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I'm looking for an easy way to write the function

mapAndUnzip :: (Functor f) => (a -> (b,c)) -> f a -> (f b, f c)

I'm not entirely convinced that Functor is a strong enough constraint, but I'll use it for concreteness. I want to be able to apply this function when f has type (to name a few) [], Data.Vector.Unboxed.Vector, and my own wrapper types around [a] and Vector a. (Other possible types include Array, Repa vectors, etc.)

My key requirement is that I should not need a constraint like (Unbox (b,c)), only (Unbox b,Unbox c). Subrequirement: compute the function only once for each input element.

I see a way to do this for Vector by building two mutable vectors as I map over the input, but I'm hoping there's a better way than making a new class and my own instances for different types. The list-specific way that GHC.Util defines mapAndUnzip makes me think a generic solution might not be possible, but I figured I'd get a second opinion before hacking my own solution.

share|improve this question
There is already an instance (Unbox a, Unbox b) => Unbox (a,b); moreover the representation of vectors of pairs is already by a pair of vectors data instance U.MVector s (a, b) = U.MV_2 {-# UNPACK #-} !Int !(U.MVector s a) !(U.MVector s b) so I don't think there's trouble with U.unzip . U.map f – Michael Aug 14 '14 at 2:19
@Arthur Unfortunately, my own data types wrapped around vectors have their own associated constraint which does not work automagically for pairs. – Eric Aug 14 '14 at 3:31
I see; it is a little puzzling that you don't state their definition. – Michael Aug 15 '14 at 23:02

Functor is enough, you can do:

(EDIT: Compute g only once)

mapAndUnzip g fa = (fmap fst fbc, fmap snd fbc)
    fbc = fmap g fa
share|improve this answer
Ah, but this computes g fa twice, does it not? – Eric Aug 13 '14 at 22:27
@Eric Hm right, but I can fix that I think. – Ørjan Johansen Aug 13 '14 at 22:27
Okay, one more nitpick: this requires two traversals of the output Functor. Can we do it in one? (the GHC.Util mapAndUnzip for lists, for example, computes the resulting pair of output lists one element at a time.) – Eric Aug 13 '14 at 22:33
@Eric In that case, I don't think there's any standard class that will allow you to satisfy both your requirements of computing only once and not going via pairs. – Ørjan Johansen Aug 13 '14 at 22:40
In some sense, you don't need to 'compute a functor of pairs', you can do \f x -> f x = (fmap (fst . f) x, fmap (snd . f) x). But due to laziness, this will work the same as above - evaluating everything once if the pair is lazy, or twice if it is strict. – user2407038 Aug 14 '14 at 2:08

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