 1; this.outputObjectCount = 1; this.globalCounts = { vertices: 0, faces: 0, doubleIndicesCount: 0, currentByte: 0, totalBytes: 0 }; this.logger = new THREE.LoaderSupport.ConsoleLogger(); } Parser.prototype.resetRawMesh = function () { // faces are stored according combined index of group, material and smoothingGroup (0 or not) this.rawMesh.subGroups = []; this.rawMesh.subGroupInUse = null; this.rawMesh.smoothingGroup.normalized = -1; this.rawMesh.smoothingGroup.real = -1; // this default index is required as it is possible to define faces without 'g' or 'usemtl' this.pushSmoothingGroup( 1 ); this.rawMesh.counts.doubleIndicesCount = 0; this.rawMesh.counts.faceCount = 0; this.rawMesh.counts.mtlCount = 0; this.rawMesh.counts.smoothingGroupCount = 0; }; Parser.prototype.setUseAsync = function ( useAsync ) { this.useAsync = useAsync; }; Parser.prototype.setMaterialPerSmoothingGroup = function ( materialPerSmoothingGroup ) { this.materialPerSmoothingGroup = materialPerSmoothingGroup; }; Parser.prototype.setUseIndices = function ( useIndices ) { this.useIndices = useIndices; }; Parser.prototype.setDisregardNormals = function ( disregardNormals ) { this.disregardNormals = disregardNormals; }; Parser.prototype.setMaterials = function ( materials ) { this.materials = THREE.LoaderSupport.Validator.verifyInput( materials, this.materials ); this.materials = THREE.LoaderSupport.Validator.verifyInput( this.materials, {} ); }; Parser.prototype.setCallbackBuilder = function ( callbackBuilder ) { if ( ! THREE.LoaderSupport.Validator.isValid( callbackBuilder ) ) throw 'Unable to run as no "builder" callback is set.'; this.callbackBuilder = callbackBuilder; }; Parser.prototype.setCallbackProgress = function ( callbackProgress ) { this.callbackProgress = callbackProgress; }; Parser.prototype.setLogConfig = function ( enabled, debug ) { this.logger.setEnabled( enabled ); this.logger.setDebug( debug ); }; Parser.prototype.configure = function () { this.pushSmoothingGroup( 1 ); if ( this.logger.isEnabled() ) { var matKeys = Object.keys( this.materials ); var matNames = ( matKeys.length > 0 ) ? '\n\tmaterialNames:\n\t\t- ' + matKeys.join( '\n\t\t- ' ) : '\n\tmaterialNames: None'; var printedConfig = 'OBJLoader2.Parser configuration:' + matNames + '\n\tuseAsync: ' + this.useAsync + '\n\tmaterialPerSmoothingGroup: ' + this.materialPerSmoothingGroup + '\n\tuseIndices: ' + this.useIndices + '\n\tdisregardNormals: ' + this.disregardNormals + '\n\tcallbackBuilderName: ' + this.callbackBuilder.name + '\n\tcallbackProgressName: ' + this.callbackProgress.name; this.logger.logInfo( printedConfig ); } }; /** * Parse the provided arraybuffer * @memberOf Parser * * @param {Uint8Array} arrayBuffer OBJ data as Uint8Array */ Parser.prototype.parse = function ( arrayBuffer ) { this.logger.logTimeStart( 'OBJLoader2.Parser.parse' ); this.configure(); var arrayBufferView = new Uint8Array( arrayBuffer ); var length = arrayBufferView.byteLength; this.globalCounts.totalBytes = length; var buffer = new Array( 128 ); var bufferPointer = 0; var slashSpacePattern = new Array( 16 ); var slashSpacePatternPointer = 0; var code; var word = ''; var i = 0; for ( ; i < length; i++ ) { code = arrayBufferView[ i ]; switch ( code ) { // space case 32: if ( word.length > 0 ) buffer[ bufferPointer++ ] = word; slashSpacePattern[ slashSpacePatternPointer++ ] = 0; word = ''; break; // slash case 47: if ( word.length > 0 ) buffer[ bufferPointer++ ] = word; slashSpacePattern[ slashSpacePatternPointer++ ] = 1; word = ''; break; // LF case 10: if ( word.length > 0 ) buffer[ bufferPointer++ ] = word; word = ''; this.globalCounts.currentByte = i; this.processLine( buffer, bufferPointer, slashSpacePattern, slashSpacePatternPointer ); bufferPointer = 0; slashSpacePatternPointer = 0; break; // CR case 13: break; default: word += String.fromCharCode( code ); break; } } this.finalizeParsing(); this.logger.logTimeEnd( 'OBJLoader2.Parser.parse' ); }; /** * Parse the provided text * @memberOf Parser * * @param {string} text OBJ data as string */ Parser.prototype.parseText = function ( text ) { this.logger.logTimeStart( 'OBJLoader2.Parser.parseText' ); this.configure(); var length = text.length; this.globalCounts.totalBytes = length; var buffer = new Array( 128 ); var bufferPointer = 0; var slashSpacePattern = new Array( 16 ); var slashSpacePatternPointer = 0; var char; var word = ''; var i = 0; for ( ; i < length; i++ ) { char = text[ i ]; switch ( char ) { case ' ': if ( word.length > 0 ) buffer[ bufferPointer++ ] = word; slashSpacePattern[ slashSpacePatternPointer++ ] = 0; word = ''; break; case '/': if ( word.length > 0 ) buffer[ bufferPointer++ ] = word; slashSpacePattern[ slashSpacePatternPointer++ ] = 1; word = ''; break; case '\n': if ( word.length > 0 ) buffer[ bufferPointer++ ] = word; word = ''; this.globalCounts.currentByte = i; this.processLine( buffer, bufferPointer, slashSpacePattern, slashSpacePatternPointer ); bufferPointer = 0; slashSpacePatternPointer = 0; break; case '\r': break; default: word += char; } } this.finalizeParsing(); this.logger.logTimeEnd( 'OBJLoader2.Parser.parseText' ); }; Parser.prototype.processLine = function ( buffer, bufferPointer, slashSpacePattern, slashSpacePatternPointer ) { if ( bufferPointer < 1 ) return; var countSlashes = function ( slashSpacePattern, slashSpacePatternPointer ) { var slashesCount = 0; for ( var i = 0; i < slashSpacePatternPointer; i++ ) { slashesCount += slashSpacePattern[ i ]; } return slashesCount; }; var concatStringBuffer = function ( buffer, bufferPointer, slashSpacePattern ) { var concatBuffer = ''; if ( bufferPointer === 2 ) { concatBuffer = buffer[ 1 ]; } else { var bufferLength = bufferPointer - 1; for ( var i = 1; i < bufferLength; i++ ) { concatBuffer += buffer[ i ] + ( slashSpacePattern[ i ] === 0 ? ' ' : '/' ); } concatBuffer += buffer[ bufferLength ]; } return concatBuffer; }; var flushStringBuffer = function ( buffer, bufferPointer ) { for ( var i = 0; i < bufferPointer; i++ ) { buffer[ i ] = ''; } }; switch ( buffer[ 0 ] ) { case 'v': this.vertices.push( parseFloat( buffer[ 1 ] ) ); this.vertices.push( parseFloat( buffer[ 2 ] ) ); this.vertices.push( parseFloat( buffer[ 3 ] ) ); if ( bufferPointer > 4 ) { this.colors.push( parseFloat( buffer[ 4 ] ) ); this.colors.push( parseFloat( buffer[ 5 ] ) ); this.colors.push( parseFloat( buffer[ 6 ] ) ); } break; case 'vt': this.uvs.push( parseFloat( buffer[ 1 ] ) ); this.uvs.push( parseFloat( buffer[ 2 ] ) ); break; case 'vn': this.normals.push( parseFloat( buffer[ 1 ] ) ); this.normals.push( parseFloat( buffer[ 2 ] ) ); this.normals.push( parseFloat( buffer[ 3 ] ) ); break; case 'f': var slashesCount = countSlashes( slashSpacePattern, slashSpacePatternPointer ); var bufferLength = bufferPointer - 1; // "f vertex ..." if ( slashesCount === 0 ) { this.checkFaceType( 0 ); // "f vertex/uv ..." } else if ( bufferLength === slashesCount * 2 ) { this.checkFaceType( 1 ); // "f vertex/uv/normal ..." } else if ( bufferLength * 2 === slashesCount * 3 ) { this.checkFaceType( 2 ); // "f vertex//normal ..." } else { this.checkFaceType( 3 ); } this.processFaces( buffer, bufferLength ); break; case 'l': this.checkFaceType( 4 ); this.processLinesOrPoints( buffer, bufferPointer, countSlashes( slashSpacePattern, slashSpacePatternPointer ) ); break; case 'p': this.checkFaceType( 5 ); this.processLinesOrPoints( buffer, bufferPointer, 0 ); break; case 's': this.pushSmoothingGroup( buffer[ 1 ] ); flushStringBuffer( buffer, bufferPointer ); break; case 'g': // 'g' leads to creation of mesh if valid data (faces declaration was done before), otherwise only groupName gets set this.processCompletedMesh(); this.rawMesh.groupName = THREE.LoaderSupport.Validator.verifyInput( concatStringBuffer( buffer, bufferPointer, slashSpacePattern ), '' ); flushStringBuffer( buffer, bufferPointer ); break; case 'o': // 'o' is pure meta-information and does not result in creation of new meshes this.rawMesh.objectName = THREE.LoaderSupport.Validator.verifyInput( concatStringBuffer( buffer, bufferPointer, slashSpacePattern ), '' ); flushStringBuffer( buffer, bufferPointer ); break; case 'mtllib': this.rawMesh.mtllibName = THREE.LoaderSupport.Validator.verifyInput( concatStringBuffer( buffer, bufferPointer, slashSpacePattern ), '' ); flushStringBuffer( buffer, bufferPointer ); break; case 'usemtl': var mtlName = concatStringBuffer( buffer, bufferPointer, slashSpacePattern ); if ( this.rawMesh.activeMtlName !== mtlName && THREE.LoaderSupport.Validator.isValid( mtlName ) ) { this.rawMesh.activeMtlName = mtlName; this.rawMesh.counts.mtlCount++; this.checkSubGroup(); } flushStringBuffer( buffer, bufferPointer ); break; default: break; } }; Parser.prototype.pushSmoothingGroup = function ( smoothingGroup ) { var smoothingGroupInt = parseInt( smoothingGroup ); if ( isNaN( smoothingGroupInt ) ) { smoothingGroupInt = smoothingGroup === "off" ? 0 : 1; } var smoothCheck = this.rawMesh.smoothingGroup.normalized; this.rawMesh.smoothingGroup.normalized = this.rawMesh.smoothingGroup.splitMaterials ? smoothingGroupInt : ( smoothingGroupInt === 0 ) ? 0 : 1; this.rawMesh.smoothingGroup.real = smoothingGroupInt; if ( smoothCheck !== smoothingGroupInt ) { this.rawMesh.counts.smoothingGroupCount++; this.checkSubGroup(); } }; /** * Expanded faceTypes include all four face types, both line types and the point type * faceType = 0: "f vertex ..." * faceType = 1: "f vertex/uv ..." * faceType = 2: "f vertex/uv/normal ..." * faceType = 3: "f vertex//normal ..." * faceType = 4: "l vertex/uv ..." or "l vertex ..." * faceType = 5: "p vertex ..." */ Parser.prototype.checkFaceType = function ( faceType ) { if ( this.rawMesh.faceType !== faceType ) { this.processCompletedMesh(); this.rawMesh.faceType = faceType; this.checkSubGroup(); } }; Parser.prototype.checkSubGroup = function () { var index = this.rawMesh.activeMtlName + '|' + this.rawMesh.smoothingGroup.normalized; this.rawMesh.subGroupInUse = this.rawMesh.subGroups[ index ]; if ( ! THREE.LoaderSupport.Validator.isValid( this.rawMesh.subGroupInUse ) ) { this.rawMesh.subGroupInUse = { index: index, objectName: this.rawMesh.objectName, groupName: this.rawMesh.groupName, materialName: this.rawMesh.activeMtlName, smoothingGroup: this.rawMesh.smoothingGroup.normalized, vertices: [], indexMappingsCount: 0, indexMappings: [], indices: [], colors: [], uvs: [], normals: [] }; this.rawMesh.subGroups[ index ] = this.rawMesh.subGroupInUse; } }; Parser.prototype.processFaces = function ( buffer, bufferLength ) { var i, length; // "f vertex ..." if ( this.rawMesh.faceType === 0 ) { for ( i = 2, length = bufferLength; i < length; i ++ ) { this.buildFace( buffer[ 1 ] ); this.buildFace( buffer[ i ] ); this.buildFace( buffer[ i + 1 ] ); } // "f vertex/uv ..." } else if ( this.rawMesh.faceType === 1 ) { for ( i = 3, length = bufferLength - 2; i < length; i += 2 ) { this.buildFace( buffer[ 1 ], buffer[ 2 ] ); this.buildFace( buffer[ i ], buffer[ i + 1 ] ); this.buildFace( buffer[ i + 2 ], buffer[ i + 3 ] ); } // "f vertex/uv/normal ..." } else if ( this.rawMesh.faceType === 2 ) { for ( i = 4, length = bufferLength - 3; i < length; i += 3 ) { this.buildFace( buffer[ 1 ], buffer[ 2 ], buffer[ 3 ] ); this.buildFace( buffer[ i ], buffer[ i + 1 ], buffer[ i + 2 ] ); this.buildFace( buffer[ i + 3 ], buffer[ i + 4 ], buffer[ i + 5 ] ); } // "f vertex//normal ..." } else { for ( i = 3, length = bufferLength - 2; i < length; i += 2 ) { this.buildFace( buffer[ 1 ], undefined, buffer[ 2 ] ); this.buildFace( buffer[ i ], undefined, buffer[ i + 1 ] ); this.buildFace( buffer[ i + 2 ], undefined, buffer[ i + 3 ] ); } } }; Parser.prototype.buildFace = function ( faceIndexV, faceIndexU, faceIndexN ) { if ( this.disregardNormals ) faceIndexN = undefined; var scope = this; var updateSubGroupInUse = function () { var faceIndexVi = parseInt( faceIndexV ); var indexPointerV = 3 * ( faceIndexVi > 0 ? faceIndexVi - 1 : faceIndexVi + scope.vertices.length / 3 ); var vertices = scope.rawMesh.subGroupInUse.vertices; vertices.push( scope.vertices[ indexPointerV++ ] ); vertices.push( scope.vertices[ indexPointerV++ ] ); vertices.push( scope.vertices[ indexPointerV ] ); var indexPointerC = scope.colors.length > 0 ? indexPointerV : null; if ( indexPointerC !== null ) { var colors = scope.rawMesh.subGroupInUse.colors; colors.push( scope.colors[ indexPointerC++ ] ); colors.push( scope.colors[ indexPointerC++ ] ); colors.push( scope.colors[ indexPointerC ] ); } if ( faceIndexU ) { var faceIndexUi = parseInt( faceIndexU ); var indexPointerU = 2 * ( faceIndexUi > 0 ? faceIndexUi - 1 : faceIndexUi + scope.uvs.length / 2 ); var uvs = scope.rawMesh.subGroupInUse.uvs; uvs.push( scope.uvs[ indexPointerU++ ] ); uvs.push( scope.uvs[ indexPointerU ] ); } if ( faceIndexN ) { var faceIndexNi = parseInt( faceIndexN ); var indexPointerN = 3 * ( faceIndexNi > 0 ? faceIndexNi - 1 : faceIndexNi + scope.normals.length / 3 ); var normals = scope.rawMesh.subGroupInUse.normals; normals.push( scope.normals[ indexPointerN++ ] ); normals.push( scope.normals[ indexPointerN++ ] ); normals.push( scope.normals[ indexPointerN ] ); } }; if ( this.useIndices ) { var mappingName = faceIndexV + ( faceIndexU ? '_' + faceIndexU : '_n' ) + ( faceIndexN ? '_' + faceIndexN : '_n' ); var indicesPointer = this.rawMesh.subGroupInUse.indexMappings[ mappingName ]; if ( THREE.LoaderSupport.Validator.isValid( indicesPointer ) ) { this.rawMesh.counts.doubleIndicesCount++; } else { indicesPointer = this.rawMesh.subGroupInUse.vertices.length / 3; updateSubGroupInUse(); this.rawMesh.subGroupInUse.indexMappings[ mappingName ] = indicesPointer; this.rawMesh.subGroupInUse.indexMappingsCount++; } this.rawMesh.subGroupInUse.indices.push( indicesPointer ); } else { updateSubGroupInUse(); } this.rawMesh.counts.faceCount++; }; /* * Support for lines with or without texture or Points (just Vertex). * First element in indexArray is the line/point identification * * : "l vertex/uv vertex/uv ..." * 1: "l vertex vertex ..." */ Parser.prototype.processLinesOrPoints = function ( buffer, bufferPointer, slashCount ) { var i = 1; var length; var bufferLength = bufferPointer - 1; if ( bufferLength === slashCount * 2 ) { for ( length = bufferPointer; i < length; i += 2 ) this.buildFace( buffer[ i ], buffer[ i + 1 ] ); } else { for ( length = bufferPointer; i < length; i ++ ) this.buildFace( buffer[ i ] ); } }; Parser.prototype.createRawMeshReport = function ( inputObjectCount ) { return 'Input Object number: ' + inputObjectCount + '\n\tObject name: ' + this.rawMesh.objectName + '\n\tGroup name: ' + this.rawMesh.groupName + '\n\tMtllib name: ' + this.rawMesh.mtllibName + '\n\tVertex count: ' + this.vertices.length / 3 + '\n\tNormal count: ' + this.normals.length / 3 + '\n\tUV count: ' + this.uvs.length / 2 + '\n\tSmoothingGroup count: ' + this.rawMesh.counts.smoothingGroupCount + '\n\tMaterial count: ' + this.rawMesh.counts.mtlCount + '\n\tReal MeshOutputGroup count: ' + this.rawMesh.subGroups.length; }; /** * Clear any empty subGroup and calculate absolute vertex, normal and uv counts */ Parser.prototype.finalizeRawMesh = function () { var meshOutputGroupTemp = []; var meshOutputGroup; var absoluteVertexCount = 0; var absoluteIndexMappingsCount = 0; var absoluteIndexCount = 0; var absoluteColorCount = 0; var absoluteNormalCount = 0; var absoluteUvCount = 0; var indices; for ( var name in this.rawMesh.subGroups ) { meshOutputGroup = this.rawMesh.subGroups[ name ]; if ( meshOutputGroup.vertices.length > 0 ) { indices = meshOutputGroup.indices; if ( indices.length > 0 && absoluteIndexMappingsCount > 0 ) { for ( var i in indices ) indices[ i ] = indices[ i ] + absoluteIndexMappingsCount; } meshOutputGroupTemp.push( meshOutputGroup ); absoluteVertexCount += meshOutputGroup.vertices.length; absoluteIndexMappingsCount += meshOutputGroup.indexMappingsCount; absoluteIndexCount += meshOutputGroup.indices.length; absoluteColorCount += meshOutputGroup.colors.length; absoluteUvCount += meshOutputGroup.uvs.length; absoluteNormalCount += meshOutputGroup.normals.length; } } // do not continue if no result var result = null; if ( meshOutputGroupTemp.length > 0 ) { result = { name: this.rawMesh.groupName !== '' ? this.rawMesh.groupName : this.rawMesh.objectName, subGroups: meshOutputGroupTemp, absoluteVertexCount: absoluteVertexCount, absoluteIndexCount: absoluteIndexCount, absoluteColorCount: absoluteColorCount, absoluteNormalCount: absoluteNormalCount, absoluteUvCount: absoluteUvCount, faceCount: this.rawMesh.counts.faceCount, doubleIndicesCount: this.rawMesh.counts.doubleIndicesCount }; } return result; }; Parser.prototype.processCompletedMesh = function () { var result = this.finalizeRawMesh(); if ( THREE.LoaderSupport.Validator.isValid( result ) ) { if ( this.colors.length > 0 && this.colors.length !== this.vertices.length ) { throw 'Vertex Colors were detected, but vertex count and color count do not match!'; } if ( this.logger.isDebug() ) this.logger.logDebug( this.createRawMeshReport( this.inputObjectCount ) ); this.inputObjectCount++; this.buildMesh( result ); var progressBytesPercent = this.globalCounts.currentByte / this.globalCounts.totalBytes; this.callbackProgress( 'Completed [o: ' + this.rawMesh.objectName + ' g:' + this.rawMesh.groupName + '] Total progress: ' + ( progressBytesPercent * 100 ).toFixed( 2 ) + '%', progressBytesPercent ); this.resetRawMesh(); return true; } else { return false; } }; /** * SubGroups are transformed to too intermediate format that is forwarded to the Builder. * It is ensured that SubGroups only contain objects with vertices (no need to check). * * @param result */ Parser.prototype.buildMesh = function ( result ) { var meshOutputGroups = result.subGroups; var vertexFA = new Float32Array( result.absoluteVertexCount ); this.globalCounts.vertices += result.absoluteVertexCount / 3; this.globalCounts.faces += result.faceCount; this.globalCounts.doubleIndicesCount += result.doubleIndicesCount; var indexUA = ( result.absoluteIndexCount > 0 ) ? new Uint32Array( result.absoluteIndexCount ) : null; var colorFA = ( result.absoluteColorCount > 0 ) ? new Float32Array( result.absoluteColorCount ) : null; var normalFA = ( result.absoluteNormalCount > 0 ) ? new Float32Array( result.absoluteNormalCount ) : null; var uvFA = ( result.absoluteUvCount > 0 ) ? new Float32Array( result.absoluteUvCount ) : null; var haveVertexColors = THREE.LoaderSupport.Validator.isValid( colorFA ); var meshOutputGroup; var materialNames = []; var createMultiMaterial = ( meshOutputGroups.length > 1 ); var materialIndex = 0; var materialIndexMapping = []; var selectedMaterialIndex; var materialGroup; var materialGroups = []; var vertexFAOffset = 0; var indexUAOffset = 0; var colorFAOffset = 0; var normalFAOffset = 0; var uvFAOffset = 0; var materialGroupOffset = 0; var materialGroupLength = 0; var materialOrg, material, materialName, materialNameOrg; // only one specific face type for ( var oodIndex in meshOutputGroups ) { if ( ! meshOutputGroups.hasOwnProperty( oodIndex ) ) continue; meshOutputGroup = meshOutputGroups[ oodIndex ]; materialNameOrg = meshOutputGroup.materialName; if ( this.rawMesh.faceType < 4 ) { materialName = materialNameOrg + ( haveVertexColors ? '_vertexColor' : '' ) + ( meshOutputGroup.smoothingGroup === 0 ? '_flat' : '' ); } else { materialName = this.rawMesh.faceType === 4 ? 'defaultLineMaterial' : 'defaultPointMaterial'; } materialOrg = this.materials[ materialNameOrg ]; material = this.materials[ materialName ]; // both original and derived names do not lead to an existing material => need to use a default material if ( ! THREE.LoaderSupport.Validator.isValid( materialOrg ) && ! THREE.LoaderSupport.Validator.isValid( material ) ) { var defaultMaterialName = haveVertexColors ? 'defaultVertexColorMaterial' : 'defaultMaterial'; materialOrg = this.materials[ defaultMaterialName ]; this.logger.logWarn( 'object_group "' + meshOutputGroup.objectName + '_' + meshOutputGroup.groupName + '" was defined with unresolvable material "' + materialNameOrg + '"! Assigning "' + defaultMaterialName + '".' ); materialNameOrg = defaultMaterialName; // if names are identical then there is no need for later manipulation if ( materialNameOrg === materialName ) { material = materialOrg; materialName = defaultMaterialName; } } if ( ! THREE.LoaderSupport.Validator.isValid( material ) ) { var materialCloneInstructions = { materialNameOrg: materialNameOrg, materialName: materialName, materialProperties: { vertexColors: haveVertexColors ? 2 : 0, flatShading: meshOutputGroup.smoothingGroup === 0 } }; var payload = { cmd: 'materialData', materials: { materialCloneInstructions: materialCloneInstructions } }; this.callbackBuilder( payload ); // fake entry for async; sync Parser always works on material references (Builder update directly visible here) if ( this.useAsync ) this.materials[ materialName ] = materialCloneInstructions; } if ( createMultiMaterial ) { // re-use material if already used before. Reduces materials array size and eliminates duplicates selectedMaterialIndex = materialIndexMapping[ materialName ]; if ( ! selectedMaterialIndex ) { selectedMaterialIndex = materialIndex; materialIndexMapping[ materialName ] = materialIndex; materialNames.push( materialName ); materialIndex++; } materialGroupLength = this.useIndices ? meshOutputGroup.indices.length : meshOutputGroup.vertices.length / 3; materialGroup = { start: materialGroupOffset, count: materialGroupLength, index: selectedMaterialIndex }; materialGroups.push( materialGroup ); materialGroupOffset += materialGroupLength; } else { materialNames.push( materialName ); } vertexFA.set( meshOutputGroup.vertices, vertexFAOffset ); vertexFAOffset += meshOutputGroup.vertices.length; if ( indexUA ) { indexUA.set( meshOutputGroup.indices, indexUAOffset ); indexUAOffset += meshOutputGroup.indices.length; } if ( colorFA ) { colorFA.set( meshOutputGroup.colors, colorFAOffset ); colorFAOffset += meshOutputGroup.colors.length; } if ( normalFA ) { normalFA.set( meshOutputGroup.normals, normalFAOffset ); normalFAOffset += meshOutputGroup.normals.length; } if ( uvFA ) { uvFA.set( meshOutputGroup.uvs, uvFAOffset ); uvFAOffset += meshOutputGroup.uvs.length; } if ( this.logger.isDebug() ) { var materialIndexLine = THREE.LoaderSupport.Validator.isValid( selectedMaterialIndex ) ? '\n\t\tmaterialIndex: ' + selectedMaterialIndex : ''; var createdReport = '\tOutput Object no.: ' + this.outputObjectCount + '\n\t\tgroupName: ' + meshOutputGroup.groupName + '\n\t\tIndex: ' + meshOutputGroup.index + '\n\t\tfaceType: ' + this.rawMesh.faceType + '\n\t\tmaterialName: ' + meshOutputGroup.materialName + '\n\t\tsmoothingGroup: ' + meshOutputGroup.smoothingGroup + materialIndexLine + '\n\t\tobjectName: ' + meshOutputGroup.objectName + '\n\t\t#vertices: ' + meshOutputGroup.vertices.length / 3 + '\n\t\t#indices: ' + meshOutputGroup.indices.length + '\n\t\t#colors: ' + meshOutputGroup.colors.length / 3 + '\n\t\t#uvs: ' + meshOutputGroup.uvs.length / 2 + '\n\t\t#normals: ' + meshOutputGroup.normals.length / 3; this.logger.logDebug( createdReport ); } } this.outputObjectCount++; this.callbackBuilder( { cmd: 'meshData', progress: { numericalValue: this.globalCounts.currentByte / this.globalCounts.totalBytes }, params: { meshName: result.name }, materials: { multiMaterial: createMultiMaterial, materialNames: materialNames, materialGroups: materialGroups }, buffers: { vertices: vertexFA, indices: indexUA, colors: colorFA, normals: normalFA, uvs: uvFA }, // 0: mesh, 1: line, 2: point geometryType: this.rawMesh.faceType < 4 ? 0 : ( this.rawMesh.faceType === 4 ) ? 1 : 2 }, [ vertexFA.buffer ], THREE.LoaderSupport.Validator.isValid( indexUA ) ? [ indexUA.buffer ] : null, THREE.LoaderSupport.Validator.isValid( colorFA ) ? [ colorFA.buffer ] : null, THREE.LoaderSupport.Validator.isValid( normalFA ) ? [ normalFA.buffer ] : null, THREE.LoaderSupport.Validator.isValid( uvFA ) ? [ uvFA.buffer ] : null ); }; Parser.prototype.finalizeParsing = function () { this.logger.logInfo( 'Global output object count: ' + this.outputObjectCount ); if ( this.processCompletedMesh() && this.logger.isEnabled() ) { var parserFinalReport = 'Overall counts: ' + '\n\tVertices: ' + this.globalCounts.vertices + '\n\tFaces: ' + this.globalCounts.faces + '\n\tMultiple definitions: ' + this.globalCounts.doubleIndicesCount; this.logger.logInfo( parserFinalReport ); } }; return Parser; })(); /** * Utility method for loading an mtl file according resource description. Provide url or content. * @memberOf THREE.OBJLoader2 * * @param {string} url URL to the file * @param {Object} content The file content as arraybuffer or text * @param {function} callbackOnLoad Callback to be called after successful load * @param {string} [crossOrigin] CORS value * @param {Object} [materialOptions] Set material loading options for MTLLoader */ OBJLoader2.prototype.loadMtl = function ( url, content, callbackOnLoad, crossOrigin, materialOptions ) { var resource = new THREE.LoaderSupport.ResourceDescriptor( url, 'MTL' ); resource.setContent( content ); this._loadMtl( resource, callbackOnLoad, crossOrigin, materialOptions ); }; OBJLoader2.prototype._loadMtl = function ( resource, callbackOnLoad, crossOrigin, materialOptions ) { if ( THREE.MTLLoader === undefined ) console.error( '"THREE.MTLLoader" is not available. "THREE.OBJLoader2" requires it for loading MTL files.' ); if ( Validator.isValid( resource ) ) this.logger.logTimeStart( 'Loading MTL: ' + resource.name ); var materials = []; var scope = this; var processMaterials = function ( materialCreator ) { var materialCreatorMaterials = []; if ( Validator.isValid( materialCreator ) ) { materialCreator.preload(); materialCreatorMaterials = materialCreator.materials; for ( var materialName in materialCreatorMaterials ) { if ( materialCreatorMaterials.hasOwnProperty( materialName ) ) { materials[ materialName ] = materialCreatorMaterials[ materialName ]; } } } if ( Validator.isValid( resource ) ) scope.logger.logTimeEnd( 'Loading MTL: ' + resource.name ); callbackOnLoad( materials, materialCreator ); }; var mtlLoader = new THREE.MTLLoader( this.manager ); crossOrigin = Validator.verifyInput( crossOrigin, 'anonymous' ); mtlLoader.setCrossOrigin( crossOrigin ); if ( Validator.isValid( materialOptions ) ) mtlLoader.setMaterialOptions( materialOptions ); // fast-fail if ( ! Validator.isValid( resource ) || ( ! Validator.isValid( resource.content ) && ! Validator.isValid( resource.url ) ) ) { processMaterials(); } else { mtlLoader.setPath( resource.path ); if ( Validator.isValid( resource.content ) ) { processMaterials( Validator.isValid( resource.content ) ? mtlLoader.parse( resource.content ) : null ); } else if ( Validator.isValid( resource.url ) ) { var onError = function ( event ) { var output = 'Error occurred while downloading "' + resource.url + '"'; scope.logger.logError( output, event instanceof ProgressEvent ? [ 'Status: ' + event.currentTarget.statusText ] : null ); throw output; }; mtlLoader.load( resource.name, processMaterials, undefined, onError ); } } }; return OBJLoader2; })();