Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Is there a function in Haskell where say if you supplied a Char, and a List of 13 Pairs of Chars (all different i.e. every letter of the alphabet was used once and only once) it would return you the Char which is paired with your inputted Char i.e. if I inputted the following:

pairedChar Q [(A,Z),(B,Y),(C,X),(D,W),(E,V),(F,U),(G,T),(H,S),(I,R),(J,Q),(K,P),(L,O),(M,N)]

I would like it to return J?

If there isn't a function like that I was thinking maybe of doing it with unzip to get a pair of lists but wasn't sure what to do with the lists after I get them?

share|improve this question
You should not have to unzip, you can just go down (using the pattern match ((x,y):ss) this list as pairs and check if either member of the pair is an input if it is return the other one. –  Treesrule14 Nov 14 '13 at 21:50
only remember, Char is 's', so your code must look like pairedChar 'Q' [('A','Z'),('B','Y'),... –  wit Nov 14 '13 at 22:56
hoogle is good at answering questions of the form "is there a function that does X"; just type your type signature into the search box. Also consider whether you really want a Map. –  jberryman Nov 14 '13 at 23:18

3 Answers 3

The lookup function does this; not just for the kind of pairs you describe but for any list of two-element tuples. A list of such tuples is known as an association list, by the way.

It returns a Maybe, because there might beono match.

lookup :: Eq a => a -> [(a, b)] -> Maybe b
lookup key assocs

looks up a key in an association list
share|improve this answer
It doesn't work the other way though? If I do it with A, B, C etc. i.e. the first char of the pair, it works fine but with Q it returns Nothing? –  James Nov 14 '13 at 22:20
Ah,you want to match either element? No, there is no standard library function which does precisely that. What would you want to return if the list were longer and ['Q','I'] appeared later in the list? –  itsbruce Nov 14 '13 at 22:33

This answer builds on itsbruce's answer by still using lookup, but also first massaging the input list to include each pair twice, once for each ordering of elements.

Let's assume that your list is called pairs:

pairs :: [(Char, Char)]
pairs = [('A', 'Z'), ('B', 'Y'), ..., ('M', 'N')]

Then all you need to do is duplicate each pair and swap the elements:

import Data.Tuple (swap)

allPairs :: [(Char, Char)]
allPairs = pairs ++ map swap pairs

-- allPairs = [('A', 'Z') ... ('M', 'N'), ('Z', 'A'), ... ('N', 'M')]

... where swap is a function from Data.Tuple that takes the two elements of a tuple and swaps them. It's defined like this:

swap :: (a, b) -> (b, a)
swap (x, y) = (y, x)

Now you can do a lookup on the allPairs list:

pairedChar :: Char -> Maybe Char
pairedChar c = lookup c allPairs

If you want each duplicate pair to be adjacent to each other in the list, then you can also write allPairs like this:

allPairs = do
    (x, y) <- pairs
    [(x, y), (y, x)]

Now it will contain this ordering:

allPairs = [('A', Z'), ('Z', 'A'), ('B', 'Y'), ('Y', 'B') ... ('M', 'N'), ('N', 'M')]
share|improve this answer

You could just make a longer list.


pairs = zip alphabet (reverse alphabet)

theOtherChar k = lookup k pairs --does the job for you now.
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.