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Suppose Object A has a property:

@property (nonatomic, strong) Foo * bar;

Synthesized in the implementation as:

@synthesize bar = _bar;

Object B manipulates a Foo **, as in this example call from Object A:

Foo * temp = self.bar;
[objB doSomething:&temp];
self.bar = temp;
  • Can this, or something similar, be done legitimately?
  • What is the correct declaration for the doSomething: method?

Furthermore, suppose Object B may be deallocated before I have a chance to set the bar property (and thus take on ownership of the instance pointed to by temp) - How would I tell ARC to hand off an owning reference? In other words, if I wanted the following example snippet to work, how would I need to handle the ARC issues?

Foo * temp = self.bar;    // Give it a reference to some current value
[objB doSomething:&temp]; // Let it modify the reference
self.bar = nil;           // Basically release whatever we have
_bar = temp;              // Since we're getting back an owning reference, bypass setter
  • What aren't I thinking of?

EDIT

Based on @KevinBallard 's answer, I just want to confirm my understanding. Is this correct?

Object A:

@implementation ObjectA

@synthesize bar = _bar;

- (void)someMethod
{
    ObjectB * objB = [[ObjectB alloc] initWithFoo:&_bar];
    // objB handed off somewhere and eventually it's "doSomething" method is called.
}

@end

Object B:

@implementation ObjectB
{
    Foo * __autoreleasing * _temp;
}

- (id)initWithFoo:(Foo * __autoreleasing *)temp
{
    id self = [super init];
    if (self)
    {
        _temp = temp;
    }
    return self;
}

- (void)doSomething
{
    ...
    *_temp = [[Foo alloc] init]; 
    ...
}

@end

This creates a compile-time error: passing address of non-local object to __autoreleasing parameter for write-back

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2 Answers

up vote 98 down vote accepted

ARC needs to know the ownership of an object reference so it can determine when to release it etc. For any variable (local, instance or global) ARC has rules for determining the ownership; either by inference or by an explicit attribute. This equates to the pre-ARC need for the programmer to track ownership.

But what happens if you have a reference to a variable? You could not (pre-ARC) yourself write code which accepted a reference to a variable and which would always work correctly regardless of the ownership of that variable - as you could not know whether you needed to release etc. I.e. you can not construct code which works for variable (in the sense of changing!) unknown ownership.

ARC faces the same problem and its solution is to infer, or accept an explicit attribute specifying, the ownership of referenced variable and then require the caller to arrange for a reference to a variable of appropriate ownership to be passed. This latter bit can require the use of hidden temporary variables. This is the "least bad solution" referred to and is termed "pass-by-writeback".

The first part of the question:

Foo * temp = self.bar;
[objB doSomething:&temp];
self.bar = temp;
  • Can this, or something similar, be done legitimately?

Yes, the code is fine by ARC. temp is inferred to be strong and some behind the scenes stuff happens to pass it by reference to doSomething:.

  • What is the correct declaration for the doSomething: method?
- (void) doSomething:(Foo **)byRefFoo

ARC infers byRefFoo to be of type Foo * __autoreleasing * - a reference to an autoreleasing reference. This is what is required by "pass-by-writeback".

This code is only valid because temp is a local. It would be incorrect to do this with an instance variable (as you found out in your EDIT). It is also only valid assuming the parameter is being used in standard "out" mode and any updated value has been assign when doSomething: returns. Both of these are because the way pass-by-writeback works as part of that "least bad solution"...

Summary: when using local variables they can be passed by reference for use in the standard "out" pattern with ARC inferring any required attributes etc.

Under The Hood

Instead of the Foo of the question we'll use a type Breadcrumbs; this is essentially a wrapped NSString which tracks every init, retain, release, autorelease and dealloc (well almost as you'll see below) so we can see what is going on. How Breadcrumbs is written is not material.

Now consider the following class:

@implementation ByRef
{
   Breadcrumbs *instance;                                // __strong inferred
}

A method to change a value passed by reference:

- (void) indirect:(Breadcrumbs **)byRef                  // __autoreleasing inferred
{
   *byRef = [Breadcrumbs newWith:@"banana"];
}

A simple wrapper for indirect: so we can see what it is passed and when it returns:

- (void) indirectWrapper:(Breadcrumbs **)byRef           // __autoreleasing inferred
{
   NSLog(@"indirect: passed reference %p, contains %p - %@, owners %lu", byRef, *byRef, *byRef, [*byRef ownerCount]);
   [self indirect:byRef];
   NSLog(@"indirect: returned");
}

And a method to deomnstrate indirect: called on a local variable (called imaginatively local):

- (void) demo1
{
   NSLog(@"Strong local passed by autoreleasing reference");
   Breadcrumbs *local;                                   // __strong inferred
   local = [Breadcrumbs newWith:@"apple"];
   NSLog(@"local: addr %p, contains %p - %@, owners %lu", &local, local, local, [local ownerCount]);
   [self indirectWrapper:&local];
   NSLog(@"local: addr %p, contains %p - %@, owners %lu", &local, local, local, [local ownerCount]);
}

@end

Now some code to exercise demo1 localizing the autorelease pool so we can see what is allocated, released and when:

ByRef *test = [ByRef new];

NSLog(@"Start demo1");
@autoreleasepool
{
   [test demo1];
   NSLog(@"Flush demo1");
}
NSLog(@"End demo1");

Executing the above produces the following on the console:

ark[2041:707] Start demo1
ark[2041:707] Strong local passed by autoreleasing reference
ark[2041:707] >>> 0x100176f30: init
ark[2041:707] local: addr 0x7fff5fbfedc0, contains 0x100176f30 - apple, owners 1
ark[2041:707] indirect: passed reference 0x7fff5fbfedb8, contains 0x100176f30 - apple, owners 1
ark[2041:707] >>> 0x100427d10: init
ark[2041:707] >>> 0x100427d10: autorelease
ark[2041:707] indirect: returned
ark[2041:707] >>> 0x100427d10: retain
ark[2041:707] >>> 0x100176f30: release
ark[2041:707] >>> 0x100176f30: dealloc
ark[2041:707] local: addr 0x7fff5fbfedc0, contains 0x100427d10 - banana, owners 2
ark[2041:707] >>> 0x100427d10: release
ark[2041:707] Flush demo1
ark[2041:707] >>> 0x100427d10: release
ark[2041:707] >>> 0x100427d10: dealloc
ark[2041:707] End demo1

[The ">>>" lines come from Breadcrumbs.] Just follow the addresses of the objects (0x100...) and variables (0x7fff...) and it is all clear...

Well maybe not! Here it is again with comments after each chunk:

ark[2041:707] Start demo1
ark[2041:707] Strong local passed by autoreleasing reference
ark[2041:707] >>> 0x100176f30: init
ark[2041:707] local: addr 0x7fff5fbfedc0, contains 0x100176f30 - apple, owners 1

Here we see that [Breadcrumbs newWith:@"apple"] creates an object at address 0x100176f30. This is stored in local, whose address is 0x7fff5fbfedc0, and the object has 1 owner (local).

ark[2041:707] indirect: passed reference 0x7fff5fbfedb8, contains 0x100176f30 - apple, owners 1

Here comes the hidden variable: as indirect: requires a reference to an autoreleasing variable ARC has created a new variable, whose address is 0x7fff5fbfedb8, and copied the object reference (0x100176f30) into that.

ark[2041:707] >>> 0x100427d10: init
ark[2041:707] >>> 0x100427d10: autorelease
ark[2041:707] indirect: returned

Inside indirect: a new object is created and ARC autoreleases it before assigning it - because the passed references refers to an autoreleasing variable.

Note: ARC does not need to do anything with the previous contents (0x100176f30) of the referenced variable (0x7fff5fbfedb8) as it is autoreleasing and hence not its responsibility. I.e. what "autoreleasing ownership" means is that any reference assigned must have already been effectively autoreleased. You'll see when creating the hidden variable ARC did not actually retain and autorelease its contents - it did not need to do this as it knows there is a strong reference (in local) to the object which it is managing. [In the last example below ARC does not elide the retain/autorelease.]

ark[2041:707] >>> 0x100427d10: retain
ark[2041:707] >>> 0x100176f30: release
ark[2041:707] >>> 0x100176f30: dealloc

These actions result from copying (the "writeback" in call-by-writeback) the value from the hidden variable into local. The release/dealloc are for the old strong reference in local, and the retain is for the object referenced by the hidden variable (which was autoreleased by indirect:)

Note: this writeback is why this only works for the "out" pattern of using pass-by-reference - you can't store the reference passed to indirect: as it is to a hidden local variable which is about to disappear...

ark[2041:707] local: addr 0x7fff5fbfedc0, contains 0x100427d10 - banana, owners 2

So after the call local refers to the new object, and it has 2 owners - local accounts for one, and the other is the autorelease in indirect:

ark[2041:707] >>> 0x100427d10: release

demo1 is now finished so ARC releases the object in local

ark[2041:707] Flush demo1
ark[2041:707] >>> 0x100427d10: release
ark[2041:707] >>> 0x100427d10: dealloc
ark[2041:707] End demo1

and after demo1 returns the localized @autoreleasepool handles the autorelease pending from indirect:, now the ownership is zero and we get the dealloc.

Passing instance variables by reference

The above deals with passing local variables by reference, but unfortunately pass-by-writeback does not work for instance variables. There are two basic solutions:

  • copy your instance variable to a local

  • add some attributes

To demonstrate the second we add to class ByRef a strongIndirect: which specifies it requires a reference to a strong variable:

- (void) strongIndirect:(Breadcrumbs * __strong *)byRef
{
   *byRef = [Breadcrumbs newWith:@"plum"];
}

- (void) strongIndirectWrapper:(Breadcrumbs * __strong *)byRef
{
   NSLog(@"strongIndirect: passed reference %p, contains %p - %@, owners %lu", byRef, *byRef, *byRef, [*byRef ownerCount]);
   [self strongIndirect:byRef];
   NSLog(@"strongIndirect: returned");
}

and a corresponding demo2 which uses ByRef's instance variable (again with the imaginative name of instance):

- (void) demo2
{
   NSLog(@"Strong instance passed by strong reference");
   instance = [Breadcrumbs newWith:@"orange"];
   NSLog(@"instance: addr %p, contains %p - %@, owners %lu", &instance, instance, instance, [instance ownerCount]);
   [self strongIndirectWrapper:&instance];
   NSLog(@"instance: addr %p, contains %p - %@, owners %lu", &instance, instance, instance, [instance ownerCount]);
}

Execute this with a similiar piece of code as for demo1 above and we get:

1  ark[2041:707] Start demo2
2  ark[2041:707] Strong instance passed by strong reference
3  ark[2041:707] >>> 0x100176f30: init
4  ark[2041:707] instance: addr 0x100147518, contains 0x100176f30 - orange, owners 1
5  ark[2041:707] strongIndirect: passed reference 0x100147518, contains 0x100176f30 - orange, owners 1
6  ark[2041:707] >>> 0x100427d10: init
7  ark[2041:707] >>> 0x100176f30: release
8  ark[2041:707] >>> 0x100176f30: dealloc
9  ark[2041:707] strongIndirect: returned
10 ark[2041:707] instance: addr 0x100147518, contains 0x100427d10 - plum, owners 1
11 ark[2041:707] Flush demo2
12 ark[2041:707] End demo2

Which is a bit shorter than before. This is for two reasons:

  • As we are passing a strong variable (instance) to a method (strongIndirect:) which expects a reference to a strong variable there is no need for ARC to use a hidden variable - the variables in line 4 and 5 above are the same (0x100147518).

  • As ARC knows the referenced variable in strongIndirect: is strong there is no need to store an autoreleased reference within strongIndirect: and then write this back after the call - ARC just does a standard strong assignment, lines 6-8, and there is nothing to autorelease later (between lines 11 and 12).

Does strongIndirect: work for strong locals?

Of course, here is demo3:

- (void) demo3
{
   NSLog(@"Strong local passed by strong reference");
   Breadcrumbs *local;                                   // __strong inferred
   local = [Breadcrumbs newWith:@"apple"];
   NSLog(@"local: addr %p, contains %p - %@, owners %lu", &local, local, local, [local ownerCount]);
   [self strongIndirectWrapper:&local];
   NSLog(@"local: addr %p, contains %p - %@, owners %lu", &local, local, local, [local ownerCount]);
}

Executing this with our standard wrapper produces:

1  ark[2041:707] Start demo3
2  ark[2041:707] Strong local passed by strong reference
3  ark[2041:707] >>> 0x100176f30: init
4  ark[2041:707] local: addr 0x7fff5fbfedc0, contains 0x100176f30 - apple, owners 1
5  ark[2041:707] strongIndirect: passed reference 0x7fff5fbfedc0, contains 0x100176f30 - apple, owners 1
6  ark[2041:707] >>> 0x100427d20: init
7  ark[2041:707] >>> 0x100176f30: release
8  ark[2041:707] >>> 0x100176f30: dealloc
9  ark[2041:707] strongIndirect: returned
10 ark[2041:707] local: addr 0x7fff5fbfedc0, contains 0x100427d20 - plum, owners 1
11 ark[2041:707] >>> 0x100427d20: release
12 ark[2041:707] >>> 0x100427d20: dealloc
13 ark[2041:707] Flush demo3
14 ark[2041:707] End demo3

This is almost the same as the previous example, just two minor differences:

  • The address of the local on the stack is passed (0x7fff5fbfedc0), lines 4 and 5

  • As it is stored in a local the new object is cleaned up by ARC, lines 11 and 12

Why not always add __strong to reference arguments?

One reason is because not everything is strong! ARC's pass-by-writeback works for weak locals as well. Our final demo:

- (void) demo4
{
   NSLog(@"Weak instance passed by autoreleasing reference");
   instance = [Breadcrumbs newWith:@"peach"];
   Breadcrumbs __weak *weakLocal = instance;
   NSLog(@"weakLocal: addr %p, contains %p - %@, owners %lu", &weakLocal, weakLocal, weakLocal, [weakLocal ownerCount]);
   [self indirectWrapper:&weakLocal];
   NSLog(@"weakLocal: addr %p, contains %p -, %@, owners %lu", &weakLocal, weakLocal, weakLocal, [weakLocal ownerCount]);
}

[Here we've just used instance so we have something to make a weak reference to.]

Executing this with our standard wrapper produces:

1  ark[2041:707] Start demo4
2  ark[2041:707] Weak instance passed by autoreleasing reference
3  ark[2041:707] >>> 0x100427d20: init
4  ark[2041:707] >>> 0x100427d10: release
5  ark[2041:707] >>> 0x100427d10: dealloc
6  ark[2041:707] weakLocal: addr 0x7fff5fbfedd0, contains 0x100427d20 - peach, owners 1
7  ark[2041:707] >>> 0x100427d20: autorelease
8  ark[2041:707] indirect: passed reference 0x7fff5fbfedc8, contains 0x100427d20 - peach, owners 2
9  ark[2041:707] >>> 0x100429040: init
10 ark[2041:707] >>> 0x100429040: autorelease
11 ark[2041:707] indirect: returned
12 ark[2041:707] weakLocal: addr 0x7fff5fbfedd0, contains 0x100429040 -, banana, owners 1
13 ark[2041:707] Flush demo4
14 ark[2041:707] >>> 0x100429040: release
15 ark[2041:707] >>> 0x100429040: dealloc
16 ark[2041:707] >>> 0x100427d20: release
17 ark[2041:707] End demo4

Notes:

  • Lines 3-5 are just setting up instance - create a new value and release the old one - the real stuff starts at line 6

  • ARC uses a hidden variable (line 8, 0x7fff5fbfedc8) for weak locals (line 6, 0x7fff5fbfedd0) as well

  • ARC has not elided the retain/autorelease on assigning to this hidden variable as it did above. You can see the autorelease on line 7 but my Breadcrumbs missed the retain - but the ownership of 2 on line 8 shows it occurred.

  • There are two autoreleases so there must be two corresponding releases when the pool is drained (lines 14 and 16) - there is only one corresponding dealloc (line 15) as the other object (0x100427d20) is referenced by instance and ARC cleans that up when our ByRef instance goes away.

Summary

  • Without any added attributes ARC will do the right thing for local (inferred strong) variables passed as parameters by reference (inferred autoreleasing). (And "local" includes parameters to the current method.)

  • This is implemented by ARC using pass-by-writeback and only works if you follow the "out" parameter pattern. If you wish to store the passed reference for use later you'll need to do more yourself.

  • If you wish to pass instance variables by reference you either need to copy them into locals or attribute the receiving parameter type with __strong.

  • pass-by-writeback also works for __weak locals.

Hope that helps.

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5  
What a great answer. That's exactly the kind of insight I was hoping for. Thank you very much! –  Steve Jan 12 '12 at 15:36
    
Awesome answer! you deserve my upvote! –  Mausimo Jan 10 '13 at 20:29
1  
Wow! This definitely goes down in the SO hall of fame! Thanks for taking the time to write that. Great response. –  Chris Maddern Apr 4 '13 at 21:52
    
I was gonna say what Chris said - dang, @CRD you're the man (or woman)! –  taber Nov 15 '13 at 9:24
add comment

This is perfectly legitimate. The property access is irrelevant; passing a pointer to an object is commonly done with NSError* objects.

The correct way to declare your method is

- (returntype)doSomething:(Foo * __autoreleasing *)arg;

This declares it as a pointer to an __autoreleasing object, which basically means that the object being pointed to is assumed to have been -autoreleased.

As for the "Furthermore", that's not an issue under ARC. Your line

Foo * temp = self.bar;

is equivalent to

__strong Foo *temp = self.bar;

which I hope is obvious to you that this makes temp a strong reference, and thus it "owns" its value for as long as the variable exists. In other words, you can say

Foo *temp = self.bar;
self.bar = nil;

and temp is still valid.

share|improve this answer
    
For the "furthermore"; does your statement still hold if temp is an instance variable? –  Steve Jan 11 '12 at 6:47
    
@Steve: My statement holds as long as the variable is __strong, which is the default state for variables under ARC. –  Kevin Ballard Jan 11 '12 at 7:55
    
Thanks for your time. I hate to belabor this, but could you possibly check my edit to confirm my understanding of your answer? –  Steve Jan 11 '12 at 16:07
    
I get this error: passing address of non-local object to __autoreleasing parameter for write-back –  Steve Jan 11 '12 at 16:12
    
@Steve: as you've found your edit is wrong. The way "out" parameters are handled is described in the documentation as "the least bad solution", so some confusion is understandable! Also __autoreleasing on a parameter is documented as being inferred, so @Kevin's answer is correct but theoretically redundant... I'll add a proper answer later if nobody beats me to it. –  CRD Jan 11 '12 at 18:43
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