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655 lines
20 KiB
655 lines
20 KiB
6 months ago
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import {
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AdditiveBlending,
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Color,
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DoubleSide,
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HalfFloatType,
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Matrix4,
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MeshDepthMaterial,
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NoBlending,
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RGBADepthPacking,
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ShaderMaterial,
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UniformsUtils,
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Vector2,
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Vector3,
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WebGLRenderTarget
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} from 'three';
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import { Pass, FullScreenQuad } from './Pass.js';
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import { CopyShader } from '../shaders/CopyShader.js';
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class OutlinePass extends Pass {
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constructor( resolution, scene, camera, selectedObjects ) {
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super();
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this.renderScene = scene;
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this.renderCamera = camera;
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this.selectedObjects = selectedObjects !== undefined ? selectedObjects : [];
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this.visibleEdgeColor = new Color( 1, 1, 1 );
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this.hiddenEdgeColor = new Color( 0.1, 0.04, 0.02 );
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this.edgeGlow = 0.0;
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this.usePatternTexture = false;
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this.edgeThickness = 1.0;
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this.edgeStrength = 3.0;
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this.downSampleRatio = 2;
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this.pulsePeriod = 0;
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this._visibilityCache = new Map();
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this.resolution = ( resolution !== undefined ) ? new Vector2( resolution.x, resolution.y ) : new Vector2( 256, 256 );
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const resx = Math.round( this.resolution.x / this.downSampleRatio );
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const resy = Math.round( this.resolution.y / this.downSampleRatio );
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this.renderTargetMaskBuffer = new WebGLRenderTarget( this.resolution.x, this.resolution.y );
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this.renderTargetMaskBuffer.texture.name = 'OutlinePass.mask';
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this.renderTargetMaskBuffer.texture.generateMipmaps = false;
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this.depthMaterial = new MeshDepthMaterial();
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this.depthMaterial.side = DoubleSide;
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this.depthMaterial.depthPacking = RGBADepthPacking;
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this.depthMaterial.blending = NoBlending;
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this.prepareMaskMaterial = this.getPrepareMaskMaterial();
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this.prepareMaskMaterial.side = DoubleSide;
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this.prepareMaskMaterial.fragmentShader = replaceDepthToViewZ( this.prepareMaskMaterial.fragmentShader, this.renderCamera );
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this.renderTargetDepthBuffer = new WebGLRenderTarget( this.resolution.x, this.resolution.y, { type: HalfFloatType } );
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this.renderTargetDepthBuffer.texture.name = 'OutlinePass.depth';
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this.renderTargetDepthBuffer.texture.generateMipmaps = false;
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this.renderTargetMaskDownSampleBuffer = new WebGLRenderTarget( resx, resy, { type: HalfFloatType } );
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this.renderTargetMaskDownSampleBuffer.texture.name = 'OutlinePass.depthDownSample';
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this.renderTargetMaskDownSampleBuffer.texture.generateMipmaps = false;
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this.renderTargetBlurBuffer1 = new WebGLRenderTarget( resx, resy, { type: HalfFloatType } );
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this.renderTargetBlurBuffer1.texture.name = 'OutlinePass.blur1';
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this.renderTargetBlurBuffer1.texture.generateMipmaps = false;
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this.renderTargetBlurBuffer2 = new WebGLRenderTarget( Math.round( resx / 2 ), Math.round( resy / 2 ), { type: HalfFloatType } );
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this.renderTargetBlurBuffer2.texture.name = 'OutlinePass.blur2';
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this.renderTargetBlurBuffer2.texture.generateMipmaps = false;
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this.edgeDetectionMaterial = this.getEdgeDetectionMaterial();
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this.renderTargetEdgeBuffer1 = new WebGLRenderTarget( resx, resy, { type: HalfFloatType } );
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this.renderTargetEdgeBuffer1.texture.name = 'OutlinePass.edge1';
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this.renderTargetEdgeBuffer1.texture.generateMipmaps = false;
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this.renderTargetEdgeBuffer2 = new WebGLRenderTarget( Math.round( resx / 2 ), Math.round( resy / 2 ), { type: HalfFloatType } );
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this.renderTargetEdgeBuffer2.texture.name = 'OutlinePass.edge2';
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this.renderTargetEdgeBuffer2.texture.generateMipmaps = false;
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const MAX_EDGE_THICKNESS = 4;
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const MAX_EDGE_GLOW = 4;
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this.separableBlurMaterial1 = this.getSeperableBlurMaterial( MAX_EDGE_THICKNESS );
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this.separableBlurMaterial1.uniforms[ 'texSize' ].value.set( resx, resy );
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this.separableBlurMaterial1.uniforms[ 'kernelRadius' ].value = 1;
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this.separableBlurMaterial2 = this.getSeperableBlurMaterial( MAX_EDGE_GLOW );
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this.separableBlurMaterial2.uniforms[ 'texSize' ].value.set( Math.round( resx / 2 ), Math.round( resy / 2 ) );
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this.separableBlurMaterial2.uniforms[ 'kernelRadius' ].value = MAX_EDGE_GLOW;
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// Overlay material
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this.overlayMaterial = this.getOverlayMaterial();
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// copy material
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const copyShader = CopyShader;
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this.copyUniforms = UniformsUtils.clone( copyShader.uniforms );
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this.materialCopy = new ShaderMaterial( {
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uniforms: this.copyUniforms,
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vertexShader: copyShader.vertexShader,
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fragmentShader: copyShader.fragmentShader,
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blending: NoBlending,
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depthTest: false,
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depthWrite: false
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} );
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this.enabled = true;
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this.needsSwap = false;
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this._oldClearColor = new Color();
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this.oldClearAlpha = 1;
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this.fsQuad = new FullScreenQuad( null );
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this.tempPulseColor1 = new Color();
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this.tempPulseColor2 = new Color();
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this.textureMatrix = new Matrix4();
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function replaceDepthToViewZ( string, camera ) {
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const type = camera.isPerspectiveCamera ? 'perspective' : 'orthographic';
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return string.replace( /DEPTH_TO_VIEW_Z/g, type + 'DepthToViewZ' );
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}
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}
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dispose() {
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this.renderTargetMaskBuffer.dispose();
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this.renderTargetDepthBuffer.dispose();
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this.renderTargetMaskDownSampleBuffer.dispose();
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this.renderTargetBlurBuffer1.dispose();
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this.renderTargetBlurBuffer2.dispose();
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this.renderTargetEdgeBuffer1.dispose();
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this.renderTargetEdgeBuffer2.dispose();
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this.depthMaterial.dispose();
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this.prepareMaskMaterial.dispose();
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this.edgeDetectionMaterial.dispose();
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this.separableBlurMaterial1.dispose();
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this.separableBlurMaterial2.dispose();
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this.overlayMaterial.dispose();
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this.materialCopy.dispose();
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this.fsQuad.dispose();
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}
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setSize( width, height ) {
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this.renderTargetMaskBuffer.setSize( width, height );
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this.renderTargetDepthBuffer.setSize( width, height );
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let resx = Math.round( width / this.downSampleRatio );
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let resy = Math.round( height / this.downSampleRatio );
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this.renderTargetMaskDownSampleBuffer.setSize( resx, resy );
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this.renderTargetBlurBuffer1.setSize( resx, resy );
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this.renderTargetEdgeBuffer1.setSize( resx, resy );
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this.separableBlurMaterial1.uniforms[ 'texSize' ].value.set( resx, resy );
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resx = Math.round( resx / 2 );
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resy = Math.round( resy / 2 );
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this.renderTargetBlurBuffer2.setSize( resx, resy );
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this.renderTargetEdgeBuffer2.setSize( resx, resy );
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this.separableBlurMaterial2.uniforms[ 'texSize' ].value.set( resx, resy );
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}
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changeVisibilityOfSelectedObjects( bVisible ) {
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const cache = this._visibilityCache;
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function gatherSelectedMeshesCallBack( object ) {
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if ( object.isMesh ) {
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if ( bVisible === true ) {
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object.visible = cache.get( object );
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} else {
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cache.set( object, object.visible );
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object.visible = bVisible;
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}
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}
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}
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for ( let i = 0; i < this.selectedObjects.length; i ++ ) {
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const selectedObject = this.selectedObjects[ i ];
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selectedObject.traverse( gatherSelectedMeshesCallBack );
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}
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}
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changeVisibilityOfNonSelectedObjects( bVisible ) {
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const cache = this._visibilityCache;
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const selectedMeshes = [];
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function gatherSelectedMeshesCallBack( object ) {
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if ( object.isMesh ) selectedMeshes.push( object );
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}
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for ( let i = 0; i < this.selectedObjects.length; i ++ ) {
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const selectedObject = this.selectedObjects[ i ];
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selectedObject.traverse( gatherSelectedMeshesCallBack );
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}
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function VisibilityChangeCallBack( object ) {
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if ( object.isMesh || object.isSprite ) {
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// only meshes and sprites are supported by OutlinePass
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let bFound = false;
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for ( let i = 0; i < selectedMeshes.length; i ++ ) {
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const selectedObjectId = selectedMeshes[ i ].id;
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if ( selectedObjectId === object.id ) {
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bFound = true;
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break;
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}
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}
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if ( bFound === false ) {
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const visibility = object.visible;
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if ( bVisible === false || cache.get( object ) === true ) {
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object.visible = bVisible;
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}
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cache.set( object, visibility );
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}
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} else if ( object.isPoints || object.isLine ) {
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// the visibilty of points and lines is always set to false in order to
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// not affect the outline computation
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if ( bVisible === true ) {
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object.visible = cache.get( object ); // restore
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} else {
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cache.set( object, object.visible );
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object.visible = bVisible;
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}
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}
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}
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this.renderScene.traverse( VisibilityChangeCallBack );
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}
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updateTextureMatrix() {
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this.textureMatrix.set( 0.5, 0.0, 0.0, 0.5,
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0.0, 0.5, 0.0, 0.5,
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0.0, 0.0, 0.5, 0.5,
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0.0, 0.0, 0.0, 1.0 );
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this.textureMatrix.multiply( this.renderCamera.projectionMatrix );
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this.textureMatrix.multiply( this.renderCamera.matrixWorldInverse );
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}
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render( renderer, writeBuffer, readBuffer, deltaTime, maskActive ) {
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if ( this.selectedObjects.length > 0 ) {
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renderer.getClearColor( this._oldClearColor );
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this.oldClearAlpha = renderer.getClearAlpha();
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const oldAutoClear = renderer.autoClear;
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renderer.autoClear = false;
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if ( maskActive ) renderer.state.buffers.stencil.setTest( false );
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renderer.setClearColor( 0xffffff, 1 );
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// Make selected objects invisible
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this.changeVisibilityOfSelectedObjects( false );
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const currentBackground = this.renderScene.background;
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this.renderScene.background = null;
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// 1. Draw Non Selected objects in the depth buffer
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this.renderScene.overrideMaterial = this.depthMaterial;
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renderer.setRenderTarget( this.renderTargetDepthBuffer );
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renderer.clear();
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renderer.render( this.renderScene, this.renderCamera );
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// Make selected objects visible
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this.changeVisibilityOfSelectedObjects( true );
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this._visibilityCache.clear();
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// Update Texture Matrix for Depth compare
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this.updateTextureMatrix();
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// Make non selected objects invisible, and draw only the selected objects, by comparing the depth buffer of non selected objects
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this.changeVisibilityOfNonSelectedObjects( false );
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this.renderScene.overrideMaterial = this.prepareMaskMaterial;
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this.prepareMaskMaterial.uniforms[ 'cameraNearFar' ].value.set( this.renderCamera.near, this.renderCamera.far );
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this.prepareMaskMaterial.uniforms[ 'depthTexture' ].value = this.renderTargetDepthBuffer.texture;
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this.prepareMaskMaterial.uniforms[ 'textureMatrix' ].value = this.textureMatrix;
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renderer.setRenderTarget( this.renderTargetMaskBuffer );
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renderer.clear();
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renderer.render( this.renderScene, this.renderCamera );
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this.renderScene.overrideMaterial = null;
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this.changeVisibilityOfNonSelectedObjects( true );
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this._visibilityCache.clear();
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this.renderScene.background = currentBackground;
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// 2. Downsample to Half resolution
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this.fsQuad.material = this.materialCopy;
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this.copyUniforms[ 'tDiffuse' ].value = this.renderTargetMaskBuffer.texture;
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renderer.setRenderTarget( this.renderTargetMaskDownSampleBuffer );
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renderer.clear();
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this.fsQuad.render( renderer );
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this.tempPulseColor1.copy( this.visibleEdgeColor );
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this.tempPulseColor2.copy( this.hiddenEdgeColor );
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if ( this.pulsePeriod > 0 ) {
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const scalar = ( 1 + 0.25 ) / 2 + Math.cos( performance.now() * 0.01 / this.pulsePeriod ) * ( 1.0 - 0.25 ) / 2;
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this.tempPulseColor1.multiplyScalar( scalar );
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this.tempPulseColor2.multiplyScalar( scalar );
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}
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// 3. Apply Edge Detection Pass
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this.fsQuad.material = this.edgeDetectionMaterial;
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this.edgeDetectionMaterial.uniforms[ 'maskTexture' ].value = this.renderTargetMaskDownSampleBuffer.texture;
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this.edgeDetectionMaterial.uniforms[ 'texSize' ].value.set( this.renderTargetMaskDownSampleBuffer.width, this.renderTargetMaskDownSampleBuffer.height );
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this.edgeDetectionMaterial.uniforms[ 'visibleEdgeColor' ].value = this.tempPulseColor1;
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this.edgeDetectionMaterial.uniforms[ 'hiddenEdgeColor' ].value = this.tempPulseColor2;
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renderer.setRenderTarget( this.renderTargetEdgeBuffer1 );
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renderer.clear();
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this.fsQuad.render( renderer );
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// 4. Apply Blur on Half res
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this.fsQuad.material = this.separableBlurMaterial1;
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this.separableBlurMaterial1.uniforms[ 'colorTexture' ].value = this.renderTargetEdgeBuffer1.texture;
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this.separableBlurMaterial1.uniforms[ 'direction' ].value = OutlinePass.BlurDirectionX;
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this.separableBlurMaterial1.uniforms[ 'kernelRadius' ].value = this.edgeThickness;
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renderer.setRenderTarget( this.renderTargetBlurBuffer1 );
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renderer.clear();
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this.fsQuad.render( renderer );
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this.separableBlurMaterial1.uniforms[ 'colorTexture' ].value = this.renderTargetBlurBuffer1.texture;
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this.separableBlurMaterial1.uniforms[ 'direction' ].value = OutlinePass.BlurDirectionY;
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renderer.setRenderTarget( this.renderTargetEdgeBuffer1 );
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renderer.clear();
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this.fsQuad.render( renderer );
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// Apply Blur on quarter res
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this.fsQuad.material = this.separableBlurMaterial2;
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this.separableBlurMaterial2.uniforms[ 'colorTexture' ].value = this.renderTargetEdgeBuffer1.texture;
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this.separableBlurMaterial2.uniforms[ 'direction' ].value = OutlinePass.BlurDirectionX;
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renderer.setRenderTarget( this.renderTargetBlurBuffer2 );
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renderer.clear();
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this.fsQuad.render( renderer );
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this.separableBlurMaterial2.uniforms[ 'colorTexture' ].value = this.renderTargetBlurBuffer2.texture;
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this.separableBlurMaterial2.uniforms[ 'direction' ].value = OutlinePass.BlurDirectionY;
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renderer.setRenderTarget( this.renderTargetEdgeBuffer2 );
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renderer.clear();
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this.fsQuad.render( renderer );
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// Blend it additively over the input texture
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this.fsQuad.material = this.overlayMaterial;
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this.overlayMaterial.uniforms[ 'maskTexture' ].value = this.renderTargetMaskBuffer.texture;
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this.overlayMaterial.uniforms[ 'edgeTexture1' ].value = this.renderTargetEdgeBuffer1.texture;
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this.overlayMaterial.uniforms[ 'edgeTexture2' ].value = this.renderTargetEdgeBuffer2.texture;
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this.overlayMaterial.uniforms[ 'patternTexture' ].value = this.patternTexture;
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this.overlayMaterial.uniforms[ 'edgeStrength' ].value = this.edgeStrength;
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this.overlayMaterial.uniforms[ 'edgeGlow' ].value = this.edgeGlow;
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this.overlayMaterial.uniforms[ 'usePatternTexture' ].value = this.usePatternTexture;
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if ( maskActive ) renderer.state.buffers.stencil.setTest( true );
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renderer.setRenderTarget( readBuffer );
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this.fsQuad.render( renderer );
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renderer.setClearColor( this._oldClearColor, this.oldClearAlpha );
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renderer.autoClear = oldAutoClear;
|
||
|
|
||
|
}
|
||
|
|
||
|
if ( this.renderToScreen ) {
|
||
|
|
||
|
this.fsQuad.material = this.materialCopy;
|
||
|
this.copyUniforms[ 'tDiffuse' ].value = readBuffer.texture;
|
||
|
renderer.setRenderTarget( null );
|
||
|
this.fsQuad.render( renderer );
|
||
|
|
||
|
}
|
||
|
|
||
|
}
|
||
|
|
||
|
getPrepareMaskMaterial() {
|
||
|
|
||
|
return new ShaderMaterial( {
|
||
|
|
||
|
uniforms: {
|
||
|
'depthTexture': { value: null },
|
||
|
'cameraNearFar': { value: new Vector2( 0.5, 0.5 ) },
|
||
|
'textureMatrix': { value: null }
|
||
|
},
|
||
|
|
||
|
vertexShader:
|
||
|
`#include <morphtarget_pars_vertex>
|
||
|
#include <skinning_pars_vertex>
|
||
|
|
||
|
varying vec4 projTexCoord;
|
||
|
varying vec4 vPosition;
|
||
|
uniform mat4 textureMatrix;
|
||
|
|
||
|
void main() {
|
||
|
|
||
|
#include <skinbase_vertex>
|
||
|
#include <begin_vertex>
|
||
|
#include <morphtarget_vertex>
|
||
|
#include <skinning_vertex>
|
||
|
#include <project_vertex>
|
||
|
|
||
|
vPosition = mvPosition;
|
||
|
|
||
|
vec4 worldPosition = vec4( transformed, 1.0 );
|
||
|
|
||
|
#ifdef USE_INSTANCING
|
||
|
|
||
|
worldPosition = instanceMatrix * worldPosition;
|
||
|
|
||
|
#endif
|
||
|
|
||
|
worldPosition = modelMatrix * worldPosition;
|
||
|
|
||
|
projTexCoord = textureMatrix * worldPosition;
|
||
|
|
||
|
}`,
|
||
|
|
||
|
fragmentShader:
|
||
|
`#include <packing>
|
||
|
varying vec4 vPosition;
|
||
|
varying vec4 projTexCoord;
|
||
|
uniform sampler2D depthTexture;
|
||
|
uniform vec2 cameraNearFar;
|
||
|
|
||
|
void main() {
|
||
|
|
||
|
float depth = unpackRGBAToDepth(texture2DProj( depthTexture, projTexCoord ));
|
||
|
float viewZ = - DEPTH_TO_VIEW_Z( depth, cameraNearFar.x, cameraNearFar.y );
|
||
|
float depthTest = (-vPosition.z > viewZ) ? 1.0 : 0.0;
|
||
|
gl_FragColor = vec4(0.0, depthTest, 1.0, 1.0);
|
||
|
|
||
|
}`
|
||
|
|
||
|
} );
|
||
|
|
||
|
}
|
||
|
|
||
|
getEdgeDetectionMaterial() {
|
||
|
|
||
|
return new ShaderMaterial( {
|
||
|
|
||
|
uniforms: {
|
||
|
'maskTexture': { value: null },
|
||
|
'texSize': { value: new Vector2( 0.5, 0.5 ) },
|
||
|
'visibleEdgeColor': { value: new Vector3( 1.0, 1.0, 1.0 ) },
|
||
|
'hiddenEdgeColor': { value: new Vector3( 1.0, 1.0, 1.0 ) },
|
||
|
},
|
||
|
|
||
|
vertexShader:
|
||
|
`varying vec2 vUv;
|
||
|
|
||
|
void main() {
|
||
|
vUv = uv;
|
||
|
gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
|
||
|
}`,
|
||
|
|
||
|
fragmentShader:
|
||
|
`varying vec2 vUv;
|
||
|
|
||
|
uniform sampler2D maskTexture;
|
||
|
uniform vec2 texSize;
|
||
|
uniform vec3 visibleEdgeColor;
|
||
|
uniform vec3 hiddenEdgeColor;
|
||
|
|
||
|
void main() {
|
||
|
vec2 invSize = 1.0 / texSize;
|
||
|
vec4 uvOffset = vec4(1.0, 0.0, 0.0, 1.0) * vec4(invSize, invSize);
|
||
|
vec4 c1 = texture2D( maskTexture, vUv + uvOffset.xy);
|
||
|
vec4 c2 = texture2D( maskTexture, vUv - uvOffset.xy);
|
||
|
vec4 c3 = texture2D( maskTexture, vUv + uvOffset.yw);
|
||
|
vec4 c4 = texture2D( maskTexture, vUv - uvOffset.yw);
|
||
|
float diff1 = (c1.r - c2.r)*0.5;
|
||
|
float diff2 = (c3.r - c4.r)*0.5;
|
||
|
float d = length( vec2(diff1, diff2) );
|
||
|
float a1 = min(c1.g, c2.g);
|
||
|
float a2 = min(c3.g, c4.g);
|
||
|
float visibilityFactor = min(a1, a2);
|
||
|
vec3 edgeColor = 1.0 - visibilityFactor > 0.001 ? visibleEdgeColor : hiddenEdgeColor;
|
||
|
gl_FragColor = vec4(edgeColor, 1.0) * vec4(d);
|
||
|
}`
|
||
|
} );
|
||
|
|
||
|
}
|
||
|
|
||
|
getSeperableBlurMaterial( maxRadius ) {
|
||
|
|
||
|
return new ShaderMaterial( {
|
||
|
|
||
|
defines: {
|
||
|
'MAX_RADIUS': maxRadius,
|
||
|
},
|
||
|
|
||
|
uniforms: {
|
||
|
'colorTexture': { value: null },
|
||
|
'texSize': { value: new Vector2( 0.5, 0.5 ) },
|
||
|
'direction': { value: new Vector2( 0.5, 0.5 ) },
|
||
|
'kernelRadius': { value: 1.0 }
|
||
|
},
|
||
|
|
||
|
vertexShader:
|
||
|
`varying vec2 vUv;
|
||
|
|
||
|
void main() {
|
||
|
vUv = uv;
|
||
|
gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
|
||
|
}`,
|
||
|
|
||
|
fragmentShader:
|
||
|
`#include <common>
|
||
|
varying vec2 vUv;
|
||
|
uniform sampler2D colorTexture;
|
||
|
uniform vec2 texSize;
|
||
|
uniform vec2 direction;
|
||
|
uniform float kernelRadius;
|
||
|
|
||
|
float gaussianPdf(in float x, in float sigma) {
|
||
|
return 0.39894 * exp( -0.5 * x * x/( sigma * sigma))/sigma;
|
||
|
}
|
||
|
|
||
|
void main() {
|
||
|
vec2 invSize = 1.0 / texSize;
|
||
|
float sigma = kernelRadius/2.0;
|
||
|
float weightSum = gaussianPdf(0.0, sigma);
|
||
|
vec4 diffuseSum = texture2D( colorTexture, vUv) * weightSum;
|
||
|
vec2 delta = direction * invSize * kernelRadius/float(MAX_RADIUS);
|
||
|
vec2 uvOffset = delta;
|
||
|
for( int i = 1; i <= MAX_RADIUS; i ++ ) {
|
||
|
float x = kernelRadius * float(i) / float(MAX_RADIUS);
|
||
|
float w = gaussianPdf(x, sigma);
|
||
|
vec4 sample1 = texture2D( colorTexture, vUv + uvOffset);
|
||
|
vec4 sample2 = texture2D( colorTexture, vUv - uvOffset);
|
||
|
diffuseSum += ((sample1 + sample2) * w);
|
||
|
weightSum += (2.0 * w);
|
||
|
uvOffset += delta;
|
||
|
}
|
||
|
gl_FragColor = diffuseSum/weightSum;
|
||
|
}`
|
||
|
} );
|
||
|
|
||
|
}
|
||
|
|
||
|
getOverlayMaterial() {
|
||
|
|
||
|
return new ShaderMaterial( {
|
||
|
|
||
|
uniforms: {
|
||
|
'maskTexture': { value: null },
|
||
|
'edgeTexture1': { value: null },
|
||
|
'edgeTexture2': { value: null },
|
||
|
'patternTexture': { value: null },
|
||
|
'edgeStrength': { value: 1.0 },
|
||
|
'edgeGlow': { value: 1.0 },
|
||
|
'usePatternTexture': { value: 0.0 }
|
||
|
},
|
||
|
|
||
|
vertexShader:
|
||
|
`varying vec2 vUv;
|
||
|
|
||
|
void main() {
|
||
|
vUv = uv;
|
||
|
gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
|
||
|
}`,
|
||
|
|
||
|
fragmentShader:
|
||
|
`varying vec2 vUv;
|
||
|
|
||
|
uniform sampler2D maskTexture;
|
||
|
uniform sampler2D edgeTexture1;
|
||
|
uniform sampler2D edgeTexture2;
|
||
|
uniform sampler2D patternTexture;
|
||
|
uniform float edgeStrength;
|
||
|
uniform float edgeGlow;
|
||
|
uniform bool usePatternTexture;
|
||
|
|
||
|
void main() {
|
||
|
vec4 edgeValue1 = texture2D(edgeTexture1, vUv);
|
||
|
vec4 edgeValue2 = texture2D(edgeTexture2, vUv);
|
||
|
vec4 maskColor = texture2D(maskTexture, vUv);
|
||
|
vec4 patternColor = texture2D(patternTexture, 6.0 * vUv);
|
||
|
float visibilityFactor = 1.0 - maskColor.g > 0.0 ? 1.0 : 0.5;
|
||
|
vec4 edgeValue = edgeValue1 + edgeValue2 * edgeGlow;
|
||
|
vec4 finalColor = edgeStrength * maskColor.r * edgeValue;
|
||
|
if(usePatternTexture)
|
||
|
finalColor += + visibilityFactor * (1.0 - maskColor.r) * (1.0 - patternColor.r);
|
||
|
gl_FragColor = finalColor;
|
||
|
}`,
|
||
|
blending: AdditiveBlending,
|
||
|
depthTest: false,
|
||
|
depthWrite: false,
|
||
|
transparent: true
|
||
|
} );
|
||
|
|
||
|
}
|
||
|
|
||
|
}
|
||
|
|
||
|
OutlinePass.BlurDirectionX = new Vector2( 1.0, 0.0 );
|
||
|
OutlinePass.BlurDirectionY = new Vector2( 0.0, 1.0 );
|
||
|
|
||
|
export { OutlinePass };
|