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Automatic Reference Counting (ARC) introduces some new type qualifiers. I've seen __strong and __weak, but what do they do?

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up vote 31 down vote accepted

__strong means that on assignment, the rvalue of the expression will be retained and stored into the lvalue using primitive semantics. (To deallocate such an object, all you must do is assign it nil, the previously referenced object will be released, nil will be retained, which effectively does nothing and it's peaches and cream.)

__unsafe_unretained and __weak are similar in the sense that the address of the rvalue will be assigned to the lvalue, but if you use the __weak qualifier, this operation is guaranteed to be atomic and subject to some different semantics. One of these are that if the object that is being assigned is currently undergoing deallocation, then the assignment will evaluate to nil and that will then be atomically stored back in to the lvalue of the expression. Hence the wording __unsafe_unretained, because that operation is indeed unsafe and unretained.

__autoreleasing is like __strong except it has one caveat: The retained object is pushed onto the current autorelease pool, so you can for example obtain temporary ownership of an object to remove it from a collection and then return it back to the caller. There are other uses for this, but they mostly have to do with obtaining temporary ownership of an object.

These behaviors also present themselves in the corresponding property modifiers (strong, unsafe_unretained and weak).

See the Clang Automatic Reference Counting Technical Specification

EDIT: For those not targeting iOS 5 and therefore unable to reap the benefits of __weak, Mike Ash wrote a superb article (and implementation) on zeroing weak references which you can use instead.

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How do you make the unsafe__unretain object safer? I mean, if it's not turned to nil automatically by the compiler then how should we be handling that dangling object? – Mohammad Abdurraafay Dec 1 '11 at 17:54
@MohammadAbdurraafay You can use __weak in that case... – Jacob Relkin Dec 1 '11 at 18:38
If I'm not wrong __weak is not available in later iOS versions, then in that case how am I going to make unsafe__unretain object safer, which is not set to nil automatically? – Mohammad Abdurraafay Dec 5 '11 at 15:23
Set it to nil manually, just as you would before ARC. – Catfish_Man Dec 20 '11 at 5:33

Strong tells ARC to retain the property.

@property (strong,nonatomic) NSObject *object;
@property (retain,nonatomic) NSObject *object;

Weak is essentially assign, a unretained property. Except the when the object is deallocated the weak pointer is automatically set to nil.

@property (weak,nonatomic) NSObject *object;
@property (assign,nonatomic) NSObject *object;

Weak is only available on iOS 4.3 and up. If you want to target iOS 4.2 you need to use unsafe_unretained, that will work exactly like assign used to.

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On Mac OS X, weak is only available since Lion; your iOS 4.2 advice goes for Snow Leopard as well. – Peter Hosey Oct 31 '11 at 3:44
@NJones, I do have a question though. How on earth can weak be nonatomic? weak by definition is atomic. – Jacob Relkin Nov 1 '11 at 1:37
@JacobRelkin. That's a good question. I would assume that nonatomic is belied by the weak modifier. But that is how it's done; Just to check I started a new Xcode project, added a label, and then connected an outlet sure enough it gave me '@property (weak, nonatomic) IBOutlet UILabel *label;'. – NJones Nov 1 '11 at 4:03

The type qualifiers are __autoreleasing, __strong, __unsafe_unretained, and __weak. The property modifiers are strong, unsafe_unretained, and weak.

Have a look at section 4 of Automatic Reference Counting in the LLVM/Clang documentation.

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