summit/frontend/node_modules/three-stdlib/postprocessing/UnrealBloomPass.cjs

"use strict";
var __defProp = Object.defineProperty;
var __defNormalProp = (obj, key, value) => key in obj ? __defProp(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __publicField = (obj, key, value) => {
  __defNormalProp(obj, typeof key !== "symbol" ? key + "" : key, value);
  return value;
};
Object.defineProperty(exports, Symbol.toStringTag, { value: "Module" });
const THREE = require("three");
const Pass = require("./Pass.cjs");
const CopyShader = require("../shaders/CopyShader.cjs");
const LuminosityHighPassShader = require("../shaders/LuminosityHighPassShader.cjs");
const UnrealBloomPass = /* @__PURE__ */ (() => {
  const _UnrealBloomPass = class extends Pass.Pass {
    constructor(resolution, strength, radius, threshold) {
      super();
      this.strength = strength !== void 0 ? strength : 1;
      this.radius = radius;
      this.threshold = threshold;
      this.resolution = resolution !== void 0 ? new THREE.Vector2(resolution.x, resolution.y) : new THREE.Vector2(256, 256);
      this.clearColor = new THREE.Color(0, 0, 0);
      this.renderTargetsHorizontal = [];
      this.renderTargetsVertical = [];
      this.nMips = 5;
      let resx = Math.round(this.resolution.x / 2);
      let resy = Math.round(this.resolution.y / 2);
      this.renderTargetBright = new THREE.WebGLRenderTarget(resx, resy, { type: THREE.HalfFloatType });
      this.renderTargetBright.texture.name = "UnrealBloomPass.bright";
      this.renderTargetBright.texture.generateMipmaps = false;
      for (let i = 0; i < this.nMips; i++) {
        const renderTargetHorizonal = new THREE.WebGLRenderTarget(resx, resy, { type: THREE.HalfFloatType });
        renderTargetHorizonal.texture.name = "UnrealBloomPass.h" + i;
        renderTargetHorizonal.texture.generateMipmaps = false;
        this.renderTargetsHorizontal.push(renderTargetHorizonal);
        const renderTargetVertical = new THREE.WebGLRenderTarget(resx, resy, { type: THREE.HalfFloatType });
        renderTargetVertical.texture.name = "UnrealBloomPass.v" + i;
        renderTargetVertical.texture.generateMipmaps = false;
        this.renderTargetsVertical.push(renderTargetVertical);
        resx = Math.round(resx / 2);
        resy = Math.round(resy / 2);
      }
      const highPassShader = LuminosityHighPassShader.LuminosityHighPassShader;
      this.highPassUniforms = THREE.UniformsUtils.clone(highPassShader.uniforms);
      this.highPassUniforms["luminosityThreshold"].value = threshold;
      this.highPassUniforms["smoothWidth"].value = 0.01;
      this.materialHighPassFilter = new THREE.ShaderMaterial({
        uniforms: this.highPassUniforms,
        vertexShader: highPassShader.vertexShader,
        fragmentShader: highPassShader.fragmentShader,
        defines: {}
      });
      this.separableBlurMaterials = [];
      const kernelSizeArray = [3, 5, 7, 9, 11];
      resx = Math.round(this.resolution.x / 2);
      resy = Math.round(this.resolution.y / 2);
      for (let i = 0; i < this.nMips; i++) {
        this.separableBlurMaterials.push(this.getSeperableBlurMaterial(kernelSizeArray[i]));
        this.separableBlurMaterials[i].uniforms["texSize"].value = new THREE.Vector2(resx, resy);
        resx = Math.round(resx / 2);
        resy = Math.round(resy / 2);
      }
      this.compositeMaterial = this.getCompositeMaterial(this.nMips);
      this.compositeMaterial.uniforms["blurTexture1"].value = this.renderTargetsVertical[0].texture;
      this.compositeMaterial.uniforms["blurTexture2"].value = this.renderTargetsVertical[1].texture;
      this.compositeMaterial.uniforms["blurTexture3"].value = this.renderTargetsVertical[2].texture;
      this.compositeMaterial.uniforms["blurTexture4"].value = this.renderTargetsVertical[3].texture;
      this.compositeMaterial.uniforms["blurTexture5"].value = this.renderTargetsVertical[4].texture;
      this.compositeMaterial.uniforms["bloomStrength"].value = strength;
      this.compositeMaterial.uniforms["bloomRadius"].value = 0.1;
      this.compositeMaterial.needsUpdate = true;
      const bloomFactors = [1, 0.8, 0.6, 0.4, 0.2];
      this.compositeMaterial.uniforms["bloomFactors"].value = bloomFactors;
      this.bloomTintColors = [
        new THREE.Vector3(1, 1, 1),
        new THREE.Vector3(1, 1, 1),
        new THREE.Vector3(1, 1, 1),
        new THREE.Vector3(1, 1, 1),
        new THREE.Vector3(1, 1, 1)
      ];
      this.compositeMaterial.uniforms["bloomTintColors"].value = this.bloomTintColors;
      const copyShader = CopyShader.CopyShader;
      this.copyUniforms = THREE.UniformsUtils.clone(copyShader.uniforms);
      this.copyUniforms["opacity"].value = 1;
      this.materialCopy = new THREE.ShaderMaterial({
        uniforms: this.copyUniforms,
        vertexShader: copyShader.vertexShader,
        fragmentShader: copyShader.fragmentShader,
        blending: THREE.AdditiveBlending,
        depthTest: false,
        depthWrite: false,
        transparent: true
      });
      this.enabled = true;
      this.needsSwap = false;
      this._oldClearColor = new THREE.Color();
      this.oldClearAlpha = 1;
      this.basic = new THREE.MeshBasicMaterial();
      this.fsQuad = new Pass.FullScreenQuad(null);
    }
    dispose() {
      for (let i = 0; i < this.renderTargetsHorizontal.length; i++) {
        this.renderTargetsHorizontal[i].dispose();
      }
      for (let i = 0; i < this.renderTargetsVertical.length; i++) {
        this.renderTargetsVertical[i].dispose();
      }
      this.renderTargetBright.dispose();
      for (let i = 0; i < this.separableBlurMaterials.length; i++) {
        this.separableBlurMaterials[i].dispose();
      }
      this.compositeMaterial.dispose();
      this.materialCopy.dispose();
      this.basic.dispose();
      this.fsQuad.dispose();
    }
    setSize(width, height) {
      let resx = Math.round(width / 2);
      let resy = Math.round(height / 2);
      this.renderTargetBright.setSize(resx, resy);
      for (let i = 0; i < this.nMips; i++) {
        this.renderTargetsHorizontal[i].setSize(resx, resy);
        this.renderTargetsVertical[i].setSize(resx, resy);
        this.separableBlurMaterials[i].uniforms["texSize"].value = new THREE.Vector2(resx, resy);
        resx = Math.round(resx / 2);
        resy = Math.round(resy / 2);
      }
    }
    render(renderer, writeBuffer, readBuffer, deltaTime, maskActive) {
      renderer.getClearColor(this._oldClearColor);
      this.oldClearAlpha = renderer.getClearAlpha();
      const oldAutoClear = renderer.autoClear;
      renderer.autoClear = false;
      renderer.setClearColor(this.clearColor, 0);
      if (maskActive)
        renderer.state.buffers.stencil.setTest(false);
      if (this.renderToScreen) {
        this.fsQuad.material = this.basic;
        this.basic.map = readBuffer.texture;
        renderer.setRenderTarget(null);
        renderer.clear();
        this.fsQuad.render(renderer);
      }
      this.highPassUniforms["tDiffuse"].value = readBuffer.texture;
      this.highPassUniforms["luminosityThreshold"].value = this.threshold;
      this.fsQuad.material = this.materialHighPassFilter;
      renderer.setRenderTarget(this.renderTargetBright);
      renderer.clear();
      this.fsQuad.render(renderer);
      let inputRenderTarget = this.renderTargetBright;
      for (let i = 0; i < this.nMips; i++) {
        this.fsQuad.material = this.separableBlurMaterials[i];
        this.separableBlurMaterials[i].uniforms["colorTexture"].value = inputRenderTarget.texture;
        this.separableBlurMaterials[i].uniforms["direction"].value = _UnrealBloomPass.BlurDirectionX;
        renderer.setRenderTarget(this.renderTargetsHorizontal[i]);
        renderer.clear();
        this.fsQuad.render(renderer);
        this.separableBlurMaterials[i].uniforms["colorTexture"].value = this.renderTargetsHorizontal[i].texture;
        this.separableBlurMaterials[i].uniforms["direction"].value = _UnrealBloomPass.BlurDirectionY;
        renderer.setRenderTarget(this.renderTargetsVertical[i]);
        renderer.clear();
        this.fsQuad.render(renderer);
        inputRenderTarget = this.renderTargetsVertical[i];
      }
      this.fsQuad.material = this.compositeMaterial;
      this.compositeMaterial.uniforms["bloomStrength"].value = this.strength;
      this.compositeMaterial.uniforms["bloomRadius"].value = this.radius;
      this.compositeMaterial.uniforms["bloomTintColors"].value = this.bloomTintColors;
      renderer.setRenderTarget(this.renderTargetsHorizontal[0]);
      renderer.clear();
      this.fsQuad.render(renderer);
      this.fsQuad.material = this.materialCopy;
      this.copyUniforms["tDiffuse"].value = this.renderTargetsHorizontal[0].texture;
      if (maskActive)
        renderer.state.buffers.stencil.setTest(true);
      if (this.renderToScreen) {
        renderer.setRenderTarget(null);
        this.fsQuad.render(renderer);
      } else {
        renderer.setRenderTarget(readBuffer);
        this.fsQuad.render(renderer);
      }
      renderer.setClearColor(this._oldClearColor, this.oldClearAlpha);
      renderer.autoClear = oldAutoClear;
    }
    getSeperableBlurMaterial(kernelRadius) {
      return new THREE.ShaderMaterial({
        defines: {
          KERNEL_RADIUS: kernelRadius,
          SIGMA: kernelRadius
        },
        uniforms: {
          colorTexture: { value: null },
          texSize: { value: new THREE.Vector2(0.5, 0.5) },
          direction: { value: new THREE.Vector2(0.5, 0.5) }
        },
        vertexShader: `varying vec2 vUv;
				void main() {
					vUv = uv;
					gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
				}`,
        fragmentShader: `#include <common>
				varying vec2 vUv;
				uniform sampler2D colorTexture;
				uniform vec2 texSize;
				uniform vec2 direction;

				float gaussianPdf(in float x, in float sigma) {
					return 0.39894 * exp( -0.5 * x * x/( sigma * sigma))/sigma;
				}
				void main() {
					vec2 invSize = 1.0 / texSize;
					float fSigma = float(SIGMA);
					float weightSum = gaussianPdf(0.0, fSigma);
					vec3 diffuseSum = texture2D( colorTexture, vUv).rgb * weightSum;
					for( int i = 1; i < KERNEL_RADIUS; i ++ ) {
						float x = float(i);
						float w = gaussianPdf(x, fSigma);
						vec2 uvOffset = direction * invSize * x;
						vec3 sample1 = texture2D( colorTexture, vUv + uvOffset).rgb;
						vec3 sample2 = texture2D( colorTexture, vUv - uvOffset).rgb;
						diffuseSum += (sample1 + sample2) * w;
						weightSum += 2.0 * w;
					}
					gl_FragColor = vec4(diffuseSum/weightSum, 1.0);
				}`
      });
    }
    getCompositeMaterial(nMips) {
      return new THREE.ShaderMaterial({
        defines: {
          NUM_MIPS: nMips
        },
        uniforms: {
          blurTexture1: { value: null },
          blurTexture2: { value: null },
          blurTexture3: { value: null },
          blurTexture4: { value: null },
          blurTexture5: { value: null },
          bloomStrength: { value: 1 },
          bloomFactors: { value: null },
          bloomTintColors: { value: null },
          bloomRadius: { value: 0 }
        },
        vertexShader: `varying vec2 vUv;
				void main() {
					vUv = uv;
					gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
				}`,
        fragmentShader: `varying vec2 vUv;
				uniform sampler2D blurTexture1;
				uniform sampler2D blurTexture2;
				uniform sampler2D blurTexture3;
				uniform sampler2D blurTexture4;
				uniform sampler2D blurTexture5;
				uniform float bloomStrength;
				uniform float bloomRadius;
				uniform float bloomFactors[NUM_MIPS];
				uniform vec3 bloomTintColors[NUM_MIPS];

				float lerpBloomFactor(const in float factor) {
					float mirrorFactor = 1.2 - factor;
					return mix(factor, mirrorFactor, bloomRadius);
				}

				void main() {
					gl_FragColor = bloomStrength * ( lerpBloomFactor(bloomFactors[0]) * vec4(bloomTintColors[0], 1.0) * texture2D(blurTexture1, vUv) +
						lerpBloomFactor(bloomFactors[1]) * vec4(bloomTintColors[1], 1.0) * texture2D(blurTexture2, vUv) +
						lerpBloomFactor(bloomFactors[2]) * vec4(bloomTintColors[2], 1.0) * texture2D(blurTexture3, vUv) +
						lerpBloomFactor(bloomFactors[3]) * vec4(bloomTintColors[3], 1.0) * texture2D(blurTexture4, vUv) +
						lerpBloomFactor(bloomFactors[4]) * vec4(bloomTintColors[4], 1.0) * texture2D(blurTexture5, vUv) );
				}`
      });
    }
  };
  let UnrealBloomPass2 = _UnrealBloomPass;
  __publicField(UnrealBloomPass2, "BlurDirectionX", new THREE.Vector2(1, 0));
  __publicField(UnrealBloomPass2, "BlurDirectionY", new THREE.Vector2(0, 1));
  return UnrealBloomPass2;
})();
exports.UnrealBloomPass = UnrealBloomPass;
//# sourceMappingURL=UnrealBloomPass.cjs.map