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I wrote the following sample code to see how ARC works

@property (nonatomic, weak) NSString *myString;
@property (nonatomic, weak) NSObject *myObj;
@end

@implementation ViewController
@synthesize myString = _myString;
@synthesize myObj = _myObj;
- (void) viewDidAppear:(BOOL)animated
{
    NSLog(@"Appearing Obj: !%@!",self.myObj);
    NSLog(@"Appearing String: !%@!",self.myString);
}

- (void)viewDidLoad
{
    self.myObj = [[NSObject alloc] init];
    self.myString = [[NSString alloc] init];
    NSLog(@"Loading Obj %@",self.myObj);
    NSLog(@"Loading String: !%@!",self.myString);
}

However surprisingly I got these results:

2012-06-19 15:08:22.516 TESTER[4041:f803] Loading Obj (null)
2012-06-19 15:08:22.517 TESTER[4041:f803] Loading String: !!
2012-06-19 15:08:22.533 TESTER[4041:f803] Appearing Obj: !(null)!
2012-06-19 15:08:22.535 TESTER[4041:f803] Appearing String: !!

As you can see, Obj got released properly but my string (which is also a weak property) does not print out null...Why not?

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Is the string you are setting in myString by any change a string literal (something like @"Hello world!")? –  David Rönnqvist Jun 19 '12 at 19:27

3 Answers 3

up vote 11 down vote accepted

NSString uses all sorts of internal trickery to reuse objects and avoid unnecessary allocations and copies. It can do this because NSString instances are immutable. In this case there is probably a shared instance to represent an empty string which is being returned by [[NSString alloc] init], and this shared instance will be retained somewhere else as a singleton.

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That seems to make sense. Thanks! –  Nosrettap Jun 19 '12 at 20:14
    
Perhaps somebody can check out the NSString source code to confirm this. –  Mike Weller Jun 19 '12 at 20:15
    
Makes sense, though I wouldn't think it would be wise to rely on this behavior, which seems to just be a manifestation of some optimization, which is subject to change at some future date. –  Rob Jun 19 '12 at 20:24
2  
One of those optimization are that string literals get exist throughout the lifetime of the application. Also, creating a new string with a reference to a string literal ([NSString stringWithFormat:@"Hello world"]; or [[NSString alloc] initWithFormat:@"Hello world"];) will return a reference to the exact same string literal (like I mentioned in my answer) –  David Rönnqvist Jun 19 '12 at 20:41
    
I guess copy will also yield the same shared instance when you call it on a literal string? –  NicolasMiari Jun 21 '12 at 7:19

[[NSString alloc] init] always returns identical value. You can check it by yourself.

NSString *string1 = [[NSString alloc] init];
NSString *string2 = [[NSString alloc] init];
NSString *string3 = [[NSString alloc] init];
NSLog(@"string1 = %p, string2 = %p, string3 = %p", string1, string2, string3)

This code returns three identical addresses. In my case, output was:

string1 = 0x3e8dd74c, string2 = 0x3e8dd74c, string3 = 0x3e8dd74c

That means [[NSString alloc] init] returns Singleton. Singletons usually can't be released.

Making strings with other methods (like initWithFormat:) makes usual 'non-singleton' objects, which usually can be released, with some exceptions.

Further: Looking source code (Assembler):

-[NSPlaceholderString init]:
00040ea4        f64b009c        movw    r0, 0xb89c
00040ea8        f2c00016        movt    r0, 0x16
00040eac            4478        add     r0, pc
00040eae            4770        bx      lr

it would be something like this (in objectiveC)

-(id)init
{
    return SOME_CONSTANT_VALUE;
}

It might be kCFEmptyString, but I'm not sure.

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That is very strange. If you set it using a convenience method:

self.myString = [NSString stringWithFormat:@"Test"];

In this case, in viewDidLoad you see the "Test" string, but in viewWillAppear it then says (null).

But if you set it using something like:

self.myString = [[NSString alloc] initWithFormat:@"Test %d", 2];

In this case, you'll see (null) in both viewDidLoad and viewWillAppear, much more like the NSObject behavior.

Finally, if you use the ivar directly:

_myString = [[NSString alloc] init];

In the above code, if you bypass the setter and use the weak ivar directly, you get a reasonable compiler warning "Assigning retained object to weak variable; object will be released after assignment":

Bottom line, as the final warning suggests, you really shouldn't be assigning weak variables with objects without strong references elsewhere, so it's a little academic. But still a fascinating question why NSObject and NSString behave differently.

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In the second case ("bypass local variable") you are creating the string with a convenience method (which, in non-ARC code, returns an autoreleased object); the ARC sample code I've seen so far usually uses alloc/initWithFormat: (plus implicit release inserted by the compiler where appropriate). I'm a total ARC noob so this may be nothing... –  NicolasMiari Jun 19 '12 at 19:59
    
@ranReloaded Yes, that makes sense. I'll update my answer accordingly. It still doesn't explain the behavior Nosrettap sees, with different behavior for NSObject and NSString. –  Rob Jun 19 '12 at 20:04
    
Yes. Also, I watched the ARC tech note, and as far as I can tell, there should be no difference between alloc/init and convenience method... –  NicolasMiari Jun 21 '12 at 7:17

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