1

I am writing a card game and have been using the following method to get the next Player who's turn it is

There is a direction to the game which could be forwards or backwards, and it needs to respect this too

private Player GetNextPlayer()
        {
            int currentPlayerIndex = Players.FindIndex(o => o.IsThisPlayersTurn);
            Player nextPlayer;

            if (_direction.Equals(Direction.Forwards))
            {
                nextPlayer = currentPlayerIndex == Players.Count - 1 ? Players[0] : Players[currentPlayerIndex + 1];
            }
            else
            {
                nextPlayer = currentPlayerIndex == 0 ? Players[Players.Count - 1] : Players[currentPlayerIndex - 1];
            }

            return nextPlayer;
        }

This works fine until a player has finished the game. Then it can potentially return a player who is no longer in the game.

When a player has finished the game their PlayerState is HasNoCards

So I changed it to this, but it seems to be buggy in certain cases

public Player GetNextPlayer()
        {
            var players = Players.Where(o => o.PlayerState != PlayerState.HasNoCards);

            if (Direction.Equals(Direction.Backwards))
            {
                players = players.Reverse();
            }

            bool selectNextPlayer = false;

            foreach (Player player in players)
            {
                if (selectNextPlayer)
                {
                    return player;
                }
                if (player.IsThisPlayersTurn)
                {
                    selectNextPlayer = true;
                }
            }

            return players.First();
        }

I reckon there must be a smart way with linq to say "get the next player , where the Player.PlayerState is not PlayerState.HasNoCards"

Any ideas?

I should add that I can't remove the player from the list to solve the problem as it would screw my databinding

EDIT

I have a failing unit test for the scenario that the second method can't handle. It is when a player plays their last card when the direction is backwards. As I immediately filter the current player from the list, with

var players = Players.Where(o => o.PlayerState != PlayerState.HasNoCards);
2
  • What determines the change of direction? Is it merely reaching an end of the list? If not, you need to handle wrapping around from one end to the other. Oct 16, 2010 at 13:28
  • Playing a certain card (a queen) will change the direction of play. I have handled the wrapping round in both the methods I posted, but there are a couple of edge cases that don't work. e.g. when the direction is backwards and a player plays their last card (thus chaanging their PlayerState)
    – ChrisCa
    Oct 16, 2010 at 13:32

3 Answers 3

2
public Player GetNextPlayer()
{
    int currentPlayerIndex = Players.FindIndex(o => o.IsThisPlayersTurn);
    int next = _direction.Equals(Direction.Forwards) ? 1 : -1;

    int nextPlayerIndex = currentPlayerIndex;
    do
    {
      nextPlayerIndex = (nextPlayerIndex + next + Players.Count) % Players.Count;
    }while(Players[nextPlayerIndex].HasNoCards && nextPlayerIndex != currentPlayerIndex);

    return Players[nextPlayerIndex];
}
14
  • Assume: nextPlayerIndex = 0; next = -1; Your loop will do nextPlayerIndex = (0-1)%Players.Count which will be -1, which will throw an exception when you will try to access an array. Oct 16, 2010 at 13:49
  • thanks for taking the time - but that goes into an infinite loop
    – ChrisCa
    Oct 16, 2010 at 13:49
  • @Ravadre: My bad - In a mathematical manner (-1 % x) = x-1. (I guess is different in c#). I'll fix it.
    – Itay Karo
    Oct 16, 2010 at 21:13
  • @Christo Fur: I do not see how it can go into an infinite loop. After one iteration over all player (where nextPlayerIndex == currentPlayerIndex) The loop must end.
    – Itay Karo
    Oct 16, 2010 at 21:17
  • well, it never returns when I ran my unit tests on it - maybe you meant this line : while(Players[currentPlayerIndex] to be : while(Players[nextPlayerIndex] ? when I change it to that I get an index outof range exception, as Ravadre points out
    – ChrisCa
    Oct 17, 2010 at 7:45
2

The trick with LINQ is to carefully design your starting sequence so that it contains all possible output values in logical order. In this case, you want the starting sequence to be all the other players, in turn order, starting with the player following the current player. Once you can express that, it is trivial to handle cases like backwards direction, or players who have no cards.

private Player GetNextPlayer() {
    if (!Players.Any()) throw new InvalidOperationException("No players.");
    if (Players.Count(p => p.IsThisPlayersTurn) != 1) {
        throw new InvalidOperationException(
            "It must be one--and only one--player's turn.");
    }

    var current = Players.Single(p => p.IsThisPlayersTurn);
    var subsequent = Players.Concat(Players)
        .SkipWhile(p => p != current)
        .Skip(1) // skip current player
        .TakeWhile(p => p != current);
    if (_direction == Direction.Backwards) {
        subsequent = subsequent.Reverse();
    }
    return subsequent
        .FirstOrDefault(p => p.PlayerState != PlayerState.HasNoCards);
}
0

Have come up with the following, which works, but would be interested in any more elegant solutions

 private Player GetNextPlayer()
        {
            var players = Players.AsEnumerable();

            if (Direction.Equals(Direction.Backwards))
            {
                players = players.Reverse();
            }

            bool selectNextPlayer = false;

            foreach (Player player in players)
            {
                if (selectNextPlayer && !player.PlayerState.Equals(PlayerState.HasNoCards))
                {
                    return player;
                }
                if (player.IsThisPlayersTurn)
                {
                    selectNextPlayer = true;
                }
            }

            return players.First(o => !o.PlayerState.Equals(PlayerState.HasNoCards));
        }

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