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How can i check if a variable is an NSArray or an NSMutableArray?

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6 Answers

*Note that the implementation of NS{,Mutable}Array has changed since this answer was written. As a result, isKindOfClass: now works. On what platforms where and when, I don't know.

Until it is documented as safe to do so, I would strongly recommend NOT writing code that tries to detect whether a collection is mutable or immutable. Even if it were safe, such a design pattern is almost always indicative of a serious design flaw.

(For those with access) Filed rdar://10355515 asking for clarification.


Consider:

int main (int argc, const char * argv[]) {
    NSArray *array = [NSArray arrayWithObjects: [NSObject new], nil];
    NSMutableArray *mutableArray = [NSMutableArray arrayWithObjects: [NSObject new], nil];

    NSLog(@"array's class: %@", NSStringFromClass([array class]));
    NSLog(@"mutableArray's class: %@", NSStringFromClass([mutableArray class]));

    NSLog(@"array responds to addObject: %@", 
          [array respondsToSelector: @selector(addObject:)] ? @"YES" : @"NO");

    return 0;
}

(I'm using non-empty arrays because an empty NSArray is common enough that Cocoa offers a single shared instance as an optimization.)

array's class: NSCFArray
mutableArray's class: NSCFArray
array responds to addObject: YES

I.e. neither -isKindOfClass: nor checking for implementation of addObject: will work.

In short, you can't tell the difference between an NSArray and an NSMutableArray. This is by design and very much the intended behavior. It also holds true for NSString, NSDictionary and NSSet (all of which have a mutable subclass).

That may come as a surprise. The reality, though, is that design patterns that require checking for mutability are confusing to use and incur significant overhead.

For example, if test-for-mutability were a common pattern than all of the methods in Cocoa that return NSArray instances would have to actually return NSArray instances and never return a reference to the internal NSMutableArray that might be being used.

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Well, thats bad. At least there should happen something if you try to add an object to an immutable array. –  nils Nov 24 '09 at 17:46
    
If you try to add an object to an immutable array, an exception will be tossed. –  bbum Nov 24 '09 at 22:28
    
@bbum, I'm sure I'm not getting the point here (nor why you don't show isKindOfClass in your example). isKindOfClass:[NSMutableArray class] will perfectly well distinguish between an NSArray and an NSMutableArray, or at least it does when I test it. What am I missing? –  Yar Oct 27 '11 at 0:52
    
Read the answer; I show the class of both the array and the mutable array. They are the same; a private subclass of NSMutableArray. Post the code you claim to be showing that they are different. –  bbum Oct 27 '11 at 2:40
    
@bbum, I just tacked these lines onto your code: ` NSLog(@"NSArray is mutablearray? %d", [array isKindOfClass:[NSMutableArray class]]); NSLog(@"NSMutableArray is mutablearray? %d", [mutableArray isKindOfClass:[NSMutableArray class]]);` I get 0 and 1. [Please use @yar so it shows up in my responses.] –  Yar Oct 27 '11 at 5:34
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Bad but technically accurate advice...

The only way to do it is to invoke [unknownArray addObject:someObject] inside a @try/@catch block and catch the NSInternalInconsistencyException that will be thrown if unknownArray is immutable (the actual exception could be a method not implemented or a class is immutable exception).

Good advice...

The short answer though is never try to peer inside an immutable object to see if it is internally mutable.

The reason peering at the mutability of immutable objects is prevented, is to support methods on classes that work like this:

- (NSArray *)internalObjects
{
    return myInternalObjects;
}

the object myInternalObjects could be mutable but this method on this class is saying: don't mutate what I return to you. There may be serious dangers with doing so. If the class allows you to change the array, it will have a different accessor or mutator method.

If you have a friend class that needs mutable access to the myInternalObjects variable, then declare a special adapter category that only the friend class imports with a method like

- (NSMutableArray *)mutableInternalObjectsArray;

This will allow the friend (which you are assuming is smart enough to not violate special rules) to have the access it needs but without exposing mutability in a broader sense.

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See NSObject's -class method:

NSLog(@"myUnknownArray is of type: %@", [myUnknownArray class]);

You can also check more directly with the +class method:

BOOL isMutableArray = [myUnknownArray isKindOfClass:[NSMutableArray class]];
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Hello, thanks for the incredible fast reply. it works! –  Alexander Nov 24 '09 at 8:45
14  
No, actually, it doesn't work. –  bbum Nov 24 '09 at 13:07
3  
Or, it wouldn't work in past releases and may work in some current releases due to an implementation change in the Foundation. –  bbum Oct 27 '11 at 17:29
    
Read the docs - Apple explicitly says to NOT do this (NSObject class description, under isKindOfClass). –  David H Nov 6 '13 at 21:25
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If you want a mutable array, make it yourself:

NSArray *someArray = /* obtain from somewhere, could be mutable, could be immutable */
NSMutableArray *mutableVersion = [someArray mutableCopy]; // definitely mutable

// later

[mutableVersion release];

There's very few cases where checking the internal type is a good idea (other answers have already covered those). If you want a mutable array, don't check whether an existing array is mutable, just make your own so that you know it is mutable.

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But the point one would think of checking on the mutability of the array, would be that then changes made would be found by other people holding the same array... creating your own mutable copy means you can see changes, but no-one else. However I agree with bbum that any design that has to ask this question, has something deeply wrong... your data flows should be expecting either mutable or non-mutable data, not a mixture that sometimes is modified. –  Kendall Helmstetter Gelner Jun 4 '12 at 5:00
    
Yes! You must know the mutability of an object when calling NSJSONSerialization writeJSONObject:toStream:options:error: . If you pass a mutable dict/array to this without specifying the NSJSONReadingMutableContainers option, this disagreement can cause a *** Collection <__NSDictionaryM: 0xabcdef> was mutated while being enumerated exception. In my case, we had a generic writeDictionary:(NSDictionary *)dict asJSONToFile:(NSString *)filePath utility method. The only way to guarantee agreement was always to create a mutable copy, and always to set NSJSONReadingMutableContainers. –  Jeffro Oct 3 '12 at 23:13
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You have to use:

[yourArray isKindOf: [NSArray class]]

since a simple comparization of the classes may fail because your array is probably not a NSArray but of some other low level type. You may also check if your array responds to the methods you need.

[yourArray respondsToSelector: @selector(addObject:)]
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3  
Neither of those will work. –  bbum Nov 24 '09 at 13:07
    
@bbum, under what empirical circumstances (on iOS, since the question was tagged iPhone originally) will isKindOfClass NOT work? –  Yar Oct 27 '11 at 13:49
    
It wouldn't work when this question was answered and may work in certain releases currently as a side effect of implementation changes in the Foundation collection classes. –  bbum Oct 27 '11 at 17:29
    
@bbum What do the Foundation array classes come with? The SDK I compile with, or the device I'm running my compiled code on? In other words, if it works now compiling with a particular SDK, will it break only if the SDK changes? Or can it break at any time in between? –  Yar Oct 27 '11 at 18:08
2  
@yar The implementation is delivered with the system. I.e. it can break if you rely on the behavior and an update changes said behavior. Hence the documentation request. –  bbum Oct 27 '11 at 18:18
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I`m wrong.


isKindOfClass: not work, but supclass do:

int main (int argc, const char * argv[]) {
    NSArray *array = [NSArray arrayWithObjects: [NSObject new], nil];
    NSMutableArray *mutableArray = [NSMutableArray arrayWithObjects: [NSObject new], nil];

    NSLog(@"%@", NSStringFromClass([array superclass]));         // will print: NSArray
    NSLog(@"%@", NSStringFromClass([mutableArray superclass]));  // will print: NSMutableArray

    return 0;
}
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