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I am writing a straightforward image viewer for displaying images on a couple of triangles in OpenGL ES 2.0 on Android. There is a particular colour in these images that must be replaced with black in some way. The problem is that if GL_LINEAR is used for my min and maxifying filters, the outline of the colour that needs to be replaced remains visible. If I use GL_NEAREST for my filters, the shader is able to replace the colour without too much difficulty, however it doesn't render the images as smoothly and of course looks pixelated when zooming in and out.

I wonder if there is a better way to perform this type of task. Some ideas I've had are:

  • Build another shader that runs only once on the texture pixels and replaces the colours before the texture is actually used during my fragment shader?
  • Rewrite my shader so that it works even when GL_LINEAR is used.

Can anyone give me any clues as to how this is usually done? The reason I'd rather perform this operation in the shader is so that I can ensure that the mask pixel colour always stays black.

I am quite new to OpenGL ES 2.0 but I am trying to learn how things work. Please keep that in mind, and help me to learn. Thanks in advance.

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Are you currently using the alpha channel, and is editing the source images an option? It might be more appropriate to do this with the alpha channel than with color keying. Otherwise I can't think of any better way, I think you've outlined the limitations pretty well. – Tim May 31 '12 at 2:29
Editing the source images is time consuming in Dalvik, and I'd rather not have that overhead. Currently the code doesn't do anything with the alpha channel, but the images we are displaying are actually 16 bit grayscale, which I am coding as RGB_565 and decoding the bits in the shader. It's a little ugly, but seems to work. The best results we've had seem to be pre-processing our images on the server, and not trying to do colour keying on the client at all. We may have to resort to this solution. – Thorinside May 31 '12 at 2:34
I suppose I could also add that the mask pixels don't move in the images. They are all in the same place. I suppose I could also try creating an alpha texture, and using that to set the alpha of the output pixels? Or would I also see this outline problem in this case? – Thorinside May 31 '12 at 2:42

1 Answer 1

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In that case (mask always same place), I think you've got more options.

I would create a single channel image with mask areas as 1 and unmasked areas with 0.

Then in the shader, you sample the original texture and the mask texture, and you can replace the masked color with your own if the mask value is greater than a certain threshold.

This somewhat alleviates the problem with using GL_LINEAR, because you can adjust the value at which you reject the pixel.

For example, if you sample right between a masked and unmasked pixel, then your mask value will be 0.5, and the color will be (0.5*color_key + 0.5*unmasked_color). If you find this unacceptable color bleeding, you can set the alpha reject at 0.1, 0.001, etc, to mask any pixel that has even a slight trace of mask in it. This will slightly enlarge your masked area, but will allow you to not see a trace of the color key anywhere in the result.

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Also, make sure the mask and texture have the same resolution, or this might not work as well. – Tim May 31 '12 at 2:52
I understand what you're saying. I did an experiment today to learn about the sampling that is occurring, and what you're saying about the linear interpolation returning 0.5 as the texture is sampled. This will likely work. I will try and see if I can implement something like this. Thanks. – Thorinside May 31 '12 at 2:59
I just made a test implementation of this by adding a mask texture, and using it in the shader as you suggested. It works great. Thanks again, @Tim. – Thorinside May 31 '12 at 5:04

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