"use strict"; let Canvas = require('canvas'); let src = require('fs').readFileSync(__dirname + '/node_modules/three/three.js'); let src2 = require('fs').readFileSync(__dirname + '/node_modules/three/CanvasRenderer.js'); let width = Math.floor(1134); let height = Math.floor(768 ); let window = { innerWidth: width, innerHeight: height }; let document = { createElement: function(name) { if (name == "canvas") { return new Canvas(width, height); } } }; Canvas.Image.prototype.addEventListener = function(type, listener, useCapture) { this['on' + type] = listener; }; Canvas.prototype.addEventListener = function(type, listener, useCapture) { this['on' + type] = listener; }; eval('(function(window, document) {' + src.toString('utf-8').replace('var THREE', 'var THREE = window.THREE') + '})(window, document);' ); let THREE = window.THREE; /** * @author mrdoob / http://mrdoob.com/ * @author supereggbert / http://www.paulbrunt.co.uk/ * @author julianwa / https://github.com/julianwa */ THREE.RenderableObject = function () { this.id = 0; this.object = null; this.z = 0; this.renderOrder = 0; }; // THREE.RenderableFace = function () { this.id = 0; this.v1 = new THREE.RenderableVertex(); this.v2 = new THREE.RenderableVertex(); this.v3 = new THREE.RenderableVertex(); this.normalModel = new THREE.Vector3(); this.vertexNormalsModel = [ new THREE.Vector3(), new THREE.Vector3(), new THREE.Vector3() ]; this.vertexNormalsLength = 0; this.color = new THREE.Color(); this.material = null; this.uvs = [ new THREE.Vector2(), new THREE.Vector2(), new THREE.Vector2() ]; this.z = 0; this.renderOrder = 0; }; // THREE.RenderableVertex = function () { this.position = new THREE.Vector3(); this.positionWorld = new THREE.Vector3(); this.positionScreen = new THREE.Vector4(); this.visible = true; }; THREE.RenderableVertex.prototype.copy = function ( vertex ) { this.positionWorld.copy( vertex.positionWorld ); this.positionScreen.copy( vertex.positionScreen ); }; // THREE.RenderableLine = function () { this.id = 0; this.v1 = new THREE.RenderableVertex(); this.v2 = new THREE.RenderableVertex(); this.vertexColors = [ new THREE.Color(), new THREE.Color() ]; this.material = null; this.z = 0; this.renderOrder = 0; }; // THREE.RenderableSprite = function () { this.id = 0; this.object = null; this.x = 0; this.y = 0; this.z = 0; this.rotation = 0; this.scale = new THREE.Vector2(); this.material = null; this.renderOrder = 0; }; // THREE.Projector = function () { var _object, _objectCount, _objectPool = [], _objectPoolLength = 0, _vertex, _vertexCount, _vertexPool = [], _vertexPoolLength = 0, _face, _faceCount, _facePool = [], _facePoolLength = 0, _line, _lineCount, _linePool = [], _linePoolLength = 0, _sprite, _spriteCount, _spritePool = [], _spritePoolLength = 0, _renderData = { objects: [], lights: [], elements: [] }, _vector3 = new THREE.Vector3(), _vector4 = new THREE.Vector4(), _clipBox = new THREE.Box3( new THREE.Vector3( - 1, - 1, - 1 ), new THREE.Vector3( 1, 1, 1 ) ), _boundingBox = new THREE.Box3(), _points3 = new Array( 3 ), _points4 = new Array( 4 ), _viewMatrix = new THREE.Matrix4(), _viewProjectionMatrix = new THREE.Matrix4(), _modelMatrix, _modelViewProjectionMatrix = new THREE.Matrix4(), _normalMatrix = new THREE.Matrix3(), _frustum = new THREE.Frustum(), _clippedVertex1PositionScreen = new THREE.Vector4(), _clippedVertex2PositionScreen = new THREE.Vector4(); // this.projectVector = function ( vector, camera ) { console.warn( 'THREE.Projector: .projectVector() is now vector.project().' ); vector.project( camera ); }; this.unprojectVector = function ( vector, camera ) { console.warn( 'THREE.Projector: .unprojectVector() is now vector.unproject().' ); vector.unproject( camera ); }; this.pickingRay = function ( vector, camera ) { console.error( 'THREE.Projector: .pickingRay() is now raycaster.setFromCamera().' ); }; // var RenderList = function () { var normals = []; var uvs = []; var object = null; var material = null; var normalMatrix = new THREE.Matrix3(); var setObject = function ( value ) { object = value; material = object.material; normalMatrix.getNormalMatrix( object.matrixWorld ); normals.length = 0; uvs.length = 0; }; var projectVertex = function ( vertex ) { var position = vertex.position; var positionWorld = vertex.positionWorld; var positionScreen = vertex.positionScreen; positionWorld.copy( position ).applyMatrix4( _modelMatrix ); positionScreen.copy( positionWorld ).applyMatrix4( _viewProjectionMatrix ); var invW = 1 / positionScreen.w; positionScreen.x *= invW; positionScreen.y *= invW; positionScreen.z *= invW; vertex.visible = positionScreen.x >= - 1 && positionScreen.x <= 1 && positionScreen.y >= - 1 && positionScreen.y <= 1 && positionScreen.z >= - 1 && positionScreen.z <= 1; }; var pushVertex = function ( x, y, z ) { _vertex = getNextVertexInPool(); _vertex.position.set( x, y, z ); projectVertex( _vertex ); }; var pushNormal = function ( x, y, z ) { normals.push( x, y, z ); }; var pushUv = function ( x, y ) { uvs.push( x, y ); }; var checkTriangleVisibility = function ( v1, v2, v3 ) { if ( v1.visible === true || v2.visible === true || v3.visible === true ) return true; _points3[ 0 ] = v1.positionScreen; _points3[ 1 ] = v2.positionScreen; _points3[ 2 ] = v3.positionScreen; return _clipBox.isIntersectionBox( _boundingBox.setFromPoints( _points3 ) ); }; var checkBackfaceCulling = function ( v1, v2, v3 ) { return ( ( v3.positionScreen.x - v1.positionScreen.x ) * ( v2.positionScreen.y - v1.positionScreen.y ) - ( v3.positionScreen.y - v1.positionScreen.y ) * ( v2.positionScreen.x - v1.positionScreen.x ) ) < 0; }; var pushLine = function ( a, b ) { var v1 = _vertexPool[ a ]; var v2 = _vertexPool[ b ]; _line = getNextLineInPool(); _line.id = object.id; _line.v1.copy( v1 ); _line.v2.copy( v2 ); _line.z = ( v1.positionScreen.z + v2.positionScreen.z ) / 2; _line.renderOrder = object.renderOrder; _line.material = object.material; _renderData.elements.push( _line ); }; var pushTriangle = function ( a, b, c ) { var v1 = _vertexPool[ a ]; var v2 = _vertexPool[ b ]; var v3 = _vertexPool[ c ]; if ( checkTriangleVisibility( v1, v2, v3 ) === false ) return; if ( material.side === THREE.DoubleSide || checkBackfaceCulling( v1, v2, v3 ) === true ) { _face = getNextFaceInPool(); _face.id = object.id; _face.v1.copy( v1 ); _face.v2.copy( v2 ); _face.v3.copy( v3 ); _face.z = ( v1.positionScreen.z + v2.positionScreen.z + v3.positionScreen.z ) / 3; _face.renderOrder = object.renderOrder; // use first vertex normal as face normal _face.normalModel.fromArray( normals, a * 3 ); _face.normalModel.applyMatrix3( normalMatrix ).normalize(); for ( var i = 0; i < 3; i ++ ) { var normal = _face.vertexNormalsModel[ i ]; normal.fromArray( normals, arguments[ i ] * 3 ); normal.applyMatrix3( normalMatrix ).normalize(); var uv = _face.uvs[ i ]; uv.fromArray( uvs, arguments[ i ] * 2 ); } _face.vertexNormalsLength = 3; _face.material = object.material; _renderData.elements.push( _face ); } }; return { setObject: setObject, projectVertex: projectVertex, checkTriangleVisibility: checkTriangleVisibility, checkBackfaceCulling: checkBackfaceCulling, pushVertex: pushVertex, pushNormal: pushNormal, pushUv: pushUv, pushLine: pushLine, pushTriangle: pushTriangle } }; var renderList = new RenderList(); this.projectScene = function ( scene, camera, sortObjects, sortElements ) { _faceCount = 0; _lineCount = 0; _spriteCount = 0; _renderData.elements.length = 0; if ( scene.autoUpdate === true ) scene.updateMatrixWorld(); if ( camera.parent === null ) camera.updateMatrixWorld(); _viewMatrix.copy( camera.matrixWorldInverse.getInverse( camera.matrixWorld ) ); _viewProjectionMatrix.multiplyMatrices( camera.projectionMatrix, _viewMatrix ); _frustum.setFromMatrix( _viewProjectionMatrix ); // _objectCount = 0; _renderData.objects.length = 0; _renderData.lights.length = 0; scene.traverseVisible( function ( object ) { if ( object instanceof THREE.Light ) { _renderData.lights.push( object ); } else if ( object instanceof THREE.Mesh || object instanceof THREE.Line || object instanceof THREE.Sprite ) { var material = object.material; if ( material.visible === false ) return; if ( object.frustumCulled === false || _frustum.intersectsObject( object ) === true ) { _object = getNextObjectInPool(); _object.id = object.id; _object.object = object; _vector3.setFromMatrixPosition( object.matrixWorld ); _vector3.applyProjection( _viewProjectionMatrix ); _object.z = _vector3.z; _object.renderOrder = object.renderOrder; _renderData.objects.push( _object ); } } } ); if ( sortObjects === true ) { _renderData.objects.sort( painterSort ); } // for ( var o = 0, ol = _renderData.objects.length; o < ol; o ++ ) { var object = _renderData.objects[ o ].object; var geometry = object.geometry; renderList.setObject( object ); _modelMatrix = object.matrixWorld; _vertexCount = 0; if ( object instanceof THREE.Mesh ) { if ( geometry instanceof THREE.BufferGeometry ) { var attributes = geometry.attributes; var groups = geometry.groups; if ( attributes.position === undefined ) continue; var positions = attributes.position.array; for ( var i = 0, l = positions.length; i < l; i += 3 ) { renderList.pushVertex( positions[ i ], positions[ i + 1 ], positions[ i + 2 ] ); } if ( attributes.normal !== undefined ) { var normals = attributes.normal.array; for ( var i = 0, l = normals.length; i < l; i += 3 ) { renderList.pushNormal( normals[ i ], normals[ i + 1 ], normals[ i + 2 ] ); } } if ( attributes.uv !== undefined ) { var uvs = attributes.uv.array; for ( var i = 0, l = uvs.length; i < l; i += 2 ) { renderList.pushUv( uvs[ i ], uvs[ i + 1 ] ); } } if ( geometry.index !== null ) { var indices = geometry.index.array; if ( groups.length > 0 ) { for ( var o = 0; o < groups.length; o ++ ) { var group = groups[ o ]; for ( var i = group.start, l = group.start + group.count; i < l; i += 3 ) { renderList.pushTriangle( indices[ i ], indices[ i + 1 ], indices[ i + 2 ] ); } } } else { for ( var i = 0, l = indices.length; i < l; i += 3 ) { renderList.pushTriangle( indices[ i ], indices[ i + 1 ], indices[ i + 2 ] ); } } } else { for ( var i = 0, l = positions.length / 3; i < l; i += 3 ) { renderList.pushTriangle( i, i + 1, i + 2 ); } } } else if ( geometry instanceof THREE.Geometry ) { var vertices = geometry.vertices; var faces = geometry.faces; var faceVertexUvs = geometry.faceVertexUvs[ 0 ]; _normalMatrix.getNormalMatrix( _modelMatrix ); var material = object.material; var isFaceMaterial = material instanceof THREE.MeshFaceMaterial; var objectMaterials = isFaceMaterial === true ? object.material : null; for ( var v = 0, vl = vertices.length; v < vl; v ++ ) { var vertex = vertices[ v ]; _vector3.copy( vertex ); if ( material.morphTargets === true ) { var morphTargets = geometry.morphTargets; var morphInfluences = object.morphTargetInfluences; for ( var t = 0, tl = morphTargets.length; t < tl; t ++ ) { var influence = morphInfluences[ t ]; if ( influence === 0 ) continue; var target = morphTargets[ t ]; var targetVertex = target.vertices[ v ]; _vector3.x += ( targetVertex.x - vertex.x ) * influence; _vector3.y += ( targetVertex.y - vertex.y ) * influence; _vector3.z += ( targetVertex.z - vertex.z ) * influence; } } renderList.pushVertex( _vector3.x, _vector3.y, _vector3.z ); } for ( var f = 0, fl = faces.length; f < fl; f ++ ) { var face = faces[ f ]; material = isFaceMaterial === true ? objectMaterials.materials[ face.materialIndex ] : object.material; if ( material === undefined ) continue; var side = material.side; var v1 = _vertexPool[ face.a ]; var v2 = _vertexPool[ face.b ]; var v3 = _vertexPool[ face.c ]; if ( renderList.checkTriangleVisibility( v1, v2, v3 ) === false ) continue; var visible = renderList.checkBackfaceCulling( v1, v2, v3 ); if ( side !== THREE.DoubleSide ) { if ( side === THREE.FrontSide && visible === false ) continue; if ( side === THREE.BackSide && visible === true ) continue; } _face = getNextFaceInPool(); _face.id = object.id; _face.v1.copy( v1 ); _face.v2.copy( v2 ); _face.v3.copy( v3 ); _face.normalModel.copy( face.normal ); if ( visible === false && ( side === THREE.BackSide || side === THREE.DoubleSide ) ) { _face.normalModel.negate(); } _face.normalModel.applyMatrix3( _normalMatrix ).normalize(); var faceVertexNormals = face.vertexNormals; for ( var n = 0, nl = Math.min( faceVertexNormals.length, 3 ); n < nl; n ++ ) { var normalModel = _face.vertexNormalsModel[ n ]; normalModel.copy( faceVertexNormals[ n ] ); if ( visible === false && ( side === THREE.BackSide || side === THREE.DoubleSide ) ) { normalModel.negate(); } normalModel.applyMatrix3( _normalMatrix ).normalize(); } _face.vertexNormalsLength = faceVertexNormals.length; var vertexUvs = faceVertexUvs[ f ]; if ( vertexUvs !== undefined ) { for ( var u = 0; u < 3; u ++ ) { _face.uvs[ u ].copy( vertexUvs[ u ] ); } } _face.color = face.color; _face.material = material; _face.z = ( v1.positionScreen.z + v2.positionScreen.z + v3.positionScreen.z ) / 3; _face.renderOrder = object.renderOrder; _renderData.elements.push( _face ); } } } else if ( object instanceof THREE.Line ) { if ( geometry instanceof THREE.BufferGeometry ) { var attributes = geometry.attributes; if ( attributes.position !== undefined ) { var positions = attributes.position.array; for ( var i = 0, l = positions.length; i < l; i += 3 ) { renderList.pushVertex( positions[ i ], positions[ i + 1 ], positions[ i + 2 ] ); } if ( geometry.index !== null ) { var indices = geometry.index.array; for ( var i = 0, l = indices.length; i < l; i += 2 ) { renderList.pushLine( indices[ i ], indices[ i + 1 ] ); } } else { var step = object instanceof THREE.LineSegments ? 2 : 1; for ( var i = 0, l = ( positions.length / 3 ) - 1; i < l; i += step ) { renderList.pushLine( i, i + 1 ); } } } } else if ( geometry instanceof THREE.Geometry ) { _modelViewProjectionMatrix.multiplyMatrices( _viewProjectionMatrix, _modelMatrix ); var vertices = object.geometry.vertices; if ( vertices.length === 0 ) continue; v1 = getNextVertexInPool(); v1.positionScreen.copy( vertices[ 0 ] ).applyMatrix4( _modelViewProjectionMatrix ); var step = object instanceof THREE.LineSegments ? 2 : 1; for ( var v = 1, vl = vertices.length; v < vl; v ++ ) { v1 = getNextVertexInPool(); v1.positionScreen.copy( vertices[ v ] ).applyMatrix4( _modelViewProjectionMatrix ); if ( ( v + 1 ) % step > 0 ) continue; v2 = _vertexPool[ _vertexCount - 2 ]; _clippedVertex1PositionScreen.copy( v1.positionScreen ); _clippedVertex2PositionScreen.copy( v2.positionScreen ); if ( clipLine( _clippedVertex1PositionScreen, _clippedVertex2PositionScreen ) === true ) { // Perform the perspective divide _clippedVertex1PositionScreen.multiplyScalar( 1 / _clippedVertex1PositionScreen.w ); _clippedVertex2PositionScreen.multiplyScalar( 1 / _clippedVertex2PositionScreen.w ); _line = getNextLineInPool(); _line.id = object.id; _line.v1.positionScreen.copy( _clippedVertex1PositionScreen ); _line.v2.positionScreen.copy( _clippedVertex2PositionScreen ); _line.z = Math.max( _clippedVertex1PositionScreen.z, _clippedVertex2PositionScreen.z ); _line.renderOrder = object.renderOrder; _line.material = object.material; if ( object.material.vertexColors === THREE.VertexColors ) { _line.vertexColors[ 0 ].copy( object.geometry.colors[ v ] ); _line.vertexColors[ 1 ].copy( object.geometry.colors[ v - 1 ] ); } _renderData.elements.push( _line ); } } } } else if ( object instanceof THREE.Sprite ) { _vector4.set( _modelMatrix.elements[ 12 ], _modelMatrix.elements[ 13 ], _modelMatrix.elements[ 14 ], 1 ); _vector4.applyMatrix4( _viewProjectionMatrix ); var invW = 1 / _vector4.w; _vector4.z *= invW; if ( _vector4.z >= - 1 && _vector4.z <= 1 ) { _sprite = getNextSpriteInPool(); _sprite.id = object.id; _sprite.x = _vector4.x * invW; _sprite.y = _vector4.y * invW; _sprite.z = _vector4.z; _sprite.renderOrder = object.renderOrder; _sprite.object = object; _sprite.rotation = object.rotation; _sprite.scale.x = object.scale.x * Math.abs( _sprite.x - ( _vector4.x + camera.projectionMatrix.elements[ 0 ] ) / ( _vector4.w + camera.projectionMatrix.elements[ 12 ] ) ); _sprite.scale.y = object.scale.y * Math.abs( _sprite.y - ( _vector4.y + camera.projectionMatrix.elements[ 5 ] ) / ( _vector4.w + camera.projectionMatrix.elements[ 13 ] ) ); _sprite.material = object.material; _renderData.elements.push( _sprite ); } } } if ( sortElements === true ) { _renderData.elements.sort( painterSort ); } return _renderData; }; // Pools function getNextObjectInPool() { if ( _objectCount === _objectPoolLength ) { var object = new THREE.RenderableObject(); _objectPool.push( object ); _objectPoolLength ++; _objectCount ++; return object; } return _objectPool[ _objectCount ++ ]; } function getNextVertexInPool() { if ( _vertexCount === _vertexPoolLength ) { var vertex = new THREE.RenderableVertex(); _vertexPool.push( vertex ); _vertexPoolLength ++; _vertexCount ++; return vertex; } return _vertexPool[ _vertexCount ++ ]; } function getNextFaceInPool() { if ( _faceCount === _facePoolLength ) { var face = new THREE.RenderableFace(); _facePool.push( face ); _facePoolLength ++; _faceCount ++; return face; } return _facePool[ _faceCount ++ ]; } function getNextLineInPool() { if ( _lineCount === _linePoolLength ) { var line = new THREE.RenderableLine(); _linePool.push( line ); _linePoolLength ++; _lineCount ++; return line; } return _linePool[ _lineCount ++ ]; } function getNextSpriteInPool() { if ( _spriteCount === _spritePoolLength ) { var sprite = new THREE.RenderableSprite(); _spritePool.push( sprite ); _spritePoolLength ++; _spriteCount ++; return sprite; } return _spritePool[ _spriteCount ++ ]; } // function painterSort( a, b ) { if ( a.renderOrder !== b.renderOrder ) { return a.renderOrder - b.renderOrder; } else if ( a.z !== b.z ) { return b.z - a.z; } else if ( a.id !== b.id ) { return a.id - b.id; } else { return 0; } } function clipLine( s1, s2 ) { var alpha1 = 0, alpha2 = 1, // Calculate the boundary coordinate of each vertex for the near and far clip planes, // Z = -1 and Z = +1, respectively. bc1near = s1.z + s1.w, bc2near = s2.z + s2.w, bc1far = - s1.z + s1.w, bc2far = - s2.z + s2.w; if ( bc1near >= 0 && bc2near >= 0 && bc1far >= 0 && bc2far >= 0 ) { // Both vertices lie entirely within all clip planes. return true; } else if ( ( bc1near < 0 && bc2near < 0 ) || ( bc1far < 0 && bc2far < 0 ) ) { // Both vertices lie entirely outside one of the clip planes. return false; } else { // The line segment spans at least one clip plane. if ( bc1near < 0 ) { // v1 lies outside the near plane, v2 inside alpha1 = Math.max( alpha1, bc1near / ( bc1near - bc2near ) ); } else if ( bc2near < 0 ) { // v2 lies outside the near plane, v1 inside alpha2 = Math.min( alpha2, bc1near / ( bc1near - bc2near ) ); } if ( bc1far < 0 ) { // v1 lies outside the far plane, v2 inside alpha1 = Math.max( alpha1, bc1far / ( bc1far - bc2far ) ); } else if ( bc2far < 0 ) { // v2 lies outside the far plane, v2 inside alpha2 = Math.min( alpha2, bc1far / ( bc1far - bc2far ) ); } if ( alpha2 < alpha1 ) { // The line segment spans two boundaries, but is outside both of them. // (This can't happen when we're only clipping against just near/far but good // to leave the check here for future usage if other clip planes are added.) return false; } else { // Update the s1 and s2 vertices to match the clipped line segment. s1.lerp( s2, alpha1 ); s2.lerp( s1, 1 - alpha2 ); return true; } } } }; /** * @author mrdoob / http://mrdoob.com/ */ THREE.SpriteCanvasMaterial = function ( parameters ) { THREE.Material.call( this ); this.type = 'SpriteCanvasMaterial'; this.color = new THREE.Color( 0xffffff ); this.program = function ( context, color ) {}; this.setValues( parameters ); }; THREE.SpriteCanvasMaterial.prototype = Object.create( THREE.Material.prototype ); THREE.SpriteCanvasMaterial.prototype.constructor = THREE.SpriteCanvasMaterial; THREE.SpriteCanvasMaterial.prototype.clone = function () { var material = new THREE.SpriteCanvasMaterial(); material.copy( this ); material.color.copy( this.color ); material.program = this.program; return material; }; // THREE.CanvasRenderer = function ( parameters ) { console.log( 'THREE.CanvasRenderer', THREE.REVISION ); parameters = parameters || {}; var _this = this, _renderData, _elements, _lights, _projector = new THREE.Projector(), _canvas = parameters.canvas !== undefined ? parameters.canvas : document.createElement( 'canvas' ), _canvasWidth = _canvas.width, _canvasHeight = _canvas.height, _canvasWidthHalf = Math.floor( _canvasWidth / 2 ), _canvasHeightHalf = Math.floor( _canvasHeight / 2 ), _viewportX = 0, _viewportY = 0, _viewportWidth = _canvasWidth, _viewportHeight = _canvasHeight, pixelRatio = 1, _context = _canvas.getContext( '2d', { alpha: parameters.alpha === true } ), _clearColor = new THREE.Color( 0x000000 ), _clearAlpha = parameters.alpha === true ? 0 : 1, _contextGlobalAlpha = 1, _contextGlobalCompositeOperation = 0, _contextStrokeStyle = null, _contextFillStyle = null, _contextLineWidth = null, _contextLineCap = null, _contextLineJoin = null, _contextLineDash = [], _camera, _v1, _v2, _v3, _v4, _v5 = new THREE.RenderableVertex(), _v6 = new THREE.RenderableVertex(), _v1x, _v1y, _v2x, _v2y, _v3x, _v3y, _v4x, _v4y, _v5x, _v5y, _v6x, _v6y, _color = new THREE.Color(), _color1 = new THREE.Color(), _color2 = new THREE.Color(), _color3 = new THREE.Color(), _color4 = new THREE.Color(), _diffuseColor = new THREE.Color(), _emissiveColor = new THREE.Color(), _lightColor = new THREE.Color(), _patterns = {}, _image, _uvs, _uv1x, _uv1y, _uv2x, _uv2y, _uv3x, _uv3y, _clipBox = new THREE.Box2(), _clearBox = new THREE.Box2(), _elemBox = new THREE.Box2(), _ambientLight = new THREE.Color(), _directionalLights = new THREE.Color(), _pointLights = new THREE.Color(), _vector3 = new THREE.Vector3(), // Needed for PointLight _centroid = new THREE.Vector3(), _normal = new THREE.Vector3(), _normalViewMatrix = new THREE.Matrix3(); _context.antialias = 'none'; // dash+gap fallbacks for Firefox and everything else if ( _context.setLineDash === undefined ) { _context.setLineDash = function () {} } this.domElement = _canvas; this.autoClear = true; this.sortObjects = true; this.sortElements = true; this.info = { render: { vertices: 0, faces: 0 } }; // WebGLRenderer compatibility this.supportsVertexTextures = function () {}; this.setFaceCulling = function () {}; // API this.getContext = function () { return _context; }; this.getContextAttributes = function () { return _context.getContextAttributes(); }; this.getPixelRatio = function () { return pixelRatio; }; this.setPixelRatio = function ( value ) { if ( value !== undefined ) pixelRatio = value; }; this.setSize = function ( width, height, updateStyle ) { _canvasWidth = width * pixelRatio; _canvasHeight = height * pixelRatio; _canvas.width = _canvasWidth; _canvas.height = _canvasHeight; _canvasWidthHalf = Math.floor( _canvasWidth / 2 ); _canvasHeightHalf = Math.floor( _canvasHeight / 2 ); if ( updateStyle !== false ) { _canvas.style.width = width + 'px'; _canvas.style.height = height + 'px'; } _clipBox.min.set( - _canvasWidthHalf, - _canvasHeightHalf ); _clipBox.max.set( _canvasWidthHalf, _canvasHeightHalf ); _clearBox.min.set( - _canvasWidthHalf, - _canvasHeightHalf ); _clearBox.max.set( _canvasWidthHalf, _canvasHeightHalf ); _contextGlobalAlpha = 1; _contextGlobalCompositeOperation = 0; _contextStrokeStyle = null; _contextFillStyle = null; _contextLineWidth = null; _contextLineCap = null; _contextLineJoin = null; this.setViewport( 0, 0, width, height ); }; this.setViewport = function ( x, y, width, height ) { _viewportX = x * pixelRatio; _viewportY = y * pixelRatio; _viewportWidth = width * pixelRatio; _viewportHeight = height * pixelRatio; }; this.setScissor = function () {}; this.enableScissorTest = function () {}; this.setClearColor = function ( color, alpha ) { _clearColor.set( color ); _clearAlpha = alpha !== undefined ? alpha : 1; _clearBox.min.set( - _canvasWidthHalf, - _canvasHeightHalf ); _clearBox.max.set( _canvasWidthHalf, _canvasHeightHalf ); }; this.setClearColorHex = function ( hex, alpha ) { console.warn( 'THREE.CanvasRenderer: .setClearColorHex() is being removed. Use .setClearColor() instead.' ); this.setClearColor( hex, alpha ); }; this.getClearColor = function () { return _clearColor; }; this.getClearAlpha = function () { return _clearAlpha; }; this.getMaxAnisotropy = function () { return 0; }; this.clear = function () { if ( _clearBox.empty() === false ) { _clearBox.intersect( _clipBox ); _clearBox.expandByScalar( 2 ); _clearBox.min.x = _clearBox.min.x + _canvasWidthHalf; _clearBox.min.y = - _clearBox.min.y + _canvasHeightHalf; // higher y value ! _clearBox.max.x = _clearBox.max.x + _canvasWidthHalf; _clearBox.max.y = - _clearBox.max.y + _canvasHeightHalf; // lower y value ! if ( _clearAlpha < 1 ) { _context.clearRect( _clearBox.min.x | 0, _clearBox.max.y | 0, ( _clearBox.max.x - _clearBox.min.x ) | 0, ( _clearBox.min.y - _clearBox.max.y ) | 0 ); } if ( _clearAlpha > 0 ) { setBlending( THREE.NormalBlending ); setOpacity( 1 ); setFillStyle( 'rgba(' + Math.floor( _clearColor.r * 255 ) + ',' + Math.floor( _clearColor.g * 255 ) + ',' + Math.floor( _clearColor.b * 255 ) + ',' + _clearAlpha + ')' ); _context.fillRect( _clearBox.min.x | 0, _clearBox.max.y | 0, ( _clearBox.max.x - _clearBox.min.x ) | 0, ( _clearBox.min.y - _clearBox.max.y ) | 0 ); } _clearBox.makeEmpty(); } }; // compatibility this.clearColor = function () {}; this.clearDepth = function () {}; this.clearStencil = function () {}; this.render = function ( scene, camera ) { // if ( camera instanceof THREE.Camera === false ) { // console.error( 'THREE.CanvasRenderer.render: camera is not an instance of THREE.Camera.' ); // return; // } if ( this.autoClear === true ) this.clear(); _this.info.render.vertices = 0; _this.info.render.faces = 0; _context.setTransform( _viewportWidth / _canvasWidth, 0, 0, - _viewportHeight / _canvasHeight, _viewportX, _canvasHeight - _viewportY ); _context.translate( _canvasWidthHalf, _canvasHeightHalf ); _renderData = _projector.projectScene( scene, camera, this.sortObjects, this.sortElements ); _elements = _renderData.elements; _lights = _renderData.lights; _camera = camera; _normalViewMatrix.getNormalMatrix( camera.matrixWorldInverse ); /* DEBUG setFillStyle( 'rgba( 0, 255, 255, 0.5 )' ); _context.fillRect( _clipBox.min.x, _clipBox.min.y, _clipBox.max.x - _clipBox.min.x, _clipBox.max.y - _clipBox.min.y ); */ calculateLights(); for ( var e = 0, el = _elements.length; e < el; e ++ ) { var element = _elements[ e ]; var material = element.material; if ( material === undefined || material.opacity === 0 ) continue; _elemBox.makeEmpty(); if ( element instanceof THREE.RenderableSprite ) { _v1 = element; _v1.x *= _canvasWidthHalf; _v1.y *= _canvasHeightHalf; renderSprite( _v1, element, material ); } else if ( element instanceof THREE.RenderableLine ) { _v1 = element.v1; _v2 = element.v2; _v1.positionScreen.x *= _canvasWidthHalf; _v1.positionScreen.y *= _canvasHeightHalf; _v2.positionScreen.x *= _canvasWidthHalf; _v2.positionScreen.y *= _canvasHeightHalf; _elemBox.setFromPoints( [ _v1.positionScreen, _v2.positionScreen ] ); if ( _clipBox.isIntersectionBox( _elemBox ) === true ) { renderLine( _v1, _v2, element, material ); } } else if ( element instanceof THREE.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 *= _canvasWidthHalf; _v1.positionScreen.y *= _canvasHeightHalf; _v2.positionScreen.x *= _canvasWidthHalf; _v2.positionScreen.y *= _canvasHeightHalf; _v3.positionScreen.x *= _canvasWidthHalf; _v3.positionScreen.y *= _canvasHeightHalf; if ( material.overdraw > 0 ) { expand( _v1.positionScreen, _v2.positionScreen, material.overdraw ); expand( _v2.positionScreen, _v3.positionScreen, material.overdraw ); expand( _v3.positionScreen, _v1.positionScreen, material.overdraw ); } _elemBox.setFromPoints( [ _v1.positionScreen, _v2.positionScreen, _v3.positionScreen ] ); if ( _clipBox.isIntersectionBox( _elemBox ) === true ) { renderFace3( _v1, _v2, _v3, 0, 1, 2, element, material ); } } /* DEBUG setLineWidth( 1 ); setStrokeStyle( 'rgba( 0, 255, 0, 0.5 )' ); _context.strokeRect( _elemBox.min.x, _elemBox.min.y, _elemBox.max.x - _elemBox.min.x, _elemBox.max.y - _elemBox.min.y ); */ _clearBox.union( _elemBox ); } /* DEBUG setLineWidth( 1 ); setStrokeStyle( 'rgba( 255, 0, 0, 0.5 )' ); _context.strokeRect( _clearBox.min.x, _clearBox.min.y, _clearBox.max.x - _clearBox.min.x, _clearBox.max.y - _clearBox.min.y ); */ _context.setTransform( 1, 0, 0, 1, 0, 0 ); }; // function calculateLights() { _ambientLight.setRGB( 0, 0, 0 ); _directionalLights.setRGB( 0, 0, 0 ); _pointLights.setRGB( 0, 0, 0 ); for ( var l = 0, ll = _lights.length; l < ll; l ++ ) { var light = _lights[ l ]; var lightColor = light.color; if ( light instanceof THREE.AmbientLight ) { _ambientLight.add( lightColor ); } else if ( light instanceof THREE.DirectionalLight ) { // for sprites _directionalLights.add( lightColor ); } else if ( light instanceof THREE.PointLight ) { // for sprites _pointLights.add( lightColor ); } } } function calculateLight( position, normal, color ) { for ( var l = 0, ll = _lights.length; l < ll; l ++ ) { var light = _lights[ l ]; _lightColor.copy( light.color ); if ( light instanceof THREE.DirectionalLight ) { var lightPosition = _vector3.setFromMatrixPosition( light.matrixWorld ).normalize(); var amount = normal.dot( lightPosition ); if ( amount <= 0 ) continue; amount *= light.intensity; color.add( _lightColor.multiplyScalar( amount ) ); } else if ( light instanceof THREE.PointLight ) { var lightPosition = _vector3.setFromMatrixPosition( light.matrixWorld ); var 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.add( _lightColor.multiplyScalar( amount ) ); } } } function renderSprite( v1, element, material ) { setOpacity( material.opacity ); setBlending( material.blending ); var scaleX = element.scale.x * _canvasWidthHalf; var scaleY = element.scale.y * _canvasHeightHalf; var dist = 0.5 * Math.sqrt( scaleX * scaleX + scaleY * scaleY ); // allow for rotated sprite _elemBox.min.set( v1.x - dist, v1.y - dist ); _elemBox.max.set( v1.x + dist, v1.y + dist ); if ( material instanceof THREE.SpriteMaterial ) { var texture = material.map; if ( texture !== null ) { var pattern = _patterns[ texture.id ]; if ( pattern === undefined || pattern.version !== texture.version ) { pattern = textureToPattern( texture ); _patterns[ texture.id ] = pattern; } if ( pattern.canvas !== undefined ) { setFillStyle( pattern.canvas ); var bitmap = texture.image; var ox = bitmap.width * texture.offset.x; var oy = bitmap.height * texture.offset.y; var sx = bitmap.width * texture.repeat.x; var sy = bitmap.height * texture.repeat.y; var cx = scaleX / sx; var cy = scaleY / sy; _context.save(); _context.translate( v1.x, v1.y ); if ( material.rotation !== 0 ) _context.rotate( material.rotation ); _context.translate( - scaleX / 2, - scaleY / 2 ); _context.scale( cx, cy ); _context.translate( - ox, - oy ); _context.fillRect( ox, oy, sx, sy ); _context.restore(); } } else { // no texture setFillStyle( material.color.getStyle() ); _context.save(); _context.translate( v1.x, v1.y ); if ( material.rotation !== 0 ) _context.rotate( material.rotation ); _context.scale( scaleX, - scaleY ); _context.fillRect( - 0.5, - 0.5, 1, 1 ); _context.restore(); } } else if ( material instanceof THREE.SpriteCanvasMaterial ) { setStrokeStyle( material.color.getStyle() ); setFillStyle( material.color.getStyle() ); _context.save(); _context.translate( v1.x, v1.y ); if ( material.rotation !== 0 ) _context.rotate( material.rotation ); _context.scale( scaleX, scaleY ); material.program( _context ); _context.restore(); } /* DEBUG setStrokeStyle( 'rgb(255,255,0)' ); _context.beginPath(); _context.moveTo( v1.x - 10, v1.y ); _context.lineTo( v1.x + 10, v1.y ); _context.moveTo( v1.x, v1.y - 10 ); _context.lineTo( v1.x, v1.y + 10 ); _context.stroke(); */ } function renderLine( v1, v2, element, material ) { setOpacity( material.opacity ); setBlending( material.blending ); _context.beginPath(); _context.moveTo( v1.positionScreen.x, v1.positionScreen.y ); _context.lineTo( v2.positionScreen.x, v2.positionScreen.y ); if ( material instanceof THREE.LineBasicMaterial ) { setLineWidth( material.linewidth ); setLineCap( material.linecap ); setLineJoin( material.linejoin ); if ( material.vertexColors !== THREE.VertexColors ) { setStrokeStyle( material.color.getStyle() ); } else { var colorStyle1 = element.vertexColors[ 0 ].getStyle(); var colorStyle2 = element.vertexColors[ 1 ].getStyle(); if ( colorStyle1 === colorStyle2 ) { setStrokeStyle( colorStyle1 ); } else { try { var grad = _context.createLinearGradient( v1.positionScreen.x, v1.positionScreen.y, v2.positionScreen.x, v2.positionScreen.y ); grad.addColorStop( 0, colorStyle1 ); grad.addColorStop( 1, colorStyle2 ); } catch ( exception ) { grad = colorStyle1; } setStrokeStyle( grad ); } } _context.stroke(); _elemBox.expandByScalar( material.linewidth * 2 ); } else if ( material instanceof THREE.LineDashedMaterial ) { setLineWidth( material.linewidth ); setLineCap( material.linecap ); setLineJoin( material.linejoin ); setStrokeStyle( material.color.getStyle() ); setLineDash( [ material.dashSize, material.gapSize ] ); _context.stroke(); _elemBox.expandByScalar( material.linewidth * 2 ); setLineDash( [] ); } } function renderFace3( v1, v2, v3, uv1, uv2, uv3, element, material ) { _this.info.render.vertices += 3; _this.info.render.faces ++; setOpacity( material.opacity ); setBlending( material.blending ); _v1x = v1.positionScreen.x; _v1y = v1.positionScreen.y; _v2x = v2.positionScreen.x; _v2y = v2.positionScreen.y; _v3x = v3.positionScreen.x; _v3y = v3.positionScreen.y; drawTriangle( _v1x, _v1y, _v2x, _v2y, _v3x, _v3y ); if ( ( material instanceof THREE.MeshLambertMaterial || material instanceof THREE.MeshPhongMaterial ) && material.map === null ) { _diffuseColor.copy( material.color ); _emissiveColor.copy( material.emissive ); if ( material.vertexColors === THREE.FaceColors ) { _diffuseColor.multiply( element.color ); } _color.copy( _ambientLight ); _centroid.copy( v1.positionWorld ).add( v2.positionWorld ).add( v3.positionWorld ).divideScalar( 3 ); calculateLight( _centroid, element.normalModel, _color ); _color.multiply( _diffuseColor ).add( _emissiveColor ); material.wireframe === true ? strokePath( _color, material.wireframeLinewidth, material.wireframeLinecap, material.wireframeLinejoin ) : fillPath( _color ); } else if ( material instanceof THREE.MeshBasicMaterial || material instanceof THREE.MeshLambertMaterial || material instanceof THREE.MeshPhongMaterial ) { if ( material.map !== null ) { var mapping = material.map.mapping; if ( mapping === THREE.UVMapping ) { _uvs = element.uvs; patternPath( _v1x, _v1y, _v2x, _v2y, _v3x, _v3y, _uvs[ uv1 ].x, _uvs[ uv1 ].y, _uvs[ uv2 ].x, _uvs[ uv2 ].y, _uvs[ uv3 ].x, _uvs[ uv3 ].y, material.map ); } } else if ( material.envMap !== null ) { if ( material.envMap.mapping === THREE.SphericalReflectionMapping ) { _normal.copy( element.vertexNormalsModel[ uv1 ] ).applyMatrix3( _normalViewMatrix ); _uv1x = 0.5 * _normal.x + 0.5; _uv1y = 0.5 * _normal.y + 0.5; _normal.copy( element.vertexNormalsModel[ uv2 ] ).applyMatrix3( _normalViewMatrix ); _uv2x = 0.5 * _normal.x + 0.5; _uv2y = 0.5 * _normal.y + 0.5; _normal.copy( element.vertexNormalsModel[ uv3 ] ).applyMatrix3( _normalViewMatrix ); _uv3x = 0.5 * _normal.x + 0.5; _uv3y = 0.5 * _normal.y + 0.5; patternPath( _v1x, _v1y, _v2x, _v2y, _v3x, _v3y, _uv1x, _uv1y, _uv2x, _uv2y, _uv3x, _uv3y, material.envMap ); } } else { _color.copy( material.color ); if ( material.vertexColors === THREE.FaceColors ) { _color.multiply( element.color ); } material.wireframe === true ? strokePath( _color, material.wireframeLinewidth, material.wireframeLinecap, material.wireframeLinejoin ) : fillPath( _color ); } } else if ( material instanceof THREE.MeshNormalMaterial ) { _normal.copy( element.normalModel ).applyMatrix3( _normalViewMatrix ); _color.setRGB( _normal.x, _normal.y, _normal.z ).multiplyScalar( 0.5 ).addScalar( 0.5 ); material.wireframe === true ? strokePath( _color, material.wireframeLinewidth, material.wireframeLinecap, material.wireframeLinejoin ) : fillPath( _color ); } else { _color.setRGB( 1, 1, 1 ); material.wireframe === true ? strokePath( _color, material.wireframeLinewidth, material.wireframeLinecap, material.wireframeLinejoin ) : fillPath( _color ); } } // function drawTriangle( x0, y0, x1, y1, x2, y2 ) { _context.beginPath(); _context.moveTo( x0, y0 ); _context.lineTo( x1, y1 ); _context.lineTo( x2, y2 ); _context.closePath(); } function strokePath( color, linewidth, linecap, linejoin ) { setLineWidth( linewidth ); setLineCap( linecap ); setLineJoin( linejoin ); setStrokeStyle( color.getStyle() ); _context.stroke(); _elemBox.expandByScalar( linewidth * 2 ); } function fillPath( color ) { setFillStyle( color.getStyle() ); _context.fill(); } function textureToPattern( texture ) { if ( texture.version === 0 || texture instanceof THREE.CompressedTexture || texture instanceof THREE.DataTexture ) { return { canvas: undefined, version: texture.version } } var image = texture.image; var canvas = document.createElement( 'canvas' ); canvas.width = image.width; canvas.height = image.height; var context = canvas.getContext( '2d' ); context.setTransform( 1, 0, 0, - 1, 0, image.height ); context.drawImage( image, 0, 0 ); var repeatX = texture.wrapS === THREE.RepeatWrapping; var repeatY = texture.wrapT === THREE.RepeatWrapping; var repeat = 'no-repeat'; if ( repeatX === true && repeatY === true ) { repeat = 'repeat'; } else if ( repeatX === true ) { repeat = 'repeat-x'; } else if ( repeatY === true ) { repeat = 'repeat-y'; } return { canvas: _context.createPattern( canvas, repeat ), version: texture.version } } function patternPath( x0, y0, x1, y1, x2, y2, u0, v0, u1, v1, u2, v2, texture ) { var pattern = _patterns[ texture.id ]; if ( pattern === undefined || pattern.version !== texture.version ) { pattern = textureToPattern( texture ); _patterns[ texture.id ] = pattern; } if ( pattern.canvas !== undefined ) { setFillStyle( pattern.canvas ); } else { setFillStyle( 'rgba( 0, 0, 0, 1)' ); _context.fill(); return; } // http://extremelysatisfactorytotalitarianism.com/blog/?p=2120 var a, b, c, d, e, f, det, idet, offsetX = texture.offset.x / texture.repeat.x, offsetY = texture.offset.y / texture.repeat.y, width = texture.image.width * texture.repeat.x, height = texture.image.height * texture.repeat.y; u0 = ( u0 + offsetX ) * width; v0 = ( v0 + offsetY ) * height; u1 = ( u1 + offsetX ) * width; v1 = ( v1 + offsetY ) * height; u2 = ( u2 + offsetX ) * width; v2 = ( v2 + offsetY ) * height; x1 -= x0; y1 -= y0; x2 -= x0; y2 -= y0; u1 -= u0; v1 -= v0; u2 -= u0; v2 -= v0; det = u1 * v2 - u2 * v1; if ( det === 0 ) return; idet = 1 / det; a = ( v2 * x1 - v1 * x2 ) * idet; b = ( v2 * y1 - v1 * y2 ) * idet; c = ( u1 * x2 - u2 * x1 ) * idet; d = ( u1 * y2 - u2 * y1 ) * idet; e = x0 - a * u0 - c * v0; f = y0 - b * u0 - d * v0; _context.save(); _context.transform( a, b, c, d, e, f ); _context.fill(); _context.restore(); } function clipImage( x0, y0, x1, y1, x2, y2, u0, v0, u1, v1, u2, v2, image ) { // http://extremelysatisfactorytotalitarianism.com/blog/?p=2120 var a, b, c, d, e, f, det, idet, width = image.width - 1, height = image.height - 1; u0 *= width; v0 *= height; u1 *= width; v1 *= height; u2 *= width; v2 *= height; x1 -= x0; y1 -= y0; x2 -= x0; y2 -= y0; u1 -= u0; v1 -= v0; u2 -= u0; v2 -= v0; det = u1 * v2 - u2 * v1; idet = 1 / det; a = ( v2 * x1 - v1 * x2 ) * idet; b = ( v2 * y1 - v1 * y2 ) * idet; c = ( u1 * x2 - u2 * x1 ) * idet; d = ( u1 * y2 - u2 * y1 ) * idet; e = x0 - a * u0 - c * v0; f = y0 - b * u0 - d * v0; _context.save(); _context.transform( a, b, c, d, e, f ); _context.clip(); _context.drawImage( image, 0, 0 ); _context.restore(); } // Hide anti-alias gaps function expand( v1, v2, pixels ) { var x = v2.x - v1.x, y = v2.y - v1.y, det = x * x + y * y, idet; if ( det === 0 ) return; idet = pixels / Math.sqrt( det ); x *= idet; y *= idet; v2.x += x; v2.y += y; v1.x -= x; v1.y -= y; } // Context cached methods. function setOpacity( value ) { if ( _contextGlobalAlpha !== value ) { _context.globalAlpha = value; _contextGlobalAlpha = value; } } function setBlending( value ) { if ( _contextGlobalCompositeOperation !== value ) { if ( value === THREE.NormalBlending ) { _context.globalCompositeOperation = 'source-over'; } else if ( value === THREE.AdditiveBlending ) { _context.globalCompositeOperation = 'lighter'; } else if ( value === THREE.SubtractiveBlending ) { _context.globalCompositeOperation = 'darker'; } _contextGlobalCompositeOperation = value; } } function setLineWidth( value ) { if ( _contextLineWidth !== value ) { _context.lineWidth = value; _contextLineWidth = value; } } function setLineCap( value ) { // "butt", "round", "square" if ( _contextLineCap !== value ) { _context.lineCap = value; _contextLineCap = value; } } function setLineJoin( value ) { // "round", "bevel", "miter" if ( _contextLineJoin !== value ) { _context.lineJoin = value; _contextLineJoin = value; } } function setStrokeStyle( value ) { if ( _contextStrokeStyle !== value ) { _context.strokeStyle = value; _contextStrokeStyle = value; } } function setFillStyle( value ) { if ( _contextFillStyle !== value ) { _context.fillStyle = value; _contextFillStyle = value; } } function setLineDash( value ) { if ( _contextLineDash.length !== value.length ) { _context.setLineDash( value ); _contextLineDash = value; } } }; window.THREE.Image = Canvas.Image; module.exports = window.THREE;