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.

I need to write a function to find the position of one specific element in a list. i was writing like this:

findPos list elt | list == [] = -1
                 | head list == elt = 0
                 | otherwise = 1 + (findPos (tail list) elt)

but how to do in the case that the element is repeated within the list? For example: list= [2,4,9,4,8] and i want the position of the element "4", then has 2 position : second and fourth. How would be a simply function for that?

share|improve this question
Consult your teacher as to what they want. Sensible options include (a) just returning the first position located; or (b) returning a list of indices. –  Marcin Jun 12 '11 at 13:11
If you reverse the order of your arguments, then your function may also be more useful for currying, because then you can do: let findx = find 'x' and have a function that searches for 'x' in a given list. Your way is more useful if you want to create a function that has the set to test given, and tests an item for membership, e.g. for whitelists / blacklists. –  Marcin Jun 12 '11 at 14:07
codecatalog.net/239 –  luqui Jun 13 '11 at 5:36

3 Answers 3

You should return a lazy-evaluated list of indexes for elements that are matching.

The easy functional way of doing it is to index first the list using zip [0..] then filter that zipped list on the second element and finaly remove the second elements just to keep the indexes.

-- first version
findPos list elt = map fst $ filter ((elt==).snd) $ zip [0..] list
-- second version, using list comprehensions
findPos list elt = [index | (index, e) <- zip [0..] list, e == elt]
share|improve this answer

You could make it return a list of indices. To make this work, you'll need to change a couple of things in the function:

  1. Instead of -1 return the empty list for the empty case (returning -1 is a bad idiom anyway, you should have returned a Maybe instead as that is more meaningful).
  2. Instead of calling findPos recursively and adding 1 to the result, you should create a helper function taking a counter (which starts at 0) and increase the counter by 1.
  3. When you find the element, instead of returning 0, you should return the current value of the counter prepended to the result of recursing on the tail of the list (with an increased counter).

However this functionality already exists in Data.List and is called elemIndices. So unless this is a pure learning exercise or homework, you don't need to reimplement this at all.

share|improve this answer
I'd add that the reason to use a helper function is because by passing the whole state of your calculation, you can achieve "continuation passing style" (look it up), which can be automatically optimised to avoid building stack frames (instead it is implemented in the same way as a loop). This is not essential, but it will be more efficient. –  Marcin Jun 12 '11 at 13:13
@Marcin: The reason to use the helper function is that without it you'd have to increase each element in the resulting list after each recursive call, which would be 1. less readable and harder to understand and 2. much less efficient. I don't see any connection to CPS. –  sepp2k Jun 12 '11 at 13:23
(a) it's only necessary for that reason if you change the function to return a list (which is not what the original implementation did); (b) if you're wrapping everything up as arguments, you might as well capture the benefits of CPS. –  Marcin Jun 12 '11 at 13:30
@Marcin: The question was how to make it return a list (or how to make it handle multiple indices anyway, which implies a list). Also if you kept returning a single index and made the function tail recursive using a helper function, there still would be no CPS involved. –  sepp2k Jun 12 '11 at 13:34
@Marcin: No, it's not. CPS is when you pass the continuation as an explicit argument (in form of a function) to the function you're calling. This tends to make the call a tail-call, but it hardly implies that every tail-call is related to CPS. –  sepp2k Jun 12 '11 at 13:41

You can also use a fold:

findPos :: Eq a => a -> [a] -> [Int]
findPos elem = reverse . fst . foldl step ([],0) where
    step (is,i) e = (if e == elem then i:is else is, succ i) 

Writing in a way that feels like a while loop in imperative languages is possible, but rather verbose:

findPos elem list = reverse $ thrd $ until finished step (list,0,[]) where
   finished (x,_,_) = null x
   step (e:es, c, acc) = (es, succ c, if e == elem then c:acc else acc) 
   thrd (_,_,x) = x 
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.