# How to partition a list with a given group size?

I'm looking for the best way to partition a list (or seq) so that groups have a given size. for ex. let's say I want to group with size 2 (this could be any other number though):

``````let xs = [(a,b,c); (a,b,d); (y,z,y); (w,y,z); (n,y,z)]
let grouped = partitionBySize 2 input
// => [[(a,b,c);(a,b,d)]; [(y,z,y);(w,y,z)]; [(n,y,z)]]
``````

The obvious way to implement partitionBySize would be by adding the position to every tuple in the input list so that it becomes

``````[(0,a,b,c), (1,a,b,d), (2,y,z,y), (3,w,y,z), (4,n,y,z)]
``````

and then use GroupBy with

``````xs |> Seq.ofList |> Seq.GroupBy (function | (i,_,_,_) -> i - (i % n))
``````

However this solution doesn't look very elegant to me. Is there a better way to implement this function (maybe with a built-in function)?

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In your example the Group inside the List (the commented line) is modeled as a Tuple. I guess you want it to be List i.e List inside List rather than Tuple as that would not be possible with static typing –  Ankur Nov 9 '11 at 11:33
Agree with Ankur. More even, the result you are expecting is not a valid F# value, because the last tuple is different from the rest. All items in a list should have the same type. –  Gustavo Nov 9 '11 at 12:57
yup, sorry, that was what I meant, thanks for pointing out the mistake. I edited the question accordingly. –  Francesco De Vittori Nov 9 '11 at 15:07

Here's a tail-recursive function that traverses the list once.

``````let chunksOf n items =
let rec loop i acc items =
seq {
match i, items, acc with
//exit if chunk size is zero or input list is empty
| _, [], [] | 0, _, [] -> ()
//counter=0 so yield group and continue looping
| 0, _, _::_ -> yield List.rev acc; yield! loop n [] items
| _, h::t, _ -> yield! loop (i-1) (h::acc) t
//reached the end of input list, yield accumulated elements
//handles items.Length % n <> 0
| _, [], _ -> yield List.rev acc
}
loop n [] items
``````

Usage

``````[1; 2; 3; 4; 5]
|> chunksOf 2
|> Seq.toList //[[1; 2]; [3; 4]; [5]]
``````

I like the elegance of Tomas' approach, but I benchmarked both our functions using an input list of 10 million elements. This one clocked in at 9 secs vs 22 for his. Of course, as he admitted, the most efficient method would probably involve arrays/loops.

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I'll pick this one but the other ones where pretty good too. Thanks all! –  Francesco De Vittori Nov 23 '11 at 21:37

This seems to be a repeating pattern that's not captured by any function in the F# core library. When solving similar problems earlier, I defined a function `Seq.groupWhen` (see F# snippets) that turns a sequence into groups. A new group is started when the predicate holds.

You could solve the problem using `Seq.groupWhen` similarly to `Seq.group` (by starting a new group at even index). Unlike with `Seq.group`, this is efficient, because `Seq.groupWhen` iterates over the input sequence just once:

``````[3;3;2;4;1;2;8]
|> Seq.mapi (fun i v -> i, v) // Add indices to the values (as first tuple element)
|> Seq.groupWhen (fun (i, v) -> i%2 = 0) // Start new group after every 2nd element
|> Seq.map (Seq.map snd) // Remove indices from the values
``````

Implementing the function directly using recursion is probably easier - the solution from John does exactly what you need - but if you wanted to see a more general approach then `Seq.groupWhen` may be interesting.

-
interesting. The most efficient solution so far. –  Francesco De Vittori Nov 9 '11 at 16:14
@FrancescoDeVittori If you're looking for the most efficient solution, then I think that converting the input to an array and using slice `arr.[i .. i+n]` in a `for` loop is going to be the most efficient option. –  Tomas Petricek Nov 9 '11 at 16:48

What about a recursive approach? - only requires a single pass

``````let rec partitionBySize length inp dummy =
match inp with
|h::t ->
if dummy |> List.length < length then
partitionBySize length t (h::dummy)
else dummy::(partitionBySize length t (h::[]))
|[] -> dummy::[]
``````

Then invoke it with `partitionBySize 2 xs []`

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result:[[(1, 2, 4); (1, 2, 3)]; [(5, 6, 7); (6, 7, 6)]], lost data –  BLUEPIXY Nov 9 '11 at 12:04
@BLUEPIXY - Forgot to return the accumulator - should be fixed –  John Palmer Nov 9 '11 at 12:59
very nice, the only downside is that it's not tail recursive and blows up with a large enough input (which by coincidence I have :-) ) –  Francesco De Vittori Nov 9 '11 at 15:59

Well, I was late for the party. The code below is a tail-recursive version using high-order functions on `List`:

``````let partitionBySize size xs =
let i = size - (List.length xs - 1) % size
let xss, _, _ =
List.foldBack( fun x (acc, ls, j) ->
if j = size then ((x::ls)::acc, [], 1)
else (acc, x::ls, j+1)
) xs ([], [], i)
xss
``````

I did the same benchmark as Daniel did. This function is efficient while it is 2x faster than his approach on my machine. I also compared it with an array/loop version, they are comparable in terms of performance.

Moreover, unlike John's answer, this version preserves order of elements in inner lists.

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I'd like to see your benchmark. In my test of 10M elements, mine is still a second faster. –  Daniel Nov 10 '11 at 17:56
I'm getting different results for initial and subsequent iterations. From a cold start, mine is faster. On subsequent runs yours is faster (by about 3 secs--still not 2x). Not sure what to attribute it to. This is in FSI. –  Daniel Nov 10 '11 at 17:59
Any idea why this function drops from 10 sec on a fresh FSI session to ~6 sec on subsequent runs? My function remains pretty much constant (~9 sec). Just wondering what could be different. –  Daniel Nov 10 '11 at 18:02
The results I got are from the benchmark with 1M elements. Don't know why there are some gaps between cold start and subsequent runs. Maybe there are some tricks behind implementation of List.foldBack? –  pad Nov 10 '11 at 18:18
Sound reasonable. –  pad Nov 10 '11 at 19:06
``````let partitionBySize size xs =
let sq = ref (seq xs)
seq {
while (Seq.length !sq >= size) do
yield Seq.take size !sq
sq := Seq.skip size !sq
if not (Seq.isEmpty !sq) then yield !sq
}
// result to list, if you want
|> Seq.map (Seq.toList)
|> Seq.toList
``````

UPDATE

``````let partitionBySize size (sq:seq<_>) =
seq {
let e = sq.GetEnumerator()
let empty = ref true;
while !empty do
yield seq { for i = 1 to size do
empty := e.MoveNext()
if !empty then yield e.Current
}
}
``````

array slice version:

``````let partitionBySize size xs =
let xa = Array.ofList xs
let len = xa.Length
[
for i in 0..size..(len-1) do
yield ( if i + size >= len then xa.[i..] else xa.[i..(i+size-1)] ) |> Array.toList
]
``````
-
I don't really understand why, but this is quite slow with my large dataSet (much slower than Tomas groupWhen) –  Francesco De Vittori Nov 9 '11 at 16:15
This is slow because `Seq.skip` is inefficient, especially when you call it on a sequence that is already a result of `Seq.skip`. The returning sequence iterates over the original from the beginning, each time it is accessed. –  Tomas Petricek Nov 9 '11 at 16:47
seq version update –  BLUEPIXY Nov 12 '11 at 10:59