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Is there any faster way to access the frame buffer than using glReadPixels? I would need read-only access to a small rectangular rendering area in the frame buffer to process the data further in CPU. Performance is important because I have to perform this operation repeatedly. I have searched the web and found some approach like using Pixel Buffer Object and glMapBuffer but it seems that OpenGL ES 2.0 does not support them.

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2 Answers 2

up vote 109 down vote accepted

As of iOS 5.0, there is now a faster way to grab data from OpenGL ES. It isn't readily apparent, but it turns out that the texture cache support added in iOS 5.0 doesn't just work for fast upload of camera frames to OpenGL ES, but it can be used in reverse to get quick access to the raw pixels within an OpenGL ES texture.

You can take advantage of this to grab the pixels for an OpenGL ES rendering by using a framebuffer object (FBO) with an attached texture, with that texture having been supplied from the texture cache. Once you render your scene into that FBO, the BGRA pixels for that scene will be contained within your CVPixelBufferRef, so there will be no need to pull them down using glReadPixels().

This is much, much faster than using glReadPixels() in my benchmarks. I found that on my iPhone 4, glReadPixels() was the bottleneck in reading 720p video frames for encoding to disk. It limited the encoding from taking place at anything more than 8-9 FPS. Replacing this with the fast texture cache reads allows me to encode 720p video at 20 FPS now, and the bottleneck has moved from the pixel reading to the OpenGL ES processing and actual movie encoding parts of the pipeline. On an iPhone 4S, this allows you to write 1080p video at a full 30 FPS.

My implementation can be found within the GPUImageMovieWriter class within my open source GPUImage framework, but it was inspired by Dennis Muhlestein's article on the subject and Apple's ChromaKey sample application (which was only made available at WWDC 2011).

I start by configuring my AVAssetWriter, adding an input, and configuring a pixel buffer input. The following code is used to set up the pixel buffer input:

NSDictionary *sourcePixelBufferAttributesDictionary = [NSDictionary dictionaryWithObjectsAndKeys: [NSNumber numberWithInt:kCVPixelFormatType_32BGRA], kCVPixelBufferPixelFormatTypeKey,
                                                       [NSNumber numberWithInt:videoSize.width], kCVPixelBufferWidthKey,
                                                       [NSNumber numberWithInt:videoSize.height], kCVPixelBufferHeightKey,

assetWriterPixelBufferInput = [AVAssetWriterInputPixelBufferAdaptor assetWriterInputPixelBufferAdaptorWithAssetWriterInput:assetWriterVideoInput sourcePixelBufferAttributes:sourcePixelBufferAttributesDictionary];

Once I have that, I configure the FBO that I'll be rendering my video frames to, using the following code:

if ([GPUImageOpenGLESContext supportsFastTextureUpload])
    CVReturn err = CVOpenGLESTextureCacheCreate(kCFAllocatorDefault, NULL, (__bridge void *)[[GPUImageOpenGLESContext sharedImageProcessingOpenGLESContext] context], NULL, &coreVideoTextureCache);
    if (err) 
        NSAssert(NO, @"Error at CVOpenGLESTextureCacheCreate %d");

    CVPixelBufferPoolCreatePixelBuffer (NULL, [assetWriterPixelBufferInput pixelBufferPool], &renderTarget);

    CVOpenGLESTextureRef renderTexture;
    CVOpenGLESTextureCacheCreateTextureFromImage (kCFAllocatorDefault, coreVideoTextureCache, renderTarget,
                                                  NULL, // texture attributes
                                                  GL_RGBA, // opengl format
                                                  GL_BGRA, // native iOS format

    glBindTexture(CVOpenGLESTextureGetTarget(renderTexture), CVOpenGLESTextureGetName(renderTexture));

    glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D, CVOpenGLESTextureGetName(renderTexture), 0);

This pulls a pixel buffer from the pool associated with my asset writer input, creates and associates a texture with it, and uses that texture as a target for my FBO.

Once I've rendered a frame, I lock the base address of the pixel buffer:

CVPixelBufferLockBaseAddress(pixel_buffer, 0);

and then simply feed it into my asset writer to be encoded:

CMTime currentTime = CMTimeMakeWithSeconds([[NSDate date] timeIntervalSinceDate:startTime],120);

if(![assetWriterPixelBufferInput appendPixelBuffer:pixel_buffer withPresentationTime:currentTime]) 
    NSLog(@"Problem appending pixel buffer at time: %lld", currentTime.value);
//        NSLog(@"Recorded pixel buffer at time: %lld", currentTime.value);
CVPixelBufferUnlockBaseAddress(pixel_buffer, 0);

if (![GPUImageOpenGLESContext supportsFastTextureUpload])

Note that at no point here am I reading anything manually. Also, the textures are natively in BGRA format, which is what AVAssetWriters are optimized to use when encoding video, so there's no need to do any color swizzling here. The raw BGRA pixels are just fed into the encoder to make the movie.

Aside from the use of this in an AVAssetWriter, I have some code in this answer that I've used for raw pixel extraction. It also experiences a significant speedup in practice when compared to using glReadPixels(), although less than I see with the pixel buffer pool I use with AVAssetWriter.

It's a shame that none of this is documented anywhere, because it provides a huge boost to video capture performance.

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@atisman - Yes, it is. In my framework code, pixel_buffer is used because I branch based on whether you're running this on iOS 5.0 or 4.0. On 4.0, I pull a new pixel buffer from the pool, store it in pixel_buffer, and use glReadPixels() to pull data. On 5.0, it's just assigned from the existing cached pixel buffer. I'm not sure what's going wrong in your case, but getting the base address of the bytes in the pixel buffer should point you to the bytes for the texture after rendering to it in your FBO. – Brad Larson Mar 18 '12 at 16:44
@atisman - After a little experimentation, I've now tested this in several different cases and found it to have performance advantages in all of them. I show an example for grabbing raw pixels (that I use for on-CPU processing as well as image saving) here: . You do have to make sure you use the kCVPixelBufferIOSurfacePropertiesKey to get the direct data access to work well here. On every device I've tested, this is significantly faster than glReadPixels(). However, as you point out, the Simulator currently doesn't support these kinds of reads. – Brad Larson May 16 '12 at 16:04
Thanks for the update. I tried again but still cannot make it work without calling CVOpenGLESTextureCacheCreateTextureFromImage every frame. According to your post, calling of the method is done in the set up but I can't make it work that way... – atisman May 18 '12 at 3:25
Note that if you are not creating a pixel buffer using an AVAssetWriterInputPixelBufferAdaptor pool, you will need to configure the CVPixelBufferRef to be an IOSurface in order for this technique to work. See Dennis Muhlestein's article for an example of how this is accomplished. – jgh Nov 2 '12 at 0:17
@MarkIngram - Yes, glFinish() is necessary (glFlush() won't block in many cases on iOS) before -appendPixelBuffer:withPresentationTime: in the above code. Otherwise, you'll see screen tearing when recording video. I don't have it in the above code, but it is called as part of a rendering routine just before this in the framework where I use the above. – Brad Larson Jul 15 '13 at 14:23

Regarding what atisman mentioned about the black screen, I had that issue as well. Do really make sure everything is fine with your texture and other settings. I was trying to capture AIR's OpenGL layer, which I did in the end, the problem was that when I didn't set "depthAndStencil" to true by accident in the apps manifest, my FBO texture was half in height(the screen was divided in half and mirrored, I guess because of the wrap texture param stuff). And my video was black.

That was pretty frustrating, as based on what Brad is posting it should have just worked once I had some data in texture. Unfortunately, that's not the case, everything has to be "right" for it to work - data in texture is not a guarantee for seeing equal data in the video. Once I added depthAndStencil my texture fixed itself to full height and I started to get video recording straight from AIR's OpenGL layer, no glReadPixels or anything :)

So yeah, what Brad describes really DOES work without the need to recreate the buffers on every frame, you just need to make sure your setup is right. If you're getting blackness, try playing with the video/texture sizes perhaps or some other settings (setup of your FBO?).

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