private void NotifyBoardChanged()
{
if (!_suppressChangeEvents)
{
BoardChanged?.Invoke(this);
}
}
public void OnBoardChanged(int i_X, int i_Y)
{
if (BoardChanged != null)
{
BoardChanged.Invoke(i_X, i_Y);
}
}
/// <summary>
/// Start a new game with the two players of the session and continue until the game is over.
/// </summary>
/// <returns>return the chess game log with all draws etc.</returns>
public ChessGame ExecuteGame()
{
// initialize new chess game
Game = new ChessGame();
// continue until the game is over
while (!Game.GameStatus.IsGameOver())
{
// determin the drawing player
var drawingPlayer = Game.SideToDraw == ChessColor.White ? WhitePlayer : BlackPlayer;
// init loop variables
bool isDrawValid;
ChessDraw draw;
do
{
// get the draw from the player
draw = drawingPlayer.GetNextDraw(Game.Board, Game.LastDrawOrDefault);
isDrawValid = Game.ApplyDraw(draw, true);
}while (!isDrawValid);
// raise board changed event
BoardChanged?.Invoke(Game.Board);
}
// return the chess game, so it can be logged, etc.
return(Game);
}
public void place(Ship s)
{
if (Check_placeable(s, s.X, s.Y))
{
if ((int)s.orientation == 0)
{
for (int i = 0; i < s.Lives; i++)
{
board[s.Y + i, s.X].type = s.type;
board[s.Y + i, s.X].ship = s;
s.positions.Add(board[s.Y + i, s.X]);
BoardChanged?.Invoke(s.X, s.Y + i);
}
}
if ((int)s.orientation == 1)
{
for (int i = 0; i < s.Lives; i++)
{
board[s.Y, s.X + i].type = s.type;
board[s.Y, s.X + i].ship = s;
s.positions.Add(board[s.Y, s.X + i]);
BoardChanged?.Invoke(s.X + i, s.Y);
}
}
}
}
/// <summary>
/// Reverts the <see cref="Game"/> back to the <see cref="LastMove"/>'s state.
/// </summary>
public void Undo()
{
if (!CanUndo)
{
return;
}
Tile removedTile = _history.Pop();
BoardChanging?.Invoke(
this,
new BoardChangingEventArgs(
new Tile[0],
new Tile[] { removedTile }));
removedTile.Piece = new Piece(Pieces.None);
Manager.Turn.MoveBack();
if (IsOver)
{
IsOver = false;
Manager.Turn.ShiftStartBackwards();
}
BoardChanged?.Invoke(
this,
new BoardChangedEventArgs(
new Tile[0],
new Tile[] { removedTile }));
}
protected virtual void OnBoardChange(int i_Row, int i_Column)
{
if (BoardChanged != null)
{
BoardChanged.Invoke(i_Row, i_Column);
}
}
/// <summary>
/// 盤上に駒を配置します。
/// ゲームがすでに終了している場合、指定した位置にすでに駒が置かれている場合は何もしません。
/// </summary>
/// <param name="row">配置する行</param>
/// <param name="column">配置する列</param>
/// <param name="player">配置する駒</param>
public void PutPiece(int row, int column, PlayerForm player)
{
if (GameStatus == GameStatus.Finished)
{
return;
}
if (this.board.BoardStatuses[row, column] != PlayerForm.None)
{
return;
}
this.board.PutPiece(row, column, player);
BoardChanged?.Invoke(this, EventArgs.Empty);
SwitchCurrentPleyer();
(bool isGameEnded, PlayerForm winner) = CheckIfGameEnded(BoardSize, AlignNumber);
if (isGameEnded)
{
this.GameStatus = GameStatus.Finished;
}
this.Winner = winner;
if (isGameEnded)
{
GameEnded.Invoke(this, new GameEndedEventArgs(this.Winner));
}
}
/// <summary>
/// ゲームをリセットします。
/// </summary>
public void ResetGame()
{
this.board.ResetBoard(PlayerForm.None);
CurrentPlayer = PlayerForm.Circle;
CurrentPlayerChanged?.Invoke(this, EventArgs.Empty);
BoardChanged?.Invoke(this, EventArgs.Empty);
this.GameStatus = GameStatus.BeforeStart;
Winner = PlayerForm.None;
}
public void Go(Board board)
{
lock (_locker)
{
if (_board != board)
{
_board = board;
BoardChanged?.Invoke(this, board);
}
}
}
public void PaintTile(float x, float y)
{
if (!EnablePainting)
{
return;
}
var point = new Point(
(int)(x / Board.TileSize.Width),
(int)(y / Board.TileSize.Height));
Board.Tiles[point.X + point.Y * Board.Size.Width] = Tile.Block;
BoardChanged?.Invoke(this, EventArgs.Empty);
}
/// <summary>
/// Sets the current state of the board to the one specified by the data string
/// </summary>
public async void SetByDataString(string dataString, Version boardVersion = null)
{
// Check if the version is provided. If not, assume it is the current version.
if (boardVersion == null)
{
boardVersion = BingoVersion;
}
await InitBoard();
ResetBoard();
BingoGrid.Children.Clear();
// NOTE: When making significant changes to this algorithm,
// don't delete the code. Create an if branch to run the
// previous version of the algorithm.
byte[] tileData = dataString.Replace("\r", String.Empty).Replace("\n", String.Empty).TakeEvery(2)
.Select(s => byte.Parse(s, System.Globalization.NumberStyles.HexNumber)).ToArray();
for (int x = 0; x < 5; x++)
{
for (int y = 0; y < 5; y++)
{
var data = tileData[5 * x + y];
int textIndex = (data >> 1) - 1;
if (textIndex == -1 || (x == 2 && y == 2))
{
// Tile is free space
BingoGrid.Children.Add(GenerateFreeTile());
continue;
}
string text = AllTiles[textIndex];
bool isFilled = (data & 1) == 1;
AddTile(text, isFilled);
}
}
BoardChanged?.Invoke(dataString);
}
public async void ResetBoard()
{
await InitBoard();
// Clear the board of tiles
var items = BingoGrid.Children.ToList();
foreach (UIElement item in items)
{
if (item is ToggleButton)
{
BingoGrid.Children.Remove(item);
}
}
// Randomly choose 24 tiles
var newTiles = GetRandom(AllTiles, 24);
for (int x = 0; x < 5; x++)
{
for (int y = 0; y < 5; y++)
{
// Check if the tile is the free space
if (x == 2 && y == 2)
{
continue;
}
int boardIndex = 5 * x + y;
if (boardIndex > 12)
{
boardIndex--;
}
SetTile(newTiles.ElementAt(boardIndex), x, y);
}
}
BoardChanged?.Invoke(ToDataString());
}
public PlayResponse Play(PlayRequest request)
{
if (currentPlayer == null)
{
return(null);
}
PlayResponse response = currentPlayer.Play(request, victoryValidator);
if (response.IsValidMove)
{
BoardChanged?.Invoke(request.Row, request.Col, currentPlayer.Mark);
if (response.Result != Enums.GameState.Playing)
{
GameOver?.Invoke(response.Result, response.Result == Enums.GameState.Draw ? Enums.MarkType.None : currentPlayer.Mark);
}
currentPlayer = NextPlayer;
}
return(response);
}
private void OnBoardChanged()
{
bool whiteQueenSurrounded = (CountNeighbors(PieceName.WhiteQueenBee) == 6);
bool blackQueenSurrounded = (CountNeighbors(PieceName.BlackQueenBee) == 6);
if (whiteQueenSurrounded && blackQueenSurrounded)
{
BoardState = BoardState.Draw;
}
else if (whiteQueenSurrounded)
{
BoardState = BoardState.BlackWins;
}
else if (blackQueenSurrounded)
{
BoardState = BoardState.WhiteWins;
}
else
{
BoardState = CurrentTurn == 0 ? BoardState.NotStarted : BoardState.InProgress;
}
BoardChanged?.Invoke(this, null);
}
/// <summary>
/// Resets the <see cref="Game"/> to its original state.
/// </summary>
public void Restart()
{
Tile[] history = _history.ToArray();
BoardChanging?.Invoke(
this,
new BoardChangingEventArgs(
new Tile[0],
history));
foreach (Tile tile in _history)
{
tile.Piece = new Piece(Pieces.None);
}
Manager.Turn.Reset();
_history.Clear();
IsOver = false;
BoardChanged?.Invoke(
this,
new BoardChangedEventArgs(
new Tile[0],
history));
}
/// <summary>
/// Raise the BoardChanged event
/// </summary>
/// <param name="board"></param>
protected virtual void OnBoardChanged(TBoard board)
{
BoardChanged?.Invoke(this, board);
}
public PrimaryBoard()
{
TileChanged += (o, e) => BoardChanged?.Invoke(this, new EventArgs());
}
public void RandomFill(int seed, Difficulty diff)
{
if (Populated)
{
tiles = new PrimaryTile[10, 10];
}
Random r = new Random(seed);
CoordSet filled;
int i = 0;
switch (diff)
{
case Difficulty.Easy:
while (i < 5)
{
Ship s = Ship.CreateRandom(r, ClassicShipLengths[i]);
if (TryAddShip(s))
{
i++;
}
}
break;
case Difficulty.Medium:
filled = new CoordSet();
while (i < 5)
{
Ship s = Ship.CreateRandom(r, ClassicShipLengths[i]);
if (filled.Overlaps(s.GetOccupiedArea(0)))
{
continue;
}
filled.Add(s.GetOccupiedArea(1));
TryAddShip(s);
i++;
}
break;
case Difficulty.Hard:
filled = new CoordSet();
var border = new CoordSet();
for (int j = 0; j < 10; j++)
{
border.Add(new CoordPair(0, j));
border.Add(new CoordPair(j, 0));
border.Add(new CoordPair(9, j));
border.Add(new CoordPair(j, 9));
}
while (i < 5)
{
Ship s = Ship.CreateRandom(r, ClassicShipLengths[i]);
var shipArea = s.GetOccupiedArea(0);
if (shipArea.Overlaps(filled))
{
continue;
}
var weakArea = new CoordSet(border);
weakArea.IntersectWith(shipArea);
if (r.NextDouble() < weakArea.Count * 0.4)
{
continue;
}
border.Add(s.GetOccupiedArea(1));
filled.Add(shipArea);
TryAddShip(s);
i++;
}
break;
}
Populated = true;
BoardChanged?.Invoke(this, new EventArgs());
}
/// <summary>
/// Puts a <see cref="Tile"/> corresponding to <see cref="CurrentPlayer"/>
/// and advances the <see cref="Game"/> to the next state. at position
/// <paramref name="x"/>, <paramref name="y"/>.
/// </summary>
/// <param name="x">x-axis position</param>
/// <param name="y">y-axis position</param>
/// <exception cref="ArgumentException"></exception>
public void Play(int x, int y)
{
if (x < 0 || x > Board.Width)
{
throw new ArgumentException("Value is out of range", nameof(x));
}
if (y < 0 || y > Board.Height)
{
throw new ArgumentException("Value is out of range", nameof(y));
}
// Check if game is over
if (IsOver)
{
return;
}
Tile tile = Board[x, y];
// Check for already placed tile
if (tile.Piece.Type != Pieces.None)
{
return;
}
Player oldPlayer = Manager.CurrentPlayer;
tile.Piece = oldPlayer.Piece;
Tile previousTile = LastMove;
_history.Push(tile);
BoardChanging?.Invoke(
this,
new BoardChangingEventArgs(
new Tile[] { tile },
new Tile[0]));
// Check for game over
if (CheckGameOver(x, y, out IList <Tile> winningLine))
{
IsOver = true;
if (ShiftPlayersOnGameOver)
{
Manager.Turn.ShiftStartForwards();
}
}
// Increment turn
Manager.Turn.MoveNext();
BoardChanged?.Invoke(
this,
new BoardChangedEventArgs(
new Tile[] { tile },
new Tile[0]));
if (IsOver)
{
GameOver?.Invoke(
this,
new GameOverEventArgs(
Manager.Turn.Current,
oldPlayer,
winningLine));
}
}
public TrackerBoard()
{
TileChanged += (o, e) => BoardChanged?.Invoke(this, new EventArgs());
}
private void HandleChangedBoard(string fenBoard) => BoardChanged?.Invoke(this, new BoardChangedEventArgs(EditBoard(fenBoard)));