file6.js

"use strict";

var vertexShaderSource = `#version 300 es

// an attribute is an input (in) to a vertex shader.
// It will receive data from a buffer
in vec4 a_position;
in vec4 a_color;

// A matrix to transform the positions by
uniform mat4 u_matrix;

// a varying the color to the fragment shader
out vec4 v_color;

// all shaders have a main function
void main() {
  // Multiply the position by the matrix.
  gl_Position = u_matrix * a_position;

  // Pass the color to the fragment shader.
  v_color = a_color;
}
`;

var fragmentShaderSource = `#version 300 es

precision highp float;

// the varied color passed from the vertex shader
in vec4 v_color;

// we need to declare an output for the fragment shader
out vec4 outColor;

void main() {
  outColor = v_color;
}
`;


function main() {
  // Get A WebGL context
  /** @type {HTMLCanvasElement} */
  var canvas = document.querySelector("#c");
  var gl = canvas.getContext("webgl2");
  if (!gl) {
    return;
  }

  // Use our boilerplate utils to compile the shaders and link into a program
  var program = webglUtils.createProgramFromSources(gl,
      [vertexShaderSource, fragmentShaderSource]);

  // look up where the vertex data needs to go.
  var positionAttributeLocation = gl.getAttribLocation(program, "a_position");
  var colorAttributeLocation = gl.getAttribLocation(program, "a_color");

  // look up uniform locations
  var matrixLocation = gl.getUniformLocation(program, "u_matrix");

  // Create a buffer
  var positionBuffer = gl.createBuffer();

  // Create a vertex array object (attribute state)
  var vao = gl.createVertexArray();

  // and make it the one we're currently working with
  gl.bindVertexArray(vao);

  // Turn on the attribute
  gl.enableVertexAttribArray(positionAttributeLocation);

  // Bind it to ARRAY_BUFFER (think of it as ARRAY_BUFFER = positionBuffer)
  gl.bindBuffer(gl.ARRAY_BUFFER, positionBuffer);
  // Set Geometry.
  setGeometry(gl);

  // Tell the attribute how to get data out of positionBuffer (ARRAY_BUFFER)
  var size = 3;          // 3 components per iteration
  var type = gl.FLOAT;   // the data is 32bit floats
  var normalize = false; // don't normalize the data
  var stride = 0;        // 0 = move forward size * sizeof(type) each iteration to get the next position
  var offset = 0;        // start at the beginning of the buffer
  gl.vertexAttribPointer(
      positionAttributeLocation, size, type, normalize, stride, offset);

  // create the color buffer, make it the current ARRAY_BUFFER
  // and copy in the color values
  var colorBuffer = gl.createBuffer();
  gl.bindBuffer(gl.ARRAY_BUFFER, colorBuffer);
  setColors(gl);

  // Turn on the attribute
  gl.enableVertexAttribArray(colorAttributeLocation);

  // Tell the attribute how to get data out of colorBuffer (ARRAY_BUFFER)
  var size = 3;          // 3 components per iteration
  var type = gl.UNSIGNED_BYTE;   // the data is 8bit unsigned bytes
  var normalize = true;  // convert from 0-255 to 0.0-1.0
  var stride = 0;        // 0 = move forward size * sizeof(type) each iteration to get the next color
  var offset = 0;        // start at the beginning of the buffer
  gl.vertexAttribPointer(
      colorAttributeLocation, size, type, normalize, stride, offset);


  function radToDeg(r) {
    return r * 180 / Math.PI;
  }

  function degToRad(d) {
    return d * Math.PI / 180;
  }

  // First let's make some variables
  // to hold the translation,
  var translation = [-150, 0, -360];
  var rotation = [degToRad(190), degToRad(40), degToRad(30)];
  var scale = [1, 1, 1];
  var fieldOfViewRadians = degToRad(60);

  drawScene();

  // Setup a ui.
  webglLessonsUI.setupSlider("#fieldOfView", {value: radToDeg(fieldOfViewRadians), slide: updateFieldOfView, min: 1, max:179 });
  webglLessonsUI.setupSlider("#x",      {value: translation[0], slide: updatePosition(0), min: -200, max: 200 });
  webglLessonsUI.setupSlider("#y",      {value: translation[1], slide: updatePosition(1), min: -200, max: 200 });
  webglLessonsUI.setupSlider("#z",      {value: translation[2], slide: updatePosition(2), min: -1000, max: 0 });
  webglLessonsUI.setupSlider("#angleX", {value: radToDeg(rotation[0]), slide: updateRotation(0), max: 360});
  webglLessonsUI.setupSlider("#angleY", {value: radToDeg(rotation[1]), slide: updateRotation(1), max: 360});
  webglLessonsUI.setupSlider("#angleZ", {value: radToDeg(rotation[2]), slide: updateRotation(2), max: 360});
  webglLessonsUI.setupSlider("#scaleX", {value: scale[0], slide: updateScale(0), min: -5, max: 5, step: 0.01, precision: 2});
  webglLessonsUI.setupSlider("#scaleY", {value: scale[1], slide: updateScale(1), min: -5, max: 5, step: 0.01, precision: 2});
  webglLessonsUI.setupSlider("#scaleZ", {value: scale[2], slide: updateScale(2), min: -5, max: 5, step: 0.01, precision: 2});

  function updateFieldOfView(event, ui) {
    fieldOfViewRadians = degToRad(ui.value);
    drawScene();
  }

  function updatePosition(index) {
    return function(event, ui) {
      translation[index] = ui.value;
      drawScene();
    };
  }

  function updateRotation(index) {
    return function(event, ui) {
      var angleInDegrees = ui.value;
      var angleInRadians = degToRad(angleInDegrees);
      rotation[index] = angleInRadians;
      drawScene();
    };
  }

  function updateScale(index) {
    return function(event, ui) {
      scale[index] = ui.value;
      drawScene();
    };
  }

  // Draw the scene.
  function drawScene() {
    webglUtils.resizeCanvasToDisplaySize(gl.canvas);

    // Tell WebGL how to convert from clip space to pixels
    gl.viewport(0, 0, gl.canvas.width, gl.canvas.height);

    // Clear the canvas
    gl.clearColor(0, 0, 0, 0);
    gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT);

    // turn on depth testing
    gl.enable(gl.DEPTH_TEST);

    // tell webgl to cull faces
    gl.enable(gl.CULL_FACE);

    // Tell it to use our program (pair of shaders)
    gl.useProgram(program);

    // Bind the attribute/buffer set we want.
    gl.bindVertexArray(vao);

    // Compute the matrix
    var aspect = gl.canvas.clientWidth / gl.canvas.clientHeight;
    var zNear = 1;
    var zFar = 2000;
    var matrix = m4.perspective(fieldOfViewRadians, aspect, zNear, zFar);
    matrix = m4.translate(matrix, translation[0], translation[1], translation[2]);
    matrix = m4.xRotate(matrix, rotation[0]);
    matrix = m4.yRotate(matrix, rotation[1]);
    matrix = m4.zRotate(matrix, rotation[2]);
    matrix = m4.scale(matrix, scale[0], scale[1], scale[2]);

    // Set the matrix.
    gl.uniformMatrix4fv(matrixLocation, false, matrix);

    // Draw the geometry.
    var primitiveType = gl.TRIANGLES;
    var offset = 0;
    var count = 16 * 6;
    gl.drawArrays(primitiveType, offset, count);
  }
}

// Fill the current ARRAY_BUFFER buffer
// with the values that define a letter 'F'.
function setGeometry(gl) {
  gl.bufferData(
      gl.ARRAY_BUFFER,
      new Float32Array([
          // left column front
          0,   0,  0,
          0, 150,  0,
          30,   0,  0,
          0, 150,  0,
          30, 150,  0,
          30,   0,  0,

          // top rung front
          30,   0,  0,
          30,  30,  0,
          100,   0,  0,
          30,  30,  0,
          100,  30,  0,
          100,   0,  0,

          // middle rung front
          30,  60,  0,
          30,  90,  0,
          67,  60,  0,
          30,  90,  0,
          67,  90,  0,
          67,  60,  0,

          // left column back
            0,   0,  30,
           30,   0,  30,
            0, 150,  30,
            0, 150,  30,
           30,   0,  30,
           30, 150,  30,

          // top rung back
           30,   0,  30,
          100,   0,  30,
           30,  30,  30,
           30,  30,  30,
          100,   0,  30,
          100,  30,  30,

          // middle rung back
           30,  60,  30,
           67,  60,  30,
           30,  90,  30,
           30,  90,  30,
           67,  60,  30,
           67,  90,  30,

          // top
            0,   0,   0,
          100,   0,   0,
          100,   0,  30,
            0,   0,   0,
          100,   0,  30,
            0,   0,  30,

          // top rung right
          100,   0,   0,
          100,  30,   0,
          100,  30,  30,
          100,   0,   0,
          100,  30,  30,
          100,   0,  30,

          // under top rung
          30,   30,   0,
          30,   30,  30,
          100,  30,  30,
          30,   30,   0,
          100,  30,  30,
          100,  30,   0,

          // between top rung and middle
          30,   30,   0,
          30,   60,  30,
          30,   30,  30,
          30,   30,   0,
          30,   60,   0,
          30,   60,  30,

          // top of middle rung
          30,   60,   0,
          67,   60,  30,
          30,   60,  30,
          30,   60,   0,
          67,   60,   0,
          67,   60,  30,

          // right of middle rung
          67,   60,   0,
          67,   90,  30,
          67,   60,  30,
          67,   60,   0,
          67,   90,   0,
          67,   90,  30,

          // bottom of middle rung.
          30,   90,   0,
          30,   90,  30,
          67,   90,  30,
          30,   90,   0,
          67,   90,  30,
          67,   90,   0,

          // right of bottom
          30,   90,   0,
          30,  150,  30,
          30,   90,  30,
          30,   90,   0,
          30,  150,   0,
          30,  150,  30,

          // bottom
          0,   150,   0,
          0,   150,  30,
          30,  150,  30,
          0,   150,   0,
          30,  150,  30,
          30,  150,   0,

          // left side
          0,   0,   0,
          0,   0,  30,
          0, 150,  30,
          0,   0,   0,
          0, 150,  30,
          0, 150,   0,
      ]),
      gl.STATIC_DRAW);
}

// Fill the current ARRAY_BUFFER buffer with colors for the 'F'.
function setColors(gl) {
  gl.bufferData(
      gl.ARRAY_BUFFER,
      new Uint8Array([
          // left column front
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,

          // top rung front
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,

          // middle rung front
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,
        200,  70, 120,

          // left column back
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,

          // top rung back
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,

          // middle rung back
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,
        80, 70, 200,

          // top
        70, 200, 210,
        70, 200, 210,
        70, 200, 210,
        70, 200, 210,
        70, 200, 210,
        70, 200, 210,

          // top rung right
        200, 200, 70,
        200, 200, 70,
        200, 200, 70,
        200, 200, 70,
        200, 200, 70,
        200, 200, 70,

          // under top rung
        210, 100, 70,
        210, 100, 70,
        210, 100, 70,
        210, 100, 70,
        210, 100, 70,
        210, 100, 70,

          // between top rung and middle
        210, 160, 70,
        210, 160, 70,
        210, 160, 70,
        210, 160, 70,
        210, 160, 70,
        210, 160, 70,

          // top of middle rung
        70, 180, 210,
        70, 180, 210,
        70, 180, 210,
        70, 180, 210,
        70, 180, 210,
        70, 180, 210,

          // right of middle rung
        100, 70, 210,
        100, 70, 210,
        100, 70, 210,
        100, 70, 210,
        100, 70, 210,
        100, 70, 210,

          // bottom of middle rung.
        76, 210, 100,
        76, 210, 100,
        76, 210, 100,
        76, 210, 100,
        76, 210, 100,
        76, 210, 100,

          // right of bottom
        140, 210, 80,
        140, 210, 80,
        140, 210, 80,
        140, 210, 80,
        140, 210, 80,
        140, 210, 80,

          // bottom
        90, 130, 110,
        90, 130, 110,
        90, 130, 110,
        90, 130, 110,
        90, 130, 110,
        90, 130, 110,

          // left side
        160, 160, 220,
        160, 160, 220,
        160, 160, 220,
        160, 160, 220,
        160, 160, 220,
        160, 160, 220,
      ]),
      gl.STATIC_DRAW);
}



var m4 = {

  perspective: function(fieldOfViewInRadians, aspect, near, far) {
    var f = Math.tan(Math.PI * 0.5 - 0.5 * fieldOfViewInRadians);
    var rangeInv = 1.0 / (near - far);

    return [
      f / aspect, 0, 0, 0,
      0, f, 0, 0,
      0, 0, (near + far) * rangeInv, -1,
      0, 0, near * far * rangeInv * 2, 0,
    ];
  },

  projection: function(width, height, depth) {
    // Note: This matrix flips the Y axis so 0 is at the top.
    return [
       2 / width, 0, 0, 0,
       0, -2 / height, 0, 0,
       0, 0, 2 / depth, 0,
      -1, 1, 0, 1,
    ];
  },

  multiply: function(a, b) {
    var a00 = a[0 * 4 + 0];
    var a01 = a[0 * 4 + 1];
    var a02 = a[0 * 4 + 2];
    var a03 = a[0 * 4 + 3];
    var a10 = a[1 * 4 + 0];
    var a11 = a[1 * 4 + 1];
    var a12 = a[1 * 4 + 2];
    var a13 = a[1 * 4 + 3];
    var a20 = a[2 * 4 + 0];
    var a21 = a[2 * 4 + 1];
    var a22 = a[2 * 4 + 2];
    var a23 = a[2 * 4 + 3];
    var a30 = a[3 * 4 + 0];
    var a31 = a[3 * 4 + 1];
    var a32 = a[3 * 4 + 2];
    var a33 = a[3 * 4 + 3];
    var b00 = b[0 * 4 + 0];
    var b01 = b[0 * 4 + 1];
    var b02 = b[0 * 4 + 2];
    var b03 = b[0 * 4 + 3];
    var b10 = b[1 * 4 + 0];
    var b11 = b[1 * 4 + 1];
    var b12 = b[1 * 4 + 2];
    var b13 = b[1 * 4 + 3];
    var b20 = b[2 * 4 + 0];
    var b21 = b[2 * 4 + 1];
    var b22 = b[2 * 4 + 2];
    var b23 = b[2 * 4 + 3];
    var b30 = b[3 * 4 + 0];
    var b31 = b[3 * 4 + 1];
    var b32 = b[3 * 4 + 2];
    var b33 = b[3 * 4 + 3];
    return [
      b00 * a00 + b01 * a10 + b02 * a20 + b03 * a30,
      b00 * a01 + b01 * a11 + b02 * a21 + b03 * a31,
      b00 * a02 + b01 * a12 + b02 * a22 + b03 * a32,
      b00 * a03 + b01 * a13 + b02 * a23 + b03 * a33,
      b10 * a00 + b11 * a10 + b12 * a20 + b13 * a30,
      b10 * a01 + b11 * a11 + b12 * a21 + b13 * a31,
      b10 * a02 + b11 * a12 + b12 * a22 + b13 * a32,
      b10 * a03 + b11 * a13 + b12 * a23 + b13 * a33,
      b20 * a00 + b21 * a10 + b22 * a20 + b23 * a30,
      b20 * a01 + b21 * a11 + b22 * a21 + b23 * a31,
      b20 * a02 + b21 * a12 + b22 * a22 + b23 * a32,
      b20 * a03 + b21 * a13 + b22 * a23 + b23 * a33,
      b30 * a00 + b31 * a10 + b32 * a20 + b33 * a30,
      b30 * a01 + b31 * a11 + b32 * a21 + b33 * a31,
      b30 * a02 + b31 * a12 + b32 * a22 + b33 * a32,
      b30 * a03 + b31 * a13 + b32 * a23 + b33 * a33,
    ];
  },

  translation: function(tx, ty, tz) {
    return [
       1,  0,  0,  0,
       0,  1,  0,  0,
       0,  0,  1,  0,
       tx, ty, tz, 1,
    ];
  },

  xRotation: function(angleInRadians) {
    var c = Math.cos(angleInRadians);
    var s = Math.sin(angleInRadians);

    return [
      1, 0, 0, 0,
      0, c, s, 0,
      0, -s, c, 0,
      0, 0, 0, 1,
    ];
  },

  yRotation: function(angleInRadians) {
    var c = Math.cos(angleInRadians);
    var s = Math.sin(angleInRadians);

    return [
      c, 0, -s, 0,
      0, 1, 0, 0,
      s, 0, c, 0,
      0, 0, 0, 1,
    ];
  },

  zRotation: function(angleInRadians) {
    var c = Math.cos(angleInRadians);
    var s = Math.sin(angleInRadians);

    return [
       c, s, 0, 0,
      -s, c, 0, 0,
       0, 0, 1, 0,
       0, 0, 0, 1,
    ];
  },

  scaling: function(sx, sy, sz) {
    return [
      sx, 0,  0,  0,
      0, sy,  0,  0,
      0,  0, sz,  0,
      0,  0,  0,  1,
    ];
  },

  translate: function(m, tx, ty, tz) {
    return m4.multiply(m, m4.translation(tx, ty, tz));
  },

  xRotate: function(m, angleInRadians) {
    return m4.multiply(m, m4.xRotation(angleInRadians));
  },

  yRotate: function(m, angleInRadians) {
    return m4.multiply(m, m4.yRotation(angleInRadians));
  },

  zRotate: function(m, angleInRadians) {
    return m4.multiply(m, m4.zRotation(angleInRadians));
  },

  scale: function(m, sx, sy, sz) {
    return m4.multiply(m, m4.scaling(sx, sy, sz));
  },

};

main();