Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have code like this:

vector<SoundObject*> sounds ;

- (void) loadSound:(NSString*) name
    SoundObject* so = [[[SoundObject alloc] init] load:name] ;
    if( so )
      sounds.push_back( so ) ;

Ok, so I did a couple of things here (I may be very noob at this, just focus on memory leaks).

  1. Should I call [so retain] before pushing so into the array?
  2. It is possible for load to fail, and if it does, it returns nil.
    • If load did fail, do I have to call [self release] before returning from load?
share|improve this question
Is there a reason why you're choosing an STL vector over an NSMutableArray? The native Foundation classes will handle memory ownership for you. – Ben Zotto Sep 8 '12 at 3:11
Oh interesting. I am using STL vectors wherever possible for performance reasons. I kind of realize that I'm not going to get much of a performance gain by using objective-C objects inside a C++ container, but the purpose of this question is to understand Objective-C reference counting. Given that, can someone answer the 2 questions I have posted here? – bobobobo Sep 8 '12 at 3:13
up vote 3 down vote accepted

but the purpose of this question is to understand Objective-C reference counting

You are going to understand less of Cocoa memory management if you use vector rather than using NSArray. This is because methods that follow Cocoa memory management rules cooperate together in a nice way; but the methods of vector are not written with retains and releases, and so do not follow Cocoa manual reference counting rules. So unless you're using ARC, you're going to have to break memory management rules yourself to explicitly memory-manage it from the outside. This is terrible and will teach you wrong ideas.

The great thing about Cocoa memory management is that it is completely local. You retain and release only based on what you do in the function, and you never have to worry about what other functions do. That's what makes it possible to statically analyze memory management and implement ARC.

What do I mean? The basic rule of Cocoa memory management is that object arguments of a function are guaranteed to be valid (i.e. not deallocated) when a function is called, and there is no guarantee about it being valid any time after. That's it. So when you pass an argument to another function, as long as the object is valid when you pass it, that's all you need to worry about. You never need to "retain the object for the other function" because the other function cannot assume that the object is valid at any time after anyway.

This includes adding things to an NSArray:

Foo *obj = [[Foo alloc] init];
[myArray addObject:obj];
[obj release];

Since you no longer need obj after adding it, you are free to release it. You don't need to worry about anything else. Now, as other people said, this works because the array retains its elements. But you don't need to know that. NSArray methods follow the same rules as all other methods of objects. You don't need to know how NSArray or any other class works to do memory management right. You don't even need to know what type of object is myArray or what addObject: does. That method takes care of it -- if it needs to keep the object around for longer, it must (as part of the memory management rules) somehow retain it; if it does not need to keep it, it doesn't need to do anything. The point is, it doesn't matter to you.

Another example:

Foo *obj = [[Foo alloc] init];
[someObj performSelector:@selector(something:) withObject:obj afterDelay:5];
[obj release];

This does something asynchronous, so how can we release it? Won't it be invalid by the time it is used? No. Again, this all follows the same memory management rules. You don't need to worry about what that method does. If it needs to keep the object around somehow (and it does in this case), it must retain it (and it indeed does) and take care of releasing it, etc.

All this simplicity and beauty goes away if you try to force something like vector into the picture. You will have to retain things before putting them in, and release things every time an element is removed. It is terrible. You could write a wrapper class around vector so you can have all the terrible memory management logic in that file and others can use it as a normal Objective-C class; but then that would be pretty much like NSMutableArray.

share|improve this answer

If you're writing new code, you should just use Automatic Reference Counting (ARC).

It will mitigate a lot of potential memory issues you'd encounter.

Additionally, I'd stick with Foundation collections, like NSArray, or NSMutableArray, rather than what seems to be a C++ vector.

NSMutableArray *_myMutableArray = [[NSMutableArray alloc] init];

- (void)loadSound:(NSString *)name
  SoundObject *so = [[SoundObject alloc] init];

  if( nil != so )
    [so load:name];

    [_myMutableArray addObject:so];
share|improve this answer
Sorry, I should have mentioned I don't want to use NSMutableArray here -- I want to understand [retain] and [release]. – bobobobo Sep 8 '12 at 3:15
@bobobobo: Well, regardless of whether or not you use a Foundation collection, you can still use ARC. They are not mutually exclusive. – Josh Sep 8 '12 at 3:17
Am I not using ARC? I thought I was. – bobobobo Sep 8 '12 at 3:18
@bobobobo: If you use ARC, you don't need to (and shouldn't!) call things like -retain, -release, -dealloc, etc. – Josh Sep 8 '12 at 3:20
Oh! I am using ARC. I see. If I try and type [so retain] the build actually fails. Very cool. – bobobobo Sep 8 '12 at 3:32

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.