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I am seeing the condition described in this question but with an important caveat. Consider this code:

@implementation UIAlertView (Factory)

+ (instancetype)alertViewWithTitle:(NSString *)title
                           message:(NSString *)message
                 cancelButtonTitle:(NSString *)cancelButtonTitle
                 otherButtonTitles:(NSArray *)otherButtonTitles
    UIAlertView *alertView = [[UIAlertView alloc] initWithTitle:title message:message delegate:delegate cancelButtonTitle:cancelButtonTitle otherButtonTitles:nil];
    for (NSString *otherButtonTitle in otherButtonTitles)
        [alertView addButtonWithTitle:otherButtonTitle];
    return alertView;


If I do this:

@property (nonatomic, weak) UIAlertView *alertView;


self.alertView = [UIAlertView alertViewWithTitle:@"Hi" message:nil delegate:self cancelButtonTitle:@"OK" otherButtonTitles:nil];
[self.alertView show];

When I build in debug mode it works -- i.e. the factory method returns an autoreleasing pointer, so self.alertView has a value. Once it's shown, it's retained in the view hierarchy. This is not something I want to do, though -- this was a mistake and it reared its head as an actual problem when I built for release: the compiler (logically) appears to optimize away the assignment, leaving self.alertView equal to nil.

Even if I switch the analyzer to run on my release build it is not flagging this use of a weak pointer.

Is there a way to get the compiler / pre-compiler to flag this?

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You should be seeing this warning Assigning retained object to weak property; object will be released after assignment. –  CrimsonChris May 27 at 17:47
Just managed to reproduce your issue, very strange. I would expect it to be cleaned up. Something about it being a factory method is changing that. –  CrimsonChris May 27 at 17:56
@CrimsonChris I agree that is a related question, but does not address how I might get a warning when I write code that does this. –  Ben Flynn May 27 at 18:29
The compiler has not optimized by making a deliberate choice to release the object earlier. Instead, the optimizations in a release build enable the objc_autoreleaseReturnValue() magic that avoids ever putting the object in the autorelease pool. So, the release that ARC was always putting into your code deallocates the object. There's no longer a reference outstanding in the autorelease pool. The compiler can warn when a +1 reference is assigned to a weak property, but yours is a +0 reference. If it were to warn about that, it would have to warn about all assignment to weak properties. –  Ken Thomases May 27 at 23:17
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1 Answer 1

Add this to get the behavior you are expecting...

@autoreleasepool {
    self.alertView = [UIAlertView alertViewWithTitle:@"my alert view"];
[self.alertView show];

With ARC you are not guaranteed that your object will cleaned up immediately. The compiler doesn't know if your factory method is adding strong references. It could be.

This answer goes into more detail.

A static method is not always the same thing as an alloc init. The compiler can't tell the difference between +(id)makeMyObject and +(id)getMyObjectThatAlreadyExistsAndIsManagedBySomebodyElse.

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I don't see a warning, even when I do this. I only get a warning if I assign it to "[[UIAlertView alloc] init]". –  Ben Flynn May 27 at 18:31
You won't get a warning because alertViewWithTitle could be creating strong references behind the scenes. The compiler isn't going to analyze my custom factory method. –  CrimsonChris May 27 at 18:33
So your answer says "Add this to get the behavior you are expecting", but the behavior I am expecting is a warning, which this does not do. Moreover, it's not a reasonable solution to wrap every assignment in an autorelease pool. –  Ben Flynn May 27 at 18:38
I agree that you shouldn't use an autorelease pool here, this answer is attempting to explain why you CAN'T get the warning you are expecting. –  CrimsonChris May 27 at 18:39
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