祝福各位CSDN的小伙伴圣诞快乐

简介: 祝福各位CSDN的小伙伴圣诞快乐

1.源码

 
<!DOCTYPE html>
<html lang="en">
 
<head>
  <meta charset="UTF-8">
 
  <title>圣诞树🎄</title>
 
  <link rel="stylesheet" href="https://cdnjs.cloudflare.com/ajax/libs/normalize/5.0.0/normalize.min.css">
 
  <style>
    * {
      box-sizing: border-box;
    }
 
    body {
      margin: 0;
      height: 100vh;
      overflow: hidden;
      display: flex;
      align-items: center;
      justify-content: center;
      background: #161616;
      color: #c5a880;
      font-family: sans-serif;
    }
 
    label {
      display: inline-block;
      background-color: #161616;
      padding: 16px;
      border-radius: 0.3rem;
      cursor: pointer;
      margin-top: 1rem;
      width: 300px;
      border-radius: 10px;
      border: 1px solid #c5a880;
      text-align: center;
    }
 
    ul {
      list-style-type: none;
      padding: 0;
      margin: 0;
    }
 
    .btn {
      background-color: #161616;
      border-radius: 10px;
      color: #c5a880;
      border: 1px solid #c5a880;
      padding: 16px;
      width: 300px;
      margin-bottom: 16px;
      line-height: 1.5;
      cursor: pointer;
    }
 
    .separator {
      font-weight: bold;
      text-align: center;
      width: 300px;
      margin: 16px 0px;
      color: #a07676;
    }
 
    .title {
      color: #a07676;
      font-weight: bold;
      font-size: 1.25rem;
      margin-bottom: 16px;
    }
 
    .text-loading {
      font-size: 2rem;
    }
  </style>
 
  <script>
    window.console = window.console || function (t) { };
  </script>
 
 
 
  <script>
    if (document.location.search.match(/type=embed/gi)) {
      window.parent.postMessage("resize", "*");
    }
  </script>
 
 
</head>
 
<body translate="no">
  <script src="https://cdn.jsdelivr.net/npm/three@0.115.0/build/three.min.js"></script>
  <script src="https://cdn.jsdelivr.net/npm/three@0.115.0/examples/js/postprocessing/EffectComposer.js"></script>
  <script src="https://cdn.jsdelivr.net/npm/three@0.115.0/examples/js/postprocessing/RenderPass.js"></script>
  <script src="https://cdn.jsdelivr.net/npm/three@0.115.0/examples/js/postprocessing/ShaderPass.js"></script>
  <script src="https://cdn.jsdelivr.net/npm/three@0.115.0/examples/js/shaders/CopyShader.js"></script>
  <script src="https://cdn.jsdelivr.net/npm/three@0.115.0/examples/js/shaders/LuminosityHighPassShader.js"></script>
  <script src="https://cdn.jsdelivr.net/npm/three@0.115.0/examples/js/postprocessing/UnrealBloomPass.js"></script>
 
  <div id="overlay">
    <ul>
      <li class="title">请选择音乐</li>
      <li><button class="btn" id="btnA" type="button">Music1</button></li>
      <li><button class="btn" id="btnB" type="button">Music2</button></li>
      <li><button class="btn" id="btnC" type="button">Music3</button></li>
      <li><button class="btn" id="btnD" type="button">Music4</button></li>
      <li class="separator">或者</li>
      <li>
        <input type="file" id="upload" hidden />
        <label for="upload">本地音乐</label>
      </li>
    </ul>
  </div>
 
  <script id="rendered-js">
    const { PI, sin, cos } = Math;
    const TAU = 2 * PI;
 
    const map = (value, sMin, sMax, dMin, dMax) => {
      return dMin + (value - sMin) / (sMax - sMin) * (dMax - dMin);
    };
 
    const range = (n, m = 0) =>
      Array(n).
        fill(m).
        map((i, j) => i + j);
 
    const rand = (max, min = 0) => min + Math.random() * (max - min);
    const randInt = (max, min = 0) => Math.floor(min + Math.random() * (max - min));
    const randChoise = arr => arr[randInt(arr.length)];
    const polar = (ang, r = 1) => [r * cos(ang), r * sin(ang)];
 
    let scene, camera, renderer, analyser;
    let step = 0;
    const uniforms = {
      time: { type: "f", value: 0.0 },
      step: { type: "f", value: 0.0 }
    };
 
    const params = {
      exposure: 1,
      bloomStrength: 0.9,
      bloomThreshold: 0,
      bloomRadius: 0.5
    };
 
    let composer;
 
    const fftSize = 2048;
    const totalPoints = 4000;
 
    const listener = new THREE.AudioListener();
 
    const audio = new THREE.Audio(listener);
 
    document.querySelector("input").addEventListener("change", uploadAudio, false);
 
    const buttons = document.querySelectorAll(".btn");
    buttons.forEach((button, index) =>
      button.addEventListener("click", () => loadAudio(index)));
 
 
    function init() {
      const overlay = document.getElementById("overlay");
      overlay.remove();
 
      scene = new THREE.Scene();
      renderer = new THREE.WebGLRenderer({ antialias: true });
      renderer.setPixelRatio(window.devicePixelRatio);
      renderer.setSize(window.innerWidth, window.innerHeight);
      document.body.appendChild(renderer.domElement);
 
      camera = new THREE.PerspectiveCamera(
        60,
        window.innerWidth / window.innerHeight,
        1,
        1000);
 
      camera.position.set(-0.09397456774197047, -2.5597086635726947, 24.420789670889008);
      camera.rotation.set(0.10443543723052419, -0.003827152981119352, 0.0004011488708739715);
 
      const format = renderer.capabilities.isWebGL2 ?
        THREE.RedFormat :
        THREE.LuminanceFormat;
 
      uniforms.tAudioData = {
        value: new THREE.DataTexture(analyser.data, fftSize / 2, 1, format)
      };
 
 
      addPlane(scene, uniforms, 3000);
      addSnow(scene, uniforms);
 
      range(10).map(i => {
        addTree(scene, uniforms, totalPoints, [20, 0, -20 * i]);
        addTree(scene, uniforms, totalPoints, [-20, 0, -20 * i]);
      });
 
      const renderScene = new THREE.RenderPass(scene, camera);
 
      const bloomPass = new THREE.UnrealBloomPass(
        new THREE.Vector2(window.innerWidth, window.innerHeight),
        1.5,
        0.4,
        0.85);
 
      bloomPass.threshold = params.bloomThreshold;
      bloomPass.strength = params.bloomStrength;
      bloomPass.radius = params.bloomRadius;
 
      composer = new THREE.EffectComposer(renderer);
      composer.addPass(renderScene);
      composer.addPass(bloomPass);
 
      addListners(camera, renderer, composer);
      animate();
    }
 
    function animate(time) {
      analyser.getFrequencyData();
      uniforms.tAudioData.value.needsUpdate = true;
      step = (step + 1) % 1000;
      uniforms.time.value = time;
      uniforms.step.value = step;
      composer.render();
      requestAnimationFrame(animate);
    }
 
    function loadAudio(i) {
      document.getElementById("overlay").innerHTML =
        '<div class="text-loading">惊喜即将来临!</div>';
      const files = [
        "https://files.freemusicarchive.org/storage-freemusicarchive-org/music/no_curator/Simon_Panrucker/Happy_Christmas_You_Guys/Simon_Panrucker_-_01_-_Snowflakes_Falling_Down.mp3",
        "https://files.freemusicarchive.org/storage-freemusicarchive-org/music/no_curator/Dott/This_Christmas/Dott_-_01_-_This_Christmas.mp3",
        "https://files.freemusicarchive.org/storage-freemusicarchive-org/music/ccCommunity/TRG_Banks/TRG_Banks_Christmas_Album/TRG_Banks_-_12_-_No_room_at_the_inn.mp3",
        "https://files.freemusicarchive.org/storage-freemusicarchive-org/music/ccCommunity/Mark_Smeby/En_attendant_Nol/Mark_Smeby_-_07_-_Jingle_Bell_Swing.mp3"];
 
      const file = files[i];
 
      const loader = new THREE.AudioLoader();
      loader.load(file, function (buffer) {
        audio.setBuffer(buffer);
        audio.play();
        analyser = new THREE.AudioAnalyser(audio, fftSize);
        init();
      });
 
 
 
 
    }
 
 
    function uploadAudio(event) {
      document.getElementById("overlay").innerHTML =
        '<div class="text-loading">惊喜即将来临!...</div>';
      const files = event.target.files;
      const reader = new FileReader();
 
      reader.onload = function (file) {
        var arrayBuffer = file.target.result;
 
        listener.context.decodeAudioData(arrayBuffer, function (audioBuffer) {
          audio.setBuffer(audioBuffer);
          audio.play();
          analyser = new THREE.AudioAnalyser(audio, fftSize);
          init();
        });
      };
 
      reader.readAsArrayBuffer(files[0]);
    }
 
    function addTree(scene, uniforms, totalPoints, treePosition) {
      const vertexShader = `
      attribute float mIndex;
      varying vec3 vColor;
      varying float opacity;
      uniform sampler2D tAudioData;
      float norm(float value, float min, float max ){
       return (value - min) / (max - min);
      }
      float lerp(float norm, float min, float max){
       return (max - min) * norm + min;
      }
      float map(float value, float sourceMin, float sourceMax, float destMin, float destMax){
       return lerp(norm(value, sourceMin, sourceMax), destMin, destMax);
      }
      void main() {
       vColor = color;
       vec3 p = position;
       vec4 mvPosition = modelViewMatrix * vec4( p, 1.0 );
       float amplitude = texture2D( tAudioData, vec2( mIndex, 0.1 ) ).r;
       float amplitudeClamped = clamp(amplitude-0.4,0.0, 0.6 );
       float sizeMapped = map(amplitudeClamped, 0.0, 0.6, 1.0, 20.0);
       opacity = map(mvPosition.z , -200.0, 15.0, 0.0, 1.0);
       gl_PointSize = sizeMapped * ( 100.0 / -mvPosition.z );
       gl_Position = projectionMatrix * mvPosition;
      }
      `;
      const fragmentShader = `
      varying vec3 vColor;
      varying float opacity;
      uniform sampler2D pointTexture;
      void main() {
       gl_FragColor = vec4( vColor, opacity );
       gl_FragColor = gl_FragColor * texture2D( pointTexture, gl_PointCoord ); 
      }
      `;
      const shaderMaterial = new THREE.ShaderMaterial({
        uniforms: {
          ...uniforms,
          pointTexture: {
            value: new THREE.TextureLoader().load(`https://assets.codepen.io/3685267/spark1.png`)
          }
        },
 
 
        vertexShader,
        fragmentShader,
        blending: THREE.AdditiveBlending,
        depthTest: false,
        transparent: true,
        vertexColors: true
      });
 
 
      const geometry = new THREE.BufferGeometry();
      const positions = [];
      const colors = [];
      const sizes = [];
      const phases = [];
      const mIndexs = [];
 
      const color = new THREE.Color();
 
      for (let i = 0; i < totalPoints; i++) {
        const t = Math.random();
        const y = map(t, 0, 1, -8, 10);
        const ang = map(t, 0, 1, 0, 6 * TAU) + TAU / 2 * (i % 2);
        const [z, x] = polar(ang, map(t, 0, 1, 5, 0));
 
        const modifier = map(t, 0, 1, 1, 0);
        positions.push(x + rand(-0.3 * modifier, 0.3 * modifier));
        positions.push(y + rand(-0.3 * modifier, 0.3 * modifier));
        positions.push(z + rand(-0.3 * modifier, 0.3 * modifier));
 
        color.setHSL(map(i, 0, totalPoints, 1.0, 0.0), 1.0, 0.5);
 
        colors.push(color.r, color.g, color.b);
        phases.push(rand(1000));
        sizes.push(1);
        const mIndex = map(i, 0, totalPoints, 1.0, 0.0);
        mIndexs.push(mIndex);
      }
 
      geometry.setAttribute(
        "position",
        new THREE.Float32BufferAttribute(positions, 3).setUsage(
          THREE.DynamicDrawUsage));
 
 
      geometry.setAttribute("color", new THREE.Float32BufferAttribute(colors, 3));
      geometry.setAttribute("size", new THREE.Float32BufferAttribute(sizes, 1));
      geometry.setAttribute("phase", new THREE.Float32BufferAttribute(phases, 1));
      geometry.setAttribute("mIndex", new THREE.Float32BufferAttribute(mIndexs, 1));
 
      const tree = new THREE.Points(geometry, shaderMaterial);
 
      const [px, py, pz] = treePosition;
 
      tree.position.x = px;
      tree.position.y = py;
      tree.position.z = pz;
 
      scene.add(tree);
    }
 
    function addSnow(scene, uniforms) {
      const vertexShader = `
      attribute float size;
      attribute float phase;
      attribute float phaseSecondary;
      varying vec3 vColor;
      varying float opacity;
      uniform float time;
      uniform float step;
      float norm(float value, float min, float max ){
       return (value - min) / (max - min);
      }
      float lerp(float norm, float min, float max){
       return (max - min) * norm + min;
      }
      float map(float value, float sourceMin, float sourceMax, float destMin, float destMax){
       return lerp(norm(value, sourceMin, sourceMax), destMin, destMax);
      }
      void main() {
       float t = time* 0.0006;
       vColor = color;
       vec3 p = position;
       p.y = map(mod(phase+step, 1000.0), 0.0, 1000.0, 25.0, -8.0);
       p.x += sin(t+phase);
       p.z += sin(t+phaseSecondary);
       opacity = map(p.z, -150.0, 15.0, 0.0, 1.0);
       vec4 mvPosition = modelViewMatrix * vec4( p, 1.0 );
       gl_PointSize = size * ( 100.0 / -mvPosition.z );
       gl_Position = projectionMatrix * mvPosition;
      }
      `;
 
      const fragmentShader = `
      uniform sampler2D pointTexture;
      varying vec3 vColor;
      varying float opacity;
      void main() {
       gl_FragColor = vec4( vColor, opacity );
       gl_FragColor = gl_FragColor * texture2D( pointTexture, gl_PointCoord ); 
      }
      `;
      function createSnowSet(sprite) {
        const totalPoints = 300;
        const shaderMaterial = new THREE.ShaderMaterial({
          uniforms: {
            ...uniforms,
            pointTexture: {
              value: new THREE.TextureLoader().load(sprite)
            }
          },
 
 
          vertexShader,
          fragmentShader,
          blending: THREE.AdditiveBlending,
          depthTest: false,
          transparent: true,
          vertexColors: true
        });
 
 
        const geometry = new THREE.BufferGeometry();
        const positions = [];
        const colors = [];
        const sizes = [];
        const phases = [];
        const phaseSecondaries = [];
 
        const color = new THREE.Color();
 
        for (let i = 0; i < totalPoints; i++) {
          const [x, y, z] = [rand(25, -25), 0, rand(15, -150)];
          positions.push(x);
          positions.push(y);
          positions.push(z);
 
          color.set(randChoise(["#f1d4d4", "#f1f6f9", "#eeeeee", "#f1f1e8"]));
 
          colors.push(color.r, color.g, color.b);
          phases.push(rand(1000));
          phaseSecondaries.push(rand(1000));
          sizes.push(rand(4, 2));
        }
 
        geometry.setAttribute(
          "position",
          new THREE.Float32BufferAttribute(positions, 3));
 
        geometry.setAttribute("color", new THREE.Float32BufferAttribute(colors, 3));
        geometry.setAttribute("size", new THREE.Float32BufferAttribute(sizes, 1));
        geometry.setAttribute("phase", new THREE.Float32BufferAttribute(phases, 1));
        geometry.setAttribute(
          "phaseSecondary",
          new THREE.Float32BufferAttribute(phaseSecondaries, 1));
 
 
        const mesh = new THREE.Points(geometry, shaderMaterial);
 
        scene.add(mesh);
      }
      const sprites = [
        "https://assets.codepen.io/3685267/snowflake1.png",
        "https://assets.codepen.io/3685267/snowflake2.png",
        "https://assets.codepen.io/3685267/snowflake3.png",
        "https://assets.codepen.io/3685267/snowflake4.png",
        "https://assets.codepen.io/3685267/snowflake5.png"];
 
      sprites.forEach(sprite => {
        createSnowSet(sprite);
      });
    }
 
    function addPlane(scene, uniforms, totalPoints) {
      const vertexShader = `
      attribute float size;
      attribute vec3 customColor;
      varying vec3 vColor;
      void main() {
       vColor = customColor;
       vec4 mvPosition = modelViewMatrix * vec4( position, 1.0 );
       gl_PointSize = size * ( 300.0 / -mvPosition.z );
       gl_Position = projectionMatrix * mvPosition;
      }
      `;
      const fragmentShader = `
      uniform vec3 color;
      uniform sampler2D pointTexture;
      varying vec3 vColor;
      void main() {
       gl_FragColor = vec4( vColor, 1.0 );
       gl_FragColor = gl_FragColor * texture2D( pointTexture, gl_PointCoord );
      }
      `;
      const shaderMaterial = new THREE.ShaderMaterial({
        uniforms: {
          ...uniforms,
          pointTexture: {
            value: new THREE.TextureLoader().load(`https://assets.codepen.io/3685267/spark1.png`)
          }
        },
 
 
        vertexShader,
        fragmentShader,
        blending: THREE.AdditiveBlending,
        depthTest: false,
        transparent: true,
        vertexColors: true
      });
 
 
      const geometry = new THREE.BufferGeometry();
      const positions = [];
      const colors = [];
      const sizes = [];
 
      const color = new THREE.Color();
 
      for (let i = 0; i < totalPoints; i++) {
        const [x, y, z] = [rand(-25, 25), 0, rand(-150, 15)];
        positions.push(x);
        positions.push(y);
        positions.push(z);
 
        color.set(randChoise(["#93abd3", "#f2f4c0", "#9ddfd3"]));
 
        colors.push(color.r, color.g, color.b);
        sizes.push(1);
      }
 
      geometry.setAttribute(
        "position",
        new THREE.Float32BufferAttribute(positions, 3).setUsage(
          THREE.DynamicDrawUsage));
 
 
      geometry.setAttribute(
        "customColor",
        new THREE.Float32BufferAttribute(colors, 3));
 
      geometry.setAttribute("size", new THREE.Float32BufferAttribute(sizes, 1));
 
      const plane = new THREE.Points(geometry, shaderMaterial);
 
      plane.position.y = -8;
      scene.add(plane);
    }
 
    function addListners(camera, renderer, composer) {
      document.addEventListener("keydown", e => {
        const { x, y, z } = camera.position;
        console.log(`camera.position.set(${x},${y},${z})`);
        const { x: a, y: b, z: c } = camera.rotation;
        console.log(`camera.rotation.set(${a},${b},${c})`);
      });
 
      window.addEventListener(
        "resize",
        () => {
          const width = window.innerWidth;
          const height = window.innerHeight;
 
          camera.aspect = width / height;
          camera.updateProjectionMatrix();
 
          renderer.setSize(width, height);
          composer.setSize(width, height);
        },
        false);
 
    }
  </script>
 
</body>
 
</html>

2.效果图

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