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I would like to have a function for either mapping a pure function to a container or sequencing applicative/monadic action through it. For pure mapping we have

fmap :: Functor f => (a -> b) -> (f a -> f b)

For monadic sequencing we have (from Data.Taversable)

mapM :: (Traversable f, Monad m) => (a -> m b) -> (f a -> m (f b))

Which is similar to

mapKleisli :: (Traversable f, Monad m) => Kleisli m a b -> Kleisli m (f a) (f b)
mapKleisli = Kleisli . mapM . runKleisli

We know both (->) and (Kleisli m) are categories (and arrows). So it's naturally to make a generalization:

mapCategory :: (X f, Category c) => c a b -> c (f a) (f b)

Do you know such a class X with similar method? Maybe, somewhere on hackage? I tried to hoogle/hayoo but haven't found anything appropriate.


Now I know better what I need. Both Kleisli arrows and (->) are instances of ArrowApply which is as powerful as Monad. I came up with this arrow-based version of Travesable:

{-# LANGUAGE TypeOperators #-}

import Prelude hiding (id, (.), mapM)
import Control.Arrow
import Control.Category

class Traversable f where
  traverse :: ArrowApply (~>) => f a -> (a ~> b) ~> f b

mapArrow :: (ArrowApply (~>), Traversable f) => a ~> b -> f a ~> f b
mapArrow a = arr (\x -> (traverse x, a)) >>> app

instance Traversable Maybe where
  traverse Nothing = arr (const Nothing)
  traverse (Just x) = arr (\a -> (a, x)) >>> app >>> arr Just

instance Traversable [] where
  traverse [] = arr (const [])
  traverse (x : xs) = undefined -- this is hard!

I could use just usual Applicative-based Traversable, with Identity for pure functions, but I'm not sure it is good. Considering pure functions as special case of monadic actions is weird. Interpreting both pure functions and monadic actions as instances of some action class (Category/Arrow/ArrowApply) looks more straightforward to me.

Questions: would you like to finish instance for []? Has my opinion about ArrowApply vs Monad any sense?

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up vote 9 down vote accepted

You're asking for "some class X", but it should be pretty clear that the most (or perhaps, only) correct name for this class would be "Functor". What you want is simply a functor class defined for an arbitrary Category instance, rather than limited to (->).

Of course, your definition is still limited to (endo)functors from a category to a subcategory defined by the type constructor giving the instance. If you generalize a bit further, there's no reason for the two categories to be the same, giving you a type class something like this one:

class (Category r, Category t) => Functor f r t | f r -> t, f t -> r where
    fmap :: r a b -> t (f a) (f b)

This is still awfully limited vs. the full concept of a functor in category theory, but oh well.

It's also interesting to observe that this still has a (->) type constructor in it--that's because, even though we're modeling the source and target categories with arbitrary instances, the whole thing (and in particular, the functor itself) still exists in some sense in Hask, i.e., the category associated with (->). The other half of the functor (the part mapping objects) is, roughly speaking, the (->) in the kind * -> * for the type constructor f.

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Thanks for the answer, but in this case I have more practical interest than theoretical. In categories package we have only (Endo)Functor instances for (->) category which gives us nothing new comparing to what we have in the base (except the class itself). – alkar Jun 22 '11 at 20:39
@user713303: You're free to write your own instances. For instance, it would be very straightforward to do so for Kleisli arrows, as you demonstrated in your question. – C. A. McCann Jun 22 '11 at 20:46
In fact, if you have practical and useful instances in mind, why not contribute them? Here's the github page for the package. – C. A. McCann Jun 22 '11 at 20:48
As you can see from question update, I'd like to create instances for all arrows in once, so if I understand it right, this package can't help me. – alkar Jun 23 '11 at 13:43
@user713303: I rather doubt you can create instances for all arrows in the first place. You can of course combine existing type classes, as you've done in the question edit. I think an instance like Functor (LiftedFunctor f) (Kleisli m) (Kleisli m) would be equivalent, wouldn't it? – C. A. McCann Jun 24 '11 at 15:43

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