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I have been developing iOS app which applies blur on finger touch on image. I use OpenGL for that. I have written vertex & Fragment shader to apply Gaussian blur. When I pass entire image rectangle coordinates (0-1) into vertex shader it applies blur to entire image without any issue. Now, the same thing I am trying to do on finger touch. I capture touch points, converts into 0-1 range and pass that point into shaders. But it does not blur and rather it disturbs original image. Below is main code which is executed @ touch moved:

-(void)setupVBOsBlur:(CGPoint)start For:(CGPoint)end
    static GLfloat*     vertexBuffer = NULL;
    static NSUInteger   vertexMax = 64;
    NSUInteger          vertexCount = 0,

    // Convert locations from Points to Pixels
    CGFloat scale = self.contentScaleFactor;
    start.x *= scale;
    start.y *= scale;
    end.x *= scale;
    end.y *= scale;

    // Allocate vertex array buffer
    if(vertexBuffer == NULL)
        vertexBuffer = malloc(vertexMax * 2 * sizeof(GLfloat));

    // Add points to the buffer so there are drawing points every X pixels

    count = MAX(ceilf(sqrtf((end.x - start.x) * (end.x - start.x) + (end.y - start.y) * (end.y - start.y))) , 1);
    for(i = 0; i < count; ++i) {
        if(vertexCount == vertexMax) {
            vertexMax = 2 * vertexMax;
            vertexBuffer = realloc(vertexBuffer, vertexMax * 2 * sizeof(GLfloat));

        vertexBuffer[2 * vertexCount + 0] = start.x + (end.x - start.x) * ((GLfloat)i / (GLfloat)count);
        vertexBuffer[2 * vertexCount + 1] = start.y + (end.y - start.y) * ((GLfloat)i / (GLfloat)count);
        vertexCount += 1;

    GLuint vb;
    glGenBuffers(1, &vb);
    glBindBuffer(GL_ARRAY_BUFFER, vb);
    glBufferData(GL_ARRAY_BUFFER, vertexCount*2*sizeof(GLfloat), vertexBuffer, GL_DYNAMIC_DRAW);

    glVertexAttribPointer(ATTRIB_VERTEX, 2, GL_FLOAT, GL_FALSE, 0, 0);

    GLKMatrix4 projectionMatrix = GLKMatrix4MakeOrtho(0, backingWidth, 0, backingHeight, -1, 1);
    GLKMatrix4 modelViewMatrix = GLKMatrix4Identity; // this sample uses a constant identity modelView matrix
    mvpMatrix = GLKMatrix4Multiply(projectionMatrix, modelViewMatrix);

    [self compileShadersForFingerBlur];

    //set MVP
    glUniformMatrix4fv(mvpMatrixSlot, 1, GL_FALSE, mvpMatrix.m);
    //glUniform2f(myTextCoordSlot, start.x/320.0, ( self.bounds.size.height - start.y)/480.0);
    glUniform2f(myTextCoordSlot, start.x/320.0, ( self.bounds.size.height - start.y)/480.0);
    glUniform1i(amount, 0);

     glBindTexture(GL_TEXTURE_2D, textureHandle);
     glUniform1i(textureUniformSlot, 0);


    glDrawArrays(GL_POINTS, 0, vertexCount);

    [eaglContext presentRenderbuffer:GL_RENDERBUFFER];

And below are my vertex and fragment shaders: Vertex Shader (Horizontal Blur):

    /* HBlurVertexShader.glsl */

attribute vec4 Position;
uniform mat4 MVP;
uniform vec2 myTextCoord;

varying vec2 v_texCoord;
varying vec2 v_blurTexCoords[14];

void main()
    gl_PointSize = 5.0;
    gl_Position = MVP * Position;

    v_texCoord = myTextCoord;

    v_blurTexCoords[ 0] = v_texCoord + vec2(-0.028, 0.0);
    v_blurTexCoords[ 1] = v_texCoord + vec2(-0.024, 0.0);
    v_blurTexCoords[ 2] = v_texCoord + vec2(-0.020, 0.0);
    v_blurTexCoords[ 3] = v_texCoord + vec2(-0.016, 0.0);
    v_blurTexCoords[ 4] = v_texCoord + vec2(-0.012, 0.0);
    v_blurTexCoords[ 5] = v_texCoord + vec2(-0.008, 0.0);
    v_blurTexCoords[ 6] = v_texCoord + vec2(-0.004, 0.0);
    v_blurTexCoords[ 7] = v_texCoord + vec2( 0.004, 0.0);
    v_blurTexCoords[ 8] = v_texCoord + vec2( 0.008, 0.0);
    v_blurTexCoords[ 9] = v_texCoord + vec2( 0.012, 0.0);
    v_blurTexCoords[10] = v_texCoord + vec2( 0.016, 0.0);
    v_blurTexCoords[11] = v_texCoord + vec2( 0.020, 0.0);
    v_blurTexCoords[12] = v_texCoord + vec2( 0.024, 0.0);
    v_blurTexCoords[13] = v_texCoord + vec2( 0.028, 0.0);


Vertex Shader (Vertical Blur)

        /* VBlurVertexShader.glsl */

varying vec2 v_texCoord;
varying vec2 v_blurTexCoords[14];

void main()
    v_blurTexCoords[ 0] = v_texCoord + vec2(0.0, -0.028);
    v_blurTexCoords[ 1] = v_texCoord + vec2(0.0, -0.024);
    v_blurTexCoords[ 2] = v_texCoord + vec2(0.0, -0.020);
    v_blurTexCoords[ 3] = v_texCoord + vec2(0.0, -0.016);
    v_blurTexCoords[ 4] = v_texCoord + vec2(0.0, -0.012);
    v_blurTexCoords[ 5] = v_texCoord + vec2(0.0, -0.008);
    v_blurTexCoords[ 6] = v_texCoord + vec2(0.0, -0.004);
    v_blurTexCoords[ 7] = v_texCoord + vec2(0.0,  0.004);
    v_blurTexCoords[ 8] = v_texCoord + vec2(0.0,  0.008);
    v_blurTexCoords[ 9] = v_texCoord + vec2(0.0,  0.012);
    v_blurTexCoords[10] = v_texCoord + vec2(0.0,  0.016);
    v_blurTexCoords[11] = v_texCoord + vec2(0.0,  0.020);
    v_blurTexCoords[12] = v_texCoord + vec2(0.0,  0.024);
    v_blurTexCoords[13] = v_texCoord + vec2(0.0,  0.028);


Fragment Shader:

precision mediump float;

uniform sampler2D texture;
uniform int amount;

varying vec2 v_texCoord;
varying vec2 v_blurTexCoords[14];

void main()
    gl_FragColor = vec4(0.0);
    if(amount > 6)

        gl_FragColor += texture2D(texture, v_blurTexCoords[ 0])*0.0044299121055113265;
        gl_FragColor += texture2D(texture, v_blurTexCoords[ 1])*0.00895781211794;
        gl_FragColor += texture2D(texture, v_blurTexCoords[ 2])*0.0215963866053;
        gl_FragColor += texture2D(texture, v_blurTexCoords[ 3])*0.0443683338718;
        gl_FragColor += texture2D(texture, v_blurTexCoords[ 4])*0.0776744219933;
        gl_FragColor += texture2D(texture, v_blurTexCoords[ 5])*0.115876621105;
        gl_FragColor += texture2D(texture, v_blurTexCoords[ 6])*0.147308056121;

        gl_FragColor += texture2D(texture, v_texCoord)*0.159576912161;

        gl_FragColor += texture2D(texture, v_blurTexCoords[ 7])*0.147308056121;
        gl_FragColor += texture2D(texture, v_blurTexCoords[ 8])*0.115876621105;
        gl_FragColor += texture2D(texture, v_blurTexCoords[ 9])*0.0776744219933;
        gl_FragColor += texture2D(texture, v_blurTexCoords[10])*0.0443683338718;
        gl_FragColor += texture2D(texture, v_blurTexCoords[11])*0.0215963866053;
        gl_FragColor += texture2D(texture, v_blurTexCoords[12])*0.00895781211794;
        gl_FragColor += texture2D(texture, v_blurTexCoords[13])*0.0044299121055113265;

       gl_FragColor = texture2D(texture, v_texCoord);


share|improve this question
@David Thank you! –  cooliPhoneGuy Jul 18 '13 at 8:15
@iPatel - Thanks for pointing to it. I have visited it earlier but I want to do it with OpenGLES only, for performance reason. –  cooliPhoneGuy Jul 18 '13 at 8:16
There are 2 reasons for your result: First you can not use 2 pass blur method on such a small area, the second pass expects that the fragments that are up to 6 pixels away are already fully blurred by the first pass. Second and this one is more important, by drawing a line of points those points are intersected resulting in most pixels being blurred up to 7 times if your point size is 5 pixels. –  Matic Oblak Jul 18 '13 at 14:23
I don't believe v_texCoord will be interpolated across the pixels of an individual GL_POINT, and will remain constant for each of these pixels. You would end up with a uniform color across your point instead of a per-pixel blur. Is that what you're seeing when you say "it disturbs original image"? –  Brad Larson Jul 18 '13 at 17:32

1 Answer 1

To continue from the comments:

The approach you are taking doesn't seem a very good one at all. Fixing the 2 things from the comments will still produce other issues. To think of 1 it is what happens if user drags 2 lines at the same place? Will the image be blurred twice on that spot? It might but I can assure you it will lose its functionality.

To look things a bit more general on what you are trying to do: You want the user to be able to select parts of the image to be blurred which is exactly what you should do. This results in you needing another buffer that will store only that data, either the pixel is blurry or not (can also store the strength of the blur). So in general I would suggest creating a FBO (frame buffer object) with attached texture. Then move the drawing code you already have (with points) to draw a specific color on that buffer. Now each time the FBO changes you need to redraw your whole main buffer using the 2 textures (original and FBO's) drawing original where FBO's texture is empty and blurred image where the texture is full. This procedure would also suggest that you rather blur the whole image in load time and use 3 textures (original, blur, canvas).

The FBO approach is very flexible and in mentioned case you can use it for much more then blur locations. You can have multiple effects and their strength using different color channels and is independent to what resources you are using in your main buffer. On the other hand it might get a bit hard to implement: FBO size will have to be a power of 2 and you need to use just a certain part of it (not a problem), applying its texture to the main buffer will force you to compute a new texture coordinate buffer (medium math problem), if you apply some zooming and moving things can get very hard (big problem). Guessing from your case you can do this much easier.

Instead of drawing some color to the FBO you can just use some other buffer that can be attached to your main frame buffer: Draw only to depth buffer or rather stencil buffer (little setup) since you probably don't use them at all. Now for the grand finally you probably don't even use the alpha channel on your buffer:

  • when a new image is set create original and blurred texture, clear the buffer to zero for all channels, disable blend and use color mask to RGB only (glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_FALSE)) and draw the original as you did before.
  • On touches moved disable blend, enable alpha channel only and use a color with alpha value 1.0 and reuse the drawing code you already have except you should only draw color, not a blurred texture
  • On refresh (after touches moved) enable RGB channels only, enable blend and use glBlendFunc(GL_DST_ALPHA, GL_ONE_MINUS_DST_ALPHA) and draw a fullscreen blurred texture.

All done, just a small note here: If you will at some point want an image snapshot and you will use glReadPixels you need to understand that your alpha channel is a mess and you need to skip it when creating a CGImage from those data.

share|improve this answer
Thanks for so detailed explanation. But being newbie into OpenGL ES it looks difficult for me to implement above at first sight. Anyway, let me try with your suggestion and will keep posted about my progress. –  cooliPhoneGuy Jul 22 '13 at 6:17
I have tried to put your suggestion into code but not succeed. Can you point to any sample code or code snippet ? –  cooliPhoneGuy Jul 31 '13 at 5:14

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