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I have the following two functions written.

pair :: [a] -> [(a, a)]
pair [] = []
pair [x] = []
pair (x1:x2:xs) = (x1, x2) : pair xs

unpair :: [(a, a)] -> [a]
unpair [] = []
unpair ((x1, x2):xs) = x1 : x2 : unpair xs

Pair will take pairs of elements and make 2-tuples of them. If the list has an odd number of elements, discard the last one. Unpair is the reverse of pair.

These work, but wondering whether there is a more succinct way to write these.

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It may be slightly verbose, but I'd say it wins hands down in terms of clarity compared to the answers so far. (No offense meant to those authors.) –  Adam Crume Jul 16 '10 at 16:40
I think the takeaway here is that an everyOther function on lists would be useful since people do gravitate toward the zip approach. The splits package on Hackage has splitEvery which would make this style of solution more perspicuous. –  Anthony Jul 16 '10 at 17:57
Hate to say it, but to the alternatives I've seen so far: I said succinct, not obtuse. :( –  qrest Jul 17 '10 at 2:06

5 Answers 5


pair xs = map snd . filter fst . zip (iterate not True) $ zip xs (drop 1 xs)
unpair = concatMap (\(x,y) -> [x,y])

You could have also abbreviate your definition of pair a little:

pair (x1:x2:xs) = (x1, x2) : pair xs
pair _ = []
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I like the abbreviation. Thanks. –  qrest Jul 17 '10 at 2:06

It's not any more concise, but for the sake of clarity I'd use splitEvery from Data.List.Split for pair:

pair = map tuplify . filter ((>1) . length) . splitEvery 2
    tuplify [x, y] = (x, y)

This is off the top of my head—it would be nicer to check the length of the last list only.

For unpair I'd use foldr to avoid the explicit recursion:

unpair = foldr (\(x, y) -> (x:) . (y:)) []

This is just a matter of taste.

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+1 to support my ongoing campaign promoting use of the name tuplify. –  C. A. McCann Jul 16 '10 at 16:38
unpair = foldr (\\(x, y) -> ([x, y] ++)) [] is nicer imo. –  Thomas Eding Jul 18 '10 at 6:28

So many possibilities. How about these?

unpair' = concatMap (\(x,y) -> [x,y])
pair' xs = map snd . filter fst . zip (cycle [True, False]) $ zip xs (tail xs)
pair'' xs = [(x,y) | (True,x,y) <- zip3 (cycle [True,False]) xs (tail xs)]

The two versions of pair should be the same.

Edit: Regarding my comment above, one can use the split package from Hackage to write:

pair xs = map head . splitEvery 2 $ zip xs (tail xs)

which is closer to the desired

pair xs = everyOther $ zip xs (tail xs)

But, in the spirit of pointlessness, I think we should probably all agree on writing it,

pair = map head . splitEvery 2 . (zip <$> id <*> tail)

to ensure confusion.

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Nice version with list comprehension. +1. –  sastanin Jul 16 '10 at 16:46
pair s = dropEven $ zip s (tail s)
     where dropEven s = map fst $ filter snd $ zip s (cycle [True, False])

unpair = concatMap (\(a, b) -> [a, b])

Though I definitely prefer your definition of pair.

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We came up with almost identical solutions :-) –  sastanin Jul 16 '10 at 16:38

This is a nice use for view patterns:

{-# LANGUAGE ViewPatterns #-}

pair :: [a] -> [(a,a)]
pair (splitAt 2 -> ([x,y],ys)) = (x,y) : pair ys
pair _ = []

unpair :: [(a,a)] -> [a]
unpair = (>>= \(x,y) -> [x,y])
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I don't think that pair (splitAt 2 -> ([x,y],ys)) = is more readable than just pair (x:y:ys) =. –  sastanin Jul 16 '10 at 16:51
But that doesn't use view patterns... :-) –  Greg Bacon Jul 16 '10 at 17:03

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