node-ejs-renderer/node_modules/three/examples/jsm/loaders/BVHLoader.js

import {
	AnimationClip,
	Bone,
	FileLoader,
	Loader,
	Quaternion,
	QuaternionKeyframeTrack,
	Skeleton,
	Vector3,
	VectorKeyframeTrack
} from 'three';

/**
 * Description: reads BVH files and outputs a single Skeleton and an AnimationClip
 *
 * Currently only supports bvh files containing a single root.
 *
 */

class BVHLoader extends Loader {

	constructor( manager ) {

		super( manager );

		this.animateBonePositions = true;
		this.animateBoneRotations = true;

	}

	load( url, onLoad, onProgress, onError ) {

		const scope = this;

		const loader = new FileLoader( scope.manager );
		loader.setPath( scope.path );
		loader.setRequestHeader( scope.requestHeader );
		loader.setWithCredentials( scope.withCredentials );
		loader.load( url, function ( text ) {

			try {

				onLoad( scope.parse( text ) );

			} catch ( e ) {

				if ( onError ) {

					onError( e );

				} else {

					console.error( e );

				}

				scope.manager.itemError( url );

			}

		}, onProgress, onError );

	}

	parse( text ) {

		/*
			reads a string array (lines) from a BVH file
			and outputs a skeleton structure including motion data

			returns thee root node:
			{ name: '', channels: [], children: [] }
		*/
		function readBvh( lines ) {

			// read model structure

			if ( nextLine( lines ) !== 'HIERARCHY' ) {

				console.error( 'THREE.BVHLoader: HIERARCHY expected.' );

			}

			const list = []; // collects flat array of all bones
			const root = readNode( lines, nextLine( lines ), list );

			// read motion data

			if ( nextLine( lines ) !== 'MOTION' ) {

				console.error( 'THREE.BVHLoader: MOTION expected.' );

			}

			// number of frames

			let tokens = nextLine( lines ).split( /[\s]+/ );
			const numFrames = parseInt( tokens[ 1 ] );

			if ( isNaN( numFrames ) ) {

				console.error( 'THREE.BVHLoader: Failed to read number of frames.' );

			}

			// frame time

			tokens = nextLine( lines ).split( /[\s]+/ );
			const frameTime = parseFloat( tokens[ 2 ] );

			if ( isNaN( frameTime ) ) {

				console.error( 'THREE.BVHLoader: Failed to read frame time.' );

			}

			// read frame data line by line

			for ( let i = 0; i < numFrames; i ++ ) {

				tokens = nextLine( lines ).split( /[\s]+/ );
				readFrameData( tokens, i * frameTime, root );

			}

			return list;

		}

		/*
			Recursively reads data from a single frame into the bone hierarchy.
			The passed bone hierarchy has to be structured in the same order as the BVH file.
			keyframe data is stored in bone.frames.

			- data: splitted string array (frame values), values are shift()ed so
			this should be empty after parsing the whole hierarchy.
			- frameTime: playback time for this keyframe.
			- bone: the bone to read frame data from.
		*/
		function readFrameData( data, frameTime, bone ) {

			// end sites have no motion data

			if ( bone.type === 'ENDSITE' ) return;

			// add keyframe

			const keyframe = {
				time: frameTime,
				position: new Vector3(),
				rotation: new Quaternion()
			};

			bone.frames.push( keyframe );

			const quat = new Quaternion();

			const vx = new Vector3( 1, 0, 0 );
			const vy = new Vector3( 0, 1, 0 );
			const vz = new Vector3( 0, 0, 1 );

			// parse values for each channel in node

			for ( let i = 0; i < bone.channels.length; i ++ ) {

				switch ( bone.channels[ i ] ) {

					case 'Xposition':
						keyframe.position.x = parseFloat( data.shift().trim() );
						break;
					case 'Yposition':
						keyframe.position.y = parseFloat( data.shift().trim() );
						break;
					case 'Zposition':
						keyframe.position.z = parseFloat( data.shift().trim() );
						break;
					case 'Xrotation':
						quat.setFromAxisAngle( vx, parseFloat( data.shift().trim() ) * Math.PI / 180 );
						keyframe.rotation.multiply( quat );
						break;
					case 'Yrotation':
						quat.setFromAxisAngle( vy, parseFloat( data.shift().trim() ) * Math.PI / 180 );
						keyframe.rotation.multiply( quat );
						break;
					case 'Zrotation':
						quat.setFromAxisAngle( vz, parseFloat( data.shift().trim() ) * Math.PI / 180 );
						keyframe.rotation.multiply( quat );
						break;
					default:
						console.warn( 'THREE.BVHLoader: Invalid channel type.' );

				}

			}

			// parse child nodes

			for ( let i = 0; i < bone.children.length; i ++ ) {

				readFrameData( data, frameTime, bone.children[ i ] );

			}

		}

		/*
		 Recursively parses the HIERACHY section of the BVH file

		 - lines: all lines of the file. lines are consumed as we go along.
		 - firstline: line containing the node type and name e.g. 'JOINT hip'
		 - list: collects a flat list of nodes

		 returns: a BVH node including children
		*/
		function readNode( lines, firstline, list ) {

			const node = { name: '', type: '', frames: [] };
			list.push( node );

			// parse node type and name

			let tokens = firstline.split( /[\s]+/ );

			if ( tokens[ 0 ].toUpperCase() === 'END' && tokens[ 1 ].toUpperCase() === 'SITE' ) {

				node.type = 'ENDSITE';
				node.name = 'ENDSITE'; // bvh end sites have no name

			} else {

				node.name = tokens[ 1 ];
				node.type = tokens[ 0 ].toUpperCase();

			}

			if ( nextLine( lines ) !== '{' ) {

				console.error( 'THREE.BVHLoader: Expected opening { after type & name' );

			}

			// parse OFFSET

			tokens = nextLine( lines ).split( /[\s]+/ );

			if ( tokens[ 0 ] !== 'OFFSET' ) {

				console.error( 'THREE.BVHLoader: Expected OFFSET but got: ' + tokens[ 0 ] );

			}

			if ( tokens.length !== 4 ) {

				console.error( 'THREE.BVHLoader: Invalid number of values for OFFSET.' );

			}

			const offset = new Vector3(
				parseFloat( tokens[ 1 ] ),
				parseFloat( tokens[ 2 ] ),
				parseFloat( tokens[ 3 ] )
			);

			if ( isNaN( offset.x ) || isNaN( offset.y ) || isNaN( offset.z ) ) {

				console.error( 'THREE.BVHLoader: Invalid values of OFFSET.' );

			}

			node.offset = offset;

			// parse CHANNELS definitions

			if ( node.type !== 'ENDSITE' ) {

				tokens = nextLine( lines ).split( /[\s]+/ );

				if ( tokens[ 0 ] !== 'CHANNELS' ) {

					console.error( 'THREE.BVHLoader: Expected CHANNELS definition.' );

				}

				const numChannels = parseInt( tokens[ 1 ] );
				node.channels = tokens.splice( 2, numChannels );
				node.children = [];

			}

			// read children

			while ( true ) {

				const line = nextLine( lines );

				if ( line === '}' ) {

					return node;

				} else {

					node.children.push( readNode( lines, line, list ) );

				}

			}

		}

		/*
			recursively converts the internal bvh node structure to a Bone hierarchy

			source: the bvh root node
			list: pass an empty array, collects a flat list of all converted THREE.Bones

			returns the root Bone
		*/
		function toTHREEBone( source, list ) {

			const bone = new Bone();
			list.push( bone );

			bone.position.add( source.offset );
			bone.name = source.name;

			if ( source.type !== 'ENDSITE' ) {

				for ( let i = 0; i < source.children.length; i ++ ) {

					bone.add( toTHREEBone( source.children[ i ], list ) );

				}

			}

			return bone;

		}

		/*
			builds a AnimationClip from the keyframe data saved in each bone.

			bone: bvh root node

			returns: a AnimationClip containing position and quaternion tracks
		*/
		function toTHREEAnimation( bones ) {

			const tracks = [];

			// create a position and quaternion animation track for each node

			for ( let i = 0; i < bones.length; i ++ ) {

				const bone = bones[ i ];

				if ( bone.type === 'ENDSITE' )
					continue;

				// track data

				const times = [];
				const positions = [];
				const rotations = [];

				for ( let j = 0; j < bone.frames.length; j ++ ) {

					const frame = bone.frames[ j ];

					times.push( frame.time );

					// the animation system animates the position property,
					// so we have to add the joint offset to all values

					positions.push( frame.position.x + bone.offset.x );
					positions.push( frame.position.y + bone.offset.y );
					positions.push( frame.position.z + bone.offset.z );

					rotations.push( frame.rotation.x );
					rotations.push( frame.rotation.y );
					rotations.push( frame.rotation.z );
					rotations.push( frame.rotation.w );

				}

				if ( scope.animateBonePositions ) {

					tracks.push( new VectorKeyframeTrack( bone.name + '.position', times, positions ) );

				}

				if ( scope.animateBoneRotations ) {

					tracks.push( new QuaternionKeyframeTrack( bone.name + '.quaternion', times, rotations ) );

				}

			}

			return new AnimationClip( 'animation', - 1, tracks );

		}

		/*
			returns the next non-empty line in lines
		*/
		function nextLine( lines ) {

			let line;
			// skip empty lines
			while ( ( line = lines.shift().trim() ).length === 0 ) { }

			return line;

		}

		const scope = this;

		const lines = text.split( /[\r\n]+/g );

		const bones = readBvh( lines );

		const threeBones = [];
		toTHREEBone( bones[ 0 ], threeBones );

		const threeClip = toTHREEAnimation( bones );

		return {
			skeleton: new Skeleton( threeBones ),
			clip: threeClip
		};

	}

}

export { BVHLoader };
Main initial commit 2024-06-09 13:55:01 -04:00			`import {`
			`AnimationClip,`
			`Bone,`
			`FileLoader,`
			`Loader,`
			`Quaternion,`
			`QuaternionKeyframeTrack,`
			`Skeleton,`
			`Vector3,`
			`VectorKeyframeTrack`
			`} from 'three';`

			`/**`
			`* Description: reads BVH files and outputs a single Skeleton and an AnimationClip`
			`*`
			`* Currently only supports bvh files containing a single root.`
			`*`
			`*/`

			`class BVHLoader extends Loader {`

			`constructor( manager ) {`

			`super( manager );`

			`this.animateBonePositions = true;`
			`this.animateBoneRotations = true;`

			`}`

			`load( url, onLoad, onProgress, onError ) {`

			`const scope = this;`

			`const loader = new FileLoader( scope.manager );`
			`loader.setPath( scope.path );`
			`loader.setRequestHeader( scope.requestHeader );`
			`loader.setWithCredentials( scope.withCredentials );`
			`loader.load( url, function ( text ) {`

			`try {`

			`onLoad( scope.parse( text ) );`

			`} catch ( e ) {`

			`if ( onError ) {`

			`onError( e );`

			`} else {`

			`console.error( e );`

			`}`

			`scope.manager.itemError( url );`

			`}`

			`}, onProgress, onError );`

			`}`

			`parse( text ) {`

			`/*`
			`reads a string array (lines) from a BVH file`
			`and outputs a skeleton structure including motion data`

			`returns thee root node:`
			`{ name: '', channels: [], children: [] }`
			`*/`
			`function readBvh( lines ) {`

			`// read model structure`

			`if ( nextLine( lines ) !== 'HIERARCHY' ) {`

			`console.error( 'THREE.BVHLoader: HIERARCHY expected.' );`

			`}`

			`const list = []; // collects flat array of all bones`
			`const root = readNode( lines, nextLine( lines ), list );`

			`// read motion data`

			`if ( nextLine( lines ) !== 'MOTION' ) {`

			`console.error( 'THREE.BVHLoader: MOTION expected.' );`

			`}`

			`// number of frames`

			`let tokens = nextLine( lines ).split( /[\s]+/ );`
			`const numFrames = parseInt( tokens[ 1 ] );`

			`if ( isNaN( numFrames ) ) {`

			`console.error( 'THREE.BVHLoader: Failed to read number of frames.' );`

			`}`

			`// frame time`

			`tokens = nextLine( lines ).split( /[\s]+/ );`
			`const frameTime = parseFloat( tokens[ 2 ] );`

			`if ( isNaN( frameTime ) ) {`

			`console.error( 'THREE.BVHLoader: Failed to read frame time.' );`

			`}`

			`// read frame data line by line`

			`for ( let i = 0; i < numFrames; i ++ ) {`

			`tokens = nextLine( lines ).split( /[\s]+/ );`
			`readFrameData( tokens, i * frameTime, root );`

			`}`

			`return list;`

			`}`

			`/*`
			`Recursively reads data from a single frame into the bone hierarchy.`
			`The passed bone hierarchy has to be structured in the same order as the BVH file.`
			`keyframe data is stored in bone.frames.`

			`- data: splitted string array (frame values), values are shift()ed so`
			`this should be empty after parsing the whole hierarchy.`
			`- frameTime: playback time for this keyframe.`
			`- bone: the bone to read frame data from.`
			`*/`
			`function readFrameData( data, frameTime, bone ) {`

			`// end sites have no motion data`

			`if ( bone.type === 'ENDSITE' ) return;`

			`// add keyframe`

			`const keyframe = {`
			`time: frameTime,`
			`position: new Vector3(),`
			`rotation: new Quaternion()`
			`};`

			`bone.frames.push( keyframe );`

			`const quat = new Quaternion();`

			`const vx = new Vector3( 1, 0, 0 );`
			`const vy = new Vector3( 0, 1, 0 );`
			`const vz = new Vector3( 0, 0, 1 );`

			`// parse values for each channel in node`

			`for ( let i = 0; i < bone.channels.length; i ++ ) {`

			`switch ( bone.channels[ i ] ) {`

			`case 'Xposition':`
			`keyframe.position.x = parseFloat( data.shift().trim() );`
			`break;`
			`case 'Yposition':`
			`keyframe.position.y = parseFloat( data.shift().trim() );`
			`break;`
			`case 'Zposition':`
			`keyframe.position.z = parseFloat( data.shift().trim() );`
			`break;`
			`case 'Xrotation':`
			`quat.setFromAxisAngle( vx, parseFloat( data.shift().trim() ) * Math.PI / 180 );`
			`keyframe.rotation.multiply( quat );`
			`break;`
			`case 'Yrotation':`
			`quat.setFromAxisAngle( vy, parseFloat( data.shift().trim() ) * Math.PI / 180 );`
			`keyframe.rotation.multiply( quat );`
			`break;`
			`case 'Zrotation':`
			`quat.setFromAxisAngle( vz, parseFloat( data.shift().trim() ) * Math.PI / 180 );`
			`keyframe.rotation.multiply( quat );`
			`break;`
			`default:`
			`console.warn( 'THREE.BVHLoader: Invalid channel type.' );`

			`}`

			`}`

			`// parse child nodes`

			`for ( let i = 0; i < bone.children.length; i ++ ) {`

			`readFrameData( data, frameTime, bone.children[ i ] );`

			`}`

			`}`

			`/*`
			`Recursively parses the HIERACHY section of the BVH file`

			`- lines: all lines of the file. lines are consumed as we go along.`
			`- firstline: line containing the node type and name e.g. 'JOINT hip'`
			`- list: collects a flat list of nodes`

			`returns: a BVH node including children`
			`*/`
			`function readNode( lines, firstline, list ) {`

			`const node = { name: '', type: '', frames: [] };`
			`list.push( node );`

			`// parse node type and name`

			`let tokens = firstline.split( /[\s]+/ );`

			`if ( tokens[ 0 ].toUpperCase() === 'END' && tokens[ 1 ].toUpperCase() === 'SITE' ) {`

			`node.type = 'ENDSITE';`
			`node.name = 'ENDSITE'; // bvh end sites have no name`

			`} else {`

			`node.name = tokens[ 1 ];`
			`node.type = tokens[ 0 ].toUpperCase();`

			`}`

			`if ( nextLine( lines ) !== '{' ) {`

			`console.error( 'THREE.BVHLoader: Expected opening { after type & name' );`

			`}`

			`// parse OFFSET`

			`tokens = nextLine( lines ).split( /[\s]+/ );`

			`if ( tokens[ 0 ] !== 'OFFSET' ) {`

			`console.error( 'THREE.BVHLoader: Expected OFFSET but got: ' + tokens[ 0 ] );`

			`}`

			`if ( tokens.length !== 4 ) {`

			`console.error( 'THREE.BVHLoader: Invalid number of values for OFFSET.' );`

			`}`

			`const offset = new Vector3(`
			`parseFloat( tokens[ 1 ] ),`
			`parseFloat( tokens[ 2 ] ),`
			`parseFloat( tokens[ 3 ] )`
			`);`

			`if ( isNaN( offset.x ) \|\| isNaN( offset.y ) \|\| isNaN( offset.z ) ) {`

			`console.error( 'THREE.BVHLoader: Invalid values of OFFSET.' );`

			`}`

			`node.offset = offset;`

			`// parse CHANNELS definitions`

			`if ( node.type !== 'ENDSITE' ) {`

			`tokens = nextLine( lines ).split( /[\s]+/ );`

			`if ( tokens[ 0 ] !== 'CHANNELS' ) {`

			`console.error( 'THREE.BVHLoader: Expected CHANNELS definition.' );`

			`}`

			`const numChannels = parseInt( tokens[ 1 ] );`
			`node.channels = tokens.splice( 2, numChannels );`
			`node.children = [];`

			`}`

			`// read children`

			`while ( true ) {`

			`const line = nextLine( lines );`

			`if ( line === '}' ) {`

			`return node;`

			`} else {`

			`node.children.push( readNode( lines, line, list ) );`

			`}`

			`}`

			`}`

			`/*`
			`recursively converts the internal bvh node structure to a Bone hierarchy`

			`source: the bvh root node`
			`list: pass an empty array, collects a flat list of all converted THREE.Bones`

			`returns the root Bone`
			`*/`
			`function toTHREEBone( source, list ) {`

			`const bone = new Bone();`
			`list.push( bone );`

			`bone.position.add( source.offset );`
			`bone.name = source.name;`

			`if ( source.type !== 'ENDSITE' ) {`

			`for ( let i = 0; i < source.children.length; i ++ ) {`

			`bone.add( toTHREEBone( source.children[ i ], list ) );`

			`}`

			`}`

			`return bone;`

			`}`

			`/*`
			`builds a AnimationClip from the keyframe data saved in each bone.`

			`bone: bvh root node`

			`returns: a AnimationClip containing position and quaternion tracks`
			`*/`
			`function toTHREEAnimation( bones ) {`

			`const tracks = [];`

			`// create a position and quaternion animation track for each node`

			`for ( let i = 0; i < bones.length; i ++ ) {`

			`const bone = bones[ i ];`

			`if ( bone.type === 'ENDSITE' )`
			`continue;`

			`// track data`

			`const times = [];`
			`const positions = [];`
			`const rotations = [];`

			`for ( let j = 0; j < bone.frames.length; j ++ ) {`

			`const frame = bone.frames[ j ];`

			`times.push( frame.time );`

			`// the animation system animates the position property,`
			`// so we have to add the joint offset to all values`

			`positions.push( frame.position.x + bone.offset.x );`
			`positions.push( frame.position.y + bone.offset.y );`
			`positions.push( frame.position.z + bone.offset.z );`

			`rotations.push( frame.rotation.x );`
			`rotations.push( frame.rotation.y );`
			`rotations.push( frame.rotation.z );`
			`rotations.push( frame.rotation.w );`

			`}`

			`if ( scope.animateBonePositions ) {`

			`tracks.push( new VectorKeyframeTrack( bone.name + '.position', times, positions ) );`

			`}`

			`if ( scope.animateBoneRotations ) {`

			`tracks.push( new QuaternionKeyframeTrack( bone.name + '.quaternion', times, rotations ) );`

			`}`

			`}`

			`return new AnimationClip( 'animation', - 1, tracks );`

			`}`

			`/*`
			`returns the next non-empty line in lines`
			`*/`
			`function nextLine( lines ) {`

			`let line;`
			`// skip empty lines`
			`while ( ( line = lines.shift().trim() ).length === 0 ) { }`

			`return line;`

			`}`

			`const scope = this;`

			`const lines = text.split( /[\r\n]+/g );`

			`const bones = readBvh( lines );`

			`const threeBones = [];`
			`toTHREEBone( bones[ 0 ], threeBones );`

			`const threeClip = toTHREEAnimation( bones );`

			`return {`
			`skeleton: new Skeleton( threeBones ),`
			`clip: threeClip`
			`};`

			`}`

			`}`

			`export { BVHLoader };`