( function () { class SSAOPass extends THREE.Pass { constructor( scene, camera, width, height ) { super(); this.width = width !== undefined ? width : 512; this.height = height !== undefined ? height : 512; this.clear = true; this.camera = camera; this.scene = scene; this.kernelRadius = 8; this.kernelSize = 32; this.kernel = []; this.noiseTexture = null; this.output = 0; this.minDistance = 0.005; this.maxDistance = 0.1; this._visibilityCache = new Map(); // this.generateSampleKernel(); this.generateRandomKernelRotations(); // beauty render target const depthTexture = new THREE.DepthTexture(); depthTexture.type = THREE.UnsignedShortType; this.beautyRenderTarget = new THREE.WebGLRenderTarget( this.width, this.height, { minFilter: THREE.LinearFilter, magFilter: THREE.LinearFilter, format: THREE.RGBAFormat } ); // normal render target with depth buffer this.normalRenderTarget = new THREE.WebGLRenderTarget( this.width, this.height, { minFilter: THREE.NearestFilter, magFilter: THREE.NearestFilter, format: THREE.RGBAFormat, depthTexture: depthTexture } ); // ssao render target this.ssaoRenderTarget = new THREE.WebGLRenderTarget( this.width, this.height, { minFilter: THREE.LinearFilter, magFilter: THREE.LinearFilter, format: THREE.RGBAFormat } ); this.blurRenderTarget = this.ssaoRenderTarget.clone(); // ssao material if ( THREE.SSAOShader === undefined ) { console.error( 'THREE.SSAOPass: The pass relies on THREE.SSAOShader.' ); } this.ssaoMaterial = new THREE.ShaderMaterial( { defines: Object.assign( {}, THREE.SSAOShader.defines ), uniforms: THREE.UniformsUtils.clone( THREE.SSAOShader.uniforms ), vertexShader: THREE.SSAOShader.vertexShader, fragmentShader: THREE.SSAOShader.fragmentShader, blending: THREE.NoBlending } ); this.ssaoMaterial.uniforms[ 'tDiffuse' ].value = this.beautyRenderTarget.texture; this.ssaoMaterial.uniforms[ 'tNormal' ].value = this.normalRenderTarget.texture; this.ssaoMaterial.uniforms[ 'tDepth' ].value = this.normalRenderTarget.depthTexture; this.ssaoMaterial.uniforms[ 'tNoise' ].value = this.noiseTexture; this.ssaoMaterial.uniforms[ 'kernel' ].value = this.kernel; this.ssaoMaterial.uniforms[ 'cameraNear' ].value = this.camera.near; this.ssaoMaterial.uniforms[ 'cameraFar' ].value = this.camera.far; this.ssaoMaterial.uniforms[ 'resolution' ].value.set( this.width, this.height ); this.ssaoMaterial.uniforms[ 'cameraProjectionMatrix' ].value.copy( this.camera.projectionMatrix ); this.ssaoMaterial.uniforms[ 'cameraInverseProjectionMatrix' ].value.copy( this.camera.projectionMatrixInverse ); // normal material this.normalMaterial = new THREE.MeshNormalMaterial(); this.normalMaterial.blending = THREE.NoBlending; // blur material this.blurMaterial = new THREE.ShaderMaterial( { defines: Object.assign( {}, THREE.SSAOBlurShader.defines ), uniforms: THREE.UniformsUtils.clone( THREE.SSAOBlurShader.uniforms ), vertexShader: THREE.SSAOBlurShader.vertexShader, fragmentShader: THREE.SSAOBlurShader.fragmentShader } ); this.blurMaterial.uniforms[ 'tDiffuse' ].value = this.ssaoRenderTarget.texture; this.blurMaterial.uniforms[ 'resolution' ].value.set( this.width, this.height ); // material for rendering the depth this.depthRenderMaterial = new THREE.ShaderMaterial( { defines: Object.assign( {}, THREE.SSAODepthShader.defines ), uniforms: THREE.UniformsUtils.clone( THREE.SSAODepthShader.uniforms ), vertexShader: THREE.SSAODepthShader.vertexShader, fragmentShader: THREE.SSAODepthShader.fragmentShader, blending: THREE.NoBlending } ); this.depthRenderMaterial.uniforms[ 'tDepth' ].value = this.normalRenderTarget.depthTexture; this.depthRenderMaterial.uniforms[ 'cameraNear' ].value = this.camera.near; this.depthRenderMaterial.uniforms[ 'cameraFar' ].value = this.camera.far; // material for rendering the content of a render target this.copyMaterial = new THREE.ShaderMaterial( { uniforms: THREE.UniformsUtils.clone( THREE.CopyShader.uniforms ), vertexShader: THREE.CopyShader.vertexShader, fragmentShader: THREE.CopyShader.fragmentShader, transparent: true, depthTest: false, depthWrite: false, blendSrc: THREE.DstColorFactor, blendDst: THREE.ZeroFactor, blendEquation: THREE.AddEquation, blendSrcAlpha: THREE.DstAlphaFactor, blendDstAlpha: THREE.ZeroFactor, blendEquationAlpha: THREE.AddEquation } ); this.fsQuad = new THREE.FullScreenQuad( null ); this.originalClearColor = new THREE.Color(); } dispose() { // dispose render targets this.beautyRenderTarget.dispose(); this.normalRenderTarget.dispose(); this.ssaoRenderTarget.dispose(); this.blurRenderTarget.dispose(); // dispose materials this.normalMaterial.dispose(); this.blurMaterial.dispose(); this.copyMaterial.dispose(); this.depthRenderMaterial.dispose(); // dipsose full screen quad this.fsQuad.dispose(); } render( renderer, writeBuffer /*, readBuffer, deltaTime, maskActive */ ) { // render beauty renderer.setRenderTarget( this.beautyRenderTarget ); renderer.clear(); renderer.render( this.scene, this.camera ); // render normals and depth (honor only meshes, points and lines do not contribute to SSAO) this.overrideVisibility(); this.renderOverride( renderer, this.normalMaterial, this.normalRenderTarget, 0x7777ff, 1.0 ); this.restoreVisibility(); // render SSAO this.ssaoMaterial.uniforms[ 'kernelRadius' ].value = this.kernelRadius; this.ssaoMaterial.uniforms[ 'minDistance' ].value = this.minDistance; this.ssaoMaterial.uniforms[ 'maxDistance' ].value = this.maxDistance; this.renderPass( renderer, this.ssaoMaterial, this.ssaoRenderTarget ); // render blur this.renderPass( renderer, this.blurMaterial, this.blurRenderTarget ); // output result to screen switch ( this.output ) { case SSAOPass.OUTPUT.SSAO: this.copyMaterial.uniforms[ 'tDiffuse' ].value = this.ssaoRenderTarget.texture; this.copyMaterial.blending = THREE.NoBlending; this.renderPass( renderer, this.copyMaterial, this.renderToScreen ? null : writeBuffer ); break; case SSAOPass.OUTPUT.Blur: this.copyMaterial.uniforms[ 'tDiffuse' ].value = this.blurRenderTarget.texture; this.copyMaterial.blending = THREE.NoBlending; this.renderPass( renderer, this.copyMaterial, this.renderToScreen ? null : writeBuffer ); break; case SSAOPass.OUTPUT.Beauty: this.copyMaterial.uniforms[ 'tDiffuse' ].value = this.beautyRenderTarget.texture; this.copyMaterial.blending = THREE.NoBlending; this.renderPass( renderer, this.copyMaterial, this.renderToScreen ? null : writeBuffer ); break; case SSAOPass.OUTPUT.Depth: this.renderPass( renderer, this.depthRenderMaterial, this.renderToScreen ? null : writeBuffer ); break; case SSAOPass.OUTPUT.Normal: this.copyMaterial.uniforms[ 'tDiffuse' ].value = this.normalRenderTarget.texture; this.copyMaterial.blending = THREE.NoBlending; this.renderPass( renderer, this.copyMaterial, this.renderToScreen ? null : writeBuffer ); break; case SSAOPass.OUTPUT.Default: this.copyMaterial.uniforms[ 'tDiffuse' ].value = this.beautyRenderTarget.texture; this.copyMaterial.blending = THREE.NoBlending; this.renderPass( renderer, this.copyMaterial, this.renderToScreen ? null : writeBuffer ); this.copyMaterial.uniforms[ 'tDiffuse' ].value = this.blurRenderTarget.texture; this.copyMaterial.blending = THREE.CustomBlending; this.renderPass( renderer, this.copyMaterial, this.renderToScreen ? null : writeBuffer ); break; default: console.warn( 'THREE.SSAOPass: Unknown output type.' ); } } renderPass( renderer, passMaterial, renderTarget, clearColor, clearAlpha ) { // save original state renderer.getClearColor( this.originalClearColor ); const originalClearAlpha = renderer.getClearAlpha(); const originalAutoClear = renderer.autoClear; renderer.setRenderTarget( renderTarget ); // setup pass state renderer.autoClear = false; if ( clearColor !== undefined && clearColor !== null ) { renderer.setClearColor( clearColor ); renderer.setClearAlpha( clearAlpha || 0.0 ); renderer.clear(); } this.fsQuad.material = passMaterial; this.fsQuad.render( renderer ); // restore original state renderer.autoClear = originalAutoClear; renderer.setClearColor( this.originalClearColor ); renderer.setClearAlpha( originalClearAlpha ); } renderOverride( renderer, overrideMaterial, renderTarget, clearColor, clearAlpha ) { renderer.getClearColor( this.originalClearColor ); const originalClearAlpha = renderer.getClearAlpha(); const originalAutoClear = renderer.autoClear; renderer.setRenderTarget( renderTarget ); renderer.autoClear = false; clearColor = overrideMaterial.clearColor || clearColor; clearAlpha = overrideMaterial.clearAlpha || clearAlpha; if ( clearColor !== undefined && clearColor !== null ) { renderer.setClearColor( clearColor ); renderer.setClearAlpha( clearAlpha || 0.0 ); renderer.clear(); } this.scene.overrideMaterial = overrideMaterial; renderer.render( this.scene, this.camera ); this.scene.overrideMaterial = null; // restore original state renderer.autoClear = originalAutoClear; renderer.setClearColor( this.originalClearColor ); renderer.setClearAlpha( originalClearAlpha ); } setSize( width, height ) { this.width = width; this.height = height; this.beautyRenderTarget.setSize( width, height ); this.ssaoRenderTarget.setSize( width, height ); this.normalRenderTarget.setSize( width, height ); this.blurRenderTarget.setSize( width, height ); this.ssaoMaterial.uniforms[ 'resolution' ].value.set( width, height ); this.ssaoMaterial.uniforms[ 'cameraProjectionMatrix' ].value.copy( this.camera.projectionMatrix ); this.ssaoMaterial.uniforms[ 'cameraInverseProjectionMatrix' ].value.copy( this.camera.projectionMatrixInverse ); this.blurMaterial.uniforms[ 'resolution' ].value.set( width, height ); } generateSampleKernel() { const kernelSize = this.kernelSize; const kernel = this.kernel; for ( let i = 0; i < kernelSize; i ++ ) { const sample = new THREE.Vector3(); sample.x = Math.random() * 2 - 1; sample.y = Math.random() * 2 - 1; sample.z = Math.random(); sample.normalize(); let scale = i / kernelSize; scale = THREE.MathUtils.lerp( 0.1, 1, scale * scale ); sample.multiplyScalar( scale ); kernel.push( sample ); } } generateRandomKernelRotations() { const width = 4, height = 4; if ( THREE.SimplexNoise === undefined ) { console.error( 'THREE.SSAOPass: The pass relies on THREE.SimplexNoise.' ); } const simplex = new THREE.SimplexNoise(); const size = width * height; const data = new Float32Array( size * 4 ); for ( let i = 0; i < size; i ++ ) { const stride = i * 4; const x = Math.random() * 2 - 1; const y = Math.random() * 2 - 1; const z = 0; const noise = simplex.noise3d( x, y, z ); data[ stride ] = noise; data[ stride + 1 ] = noise; data[ stride + 2 ] = noise; data[ stride + 3 ] = 1; } this.noiseTexture = new THREE.DataTexture( data, width, height, THREE.RGBAFormat, THREE.FloatType ); this.noiseTexture.wrapS = THREE.RepeatWrapping; this.noiseTexture.wrapT = THREE.RepeatWrapping; } overrideVisibility() { const scene = this.scene; const cache = this._visibilityCache; scene.traverse( function ( object ) { cache.set( object, object.visible ); if ( object.isPoints || object.isLine ) object.visible = false; } ); } restoreVisibility() { const scene = this.scene; const cache = this._visibilityCache; scene.traverse( function ( object ) { const visible = cache.get( object ); object.visible = visible; } ); cache.clear(); } } SSAOPass.OUTPUT = { 'Default': 0, 'SSAO': 1, 'Blur': 2, 'Beauty': 3, 'Depth': 4, 'Normal': 5 }; THREE.SSAOPass = SSAOPass; } )();