9 lines
82 KiB
JavaScript
9 lines
82 KiB
JavaScript
/*!
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* pixi-filters - v2.7.0
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* Compiled Sun, 13 Jan 2019 22:51:52 UTC
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*
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* pixi-filters is licensed under the MIT License.
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* http://www.opensource.org/licenses/mit-license
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*/
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var __filters=function(e,t){"use strict";var n="attribute vec2 aVertexPosition;\nattribute vec2 aTextureCoord;\n\nuniform mat3 projectionMatrix;\n\nvarying vec2 vTextureCoord;\n\nvoid main(void)\n{\n gl_Position = vec4((projectionMatrix * vec3(aVertexPosition, 1.0)).xy, 0.0, 1.0);\n vTextureCoord = aTextureCoord;\n}",r="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\n\nuniform float gamma;\nuniform float contrast;\nuniform float saturation;\nuniform float brightness;\nuniform float red;\nuniform float green;\nuniform float blue;\nuniform float alpha;\n\nvoid main(void)\n{\n vec4 c = texture2D(uSampler, vTextureCoord);\n\n if (c.a > 0.0) {\n c.rgb /= c.a;\n\n vec3 rgb = pow(c.rgb, vec3(1. / gamma));\n rgb = mix(vec3(.5), mix(vec3(dot(vec3(.2125, .7154, .0721), rgb)), rgb, saturation), contrast);\n rgb.r *= red;\n rgb.g *= green;\n rgb.b *= blue;\n c.rgb = rgb * brightness;\n\n c.rgb *= c.a;\n }\n\n gl_FragColor = c * alpha;\n}\n",o=function(e){function t(t){e.call(this,n,r),Object.assign(this,{gamma:1,saturation:1,contrast:1,brightness:1,red:1,green:1,blue:1,alpha:1},t)}return e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t,t.prototype.apply=function(e,t,n,r){this.uniforms.gamma=Math.max(this.gamma,1e-4),this.uniforms.saturation=this.saturation,this.uniforms.contrast=this.contrast,this.uniforms.brightness=this.brightness,this.uniforms.red=this.red,this.uniforms.green=this.green,this.uniforms.blue=this.blue,this.uniforms.alpha=this.alpha,e.applyFilter(this,t,n,r)},t}(t.Filter),i=n,l="\nvarying vec2 vTextureCoord;\nuniform sampler2D uSampler;\n\nuniform vec2 uOffset;\n\nvoid main(void)\n{\n vec4 color = vec4(0.0);\n\n // Sample top left pixel\n color += texture2D(uSampler, vec2(vTextureCoord.x - uOffset.x, vTextureCoord.y + uOffset.y));\n\n // Sample top right pixel\n color += texture2D(uSampler, vec2(vTextureCoord.x + uOffset.x, vTextureCoord.y + uOffset.y));\n\n // Sample bottom right pixel\n color += texture2D(uSampler, vec2(vTextureCoord.x + uOffset.x, vTextureCoord.y - uOffset.y));\n\n // Sample bottom left pixel\n color += texture2D(uSampler, vec2(vTextureCoord.x - uOffset.x, vTextureCoord.y - uOffset.y));\n\n // Average\n color *= 0.25;\n\n gl_FragColor = color;\n}",s="\nvarying vec2 vTextureCoord;\nuniform sampler2D uSampler;\n\nuniform vec2 uOffset;\nuniform vec4 filterClamp;\n\nvoid main(void)\n{\n vec4 color = vec4(0.0);\n\n // Sample top left pixel\n color += texture2D(uSampler, clamp(vec2(vTextureCoord.x - uOffset.x, vTextureCoord.y + uOffset.y), filterClamp.xy, filterClamp.zw));\n\n // Sample top right pixel\n color += texture2D(uSampler, clamp(vec2(vTextureCoord.x + uOffset.x, vTextureCoord.y + uOffset.y), filterClamp.xy, filterClamp.zw));\n\n // Sample bottom right pixel\n color += texture2D(uSampler, clamp(vec2(vTextureCoord.x + uOffset.x, vTextureCoord.y - uOffset.y), filterClamp.xy, filterClamp.zw));\n\n // Sample bottom left pixel\n color += texture2D(uSampler, clamp(vec2(vTextureCoord.x - uOffset.x, vTextureCoord.y - uOffset.y), filterClamp.xy, filterClamp.zw));\n\n // Average\n color *= 0.25;\n\n gl_FragColor = color;\n}\n",a=function(e){function n(n,r,o){void 0===n&&(n=4),void 0===r&&(r=3),void 0===o&&(o=!1),e.call(this,i,o?s:l),this.uniforms.uOffset=new Float32Array(2),this._pixelSize=new t.Point,this.pixelSize=1,this._clamp=o,this._kernels=null,Array.isArray(n)?this.kernels=n:(this._blur=n,this.quality=r)}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={kernels:{configurable:!0},clamp:{configurable:!0},pixelSize:{configurable:!0},quality:{configurable:!0},blur:{configurable:!0}};return n.prototype.apply=function(e,t,n,r){var o,i=this.pixelSize.x/t.size.width,l=this.pixelSize.y/t.size.height;if(1===this._quality||0===this._blur)o=this._kernels[0]+.5,this.uniforms.uOffset[0]=o*i,this.uniforms.uOffset[1]=o*l,e.applyFilter(this,t,n,r);else{for(var s,a=e.getRenderTarget(!0),u=t,c=a,f=this._quality-1,h=0;h<f;h++)o=this._kernels[h]+.5,this.uniforms.uOffset[0]=o*i,this.uniforms.uOffset[1]=o*l,e.applyFilter(this,u,c,!0),s=u,u=c,c=s;o=this._kernels[f]+.5,this.uniforms.uOffset[0]=o*i,this.uniforms.uOffset[1]=o*l,e.applyFilter(this,u,n,r),e.returnRenderTarget(a)}},n.prototype._generateKernels=function(){var e=this._blur,t=this._quality,n=[e];if(e>0)for(var r=e,o=e/t,i=1;i<t;i++)r-=o,n.push(r);this._kernels=n},r.kernels.get=function(){return this._kernels},r.kernels.set=function(e){Array.isArray(e)&&e.length>0?(this._kernels=e,this._quality=e.length,this._blur=Math.max.apply(Math,e)):(this._kernels=[0],this._quality=1)},r.clamp.get=function(){return this._clamp},r.pixelSize.set=function(e){"number"==typeof e?(this._pixelSize.x=e,this._pixelSize.y=e):Array.isArray(e)?(this._pixelSize.x=e[0],this._pixelSize.y=e[1]):e instanceof t.Point?(this._pixelSize.x=e.x,this._pixelSize.y=e.y):(this._pixelSize.x=1,this._pixelSize.y=1)},r.pixelSize.get=function(){return this._pixelSize},r.quality.get=function(){return this._quality},r.quality.set=function(e){this._quality=Math.max(1,Math.round(e)),this._generateKernels()},r.blur.get=function(){return this._blur},r.blur.set=function(e){this._blur=e,this._generateKernels()},Object.defineProperties(n.prototype,r),n}(t.Filter),u=n,c="\nuniform sampler2D uSampler;\nvarying vec2 vTextureCoord;\n\nuniform float threshold;\n\nvoid main() {\n vec4 color = texture2D(uSampler, vTextureCoord);\n\n // A simple & fast algorithm for getting brightness.\n // It's inaccuracy , but good enought for this feature.\n float _max = max(max(color.r, color.g), color.b);\n float _min = min(min(color.r, color.g), color.b);\n float brightness = (_max + _min) * 0.5;\n\n if(brightness > threshold) {\n gl_FragColor = color;\n } else {\n gl_FragColor = vec4(0.0, 0.0, 0.0, 0.0);\n }\n}\n",f=function(e){function t(t){void 0===t&&(t=.5),e.call(this,u,c),this.threshold=t}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={threshold:{configurable:!0}};return n.threshold.get=function(){return this.uniforms.threshold},n.threshold.set=function(e){this.uniforms.threshold=e},Object.defineProperties(t.prototype,n),t}(t.Filter),h="uniform sampler2D uSampler;\nvarying vec2 vTextureCoord;\n\nuniform sampler2D bloomTexture;\nuniform float bloomScale;\nuniform float brightness;\n\nvoid main() {\n vec4 color = texture2D(uSampler, vTextureCoord);\n color.rgb *= brightness;\n vec4 bloomColor = vec4(texture2D(bloomTexture, vTextureCoord).rgb, 0.0);\n bloomColor.rgb *= bloomScale;\n gl_FragColor = color + bloomColor;\n}\n",p=function(e){function n(n){e.call(this,u,h),"number"==typeof n&&(n={threshold:n}),n=Object.assign({threshold:.5,bloomScale:1,brightness:1,kernels:null,blur:8,quality:4,pixelSize:1,resolution:t.settings.RESOLUTION},n),this.bloomScale=n.bloomScale,this.brightness=n.brightness;var r=n.kernels,o=n.blur,i=n.quality,l=n.pixelSize,s=n.resolution;this._extractFilter=new f(n.threshold),this._extractFilter.resolution=s,this._blurFilter=r?new a(r):new a(o,i),this.pixelSize=l,this.resolution=s}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={resolution:{configurable:!0},threshold:{configurable:!0},kernels:{configurable:!0},blur:{configurable:!0},quality:{configurable:!0},pixelSize:{configurable:!0}};return n.prototype.apply=function(e,t,n,r,o){var i=e.getRenderTarget(!0);this._extractFilter.apply(e,t,i,!0,o);var l=e.getRenderTarget(!0);this._blurFilter.apply(e,i,l,!0,o),this.uniforms.bloomScale=this.bloomScale,this.uniforms.brightness=this.brightness,this.uniforms.bloomTexture=l,e.applyFilter(this,t,n,r),e.returnRenderTarget(l),e.returnRenderTarget(i)},r.resolution.get=function(){return this._resolution},r.resolution.set=function(e){this._resolution=e,this._extractFilter&&(this._extractFilter.resolution=e),this._blurFilter&&(this._blurFilter.resolution=e)},r.threshold.get=function(){return this._extractFilter.threshold},r.threshold.set=function(e){this._extractFilter.threshold=e},r.kernels.get=function(){return this._blurFilter.kernels},r.kernels.set=function(e){this._blurFilter.kernels=e},r.blur.get=function(){return this._blurFilter.blur},r.blur.set=function(e){this._blurFilter.blur=e},r.quality.get=function(){return this._blurFilter.quality},r.quality.set=function(e){this._blurFilter.quality=e},r.pixelSize.get=function(){return this._blurFilter.pixelSize},r.pixelSize.set=function(e){this._blurFilter.pixelSize=e},Object.defineProperties(n.prototype,r),n}(t.Filter),d=n,m="varying vec2 vTextureCoord;\n\nuniform vec4 filterArea;\nuniform float pixelSize;\nuniform sampler2D uSampler;\n\nvec2 mapCoord( vec2 coord )\n{\n coord *= filterArea.xy;\n coord += filterArea.zw;\n\n return coord;\n}\n\nvec2 unmapCoord( vec2 coord )\n{\n coord -= filterArea.zw;\n coord /= filterArea.xy;\n\n return coord;\n}\n\nvec2 pixelate(vec2 coord, vec2 size)\n{\n return floor( coord / size ) * size;\n}\n\nvec2 getMod(vec2 coord, vec2 size)\n{\n return mod( coord , size) / size;\n}\n\nfloat character(float n, vec2 p)\n{\n p = floor(p*vec2(4.0, -4.0) + 2.5);\n if (clamp(p.x, 0.0, 4.0) == p.x && clamp(p.y, 0.0, 4.0) == p.y)\n {\n if (int(mod(n/exp2(p.x + 5.0*p.y), 2.0)) == 1) return 1.0;\n }\n return 0.0;\n}\n\nvoid main()\n{\n vec2 coord = mapCoord(vTextureCoord);\n\n // get the rounded color..\n vec2 pixCoord = pixelate(coord, vec2(pixelSize));\n pixCoord = unmapCoord(pixCoord);\n\n vec4 color = texture2D(uSampler, pixCoord);\n\n // determine the character to use\n float gray = (color.r + color.g + color.b) / 3.0;\n\n float n = 65536.0; // .\n if (gray > 0.2) n = 65600.0; // :\n if (gray > 0.3) n = 332772.0; // *\n if (gray > 0.4) n = 15255086.0; // o\n if (gray > 0.5) n = 23385164.0; // &\n if (gray > 0.6) n = 15252014.0; // 8\n if (gray > 0.7) n = 13199452.0; // @\n if (gray > 0.8) n = 11512810.0; // #\n\n // get the mod..\n vec2 modd = getMod(coord, vec2(pixelSize));\n\n gl_FragColor = color * character( n, vec2(-1.0) + modd * 2.0);\n\n}",g=function(e){function t(t){void 0===t&&(t=8),e.call(this,d,m),this.size=t}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={size:{configurable:!0}};return n.size.get=function(){return this.uniforms.pixelSize},n.size.set=function(e){this.uniforms.pixelSize=e},Object.defineProperties(t.prototype,n),t}(t.Filter),v=n,x="precision mediump float;\n\nvarying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform vec4 filterArea;\n\nuniform float transformX;\nuniform float transformY;\nuniform vec3 lightColor;\nuniform float lightAlpha;\nuniform vec3 shadowColor;\nuniform float shadowAlpha;\n\nvoid main(void) {\n vec2 transform = vec2(1.0 / filterArea) * vec2(transformX, transformY);\n vec4 color = texture2D(uSampler, vTextureCoord);\n float light = texture2D(uSampler, vTextureCoord - transform).a;\n float shadow = texture2D(uSampler, vTextureCoord + transform).a;\n\n color.rgb = mix(color.rgb, lightColor, clamp((color.a - light) * lightAlpha, 0.0, 1.0));\n color.rgb = mix(color.rgb, shadowColor, clamp((color.a - shadow) * shadowAlpha, 0.0, 1.0));\n gl_FragColor = vec4(color.rgb * color.a, color.a);\n}\n",y=function(e){function n(t){void 0===t&&(t={}),e.call(this,v,x),this.uniforms.lightColor=new Float32Array(3),this.uniforms.shadowColor=new Float32Array(3),t=Object.assign({rotation:45,thickness:2,lightColor:16777215,lightAlpha:.7,shadowColor:0,shadowAlpha:.7},t),this.rotation=t.rotation,this.thickness=t.thickness,this.lightColor=t.lightColor,this.lightAlpha=t.lightAlpha,this.shadowColor=t.shadowColor,this.shadowAlpha=t.shadowAlpha}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={rotation:{configurable:!0},thickness:{configurable:!0},lightColor:{configurable:!0},lightAlpha:{configurable:!0},shadowColor:{configurable:!0},shadowAlpha:{configurable:!0}};return n.prototype._updateTransform=function(){this.uniforms.transformX=this._thickness*Math.cos(this._angle),this.uniforms.transformY=this._thickness*Math.sin(this._angle)},r.rotation.get=function(){return this._angle/t.DEG_TO_RAD},r.rotation.set=function(e){this._angle=e*t.DEG_TO_RAD,this._updateTransform()},r.thickness.get=function(){return this._thickness},r.thickness.set=function(e){this._thickness=e,this._updateTransform()},r.lightColor.get=function(){return t.utils.rgb2hex(this.uniforms.lightColor)},r.lightColor.set=function(e){t.utils.hex2rgb(e,this.uniforms.lightColor)},r.lightAlpha.get=function(){return this.uniforms.lightAlpha},r.lightAlpha.set=function(e){this.uniforms.lightAlpha=e},r.shadowColor.get=function(){return t.utils.rgb2hex(this.uniforms.shadowColor)},r.shadowColor.set=function(e){t.utils.hex2rgb(e,this.uniforms.shadowColor)},r.shadowAlpha.get=function(){return this.uniforms.shadowAlpha},r.shadowAlpha.set=function(e){this.uniforms.shadowAlpha=e},Object.defineProperties(n.prototype,r),n}(t.Filter),b=t.filters,_=b.BlurXFilter,C=b.BlurYFilter,S=b.AlphaFilter,F=function(e){function n(n,r,o,i){var l,s;void 0===n&&(n=2),void 0===r&&(r=4),void 0===o&&(o=t.settings.RESOLUTION),void 0===i&&(i=5),e.call(this),"number"==typeof n?(l=n,s=n):n instanceof t.Point?(l=n.x,s=n.y):Array.isArray(n)&&(l=n[0],s=n[1]),this.blurXFilter=new _(l,r,o,i),this.blurYFilter=new C(s,r,o,i),this.blurYFilter.blendMode=t.BLEND_MODES.SCREEN,this.defaultFilter=new S}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={blur:{configurable:!0},blurX:{configurable:!0},blurY:{configurable:!0}};return n.prototype.apply=function(e,t,n){var r=e.getRenderTarget(!0);this.defaultFilter.apply(e,t,n),this.blurXFilter.apply(e,t,r),this.blurYFilter.apply(e,r,n),e.returnRenderTarget(r)},r.blur.get=function(){return this.blurXFilter.blur},r.blur.set=function(e){this.blurXFilter.blur=this.blurYFilter.blur=e},r.blurX.get=function(){return this.blurXFilter.blur},r.blurX.set=function(e){this.blurXFilter.blur=e},r.blurY.get=function(){return this.blurYFilter.blur},r.blurY.set=function(e){this.blurYFilter.blur=e},Object.defineProperties(n.prototype,r),n}(t.Filter),z=n,A="uniform float radius;\nuniform float strength;\nuniform vec2 center;\nuniform sampler2D uSampler;\nvarying vec2 vTextureCoord;\n\nuniform vec4 filterArea;\nuniform vec4 filterClamp;\nuniform vec2 dimensions;\n\nvoid main()\n{\n vec2 coord = vTextureCoord * filterArea.xy;\n coord -= center * dimensions.xy;\n float distance = length(coord);\n if (distance < radius) {\n float percent = distance / radius;\n if (strength > 0.0) {\n coord *= mix(1.0, smoothstep(0.0, radius / distance, percent), strength * 0.75);\n } else {\n coord *= mix(1.0, pow(percent, 1.0 + strength * 0.75) * radius / distance, 1.0 - percent);\n }\n }\n coord += center * dimensions.xy;\n coord /= filterArea.xy;\n vec2 clampedCoord = clamp(coord, filterClamp.xy, filterClamp.zw);\n vec4 color = texture2D(uSampler, clampedCoord);\n if (coord != clampedCoord) {\n color *= max(0.0, 1.0 - length(coord - clampedCoord));\n }\n\n gl_FragColor = color;\n}\n",w=function(e){function t(t,n,r){e.call(this,z,A),this.uniforms.dimensions=new Float32Array(2),this.center=t||[.5,.5],this.radius="number"==typeof n?n:100,this.strength="number"==typeof r?r:1}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={radius:{configurable:!0},strength:{configurable:!0},center:{configurable:!0}};return t.prototype.apply=function(e,t,n,r){this.uniforms.dimensions[0]=t.sourceFrame.width,this.uniforms.dimensions[1]=t.sourceFrame.height,e.applyFilter(this,t,n,r)},n.radius.get=function(){return this.uniforms.radius},n.radius.set=function(e){this.uniforms.radius=e},n.strength.get=function(){return this.uniforms.strength},n.strength.set=function(e){this.uniforms.strength=e},n.center.get=function(){return this.uniforms.center},n.center.set=function(e){this.uniforms.center=e},Object.defineProperties(t.prototype,n),t}(t.Filter),T=n,D="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform sampler2D colorMap;\nuniform float _mix;\nuniform float _size;\nuniform float _sliceSize;\nuniform float _slicePixelSize;\nuniform float _sliceInnerSize;\nvoid main() {\n vec4 color = texture2D(uSampler, vTextureCoord.xy);\n\n vec4 adjusted;\n if (color.a > 0.0) {\n color.rgb /= color.a;\n float innerWidth = _size - 1.0;\n float zSlice0 = min(floor(color.b * innerWidth), innerWidth);\n float zSlice1 = min(zSlice0 + 1.0, innerWidth);\n float xOffset = _slicePixelSize * 0.5 + color.r * _sliceInnerSize;\n float s0 = xOffset + (zSlice0 * _sliceSize);\n float s1 = xOffset + (zSlice1 * _sliceSize);\n float yOffset = _sliceSize * 0.5 + color.g * (1.0 - _sliceSize);\n vec4 slice0Color = texture2D(colorMap, vec2(s0,yOffset));\n vec4 slice1Color = texture2D(colorMap, vec2(s1,yOffset));\n float zOffset = fract(color.b * innerWidth);\n adjusted = mix(slice0Color, slice1Color, zOffset);\n\n color.rgb *= color.a;\n }\n gl_FragColor = vec4(mix(color, adjusted, _mix).rgb, color.a);\n\n}",O=function(e){function n(t,n,r){void 0===n&&(n=!1),void 0===r&&(r=1),e.call(this,T,D),this._size=0,this._sliceSize=0,this._slicePixelSize=0,this._sliceInnerSize=0,this._scaleMode=null,this._nearest=!1,this.nearest=n,this.mix=r,this.colorMap=t}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={colorSize:{configurable:!0},colorMap:{configurable:!0},nearest:{configurable:!0}};return n.prototype.apply=function(e,t,n,r){this.uniforms._mix=this.mix,e.applyFilter(this,t,n,r)},r.colorSize.get=function(){return this._size},r.colorMap.get=function(){return this._colorMap},r.colorMap.set=function(e){e instanceof t.Texture||(e=t.Texture.from(e)),e&&e.baseTexture&&(e.baseTexture.scaleMode=this._scaleMode,e.baseTexture.mipmap=!1,this._size=e.height,this._sliceSize=1/this._size,this._slicePixelSize=this._sliceSize/this._size,this._sliceInnerSize=this._slicePixelSize*(this._size-1),this.uniforms._size=this._size,this.uniforms._sliceSize=this._sliceSize,this.uniforms._slicePixelSize=this._slicePixelSize,this.uniforms._sliceInnerSize=this._sliceInnerSize,this.uniforms.colorMap=e),this._colorMap=e},r.nearest.get=function(){return this._nearest},r.nearest.set=function(e){this._nearest=e,this._scaleMode=e?t.SCALE_MODES.NEAREST:t.SCALE_MODES.LINEAR;var n=this._colorMap;n&&n.baseTexture&&(n.baseTexture._glTextures={},n.baseTexture.scaleMode=this._scaleMode,n.baseTexture.mipmap=!1,n._updateID++,n.baseTexture.emit("update",n.baseTexture))},n.prototype.updateColorMap=function(){var e=this._colorMap;e&&e.baseTexture&&(e._updateID++,e.baseTexture.emit("update",e.baseTexture),this.colorMap=e)},n.prototype.destroy=function(t){this._colorMap&&this._colorMap.destroy(t),e.prototype.destroy.call(this)},Object.defineProperties(n.prototype,r),n}(t.Filter),P=n,M="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform vec3 originalColor;\nuniform vec3 newColor;\nuniform float epsilon;\nvoid main(void) {\n vec4 currentColor = texture2D(uSampler, vTextureCoord);\n vec3 colorDiff = originalColor - (currentColor.rgb / max(currentColor.a, 0.0000000001));\n float colorDistance = length(colorDiff);\n float doReplace = step(colorDistance, epsilon);\n gl_FragColor = vec4(mix(currentColor.rgb, (newColor + colorDiff) * currentColor.a, doReplace), currentColor.a);\n}\n",R=function(e){function n(t,n,r){void 0===t&&(t=16711680),void 0===n&&(n=0),void 0===r&&(r=.4),e.call(this,P,M),this.uniforms.originalColor=new Float32Array(3),this.uniforms.newColor=new Float32Array(3),this.originalColor=t,this.newColor=n,this.epsilon=r}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={originalColor:{configurable:!0},newColor:{configurable:!0},epsilon:{configurable:!0}};return r.originalColor.set=function(e){var n=this.uniforms.originalColor;"number"==typeof e?(t.utils.hex2rgb(e,n),this._originalColor=e):(n[0]=e[0],n[1]=e[1],n[2]=e[2],this._originalColor=t.utils.rgb2hex(n))},r.originalColor.get=function(){return this._originalColor},r.newColor.set=function(e){var n=this.uniforms.newColor;"number"==typeof e?(t.utils.hex2rgb(e,n),this._newColor=e):(n[0]=e[0],n[1]=e[1],n[2]=e[2],this._newColor=t.utils.rgb2hex(n))},r.newColor.get=function(){return this._newColor},r.epsilon.set=function(e){this.uniforms.epsilon=e},r.epsilon.get=function(){return this.uniforms.epsilon},Object.defineProperties(n.prototype,r),n}(t.Filter),j=n,L="precision mediump float;\n\nvarying mediump vec2 vTextureCoord;\n\nuniform sampler2D uSampler;\nuniform vec2 texelSize;\nuniform float matrix[9];\n\nvoid main(void)\n{\n vec4 c11 = texture2D(uSampler, vTextureCoord - texelSize); // top left\n vec4 c12 = texture2D(uSampler, vec2(vTextureCoord.x, vTextureCoord.y - texelSize.y)); // top center\n vec4 c13 = texture2D(uSampler, vec2(vTextureCoord.x + texelSize.x, vTextureCoord.y - texelSize.y)); // top right\n\n vec4 c21 = texture2D(uSampler, vec2(vTextureCoord.x - texelSize.x, vTextureCoord.y)); // mid left\n vec4 c22 = texture2D(uSampler, vTextureCoord); // mid center\n vec4 c23 = texture2D(uSampler, vec2(vTextureCoord.x + texelSize.x, vTextureCoord.y)); // mid right\n\n vec4 c31 = texture2D(uSampler, vec2(vTextureCoord.x - texelSize.x, vTextureCoord.y + texelSize.y)); // bottom left\n vec4 c32 = texture2D(uSampler, vec2(vTextureCoord.x, vTextureCoord.y + texelSize.y)); // bottom center\n vec4 c33 = texture2D(uSampler, vTextureCoord + texelSize); // bottom right\n\n gl_FragColor =\n c11 * matrix[0] + c12 * matrix[1] + c13 * matrix[2] +\n c21 * matrix[3] + c22 * matrix[4] + c23 * matrix[5] +\n c31 * matrix[6] + c32 * matrix[7] + c33 * matrix[8];\n\n gl_FragColor.a = c22.a;\n}\n",k=function(e){function t(t,n,r){void 0===n&&(n=200),void 0===r&&(r=200),e.call(this,j,L),this.uniforms.texelSize=new Float32Array(2),this.uniforms.matrix=new Float32Array(9),void 0!==t&&(this.matrix=t),this.width=n,this.height=r}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={matrix:{configurable:!0},width:{configurable:!0},height:{configurable:!0}};return n.matrix.get=function(){return this.uniforms.matrix},n.matrix.set=function(e){var t=this;e.forEach(function(e,n){return t.uniforms.matrix[n]=e})},n.width.get=function(){return 1/this.uniforms.texelSize[0]},n.width.set=function(e){this.uniforms.texelSize[0]=1/e},n.height.get=function(){return 1/this.uniforms.texelSize[1]},n.height.set=function(e){this.uniforms.texelSize[1]=1/e},Object.defineProperties(t.prototype,n),t}(t.Filter),I=n,E="precision mediump float;\n\nvarying vec2 vTextureCoord;\n\nuniform sampler2D uSampler;\n\nvoid main(void)\n{\n float lum = length(texture2D(uSampler, vTextureCoord.xy).rgb);\n\n gl_FragColor = vec4(1.0, 1.0, 1.0, 1.0);\n\n if (lum < 1.00)\n {\n if (mod(gl_FragCoord.x + gl_FragCoord.y, 10.0) == 0.0)\n {\n gl_FragColor = vec4(0.0, 0.0, 0.0, 1.0);\n }\n }\n\n if (lum < 0.75)\n {\n if (mod(gl_FragCoord.x - gl_FragCoord.y, 10.0) == 0.0)\n {\n gl_FragColor = vec4(0.0, 0.0, 0.0, 1.0);\n }\n }\n\n if (lum < 0.50)\n {\n if (mod(gl_FragCoord.x + gl_FragCoord.y - 5.0, 10.0) == 0.0)\n {\n gl_FragColor = vec4(0.0, 0.0, 0.0, 1.0);\n }\n }\n\n if (lum < 0.3)\n {\n if (mod(gl_FragCoord.x - gl_FragCoord.y - 5.0, 10.0) == 0.0)\n {\n gl_FragColor = vec4(0.0, 0.0, 0.0, 1.0);\n }\n }\n}\n",B=function(e){function t(){e.call(this,I,E)}return e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t,t}(t.Filter),X=n,q="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\n\nuniform vec4 filterArea;\nuniform vec2 dimensions;\n\nconst float SQRT_2 = 1.414213;\n\nconst float light = 1.0;\n\nuniform float curvature;\nuniform float lineWidth;\nuniform float lineContrast;\nuniform bool verticalLine;\nuniform float noise;\nuniform float noiseSize;\n\nuniform float vignetting;\nuniform float vignettingAlpha;\nuniform float vignettingBlur;\n\nuniform float seed;\nuniform float time;\n\nfloat rand(vec2 co) {\n return fract(sin(dot(co.xy, vec2(12.9898, 78.233))) * 43758.5453);\n}\n\nvoid main(void)\n{\n vec2 pixelCoord = vTextureCoord.xy * filterArea.xy;\n vec2 coord = pixelCoord / dimensions;\n\n vec2 dir = vec2(coord - vec2(0.5, 0.5));\n\n float _c = curvature > 0. ? curvature : 1.;\n float k = curvature > 0. ?(length(dir * dir) * 0.25 * _c * _c + 0.935 * _c) : 1.;\n vec2 uv = dir * k;\n\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n vec3 rgb = gl_FragColor.rgb;\n\n\n if (noise > 0.0 && noiseSize > 0.0)\n {\n pixelCoord.x = floor(pixelCoord.x / noiseSize);\n pixelCoord.y = floor(pixelCoord.y / noiseSize);\n float _noise = rand(pixelCoord * noiseSize * seed) - 0.5;\n rgb += _noise * noise;\n }\n\n if (lineWidth > 0.0) {\n float v = (verticalLine ? uv.x * dimensions.x : uv.y * dimensions.y) * min(1.0, 2.0 / lineWidth ) / _c;\n float j = 1. + cos(v * 1.2 - time) * 0.5 * lineContrast;\n rgb *= j;\n float segment = verticalLine ? mod((dir.x + .5) * dimensions.x, 4.) : mod((dir.y + .5) * dimensions.y, 4.);\n rgb *= 0.99 + ceil(segment) * 0.015;\n }\n\n if (vignetting > 0.0)\n {\n float outter = SQRT_2 - vignetting * SQRT_2;\n float darker = clamp((outter - length(dir) * SQRT_2) / ( 0.00001 + vignettingBlur * SQRT_2), 0.0, 1.0);\n rgb *= darker + (1.0 - darker) * (1.0 - vignettingAlpha);\n }\n\n gl_FragColor.rgb = rgb;\n}\n",N=function(e){function t(t){e.call(this,X,q),this.uniforms.dimensions=new Float32Array(2),this.time=0,this.seed=0,Object.assign(this,{curvature:1,lineWidth:1,lineContrast:.25,verticalLine:!1,noise:0,noiseSize:1,seed:0,vignetting:.3,vignettingAlpha:1,vignettingBlur:.3,time:0},t)}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={curvature:{configurable:!0},lineWidth:{configurable:!0},lineContrast:{configurable:!0},verticalLine:{configurable:!0},noise:{configurable:!0},noiseSize:{configurable:!0},vignetting:{configurable:!0},vignettingAlpha:{configurable:!0},vignettingBlur:{configurable:!0}};return t.prototype.apply=function(e,t,n,r){this.uniforms.dimensions[0]=t.sourceFrame.width,this.uniforms.dimensions[1]=t.sourceFrame.height,this.uniforms.seed=this.seed,this.uniforms.time=this.time,e.applyFilter(this,t,n,r)},n.curvature.set=function(e){this.uniforms.curvature=e},n.curvature.get=function(){return this.uniforms.curvature},n.lineWidth.set=function(e){this.uniforms.lineWidth=e},n.lineWidth.get=function(){return this.uniforms.lineWidth},n.lineContrast.set=function(e){this.uniforms.lineContrast=e},n.lineContrast.get=function(){return this.uniforms.lineContrast},n.verticalLine.set=function(e){this.uniforms.verticalLine=e},n.verticalLine.get=function(){return this.uniforms.verticalLine},n.noise.set=function(e){this.uniforms.noise=e},n.noise.get=function(){return this.uniforms.noise},n.noiseSize.set=function(e){this.uniforms.noiseSize=e},n.noiseSize.get=function(){return this.uniforms.noiseSize},n.vignetting.set=function(e){this.uniforms.vignetting=e},n.vignetting.get=function(){return this.uniforms.vignetting},n.vignettingAlpha.set=function(e){this.uniforms.vignettingAlpha=e},n.vignettingAlpha.get=function(){return this.uniforms.vignettingAlpha},n.vignettingBlur.set=function(e){this.uniforms.vignettingBlur=e},n.vignettingBlur.get=function(){return this.uniforms.vignettingBlur},Object.defineProperties(t.prototype,n),t}(t.Filter),W=n,G="precision mediump float;\n\nvarying vec2 vTextureCoord;\nvarying vec4 vColor;\n\nuniform vec4 filterArea;\nuniform sampler2D uSampler;\n\nuniform float angle;\nuniform float scale;\n\nfloat pattern()\n{\n float s = sin(angle), c = cos(angle);\n vec2 tex = vTextureCoord * filterArea.xy;\n vec2 point = vec2(\n c * tex.x - s * tex.y,\n s * tex.x + c * tex.y\n ) * scale;\n return (sin(point.x) * sin(point.y)) * 4.0;\n}\n\nvoid main()\n{\n vec4 color = texture2D(uSampler, vTextureCoord);\n float average = (color.r + color.g + color.b) / 3.0;\n gl_FragColor = vec4(vec3(average * 10.0 - 5.0 + pattern()), color.a);\n}\n",K=function(e){function t(t,n){void 0===t&&(t=1),void 0===n&&(n=5),e.call(this,W,G),this.scale=t,this.angle=n}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={scale:{configurable:!0},angle:{configurable:!0}};return n.scale.get=function(){return this.uniforms.scale},n.scale.set=function(e){this.uniforms.scale=e},n.angle.get=function(){return this.uniforms.angle},n.angle.set=function(e){this.uniforms.angle=e},Object.defineProperties(t.prototype,n),t}(t.Filter),Y=n,Q="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform float alpha;\nuniform vec3 color;\nvoid main(void){\n vec4 sample = texture2D(uSampler, vTextureCoord);\n\n // Un-premultiply alpha before applying the color\n if (sample.a > 0.0) {\n sample.rgb /= sample.a;\n }\n\n // Premultiply alpha again\n sample.rgb = color.rgb * sample.a;\n\n // alpha user alpha\n sample *= alpha;\n\n gl_FragColor = sample;\n}",U=function(e){function n(n){n&&n.constructor!==Object&&(console.warn("DropShadowFilter now uses options instead of (rotation, distance, blur, color, alpha)"),n={rotation:n},void 0!==arguments[1]&&(n.distance=arguments[1]),void 0!==arguments[2]&&(n.blur=arguments[2]),void 0!==arguments[3]&&(n.color=arguments[3]),void 0!==arguments[4]&&(n.alpha=arguments[4])),n=Object.assign({rotation:45,distance:5,color:0,alpha:.5,shadowOnly:!1,kernels:null,blur:2,quality:3,pixelSize:1,resolution:t.settings.RESOLUTION},n),e.call(this);var r=n.kernels,o=n.blur,i=n.quality,l=n.pixelSize,s=n.resolution;this._tintFilter=new t.Filter(Y,Q),this._tintFilter.uniforms.color=new Float32Array(4),this._tintFilter.resolution=s,this._blurFilter=r?new a(r):new a(o,i),this.pixelSize=l,this.resolution=s,this.targetTransform=new t.Matrix;var u=n.shadowOnly,c=n.rotation,f=n.distance,h=n.alpha,p=n.color;this.shadowOnly=u,this.rotation=c,this.distance=f,this.alpha=h,this.color=p,this._updatePadding()}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={resolution:{configurable:!0},distance:{configurable:!0},rotation:{configurable:!0},alpha:{configurable:!0},color:{configurable:!0},kernels:{configurable:!0},blur:{configurable:!0},quality:{configurable:!0},pixelSize:{configurable:!0}};return n.prototype.apply=function(e,t,n,r){var o=e.getRenderTarget();o.transform=this.targetTransform,this._tintFilter.apply(e,t,o,!0),o.transform=null,this._blurFilter.apply(e,o,n,r),!0!==this.shadowOnly&&e.applyFilter(this,t,n,!1),e.returnRenderTarget(o)},n.prototype._updatePadding=function(){this.padding=this.distance+2*this.blur},n.prototype._updateTargetTransform=function(){this.targetTransform.tx=this.distance*Math.cos(this.angle),this.targetTransform.ty=this.distance*Math.sin(this.angle)},r.resolution.get=function(){return this._resolution},r.resolution.set=function(e){this._resolution=e,this._tintFilter&&(this._tintFilter.resolution=e),this._blurFilter&&(this._blurFilter.resolution=e)},r.distance.get=function(){return this._distance},r.distance.set=function(e){this._distance=e,this._updatePadding(),this._updateTargetTransform()},r.rotation.get=function(){return this.angle/t.DEG_TO_RAD},r.rotation.set=function(e){this.angle=e*t.DEG_TO_RAD,this._updateTargetTransform()},r.alpha.get=function(){return this._tintFilter.uniforms.alpha},r.alpha.set=function(e){this._tintFilter.uniforms.alpha=e},r.color.get=function(){return t.utils.rgb2hex(this._tintFilter.uniforms.color)},r.color.set=function(e){t.utils.hex2rgb(e,this._tintFilter.uniforms.color)},r.kernels.get=function(){return this._blurFilter.kernels},r.kernels.set=function(e){this._blurFilter.kernels=e},r.blur.get=function(){return this._blurFilter.blur},r.blur.set=function(e){this._blurFilter.blur=e,this._updatePadding()},r.quality.get=function(){return this._blurFilter.quality},r.quality.set=function(e){this._blurFilter.quality=e},r.pixelSize.get=function(){return this._blurFilter.pixelSize},r.pixelSize.set=function(e){this._blurFilter.pixelSize=e},Object.defineProperties(n.prototype,r),n}(t.Filter),Z=n,V="precision mediump float;\n\nvarying vec2 vTextureCoord;\n\nuniform sampler2D uSampler;\nuniform float strength;\nuniform vec4 filterArea;\n\n\nvoid main(void)\n{\n\tvec2 onePixel = vec2(1.0 / filterArea);\n\n\tvec4 color;\n\n\tcolor.rgb = vec3(0.5);\n\n\tcolor -= texture2D(uSampler, vTextureCoord - onePixel) * strength;\n\tcolor += texture2D(uSampler, vTextureCoord + onePixel) * strength;\n\n\tcolor.rgb = vec3((color.r + color.g + color.b) / 3.0);\n\n\tfloat alpha = texture2D(uSampler, vTextureCoord).a;\n\n\tgl_FragColor = vec4(color.rgb * alpha, alpha);\n}\n",H=function(e){function t(t){void 0===t&&(t=5),e.call(this,Z,V),this.strength=t}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={strength:{configurable:!0}};return n.strength.get=function(){return this.uniforms.strength},n.strength.set=function(e){this.uniforms.strength=e},Object.defineProperties(t.prototype,n),t}(t.Filter),$=n,J="// precision highp float;\n\nvarying vec2 vTextureCoord;\nuniform sampler2D uSampler;\n\nuniform vec4 filterArea;\nuniform vec4 filterClamp;\nuniform vec2 dimensions;\nuniform float aspect;\n\nuniform sampler2D displacementMap;\nuniform float offset;\nuniform float sinDir;\nuniform float cosDir;\nuniform int fillMode;\n\nuniform float seed;\nuniform vec2 red;\nuniform vec2 green;\nuniform vec2 blue;\n\nconst int TRANSPARENT = 0;\nconst int ORIGINAL = 1;\nconst int LOOP = 2;\nconst int CLAMP = 3;\nconst int MIRROR = 4;\n\nvoid main(void)\n{\n vec2 coord = (vTextureCoord * filterArea.xy) / dimensions;\n\n if (coord.x > 1.0 || coord.y > 1.0) {\n return;\n }\n\n float cx = coord.x - 0.5;\n float cy = (coord.y - 0.5) * aspect;\n float ny = (-sinDir * cx + cosDir * cy) / aspect + 0.5;\n\n // displacementMap: repeat\n // ny = ny > 1.0 ? ny - 1.0 : (ny < 0.0 ? 1.0 + ny : ny);\n\n // displacementMap: mirror\n ny = ny > 1.0 ? 2.0 - ny : (ny < 0.0 ? -ny : ny);\n\n vec4 dc = texture2D(displacementMap, vec2(0.5, ny));\n\n float displacement = (dc.r - dc.g) * (offset / filterArea.x);\n\n coord = vTextureCoord + vec2(cosDir * displacement, sinDir * displacement * aspect);\n\n if (fillMode == CLAMP) {\n coord = clamp(coord, filterClamp.xy, filterClamp.zw);\n } else {\n if( coord.x > filterClamp.z ) {\n if (fillMode == ORIGINAL) {\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n return;\n } else if (fillMode == LOOP) {\n coord.x -= filterClamp.z;\n } else if (fillMode == MIRROR) {\n coord.x = filterClamp.z * 2.0 - coord.x;\n } else {\n gl_FragColor = vec4(0., 0., 0., 0.);\n return;\n }\n } else if( coord.x < filterClamp.x ) {\n if (fillMode == ORIGINAL) {\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n return;\n } else if (fillMode == LOOP) {\n coord.x += filterClamp.z;\n } else if (fillMode == MIRROR) {\n coord.x *= -filterClamp.z;\n } else {\n gl_FragColor = vec4(0., 0., 0., 0.);\n return;\n }\n }\n\n if( coord.y > filterClamp.w ) {\n if (fillMode == ORIGINAL) {\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n return;\n } else if (fillMode == LOOP) {\n coord.y -= filterClamp.w;\n } else if (fillMode == MIRROR) {\n coord.y = filterClamp.w * 2.0 - coord.y;\n } else {\n gl_FragColor = vec4(0., 0., 0., 0.);\n return;\n }\n } else if( coord.y < filterClamp.y ) {\n if (fillMode == ORIGINAL) {\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n return;\n } else if (fillMode == LOOP) {\n coord.y += filterClamp.w;\n } else if (fillMode == MIRROR) {\n coord.y *= -filterClamp.w;\n } else {\n gl_FragColor = vec4(0., 0., 0., 0.);\n return;\n }\n }\n }\n\n gl_FragColor.r = texture2D(uSampler, coord + red * (1.0 - seed * 0.4) / filterArea.xy).r;\n gl_FragColor.g = texture2D(uSampler, coord + green * (1.0 - seed * 0.3) / filterArea.xy).g;\n gl_FragColor.b = texture2D(uSampler, coord + blue * (1.0 - seed * 0.2) / filterArea.xy).b;\n gl_FragColor.a = texture2D(uSampler, coord).a;\n}\n",ee=function(e){function n(n){void 0===n&&(n={}),e.call(this,$,J),this.uniforms.dimensions=new Float32Array(2),n=Object.assign({slices:5,offset:100,direction:0,fillMode:0,average:!1,seed:0,red:[0,0],green:[0,0],blue:[0,0],minSize:8,sampleSize:512},n),this.direction=n.direction,this.red=n.red,this.green=n.green,this.blue=n.blue,this.offset=n.offset,this.fillMode=n.fillMode,this.average=n.average,this.seed=n.seed,this.minSize=n.minSize,this.sampleSize=n.sampleSize,this._canvas=document.createElement("canvas"),this._canvas.width=4,this._canvas.height=this.sampleSize,this.texture=t.Texture.fromCanvas(this._canvas,t.SCALE_MODES.NEAREST),this._slices=0,this.slices=n.slices}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={sizes:{configurable:!0},offsets:{configurable:!0},slices:{configurable:!0},direction:{configurable:!0},red:{configurable:!0},green:{configurable:!0},blue:{configurable:!0}};return n.prototype.apply=function(e,t,n,r){var o=t.sourceFrame.width,i=t.sourceFrame.height;this.uniforms.dimensions[0]=o,this.uniforms.dimensions[1]=i,this.uniforms.aspect=i/o,this.uniforms.seed=this.seed,this.uniforms.offset=this.offset,this.uniforms.fillMode=this.fillMode,e.applyFilter(this,t,n,r)},n.prototype._randomizeSizes=function(){var e=this._sizes,t=this._slices-1,n=this.sampleSize,r=Math.min(this.minSize/n,.9/this._slices);if(this.average){for(var o=this._slices,i=1,l=0;l<t;l++){var s=i/(o-l),a=Math.max(s*(1-.6*Math.random()),r);e[l]=a,i-=a}e[t]=i}else{for(var u=1,c=Math.sqrt(1/this._slices),f=0;f<t;f++){var h=Math.max(c*u*Math.random(),r);e[f]=h,u-=h}e[t]=u}this.shuffle()},n.prototype.shuffle=function(){for(var e=this._sizes,t=this._slices-1;t>0;t--){var n=Math.random()*t>>0,r=e[t];e[t]=e[n],e[n]=r}},n.prototype._randomizeOffsets=function(){for(var e=0;e<this._slices;e++)this._offsets[e]=Math.random()*(Math.random()<.5?-1:1)},n.prototype.refresh=function(){this._randomizeSizes(),this._randomizeOffsets(),this.redraw()},n.prototype.redraw=function(){var e,t=this.sampleSize,n=this.texture,r=this._canvas.getContext("2d");r.clearRect(0,0,8,t);for(var o=0,i=0;i<this._slices;i++){e=Math.floor(256*this._offsets[i]);var l=this._sizes[i]*t,s=e>0?e:0,a=e<0?-e:0;r.fillStyle="rgba("+s+", "+a+", 0, 1)",r.fillRect(0,o>>0,t,l+1>>0),o+=l}n.baseTexture.update(),this.uniforms.displacementMap=n},r.sizes.set=function(e){for(var t=Math.min(this._slices,e.length),n=0;n<t;n++)this._sizes[n]=e[n]},r.sizes.get=function(){return this._sizes},r.offsets.set=function(e){for(var t=Math.min(this._slices,e.length),n=0;n<t;n++)this._offsets[n]=e[n]},r.offsets.get=function(){return this._offsets},r.slices.get=function(){return this._slices},r.slices.set=function(e){this._slices!==e&&(this._slices=e,this.uniforms.slices=e,this._sizes=this.uniforms.slicesWidth=new Float32Array(e),this._offsets=this.uniforms.slicesOffset=new Float32Array(e),this.refresh())},r.direction.get=function(){return this._direction},r.direction.set=function(e){if(this._direction!==e){this._direction=e;var n=e*t.DEG_TO_RAD;this.uniforms.sinDir=Math.sin(n),this.uniforms.cosDir=Math.cos(n)}},r.red.get=function(){return this.uniforms.red},r.red.set=function(e){this.uniforms.red=e},r.green.get=function(){return this.uniforms.green},r.green.set=function(e){this.uniforms.green=e},r.blue.get=function(){return this.uniforms.blue},r.blue.set=function(e){this.uniforms.blue=e},n.prototype.destroy=function(){this.texture.destroy(!0),this.texture=null,this._canvas=null,this.red=null,this.green=null,this.blue=null,this._sizes=null,this._offsets=null},Object.defineProperties(n.prototype,r),n}(t.Filter);ee.TRANSPARENT=0,ee.ORIGINAL=1,ee.LOOP=2,ee.CLAMP=3,ee.MIRROR=4;var te=n,ne="varying vec2 vTextureCoord;\nvarying vec4 vColor;\n\nuniform sampler2D uSampler;\n\nuniform float distance;\nuniform float outerStrength;\nuniform float innerStrength;\nuniform vec4 glowColor;\nuniform vec4 filterArea;\nuniform vec4 filterClamp;\nconst float PI = 3.14159265358979323846264;\n\nvoid main(void) {\n vec2 px = vec2(1.0 / filterArea.x, 1.0 / filterArea.y);\n vec4 ownColor = texture2D(uSampler, vTextureCoord);\n vec4 curColor;\n float totalAlpha = 0.0;\n float maxTotalAlpha = 0.0;\n float cosAngle;\n float sinAngle;\n vec2 displaced;\n for (float angle = 0.0; angle <= PI * 2.0; angle += %QUALITY_DIST%) {\n cosAngle = cos(angle);\n sinAngle = sin(angle);\n for (float curDistance = 1.0; curDistance <= %DIST%; curDistance++) {\n displaced.x = vTextureCoord.x + cosAngle * curDistance * px.x;\n displaced.y = vTextureCoord.y + sinAngle * curDistance * px.y;\n curColor = texture2D(uSampler, clamp(displaced, filterClamp.xy, filterClamp.zw));\n totalAlpha += (distance - curDistance) * curColor.a;\n maxTotalAlpha += (distance - curDistance);\n }\n }\n maxTotalAlpha = max(maxTotalAlpha, 0.0001);\n\n ownColor.a = max(ownColor.a, 0.0001);\n ownColor.rgb = ownColor.rgb / ownColor.a;\n float outerGlowAlpha = (totalAlpha / maxTotalAlpha) * outerStrength * (1. - ownColor.a);\n float innerGlowAlpha = ((maxTotalAlpha - totalAlpha) / maxTotalAlpha) * innerStrength * ownColor.a;\n float resultAlpha = (ownColor.a + outerGlowAlpha);\n gl_FragColor = vec4(mix(mix(ownColor.rgb, glowColor.rgb, innerGlowAlpha / ownColor.a), glowColor.rgb, outerGlowAlpha / resultAlpha) * resultAlpha, resultAlpha);\n}\n",re=function(e){function n(t,n,r,o,i){void 0===t&&(t=10),void 0===n&&(n=4),void 0===r&&(r=0),void 0===o&&(o=16777215),void 0===i&&(i=.1),e.call(this,te,ne.replace(/%QUALITY_DIST%/gi,""+(1/i/t).toFixed(7)).replace(/%DIST%/gi,""+t.toFixed(7))),this.uniforms.glowColor=new Float32Array([0,0,0,1]),this.distance=t,this.color=o,this.outerStrength=n,this.innerStrength=r}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={color:{configurable:!0},distance:{configurable:!0},outerStrength:{configurable:!0},innerStrength:{configurable:!0}};return r.color.get=function(){return t.utils.rgb2hex(this.uniforms.glowColor)},r.color.set=function(e){t.utils.hex2rgb(e,this.uniforms.glowColor)},r.distance.get=function(){return this.uniforms.distance},r.distance.set=function(e){this.uniforms.distance=e},r.outerStrength.get=function(){return this.uniforms.outerStrength},r.outerStrength.set=function(e){this.uniforms.outerStrength=e},r.innerStrength.get=function(){return this.uniforms.innerStrength},r.innerStrength.set=function(e){this.uniforms.innerStrength=e},Object.defineProperties(n.prototype,r),n}(t.Filter),oe=n,ie="vec3 mod289(vec3 x)\n{\n return x - floor(x * (1.0 / 289.0)) * 289.0;\n}\nvec4 mod289(vec4 x)\n{\n return x - floor(x * (1.0 / 289.0)) * 289.0;\n}\nvec4 permute(vec4 x)\n{\n return mod289(((x * 34.0) + 1.0) * x);\n}\nvec4 taylorInvSqrt(vec4 r)\n{\n return 1.79284291400159 - 0.85373472095314 * r;\n}\nvec3 fade(vec3 t)\n{\n return t * t * t * (t * (t * 6.0 - 15.0) + 10.0);\n}\n// Classic Perlin noise, periodic variant\nfloat pnoise(vec3 P, vec3 rep)\n{\n vec3 Pi0 = mod(floor(P), rep); // Integer part, modulo period\n vec3 Pi1 = mod(Pi0 + vec3(1.0), rep); // Integer part + 1, mod period\n Pi0 = mod289(Pi0);\n Pi1 = mod289(Pi1);\n vec3 Pf0 = fract(P); // Fractional part for interpolation\n vec3 Pf1 = Pf0 - vec3(1.0); // Fractional part - 1.0\n vec4 ix = vec4(Pi0.x, Pi1.x, Pi0.x, Pi1.x);\n vec4 iy = vec4(Pi0.yy, Pi1.yy);\n vec4 iz0 = Pi0.zzzz;\n vec4 iz1 = Pi1.zzzz;\n vec4 ixy = permute(permute(ix) + iy);\n vec4 ixy0 = permute(ixy + iz0);\n vec4 ixy1 = permute(ixy + iz1);\n vec4 gx0 = ixy0 * (1.0 / 7.0);\n vec4 gy0 = fract(floor(gx0) * (1.0 / 7.0)) - 0.5;\n gx0 = fract(gx0);\n vec4 gz0 = vec4(0.5) - abs(gx0) - abs(gy0);\n vec4 sz0 = step(gz0, vec4(0.0));\n gx0 -= sz0 * (step(0.0, gx0) - 0.5);\n gy0 -= sz0 * (step(0.0, gy0) - 0.5);\n vec4 gx1 = ixy1 * (1.0 / 7.0);\n vec4 gy1 = fract(floor(gx1) * (1.0 / 7.0)) - 0.5;\n gx1 = fract(gx1);\n vec4 gz1 = vec4(0.5) - abs(gx1) - abs(gy1);\n vec4 sz1 = step(gz1, vec4(0.0));\n gx1 -= sz1 * (step(0.0, gx1) - 0.5);\n gy1 -= sz1 * (step(0.0, gy1) - 0.5);\n vec3 g000 = vec3(gx0.x, gy0.x, gz0.x);\n vec3 g100 = vec3(gx0.y, gy0.y, gz0.y);\n vec3 g010 = vec3(gx0.z, gy0.z, gz0.z);\n vec3 g110 = vec3(gx0.w, gy0.w, gz0.w);\n vec3 g001 = vec3(gx1.x, gy1.x, gz1.x);\n vec3 g101 = vec3(gx1.y, gy1.y, gz1.y);\n vec3 g011 = vec3(gx1.z, gy1.z, gz1.z);\n vec3 g111 = vec3(gx1.w, gy1.w, gz1.w);\n vec4 norm0 = taylorInvSqrt(vec4(dot(g000, g000), dot(g010, g010), dot(g100, g100), dot(g110, g110)));\n g000 *= norm0.x;\n g010 *= norm0.y;\n g100 *= norm0.z;\n g110 *= norm0.w;\n vec4 norm1 = taylorInvSqrt(vec4(dot(g001, g001), dot(g011, g011), dot(g101, g101), dot(g111, g111)));\n g001 *= norm1.x;\n g011 *= norm1.y;\n g101 *= norm1.z;\n g111 *= norm1.w;\n float n000 = dot(g000, Pf0);\n float n100 = dot(g100, vec3(Pf1.x, Pf0.yz));\n float n010 = dot(g010, vec3(Pf0.x, Pf1.y, Pf0.z));\n float n110 = dot(g110, vec3(Pf1.xy, Pf0.z));\n float n001 = dot(g001, vec3(Pf0.xy, Pf1.z));\n float n101 = dot(g101, vec3(Pf1.x, Pf0.y, Pf1.z));\n float n011 = dot(g011, vec3(Pf0.x, Pf1.yz));\n float n111 = dot(g111, Pf1);\n vec3 fade_xyz = fade(Pf0);\n vec4 n_z = mix(vec4(n000, n100, n010, n110), vec4(n001, n101, n011, n111), fade_xyz.z);\n vec2 n_yz = mix(n_z.xy, n_z.zw, fade_xyz.y);\n float n_xyz = mix(n_yz.x, n_yz.y, fade_xyz.x);\n return 2.2 * n_xyz;\n}\nfloat turb(vec3 P, vec3 rep, float lacunarity, float gain)\n{\n float sum = 0.0;\n float sc = 1.0;\n float totalgain = 1.0;\n for (float i = 0.0; i < 6.0; i++)\n {\n sum += totalgain * pnoise(P * sc, rep);\n sc *= lacunarity;\n totalgain *= gain;\n }\n return abs(sum);\n}\n",le="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform vec4 filterArea;\nuniform vec2 dimensions;\n\nuniform vec2 light;\nuniform bool parallel;\nuniform float aspect;\n\nuniform float gain;\nuniform float lacunarity;\nuniform float time;\n\n${perlin}\n\nvoid main(void) {\n vec2 coord = vTextureCoord * filterArea.xy / dimensions.xy;\n\n float d;\n\n if (parallel) {\n float _cos = light.x;\n float _sin = light.y;\n d = (_cos * coord.x) + (_sin * coord.y * aspect);\n } else {\n float dx = coord.x - light.x / dimensions.x;\n float dy = (coord.y - light.y / dimensions.y) * aspect;\n float dis = sqrt(dx * dx + dy * dy) + 0.00001;\n d = dy / dis;\n }\n\n vec3 dir = vec3(d, d, 0.0);\n\n float noise = turb(dir + vec3(time, 0.0, 62.1 + time) * 0.05, vec3(480.0, 320.0, 480.0), lacunarity, gain);\n noise = mix(noise, 0.0, 0.3);\n //fade vertically.\n vec4 mist = vec4(noise, noise, noise, 1.0) * (1.0 - coord.y);\n mist.a = 1.0;\n\n gl_FragColor = texture2D(uSampler, vTextureCoord) + mist;\n}\n",se=function(e){function n(n){e.call(this,oe,le.replace("${perlin}",ie)),this.uniforms.dimensions=new Float32Array(2),"number"==typeof n&&(console.warn("GodrayFilter now uses options instead of (angle, gain, lacunarity, time)"),n={angle:n},void 0!==arguments[1]&&(n.gain=arguments[1]),void 0!==arguments[2]&&(n.lacunarity=arguments[2]),void 0!==arguments[3]&&(n.time=arguments[3])),n=Object.assign({angle:30,gain:.5,lacunarity:2.5,time:0,parallel:!0,center:[0,0]},n),this._angleLight=new t.Point,this.angle=n.angle,this.gain=n.gain,this.lacunarity=n.lacunarity,this.parallel=n.parallel,this.center=n.center,this.time=n.time}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={angle:{configurable:!0},gain:{configurable:!0},lacunarity:{configurable:!0}};return n.prototype.apply=function(e,t,n,r){var o=t.sourceFrame,i=o.width,l=o.height;this.uniforms.light=this.parallel?this._angleLight:this.center,this.uniforms.parallel=this.parallel,this.uniforms.dimensions[0]=i,this.uniforms.dimensions[1]=l,this.uniforms.aspect=l/i,this.uniforms.time=this.time,e.applyFilter(this,t,n,r)},r.angle.get=function(){return this._angle},r.angle.set=function(e){this._angle=e;var n=e*t.DEG_TO_RAD;this._angleLight.x=Math.cos(n),this._angleLight.y=Math.sin(n)},r.gain.get=function(){return this.uniforms.gain},r.gain.set=function(e){this.uniforms.gain=e},r.lacunarity.get=function(){return this.uniforms.lacunarity},r.lacunarity.set=function(e){this.uniforms.lacunarity=e},Object.defineProperties(n.prototype,r),n}(t.Filter),ae=n,ue="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform vec4 filterArea;\n\nuniform vec2 uVelocity;\nuniform int uKernelSize;\nuniform float uOffset;\n\nconst int MAX_KERNEL_SIZE = 2048;\n\n// Notice:\n// the perfect way:\n// int kernelSize = min(uKernelSize, MAX_KERNELSIZE);\n// BUT in real use-case , uKernelSize < MAX_KERNELSIZE almost always.\n// So use uKernelSize directly.\n\nvoid main(void)\n{\n vec4 color = texture2D(uSampler, vTextureCoord);\n\n if (uKernelSize == 0)\n {\n gl_FragColor = color;\n return;\n }\n\n vec2 velocity = uVelocity / filterArea.xy;\n float offset = -uOffset / length(uVelocity) - 0.5;\n int k = uKernelSize - 1;\n\n for(int i = 0; i < MAX_KERNEL_SIZE - 1; i++) {\n if (i == k) {\n break;\n }\n vec2 bias = velocity * (float(i) / float(k) + offset);\n color += texture2D(uSampler, vTextureCoord + bias);\n }\n gl_FragColor = color / float(uKernelSize);\n}\n",ce=function(e){function n(n,r,o){void 0===n&&(n=[0,0]),void 0===r&&(r=5),void 0===o&&(o=0),e.call(this,ae,ue),this.uniforms.uVelocity=new Float32Array(2),this._velocity=new t.ObservablePoint(this.velocityChanged,this),this.velocity=n,this.kernelSize=r,this.offset=o}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={velocity:{configurable:!0},offset:{configurable:!0}};return n.prototype.apply=function(e,t,n,r){var o=this.velocity,i=o.x,l=o.y;this.uniforms.uKernelSize=0!==i||0!==l?this.kernelSize:0,e.applyFilter(this,t,n,r)},r.velocity.set=function(e){Array.isArray(e)?this._velocity.set(e[0],e[1]):(e instanceof t.Point||e instanceof t.ObservablePoint)&&this._velocity.copy(e)},r.velocity.get=function(){return this._velocity},n.prototype.velocityChanged=function(){this.uniforms.uVelocity[0]=this._velocity.x,this.uniforms.uVelocity[1]=this._velocity.y},r.offset.set=function(e){this.uniforms.uOffset=e},r.offset.get=function(){return this.uniforms.uOffset},Object.defineProperties(n.prototype,r),n}(t.Filter),fe=n,he="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\n\nuniform float epsilon;\n\nconst int MAX_COLORS = %maxColors%;\n\nuniform vec3 originalColors[MAX_COLORS];\nuniform vec3 targetColors[MAX_COLORS];\n\nvoid main(void)\n{\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n\n float alpha = gl_FragColor.a;\n if (alpha < 0.0001)\n {\n return;\n }\n\n vec3 color = gl_FragColor.rgb / alpha;\n\n for(int i = 0; i < MAX_COLORS; i++)\n {\n vec3 origColor = originalColors[i];\n if (origColor.r < 0.0)\n {\n break;\n }\n vec3 colorDiff = origColor - color;\n if (length(colorDiff) < epsilon)\n {\n vec3 targetColor = targetColors[i];\n gl_FragColor = vec4((targetColor + colorDiff) * alpha, alpha);\n return;\n }\n }\n}\n",pe=function(e){function n(t,n,r){void 0===n&&(n=.05),void 0===r&&(r=null),r=r||t.length,e.call(this,fe,he.replace(/%maxColors%/g,r)),this.epsilon=n,this._maxColors=r,this._replacements=null,this.uniforms.originalColors=new Float32Array(3*r),this.uniforms.targetColors=new Float32Array(3*r),this.replacements=t}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={replacements:{configurable:!0},maxColors:{configurable:!0},epsilon:{configurable:!0}};return r.replacements.set=function(e){var n=this.uniforms.originalColors,r=this.uniforms.targetColors,o=e.length;if(o>this._maxColors)throw"Length of replacements ("+o+") exceeds the maximum colors length ("+this._maxColors+")";n[3*o]=-1;for(var i=0;i<o;i++){var l=e[i],s=l[0];"number"==typeof s?s=t.utils.hex2rgb(s):l[0]=t.utils.rgb2hex(s),n[3*i]=s[0],n[3*i+1]=s[1],n[3*i+2]=s[2];var a=l[1];"number"==typeof a?a=t.utils.hex2rgb(a):l[1]=t.utils.rgb2hex(a),r[3*i]=a[0],r[3*i+1]=a[1],r[3*i+2]=a[2]}this._replacements=e},r.replacements.get=function(){return this._replacements},n.prototype.refresh=function(){this.replacements=this._replacements},r.maxColors.get=function(){return this._maxColors},r.epsilon.set=function(e){this.uniforms.epsilon=e},r.epsilon.get=function(){return this.uniforms.epsilon},Object.defineProperties(n.prototype,r),n}(t.Filter),de=n,me="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform vec4 filterArea;\nuniform vec2 dimensions;\n\nuniform float sepia;\nuniform float noise;\nuniform float noiseSize;\nuniform float scratch;\nuniform float scratchDensity;\nuniform float scratchWidth;\nuniform float vignetting;\nuniform float vignettingAlpha;\nuniform float vignettingBlur;\nuniform float seed;\n\nconst float SQRT_2 = 1.414213;\nconst vec3 SEPIA_RGB = vec3(112.0 / 255.0, 66.0 / 255.0, 20.0 / 255.0);\n\nfloat rand(vec2 co) {\n return fract(sin(dot(co.xy, vec2(12.9898, 78.233))) * 43758.5453);\n}\n\nvec3 Overlay(vec3 src, vec3 dst)\n{\n // if (dst <= 0.5) then: 2 * src * dst\n // if (dst > 0.5) then: 1 - 2 * (1 - dst) * (1 - src)\n return vec3((dst.x <= 0.5) ? (2.0 * src.x * dst.x) : (1.0 - 2.0 * (1.0 - dst.x) * (1.0 - src.x)),\n (dst.y <= 0.5) ? (2.0 * src.y * dst.y) : (1.0 - 2.0 * (1.0 - dst.y) * (1.0 - src.y)),\n (dst.z <= 0.5) ? (2.0 * src.z * dst.z) : (1.0 - 2.0 * (1.0 - dst.z) * (1.0 - src.z)));\n}\n\n\nvoid main()\n{\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n vec3 color = gl_FragColor.rgb;\n\n if (sepia > 0.0)\n {\n float gray = (color.x + color.y + color.z) / 3.0;\n vec3 grayscale = vec3(gray);\n\n color = Overlay(SEPIA_RGB, grayscale);\n\n color = grayscale + sepia * (color - grayscale);\n }\n\n vec2 coord = vTextureCoord * filterArea.xy / dimensions.xy;\n\n if (vignetting > 0.0)\n {\n float outter = SQRT_2 - vignetting * SQRT_2;\n vec2 dir = vec2(vec2(0.5, 0.5) - coord);\n dir.y *= dimensions.y / dimensions.x;\n float darker = clamp((outter - length(dir) * SQRT_2) / ( 0.00001 + vignettingBlur * SQRT_2), 0.0, 1.0);\n color.rgb *= darker + (1.0 - darker) * (1.0 - vignettingAlpha);\n }\n\n if (scratchDensity > seed && scratch != 0.0)\n {\n float phase = seed * 256.0;\n float s = mod(floor(phase), 2.0);\n float dist = 1.0 / scratchDensity;\n float d = distance(coord, vec2(seed * dist, abs(s - seed * dist)));\n if (d < seed * 0.6 + 0.4)\n {\n highp float period = scratchDensity * 10.0;\n\n float xx = coord.x * period + phase;\n float aa = abs(mod(xx, 0.5) * 4.0);\n float bb = mod(floor(xx / 0.5), 2.0);\n float yy = (1.0 - bb) * aa + bb * (2.0 - aa);\n\n float kk = 2.0 * period;\n float dw = scratchWidth / dimensions.x * (0.75 + seed);\n float dh = dw * kk;\n\n float tine = (yy - (2.0 - dh));\n\n if (tine > 0.0) {\n float _sign = sign(scratch);\n\n tine = s * tine / period + scratch + 0.1;\n tine = clamp(tine + 1.0, 0.5 + _sign * 0.5, 1.5 + _sign * 0.5);\n\n color.rgb *= tine;\n }\n }\n }\n\n if (noise > 0.0 && noiseSize > 0.0)\n {\n vec2 pixelCoord = vTextureCoord.xy * filterArea.xy;\n pixelCoord.x = floor(pixelCoord.x / noiseSize);\n pixelCoord.y = floor(pixelCoord.y / noiseSize);\n // vec2 d = pixelCoord * noiseSize * vec2(1024.0 + seed * 512.0, 1024.0 - seed * 512.0);\n // float _noise = snoise(d) * 0.5;\n float _noise = rand(pixelCoord * noiseSize * seed) - 0.5;\n color += _noise * noise;\n }\n\n gl_FragColor.rgb = color;\n}\n",ge=function(e){function t(t,n){void 0===n&&(n=0),e.call(this,de,me),this.uniforms.dimensions=new Float32Array(2),"number"==typeof t?(this.seed=t,t=null):this.seed=n,Object.assign(this,{sepia:.3,noise:.3,noiseSize:1,scratch:.5,scratchDensity:.3,scratchWidth:1,vignetting:.3,vignettingAlpha:1,vignettingBlur:.3},t)}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={sepia:{configurable:!0},noise:{configurable:!0},noiseSize:{configurable:!0},scratch:{configurable:!0},scratchDensity:{configurable:!0},scratchWidth:{configurable:!0},vignetting:{configurable:!0},vignettingAlpha:{configurable:!0},vignettingBlur:{configurable:!0}};return t.prototype.apply=function(e,t,n,r){this.uniforms.dimensions[0]=t.sourceFrame.width,this.uniforms.dimensions[1]=t.sourceFrame.height,this.uniforms.seed=this.seed,e.applyFilter(this,t,n,r)},n.sepia.set=function(e){this.uniforms.sepia=e},n.sepia.get=function(){return this.uniforms.sepia},n.noise.set=function(e){this.uniforms.noise=e},n.noise.get=function(){return this.uniforms.noise},n.noiseSize.set=function(e){this.uniforms.noiseSize=e},n.noiseSize.get=function(){return this.uniforms.noiseSize},n.scratch.set=function(e){this.uniforms.scratch=e},n.scratch.get=function(){return this.uniforms.scratch},n.scratchDensity.set=function(e){this.uniforms.scratchDensity=e},n.scratchDensity.get=function(){return this.uniforms.scratchDensity},n.scratchWidth.set=function(e){this.uniforms.scratchWidth=e},n.scratchWidth.get=function(){return this.uniforms.scratchWidth},n.vignetting.set=function(e){this.uniforms.vignetting=e},n.vignetting.get=function(){return this.uniforms.vignetting},n.vignettingAlpha.set=function(e){this.uniforms.vignettingAlpha=e},n.vignettingAlpha.get=function(){return this.uniforms.vignettingAlpha},n.vignettingBlur.set=function(e){this.uniforms.vignettingBlur=e},n.vignettingBlur.get=function(){return this.uniforms.vignettingBlur},Object.defineProperties(t.prototype,n),t}(t.Filter),ve=n,xe="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\n\nuniform vec2 thickness;\nuniform vec4 outlineColor;\nuniform vec4 filterClamp;\n\nconst float DOUBLE_PI = 3.14159265358979323846264 * 2.;\n\nvoid main(void) {\n vec4 ownColor = texture2D(uSampler, vTextureCoord);\n vec4 curColor;\n float maxAlpha = 0.;\n vec2 displaced;\n for (float angle = 0.; angle <= DOUBLE_PI; angle += ${angleStep}) {\n displaced.x = vTextureCoord.x + thickness.x * cos(angle);\n displaced.y = vTextureCoord.y + thickness.y * sin(angle);\n curColor = texture2D(uSampler, clamp(displaced, filterClamp.xy, filterClamp.zw));\n maxAlpha = max(maxAlpha, curColor.a);\n }\n float resultAlpha = max(maxAlpha, ownColor.a);\n gl_FragColor = vec4((ownColor.rgb + outlineColor.rgb * (1. - ownColor.a)) * resultAlpha, resultAlpha);\n}\n",ye=function(e){function n(t,r,o){void 0===t&&(t=1),void 0===r&&(r=0),void 0===o&&(o=.1);var i=Math.max(o*n.MAX_SAMPLES,n.MIN_SAMPLES),l=(2*Math.PI/i).toFixed(7);e.call(this,ve,xe.replace(/\$\{angleStep\}/,l)),this.uniforms.thickness=new Float32Array([0,0]),this.thickness=t,this.uniforms.outlineColor=new Float32Array([0,0,0,1]),this.color=r,this.quality=o}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={color:{configurable:!0}};return n.prototype.apply=function(e,t,n,r){this.uniforms.thickness[0]=this.thickness/t.size.width,this.uniforms.thickness[1]=this.thickness/t.size.height,e.applyFilter(this,t,n,r)},r.color.get=function(){return t.utils.rgb2hex(this.uniforms.outlineColor)},r.color.set=function(e){t.utils.hex2rgb(e,this.uniforms.outlineColor)},Object.defineProperties(n.prototype,r),n}(t.Filter);ye.MIN_SAMPLES=1,ye.MAX_SAMPLES=100;var be=n,_e="precision mediump float;\n\nvarying vec2 vTextureCoord;\n\nuniform vec2 size;\nuniform sampler2D uSampler;\n\nuniform vec4 filterArea;\n\nvec2 mapCoord( vec2 coord )\n{\n coord *= filterArea.xy;\n coord += filterArea.zw;\n\n return coord;\n}\n\nvec2 unmapCoord( vec2 coord )\n{\n coord -= filterArea.zw;\n coord /= filterArea.xy;\n\n return coord;\n}\n\nvec2 pixelate(vec2 coord, vec2 size)\n{\n\treturn floor( coord / size ) * size;\n}\n\nvoid main(void)\n{\n vec2 coord = mapCoord(vTextureCoord);\n\n coord = pixelate(coord, size);\n\n coord = unmapCoord(coord);\n\n gl_FragColor = texture2D(uSampler, coord);\n}\n",Ce=function(e){function t(t){void 0===t&&(t=10),e.call(this,be,_e),this.size=t}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={size:{configurable:!0}};return n.size.get=function(){return this.uniforms.size},n.size.set=function(e){"number"==typeof e&&(e=[e,e]),this.uniforms.size=e},Object.defineProperties(t.prototype,n),t}(t.Filter),Se=n,Fe="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform vec4 filterArea;\n\nuniform float uRadian;\nuniform vec2 uCenter;\nuniform float uRadius;\nuniform int uKernelSize;\n\nconst int MAX_KERNEL_SIZE = 2048;\n\nvoid main(void)\n{\n vec4 color = texture2D(uSampler, vTextureCoord);\n\n if (uKernelSize == 0)\n {\n gl_FragColor = color;\n return;\n }\n\n float aspect = filterArea.y / filterArea.x;\n vec2 center = uCenter.xy / filterArea.xy;\n float gradient = uRadius / filterArea.x * 0.3;\n float radius = uRadius / filterArea.x - gradient * 0.5;\n int k = uKernelSize - 1;\n\n vec2 coord = vTextureCoord;\n vec2 dir = vec2(center - coord);\n float dist = length(vec2(dir.x, dir.y * aspect));\n\n float radianStep = uRadian;\n if (radius >= 0.0 && dist > radius) {\n float delta = dist - radius;\n float gap = gradient;\n float scale = 1.0 - abs(delta / gap);\n if (scale <= 0.0) {\n gl_FragColor = color;\n return;\n }\n radianStep *= scale;\n }\n radianStep /= float(k);\n\n float s = sin(radianStep);\n float c = cos(radianStep);\n mat2 rotationMatrix = mat2(vec2(c, -s), vec2(s, c));\n\n for(int i = 0; i < MAX_KERNEL_SIZE - 1; i++) {\n if (i == k) {\n break;\n }\n\n coord -= center;\n coord.y *= aspect;\n coord = rotationMatrix * coord;\n coord.y /= aspect;\n coord += center;\n\n vec4 sample = texture2D(uSampler, coord);\n\n // switch to pre-multiplied alpha to correctly blur transparent images\n // sample.rgb *= sample.a;\n\n color += sample;\n }\n\n gl_FragColor = color / float(uKernelSize);\n}\n",ze=function(e){function t(t,n,r,o){void 0===t&&(t=0),void 0===n&&(n=[0,0]),void 0===r&&(r=5),void 0===o&&(o=-1),e.call(this,Se,Fe),this._angle=0,this.angle=t,this.center=n,this.kernelSize=r,this.radius=o}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={angle:{configurable:!0},center:{configurable:!0},radius:{configurable:!0}};return t.prototype.apply=function(e,t,n,r){this.uniforms.uKernelSize=0!==this._angle?this.kernelSize:0,e.applyFilter(this,t,n,r)},n.angle.set=function(e){this._angle=e,this.uniforms.uRadian=e*Math.PI/180},n.angle.get=function(){return this._angle},n.center.get=function(){return this.uniforms.uCenter},n.center.set=function(e){this.uniforms.uCenter=e},n.radius.get=function(){return this.uniforms.uRadius},n.radius.set=function(e){(e<0||e===1/0)&&(e=-1),this.uniforms.uRadius=e},Object.defineProperties(t.prototype,n),t}(t.Filter),Ae=n,we="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\n\nuniform vec4 filterArea;\nuniform vec4 filterClamp;\nuniform vec2 dimensions;\n\nuniform bool mirror;\nuniform float boundary;\nuniform vec2 amplitude;\nuniform vec2 waveLength;\nuniform vec2 alpha;\nuniform float time;\n\nfloat rand(vec2 co) {\n return fract(sin(dot(co.xy, vec2(12.9898, 78.233))) * 43758.5453);\n}\n\nvoid main(void)\n{\n vec2 pixelCoord = vTextureCoord.xy * filterArea.xy;\n vec2 coord = pixelCoord / dimensions;\n\n if (coord.y < boundary) {\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n return;\n }\n\n float k = (coord.y - boundary) / (1. - boundary + 0.0001);\n float areaY = boundary * dimensions.y / filterArea.y;\n float v = areaY + areaY - vTextureCoord.y;\n float y = mirror ? v : vTextureCoord.y;\n\n float _amplitude = ((amplitude.y - amplitude.x) * k + amplitude.x ) / filterArea.x;\n float _waveLength = ((waveLength.y - waveLength.x) * k + waveLength.x) / filterArea.y;\n float _alpha = (alpha.y - alpha.x) * k + alpha.x;\n\n float x = vTextureCoord.x + cos(v * 6.28 / _waveLength - time) * _amplitude;\n x = clamp(x, filterClamp.x, filterClamp.z);\n\n vec4 color = texture2D(uSampler, vec2(x, y));\n\n gl_FragColor = color * _alpha;\n}\n",Te=function(e){function t(t){e.call(this,Ae,we),this.uniforms.amplitude=new Float32Array(2),this.uniforms.waveLength=new Float32Array(2),this.uniforms.alpha=new Float32Array(2),this.uniforms.dimensions=new Float32Array(2),Object.assign(this,{mirror:!0,boundary:.5,amplitude:[0,20],waveLength:[30,100],alpha:[1,1],time:0},t)}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={mirror:{configurable:!0},boundary:{configurable:!0},amplitude:{configurable:!0},waveLength:{configurable:!0},alpha:{configurable:!0}};return t.prototype.apply=function(e,t,n,r){this.uniforms.dimensions[0]=t.sourceFrame.width,this.uniforms.dimensions[1]=t.sourceFrame.height,this.uniforms.time=this.time,e.applyFilter(this,t,n,r)},n.mirror.set=function(e){this.uniforms.mirror=e},n.mirror.get=function(){return this.uniforms.mirror},n.boundary.set=function(e){this.uniforms.boundary=e},n.boundary.get=function(){return this.uniforms.boundary},n.amplitude.set=function(e){this.uniforms.amplitude[0]=e[0],this.uniforms.amplitude[1]=e[1]},n.amplitude.get=function(){return this.uniforms.amplitude},n.waveLength.set=function(e){this.uniforms.waveLength[0]=e[0],this.uniforms.waveLength[1]=e[1]},n.waveLength.get=function(){return this.uniforms.waveLength},n.alpha.set=function(e){this.uniforms.alpha[0]=e[0],this.uniforms.alpha[1]=e[1]},n.alpha.get=function(){return this.uniforms.alpha},Object.defineProperties(t.prototype,n),t}(t.Filter),De=n,Oe="precision mediump float;\n\nvarying vec2 vTextureCoord;\n\nuniform sampler2D uSampler;\nuniform vec4 filterArea;\nuniform vec2 red;\nuniform vec2 green;\nuniform vec2 blue;\n\nvoid main(void)\n{\n gl_FragColor.r = texture2D(uSampler, vTextureCoord + red/filterArea.xy).r;\n gl_FragColor.g = texture2D(uSampler, vTextureCoord + green/filterArea.xy).g;\n gl_FragColor.b = texture2D(uSampler, vTextureCoord + blue/filterArea.xy).b;\n gl_FragColor.a = texture2D(uSampler, vTextureCoord).a;\n}\n",Pe=function(e){function t(t,n,r){void 0===t&&(t=[-10,0]),void 0===n&&(n=[0,10]),void 0===r&&(r=[0,0]),e.call(this,De,Oe),this.red=t,this.green=n,this.blue=r}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={red:{configurable:!0},green:{configurable:!0},blue:{configurable:!0}};return n.red.get=function(){return this.uniforms.red},n.red.set=function(e){this.uniforms.red=e},n.green.get=function(){return this.uniforms.green},n.green.set=function(e){this.uniforms.green=e},n.blue.get=function(){return this.uniforms.blue},n.blue.set=function(e){this.uniforms.blue=e},Object.defineProperties(t.prototype,n),t}(t.Filter),Me=n,Re="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform vec4 filterArea;\nuniform vec4 filterClamp;\n\nuniform vec2 center;\n\nuniform float amplitude;\nuniform float wavelength;\n// uniform float power;\nuniform float brightness;\nuniform float speed;\nuniform float radius;\n\nuniform float time;\n\nconst float PI = 3.14159;\n\nvoid main()\n{\n float halfWavelength = wavelength * 0.5 / filterArea.x;\n float maxRadius = radius / filterArea.x;\n float currentRadius = time * speed / filterArea.x;\n\n float fade = 1.0;\n\n if (maxRadius > 0.0) {\n if (currentRadius > maxRadius) {\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n return;\n }\n fade = 1.0 - pow(currentRadius / maxRadius, 2.0);\n }\n\n vec2 dir = vec2(vTextureCoord - center / filterArea.xy);\n dir.y *= filterArea.y / filterArea.x;\n float dist = length(dir);\n\n if (dist <= 0.0 || dist < currentRadius - halfWavelength || dist > currentRadius + halfWavelength) {\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n return;\n }\n\n vec2 diffUV = normalize(dir);\n\n float diff = (dist - currentRadius) / halfWavelength;\n\n float p = 1.0 - pow(abs(diff), 2.0);\n\n // float powDiff = diff * pow(p, 2.0) * ( amplitude * fade );\n float powDiff = 1.25 * sin(diff * PI) * p * ( amplitude * fade );\n\n vec2 offset = diffUV * powDiff / filterArea.xy;\n\n // Do clamp :\n vec2 coord = vTextureCoord + offset;\n vec2 clampedCoord = clamp(coord, filterClamp.xy, filterClamp.zw);\n vec4 color = texture2D(uSampler, clampedCoord);\n if (coord != clampedCoord) {\n color *= max(0.0, 1.0 - length(coord - clampedCoord));\n }\n\n // No clamp :\n // gl_FragColor = texture2D(uSampler, vTextureCoord + offset);\n\n color.rgb *= 1.0 + (brightness - 1.0) * p * fade;\n\n gl_FragColor = color;\n}\n",je=function(e){function t(t,n,r){void 0===t&&(t=[0,0]),void 0===n&&(n={}),void 0===r&&(r=0),e.call(this,Me,Re),this.center=t,Array.isArray(n)&&(console.warn("Deprecated Warning: ShockwaveFilter params Array has been changed to options Object."),n={}),n=Object.assign({amplitude:30,wavelength:160,brightness:1,speed:500,radius:-1},n),this.amplitude=n.amplitude,this.wavelength=n.wavelength,this.brightness=n.brightness,this.speed=n.speed,this.radius=n.radius,this.time=r}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={center:{configurable:!0},amplitude:{configurable:!0},wavelength:{configurable:!0},brightness:{configurable:!0},speed:{configurable:!0},radius:{configurable:!0}};return t.prototype.apply=function(e,t,n,r){this.uniforms.time=this.time,e.applyFilter(this,t,n,r)},n.center.get=function(){return this.uniforms.center},n.center.set=function(e){this.uniforms.center=e},n.amplitude.get=function(){return this.uniforms.amplitude},n.amplitude.set=function(e){this.uniforms.amplitude=e},n.wavelength.get=function(){return this.uniforms.wavelength},n.wavelength.set=function(e){this.uniforms.wavelength=e},n.brightness.get=function(){return this.uniforms.brightness},n.brightness.set=function(e){this.uniforms.brightness=e},n.speed.get=function(){return this.uniforms.speed},n.speed.set=function(e){this.uniforms.speed=e},n.radius.get=function(){return this.uniforms.radius},n.radius.set=function(e){this.uniforms.radius=e},Object.defineProperties(t.prototype,n),t}(t.Filter),Le=n,ke="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform sampler2D uLightmap;\nuniform vec4 filterArea;\nuniform vec2 dimensions;\nuniform vec4 ambientColor;\nvoid main() {\n vec4 diffuseColor = texture2D(uSampler, vTextureCoord);\n vec2 lightCoord = (vTextureCoord * filterArea.xy) / dimensions;\n vec4 light = texture2D(uLightmap, lightCoord);\n vec3 ambient = ambientColor.rgb * ambientColor.a;\n vec3 intensity = ambient + light.rgb;\n vec3 finalColor = diffuseColor.rgb * intensity;\n gl_FragColor = vec4(finalColor, diffuseColor.a);\n}\n",Ie=function(e){function n(t,n,r){void 0===n&&(n=0),void 0===r&&(r=1),e.call(this,Le,ke),this.uniforms.dimensions=new Float32Array(2),this.uniforms.ambientColor=new Float32Array([0,0,0,r]),this.texture=t,this.color=n}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={texture:{configurable:!0},color:{configurable:!0},alpha:{configurable:!0}};return n.prototype.apply=function(e,t,n,r){this.uniforms.dimensions[0]=t.sourceFrame.width,this.uniforms.dimensions[1]=t.sourceFrame.height,e.applyFilter(this,t,n,r)},r.texture.get=function(){return this.uniforms.uLightmap},r.texture.set=function(e){this.uniforms.uLightmap=e},r.color.set=function(e){var n=this.uniforms.ambientColor;"number"==typeof e?(t.utils.hex2rgb(e,n),this._color=e):(n[0]=e[0],n[1]=e[1],n[2]=e[2],n[3]=e[3],this._color=t.utils.rgb2hex(n))},r.color.get=function(){return this._color},r.alpha.get=function(){return this.uniforms.ambientColor[3]},r.alpha.set=function(e){this.uniforms.ambientColor[3]=e},Object.defineProperties(n.prototype,r),n}(t.Filter),Ee=n,Be="varying vec2 vTextureCoord;\n\nuniform sampler2D uSampler;\nuniform float blur;\nuniform float gradientBlur;\nuniform vec2 start;\nuniform vec2 end;\nuniform vec2 delta;\nuniform vec2 texSize;\n\nfloat random(vec3 scale, float seed)\n{\n return fract(sin(dot(gl_FragCoord.xyz + seed, scale)) * 43758.5453 + seed);\n}\n\nvoid main(void)\n{\n vec4 color = vec4(0.0);\n float total = 0.0;\n\n float offset = random(vec3(12.9898, 78.233, 151.7182), 0.0);\n vec2 normal = normalize(vec2(start.y - end.y, end.x - start.x));\n float radius = smoothstep(0.0, 1.0, abs(dot(vTextureCoord * texSize - start, normal)) / gradientBlur) * blur;\n\n for (float t = -30.0; t <= 30.0; t++)\n {\n float percent = (t + offset - 0.5) / 30.0;\n float weight = 1.0 - abs(percent);\n vec4 sample = texture2D(uSampler, vTextureCoord + delta / texSize * percent * radius);\n sample.rgb *= sample.a;\n color += sample * weight;\n total += weight;\n }\n\n color /= total;\n color.rgb /= color.a + 0.00001;\n\n gl_FragColor = color;\n}\n",Xe=function(e){function n(n,r,o,i){void 0===n&&(n=100),void 0===r&&(r=600),void 0===o&&(o=null),void 0===i&&(i=null),e.call(this,Ee,Be),this.uniforms.blur=n,this.uniforms.gradientBlur=r,this.uniforms.start=o||new t.Point(0,window.innerHeight/2),this.uniforms.end=i||new t.Point(600,window.innerHeight/2),this.uniforms.delta=new t.Point(30,30),this.uniforms.texSize=new t.Point(window.innerWidth,window.innerHeight),this.updateDelta()}e&&(n.__proto__=e),n.prototype=Object.create(e&&e.prototype),n.prototype.constructor=n;var r={blur:{configurable:!0},gradientBlur:{configurable:!0},start:{configurable:!0},end:{configurable:!0}};return n.prototype.updateDelta=function(){this.uniforms.delta.x=0,this.uniforms.delta.y=0},r.blur.get=function(){return this.uniforms.blur},r.blur.set=function(e){this.uniforms.blur=e},r.gradientBlur.get=function(){return this.uniforms.gradientBlur},r.gradientBlur.set=function(e){this.uniforms.gradientBlur=e},r.start.get=function(){return this.uniforms.start},r.start.set=function(e){this.uniforms.start=e,this.updateDelta()},r.end.get=function(){return this.uniforms.end},r.end.set=function(e){this.uniforms.end=e,this.updateDelta()},Object.defineProperties(n.prototype,r),n}(t.Filter),qe=function(e){function t(){e.apply(this,arguments)}return e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t,t.prototype.updateDelta=function(){var e=this.uniforms.end.x-this.uniforms.start.x,t=this.uniforms.end.y-this.uniforms.start.y,n=Math.sqrt(e*e+t*t);this.uniforms.delta.x=e/n,this.uniforms.delta.y=t/n},t}(Xe),Ne=function(e){function t(){e.apply(this,arguments)}return e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t,t.prototype.updateDelta=function(){var e=this.uniforms.end.x-this.uniforms.start.x,t=this.uniforms.end.y-this.uniforms.start.y,n=Math.sqrt(e*e+t*t);this.uniforms.delta.x=-t/n,this.uniforms.delta.y=e/n},t}(Xe),We=function(e){function t(t,n,r,o){void 0===t&&(t=100),void 0===n&&(n=600),void 0===r&&(r=null),void 0===o&&(o=null),e.call(this),this.tiltShiftXFilter=new qe(t,n,r,o),this.tiltShiftYFilter=new Ne(t,n,r,o)}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={blur:{configurable:!0},gradientBlur:{configurable:!0},start:{configurable:!0},end:{configurable:!0}};return t.prototype.apply=function(e,t,n){var r=e.getRenderTarget(!0);this.tiltShiftXFilter.apply(e,t,r),this.tiltShiftYFilter.apply(e,r,n),e.returnRenderTarget(r)},n.blur.get=function(){return this.tiltShiftXFilter.blur},n.blur.set=function(e){this.tiltShiftXFilter.blur=this.tiltShiftYFilter.blur=e},n.gradientBlur.get=function(){return this.tiltShiftXFilter.gradientBlur},n.gradientBlur.set=function(e){this.tiltShiftXFilter.gradientBlur=this.tiltShiftYFilter.gradientBlur=e},n.start.get=function(){return this.tiltShiftXFilter.start},n.start.set=function(e){this.tiltShiftXFilter.start=this.tiltShiftYFilter.start=e},n.end.get=function(){return this.tiltShiftXFilter.end},n.end.set=function(e){this.tiltShiftXFilter.end=this.tiltShiftYFilter.end=e},Object.defineProperties(t.prototype,n),t}(t.Filter),Ge=n,Ke="varying vec2 vTextureCoord;\n\nuniform sampler2D uSampler;\nuniform float radius;\nuniform float angle;\nuniform vec2 offset;\nuniform vec4 filterArea;\n\nvec2 mapCoord( vec2 coord )\n{\n coord *= filterArea.xy;\n coord += filterArea.zw;\n\n return coord;\n}\n\nvec2 unmapCoord( vec2 coord )\n{\n coord -= filterArea.zw;\n coord /= filterArea.xy;\n\n return coord;\n}\n\nvec2 twist(vec2 coord)\n{\n coord -= offset;\n\n float dist = length(coord);\n\n if (dist < radius)\n {\n float ratioDist = (radius - dist) / radius;\n float angleMod = ratioDist * ratioDist * angle;\n float s = sin(angleMod);\n float c = cos(angleMod);\n coord = vec2(coord.x * c - coord.y * s, coord.x * s + coord.y * c);\n }\n\n coord += offset;\n\n return coord;\n}\n\nvoid main(void)\n{\n\n vec2 coord = mapCoord(vTextureCoord);\n\n coord = twist(coord);\n\n coord = unmapCoord(coord);\n\n gl_FragColor = texture2D(uSampler, coord );\n\n}\n",Ye=function(e){function t(t,n,r){void 0===t&&(t=200),void 0===n&&(n=4),void 0===r&&(r=20),e.call(this,Ge,Ke),this.radius=t,this.angle=n,this.padding=r}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={offset:{configurable:!0},radius:{configurable:!0},angle:{configurable:!0}};return n.offset.get=function(){return this.uniforms.offset},n.offset.set=function(e){this.uniforms.offset=e},n.radius.get=function(){return this.uniforms.radius},n.radius.set=function(e){this.uniforms.radius=e},n.angle.get=function(){return this.uniforms.angle},n.angle.set=function(e){this.uniforms.angle=e},Object.defineProperties(t.prototype,n),t}(t.Filter),Qe=n,Ue="varying vec2 vTextureCoord;\nuniform sampler2D uSampler;\nuniform vec4 filterArea;\n\nuniform vec2 uCenter;\nuniform float uStrength;\nuniform float uInnerRadius;\nuniform float uRadius;\n\nconst float MAX_KERNEL_SIZE = 32.0;\n\n// author: http://byteblacksmith.com/improvements-to-the-canonical-one-liner-glsl-rand-for-opengl-es-2-0/\nhighp float rand(vec2 co, float seed) {\n const highp float a = 12.9898, b = 78.233, c = 43758.5453;\n highp float dt = dot(co + seed, vec2(a, b)), sn = mod(dt, 3.14159);\n return fract(sin(sn) * c + seed);\n}\n\nvoid main() {\n\n float minGradient = uInnerRadius * 0.3;\n float innerRadius = (uInnerRadius + minGradient * 0.5) / filterArea.x;\n\n float gradient = uRadius * 0.3;\n float radius = (uRadius - gradient * 0.5) / filterArea.x;\n\n float countLimit = MAX_KERNEL_SIZE;\n\n vec2 dir = vec2(uCenter.xy / filterArea.xy - vTextureCoord);\n float dist = length(vec2(dir.x, dir.y * filterArea.y / filterArea.x));\n\n float strength = uStrength;\n\n float delta = 0.0;\n float gap;\n if (dist < innerRadius) {\n delta = innerRadius - dist;\n gap = minGradient;\n } else if (radius >= 0.0 && dist > radius) { // radius < 0 means it's infinity\n delta = dist - radius;\n gap = gradient;\n }\n\n if (delta > 0.0) {\n float normalCount = gap / filterArea.x;\n delta = (normalCount - delta) / normalCount;\n countLimit *= delta;\n strength *= delta;\n if (countLimit < 1.0)\n {\n gl_FragColor = texture2D(uSampler, vTextureCoord);\n return;\n }\n }\n\n // randomize the lookup values to hide the fixed number of samples\n float offset = rand(vTextureCoord, 0.0);\n\n float total = 0.0;\n vec4 color = vec4(0.0);\n\n dir *= strength;\n\n for (float t = 0.0; t < MAX_KERNEL_SIZE; t++) {\n float percent = (t + offset) / MAX_KERNEL_SIZE;\n float weight = 4.0 * (percent - percent * percent);\n vec2 p = vTextureCoord + dir * percent;\n vec4 sample = texture2D(uSampler, p);\n\n // switch to pre-multiplied alpha to correctly blur transparent images\n // sample.rgb *= sample.a;\n\n color += sample * weight;\n total += weight;\n\n if (t > countLimit){\n break;\n }\n }\n\n color /= total;\n // switch back from pre-multiplied alpha\n // color.rgb /= color.a + 0.00001;\n\n gl_FragColor = color;\n}\n",Ze=function(e){function t(t,n,r,o){void 0===t&&(t=.1),void 0===n&&(n=[0,0]),void 0===r&&(r=0),void 0===o&&(o=-1),e.call(this,Qe,Ue),this.center=n,this.strength=t,this.innerRadius=r,this.radius=o}e&&(t.__proto__=e),t.prototype=Object.create(e&&e.prototype),t.prototype.constructor=t;var n={center:{configurable:!0},strength:{configurable:!0},innerRadius:{configurable:!0},radius:{configurable:!0}};return n.center.get=function(){return this.uniforms.uCenter},n.center.set=function(e){this.uniforms.uCenter=e},n.strength.get=function(){return this.uniforms.uStrength},n.strength.set=function(e){this.uniforms.uStrength=e},n.innerRadius.get=function(){return this.uniforms.uInnerRadius},n.innerRadius.set=function(e){this.uniforms.uInnerRadius=e},n.radius.get=function(){return this.uniforms.uRadius},n.radius.set=function(e){(e<0||e===1/0)&&(e=-1),this.uniforms.uRadius=e},Object.defineProperties(t.prototype,n),t}(t.Filter);return e.AdjustmentFilter=o,e.AdvancedBloomFilter=p,e.AsciiFilter=g,e.BevelFilter=y,e.BloomFilter=F,e.BulgePinchFilter=w,e.ColorMapFilter=O,e.ColorReplaceFilter=R,e.ConvolutionFilter=k,e.CrossHatchFilter=B,e.CRTFilter=N,e.DotFilter=K,e.DropShadowFilter=U,e.EmbossFilter=H,e.GlitchFilter=ee,e.GlowFilter=re,e.GodrayFilter=se,e.KawaseBlurFilter=a,e.MotionBlurFilter=ce,e.MultiColorReplaceFilter=pe,e.OldFilmFilter=ge,e.OutlineFilter=ye,e.PixelateFilter=Ce,e.RadialBlurFilter=ze,e.ReflectionFilter=Te,e.RGBSplitFilter=Pe,e.ShockwaveFilter=je,e.SimpleLightmapFilter=Ie,e.TiltShiftFilter=We,e.TiltShiftAxisFilter=Xe,e.TiltShiftXFilter=qe,e.TiltShiftYFilter=Ne,e.TwistFilter=Ye,e.ZoomBlurFilter=Ze,e}({},PIXI);Object.assign(PIXI.filters,this?this.__filters:__filters);
|