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F# doesn't come easy to me. The following piece of code is supposed to chunk a list. I have no idea what the problem is. Please help.

let chunk items chunkSize =
    let folder = fun state x ->
        match state with (reversedResult, reversedChunk) ->
            if reversedChunk.Length < chunkSize then
                (reversedResult, x::reversedChunk)
                ((reversedChunk |> List.rev)::reversedResult, [x])
    let alsmostDone = items |> List.fold folder ([], [])
    match alsmostDone with
    | (reversedResult, []) -> reversedResult |> List.rev
    | (reversedResult, lastReversedChunk) -> (lastReversedChunk |> List.rev)::reversedResult |> List.rev

enter image description here

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5 Answers 5

up vote 5 down vote accepted

I think using List.length is a bit more "idiomatic" f#. And then you don't need any type annotations. So:

if List.length reversedChunk < chunkSize then
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The type of reversedChunk can not be inferred so you need to specify a type. Change your third line to this:

match state with (reversedResult, reversedChunk : list<'T>) ->
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Correct! Greg's answer should be marked as answer. –  Eriawan Kusumawardhono Sep 17 '13 at 5:01
why does it matter in that context? the intellisense sees it as a list and suggest the .Length property, why doesn't the compiler can do the same? –  Aleksey Bykov Sep 17 '13 at 5:29
@bonomo - the compiler works strictly from left to right, top to bottom, whilst intellisense works slightly differently –  John Palmer Sep 17 '13 at 5:34

As others already mentioned, you can use List.length instead of Length to make this work. In practice, it might be better to keep the current chunk length as part of the state, because List.length needs to iterate over the entire list to calculate its length - so you will keep iterating over the chunk each time.

The following is pretty much the same as your original code, but I turned folder into an ordinary function (no need for lambda here) and I removed match (because you can pattern match on the state directly in the function declaration). Then I added reversedChunkSize to the state:

let chunk items chunkSize =
    let folder (reversedResult, reversedChunk, reversedChunkSize) x =
      if reversedChunkSize < chunkSize then
          (reversedResult, x::reversedChunk, reversedChunkSize + 1)
          ((reversedChunk |> List.rev)::reversedResult, [x], 1)
    let alsmostDone = items |> List.fold folder ([], [], 0)
    match alsmostDone with
    | (reversedResult, [], _) -> 
         reversedResult |> List.rev
    | (reversedResult, lastReversedChunk, _) -> 
         (lastReversedChunk |> List.rev)::reversedResult |> List.rev
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good call, thank you –  Aleksey Bykov Sep 17 '13 at 14:56

'GetSlice' version:

let chunk2 size items =
        let arrs = items |> Seq.toArray
        let len = List.length items
        for i in [0..size..len-1] do
            let min = System.Math.Min(i+size, len)
            yield arrs.[i..min-1] |> Array.toList

let a = chunk2 6 [1..10000]
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This is more to address the first sentence of your question, than the particular coding problem.

Along with (re)inventing from scratch own algorithms FP language mastery is also facilitated by developing an idiomatic thinking of solutions in terms of standard core library functions and combinators. The task you were solving can be achieved by few straightforward idiomatic data transformations:

let chunk size items =                     // test upon chunk 3 [1..6]
    items                                  // [1;2;3;4;5;6]
    |> List.mapi (fun i x -> (i/size,x))   // [(0, 1); (0, 2); (0, 3); (1, 4); (1, 5); (1, 6)]
    |> Seq.groupBy fst                     // seq [(0, seq [(0, 1); (0, 2); (0, 3)]); (1, seq [(1, 4); (1, 5); (1, 6)])]
    |> Seq.map snd                         // seq [seq [(0, 1); (0, 2); (0, 3)]; seq [(1, 4); (1, 5); (1, 6)]]
    |> Seq.map (Seq.map snd >> Seq.toList) // seq [[1; 2; 3]; [4; 5; 6]]
    |> Seq.toList                          // [[1; 2; 3]; [4; 5; 6]]
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Thank you for the advice, however I will stick with my reinvented implementation as it is about 3 times faster. –  Aleksey Bykov Sep 17 '13 at 6:19
@bonomo: Performance and clarity are not orthogonal properties; although a quality implementation is more often comes off optimization (if such is needed at all) of a clear code, than off refactoring of a fast kludge. –  Gene Belitski Sep 17 '13 at 14:07
I hear you, but your code doesn't seem any clearer than mine (at least to me, at least not yet), and it seems like you are doing unnecessary transformations that can be avoided without hurting the clarity –  Aleksey Bykov Sep 17 '13 at 14:14
by clarity I mean how easy one can understand what's going on, as opposed to being compact yet cryptic –  Aleksey Bykov Sep 17 '13 at 14:17
@bonomo: I'm with you upon the definition of clarity. From this standpoint the snippet I put together should be crystal clear to readers used to idiomatic F# and closely familiar with core library functions and combinators. On the opposite, your implementation is carrying a bug (list chunks in the final list go from tail to head of items list) that came unnoticed for 72 viewers as of now, because it is quite hard to spot this fact just from reading the code. –  Gene Belitski Sep 17 '13 at 15:01

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