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What I'd like to achieve is:

apply :: a -> [a -> b] -> [b]

this is kind of the inverse of map:

map :: (a -> b) -> [a] -> [b]

I've tried Hoogle, but to no avail. Can anyone suggest a clean way of doing this in Haskell?

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2 Answers

up vote 15 down vote accepted
apply :: a -> [a -> b] -> [b]
apply a = map ($ a)

which is a pithy way of saying

apply a = map (\f -> f a)

which may be more clear.

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\a -> map ($ a) is definitely fine, but perhaps yet a bit nicer is an Applicative approach: there is

<**> :: Applicative f => f a -> f (a -> b) -> f b

which has an instance <*> :: [a] -> [a->b] -> [b]. Looks a lot like what you want! You just need to put your a value in a singleton list, for which there is also a dedicated function in Applicative: pure.

apply :: Applicative f => a -> f (a -> b) -> f b
apply = (<**>) . pure

Though actually, I would rather restrict the signature to a -> [a->b] -> [b] for this top-level binding, since Applicative makes it look like you have the most general signature possible, which it is not:

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

Really, my solution is probably best when you're in some pipeline, I daresay it's best not to define apply but use (<**>) . pure directly in the code.

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By the Applicative laws, ((<**>) . pure) y u == u <*> pure y == pure ($ y) <*> u == fmap ($ y) u for all Applicatives, but the last is just more general. –  J. Abrahamson Jul 25 '13 at 22:38
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