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From time to time I stumble over the problem that I want to express "please use the last argument twice", e.g. in order to write pointfree style or to avoid a lambda. E.g.

sqr x = x * x

could be written as

sqr = doubleArgs (*) where
   doubleArgs f x = f x x

Or consider this slightly more complicated function (taken from this question):

ins x xs = zipWith (\ a b -> a ++ (x:b)) (inits xs) (tails xs)

I could write this code pointfree if there were a function like this:

ins x = dup (zipWith (\ a b -> a ++ (x:b))) inits tails where
     dup f f1 f2 x = f (f1 x) (f2 x)

But as I can't find something like doubleArgs or dup in Hoogle, so I guess that I might miss a trick or idiom here.

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up vote 20 down vote accepted

From Control.Monad:

join :: (Monad m) -> m (m a) -> m a
join m = m >>= id

instance Monad ((->) r) where
    return = const
    m >>= f = \x -> f (m x) x


join :: (a -> a -> b) -> (a -> b)
join f = f >>= id
       = \x -> id (f x) x
       = \x -> f x x

So, yeah, Control.Monad.join.

Oh, and for your pointfree example, have you tried using applicative notation (from Control.Applicative):

ins x = zipWith (\a b -> a ++ (x:b)) <$> inits <*> tails

(I also don't know why people are so fond of a ++ (x:b) instead of a ++ [x] ++ b... it's not faster -- the inliner will take care of it -- and the latter is so much more symmetrical! Oh well)

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And according to pointfree, dup works out to be liftM2. I really need to get a better handle on the monad instance for functions. – Antal Spector-Zabusky Dec 2 '10 at 10:30
Thank you both for giving even two approaches to solve such problems. BTW I tried sqr = (*) <$> id <*> id and it works as well :-) – Landei Dec 2 '10 at 10:57
a ++ (x:b) is 3 characters shorter than your alternative, maybe that's why some people prefer it? – John L Dec 2 '10 at 14:13
If I would like to emphasize symmetry, I'd rather write concat [a,[x],b] instead of a ++ [x] ++ b – Landei Dec 2 '10 at 15:22
@Antal S-Z: There's really not that much to it--just a lightweight Reader monad that's easy to use inline. The first argument serves as the environment, fmap and return are independent of the environment as you'd expect, etc. One of my favorite uses is with a conditional combinator (<?>) that can be used like even <?> (`div` 2) <*> (+ 1) which I think is much more readable than \n -> if even n then n div` 2 else n + 1. (n.b. -- liftM2 (\b t e -> if b then t else e)` will produce side effects from both branches, though this is irrelevant to Reader) – C. A. McCann Dec 2 '10 at 17:25

What you call 'doubleArgs' is more often called dup - it is the W combinator (called warbler in To Mock a Mockingbird) - "the elementary duplicator".

What you call 'dup' is actually the 'starling-prime' combinator.

Haskell has a fairly small "combinator basis" see Data.Function, plus some Applicative and Monadic operations add more "standard" combinators by virtue of the function instances for Applicative and Monad (<*> from Applicative is the S - starling combinator for the functional instance, liftA2 & liftM2 are starling-prime). There doesn't seem to be much enthusiasm in the community for expanding Data.Function, so whilst combinators are good fun, pragmatically I've come to prefer long-hand in situations where a combinator is not directly available.

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Oh, I found the "bird-operators" for Haskell:… – Landei Dec 2 '10 at 12:41
@Landei - I consider them "reference only", i.e. I wouldn't recommend depending on them in working code. I ought to make the Cabal description more explicit that they are "reference only", but I haven't gotten round to it yet. – stephen tetley Dec 2 '10 at 12:56
What @Landei calls dup is also known as a "verb fork" in J, where it's written by simple juxtaposition of operators, e.g. (f g h) x instead of dup f g h x. – C. A. McCann Dec 2 '10 at 17:35

Here is another solution for the second part of my question: Arrows!

import Control.Arrow

ins x = inits &&& tails >>> second (map (x:)) >>> uncurry (zipWith (++))

The &&& ("fanout") distributes an argument to two functions and returns the pair of the results. >>> ("and then") reverses the function application order, which allows to have a chain of operations from left to right. second works only on the second part of a pair. Of course you need an uncurry at the end to feed the pair in a function expecting two arguments.

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