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Consider a situation implemented in Manual Retain Release, where I have a variable pointing to an object returned by a method.

{
    ...
    NSString *str = [self myNewString];
    ...
}

- (NSString *)myNewString
{
    NSString *myString = [NSString stringWithFormat:@"%d-String", 1];
    return myString;
}

Here do we have to retain the object returned by myNewString so that it wont be released while we are using it?

Please help I am new to Objective-C. Thanks in advance.

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1  
If you're just learning Objective-C, learn ARC instead. Manual reference counting is just another thing you can get wrong, and it buys you absolutely nothing. –  godel9 Dec 26 '13 at 5:42
1  
Yeah, thanks for the advice. But I am keen on understanding what actually happens under the hood. So I have begun to learn the Manual Reference Counting. –  user3008132 Dec 26 '13 at 5:46
    
It's admirable that you want to develop an in depth understanding of Objectivr-C, but I'll urge you again to learn Modern Objective-C/ARC. It emphasizes the relationships between objects, rather than the mechanical and automate-able reference counting. –  godel9 Dec 26 '13 at 13:39
    
I wanted to learn manual reference counting too when I started until I wrote my first ARC program, and I realized that I'd wasted all the time I'd spent learning reference counting. All I can do is advise you not to make the same mistake. –  godel9 Dec 26 '13 at 13:40
    
@godel9: Understanding MRC is very useful. In ARC the compiler simply automates the MRC memory management rules. That means it has the same issues that are encountered in MRC, e.g. retain cycles. –  newacct Dec 28 '13 at 0:40

3 Answers 3

up vote 3 down vote accepted

There are two aspects to this answer:

  1. First, you want to conform to the method naming rule, that dictates that any method whose name begins with “alloc”, “new”, “copy”, or “mutableCopy” should have a +1 retain count (i.e. ownership is transferred), otherwise it should be an autorelease object (or, more accurately, any object whose ownership is not transferred, and if the caller wants to claim ownership, it would have to manually retain it).

    By the way, ARC uses these method name prefixes to determine the object memory semantics automatically, but in manual retain and release (MRR) code, the burden rests with the programmer to ensure that the memory management of the method conforms to the semantics implied by the method's name. Following this method naming rule will become important if you ever integrate this MRR code with ARC code at some future date. There are code hints you can use if you have legacy code that violates this method naming convention, but it's really just better to make sure your code's memory semantics are in conformance with this method naming rule.

    Regardless, this method naming rule is included in the Basic Memory Management Rules outlined in the Advanced Memory Management Programming Guide.

    So, in manual retain and release, you have one of two choices. If the method starts with “alloc”, “new”, “copy”, or “mutableCopy”, then it should transfer ownership by returning a +1 retainCount object, e.g.:

    - (NSString *)newSomeString
    {
        return [[NSString alloc] initWithFormat:@"%d-String", 1];
    }
    

    otherwise, it should not transfer ownership (e.g. return an autorelease object), such as:

    - (NSString *)someString
    {
        return [NSString stringWithFormat:@"%d-String", 1];
    }
    
  2. So, if the caller wanted to make sure the object was retained, it could either just call the method that returned the +1 object:

    NSString *string = [self newSomeString];
    

    or, call the version that returns an autorelease object, but then explicitly retain it:

    NSString *string = [[self someString] retain];
    

In practice, the latter convention, the someString example, is more common (use method that returns autorelease object, i.e. where the method name does not start with “alloc”, “new”, “copy”, or “mutableCopy”; and then if the caller needs to retain it, it should just explicitly do so). The new, copy, and mutableCopy methods all are generally used within respective, very specific contexts, which don't apply here.

By the way, if you run your code through the static analyzer ("Analyze" on Xcode's "Product" menu), it does a remarkably good job warning you if your MRR code has issues with over retaining objects or failing to retain them.

But bottom line, carefully follow the basic memory management rules, including the convention for naming methods, and then if you need it retained, explicitly retain your autorelease object or call a method that returns a +1 retainCount object.

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This makes me more clear. In case I've created the string using alloc i need not retain it on receiving. But if I've created it using any of the class method like stringWithFormat, I will have to retain it to ensure it lives till i require it. Have I got it right @Rob? –  user3008132 Dec 26 '13 at 6:51
    
@user3008132 Yep, that is basically right. And also make sure that the name of your method matches the type of object being returned (e.g. start method name with “alloc”, “new”, “copy”, or “mutableCopy” if it's return +1 object created with alloc/init; don't start the method with one of those four strings if you're returning an autorelease object, e.g. an object created with stringWithFormat). In this case, I'd advise a method called someString (or whatever) that returned an object created with stringWithFormat, and have the caller manually retain it. –  Rob Dec 26 '13 at 6:56
    
Thank you so much. This helped me a lot. –  user3008132 Dec 26 '13 at 7:13
    
"any method whose name begins with “alloc”, “new”, “copy”, or “mutableCopy” should have a +1 retain count" You forgot retain –  newacct Dec 28 '13 at 0:33
    
"otherwise, it should return an autoreleased object" It doesn't have to be autoreleased. It just have to not have +1 retain semantics. –  newacct Dec 28 '13 at 0:35

Here you are passing just the address of location where NSString object is stored. So, definitely object would be retained by compiler. But you don't have to worry. ARC will take care of releasing memory once the reference count is 0. Here you go Learn more about ARC

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Hi, I've edited my question. My situation in when I am using Manual Reference Counting and not ARC. Thank You. –  user3008132 Dec 26 '13 at 6:03
    
Yeah.. in that case you don't need to retain it, as there will not be any ARC to clear it off. But you have to release it as soon as it is unnecessary. Please go through the link i've provided. helped me to understand minute details which i didn't knew on top level of ARC –  Prince Agrawal Dec 26 '13 at 6:07
    
Hey.. I didn't understand why you accepted other answer.. As you said you were looking for Manual Reference Counting.. Other answer talks about ARC.. Please verify it again & let me know if i am wrong –  Prince Agrawal Dec 26 '13 at 6:16

Basically any method that returns a new object besides new/alloc+init Returns it without ownership, meaning that you can count on it sticking around until the enclosing autoreleasepool drains, but no telling after that. If you want to keep it around longer, you must retain it.

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Sorry but this answer is invalid for Manual Reference Counting. As it is clearly mentioned in question, person is talking about Manual Reference Counting. –  Prince Agrawal Dec 26 '13 at 6:17
    
@achievelimitless If you think this answer is not useful or clearly wrong, you should downvote it instead of flagging it as "not an answer". –  Ja͢ck Dec 26 '13 at 8:26
    
Sorry @jack.. don't have enough reputation to down vote it :( –  Prince Agrawal Dec 26 '13 at 8:27
1  
@achievelimitless This answer does apply to MRC, and not ARC. What exactly do you think is incorrect about it? stringWithFormat returns an autoreleased string. Everything is enclosed in an autoreleasepool in the run loop, and the object will stick around until that pool is drained, after the calling method returns. –  Kevin Dec 26 '13 at 14:40
1  
you are forgetting copy and mutableCopy –  newacct Dec 28 '13 at 0:39

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