Consider the following GHCi session:

>:set -XTypeApplications
>import Data.Map.Strict
>import GHC.Exts
>newtype MySet a = MySet (Map a ())
>let member' :: Ord a => a -> MySet a -> Bool; member' = coerce member

<interactive>:21:57: error:
    * Couldn't match representation of type `a0' with that of `()'
        arising from a use of `coerce'
    * In the expression: coerce member
      In an equation for member': member' = coerce member
>let member' :: Ord a => a -> MySet a -> Bool; member' = coerce (member @_ @())

I have a hunch of what's going on here: The type-checker needs to satisfy Coercible (Ord a => a -> Map a b -> Bool) (Ord a => a -> MySet a -> Bool) and isn't able to instantiate b in this constraint to ().

Is there a more elegant way than to do this with -XTypeApplications?

Edit: I'm especially looking for solutions that deal with many occurences of MySet a in the type, for example union :: Ord a => MySet a -> MySet a -> MySet a.

  • 1
    How about member' k s = member k (coerce s)? – Benjamin Hodgson Sep 4 '17 at 9:13
  • Good thinking, But this gets quite verbose for union (where MySet occurs multiple times in the type) and is not possible at all for fromList. – Sebastian Graf Sep 4 '17 at 11:54
  • 2
    I think this might be considerable a bug in GHC, and certainly worth a ticket. Or talk to Richard in Oxford :-) – Joachim Breitner Sep 4 '17 at 13:31
  • 1
    @JoachimBreitner, I suspect this would be rather hard to fix. See my answer. Of course, you and Richard both know much more than I do. – dfeuer Sep 5 '17 at 7:40
member :: Ord a => a -> Map a b -> Bool
member' :: Ord a => a -> MySet a -> Bool

GHC needs to accept

Coercible (Map a b) (MySet a)

It sees that

Coercible (MySet a) (Map a ())

which leaves it needing

Coercible (Map a ()) (Map a b)

which leads to

Coercible () b

But what is b? It's ambiguous. In this case, it doesn't matter what b is, because by parametricity, member can't possibly care. So it would be perfectly reasonable to choose b ~ () and resolve the coercion trivially. But GHC generally doesn't perform such a parametricity analysis in type inference. I suspect it might be tricky to change that. Most especially, any time the type inference "guesses", there's a risk it might guess wrong and block up inference somewhere else. It's a big can of worms.

As for your problem, I don't have a good solution. When you have several functions with similar patterns, you can abstract them out, but you'll still face significant annoyance.

| improve this answer | |
  • That sounds kind-of like what my gut told me, but I wasn't sure. Thanks! Using -XTypeApplications is rather tedious, but it works: github.com/sgraf812/pomaps/blob/… – Sebastian Graf Sep 6 '17 at 9:01
  • Btw., I think the third and fourth Coercibles are switched. Not that it changes anything about the idea. – Sebastian Graf Sep 6 '17 at 9:08
  • 1
    @SebastianGraf, if you're wrapping a whole module, you may find it easier to use full type signatures than type applications. foo = coerce (M.foo :: theoldthing this that) :: forall this that. thenewthing this that). More copy/paste that way, with less thinking about which type arguments go where. – dfeuer Sep 6 '17 at 13:08

The solution with TypeApplications is quite straightforward:

{-# LANGUAGE TypeApplications #-}

import Data.Coerce
import qualified Data.Map as M

newtype Set a = Set (M.Map a ())

member :: Ord a => a -> Set a -> Bool
member = coerce (M.member @_ @())

union :: Ord a => Set a -> Set a -> Set a
union = coerce (M.union @_ @())

Note that some functions will require more or less wildcards, e.g.

smap :: (Ord b) => (a -> b) -> Set a -> Set b
smap = coerce (M.mapKeys @_ @_ @())

To determine how exactly you must specify the type applications (aside from trial and error), use

>:set -fprint-explicit-foralls
>:i M.mapKeys
M.mapKeys ::
  forall k2 k1 a. Ord k2 => (k1 -> k2) -> M.Map k1 a -> M.Map k2 a

The variable order you get from :i is the same one used by TypeApplications.

Note that you can't use coerce for fromList - it isn't a limitation, it just doesn't make sense:

fromList :: Ord a => [a] -> Set a
fromList = coerce (M.fromList @_ @())

This gives the error

* Couldn't match representation of type `a' with that of `(a, ())'

The best you can do here is probably

fromList :: Ord a => [a] -> Set a
fromList = coerce (M.fromList @_ @()) . map (flip (,) ())
| improve this answer | |
  • 1
    NB: the OP is explicit that they are aware of the TypeApplications solution, but I think it's 'simple enough' - so this answer is essentially "no, there is no more elegant way". But this seems largely opinion based, so instead I phrase the answer itself as a (simple!) method which can be used to mechanically write such code without thinking hard about how to do so. – user2407038 Sep 5 '17 at 21:59
  • 1
    :set -fprint-explicit-foralls sounds like what I had reached for if I had known it when implementing github.com/sgraf812/pomaps/blob/…. Thanks for your tips, but I think the other post is a more direct answer to the question. – Sebastian Graf Sep 6 '17 at 9:05

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.