302 lines
8.0 KiB
JavaScript
302 lines
8.0 KiB
JavaScript
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var squareRotation = 0.0;
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//main();
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window.addEventListener("load", main);
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//
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// Start here
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//
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function main() {
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const canvas = document.querySelector('#canvas');
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const gl = canvas.getContext('webgl');
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// If we don't have a GL context, give up now
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if (!gl) {
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alert('Unable to initialize WebGL. Your browser or machine may not support it.');
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return;
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}
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// Vertex shader program
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const vsSource = `
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attribute vec4 aVertexPosition;
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attribute vec4 aVertexColor;
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uniform mat4 uModelViewMatrix;
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uniform mat4 uProjectionMatrix;
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varying lowp vec4 vColor;
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void main(void) {
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gl_Position = uProjectionMatrix * uModelViewMatrix * aVertexPosition;
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vColor = aVertexColor;
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}
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`;
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// Fragment shader program
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const fsSource = `
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varying lowp vec4 vColor;
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void main(void) {
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gl_FragColor = vColor;
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}
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`;
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// Initialize a shader program; this is where all the lighting
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// for the vertices and so forth is established.
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const shaderProgram = initShaderProgram(gl, vsSource, fsSource);
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// Collect all the info needed to use the shader program.
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// Look up which attributes our shader program is using
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// for aVertexPosition, aVevrtexColor and also
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// look up uniform locations.
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const programInfo = {
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program: shaderProgram,
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attribLocations: {
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vertexPosition: gl.getAttribLocation(shaderProgram, 'aVertexPosition'),
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vertexColor: gl.getAttribLocation(shaderProgram, 'aVertexColor'),
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},
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uniformLocations: {
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projectionMatrix: gl.getUniformLocation(shaderProgram, 'uProjectionMatrix'),
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modelViewMatrix: gl.getUniformLocation(shaderProgram, 'uModelViewMatrix'),
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},
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};
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// Here's where we call the routine that builds all the
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// objects we'll be drawing.
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const buffers = initBuffers(gl);
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var then = 0;
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// Draw the scene repeatedly
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function render(now) {
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now *= 0.001; // convert to seconds
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const deltaTime = now - then;
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then = now;
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drawScene(gl, programInfo, buffers, deltaTime);
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requestAnimationFrame(render);
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}
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requestAnimationFrame(render);
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}
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//
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// initBuffers
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//
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// Initialize the buffers we'll need. For this demo, we just
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// have one object -- a simple two-dimensional square.
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//
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function initBuffers(gl) {
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// Create a buffer for the square's positions.
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const positionBuffer = gl.createBuffer();
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// Select the positionBuffer as the one to apply buffer
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// operations to from here out.
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gl.bindBuffer(gl.ARRAY_BUFFER, positionBuffer);
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// Now create an array of positions for the square.
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const positions = [
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1.0, 1.0,
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-1.0, 1.0,
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1.0, -1.0,
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-1.0, -1.0,
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];
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// Now pass the list of positions into WebGL to build the
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// shape. We do this by creating a Float32Array from the
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// JavaScript array, then use it to fill the current buffer.
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gl.bufferData(gl.ARRAY_BUFFER, new Float32Array(positions), gl.STATIC_DRAW);
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// Now set up the colors for the vertices
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const colors = [
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1.0, 0.5, 1.0, 1.0, // white
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1.0, 0.6, 1.0, 1.0, // red
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1.0, 0.7, 1.0, 1.0, // green
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1.0, 0.3, 1.0, 1.0, // blue
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];
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const colorBuffer = gl.createBuffer();
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gl.bindBuffer(gl.ARRAY_BUFFER, colorBuffer);
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gl.bufferData(gl.ARRAY_BUFFER, new Float32Array(colors), gl.STATIC_DRAW);
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return {
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position: positionBuffer,
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color: colorBuffer,
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};
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}
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//
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// Draw the scene.
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//
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function drawScene(gl, programInfo, buffers, deltaTime) {
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gl.clearColor(0.0, 0.0, 0.0, 1.0); // Clear to black, fully opaque
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gl.clearDepth(1.0); // Clear everything
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gl.enable(gl.DEPTH_TEST); // Enable depth testing
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gl.depthFunc(gl.LEQUAL); // Near things obscure far things
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// Clear the canvas before we start drawing on it.
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gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT);
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// Create a perspective matrix, a special matrix that is
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// used to simulate the distortion of perspective in a camera.
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// Our field of view is 45 degrees, with a width/height
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// ratio that matches the display size of the canvas
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// and we only want to see objects between 0.1 units
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// and 100 units away from the camera.
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const fieldOfView = 45 * Math.PI / 180; // in radians
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const aspect = gl.canvas.clientWidth / gl.canvas.clientHeight;
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const zNear = 0.1;
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const zFar = 100.0;
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const projectionMatrix = mat4.create();
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// note: glmatrix.js always has the first argument
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// as the destination to receive the result.
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mat4.perspective(projectionMatrix,
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fieldOfView,
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aspect,
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zNear,
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zFar);
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// Set the drawing position to the "identity" point, which is
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// the center of the scene.
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const modelViewMatrix = mat4.create();
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// Now move the drawing position a bit to where we want to
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// start drawing the square.
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mat4.translate(modelViewMatrix, // destination matrix
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modelViewMatrix, // matrix to translate
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[-0.0, 0.0, -6.0]); // amount to translate
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mat4.rotate(modelViewMatrix, // destination matrix
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modelViewMatrix, // matrix to rotate
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squareRotation, // amount to rotate in radians
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[0, 0, 1]); // axis to rotate around
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// Tell WebGL how to pull out the positions from the position
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// buffer into the vertexPosition attribute
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{
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const numComponents = 2;
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const type = gl.FLOAT;
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const normalize = false;
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const stride = 0;
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const offset = 0;
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gl.bindBuffer(gl.ARRAY_BUFFER, buffers.position);
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gl.vertexAttribPointer(
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programInfo.attribLocations.vertexPosition,
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numComponents,
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type,
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normalize,
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stride,
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offset);
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gl.enableVertexAttribArray(
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programInfo.attribLocations.vertexPosition);
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}
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// Tell WebGL how to pull out the colors from the color buffer
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// into the vertexColor attribute.
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{
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const numComponents = 4;
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const type = gl.FLOAT;
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const normalize = false;
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const stride = 0;
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const offset = 0;
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gl.bindBuffer(gl.ARRAY_BUFFER, buffers.color);
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gl.vertexAttribPointer(
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programInfo.attribLocations.vertexColor,
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numComponents,
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type,
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normalize,
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stride,
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offset);
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gl.enableVertexAttribArray(
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programInfo.attribLocations.vertexColor);
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}
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// Tell WebGL to use our program when drawing
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gl.useProgram(programInfo.program);
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// Set the shader uniforms
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gl.uniformMatrix4fv(
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programInfo.uniformLocations.projectionMatrix,
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false,
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projectionMatrix);
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gl.uniformMatrix4fv(
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programInfo.uniformLocations.modelViewMatrix,
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false,
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modelViewMatrix);
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{
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const offset = 0;
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const vertexCount = 4;
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gl.drawArrays(gl.TRIANGLE_STRIP, offset, vertexCount);
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}
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// Update the rotation for the next draw
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squareRotation += deltaTime;
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}
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//
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// Initialize a shader program, so WebGL knows how to draw our data
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//
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function initShaderProgram(gl, vsSource, fsSource) {
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const vertexShader = loadShader(gl, gl.VERTEX_SHADER, vsSource);
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const fragmentShader = loadShader(gl, gl.FRAGMENT_SHADER, fsSource);
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// Create the shader program
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const shaderProgram = gl.createProgram();
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gl.attachShader(shaderProgram, vertexShader);
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gl.attachShader(shaderProgram, fragmentShader);
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gl.linkProgram(shaderProgram);
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// If creating the shader program failed, alert
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if (!gl.getProgramParameter(shaderProgram, gl.LINK_STATUS)) {
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alert('Unable to initialize the shader program: ' + gl.getProgramInfoLog(shaderProgram));
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return null;
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}
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return shaderProgram;
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}
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//
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// creates a shader of the given type, uploads the source and
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// compiles it.
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//
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function loadShader(gl, type, source) {
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const shader = gl.createShader(type);
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// Send the source to the shader object
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gl.shaderSource(shader, source);
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// Compile the shader program
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gl.compileShader(shader);
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// See if it compiled successfully
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if (!gl.getShaderParameter(shader, gl.COMPILE_STATUS)) {
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alert('An error occurred compiling the shaders: ' + gl.getShaderInfoLog(shader));
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gl.deleteShader(shader);
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return null;
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}
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return shader;
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}
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