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I'm learning WebGL, done that with the help of WebGLFundamentals page, which helped me pretty much to understand how buffers, shaders and all that stuff works. But now I want to achieve a certain effect which I saw here: https://tympanus.net/Tutorials/HeatDistortionEffect/index3.html I know how to make the heat distortion effect, the effect I want to achieve is the DEPTH on the image. This demo has a tutorial but it doesnt really explain how to do it, it says I must have a grayscale map, in which the white parts are the closest ones and the black parts the farest. But I really cant understand how it works, here is my shader's code:

var vertexShaderText = [
     "attribute vec2 a_position;",
     "attribute vec2 a_texCoord;",
     "uniform vec2 u_resolution;",
     "varying vec2 v_texCoord;",
     "void main() {",
     "  vec2 zeroToOne = a_position / u_resolution;",
     "  vec2 zeroToTwo = zeroToOne * 2.0;",
     "  vec2 clipSpace = zeroToTwo - 1.0;",
     "  gl_Position = vec4(clipSpace * vec2(1, -1), 0, 1);",
     "  v_texCoord = a_texCoord;",
     "}"
  ].join("\n")

  var fragShaderText = [
     "precision mediump float;",
     "uniform sampler2D u_image;",
     "uniform sampler2D u_depthMap;",
     "uniform vec2 mouse;",
     "varying vec2 v_texCoord;",
     "void main() {",
     "  float frequency=100.0;",
     "  float amplitude=0.010;",
     "  float distortion=sin(v_texCoord.y*frequency)*amplitude;",
     "  float map=texture2D(u_depthMap,v_texCoord).r;",
     "  vec4 color=texture2D(u_image,vec2(v_texCoord.x+distortion*map, v_texCoord.y));",
     "  gl_FragColor = color;",
     "}"
  ].join("\n")

What I want is when I move the mouse, the image would respond to the shader to distort like in the link I showed above. But I really have no idea on how to do it on the javascript part. Thanks

  • That effect doesn't look like depth on the image it looks more like a blur. Bascially take a blur similar to this but apply it more or less to certain parts. Or are you trying to achieve a different effect? – gman Jun 6 '17 at 0:19
  • Thanks for your response, no, I am trying to achieve a depth-like effect like in the link I have posted, the fragment shader I have posted does the heat distortion, but I need to pass the mouse coords to the shader and load the depth map in order to get the effect. But I dont really know how to do that... – NickyP Jun 6 '17 at 2:27
  • The link you pointed to is not doing anything related to depth. You can use the WebGL Inspector or many other utilites to look at the shaders. All it's doing is mixing between an unblurred image and a pre-blurred image. It uses some ripple calculations and this distortion map to decide where how to mix the blurred image vs the non-blurred image & how too offset the pixels. – gman Jun 6 '17 at 5:51
6
0

Following the image processing tutorials from that same site shows how to load multiple images. The sample you linked to and the tutorial make it pretty clear how it works

First you need the original image

original image

and you then apply a sine wave distortion.

"use strict";

function main() {
  // Get A WebGL context
  /** @type {HTMLCanvasElement} */
  const canvas = document.getElementById("canvas");
  const gl = canvas.getContext("webgl");
  if (!gl) {
    return;
  }

  let originalImage = { width: 1, height: 1 }; // replaced after loading
  const originalTexture = twgl.createTexture(gl, {
    src: "https://i.imgur.com/xKYRSwu.jpg", crossOrigin: '',
  }, (err, texture, source) => {
    originalImage = source;
  });

  // compile shaders, link program, lookup location
  const programInfo = twgl.createProgramInfo(gl, ["vs", "fs"]);

  // calls gl.createBuffer, gl.bindBuffer, gl.bufferData for a quad
  const bufferInfo = twgl.primitives.createXYQuadBufferInfo(gl);

  requestAnimationFrame(render);
  
  function render(time) {
    time *= 0.001;  // seconds
    
    twgl.resizeCanvasToDisplaySize(gl.canvas);

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

    gl.clearColor(0, 0, 0, 0);
    gl.clear(gl.COLOR_BUFFER_BIT);

    gl.useProgram(programInfo.program);

    // calls gl.bindBuffer, gl.enableVertexAttribArray, gl.vertexAttribPointer
    twgl.setBuffersAndAttributes(gl, programInfo, bufferInfo);

    const canvasAspect = gl.canvas.clientWidth / gl.canvas.clientHeight;
    const imageAspect = originalImage.width / originalImage.height;
    const mat = m3.scaling(imageAspect / canvasAspect, -1);
    
    // calls gl.activeTexture, gl.bindTexture, gl.uniformXXX
    twgl.setUniforms(programInfo, {
      u_matrix: mat,
      u_originalImage: originalTexture,
      u_distortionAmount: 0.003,  // .3%
      u_distortionRange: 100,
      u_time: time * 10,
    });

    // calls gl.drawArrays or gl.drawElements
    twgl.drawBufferInfo(gl, bufferInfo);
    
    requestAnimationFrame(render);
  }
}

main();
body { margin: 0; }
canvas { width: 100vw; height: 100vh; display: block; }
<script src="https://twgljs.org/dist/3.x/twgl-full.min.js"></script>
<canvas id="canvas"></canvas>

<!-- vertex shader -->
<script id="vs" type="f">
attribute vec2 position;
attribute vec2 texcoord;

uniform mat3 u_matrix;

varying vec2 v_texcoord;

void main() {
   gl_Position = vec4((u_matrix * vec3(position, 1)).xy, 0, 1);
   v_texcoord = texcoord;
}
</script>
<!-- fragment shader -->
<script id="fs" type="x-shader/x-fragment">
precision mediump float;

uniform float u_time;
uniform float u_distortionAmount;
uniform float u_distortionRange;

// our textures
uniform sampler2D u_originalImage;

// the texcoords passed in from the vertex shader.
varying vec2 v_texcoord;

void main() {
   vec2 distortion = vec2(
      sin(u_time + v_texcoord.y * u_distortionRange), 0) * u_distortionAmount;
   vec4 original = texture2D(u_originalImage, v_texcoord + distortion);
   gl_FragColor = original;
}
</script>
<script src="https://webglfundamentals.org/webgl/resources/m3.js"></script>

Then they also load a texture of multiple maps. This texture was created by hand in photoshop (or other image editing program). The green channel is how much to multiply the distortion by. The greener the more distortion.

"use strict";

function main() {
  // Get A WebGL context
  /** @type {HTMLCanvasElement} */
  const canvas = document.getElementById("canvas");
  const gl = canvas.getContext("webgl");
  if (!gl) {
    return;
  }

  let originalImage = { width: 1, height: 1 }; // replaced after loading
  const originalTexture = twgl.createTexture(gl, {
    src: "https://i.imgur.com/xKYRSwu.jpg", 
    crossOrigin: '',
  }, (err, texture, source) => {
    originalImage = source;
  });
  
  const mapTexture = twgl.createTexture(gl, {
    src: "https://i.imgur.com/W9QazjL.jpg", crossOrigin: '',
  });

  // compile shaders, link program, lookup location
  const programInfo = twgl.createProgramInfo(gl, ["vs", "fs"]);

  // calls gl.createBuffer, gl.bindBuffer, gl.bufferData for a quad
  const bufferInfo = twgl.primitives.createXYQuadBufferInfo(gl);

  requestAnimationFrame(render);
  
  function render(time) {
    time *= 0.001;  // seconds
    
    twgl.resizeCanvasToDisplaySize(gl.canvas);

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

    gl.clearColor(0, 0, 0, 0);
    gl.clear(gl.COLOR_BUFFER_BIT);

    gl.useProgram(programInfo.program);

    // calls gl.bindBuffer, gl.enableVertexAttribArray, gl.vertexAttribPointer
    twgl.setBuffersAndAttributes(gl, programInfo, bufferInfo);

    const canvasAspect = gl.canvas.clientWidth / gl.canvas.clientHeight;
    const imageAspect = originalImage.width / originalImage.height;
    const mat = m3.scaling(imageAspect / canvasAspect, -1);
    
    // calls gl.activeTexture, gl.bindTexture, gl.uniformXXX
    twgl.setUniforms(programInfo, {
      u_matrix: mat,
      u_originalImage: originalTexture,
      u_mapImage: mapTexture,
      u_distortionAmount: 0.003,  // .3%
      u_distortionRange: 100,
      u_time: time * 10,
    });

    // calls gl.drawArrays or gl.drawElements
    twgl.drawBufferInfo(gl, bufferInfo);
    
    requestAnimationFrame(render);
  }
}

main();
body { margin: 0; }
canvas { width: 100vw; height: 100vh; display: block; }
<canvas id="canvas"></canvas>

<script id="vs" type="f">
attribute vec2 position;
attribute vec2 texcoord;

uniform mat3 u_matrix;

varying vec2 v_texcoord;

void main() {
   gl_Position = vec4(u_matrix * vec3(position, 1), 1);
   v_texcoord = texcoord;
}
</script>
<script id="fs" type="f">
precision mediump float;

uniform float u_time;
uniform float u_distortionAmount;
uniform float u_distortionRange;

// our textures
uniform sampler2D u_originalImage;
uniform sampler2D u_mapImage;

// the texcoords passed in from the vertex shader.
varying vec2 v_texcoord;

void main() {
   vec4 depthDistortion = texture2D(u_mapImage, v_texcoord);
   float distortionMult = depthDistortion.g;  // just green channel
   
   vec2 distortion = vec2(
      sin(u_time + v_texcoord.y * u_distortionRange), 0) * u_distortionAmount;
   vec4 color0 = texture2D(u_originalImage, v_texcoord + distortion * distortionMult);
   gl_FragColor = color0;
}
</script>
<script src="https://twgljs.org/dist/3.x/twgl-full.min.js"></script>
<script src="https://webglfundamentals.org/webgl/resources/m3.js"></script>

Next there's an offset for the mouse multplied by another hand drawn map. This map is the red channel of the image above where the more red it is the more the mouse offset is applied. The map kind of represents depth. Since we need stuff in the front to move opposite of stuff in the back we need to convert that channel from 0 to 1 to -.5 to +.5 in the shader

"use strict";

function main() {
  // Get A WebGL context
  /** @type {HTMLCanvasElement} */
  const canvas = document.getElementById("canvas");
  const gl = canvas.getContext("webgl");
  if (!gl) {
    return;
  }

  let originalImage = { width: 1, height: 1 }; // replaced after loading
  const originalTexture = twgl.createTexture(gl, {
    src: "https://i.imgur.com/xKYRSwu.jpg", 
    crossOrigin: '',
  }, (err, texture, source) => {
    originalImage = source;
  });
  
  const mapTexture = twgl.createTexture(gl, {
    src: "https://i.imgur.com/W9QazjL.jpg", crossOrigin: '',
  });

  // compile shaders, link program, lookup location
  const programInfo = twgl.createProgramInfo(gl, ["vs", "fs"]);

  // calls gl.createBuffer, gl.bindBuffer, gl.bufferData for a quad
  const bufferInfo = twgl.primitives.createXYQuadBufferInfo(gl);

  const mouse = [0, 0];
  document.addEventListener('mousemove', (event) => {
    mouse[0] = (event.clientX / gl.canvas.clientWidth  * 2 - 1) * 0.05;
    mouse[1] = (event.clientY / gl.canvas.clientHeight * 2 - 1) * 0.05;
  });
  
  requestAnimationFrame(render);
  
  function render(time) {
    time *= 0.001;  // seconds
    
    twgl.resizeCanvasToDisplaySize(gl.canvas);

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

    gl.clearColor(0, 0, 0, 0);
    gl.clear(gl.COLOR_BUFFER_BIT);

    gl.useProgram(programInfo.program);

    // calls gl.bindBuffer, gl.enableVertexAttribArray, gl.vertexAttribPointer
    twgl.setBuffersAndAttributes(gl, programInfo, bufferInfo);

    const canvasAspect = gl.canvas.clientWidth / gl.canvas.clientHeight;
    const imageAspect = originalImage.width / originalImage.height;
    const mat = m3.scaling(imageAspect / canvasAspect, -1);
    
    // calls gl.activeTexture, gl.bindTexture, gl.uniformXXX
    twgl.setUniforms(programInfo, {
      u_matrix: mat,
      u_originalImage: originalTexture,
      u_mapImage: mapTexture,
      u_distortionAmount: 0.003,  // .3%
      u_distortionRange: 100,
      u_time: time * 10,
      u_mouse: mouse,
    });

    // calls gl.drawArrays or gl.drawElements
    twgl.drawBufferInfo(gl, bufferInfo);
    
    requestAnimationFrame(render);
  }
}

main();
body { margin: 0; }
canvas { width: 100vw; height: 100vh; display: block; }
<canvas id="canvas"></canvas>

<!-- vertex shader -->
<script id="vs" type="f">
attribute vec2 position;
attribute vec2 texcoord;

uniform mat3 u_matrix;

varying vec2 v_texcoord;

void main() {
   gl_Position = vec4(u_matrix * vec3(position, 1), 1);
   v_texcoord = texcoord;
}
</script>
<!-- fragment shader -->
<script id="fs" type="f">
precision mediump float;

uniform float u_time;
uniform float u_distortionAmount;
uniform float u_distortionRange;
uniform vec2 u_mouse;

// our textures
uniform sampler2D u_originalImage;
uniform sampler2D u_mapImage;

// the texcoords passed in from the vertex shader.
varying vec2 v_texcoord;

void main() {
   vec4 depthDistortion = texture2D(u_mapImage, v_texcoord);
   float distortionMult = depthDistortion.g;     // just green channel
   float parallaxMult = 0.5 - depthDistortion.r; // just red channel
   
   vec2 distortion = vec2(
      sin(u_time + v_texcoord.y * u_distortionRange), 0) * u_distortionAmount  * distortionMult;
   vec2 parallax = u_mouse * parallaxMult;
      
   vec4 color0 = texture2D(u_originalImage, v_texcoord + distortion + parallax);
   gl_FragColor = color0;
}
</script>
<script src="https://twgljs.org/dist/3.x/twgl-full.min.js"></script>
<script src="https://webglfundamentals.org/webgl/resources/m3.js"></script>

Finally, (not in the tutorial but in the sample) it loads a blurred version of the original image (blurred in some image editing program like photoshop)

It might be hard to see it's blurred since the blurring is subtle.

The sample then uses the blurred image the more distorted things are

"use strict";

function main() {
  // Get A WebGL context
  /** @type {HTMLCanvasElement} */
  const canvas = document.getElementById("canvas");
  const gl = canvas.getContext("webgl");
  if (!gl) {
    return;
  }

  let originalImage = { width: 1, height: 1 }; // replaced after loading
  const originalTexture = twgl.createTexture(gl, {
    src: "https://i.imgur.com/xKYRSwu.jpg", 
    crossOrigin: '',
  }, (err, texture, source) => {
    originalImage = source;
  });
  
  const mapTexture = twgl.createTexture(gl, {
    src: "https://i.imgur.com/W9QazjL.jpg", crossOrigin: '',
  });
  
  const blurredTexture = twgl.createTexture(gl, {
    src: "https://i.imgur.com/Zw7mMLX.jpg", crossOrigin: '',
  });

  // compile shaders, link program, lookup location
  const programInfo = twgl.createProgramInfo(gl, ["vs", "fs"]);

  // calls gl.createBuffer, gl.bindBuffer, gl.bufferData for a quad
  const bufferInfo = twgl.primitives.createXYQuadBufferInfo(gl);

  const mouse = [0, 0];
  document.addEventListener('mousemove', (event) => {
    mouse[0] = (event.clientX / gl.canvas.clientWidth  * 2 - 1) * 0.05;
    mouse[1] = (event.clientY / gl.canvas.clientHeight * 2 - 1) * 0.05;
  });
  
  requestAnimationFrame(render);
  
  function render(time) {
    time *= 0.001;  // seconds
    
    twgl.resizeCanvasToDisplaySize(gl.canvas);

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

    gl.clearColor(0, 0, 0, 0);
    gl.clear(gl.COLOR_BUFFER_BIT);

    gl.useProgram(programInfo.program);

    // calls gl.bindBuffer, gl.enableVertexAttribArray, gl.vertexAttribPointer
    twgl.setBuffersAndAttributes(gl, programInfo, bufferInfo);

    const canvasAspect = gl.canvas.clientWidth / gl.canvas.clientHeight;
    const imageAspect = originalImage.width / originalImage.height;
    const mat = m3.scaling(imageAspect / canvasAspect, -1);
    
    // calls gl.activeTexture, gl.bindTexture, gl.uniformXXX
    twgl.setUniforms(programInfo, {
      u_matrix: mat,
      u_originalImage: originalTexture,
      u_mapImage: mapTexture,
      u_blurredImage: blurredTexture,
      u_distortionAmount: 0.003,  // .3%
      u_distortionRange: 100,
      u_time: time * 10,
      u_mouse: mouse,
    });

    // calls gl.drawArrays or gl.drawElements
    twgl.drawBufferInfo(gl, bufferInfo);
    
    requestAnimationFrame(render);
  }
}

main();
body { margin: 0; }
canvas { width: 100vw; height: 100vh; display: block; }
<canvas id="canvas"></canvas>

<!-- vertex shader -->
<script id="vs" type="f">
attribute vec2 position;
attribute vec2 texcoord;

uniform mat3 u_matrix;

varying vec2 v_texcoord;

void main() {
   gl_Position = vec4(u_matrix * vec3(position, 1), 1);
   v_texcoord = texcoord;
}
</script>
<!-- fragment shader -->
<script id="fs" type="f">
precision mediump float;

uniform float u_time;
uniform float u_distortionAmount;
uniform float u_distortionRange;
uniform vec2 u_mouse;

// our textures
uniform sampler2D u_originalImage;
uniform sampler2D u_blurredImage;
uniform sampler2D u_mapImage;

// the texcoords passed in from the vertex shader.
varying vec2 v_texcoord;

void main() {
   vec4 depthDistortion = texture2D(u_mapImage, v_texcoord);
   float distortionMult = depthDistortion.g;     // just green channel
   float parallaxMult = 0.5 - depthDistortion.r; // just red channel
   
   vec2 distortion = vec2(
      sin(u_time + v_texcoord.y * u_distortionRange), 0) * u_distortionAmount  * distortionMult;
   vec2 parallax = u_mouse * parallaxMult;
      
   vec2 uv = v_texcoord + distortion + parallax;
   vec4 original = texture2D(u_originalImage, uv);
   vec4 blurred = texture2D(u_blurredImage, uv);
   gl_FragColor = mix(original, blurred, length(distortion) / u_distortionAmount);
}
</script>
<script src="https://twgljs.org/dist/3.x/twgl-full.min.js"></script>
<script src="https://webglfundamentals.org/webgl/resources/m3.js"></script>

The finally big difference is rather than use a simple sine wave for distortion the shader on that sample is computing something slight more complicated.

cover

The code above uses a 2 unit quad that goes from -1 to +1 in X and Y. If you passed in an identiy matrix (or a 1,1 scale matrix which is the same thing) it would cover the canvas. Instead we want the image to not be distorted. To do that we had this code

const canvasAspect = gl.canvas.clientWidth / gl.canvas.clientHeight;
const imageAspect = originalImage.width / originalImage.height;
const mat = m3.scaling(imageAspect / canvasAspect, -1);

This just effectively says make it fill the canvas vertically and scale it in whatever it neesd to be to match the original image's aspect. The -1 is to flip the quad since otherwise the image is upside down.

To implement cover we just need to check if scale is < 1. If so it's not going to fill the canvas so we set the horizontal scale to 1 and adjust the vertical scale

// this assumes we want to fill vertically
let horizontalDrawAspect = imageAspect / canvasAspect;
let verticalDrawAspect = -1;
// does it fill horizontally?
if (horizontalDrawAspect < 1) {
  // no it does not so scale so we fill horizontally and
  // adjust vertical to match
  verticalDrawAspect /= horizontalDrawAspect;
  horizontalDrawAspect = 1;
}
const mat = m3.scaling(horizontalDrawAspect, verticalDrawAspect);
| improve this answer | |
  • This is great! Exactly what I was looking for! I guess the TWGL library made it much easier now, didn't know such a thing existed. One last thing, how can I make the image to scale according to the canvas size so that it fills the screen in the same was as in css with background-size: cover? – NickyP Jun 7 '17 at 16:19
  • TWGL is mentioned in those tutorials under less code more fun. Also using matrices for converting from clipspace to pixels is covered as well. – gman Jun 9 '17 at 18:53

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