Clang adds a keyword instancetype that, as far as I can see, replaces id as a return type in -alloc and init.

Is there a benefit to using instancetype instead of id?

  • 10
    No.. not for alloc and init, as they already work like this. The point of instancetype is so that you can give custom methods alloc/init like behavoir. – hooleyhoop Mar 6 '12 at 11:40
  • @hooleyhoop they don't work like this. They return id. id is 'an Obj-C object'. That is all. The compiler knows nothing about the return value other than that. – griotspeak Jan 1 '13 at 0:52
  • 5
    they do work like this, the contract and type checking is already happening for init, only for custructors do you need this. nshipster.com/instancetype – kocodude Jun 21 '13 at 23:18
  • Things have advanced quite a bit, yes. Related result types are relatively new and other changes mean that this will be a much clearer issue soon. – griotspeak Jun 22 '13 at 3:34
  • 1
    I just would like to comment that now on iOS 8 a lot of methods that used to return id have been replaced with instancetype, even init from NSObject. If you want to make you code compatible with swift you have to use instancetype – Hola Soy Edu Feliz Navidad Jul 22 '14 at 16:20
up vote 186 down vote accepted

There definitely is a benefit. When you use 'id', you get essentially no type checking at all. With instancetype, the compiler and IDE know what type of thing is being returned, and can check your code better and autocomplete better.

Only use it where it makes sense of course (i.e. a method that is returning an instance of that class); id is still useful.

  • 7
    alloc, init, etc. are automatically promoted to instancetype by the compiler. That isn't to say there's no benefit; there is, but it isn't this. – Steven Fisher Feb 5 '13 at 19:17
  • 9
    it's useful for convenience constructors mostly – Catfish_Man Feb 5 '13 at 19:38
  • 4
    It was introduced with (and to help support) ARC, with the release of Lion in 2011. One thing complicating widespread adoption in Cocoa is that all the candidate methods have to be audited to see if they do [self alloc] rather than [NameOfClass alloc], because it would be super confusing to do [SomeSubClass convenienceConstructor], with +convenienceConstructor declared to return instancetype, and have it not return an instance of SomeSubClass. – Catfish_Man Mar 6 '13 at 18:00
  • 1
    'id' is only converted to instancetype when the compiler can infer the method family. It most certainly does not do so for convenience constructors, or other id-returning methods. – Catfish_Man Oct 1 '13 at 0:28
  • 4
    Note that in iOS 7, many methods in Foundation have been converted over to instancetype. I've personally seen this catch at least 3 cases of incorrect pre-existing code. – Catfish_Man Oct 1 '13 at 0:29

Yes, there are benefits to using instancetype in all cases where it applies. I'll explain in more detail, but let me start with this bold statement: Use instancetype whenever it's appropriate, which is whenever a class returns an instance of that same class.

In fact, here's what Apple now says on the subject:

In your code, replace occurrences of id as a return value with instancetype where appropriate. This is typically the case for init methods and class factory methods. Even though the compiler automatically converts methods that begin with “alloc,” “init,” or “new” and have a return type of id to return instancetype, it doesn’t convert other methods. Objective-C convention is to write instancetype explicitly for all methods.

With that out of the way, let's move on and explain why it's a good idea.

First, some definitions:

 @interface Foo:NSObject
 - (id)initWithBar:(NSInteger)bar; // initializer
 + (id)fooWithBar:(NSInteger)bar;  // class factory
 @end

For a class factory, you should always use instancetype. The compiler does not automatically convert id to instancetype. That id is a generic object. But if you make it an instancetype the compiler knows what type of object the method returns.

This is not an academic problem. For instance, [[NSFileHandle fileHandleWithStandardOutput] writeData:formattedData] will generate an error on Mac OS X (only) Multiple methods named 'writeData:' found with mismatched result, parameter type or attributes. The reason is that both NSFileHandle and NSURLHandle provide a writeData:. Since [NSFileHandle fileHandleWithStandardOutput] returns an id, the compiler is not certain what class writeData: is being called on.

You need to work around this, using either:

[(NSFileHandle *)[NSFileHandle fileHandleWithStandardOutput] writeData:formattedData];

or:

NSFileHandle *fileHandle = [NSFileHandle fileHandleWithStandardOutput];
[fileHandle writeData:formattedData];

Of course, the better solution is to declare fileHandleWithStandardOutput as returning an instancetype. Then the cast or assignment isn't necessary.

(Note that on iOS, this example won't produce an error as only NSFileHandle provides a writeData: there. Other examples exist, such as length, which returns a CGFloat from UILayoutSupport but a NSUInteger from NSString.)

Note: Since I wrote this, the macOS headers have been modified to return a NSFileHandle instead of an id.

For initializers, it's more complicated. When you type this:

- (id)initWithBar:(NSInteger)bar

…the compiler will pretend you typed this instead:

- (instancetype)initWithBar:(NSInteger)bar

This was necessary for ARC. This is described in Clang Language Extensions Related result types. This is why people will tell you it isn't necessary to use instancetype, though I contend you should. The rest of this answer deals with this.

There's three advantages:

  1. Explicit. Your code is doing what it says, rather than something else.
  2. Pattern. You're building good habits for times it does matter, which do exist.
  3. Consistency. You've established some consistency to your code, which makes it more readable.

Explicit

It's true that there's no technical benefit to returning instancetype from an init. But this is because the compiler automatically converts the id to instancetype. You are relying on this quirk; while you're writing that the init returns an id, the compiler is interpreting it as if it returns an instancetype.

These are equivalent to the compiler:

- (id)initWithBar:(NSInteger)bar;
- (instancetype)initWithBar:(NSInteger)bar;

These are not equivalent to your eyes. At best, you will learn to ignore the difference and skim over it. This is not something you should learn to ignore.

Pattern

While there's no difference with init and other methods, there is a difference as soon as you define a class factory.

These two are not equivalent:

+ (id)fooWithBar:(NSInteger)bar;
+ (instancetype)fooWithBar:(NSInteger)bar;

You want the second form. If you are used to typing instancetype as the return type of a constructor, you'll get it right every time.

Consistency

Finally, imagine if you put it all together: you want an init function and also a class factory.

If you use id for init, you end up with code like this:

- (id)initWithBar:(NSInteger)bar;
+ (instancetype)fooWithBar:(NSInteger)bar;

But if you use instancetype, you get this:

- (instancetype)initWithBar:(NSInteger)bar;
+ (instancetype)fooWithBar:(NSInteger)bar;

It's more consistent and more readable. They return the same thing, and now that's obvious.

Conclusion

Unless you're intentionally writing code for old compilers, you should use instancetype when appropriate.

You should hesitate before writing a message that returns id. Ask yourself: Is this returning an instance of this class? If so, it's an instancetype.

There are certainly cases where you need to return id, but you'll probably use instancetype much more frequently.

  • 4
    It has been a while since I asked this and I have long since taken up a stance like the one you put forth here. I let it go here because I think that, unfortunately, this will be considered an issue of style for init and the information presented in the earlier responses did answer the question pretty clearly. – griotspeak Feb 2 '13 at 4:21
  • 6
    To be clear: I believe the answer by Catfish_Man is correct only in its first sentence. The answer by hooleyhoop is correct except for its first sentence. It's a hell of a dilemma; I wanted to provide something that, over time, would be seen to be more useful and more correct than either. (With all due respect to those two; after all, this is much more obvious now than it was back when their answers were written.) – Steven Fisher Feb 5 '13 at 19:19
  • 1
    Over time I'd hope so. I can't think of any reason not to, unless Apple feels it's important to maintain source compatibility with (for instance) assigning a new NSArray to a NSString without a cast. – Steven Fisher Mar 6 '13 at 17:19
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    instancetype vs id really isn't a style decision. The recent changes around instancetype really make it clear that we should use instancetype in places like -init where we mean 'an instance of my class' – griotspeak Aug 4 '13 at 2:40
  • 2
    You said there were reasons for using id, can you elaborate? The only two I can think of are brevity and backwards compatibility; considering both are at the expense of expressing your intent, I think those are really poor arguments. – Steven Fisher Aug 7 '13 at 22:10

Above answers are more than enough to explain this question. I would just like to add an example for the readers to understand it in terms of coding.

ClassA

@interface ClassA : NSObject

- (id)methodA;
- (instancetype)methodB;

@end

Class B

@interface ClassB : NSObject

- (id)methodX;

@end

TestViewController.m

#import "ClassA.h"
#import "ClassB.h"

- (void)viewDidLoad {

    [[[[ClassA alloc] init] methodA] methodX]; //This will NOT generate a compiler warning or error because the return type for methodA is id. Eventually this will generate exception at runtime

    [[[[ClassA alloc] init] methodB] methodX]; //This will generate a compiler error saying "No visible @interface ClassA declares selector methodX" because the methodB returns instanceType i.e. the type of the receiver
}
  • this will only generate a compiler error if you do not use #import "ClassB.h". otherwise, compiler will assume that you know what you're doing. for example, the following compiles, but crashes at runtime: id myNumber = @(1); id iAssumedThatWasAnArray = myNumber[0]; id iAssumedThatWasADictionary = [myNumber objectForKey:@"key"]; – OlDor Jan 27 '16 at 22:43

You also can get detail at The Designated Initializer

**

INSTANCETYPE

** This keyword can only be used for return type, that it matches with return type of receiver. init method always declared to return instancetype. Why not make the return type Party for party instance, for example? That would cause a problem if the Party class was ever subclassed. The subclass would inherit all of the methods from Party, including initializer and its return type. If an instance of the subclass was sent this initializer message, that would be return? Not a pointer to a Party instance, but a pointer to an instance of subclass. You might think that is No problem, I will override the initializer in the subclass to change the return type. But in Objective-C, you cannot have two methods with the same selector and different return types (or arguments). By specifying that an initialization method return "an instance of the receiving object," you would never have to worry what happens in this situation. **

ID

** Before the instancetype has been introduced in Objective-C, initializers return id (eye-dee). This type is defined as "a pointer to any object". (id is a lot like void * in C.) As of this writing, XCode class templates still use id as the return type of initializers added in boilerplate code. Unlike instancetype, id can be used as more than just a return type. You can declare variables or method parameters of type id when you are unsure what type of object the variable will end up pointing to. You can use id when using fast enumeration to iterate over an array of multiple or unknow types of objects. Note that because id is undefined as "a pointer to any object," you do not include an * when declaring a variable or object parameter of this type.

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