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I recently ran into a problem using kind polymorphism with GADTs. The answer there was to give a "complete user-specified kind" (CUSK) for my data type. I've read the relevant documentation, but I'm still getting essentially the same error when I try to apply that to a class.

Concretely, once I give a CUSK, the following does compile:

{-# LANGUAGE DataKinds, PolyKinds, GADTs #-}

data Foo (x :: k) where
  C :: Foo x -> Foo '(x,x)

but when I move that definition to a class:

{-# LANGUAGE DataKinds, PolyKinds #-}

class Foo (f :: k -> *) where
  foo :: (f :: k1 -> *) (x :: k1) -> (f :: (k1,k1) -> *) ('(x,x) :: (k1,k1))

I get the error:

• Expected kind ‘(k1, k1) -> *’, but ‘f’ has kind ‘k -> *’
• In the type signature:
    foo :: (f :: k1 -> *) (x :: k1) -> (f :: (k1, k1) -> *) ('(x, x) :: (k1, k1))
  In the class declaration for ‘Foo’

I expect there's something small I need to do to convince GHC that f is kind-polymorphic in the second example.

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  • 1
    I'm not sure you can. As far as I know, kind polymorphism is prenex, and you want higher-rank kind polymorphism.
    – Carl
    Mar 6, 2017 at 22:14
  • For what it's worth, the error you're getting is analogous to the type error in foo :: Num a => (a -> a) -> (Int, Double) ; foo f = (f 0, f 0). Sure a can have any type, but it must be a monotype.
    – Carl
    Mar 6, 2017 at 22:19
  • @Carl See the first link. I got higher-rank kind polymorphism with the GADT by adding a CUSK.
    – crockeea
    Mar 6, 2017 at 22:30

1 Answer 1

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This is a job for GHC 8 and TypeInType, which allows much more amusing forms of dependency. The following minor edit of your code typechecks.

{-# LANGUAGE PolyKinds, RankNTypes, KindSignatures,
    DataKinds, TypeInType  #-}

module KP where

import Data.Kind

class Foo (f :: forall k. k -> *) where
  foo :: (f :: k1 -> *) (x :: k1) -> (f :: (k1,k1) -> *) ('(x,x) :: (k1,k1))

Crucially, it is no longer a syntax error to use forall in the (ha ha!) type of a type class parameter.

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  • Can you explain how this is different than the GADT example? Why do I need TypeInType here, but not there?
    – crockeea
    Mar 6, 2017 at 22:56
  • 2
    Well, before TypeInType, the correct kind annotation on f was a syntax error. And there's a genuine question of where k should be quantified: is it local to f or to Foo? Your GADT example, where you say "GADTs require kind signatures where they should be inferred...it's clear from the GADT constructors that a :: *" makes unwarranted assumptions about what is inferrable. For interesting patterns of abstraction, "guess the pattern" inference is now hopeless; "instantiate the pattern" inference is still pretty good, though.
    – pigworker
    Mar 6, 2017 at 23:07
  • In my GADT example, I managed to apply the first type parameter of Foo to two types of different kinds (namely Nat and *), without needing TypeInType. I think that's exactly what I'm trying to do in my example, so I'm not sure why the extension is required.
    – crockeea
    Mar 6, 2017 at 23:18
  • Write down the types (that we used to call "kinds") of the GADT constructor and the type class, with all foralls explicit. Your GADT has iiuc rank-1 polymorphism, but your typeclass has rank-2. Before TypeInType that (like a bunch of other stuff, e.g. GADT promotion) was beyond what was obviously manageable in GHC core. The TypeInType generalisation makes the treatment of polymorphism and equality constraints more uniform: equations between polymorphic types now work sensibly (i.e., heterogeneously), allowing higher-rank types in more places.
    – pigworker
    Mar 6, 2017 at 23:35
  • I edited the question to include a concrete GADT example. My understanding is that the constructor C requires rank-2 polymorphism, because we can never unify the kinds of x and '(x,x). This is accomplished without TypeInType.
    – crockeea
    Mar 6, 2017 at 23:59

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