/** * Handle a special command. * @param moveStr The command to handle * @return True if command handled, false otherwise. */ public bool handleCommand(string moveStr) { if (moveStr == "new") { moveList = new List <Move>(); uiInfoList = new List <UndoInfo>(); drawOfferList = new List <bool>(); currentMove = 0; pendingDrawOffer = false; drawState = GameState.ALIVE; resignState = GameState.ALIVE; try { pos = TextIO.readFEN(TextIO.startPosFEN); } catch (ChessParseError ex) { throw new RuntimeException(); } whitePlayer.clearTT(); blackPlayer.clearTT(); activateHumanPlayer(); return(true); } else if (moveStr == "undo") { if (currentMove > 0) { pos.unMakeMove(moveList[currentMove - 1], uiInfoList[currentMove - 1]); currentMove--; pendingDrawOffer = false; drawState = GameState.ALIVE; resignState = GameState.ALIVE; return(handleCommand("swap")); } else { SystemHelper.println("Nothing to undo"); } return(true); } else if (moveStr == "redo") { if (currentMove < moveList.Count) { pos.makeMove(moveList[currentMove], uiInfoList[currentMove]); currentMove++; pendingDrawOffer = false; return(handleCommand("swap")); } else { SystemHelper.println("Nothing to redo"); } return(true); } else if ((moveStr == "swap") || (moveStr == "go")) { Player tmp = whitePlayer; whitePlayer = blackPlayer; blackPlayer = tmp; return(true); } else if (moveStr == "list") { listMoves(); return(true); } else if (moveStr.StartsWith("setpos ")) { string fen = moveStr.Substring(moveStr.IndexOf(" ") + 1); Position newPos = null; try { newPos = TextIO.readFEN(fen); } catch (ChessParseError ex) { SystemHelper.printf("Invalid FEN: " + fen); } if (newPos != null) { handleCommand("new"); pos = newPos; activateHumanPlayer(); } return(true); } else if (moveStr == "getpos") { string fen = TextIO.toFEN(pos); SystemHelper.println(fen); return(true); } else if (moveStr.StartsWith("draw ")) { if (getGameState() == GameState.ALIVE) { string drawCmd = moveStr.Substring(moveStr.IndexOf(" ") + 1); return(handleDrawCmd(drawCmd)); } else { return(true); } } else if (moveStr == "resign") { if (getGameState() == GameState.ALIVE) { resignState = pos.whiteMove ? GameState.RESIGN_WHITE : GameState.RESIGN_BLACK; return(true); } else { return(true); } } else if (moveStr.StartsWith("book")) { string bookCmd = moveStr.Substring(moveStr.IndexOf(" ") + 1); return(handleBookCmd(bookCmd)); } else if (moveStr.StartsWith("time")) { try { string timeStr = moveStr.Substring(moveStr.IndexOf(" ") + 1); int timeLimit = int.Parse(timeStr); whitePlayer.timeLimit(timeLimit, timeLimit, false); blackPlayer.timeLimit(timeLimit, timeLimit, false); return(true); } catch (NumberFormatException nfe) { SystemHelper.printf("Number format exception: " + moveStr); return(false); } } else if (moveStr.StartsWith("perft ")) { try { string depthStr = moveStr.Substring(moveStr.IndexOf(" ") + 1); int depth = int.Parse(depthStr); MoveGen moveGen = new MoveGen(); long t0 = SystemHelper.currentTimeMillis(); ulong nodes = perfT(moveGen, pos, depth); long t1 = SystemHelper.currentTimeMillis(); SystemHelper.printf("perft(" + depth.ToString() + ") = " + nodes.ToString() + " t=" + ((t1 - t0) / 1000).ToString() + "s"); } catch (NumberFormatException nfe) { SystemHelper.printf("Number format exception: " + moveStr); return(false); } return(true); } else { return(false); } }
/** * Print a list of all moves. */ private void listMoves() { string movesStr = getMoveListstring(false); SystemHelper.printf(movesStr); }
public ChessParseError() { SystemHelper.println("ChessParseError"); }
public string getCommand(Position pos, bool drawOffer, List <Position> history) { // Create a search object ulong[] posHashList = new ulong[200 + history.Count]; int posHashListSize = 0; for (int i = 0; i < history.Count; i++) { Position p = history[i]; posHashList[posHashListSize++] = p.zobristHash(); } tt.nextGeneration(); Search sc = new Search(pos, posHashList, posHashListSize, tt); // Determine all legal moves MoveGen.MoveList moves = new MoveGen().pseudoLegalMoves(pos); MoveGen.RemoveIllegal(pos, moves); sc.scoreMoveList(moves, 0); // Test for "game over" if (moves.size == 0) { // Switch sides so that the human can decide what to do next. return("swap"); } if (bookEnabled) { Move bookMove = book.getBookMove(pos); if (bookMove != null) { SystemHelper.printf("Book moves: " + book.getAllBookMoves(pos)); return(TextIO.moveTostring(pos, bookMove, true)); } } // Find best move using iterative deepening currentSearch = sc; sc.setListener(listener); Move bestM; if ((moves.size == 1) && (canClaimDraw(pos, posHashList, posHashListSize, moves.m[0]) == "")) { bestM = moves.m[0]; bestM.score = 0; } else if (randomMode) { bestM = findSemiRandomMove(sc, moves); } else { sc.timeLimit(minTimeMillis, maxTimeMillis); bestM = sc.iterativeDeepening(moves, maxDepth, maxNodes, verbose); } currentSearch = null; // tt.printStats(); string strMove = TextIO.moveTostring(pos, bestM, true); bestmv = bestM; // Claim draw if appropriate if (bestM.score <= 0) { string drawClaim = canClaimDraw(pos, posHashList, posHashListSize, bestM); if (drawClaim != "") { strMove = drawClaim; } } return(strMove); }
{ public UnsupportedSHA1OperationException() { SystemHelper.println("Unsupported SHA-1 OperationException"); }
public NoSuchAlgorithmException() { SystemHelper.println("NoSuchAlgorithmException"); }
public IOException() { SystemHelper.println("IOException"); }
public NumberFormatException() { SystemHelper.println("NumberFormatException"); }
public RuntimeException() { SystemHelper.println("RuntimeException"); }