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In @mmalc's response to this question he states that "In general you should not use accessor methods in dealloc (or init)." Why does mmalc say this?

The only really reasons I can think of are performance and avoiding unknown side-effects of @dynamic setters.

Discussion?

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6 Answers 6

up vote 18 down vote accepted

It is all about using idiomatically consistent code. If you pattern all of your code appropriately there are sets of rules that guarantee that using an accessor in init/dealloc is safe.

The big issue is that (as mmalc said) the code the sets up the properties default state should not go through an accessor because it leads to all sorts of nasty issues. The catch is that there is no reason init has to setup the default state of a property. For a number of reasons I have been moving to accessors that self initialize, like the simple example below:

- (NSMutableDictionary *) myMutableDict {
    if (!myMutableDict) {
    	myMutableDict = [[NSMutableDictionary alloc] init];
    }

    return myMutableDict;
}

This style of property initialization allows one to defer a lot of init code that may not actually be necessary. In the above case init is not responsible for initing the properties state, and it is completely safe (even necessary) for one to use the accessors in the init method.

Admittedly this does impose additional restrictions on your code, for instance, subclasses with custom accessors for a property in the superclass must call the superclasses accessor, but those restrictions are not out of line with various other restrictions common in Cocoa.

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3  
Interesting point, but note that (unless you're assuming garbage collection?) the example you give leaves myMutableDict autoreleased... –  mmalc Nov 19 '08 at 9:25
7  
Additionally this way you can't assign nil to this property as the accessor will automatically create a new instance of an array. –  Georg Schölly Nov 8 '09 at 21:24
    
That is one of the additional restrictions that would be imposed, and it doesn't invalidate the point. There are a number of situations where you never would assign nil to a particular property accept during teardown (in which case this would still work fine). I prime example of that would be an property that is redonly. –  Louis Gerbarg Nov 8 '09 at 21:56
    
Also, while I am here, might as well edit it to make it safe for retain/release. –  Louis Gerbarg Nov 8 '09 at 21:58
    
IMO, this code would be just dandy for a readonly property, not for a readwrite pair. Generally, I believe object.x = foo should imply that immediately afterwards object.x == foo is YES. If not, maybe (non-property) methods would serve better. –  Clay Bridges Jan 5 '12 at 19:53
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It's basically a guideline to minimize the potential for bugs.

In this case there is the (possibility) that your setter/getter may inadvertently make direct or indirect assumptions about the state of the object. These assumptions could be a problem when the object is in the midst of being setup or destroyed.

For example in the code below the observer does not know that 'Example' is being destroyed and could assume that other properties, which have already been freed, are valid.

(You could argue that your object should remove all observers before tearing itself down, which would be good practice, and another guideline to prevent inadvertent problems).

@implementation Example

-(void) setFoo:(Foo*)foo
{
   _foo = foo;
  [_observer onPropertyChange:self object:foo];
}

-(void) dealloc
{
   ...
   self.foo = nil;
}

@end
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2  
I see what you're saying but I'm not really buying it. The only real side effect is KVO getting fired while the object is in the midst of a dealloc. Is that really so bad? I've been doing this for a while (using the [self setFoo:NULL] style before objc2) and have yet to see a single problem. –  schwa Oct 10 '08 at 21:37
2  
I'd love for some sample code that can illustrate the problem - if there is one. Anyone up for it? :-) –  schwa Oct 10 '08 at 21:39
    
Like I said, it's just a guideline to minimize the potential for problems. The same as how people recommend you set freed pointers to NULL. –  Andrew Grant Oct 10 '08 at 22:58
    
though of course Apple reserve the underscore-namespace for its ivars, so your code sample has its own problems ;-) –  user23743 Oct 13 '08 at 3:12
3  
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You answered your own question:

  1. Performance may be a perfectly adequate reason in itself (especially if your accessors are atomic).
  2. You should avoid any side-effects that accessors may have.

The latter is particularly an issue if your class may be subclassed.

It's not clear, though, why this is addressed specifically at Objective-C 2 accessors? The same principles apply whether you use declared properties or write accessors yourself.

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It may be that the setter has logic that should run or perhaps the implementation used an ivar with name different from the getter/setter or perhaps two ivars that need to be released and/or have their value set to nil. The only sure way is to call the setter. It is the setter's responsibility to be written in such a way that undesirable side effects do not occur when called during init or dealloc.

From "Cocoa Design Patterns", Buck, Yacktman, pp 115: "... there is no practical alternative to using accessors when you use synthesized instance variables with the modern Objective-C runtime or ..."

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In my question on this (stackoverflow.com/questions/1283419), one of the answers revealed that you can still access ivar directly even if you're just declaring the property (a synthesized ivar). –  Dave DeLong Oct 16 '09 at 18:30
    
@Dave Accessing the ivar directly assumes that you know it's name and that there is only one ivar that the setter changes. But one is not supposed to know (or care) how a setter is implemented. –  Zaph Oct 16 '09 at 19:44
    
Setters/Getters can be overriden. They can release other resources (e.g. observers). –  Sulthan Dec 9 '11 at 20:49
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In fact, for a class that comes and goes rather often (like a detail view controller), you want to use the accessor in the init; otherwise, you could end up releasing a value in viewDidUnload that you try to access later (they show that in CS193P...)

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You can create the same problems by NOT calling the setter when allocating/deallocating.

I don't think you can achieve anything by using retain/release directly in init/dealloc. You just change the set of possible bugs.

Everytime you have to think about the order of property allocation/deallocation.

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