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So I know there's a lot of questions regarding this, but so far as I can tell this is a unique situation so I figured I would post it. Hopefully, this will add some info that may finally give us an answer as to why this is happening to us. I'm getting the error: wait_fences: failed to receive reply: 10004003, when my device rotates. The animation of my views are initiated from:

- (void) willAnimateRotationToInterfaceOrientation:(UIInterfaceOrientation)toInterfaceOrientation duration:(NSTimeInterval)duration

I'm only getting the error on the new iPad 3. I've used the exact same program on an original iPad and iPhones as low as a 3GS. They all don't get the wait_fences error and they all rotate faster than the iPad 3 does.

I use Core Graphics almost exclusively to draw the views. I also ensure they're redrawn on a resize so I don't get pixilated views. If I disable the redraw on resize, I don't get this error (but I get stretched views). If I disable core graphics drawing altogether I don't get the error (but, of course, I get black views).

I used the Time Profiler and found out that the hangup was primarily in drawing gradients: enter image description here

I have altered the code to fill rather than draw gradients and that does alleviate the problem. I would say that the gradients are the problem except I do these animations in other situations (other than in response to rotation) and it works just fine.

I would also like to note that I've paid special attention to making sure I only animate views that are actually on the screen. I know that animating views off screen can sometimes cause this error to occur.

I have not included the animation code

Any ideas as to why this is happening? Especially since it's only happening on the iPad 3?

For those who will ask, this is the code that performs the animation. It will normally be wrapped in a UIView Animation Block.

- (void) setFramesForFocusView:(CustomControl *)focusView atX:(CGFloat)x showInput:(BOOL)showInput{
    CGSize bSize = self.bounds.size;
    CGRect fRect = focusView.frame;
    fRect.size.width = bSize.width;

    CGRect iRect;
    if (focusView.inputViewIsSystemKeyboard){
        if (_keyboardRect.origin.y < 0 || _keyboardRect.origin.y >= CGRectGetMaxY(self.bounds) || CGRectIsEmpty(_keyboardRect) || CGRectGetMaxY(_keyboardRect) > CGRectGetMaxY(self.bounds)) return;
        iRect = _keyboardRect;
    } else {
        iRect = (focusView.inputUIView && showInput) ? CGRectMake(0, bSize.height / 2, bSize.width, bSize.height / 2) : CGRectZero;

    CGRect iaRect = focusView.inputAccessoryUIView.frame;
    CGFloat availableFieldHeight = iRect.origin.y - iaRect.size.height;

    iRect.size.width = bSize.width;
    iaRect.size.width = bSize.width;

    if (!showInput){
        iRect.origin.y = bSize.height;
    iaRect.origin.y = iRect.origin.y - iaRect.size.height;

    iRect.origin.x = x;
    iaRect.origin.x = x;
    focusView.inputUIView.frame = iRect;
    focusView.inputAccessoryUIView.frame = iaRect;

    if (focusView.expandInput){
        fRect.origin.y = 0;
        fRect.size.height = availableFieldHeight;
    } else {
        if (focusView.labelPlacement != LabelPlacementTop && focusView.labelPlacement != LabelPlacementBottom){
            fRect.size.height = _currentView.storedFrame.size.height + [focusView.label.text sizeWithFont:focusView.label.font].height; 
        fRect.origin.y = availableFieldHeight - fRect.size.height;
    if (fRect.size.height > availableFieldHeight){
        fRect.origin.y = 0;
        fRect.size.height = availableFieldHeight;
    fRect.origin.x = x;
    [focusView setLabelPlacement:LabelPlacementTop toFrame:fRect];
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The fact that its only happening on an iPad 3 mostly suggests that it's a timing issue that the iPad 3 is fast enough to trigger. It doesn't suggest particularly that it was correct on other platforms; only that you were lucky on other platforms. The other answers, particularly around mismatching start/end animations, or animating when off screen, are likely still applicable. –  Rob Napier Jun 7 '12 at 19:14
I cannot say how relevant this as I have little experience with CoreAnimation, but Marco Arment discussed an iPad 3 specific problem with CA renderInContext that is due to the funky graphics hardware in it. The discussion can be found on his podcast, Build and Analyze ep 72, beginning at 56:20. The upshot was that the iPad is slower, I think. Maybe something can be gleaned? –  Swizzlr Jun 7 '12 at 19:37
@RobNapier Yep, you ended up being right. I spend so much time making sure my current controller only animated on-screen views I never considered that other view controllers might be doing their own animations. –  Aaron Hayman Jun 7 '12 at 19:54
@ThomasCatterall Yes, I'm familiar with the 'renderInContext' problem (and I love listening to B&A, usually live :)). In fact, that episode prompted me to buy an iPad 3 to test, which is turning out to be essential. Glad I did, I had to re-implement a lot of code that used 'renderInContext'. Fortunately, that wasn't the problem in this case. I say 'fortunately' because every instance I've had to replace 'renderInContext' required a whole lot of code to fix. –  Aaron Hayman Jun 7 '12 at 19:58
Well, good to know! Glad you got it sorted! –  Swizzlr Jun 7 '12 at 19:59

1 Answer 1

up vote 1 down vote accepted

Well that was quick. @RobNapier was correct in that it was a timing issue. I commented out my animations and wow there were a lot of other views animating behind there! Even though I was explicitly animating only on-screen views, there was another ViewController receiving the rotation events behind my views without my... uh... knowledge? I mean, I should know right? I wrote the code. I didn't realize at first because my set of views was covering the entire screen. Unfortunately this will require a lot of rewriting. I use Custom Container Controllers and now I see I need to reconsider my implementation. A lot of stuff is getting needlessly rotated/animated. But wow...that answered a lot of performance questions....


So I had thought that the problem I was facing had to do with the extra views being animated by other view controllers. However, while this is technically true, it's not as true as I thought or in the way I thought. I made absolutely sure that no other views were animated by removing the entire root view hierarchy from the window and replacing it with only the view controller I'm wanting to have rotated. This definitely helped, but not completely. Really, it just 'lowered the bar' so that it was less likely for me to get the 'wait_fences' error. I still discovered I was getting the error though in certain situations.

I believe the problem I'm having is my use of a UIScrollView. My implementation has a variable number of of subviews that it manages. The specific view is my own custom implementation of a UIPickerView, so as you can imagine, the number of views it manages can become quite large. I've discovered that if those subviews become too numerous, I start getting the 'wait_fences' error.

So it appears that: If UIScollView is animated, it will animate all of it's subviews, even if those subviews aren't on screen. This is important. I rather suspect that a lot of people who are struggling with this error may not realize this. Each one of those off-screen subviews are pushing you ever closer to hitting the 'wait_fences' error. The solution in my case is "simple": I'm going to convert my UIScrollView to a UITableView. That'll mean rewriting a lot of code, but at least I know that off-screen subviews will be removed from the screen and thus not animated.

I also noted something else: Core-Graphic Gradients hit you hard. I can animate a lot more off-screen views if they don't use gradients. Of course, I love gradients and I'm not willing to give them up (which is why I'm rewriting my PickerView) but it is interesting and important to note.

Update 2

Finished rewriting my UIScrollView as a tableView and that seems to have done the trick. I'm getting no lag and no wait_fences error when I rotate the screen.

Update 2

So yeah, it's a lot easier to hit the wait_fences error on the iPad 3 than any other iPad/iPhone. I've gone through all my code making sure I never animate anything that's not on screen, so that issue's resolved. I still get the wait_fences error on the iPad 3 when I use 'heavy' drawing routines. Stuff I've found that makes me hit it:

  1. Gradients: gradients really make the CPU work on the retina screen.
  2. Transparency: if your view isn't opaque, the CPU works hard to figure out the transparent areas of the view.
  3. Transparent Colors: not the same as view transparency. This is layering transparent colors/gradients over the top of each other to gain an 'effect', like gloss, highlights whatever.
  4. Textures: I find using textures makes it a little more likely to hit the wait_fences error, but nothing near like what gradients/transparency does.
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