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My question is about how to put an equality constraint in an associated type constraint (i.e. type of kind Constraint)

The specific use case is a class parameterized by a partially applied type:

class Foo c where -- c has kind *->*->*
  type Ctx c m r :: Constraint
  f :: (Ctx c m r) => c m r -> c m r

In a particular instance, I would like to write:

data Bar m r = ...

instance Foo Bar where
   type Ctx Bar m r = (m~Maybe b) 
   -- m must be a Maybe, I don't care what its parameter is
   f = ...

However, GHC complains: 'Not in scope: type variable b'. I don't see any other way to express this constraint. Not every instance requires that 'm~Maybe b', so I cannot move this constraint to the type signature of f. b is not in scope in the instance anywhere (perhaps this is what GHC is complaining about), but there is no need for it to be. The function

f :: (a ~ Maybe b) => a -> a -> a

is valid, I see no reason why I can't do this with Constraints. This problem occurs with top-level constraints, as well as with associated type constraints.

Possibly related is this question, except I need equality with a variable NOT in scope.

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3  
You could try type Ctx Bar m r = forall b. a ~ Maybe b (this requires the Rank2Types and LiberalTypeSynonyms language extensions). –  Ptharien's Flame Sep 25 '12 at 2:52
    
This question is a duplicate of this –  is7s Sep 25 '12 at 9:19
    
@is7s But GHC does support that now... and this question is about a completely different aspect anyway. –  Daniel Wagner Sep 25 '12 at 15:10
    
@DanielWagner isn't the problem here that the type variable b is not a class parameter? If so, isn't this the same problem of the other question? Am I missing something? –  is7s Sep 25 '12 at 19:27
    
@is7s No, that is not the problem: the problem is that constraints can't quantify over types. Associated type families can perfectly well have non-class-parameter arguments these days. –  Daniel Wagner Sep 25 '12 at 20:32

1 Answer 1

up vote 2 down vote accepted

Here is another way to express this constraint:

class IsMaybe m {- where ...whatever operations you need to do on Maybe values -}
instance IsMaybe (Maybe b) {- where ...implement those operations -}
instance Foo Bar where
    type Ctx Bar m r = IsMaybe m

However, given Haskell naming conventions, I would be kind of surprised if this is actually what you want -- is m really a type variable of kind * and not of kind * -> *? In case it's the latter, you'd just want

instance Foo Bar where
    type Ctx Bar m r = m~Maybe

...and possibly a kind annotation in the class declaration for Foo.

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Thanks Daniel, I'll give this a shot. m is in fact a (crazy) user-defined type of kind ->. I'm still wondering if what I tried in my question should be legal, or if perhaps it just isn't implemented yet. –  Eric Sep 25 '12 at 3:29

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