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When compiling with ARC, method arguments often appear to be retained at the beginning of the method and released at the end. This retain/release pair seems superfluous, and contradicts the idea that ARC "produces the code you would have written anyway". Nobody in those dark, pre-ARC days performed an extra retain/release on all method arguments just to be on the safe side, did they?

Consider:

@interface Test : NSObject
@end

@implementation Test

- (void)testARC:(NSString *)s
{
  [s length];  // no extra retain/release here.
}

- (void)testARC2:(NSString *)s
{
  // ARC inserts [s retain]
  [s length];
  [s length];
  // ARC inserts [s release]
}

- (void)testARC3:(__unsafe_unretained NSString *)s
{
  // no retain -- we used __unsafe_unretained
  [s length];
  [s length];
  // no release -- we used __unsafe_unretained
}

@end

When compiled with Xcode 4.3.2 in release mode, the assembly (such that I'm able to understand it) contained calls to objc_retain and objc_release at the start and end of the second method. What's going on?

This is not a huge problem, but this extra retain/release traffic does show up when using Instruments to profile performance-sensitive code. It seems you can decorate method arguments with __unsafe_unretained to avoid this extra retain/release, as I've done in the third example, but doing so feels quite disgusting.

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2  
Any idea why it does not happen in the first example? –  Thilo Apr 25 '12 at 6:32
    
You can always check out the actual generated code using the disassembly assistant view. –  Danra Jul 17 '12 at 12:52
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4 Answers 4

up vote 14 down vote accepted

See this reply from the Objc-language mailing list:

When the compiler doesn't know anything about the memory management behavior of a function or method (and this happens a lot), then the compiler must assume:

1) That the function or method might completely rearrange or replace the entire object graph of the application (it probably won't, but it could). 2) That the caller might be manual reference counted code, and therefore the lifetime of passed in parameters is not realistically knowable.

Given #1 and #2; and given that ARC must never allow an object to be prematurely deallocated, then these two assumptions force the compiler to retain passed in objects more often than not.

I think that the main problem is that your method’s body might lead to the arguments being released, so that ARC has to act defensively and retain them:

- (void) processItems
{
    [self setItems:[NSArray arrayWithObject:[NSNumber numberWithInt:0]]];
    [self doSomethingSillyWith:[items lastObject]];
}

- (void) doSomethingSillyWith: (id) foo
{
    [self setItems:nil];
    NSLog(@"%@", foo); // if ARC did not retain foo, you could be in trouble
}

That might also be the reason that you don’t see the extra retain when there’s just a single call in your method.

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4  
In a nutshell, in the second example, the first call to [s length] might cause s to be deallocated unless it is retained first, so the second call could be on a non existent object. –  JeremyP Apr 25 '12 at 8:23
    
"the compiler doesn't know anything about the memory management behavior of a function or method". One would think that it could figure out (or be told by Apple) that NSString:length is well-behaved. Are there example when the compiler has enough useful information? Or does this really happen with all method calls? –  Thilo Apr 26 '12 at 2:05
    
I guess it’s too hard to be worth it. “Well-behaved” would probably boil down to “does not release anything apart from local variables”, and that’s quite a strong guarantee to make. The cost of the extra retains and releases on method arguments is effectively zero for most people and when it really hurts you, __unsafe_unretained solves the case if you know what you’re doing. –  zoul Apr 26 '12 at 9:38
1  
Wrong; ARC assumes that your code does not perform any "unmotivated" release/retain pairs (not to be confused with retain/release pairs). The right reason has something to do with thread-safety, in that we want to prevent some other thread from dealloc'ing our argument while we're still using it. Admittedly I'm having a hard time coming up with an example where this could be a problem in practice, since if the other thread runs fast enough it could still dealloc our argument before we've reached the added retain. But "retain what you use" is still a good general principle! –  Quuxplusone Sep 4 '12 at 17:55
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Passing as a parameter does not, in general, increase the retain count. However, if you're passing it to something like NSThread, it is specifically documented that it will retain the parameter for the new thread.

So without an example of how you're intending to start this new thread, I can't give a definitive answer. In general, though, you should be fine.

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It will not increment behind the scenes. Under ARC if the object is Strong it will simply remain alive until there are no more strong pointers to it. But this really has nothing to do with the object being passed as a parameter or not.

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Even the answer of soul is correct, it is a bit deeper than it should be:

It is retained, because the passed reference is assigned to a strong variable, the parameter variable. This and only this is the reason for the retain/release pair. (Set the parameter var to __weak and what happens?)

One could optimize it away? It would be like optimizing every retain/release pairs on local variables away, because parameters are local variables. This can be done, if the compiler understands the hole code inside the method including all messages sent and functions calls. This can be applied that rarely that clang even does not try to do it. (Imagine that the arg points to a person (only) belonging to a group and the group is dealloc'd: the person would be dealloc'd, too.)

And yes, not to retain args in MRC was a kind of dangerous, but typically developers know their code that good, that they optimized the retain/release away without thinking about it.

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