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The way I understand auto reference counting is this:

If an object is going to be consumed by various classes, it should be type "strong" so that it stays around while others might be doing stuff with it.

If an object is simply an internal structure for a class, it can be type "weak", because it will go away once the current class implementation is done dealing with it.

Is there more to it than this?

Here is an example of what I imagine:

#import "World.h"
@interface Foo : NSObject
@property (nonatomic, strong) NSArray *barArray;
@property (nonatomic, weak) NSString *bazString;
@end

@implementation Foo
-(void)sendTheArrayIntoTheWorld {
    self.barArray = [NSArray arrayWithObject:@"lonely item"];
    [World takeTheArray:self.barArray]; // array is strong so it can exist indefinitely
}

-(void)useThatString {
    self.bazString = "weak old string"; // string is weak because it should be discarded when it's no longer needed here...
}
@end
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1 Answer 1

up vote 0 down vote accepted

This isn't exactly how ARC works. It boils down to this:

  • Strong references are the only ones that keep objects alive
  • An object needs at least one strong reference to remain alive
  • Weak references do not keep objects alive- if there are 100 weak references to an object but no strong references, then the object will be released
  • Assigning a value to a weak property without referencing it elsewhere will result in its immediate deallocation, as with your bazString. If you try accessing that string after you assign it a value (unless it is being owned by another object, like an array, which it is not in your case), you'll find that it is nil.

This means that weak references should be used for objects that you don't necessarily 'control,' like delegates. If you use a strong reference for a delegate and the delegate has a strong reference on you, then neither object will ever be deallocated. This is called a retain cycle.

If you need an object to stay alive until you are done with it, use strong. Otherwise, use weak.

You can read much more about the intricacies and features of ARC here.

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and when you do "@property (readonly)", that is not changing the reference count at all, correct? –  patrick Aug 17 '12 at 23:50
    
Correct. You'll notice that readonly can be used for objects and primitives alike- it has not effect on the property's retain count, only whether or not it can be changed by another object. –  iamataptool Aug 17 '12 at 23:54
    
also-- is this appropriate then? pastie.org/4541177 ... because the game class is going to instantiate a SpaceShip and, say the ship behaves a certain way based off of what level it's on-- it's going to pass the level to the created space ship... So in this case, the SpaceShip class should have a weak reference to the level object, because the game class is already holding onto it... Is that the right way to think about it? –  patrick Aug 17 '12 at 23:55
    
also when Apple says "weak references are not supported in 10.6 / iOS4", what does that mean? How can ARC be supported but not weak references? What happens when properties are declared with weak references on those platforms? –  patrick Aug 18 '12 at 0:05
    
Yes, that hierarchy will work. "Weak references are not supported..." means that if you are making an app for those platforms, you have to use unsafe_unretained instead of weak. It is essentially the same except it does NOT nil out an object once its retain count is 0. That is an important distinction. There are other small differences too, which you can read about in the link I posted in my answer. –  iamataptool Aug 18 '12 at 14:46

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