```
myReverse :: [Int] -> Int -> [Int]
myReverse [] n = []
myReverse (x:xs) n
| n < 0 = x:xs
| n == 0 = (-x):xs
| otherwise = x:(myReverse xs (n-1))
```

That's indexing the array from `0`

; your example indexes from `1`

, but is undefined for the case `n == 0`

. The fix to take it to index from `1`

should be fairly obvious :)

Also, your capitalisation is inconsistent; `MyReverse`

is different to `myReverse`

, and only the latter is valid as a function.

Results, in GHCi:

```
*Main> myReverse [10,20,30,40,50] 0
[-10,20,30,40,50]
*Main> myReverse [10,20,30,40,50] 2
[10,20,-30,40,50]
*Main> myReverse [10,20,30,40,50] 3
[10,20,30,-40,50]
*Main> myReverse [10,20,30,40,50] 5
[10,20,30,40,50]
*Main> myReverse [10,20,30,40,50] (-1)
[10,20,30,40,50]
```

More generic version that does the same thing, using a pointless definition for `myReverse`

:

```
myGeneric :: (a -> a) -> [a] -> Int -> [a]
myGeneric f [] n = []
myGeneric f (x:xs) n
| n < 0 = x:xs
| n == 0 = (f x):xs
| otherwise = x:(myGeneric f xs (n-1))
myReverse :: [Int] -> Int -> [Int]
myReverse = myGeneric negate
```

`itemInverse`

(or`inverseItem`

) would be a better name, as "reverse" implies an entirely different operation on lists. – outis May 1 '10 at 13:12`negateItem`

. Inverse can mean 1/x. – KennyTM May 1 '10 at 13:21