For any recursion, you have to note that the output type will be always the same.

Let's see your `unzip`

function.

`[(1, 4); (2, 3); (5, 9); (6, 10)]) -> ([1; 2; 5; 6], [4; 3; 9; 10])`

Simply say, the return type of `unzip`

is def **a pair (tuple)**, and each element is a list, correct?

Then let's see your code

```
let rec unzip m =
if List.length m = 0 then
([], [])
else
((fst (List.hd m)) :: (unzip (List.tl m)), (snd (List.hd m)) :: (unzip (List.tl m)))
in
unzip m;;
```

You have two branches. First branch is returning `([], [])`

. Ok, in terms of return type, it is correct as it is a pair with two empty lists and matches the return type described above.

The second branch

`((fst (List.hd m)) :: (unzip (List.tl m)), (snd (List.hd m)) :: (unzip (List.tl m)))`

is it correct?

It is a pair with two elements, no problem, then let's see the first element:

`(fst (List.hd m)) :: (unzip (List.tl m))`

You are trying to add `(fst (List.hd m))`

to the head of `(unzip (List.tl m))`

.

But you can only add something to a list by using `::`

, so ocaml supposes `(unzip (List.tl m))`

is a list, right?

But it is a `unzip`

function application, apparently described in the beginning, your `unzip`

is not returning a list, but a pair (tuple).

So ocaml doesn't understand and thus complain.

The above is just to answer your question about the type problem. But your code has more problems.

**1. incorrect use of **`in`

Suppose you have a function `f1`

. You can image it as the mother function, which means it can be used directly. Also in `f1`

, you can declare another function or variable (or more formally, a binding). Only when you declare a binding inside a function, you use `let...in...`

. If you only have the mother function, you don't use `in`

, because `in where`

?

In your `unzip`

, you only have one function or binding which is `unzip`

itself and it is in top level. So `in`

is not necessary.

**2. incorrect logic of recursion**

I don't know how to explain to you about recursion here, as it needs you to read more and practise more.

But the correct code in your idea is

```
let rec unzip = function
| [] -> ([], [])
| (x,y)::tl ->
let l1, l2 = unzip tl in
x::l1, y::l2
```

If you are chasing for better or a tail-recursive version, here it is:

```
let unzip l =
let rec unzip_aux (l1,l2) = function
| [] -> List.rev l1, List.rev l2
| (x,y)::tl -> unzip_aux (x::l1, y::l2) tl
in
unzip_aux ([],[]) l
```