Although the previous answer is correct, here is a solution that I'd prefer since it makes use of basic building blocks from the base library and avoids explicit recursion.

```
import Data.List (find) {- for find :: (a -> Bool) -> [a] -> Maybe a -}
findMe :: Eq a => a -> [a] -> Maybe (Int, a)
findMe x = find ((== x).snd) . zip [1..]
```

The function returns both the element and its index, counting from **zero**, wrapped in a `Maybe`

type. If the element is not found, `Nothing`

is returned.

To extract the element or the index alone one can map the `fst`

and `snd`

functions over the `Maybe`

result:

```
findMeIndex = fmap fst . findMe
findMeElem = fmap snd . findMe
```

Example:

```
findMe 'c' ['a','b','c','d'] == Just (2,'c')
findMe 'z' ['a','b','c','d'] == Nothing
findMeIndex 'c' ['a','b','c','d'] == Just 2
findMeIndex 'z' ['a','b','c','d'] == Nothing
```

If you need to start counting from `1`

, you can replace `[0..]`

with `[1..]`

. In either case, wrapping the result in a `Maybe`

is preferred to returning some special value signaling the absence of the element (say `-1`

or `0`

), because then the user cannot ever mistake to interpret your result. For example, if you count from `1`

and return `0`

on failure, and someone uses your function erroneously thinking that you count from `0`

, they may interpret a failure as if the element was found at the first position. Here instead, the user is forced to handle the failure case explicitly.

The function works as follows. `zip [0..]`

produces a list of pairs coupling each element with its index, starting from zero (`[0..]`

is the infinite list `[0,1,2,3,..]`

). Then, `find`

scans the list (in exactly the same way as OP's original code), returning the first element for which the function `((== x).snd)`

returns `True`

, wrapped in a `Maybe`

type, if found, or `Nothing`

otherwise. Which element does `find`

look for? Remember that `find`

is fed with a list of *pairs*. So by composing the `snd`

function with `(== x)`

we find the pair whose second component is equal to `x`

`findIndex`

for that, in the`Data.List`

module. – Stéphane Laurent Mar 13 '18 at 15:18