Say I have a mean function defined like so:

mean xs = sum xs / (fromIntegral $ length xs)

but I want it in some tacit form, like this:

mean = sum / (fromIntegral . length)

Is there a built-in Haskell way to do something along these lines without having to build up my own tacit function (something like this):

tacit :: (a -> b -> c) -> (d -> a) -> (d -> b) -> d -> c
tacit a b c i = a (b i) (c i)

In this form, the function looks like this:

mean = tacit (/) sum (fromIntegral . length)

but it feels like there might be a way to avoid having to use an explicit function such as this. I'm just wondering; is there some way to do this that is built in to Haskell?


2 Answers 2


Applicative functors work pretty well here.

import Control.Applicative

mean = (/) <$> sum <*> (fromIntegral . length)

Yes, your tacit function is liftM2 in the (->) r monad (liftM2 is in Control.Monad, and the function instance of Monad is in Control.Monad.Instances).

I found this using the pointfree program (you can install it via cabal install pointfree), invoked as:

$ pointfree '\xs -> sum xs / (fromIntegral $ length xs)'

(in a Unix terminal)

  • 8
    And then you can make a Num instance for (->) r and then mean = sum / (fromIntegral . length) will actually work. Aug 21, 2012 at 19:51
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    @SjoerdVisscher: you need Fractional too because of (/). Just tried it and confirmed that's all you need. Aug 21, 2012 at 20:11
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    And an amusing addition to that is that once you have the Num r => Num (a -> r) instance, you can add addition to itself: (+) + (+) becomes a well-typed expression (equivalent to \x y -> (x + y) + (x + y)). Aug 21, 2012 at 21:10
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    @sacundim Ah, right. And 1 2 3 4 is also a well-typed expression. It's clear why this is not a built-in instance. Aug 21, 2012 at 22:33
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    Heh, I didn't think of that one. But what makes it worse is that if a module of yours imports any module that uses this instance directly or indirectly, you're going to get this instance. So one should really wrap it with a newtype—in which case the extra syntactic overhead means that you might as well use Applicative. Aug 21, 2012 at 22:44

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