import { Box2, Camera, Color, Matrix3, Matrix4, Object3D, Vector3 } from 'three'; import { Projector } from '../renderers/Projector.js'; import { RenderableFace } from '../renderers/Projector.js'; import { RenderableLine } from '../renderers/Projector.js'; import { RenderableSprite } from '../renderers/Projector.js'; class SVGObject extends Object3D { constructor( node ) { super(); this.node = node; } } SVGObject.prototype.isSVGObject = true; class SVGRenderer { constructor() { let _renderData, _elements, _lights, _svgWidth, _svgHeight, _svgWidthHalf, _svgHeightHalf, _v1, _v2, _v3, _svgNode, _pathCount = 0, _precision = null, _quality = 1, _currentPath, _currentStyle; const _this = this, _clipBox = new Box2(), _elemBox = new Box2(), _color = new Color(), _diffuseColor = new Color(), _ambientLight = new Color(), _directionalLights = new Color(), _pointLights = new Color(), _clearColor = new Color(), _vector3 = new Vector3(), // Needed for PointLight _centroid = new Vector3(), _normal = new Vector3(), _normalViewMatrix = new Matrix3(), _viewMatrix = new Matrix4(), _viewProjectionMatrix = new Matrix4(), _svgPathPool = [], _projector = new Projector(), _svg = document.createElementNS( 'http://www.w3.org/2000/svg', 'svg' ); this.domElement = _svg; this.autoClear = true; this.sortObjects = true; this.sortElements = true; this.overdraw = 0.5; this.info = { render: { vertices: 0, faces: 0 } }; this.setQuality = function ( quality ) { switch ( quality ) { case 'high': _quality = 1; break; case 'low': _quality = 0; break; } }; this.setClearColor = function ( color ) { _clearColor.set( color ); }; this.setPixelRatio = function () {}; this.setSize = function ( width, height ) { _svgWidth = width; _svgHeight = height; _svgWidthHalf = _svgWidth / 2; _svgHeightHalf = _svgHeight / 2; _svg.setAttribute( 'viewBox', ( - _svgWidthHalf ) + ' ' + ( - _svgHeightHalf ) + ' ' + _svgWidth + ' ' + _svgHeight ); _svg.setAttribute( 'width', _svgWidth ); _svg.setAttribute( 'height', _svgHeight ); _clipBox.min.set( - _svgWidthHalf, - _svgHeightHalf ); _clipBox.max.set( _svgWidthHalf, _svgHeightHalf ); }; this.getSize = function () { return { width: _svgWidth, height: _svgHeight }; }; this.setPrecision = function ( precision ) { _precision = precision; }; function removeChildNodes() { _pathCount = 0; while ( _svg.childNodes.length > 0 ) { _svg.removeChild( _svg.childNodes[ 0 ] ); } } function convert( c ) { return _precision !== null ? c.toFixed( _precision ) : c; } this.clear = function () { removeChildNodes(); _svg.style.backgroundColor = _clearColor.getStyle(); }; this.render = function ( scene, camera ) { if ( camera instanceof Camera === false ) { console.error( 'THREE.SVGRenderer.render: camera is not an instance of Camera.' ); return; } const background = scene.background; if ( background && background.isColor ) { removeChildNodes(); _svg.style.backgroundColor = background.getStyle(); } else if ( this.autoClear === true ) { this.clear(); } _this.info.render.vertices = 0; _this.info.render.faces = 0; _viewMatrix.copy( camera.matrixWorldInverse ); _viewProjectionMatrix.multiplyMatrices( camera.projectionMatrix, _viewMatrix ); _renderData = _projector.projectScene( scene, camera, this.sortObjects, this.sortElements ); _elements = _renderData.elements; _lights = _renderData.lights; _normalViewMatrix.getNormalMatrix( camera.matrixWorldInverse ); calculateLights( _lights ); // reset accumulated path _currentPath = ''; _currentStyle = ''; for ( let e = 0, el = _elements.length; e < el; e ++ ) { const element = _elements[ e ]; const material = element.material; if ( material === undefined || material.opacity === 0 ) continue; _elemBox.makeEmpty(); if ( element instanceof RenderableSprite ) { _v1 = element; _v1.x *= _svgWidthHalf; _v1.y *= - _svgHeightHalf; renderSprite( _v1, element, material ); } else if ( element instanceof RenderableLine ) { _v1 = element.v1; _v2 = element.v2; _v1.positionScreen.x *= _svgWidthHalf; _v1.positionScreen.y *= - _svgHeightHalf; _v2.positionScreen.x *= _svgWidthHalf; _v2.positionScreen.y *= - _svgHeightHalf; _elemBox.setFromPoints( [ _v1.positionScreen, _v2.positionScreen ] ); if ( _clipBox.intersectsBox( _elemBox ) === true ) { renderLine( _v1, _v2, element, material ); } } else if ( element instanceof RenderableFace ) { _v1 = element.v1; _v2 = element.v2; _v3 = element.v3; if ( _v1.positionScreen.z < - 1 || _v1.positionScreen.z > 1 ) continue; if ( _v2.positionScreen.z < - 1 || _v2.positionScreen.z > 1 ) continue; if ( _v3.positionScreen.z < - 1 || _v3.positionScreen.z > 1 ) continue; _v1.positionScreen.x *= _svgWidthHalf; _v1.positionScreen.y *= - _svgHeightHalf; _v2.positionScreen.x *= _svgWidthHalf; _v2.positionScreen.y *= - _svgHeightHalf; _v3.positionScreen.x *= _svgWidthHalf; _v3.positionScreen.y *= - _svgHeightHalf; if ( this.overdraw > 0 ) { expand( _v1.positionScreen, _v2.positionScreen, this.overdraw ); expand( _v2.positionScreen, _v3.positionScreen, this.overdraw ); expand( _v3.positionScreen, _v1.positionScreen, this.overdraw ); } _elemBox.setFromPoints( [ _v1.positionScreen, _v2.positionScreen, _v3.positionScreen ] ); if ( _clipBox.intersectsBox( _elemBox ) === true ) { renderFace3( _v1, _v2, _v3, element, material ); } } } flushPath(); // just to flush last svg:path scene.traverseVisible( function ( object ) { if ( object.isSVGObject ) { _vector3.setFromMatrixPosition( object.matrixWorld ); _vector3.applyMatrix4( _viewProjectionMatrix ); if ( _vector3.z < - 1 || _vector3.z > 1 ) return; const x = _vector3.x * _svgWidthHalf; const y = - _vector3.y * _svgHeightHalf; const node = object.node; node.setAttribute( 'transform', 'translate(' + x + ',' + y + ')' ); _svg.appendChild( node ); } } ); }; function calculateLights( lights ) { _ambientLight.setRGB( 0, 0, 0 ); _directionalLights.setRGB( 0, 0, 0 ); _pointLights.setRGB( 0, 0, 0 ); for ( let l = 0, ll = lights.length; l < ll; l ++ ) { const light = lights[ l ]; const lightColor = light.color; if ( light.isAmbientLight ) { _ambientLight.r += lightColor.r; _ambientLight.g += lightColor.g; _ambientLight.b += lightColor.b; } else if ( light.isDirectionalLight ) { _directionalLights.r += lightColor.r; _directionalLights.g += lightColor.g; _directionalLights.b += lightColor.b; } else if ( light.isPointLight ) { _pointLights.r += lightColor.r; _pointLights.g += lightColor.g; _pointLights.b += lightColor.b; } } } function calculateLight( lights, position, normal, color ) { for ( let l = 0, ll = lights.length; l < ll; l ++ ) { const light = lights[ l ]; const lightColor = light.color; if ( light.isDirectionalLight ) { const lightPosition = _vector3.setFromMatrixPosition( light.matrixWorld ).normalize(); let amount = normal.dot( lightPosition ); if ( amount <= 0 ) continue; amount *= light.intensity; color.r += lightColor.r * amount; color.g += lightColor.g * amount; color.b += lightColor.b * amount; } else if ( light.isPointLight ) { const lightPosition = _vector3.setFromMatrixPosition( light.matrixWorld ); let amount = normal.dot( _vector3.subVectors( lightPosition, position ).normalize() ); if ( amount <= 0 ) continue; amount *= light.distance == 0 ? 1 : 1 - Math.min( position.distanceTo( lightPosition ) / light.distance, 1 ); if ( amount == 0 ) continue; amount *= light.intensity; color.r += lightColor.r * amount; color.g += lightColor.g * amount; color.b += lightColor.b * amount; } } } function renderSprite( v1, element, material ) { let scaleX = element.scale.x * _svgWidthHalf; let scaleY = element.scale.y * _svgHeightHalf; if ( material.isPointsMaterial ) { scaleX *= material.size; scaleY *= material.size; } const path = 'M' + convert( v1.x - scaleX * 0.5 ) + ',' + convert( v1.y - scaleY * 0.5 ) + 'h' + convert( scaleX ) + 'v' + convert( scaleY ) + 'h' + convert( - scaleX ) + 'z'; let style = ''; if ( material.isSpriteMaterial || material.isPointsMaterial ) { style = 'fill:' + material.color.getStyle() + ';fill-opacity:' + material.opacity; } addPath( style, path ); } function renderLine( v1, v2, element, material ) { const path = 'M' + convert( v1.positionScreen.x ) + ',' + convert( v1.positionScreen.y ) + 'L' + convert( v2.positionScreen.x ) + ',' + convert( v2.positionScreen.y ); if ( material.isLineBasicMaterial ) { let style = 'fill:none;stroke:' + material.color.getStyle() + ';stroke-opacity:' + material.opacity + ';stroke-width:' + material.linewidth + ';stroke-linecap:' + material.linecap; if ( material.isLineDashedMaterial ) { style = style + ';stroke-dasharray:' + material.dashSize + ',' + material.gapSize; } addPath( style, path ); } } function renderFace3( v1, v2, v3, element, material ) { _this.info.render.vertices += 3; _this.info.render.faces ++; const path = 'M' + convert( v1.positionScreen.x ) + ',' + convert( v1.positionScreen.y ) + 'L' + convert( v2.positionScreen.x ) + ',' + convert( v2.positionScreen.y ) + 'L' + convert( v3.positionScreen.x ) + ',' + convert( v3.positionScreen.y ) + 'z'; let style = ''; if ( material.isMeshBasicMaterial ) { _color.copy( material.color ); if ( material.vertexColors ) { _color.multiply( element.color ); } } else if ( material.isMeshLambertMaterial || material.isMeshPhongMaterial || material.isMeshStandardMaterial ) { _diffuseColor.copy( material.color ); if ( material.vertexColors ) { _diffuseColor.multiply( element.color ); } _color.copy( _ambientLight ); _centroid.copy( v1.positionWorld ).add( v2.positionWorld ).add( v3.positionWorld ).divideScalar( 3 ); calculateLight( _lights, _centroid, element.normalModel, _color ); _color.multiply( _diffuseColor ).add( material.emissive ); } else if ( material.isMeshNormalMaterial ) { _normal.copy( element.normalModel ).applyMatrix3( _normalViewMatrix ).normalize(); _color.setRGB( _normal.x, _normal.y, _normal.z ).multiplyScalar( 0.5 ).addScalar( 0.5 ); } if ( material.wireframe ) { style = 'fill:none;stroke:' + _color.getStyle() + ';stroke-opacity:' + material.opacity + ';stroke-width:' + material.wireframeLinewidth + ';stroke-linecap:' + material.wireframeLinecap + ';stroke-linejoin:' + material.wireframeLinejoin; } else { style = 'fill:' + _color.getStyle() + ';fill-opacity:' + material.opacity; } addPath( style, path ); } // Hide anti-alias gaps function expand( v1, v2, pixels ) { let x = v2.x - v1.x, y = v2.y - v1.y; const det = x * x + y * y; if ( det === 0 ) return; const idet = pixels / Math.sqrt( det ); x *= idet; y *= idet; v2.x += x; v2.y += y; v1.x -= x; v1.y -= y; } function addPath( style, path ) { if ( _currentStyle === style ) { _currentPath += path; } else { flushPath(); _currentStyle = style; _currentPath = path; } } function flushPath() { if ( _currentPath ) { _svgNode = getPathNode( _pathCount ++ ); _svgNode.setAttribute( 'd', _currentPath ); _svgNode.setAttribute( 'style', _currentStyle ); _svg.appendChild( _svgNode ); } _currentPath = ''; _currentStyle = ''; } function getPathNode( id ) { if ( _svgPathPool[ id ] == null ) { _svgPathPool[ id ] = document.createElementNS( 'http://www.w3.org/2000/svg', 'path' ); if ( _quality == 0 ) { _svgPathPool[ id ].setAttribute( 'shape-rendering', 'crispEdges' ); //optimizeSpeed } return _svgPathPool[ id ]; } return _svgPathPool[ id ]; } } } export { SVGObject, SVGRenderer };