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-- Write a function that returns a list position index positions

-- of a given element in a list element. For example:

-- I: Positions 4 [1,4,3,7,4,2]

-- O: [2,5]

pos element list = func element list 0
func :: [a] -> [a] -> [Int] -> [a]
func  _ [_] _ = []
func element (x:xs) cont | x==element = cont:func element xs cont+1
                         | otherwise = func element xs cont+1

throw this error:

- Type error in application
*** Expression     : x == element
*** Term           : x
*** Type           : a
*** Does not match : [a]
*** Because        : unification would give infinite type
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your element variable has the type [a] while x has the type a, so they cannot be compared. –  Reite Jul 8 '14 at 16:18
The first parameter is not an array. –  A.J. Jul 8 '14 at 16:18
Is this homework? –  augustss Jul 8 '14 at 16:18
pls don't downvote aggresively on new users questions like this, without any comment - thank you –  Carsten König Jul 8 '14 at 18:59
it's not homework, i'm practicing for a test and i just want to know what i was doing wrong ... i'm pretty new with this language ... –  Hook Jul 8 '14 at 20:12

2 Answers 2

up vote 4 down vote accepted

Ok think about what you need here.

As @bheklilr said your type is wrong. Based on your sample:

positions 4 [1,4,3,7,4,2] 
>> [2,5]

I too would guess that you need something like this:

positions :: Eq a => a -> [a] -> [Int]

Here a is your element-type and as you want to check for equality it has to be an instance of the Eq class.

Next you obviously want the element to compare with (has type a of course) and then you give a list of as and the function should print out the indizes where the first given value can be found in the list (indizes begins at 1 obvious).

The idea is to first zip your element-list with [1..] so you get your indizes with you and then do the usual didive at imepra recursive algorithm with lists.

positions :: Eq a => a -> [a] -> [Int]
positions a xs = indexed a (zip xs [1..])
    where indexed _ [] = []
          indexed a ((x,i):xs)
            | x == a = i:indexed a xs
            | otherwise = indexed a xs

this uses an inner function indexed that will handle the indexed list (in your example [(1,1),(4,2),(3,3),(7,4),(4,5),(2,6)] - the second one is the index (see the zip))

Start with the easy case: an empty list of elements - there you obviously cannot find your element at all (no matter what element) so return the empty list.

If the list is not empty, pattern match the first element - together with it's index (x,i) and the rest of the indexed-list xs.

No matter what, you will need the result for xs so get it by a recursive call to indexed.

If x is equal to the element you are looking for a prepend the index i to the recursiv calculated result if not just returns it.


Here is your example:

*Main> positions 4 [1,4,3,7,4,2]

If you don't see the trick with the zip (this one is very often used in Haskell but you have to see it first) try to come up with another inner function (hint: maybe you can pass the index around as a parameter) ... I think this might be a good excercise now that I gave you one solution.

I hope this helps - have fun.

share|improve this answer
positions a xs = [fst x | x <- zip [1..] xs, snd x == a] –  karakfa Jul 8 '14 at 18:43
positions a xs = [ i | (i,x) <- zip [1..] xs, x == a] –  karakfa Jul 8 '14 at 18:49
@karakfa very nice - why don't you make an answer out of it where you explain the comprehensions a bit and what the differences are? But based on the question I think the task was to excercise the basic recursion algorithms around lists - this one looks more like from a pyhton class :D –  Carsten König Jul 8 '14 at 18:57
Thanks! i really need to practice, thanks for explaining me that :) –  Hook Jul 8 '14 at 20:24

The problem stems from the fact that you're comparing x and element. In your type signature, you've stated that element has the type [a], while (x:xs) has the type [a] implying that x has the type a. Both arguments to == must have the same type. Either you need to do something like [x] == element or you need to change your type signature to make elements have type a.

Aside from that your code is very confusing. From what I can tell from your description, pos should have the type Eq a => a -> [a] -> [Int], but the definition you provided does not match that type at all. If you're having difficulty getting started with Haskell's syntax and type system, I would recommend checking out Learn You a Haskell, which has a very approachable and beginner friendly introduction to the language.

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