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Here is a simple example where the identity Functor works well:

newtype R a = R a

instance Functor R where
    fmap f (R a) = R $ f a

but if I add an intermediate type family, things get wonky:

data IntT
data a :-> b

type family   Sem a         :: *
type instance Sem IntT      = Int
type instance Sem (a :-> b) = Sem a -> Sem b

newtype S a = S (Sem a)

and now I can't make S into a Functor. I can easily define a new class of Functor-like things, but then I will also need a class of Applicative-like and Monad-like, and that seems like an unhappy road. Especially as

smap f (S a) = S $ f a

actually has the type I want, namely smap :: (Sem a -> Sem b) -> S a -> S b. But, of course, this is not the type of a Functor. (Don't you just hate it when the "same" code has 2 different, incompatible types?)

I have explored Data.Category.Functor as well as Generics.Pointless.Functors, but neither seemed to quite solve my problem either. PointlessTypeFamilies seemed to have further good ideas, and yet I am still unsure how to get something sufficiently Functor-like out of this.

It has dawned onto me that even though the code for smap is identical to that of fmap for R, what is going on is slightly different. In a way, if I had a natural transformation from Sem to S, then somehow I ought to be able to lift that to obtain smap. At that point, I figured I might as well ask here, that might save me quite a bit of trouble!

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Can you define your functor more formally? 1. S is a partial type map so cannot be a functor as is. 2. IntT is not isomorphic to Int so there is no canonical choice of a possible functor. –  mnish Nov 14 '12 at 3:33
My real question is probably "what is smap, as it's not a functor, even though it feels/acts like one?". –  Jacques Carette Nov 14 '12 at 3:53
smap can be thought of as a functor, but doesn't mean much. it's just the 'witness' of the trivial isomorphism between subcategories of types Sem a and S a (where they are defined). What's more important perhaps is that IntT is not isomorphic to Int. That changes everything. –  mnish Nov 14 '12 at 4:40
I'm afraid there might be some confusion of terminologies between us. In which case I will try to give a more detailed answer tomorrow. –  mnish Nov 14 '12 at 10:11
I know that IntT is not isomorphic to Int - that is on purpose. The whole point of Sem is to be able to map IntT to "other things", like for example P({even, odd}) for the purposes of doing abstract interpretation. Or I could map IntT to Nat for computing the length of programs, and so on. –  Jacques Carette Nov 14 '12 at 13:10

1 Answer 1

When I encounter a situation like this I usually switch to something like:

data S b = forall a. S (a -> b) (Sem a)

which can easily be made into a law-abiding Functor

instance Functor S where
  fmap f (S g s) = S (f . g) s

or I turn to Coyoneda to package up that behavior for me.

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Note that writing Applicative or Monad for this representation will probably still be a pain, if that's a goal. –  copumpkin Nov 16 '12 at 18:11
You can always use the free Applicative or one of the free monad encodings from my free package to capture those, but otherwise, yes, it will be a pain. ;) –  Edward KMETT Nov 16 '12 at 18:15
In particular my Church-encoded free monad should do the trick: hackage.haskell.org/packages/archive/free/3.2/doc/html/… as, unlike the classic free monad construction it doesn't require a Functor for the base type. –  Edward KMETT Nov 16 '12 at 18:25
The Church-encoded free applicative/monad won't work -- you can't partially apply type families. But I just might be able to use the basic idea and make it work via a little inlining. –  Jacques Carette Nov 19 '12 at 3:21
Ah good point. I misread that as you using a GADT rather than a type family. –  Edward KMETT Nov 19 '12 at 17:04

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