/* * Removes illegal moves from the given move list * The move list contains psuedo-legal moves * This removes the moves that don't defend from check positions */ public static ArrayList removeIllegalMoves(Position position, ArrayList moveList) { ArrayList finalList = new ArrayList(); UnMakeInfo moveInfo = new UnMakeInfo(); int moveListCount = moveList.Count; for (int i = 0; i < moveListCount; i++) { Move move = (Move)moveList[i]; position.makeMove(move, moveInfo); position.setWhiteMove(!position.whiteMove); if (!inCheck(position)) { finalList.Add(move); } position.setWhiteMove(!position.whiteMove); position.unMakeMove(move, moveInfo); } return finalList; }
/* * Parse a FEN string and return a position object */ public static Position convertFENToPosition(String fen) { Position position = new Position(); String[] terms = fen.Split(' '); if (terms.Length < 2) { System.Console.WriteLine("Too few terms"); } for (int i = 0; i < terms.Length; i++) { terms[i] = terms[i].Trim(); } //Piece placement int rank = 7; int file = 0; for (int i = 0; i < terms[0].Length; i++) { char c = (char)terms[0].ToCharArray().GetValue(i); switch (c) { case '1': file += 1; break; case '2': file += 2; break; case '3': file += 3; break; case '4': file += 4; break; case '5': file += 5; break; case '6': file += 6; break; case '7': file += 7; break; case '8': file += 8; break; case '/': rank--; file = 0; break; case 'P': setPieceSafely(position, file, rank, PieceType.P); file++; break; case 'N': setPieceSafely(position, file, rank, PieceType.N); file++; break; case 'B': setPieceSafely(position, file, rank, PieceType.B); file++; break; case 'R': setPieceSafely(position, file, rank, PieceType.R); file++; break; case 'Q': setPieceSafely(position, file, rank, PieceType.Q); file++; break; case 'K': setPieceSafely(position, file, rank, PieceType.K); file++; break; case 'p': setPieceSafely(position, file, rank, PieceType.p); file++; break; case 'n': setPieceSafely(position, file, rank, PieceType.n); file++; break; case 'b': setPieceSafely(position, file, rank, PieceType.b); file++; break; case 'r': setPieceSafely(position, file, rank, PieceType.r); file++; break; case 'q': setPieceSafely(position, file, rank, PieceType.q); file++; break; case 'k': setPieceSafely(position, file, rank, PieceType.k); file++; break; default: throw new ParserError("Invalid Piece", position); } } //Active Colour if (terms[1].Length > 0) { Boolean whiteToMove; char c = (char)terms[1].ToCharArray().GetValue(0); switch (c) { case 'w': whiteToMove = true; break; case 'b': whiteToMove = false; break; default: throw new ParserError("Invalid Active Colour", position); } position.setWhiteMove(whiteToMove); } else { throw new ParserError("Invalid Active Colour", position); } //Castling Rights int castleMask = 0; if (terms.Length > 2) { for (int i = 0; i < terms[2].Length; i++) { char c = (char)terms[2].ToCharArray().GetValue(i); switch (c) { case 'K': castleMask |= (1 << Position.H1_CASTLE); break; case 'Q': castleMask |= (1 << Position.A1_CASTLE); break; case 'k': castleMask |= (1 << Position.H8_CASTLE); break; case 'q': castleMask |= (1 << Position.A8_CASTLE); break; case '-': break; default: throw new ParserError("Invalid castling flags", position); } } } position.setCastleMask(castleMask); removeInvalidCastleFlags(position); //En Passant Target Square if (terms.Length > 3) { String epString = terms[3]; if (!epString.Equals("-")) { if (epString.Length < 2) { throw new ParserError("Invalid En Passent Square", position); } position.setEpSquare(getSquare(epString)); } } try { //Halfmove Clock if (terms.Length > 4) { position.halfMoveClock = Convert.ToInt32(terms[4]); } //Full Move Counter if (terms.Length > 5) { position.fullMoveCounter = Convert.ToInt32(terms[5]); } } catch (ArgumentException ae) { //Ignore errors here since fields are optional } //Each side must have exactly one king int maxNumber = (int)PieceType.Empty + 1; int[] numPieces = new int[maxNumber]; for (int i = 0; i < maxNumber; i++) { numPieces[i] = 0; } for (file = 0; file < 8; file++) { for (rank = 0; rank < 8; rank++) { numPieces[(int)position.getPiece(Position.getSquare(file, rank))]++; } } if (numPieces[(int)PieceType.K] != 1) { throw new ParserError("Too many white kings", position); } if (numPieces[(int)PieceType.k] != 1) { throw new ParserError("Too many black kings", position); } //White must not have too many pieces int maxWPawns = 8; maxWPawns -= Math.Max(0, numPieces[(int)PieceType.N] - 2); maxWPawns -= Math.Max(0, numPieces[(int)PieceType.B] - 2); maxWPawns -= Math.Max(0, numPieces[(int)PieceType.R] - 2); maxWPawns -= Math.Max(0, numPieces[(int)PieceType.Q] - 1); if (numPieces[(int)PieceType.P] > maxWPawns) { throw new ParserError("Too many white pieces", position); } //Black must not have too many pieces int maxBPawns = 8; maxBPawns -= Math.Max(0, numPieces[(int)PieceType.n] - 2); maxBPawns -= Math.Max(0, numPieces[(int)PieceType.b] - 2); maxBPawns -= Math.Max(0, numPieces[(int)PieceType.r] - 2); maxBPawns -= Math.Max(0, numPieces[(int)PieceType.q] - 1); //Make sure king can not be captured Position pos2 = new Position(position); pos2.setWhiteMove(!position.whiteMove); if (MoveGenerator.inCheck(pos2)) { throw new ParserError("King capture possible", position); } fixupEPSquare(position); return position; }
/* * Convert a piece placement string to a position object * This does not have to adhere to the strict rules of how * many pieces a player must have. i.e.(player may have no king) * This is primarily used for testing purposes, as well as tutorial * scenarios. */ public static Position convertPiecePlacementToPosition(String fen) { Position position = new Position(); String[] terms = fen.Split(' '); if (terms.Length < 2) { System.Console.WriteLine("Too few terms"); } for (int i = 0; i < terms.Length; i++) { terms[i] = terms[i].Trim(); } //Piece placement int rank = 7; int file = 0; for (int i = 0; i < terms[0].Length; i++) { char c = (char)terms[0].ToCharArray().GetValue(i); switch (c) { case '1': file += 1; break; case '2': file += 2; break; case '3': file += 3; break; case '4': file += 4; break; case '5': file += 5; break; case '6': file += 6; break; case '7': file += 7; break; case '8': file += 8; break; case '/': rank--; file = 0; break; case 'P': position.setPiece(Position.getSquare(file, rank), PieceType.P); file++; break; case 'N': position.setPiece(Position.getSquare(file, rank), PieceType.N); file++; break; case 'B': position.setPiece(Position.getSquare(file, rank), PieceType.B); file++; break; case 'R': position.setPiece(Position.getSquare(file, rank), PieceType.R); file++; break; case 'Q': position.setPiece(Position.getSquare(file, rank), PieceType.Q); file++; break; case 'K': position.setPiece(Position.getSquare(file, rank), PieceType.K); file++; break; case 'p': position.setPiece(Position.getSquare(file, rank), PieceType.p); file++; break; case 'n': position.setPiece(Position.getSquare(file, rank), PieceType.n); file++; break; case 'b': position.setPiece(Position.getSquare(file, rank), PieceType.b); file++; break; case 'r': position.setPiece(Position.getSquare(file, rank), PieceType.r); file++; break; case 'q': position.setPiece(Position.getSquare(file, rank), PieceType.q); file++; break; case 'k': position.setPiece(Position.getSquare(file, rank), PieceType.k); file++; break; default: throw new ParserError("Invalid Piece", position); } } //Active Colour if (terms[1].Length > 0) { Boolean whiteToMove; char c = (char)terms[1].ToCharArray().GetValue(0); switch (c) { case 'w': whiteToMove = true; break; case 'b': whiteToMove = false; break; default: throw new ParserError("Invalid Active Colour", position); } position.setWhiteMove(whiteToMove); } else { throw new ParserError("Invalid Active Colour", position); } //Castling Rights int castleMask = 0; if (terms.Length > 2) { for (int i = 0; i < terms[2].Length; i++) { char c = (char)terms[2].ToCharArray().GetValue(i); switch (c) { case 'K': castleMask |= (1 << Position.H1_CASTLE); break; case 'Q': castleMask |= (1 << Position.A1_CASTLE); break; case 'k': castleMask |= (1 << Position.H8_CASTLE); break; case 'q': castleMask |= (1 << Position.A8_CASTLE); break; case '-': break; default: throw new ParserError("Invalid castling flags", position); } } } position.setCastleMask(castleMask); removeInvalidCastleFlags(position); //En Passant Target Square if (terms.Length > 3) { String epString = terms[3]; if (!epString.Equals("-")) { if (epString.Length < 2) { throw new ParserError("Invalid En Passent Square", position); } position.setEpSquare(getSquare(epString)); } } try { //Halfmove Clock if (terms.Length > 4) { position.halfMoveClock = Convert.ToInt32(terms[4]); } //Full Move Counter if (terms.Length > 5) { position.fullMoveCounter = Convert.ToInt32(terms[5]); } } catch (ArgumentException ae) { //Ignore errors here since fields are optional Console.WriteLine(ae.ToString()); } fixupEPSquare(position); return position; }