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I have a method, someMethod, that is called when a) the user taps the view and b) when a user drags the view. In someMethod, there is a UIView animateWithDuration block that makes the toolbar on top of the view disappear, and resets its frame accordingly. If the user taps the view, than drags it, someMethod will be fired while the animation is still completing, and this isn't the behavior I want (simply canceling the animation doesn't work because the completion block still fires (even if I check the 'finished' BOOL). All things being considered, I just don't want this method to be fired while the animation is still in progress.

Obviously an easy solution to this is to set a manual lock with a BOOL and only allow the method to be called once the lock is free.

I'm wondering, is there a more elegant way to accomplish this? Possible to use GCD or some other library to accomplish this so it's more fool proof?

Update: I did try to use synchronized, the problem though is the method fires off the animation, finishes, but the animation is still running on another thread. Any other ideas?

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1  
@synchronized (this) {} –  nhahtdh Jun 9 '12 at 8:36
    
A timer isn't automatically on another thread -- you'd have to have scheduled it there and have started the run loop for that thread. Is that actually the case? –  Josh Caswell Jun 9 '12 at 17:42
    
@joshcaswell - I reworded my question, actually a timer isn't triggering the method, just another gesture is. –  CoDEFRo Jun 9 '12 at 23:10

4 Answers 4

A timer running out does not imply or require a secondary thread. You're in control of what thread a timer is scheduled on. If you just schedule the timer on the main thread, then both things happen on the main thread.

The suggestions of using @synchronized achieve the effect that a given block of code is not running for the same object (whatever is the parameter of @synchronized) at the same time, but that's not the same thing as saying it's not run on two different threads.

If you want to detect if a method is called on a thread other than the main thread and then shunt it over to the main thread, you can use +[NSThread isMainThread] and dispatch_async(dispatch_get_main_queue(), ^{ /* re-call current method */ });.

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Actually it wasn't a timer sorry, it's too gesture recognizers, one a tap and the other a pan that can trigger the same block of code at the same time. –  CoDEFRo Jun 9 '12 at 9:03
1  
No, they can't. Both happen on the main thread and the main thread can't be doing two things at once. –  Ken Thomases Jun 9 '12 at 9:25
    
I should have been more specific. There is an animation happening in this method. I have a little floating view with a toolbar (like a window) that I can drag around the screen. What happens is when the user taps this view, a method is called that makes the toolbar disappear in a short fading animation and the views frame resets itself (reduces its height and adjusts position) to account for the vanished toolbar. Also, when the user drags the view, this same method is also called to make the bars disappear if they happen to be present. –  CoDEFRo Jun 9 '12 at 10:03
    
So if the user taps the view, then the bars start disappearing, and then they drag it, thus triggering the method again, it becomes messy because the frame is reseting itself twice. Do you think under this scenario it makes sense to use synchronize on this method? –  CoDEFRo Jun 9 '12 at 10:04
1  
No, the method can not be "accessed from the main thread at the same time" (unless it's recursive). The main thread can't be doing two things at once. "the processor … switching back and forth between the two processes" would be threading, but I doubt it's doing that. I think it's calling your method (which runs to completion and returns) and then, at a slightly later time, calling it again in response to another "event". I suggest you use logging to figure out exactly what it happening before you try to solve what you think is the problem. Log method start and return as well as the thread. –  Ken Thomases Jun 9 '12 at 11:44

I would suggest the @synchronized() block, Heres a great blog post on the explanation of it:

http://googlemac.blogspot.com/2006/10/synchronized-swimming.html

@synchronized(self) {
     [self someMethod];  
}
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Well even using just a global variable, doesn't guarantee mutual exclusion, since the variable is copied to the register before being updated, if that indeed is what you meant by "manual lock BOOL ..." and unfortunately their aren't any really elegant solutions .... Check out https://developer.apple.com/library/mac/ipad/#documentation/Cocoa/Conceptual/Multithreading/ThreadSafety/ThreadSafety.html

Good luck.

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In modern iOS and OS X, the most elegant mechanism for controlling the execution is to use dispatch queues and blocks. For a global lock, you can use a single serial queue and make request to it either synchronously or asynchronously, depending on whether you want the remainder of the execution on that thread to stop while you execute the critical code.

Declare your queue globally somewhere:

dispatch_queue_t myQueue;

So, when you launch, you'll create your queue:

myQueue = dispatch_queue_create( "CRITICAL_SECTION", DISPATCH_QUEUE_SERIAL);    // FIFO

And when you want to execute the critical section of code, you use:

dispatch_sync( shpLockQueue, ^{
     // critical section here
});

Depending on your needs, you might want to call your method within one of these blocks, or you might want to have the block within the object that you are protecting.

You could use the main dispatch queue for this, if you needed to make sure that the routine is run on the main thread, but if that's unnecessary, it's going to be more efficient to use your own queue. If you elect to use the main queue, you don't need to set up your own queue, or store it, you can just execute your code within:

dispatch_sync( dispatch_get_main_queue(), ^{
     // critical section here
});
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