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In Scala we can define the type-level identity function for lower-kinded types like so,

type Id[A] = A

Can we also define something similar for higher-kinded types? Ie. can we fill in the blanks in,

type HKId[A[...]] = ...

so that something similar to HKId[List] gets us back to the List type constructor?

Binding of free names in things like,

type Foo[X] = List[X]
val l : Foo[Int] = List(1, 2, 3)

Might lead us to expect that a higher-kinded type-level identity would look like,

type HKId[A[X]] = A[X]

but scalac complains that type X is not found on the RHS.

Is there some clever encoding that will do the trick? Or is it just not possible right now?

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Can't test, but what abot HKId[A[_]] = A –  Dario Sep 5 '10 at 9:50
+1 for making my head explode –  delnan Sep 5 '10 at 10:00
@Dario No ... "error: type A takes type parameters" on the RHS. –  Miles Sabin Sep 5 '10 at 10:48

3 Answers 3

X in type HKId[A[X]] = ... is a higher order type parameter. It is scoped to the type parameter clause, usually referenced in a type constraint. See §4.4 of the spec:

The above scoping restrictions are generalized to the case of nested type parameter clauses, which declare higher-order type parameters. Higher-order type parameters (the type parameters of a type parameter t ) are only visible in their immediately surrounding parameter clause (possibly including clauses at a deeper nesting level) and in the bounds of t . Therefore, their names must only be pairwise different from the names of other visible parameters. Since the names of higher-order type parameters are thus often irrelevant, they may be denoted with a ‘_’, which is nowhere visible.

A while back, we discussed the possibility of adding a literal syntax for type functions, e.g. [A] Either[Int, A]. This would be really useful in Scalaz. In the meantime, we use the trick from Alexey's answer, expressed in the PartialApplyXofY traits. Inference would be even better, but that's much trickier, despite the innocuous entry in Trac!)

Anyway, during that thread, Adriaan mentioned:

It obviously won't be trivial to implement everything that logically follows from having anonymous type functions, as we currently don't have the necessary infrastructure to allow people to write higher-kinded type aliases, for example:

type MyTypeFun = [X, Y] Pair[Y, X] // desirable, but hard to support with the current implementation (we look at the type params of a symbol to infer its kind)


Turns out you can get pretty close already:

def hk[_[_]] = (); 
hk[({type A[X] = X})#A]

Or getting a little creative:

def hk[_[_]] = (); hk[({type \[X] = X}) # \ ]
def hk[_[_]] = (); hk[({type λ[α]=α})#λ ]
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It's doing it as a type that I'm after (I'm aware of Scalaz's PartialApply traits) and Adriaan's mail makes it clear that it can't be done ... thanks for the pointer. –  Miles Sabin Sep 5 '10 at 13:15

Can't find a way to do it as a type, but this works:

class HKId[A[_]] { 
  type Value[X] = A[X] 

This compiles:

scala> List(1): HKId[List]#Value[Int]
res2: List[Int] = List(1)

And this doesn't:

scala> List(1): HKId[List]#Value[Boolean]
<console>:7: error: type mismatch;
 found   : Int(1)
 required: Boolean
       List(1): HKId[List]#Value[Boolean]
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As I mentioned in my comment on Jason's answer, I want to be able to do this as a type. So your answer that it can't be done that way is right too. Thanks. –  Miles Sabin Sep 5 '10 at 13:16
Actually, on closer inspection, this is pretty much what I'd now call a correct answer ... the only difference between yours and mine is that I've substituted type for class. –  Miles Sabin Nov 13 '11 at 11:56
up vote 3 down vote accepted

It seems a bit unfair to snatch the correct answer away from @retronym, but it looks like we can get a little closer to the kind of solution I was after,

scala> type HKId[A[_]] = { type λ[X] = A[X] }
defined type alias HKId

scala> def foo[C[_]] : C[Int] = null.asInstanceOf
foo: [C[_]]=> C[Int]

scala> foo[List]
res0: List[Int] = null

scala> foo[HKId[List]#λ]
res1: List[Int] = null

I'm not sure why this seems obvious now but wasn't obvious a year ago ... maybe because we've all got a lot more used to seeing type lambdas since then.

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Yes, it does seem obvious once you see it! –  Alexey Romanov Nov 13 '11 at 12:49

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