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.

`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