Trick for “reusing” arguments in Haskell?

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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From `Control.Monad`:

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

return = const
m >>= f = \x -> f (m x) x
``````

Expanding:

``````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: hackage.haskell.org/packages/archive/data-aviary/0.2.3/doc/html/… – 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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