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For example, suppose I have the following functions:

foo :: Monad f => f a
bar :: Monad f => a -> f b
baz :: Monad f => a -> f c
qux :: Monad f => a -> f d

And I only want to return the result of qux, e.g. g :: Monad f => f a -> f d, where g calls bar and baz for their side-effects, perhaps.

Is there a way to construct g without explicitly applying each function to the result of foo? Somewhat similar to how (&&&) works, or (<*>) I suppose.

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Calling bar and baz for their side effects? Are you sure you're talking about functors in Haskell, not about some impure language or about monads? –  delnan Jul 27 '13 at 15:36
Functors have no notion of "sequencing". Just fmap. So you'll need a stronger typeclass, Applicative, Monad, or Arrow come to mind –  jozefg Jul 27 '13 at 15:37
In fact, even g is impossible to create, applying qux gives f (f D) and I'm assuming you didn't mean to use universally quantified type variables –  jozefg Jul 27 '13 at 15:47
I modified the typeclass. –  user2625831 Jul 27 '13 at 15:49

2 Answers 2

up vote 3 down vote accepted

I'm assuming that a b c and d are in fact not supposed to be type variables and instead you meant more like

 data A
 data B
 data C
 data D

Because otherwise you're asking for a function of type forall a b. a -> b which is impossible to meaningfully create.

k = Kleisli
a &^& b = a &&& b >>> arr snd
g = runKleisli $ k bar &^& k baz &^& k quux

is a simple way to do this. it uses the kleisli arrow which wraps around a Monad to lift it into arrow land. I'm not aware of any nice combinators that accomplish &^& in a predefined way but it's pretty trivial to define.

The nice thing is that this scales trivially and is pointfree

 g = runKleisli $ k f &^& k f' &^& k f'' &^& k f''' ....
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Yes, I think you're right about the quantification, thanks. Given your solution I can now write something like: total t = (t+) <$> readLn >>= runKleisli $ print &^& total. –  user2625831 Jul 27 '13 at 17:01
Yep, I would actually suggest the updated version as it's much more flexible since it allows all combinators associated with kleisli arrows to be used and generalizes to all arrows. –  jozefg Jul 27 '13 at 17:02

Here's a possible solution using the Monad instance for ((->) r). This works nicely, and scales to as many function applications as neccessary.

g :: Monad m => m a -> m b
g foo = foo >>= bar .&. baz .&. qux
    where (.&.) = liftM2 (>>)
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This isn't actually the asked for function –  jozefg Jul 27 '13 at 16:24
@jozefg: In which way? This function applies bar, baz, and qux to the result of foo, returning only the result of qux. –  cdk Jul 27 '13 at 16:28
my mistake, the OP gives the wrong type signature for g, as a function from m a -> m d, I removed my -1 :) –  jozefg Jul 27 '13 at 16:29
PS .&. is already used for bitwise and –  jozefg Jul 27 '13 at 16:35

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