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I'm trying to figure out if it's possible (and how) to define class instances for multi-parameter type synonyms.

For example:

{-# LANGUAGE MultiParamTypeClasses, FlexibleInstances #-}

type F a b = a -> b
data DF a b = DF (a -> b)

class C c a b where
    doc :: c a b -> a -> b

It works for a multi-param type instance:

instance C DF a b where
    doc (DF f) x = f x

But it doesn't work for type synonyms:

-- ERROR:
--
-- Type synonym `F' should have 2 arguments, but has been given none
-- In the instance declaration for `C F a b'
--
instance C F a b where
    doc f x = f x

Is it possible to define a type class instance for F?

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2 Answers

up vote 10 down vote accepted

It's not possible as written. Type synonyms must in general be fully applied to use them, especially as a type class parameter.

Note that if you can eta-reduce the type synonym enough an instance is possible; it's the synonym which must be fully applied, not the type it refers to. So this would work:

type F = (->)

instance C F a b where
    doc f x = f x

There is a LiberalTypeSynonyms extension that relaxes some of the rules about expanding type synonyms, but it doesn't help here--it only lets you do things like give a partially-applied type synonym as a type parameter of another type synonym. Everything must still be fully expanded to use otherwise.

To see one reason why this restriction is necessary, consider the following type synonym:

type Flip f a b = f b a

And the following instance:

instance Functor (Flip Either a) where
    fmap _ (Right x) = Right x
    fmap f (Left x) = Left (f x)

Recall that there's also an instance Functor (Either a) which does the same thing, except mirrored. Both are sensible Functor instances.

Keeping in mind that unlike newtype, type synonyms are considered the same as the type they refer to, what should the value of the expression fmap not (Right True :: Either Bool Bool) be?

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Type synonyms have to be fully applied for an instance to be able to be defined for them. The kind of F is not * -> * -> *, as one might expect, but instead invalid until two more type arguments are supplied. Try

type F = (->)

instead.

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