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I wrote this F# function to partition a list up to a certain point and no further -- much like a cross between takeWhile and partition.

let partitionWhile c l =
    let rec aux accl accr =
        match accr with
        | [] -> (accl, [])
        | h::t ->
            if c h then
                aux (h::accl) t
            else
                (accl, accr)
    aux [] l

The only problem is that the "taken" items are reversed:

> partitionWhile ((>=) 5) [1..10];;
val it : int list * int list = ([5; 4; 3; 2; 1], [6; 7; 8; 9; 10])

Other than resorting to calling rev, is there a way this function could be written that would have the first list be in the correct order?

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4 Answers 4

up vote 8 down vote accepted

Here's a continuation-based version. It's tail-recursive and returns the list in the original order.

let partitionWhileCps c l =
  let rec aux f = function
    | h::t when c h -> aux (fun (acc, l) -> f ((h::acc), l)) t
    | l -> f ([], l)
  aux id l

Here are some benchmarks to go along with the discussion following Brian's answer (and the accumulator version for reference):

let partitionWhileAcc c l =
  let rec aux acc = function
    | h::t when c h -> aux (h::acc) t
    | l -> (List.rev acc, l)
  aux [] l

let test = 
  let l = List.init 10000000 id
  (fun f ->
    let r = f ((>) 9999999) l
    printfn "%A" r)

test partitionWhileCps // Real: 00:00:06.912, CPU: 00:00:07.347, GC gen0: 78, gen1: 65, gen2: 1
test partitionWhileAcc // Real: 00:00:03.755, CPU: 00:00:03.790, GC gen0: 52, gen1: 50, gen2: 1

Cps averaged ~7s, Acc ~4s. In short, continuations buy you nothing for this exercise.

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Thanks for all your effort! –  Rei Miyasaka Aug 27 '11 at 12:07

You can rewrite the function like this:

let partitionWhile c l =
  let rec aux xs =
    match xs with
      | [] -> ([], [])
      | h :: t ->
          if c h then
            let (good, bad) = aux t in
              (h :: good, bad)
          else
            ([], h :: t)
  aux l

Yes, as Brian has noted it is no longer tail recursive, but it answers the question as stated. Incidentally, span in Haskell is implemented exactly the same way in Hugs:

span p []       = ([],[])
span p xs@(x:xs')
    | p x       = (x:ys, zs)
    | otherwise = ([],xs)
    where (ys,zs) = span p xs'

A good reason for preferring this version in Haskell is laziness: In the first version all the good elements are visited before the list is reversed. In the second version the first good element can be returned immediately.

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FYI, this is not tail-recursive, so it will blow up with StackOverflowException on a very large list. –  Brian Aug 26 '11 at 1:43
    
Seems like a rather risky way to implement an algorithm that might be used for huge lists. Does Haskell provide a larger stack or something? –  Rei Miyasaka Aug 26 '11 at 2:15
    
@Rei The reason is laziness. I'd better mention that too. –  antonakos Aug 26 '11 at 2:53

I expect you can use continuations, but calling List.rev at the end is the best way to go.

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Other than because it's easier, is there a reason to favor an accumulator + List.rev over CPS? –  Daniel Aug 26 '11 at 4:28
    
Easier to write, easier to read, and probably more performant. –  Brian Aug 26 '11 at 5:52
    
I'm going to have to read up on continuations more before I can say anything... hm.... –  Rei Miyasaka Aug 26 '11 at 8:17
    
I don't know about more performant as using continuations seemed very efficient, but I definitely stand behind easier to write/read. –  David Grenier Aug 26 '11 at 11:44
    
@David Yeah, I'm still trying to wrap my head around Daniel's answer. It's not a form I'm familiar with. Though as with most functional idioms and probably programming idioms in general, I think it might become fairly readable once it clicks. Performance might be something that I'd have to measure quite a few times... –  Rei Miyasaka Aug 26 '11 at 13:04

I usually prefer Sequences over List as they are lazy and you got List.toSeq and Seq.toList functions to convert between them. Below is the implementation of your partitionWhile function using sequences.

let partitionWhile (c:'a -> bool) (l:'a list) = 
    let fromEnum (e:'a IEnumerator) = 
        seq { while e.MoveNext() do yield e.Current}
    use e = (l |> List.toSeq).GetEnumerator()
    (e |> fromEnum |> Seq.takeWhile c |> Seq.toList)
    ,(e |> fromEnum |> Seq.toList)
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