Here's yet another way to do it using inbuilt library functions, which may or may not be easier to understand than some of the other answers. This solution also only requires one traversal across the input. My first thought after I looked at your problem was that you want something along the lines of List.partition, which splits a list into two lists based on a given predicate. However, in your case this predicate would be based on the index of the current element, which partition cannot handle, short of looking up the index for each element.

We can accomplish creating our own equivalent of this behavior using a fold or foldBack. I will use foldBack here as it means you won't have to reverse the lists afterward (see Stephens excellent answer). What we are going to do here is use the fold to provide our own index, along with the two output lists, all as the accumulator. Here is the generic function that will split your list into two lists based on n index:

```
let gencut n input =
//calculate the length of the list first so we can work out the index
let inputLength = input |> List.length
let results =
List.foldBack( fun elem acc->
let a,b,index = acc //decompose accumulator
if (inputLength - index) <= n then (elem::a,b,index+1)
else (a,elem::b,index+1) ) input ([],[],0)
let a,b,c = results
(a,b) //dump the index, leaving the two lists as output.
```

So here you see we start the foldBack with an initial accumulator value of ([],[],0). However, because we are starting at the end of the list, the 0 representing the current index needs to be subtracted from the total length of the list to get the actual index of the current element.

Then we simply check if the current index falls within the range of n. If it does, we update the accumulator by adding the current element to list a, leave list b alone, and increase the index by 1 : (elem::a,b,index+1). In all other cases, we do exactly the same but add the element to list b instead: (a,elem::b,index+1).

Now you can easily create your function that splits a list in half by creating another function over this one like so:

```
let cut input =
let half = (input |> List.length) / 2
input |> gencut half
```

I hope that can help you somewhat!

```
> cut data;;
val it : int list * int list = ([1; 2; 3], [4; 5; 6])
> gencut 5 data;;
val it : int list * int list = ([1; 2; 3; 4; 5], [6])
```

EDIT: you could avoid the index negation by supplying the length as the initial accumulator value and negating it on each cycle instead of increasing it - probably simpler that way :)

```
let gencut n input =
let results =
List.foldBack( fun elem acc->
let a,b,index = acc //decompose accumulator
if index <= n then (elem::a,b,index-1)
else (a,elem::b,index-1) ) input ([],[],List.length input)
let a,b,c = results
(a,b) //dump the index, leaving the two lists as output.
```