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I have an iPad app I am working on and one possible feature that we are contemplating is to allow the user to touch an image and deform it.

Basically the image would be like a painting and when the user drags their fingers across the image, the image will deform and the pixels that are touched will be "dragged" along the image. Sorry if this is hard to understand, but the bottom line is that we want to edit the content of the texture on the fly as the user interacts with it.

Is there an effective technique for something like this? I am trying to get a grasp of what would need to be done and how heavy an operation it would be.

Right now the only thing I can think of is to search through the content of the texture based on where was touched and copy the pixel data and do some kind of blend on the existing pixel data as the finger moves. Then reloading the texture with glTexImage2D periodically to get this effect.

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OpenGL ES1 or ES2 ? –  arul May 17 '12 at 0:26
1  
@arul, the question is pretty old, but today people are likely going to be using ES2. I would very much be interested in ES2. –  rid May 17 '12 at 17:13
    
This is really not the place to ask about OpenGL huh? –  rid May 21 '12 at 7:49
    
@Radu and why isn't this place suitable to ask about OpenGL.... it is a programming site, this question is absolutely fine –  MCKapur May 21 '12 at 8:37
    
@RohanKapur, yet there are no answers... I bet that even if I put 1000 more points for bounty, nobody would come with a good answer. –  rid May 21 '12 at 8:54

3 Answers 3

There are at least two fundamentally different approaches:

1. Update pixels (i assume this is what you mean in the question)

The most effective technique to change the pixels in the texture is called Render-to-Texture and can be done in OpenGL/OpenGL ES via FBOs. On desktop OpenGL you can use pixel buffer objects (PBOs) to manipulate pixel data directly on GPU (but OpenGL ES does not support this yet).

On unextended OpenGL you can change the pixels in system memory and then update texture with glTexImage2D/glTexSubImage2D - but this is inefficient last resort solution and should be avoided if possible. glTexSubImage2D is usually much faster since it only updates pixel inside the existing texture, while glTexImage2D creates entirely new texture (as a benefit you can change the size and pixel format of the texture). On the other side, glTexSubImage2D allows to update only parts of the texture.

You say that you want it to work with OpenGL ES, so I would propose to do the following steps:

  • replace glTexImage2D() with glTexSubImage2D() - if you gain enough performance that's it, just let it be;
  • implement render-to-texture with FBOs and shaders - it will require far more work to rewrite your code, but will give even better performance.

For FBOs the code can look like this:

// setup FBO
glGenFramebuffers( 1, &FFrameBuffer );
glBindFramebuffer( GL_FRAMEBUFFER, FFrameBuffer );
glFramebufferTexture2D( GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, YourTextureID, 0 );
glBindFramebuffer( GL_FRAMEBUFFER, 0 );

// render to FBO
glBindFramebuffer( GL_FRAMEBUFFER, FFrameBuffer );
glViewport( 0, 0, YourTextureWidth, YourTextureHeight );
your rendering code goes here - it will draw directly into the texture
glBindFramebuffer( GL_FRAMEBUFFER, 0 );

// cleanup
glBindFramebuffer( GL_FRAMEBUFFER, 0 );
glDeleteFramebuffers( 1, &FFrameBuffer );

Keep in mind that not all pixel formats can be rendered to. RGB/RGBA are usually fine.

2. Update geometry

You can also change the geometry of the object your texture is mapped on. The geometry should be tesselated enough to allow smooth interaction and prevent artifacts to appear. The deformation of geometry can be done via different methods: parametric surfaces, NURBS, patches.

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Can you post an example of how you would change pixels in a texture using FBOs in iOS with OpenGL ES 2.0? –  rid May 22 '12 at 13:36
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See my updated answer –  Sergey K. May 22 '12 at 13:43
    
I'm still not sure I understand how this works. Say you have a 10 x 10 array of pixels (= 300 GLubytes, 1 GLubyte for each color). 1) How would you render this array of pixels to a texture using FBOs? 2) How would you then change some of the pixels in the texture using FBOs? (I know you can't have a 10 x 10 texture, since the dimensions are not POTs, but just for illustration purpose) –  rid May 22 '12 at 13:55
    
Bind your frame buffer, bind the texture (10x10 as you say) and render the quad at desired position using a trivial shader. –  Viktor Latypov May 22 '12 at 14:02
    
1) You can create the initial texture from this array. Just like you do with an ordinary texture. 2) You should render "pixels" using OpenGL commands and primitives. –  Sergey K. May 22 '12 at 14:07

I have tried two things that might solve your problem. The methods are pretty different, so I suppose your specific usage case will determine which one is appropriate (if any).

First I've done image deformation with geometry. That is, mapping my texture to a subdivided grid and then overlaying this grid with another grid of bezier control points. The user will then move those control points and thus deforming the vertices of the rendered geometry in a smooth manner.

The second method is more similar to what you outline in your question. When creating your texture keep that data around, so you can manipulate the pixels directly there. Then call something like

glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, width, height, 0, GL_RGBA, GL_UNSIGNED_BYTE, imageData);

every time you draw. This might be terribly inefficient, since it likely involves re-uploading all the texture data every frame and I'd love to hear if there's a better way to do it - like directly manipulating the texture data on the GPU. In my case, though the performance is adequate.

I hope this helps, even though it's pretty low on detail.

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Modifying the texture render target using FBO is tricky, but pretty straighforward.

So, we have:

  1. TW by TH offscreen buffer (associated with the texture) - we call this Dest
  2. New "array of pixels", the IW by IH texture - we call this Src
  3. The desire to put (IW x IH) texture in position (TX,TY) to the Dest texture

The trick to "put" Src to Dest is to

  1. Bind the generated FBO as a render target
  2. Use a dummy 4-vertex quad with trivial vertex coords (TX,TY), (TX+IW,Y), (TX+IW,TY+IH), (TX,TY+IH) and texture coordinates (0,0), (1,0), (1,1), (0,1)
  3. Bind a trivial pixel shader which reads Src texture bound to the first Texture unit and outputs it on the "screen" (a.k.a. render target, Dest)
  4. Render the quad
  5. Unbind the FBO

For the Src to be rendered correctly you have to use orthographic projection and identity camera transform.

The (TX,TY) and (IW,IH) coordinates in my 4-step solution must be divided by TW and TH respectively to get mapped correctly to the [0..1, 0..1] framebuffer size. To avoid these divisions in shader you can just use the appropriate Orthographic projection for [0..TW, 0..TH] viewport.

Hope this solves problems with FBOs.

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