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Here is what i have in my main method:

int main (int argc, const char * argv[]) {  
    NSString *string=[[NSString alloc]init];  
    NSLog(@"%@   The retain count is:%d", string, [string retainCount]);  
    NSLog(@"Hello, World!");  
    return 0;  

The output on executing this piece of code is "The retain count is :-1".
I was expecting it to give me 1 as the retain count, since i created the object using alloc. I have similar problems when i try to retain or release the NSString objects.

When i try with NSArray, i get the retain count immediately after creation of object as 2. I do not understand the mechanism of how the objects are being treated. Please explain! Thanks in advance..

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don't ever look at the retain count. It's almost never useful and it only causes confusion. @DarkDust has a great answer as to how you should manage your memory. –  kubi Jan 20 '11 at 12:19

2 Answers 2

up vote 8 down vote accepted

-1 is what you get if you cast UINT_MAX to a signed value. UINT_MAX is the documented retain count of objects which are never released, which includes string literal objects.

Speaking of the documentation, I suggest reading the big box about how retainCount is generally not useful.

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@Sahitya Tarumani: Everything that you allocate, you must deallocate. In Cocoa, you don't do this directly; instead, you release, and when everything that owned an object has released it, it deallocates itself. An object that was never allocated, such as a literal string, does not need to be deallocated; since ensuring that deallocation happens only at the proper time is the only reason for reference counting, an object that won't deallocate itself need not count retains. Such objects return UINT_MAX as their retain count. These are what I called “permanent objects” in my other comment. –  Peter Hosey Jan 21 '11 at 7:58
"An object that was never allocated, such as a literal string"...I did use the statement {...NSString *string=[[NSString alloc]init];...}...Doesnt this statement allocate memory to string? –  Sahitya Tarumani Jan 21 '11 at 8:33
Oops! Wasn’t paying enough attention. [[NSString alloc] init] isn’t a string literal, but it gives you a singleton, the empty string object, which is permanent. (It doesn’t need to create a new object each time, since NSStrings are immutable.) –  Jens Ayton Jan 21 '11 at 9:27
@Sahitya Tarumani: It doesn't in the current implementation, as Ahruman says, which is how you can get away with not following the rules. However, it may, so you should follow the rules anyway. –  Peter Hosey Jan 21 '11 at 9:43
@Sahitya Tarumani: It doesn't matter. Don't worry about whether an object is permanent or not. It is trivia, not anything that should affect how you write your code. It is also subject to change at any time. Simply follow the rules described in the documentation at all times. –  Peter Hosey Jan 21 '11 at 15:35

You shouldn't focus on the raw retain count value, as this can be a different value depending on various things. For example, in your first line you are allocating what is the equivalent of @"", that is an empty string. This is optimized by an object that cannot be deallocated and is shared wherever you're "allocating" it. The same is true for all static strings, e.g. look the value returned by [@"Hello" retainCount].

Instead you should focus on relative retain count. That is, is the retain count increased (+1), does it stay the same (+0) or is it decreased (-1). You always need to make sure that these relative value sum up to 0.

An example:

Foo *foo = [[Foo alloc] init];
[foo retain];
[foo release];
[foo autorelease];

The alloc method returns an object with +1, and retain also increses the count by 1. So by the end of line 2, we're at +2. Both release and autorelease have the effect of -1, so at the end of line 4 you're at +0 and everything is fine.

There are a few simple rules: if the method name is alloc, starts with the words copy or create then you will get an object with retain count +1. All other methods (especially those start with get) should return objects with retain count +0. If your method needs to create an object but its name implies that a +0 object should be returned, you can do this:

- (Foo *) bar {
    Foo *result = [[Foo alloc] init]; // +1
    return [result autorelease]; // -1
    // Object lives until the autorelease pool is drained,
    // but relative retain count is +0.
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int main (int argc, const char * argv[]) { NSString *string=[[NSString alloc]init]; NSLog(@"%@ The retain count is:%d", string, [string retainCount]); NSLog(@"Hello, World!"); return 0; } –  Sahitya Tarumani Jan 20 '11 at 13:26
Why do you show me this code snippet ? –  DarkDust Jan 20 '11 at 13:43
This is why you shouldn't really even look at relative retain count. Autorelease does not affect the retain count. What it does is transfer ownership to the autorelease pool. –  JeremyP Jan 20 '11 at 14:00
create does not mean “returns an owning reference” in Cocoa-land. It means that in CF-land; in Cocoa, the word is new. (Remember the acronym NARC: New, Alloc, Retain, or Copy.) Also, the obligatory link: developer.apple.com/library/mac/documentation/Cocoa/Conceptual/… –  Peter Hosey Jan 20 '11 at 15:04
@JeremyP: You are correct about transfering ownership, but if you send autorelease to an object x times the pool will later call release on the object x times. And in order to keep you memory clean you do need to care about the relative retain count, or how else do you ensure that objects get cleaned up at the right time (and do get cleaned up) ? –  DarkDust Jan 20 '11 at 15:55

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