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When I use MultiParamTypeClasses, I can create class functions that ignore one of the type parameters (ie- like "identity" below).

{-# LANGUAGE MultiParamTypeClasses #-}

data Add = Add
data Mul = Mul

class Test a b where

instance Test Int Add where
    identity = 0

instance Test Int Mul where
    identity = 1

(this is a stripped down version, of course in the full program there would be other functions that would use "b").

The example compiles, but I can never access identity!

main = do
    putStrLn (show (identity::Int))

leads to "No instance for (Test Int b0) arising from a use of 'identity'.

Is there a way to access identity? If not, shouldn't the compiler forbid me from ever creating a class function that doesn't use all type parameters?

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up vote 4 down vote accepted

If not, shouldn't the compiler forbid me from ever creating a class function that doesn't use all type parameters?

Perhaps. Indeed you'll never be able to use such a class method. But as the error occurs always at compile-time, it's not really dangerous.

Fixes that work in some similar cases (not in yours, though):

  • Make the undetermined type variable functionally dependent on one of the others.

    {-# LANGUAGE FunctionalDependencies #-}
    class Group_FD g p | g->p where
      identity :: g

    This could be used perhaps like

    data Nat = One | Succ Nat
    instance Group_FD Nat Mult where
      identity = One
    instance Group_FD Int Add where
      identity = 0

    But it's obviously not possible to make multiple instances with the same g element this way.

  • Define a seperate class with only one parameter for the methods that depend only on that. Then make this class a constraint ("superclass") on the other one, to "import" methods:

    class Identity i where
      identity :: i
    class (Identity i) => Test i y

    that's no use at all for your application though, since you want the behaviour of identity to depend on the Phantom type variable.

To achieve your goal, you must somehow pass the information of which instance you want. One way to achieve this is phantom arguments:

class Group_PA g p where
  identity :: p -> g

instance Group_PA Int Add where
  identity _ = 0

instance Group_PA Int Mult where
  identity _ = 1

You could then use that like

GHCi> identity Add :: Int
GHCi> identity Mult :: Int

Perhaps more idiomatic would actually be to make the flag types empty

{-# LANGUAGE EmptyDataDecls #-}
data Add
data Mult

GHCi> identity (undefined :: Add) :: Int
GHCi> identity (undefined :: Mult) :: Int

This makes it clearer that the phantom argument actually carries no runtime information, just controls what instance the compiler chooses.

Admittedly, this is pretty ugly.

The right™ solution is to make newtype wrappers to contain the phantom information. In fact, such wrappers are already in the standard libraries: Sum and Product.

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See my answer for a way such a class definition could be used, without having to change the class definition. But, agreed, that usage is pretty useless. – bennofs Nov 20 '13 at 19:35
Maybe you should also mention Proxy when you talk about phantom arguments? – bennofs Nov 20 '13 at 19:36
@bennofs: honestly, I consider proxies even more ugly than stray undefined arguments in your code. – leftaroundabout Nov 20 '13 at 19:49
I chose this as the correct answer because it offers great practical advice, although I think bennofs' answer also adds some important info to the discussion, too bad I can't split the credit. I am still curious what the proxy stuff is though.... – jamshidh Nov 20 '13 at 23:13
@jamshidh: you can upvote bennofs' answer, that also gives credit (10 pts, compared to 15 for an accept). — As for the Proxy stuff... you add yet another data GroupSelector p = SelectGroup with a trivial constructor, but also with a type argument so the constructor has a polymorphic type. Then you can do identity (SelectGroup :: GroupSelector Add) :: Int. Which amounts to pretty much the same result as with your non-empty Add and Mult data types, but in a much more roundabout way. (Proxies do have some not-completely unreasonable applications, but those are rare.) – leftaroundabout Nov 20 '13 at 23:50

If you use FlexibleInstances, it's possible to change the instance definition so that identity may be used:

{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE FlexibleInstances #-}

data Add = Add
data Mul = Mul

class Test a b where

instance Test Int b where
    identity = 0

main :: IO ()
main = do
  print $ (identity :: Int)

Because instances could be defined in an other file and then only that file would require the use of FlexibleInstances, GHC cannot disallow class declarations that don't use all their type variables in general.

If you want instances for different b's, then you have to use FunctionalDependencies.

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