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I'm having some trouble making a sequence. Basically I need to chop a sequence into a sequence of arrays. Seq.windowed almost does it but I don't want duplicate elements.

I can get what I want by reading everything into an array first but I'd rather use a sequence.

let array_chunk s (a:int[]) =
    Array.init (a.Length / s) (fun i -> Array.sub a (i * s) s)

someSequence |> Seq.to_array |> array_chunk 5
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10 Answers 10

up vote 4 down vote accepted

Here's a nice imperative one that'll work with seq and generate arrays of any size. The last one will be smaller if the sequence isn't even by n.

let chunk n xs = seq {
    let i = ref 0
    let arr = ref <| Array.create n (Unchecked.defaultof<'a>)
    for x in xs do
        if !i = n then 
            yield !arr
            arr := Array.create n (Unchecked.defaultof<'a>)
            i := 0 
        (!arr).[!i] <- x
        i := !i + 1
    if !i <> 0 then
        yield (!arr).[0..!i-1] }
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Great answer. I was close to this with my code but didn't quite have it. –  gradbot Apr 16 '09 at 4:28
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I love Seq.take & Seq.skip solution. It is beautiful, simple and very readable, but I would use something like this:

let chunks n (sequence: seq<_>) =
    let fold_fce (i, s) value = 
        if i < n then (i+1, Seq.append s (Seq.singleton value))
                 else (  1, Seq.singleton value)
    in sequence
    |> Seq.scan (fold_fce) (0, Seq.empty)
    |> Seq.filter (fun (i,_) -> i = n)
    |> Seq.map (Seq.to_array << snd )

It is not imperative code and it should be more efficient than the solution that uses Seq.skip. On the other hand, it trims input sequence to the length divisible by n. If this behavior is unacceptable it can be fixed by simple modification:

let chunks n (sequence: seq<_>) =
    let fold_fce (i, s) value = 
        if i < n then (i+1, Seq.append s (Seq.singleton value))
                 else (  1, Seq.singleton value)
    in sequence
    |> Seq.map (Some)
    |> fun s -> Seq.init_finite (n-1) (fun _ -> None) |> Seq.append s
    |> Seq.scan (fold_fce) (0, Seq.empty)
    |> Seq.filter (fun (i,_) -> i = n) 
    |> Seq.map (Seq.to_array << (Seq.choose (id)) << snd )
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I went with this answer as learning to understand this code has given me more insight into F#. –  gradbot Apr 16 '09 at 4:27
    
I did a quick bench and your first solution is about 50% slower than MichaelGG imperative solution and the second is about 100% slower. I ended up using your first solution. Thanks :) –  gradbot Apr 16 '09 at 4:52
1  
To use pointless style, you can do "|> Seq.filter (fst >> (=) n)" "|> Seq.filter (fun (i,_) -> i = n)". –  MichaelGG Apr 16 '09 at 8:44
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How about:

let rec chunks n sq =
  if not (Seq.is_empty sq) then 
    seq {
      yield Seq.take n sq |> Seq.to_array
      yield! chunks n (Seq.skip n sq)
    }
  else
    Seq.empty

Note that this requires sq to have a number of elements which is evenly divisible by n (because Seq.take and Seq.skip, unlike LINQ's Take and Skip extension methods, require that the sequence contains at least n elements). Also, this isn't as efficient as explicitly using the enumerator would be, but it's more elegant.

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I wanted to upvote for the recursive seq (a technique I personally use a lot), but this code throws an exception when sq.Length is not evenly divisible by n. –  Juliet Apr 4 '09 at 23:35
    
Yeah, I mentioned that after the code. It would be nice if Seq.take and Seq.skip were implemented more like LINQ's corresponding operations, so that they didn't require at least as many elements as are being taken or skipped. –  kvb Apr 5 '09 at 0:31
    
See my answer <a href="#724612">here</a> –  Benjol Apr 7 '09 at 8:24
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Corrected version of take/skip answer, as extension function. Should work for uneven lengths. No guarantees for performance though...

 module Seq = 
    let rec chunks n (s:#seq<_>) =
        seq {
                 if Seq.length s <= n then
                    yield s
                 else
                    yield Seq.take n s
                    yield! chunks n (Seq.skip n s)           
            }

(Code taken from my answer here)

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While this is simple and clean it's O(n^2). Thanks for the reply though. :) –  gradbot Apr 16 '09 at 4:40
1  
I'm no expert, but from what I've seen, optimising for performance in F# often ends up with mutability, don't know it that's always the case though. –  Benjol Apr 16 '09 at 5:33
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This answer will probably get buried, but here's my take on the problem:

let chunk n xs = 
    xs 
    |> Seq.mapi(fun i x -> i/n, x)
    |> Seq.groupBy fst
    |> Seq.map (fun (_, g) -> Seq.map snd g)

Pros:

  • Uses only seq, no arrays
  • O(n) runtime. Not O(n^2) like Seq.skip/take solutions
  • Seq.length doesn't have to be a multiple of n
  • small and easy to understand?

Cons:

  • probably not as efficient as imperative/mutable loops
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As an aside some functions in Seq enumerate the entire collection they are given as soon as you access their first element. Seq.groupBy uses a dictionary to do the grouping. github.com/fsharp/fsharp/blob/master/src/fsharp/FSharp.Core/… –  gradbot Feb 7 at 2:38
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This is nice and succinct:

let chunk size (arr : 'a array) =
    [| for a in 0 .. size .. arr.Length - size -> arr.[a..a + size - 1] |]

However, this lops off the last (arr.Length % size) elements in the array. You can fix this by grabbing the missing elements and using Array.append:

let chunk2 size (arr : 'a array) = 
    let first = [| for a in 0 .. size .. arr.Length - size -> arr.[a..a + size - 1] |]
    let numberOfMissingElements = arr.Length - (first.Length * size)
    if numberOfMissingElements > 0 then
        let last = [| arr.[arr.Length - numberOfMissingElements..] |]
        Array.append first last
    else first
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Here's another approach with some pattern matching - it looks more like *.iter, and I've got it spitting out lists rather than arrays, since that's how I usually like my data.

let sequence_in_lists_of_length_n_with_acc (s: seq<'a>) n acc = seq {
use e = s.GetEnumerator()
let rec next_with_acc acc =
  match e.MoveNext(), acc with
  | true, a when List.length a + 1 = n ->  
    yield (List.rev (e.Current :: a))
    next_with_acc []
  | true, _ -> next_with_acc (e.Current :: acc)
  | false, _ ->
    f(List.rev acc)
  ()
next_with_acc []

}

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I'm liking this solution better. It generates a new sequence from the existing sequence (meaning it doesn't need to traverse the whole sequence to get a result - that's critical if you're doing something like log processing, where you can't call things like Length).

I ended up writing a blog post with more detail about how I got here.

module Seq =


let grouped_by_with_leftover_processing f (f2: 'a list -> list<'a> option) (s: seq<'a>)= let rec grouped_by_with_acc (f: 'a -> 'a list -> 'a list option * 'a list) acc (ie: IEnumerator<'a>) = seq { if ie.MoveNext() then let nextValue, leftovers = f ie.Current acc if nextValue.IsSome then yield nextValue.Value yield! grouped_by_with_acc f leftovers ie else let rems = f2 acc if rems.IsSome then yield rems.Value } seq { yield! grouped_by_with_acc f [] (s.GetEnumerator()) }

let YieldReversedLeftovers (f: 'a list) = if f.IsEmpty then None else Some (List.rev f)

let grouped_by f s = grouped_by_with_leftover_processing f YieldReversedLeftovers s

let group_by_length_n n s = let grouping_function newValue acc = let newList = newValue :: acc // If we have the right length, return // a Some as the first value. That'll // be yielded by the sequence. if List.length acc = n - 1 then Some (List.rev newList), [] // If we don't have the right length, // use None (so nothing will be yielded) else None, newList
grouped_by grouping_function s

Large sequences aren't an issue:

seq { for i in 1..1000000000 -> i} |> Seq.group_by_length_n 3;; val it : seq<int list> = seq [[1; 2; 3]; [4; 5; 6]; [7; 8; 9]; [10; 11; 12]; ...] >
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Nice version from Princess has been fixed to get tail and converted into seq

let array_chunk size (arr : 'a array) = 
    let maxl = arr.Length - 1
    seq { for a in 0 .. size .. maxl -> arr.[a .. min (a + size - 1) maxl ] }
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How about this one :

let grouped n = 
   Seq.unfold(fun s -> if not (Seq.isEmpty s) then 
                           Some (Seq.take n s, Seq.skip n s) 
                       else None) 

It is in the same vein than kvb's answer.

I somehow remember (link?) that a sequence does not remember the position, so that successive take / skip will not be optimal.

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