public bool ValidMove(string[] playerTryMove, Piece playerPiece)
{
bool validMove = false;
string startLocation = playerTryMove[2];
string endLocation = playerTryMove[3];
//Take 1 from all because array's start at 0
int startRow = Int32.Parse(playerTryMove[2][1].ToString()) - 1;
int startCol = Int32.Parse(playerTryMove[2][2].ToString()) - 1;
int endRow = Int32.Parse(playerTryMove[3][1].ToString()) - 1;
int endCol = Int32.Parse(playerTryMove[3][2].ToString()) - 1;
if (cells[startRow, startCol].getPiece().Equals(playerPiece) && cells[endRow, endCol].getPiece().Equals(Piece.EMPTY))
{
//Check if cell is movable to
if (moveableCell(cells[startRow, startCol], cells[endRow, endCol]))
{
cells[startRow, startCol].piece = Piece.EMPTY;
cells[endRow, endCol].piece = playerPiece;
validMove = true;
}
}
Debug.WriteLine("start location: " + startLocation);
Debug.WriteLine("end location: " + endLocation);
Debug.WriteLine("start row: " + startRow);
Debug.WriteLine("start col: " + startCol);
Debug.WriteLine("end row: " + endRow);
Debug.WriteLine("end col: " + endCol);
//Check if it the users
return validMove;
}
public void ClickSquare(Square square)
{
if (this.Board == null || !this.Board.IsActive)
return;
var currentPiece = this.SelectedPiece;
var targetPiece = this.Board[square];
if (currentPiece == targetPiece && targetPiece != null)
{
DrawSquare(SelectedPiece.Square, false);
this.SelectedPiece = null;
}
else if (currentPiece != null)
{
DrawSquare(SelectedPiece.Square, false);
this.SelectedPiece = null;
if (this.Board.Move(currentPiece.Square, square, square.IsPromotionSquare() ? typeof(Pieces.Queen) : null))
this.Cursor = Cursors.Arrow;
}
else if (targetPiece != null && targetPiece.Player == this.Board.Turn)
{
if (this.PiecePicked != null)
PiecePicked(square);
this.SelectedPiece = targetPiece;
DrawSquare(square, true);
}
}
// Use this for initialization
void Start()
{
target = null;
Button button = GetComponent<Button> ();
button.onClick.RemoveAllListeners ();
button.onClick.AddListener (() => this.OnButtonClicked ());
}
public void SanityCheck_GivenInsaneDataDueToWrongNumberOfBlackAndWhiteSquares_ReturnsFalse()
{
// Arrange
var board = new Board(TestBoardSize);
var solver = new Solver();
var bogusPieceD = new Piece(
new[]
{
// B
// W
// WW
new Square(0, 0, Colour.White),
new Square(1, 0, Colour.White),
new Square(1, 1, Colour.White),
new Square(1, 2, Colour.Black)
},
'D');
var pieceFeeder = new PieceFeeder(Piece.TestPieceA, Piece.TestPieceB, Piece.TestPieceC, bogusPieceD);
// Act
var actual = solver.SanityCheck(board, pieceFeeder);
// Assert
Assert.That(actual, Is.False);
}
void Start()
{
piece = gameObject.GetComponent<Piece>();
piece.moveDirections = directions;
piece.isRepetitive = false;
piece.isKing = true;
}
public RacingKingsChessGame()
{
WhoseTurn = Player.White;
Moves = new ReadOnlyCollection<DetailedMove>(new List<DetailedMove>());
Board = new Piece[8][];
Piece kb = FenMappings['k'];
Piece qb = FenMappings['q'];
Piece rb = FenMappings['r'];
Piece nb = FenMappings['n'];
Piece bb = FenMappings['b'];
Piece kw = FenMappings['K'];
Piece qw = FenMappings['Q'];
Piece rw = FenMappings['R'];
Piece bw = FenMappings['B'];
Piece nw = FenMappings['N'];
Piece o = null;
Board = new Piece[8][]
{
new[] { o, o, o, o, o, o, o, o },
new[] { o, o, o, o, o, o, o, o },
new[] { o, o, o, o, o, o, o, o },
new[] { o, o, o, o, o, o, o, o },
new[] { o, o, o, o, o, o, o, o },
new[] { o, o, o, o, o, o, o, o },
new[] { kb, rb, bb, nb, nw, bw, rw, kw },
new[] { qb, rb, bb, nb, nw, bw, rw, qw }
};
CanBlackCastleKingSide = CanBlackCastleQueenSide = CanWhiteCastleKingSide = CanWhiteCastleQueenSide = false;
}
public void TestExplosions()
{
Piece[][] board = new Piece[8][]
{
new Piece[8] { o, o, o, o, kb, o, o, o },
new Piece[8] { o, o, o, o, o, o, o, o },
new Piece[8] { o, o, o, o, o, o, o, o },
new Piece[8] { o, o, o, pw, qb, o, o, o },
new Piece[8] { o, o, o, bw, pb, o, o, o },
new Piece[8] { o, o, o, o, o, o, nw, o },
new Piece[8] { o, o, o, o, o, o, o, o },
new Piece[8] { o, o, o, o, kw, o, o, o }
};
AtomicChessGame game = new AtomicChessGame(board, Player.White);
Assert.AreEqual(game.ApplyMove(new Move("G3", "E4", Player.White), true), MoveType.Move | MoveType.Capture);
Piece[][] expected = new Piece[8][]
{
new Piece[8] { o, o, o, o, kb, o, o, o },
new Piece[8] { o, o, o, o, o, o, o, o },
new Piece[8] { o, o, o, o, o, o, o, o },
new Piece[8] { o, o, o, pw, o, o, o, o },
new Piece[8] { o, o, o, o, o, o, o, o },
new Piece[8] { o, o, o, o, o, o, o, o },
new Piece[8] { o, o, o, o, o, o, o, o },
new Piece[8] { o, o, o, o, kw, o, o, o }
};
Piece[][] actual = game.GetBoard();
Assert.AreEqual(expected, actual);
}
public int HowManyBeersAreDrunk(Piece side)
{
int r = rand.Next(40);
if (r > 38)
return 1;
return 0;
}
public HordeChessGame() : base()
{
WhoseTurn = Player.White;
Moves = new ReadOnlyCollection<DetailedMove>(new List<DetailedMove>());
Board = new Piece[8][];
Piece kb = FenMappings['k'];
Piece qb = FenMappings['q'];
Piece rb = FenMappings['r'];
Piece nb = FenMappings['n'];
Piece bb = FenMappings['b'];
Piece pw = FenMappings['P'];
Piece pb = FenMappings['p'];
Piece o = null;
Board = new Piece[8][]
{
new[] { rb, nb, bb, qb, kb, bb, nb, rb },
new[] { pb, pb, pb, pb, pb, pb, pb, pb },
new[] { o, o, o, o, o, o, o, o },
new[] { o, pw, pw, o, o, pw, pw, o },
new[] { pw, pw, pw, pw, pw, pw, pw, pw },
new[] { pw, pw, pw, pw, pw, pw, pw, pw },
new[] { pw, pw, pw, pw, pw, pw, pw, pw },
new[] { pw, pw, pw, pw, pw, pw, pw, pw }
};
CanBlackCastleKingSide = CanBlackCastleQueenSide = CastlingCanBeLegal;
CanWhiteCastleKingSide = CanWhiteCastleQueenSide = false;
}
public Move(string originalPosition, string newPosition, Player player, Piece promotion)
{
OriginalPosition = new Position(originalPosition);
NewPosition = new Position(newPosition);
Player = player;
Promotion = promotion;
}
/// <summary>
/// Storage class for row and column, does not restric the value of the input,
/// expects consuming class to validate appropriate row/column value
/// </summary>
/// <param name="row"></param>
/// <param name="column"></param>
/// <param name="piece"></param>
public BoardPosition(int row, int column, Piece piece)
{
this.Row = row;
this.Column = column;
this.Piece = piece;
this.Piece.SetPosition(this.Row, this.Column);
}
public void Add(Piece piece, List<Piece> same)
{
//Debug.LogWarning ("History Add");
//string kanji = piece.Kanji;
//Vector2 pos = piece.Tile;
if (max > 0)
return;
bool isFirst = piece.Owner.IsFirst;
string addition = "";
if (same != null) {
if(same.Count == 1) {
if(same[0].Tile.x < piece.Tile.x) {
addition += isFirst ? "左" : "右";
}
if(same[0].Tile.x > piece.Tile.x) {
addition += !isFirst ? "左" : "右";
}
}
}
HistoryInfo info = new HistoryInfo (index++, piece, addition);
//HistoryInfo info = new HistoryInfo (index++, kanji, pos, isFirst, addition);
moves.Add (info);
}
public Move(Position originalPosition, Position newPosition, Player player, Piece promotion)
{
OriginalPosition = originalPosition;
NewPosition = newPosition;
Player = player;
Promotion = promotion;
}
public void Occupy(Piece piece)
{
occupied = true;
currentPiece = piece;
// TODO: set sprite based on type
}
private void CreateRandomPieceAtStartPoint()
{
int randomType = UnityEngine.Random.Range(0, PieceTypes.Count);
switch (randomType)
{
case 0:
PlayerControlledPiece = Piece.Create<Bar>();
break;
case 1:
PlayerControlledPiece = Piece.Create<InverseL>();
break;
case 2:
PlayerControlledPiece = Piece.Create<L>();
break;
case 3:
PlayerControlledPiece = Piece.Create<S>();
break;
case 4:
PlayerControlledPiece = Piece.Create<Square>();
break;
case 5:
PlayerControlledPiece = Piece.Create<Tri>();
break;
case 6:
PlayerControlledPiece = Piece.Create<Z>();
break;
}
}
public Sprite GetPieceImage(Piece piece)
{
if(piece == null)
return pieceInfo.blankImage;
else
return pieceInfo.imageDict[piece];
}
private void AnimateMovement(Piece toMove, float time)
{
//animate it
//Lerp could also be used, but I prefer the MoveTowards approach :)
toMove.GameObject.transform.position = Vector2.MoveTowards(toMove.GameObject.transform.position,
screenPositionToAnimate , time * AnimSpeed);
}
public void Init(Piece piece)
{
if (!IsShowing)
return;
Sprite promoted = piece.GetPromotedSprite ();
RectTransform rect;
Image image = piece.GetComponent<Image> ();
Sprite cancel = image.sprite;
image = promoteButton.GetComponent<Image> ();
image.sprite = promoted;
if (!piece.Owner.IsFirst) {
rect = promoteButton.GetComponent<RectTransform> ();
rect.Rotate (0, 0, 180f);
}
image = cancelButton.GetComponent<Image> ();
image.sprite = cancel;
if (!piece.Owner.IsFirst) {
rect = cancelButton.GetComponent<RectTransform> ();
rect.Rotate (0, 0, 180f);
}
promoteButton.onClick.RemoveAllListeners ();
promoteButton.onClick.AddListener (() => {
piece.Promote ();
Close ();
});
cancelButton.onClick.RemoveAllListeners ();
cancelButton.onClick.AddListener (() => this.Close ());
gameObject.SetActive (true);
}
public int SelectMove(Situation situation, Move[] moves, Piece side, int roll)
{
Move[] c = new Move[moves.Length];
Array.Copy(moves, c, moves.Length);
Array.Sort<Move>(c, CompareMoves);
return Array.IndexOf<Move>(moves, c[0]);
}
public DetailedMove(Position originalPosition, Position newPosition, Player player, char? promotion, Piece piece, bool isCapture, CastlingType castling) :
base(originalPosition, newPosition, player, promotion)
{
Piece = piece;
IsCapture = isCapture;
Castling = castling;
}
public Piece(Piece old)
{
properties = new List<PropertyValuePair>();
foreach(PropertyValuePair pair in old.properties) {
properties.Add(new PropertyValuePair(pair.property, pair.value));
}
}
public void Print_GivenBoardContainingASinglePiece_PrintsRowDataCorrectly()
{
// Arrange
var squares =
new[]
{
// WBW
new Square(0, 0, Colour.White),
new Square(1, 0, Colour.Black),
new Square(2, 0, Colour.White)
};
var piece = new Piece(squares, 'A');
_board.PlacePieceAt(piece, 0, 0);
var expectedLineForEmptyRow = CreateExpectedLineForEmptyRow();
var expectedLastLine = "| Aw | Ab | Aw ";
for (int i = 3; i < _board.BoardSize; i++) {
expectedLastLine += "|";
expectedLastLine += new string(' ', 4);
}
expectedLastLine += "|";
// Act
_boardPrinter.Print(_board);
// Assert
Assert.That(_mockPrintTarget.Lines, Has.Length.EqualTo(_expectedNumberOfOutputLines));
Assert.That(_mockPrintTarget.Lines[1], Is.EqualTo(expectedLineForEmptyRow));
Assert.That(_mockPrintTarget.Lines[3], Is.EqualTo(expectedLineForEmptyRow));
Assert.That(_mockPrintTarget.Lines[5], Is.EqualTo(expectedLineForEmptyRow));
Assert.That(_mockPrintTarget.Lines[7], Is.EqualTo(expectedLastLine));
}
public static void addPiece(Piece [] pieces)
{
foreach (Piece p in pieces)
{
positions.Add(p);
}
}
public void DetachPiece(){
if (attachedPiece!=null){
attachedPiece.transform.parent = null;
attachedPiece = null;
state = TileState.empty;
}
}
public bool startTurn()
{
iteration++;
int count = 0;
count = Client.getMoveCount(connection);
moves = new Move[count];
for(int i = 0; i < count; i++)
{
moves[i] = new Move(Client.getMove(connection, i));
}
count = Client.getPieceCount(connection);
pieces = new Piece[count];
for(int i = 0; i < count; i++)
{
pieces[i] = new Piece(Client.getPiece(connection, i));
}
count = Client.getPlayerCount(connection);
players = new Player[count];
for(int i = 0; i < count; i++)
{
players[i] = new Player(Client.getPlayer(connection, i));
}
if(!initialized)
{
initialized = true;
init();
}
return run();
}
//returns a list of pieces on the current opening
public static Pieces GetPieces(int pageNumber)
{
var pieces = new Pieces();
try
{
//gets the xelements representing the two pages of the opening (e.g. 1r, 2v)
XElement root = SurfaceWindow1.xOldFr.Root;
string verso = "#" + (pageNumber-2).ToString() + "v";
string recto = "#" + (pageNumber-1).ToString() + "r";
IEnumerable<XElement> pages =
from el in root.Descendants("pb")
where ((string)el.Attribute("facs") == verso || el.Attribute("facs").Value == recto)
select el;
//adds the pieces on each page to the pieceList
foreach (XElement page in pages)
{
//var foo = page.Attribute("facs");
IEnumerable<XElement> pieceElements =
from el in page.Elements("p")
select el; //.Attribute("id").Value;
foreach (XElement p in pieceElements)
{
var piece = new Piece(p);
pieces.Add(piece.ID,piece);
}
}
}
catch (Exception e)
{
MessageBox.Show(e.Message);
}
return pieces;
}
public void Reset(){
state = TileState.empty;
if(attachedPiece!=null){
attachedPiece.Fall(attachedPiece.transform.position.normalized * 4 + new Vector3(0,8,0));
attachedPiece=null;
}
}
public bool CheckTileHeightDiffFromOutsidePlayerZone(Piece selectedPiece,int numPlayers)
{
if(numPlayers <=2 ){
if(selectedPiece.tile.posOnBoard == 2 || selectedPiece.tile.posOnBoard == 7)
{
diff1 = Math.Abs(selectedPiece.tile.tileHeight - (this.tiles[0].tileHeight));
return (diff1 < 3);
}
else if(selectedPiece.tile.posOnBoard == 1)
{
diff1 = Math.Abs(selectedPiece.tile.tileHeight - (this.tiles[1].tileHeight));
diff2 = Math.Abs(selectedPiece.tile.tileHeight - this.tiles[6].tileHeight);
diff3 = Math.Abs(selectedPiece.tile.tileHeight - this.tiles[36].tileHeight);
return (diff1 < 3 && diff2 < 3 && diff3 < 3);
}
else if(selectedPiece.tile.posOnBoard == 37){
diff1 = Math.Abs(selectedPiece.tile.tileHeight - (this.tiles[0].tileHeight));
return (diff1 < 3);
}
else{
return true;
}
}
return true;
}
public Board(int d)
{
PossibleMovesNum = 1;
needsRefreshModel = false;
AlphaBetaMaxDepth = Constants.MAXDEPTH;
pieceMatrix = new List<List<Piece>>();
CurrentTurn = 0;
for (int i = 0; i < d; i++)
{
List<Piece> temp = new List<Piece>();
for (int j = 0; j < d; j++)
{
Piece tempPiece = new Piece(new Vector2(i, j));
temp.Add(tempPiece);
}
pieceMatrix.Add(temp);
}
StartingMoves = new List<Vector2>();
StartingMoves.Add(new Vector2(1, 1));
StartingMoves.Add(new Vector2(1, boardSize - 2));
StartingMoves.Add(new Vector2(boardSize - 2, 1));
StartingMoves.Add(new Vector2(boardSize - 2, boardSize - 2));
StartingMoves.Add(new Vector2((boardSize - 1) / 2, (boardSize - 1) / 2));
}
public Move(Piece promoteTo, Coordinate from, Coordinate to)
{
m_moveType = MoveType.Promotion;
m_promoteTo = promoteTo;
m_from = from;
m_to = to;
}
protected virtual void OnDidTriggerPiece(Piece piece)
{
DidTriggerPiece?.Invoke(piece);
}
/// <summary>
/// Initializes a new instance of the <see cref="PieceKnight"/> class.
/// </summary>
/// <param name="pieceBase">
/// The piece base.
/// </param>
public PieceKnight(Piece pieceBase)
{
this.Base = pieceBase;
}
public override void MakeMove(Board board)
{
Piece.MoveTo(board, To);
}
public Ordinary(Board board, Piece piece, Coordinate to)
: base(piece)
{
To = to;
CapturedPiece = To.GetPiece(board);
}
public Player(Piece i_Symbol, string io_PlayerName)
{
r_PlayerName = io_PlayerName;
m_Score = 0;
r_Symbol = i_Symbol;
}
private bool existEnemy(Position pos)
{
Piece p = board.piece(pos);
return(p != null && p.color == Color.Black);
}
private bool canMove(Position pos)
{
Piece p = board.piece(pos);
return(p == null || p.color != color);
}
private void TryMove(int x1, int y1, int x2, int y2)
{
hasKilled = false;
forcedPieces = ScanForPossibleKill();
// Multiplayer Support !!
startDrag = new Vector2(x1, y1);
endDrag = new Vector2(x2, y2);
selectedPiece = pieces[x1, y1];
// Check out of bounds
if (x2 < 0 || x2 >= 8 || y2 < 0 || y2 >= 8)
{
if (selectedPiece != null)
{
MovePiece(selectedPiece, x1, y1);
}
selectedPiece = null;
startDrag = Vector2.zero;
return;
}
if (selectedPiece != null)
{
// Not moved
if (endDrag == startDrag)
{
MovePiece(selectedPiece, x1, y1);
selectedPiece = null;
startDrag = Vector2.zero;
return;
}
// Check for valid move
if (selectedPiece.ValidMove(pieces, x1, y1, x2, y2))
{
// Valid move && Kill?
if (Mathf.Abs(x1 - x2) == 2)
{
// remove killed piece
Piece p = pieces[(x1 + x2) / 2, (y1 + y2) / 2];
DestroyImmediate(p.gameObject);
hasKilled = true;
}
// Supposed to kill something?
if (forcedPieces.Count != 0 && !hasKilled)
{
MovePiece(selectedPiece, x1, y1);
selectedPiece = null;
startDrag = Vector2.zero;
return;
}
pieces[x2, y2] = selectedPiece;
pieces[x1, y1] = null;
MovePiece(selectedPiece, x2, y2);
movedPiece = selectedPiece;
if (Client.Instance)
{
string m = $"{x1}|{y1}|{x2}|{y2}";
Client.Instance.Send(1, m);
EndTurn();
}
}
else
{
MovePiece(selectedPiece, x1, y1);
selectedPiece = null;
startDrag = Vector2.zero;
}
}
}
public void TryMove(int x1, int y1, int x2, int y2)
{
forcedPieces = ScanForPossibleMove();
// Multiplayer support
startDrag = new Vector2(x1, y1);
endDrag = new Vector2(x2, y2);
selectedPiece = pieces[x1, y1];
// Out of bounds
if (x2 < 0 || x2 >= 8 || y2 < 0 || y2 >= 8)
{
if (selectedPiece != null)
{
MovePiece(selectedPiece, x1, y1);
}
startDrag = Vector2.zero;
selectedPiece = null;
Highlight();
return;
}
if (selectedPiece != null)
{
// If it has not moved
if (endDrag == startDrag)
{
MovePiece(selectedPiece, x1, y1);
startDrag = Vector2.zero;
selectedPiece = null;
Highlight();
return;
}
// Check if it's a valid move
if (selectedPiece.ValidMove(pieces, x1, y1, x2, y2))
{
// Did we kill anything
// If this is a jump
if (Mathf.Abs(x2 - x1) == 2)
{
Piece p = pieces[(x1 + x2) / 2, (y1 + y2) / 2];
if (p != null)
{
pieces[(x1 + x2) / 2, (y1 + y2) / 2] = null;
DestroyImmediate(p.gameObject);
hasKilled = true;
}
}
// Were we supposed to kill anything?
if (forcedPieces.Count != 0 && !hasKilled)
{
MovePiece(selectedPiece, x1, y1);
startDrag = Vector2.zero;
selectedPiece = null;
Highlight();
return;
}
pieces[x2, y2] = selectedPiece;
pieces[x1, y1] = null;
MovePiece(selectedPiece, x2, y2);
EndTurn();
}
else
{
MovePiece(selectedPiece, x1, y1);
startDrag = Vector2.zero;
selectedPiece = null;
Highlight();
return;
}
}
}
/**
* Tranform position based on
* board offset, peice offset and even/odd row (tile color)
*/
private void MovePiece(Piece p, int x, int y)
{
p.transform.position = (Vector3.right * x) + (Vector3.forward * y) + boardOffset + pieceOffset;
}
public void MovePiece(Piece piece)
{
piece.Move(piece.DiceRolls.Sum());
}
private void EndTurn()
{
int x = (int)endDrag.x;
int y = (int)endDrag.y;
// Promotion
if (selectedPiece != null)
{
if (selectedPiece.isWhite && !selectedPiece.isKing && y == 7)
{
selectedPiece.isKing = true;
selectedPiece.GetComponentInChildren <Animator>().SetTrigger("FlipTrigger");
// selectedPiece.transform.Rotate(Vector3.right * 180);
}
else if (!selectedPiece.isWhite && !selectedPiece.isKing && y == 0)
{
selectedPiece.isKing = true;
selectedPiece.GetComponentInChildren <Animator>().SetTrigger("FlipTrigger");
// selectedPiece.transform.Rotate(Vector3.right * 180);
}
}
if (client)
{
string msg = "CMOV|";
msg += startDrag.x.ToString() + "|";
msg += startDrag.y.ToString() + "|";
msg += endDrag.x.ToString() + "|";
msg += endDrag.y.ToString();
client.Send(msg);
}
selectedPiece = null;
startDrag = Vector2.zero;
if (ScanForPossibleMove(selectedPiece, x, y).Count != 0 && hasKilled)
{
return;
}
isWhiteTurn = !isWhiteTurn;
hasKilled = false;
CheckVictory();
if (!gameIsOver)
{
if (!client)
{
isWhite = !isWhite;
if (isWhite)
{
Alert("White player's turn");
}
else
{
Alert("Black player's turn");
}
}
else
{
if (isWhite)
{
Alert(client.players[0].name + "'s turn");
}
else
{
Alert(client.players[1].name + "'s turn");
}
}
}
ScanForPossibleMove();
}
private static bool IsMasterOnOpposingTempleSquare(Piece piece)
{
return(piece.Type == PieceTypeEnum.MasterPawn && piece.PositionOnBoard.IsEqualTo(TemplePosition(Opponent(piece.Owner))));
}
public static void RepairNearby(Player instance, ItemDrop.ItemData toolItem, Piece _1)
{
Piece selected_piece = instance.GetHoveringPiece();
Vector3 position = selected_piece != null ? selected_piece.transform.position : instance.transform.position;
List <Piece> pieces = new List <Piece>();
Piece.GetAllPiecesInRadius(position, Plugin.AreaRepairRadius.Value, pieces);
RepairCount = 0;
ref Piece ___m_hoveringPiece = ref field_Player_m_hoveringPiece.Invoke(instance);
/// <summary>
/// Determines if anyone has won yet.
/// </summary>
///
/// <param name="isTie">Set to 'true' if there was a tie.</param>
///
/// <returns>The piece that won, or Piece.empty if no one has won yet.</returns>
private Piece checkForWin(out bool isTie)
{
// A closure that checks 3 spaces on the board, and returns true if they all are the 'p' piece.
Func <uint, uint, uint, Piece, bool> check = null;
check = delegate(uint i1, uint i2, uint i3, Piece p)
{
return(this._board[i1] == p &&
this._board[i2] == p &&
this._board[i3] == p);
};
// Default isTie to false.
isTie = false;
// For both X and O, check all the possible win positions.
var pieces = new Piece[] { Board.Piece.X, Board.Piece.O };
foreach (var piece in pieces)
{
if (check(0, 1, 2, piece))
{
return(piece); // Top row
}
if (check(3, 4, 5, piece))
{
return(piece); // Middle row
}
if (check(6, 7, 8, piece))
{
return(piece); // Bottom row
}
if (check(0, 4, 8, piece))
{
return(piece); // Top left to bottom right, and vice-versa
}
if (check(2, 4, 6, piece))
{
return(piece); // Top right to bottom left, and vice-versa
}
if (check(0, 3, 6, piece))
{
return(piece); // Top left to bottom left, and vice-versa
}
if (check(1, 4, 7, piece))
{
return(piece); // Top middle to bottom middle, and vice-versa
}
if (check(2, 5, 8, piece))
{
return(piece); // Top right to bottom right, and vice-versa
}
}
// If there are no empty spaces, and the above checks didn't make the function return, then we've tied.
var emptyCount = this._board.Count(p => p == Piece.Empty);
isTie = (emptyCount == 0);
return(Piece.Empty);
}
private static int GetValue(Piece p, PlayerIdentityEnum maximizingPlayer)
{
int value = p.Type == PieceTypeEnum.MasterPawn ? 100 : 10;
return(p.Owner == maximizingPlayer ? value : -value);
}
public Move(int fromIndex, int toIndex)
{
FromSquare = (byte)fromIndex;
ToSquare = (byte)toIndex;
Promotion = Piece.None;
}
public DrawSquareCommand(Point coord, Piece piece)
{
this.coord = coord;
this.piece = piece;
}
public static List <Field> GetAccessibleFieldsRook(Board board, Piece piece)
{
var list = new List <Field>();
var field = piece.Field;
var affiliation = piece.Affiliation;
var fields = board.Fields;
var x = field.X;
var y = field.Y;
for (var i = x + 1; i < board.Width; i++)
{
var nField = fields[i, y];
var nPiece = nField.Piece;
if (nPiece == null)
{
list.Add(nField);
continue;
}
if (nPiece.Affiliation != affiliation)
{
list.Add(nField);
}
break;
}
for (var i = x - 1; i >= 0; i--)
{
var nField = fields[i, y];
var nPiece = nField.Piece;
if (nPiece == null)
{
list.Add(nField);
continue;
}
if (nPiece.Affiliation != affiliation)
{
list.Add(nField);
}
break;
}
for (var i = y + 1; i < board.Height; i++)
{
var nField = fields[x, i];
var nPiece = nField.Piece;
if (nPiece == null)
{
list.Add(nField);
continue;
}
if (nPiece.Affiliation != affiliation)
{
list.Add(nField);
}
break;
}
for (var i = y - 1; i >= 0; i--)
{
var nField = fields[x, i];
var nPiece = nField.Piece;
if (nPiece == null)
{
list.Add(nField);
continue;
}
if (nPiece.Affiliation != affiliation)
{
list.Add(nField);
}
break;
}
return(list);
}
public Move(int fromIndex, int toIndex, Piece promotion)
{
FromSquare = (byte)fromIndex;
ToSquare = (byte)toIndex;
Promotion = promotion;
}
protected bool IsValidCaptureMove(Vector3Int point, ref Piece enCounterPiece)
{
enCounterPiece = boardManager.GetPieceAt(point);
return((enCounterPiece == null) || (enCounterPiece != null && enCounterPiece.team != this.team));
}
public List <PossibleMove> DefineAllPossibleMoves()
{
List <PossibleMove> possibleMoves = new List <PossibleMove>();
for (int i = 0; i < GameManager.instance.board.pieces.Count; i++)
{
Piece piece = GameManager.instance.board.pieces[i];
if (piece.isDead)
{
continue;
}
// Debug.Log("Piece team : "+piece.team);
// Debug.Log("GameManager team : "+GameManager.instance.teamToPlay);
if (piece.team == GameManager.instance.teamToPlay)
{
GameManager.instance.SetCellsNonPlayable();
GameManager.instance.CalculatePlayableOrAttackedCells(piece, true, false);
// GameManager.instance.CalculatePlayableOrAttackedCells(piece,true,false);
for (int col = 0; col < 8; col++)
{
for (int line = 0; line < 8; line++)
{
if (GameManager.instance.GetCell(col, line).GetIsPlayable())
{
if (piece.name == "Pawn" && ((piece.line == 0) || (piece.line == 7))) //Si promotion du pion
{
PossibleMove possibleMoveQueen = new PossibleMove();
possibleMoveQueen.cellWherePieceCanMove = GameManager.instance.GetCell(col, line);
possibleMoveQueen.piece = piece;
possibleMoveQueen.nameOfPieceToBecome = "Queen";
possibleMoves.Add(possibleMoveQueen);
PossibleMove possibleMoveTower = new PossibleMove();
possibleMoveTower.cellWherePieceCanMove = GameManager.instance.GetCell(col, line);
possibleMoveTower.piece = piece;
possibleMoveTower.nameOfPieceToBecome = "Tower";
possibleMoves.Add(possibleMoveTower);
PossibleMove possibleMoveBishop = new PossibleMove();
possibleMoveBishop.cellWherePieceCanMove = GameManager.instance.GetCell(col, line);
possibleMoveBishop.piece = piece;
possibleMoveBishop.nameOfPieceToBecome = "Bishop";
possibleMoves.Add(possibleMoveBishop);
PossibleMove possibleMoveKnight = new PossibleMove();
possibleMoveKnight.cellWherePieceCanMove = GameManager.instance.GetCell(col, line);
possibleMoveKnight.piece = piece;
possibleMoveKnight.nameOfPieceToBecome = "Knight";
possibleMoves.Add(possibleMoveKnight);
}
else
{
PossibleMove possibleMove = new PossibleMove();
possibleMove.cellWherePieceCanMove = GameManager.instance.GetCell(col, line);
possibleMove.piece = piece;
possibleMoves.Add(possibleMove);
}
}
}
}
}
}
return(possibleMoves);
}
public bool IsSame(Piece other)
{
return(this.team == other.team && this.GetType() == other.GetType());
}
public static List <Field> GetAccessibleFieldsKing(Board board, Piece piece)
{
var list = new List <Field>();
var player = piece.Player;
var field = piece.Field;
var affiliation = piece.Affiliation;
var fields = board.Fields;
var x = field.X;
var y = field.Y;
var dX = new[] { 0, -1, -1, -1, 0, 1, 1, 1 };
var dY = new[] { 1, 1, 0, -1, -1, -1, 0, 1 };
var attackedFields = board.GetAttackedFields(player, true);
for (var i = 0; i < 8; i++)
{
var nX = x + dX[i];
var nY = y + dY[i];
if (nX < 0 || nY < 0 || nX >= board.Width || nY >= board.Height)
{
continue;
}
var nField = fields[nX, nY];
var nPiece = nField.Piece;
if (nPiece == null || nPiece.Affiliation != affiliation)
{
if (attackedFields.Contains(nField))
{
continue;
}
list.Add(nField);
}
}
if (player.MayCastleLong)
{
var field1 = field;
var field2 = fields[x - 1, y];
var field3 = fields[x - 2, y];
if (!(attackedFields.Contains(field1) ||
attackedFields.Contains(field2) ||
attackedFields.Contains(field3)))
{
if (field2.Piece == null && field3.Piece == null)
{
list.Add(field3);
}
}
}
if (player.MayCastleShort)
{
var field1 = field;
var field2 = fields[x + 1, y];
var field3 = fields[x + 2, y];
if (!(attackedFields.Contains(field1) ||
attackedFields.Contains(field2) ||
attackedFields.Contains(field3)))
{
if (field2.Piece == null && field3.Piece == null)
{
list.Add(field3);
}
}
}
return(list);
}
public bool ValidMove(Piece[,] board, int x1, int y1, int x2, int y2)
{
//If you moving on top of a other piece
if (board[x2, y2] != null)
{
return(false);
}
//Get amout of boxes moved
int deltaMove = Mathf.Abs(x1 - x2);
int deltaMoveY = y2 - y1;
if (isWhite || isKing)
{
//If piece moves 1 box
if (deltaMove == 1)
{
if (deltaMoveY == 1)
{
return(true);
}
}
//If piece moves 2 boxes
else if (deltaMove == 2)
{
if (deltaMoveY == 2)
{
Piece p = board[(x1 + x2) / 2, (y1 + y2) / 2];
if (p != null && p.isWhite != isWhite)
{
return(true);
}
}
}
}
if (!isWhite || isKing)
{
//If piece moves 1 box
if (deltaMove == 1)
{
if (deltaMoveY == -1)
{
return(true);
}
}
//If piece moves 2 boxes
else if (deltaMove == 2)
{
if (deltaMoveY == -2)
{
Piece p = board[(x1 + x2) / 2, (y1 + y2) / 2];
if (p != null && p.isWhite != isWhite)
{
return(true);
}
}
}
}
return(false);
}
public bool IsSameId(Piece other)
{
return(this.gameObject.GetInstanceID() == other.gameObject.GetInstanceID());
}
public CastleMove(Field oldfieldrook, Field newfieldrook, Piece rook, Field oldfieldking, Field newfieldking, Piece king, bool check, bool mate)
: base(oldfieldking, newfieldking, king, check, mate)
{
if (oldfieldrook == null)
{
throw new ArgumentNullException("oldfieldrook must not be null");
}
if (newfieldrook == null)
{
throw new ArgumentNullException("newfieldrook must not be null");
}
if (rook == null)
{
throw new ArgumentNullException("rook must not be null");
}
var nXR = newfieldrook.X;
var oXR = oldfieldrook.X;
Kingside = Math.Abs(nXR - oXR) == 2;
OldfieldRook = oldfieldrook;
NewfieldRook = newfieldrook;
Rook = rook;
}
public bool IsFocedToMove(Piece[,] board, int x, int y)
{
if (isWhite || isKing)
{
//Top left
if (x >= 2 && y <= 5)
{
Piece p = board [x - 1, y + 1];
//If there is a piece, and its not the same color
if (p != null && p.isWhite != isWhite)
{
//Check if its possible to land after the jump
if (board [x - 2, y + 2] == null)
{
return(true);
}
}
}
//Top right
if (x <= 5 && y <= 5)
{
Piece p = board [x + 1, y + 1];
//If there is a piece, and its not the same color
if (p != null && p.isWhite != isWhite)
{
//Check if its possible to land after the jump
if (board [x + 2, y + 2] == null)
{
return(true);
}
}
}
}
if (!isWhite || isKing)
{
//Bottom left
if (x >= 2 && y >= 2)
{
Piece p = board [x - 1, y - 1];
//If there is a piece, and its not the same color
if (p != null && p.isWhite != isWhite)
{
//Check if its possible to land after the jump
if (board [x - 2, y - 2] == null)
{
return(true);
}
}
}
//Bottom right
if (x <= 5 && y >= 2)
{
Piece p = board [x + 1, y - 1];
//If there is a piece, and its not the same color
if (p != null && p.isWhite != isWhite)
{
//Check if its possible to land after the jump
if (board [x + 2, y - 2] == null)
{
return(true);
}
}
}
}
return(false);
}
public CastleMove(Field oldfieldrook, Field newfieldrook, Piece rook, Field oldfieldking, Field newfieldking, Piece king, bool check)
: this(oldfieldrook, newfieldrook, rook, oldfieldking, newfieldking, king, check, false)
{
}
public override List <Coord> GetUsuableCoordinates(Coord PieceCoord, Piece[,] Board)
{
List <Coord> Coords = new List <Coord>();
Color adversaire = Color.White;
if (color == Color.White)
{
adversaire = Color.Black;
}
int a = 1;
//Le fou vas en haut a droite
Piece PieceCaseAtk1 = Board[PieceCoord.x + a, PieceCoord.y + a];
while (PieceCaseAtk1 == null && PieceCoord.x < 8 && PieceCoord.y < 8 && PieceCoord.x >= 0 && PieceCoord.y >= 0)
{
Coords.Add(new Coord(PieceCoord.x + a, PieceCoord.y + a));
a++;
}
if (PieceCaseAtk1 != null && PieceCaseAtk1.color == adversaire && PieceCoord.x < 8 && PieceCoord.y < 8 && PieceCoord.x >= 0 && PieceCoord.y >= 0)
{
Coords.Add(new Coord(PieceCoord.x + a, PieceCoord.y + a));
a = 1;
//reset a à 1
}
else
{
a = 1;
}
//Le fou va en haut a gauche
Piece PieceCaseAtk2 = Board[PieceCoord.x - a, PieceCoord.y + a];
while (PieceCaseAtk2 == null && PieceCoord.x < 8 && PieceCoord.y < 8 && PieceCoord.x >= 0 && PieceCoord.y >= 0)
{
Coords.Add(new Coord(PieceCoord.x - a, PieceCoord.y + a));
a++;
}
if (PieceCaseAtk2 != null && PieceCaseAtk2.color == adversaire && PieceCoord.x < 8 && PieceCoord.y < 8 && PieceCoord.x >= 0 && PieceCoord.y >= 0)
{
Coords.Add(new Coord(PieceCoord.x - a, PieceCoord.y + a));
a = 1;
//reset a à 1
}
else
{
a = 1;
}
//Le fou va en bas a droite
Piece PieceCaseAtk3 = Board[PieceCoord.x + a, PieceCoord.y - a];
while (PieceCaseAtk3 == null && PieceCoord.x < 8 && PieceCoord.y < 8 && PieceCoord.x >= 0 && PieceCoord.y >= 0)
{
Coords.Add(new Coord(PieceCoord.x + a, PieceCoord.y - a));
a++;
}
if (PieceCaseAtk3 != null && PieceCaseAtk3.color == adversaire && PieceCoord.x < 8 && PieceCoord.y < 8 && PieceCoord.x >= 0 && PieceCoord.y >= 0)
{
Coords.Add(new Coord(PieceCoord.x + a, PieceCoord.y - a));
a = 1;
//reset a à 1
}
else
{
a = 1;
}
//Le fou va en bas a gauche
Piece PieceCaseAtk4 = Board[PieceCoord.x - a, PieceCoord.y - a];
while (PieceCaseAtk4 == null && PieceCoord.x < 8 && PieceCoord.y < 8 && PieceCoord.x >= 0 && PieceCoord.y >= 0)
{
Coords.Add(new Coord(PieceCoord.x - a, PieceCoord.y - a));
a++;
}
if (PieceCaseAtk4 != null && PieceCaseAtk4.color == adversaire && PieceCoord.x < 8 && PieceCoord.y < 8 && PieceCoord.x >= 0 && PieceCoord.y >= 0)
{
Coords.Add(new Coord(PieceCoord.x - a, PieceCoord.y - a));
a = 1;
//reset a à 1
}
else
{
a = 1;
}
return(Coords);
}
