Somehow a lot of people think that `[xs]`

as pattern means that you *unify* a list with `xs`

. But this is incorrect, since the function signature (either derived implicitly, or stated explicitly) already will prevent you to write code where you call the function with a non-list item.

A list has *two* constructors:

- the empty list
`[]`

; and
- the "cons"
`(h : t)`

with `h`

the *head* (first element), and `t`

the *tail* (a list with the remaining elements).

Haskell however introduces some syntactical sugar as well. For example `[1]`

is short for `(1:[])`

, and `[1, 4, 2]`

for `(1:(4:(2:[])))`

.

So that means that if you write `[xs]`

, behind the curtains you defined a pattern `(xs: [])`

which thus means you match all lists with *exactly* one element, and that single *element* (not the entire list) is then `xs`

.

Anyway, the solution is to use:

`split `**xs** n = (take n **xs**, drop n **xs**)

Since both `take :: Int -> [a] -> [a]`

and `drop :: Int -> [a] -> [a]`

have in the signature that `xs`

is supposed to be a list, Haskell will derive automatically that `n`

is supposed to be an `Int`

, and `xs`

an `[a]`

.

Note that you can use `splitAt :: Int -> [a] -> ([a], [a])`

as well. We can make the signature equivalent to the one you target with:

```
split = flip splitAt
```

`[xs]`

matches a list withexactlyone element, and that element is then unified with`xs`

. Somehow people ask this question every other day :( – Willem Van Onsem Feb 20 at 11:29`[xs]`

to mean the same thing as`xs`

? – Daniel Wagner Feb 20 at 16:36