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.