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I think I have a pretty good understanding of ARC and the proper use cases for selecting an appropriate lifetime qualifiers (__strong, __weak, __unsafe_unretained, and __autoreleasing). However, in my testing, I've found one example that doesn't make sense to me.

As I understand it, both __weak and __unsafe_unretained do not add a retain count. Therefore, if there are no other __strong pointers to the object, it is instantly deallocated (with immutable strings being an exception to this rule). The only difference in this process is that __weak pointers are set to nil, and __unsafe_unretained pointers are left alone.

If I create a __weak pointer to a simple, custom object (composed of one NSString property), I see the expected (null) value when trying to access a property:

Test * __weak myTest = [[Test alloc] init];
myTest.myVal = @"Hi!";
NSLog(@"Value: %@", myTest.myVal); // Prints Value: (null)

Similarly, I would expect the __unsafe_unretained lifetime qualifier to cause a crash, due to the resulting dangling pointer. However, it doesn't. In this next test, I see the actual value:

Test * __unsafe_unretained myTest = [[Test alloc] init];
myTest.myVal = @"Hi!";
NSLog(@"Value: %@", myTest.myVal); // Prints Value: Hi!

Why doesn't the __unsafe_unretained object become deallocated?

[EDIT]: The object is being deallocated... if I try to substitute lines 2 - 3 with NSLog(@"%@", myTest); the app crashes (and an overridden dealloc in Test is being called immediately after the first line). I know that immutable strings will continue to be available even with __unsafe_unretained, and that a direct pointer to the NSString would work. I am just surprised that I could set a property on a deallocated object (line 2), and that it could later be dereferenced from a pointer to the deallocated object it belonged to (line 3)! If anyone could explain that, it would definitely answer my question.

5 Answers 5

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I am just surprised that I could set a property on a deallocated object (line 2), and that it could later be dereferenced from a pointer to the deallocated object it belonged to (line 3)! If anyone could explain that, it would definitely answer my question.

When the object is deallocated it is not zeroed. As you have a pointer to the deallocated object and the property value is stored at some offset to that pointer it is possible that storing and retrieving that property value will succeed after deallocation, it is also quite possible that everything will blow up for some reason or other.

That your code works is quite fragile, try debugging it with "Show Disassembly While Debugging" and stepping through, you'll probably hit an access violation, or take down Xcode itself...

You should never be surprised that strange things happen in C, Objective-C, C++ or any of the family; instead reserve your surprise for so few strange things happening!

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Because the constant string in objc is a constant pointer to a heap address and the address is still valid.

edited after comment:

Maybe because the memory at the test objects address hasn't been overwritten and still contains that object? Speculating....

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  • That makes sense for a pointer to an NSString, but it doesn't explain why myTest wouldn't be nil. Strictly speaking, I would expect the second line, myTest.myVal = @"Hi!" would silently fail, because myTest should be instantly deallocated... and if myTest was deallocated, I would expect myVal would never be reached.
    – J Shapiro
    Nov 20, 2012 at 16:59
  • Woops. Right! Somehow overlooked that. Hmmm... Why doesn't it get deallocated?
    – Mario
    Nov 20, 2012 at 17:03
  • .. rather in the first sentence, I meant: "it doesn't explain why myTest wouldn't be pointing to an empty block of memory" (not nil...). I'm guessing you're on the right track though. It might have something to do with how immutable strings are dereferenced. Perhaps that process still has the original NSString's address?
    – J Shapiro
    Nov 20, 2012 at 17:11
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You can see when Test is deallocated by implementing its -dealloc method and adding some simple logging.

However, even if Test is deallocated immediately, the memory it occupied in RAM may remain unchanged at the time you call myVal.

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  • Also, I think under ARC you cant implement dealloc - or am I wrong here?
    – Mario
    Nov 20, 2012 at 17:13
  • It's definitely deallocated. When I run another test, and simply try to call NSLog(@"%@", myTest); that does crash. So somehow because the value of the property is an immutable String, it's still able to deference it (even after the owning object is deallocated).
    – J Shapiro
    Nov 20, 2012 at 17:14
  • You can implement dealloc. You just can't call it directly or call [super dealloc]
    – J Shapiro
    Nov 20, 2012 at 17:15
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@"hi!" produces a static global constant string instance that is, effectively, a singleton. Thus, it'll never be deallocated because it wasn't really allocated in the first place (at least, it really isn't a normal heap allocation).

Anytime you want to explore object lifespan issues, always use a subclass of NSObject both to guarantee behavior and to make it easy to drop in logging hooks by overriding behavior.

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    Right... but @"hi!" isn't even being set until the object is deallocated... how is it able to set a property for a deallocated object? See my edited comments in my original question...
    – J Shapiro
    Nov 20, 2012 at 17:26
  • Also Test is a subclass of NSObject
    – J Shapiro
    Nov 20, 2012 at 17:33
  • As I understand, the immortality of NSStrings should be treated as an implementation detail and you should hold strong references to them regardless. I believe that immutable strings that are not compile-time constants are not immortal.
    – wjl
    Dec 10, 2012 at 16:06
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Nothing strange there… You need to have at least 1 strong reference to object to keep it alive.

Test * anTest = [[Test alloc] init];
Test * __weak myTest = anTest;
myTest.myVal = @"Hi!";
NSLog(@"Value: %@", myTest.myVal); // Prints Value: (Hi)
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    I don't think you understood the question. I was asking how my tests were showing that an object was kept alive, even though it DIDN'T have a strong reference.
    – J Shapiro
    May 31, 2013 at 19:17
  • weak: object killed and the pointer zeroed immediately, unsafe_unretained: object killed when pointer becomes 'out of scope'. So, _unsafe_unretained has no any useful effect for local pointers
    – Vadym
    Jun 6, 2013 at 15:29
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    I don't think your definition of unsafe_unretained is correct. The only difference between that and weak is that the unsafe_unretained pointer is not zeroed out. I don't believe it keeps the object alive till the pointer falls out of scope. Re-read the comment I had written in the EDIT section of the question... the unsafe_unretained object is being deallocated immediately with ARC.
    – J Shapiro
    Jun 7, 2013 at 13:54

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