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Excuse my likely misuse of category theory terminology below. If I seem like I have half of a clue, I will judge myself wildly successful.

I've found myself writing a series of classes to handle products of type constructors of multiple arities. Something like this:

import Control.Applicative

-- | RWS monad.
newtype RWS r w s a = RWS {runRWS :: r -> s -> (a, s, w)}

-- | A class for unary type constructors that support a Cartesian
-- product operation.
class ProductObject f where
    (***) :: f a -> f b -> f (a, b)
infixr ***

-- | Example instance of 'ProductObject'.
instance ProductObject [] where
    (***) = liftA2 (,)

-- | A class for binary type constructors (read as morphisms
-- between their type parameters) that support a product morphism
-- operation.
class ProductMorphism arrow where
    (****) :: arrow a b -> arrow c d -> arrow (a, c) (b, d)
infixr ****

-- | Example instance of 'ProductMorphism'.  
instance ProductMorphism (->) where
    f **** g = \(a, c) -> (f a, g c)

-- | A class for ternary type constructors (read as two-place
-- multiarrows @a, b -> c@) with products.
class ProductMultimorphism2 arr2 where
    (*****) :: arr2 a b c -> arr2 d e f -> arr2 (a, d) (b, e) (c, f)
infixr *****

-- | A class for ternary type constructors (read as two-place
-- multiarrows @a, b -> c@) with products.
class ProductMultimorphism3 arr3 where
    (******) :: arr3 a b c d -> arr3 e f g h -> arr3 (a, e) (b, f) (c, g) (d, h)
infixr ******

-- | Let's pretend that the 'RWS' monad was not a type synonym
-- for 'RWST'.  Then an example of 'ProductMorphism3' would be:
instance ProductMultimorphism3 RWS where
    f ****** g = RWS $ \(fr, gr) (fs, gs) ->
        let (fa, fs', fw) = runRWS f fr fs
            (ga, gs', gw) = runRWS g gr gs
        in ((fa, ga), (fs', gs'), (fw, gw))

Now, this is annoying for several reasons. The largest one is that I have to revise one of the types in my application to add a third parameter, which means now I have to go find all uses of **** for that type and change them to *****.

Is there some trick I can apply to alleviate this situation? I'm trying to understand if PolyKinds in GHC applies to this, but (a) that's going slowly, (b) I've heard that PolyKinds in GHC 7.4.x is buggy.

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1 Answer 1

up vote 0 down vote accepted

Well, I've figured it out on my own:

{-# LANGUAGE MultiParamTypeClasses, TypeFamilies #-}

import Control.Applicative

class Product f g where
    type Prod a b :: *
    (***) :: f -> g -> Prod f g

instance Product [a] [b] where
    type Prod [a] [b] = [(a, b)]
    (***) = liftA2 (,)

instance Product (a -> b) (c -> d) where
    type Prod (a -> b) (c -> d) = (a, c) -> (b, d)
    f *** g = \(a, c) -> (f a, g c)
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