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