public PlayerTurn PlayTurn(PlayerTurn previousTurn, CardDeck drawPile) { PlayerTurn turn = new PlayerTurn(); if (previousTurn.Result == TurnResult.Skip || previousTurn.Result == TurnResult.DrawTwo || previousTurn.Result == TurnResult.WildCardDrawFour) { return(ProcessAttack(previousTurn.Card, drawPile)); } else if ((previousTurn.Result == TurnResult.WildCard || previousTurn.Result == TurnResult.DrawTwoByOpponent || previousTurn.Result == TurnResult.ForceDrawNoMatch) && HasMatch(previousTurn.DeclaredColor)) { turn = PlayMatchingCard(previousTurn.DeclaredColor); } else if (HasMatch(previousTurn.Card)) { turn = PlayMatchingCard(previousTurn.Card); } else //See if drawn card is playable { turn = DrawCard(previousTurn, drawPile); } DisplayTurn(turn); return(turn); }
private void DisplayTurn(PlayerTurn currentTurn) { if (currentTurn.Result == TurnResult.ForceDrawNoMatch) { Console.WriteLine("Player " + Position.ToString() + " is forced to draw."); } if (currentTurn.Result == TurnResult.ForceDrawNoMatch) { Console.WriteLine("Player " + Position.ToString() + " is forced to draw AND can play the drawn card!"); } if (currentTurn.Result == TurnResult.PlayedCard || currentTurn.Result == TurnResult.Skip || currentTurn.Result == TurnResult.DrawTwo || currentTurn.Result == TurnResult.WildCard || currentTurn.Result == TurnResult.WildCardDrawFour || currentTurn.Result == TurnResult.Reversed || currentTurn.Result == TurnResult.ForceDrawNoMatch) { Console.WriteLine("Player " + Position.ToString() + " plays a " + currentTurn.Card.DisplayValue + " card."); if (currentTurn.Card.Color == CardColor.Wild) { Console.WriteLine("Player " + Position.ToString() + " declares " + currentTurn.DeclaredColor.ToString() + " as the new color."); } if (currentTurn.Result == TurnResult.Reversed) { Console.WriteLine("Turn order reversed!"); } } if (Hand.Count == 1) { Console.WriteLine("Player " + Position.ToString() + " shouts Uno!"); } }
private PlayerTurn ProcessAttack(Card currentDiscard, CardDeck drawPile) { PlayerTurn turn = new PlayerTurn(); turn.Result = TurnResult.DrawTwoByOpponent; turn.Card = currentDiscard; turn.DeclaredColor = currentDiscard.Color; if (currentDiscard.Value == CardValue.Skip) { Console.WriteLine("Player " + Position.ToString() + " was skipped!"); return(turn); } else if (currentDiscard.Value == CardValue.DrawTwo) { Console.WriteLine("Player " + Position.ToString() + " must draw two cards!"); Hand.AddRange(drawPile.Draw(2)); } else if (currentDiscard.Value == CardValue.DrawFour) { Console.WriteLine("Player " + Position.ToString() + " must draw four cards!"); Hand.AddRange(drawPile.Draw(4)); } return(turn); }
public PlayerTurn PlayerTurn(PlayerTurn previousTurn, CardDeck drawPile) { PlayerTurn turn = new PlayerTurn(); if (previousTurn.Result == TurnResult.Skip || previousTurn.Result == TurnResult.DrawTwo || previousTurn.Result == TurnResult.WildDrawFour) { return(ProcessAttack(previousTurn.Card, drawPile)); } else if ((previousTurn.Result == TurnResult.WildCard || previousTurn.Result == TurnResult.Attacked || previousTurn.Result == TurnResult.ForceDraw) && HasMatch(previousTurn.DeclaredColor)) { turn = PlayMatchingCard(previousTurn.DeclaredColor); } else if (HasMatch(previousTurn.Card)) { turn = PlayMatchingCard(previousTurn.Card); } else //Draw a card and see if it can play { turn = DrawCard(previousTurn, drawPile); } DisplayTurn(turn); return(turn); }
private void AddToDiscardPile(PlayerTurn currentTurn) { if (currentTurn.Result == TurnResult.PlayedCard || currentTurn.Result == TurnResult.DrawTwo || currentTurn.Result == TurnResult.Skip || currentTurn.Result == TurnResult.WildCard || currentTurn.Result == TurnResult.WildCardDrawFour || currentTurn.Result == TurnResult.Reversed) { DiscardPile.Insert(0, currentTurn.Card); } }
private PlayerTurn DrawCard(PlayerTurn previousTurn, CardDeck drawPile) { PlayerTurn turn = new PlayerTurn(); var drawnCard = drawPile.Draw(1); Hand.AddRange(drawnCard); if (HasMatch(previousTurn.Card)) { turn = PlayMatchingCard(previousTurn.Card); turn.Result = TurnResult.ForceDrawPlay; } else { turn.Result = TurnResult.ForceDraw; turn.Card = previousTurn.Card; } return(turn); }
public void PlayGame() { int i = 0; bool isAscending = true; //displaying player's beginner cards foreach (var player in Players) { player.ShowHand(); } Console.ReadLine(); PlayerTurn currentTurn = new PlayerTurn() { Result = TurnResult.StartGame, Card = DiscardPile.First(), DeclaredColor = DiscardPile.First().Color }; Console.WriteLine("First card is a " + currentTurn.Card.DisplayValue + "."); while (!Players.Any(x => !x.Hand.Any())) { if (DrawPile.Cards.Count < 4) //Cheating a bit here { var currentCard = DiscardPile.First(); //Take the discarded cards, shuffle them, and make them the new draw pile. DrawPile.Cards = DiscardPile.Skip(1).ToList(); DrawPile.Shuffle(); //Reset the discard pile DiscardPile = new List <Card>(); DiscardPile.Add(currentCard); Console.WriteLine("Shuffling cards!"); } var currentPlayer = Players[i]; currentTurn = Players[i].PlayTurn(currentTurn, DrawPile); AddToDiscardPile(currentTurn); if (currentTurn.Result == TurnResult.Reversed) { isAscending = !isAscending; } if (isAscending) { i++; if (i >= Players.Count) { i = 0; } } else { i--; if (i < 0) { i = Players.Count - 1; } } } var winningPlayer = Players.Where(x => !x.Hand.Any()).First(); Console.WriteLine("Player " + winningPlayer.Position.ToString() + " wins!!"); foreach (var player in Players) { Console.WriteLine("Player " + player.Position.ToString() + " has " + player.Hand.Sum(x => x.Score).ToString() + " points in his hand."); } }
private PlayerTurn PlayMatchingCard(Card currentDiscard) { var turn = new PlayerTurn(); turn.Result = TurnResult.PlayedCard; var matching = Hand.Where(x => x.Color == currentDiscard.Color || x.Value == currentDiscard.Value || x.Color == CardColor.Wild).ToList(); //unless there are no other matches, we cannot play wild card if (matching.All(x => x.Value == CardValue.DrawFour)) { turn.Card = matching.First(); turn.DeclaredColor = SelectDominantColor(); turn.Result = TurnResult.WildCard; Hand.Remove(matching.First()); return(turn); } if (matching.Any(x => x.Value == CardValue.DrawTwo)) { turn.Card = matching.First(x => x.Value == CardValue.DrawTwo); turn.Result = TurnResult.DrawTwo; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } if (matching.Any(x => x.Value == CardValue.Skip)) { turn.Card = matching.First(x => x.Value == CardValue.Skip); turn.Result = TurnResult.Skip; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } if (matching.Any(x => x.Value == CardValue.Reverse)) { turn.Card = matching.First(x => x.Value == CardValue.Reverse); turn.Result = TurnResult.Reversed; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } var matchOnColor = matching.Where(x => x.Color == currentDiscard.Color); var matchOnValue = matching.Where(x => x.Value == currentDiscard.Value); if (matchOnColor.Any() && matchOnValue.Any()) { var correspondingColor = Hand.Where(x => x.Color == matchOnColor.First().Color); var correspondingValue = Hand.Where(x => x.Value == matchOnValue.First().Value); if (correspondingColor.Count() >= correspondingValue.Count()) { turn.Card = matchOnColor.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnColor.First()); return(turn); } else //Matches depend on the value of the card { turn.Card = matchOnValue.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnValue.First()); return(turn); } } else if (matchOnColor.Any()) { turn.Card = matchOnColor.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnColor.First()); return(turn); } else if (matchOnValue.Any()) { turn.Card = matchOnValue.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnValue.First()); return(turn); } //If a wild becomes our last card, player wins if (matching.Any(x => x.Value == CardValue.Wild)) { turn.Card = matching.First(x => x.Value == CardValue.Wild); turn.DeclaredColor = SelectDominantColor(); turn.Result = TurnResult.WildCard; Hand.Remove(turn.Card); return(turn); } turn.Result = TurnResult.ForceDrawNoMatch; return(turn); }
private PlayerTurn PlayMatchingCard(CardColor color) { var turn = new PlayerTurn(); turn.Result = TurnResult.PlayedCard; var matching = Hand.Where(x => x.Color == color || x.Color == CardColor.Wild).ToList(); //We cannot play the wild draw four card unless there are no other matches. if (matching.All(x => x.Value == CardValue.DrawFour)) { turn.Card = matching.First(); turn.DeclaredColor = SelectDominantColor(); turn.Result = TurnResult.WildCard; Hand.Remove(matching.First()); return(turn); } if (matching.Any(x => x.Value == CardValue.DrawTwo)) { turn.Card = matching.First(x => x.Value == CardValue.DrawTwo); turn.Result = TurnResult.DrawTwo; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } if (matching.Any(x => x.Value == CardValue.Skip)) { turn.Card = matching.First(x => x.Value == CardValue.Skip); turn.Result = TurnResult.Skip; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } if (matching.Any(x => x.Value == CardValue.Reverse)) { turn.Card = matching.First(x => x.Value == CardValue.Reverse); turn.Result = TurnResult.Reversed; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } var matchOnColor = matching.Where(x => x.Color == color); if (matchOnColor.Any()) { turn.Card = matchOnColor.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnColor.First()); return(turn); } if (matching.Any(x => x.Value == CardValue.Wild)) { turn.Card = matching.First(x => x.Value == CardValue.Wild); turn.DeclaredColor = SelectDominantColor(); turn.Result = TurnResult.WildCard; Hand.Remove(turn.Card); return(turn); } turn.Result = TurnResult.ForceDrawNoMatch; return(turn); }
private PlayerTurn PlayMatchingCard(Card currentDiscard) { var turn = new PlayerTurn(); turn.Result = TurnResult.PlayedCard; var matching = Hand.Where(x => x.Color == currentDiscard.Color || x.Value == currentDiscard.Value || x.Color == CardColor.Wild).ToList(); //We cannot play wild draw four unless there are no other matches. if (matching.All(x => x.Value == CardValue.DrawFour)) { turn.Card = matching.First(); turn.DeclaredColor = SelectDominantColor(); turn.Result = TurnResult.WildCard; Hand.Remove(matching.First()); return(turn); } //Otherwise, we play the card that would cause the most damage to the next player. if (matching.Any(x => x.Value == CardValue.DrawTwo)) { turn.Card = matching.First(x => x.Value == CardValue.DrawTwo); turn.Result = TurnResult.DrawTwo; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } if (matching.Any(x => x.Value == CardValue.Skip)) { turn.Card = matching.First(x => x.Value == CardValue.Skip); turn.Result = TurnResult.Skip; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } if (matching.Any(x => x.Value == CardValue.Reverse)) { turn.Card = matching.First(x => x.Value == CardValue.Reverse); turn.Result = TurnResult.Reversed; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } //At this point the player has a choice of sorts //Assuming he has a match on color AND a match on value, he can choose which to play //For this demo, we'll assume that playing the match with MORE possible plays from his hand is the better option. var matchOnColor = matching.Where(x => x.Color == currentDiscard.Color); var matchOnValue = matching.Where(x => x.Value == currentDiscard.Value); if (matchOnColor.Any() && matchOnValue.Any()) { var correspondingColor = Hand.Where(x => x.Color == matchOnColor.First().Color); var correspondingValue = Hand.Where(x => x.Value == matchOnValue.First().Value); if (correspondingColor.Count() >= correspondingValue.Count()) { turn.Card = matchOnColor.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnColor.First()); return(turn); } else //Match on value { turn.Card = matchOnValue.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnValue.First()); return(turn); } //Figure out which of these is better } else if (matchOnColor.Any()) { turn.Card = matchOnColor.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnColor.First()); return(turn); } else if (matchOnValue.Any()) { turn.Card = matchOnValue.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnValue.First()); return(turn); } //Play regular wilds last. If a wild becomes our last card, we win on the next turn! if (matching.Any(x => x.Value == CardValue.Wild)) { turn.Card = matching.First(x => x.Value == CardValue.Wild); turn.DeclaredColor = SelectDominantColor(); turn.Result = TurnResult.WildCard; Hand.Remove(turn.Card); return(turn); } //This should never happen turn.Result = TurnResult.ForceDraw; return(turn); }
private PlayerTurn PlayMatchingCard(CardColor color) { var turn = new PlayerTurn(); turn.Result = TurnResult.PlayedCard; var matching = Hand.Where(x => x.Color == color || x.Color == CardColor.Wild).ToList(); //We cannot play wild draw four unless there are no other matches. if (matching.All(x => x.Value == CardValue.DrawFour)) { turn.Card = matching.First(); turn.DeclaredColor = SelectDominantColor(); turn.Result = TurnResult.WildCard; Hand.Remove(matching.First()); return(turn); } //Otherwise, we play the card that would cause the most damage to the next player. if (matching.Any(x => x.Value == CardValue.DrawTwo)) { turn.Card = matching.First(x => x.Value == CardValue.DrawTwo); turn.Result = TurnResult.DrawTwo; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } if (matching.Any(x => x.Value == CardValue.Skip)) { turn.Card = matching.First(x => x.Value == CardValue.Skip); turn.Result = TurnResult.Skip; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } if (matching.Any(x => x.Value == CardValue.Reverse)) { turn.Card = matching.First(x => x.Value == CardValue.Reverse); turn.Result = TurnResult.Reversed; turn.DeclaredColor = turn.Card.Color; Hand.Remove(turn.Card); return(turn); } var matchOnColor = matching.Where(x => x.Color == color); if (matchOnColor.Any()) { turn.Card = matchOnColor.First(); turn.DeclaredColor = turn.Card.Color; Hand.Remove(matchOnColor.First()); return(turn); } if (matching.Any(x => x.Value == CardValue.Wild)) { turn.Card = matching.First(x => x.Value == CardValue.Wild); turn.DeclaredColor = SelectDominantColor(); turn.Result = TurnResult.WildCard; Hand.Remove(turn.Card); return(turn); } //This should never happen turn.Result = TurnResult.ForceDraw; return(turn); }