# finding the position of an element from a list of list

I want to find the position of an element from a list of list.

FOr example , in a given list [[1,2,3],[4,5,6],[7,8,9]] I want to find the position of 8.The function should return [[3,2]],namely third row and second column. if the list is [[1,2,8],[4,5,6],[7,8,9]] then it should return: [[1,3],[3,2]] if it can not find then it should return empty list

``````findPosition :: [[Int]]  ->  [(Int,Int)]
findPostion  ..  ?
``````

I want to do it with most effective way. Thanks.

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Do you only need the first occurence? E.g. what should be returned when [[1,2],[1,3]] is given and you want the position of 1? –  kaan Mar 21 '13 at 21:38
no i want all occurrences of 1 . IN your example it should return [[1,1],[2,1]] . I edited the text the return type should be list of list too. –  oiyio Mar 21 '13 at 21:41
We still need more info. What should it return if the number does not occur at all? What have you tried so far? Show us what you've got so far. –  ja. Mar 21 '13 at 22:06

``````import Data.List

findPosition  :: Int -> [[Int]] -> [(Int,Int)]
findPosition n xs = fp n xs 0

fp n [] i = []
fp n (x:xs) i = p x ++ fp n xs (i+1)
where
p x = zip (repeat i) (elemIndices n x)
``````

Example:

``````findPosition 3 [[2,3,4,3],[4,5,2,3],[],[3,2,5,6,3],[2],[3]]
== [(0,1),(0,3),(1,3),(3,0),(3,4),(5,0)]
``````

If you change the function's type signature to:

``````findPosition :: (Eq a1, Num a) => a1 -> [[a1]] -> [(a, Int)]
``````

you will have a more general solution. Example:

``````findPosition 'a' ["car","small","caveat","big","","aah!"]
== [(0,1),(1,2),(2,1),(2,4),(5,0),(5,1)]
``````
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Also: `zipWith (,) = zip`. –  Vitus Mar 22 '13 at 15:32
You are right Vitus. Thank you for your remark. –  Alberto Capitani Mar 22 '13 at 16:59

OK, so let's break this down.

If you're only interested in a normal list of ints, you've got

`````` findPosition :: [Int] -> [Int]
``````

How can you implement that? Well, uh, you need an input for the thing you're actually searching for!

`````` findPosition :: Int -> [Int] -> [Int]
``````

OK, cool. So the built-in `elem` function tells you if the element you want is there. But we want it's position. So how? Well, you can "label" every element with it's position, like so:

`````` label :: [x] -> [(Int, x)]
label = zip [0..]
``````

Now we can use `filter` to find all the items:

`````` find :: (Eq x) => x -> [(Int, x)] -> [(Int, x)]
find x0 = filter (\ (n, x) -> x == x0)
``````

But we only want the actual positions, not the `x`s (which are all identical at this point). So we can `map fst` to get that.

Assembling it all,

`````` findPosition :: Int -> [Int] -> [Int]
findPosition x0 = map fst . filter (\ (n, x) -> x == x0) . zip [0..]
``````

That's great! But you wanted a list of lists of ints, right?

I would suggest you change your requirement spec to return each "coordinate" as a tuple rather than a list. That is, make it so

``````findPosition 8 [[1,2,8],[4,5,6],[7,8,9]] => [(1, 3), (3, 2)]
``````

It's probably less confusing that way. Hopefully I've given you enough hints to figure things out from here...

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Check this pls: findPosition :: Int -> [Int] -> [Int] findPosition x0 = map fst . filter (\ (n, x) -> x == x0) . zip [0..] The function does take only one argument but you define two. It cant compile –  oiyio Mar 21 '13 at 22:31
It runs for me... –  MathematicalOrchid Mar 21 '13 at 22:57
In this case the second argument can be omitted, because the result of composing the functions via (.) is itself a function that takes a single parameter. Another example would be 'add x y = x + y' which is the same as 'add x= (+) x' or 'add x = (x +)' –  Jakob Runge Mar 21 '13 at 22:58

Your type signature is wrong. It should be

``````findPosition :: Eq a => a -> [[a]] -> [(Int, Int)]
``````

because

• you need to tell the function what value to look for
• there's no reason to restrict `findPosition` to only searching lists of lists of `Int`s --- all it needs to do with the inner elements is compare them for equality
• your version would return a list of lists that were always of length two: if an inner list was empty or had length three, that would be a bug; we can exclude the possibility of that sort of bug by using a pair instead

I would also have `findPosition` result in zero-based indices (as used by Haskell's standard list functions) instead of the one-based indices you asked for.

So I will have e.g. `findPosition 8 [[1,2,3],[4,5,6],[7,8,9]] = [(2, 1)]`.

Sadly Hoogle knows of no functions with type `Eq a => a -> [[a]] -> [(Int, Int)]`. But a search for the simpler signature `Eq a => a -> [a] -> [Int]` (a similar function that searches a list instead of a list of lists) points us at `elemIndices`. We can use this in `findPosition`.

(Oh, I'm too tired to finish this. Hopefully it'll give you food for thought.)

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YOu are right , i edited the question.Sorry –  oiyio Mar 21 '13 at 22:24

A possible solution:

``````import Control.Monad

findPosition :: Eq a => a -> [[a]] -> [(Int,Int)]
findPosition e ll = do
let annotate = zip [1..]
(i1,x) <- annotate ll
(i2,y) <- annotate x
guard \$ y == e
return (i1,i2)
``````

We annotate each element in the list and sublists with an index, and use the Monad instance for List to search all possible ocurrences.

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`zipWith (,)` rather than `zip` because...? –  MathematicalOrchid Mar 21 '13 at 22:12
Ouch, you are right. The zipWith is unnecessary. I'll edit the answer. –  danidiaz Mar 21 '13 at 22:14
did you try it with example input output? THis code cant compile –  oiyio Mar 21 '13 at 22:27
I did try it. Maybe the problem is that I omitted the "import Control.Monad"? –  danidiaz Mar 21 '13 at 22:31
It gives the error : No instance for (Show ([[[[t0]]]] -> [(Int, Int)])) arising from a use of `print' Possible fix: add an instance declaration for (Show ([[[[t0]]]] -> [(Int, Int)])) In a stmt of an interactive GHCi command: print it –  oiyio Mar 21 '13 at 22:35