twgl.js/examples/zoom-around.html

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    <title>twgl.js - zoom around</title>
    <style>
      html, body {
          margin: 0;
          font-family: monospace;
          height: 100%;
      }
      canvas {
          display: block;
          width: 100%;
          height: 100%;
      }
      #b {
        position: absolute;
        top: 10px;
        width: 100%;
        text-align: center;
        z-index: 2;
      }
    </style>
  </head>
  <body>
    <canvas id="c"></canvas>
    <div id="b"><a href="http://twgljs.org">twgl.js</a> - zoom around</div>
  </body>
  <script id="vs" type="notjs">
uniform mat4 u_worldViewProjection;
uniform vec3 u_lightWorldPos;
uniform mat4 u_world;
uniform mat4 u_viewInverse;
uniform mat4 u_worldInverseTranspose;

attribute vec4 a_position;
attribute vec3 a_normal;
attribute vec2 a_texcoord;

varying vec4 v_position;
varying vec2 v_texCoord;
varying vec3 v_normal;
varying vec3 v_surfaceToLight;
varying vec3 v_surfaceToView;

void main() {
  v_texCoord = a_texcoord;
  v_position = (u_worldViewProjection * a_position);
  v_normal = (u_worldInverseTranspose * vec4(a_normal, 0)).xyz;
  v_surfaceToLight = u_lightWorldPos - (u_world * a_position).xyz;
  v_surfaceToView = (u_viewInverse[3] - (u_world * a_position)).xyz;
  gl_Position = v_position;
}
  </script>
  <script id="fs" type="notjs">
precision mediump float;

varying vec4 v_position;
varying vec2 v_texCoord;
varying vec3 v_normal;
varying vec3 v_surfaceToLight;
varying vec3 v_surfaceToView;

uniform vec4 u_lightColor;
uniform vec4 u_diffuseMult;
uniform sampler2D u_diffuse;
uniform vec4 u_specular;
uniform float u_shininess;
uniform float u_specularFactor;

vec4 lit(float l ,float h, float m) {
  return vec4(1.0,
              abs(l),//max(l, 0.0),
              (l > 0.0) ? pow(max(0.0, h), m) : 0.0,
              1.0);
}

void main() {
  vec4 diffuseColor = texture2D(u_diffuse, v_texCoord) * u_diffuseMult;
  vec3 a_normal = normalize(v_normal);
  vec3 surfaceToLight = normalize(v_surfaceToLight);
  vec3 surfaceToView = normalize(v_surfaceToView);
  vec3 halfVector = normalize(surfaceToLight + surfaceToView);
  vec4 litR = lit(dot(a_normal, surfaceToLight),
                    dot(a_normal, halfVector), u_shininess);
  vec4 outColor = vec4((
  u_lightColor * (diffuseColor * litR.y +
                u_specular * litR.z * u_specularFactor)).rgb,
      diffuseColor.a);
  gl_FragColor = outColor;
}
  </script>
  <script src="../3rdparty/chroma.min.js"></script>
  <script type="module">
    import * as twgl from '../dist/7.x/twgl-full.module.js';
    twgl.setDefaults({attribPrefix: "a_"});
    const m4 = twgl.m4;
    const v3 = twgl.v3;
    const gl = document.querySelector("#c").getContext("webgl");
    const programInfo = twgl.createProgramInfo(gl, ["vs", "fs"]);

    const shapes = [
      twgl.primitives.createCubeBufferInfo(gl, 2),
      twgl.primitives.createSphereBufferInfo(gl, 1, 24, 12),
      twgl.primitives.createTruncatedConeBufferInfo(gl, 1, 0, 2, 24, 1),
    ];

    function rand(min, max) {
      return min + Math.random() * (max - min);
    }

    function easeInOut(t, start, end) {
      const c = end - start;
      if ((t /= 0.5) < 1) {
        return c / 2 * t * t + start;
      } else {
        return -c / 2 * ((--t) * (t - 2) - 1) + start;
      }
    }

    // Shared values
    const lightWorldPosition = [1, 8, -10];
    const lightColor = [1, 1, 1, 1];
    const camera = m4.identity();
    const view = m4.identity();
    const viewProjection = m4.identity();
    let targetNdx = 0;
    let targetTimer = 0;
    let zoomTimer = 0;
    let eye = v3.copy([1, 4, -60]);
    let target = v3.copy([0, 0, 0]);
    const up = [0, 1, 0];
    const zoomScale = 1.4;
    const zoomDuration = 2;
    const targetChangeInterval = 3;
    let oldEye;
    let oldTarget;
    let newEye;
    let newTarget;

    const tex = twgl.createTexture(gl, {
      min: gl.NEAREST,
      mag: gl.NEAREST,
      src: [
        255, 255, 255, 255,
        192, 192, 192, 255,
        192, 192, 192, 255,
        255, 255, 255, 255,
      ],
    });

    const objects = [];
    const drawObjects = [];
    const numObjects = 100;
    const baseHue = rand(0, 360);
    for (let ii = 0; ii < numObjects; ++ii) {
      const uniforms = {
        u_lightWorldPos: lightWorldPosition,
        u_lightColor: lightColor,
        u_diffuseMult: chroma.hsv((baseHue + rand(0, 60)) % 360, 0.4, 0.8).gl(),
        u_specular: [1, 1, 1, 1],
        u_shininess: 50,
        u_specularFactor: 1,
        u_diffuse: tex,
        u_viewInverse: camera,
        u_world: m4.identity(),
        u_worldInverseTranspose: m4.identity(),
        u_worldViewProjection: m4.identity(),
      };
      drawObjects.push({
        programInfo: programInfo,
        bufferInfo: shapes[ii % shapes.length],
        uniforms: uniforms,
      });
      objects.push({
        translation: [rand(-50, 50), rand(-50, 50), rand(-50, 50)],
        scale: rand(1, 5),
        size: 2,
        xSpeed: rand(0.2, 0.7),
        zSpeed: rand(0.2, 0.7),
        uniforms: uniforms,
      });
    }

    let then = 0;

    function render(time) {
      time *= 0.001;
      const elapsed = time - then;
      then = time;

      twgl.resizeCanvasToDisplaySize(gl.canvas);
      gl.viewport(0, 0, gl.canvas.width, gl.canvas.height);

      gl.enable(gl.DEPTH_TEST);
      gl.enable(gl.CULL_FACE);
      gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT);

      const fovy = 30 * Math.PI / 180;
      const projection = m4.perspective(fovy, gl.canvas.clientWidth / gl.canvas.clientHeight, 0.5, 200);

      targetTimer -= elapsed;
      if (targetTimer <= 0) {
        targetTimer = targetChangeInterval;
        zoomTimer = 0;
        targetNdx = (targetNdx + 1) % objects.length;
        oldEye = v3.copy(eye);
        oldTarget = v3.copy(target);
        const targetObj = objects[targetNdx];
        newTarget = targetObj.translation;
        const halfSize = targetObj.size * targetObj.scale * zoomScale * 0.5;
        const distance = halfSize / Math.tan(fovy * 0.5);
        const direction = v3.normalize(v3.subtract(eye, newTarget));
        newEye = v3.add(newTarget, v3.mulScalar(direction, distance));
      }

      zoomTimer += elapsed;
      const lerp = easeInOut(Math.min(1, zoomTimer / zoomDuration), 0, 1);
      eye = v3.lerp(oldEye, newEye, lerp);
      target = v3.lerp(oldTarget, newTarget, lerp);

      m4.lookAt(eye, target, up, camera);
      m4.inverse(camera, view);
      m4.multiply(projection, view, viewProjection);

      objects.forEach(function(obj) {
        const uni = obj.uniforms;
        const world = uni.u_world;
        m4.identity(world);
        m4.translate(world, obj.translation, world);
        m4.rotateX(world, time * obj.xSpeed, world);
        m4.rotateZ(world, time * obj.zSpeed, world);
        m4.scale(world, [obj.scale, obj.scale, obj.scale], world);
        m4.transpose(m4.inverse(world, uni.u_worldInverseTranspose), uni.u_worldInverseTranspose);
        m4.multiply(viewProjection, uni.u_world, uni.u_worldViewProjection);
      });

      twgl.drawObjectList(gl, drawObjects);

      requestAnimationFrame(render);
    }
    requestAnimationFrame(render);

  </script>
</html>