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I wanted to get something clarified.

Lets say I have the following code:

- (void) viewDidAppear:(BOOL)animated {
  [super viewDidAppear:animated];
  for (int i = 0; i < 5000000; i++) {
    NSString *s = [NSString stringWithFormat:@"Hello, %@!", @"World"];

This will create 5 million autoreleased strings within this function call. I was expecting this to keep those objects around until the termination of the application, as the only @autoreleasepool I see is the one wrapping the application instantiation in main.m. That's not the case, though. At the end of this function call, it seems they all get their release called and are removed from memory.

This document:

States that "The Application Kit creates an autorelease pool on the main thread at the beginning of every cycle of the event loop, and drains it at the end, thereby releasing any autoreleased objects generated while processing an event."

That makes sense to me, but this is under UIKit, and not Application Kit. My question is, does UIKit/Cocoa Touch do the same thing in this case, or is there another explanation for my objects getting released?


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3 Answers 3

up vote 7 down vote accepted

Yes, UIKit does the same thing. The system-created, main thread autorelease pool is drained at the end of every run loop cycle. It's probably best not to rely on this exact lifetime in your own code. If you create a new thread manually (using e.g. NSThread), you're responsible for creating the autorelease pool on that thread.

EDIT: Rob's answer provides some good additional information regarding behavior under ARC. In general, it's fair to say that objects are less likely to end up in the autorelease pool due to some optimizations ARC is able to make.

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Andrew answered your main question that, yes, your autorelease pool will be drained on every cycle of the main run loop. So any autorelease objects created in viewDidLoad may promptly get drained when you yield back to the main run loop. They certainly won't be retained "until the termination of the application."

But we should be careful: You're clearly assuming that these objects are being added to an autorelease pool. But often when you create local objects in ARC, those items may or may not be autoreleased, but rather explicitly and immediately released by ARC.

Consider the following class:

@interface MyObject : NSObject

@implementation MyObject

+ (instancetype)myObject
    return [[self alloc] init];


The following code will add 500,000 objects to the autorelease pool, which will only be drained when I yield back to the run loop:

for (long i = 0; i < 500000; i++) {
    MyObject *object = [MyObject myObject];

autorelease pool drain

Whereas this code will not create autorelease objects, but rather will explicitly release them when they fall out of scope:

for (long i = 0; i < 500000; i++) {
    MyObject *object = [[MyObject alloc] init];

no autorelease pool drain

You could, in the first example, where the autorelease objects were created, explicitly add your own autorelease pools to control the high-water mark:

for (int j = 0; j < 5; j++) {
    @autoreleasepool {
        for (long i = 0; i < 100000; i++) {
            MyObject *object = [MyObject myObject];

a few autorelease pools

Bottom line, with ARC, it's not always obvious when it used an autorelease object and when it explicitly releases it when the variable falls out of scope. You can always confirm this by examining the behavior in Instruments.

As an aside, I'd be wary about drawing too many general memory management conclusions when using the NSString class, as it has been highly optimized and doesn't always conform to standard memory management practices.

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"The following code will add 500,000 objects to the autorelease pool, which will only be drained when I yield back to the run loop" It's possible for ARC to release it immediately just like the second code, perhaps with optimization turned on. – newacct Nov 7 '13 at 20:30
I chose [NSString stringWithFormat:] because I know the returned object has autorelease called on it. All of this I knew previously, with the exception of the pool around each event, but thank you for the clarification. Hopefully it'll help someone else who stumbles upon this question :) – James Richard Nov 7 '13 at 21:50
if object = nil deletes the original object from memory then possibly object = [MyObject myObject] deletes the original object from memory. Why would it be stored in autorelease pool under ARC? – stefanB Nov 8 '13 at 2:59
@stefanB If you have an autorelease object (which the [MyObject myObject] code creates), object = nil (or simply letting the object fall out of scope) does not "delete" an object. It simply nils the pointer and leaves said object in the autorelease pool and the object will only be deallocated when the pool drains. – Rob Nov 8 '13 at 5:44

I would assume that when you assign new object to a reference that used to hold an object then the original object is released right away (if nothing else points to it - ref count goes to zero) using ARC and asuming default strong reference as in your loop example.

MyObject *object = [[MyObject alloc] init]; // obj1, ref count 1 because strong
object = [[MyObject alloc] init]; // obj2, ref count of obj1 should be 0
                                  // so obj1 gets released

Apple notes in Transitioning to ARC Release Notes

Try to stop thinking about where the retain/release calls are put and think about your application algorithms instead. Think about “strong and weak” pointers in your objects, about object ownership, and about possible retain cycles.

It sounds that the release is called on object when it's assigned new value, from clang Clang 3.4 documentation OBJECTIVE-C AUTOMATIC REFERENCE COUNTING (ARC)

Assignment occurs when evaluating an assignment operator. The semantics vary based on the qualification:

For __strong objects, the new pointee is first retained; second, the lvalue is loaded with primitive semantics; third, the new pointee is stored into the lvalue with primitive semantics; and finally, the old pointee is released. This is not performed atomically; external synchronization must be used to make this safe in the face of concurrent loads and stores.

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While you are correct in your example, this is not true in general. If you do, for example, MyObject *object = [MyObject myObject]; object=nil;, that creates an autorelease object that will only be deallocated once the pool has drained. The same is true with the OP's NSString *s = [NSString stringWithFormat:@"Hello, %@!", @"World"]; example, that it's added to the autorelease pool, not immediately deallocated if he does s = nil;. That's only deallocated when the pool is drained. – Rob Nov 8 '13 at 16:11
If James had done NSString *s = [[NSString alloc] initWithFormat:@"Hello, %@!", @"World"];, he would have seen the behavior you describe, but not with stringWithFormat. But, this is immaterial to his original question, which was not "how do I create an object that is not an autorelease object?" but rather a more fundamental question of "if I create autorelease objects, when is the pool drained?" To which the answer is, as Andrew points out, "it's drained when you yield back to the run loop," not "when the app terminates" as James originally hypothesized. – Rob Nov 8 '13 at 16:20

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