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If I have an object that is already allocated, then doing object.class returns a non-nil value. So far so good. But, if the object has not yet been allocated, then accessing object.class returns nil.

I want to allocate an object based on its type dynamically, so for example:

@property NSArray *myArray;

// myArray is nil so far

self.myArray = [_myArray.class new];

However, I can't do this because _myArray.class is returning nil. So how would I determine the class type of a nil instance?

Update: It is in fact possible. Check out my answer below.

share|improve this question
myArray MUST be an array, if you follow naming convention. – Anoop Vaidya Mar 23 '13 at 15:00
Why don't you initialize every thing with id. – Anoop Vaidya Mar 23 '13 at 15:01
I think you in stuck in between a project where you want to find arrays and dicts. I did similar kind with a proper naming conventions. And from the object it self I truncated the classname and allocated and inited. I hope this idea helps you. – Anoop Vaidya Mar 23 '13 at 15:10
@AnoopVaidya no this is more in reference to this question:… – moby Mar 23 '13 at 15:12
I will check that. But i wonder how every one assumed that it is NSArray? what if you used a object called parrot? then what object they would have used, MyPet, Bird etc !!! – Anoop Vaidya Mar 23 '13 at 15:15

You cannot determine the class of a nil instance, because it does not have one: it can be, quite literally, of any type derived from the type of the variable. For example, NSMutableArray is perfectly compatible with NSArray:

NSArray *myArray = [NSArray new]; // OK
NSArray *myArray = [NSMutableArray new]; // Also OK

Since the run-time capabilities of different subclasses can vary a lot, it is always up to your program to decide what kind of objects it wants.

share|improve this answer
Well the compiler knows what type of class the object belongs to. So why can't I? For example, if I do self.myArray = [NSNumber new], I'd get a warning, because the compiler knows what class myArray belongs to. Why can't I access this information? – moby Mar 23 '13 at 15:03
@maq: What the compiler knows and what the running program knows are two separate things. – Isaac Mar 23 '13 at 15:05
@maq The compiler knows enough to decide what's not to do, but it does not know enough to decide a single course of action ("single" is very important here). For example, if you try assigning NSArray an instance of NSNumber, the compiler knows that it's wrong. However, the compiler does not have enough knowledge to say that NSArray is "the" type of the object: it's one of many possible types, not "the" only possible type. – dasblinkenlight Mar 23 '13 at 15:06
Check out my update – moby Mar 23 '13 at 15:52

Objective-C is a duck-typed language. This means that there are several things you can or can't do, and one of the things you can't is statically get a reference to the type of a variable.

Specifically, in your expression:

[_myArray.class new]

First, _myArray.class is evaluated, and then the result is sent the new message. Since _myArray is nil to begin with, _myArray.class returns nil as well, and the new message will return nil too, because sending any message to nil returns nil (or the closest representation to zero the return type has). This is why it doesn't work.

I suspect you come from a strongly-typed language like C#; what you're doing right now is the equivalent of Foo foo = (Foo)Activator.CreateInstance(foo.GetType()), which is sure to fail because foo.GetType() will either not compile or throw an exception (depending on if it's a class field or a local variable) since it was never assigned a value. In Objective-C, it compiles but it doesn't works. What you would want is Activator.CreateInstance(typeof(Foo)), but notice that Foo is now hardcoded here too, so you might as well just create a new Foo().

You say that the compiler "knows the type" of the object. This is not exactly true. First, NSArray and NSMutableArray are the root classes of the NSArray class cluster. This means that both are abstract, and [NSArray alloc] and [NSMutableArray alloc] return an instance of a subclass (NSCFArray last time I checked, and possibly something else; I recall seeing _NSArrayM). Maybe [NSArray new] works, but it's not giving you a plain NSArray.

Second, type safety is not enforced. Consider this code:

id foo = @"foo";
NSArray* bar = foo; // no warning!

So even though the compiler thinks that bar is an NSArray, it's in fact a NSString. If we plug in your code:

id foo = @"foo";
NSArray* bar = foo; // no warning!
NSArray* baz = [bar.class new];

baz is now an NSString as well. Since you ask for the runtime class of bar, the compiler has nothing to do with the operations.

And precisely because of that kind of behavior, you should probably instantiate your object with a class that you know, using [NSArray new] instead of trusting _myArray to be non-nil, and to be what you think it is.

share|improve this answer
+1 for a good explanation, though I'd disagree a little about Objective-C being duck-typed. You can certainly treat it that way (asking if objects respond to a particular selector, which is appropriate in certain instances), but my experience has been that it's more common not to (instead asking if an object is a kind of a particular class). – Isaac Mar 23 '13 at 15:08
To whoever downvoted my answer, I'd love to hear what you think is not right about it. – zneak Mar 23 '13 at 15:26
I don't know who downvoted, but check out the update to the question to see how this is possible. – moby Mar 23 '13 at 15:54

You must init the property , or it will be nil , send a message to a nil object , it will return nil , so ,you must first init the array like _array = [[NSArray alloc] init];

share|improve this answer

So, for anyone wondering if this is possible, it is:

objc_property_t property = class_getProperty(self.class, "myArray");
const char * const attrString = property_getAttributes(property);
const char *typeString = attrString + 1;
const char *next = NSGetSizeAndAlignment(typeString, NULL, NULL);
const char *className = typeString + 2;
next = strchr(className, '"');
size_t classNameLength = next - className;
char trimmedName[classNameLength + 1];

strncpy(trimmedName, className, classNameLength);
trimmedName[classNameLength] = '\0';
Class objectClass = objc_getClass(trimmedName);

NSLog(@"%@", objectClass);



Done with the help of extobjc.

share|improve this answer
Well, you did not get a type from a nil: rather, you got a type from the class metadata of its enclosing object self, which is not the same thing. Besides, in this particular case it's perfectly useless: NSArray is immutable, so what you're going to get from a new is an array that is permanently empty. – dasblinkenlight Mar 23 '13 at 16:03
This really has nothing to do with arrays. I just wanted to get the class type of a nil property, and this does it. – moby Mar 23 '13 at 16:06
It does not get a class of a nil object: all it does is getting a class of a declared variable from your class, which happens to be nil at the time when you get the class. – dasblinkenlight Mar 23 '13 at 16:07
You didn't get the type of nil, you got the type of the property itself. Note that that code is grubbing around in internal implementation details that are likely to change over time. Note, as well, that code using this kind of dynamic behavior is generally indicative of really bad design. It also isn't clear what you are going to do with such dynamically allocated instances; how will you initialize them?!? – bbum Mar 23 '13 at 16:29
@bbum this is mostly related to this question:… – moby Mar 23 '13 at 16:39

Nil has no class type

In Objective-C the actual class on an instance variable is only determined at runtime. So, you can't know the class of a nil object.

This is not an issue in your situation since you only need to do:

NSArray *myArray = [NSArray new];


NSArray *myArray = [[NSArray alloc] init];

In Objective-C most decisions are deferred to the runtime

(as much as possible)

Objective-C is a runtime oriented language, which means that when it's possible it defers decisions about what will actually be executed from compile & link time to when it's actually executing on the runtime.

This gives you a lot of flexibility in that you can redirect messages to appropriate objects as you need to or you can even intentionally swap method implementations, etc.

This requires the use of a runtime which can introspect objects to see what they do & don't respond to and dispatch methods appropriately. If we contrast this to a language like C. In C you start out with a main() method and then from there it's pretty much a top down design of following your logic and executing functions as you've written your code. A C struct can't forward requests to perform a function onto other targets.

Source: Understanding the Objective-C Runtime

share|improve this answer
Why the downvote? Isn't the answer appropriate? If you downvote, at least comment, so that I can improve the post. – Jean Mar 23 '13 at 15:35

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