threejs/manual/examples/custom-buffergeometry-cube-indexed.html

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    <title>Three.js - Custom BufferGeometry - Indexed</title>
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    html, body {
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        margin: 0;
    }
    #c {
        width: 100%;
        height: 100%;
        display: block;
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  <body>
    <canvas id="c"></canvas>
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<!-- Import maps polyfill -->
<!-- Remove this when import maps will be widely supported -->
<script async src="https://unpkg.com/es-module-shims@1.3.6/dist/es-module-shims.js"></script>

<script type="importmap">
{
  "imports": {
    "three": "../../build/three.module.js"
  }
}
</script>

<script type="module">
import * as THREE from 'three';

function main() {
  const canvas = document.querySelector('#c');
  const renderer = new THREE.WebGLRenderer({canvas});

  const fov = 75;
  const aspect = 2;  // the canvas default
  const near = 0.1;
  const far = 100;
  const camera = new THREE.PerspectiveCamera(fov, aspect, near, far);
  camera.position.z = 5;

  const scene = new THREE.Scene();

  {
    const color = 0xFFFFFF;
    const intensity = 1;
    const light = new THREE.DirectionalLight(color, intensity);
    light.position.set(-1, 2, 4);
    scene.add(light);
  }

  // NOT A GOOD EXAMPLE OF HOW TO MAKE A CUBE!
  // Only trying to make it clear most vertices are unique
  const vertices = [
    // front
    { pos: [-1, -1,  1], norm: [ 0,  0,  1], uv: [0, 0], }, // 0
    { pos: [ 1, -1,  1], norm: [ 0,  0,  1], uv: [1, 0], }, // 1
    { pos: [-1,  1,  1], norm: [ 0,  0,  1], uv: [0, 1], }, // 2
    { pos: [ 1,  1,  1], norm: [ 0,  0,  1], uv: [1, 1], }, // 3
    // right
    { pos: [ 1, -1,  1], norm: [ 1,  0,  0], uv: [0, 0], }, // 4
    { pos: [ 1, -1, -1], norm: [ 1,  0,  0], uv: [1, 0], }, // 5
    { pos: [ 1,  1,  1], norm: [ 1,  0,  0], uv: [0, 1], }, // 6
    { pos: [ 1,  1, -1], norm: [ 1,  0,  0], uv: [1, 1], }, // 7
    // back
    { pos: [ 1, -1, -1], norm: [ 0,  0, -1], uv: [0, 0], }, // 8
    { pos: [-1, -1, -1], norm: [ 0,  0, -1], uv: [1, 0], }, // 9
    { pos: [ 1,  1, -1], norm: [ 0,  0, -1], uv: [0, 1], }, // 10
    { pos: [-1,  1, -1], norm: [ 0,  0, -1], uv: [1, 1], }, // 11
    // left
    { pos: [-1, -1, -1], norm: [-1,  0,  0], uv: [0, 0], }, // 12
    { pos: [-1, -1,  1], norm: [-1,  0,  0], uv: [1, 0], }, // 13
    { pos: [-1,  1, -1], norm: [-1,  0,  0], uv: [0, 1], }, // 14
    { pos: [-1,  1,  1], norm: [-1,  0,  0], uv: [1, 1], }, // 15
    // top
    { pos: [ 1,  1, -1], norm: [ 0,  1,  0], uv: [0, 0], }, // 16
    { pos: [-1,  1, -1], norm: [ 0,  1,  0], uv: [1, 0], }, // 17
    { pos: [ 1,  1,  1], norm: [ 0,  1,  0], uv: [0, 1], }, // 18
    { pos: [-1,  1,  1], norm: [ 0,  1,  0], uv: [1, 1], }, // 19
    // bottom
    { pos: [ 1, -1,  1], norm: [ 0, -1,  0], uv: [0, 0], }, // 20
    { pos: [-1, -1,  1], norm: [ 0, -1,  0], uv: [1, 0], }, // 21
    { pos: [ 1, -1, -1], norm: [ 0, -1,  0], uv: [0, 1], }, // 22
    { pos: [-1, -1, -1], norm: [ 0, -1,  0], uv: [1, 1], }, // 23
  ];
  const positions = [];
  const normals = [];
  const uvs = [];
  for (const vertex of vertices) {
    positions.push(...vertex.pos);
    normals.push(...vertex.norm);
    uvs.push(...vertex.uv);
  }

  const geometry = new THREE.BufferGeometry();
  const positionNumComponents = 3;
  const normalNumComponents = 3;
  const uvNumComponents = 2;
  geometry.setAttribute(
      'position',
      new THREE.BufferAttribute(new Float32Array(positions), positionNumComponents));
  geometry.setAttribute(
      'normal',
      new THREE.BufferAttribute(new Float32Array(normals), normalNumComponents));
  geometry.setAttribute(
      'uv',
      new THREE.BufferAttribute(new Float32Array(uvs), uvNumComponents));

  geometry.setIndex([
     0,  1,  2,   2,  1,  3,
     4,  5,  6,   6,  5,  7,
     8,  9, 10,  10,  9, 11,
    12, 13, 14,  14, 13, 15,
    16, 17, 18,  18, 17, 19,
    20, 21, 22,  22, 21, 23,
  ]);

  const loader = new THREE.TextureLoader();
  const texture = loader.load('resources/images/star.png');

  function makeInstance(geometry, color, x) {
    const material = new THREE.MeshPhongMaterial({color, map: texture});

    const cube = new THREE.Mesh(geometry, material);
    scene.add(cube);

    cube.position.x = x;
    return cube;
  }

  const cubes = [
    makeInstance(geometry, 0x88FF88,  0),
    makeInstance(geometry, 0x8888FF, -4),
    makeInstance(geometry, 0xFF8888,  4),
  ];

  function resizeRendererToDisplaySize(renderer) {
    const canvas = renderer.domElement;
    const width = canvas.clientWidth;
    const height = canvas.clientHeight;
    const needResize = canvas.width !== width || canvas.height !== height;
    if (needResize) {
      renderer.setSize(width, height, false);
    }
    return needResize;
  }

  function render(time) {
    time *= 0.001;

    if (resizeRendererToDisplaySize(renderer)) {
      const canvas = renderer.domElement;
      camera.aspect = canvas.clientWidth / canvas.clientHeight;
      camera.updateProjectionMatrix();
    }

    cubes.forEach((cube, ndx) => {
      const speed = 1 + ndx * .1;
      const rot = time * speed;
      cube.rotation.x = rot;
      cube.rotation.y = rot;
    });

    renderer.render(scene, camera);

    requestAnimationFrame(render);
  }

  requestAnimationFrame(render);
}

main();
</script>
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