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I'm new to objective-c. I was learning about using id just now and have written the following code:

NSString *str = @"x";
id obj = str;
NSArray *arr = obj;
NSLog(@"%@, %@\n", str.className, arr.className);

Executed in Xcode, output is __NSCFConstantString, __NSCFConstantString without any warnings. May someone tell me why this happens, considering arr is initially declared as an NSArray?

I also tried to directly assign arr to str as follows:

NSString *str = @"x";
NSArray *arr = str;
NSLog(@"%@, %@\n", str.className, arr.className);

Although a warning has been raised in xcode, it can be successfully executed and the output is the same __NSCFConstantString, __NSCFConstantString. Why?

I've spent quite some time searching on the Internet, but haven't found a good answer. Please help! Thanks!

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Can you show declaration of s variable? –  Greg Mar 21 '14 at 8:29
    
@Greg: That's probably a copy/paste error and should be str. –  Martin R Mar 21 '14 at 8:32
    
@Greg: Sorry about the typo. I just corrected it –  mintaka Mar 21 '14 at 9:29

2 Answers 2

In both cases, str and arr are pointers to the same object.

Objective-C methods are resolved at runtime, and str.className is a shortcut for [str className], which means

Send the className message to the object pointed to by str.

Therefore str.className and arr.className invoke the same method on the same instance.

The declared type of the pointer (NSString *, NSArray *) is not used for the method resolution. You could even call

[obj className];

with your id obj.

In the second case, the compiler can warn you about the assigment of different types of pointers. That is not possible in the first case because id is a generic pointer that can be converted from and to any Objective-C pointer (a bit similar to void * in the C language).

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Thanks for your reply! So basically, str or arr does not need to be the class type as what they were initialized? Why this kind of mechanism is used? Any good? –  mintaka Mar 21 '14 at 9:36
    
@Giantron: Have a look at developer.apple.com/library/ios/documentation/general/…, perhaps that helps. - Also note that the declaration NSString *str does not initialize anything. str and arr are just pointers. Their declared type is only used by the compiler, but not at runtime. –  Martin R Mar 21 '14 at 9:48
    
Thanks, Martin. I'm just quite used to that the pointer should point to what it is declared to be. It seems objective-c offers more flexibility through dynamic binding. And, since it's resolved at runtime, every pointer can be declared as id.. but it may not be good practice though? –  mintaka Mar 21 '14 at 10:01
    
@Giantron: The type should be as specific as possible. If you know (or expect) that the object is an instance of SomeClass or an instance of a subclass then use SomeClass *. If you know that it is some object conforming to a protocol then use id<protocol>. If you know nothing then use id. This allows the compiler to make as much error checking as possible. –  Martin R Mar 21 '14 at 10:05

You only ever created one object, of one class. See, there are two parts to your code:

  1. Actual instances of objects

    In your case, the only time you actually create an object is when you write @"x".

  2. Pointers to those objects (variables containing memory addresses)

When you say

NSString* str

or

NSArray* arr

or

id obj

all you are doing is creating a pointer variable. Under the hood, a pointer variable is simply a variable that can hold a number. Like an int. Just that it is intended to contain the memory address of an object. You can think of a pointer variable as a napkin on which someone wrote the building number from the street address of a bungalow.

Then you are taking a second (and third) napkin and writing the same building number on it. However, instead of noting on the napkin that it's a bungalow, the napkin 'arr' actually says on it that this is an apartment building (NSArray). And on the 'obj' napkin you don't even bother writing what it is (id).

Just because your napkin says that this address refers to an apartment doesn't change the house at that number in your street.

The type you give to a pointer variable is merely a hint to the compiler, so it can warn you when you're getting your objects mixed up by accident. There is no conversion from one object type to the other performed when you write their address in a pointer variable of a different type. Usually, if you assign the address of an object of one type to a pointer variable of another type, you get an error message. But since you're going via the 'obj' variable, which is of type 'id', you're circumventing this check. 'id' is used for cases where all you care about is that you're dealing with an object.

E.g. NSArray keeps a list of objects of any type, but doesn't really care which type. So it uses 'id' as the type of the addresses it keeps around. This way, you only need one array class, not one NSStringArray, and another NSNumberArray etc. To make cases like this more convenient, whenever an 'id' variable is involved, the compiler doesn't warn and assumes you know what you're doing.

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