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I'm reading Pierce's Types and Programming Languages book and in the chapter about recursive types he mentions that they can be used to encode the dynamic lambda calculus in a typed language. As an exercise, I'm trying to write that encoding in Haskell but I can't get it to pass the typechecker:

{-# LANGUAGE RankNTypes, ScopedTypeVariables #-}

data D = D (forall x . x -> x )

lam :: (D -> D) -> D
--lam f = D f
lam = undefined

ap :: D -> D -> D
ap (D f) x = f x

--Some examples:
myConst :: D
myConst = lam (\x -> lam (\y -> x))

flippedAp :: D
flippedAp = lam (\x -> lam (\f -> ap f x))

Right now, this code gives me the following error message (that I don't really understand):

    Couldn't match type `x' with `D'
      `x' is a rigid type variable bound by
          a type expected by the context: x -> x at dyn.hs:6:9
    Expected type: x -> x
      Actual type: D -> D
    In the first argument of `D', namely `f'
    In the expression: D f
    In an equation for `lam': lam f = D f

Changing the definition of lam to undefined (the commented-out line) gets the code to compile so I suspect that whatever I did wrong is either on lam's definition or in the original definition for the D datatype.

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2 Answers 2

up vote 5 down vote accepted

The reason this doesn't work is because f :: D -> D. D wants a function which can take in any type x and return x. This is equivalent to

d :: forall a. a -> a

As you can see, the only sane implementation for this is id. Try

 data D = D (D -> D)
 unit = D id

Perhaps for better printing:

 data D = DFunc (D -> D) | DNumber Int
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Damn its so obvious now. In Haskell the recursive type quantifier is implicit so I didn't need to try to write it down like I did. –  hugomg Sep 21 '13 at 3:49
data D = D (D -> D) has plenty of non-bottom inhabitants... –  Daniel Wagner Sep 21 '13 at 18:43
@DanielWagner Gah, you're right, updated.. –  jozefg Sep 21 '13 at 21:18

The issue is that your f has type D -> D (according to your type signature for lam), but the D constructor expects an argument of type forall x . x -> x. Those are not the same type, so the compiler complains

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