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Seemingly at random (but typically consistent during any given program run), my presentRenderBuffer call is very slow. I tracked it down to a call to glFlush() which presentRenderBuffer makes, so now I call glFlush() right before presentRenderBuffer. I put a timer on glFlush(), and it does one of two things, seemingly at random.

glFlush() either

1) consistently takes 0.0003 seconds


2) alternates between about 0.019 and 0.030 seconds

The weirdest thing is, this is independent of drawing code. Even when I comment out ALL drawing code so that all it does is call glClear(), I still just randomly get one of the two results.

The drawing method is called by an CADisplayLink with the following setup:

dLink = [[UIScreen mainScreen] displayLinkWithTarget:viewController selector:@selector(drawFrame)];
dLink.frameInterval = 1;
[dLink addToRunLoop:[NSRunLoop currentRunLoop] forMode:NSDefaultRunLoopMode];

I'm finding it impossible to pin down what causes one of the results to occur. Can anyone offer ideas?

share|improve this question

Performing exact timings on iOS OpenGL ES calls in general is a little tricky, due to the tile-based deferred renderers used for the devices. State changes, drawing, and other actions can be deferred until right before the scene is presented.

This can often make something like glFlush() or a context's -presentRenderBuffer: look to be very slow, when really it's just causing all of the deferred rendering to be performed at that point.

Your case where you comment out all drawing code but a glClear() wouldn't be affected by this. The varying timings you present in your alternating example correspond roughly to 1/53 or 1/33 of a second, which seems to indicate to me that it might simply be blocking for long enough to match up to the screen refresh rate. CADisplayLink should keep you in sync with the screen refresh, but I could see your drawing sometimes being slightly off that.

Are you running this test on the main thread? There may be something causing a slight blocking of the main thread, throwing you slightly off the screen refresh timing. I've seen a reduction in this kind of oscillation when I moved my rendering to a background thread, but still had it be triggered by a CADisplayLink. Rendering speed also increased as I did this, particularly on the multicore iPad 2.

Finally, I don't believe you need to explicitly use glFlush() when using OpenGL ES on iOS. Your EAGLContext's presentRenderbuffer: method should be all that is required to render your frame to the screen. I don't see a single instance of glFlush() in my OpenGL ES application here. It may be redundant in your case.

share|improve this answer
I am indeed rendering on the main thread. To shift that rendering to another thread, do I make a new thread and add the display link to that other thread's run loop? I think I read that it is inadvisable to update the UI from a thread other than main, but I'll give it a try. Thanks! – pinerd314159 Aug 17 '11 at 20:28
Also, I know that calling glFlush() is redundant, but it was a test to see what exactly is causing the huge slowdown. I found out that the glFlush() is the slow part. If it is called right before presentRenderBuffer, then presentRenderBuffer takes almost no time. – pinerd314159 Aug 17 '11 at 20:29
@pinerd314159 - I went with a GCD queue for this, as I describe here:… . This let me contain all accesses to the OpenGL ES context (resizing frame buffers, rendering, etc.) within a single-wide queue to guarantee no simultaneous access without using expensive locks. You just have to remember to set the current context within each block, because what thread they run on may change and you need to register the context with a given thread before using it. – Brad Larson Aug 17 '11 at 21:07
@pinerd314159 - The reason you see glFlush() being slow and then -presentRenderBuffer: fast, if you run them in that order, is that glFlush() will force the rendering of all deferred items. There won't be anything left to be done then when you hit -presentRenderBuffer: a little while later. You will see similar behavior with something like glReadPixels(), which halts the rendering pipeline to execute all pending tasks before continuing. – Brad Larson Aug 17 '11 at 21:10
@pinerd314159 - I'd give GCD a second look, because I feel it is an elegant framework for performing multithreaded tasks. It's a different paradigm than you see in standard multithreading, so it takes a little time to get used to, but trust me when I say it is worth learning. I taught a class on the topic that you can see on iTunes U (go to the multithreading session):… , and the WWDC 2010 session "Introducing Blocks and Grand Central Dispatch on iPhone" is a great tutorial on the topic. – Brad Larson Aug 19 '11 at 15:21

I found what I think was the problem. The view controller that was attached to the EAGLView was NOT set as the root view controller of the window as it should have been. Instead, the view was manually added as a subview to the window. When this was remedied (along with a couple other related fixes), the drawFrame method now seems to sync up perfectly with the screen refresh. Success!

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Interestingly, you get exactly this behavior if you run an iPhone app on the iPad in x2 mode – bobobobo Sep 23 '12 at 18:06

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