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Say for example I have the following definition of MyClass:

@interface MyClass
{
    ClassWithBigMemoryUsage* cwbmu;
}

-(void) setClassWithBigMemoryUsage:(ClassWithBigMemoryUsage*) assignment; // where cwbmu = assignment;

If I create a myClassInstance as a MyClass instance and cwbmuInstance as a ClassWithBigMemoryUsage instance, and then call [myClassInstance setClassWithBigMemoryUsage:cwbmuInstance]to set cwbmuInstance as a field of myClassInstance, will that create a new instance (meaning additional allocated memory) of the object ClassWithBigMemoryUsage for myClassInstance or will that simply reference myClassInstance's field to cwbmuInstance (meaning no additional memory for the object was allocated).

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It all depends. Does setClassWithBigMemoryUsage implement strong/retain semantics or copy semantics? –  Hot Licks Feb 15 '13 at 2:20
    
I'm not sure how to answer that, @HotLicks. Hehe. Sorry. Could you please clear strong/retain or copy semantics? –  brain56 Feb 15 '13 at 2:23
    
Are you dealing with a property? If so, how is it declared? –  Hot Licks Feb 15 '13 at 2:25

1 Answer 1

up vote 3 down vote accepted

All Objective-C objects are pointers (hence the * in ClassWithBigMemoryUsage *), so the object will be passed by reference and you won't have to worry about it getting copied when it is passed.

However, whether or not the object is copied when the method actually does the assignment obviously depends upon the implementation of your setter method. If you just do this:

cwbmu = assignment;

You'll just set the pointer value, and no copying is done. Of course, since it's an object, you should probably retain it, by doing:

[cwbmu autorelease];
cwbmu = [assignment retain];

But the result is the same. The only way to truly copy an Objective-C instance reliably is by explicitly sending it a copy message:

[cwbmu autorelease];
cwbmu = [assignment copy];

And this only works on classes that conform to the NSCopying protocol.

As a final note, if you're using @property declarations, along with @synthesize'd methods, you can specify which of these behavior's you'd like. Declaring a property the following three ways will use the three ways described, respectively:

@property (assign) ClassWithBigMemoryUsage* cwbmu;
@property (retain) ClassWithBigMemoryUsage* cwbmu;
@property (copy) ClassWithBigMemoryUsage* cwbmu;

Also note that under ARC, this memory management is done for you, so you can't control it directly. Instead, you'd use the weak option (instead of assign) or the strong option (instead of retain), and even though the old names still work, the new names make it more clear what you're actually doing. The copy option is still valid under ARC.

Finally, if you're using ARC, but not using @property, instance variables are, by default, managed as being strong. You can change this by prepending __weak to their ivar declaration. However, weak is not supported by all architectures, in which case __unsafe_unretained may be used instead, but in the latter case, deallocated object pointers will not be zeroed (set to nil), which they will be when using __weak.

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Thanks. I was thinking of the same thing but I just needed confirmation. I'm fairly new to Objective-C so I'm double-doubting my speculations. Haha. Can you please link to a reference for that? I can't find any. Thank you. –  brain56 Feb 15 '13 at 2:20
    
@brain56 Most of these rules are, at a simple level, the same as in plain C. Straight pointer assignment copies the pointers, not the values referenced by those pointers. If you're coming from a non-C background (as I know I was when I first learned Obj-C), just think in terms of strong and weak references with respect to object ownership. The biggest mistake you can make in Objective-C memory management is thinking too hard about memory management. –  Alexis King Feb 15 '13 at 2:30

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