public void CurrentPlayerPaysPlayer(Player paidPlayer, int amountPaid) { // This function assumes the Player has sufficient funds to pay. // There is a separate function that will deal with the case where // The player does not have enough funds to pay Game1.debugMessageQueue.addMessageToQueue("Player \"" + paidPlayer.getName + "\" receives $" + amountPaid + " from Player \"" + this.getName + "\""); paidPlayer.addMoney(amountPaid); removeMoney(amountPaid); }
public SoshilandGame(string[] players) { Initialization gameInitialization = new Initialization(); gameInitialization.InitializeTiles(Tiles); // Initialize Tiles on the board gameInitialization.InitializeCards(ChanceCards, CommunityChestCards); // Initialize Chance and Community Chest cards playerArray = new Player[players.Length]; for (int i = 0; i < players.Length; i++) { playerArray[i] = new Player(players[i]); } gameInitialization.DeterminePlayerOrder(playerArray, ref ListOfPlayers); // Determine order of players // Players choose pieces (this can be implemented later) gameInitialization.DistributeStartingMoney(ListOfPlayers); // Players are given starting money gameInitialization.PlaceAllPiecesOnGo(ListOfPlayers); // Place all Pieces on Go SoshiLandGameFunctions.startNextPlayerTurn(ListOfPlayers); // Start first player's turn }
public void DeterminePlayerOrder(Player[] arrayOfPlayers, ref List<Player> ListOfPlayers) { // Note! // arrayOfPlayers is the order the players are sitting in around the board. // So the order is determined by starting at the player with the highest roll // and moving clockwise around the board Game1.debugMessageQueue.addMessageToQueue("Players rolling to determine Order"); int[] playerRolls = new int[arrayOfPlayers.Length]; // An array the size of the number of players to hold their dice rolls List<Player> tiedPlayers = new List<Player>(); // List of players that are tied for highest roll int currentHighestPlayer = 0; // Current player index in arrayOfPlayers with the highest roll // Have each player roll a pair of dice and store the result in the playerRolls array for (int i = 0; i < arrayOfPlayers.Length; i++) { SoshiLandGameFunctions.RollDice(arrayOfPlayers[i]); playerRolls[i] = SoshilandGame.currentDiceRoll; // If the current highest player's roll is less than the new player's roll // Replace that player with the new player with the highest roll if (playerRolls[currentHighestPlayer] < playerRolls[i] && i != currentHighestPlayer) { // Set the new Highest Player roll currentHighestPlayer = i; // Clear the list of tied players tiedPlayers.Clear(); } else if (playerRolls[currentHighestPlayer] == playerRolls[i] && i != currentHighestPlayer) { // Only add the current highest player if the list is empty // That player would've already been added to the list if (tiedPlayers.Count == 0) tiedPlayers.Add(arrayOfPlayers[currentHighestPlayer]); // Add the new player to the list of tied players tiedPlayers.Add(arrayOfPlayers[i]); } Game1.debugMessageQueue.addMessageToQueue("Player " + "\"" + arrayOfPlayers[currentHighestPlayer].getName + "\"" + " is the current highest roller with: " + playerRolls[currentHighestPlayer]); } // Initialize the list of players ListOfPlayers = new List<Player>(); // Check if there is a tie with highest rolls if (tiedPlayers.Count > 0) { Game1.debugMessageQueue.addMessageToQueue("There's a tie!"); // New list to store second round of tied players List<Player> secondRoundOfTied = new List<Player>(); // Keep rolling until no more tied players while (secondRoundOfTied.Count != 1) { int currentHighestRoll = 0; // Roll the dice for each player foreach (Player p in tiedPlayers) { SoshiLandGameFunctions.RollDice(p); // Roll the dice for the player // If the new roll is higher than the current highest roll if (SoshilandGame.currentDiceRoll > currentHighestRoll) { // Clear the list since everyone who may have been in the list is lower secondRoundOfTied.Clear(); // Set the new highest roll currentHighestRoll = SoshilandGame.currentDiceRoll; secondRoundOfTied.Add(p); } // If there's another tie, just add it to the new array without clearing it else if (SoshilandGame.currentDiceRoll == currentHighestRoll) { secondRoundOfTied.Add(p); } // Otherwise, the player rolled less and is removed } // If there are still tied players, transfer them into the old List and clear the new List if (secondRoundOfTied.Count > 1) { // Clear the players that did not roll high enough tiedPlayers.Clear(); foreach (Player p in secondRoundOfTied) { tiedPlayers.Add(p); } secondRoundOfTied.Clear(); } } // Should be one clear winner now ListOfPlayers.Add(secondRoundOfTied[0]); } if (ListOfPlayers.Count == 0) ListOfPlayers.Add(arrayOfPlayers[currentHighestPlayer]); int firstPlayer = 0; // Search for the first player in the player array while (arrayOfPlayers[firstPlayer] != ListOfPlayers[0]) firstPlayer++; // Populate the players in clockwise order for (int a = firstPlayer + 1; a < arrayOfPlayers.Length; a++) ListOfPlayers.Add(arrayOfPlayers[a]); if (firstPlayer != 0) { for (int b = 0; b < firstPlayer; b++) ListOfPlayers.Add(arrayOfPlayers[b]); } if (Game1.DEBUG) { Game1.debugMessageQueue.addMessageToQueue("Player Order Determined! "); for (int i = 1; i < ListOfPlayers.Count + 1; i++) Game1.debugMessageQueue.addMessageToQueue(i + ": " + ListOfPlayers[i - 1].getName); } }
public static void MovePlayer(Player p, int position) { // Update the player's current position to the new position p.CurrentBoardPosition = position; Game1.debugMessageQueue.addMessageToQueue("Player " + "\"" + p.getName + "\"" + " moves to Tile \"" + SoshilandGame.Tiles[position].getName + "\""); }
public static void RollDice(Player p) { SoshilandGame.DoublesRolled = false; int dice1Int = SoshilandGame.die.Next(1, 6); int dice2Int = SoshilandGame.die.Next(1, 6); int total = dice1Int + dice2Int; SoshilandGame.currentDiceRoll = total; // Set the global dice roll variable if (dice1Int == dice2Int && SoshilandGame.gameInitialized) { SoshilandGame.DoublesRolled = true; // Check if it's the third consecutive double roll if (SoshilandGame.numberOfDoubles == 2) // Move player to jail SoshiLandGameFunctions.MovePlayerToJail(p); else // Increment number of doubles SoshilandGame.numberOfDoubles++; } Game1.debugMessageQueue.addMessageToQueue("Player " + "\"" + p.getName + "\"" + " rolls dice: " + dice1Int + " and " + dice2Int + ". Total: " + total); if (SoshilandGame.DoublesRolled) Game1.debugMessageQueue.addMessageToQueue("Player " + "\"" + p.getName + "\"" + " rolled doubles!"); // Only move if the player is not in jail if ((!p.inJail) && SoshilandGame.gameInitialized) SoshiLandGameFunctions.MovePlayerDiceRoll(p, total); }
public static bool PayTenPercentWorthToBank(Player player) { int tenPercent = (int)Math.Round(player.getNetWorth * 0.10); // Calculate 10% of Player's money if (player.getMoney >= tenPercent) // Check if player has enough money to pay 10% { SoshilandGame.currentTurnsPlayers.PlayerPaysBank(tenPercent); // Player pays bank 10% Game1.debugMessageQueue.addMessageToQueue( "Player " + "\"" + SoshilandGame.currentTurnsPlayers.getName + "\"" + " pays $" + tenPercent + " in taxes"); return true; } else { Game1.debugMessageQueue.addMessageToQueue( "Player " + "\"" + SoshilandGame.currentTurnsPlayers.getName + "\"" + " needs to pay $" + tenPercent + " but does not have enough money"); return false; } }
public static void MovePlayerToJail(Player p) { Game1.debugMessageQueue.addMessageToQueue("Player " + "\"" + p.getName + "\"" + " goes to jail!"); // Set jail flag for player p.inJail = true; MovePlayer(p, 12); // Set phase to Post Roll Phase SoshilandGame.turnPhase = 2; }
public static void FollowCardInstructions(Card card, Player player, List<Player> listOfPlayers) { if (card.getMoneyModifier != 0) // Check if we need to do anything money related { bool negative = false; // Temporary bool to check if the money modifier is negative if (card.getMoneyModifier < 0) negative = true; // Set negative flag switch (card.getPerPlayer) // Check if the card affects all players { case true: // Case when card affects all players switch (negative) // Check if we're removing money { case true: // Case when we're removing money from current player (current player pays all other players) foreach (Player p in listOfPlayers) if (player != p) // Player cannot pay him/herself player.CurrentPlayerPaysPlayer(p, Math.Abs(card.getMoneyModifier)); // Pay each player the amount break; case false: // Case when player pays the bank foreach (Player p in listOfPlayers) if (player != p) // Player cannot be paid by him/herself p.CurrentPlayerPaysPlayer(player, Math.Abs(card.getMoneyModifier)); // Each player pays the current player the amount break; } break; case false: // Case when card does not affect all players switch (negative) // Check if we're removing money { case true: // Case when we're removing money player.PlayerPaysBank(Math.Abs(card.getMoneyModifier)); // Player pays bank break; case false: // Case when we're adding money player.BankPaysPlayer(Math.Abs(card.getMoneyModifier)); // Bank pays player break; } break; } } if (card.getMoveModifier != 0) // Check if we need to do a move modification { // Note: since there are no cards that do this yet, going to skip this for now } if (card.getMovePosition != 0) // Check if we need to do a position movement { if (card.getSpecialCardType == SpecialCardType.CanPassGo) // Check if the card actually moves around the board { if (player.CurrentBoardPosition > card.getMovePosition && player.CurrentBoardPosition <= 47) // Check if the player will pass Go from his or her current location player.BankPaysPlayer(200); // Pay 200 since player will pass Go } MovePlayer(player, card.getMovePosition); } if (card.getSpecialCardType == SpecialCardType.GetOutOfJailFreeCard) { player.FreeJailCards += 1; // Give player a get out of jail free card Game1.debugMessageQueue.addMessageToQueue("Player \"" + player.getName + "\" gets a Get Out of Jail Free Card"); } }
public static void MovePlayerDiceRoll(Player p, int roll) { int currentPosition = p.CurrentBoardPosition; int newPosition = currentPosition + roll; // If player passes or lands on Go if (newPosition > 47) { newPosition = Math.Abs(newPosition - 48); // Get absolute value of the difference and move player to that new Tile p.BankPaysPlayer(200); // Pay player $200 for passing Go } // Move player to the new position SoshiLandGameFunctions.MovePlayer(p, newPosition); }
private void PlayerOptions(Player player) { int currentTile = player.CurrentBoardPosition; TileType currentTileType = Tiles[currentTile].getTileType; optionPurchaseOrAuctionProperty = false; optionDevelopProperty = false; // Determine Player Options and take any actions required switch (currentTileType) { case TileType.Property: PropertyTile currentProperty = (PropertyTile)Tiles[currentTile]; if (currentProperty.Owner == null) // If the property is not owned yet optionPurchaseOrAuctionProperty = true; else if (currentProperty.Owner != player && !currentProperty.MortgageStatus) // If the property is owned by another player and not mortgaged { if (player.getMoney >= currentProperty.getRent) // Check if the player has enough money to pay Rent { player.CurrentPlayerPaysPlayer(currentProperty.Owner, currentProperty.getRent); // Pay rent turnPhase = 2; // Go to next phase } else optionPromptMortgageOrTrade = true; // Player must decide to mortgage or trade to get money } else // Otherwise, player landed on his or her own property, so go to next phase turnPhase = 2; break; case TileType.Utility: UtilityTile currentUtility = (UtilityTile)Tiles[currentTile]; UtilityTile otherUtility; if (currentTile == 15) otherUtility = (UtilityTile)Tiles[33]; else otherUtility = (UtilityTile)Tiles[15]; if (currentUtility.Owner == null) // If the property is not owned yet optionPurchaseOrAuctionUtility = true; else if (currentUtility.Owner != player && !currentUtility.MortgageStatus) // If the property is owned by another player { int utilityRent; // Calculate the amount to pay for Utility Rent if (currentUtility.Owner == otherUtility.Owner) // Check if player owns both utilities utilityRent = (int)currentDiceRoll * 10; else utilityRent = (int)currentDiceRoll * 4; if (player.getMoney >= utilityRent) // Check if the player has enough money to pay Rent { player.CurrentPlayerPaysPlayer(currentUtility.Owner, utilityRent); // Pay rent turnPhase = 2; // Go to next phase } else optionPromptMortgageOrTrade = true; // Player must decide to mortgage or trade to get money } else // Otherwise, player landed on his or her own property, so go to next phase turnPhase = 2; break; case TileType.Chance: Card drawnChanceCard = ChanceCards.drawCard(); // Draw the Chance card SoshiLandGameFunctions.FollowCardInstructions(drawnChanceCard, player, ListOfPlayers); turnPhase = 2; break; case TileType.CommunityChest: Card drawnCommunityChestCard = CommunityChestCards.drawCard(); // Draw the Community Chest card SoshiLandGameFunctions.FollowCardInstructions(drawnCommunityChestCard, player, ListOfPlayers); turnPhase = 2; break; case TileType.FanMeeting: turnPhase = 2; // Nothing happens, so go to last phase break; case TileType.Jail: turnPhase = 2; // Nothing happens, so go to last phase break; case TileType.ShoppingSpree: currentTurnsPlayers.PlayerPaysBank(75); // Pay Bank taxes turnPhase = 2; break; case TileType.SpecialLuxuryTax: Game1.debugMessageQueue.addMessageToQueue("Player " + "\"" + currentTurnsPlayers.getName + "\"" + " must choose to pay 10% of net worth, or $200"); Game1.debugMessageQueue.addMessageToQueue("Press K to pay 10% of net worth, or L to pay $200"); optionPromptLuxuryTax = true; break; case TileType.GoToJail: SoshiLandGameFunctions.MovePlayerToJail(player); break; case TileType.Go: turnPhase = 2; break; } optionsCalculated = true; if (Game1.DEBUG) { string optionsMessage = "Options Available: Trade,"; if (optionDevelopProperty) optionsMessage = optionsMessage + " Develop,"; if (optionPurchaseOrAuctionProperty || optionPurchaseOrAuctionUtility) optionsMessage = optionsMessage + " Purchase/Auction"; Game1.debugMessageQueue.addMessageToQueue(optionsMessage); } }