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# Is there a nicer way to apply a function to both elements of a pair in a list than a list comprehension?

I use this a fair bit:

``````a' = [ (f x, f y) | (x, y) <- a ]
``````

Is there a better way to do that?

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You can use the `(***)` operator from `Control.Arrow`

``````> map (f *** f) a
``````

or define your own helper function

``````> let both f (x, y) = (f x, f y)
> map (both f) a
``````
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or perhaps just a lambda: `map (\(x, y) -> (f x, f y)) a` – MtnViewMark Oct 23 '12 at 3:04

Alternative solution:

``````import Data.Bifunctor

bimap f f pair
``````

`Bifunctor.bimap` is basically the same as `Arrow.(***)`, but works for other bifunctors (like `Either a b`), too.

Digression:

The reason why there is nothing predefined for your case is that you can't write instances of `Functor`, `Applicative` etc for `(,)` having the same element type twice. With an own "vector-like" type you wouldn't have this problem:

``````data Pair a = Pair a a deriving Show

instance Functor Pair where
fmap f (Pair x y) = Pair (f x) (f y)
``````

Now you can write things like `map (fmap (+1)) [Pair 12 14, Pair 17 18]`. Or if you want to use different operations on your `Pair`, you can go one step further:

``````instance Applicative Pair where
pure x = Pair x x
(Pair f g) <*> (Pair x y) = Pair (f x) (g y)
``````

If you work a lot with same-element-type pairs, it could be useful to switch from `(,)` to such a type.

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Thanks for the digression. – Ali Afshar Oct 23 '12 at 15:17

If you use `lens`, you can use `over both f`, or `both %~ f`. This has the advantage of being more composable -- for example, if you have a pair of lists, you can use something like `both.mapped +~ toUpper` (`:: ([Char],[Char]) -> ([Char],[Char])`).

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