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A function which zips a list onto itself can be defined as:

let adjacent1 l = zip l $ tail l

This works, but I'd like to define it in pointfree style. To do this, I define a function dollarize:

let dollarize f1 f2 x = f1 x $ f2 x
let adjacent1 = dollarize zip tail

This works, but obviously I'd rather not define my own higher-order functions. Is there a way to find the standard equivalent of dollarize, assuming it exists? And if not, where are the functions of this sort which exist to combine functions?

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up vote 11 down vote accepted

The pointfree tool can do this for you automagically.

$ pointfree "\l -> zip l (tail l)"
ap zip tail
$ pointfree "\f1 f2 x -> f1 x $ f2 x"
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If you are a regular IRC user, the lambdabot of #haskell can do the same thing. Just query it @pl \l -> zip l (tail l) and you'll get the same answer. – kqr Aug 19 '13 at 12:11

How about using the Applicative instance of (->) a?

Prelude Control.Applicative> :t zip <*> tail
zip  <*> tail :: [a] -> [(a, a)]
Prelude Control.Applicative> zip <*> tail $ [1 .. 4]

short and sweet.

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... or just zip <*> tail. – hammar Oct 24 '12 at 21:19
Yes, just checked that, wasn't sure. – Daniel Fischer Oct 24 '12 at 21:22
It's obvious if you remember that <$> on functions is just function composition, and composing with id obviously does nothing. Also worth mentioning that <*> is the S combinator from SKI calculus. – hammar Oct 24 '12 at 21:23
Which would help if I knew SKI calculus ;) – Daniel Fischer Oct 24 '12 at 21:25
@Marcin: Normally, I recommend Hoogle. However, it won't find the answer in this case, since it treats the function arrow (->) specially, so it never finds functions which rely on using (a ->) as a monad/applicative, so searching for f (b -> c) -> f b -> f c works, but not (a -> b -> c) -> (a -> b) -> a -> c. – hammar Oct 24 '12 at 21:33

Accoring to @Daniel Fischer's answer. Also your can use monad instance of (->) a:

Prelude Control.Monad.Instances> let adjacent1 = tail >>= flip zip
Prelude Control.Monad.Instances> adjacent1 [1..4]
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