public static void simple1Workers() { var board = BoardFactory.LoadBoardFromFen(); var ai = new AIWorkerManager(); EvalBoard.initThreadStaticVariables(); ai.spawnWorkers(1); ai.analyzeBoard(board, 2).GetAwaiter().GetResult(); Assert.IsTrue(MoveHelper.isValidMove(ai.GetBestMove().move)); }
public static async Task MainAsync(string[] args) { EvalBoard.initThreadStaticVariables(); var ai = new AIWorkerManager(); //var history = new Stack<Move>(); var game = ChessGame.StartGame(); ai.spawnWorkers(3); //var board = BoardFactory.LoadBoardFromFen(); bool hasCheated = false; int difficulty = 5; bool debug = false; do { Console.WriteLine(ChessOutput.AsciiBoard(game.board)); List <Move> moves = game.Moves().Select(move => move.move).ToList(); Winner winner = game.Winner(); if (winner == Winner.WINNER_WHITE) { Console.WriteLine("White wins"); break; } else if (winner == Winner.WINNER_BLACK) { Console.WriteLine("Black wins"); break; } else if (winner == Winner.DRAW) { Console.WriteLine("Its a draw!"); break; } do { try { Console.WriteLine("Make a move (example: \"A1 A3)\""); var readLineOriginal = Console.ReadLine(); var readLine = readLineOriginal.ToUpper().Split(" ").ToList(); switch (readLine[0]) { case "": case "HELP": Console.WriteLine(@"Available commands are: - help * help - Cheat [depth=5] * uses eval to find best available move(at least according to AI) - moves * lists all available moves - board * Draw the board - debug [y/n=y] * enable / disable debugging - difficulty [number=5] * sets difficulty (above 6 is not recommended because it is slow) - switch * Switch sides - botez gambit * the best gambit - fen [fen] * load Forsyth-Edwards Notation - undo * Undo the last move - eval * get the current evaluation of the board - workers [workerCount] * Specify how many worker threads the computer should use (should be less than the amount of processors you have) - workers * Read how many workers are currently being used - [from=D5] * list moves for a specific field - [from=E2] [to=e4] * play a move - [from=E7] [to=e8] [promotion=Q/R/B/N] * play a move and choose which piece you want to promote to"); continue; case "MOVES": Console.WriteLine("All available moves"); //var allMoves = game.board.GetMoves().Where(move => game.board.IsLegalMove(move)).ToList(); var allMoves = game.Moves().Select(move => move.move).ToList(); foreach (var move in allMoves) { Console.WriteLine($" - {MoveHelper.ReadableMove(move)}"); } Console.WriteLine(ChessOutput.AsciiBoard(game.board, allMoves, true)); continue; case "BOARD": Console.WriteLine(ChessOutput.AsciiBoard(game.board)); continue; case "BOTEZ": // alias fall through case "BOTEZ_GAMBIT": if (botezGambit(game)) { Console.WriteLine("Botez gambit found!"); Console.WriteLine(ChessOutput.AsciiBoard(game.board)); goto switchSides; } else { Console.WriteLine("Botez gambit unavailable"); continue; } case "DIFFICULTY": if (readLine.Count() > 1) { difficulty = int.Parse(readLine[1]); Console.WriteLine($"AI will now look {difficulty} moves ahead"); } else { Console.WriteLine($"Current difficulty is {difficulty}"); continue; } continue; case "SWITCH": goto switchSides; // the almighty goto to skip current move and the the ai make the next move, which also switches sides as a side effect case "EVAL": var evalMoves = game.board.GetMoves().Where(move => game.board.IsLegalMove(move)).ToList(); var score = EvalBoard.evalBoard(game.board, evalMoves); Console.WriteLine($"current score is: {score}"); continue; case "FEN": var fenList = readLineOriginal.Split(" ").ToList(); fenList.RemoveAt(0); var fen = String.Join(" ", fenList); //board = BoardFactory.LoadBoardFromFen(fen); game = ChessGame.ContinueFromFEN(fen); Console.WriteLine($"Loaded board {fen}"); Console.WriteLine(ChessOutput.AsciiBoard(game.board)); continue; case "DEBUG": debug = true; if (readLine.Count() > 1 && readLine[1] == "N") { debug = false; Console.WriteLine("disabled debug"); } else { Console.WriteLine("enabled debug"); } continue; case "WORKERS": int workerCount = 3; if (readLine.Count() > 1) { workerCount = int.Parse(readLine[1]); ai.killWorkers(); ai.spawnWorkers(workerCount); } else { workerCount = ai.CountWorkers(); } Console.WriteLine($"Using {workerCount} workers"); continue; case "UNDO": hasCheated = true; if (!game.UndoTurn()) { Console.WriteLine("There is not history to undo, sorry"); } Console.WriteLine("Undo done (cheater :p)"); Console.WriteLine(ChessOutput.AsciiBoard(game.board)); continue; case "CHEAT": Console.WriteLine("NOTE everything after the best move is probably not accurate"); int depth = 5; if (readLine.Count() > 1) { depth = int.Parse(readLine[1]); } hasCheated = true; List <EvaluatedMove> cheatMoves; using (var progressbar = new ProgressBar()) { cheatMoves = await ai.analyzeBoard(game.board, depth, game.moveHistory(), onProgress : (progress) => { progressbar.Report((double)((double)progress.progress / (double)progress.total)); }); } foreach (var cheat in cheatMoves) { Console.WriteLine($" - {MoveHelper.ReadableMove(cheat.move)} (score: {cheat.score})"); } continue; case "CHEAT2": Console.WriteLine("NOTE everything after the best move is probably not accurate"); int depth2 = 5; if (readLine.Count() > 1) { depth2 = int.Parse(readLine[1]); } hasCheated = true; //using (var progressbar = new ProgressBar()) { // cheatMoves2 = await ai.analyzeBoard(board, depth2, (progress) => { // progressbar.Report((double)((double)progress.progress / (double)progress.total)); // }); //} var minmax = new MinMaxAI(); List <EvaluatedMove> cheatMoves2 = minmax.MinMaxList(game.board, depth2); //var cheatMoves = ParallelChess.AI.MinMaxAI.MinMaxList(board, depth); foreach (var cheat in cheatMoves2) { Console.WriteLine($" - {MoveHelper.ReadableMove(cheat.move)} (score: {cheat.score})"); } continue; default: break; } var fromPosition = BoardPosition.ArrayPosition(readLine[0]); if (readLine.Count() == 1) { var positionMoves = game.board.GetMovesForPosition(fromPosition); Console.WriteLine(ChessOutput.AsciiBoard(game.board, positionMoves)); Console.WriteLine("Legal moves:"); foreach (var move in positionMoves) { if (game.board.IsLegalMove(move)) { Console.WriteLine($" - {MoveHelper.ReadableMove(move)}"); } } continue; } var toPosition = BoardPosition.ArrayPosition(readLine[1]); var promotion = Piece.EMPTY; if (readLine.Count() > 2) { switch (readLine[2]) { case "Q": promotion = Piece.QUEEN; break; case "R": promotion = Piece.ROOK; break; case "N": promotion = Piece.KNIGHT; break; case "B": promotion = Piece.BISHOP; break; default: Console.WriteLine("You can only promote to Queen(Q), Rook(R), Knight(N) or Bishop(B)"); continue; } } var moveMade = game.Move(fromPosition, toPosition, promotion); if (MoveHelper.isValidMove(moveMade.move)) { break; } else { Console.WriteLine("invalid Move"); } } catch (Exception e) { Console.WriteLine(e.Message); } } while(true); Console.WriteLine("Moved to"); switchSides: Console.WriteLine(ChessOutput.AsciiBoard(game.board)); //moves = board.GetMoves(); winner = game.Winner(); if (winner == Winner.WINNER_WHITE) { if (hasCheated) { Console.WriteLine("Cheater :D"); } Console.WriteLine("White wins"); break; } else if (winner == Winner.WINNER_BLACK) { if (hasCheated) { Console.WriteLine("Cheater :D"); } Console.WriteLine("Black wins"); break; } else if (winner == Winner.DRAW) { Console.WriteLine("Its a draw!"); break; } Console.WriteLine("AI Finding move..."); //var bestMove = ParallelChess.AI.MinMaxAI.MinMaxList(board, 5)[0]; if (debug) { await ai.analyzeBoard(game.board, difficulty, game.moveHistory(), onProgress : (progress) => { Console.WriteLine($"[depth {progress.depth}] {progress.progress}/{progress.total} foundScore: {progress.foundScore} on move {MoveHelper.ReadableMove(progress.move.move.move)}, found by worker {progress.move.taskId} {{ duration {progress.move.durationMS}ms }} began from score {progress.move.startFromMin}"); }); } else { using (var progressbar = new ProgressBar()) { await ai.analyzeBoard(game.board, difficulty, game.moveHistory(), onProgress : (progress) => { progressbar.Report((double)((double)progress.progress / (double)progress.total)); }); } } var bestMove = ai.GetBestMove(); game.Move(bestMove.move); Console.WriteLine($"AI found move with score {bestMove.score}"); Console.WriteLine($"AI will play {MoveHelper.ReadableMove(bestMove.move)}"); Console.WriteLine($"FEN: {game.FEN}"); } while (true); Console.WriteLine("End of game!"); Console.ReadKey(); }