I am trying to figure out how to define a function which takes the following two parameters:

  1. A protocol.
  2. An instance of a class (a reference type) conforming to that protocol.

For example, given

protocol P { }
class C : P { } // Class, conforming to P
class D { }     // Class, not conforming to P
struct E: P { } // Struct, conforming to P

this should compile:

register(P.self, obj: C()) // (1)

but these should not compile:

register(P.self, obj: D()) // (2)  D does not conform to P
register(P.self, obj: E()) // (3)  E is not a class

It is easy if we drop the condition that the second parameter is a class instance:

func register<T>(proto: T.Type, obj: T) {
    // ...

but this would accept the struct (value type) in (3) as well. This looked promising and compiles

func register<T: AnyObject>(proto: T.Type, obj: T) {
    // ...

but then none of (1), (2), (3) compile anymore, e.g.

register(P.self, obj: C()) // (1)
// error: cannot invoke 'register' with an argument list of type '(P.Protocol, obj: C)'

I assume that the reason for the compiler error is the same as in Protocol doesn't conform to itself?.

Another failed attempt is

func register<T>(proto: T.Type, obj: protocol<T, AnyObject>) { }
// error: non-protocol type 'T' cannot be used within 'protocol<...>'

A viable alternative would be a function which takes as parameters

  1. A class protocol.
  2. An instance of a type conforming to that protocol.

Here the problem is how to restrict the first parameter such that only class protocols are accepted.

Background: I recently stumbled over the SwiftNotificationCenter project which implements a protocol-oriented, type safe notification mechanism. It has a register method which looks like this:

public class NotificationCenter {

    public static func register<T>(protocolType: T.Type, observer: T) {
        guard let object = observer as? AnyObject else {
            fatalError("expecting reference type but found value type: \(observer)")

        // ...

    // ...

The observers are then stored as weak references, and that's why they must be reference types, i.e. instances of a class. However, that is checked only at runtime, and I wonder how to make it a compile-time check.

Am I missing something simple/obvious?

  • Not ideal (or exactly your question), but would defining protocol X: class {} make this safer? – sschale Jun 8 '16 at 16:38
  • I've noticed this behaviour before – once you constrain a generic, it appears Swift will no longer allow it to take an abstract type. In this case T will P, which isn't a concrete type. I've also noticed a similar behaviour with protocol associated types (once you constrain them, they can only take concrete types) – in fact there's a bug report about that. – Hamish Jun 8 '16 at 16:40
  • @sschale: That would help if you could restrict the function to accept only class protocols (which I didn't manage either). – Martin R Jun 8 '16 at 17:52
  • It's a case of GMTA, I too want to figure out some sort of extension that, well, allows you to register as a protocol listener. – Fattie Jun 8 '16 at 21:33

You can't do what you are trying to do directly. It has nothing to do with reference types, it's because any constraints make T existential so it is impossible to satisfy them at the call site when you're referencing the protocol's metatype P.self: P.Protocol and an adopter C. There is a special case when T is unconstrained that allows it to work in the first place.

By far the more common case is to constrain T: P and require P: class because just about the only thing you can do with an arbitrary protocol's metatype is convert the name to a string. It happens to be useful in this narrow case but that's it; the signature might as well be register<T>(proto: Any.Type, obj: T) for all the good it will do.

In theory Swift could support constraining to metatypes, ala register<T: AnyObject, U: AnyProtocol where T.Type: U>(proto: U, obj: T) but I doubt it would be useful in many scenarios.

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