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I have been grabbing live video frames from the iPhone camera and applying them as a texture to flat OpenGL geometry in order to use shaders for processing the camera input. Does anyone know if it's possible to then grab the processed textures and store them in a movie file?

It seems like this would take a lot of processing power, and I'm not sure what the best way to proceed is -- or if it's even possible. The motivation here is to be able to do interesting shader effects on video grabbed from the camera and then store the results to share with others.

Thanks in advance for your thoughts.

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1 Answer 1

I can't comment as to performance, but what you want to do is:

  • create an AVAssetWriter (which can take incoming samples and write them out in H.264; no other file formats seem to be supported in the current iOS release)
  • attach an AVAssetWriterInput to the asset writer to provide video frames (as an asset writer takes one or more inputs, each to provide different aspects of the asset);
  • attach an AVAssetWriterInputPixelBufferAdaptor to the asset writer input so that you can push pixel buffers at the input. You'll want to tell the asset writer input that it is to expect media data in real time. Doing so tells it just to try to be always ready for input. You get to specify frame timings as and when you supply frames, so it doesn't put a performance requirement on the rest of your code.

From there, you just need to push CVImageBuffers to your pixel buffer adaptor. There's a convenient Core Video OpenGL buffer type in OS X, but it seems to be absent on iOS. Instead you'll need to glReadPixels alongside CVPixelBufferCreate, etc, locking the pixel buffer and writing directly to its base address. Hopefully you'll get something you can pass directly to OpenGL, without needing to shuffle bytes in between.

Supposing the iPhone has a dedicated H.264 encoder, the main performance bottleneck is likely to be the glReadPixels, causing whatever is in the frame buffer to need to be transferred and reformatted for the CPU. If you set it all up and results seem slow, I'd investigate there first.

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The glReadPixels and CVPixelBuffers work pretty well. Only issue I'm having is with colors that are "off". I think it's due to GL_RGBA that's passed to glReadPixels and BGRA that's used with the CVPixelBuffer. Any thoughts on these pixel formats or how I can correct this? –  MrDatabase Oct 25 '11 at 19:55
    
Based on reading the spec, Apple's BGRA extension seems to add BGRA upload but not download. You could give GL_BGRA a shot with glReadPixels but I wouldn't be optimistic. Failing that I guess you need to do a channel swap in advance of passing the buffer out to the AV Foundation. It's probably cheapest to do that on the GPU — probably by rendering to texture, showing that to the user and then rendering from it to an unshown buffer so as to flip r and b. That sounds complicated but on the other side iOS 5 adds CVOpenGLESTexture which makes getting CoreVideo images into OpenGL a lot easier. –  Tommy Oct 26 '11 at 11:24

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