12

Does calling [super init] do the same thing in a category as a subclass? If not, what's the difference?

1
  • 4
    "When a category overrides an inherited method, the method in the category can, as usual, invoke the inherited implementation via a message to super. However, if a category overrides a method that exists in the category's class, there is no way to invoke the original implementation." from How you can use categories.
    – albertamg
    May 29 '11 at 14:02
14

In order to understand this, it's probably important to understand the way an object is stored during runtime. There is a class object1, which holds all the method implementations, and separately, there is a structure with the storage for the instance's variables. All instances of a class share the one class object.

When you call a method on an instance, the compiler turns that into a call to objc_msgSend; the method implementation is looked up in the class object, and then run with the instance as an argument.

A reference to super takes effect at compile time, not run time. When you write [super someMethod], the compiler turns that into a call to objc_msgSendSuper instead of the usual objc_msgSend. This starts looking for the method implementation in the superclass's class object, rather than the instance's class object.2

A category simply adds methods to the class object; it has little or no relation to subclassing.

Given all that, if you refer to super inside of a category, it does indeed do the same thing that it would inside of a class -- the method implementation is looked up on the class object of the superclass, and then run with that instance as an argument.

Itai's post answers the question more directly, but in code:

@interface Sooper : NSObject {}
- (void) meth;
@end

@interface Sooper ()
- (void) catMeth;
@end

@interface Subb : Sooper {}
- (void) subbMeth;
@end

@interface Subb ()
- (void) catSubbMeth;
@end

@implementation Sooper
- (void) meth {
    [super doIt];    // Looks up doIt in NSObject class object
}

- (void) catMeth {
    [super doIt];    // Looks up doIt in NSObject class object
}
@end

@implementation Subb
- (void) subbMeth {
    [super doIt];    // Looks up doIt in Sooper class object
}

- (void) catSubbMeth {
    [super doIt];    // Looks up doIt in Sooper class object
}
@end

1 See Greg Parker's writeup [objc explain]: Classes and meta-classes

2One important thing to note is that the method doesn't get called on an instance of the superclass. This is where that separation of methods and data comes in. The method still gets called on the same instance in which [super someMethod] was written, i.e., an instance of the subclass, using that instance's data; it just uses the superclass's implementation of the method.

So a call to [super class] goes to the superclass object, finds the implementation of the method named class, and calls it on the instance, transforming it into the equivalent of [self theSuperclassImplementationOfTheMethodNamedClass]. Since all that method does is return the class of the instance on which it was called, you don't get the superclass's class, you get the class of self. Due to that, calling class is kind of a poor test of this phenomenon.

This whole answer completely ignores the message-passing/method call distinction. This is an important feature of ObjC, but I think that it would probably just muddy an already awkward explanation.

8
  • so is this because the data for -class is stored in the subclasses instance data? rather than something like [[self class] classMethodforClass], then why does [[super class]class] still use that instance data, shouldn't it be a class method of the superclass. May 29 '11 at 22:58
  • If you call a method by referring to either self or super, it is passed the current instance's data, yes. The only difference is which implementation of the method is used. If you call [self doSomething] and the current class hasn't re-implemented doSomething, then that is equivalent to [super doSomething]. The only reason to use super is when you specifically need to call the superclass's implementation, usually from within the overridden method.
    – jscs
    May 29 '11 at 23:07
  • Saying [obj class] gives you an object of type Class *, but that object's class is itself, so [obj class] == [[obj class] class]
    – jscs
    May 29 '11 at 23:13
  • how does [[obj class] class] have instance data? I mean to say the complier wont let me access ivar info from a class method. if it does then how does it know what instance to use? May 29 '11 at 23:19
  • @Grady: because a Class object is also an Objective-C object. Take a look at <objc/runtime.h>; search for "struct objc_class". Then see <objc/objc.h>: typedef struct objc_class * Class. The Class object has an isa pointer just like other objects. You can't access ivars from a + class method because there is no ivar storage in the Class object, only method implementations.
    – jscs
    May 29 '11 at 23:41
8

No, they do different things. Imagine a class structure like this: NSObject => MyObject => MySubclass, and say you have a category on MyObject called MyCategory.

Now, calling from MyCategory is akin to calling from MyObject, and therefore super points to NSObject, and calling [super init] invokes NSObject's -init method. However, calling from the subclass, super points to MyObject, so initializing using super invokes MyObject's -init method, which, unless it isn't overridden, behaves differently from NSObject's.

These two behaviors are different, so be careful when initializing using categories; categories are not subclasses, but rather additions to the current class.

3
  • 1
    This is the correct answer. For bonus points, look into supersequent implementations in Objective-C. May 29 '11 at 22:23
  • +1: This does answer the question more directly than my answer (I think I misinterpreted the question, in fact). One nit that I can pick, however, is that super doesn't really point to anything. It's not itself an object, but a compile-time construct.
    – jscs
    May 29 '11 at 22:54
  • Yes, exactly. Your answer is much easier to understand! :)
    – jscs
    May 29 '11 at 23:58
2

Given the below example, super will call UIView init (not UINavigationBar init method)

@implementation UINavigationBar (ShadowBar)
- (void)drawRect:(CGRect)rect {
    //draw the shadow ui nav bar
    [super init];
}
@end

If you subclass it, [super init] will call UINavigationBar init method.

So yes, if there are additional things you will do in UINavigationBar init (extra from UIView) they do different things.

1
  • 1
    totally what I thought, but turns out not to be the case, super is still navigation bar. May 29 '11 at 14:19
0

Edit: the following is built on a flawed premise, please look at josh's answer.

not deleting, still an interesting reference for something that could potentially lead you astray.

They are the same thing... without referencing any outside dicussions we may have had where you stated that I should ..."answer an academic question with an academic answer"

@implementation categoryTestViewController (ShadowBar)
- (void)viewDidAppear:(BOOL)animated {
    //draw the shadow ui nav bar
    NSLog(@"super's class = %@, self's class %@",[super class],[self class]);
    if ([self class] == [super class]) {
        NSLog(@"yeah they are the same");
    }
}
@end

outputs:

2011-05-29 08:06:16.198 categoryTest[9833:207] super's class = categoryTestViewController, self's class categoryTestViewController
2011-05-29 08:06:16.201 categoryTest[9833:207] yeah they are the same

and calling the [super viewDidAppear:] will result in calling nothing... not a loop, so I don't know what it is really doing there.

8
  • I thought that this would be the result. I suspect that a category is essentially a compiler-enforced subclass at runtime.
    – Moshe
    May 29 '11 at 14:13
  • I did some testing on osx and in the terminal it says now that the old method is an unrecognized signature, so I guess it is just swizzled away. May 29 '11 at 14:17
  • Wait, I have to check something, what does [self class] == [super class] do? what does it tests? May 29 '11 at 14:18
  • I gotta run now, I'd love to see the outcome of these experiments when I get back. Feel free to test cases and their results.
    – Moshe
    May 29 '11 at 14:21
  • 1
    Calling [super class] doesn't actually give you the class of the superclass; it will always give you the class object of the current instance. This is explained in my answer. Use [self superclass] to get the superclass's class object. @mindnoise
    – jscs
    May 29 '11 at 21:55

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