# F# split sequence into sub lists on every nth element

Say I have a sequence of 100 elements. Every 10th element I want a new list of the previous 10 elements. In this case I will end up with a list of 10 sublists.

Seq.take(10) looks promising, how can I repeatedly call it to return a list of lists?

-

``````let splitEach n s =
seq {
let r = ResizeArray<_>()
for x in s do
if r.Count = n then
yield r.ToArray()
r.Clear()
if r.Count <> 0 then
yield r.ToArray()
}

let s = splitEach 5 [1..17]
for a in s do
printfn "%A" a
(*
[|1; 2; 3; 4; 5|]
[|6; 7; 8; 9; 10|]
[|11; 12; 13; 14; 15|]
[|16; 17|]
*)
``````
-
As a minor optimization, you could pass `n` into the ResizeArray constructor, to set the initial capacity to what you know it's going to need to hold. –  Joel Mueller Oct 22 '10 at 19:54
I'm going with this answer because it is the easiest for me to understand. –  yanta Oct 23 '10 at 15:25

I have an evolution of three solutions. None of them preserves the ordering of the input elements, which is hopefully OK.

My first solution is quite ugly (making use of ref cells):

``````//[[4; 3; 2; 1; 0]; [9; 8; 7; 6; 5]; [14; 13; 12; 11; 10]; [17; 16; 15]]
let solution1 =
let split s n =
let i = ref 0
let lst = ref []
seq {
for item in s do
if !i = n then
yield !lst
lst := [item]
i := 1
else
lst := item::(!lst)
i := !i+1
yield !lst
} |> Seq.toList
split {0..17} 5
``````

My second solution factors out the use of ref cells in the first solution, but consequently forces the use of direct IEnumerator access (push in one side, pop out the other)!

``````//[[17; 16; 15]; [14; 13; 12; 11; 10]; [9; 8; 7; 6; 5]; [4; 3; 2; 1; 0]]
let solution2 =
let split (s:seq<_>) n =
let e = s.GetEnumerator()
let rec each lstlst lst i =
if e.MoveNext() |> not then
lst::lstlst
elif i = n then
each (lst::lstlst) [e.Current] 1
else
each lstlst ((e.Current)::lst) (i+1)
each [] [] 0
split {0..17} 5
``````

My third solution is based on the second solution except it "cheats" by taking a list as input instead of a seq, which enables the most elegant solution using pattern matching as Tomas points out is lacking with seq (which is why we were forced to use direct IEnumerator access).

``````//[[17; 16; 15]; [14; 13; 12; 11; 10]; [9; 8; 7; 6; 5]; [4; 3; 2; 1; 0]]
let solution3 =
let split inputList n =
let rec each inputList lstlst lst i =
match inputList with
| [] -> (lst::lstlst)
| cur::inputList ->
if i = n then
each inputList (lst::lstlst) [cur] 1
else
each inputList lstlst (cur::lst) (i+1)
each inputList [] [] 0
split [0..17] 5
``````

If preserving the ordering of the elements is important, you can use List.rev for this purpose. For example, in solution2, change the last line of the `split` function to:

``````each [] [] 0 |> List.rev |> List.map List.rev
``````
-

Out of the top of my head:

``````let rec split size list =
if List.length list < size then
[list]
else
(list |> Seq.take size |> Seq.toList) :: (list |> Seq.skip size |> Seq.toList |> split size)
``````
-
A possible problem with this approach is that each chunk enumerates the sequence from the beginning (up to the end of the chunk), so there is about N/2 times more iteration than needed (for a sequence of length N). –  Tomas Petricek Oct 22 '10 at 20:10
Do you have to convert the sequence to a list first before calling this function? –  yanta Oct 23 '10 at 15:39

I think that the solution from Brian is probably the most reasonable simple option. A probelm with sequences is that they cannot be easily processed with the usual pattern matching (like functional lists). One option to avoid that would be to use `LazyList` from F# PowerPack.

Another option is to define a computation builder for working with `IEnumerator` type. I wrote something like that recently - you can get it here. Then you can write something like:

``````let splitEach chunkSize (s:seq<_>) =
Enumerator.toSeq (fun () ->
let en = s.GetEnumerator()
let rec loop n acc = iter {
let! item = en
match item with
| Some(item) when n = 1 ->
yield item::acc |> List.rev
yield! loop chunkSize []
| Some(item) ->
yield! loop (n - 1) (item::acc)
| None -> yield acc |> List.rev }
loop chunkSize [] )
``````

This enables using some functional patterns for list processing - most notably, you can write this as a usual recursive function (similar to the one you would write for lists/lazy lists), but it is imperative under the cover (the `let!` constructo of `iter` takes the next element and modifies the enumerator).

-

Perhaps this simple pure implementation might be useful:

``````let splitAt n xs =  (Seq.truncate n xs, if Seq.length xs < n then Seq.empty else Seq.skip n xs)

let rec chunk n xs =
if Seq.isEmpty xs then Seq.empty
else
let (ys,zs) = splitAt n xs
Seq.append (Seq.singleton ys) (chunk n zs)
``````

For example:

``````> chunk 10 [1..100];;
val it : seq<seq<int>> =
seq
[seq [1; 2; 3; 4; ...]; seq [11; 12; 13; 14; ...];
seq [21; 22; 23; 24; ...]; seq [31; 32; 33; 34; ...]; ...]

> chunk 5 [1..12];;
val it : seq<seq<int>> =
seq [seq [1; 2; 3; 4; ...]; seq [6; 7; 8; 9; ...]; seq [11; 12]]
``````
-