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I have a sequence of integers representing dice in F#.

In the game in question, the player has a pool of dice and can choose to play one (governed by certain rules) and keep the rest.

If, for example, a player rolls a 6, 6 and a 4 and decides to play one the sixes, is there a simple way to return a sequence with only one 6 removed?

Seq.filter (fun x -> x != 6) dice

removes all of the sixes, not just one.

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4 Answers 4

up vote 1 down vote accepted

the below code will work for a list (so not any seq but it sounds like the sequence your using could be a List)

let rec removeOne value list = 
               match list with
               | head::tail when head = value -> tail
               | head::tail -> head::(removeOne value tail)
               | _ -> [] //you might wanna fail here since it didn't find value in
                                   //the list

EDIT: code updated based on correct comment below. Thanks P

EDIT: After reading a different answer I thought that a warning would be in order. Don't use the above code for infite sequences but since I guess your players don't have infite dice that should not be a problem but for but for completeness here's an implementation that would work for (almost) any finite sequence

 let rec removeOne value seq acc = 
                   match seq.Any() with
                   | true when s.First() = value -> seq.Skip(1)
                   | true -> seq.First()::(removeOne value seq.Skip(1))
                   | _ -> List.rev acc //you might wanna fail here since it didn't find value in
                                       //the list

However I recommend using the first solution which Im confident will perform better than the latter even if you have to turn a sequence into a list first (at least for small sequences or large sequences with the soughtfor value in the end)

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I don't understand the "to avoid concatenation ..." part, especially since there is an @ in your function. Is (List.rev a)@b compiled into revappend by F#? Even so, that's still a concatenation, that you could avoid by simply storing the traversed values on the stack: | heat::tail when head <> value -> head::(removeOne value tail) –  Pascal Cuoq Apr 24 '10 at 20:56
Also, using nested calls to seq.Skip(1) will lead to a very inefficient code (In fact, O(n) access time, because each call to Skip creates one indirection). The patterns used when working with F# lists simply don't work for sequences. –  Tomas Petricek Apr 24 '10 at 21:33
@Tomas yes which exactly my point when stating that creating a list before hand might very Well perform better –  Rune FS Apr 25 '10 at 0:47
You're quite right that the numbers are being stored as list initially: I was making my own life awkward trying to build an overly general function. Had I really needed a way to deal with a more general case, I'm afraid I would have been going with Tomas'. –  mavnn Apr 26 '10 at 8:44

Non-trivial operations on sequences are painful to work with since they don't support pattern matching. I think there simplest solution is as follows:

let filterFirst f s =
    seq {
        let filtered = ref false
        for a in s do
            if filtered.Value = false && f a then
                filtered := true
            else yield a

So long as the mutable implementation is hidden from the client, its still functional ;)

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+1, for simplicity. –  gradbot Apr 25 '10 at 17:52
I like this answer, but I think using not filtered.Value would be preferable to comparing to false. –  kvb Apr 26 '10 at 14:03

I don't think there is any function that would allow you to directly represent the idea that you want to remove just the first element matching the specified criteria from the list (e.g. something like Seq.removeOne).

You can implement the function in a relatively readable way using Seq.fold (if the sequence of numbers is finite):

let removeOne f l = 
  Seq.fold (fun (removed, res) v ->
    if removed then true, v::res
    elif f v then true, res
    else false, v::res) (false, []) l 
  |> snd |> List.rev

> removeOne (fun x -> x = 6) [ 1; 2; 6; 6; 1 ];
val it : int list = [1; 2; 6; 1]

The fold function keeps some state - in this case of type bool * list<'a>. The Boolean flag represents whether we already removed some element and the list is used to accumulate the result (which has to be reversed at the end of processing).

If you need to do this for (possibly) infinite seq<int>, then you'll need to use GetEnumerator directly and implement the code as a recursive sequence expression. This is a bit uglier and it would look like this:

let removeOne f (s:seq<_>) = 
  // Get enumerator of the input sequence
  let en = s.GetEnumerator()

  let rec loop() = seq {
    // Move to the next element
    if en.MoveNext() then
      // Is this the element to skip?
      if f en.Current then
        // Yes - return all remaining elements without filtering
        while en.MoveNext() do
          yield en.Current
        // No - return this element and continue looping
        yield en.Current
        yield! loop() }
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If you're going to store data I would use ResizeArray instead of a Sequence. It has a wealth of functions built in such as the function you asked about. It's simply called Remove. Note: ResizeArray is an abbreviation for the CLI type List.

let test = seq [1; 2; 6; 6; 1; 0]
let a = new ResizeArray<int>(test)
a.Remove 6 |> ignore
Seq.toList a |> printf "%A"

// output
> [1; 2; 6; 1; 0]

Other data type options could be Array

let removeOneFromArray v a =
    let i = Array.findIndex ((=)v) a
    Array.append a.[..(i-1)] a.[(i+1)..]

or List

let removeOneFromList v l = 
    let rec remove acc = function
        | x::xs when x = v -> List.rev acc @ xs
        | x::xs -> remove (x::acc) xs
        | [] -> acc
    remove [] l
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I guess this goes against FP principles because a.Remove mutates the list –  knocte Jul 29 '14 at 22:23
@knocte Sure, however there are cases where you want to encapsulate mutation inside of a function or object such that it is exposed in an immutable way. A lot of the F# run-time functions use mutable data underneath. –  gradbot Aug 1 '14 at 4:52

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