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I would like to write a function which filters a sequence using a predicate but the result should also INCLUDE the first item for which the predicate returns false.

The logic would be something like this, if there was a break keyword in F#

let myFilter predicate s =
    seq {
        for item in s do
            yield item
            if predicate item then

I tried combinations of Seq.takeWhile and Seq.skipWhile, something like this:

    (Seq.takeWhile predicate s) 
    (Seq.skipWhile predicate s |> Seq.take 1)

...but the problem is that the first item which matches the predicate is lost between the takeWhile and the skipWhile

Also note that the input sequence is lazy so any solution which consumes the sequence and takes decisions afterwards is not viable.

Any ideas?


EDIT: Thanks a LOT for all the answers! I didn't expect so many responses so fast. I will take a look at each of them soon. Now I just want to give a little more context. Consider the following coding kata which implements a shell:

let cmdProcessor state = function
    | "q" -> "Good bye!"
    | "h" -> "Help content"
    | c -> sprintf "Bad command: '%s'" c

let processUntilQuit =
    Seq.takeWhile (fun cmd -> cmd <> "q")

let processor = 
    >> Seq.scan cmdProcessor "Welcome!"

module io =
    let consoleLines = seq { while true do yield System.Console.ReadLine () }

    let display : string seq -> unit = Seq.iter <| printfn "%s" 

io.consoleLines |> processor|> io.display

printf "Press any key to continue..."
System.Console.ReadKey ()|> ignore

This implementation has the trouble that it doesn't print "Good bye!" when command q is entered.

What I want to do is to implement the function processUntilQuit such that it processes all the commands until "q", including "q".

share|improve this question
What do you mean by the problem is that the first item which matches the predicate is lost between the takeWhile and the skipWhile? Your solution is correct because the first false item is still there in s. – pad Sep 24 '12 at 10:53
@pad: So if I implement the function processUntilQuit like this: let processUntilQuit cmds = let isNotFinished cmd = cmd <> "q" seq {yield! Seq.takeWhile isNotFinished cmds yield! Seq.skipWhile isNotFinished cmds |> Seq.truncate 1} ...the output looks like this: Welcome! q q Good bye! Press any key to continue... As you can see I had to type q twice to exit. – vidi Sep 24 '12 at 15:43
up vote 9 down vote accepted

The lack of support for break in computation expressions is a bit annoying. It does not fit well with the model used by F# (which is why it is not supported), but it would be really useful in this case.

If you want to implement this using just a single iteration over the sequence, then I think the cleanest solution is to just use the underlying structure of sequences and write it as a recursive loop using IEnumerator<'T>

This is fairly short (compared to other solutions here) and it is quite clear code too:

let myFilter predicate (s:seq<_>) = 
  /// Iterates over the enumerator, yielding elements and
  /// stops after an element for which the predicate does not hold
  let rec loop (en:IEnumerator<_>) = seq {
    if en.MoveNext() then
      // Always yield the current, stop if predicate does not hold
      yield en.Current
      if predicate en.Current then
        yield! loop en }

  // Get enumerator of the sequence and yield all results
  // (making sure that the enumerator gets disposed)
  seq { use en = s.GetEnumerator()
        yield! loop en }
share|improve this answer
This is not really functional but it works and it's clean enough. Thanks! It would still be interesting to see how this can be written in a nice functional way – vidi Sep 24 '12 at 18:13
I do not have a "proof" for this claim, but I think it cannot be written in a "nice functional way" because the underlying data structure - seq<'T> is not really functional. You could write it in a functional style if you used lazy list, but sequences are more idiomatic in F# (even if they sometimes force you to use imperative style to implement some higher-level declarative function). – Tomas Petricek Sep 24 '12 at 19:16

Don't really get what is the problem with your solution.

Two small corrections:

(1) Use sequence expression for readability.

(2) Use Seq.truncate instead of Seq.take in case the input sequence is empty.

let myFilter predicate s = 
    seq { yield! Seq.takeWhile predicate s
          yield! s |> Seq.skipWhile predicate |> Seq.truncate 1 }
share|improve this answer
Won't it enumerate s twice in worst case (all s's match predicate)? – rkrahl Sep 24 '12 at 11:47
Yes, it will. But I don't think it's OP's concern in the question. – pad Sep 24 '12 at 11:56
I do not understand your first point - I think both OP's and your's versions are equally lazy. I would write it in this way too, but that is just stylistic preference... (Good point about truncate though.) – Tomas Petricek Sep 24 '12 at 12:22
@TomasPetricek: my mistake, I updated the answer. – pad Sep 24 '12 at 12:26

Ugly non-functional solution

let myfilter f s =
    let failed = ref false
    let newf = fun elem -> match !failed with 
                           |true -> 
                               failed := f elem
    Seq.takeWhile newf s
share|improve this answer
With this implementation, after I entered command q it reads one more command and then it exits – vidi Sep 24 '12 at 18:32
let duplicateHead xs = seq { yield Seq.head xs; yield! xs }
let filter predicate xs =
    |> duplicateHead
    |> Seq.pairwise
    |> Seq.takeWhile (fst >> predicate)
    |> snd

Alternative version of duplicateHead, in case if you don't like computation expression here:

let duplicateHead' xs =
        (Seq.head xs)

This approach is based on building tuples of current and next element. The predicate is being applied to the current element, but the following one is returned.

NOTE: It is not safe for cases when predicate fails on the very first element. In order to make it working fine, you have to re-work duplicateHead by adding an element that would certainly pass the predicate.

share|improve this answer
It almost works but it reads one more command after the q and, as you already said, there is still a problem if the first command is q – vidi Sep 24 '12 at 18:22

A bit better one. :)

let padWithTrue n xs = seq { for _ in 1..n do yield true; done; yield! xs }
let filter predicate n xs =
    let ys = xs |> predicate |> padWithTrue n xs ys
    |> Seq.takeWhile snd
    |> fst

This one takes an additional parameter n which defines how many additional elements to add.

NOTE: careful with single-line padWithTrue (done keyword)

share|improve this answer
This one doesn't work. It needs the commands typed in twice. This is the implementation that I wrote based on your suggestion: let processUntilQuit cmds = let padWithTrue n xs = seq { for _ in 1..n do yield true; done; yield! xs } let ys = cmds |> (fun cmd -> cmd <> "q") |> padWithTrue 1 cmds ys |> Seq.takeWhile snd |> fst – vidi Sep 24 '12 at 18:11

Ugly functional solution :):

let rec myFilter predicate =
        Seq.fold (fun acc s ->
            match acc with
                | (Some x, fs) -> 
                    match predicate s with
                        | true -> (Some x, fs @ [s])
                        | false -> (Some x, fs)
                | (_, fs) ->
                    match predicate s with
                        | true -> (None, fs @ [s])
                        | false -> (Some s, fs))
            (None, [])

You end up with tuple, of which first element contains option with first non-matching element from source list and second element contains filtered list.

Ugly functional lazy solution (sorry, i didn't read your post correctly for the first time):

let myFilterLazy predicate s =
        let rec inner x =
            seq {
                match x with
                    | (true, ss) when ss |> Seq.isEmpty = false ->
                        let y = ss |> Seq.head
                        if predicate y = true then yield y
                        yield! inner (true, ss |> Seq.skip 1)
                    | (_, ss) when ss |> Seq.isEmpty = false ->
                        let y = ss |> Seq.head
                        if predicate y = true then
                            yield y
                            yield! inner (false, ss |> Seq.skip 1)
                            yield y
                            yield! inner (true, ss |> Seq.skip 1)
                    | _ -> 0.0 |> ignore

        inner (false, s)

I'm not fluent enough in F# to make terminating case in match look good, maybe some of the F# gurus will help.

Edit: Not-so-ugly, pure F# solution inspired by Tomas Petricek answer:

let myFilterLazy2 predicate s =
        let rec inner ss = seq {
            if Seq.isEmpty ss = false then
                yield ss |> Seq.head
                if ss |> Seq.head |> predicate then
                    yield! ss |> Seq.skip 1 |> inner

        inner s
share|improve this answer
It deserves +1 for being the ugliest solution :) Thanks but I was hoping for something cleaner. – vidi Sep 24 '12 at 16:13
Thanks for appreciation :). Third version, pure F# without strange .net classes ;). Inspired by Tomas Petricek answer, which is my personal favorite too. – rkrahl Sep 24 '12 at 19:31
I've just tried your second solution and doesn't work. It needs the commands entered twice. – vidi Sep 25 '12 at 10:57

I guess what you want it takeUntil:

let takeUntil pred s =
  let state = ref true
  Seq.takeWhile (fun el ->
    let ret= !state
    state := not <| pred el
    ) s
share|improve this answer
This is not correct, since it evaluates one extra element (which may have an unwanted side-effect). – brianberns May 3 '15 at 7:03

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