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- import {
- AmbientLight,
- AnimationClip,
- Bone,
- BufferGeometry,
- ClampToEdgeWrapping,
- Color,
- DirectionalLight,
- EquirectangularReflectionMapping,
- Euler,
- FileLoader,
- Float32BufferAttribute,
- Group,
- Line,
- LineBasicMaterial,
- Loader,
- LoaderUtils,
- MathUtils,
- Matrix3,
- Matrix4,
- Mesh,
- MeshLambertMaterial,
- MeshPhongMaterial,
- NumberKeyframeTrack,
- Object3D,
- OrthographicCamera,
- PerspectiveCamera,
- PointLight,
- PropertyBinding,
- Quaternion,
- QuaternionKeyframeTrack,
- RepeatWrapping,
- Skeleton,
- SkinnedMesh,
- SpotLight,
- Texture,
- TextureLoader,
- Uint16BufferAttribute,
- Vector3,
- Vector4,
- VectorKeyframeTrack,
- sRGBEncoding
- } from '../../../build/three.module.js';
- import * as fflate from '../libs/fflate.module.js';
- import { NURBSCurve } from '../curves/NURBSCurve.js';
- /**
- * Loader loads FBX file and generates Group representing FBX scene.
- * Requires FBX file to be >= 7.0 and in ASCII or >= 6400 in Binary format
- * Versions lower than this may load but will probably have errors
- *
- * Needs Support:
- * Morph normals / blend shape normals
- *
- * FBX format references:
- * https://wiki.blender.org/index.php/User:Mont29/Foundation/FBX_File_Structure
- * http://help.autodesk.com/view/FBX/2017/ENU/?guid=__cpp_ref_index_html (C++ SDK reference)
- *
- * Binary format specification:
- * https://code.blender.org/2013/08/fbx-binary-file-format-specification/
- */
- let fbxTree;
- let connections;
- let sceneGraph;
- class FBXLoader extends Loader {
- constructor( manager ) {
- super( manager );
- }
- load( url, onLoad, onProgress, onError ) {
- const scope = this;
- const path = ( scope.path === '' ) ? LoaderUtils.extractUrlBase( url ) : scope.path;
- const loader = new FileLoader( this.manager );
- loader.setPath( scope.path );
- loader.setResponseType( 'arraybuffer' );
- loader.setRequestHeader( scope.requestHeader );
- loader.setWithCredentials( scope.withCredentials );
- loader.load( url, function ( buffer ) {
- try {
- onLoad( scope.parse( buffer, path ) );
- } catch ( e ) {
- if ( onError ) {
- onError( e );
- } else {
- console.error( e );
- }
- scope.manager.itemError( url );
- }
- }, onProgress, onError );
- }
- parse( FBXBuffer, path ) {
- if ( isFbxFormatBinary( FBXBuffer ) ) {
- fbxTree = new BinaryParser().parse( FBXBuffer );
- } else {
- const FBXText = convertArrayBufferToString( FBXBuffer );
- if ( ! isFbxFormatASCII( FBXText ) ) {
- throw new Error( 'THREE.FBXLoader: Unknown format.' );
- }
- if ( getFbxVersion( FBXText ) < 7000 ) {
- throw new Error( 'THREE.FBXLoader: FBX version not supported, FileVersion: ' + getFbxVersion( FBXText ) );
- }
- fbxTree = new TextParser().parse( FBXText );
- }
- // console.log( fbxTree );
- const textureLoader = new TextureLoader( this.manager ).setPath( this.resourcePath || path ).setCrossOrigin( this.crossOrigin );
- return new FBXTreeParser( textureLoader, this.manager ).parse( fbxTree );
- }
- }
- // Parse the FBXTree object returned by the BinaryParser or TextParser and return a Group
- class FBXTreeParser {
- constructor( textureLoader, manager ) {
- this.textureLoader = textureLoader;
- this.manager = manager;
- }
- parse() {
- connections = this.parseConnections();
- const images = this.parseImages();
- const textures = this.parseTextures( images );
- const materials = this.parseMaterials( textures );
- const deformers = this.parseDeformers();
- const geometryMap = new GeometryParser().parse( deformers );
- this.parseScene( deformers, geometryMap, materials );
- return sceneGraph;
- }
- // Parses FBXTree.Connections which holds parent-child connections between objects (e.g. material -> texture, model->geometry )
- // and details the connection type
- parseConnections() {
- const connectionMap = new Map();
- if ( 'Connections' in fbxTree ) {
- const rawConnections = fbxTree.Connections.connections;
- rawConnections.forEach( function ( rawConnection ) {
- const fromID = rawConnection[ 0 ];
- const toID = rawConnection[ 1 ];
- const relationship = rawConnection[ 2 ];
- if ( ! connectionMap.has( fromID ) ) {
- connectionMap.set( fromID, {
- parents: [],
- children: []
- } );
- }
- const parentRelationship = { ID: toID, relationship: relationship };
- connectionMap.get( fromID ).parents.push( parentRelationship );
- if ( ! connectionMap.has( toID ) ) {
- connectionMap.set( toID, {
- parents: [],
- children: []
- } );
- }
- const childRelationship = { ID: fromID, relationship: relationship };
- connectionMap.get( toID ).children.push( childRelationship );
- } );
- }
- return connectionMap;
- }
- // Parse FBXTree.Objects.Video for embedded image data
- // These images are connected to textures in FBXTree.Objects.Textures
- // via FBXTree.Connections.
- parseImages() {
- const images = {};
- const blobs = {};
- if ( 'Video' in fbxTree.Objects ) {
- const videoNodes = fbxTree.Objects.Video;
- for ( const nodeID in videoNodes ) {
- const videoNode = videoNodes[ nodeID ];
- const id = parseInt( nodeID );
- images[ id ] = videoNode.RelativeFilename || videoNode.Filename;
- // raw image data is in videoNode.Content
- if ( 'Content' in videoNode ) {
- const arrayBufferContent = ( videoNode.Content instanceof ArrayBuffer ) && ( videoNode.Content.byteLength > 0 );
- const base64Content = ( typeof videoNode.Content === 'string' ) && ( videoNode.Content !== '' );
- if ( arrayBufferContent || base64Content ) {
- const image = this.parseImage( videoNodes[ nodeID ] );
- blobs[ videoNode.RelativeFilename || videoNode.Filename ] = image;
- }
- }
- }
- }
- for ( const id in images ) {
- const filename = images[ id ];
- if ( blobs[ filename ] !== undefined ) images[ id ] = blobs[ filename ];
- else images[ id ] = images[ id ].split( '\\' ).pop();
- }
- return images;
- }
- // Parse embedded image data in FBXTree.Video.Content
- parseImage( videoNode ) {
- const content = videoNode.Content;
- const fileName = videoNode.RelativeFilename || videoNode.Filename;
- const extension = fileName.slice( fileName.lastIndexOf( '.' ) + 1 ).toLowerCase();
- let type;
- switch ( extension ) {
- case 'bmp':
- type = 'image/bmp';
- break;
- case 'jpg':
- case 'jpeg':
- type = 'image/jpeg';
- break;
- case 'png':
- type = 'image/png';
- break;
- case 'tif':
- type = 'image/tiff';
- break;
- case 'tga':
- if ( this.manager.getHandler( '.tga' ) === null ) {
- console.warn( 'FBXLoader: TGA loader not found, skipping ', fileName );
- }
- type = 'image/tga';
- break;
- default:
- console.warn( 'FBXLoader: Image type "' + extension + '" is not supported.' );
- return;
- }
- if ( typeof content === 'string' ) { // ASCII format
- return 'data:' + type + ';base64,' + content;
- } else { // Binary Format
- const array = new Uint8Array( content );
- return window.URL.createObjectURL( new Blob( [ array ], { type: type } ) );
- }
- }
- // Parse nodes in FBXTree.Objects.Texture
- // These contain details such as UV scaling, cropping, rotation etc and are connected
- // to images in FBXTree.Objects.Video
- parseTextures( images ) {
- const textureMap = new Map();
- if ( 'Texture' in fbxTree.Objects ) {
- const textureNodes = fbxTree.Objects.Texture;
- for ( const nodeID in textureNodes ) {
- const texture = this.parseTexture( textureNodes[ nodeID ], images );
- textureMap.set( parseInt( nodeID ), texture );
- }
- }
- return textureMap;
- }
- // Parse individual node in FBXTree.Objects.Texture
- parseTexture( textureNode, images ) {
- const texture = this.loadTexture( textureNode, images );
- texture.ID = textureNode.id;
- texture.name = textureNode.attrName;
- const wrapModeU = textureNode.WrapModeU;
- const wrapModeV = textureNode.WrapModeV;
- const valueU = wrapModeU !== undefined ? wrapModeU.value : 0;
- const valueV = wrapModeV !== undefined ? wrapModeV.value : 0;
- // http://download.autodesk.com/us/fbx/SDKdocs/FBX_SDK_Help/files/fbxsdkref/class_k_fbx_texture.html#889640e63e2e681259ea81061b85143a
- // 0: repeat(default), 1: clamp
- texture.wrapS = valueU === 0 ? RepeatWrapping : ClampToEdgeWrapping;
- texture.wrapT = valueV === 0 ? RepeatWrapping : ClampToEdgeWrapping;
- if ( 'Scaling' in textureNode ) {
- const values = textureNode.Scaling.value;
- texture.repeat.x = values[ 0 ];
- texture.repeat.y = values[ 1 ];
- }
- return texture;
- }
- // load a texture specified as a blob or data URI, or via an external URL using TextureLoader
- loadTexture( textureNode, images ) {
- let fileName;
- const currentPath = this.textureLoader.path;
- const children = connections.get( textureNode.id ).children;
- if ( children !== undefined && children.length > 0 && images[ children[ 0 ].ID ] !== undefined ) {
- fileName = images[ children[ 0 ].ID ];
- if ( fileName.indexOf( 'blob:' ) === 0 || fileName.indexOf( 'data:' ) === 0 ) {
- this.textureLoader.setPath( undefined );
- }
- }
- let texture;
- const extension = textureNode.FileName.slice( - 3 ).toLowerCase();
- if ( extension === 'tga' ) {
- const loader = this.manager.getHandler( '.tga' );
- if ( loader === null ) {
- console.warn( 'FBXLoader: TGA loader not found, creating placeholder texture for', textureNode.RelativeFilename );
- texture = new Texture();
- } else {
- loader.setPath( this.textureLoader.path );
- texture = loader.load( fileName );
- }
- } else if ( extension === 'psd' ) {
- console.warn( 'FBXLoader: PSD textures are not supported, creating placeholder texture for', textureNode.RelativeFilename );
- texture = new Texture();
- } else {
- texture = this.textureLoader.load( fileName );
- }
- this.textureLoader.setPath( currentPath );
- return texture;
- }
- // Parse nodes in FBXTree.Objects.Material
- parseMaterials( textureMap ) {
- const materialMap = new Map();
- if ( 'Material' in fbxTree.Objects ) {
- const materialNodes = fbxTree.Objects.Material;
- for ( const nodeID in materialNodes ) {
- const material = this.parseMaterial( materialNodes[ nodeID ], textureMap );
- if ( material !== null ) materialMap.set( parseInt( nodeID ), material );
- }
- }
- return materialMap;
- }
- // Parse single node in FBXTree.Objects.Material
- // Materials are connected to texture maps in FBXTree.Objects.Textures
- // FBX format currently only supports Lambert and Phong shading models
- parseMaterial( materialNode, textureMap ) {
- const ID = materialNode.id;
- const name = materialNode.attrName;
- let type = materialNode.ShadingModel;
- // Case where FBX wraps shading model in property object.
- if ( typeof type === 'object' ) {
- type = type.value;
- }
- // Ignore unused materials which don't have any connections.
- if ( ! connections.has( ID ) ) return null;
- const parameters = this.parseParameters( materialNode, textureMap, ID );
- let material;
- switch ( type.toLowerCase() ) {
- case 'phong':
- material = new MeshPhongMaterial();
- break;
- case 'lambert':
- material = new MeshLambertMaterial();
- break;
- default:
- console.warn( 'THREE.FBXLoader: unknown material type "%s". Defaulting to MeshPhongMaterial.', type );
- material = new MeshPhongMaterial();
- break;
- }
- material.setValues( parameters );
- material.name = name;
- return material;
- }
- // Parse FBX material and return parameters suitable for a three.js material
- // Also parse the texture map and return any textures associated with the material
- parseParameters( materialNode, textureMap, ID ) {
- const parameters = {};
- if ( materialNode.BumpFactor ) {
- parameters.bumpScale = materialNode.BumpFactor.value;
- }
- if ( materialNode.Diffuse ) {
- parameters.color = new Color().fromArray( materialNode.Diffuse.value );
- } else if ( materialNode.DiffuseColor && ( materialNode.DiffuseColor.type === 'Color' || materialNode.DiffuseColor.type === 'ColorRGB' ) ) {
- // The blender exporter exports diffuse here instead of in materialNode.Diffuse
- parameters.color = new Color().fromArray( materialNode.DiffuseColor.value );
- }
- if ( materialNode.DisplacementFactor ) {
- parameters.displacementScale = materialNode.DisplacementFactor.value;
- }
- if ( materialNode.Emissive ) {
- parameters.emissive = new Color().fromArray( materialNode.Emissive.value );
- } else if ( materialNode.EmissiveColor && ( materialNode.EmissiveColor.type === 'Color' || materialNode.EmissiveColor.type === 'ColorRGB' ) ) {
- // The blender exporter exports emissive color here instead of in materialNode.Emissive
- parameters.emissive = new Color().fromArray( materialNode.EmissiveColor.value );
- }
- if ( materialNode.EmissiveFactor ) {
- parameters.emissiveIntensity = parseFloat( materialNode.EmissiveFactor.value );
- }
- if ( materialNode.Opacity ) {
- parameters.opacity = parseFloat( materialNode.Opacity.value );
- }
- if ( parameters.opacity < 1.0 ) {
- parameters.transparent = true;
- }
- if ( materialNode.ReflectionFactor ) {
- parameters.reflectivity = materialNode.ReflectionFactor.value;
- }
- if ( materialNode.Shininess ) {
- parameters.shininess = materialNode.Shininess.value;
- }
- if ( materialNode.Specular ) {
- parameters.specular = new Color().fromArray( materialNode.Specular.value );
- } else if ( materialNode.SpecularColor && materialNode.SpecularColor.type === 'Color' ) {
- // The blender exporter exports specular color here instead of in materialNode.Specular
- parameters.specular = new Color().fromArray( materialNode.SpecularColor.value );
- }
- const scope = this;
- connections.get( ID ).children.forEach( function ( child ) {
- const type = child.relationship;
- switch ( type ) {
- case 'Bump':
- parameters.bumpMap = scope.getTexture( textureMap, child.ID );
- break;
- case 'Maya|TEX_ao_map':
- parameters.aoMap = scope.getTexture( textureMap, child.ID );
- break;
- case 'DiffuseColor':
- case 'Maya|TEX_color_map':
- parameters.map = scope.getTexture( textureMap, child.ID );
- if ( parameters.map !== undefined ) {
- parameters.map.encoding = sRGBEncoding;
- }
- break;
- case 'DisplacementColor':
- parameters.displacementMap = scope.getTexture( textureMap, child.ID );
- break;
- case 'EmissiveColor':
- parameters.emissiveMap = scope.getTexture( textureMap, child.ID );
- if ( parameters.emissiveMap !== undefined ) {
- parameters.emissiveMap.encoding = sRGBEncoding;
- }
- break;
- case 'NormalMap':
- case 'Maya|TEX_normal_map':
- parameters.normalMap = scope.getTexture( textureMap, child.ID );
- break;
- case 'ReflectionColor':
- parameters.envMap = scope.getTexture( textureMap, child.ID );
- if ( parameters.envMap !== undefined ) {
- parameters.envMap.mapping = EquirectangularReflectionMapping;
- parameters.envMap.encoding = sRGBEncoding;
- }
- break;
- case 'SpecularColor':
- parameters.specularMap = scope.getTexture( textureMap, child.ID );
- if ( parameters.specularMap !== undefined ) {
- parameters.specularMap.encoding = sRGBEncoding;
- }
- break;
- case 'TransparentColor':
- case 'TransparencyFactor':
- parameters.alphaMap = scope.getTexture( textureMap, child.ID );
- parameters.transparent = true;
- break;
- case 'AmbientColor':
- case 'ShininessExponent': // AKA glossiness map
- case 'SpecularFactor': // AKA specularLevel
- case 'VectorDisplacementColor': // NOTE: Seems to be a copy of DisplacementColor
- default:
- console.warn( 'THREE.FBXLoader: %s map is not supported in three.js, skipping texture.', type );
- break;
- }
- } );
- return parameters;
- }
- // get a texture from the textureMap for use by a material.
- getTexture( textureMap, id ) {
- // if the texture is a layered texture, just use the first layer and issue a warning
- if ( 'LayeredTexture' in fbxTree.Objects && id in fbxTree.Objects.LayeredTexture ) {
- console.warn( 'THREE.FBXLoader: layered textures are not supported in three.js. Discarding all but first layer.' );
- id = connections.get( id ).children[ 0 ].ID;
- }
- return textureMap.get( id );
- }
- // Parse nodes in FBXTree.Objects.Deformer
- // Deformer node can contain skinning or Vertex Cache animation data, however only skinning is supported here
- // Generates map of Skeleton-like objects for use later when generating and binding skeletons.
- parseDeformers() {
- const skeletons = {};
- const morphTargets = {};
- if ( 'Deformer' in fbxTree.Objects ) {
- const DeformerNodes = fbxTree.Objects.Deformer;
- for ( const nodeID in DeformerNodes ) {
- const deformerNode = DeformerNodes[ nodeID ];
- const relationships = connections.get( parseInt( nodeID ) );
- if ( deformerNode.attrType === 'Skin' ) {
- const skeleton = this.parseSkeleton( relationships, DeformerNodes );
- skeleton.ID = nodeID;
- if ( relationships.parents.length > 1 ) console.warn( 'THREE.FBXLoader: skeleton attached to more than one geometry is not supported.' );
- skeleton.geometryID = relationships.parents[ 0 ].ID;
- skeletons[ nodeID ] = skeleton;
- } else if ( deformerNode.attrType === 'BlendShape' ) {
- const morphTarget = {
- id: nodeID,
- };
- morphTarget.rawTargets = this.parseMorphTargets( relationships, DeformerNodes );
- morphTarget.id = nodeID;
- if ( relationships.parents.length > 1 ) console.warn( 'THREE.FBXLoader: morph target attached to more than one geometry is not supported.' );
- morphTargets[ nodeID ] = morphTarget;
- }
- }
- }
- return {
- skeletons: skeletons,
- morphTargets: morphTargets,
- };
- }
- // Parse single nodes in FBXTree.Objects.Deformer
- // The top level skeleton node has type 'Skin' and sub nodes have type 'Cluster'
- // Each skin node represents a skeleton and each cluster node represents a bone
- parseSkeleton( relationships, deformerNodes ) {
- const rawBones = [];
- relationships.children.forEach( function ( child ) {
- const boneNode = deformerNodes[ child.ID ];
- if ( boneNode.attrType !== 'Cluster' ) return;
- const rawBone = {
- ID: child.ID,
- indices: [],
- weights: [],
- transformLink: new Matrix4().fromArray( boneNode.TransformLink.a ),
- // transform: new Matrix4().fromArray( boneNode.Transform.a ),
- // linkMode: boneNode.Mode,
- };
- if ( 'Indexes' in boneNode ) {
- rawBone.indices = boneNode.Indexes.a;
- rawBone.weights = boneNode.Weights.a;
- }
- rawBones.push( rawBone );
- } );
- return {
- rawBones: rawBones,
- bones: []
- };
- }
- // The top level morph deformer node has type "BlendShape" and sub nodes have type "BlendShapeChannel"
- parseMorphTargets( relationships, deformerNodes ) {
- const rawMorphTargets = [];
- for ( let i = 0; i < relationships.children.length; i ++ ) {
- const child = relationships.children[ i ];
- const morphTargetNode = deformerNodes[ child.ID ];
- const rawMorphTarget = {
- name: morphTargetNode.attrName,
- initialWeight: morphTargetNode.DeformPercent,
- id: morphTargetNode.id,
- fullWeights: morphTargetNode.FullWeights.a
- };
- if ( morphTargetNode.attrType !== 'BlendShapeChannel' ) return;
- rawMorphTarget.geoID = connections.get( parseInt( child.ID ) ).children.filter( function ( child ) {
- return child.relationship === undefined;
- } )[ 0 ].ID;
- rawMorphTargets.push( rawMorphTarget );
- }
- return rawMorphTargets;
- }
- // create the main Group() to be returned by the loader
- parseScene( deformers, geometryMap, materialMap ) {
- sceneGraph = new Group();
- const modelMap = this.parseModels( deformers.skeletons, geometryMap, materialMap );
- const modelNodes = fbxTree.Objects.Model;
- const scope = this;
- modelMap.forEach( function ( model ) {
- const modelNode = modelNodes[ model.ID ];
- scope.setLookAtProperties( model, modelNode );
- const parentConnections = connections.get( model.ID ).parents;
- parentConnections.forEach( function ( connection ) {
- const parent = modelMap.get( connection.ID );
- if ( parent !== undefined ) parent.add( model );
- } );
- if ( model.parent === null ) {
- sceneGraph.add( model );
- }
- } );
- this.bindSkeleton( deformers.skeletons, geometryMap, modelMap );
- this.createAmbientLight();
- sceneGraph.traverse( function ( node ) {
- if ( node.userData.transformData ) {
- if ( node.parent ) {
- node.userData.transformData.parentMatrix = node.parent.matrix;
- node.userData.transformData.parentMatrixWorld = node.parent.matrixWorld;
- }
- const transform = generateTransform( node.userData.transformData );
- node.applyMatrix4( transform );
- node.updateWorldMatrix();
- }
- } );
- const animations = new AnimationParser().parse();
- // if all the models where already combined in a single group, just return that
- if ( sceneGraph.children.length === 1 && sceneGraph.children[ 0 ].isGroup ) {
- sceneGraph.children[ 0 ].animations = animations;
- sceneGraph = sceneGraph.children[ 0 ];
- }
- sceneGraph.animations = animations;
- }
- // parse nodes in FBXTree.Objects.Model
- parseModels( skeletons, geometryMap, materialMap ) {
- const modelMap = new Map();
- const modelNodes = fbxTree.Objects.Model;
- for ( const nodeID in modelNodes ) {
- const id = parseInt( nodeID );
- const node = modelNodes[ nodeID ];
- const relationships = connections.get( id );
- let model = this.buildSkeleton( relationships, skeletons, id, node.attrName );
- if ( ! model ) {
- switch ( node.attrType ) {
- case 'Camera':
- model = this.createCamera( relationships );
- break;
- case 'Light':
- model = this.createLight( relationships );
- break;
- case 'Mesh':
- model = this.createMesh( relationships, geometryMap, materialMap );
- break;
- case 'NurbsCurve':
- model = this.createCurve( relationships, geometryMap );
- break;
- case 'LimbNode':
- case 'Root':
- model = new Bone();
- break;
- case 'Null':
- default:
- model = new Group();
- break;
- }
- model.name = node.attrName ? PropertyBinding.sanitizeNodeName( node.attrName ) : '';
- model.ID = id;
- }
- this.getTransformData( model, node );
- modelMap.set( id, model );
- }
- return modelMap;
- }
- buildSkeleton( relationships, skeletons, id, name ) {
- let bone = null;
- relationships.parents.forEach( function ( parent ) {
- for ( const ID in skeletons ) {
- const skeleton = skeletons[ ID ];
- skeleton.rawBones.forEach( function ( rawBone, i ) {
- if ( rawBone.ID === parent.ID ) {
- const subBone = bone;
- bone = new Bone();
- bone.matrixWorld.copy( rawBone.transformLink );
- // set name and id here - otherwise in cases where "subBone" is created it will not have a name / id
- bone.name = name ? PropertyBinding.sanitizeNodeName( name ) : '';
- bone.ID = id;
- skeleton.bones[ i ] = bone;
- // In cases where a bone is shared between multiple meshes
- // duplicate the bone here and and it as a child of the first bone
- if ( subBone !== null ) {
- bone.add( subBone );
- }
- }
- } );
- }
- } );
- return bone;
- }
- // create a PerspectiveCamera or OrthographicCamera
- createCamera( relationships ) {
- let model;
- let cameraAttribute;
- relationships.children.forEach( function ( child ) {
- const attr = fbxTree.Objects.NodeAttribute[ child.ID ];
- if ( attr !== undefined ) {
- cameraAttribute = attr;
- }
- } );
- if ( cameraAttribute === undefined ) {
- model = new Object3D();
- } else {
- let type = 0;
- if ( cameraAttribute.CameraProjectionType !== undefined && cameraAttribute.CameraProjectionType.value === 1 ) {
- type = 1;
- }
- let nearClippingPlane = 1;
- if ( cameraAttribute.NearPlane !== undefined ) {
- nearClippingPlane = cameraAttribute.NearPlane.value / 1000;
- }
- let farClippingPlane = 1000;
- if ( cameraAttribute.FarPlane !== undefined ) {
- farClippingPlane = cameraAttribute.FarPlane.value / 1000;
- }
- let width = window.innerWidth;
- let height = window.innerHeight;
- if ( cameraAttribute.AspectWidth !== undefined && cameraAttribute.AspectHeight !== undefined ) {
- width = cameraAttribute.AspectWidth.value;
- height = cameraAttribute.AspectHeight.value;
- }
- const aspect = width / height;
- let fov = 45;
- if ( cameraAttribute.FieldOfView !== undefined ) {
- fov = cameraAttribute.FieldOfView.value;
- }
- const focalLength = cameraAttribute.FocalLength ? cameraAttribute.FocalLength.value : null;
- switch ( type ) {
- case 0: // Perspective
- model = new PerspectiveCamera( fov, aspect, nearClippingPlane, farClippingPlane );
- if ( focalLength !== null ) model.setFocalLength( focalLength );
- break;
- case 1: // Orthographic
- model = new OrthographicCamera( - width / 2, width / 2, height / 2, - height / 2, nearClippingPlane, farClippingPlane );
- break;
- default:
- console.warn( 'THREE.FBXLoader: Unknown camera type ' + type + '.' );
- model = new Object3D();
- break;
- }
- }
- return model;
- }
- // Create a DirectionalLight, PointLight or SpotLight
- createLight( relationships ) {
- let model;
- let lightAttribute;
- relationships.children.forEach( function ( child ) {
- const attr = fbxTree.Objects.NodeAttribute[ child.ID ];
- if ( attr !== undefined ) {
- lightAttribute = attr;
- }
- } );
- if ( lightAttribute === undefined ) {
- model = new Object3D();
- } else {
- let type;
- // LightType can be undefined for Point lights
- if ( lightAttribute.LightType === undefined ) {
- type = 0;
- } else {
- type = lightAttribute.LightType.value;
- }
- let color = 0xffffff;
- if ( lightAttribute.Color !== undefined ) {
- color = new Color().fromArray( lightAttribute.Color.value );
- }
- let intensity = ( lightAttribute.Intensity === undefined ) ? 1 : lightAttribute.Intensity.value / 100;
- // light disabled
- if ( lightAttribute.CastLightOnObject !== undefined && lightAttribute.CastLightOnObject.value === 0 ) {
- intensity = 0;
- }
- let distance = 0;
- if ( lightAttribute.FarAttenuationEnd !== undefined ) {
- if ( lightAttribute.EnableFarAttenuation !== undefined && lightAttribute.EnableFarAttenuation.value === 0 ) {
- distance = 0;
- } else {
- distance = lightAttribute.FarAttenuationEnd.value;
- }
- }
- // TODO: could this be calculated linearly from FarAttenuationStart to FarAttenuationEnd?
- const decay = 1;
- switch ( type ) {
- case 0: // Point
- model = new PointLight( color, intensity, distance, decay );
- break;
- case 1: // Directional
- model = new DirectionalLight( color, intensity );
- break;
- case 2: // Spot
- let angle = Math.PI / 3;
- if ( lightAttribute.InnerAngle !== undefined ) {
- angle = MathUtils.degToRad( lightAttribute.InnerAngle.value );
- }
- let penumbra = 0;
- if ( lightAttribute.OuterAngle !== undefined ) {
- // TODO: this is not correct - FBX calculates outer and inner angle in degrees
- // with OuterAngle > InnerAngle && OuterAngle <= Math.PI
- // while three.js uses a penumbra between (0, 1) to attenuate the inner angle
- penumbra = MathUtils.degToRad( lightAttribute.OuterAngle.value );
- penumbra = Math.max( penumbra, 1 );
- }
- model = new SpotLight( color, intensity, distance, angle, penumbra, decay );
- break;
- default:
- console.warn( 'THREE.FBXLoader: Unknown light type ' + lightAttribute.LightType.value + ', defaulting to a PointLight.' );
- model = new PointLight( color, intensity );
- break;
- }
- if ( lightAttribute.CastShadows !== undefined && lightAttribute.CastShadows.value === 1 ) {
- model.castShadow = true;
- }
- }
- return model;
- }
- createMesh( relationships, geometryMap, materialMap ) {
- let model;
- let geometry = null;
- let material = null;
- const materials = [];
- // get geometry and materials(s) from connections
- relationships.children.forEach( function ( child ) {
- if ( geometryMap.has( child.ID ) ) {
- geometry = geometryMap.get( child.ID );
- }
- if ( materialMap.has( child.ID ) ) {
- materials.push( materialMap.get( child.ID ) );
- }
- } );
- if ( materials.length > 1 ) {
- material = materials;
- } else if ( materials.length > 0 ) {
- material = materials[ 0 ];
- } else {
- material = new MeshPhongMaterial( { color: 0xcccccc } );
- materials.push( material );
- }
- if ( 'color' in geometry.attributes ) {
- materials.forEach( function ( material ) {
- material.vertexColors = true;
- } );
- }
- if ( geometry.FBX_Deformer ) {
- model = new SkinnedMesh( geometry, material );
- model.normalizeSkinWeights();
- } else {
- model = new Mesh( geometry, material );
- }
- return model;
- }
- createCurve( relationships, geometryMap ) {
- const geometry = relationships.children.reduce( function ( geo, child ) {
- if ( geometryMap.has( child.ID ) ) geo = geometryMap.get( child.ID );
- return geo;
- }, null );
- // FBX does not list materials for Nurbs lines, so we'll just put our own in here.
- const material = new LineBasicMaterial( { color: 0x3300ff, linewidth: 1 } );
- return new Line( geometry, material );
- }
- // parse the model node for transform data
- getTransformData( model, modelNode ) {
- const transformData = {};
- if ( 'InheritType' in modelNode ) transformData.inheritType = parseInt( modelNode.InheritType.value );
- if ( 'RotationOrder' in modelNode ) transformData.eulerOrder = getEulerOrder( modelNode.RotationOrder.value );
- else transformData.eulerOrder = 'ZYX';
- if ( 'Lcl_Translation' in modelNode ) transformData.translation = modelNode.Lcl_Translation.value;
- if ( 'PreRotation' in modelNode ) transformData.preRotation = modelNode.PreRotation.value;
- if ( 'Lcl_Rotation' in modelNode ) transformData.rotation = modelNode.Lcl_Rotation.value;
- if ( 'PostRotation' in modelNode ) transformData.postRotation = modelNode.PostRotation.value;
- if ( 'Lcl_Scaling' in modelNode ) transformData.scale = modelNode.Lcl_Scaling.value;
- if ( 'ScalingOffset' in modelNode ) transformData.scalingOffset = modelNode.ScalingOffset.value;
- if ( 'ScalingPivot' in modelNode ) transformData.scalingPivot = modelNode.ScalingPivot.value;
- if ( 'RotationOffset' in modelNode ) transformData.rotationOffset = modelNode.RotationOffset.value;
- if ( 'RotationPivot' in modelNode ) transformData.rotationPivot = modelNode.RotationPivot.value;
- model.userData.transformData = transformData;
- }
- setLookAtProperties( model, modelNode ) {
- if ( 'LookAtProperty' in modelNode ) {
- const children = connections.get( model.ID ).children;
- children.forEach( function ( child ) {
- if ( child.relationship === 'LookAtProperty' ) {
- const lookAtTarget = fbxTree.Objects.Model[ child.ID ];
- if ( 'Lcl_Translation' in lookAtTarget ) {
- const pos = lookAtTarget.Lcl_Translation.value;
- // DirectionalLight, SpotLight
- if ( model.target !== undefined ) {
- model.target.position.fromArray( pos );
- sceneGraph.add( model.target );
- } else { // Cameras and other Object3Ds
- model.lookAt( new Vector3().fromArray( pos ) );
- }
- }
- }
- } );
- }
- }
- bindSkeleton( skeletons, geometryMap, modelMap ) {
- const bindMatrices = this.parsePoseNodes();
- for ( const ID in skeletons ) {
- const skeleton = skeletons[ ID ];
- const parents = connections.get( parseInt( skeleton.ID ) ).parents;
- parents.forEach( function ( parent ) {
- if ( geometryMap.has( parent.ID ) ) {
- const geoID = parent.ID;
- const geoRelationships = connections.get( geoID );
- geoRelationships.parents.forEach( function ( geoConnParent ) {
- if ( modelMap.has( geoConnParent.ID ) ) {
- const model = modelMap.get( geoConnParent.ID );
- model.bind( new Skeleton( skeleton.bones ), bindMatrices[ geoConnParent.ID ] );
- }
- } );
- }
- } );
- }
- }
- parsePoseNodes() {
- const bindMatrices = {};
- if ( 'Pose' in fbxTree.Objects ) {
- const BindPoseNode = fbxTree.Objects.Pose;
- for ( const nodeID in BindPoseNode ) {
- if ( BindPoseNode[ nodeID ].attrType === 'BindPose' && BindPoseNode[ nodeID ].NbPoseNodes > 0 ) {
- const poseNodes = BindPoseNode[ nodeID ].PoseNode;
- if ( Array.isArray( poseNodes ) ) {
- poseNodes.forEach( function ( poseNode ) {
- bindMatrices[ poseNode.Node ] = new Matrix4().fromArray( poseNode.Matrix.a );
- } );
- } else {
- bindMatrices[ poseNodes.Node ] = new Matrix4().fromArray( poseNodes.Matrix.a );
- }
- }
- }
- }
- return bindMatrices;
- }
- // Parse ambient color in FBXTree.GlobalSettings - if it's not set to black (default), create an ambient light
- createAmbientLight() {
- if ( 'GlobalSettings' in fbxTree && 'AmbientColor' in fbxTree.GlobalSettings ) {
- const ambientColor = fbxTree.GlobalSettings.AmbientColor.value;
- const r = ambientColor[ 0 ];
- const g = ambientColor[ 1 ];
- const b = ambientColor[ 2 ];
- if ( r !== 0 || g !== 0 || b !== 0 ) {
- const color = new Color( r, g, b );
- sceneGraph.add( new AmbientLight( color, 1 ) );
- }
- }
- }
- }
- // parse Geometry data from FBXTree and return map of BufferGeometries
- class GeometryParser {
- // Parse nodes in FBXTree.Objects.Geometry
- parse( deformers ) {
- const geometryMap = new Map();
- if ( 'Geometry' in fbxTree.Objects ) {
- const geoNodes = fbxTree.Objects.Geometry;
- for ( const nodeID in geoNodes ) {
- const relationships = connections.get( parseInt( nodeID ) );
- const geo = this.parseGeometry( relationships, geoNodes[ nodeID ], deformers );
- geometryMap.set( parseInt( nodeID ), geo );
- }
- }
- return geometryMap;
- }
- // Parse single node in FBXTree.Objects.Geometry
- parseGeometry( relationships, geoNode, deformers ) {
- switch ( geoNode.attrType ) {
- case 'Mesh':
- return this.parseMeshGeometry( relationships, geoNode, deformers );
- break;
- case 'NurbsCurve':
- return this.parseNurbsGeometry( geoNode );
- break;
- }
- }
- // Parse single node mesh geometry in FBXTree.Objects.Geometry
- parseMeshGeometry( relationships, geoNode, deformers ) {
- const skeletons = deformers.skeletons;
- const morphTargets = [];
- const modelNodes = relationships.parents.map( function ( parent ) {
- return fbxTree.Objects.Model[ parent.ID ];
- } );
- // don't create geometry if it is not associated with any models
- if ( modelNodes.length === 0 ) return;
- const skeleton = relationships.children.reduce( function ( skeleton, child ) {
- if ( skeletons[ child.ID ] !== undefined ) skeleton = skeletons[ child.ID ];
- return skeleton;
- }, null );
- relationships.children.forEach( function ( child ) {
- if ( deformers.morphTargets[ child.ID ] !== undefined ) {
- morphTargets.push( deformers.morphTargets[ child.ID ] );
- }
- } );
- // Assume one model and get the preRotation from that
- // if there is more than one model associated with the geometry this may cause problems
- const modelNode = modelNodes[ 0 ];
- const transformData = {};
- if ( 'RotationOrder' in modelNode ) transformData.eulerOrder = getEulerOrder( modelNode.RotationOrder.value );
- if ( 'InheritType' in modelNode ) transformData.inheritType = parseInt( modelNode.InheritType.value );
- if ( 'GeometricTranslation' in modelNode ) transformData.translation = modelNode.GeometricTranslation.value;
- if ( 'GeometricRotation' in modelNode ) transformData.rotation = modelNode.GeometricRotation.value;
- if ( 'GeometricScaling' in modelNode ) transformData.scale = modelNode.GeometricScaling.value;
- const transform = generateTransform( transformData );
- return this.genGeometry( geoNode, skeleton, morphTargets, transform );
- }
- // Generate a BufferGeometry from a node in FBXTree.Objects.Geometry
- genGeometry( geoNode, skeleton, morphTargets, preTransform ) {
- const geo = new BufferGeometry();
- if ( geoNode.attrName ) geo.name = geoNode.attrName;
- const geoInfo = this.parseGeoNode( geoNode, skeleton );
- const buffers = this.genBuffers( geoInfo );
- const positionAttribute = new Float32BufferAttribute( buffers.vertex, 3 );
- positionAttribute.applyMatrix4( preTransform );
- geo.setAttribute( 'position', positionAttribute );
- if ( buffers.colors.length > 0 ) {
- geo.setAttribute( 'color', new Float32BufferAttribute( buffers.colors, 3 ) );
- }
- if ( skeleton ) {
- geo.setAttribute( 'skinIndex', new Uint16BufferAttribute( buffers.weightsIndices, 4 ) );
- geo.setAttribute( 'skinWeight', new Float32BufferAttribute( buffers.vertexWeights, 4 ) );
- // used later to bind the skeleton to the model
- geo.FBX_Deformer = skeleton;
- }
- if ( buffers.normal.length > 0 ) {
- const normalMatrix = new Matrix3().getNormalMatrix( preTransform );
- const normalAttribute = new Float32BufferAttribute( buffers.normal, 3 );
- normalAttribute.applyNormalMatrix( normalMatrix );
- geo.setAttribute( 'normal', normalAttribute );
- }
- buffers.uvs.forEach( function ( uvBuffer, i ) {
- // subsequent uv buffers are called 'uv1', 'uv2', ...
- let name = 'uv' + ( i + 1 ).toString();
- // the first uv buffer is just called 'uv'
- if ( i === 0 ) {
- name = 'uv';
- }
- geo.setAttribute( name, new Float32BufferAttribute( buffers.uvs[ i ], 2 ) );
- } );
- if ( geoInfo.material && geoInfo.material.mappingType !== 'AllSame' ) {
- // Convert the material indices of each vertex into rendering groups on the geometry.
- let prevMaterialIndex = buffers.materialIndex[ 0 ];
- let startIndex = 0;
- buffers.materialIndex.forEach( function ( currentIndex, i ) {
- if ( currentIndex !== prevMaterialIndex ) {
- geo.addGroup( startIndex, i - startIndex, prevMaterialIndex );
- prevMaterialIndex = currentIndex;
- startIndex = i;
- }
- } );
- // the loop above doesn't add the last group, do that here.
- if ( geo.groups.length > 0 ) {
- const lastGroup = geo.groups[ geo.groups.length - 1 ];
- const lastIndex = lastGroup.start + lastGroup.count;
- if ( lastIndex !== buffers.materialIndex.length ) {
- geo.addGroup( lastIndex, buffers.materialIndex.length - lastIndex, prevMaterialIndex );
- }
- }
- // case where there are multiple materials but the whole geometry is only
- // using one of them
- if ( geo.groups.length === 0 ) {
- geo.addGroup( 0, buffers.materialIndex.length, buffers.materialIndex[ 0 ] );
- }
- }
- this.addMorphTargets( geo, geoNode, morphTargets, preTransform );
- return geo;
- }
- parseGeoNode( geoNode, skeleton ) {
- const geoInfo = {};
- geoInfo.vertexPositions = ( geoNode.Vertices !== undefined ) ? geoNode.Vertices.a : [];
- geoInfo.vertexIndices = ( geoNode.PolygonVertexIndex !== undefined ) ? geoNode.PolygonVertexIndex.a : [];
- if ( geoNode.LayerElementColor ) {
- geoInfo.color = this.parseVertexColors( geoNode.LayerElementColor[ 0 ] );
- }
- if ( geoNode.LayerElementMaterial ) {
- geoInfo.material = this.parseMaterialIndices( geoNode.LayerElementMaterial[ 0 ] );
- }
- if ( geoNode.LayerElementNormal ) {
- geoInfo.normal = this.parseNormals( geoNode.LayerElementNormal[ 0 ] );
- }
- if ( geoNode.LayerElementUV ) {
- geoInfo.uv = [];
- let i = 0;
- while ( geoNode.LayerElementUV[ i ] ) {
- if ( geoNode.LayerElementUV[ i ].UV ) {
- geoInfo.uv.push( this.parseUVs( geoNode.LayerElementUV[ i ] ) );
- }
- i ++;
- }
- }
- geoInfo.weightTable = {};
- if ( skeleton !== null ) {
- geoInfo.skeleton = skeleton;
- skeleton.rawBones.forEach( function ( rawBone, i ) {
- // loop over the bone's vertex indices and weights
- rawBone.indices.forEach( function ( index, j ) {
- if ( geoInfo.weightTable[ index ] === undefined ) geoInfo.weightTable[ index ] = [];
- geoInfo.weightTable[ index ].push( {
- id: i,
- weight: rawBone.weights[ j ],
- } );
- } );
- } );
- }
- return geoInfo;
- }
- genBuffers( geoInfo ) {
- const buffers = {
- vertex: [],
- normal: [],
- colors: [],
- uvs: [],
- materialIndex: [],
- vertexWeights: [],
- weightsIndices: [],
- };
- let polygonIndex = 0;
- let faceLength = 0;
- let displayedWeightsWarning = false;
- // these will hold data for a single face
- let facePositionIndexes = [];
- let faceNormals = [];
- let faceColors = [];
- let faceUVs = [];
- let faceWeights = [];
- let faceWeightIndices = [];
- const scope = this;
- geoInfo.vertexIndices.forEach( function ( vertexIndex, polygonVertexIndex ) {
- let materialIndex;
- let endOfFace = false;
- // Face index and vertex index arrays are combined in a single array
- // A cube with quad faces looks like this:
- // PolygonVertexIndex: *24 {
- // a: 0, 1, 3, -3, 2, 3, 5, -5, 4, 5, 7, -7, 6, 7, 1, -1, 1, 7, 5, -4, 6, 0, 2, -5
- // }
- // Negative numbers mark the end of a face - first face here is 0, 1, 3, -3
- // to find index of last vertex bit shift the index: ^ - 1
- if ( vertexIndex < 0 ) {
- vertexIndex = vertexIndex ^ - 1; // equivalent to ( x * -1 ) - 1
- endOfFace = true;
- }
- let weightIndices = [];
- let weights = [];
- facePositionIndexes.push( vertexIndex * 3, vertexIndex * 3 + 1, vertexIndex * 3 + 2 );
- if ( geoInfo.color ) {
- const data = getData( polygonVertexIndex, polygonIndex, vertexIndex, geoInfo.color );
- faceColors.push( data[ 0 ], data[ 1 ], data[ 2 ] );
- }
- if ( geoInfo.skeleton ) {
- if ( geoInfo.weightTable[ vertexIndex ] !== undefined ) {
- geoInfo.weightTable[ vertexIndex ].forEach( function ( wt ) {
- weights.push( wt.weight );
- weightIndices.push( wt.id );
- } );
- }
- if ( weights.length > 4 ) {
- if ( ! displayedWeightsWarning ) {
- console.warn( 'THREE.FBXLoader: Vertex has more than 4 skinning weights assigned to vertex. Deleting additional weights.' );
- displayedWeightsWarning = true;
- }
- const wIndex = [ 0, 0, 0, 0 ];
- const Weight = [ 0, 0, 0, 0 ];
- weights.forEach( function ( weight, weightIndex ) {
- let currentWeight = weight;
- let currentIndex = weightIndices[ weightIndex ];
- Weight.forEach( function ( comparedWeight, comparedWeightIndex, comparedWeightArray ) {
- if ( currentWeight > comparedWeight ) {
- comparedWeightArray[ comparedWeightIndex ] = currentWeight;
- currentWeight = comparedWeight;
- const tmp = wIndex[ comparedWeightIndex ];
- wIndex[ comparedWeightIndex ] = currentIndex;
- currentIndex = tmp;
- }
- } );
- } );
- weightIndices = wIndex;
- weights = Weight;
- }
- // if the weight array is shorter than 4 pad with 0s
- while ( weights.length < 4 ) {
- weights.push( 0 );
- weightIndices.push( 0 );
- }
- for ( let i = 0; i < 4; ++ i ) {
- faceWeights.push( weights[ i ] );
- faceWeightIndices.push( weightIndices[ i ] );
- }
- }
- if ( geoInfo.normal ) {
- const data = getData( polygonVertexIndex, polygonIndex, vertexIndex, geoInfo.normal );
- faceNormals.push( data[ 0 ], data[ 1 ], data[ 2 ] );
- }
- if ( geoInfo.material && geoInfo.material.mappingType !== 'AllSame' ) {
- materialIndex = getData( polygonVertexIndex, polygonIndex, vertexIndex, geoInfo.material )[ 0 ];
- }
- if ( geoInfo.uv ) {
- geoInfo.uv.forEach( function ( uv, i ) {
- const data = getData( polygonVertexIndex, polygonIndex, vertexIndex, uv );
- if ( faceUVs[ i ] === undefined ) {
- faceUVs[ i ] = [];
- }
- faceUVs[ i ].push( data[ 0 ] );
- faceUVs[ i ].push( data[ 1 ] );
- } );
- }
- faceLength ++;
- if ( endOfFace ) {
- scope.genFace( buffers, geoInfo, facePositionIndexes, materialIndex, faceNormals, faceColors, faceUVs, faceWeights, faceWeightIndices, faceLength );
- polygonIndex ++;
- faceLength = 0;
- // reset arrays for the next face
- facePositionIndexes = [];
- faceNormals = [];
- faceColors = [];
- faceUVs = [];
- faceWeights = [];
- faceWeightIndices = [];
- }
- } );
- return buffers;
- }
- // Generate data for a single face in a geometry. If the face is a quad then split it into 2 tris
- genFace( buffers, geoInfo, facePositionIndexes, materialIndex, faceNormals, faceColors, faceUVs, faceWeights, faceWeightIndices, faceLength ) {
- for ( let i = 2; i < faceLength; i ++ ) {
- buffers.vertex.push( geoInfo.vertexPositions[ facePositionIndexes[ 0 ] ] );
- buffers.vertex.push( geoInfo.vertexPositions[ facePositionIndexes[ 1 ] ] );
- buffers.vertex.push( geoInfo.vertexPositions[ facePositionIndexes[ 2 ] ] );
- buffers.vertex.push( geoInfo.vertexPositions[ facePositionIndexes[ ( i - 1 ) * 3 ] ] );
- buffers.vertex.push( geoInfo.vertexPositions[ facePositionIndexes[ ( i - 1 ) * 3 + 1 ] ] );
- buffers.vertex.push( geoInfo.vertexPositions[ facePositionIndexes[ ( i - 1 ) * 3 + 2 ] ] );
- buffers.vertex.push( geoInfo.vertexPositions[ facePositionIndexes[ i * 3 ] ] );
- buffers.vertex.push( geoInfo.vertexPositions[ facePositionIndexes[ i * 3 + 1 ] ] );
- buffers.vertex.push( geoInfo.vertexPositions[ facePositionIndexes[ i * 3 + 2 ] ] );
- if ( geoInfo.skeleton ) {
- buffers.vertexWeights.push( faceWeights[ 0 ] );
- buffers.vertexWeights.push( faceWeights[ 1 ] );
- buffers.vertexWeights.push( faceWeights[ 2 ] );
- buffers.vertexWeights.push( faceWeights[ 3 ] );
- buffers.vertexWeights.push( faceWeights[ ( i - 1 ) * 4 ] );
- buffers.vertexWeights.push( faceWeights[ ( i - 1 ) * 4 + 1 ] );
- buffers.vertexWeights.push( faceWeights[ ( i - 1 ) * 4 + 2 ] );
- buffers.vertexWeights.push( faceWeights[ ( i - 1 ) * 4 + 3 ] );
- buffers.vertexWeights.push( faceWeights[ i * 4 ] );
- buffers.vertexWeights.push( faceWeights[ i * 4 + 1 ] );
- buffers.vertexWeights.push( faceWeights[ i * 4 + 2 ] );
- buffers.vertexWeights.push( faceWeights[ i * 4 + 3 ] );
- buffers.weightsIndices.push( faceWeightIndices[ 0 ] );
- buffers.weightsIndices.push( faceWeightIndices[ 1 ] );
- buffers.weightsIndices.push( faceWeightIndices[ 2 ] );
- buffers.weightsIndices.push( faceWeightIndices[ 3 ] );
- buffers.weightsIndices.push( faceWeightIndices[ ( i - 1 ) * 4 ] );
- buffers.weightsIndices.push( faceWeightIndices[ ( i - 1 ) * 4 + 1 ] );
- buffers.weightsIndices.push( faceWeightIndices[ ( i - 1 ) * 4 + 2 ] );
- buffers.weightsIndices.push( faceWeightIndices[ ( i - 1 ) * 4 + 3 ] );
- buffers.weightsIndices.push( faceWeightIndices[ i * 4 ] );
- buffers.weightsIndices.push( faceWeightIndices[ i * 4 + 1 ] );
- buffers.weightsIndices.push( faceWeightIndices[ i * 4 + 2 ] );
- buffers.weightsIndices.push( faceWeightIndices[ i * 4 + 3 ] );
- }
- if ( geoInfo.color ) {
- buffers.colors.push( faceColors[ 0 ] );
- buffers.colors.push( faceColors[ 1 ] );
- buffers.colors.push( faceColors[ 2 ] );
- buffers.colors.push( faceColors[ ( i - 1 ) * 3 ] );
- buffers.colors.push( faceColors[ ( i - 1 ) * 3 + 1 ] );
- buffers.colors.push( faceColors[ ( i - 1 ) * 3 + 2 ] );
- buffers.colors.push( faceColors[ i * 3 ] );
- buffers.colors.push( faceColors[ i * 3 + 1 ] );
- buffers.colors.push( faceColors[ i * 3 + 2 ] );
- }
- if ( geoInfo.material && geoInfo.material.mappingType !== 'AllSame' ) {
- buffers.materialIndex.push( materialIndex );
- buffers.materialIndex.push( materialIndex );
- buffers.materialIndex.push( materialIndex );
- }
- if ( geoInfo.normal ) {
- buffers.normal.push( faceNormals[ 0 ] );
- buffers.normal.push( faceNormals[ 1 ] );
- buffers.normal.push( faceNormals[ 2 ] );
- buffers.normal.push( faceNormals[ ( i - 1 ) * 3 ] );
- buffers.normal.push( faceNormals[ ( i - 1 ) * 3 + 1 ] );
- buffers.normal.push( faceNormals[ ( i - 1 ) * 3 + 2 ] );
- buffers.normal.push( faceNormals[ i * 3 ] );
- buffers.normal.push( faceNormals[ i * 3 + 1 ] );
- buffers.normal.push( faceNormals[ i * 3 + 2 ] );
- }
- if ( geoInfo.uv ) {
- geoInfo.uv.forEach( function ( uv, j ) {
- if ( buffers.uvs[ j ] === undefined ) buffers.uvs[ j ] = [];
- buffers.uvs[ j ].push( faceUVs[ j ][ 0 ] );
- buffers.uvs[ j ].push( faceUVs[ j ][ 1 ] );
- buffers.uvs[ j ].push( faceUVs[ j ][ ( i - 1 ) * 2 ] );
- buffers.uvs[ j ].push( faceUVs[ j ][ ( i - 1 ) * 2 + 1 ] );
- buffers.uvs[ j ].push( faceUVs[ j ][ i * 2 ] );
- buffers.uvs[ j ].push( faceUVs[ j ][ i * 2 + 1 ] );
- } );
- }
- }
- }
- addMorphTargets( parentGeo, parentGeoNode, morphTargets, preTransform ) {
- if ( morphTargets.length === 0 ) return;
- parentGeo.morphTargetsRelative = true;
- parentGeo.morphAttributes.position = [];
- // parentGeo.morphAttributes.normal = []; // not implemented
- const scope = this;
- morphTargets.forEach( function ( morphTarget ) {
- morphTarget.rawTargets.forEach( function ( rawTarget ) {
- const morphGeoNode = fbxTree.Objects.Geometry[ rawTarget.geoID ];
- if ( morphGeoNode !== undefined ) {
- scope.genMorphGeometry( parentGeo, parentGeoNode, morphGeoNode, preTransform, rawTarget.name );
- }
- } );
- } );
- }
- // a morph geometry node is similar to a standard node, and the node is also contained
- // in FBXTree.Objects.Geometry, however it can only have attributes for position, normal
- // and a special attribute Index defining which vertices of the original geometry are affected
- // Normal and position attributes only have data for the vertices that are affected by the morph
- genMorphGeometry( parentGeo, parentGeoNode, morphGeoNode, preTransform, name ) {
- const vertexIndices = ( parentGeoNode.PolygonVertexIndex !== undefined ) ? parentGeoNode.PolygonVertexIndex.a : [];
- const morphPositionsSparse = ( morphGeoNode.Vertices !== undefined ) ? morphGeoNode.Vertices.a : [];
- const indices = ( morphGeoNode.Indexes !== undefined ) ? morphGeoNode.Indexes.a : [];
- const length = parentGeo.attributes.position.count * 3;
- const morphPositions = new Float32Array( length );
- for ( let i = 0; i < indices.length; i ++ ) {
- const morphIndex = indices[ i ] * 3;
- morphPositions[ morphIndex ] = morphPositionsSparse[ i * 3 ];
- morphPositions[ morphIndex + 1 ] = morphPositionsSparse[ i * 3 + 1 ];
- morphPositions[ morphIndex + 2 ] = morphPositionsSparse[ i * 3 + 2 ];
- }
- // TODO: add morph normal support
- const morphGeoInfo = {
- vertexIndices: vertexIndices,
- vertexPositions: morphPositions,
- };
- const morphBuffers = this.genBuffers( morphGeoInfo );
- const positionAttribute = new Float32BufferAttribute( morphBuffers.vertex, 3 );
- positionAttribute.name = name || morphGeoNode.attrName;
- positionAttribute.applyMatrix4( preTransform );
- parentGeo.morphAttributes.position.push( positionAttribute );
- }
- // Parse normal from FBXTree.Objects.Geometry.LayerElementNormal if it exists
- parseNormals( NormalNode ) {
- const mappingType = NormalNode.MappingInformationType;
- const referenceType = NormalNode.ReferenceInformationType;
- const buffer = NormalNode.Normals.a;
- let indexBuffer = [];
- if ( referenceType === 'IndexToDirect' ) {
- if ( 'NormalIndex' in NormalNode ) {
- indexBuffer = NormalNode.NormalIndex.a;
- } else if ( 'NormalsIndex' in NormalNode ) {
- indexBuffer = NormalNode.NormalsIndex.a;
- }
- }
- return {
- dataSize: 3,
- buffer: buffer,
- indices: indexBuffer,
- mappingType: mappingType,
- referenceType: referenceType
- };
- }
- // Parse UVs from FBXTree.Objects.Geometry.LayerElementUV if it exists
- parseUVs( UVNode ) {
- const mappingType = UVNode.MappingInformationType;
- const referenceType = UVNode.ReferenceInformationType;
- const buffer = UVNode.UV.a;
- let indexBuffer = [];
- if ( referenceType === 'IndexToDirect' ) {
- indexBuffer = UVNode.UVIndex.a;
- }
- return {
- dataSize: 2,
- buffer: buffer,
- indices: indexBuffer,
- mappingType: mappingType,
- referenceType: referenceType
- };
- }
- // Parse Vertex Colors from FBXTree.Objects.Geometry.LayerElementColor if it exists
- parseVertexColors( ColorNode ) {
- const mappingType = ColorNode.MappingInformationType;
- const referenceType = ColorNode.ReferenceInformationType;
- const buffer = ColorNode.Colors.a;
- let indexBuffer = [];
- if ( referenceType === 'IndexToDirect' ) {
- indexBuffer = ColorNode.ColorIndex.a;
- }
- return {
- dataSize: 4,
- buffer: buffer,
- indices: indexBuffer,
- mappingType: mappingType,
- referenceType: referenceType
- };
- }
- // Parse mapping and material data in FBXTree.Objects.Geometry.LayerElementMaterial if it exists
- parseMaterialIndices( MaterialNode ) {
- const mappingType = MaterialNode.MappingInformationType;
- const referenceType = MaterialNode.ReferenceInformationType;
- if ( mappingType === 'NoMappingInformation' ) {
- return {
- dataSize: 1,
- buffer: [ 0 ],
- indices: [ 0 ],
- mappingType: 'AllSame',
- referenceType: referenceType
- };
- }
- const materialIndexBuffer = MaterialNode.Materials.a;
- // Since materials are stored as indices, there's a bit of a mismatch between FBX and what
- // we expect.So we create an intermediate buffer that points to the index in the buffer,
- // for conforming with the other functions we've written for other data.
- const materialIndices = [];
- for ( let i = 0; i < materialIndexBuffer.length; ++ i ) {
- materialIndices.push( i );
- }
- return {
- dataSize: 1,
- buffer: materialIndexBuffer,
- indices: materialIndices,
- mappingType: mappingType,
- referenceType: referenceType
- };
- }
- // Generate a NurbGeometry from a node in FBXTree.Objects.Geometry
- parseNurbsGeometry( geoNode ) {
- if ( NURBSCurve === undefined ) {
- console.error( 'THREE.FBXLoader: The loader relies on NURBSCurve for any nurbs present in the model. Nurbs will show up as empty geometry.' );
- return new BufferGeometry();
- }
- const order = parseInt( geoNode.Order );
- if ( isNaN( order ) ) {
- console.error( 'THREE.FBXLoader: Invalid Order %s given for geometry ID: %s', geoNode.Order, geoNode.id );
- return new BufferGeometry();
- }
- const degree = order - 1;
- const knots = geoNode.KnotVector.a;
- const controlPoints = [];
- const pointsValues = geoNode.Points.a;
- for ( let i = 0, l = pointsValues.length; i < l; i += 4 ) {
- controlPoints.push( new Vector4().fromArray( pointsValues, i ) );
- }
- let startKnot, endKnot;
- if ( geoNode.Form === 'Closed' ) {
- controlPoints.push( controlPoints[ 0 ] );
- } else if ( geoNode.Form === 'Periodic' ) {
- startKnot = degree;
- endKnot = knots.length - 1 - startKnot;
- for ( let i = 0; i < degree; ++ i ) {
- controlPoints.push( controlPoints[ i ] );
- }
- }
- const curve = new NURBSCurve( degree, knots, controlPoints, startKnot, endKnot );
- const points = curve.getPoints( controlPoints.length * 12 );
- return new BufferGeometry().setFromPoints( points );
- }
- }
- // parse animation data from FBXTree
- class AnimationParser {
- // take raw animation clips and turn them into three.js animation clips
- parse() {
- const animationClips = [];
- const rawClips = this.parseClips();
- if ( rawClips !== undefined ) {
- for ( const key in rawClips ) {
- const rawClip = rawClips[ key ];
- const clip = this.addClip( rawClip );
- animationClips.push( clip );
- }
- }
- return animationClips;
- }
- parseClips() {
- // since the actual transformation data is stored in FBXTree.Objects.AnimationCurve,
- // if this is undefined we can safely assume there are no animations
- if ( fbxTree.Objects.AnimationCurve === undefined ) return undefined;
- const curveNodesMap = this.parseAnimationCurveNodes();
- this.parseAnimationCurves( curveNodesMap );
- const layersMap = this.parseAnimationLayers( curveNodesMap );
- const rawClips = this.parseAnimStacks( layersMap );
- return rawClips;
- }
- // parse nodes in FBXTree.Objects.AnimationCurveNode
- // each AnimationCurveNode holds data for an animation transform for a model (e.g. left arm rotation )
- // and is referenced by an AnimationLayer
- parseAnimationCurveNodes() {
- const rawCurveNodes = fbxTree.Objects.AnimationCurveNode;
- const curveNodesMap = new Map();
- for ( const nodeID in rawCurveNodes ) {
- const rawCurveNode = rawCurveNodes[ nodeID ];
- if ( rawCurveNode.attrName.match( /S|R|T|DeformPercent/ ) !== null ) {
- const curveNode = {
- id: rawCurveNode.id,
- attr: rawCurveNode.attrName,
- curves: {},
- };
- curveNodesMap.set( curveNode.id, curveNode );
- }
- }
- return curveNodesMap;
- }
- // parse nodes in FBXTree.Objects.AnimationCurve and connect them up to
- // previously parsed AnimationCurveNodes. Each AnimationCurve holds data for a single animated
- // axis ( e.g. times and values of x rotation)
- parseAnimationCurves( curveNodesMap ) {
- const rawCurves = fbxTree.Objects.AnimationCurve;
- // TODO: Many values are identical up to roundoff error, but won't be optimised
- // e.g. position times: [0, 0.4, 0. 8]
- // position values: [7.23538335023477e-7, 93.67518615722656, -0.9982695579528809, 7.23538335023477e-7, 93.67518615722656, -0.9982695579528809, 7.235384487103147e-7, 93.67520904541016, -0.9982695579528809]
- // clearly, this should be optimised to
- // times: [0], positions [7.23538335023477e-7, 93.67518615722656, -0.9982695579528809]
- // this shows up in nearly every FBX file, and generally time array is length > 100
- for ( const nodeID in rawCurves ) {
- const animationCurve = {
- id: rawCurves[ nodeID ].id,
- times: rawCurves[ nodeID ].KeyTime.a.map( convertFBXTimeToSeconds ),
- values: rawCurves[ nodeID ].KeyValueFloat.a,
- };
- const relationships = connections.get( animationCurve.id );
- if ( relationships !== undefined ) {
- const animationCurveID = relationships.parents[ 0 ].ID;
- const animationCurveRelationship = relationships.parents[ 0 ].relationship;
- if ( animationCurveRelationship.match( /X/ ) ) {
- curveNodesMap.get( animationCurveID ).curves[ 'x' ] = animationCurve;
- } else if ( animationCurveRelationship.match( /Y/ ) ) {
- curveNodesMap.get( animationCurveID ).curves[ 'y' ] = animationCurve;
- } else if ( animationCurveRelationship.match( /Z/ ) ) {
- curveNodesMap.get( animationCurveID ).curves[ 'z' ] = animationCurve;
- } else if ( animationCurveRelationship.match( /d|DeformPercent/ ) && curveNodesMap.has( animationCurveID ) ) {
- curveNodesMap.get( animationCurveID ).curves[ 'morph' ] = animationCurve;
- }
- }
- }
- }
- // parse nodes in FBXTree.Objects.AnimationLayer. Each layers holds references
- // to various AnimationCurveNodes and is referenced by an AnimationStack node
- // note: theoretically a stack can have multiple layers, however in practice there always seems to be one per stack
- parseAnimationLayers( curveNodesMap ) {
- const rawLayers = fbxTree.Objects.AnimationLayer;
- const layersMap = new Map();
- for ( const nodeID in rawLayers ) {
- const layerCurveNodes = [];
- const connection = connections.get( parseInt( nodeID ) );
- if ( connection !== undefined ) {
- // all the animationCurveNodes used in the layer
- const children = connection.children;
- children.forEach( function ( child, i ) {
- if ( curveNodesMap.has( child.ID ) ) {
- const curveNode = curveNodesMap.get( child.ID );
- // check that the curves are defined for at least one axis, otherwise ignore the curveNode
- if ( curveNode.curves.x !== undefined || curveNode.curves.y !== undefined || curveNode.curves.z !== undefined ) {
- if ( layerCurveNodes[ i ] === undefined ) {
- const modelID = connections.get( child.ID ).parents.filter( function ( parent ) {
- return parent.relationship !== undefined;
- } )[ 0 ].ID;
- if ( modelID !== undefined ) {
- const rawModel = fbxTree.Objects.Model[ modelID.toString() ];
- if ( rawModel === undefined ) {
- console.warn( 'THREE.FBXLoader: Encountered a unused curve.', child );
- return;
- }
- const node = {
- modelName: rawModel.attrName ? PropertyBinding.sanitizeNodeName( rawModel.attrName ) : '',
- ID: rawModel.id,
- initialPosition: [ 0, 0, 0 ],
- initialRotation: [ 0, 0, 0 ],
- initialScale: [ 1, 1, 1 ],
- };
- sceneGraph.traverse( function ( child ) {
- if ( child.ID === rawModel.id ) {
- node.transform = child.matrix;
- if ( child.userData.transformData ) node.eulerOrder = child.userData.transformData.eulerOrder;
- }
- } );
- if ( ! node.transform ) node.transform = new Matrix4();
- // if the animated model is pre rotated, we'll have to apply the pre rotations to every
- // animation value as well
- if ( 'PreRotation' in rawModel ) node.preRotation = rawModel.PreRotation.value;
- if ( 'PostRotation' in rawModel ) node.postRotation = rawModel.PostRotation.value;
- layerCurveNodes[ i ] = node;
- }
- }
- if ( layerCurveNodes[ i ] ) layerCurveNodes[ i ][ curveNode.attr ] = curveNode;
- } else if ( curveNode.curves.morph !== undefined ) {
- if ( layerCurveNodes[ i ] === undefined ) {
- const deformerID = connections.get( child.ID ).parents.filter( function ( parent ) {
- return parent.relationship !== undefined;
- } )[ 0 ].ID;
- const morpherID = connections.get( deformerID ).parents[ 0 ].ID;
- const geoID = connections.get( morpherID ).parents[ 0 ].ID;
- // assuming geometry is not used in more than one model
- const modelID = connections.get( geoID ).parents[ 0 ].ID;
- const rawModel = fbxTree.Objects.Model[ modelID ];
- const node = {
- modelName: rawModel.attrName ? PropertyBinding.sanitizeNodeName( rawModel.attrName ) : '',
- morphName: fbxTree.Objects.Deformer[ deformerID ].attrName,
- };
- layerCurveNodes[ i ] = node;
- }
- layerCurveNodes[ i ][ curveNode.attr ] = curveNode;
- }
- }
- } );
- layersMap.set( parseInt( nodeID ), layerCurveNodes );
- }
- }
- return layersMap;
- }
- // parse nodes in FBXTree.Objects.AnimationStack. These are the top level node in the animation
- // hierarchy. Each Stack node will be used to create a AnimationClip
- parseAnimStacks( layersMap ) {
- const rawStacks = fbxTree.Objects.AnimationStack;
- // connect the stacks (clips) up to the layers
- const rawClips = {};
- for ( const nodeID in rawStacks ) {
- const children = connections.get( parseInt( nodeID ) ).children;
- if ( children.length > 1 ) {
- // it seems like stacks will always be associated with a single layer. But just in case there are files
- // where there are multiple layers per stack, we'll display a warning
- console.warn( 'THREE.FBXLoader: Encountered an animation stack with multiple layers, this is currently not supported. Ignoring subsequent layers.' );
- }
- const layer = layersMap.get( children[ 0 ].ID );
- rawClips[ nodeID ] = {
- name: rawStacks[ nodeID ].attrName,
- layer: layer,
- };
- }
- return rawClips;
- }
- addClip( rawClip ) {
- let tracks = [];
- const scope = this;
- rawClip.layer.forEach( function ( rawTracks ) {
- tracks = tracks.concat( scope.generateTracks( rawTracks ) );
- } );
- return new AnimationClip( rawClip.name, - 1, tracks );
- }
- generateTracks( rawTracks ) {
- const tracks = [];
- let initialPosition = new Vector3();
- let initialRotation = new Quaternion();
- let initialScale = new Vector3();
- if ( rawTracks.transform ) rawTracks.transform.decompose( initialPosition, initialRotation, initialScale );
- initialPosition = initialPosition.toArray();
- initialRotation = new Euler().setFromQuaternion( initialRotation, rawTracks.eulerOrder ).toArray();
- initialScale = initialScale.toArray();
- if ( rawTracks.T !== undefined && Object.keys( rawTracks.T.curves ).length > 0 ) {
- const positionTrack = this.generateVectorTrack( rawTracks.modelName, rawTracks.T.curves, initialPosition, 'position' );
- if ( positionTrack !== undefined ) tracks.push( positionTrack );
- }
- if ( rawTracks.R !== undefined && Object.keys( rawTracks.R.curves ).length > 0 ) {
- const rotationTrack = this.generateRotationTrack( rawTracks.modelName, rawTracks.R.curves, initialRotation, rawTracks.preRotation, rawTracks.postRotation, rawTracks.eulerOrder );
- if ( rotationTrack !== undefined ) tracks.push( rotationTrack );
- }
- if ( rawTracks.S !== undefined && Object.keys( rawTracks.S.curves ).length > 0 ) {
- const scaleTrack = this.generateVectorTrack( rawTracks.modelName, rawTracks.S.curves, initialScale, 'scale' );
- if ( scaleTrack !== undefined ) tracks.push( scaleTrack );
- }
- if ( rawTracks.DeformPercent !== undefined ) {
- const morphTrack = this.generateMorphTrack( rawTracks );
- if ( morphTrack !== undefined ) tracks.push( morphTrack );
- }
- return tracks;
- }
- generateVectorTrack( modelName, curves, initialValue, type ) {
- const times = this.getTimesForAllAxes( curves );
- const values = this.getKeyframeTrackValues( times, curves, initialValue );
- return new VectorKeyframeTrack( modelName + '.' + type, times, values );
- }
- generateRotationTrack( modelName, curves, initialValue, preRotation, postRotation, eulerOrder ) {
- if ( curves.x !== undefined ) {
- this.interpolateRotations( curves.x );
- curves.x.values = curves.x.values.map( MathUtils.degToRad );
- }
- if ( curves.y !== undefined ) {
- this.interpolateRotations( curves.y );
- curves.y.values = curves.y.values.map( MathUtils.degToRad );
- }
- if ( curves.z !== undefined ) {
- this.interpolateRotations( curves.z );
- curves.z.values = curves.z.values.map( MathUtils.degToRad );
- }
- const times = this.getTimesForAllAxes( curves );
- const values = this.getKeyframeTrackValues( times, curves, initialValue );
- if ( preRotation !== undefined ) {
- preRotation = preRotation.map( MathUtils.degToRad );
- preRotation.push( eulerOrder );
- preRotation = new Euler().fromArray( preRotation );
- preRotation = new Quaternion().setFromEuler( preRotation );
- }
- if ( postRotation !== undefined ) {
- postRotation = postRotation.map( MathUtils.degToRad );
- postRotation.push( eulerOrder );
- postRotation = new Euler().fromArray( postRotation );
- postRotation = new Quaternion().setFromEuler( postRotation ).invert();
- }
- const quaternion = new Quaternion();
- const euler = new Euler();
- const quaternionValues = [];
- for ( let i = 0; i < values.length; i += 3 ) {
- euler.set( values[ i ], values[ i + 1 ], values[ i + 2 ], eulerOrder );
- quaternion.setFromEuler( euler );
- if ( preRotation !== undefined ) quaternion.premultiply( preRotation );
- if ( postRotation !== undefined ) quaternion.multiply( postRotation );
- quaternion.toArray( quaternionValues, ( i / 3 ) * 4 );
- }
- return new QuaternionKeyframeTrack( modelName + '.quaternion', times, quaternionValues );
- }
- generateMorphTrack( rawTracks ) {
- const curves = rawTracks.DeformPercent.curves.morph;
- const values = curves.values.map( function ( val ) {
- return val / 100;
- } );
- const morphNum = sceneGraph.getObjectByName( rawTracks.modelName ).morphTargetDictionary[ rawTracks.morphName ];
- return new NumberKeyframeTrack( rawTracks.modelName + '.morphTargetInfluences[' + morphNum + ']', curves.times, values );
- }
- // For all animated objects, times are defined separately for each axis
- // Here we'll combine the times into one sorted array without duplicates
- getTimesForAllAxes( curves ) {
- let times = [];
- // first join together the times for each axis, if defined
- if ( curves.x !== undefined ) times = times.concat( curves.x.times );
- if ( curves.y !== undefined ) times = times.concat( curves.y.times );
- if ( curves.z !== undefined ) times = times.concat( curves.z.times );
- // then sort them
- times = times.sort( function ( a, b ) {
- return a - b;
- } );
- // and remove duplicates
- if ( times.length > 1 ) {
- let targetIndex = 1;
- let lastValue = times[ 0 ];
- for ( let i = 1; i < times.length; i ++ ) {
- const currentValue = times[ i ];
- if ( currentValue !== lastValue ) {
- times[ targetIndex ] = currentValue;
- lastValue = currentValue;
- targetIndex ++;
- }
- }
- times = times.slice( 0, targetIndex );
- }
- return times;
- }
- getKeyframeTrackValues( times, curves, initialValue ) {
- const prevValue = initialValue;
- const values = [];
- let xIndex = - 1;
- let yIndex = - 1;
- let zIndex = - 1;
- times.forEach( function ( time ) {
- if ( curves.x ) xIndex = curves.x.times.indexOf( time );
- if ( curves.y ) yIndex = curves.y.times.indexOf( time );
- if ( curves.z ) zIndex = curves.z.times.indexOf( time );
- // if there is an x value defined for this frame, use that
- if ( xIndex !== - 1 ) {
- const xValue = curves.x.values[ xIndex ];
- values.push( xValue );
- prevValue[ 0 ] = xValue;
- } else {
- // otherwise use the x value from the previous frame
- values.push( prevValue[ 0 ] );
- }
- if ( yIndex !== - 1 ) {
- const yValue = curves.y.values[ yIndex ];
- values.push( yValue );
- prevValue[ 1 ] = yValue;
- } else {
- values.push( prevValue[ 1 ] );
- }
- if ( zIndex !== - 1 ) {
- const zValue = curves.z.values[ zIndex ];
- values.push( zValue );
- prevValue[ 2 ] = zValue;
- } else {
- values.push( prevValue[ 2 ] );
- }
- } );
- return values;
- }
- // Rotations are defined as Euler angles which can have values of any size
- // These will be converted to quaternions which don't support values greater than
- // PI, so we'll interpolate large rotations
- interpolateRotations( curve ) {
- for ( let i = 1; i < curve.values.length; i ++ ) {
- const initialValue = curve.values[ i - 1 ];
- const valuesSpan = curve.values[ i ] - initialValue;
- const absoluteSpan = Math.abs( valuesSpan );
- if ( absoluteSpan >= 180 ) {
- const numSubIntervals = absoluteSpan / 180;
- const step = valuesSpan / numSubIntervals;
- let nextValue = initialValue + step;
- const initialTime = curve.times[ i - 1 ];
- const timeSpan = curve.times[ i ] - initialTime;
- const interval = timeSpan / numSubIntervals;
- let nextTime = initialTime + interval;
- const interpolatedTimes = [];
- const interpolatedValues = [];
- while ( nextTime < curve.times[ i ] ) {
- interpolatedTimes.push( nextTime );
- nextTime += interval;
- interpolatedValues.push( nextValue );
- nextValue += step;
- }
- curve.times = inject( curve.times, i, interpolatedTimes );
- curve.values = inject( curve.values, i, interpolatedValues );
- }
- }
- }
- }
- // parse an FBX file in ASCII format
- class TextParser {
- getPrevNode() {
- return this.nodeStack[ this.currentIndent - 2 ];
- }
- getCurrentNode() {
- return this.nodeStack[ this.currentIndent - 1 ];
- }
- getCurrentProp() {
- return this.currentProp;
- }
- pushStack( node ) {
- this.nodeStack.push( node );
- this.currentIndent += 1;
- }
- popStack() {
- this.nodeStack.pop();
- this.currentIndent -= 1;
- }
- setCurrentProp( val, name ) {
- this.currentProp = val;
- this.currentPropName = name;
- }
- parse( text ) {
- this.currentIndent = 0;
- this.allNodes = new FBXTree();
- this.nodeStack = [];
- this.currentProp = [];
- this.currentPropName = '';
- const scope = this;
- const split = text.split( /[\r\n]+/ );
- split.forEach( function ( line, i ) {
- const matchComment = line.match( /^[\s\t]*;/ );
- const matchEmpty = line.match( /^[\s\t]*$/ );
- if ( matchComment || matchEmpty ) return;
- const matchBeginning = line.match( '^\\t{' + scope.currentIndent + '}(\\w+):(.*){', '' );
- const matchProperty = line.match( '^\\t{' + ( scope.currentIndent ) + '}(\\w+):[\\s\\t\\r\\n](.*)' );
- const matchEnd = line.match( '^\\t{' + ( scope.currentIndent - 1 ) + '}}' );
- if ( matchBeginning ) {
- scope.parseNodeBegin( line, matchBeginning );
- } else if ( matchProperty ) {
- scope.parseNodeProperty( line, matchProperty, split[ ++ i ] );
- } else if ( matchEnd ) {
- scope.popStack();
- } else if ( line.match( /^[^\s\t}]/ ) ) {
- // large arrays are split over multiple lines terminated with a ',' character
- // if this is encountered the line needs to be joined to the previous line
- scope.parseNodePropertyContinued( line );
- }
- } );
- return this.allNodes;
- }
- parseNodeBegin( line, property ) {
- const nodeName = property[ 1 ].trim().replace( /^"/, '' ).replace( /"$/, '' );
- const nodeAttrs = property[ 2 ].split( ',' ).map( function ( attr ) {
- return attr.trim().replace( /^"/, '' ).replace( /"$/, '' );
- } );
- const node = { name: nodeName };
- const attrs = this.parseNodeAttr( nodeAttrs );
- const currentNode = this.getCurrentNode();
- // a top node
- if ( this.currentIndent === 0 ) {
- this.allNodes.add( nodeName, node );
- } else { // a subnode
- // if the subnode already exists, append it
- if ( nodeName in currentNode ) {
- // special case Pose needs PoseNodes as an array
- if ( nodeName === 'PoseNode' ) {
- currentNode.PoseNode.push( node );
- } else if ( currentNode[ nodeName ].id !== undefined ) {
- currentNode[ nodeName ] = {};
- currentNode[ nodeName ][ currentNode[ nodeName ].id ] = currentNode[ nodeName ];
- }
- if ( attrs.id !== '' ) currentNode[ nodeName ][ attrs.id ] = node;
- } else if ( typeof attrs.id === 'number' ) {
- currentNode[ nodeName ] = {};
- currentNode[ nodeName ][ attrs.id ] = node;
- } else if ( nodeName !== 'Properties70' ) {
- if ( nodeName === 'PoseNode' ) currentNode[ nodeName ] = [ node ];
- else currentNode[ nodeName ] = node;
- }
- }
- if ( typeof attrs.id === 'number' ) node.id = attrs.id;
- if ( attrs.name !== '' ) node.attrName = attrs.name;
- if ( attrs.type !== '' ) node.attrType = attrs.type;
- this.pushStack( node );
- }
- parseNodeAttr( attrs ) {
- let id = attrs[ 0 ];
- if ( attrs[ 0 ] !== '' ) {
- id = parseInt( attrs[ 0 ] );
- if ( isNaN( id ) ) {
- id = attrs[ 0 ];
- }
- }
- let name = '', type = '';
- if ( attrs.length > 1 ) {
- name = attrs[ 1 ].replace( /^(\w+)::/, '' );
- type = attrs[ 2 ];
- }
- return { id: id, name: name, type: type };
- }
- parseNodeProperty( line, property, contentLine ) {
- let propName = property[ 1 ].replace( /^"/, '' ).replace( /"$/, '' ).trim();
- let propValue = property[ 2 ].replace( /^"/, '' ).replace( /"$/, '' ).trim();
- // for special case: base64 image data follows "Content: ," line
- // Content: ,
- // "/9j/4RDaRXhpZgAATU0A..."
- if ( propName === 'Content' && propValue === ',' ) {
- propValue = contentLine.replace( /"/g, '' ).replace( /,$/, '' ).trim();
- }
- const currentNode = this.getCurrentNode();
- const parentName = currentNode.name;
- if ( parentName === 'Properties70' ) {
- this.parseNodeSpecialProperty( line, propName, propValue );
- return;
- }
- // Connections
- if ( propName === 'C' ) {
- const connProps = propValue.split( ',' ).slice( 1 );
- const from = parseInt( connProps[ 0 ] );
- const to = parseInt( connProps[ 1 ] );
- let rest = propValue.split( ',' ).slice( 3 );
- rest = rest.map( function ( elem ) {
- return elem.trim().replace( /^"/, '' );
- } );
- propName = 'connections';
- propValue = [ from, to ];
- append( propValue, rest );
- if ( currentNode[ propName ] === undefined ) {
- currentNode[ propName ] = [];
- }
- }
- // Node
- if ( propName === 'Node' ) currentNode.id = propValue;
- // connections
- if ( propName in currentNode && Array.isArray( currentNode[ propName ] ) ) {
- currentNode[ propName ].push( propValue );
- } else {
- if ( propName !== 'a' ) currentNode[ propName ] = propValue;
- else currentNode.a = propValue;
- }
- this.setCurrentProp( currentNode, propName );
- // convert string to array, unless it ends in ',' in which case more will be added to it
- if ( propName === 'a' && propValue.slice( - 1 ) !== ',' ) {
- currentNode.a = parseNumberArray( propValue );
- }
- }
- parseNodePropertyContinued( line ) {
- const currentNode = this.getCurrentNode();
- currentNode.a += line;
- // if the line doesn't end in ',' we have reached the end of the property value
- // so convert the string to an array
- if ( line.slice( - 1 ) !== ',' ) {
- currentNode.a = parseNumberArray( currentNode.a );
- }
- }
- // parse "Property70"
- parseNodeSpecialProperty( line, propName, propValue ) {
- // split this
- // P: "Lcl Scaling", "Lcl Scaling", "", "A",1,1,1
- // into array like below
- // ["Lcl Scaling", "Lcl Scaling", "", "A", "1,1,1" ]
- const props = propValue.split( '",' ).map( function ( prop ) {
- return prop.trim().replace( /^\"/, '' ).replace( /\s/, '_' );
- } );
- const innerPropName = props[ 0 ];
- const innerPropType1 = props[ 1 ];
- const innerPropType2 = props[ 2 ];
- const innerPropFlag = props[ 3 ];
- let innerPropValue = props[ 4 ];
- // cast values where needed, otherwise leave as strings
- switch ( innerPropType1 ) {
- case 'int':
- case 'enum':
- case 'bool':
- case 'ULongLong':
- case 'double':
- case 'Number':
- case 'FieldOfView':
- innerPropValue = parseFloat( innerPropValue );
- break;
- case 'Color':
- case 'ColorRGB':
- case 'Vector3D':
- case 'Lcl_Translation':
- case 'Lcl_Rotation':
- case 'Lcl_Scaling':
- innerPropValue = parseNumberArray( innerPropValue );
- break;
- }
- // CAUTION: these props must append to parent's parent
- this.getPrevNode()[ innerPropName ] = {
- 'type': innerPropType1,
- 'type2': innerPropType2,
- 'flag': innerPropFlag,
- 'value': innerPropValue
- };
- this.setCurrentProp( this.getPrevNode(), innerPropName );
- }
- }
- // Parse an FBX file in Binary format
- class BinaryParser {
- parse( buffer ) {
- const reader = new BinaryReader( buffer );
- reader.skip( 23 ); // skip magic 23 bytes
- const version = reader.getUint32();
- if ( version < 6400 ) {
- throw new Error( 'THREE.FBXLoader: FBX version not supported, FileVersion: ' + version );
- }
- const allNodes = new FBXTree();
- while ( ! this.endOfContent( reader ) ) {
- const node = this.parseNode( reader, version );
- if ( node !== null ) allNodes.add( node.name, node );
- }
- return allNodes;
- }
- // Check if reader has reached the end of content.
- endOfContent( reader ) {
- // footer size: 160bytes + 16-byte alignment padding
- // - 16bytes: magic
- // - padding til 16-byte alignment (at least 1byte?)
- // (seems like some exporters embed fixed 15 or 16bytes?)
- // - 4bytes: magic
- // - 4bytes: version
- // - 120bytes: zero
- // - 16bytes: magic
- if ( reader.size() % 16 === 0 ) {
- return ( ( reader.getOffset() + 160 + 16 ) & ~ 0xf ) >= reader.size();
- } else {
- return reader.getOffset() + 160 + 16 >= reader.size();
- }
- }
- // recursively parse nodes until the end of the file is reached
- parseNode( reader, version ) {
- const node = {};
- // The first three data sizes depends on version.
- const endOffset = ( version >= 7500 ) ? reader.getUint64() : reader.getUint32();
- const numProperties = ( version >= 7500 ) ? reader.getUint64() : reader.getUint32();
- ( version >= 7500 ) ? reader.getUint64() : reader.getUint32(); // the returned propertyListLen is not used
- const nameLen = reader.getUint8();
- const name = reader.getString( nameLen );
- // Regards this node as NULL-record if endOffset is zero
- if ( endOffset === 0 ) return null;
- const propertyList = [];
- for ( let i = 0; i < numProperties; i ++ ) {
- propertyList.push( this.parseProperty( reader ) );
- }
- // Regards the first three elements in propertyList as id, attrName, and attrType
- const id = propertyList.length > 0 ? propertyList[ 0 ] : '';
- const attrName = propertyList.length > 1 ? propertyList[ 1 ] : '';
- const attrType = propertyList.length > 2 ? propertyList[ 2 ] : '';
- // check if this node represents just a single property
- // like (name, 0) set or (name2, [0, 1, 2]) set of {name: 0, name2: [0, 1, 2]}
- node.singleProperty = ( numProperties === 1 && reader.getOffset() === endOffset ) ? true : false;
- while ( endOffset > reader.getOffset() ) {
- const subNode = this.parseNode( reader, version );
- if ( subNode !== null ) this.parseSubNode( name, node, subNode );
- }
- node.propertyList = propertyList; // raw property list used by parent
- if ( typeof id === 'number' ) node.id = id;
- if ( attrName !== '' ) node.attrName = attrName;
- if ( attrType !== '' ) node.attrType = attrType;
- if ( name !== '' ) node.name = name;
- return node;
- }
- parseSubNode( name, node, subNode ) {
- // special case: child node is single property
- if ( subNode.singleProperty === true ) {
- const value = subNode.propertyList[ 0 ];
- if ( Array.isArray( value ) ) {
- node[ subNode.name ] = subNode;
- subNode.a = value;
- } else {
- node[ subNode.name ] = value;
- }
- } else if ( name === 'Connections' && subNode.name === 'C' ) {
- const array = [];
- subNode.propertyList.forEach( function ( property, i ) {
- // first Connection is FBX type (OO, OP, etc.). We'll discard these
- if ( i !== 0 ) array.push( property );
- } );
- if ( node.connections === undefined ) {
- node.connections = [];
- }
- node.connections.push( array );
- } else if ( subNode.name === 'Properties70' ) {
- const keys = Object.keys( subNode );
- keys.forEach( function ( key ) {
- node[ key ] = subNode[ key ];
- } );
- } else if ( name === 'Properties70' && subNode.name === 'P' ) {
- let innerPropName = subNode.propertyList[ 0 ];
- let innerPropType1 = subNode.propertyList[ 1 ];
- const innerPropType2 = subNode.propertyList[ 2 ];
- const innerPropFlag = subNode.propertyList[ 3 ];
- let innerPropValue;
- if ( innerPropName.indexOf( 'Lcl ' ) === 0 ) innerPropName = innerPropName.replace( 'Lcl ', 'Lcl_' );
- if ( innerPropType1.indexOf( 'Lcl ' ) === 0 ) innerPropType1 = innerPropType1.replace( 'Lcl ', 'Lcl_' );
- if ( innerPropType1 === 'Color' || innerPropType1 === 'ColorRGB' || innerPropType1 === 'Vector' || innerPropType1 === 'Vector3D' || innerPropType1.indexOf( 'Lcl_' ) === 0 ) {
- innerPropValue = [
- subNode.propertyList[ 4 ],
- subNode.propertyList[ 5 ],
- subNode.propertyList[ 6 ]
- ];
- } else {
- innerPropValue = subNode.propertyList[ 4 ];
- }
- // this will be copied to parent, see above
- node[ innerPropName ] = {
- 'type': innerPropType1,
- 'type2': innerPropType2,
- 'flag': innerPropFlag,
- 'value': innerPropValue
- };
- } else if ( node[ subNode.name ] === undefined ) {
- if ( typeof subNode.id === 'number' ) {
- node[ subNode.name ] = {};
- node[ subNode.name ][ subNode.id ] = subNode;
- } else {
- node[ subNode.name ] = subNode;
- }
- } else {
- if ( subNode.name === 'PoseNode' ) {
- if ( ! Array.isArray( node[ subNode.name ] ) ) {
- node[ subNode.name ] = [ node[ subNode.name ] ];
- }
- node[ subNode.name ].push( subNode );
- } else if ( node[ subNode.name ][ subNode.id ] === undefined ) {
- node[ subNode.name ][ subNode.id ] = subNode;
- }
- }
- }
- parseProperty( reader ) {
- const type = reader.getString( 1 );
- let length;
- switch ( type ) {
- case 'C':
- return reader.getBoolean();
- case 'D':
- return reader.getFloat64();
- case 'F':
- return reader.getFloat32();
- case 'I':
- return reader.getInt32();
- case 'L':
- return reader.getInt64();
- case 'R':
- length = reader.getUint32();
- return reader.getArrayBuffer( length );
- case 'S':
- length = reader.getUint32();
- return reader.getString( length );
- case 'Y':
- return reader.getInt16();
- case 'b':
- case 'c':
- case 'd':
- case 'f':
- case 'i':
- case 'l':
- const arrayLength = reader.getUint32();
- const encoding = reader.getUint32(); // 0: non-compressed, 1: compressed
- const compressedLength = reader.getUint32();
- if ( encoding === 0 ) {
- switch ( type ) {
- case 'b':
- case 'c':
- return reader.getBooleanArray( arrayLength );
- case 'd':
- return reader.getFloat64Array( arrayLength );
- case 'f':
- return reader.getFloat32Array( arrayLength );
- case 'i':
- return reader.getInt32Array( arrayLength );
- case 'l':
- return reader.getInt64Array( arrayLength );
- }
- }
- if ( typeof fflate === 'undefined' ) {
- console.error( 'THREE.FBXLoader: External library fflate.min.js required.' );
- }
- const data = fflate.unzlibSync( new Uint8Array( reader.getArrayBuffer( compressedLength ) ) ); // eslint-disable-line no-undef
- const reader2 = new BinaryReader( data.buffer );
- switch ( type ) {
- case 'b':
- case 'c':
- return reader2.getBooleanArray( arrayLength );
- case 'd':
- return reader2.getFloat64Array( arrayLength );
- case 'f':
- return reader2.getFloat32Array( arrayLength );
- case 'i':
- return reader2.getInt32Array( arrayLength );
- case 'l':
- return reader2.getInt64Array( arrayLength );
- }
- default:
- throw new Error( 'THREE.FBXLoader: Unknown property type ' + type );
- }
- }
- }
- class BinaryReader {
- constructor( buffer, littleEndian ) {
- this.dv = new DataView( buffer );
- this.offset = 0;
- this.littleEndian = ( littleEndian !== undefined ) ? littleEndian : true;
- }
- getOffset() {
- return this.offset;
- }
- size() {
- return this.dv.buffer.byteLength;
- }
- skip( length ) {
- this.offset += length;
- }
- // seems like true/false representation depends on exporter.
- // true: 1 or 'Y'(=0x59), false: 0 or 'T'(=0x54)
- // then sees LSB.
- getBoolean() {
- return ( this.getUint8() & 1 ) === 1;
- }
- getBooleanArray( size ) {
- const a = [];
- for ( let i = 0; i < size; i ++ ) {
- a.push( this.getBoolean() );
- }
- return a;
- }
- getUint8() {
- const value = this.dv.getUint8( this.offset );
- this.offset += 1;
- return value;
- }
- getInt16() {
- const value = this.dv.getInt16( this.offset, this.littleEndian );
- this.offset += 2;
- return value;
- }
- getInt32() {
- const value = this.dv.getInt32( this.offset, this.littleEndian );
- this.offset += 4;
- return value;
- }
- getInt32Array( size ) {
- const a = [];
- for ( let i = 0; i < size; i ++ ) {
- a.push( this.getInt32() );
- }
- return a;
- }
- getUint32() {
- const value = this.dv.getUint32( this.offset, this.littleEndian );
- this.offset += 4;
- return value;
- }
- // JavaScript doesn't support 64-bit integer so calculate this here
- // 1 << 32 will return 1 so using multiply operation instead here.
- // There's a possibility that this method returns wrong value if the value
- // is out of the range between Number.MAX_SAFE_INTEGER and Number.MIN_SAFE_INTEGER.
- // TODO: safely handle 64-bit integer
- getInt64() {
- let low, high;
- if ( this.littleEndian ) {
- low = this.getUint32();
- high = this.getUint32();
- } else {
- high = this.getUint32();
- low = this.getUint32();
- }
- // calculate negative value
- if ( high & 0x80000000 ) {
- high = ~ high & 0xFFFFFFFF;
- low = ~ low & 0xFFFFFFFF;
- if ( low === 0xFFFFFFFF ) high = ( high + 1 ) & 0xFFFFFFFF;
- low = ( low + 1 ) & 0xFFFFFFFF;
- return - ( high * 0x100000000 + low );
- }
- return high * 0x100000000 + low;
- }
- getInt64Array( size ) {
- const a = [];
- for ( let i = 0; i < size; i ++ ) {
- a.push( this.getInt64() );
- }
- return a;
- }
- // Note: see getInt64() comment
- getUint64() {
- let low, high;
- if ( this.littleEndian ) {
- low = this.getUint32();
- high = this.getUint32();
- } else {
- high = this.getUint32();
- low = this.getUint32();
- }
- return high * 0x100000000 + low;
- }
- getFloat32() {
- const value = this.dv.getFloat32( this.offset, this.littleEndian );
- this.offset += 4;
- return value;
- }
- getFloat32Array( size ) {
- const a = [];
- for ( let i = 0; i < size; i ++ ) {
- a.push( this.getFloat32() );
- }
- return a;
- }
- getFloat64() {
- const value = this.dv.getFloat64( this.offset, this.littleEndian );
- this.offset += 8;
- return value;
- }
- getFloat64Array( size ) {
- const a = [];
- for ( let i = 0; i < size; i ++ ) {
- a.push( this.getFloat64() );
- }
- return a;
- }
- getArrayBuffer( size ) {
- const value = this.dv.buffer.slice( this.offset, this.offset + size );
- this.offset += size;
- return value;
- }
- getString( size ) {
- // note: safari 9 doesn't support Uint8Array.indexOf; create intermediate array instead
- let a = [];
- for ( let i = 0; i < size; i ++ ) {
- a[ i ] = this.getUint8();
- }
- const nullByte = a.indexOf( 0 );
- if ( nullByte >= 0 ) a = a.slice( 0, nullByte );
- return LoaderUtils.decodeText( new Uint8Array( a ) );
- }
- }
- // FBXTree holds a representation of the FBX data, returned by the TextParser ( FBX ASCII format)
- // and BinaryParser( FBX Binary format)
- class FBXTree {
- add( key, val ) {
- this[ key ] = val;
- }
- }
- // ************** UTILITY FUNCTIONS **************
- function isFbxFormatBinary( buffer ) {
- const CORRECT = 'Kaydara\u0020FBX\u0020Binary\u0020\u0020\0';
- return buffer.byteLength >= CORRECT.length && CORRECT === convertArrayBufferToString( buffer, 0, CORRECT.length );
- }
- function isFbxFormatASCII( text ) {
- const CORRECT = [ 'K', 'a', 'y', 'd', 'a', 'r', 'a', '\\', 'F', 'B', 'X', '\\', 'B', 'i', 'n', 'a', 'r', 'y', '\\', '\\' ];
- let cursor = 0;
- function read( offset ) {
- const result = text[ offset - 1 ];
- text = text.slice( cursor + offset );
- cursor ++;
- return result;
- }
- for ( let i = 0; i < CORRECT.length; ++ i ) {
- const num = read( 1 );
- if ( num === CORRECT[ i ] ) {
- return false;
- }
- }
- return true;
- }
- function getFbxVersion( text ) {
- const versionRegExp = /FBXVersion: (\d+)/;
- const match = text.match( versionRegExp );
- if ( match ) {
- const version = parseInt( match[ 1 ] );
- return version;
- }
- throw new Error( 'THREE.FBXLoader: Cannot find the version number for the file given.' );
- }
- // Converts FBX ticks into real time seconds.
- function convertFBXTimeToSeconds( time ) {
- return time / 46186158000;
- }
- const dataArray = [];
- // extracts the data from the correct position in the FBX array based on indexing type
- function getData( polygonVertexIndex, polygonIndex, vertexIndex, infoObject ) {
- let index;
- switch ( infoObject.mappingType ) {
- case 'ByPolygonVertex' :
- index = polygonVertexIndex;
- break;
- case 'ByPolygon' :
- index = polygonIndex;
- break;
- case 'ByVertice' :
- index = vertexIndex;
- break;
- case 'AllSame' :
- index = infoObject.indices[ 0 ];
- break;
- default :
- console.warn( 'THREE.FBXLoader: unknown attribute mapping type ' + infoObject.mappingType );
- }
- if ( infoObject.referenceType === 'IndexToDirect' ) index = infoObject.indices[ index ];
- const from = index * infoObject.dataSize;
- const to = from + infoObject.dataSize;
- return slice( dataArray, infoObject.buffer, from, to );
- }
- const tempEuler = new Euler();
- const tempVec = new Vector3();
- // generate transformation from FBX transform data
- // ref: https://help.autodesk.com/view/FBX/2017/ENU/?guid=__files_GUID_10CDD63C_79C1_4F2D_BB28_AD2BE65A02ED_htm
- // ref: http://docs.autodesk.com/FBX/2014/ENU/FBX-SDK-Documentation/index.html?url=cpp_ref/_transformations_2main_8cxx-example.html,topicNumber=cpp_ref__transformations_2main_8cxx_example_htmlfc10a1e1-b18d-4e72-9dc0-70d0f1959f5e
- function generateTransform( transformData ) {
- const lTranslationM = new Matrix4();
- const lPreRotationM = new Matrix4();
- const lRotationM = new Matrix4();
- const lPostRotationM = new Matrix4();
- const lScalingM = new Matrix4();
- const lScalingPivotM = new Matrix4();
- const lScalingOffsetM = new Matrix4();
- const lRotationOffsetM = new Matrix4();
- const lRotationPivotM = new Matrix4();
- const lParentGX = new Matrix4();
- const lParentLX = new Matrix4();
- const lGlobalT = new Matrix4();
- const inheritType = ( transformData.inheritType ) ? transformData.inheritType : 0;
- if ( transformData.translation ) lTranslationM.setPosition( tempVec.fromArray( transformData.translation ) );
- if ( transformData.preRotation ) {
- const array = transformData.preRotation.map( MathUtils.degToRad );
- array.push( transformData.eulerOrder );
- lPreRotationM.makeRotationFromEuler( tempEuler.fromArray( array ) );
- }
- if ( transformData.rotation ) {
- const array = transformData.rotation.map( MathUtils.degToRad );
- array.push( transformData.eulerOrder );
- lRotationM.makeRotationFromEuler( tempEuler.fromArray( array ) );
- }
- if ( transformData.postRotation ) {
- const array = transformData.postRotation.map( MathUtils.degToRad );
- array.push( transformData.eulerOrder );
- lPostRotationM.makeRotationFromEuler( tempEuler.fromArray( array ) );
- lPostRotationM.invert();
- }
- if ( transformData.scale ) lScalingM.scale( tempVec.fromArray( transformData.scale ) );
- // Pivots and offsets
- if ( transformData.scalingOffset ) lScalingOffsetM.setPosition( tempVec.fromArray( transformData.scalingOffset ) );
- if ( transformData.scalingPivot ) lScalingPivotM.setPosition( tempVec.fromArray( transformData.scalingPivot ) );
- if ( transformData.rotationOffset ) lRotationOffsetM.setPosition( tempVec.fromArray( transformData.rotationOffset ) );
- if ( transformData.rotationPivot ) lRotationPivotM.setPosition( tempVec.fromArray( transformData.rotationPivot ) );
- // parent transform
- if ( transformData.parentMatrixWorld ) {
- lParentLX.copy( transformData.parentMatrix );
- lParentGX.copy( transformData.parentMatrixWorld );
- }
- const lLRM = lPreRotationM.clone().multiply( lRotationM ).multiply( lPostRotationM );
- // Global Rotation
- const lParentGRM = new Matrix4();
- lParentGRM.extractRotation( lParentGX );
- // Global Shear*Scaling
- const lParentTM = new Matrix4();
- lParentTM.copyPosition( lParentGX );
- const lParentGRSM = lParentTM.clone().invert().multiply( lParentGX );
- const lParentGSM = lParentGRM.clone().invert().multiply( lParentGRSM );
- const lLSM = lScalingM;
- const lGlobalRS = new Matrix4();
- if ( inheritType === 0 ) {
- lGlobalRS.copy( lParentGRM ).multiply( lLRM ).multiply( lParentGSM ).multiply( lLSM );
- } else if ( inheritType === 1 ) {
- lGlobalRS.copy( lParentGRM ).multiply( lParentGSM ).multiply( lLRM ).multiply( lLSM );
- } else {
- const lParentLSM = new Matrix4().scale( new Vector3().setFromMatrixScale( lParentLX ) );
- const lParentLSM_inv = lParentLSM.clone().invert();
- const lParentGSM_noLocal = lParentGSM.clone().multiply( lParentLSM_inv );
- lGlobalRS.copy( lParentGRM ).multiply( lLRM ).multiply( lParentGSM_noLocal ).multiply( lLSM );
- }
- const lRotationPivotM_inv = lRotationPivotM.clone().invert();
- const lScalingPivotM_inv = lScalingPivotM.clone().invert();
- // Calculate the local transform matrix
- let lTransform = lTranslationM.clone().multiply( lRotationOffsetM ).multiply( lRotationPivotM ).multiply( lPreRotationM ).multiply( lRotationM ).multiply( lPostRotationM ).multiply( lRotationPivotM_inv ).multiply( lScalingOffsetM ).multiply( lScalingPivotM ).multiply( lScalingM ).multiply( lScalingPivotM_inv );
- const lLocalTWithAllPivotAndOffsetInfo = new Matrix4().copyPosition( lTransform );
- const lGlobalTranslation = lParentGX.clone().multiply( lLocalTWithAllPivotAndOffsetInfo );
- lGlobalT.copyPosition( lGlobalTranslation );
- lTransform = lGlobalT.clone().multiply( lGlobalRS );
- // from global to local
- lTransform.premultiply( lParentGX.invert() );
- return lTransform;
- }
- // Returns the three.js intrinsic Euler order corresponding to FBX extrinsic Euler order
- // ref: http://help.autodesk.com/view/FBX/2017/ENU/?guid=__cpp_ref_class_fbx_euler_html
- function getEulerOrder( order ) {
- order = order || 0;
- const enums = [
- 'ZYX', // -> XYZ extrinsic
- 'YZX', // -> XZY extrinsic
- 'XZY', // -> YZX extrinsic
- 'ZXY', // -> YXZ extrinsic
- 'YXZ', // -> ZXY extrinsic
- 'XYZ', // -> ZYX extrinsic
- //'SphericXYZ', // not possible to support
- ];
- if ( order === 6 ) {
- console.warn( 'THREE.FBXLoader: unsupported Euler Order: Spherical XYZ. Animations and rotations may be incorrect.' );
- return enums[ 0 ];
- }
- return enums[ order ];
- }
- // Parses comma separated list of numbers and returns them an array.
- // Used internally by the TextParser
- function parseNumberArray( value ) {
- const array = value.split( ',' ).map( function ( val ) {
- return parseFloat( val );
- } );
- return array;
- }
- function convertArrayBufferToString( buffer, from, to ) {
- if ( from === undefined ) from = 0;
- if ( to === undefined ) to = buffer.byteLength;
- return LoaderUtils.decodeText( new Uint8Array( buffer, from, to ) );
- }
- function append( a, b ) {
- for ( let i = 0, j = a.length, l = b.length; i < l; i ++, j ++ ) {
- a[ j ] = b[ i ];
- }
- }
- function slice( a, b, from, to ) {
- for ( let i = from, j = 0; i < to; i ++, j ++ ) {
- a[ j ] = b[ i ];
- }
- return a;
- }
- // inject array a2 into array a1 at index
- function inject( a1, index, a2 ) {
- return a1.slice( 0, index ).concat( a2 ).concat( a1.slice( index ) );
- }
- export { FBXLoader };
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