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I have an issue while working with NSTimer. Let's assume I have this architecture :

ThreadedClass.m (contains a NSTimer* timer;)

- (id) init {
  if (self = [super init]) {
    // do blablabla
    [self launchAThread];
  }
  return self;
}


- (void) launchAThread {
    [NSThread detachNewThreadSelector:@selector(selectorToMyThreadFunction)
                             toTarget:self
                           withObject:nil];
}


- (void) selectorToMyThreadFunction {
    //I do my stuff in here
    //Then i relaunch a Timer to call this function
    //periodically but it has to be "atomic" so no
    //repeating timer since i don't know the time
    //this function will take

    //I do some [self changeSomething];

    [self restartTimer];

    //MyThread ends here (and might be recreated by the Timer's bip
}

- (void)restartTimer {
    if (![NSThread isMainThread]) {
      [self performSelectorOnMainThread:@selector(restartTimer)
                             withObject:nil
                          waitUntilDone:NO];
      return;
    }

    [timer invalidate];
    [timer release];
    timer = [[NSTimer scheduledTimerWithTimeInterval:interval
                                              target:self
                                            selector:@selector(launchWithTimer:)
                                            userInfo:nil
                                             repeats:NO] retain];
}

- (void) launchWithTimer:(NSTimer *)theTimer {
  if (theTimer == timer)
  {
    [timer release];
    timer = nil;
    [self launchAThread];
  }
  else
  {
    //Nothing to be done in here, a user launch a thread manually
  }
}

So let's assume the user of the class alloc it and release it right after. My timer will still be alive and the object too (since there is a retain made by the timer). When the timer will fire, it will do [self launchAThread] and then the timer will invalidate and release itself AND it will release my object which now has a retainCount = 0... Let's assume, one more time, the object is deallocted right after, this will cause crash and there is nothing i can do to stop it that comes right to my mind.

I agree, this is a lot of assumptions but i'm curious to know if someone already had this issue and how he solved it.

Thanks for reading and I hope I was clear ! :)

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5 Answers 5

Yo have to always invalidate your timer before releasing it. If the timer is a part of a view controller I am always invalidating it in viewWillDisappear. For me is so odd that NSTimers retains theirs owners. I think the best way is to create - (void)cleanUp method, that will invalidate the timer and warn the user of the class to ALWAYS use cleanUp before releasing. If somebody knows the better way I will be glad.

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Yes that's what I am doing right now. But as you, I'd like to know another method if there is any :). Thanks anyway –  delannoyk Feb 24 '12 at 17:05
    
Since I'm making a library, i can't assume that the user will call the cleanUp function anytime. So to resolve my problem, I added a new layer : a new class that will do the thread and timer part so that I am the user of this class and I know I have to cleanUp ! –  delannoyk Feb 27 '12 at 17:00

As long as you're not using a repeating timer, why not use dispatch_after? You'll save yourself the headache and overhead of the NSTimer object. And if you just stick with GCD you can avoid the call to detachNewThreadSelector: as well.

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NSRunloop will retain the timer for you, which means you don't have retain/release it at all

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Wasn't really my question. But thanks anyway –  delannoyk Feb 25 '12 at 9:20
up vote 0 down vote accepted

Since I'm making a library, i can't assume that the user will call a cleanUp function anytime.

So to solve my problem, I added a new "layer" : a new class that will do the thread and timer part so that I am the user of this class and I know I have to cleanUp !

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I first resorted to using a cleanUp kind of function too. I also have an object A owning object B that contains the timer - which retains object B. When object A is deallocated it releases object B, but B lives on because the timer retained it. Then in the method fired but the timer, I'm using a delegate relationship to call back to object A → hard crash. This is where object A needs to "cleanUp" B's timer. This could lead to other problems though if other objects also rely on object B. And also class A shouldn't and might not know the implementation secrets of class B. :-P I guess a good solution could be to unset that delegate relationship before releasing is done in A's dealloc because you don't know if B will die even if you released it - someone else might have retained it (LIKE THAT D*** NSTIMER)... :-P

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