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Here is implement of a setter method:

- (void)setCount:(NSNumber *)newCount {
    [newCount retain];
    [_count release];
    // Make the new assignment.
    _count = newCount;

If retainCount of _count is <=0, how it can release ?

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how you know retainCount <=0? –  Anoop Vaidya Apr 9 '13 at 17:17
A "getter" method? Do you mean setter? –  DrummerB Apr 9 '13 at 17:17
@Anoop: Assume that happened –  DungProton Apr 9 '13 at 17:21
What? ......... –  user529758 Apr 9 '13 at 17:23
@JustSid No, that's wrong if the object is set back to itself when it has a reference count of 1. Then it's released, deallocated, and the dangling pointer is retained. –  user529758 Apr 9 '13 at 17:28

2 Answers 2

The only valid object that can ever have a retain count of 0 is nil. And sending any message to nil just returns 0 without doing anything else, so that case is covered.

If you mean "how can this work with a deallocated object" — well, it can't. And a deallocated object's retain count isn't really 0, because the object doesn't exist anymore — it's been destroyed and is now just a chunk of memory — so it doesn't have any attributes. Doing anything with a deallocated object is invalid and what will happen is undefined.

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@DungProton: Yes. It is sent dealloc when the reference count reaches 0. It isn't marked and freed at some point in the future — it's deallocated right then. And even if that didn't actually happen, those are the semantics of the operation, so any code that depended on an object still being alive after its last release would be incorrect. –  Chuck Apr 9 '13 at 17:37
@DungProton: Both. If the retain count is 1, release would make it 0. Making it 0 makes the object destructible, so release destroys the object. –  cHao Apr 9 '13 at 18:00
@DungProton: If the retain count is 1 when you call release, then that release makes it 0. You can think of release as being implemented like this: if (--myRetainCount == 0) [self dealloc];. (That isn't actually how it's implemented, but that's pretty much how it works.) –  Chuck Apr 9 '13 at 18:05
@DungProton: I am quite certain that objects are freed immediately upon receiving their last release under normal circumstances. You can read the source code to the Objective-C runtime and see for yourself. The memory is freed up and can then be used by other allocations. The pointer itself is not destroyed — there is no such thing as "destroying" a pointer value — it is just no longer valid. –  Chuck Apr 9 '13 at 18:26
@RobNapier: Even "you will crash" is assuming too much. Pretty much anything could happen, but very little of it would be good in the long run. –  cHao Apr 9 '13 at 18:32

Imagine a class with a retainCount instance variable.

@implementation MyClass
   NSUInteger retainCount;

- (id) retain {
    return self;

- (void) release {
    if (retainCount > 1)
        [self dealloc];

Once an object is deallocated, it is dead, gone, done for, etc... Thus, there is no point in ever decrementing the retainCount to 0 because, by definition, the object is going to be deallocated and working with a deallocated object is undefined behavior.

The above is the exact logic of NSObject, but a completely different implementation (you really wouldn't want to see NSObject's actual implementation -- it is quite painful).

The other source of confusion appears to be what a reference means.

 NSObject *foo;
 char *bar;
 NSUInteger baz;

For all intents and purposes, the above three variable declarations behave identically [in manual retain/release].

When you say bar = "Hello, World!";, you are telling the compiler 'copy the address of the memory that holds the string "Hello, World!" into the memory named bar". Same for foo, only you are copying the address of memory that holds an instance of the class NSObject.

Now, baz may seem different. But it really isn't except that it holds numbers, not addresses. But, really, an address is a number!

So, in a setter::

- (void)setCount:(NSNumber *)newCount {
    // increment newCount's retain count
    [newCount retain];
    // decrement the _count's retain count (which may cause it to be deallocated or not)
    [_count release];
    // copy the address of the memory that holds the NSNumber instance referenced
    // by `newCount` into the instance variable `_count`.
    _count = newCount;

There is nothing magical about that assignment [under manual retain release]. It is just copying a number from one variable to the other. The objects are not impacted at all by this.

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