Method 1
According to the comments, I think this is what you are trying to accomplish:
protocol MyEnums {}
enum T1: MyEnums { case one, two }
enum T2: MyEnums { case one, two }
enum T3 { case one, two }
let foo: [MyEnums] = [T1.one, T1.two, T2.one, T2.two]
The array can only contain objects conforming to the MyEnums
protocol.
Note how enum T3
cannot be stored within foo
because it does not conform to the protocol MyEnums
.
Method 2
Here's a little more. You actually can do what you were asking:
protocol MyEnums {}
enum T1: MyEnums { case one, two }
enum T2: MyEnums { case one, two }
enum T3 { case one, two }
indirect enum Foo<T: MyEnums> {
case empty
case cons(T, Foo<T>)
}
Note that the generic is <T: MyEnums>
.
This code will do exactly what you want. It can store enums conforming to the MyEnums
protocol. So you can store enums T1 and T2 if they are conformed to MyEnums
, but not T3 because it is not.
So you will be able to do this:
let x: Foo = .cons(T1.one, .cons(T1.two, .empty))
However this second method does not allow for this:
let x: Foo = .cons(T1.one, .cons(T2.one, .empty))
I'll try to see if we can do this..
Method 3
I got it!! This is exactly what you were asking for:
protocol MyEnums {}
protocol MyEnums1: MyEnums {}
enum T1: MyEnums1 { case one, two }
enum T2: MyEnums1 { case one, two }
enum T3 { case one, two }
indirect enum Foo<T: MyEnums> {
case empty
case cons(MyEnums1, Foo<T>)
}
let x: Foo<T1> = .cons(T1.one, .cons(T2.one, .empty))
print(x)
It required 2 protocols, but I finally fixed Method 2. Remember, you can only put in objects conforming to MyEnums1
, so T3
is not an option. Perfect!
This was a very cool question to answer.