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I am playing with Parsec and I want to combine two parsers into one with the result put in a pair, and then feed it another function to operate on the parse result to write something like this:

try (pFactor <&> (char '*' *> pTerm) `using` (*))

So I wrote this:

(<&>) :: (Monad m) => m a -> m b -> m (a, b)
pa <&> pb = do
  a <- pa
  b <- pb
  return (a, b)


using :: (Functor f) => f (a, b) -> (a -> b -> c) -> f c
p `using` f = (uncurry f) <$> p

Is there anything similar to (<&>) which has been implemented somewhere? Or could this be written pointfree? I tried fmap (,) but it seems hard to match the type.

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Andy Gill calls this the both combinator in documentation on Chalkboard and Kansas-Lava. I haven't seen it defined anywhere, but I have defined it myself at least once. –  stephen tetley Sep 24 '11 at 19:50
Thank you for the information –  Lin Jen-Shin Sep 24 '11 at 21:20

5 Answers 5

up vote 7 down vote accepted

Is there anything similar to (<&>) which has been implemented somewhere? Or could this be written pointfreely? I tried fmap (,) but it seems hard to match the type.

I don't now if it's implemented anywhere, but <&> should be the same as liftM2 (,). The difference to fmap is, that liftM2 lifts a binary function into the monad.

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It's too bad that we can't make it infix: foo `liftM2 (,)` bar. –  luqui Sep 24 '11 at 20:12
Thank you, this is exactly what I want, though I ended up with liftA2 (,) –  Lin Jen-Shin Sep 24 '11 at 21:21

Better than <&> or liftM2 would be

(,) <$> a <*> b

since Applicative style seems to be gaining popularity and is very succinct. Using applicative style for things like this will eliminate the need for <&> itself, since it is much clearer than (,) <$> a <*> b.

Also this doesn't even require a monad - it will work for Applicatives too.

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And you don't need using, either: you can just use (*) instead of (,) as in (*) <$> a <*> b. –  Daniel Wagner Sep 24 '11 at 20:33
Thank you, I ended up with liftA2 (,). I still want <&> and using though, because I want to change the order of arguments. i.e. putting (*) on the end. –  Lin Jen-Shin Sep 24 '11 at 21:23

Using applicative style, there is no need to put the intermediate results into a tuple just to immediately apply an uncurried function. Just apply the function "directly" using <$> and <*>.

try ((*) <$> pFactor <*> (char '*' *> pTerm))

In general, assuming sane instances of Monad and Applicative,

do x0 <- m0
   x1 <- m1
   return $ f x0 x1 ...

is equivalent to

f <$> m0 <*> m1 <*> ...

except that the latter form is more general and only requires an Applicative instance. (All monads should also be applicative functors, although the language does not enforce this).

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Actually this is where I came from. :) But I want to put (*) on the end, thus introducing <&> and using. I ended up with liftA2 (,) though. Yeah, if Applicative could do the job, then why not? –  Lin Jen-Shin Sep 24 '11 at 21:25

Note, that if you go the opposite direction from Applicative you'll see that the way you want to combine parsers fits nicely into Arrow paradigm and Arrow parsers implementation. E.g.:

import Control.Arrow

(<&>) = (&&&) 

p `using` f = p >>^ uncurry f 
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Interesting... it seems I need to rewrite the parsers to fit into this though? –  Lin Jen-Shin Sep 25 '11 at 15:37
Yes, Parsec is monadic not arrow parser (unlike PArrows). I am not sure how widely used arrow parser are (I suspect not very widely) though they are supposed to be more efficient (but probably harder for understanding as well). –  Ed'ka Sep 28 '11 at 14:31
I see, thank you! I would spend some time looking into it. –  Lin Jen-Shin Sep 28 '11 at 15:05

Yes, you could use applicative style but I don't believe that answers either of your questions.

Is there some already defined combinator that takes two arbitrary monads and sticks their value types in a pair and then sticks that pair in the context?

Not in any of the standard packages.

Can you do that last bit point free?

I'm not sure if there is a way to make a curried function with an arity greater than 1 point free. I don't think there is.

Hope that answers your questions.

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The ((.) . (.)) combinator is often used to make a function with arity greater than 1 point free. But using auxiliary functions is even better! –  alternative Sep 24 '11 at 20:43
Thank you for your direct answer. :) I don't understand why curried function with an arity greater than 1 can't be point free though. Isn't (<&>) = liftA2 (,) point free? Can you elaborate or give me some reference? Thanks! –  Lin Jen-Shin Sep 24 '11 at 21:28

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