I have a protocol that I defined like so:

protocol MyProtocol {
   ...
}

I also have a generic struct:

struct MyStruct <T>  {
    ...
}

Finally I have a generic function:

func myFunc <T> (s: MyStruct<T>) -> T? {
   ...
}

I'd like to test inside of the function if the type T conforms to MyProtocol. Essentially I'd like to be able to do (~ pseudocode):

let conforms = T.self is MyProtocol

But this throws a compiler error:

error: cannot downcast from 'T.Type' to non-@objc protocol type 'MyProtocol'
   let conforms = T.self is MyProtocol
                  ~~~~~~ ^  ~~~~~~~~~~

I have also tried variations, like T.self is MyProtocol.self, T is MyProtocol, and using == instead of is. So far I haven't gotten anywhere. Any ideas?

A bit late but you can test if something responds to protocol with as ? test:

if let currentVC = myViewController as? MyCustomProtocol {
    //currentVC responds to the MyCustomProtocol protocol =]
}

EDIT: a bit shorter:

if let _=self as? MyProtocol {
// match
}

And using a guard

guard let _=self as? MyProtocol else {
    // doesn't match
    return
}

I have to say @Alex want to check if T type conforms to protocol rather than s. And some answerer didn't see clearly.

Check T type conforms to protocol like this :

if let _ = T.self as? MyProtocol.Type {
    //  T conform MyProtocol
}

or

if T.self is MyProtocol.Type {
    //  T conform MyProtocol
}
  • 1
    This is the correct answer. Thanks! – RyanM Oct 12 '16 at 22:21
  • This doesn't seem to work for Equatable. Hmmm.... – MarqueIV Oct 4 at 18:52

The simplest answer is: don’t do that. Use overloading and constraints instead, and determine everything up-front at compile-time rather than testing stuff dynamically at runtime. Runtime type checking and compile-time generics are like steak and ice-cream – both are nice but mixing them is a bit weird.

Consider something like this:

protocol MyProtocol { }

struct MyStruct <T>  { let val: T }

func myFunc<T: MyProtocol>(s: MyStruct<T>) -> T? {
    return s.val
}

func myFunc<T>(s: MyStruct<T>) -> T? {
    return nil
}

struct S1: MyProtocol { }
struct S2 { }

let m1 = MyStruct(val: S1())
let m2 = MyStruct(val: S2())

myFunc(m1) // returns an instance of S1
myFunc(m2) // returns nil, because S2 doesn't implement MyProtocol

The downside being, you can’t establish dynamically if T supports a protocol at runtime:

let o: Any = S1()
let m3 = MyStruct(val: o)
myFunc(m3)  // will return nil even though o 
            // does actually implement MyProtocol

But, in all honesty, do you really need to do that inside your generic function? If you’re unsure what actual type something is, the better option may be to figure that out up-front rather than deferring it to later and prodding it inside a generic function to find out.

  • 13
    +1, good answer. Particularly enjoyed "Runtime type checking and compile-time generics are like steak and ice-cream – both are nice but mixing them is a bit weird." 👍 – Stuart Feb 5 '15 at 20:47
  • 5
    Yes…except for the edge cases where overloading and constraints just aren't going to do the job. Consider an extension method that implements a protocol, JSONEncodable, that requires init(json: JSON) throws. We want Array to implement JSONEncodable, but only if its elements are also JSONEncodable. We can't combine an inheritance clause with constraints, so we must use some kind of type checking inside our implementation of init, and perhaps throw an error if the Element is not JSONEncodable. Sadly, this does not seem to be possible AFAICT. – Gregory Higley Mar 1 '16 at 15:46
  • I should add that the conundrum above can be solved by using an intermediate type as a thunk, but that's a pretty inelegant solution. – Gregory Higley Mar 1 '16 at 18:03
  • @GregoryHigley that should be possible now with conditional conformance in Swift 4.1 (swift.org/blog/conditional-conformance) – mj_jimenez Mar 1 at 9:23
  • It's cool how you can construct MyStruct with or without the hint like <Type> and it can tell what to do. For others trying the code out, Swift 4 needs a _ on the first constructor argument – snakeoil Apr 11 at 21:47

you can also leverage swift's switch case pattern matching, if you want to handle multiple cases of type T:

func myFunc<T>(s: MyStruct<T>) -> T? {
    switch s {
    case let sType as MyProtocol:
        // do MyProtocol specific stuff here, using sType
    default:
        //this does not conform to MyProtocol
    ...
    }
}

You need declare protocol as @objc:

@objc protocol MyProtocol {
    ...
} 

From Apple's "The Swift Programming Language" book:

You can check for protocol conformance only if your protocol is marked with the @objc attribute, as seen for the HasArea protocol above. This attribute indicates that the protocol should be exposed to Objective-C code and is described in Using Swift with Cocoa and Objective-C. Even if you are not interoperating with Objective-C, you need to mark your protocols with the @objc attribute if you want to be able to check for protocol conformance.

Note also that @objc protocols can be adopted only by classes, and not by structures or enumerations. If you mark your protocol as @objc in order to check for conformance, you will be able to apply that protocol only to class types.

  • Even with this, I still get the same error. @objc protocol MyProtocol {} struct MyStruct <T> {} func myFunc <T> (s: MyStruct<T>) -> T? { let conforms = T.self is MyProtocol } – Alex Jan 24 '15 at 10:55
  • 1
    @Alex, you need to construct instance of T type before you can check to protocol conformance (as I know) If you need than type T must be only of type than conforms to MyProtocol, you can specify it: func myFunc<T: MyProtocol>(...) -> T? – rabbitinspace Jan 24 '15 at 11:29

let conforms = T.self is MyProtocol.Type

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.