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In Objective-C, you can invoke class methods with:

[MyClass aClassMethod];

And you can query an instance's kind with:

[someInstance isKindOfClass:[MyClass class]];

But, why do we need to do [MyClass class], and not simply provide MyClass like this:

[someInstance isKindOfClass:MyClass];

Is there a reason that the compiler is fine with encountering MyClass as a receiver (a pointer type) but not as an argument? Is it a limitation of parsing the language? Or perhaps a limitation of the compiler?

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8  
+1 interesting question! I'd never thought about this before (at least not in this way) –  Dave DeLong Jun 24 '10 at 4:27
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8 Answers

up vote 40 down vote accepted

Ooooh... fun question. The answer is a c-ism.

Consider:

@interface MyClass : NSObject
@end
@implementation MyClass
@end

Now, say you have:

...
MyClass *m = nil;
...

In that context, the compiler sees MyClass as a type definition. The * says that the variable m is a pointer to a hunk o' memory that contains one (or many -- don't forget your C pointer-fu) MyClass instances.

In other words, MyClass is a type.

But, in the context of something like:

[someInstance isKindOfClass: x ];

x must be an rvalue or, in human terms, the value of an expression. A type, however, cannot be used as an rvalue.

That [MyClass class] works is actually a bit of a hack, both in the language and the compiler in that the grammar specifically allows a type name to be the message receiver (to be the target of a method call).

And, as a matter of fact, you can do:

typedef MyClass Foo;
....
[MyClass class];
[Foo Class];

It'll all work. However, you can't do the following but the error message is illuminating:

[NSUInteger class];

error: ‘NSUInteger’ is not an Objective-C class name or alias


Now, why not special case it everywhere as a bare name?

That colludes type names and rvalues and you quickly end up having to swallow something like [foo isKindOfClass: (MyClass)]; while barfing on [foo isKindOfClass: (MyClass *)]; which then encroaches upon typecasting territory in a rather uncomfortable fashion.

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I was just about post a comment on my question saying "I wonder if bbum has an answer..." –  dreamlax Jun 24 '10 at 5:08
    
@dreamlax @bbum always has an answer. He's just that awesome. :) –  Dave DeLong Jun 24 '10 at 5:10
    
Oops, s/wonder if/know that/ and s/an/the –  dreamlax Jun 24 '10 at 5:12
2  
Nah-- I just know where to look to refine my generally well educated guess. This one required a bit of digging in the C spec and the Obj-C sources. Fun question. –  bbum Jun 24 '10 at 5:14
1  
"I just know where to look to refine my generally well educated guess." Thanks, I'm going to steal this phrase :) –  einsteinx2 Apr 21 '12 at 0:01
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Interesting.

In Objective-C, class name has two roles, as a data type and as a class object. As a data type name, you can do things like:

MyClass *anObject;

As a class object, the class name can stand for the class object only as a message receiver. And this is why you have to use

... isKindOfClass:[MyClass class] ...

However, I don't think this is the answer which can satisfy your need. To me, the answer is, "yes, what you want is plausible. But the spec says the other way".

Reference: The Objective-C Programming Language Page 32, section: "Class Names in Source Code".

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This is basically a C compatibility thing. The receiver position is special-cased to allow class names, but everywhere else it's treated as a normal C type. –  Chuck Jun 24 '10 at 4:48
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And @Chuck gets the prize! You should submit that as the answer, Chuck. That's the real reason. –  Matt B. Jun 24 '10 at 5:05
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@John and @ryanprayogo -- you are both fundamentally wrong. MyClass is a Class, which is also an object, but does not inherit from NSObject. Objective-C is kind of weird this way, but its actually brilliant when fully explained (See here). The answer here, though, is as @yehnan said, that a class name can be either a type name for declarators and casts, or as a receiver for messages. The implementation of [MyClass class] returns self (which is, within the method, MyClass). Also as @yehnan said, the language could support passing it as an argument, although it simply doesn't.

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"but does not inherit from NSObject" No, it eventually does inherit from NSObject, if NSObject is the root class of MyClass. –  user102008 Jul 22 '11 at 23:09
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My first glance answer is because [MyClass class] return a object of type Class, and MyClass doesn't inherit from Class...

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If this were the case, then it would be a type mismatch error, but it isn't. The compiler can't seem to treat MyClass as an expression. –  dreamlax Jun 24 '10 at 4:32
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Consider: id f1 = [NSFileManager defaultManager]; id f2 = [[NSFileManager class] defaultManager]; This would seem to indicate that [NSFileManager class] == NSFileManager (and yes, f1 == f2) –  Dave DeLong Jun 24 '10 at 4:32
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John, Class is a data-type used by the Objective-C runtime, not an Objective-C class. –  Georg Fritzsche Jun 24 '10 at 4:32
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WRONG -- MyClass is a class, it just cant be used anywhere other than as the receiver of a message. @Georg -- Class is both the data type and an Objective-C class -- it is how it is represented internally to the runtime. –  Jared Pochtar Jun 24 '10 at 4:42
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@Georg yes and no. Yes that they're declared differently, but no that you can use a Class anywhere you can use an id. As long as the first member of the struct is Class isa, you can treat is as an object. –  Dave DeLong Jun 24 '10 at 4:53
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@yehnan captures it well, but I'll expand on this a little. Yes, the compiler could be modified to automatically convert a class identifier into its applicable Class in places where it is an argument rather than only when it is the target of a message. But there's not a lot of call for that kind of added complexity in the compiler (translated: slower, harder to detect coding errors). You shouldn't be calling things that return Class very often. If you are, then your object model is broken. Class-checking should be the last, desperate approach after everything else has failed (most notably correct typing and then respondsToSelector:). So for this kind of rare event, it doesn't make a lot of sense to complicate the compiler this way.

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What if you were implementing a runtime? –  dreamlax Jun 24 '10 at 5:06
    
What kind of runtime? If it's built on ObjC's runtime, then you'd mostly work in the C calls like class_getClassMethod() anyway. And a runtime still would mostly be interested in Class variables, not parsing hard-coded class identifiers. What are you building that you're needing to hardcode class identifiers often? –  Rob Napier Jun 24 '10 at 5:17
    
I was talking about making an alternative Objective-C runtime, but I'm not building anything, I'm just curious to know how the parser interprets MyClass in various contexts. –  dreamlax Jun 24 '10 at 5:20
    
The runtime isn't really involved here. The runtime is the C code that the compiler converts the ObjC into (in theory; in practice of course it bypasses the actual C output, but it compiles it basically as though your code were written in C. Look at the assembler output and you'll see all the calls to objc_msg_send()). There's no big difference between class and instance calls. Class calls just pull their pointers from the list of class references (i.e. L_OBJC_CLASSLIST_REFERENCES_$_0). But it's just the first parameter to objc_msg_send(). –  Rob Napier Jun 24 '10 at 5:38
    
My comment about implementing a runtime was more a response to your statement about class-checking. –  dreamlax Nov 10 '11 at 9:09
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Because what the isKindOfClass expects is a "class" and that's what get returned from invoking: [MyClass class]

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But why is MyClass by itself not a class, if it is already a valid receiver? –  dreamlax Jun 24 '10 at 4:25
    
because MyClass is-a NSObject ( most likely ) since it inherits NSObject and not a Class see: developer.apple.com/mac/library/documentation/cocoa/reference/…: –  OscarRyz Jun 24 '10 at 4:33
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Then, howcome [[MyClass class] someMethod] and [MyClass someMethod] each invoke the same method? –  dreamlax Oct 20 '10 at 5:23
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I'm thinking that MyClass is actually a meta-class. You send it the class message to get the actual class (of type Class).

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No you can't. That's because there's also a +class class method that overrides the -class instance method you're talking about. You can get the class using the runtime function object_getClass(), and you will get its meta-class. There is no class named "Class". ("Class" is just a generic type for pointers to class objects) –  user102008 Jul 22 '11 at 23:10
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MyClass is not of type Class.

[MyClass class] is of type Class.

If you are familiar with Java, the concept is the same.

java.lang.String is not of type java.lang.Class

java.lang.String.getClass() is of type java.lang.Class

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"MyClass is not of type Class" => Then why can you do [MyClass myClassMethod] and also [[MyClass class] myClassMethod] and get the same functionality? –  Dave DeLong Jun 24 '10 at 4:37
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