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(edited from previous question where I thought code below doesn't work)

I wish to implement a haskell function f that has a restriction such that its 2 parameters must not have the same type. I have used the following code:

{-# LANGUAGE MultiParamTypeClasses, FunctionalDependencies, UndecidableInstances, FlexibleInstances, FlexibleContexts, TypeFamilies, IncoherentInstances #-}
data HTrue = HTrue
data HFalse = HFalse

class HEq x y b | x y -> b
instance (b ~ HTrue) => HEq x x b
instance (b ~ HFalse) => HEq x y b

g :: (HEq a b HFalse) => a -> b -> ()
g x y = ()

Now the function g only accepts a and b if they have different types. Is this the 'idiomiatic' way to code type inequality in haskell? If not, what are the problems with it?

share|improve this question
i think you are missing a ) in your type declaration for g. Have you tried g (2 :: Int) (3 :: Int) ? – DiegoNolan Jul 19 '13 at 15:26
You don't need IncoherentInstances. OverlappingInstances is enough. – is7s Jul 19 '13 at 15:43
Haskell actually never does a typecast. Caveat: I'm not sure if I know enough Haskell to say that's always true, but I'm not aware of the language allowing typecasts, only that in GHC various unsafe* functions will let you do things like cast a float to a double to a pointer. The result will be nonsense, but that'll be your fault, and it's not so much a cast as telling the compiler to break all of its rules as you say, "Trust me, I know what I'm doing." The compiler will be suspicious of your motivations but believe you. – Aaron Friel Jul 19 '13 at 18:11
@AaronFriel - I am not sure if this counts as a typecast, but features like OverloadedStrings cause implicit cast of literals. Also, there can be implicit cast of number literals to either int or integer. Maybe cast is not the right word here, but what I am saying is that just the literal itself doesn't always have the same type. – tohava Jul 19 '13 at 22:22
up vote 8 down vote accepted

With new features being added to GHC, you'll be able to write:

{-# LANGUAGE DataKinds, PolyKinds, TypeFamilies #-}

type family Equal (a :: k) (b :: k) :: Bool
type instance where
   Equal a a = True
   Equal a b = False
share|improve this answer

This is how it is done in the HList library

{-# LANGUAGE FlexibleInstances, 
    UndecidableInstances ,

data HTrue; data HFalse;

class TypeCast a b | a -> b
instance TypeCast a a

class TypeEq a b c | a b -> c
instance TypeEq x x HTrue
instance (TypeCast HFalse b) => TypeEq x y b
-- instance TypeEq x y HFalse -- would violate functional dependency

You can fully infer type equality now:

typeEq :: TypeEq a b c => a -> b -> c
typeEq _ _ = undefined

Note that typeEq 0 1 == HFalse since 0 :: Num a => a and 1 :: Num b => b.

share|improve this answer
Note that until the new features defined in the other answer are rolled out, this is basically the way to do it. – sclv Jul 23 '13 at 1:06

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