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For the most part with ARC (Automatic Reference Counting), we don't need to think about memory management at all with Objective-C objects. It is not permitted to create NSAutoreleasePools anymore, however there is a new syntax:

@autoreleasepool {

My question is, why would I ever need this when I'm not supposed to be manually releasing/autoreleasing ?

EDIT: To sum up what I got out of all the anwers and comments succinctly:

New Syntax

@autoreleasepool { … } is new syntax for

NSAutoreleasePool *pool = [[NSAutoreleasePool alloc] init];
[pool drain];

More importantly,

  • ARC uses autorelease as well as release
  • It needs an autorelease pool in place to do so
  • ARC doesn't create the autorelease pool for you however,
  • The main thread of every Cocoa app already has an autorelease pool in it
  • There are two occasions when you might want to make use of @autoreleasepool
    • When you are in a secondary thread and there is no auto release pool, you must make your own to prevent leaks, such as myRunLoop(…) { @autoreleasepool { … } return success; }
    • When you wish to create a more local pool, as mattjgalloway has shown in his answer
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6 Answers 6

up vote 114 down vote accepted

ARC doesn't get rid of retains, releases and autoreleases, it just adds in the required ones for you. So there are still calls to retain, there are still calls to release, there are still calls to autorelease and there are still auto release pools.

One of the other changes they made with the new Clang 3.0 compiler and ARC is that they replaced NSAutoReleasePool with the @autoreleasepool compiler directive. NSAutoReleasePool was always a bit of a special "object" anyway and they made it so that the syntax of using one is not confused with an object so that it's generally a bit more simple.

So basically, you need @autoreleasepool because there are still auto release pools to worry about. You just don't need to worry about adding in autorelease calls.

An example of using an auto release pool:

- (void)useALoadOfNumbers {
    for (int j = 0; j < 10000; ++j) {
        @autoreleasepool {
            for (int i = 0; i < 10000; ++i) {
                NSNumber *number = [NSNumber numberWithInt:(i+j)];
                NSLog(@"number = %p", number);

A hugely contrived example, sure, but if you didn't have the @autoreleasepool inside the outer for-loop then you'd be releasing 100000000 objects later on rather than 10000 each time round the outer for-loop.

Update: Also see this answer - http://stackoverflow.com/a/7950636/1068248 - for why @autoreleasepool is nothing to do with ARC.

Update: I took a look into the internals of what's going on here and wrote it up on my blog. If you take a look there then you will see exactly what ARC is doing and how the new style @autoreleasepool and how it introduces a scope is used by the compiler to infer information about what retains, releases & autoreleases are required.

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ARC doesn't get rid of retains… But your code doesn't compile under ARC if you have a single call to any of these, so what is it that you mean? –  Mk12 Jan 31 '12 at 21:14
It doesn't get rid of retains. It adds them in for you. Reference counting is still going in, it's just automatic. Hence Automatic Reference Counting :-D. –  mattjgalloway Jan 31 '12 at 21:16
So why doesn't it add in the @autoreleasepool for me too? If I'm not controlling what gets autoreleased or released (ARC does that for me), how should I know when to set up an autorelease pool? –  Mk12 Jan 31 '12 at 21:18
But you have control over where your auto release pools go still. There's one wrapped around your whole app by default, but you might want more. –  mattjgalloway Jan 31 '12 at 21:27
Good question. You just have to "know". Think of adding one as akin to why one might, in a GC language, add a hint to a garbage collector to go ahead and run a collect cycle now. Maybe you know there's a ton of objects ready to be cleared out, you have a loop that allocates a bunch of temp objects, so you "know" (or Instruments might tell you :) that adding a release pool around the loop would be a good idea. –  Graham Perks Jan 31 '12 at 21:28

@autoreleasepool doesn't autorelease anything. It creates an autorelease pool, so that when the end of block is reached, any objects that were autoreleased by ARC while the block was active will be sent release messages. Apple's Advanced Memory Management Programming Guide explains it thus:

At the end of the autorelease pool block, objects that received an autorelease message within the block are sent a release message—an object receives a release message for each time it was sent an autorelease message within the block.

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Not necessarily. The object will receive a release message but if the retain count is > 1 the object will NOT be deallocated. –  andybons Apr 17 '13 at 2:55
@andybons: updated; thanks. Is this a change from pre-ARC behavior? –  outis Apr 19 '13 at 20:48
nope. Same way as it was before. –  andybons Apr 24 '13 at 22:31
This is incorrect. Objects released by ARC will be sent release messages as soon as they're released by ARC, with or without an autorelease pool. –  Glenn Maynard Feb 24 at 22:01

People often misunderstand ARC for some kind of garbage collection or the like. The truth is that, after some time people at Apple (thanks to llvm and clang projects) realized that Objective-C's memory administration (all the retains and releases, etc.) can be fully automatized at compile time. This is, just by reading the code, even before it is run! :)

In order to do so there is only one condition: We MUST follow the rules, otherwise the compiler would not be able to automate the process at compile time. So, to ensure that we never break the rules, we are not allowed to explicitly write release, retain, etc. Those calls are Automatically injected into our code by the compiler. Hence internally we still have autoreleases, retain, release, etc. It is just we don't need to write them anymore.

The A of ARC is automatic at compile time, which is much better than at run time like garbage collection.

We still have @autoreleasepool{...} because having it does not break any of the rules, we are free create/drain our pool anytime we need it :).

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ARC is reference counting GC, not mark-and-sweep GC like you get in JavaScript and Java, but it's definitely garbage collection. This doesn't address the question--"you can" doesn't answer the question of "why should you". You shouldn't. –  Glenn Maynard Feb 24 at 21:58

It's because you still need to provide the compiler with hints about when it is safe for autoreleased objects to go out of scope.

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Can you give me an example of when you would need to do this? –  Mk12 Jan 31 '12 at 21:10
Using Autorelease Pools –  rob mayoff Jan 31 '12 at 21:18
So before ARC, for example, I had a CVDisplayLink running on a secondary thread for my OpenGL app, but I didn't create an autorelease pool in its runloop because I knew I wasn't autorealeasing anything (or using libraries that do). Does that mean now I do need to add @autoreleasepool because I don't know if ARC might decide to autorelease something? –  Mk12 Jan 31 '12 at 21:24
@Mk12 - No. You will always still have an auto release pool that gets drained each time round the main run loop. You should only need to add one when you want to ensure that objects that have been autoreleased get drained before they would otherwise - for example, the next time round the run loop. –  mattjgalloway Jan 31 '12 at 21:33
@DougW - I took a look into what the compiler is actually doing and blogged about it here - iphone.galloway.me.uk/2012/02/a-look-under-arcs-hood-–-episode-3/ . Hopefully explains what's going on at both compile-time and run-time. –  mattjgalloway Feb 1 '12 at 10:56

Quoted from https://developer.apple.com/library/mac/documentation/Cocoa/Conceptual/MemoryMgmt/Articles/mmAutoreleasePools.html:

Autorelease Pool Blocks and Threads

Each thread in a Cocoa application maintains its own stack of autorelease pool blocks. If you are writing a Foundation-only program or if you detach a thread, you need to create your own autorelease pool block.

If your application or thread is long-lived and potentially generates a lot of autoreleased objects, you should use autorelease pool blocks (like AppKit and UIKit do on the main thread); otherwise, autoreleased objects accumulate and your memory footprint grows. If your detached thread does not make Cocoa calls, you do not need to use an autorelease pool block.

Note: If you create secondary threads using the POSIX thread APIs instead of NSThread, you cannot use Cocoa unless Cocoa is in multithreading mode. Cocoa enters multithreading mode only after detaching its first NSThread object. To use Cocoa on secondary POSIX threads, your application must first detach at least one NSThread object, which can immediately exit. You can test whether Cocoa is in multithreading mode with the NSThread class method isMultiThreaded.


In Automatic Reference Counting, or ARC, the system uses the same reference counting system as MRR, but it insertsthe appropriate memory management method callsfor you at compile-time. You are strongly encouraged to use ARC for new projects. If you use ARC, there is typically no need to understand the underlying implementation described in this document, although it may in some situations be helpful. For more about ARC, see Transitioning to ARC Release Notes.

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There seems to be a lot of confusion on this topic (and at least 80 people who probably are now confused about this and think they need to sprinkle @autoreleasepool around their code).

If a project (including its dependencies) exclusively uses ARC, then @autoreleasepool never needs to be used and will do nothing useful. ARC will handle releasing objects at the correct time. For example:

@interface Testing: NSObject
+ (void) test;

@implementation Testing
- (void) dealloc { NSLog(@"dealloc"); }

+ (void) test
    while(true) NSLog(@"p = %p", [Testing new]);


p = 0x17696f80
p = 0x17570a90

Each Testing object is deallocated as soon as the value goes out of scope, without waiting for an autorelease pool to be exited. (The same thing happens with the NSNumber example; this just lets us observe the dealloc.) ARC does not use autorelease.

The reason @autoreleasepool is still allowed is for mixed ARC and non-ARC projects, which haven't yet completely transitioned to ARC.

If you call into non-ARC code, it may return an autoreleased object. In that case, the above loop would leak, since the current autorelease pool will never be exited. That's where you'd want to put an @autoreleasepool around the code block.

But if you've completely made the ARC transition, then forget about autoreleasepool.

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This answer is wrong and also goes against ARC documentation. your evidence is anecdotal because you happen to be using an allocation method that the compiler decides not to autorelease. You can very easily see this not working if you create a new static initializer for your custom class. Create this initializer and use it in your loop: + (Testing *) testing { return [Testing new] }. Then you'll see that dealloc won't get called until later on. This is fixed if you wrap the inside of the loop in an @autoreleasepool block. –  Dima Jul 14 at 1:30

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