/* Stockfish, a UCI chess playing engine derived from Glaurung 2.1 Copyright (C) 2004-2022 The Stockfish developers (see AUTHORS file) Stockfish is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Stockfish is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include #include #include #include #include #include "evaluate.h" #include "movegen.h" #include "position.h" #include "search.h" #include "thread.h" #include "timeman.h" #include "tt.h" #include "uci.h" #include "syzygy/tbprobe.h" using namespace std; namespace Stockfish { extern vector setup_bench(const Position&, istream&); namespace { // FEN string of the initial position, normal chess const char* StartFEN = "rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq - 0 1"; // position() is called when engine receives the "position" UCI command. // The function sets up the position described in the given FEN string ("fen") // or the starting position ("startpos") and then makes the moves given in the // following move list ("moves"). void position(Position& pos, istringstream& is, StateListPtr& states) { Move m; string token, fen; is >> token; if (token == "startpos") { fen = StartFEN; is >> token; // Consume "moves" token if any } else if (token == "fen") while (is >> token && token != "moves") fen += token + " "; else return; states = StateListPtr(new std::deque(1)); // Drop old and create a new one pos.set(fen, Options["UCI_Chess960"], &states->back(), Threads.main()); // Parse move list (if any) while (is >> token && (m = UCI::to_move(pos, token)) != MOVE_NONE) { states->emplace_back(); pos.do_move(m, states->back()); } } // trace_eval() prints the evaluation for the current position, consistent with the UCI // options set so far. void trace_eval(Position& pos) { StateListPtr states(new std::deque(1)); Position p; p.set(pos.fen(), Options["UCI_Chess960"], &states->back(), Threads.main()); Eval::NNUE::verify(); sync_cout << "\n" << Eval::trace(p) << sync_endl; } // setoption() is called when engine receives the "setoption" UCI command. The // function updates the UCI option ("name") to the given value ("value"). void setoption(istringstream& is) { string token, name, value; is >> token; // Consume "name" token // Read option name (can contain spaces) while (is >> token && token != "value") name += (name.empty() ? "" : " ") + token; // Read option value (can contain spaces) while (is >> token) value += (value.empty() ? "" : " ") + token; if (Options.count(name)) Options[name] = value; else sync_cout << "No such option: " << name << sync_endl; } // go() is called when engine receives the "go" UCI command. The function sets // the thinking time and other parameters from the input string, then starts // the search. void go(Position& pos, istringstream& is, StateListPtr& states) { Search::LimitsType limits; string token; bool ponderMode = false; limits.startTime = now(); // As early as possible! while (is >> token) if (token == "searchmoves") // Needs to be the last command on the line while (is >> token) limits.searchmoves.push_back(UCI::to_move(pos, token)); else if (token == "wtime") is >> limits.time[WHITE]; else if (token == "btime") is >> limits.time[BLACK]; else if (token == "winc") is >> limits.inc[WHITE]; else if (token == "binc") is >> limits.inc[BLACK]; else if (token == "movestogo") is >> limits.movestogo; else if (token == "depth") is >> limits.depth; else if (token == "nodes") is >> limits.nodes; else if (token == "movetime") is >> limits.movetime; else if (token == "mate") is >> limits.mate; else if (token == "perft") is >> limits.perft; else if (token == "infinite") limits.infinite = 1; else if (token == "ponder") ponderMode = true; Threads.start_thinking(pos, states, limits, ponderMode); } // bench() is called when engine receives the "bench" command. Firstly // a list of UCI commands is setup according to bench parameters, then // it is run one by one printing a summary at the end. void bench(Position& pos, istream& args, StateListPtr& states) { string token; uint64_t num, nodes = 0, cnt = 1; vector list = setup_bench(pos, args); num = count_if(list.begin(), list.end(), [](string s) { return s.find("go ") == 0 || s.find("eval") == 0; }); TimePoint elapsed = now(); for (const auto& cmd : list) { istringstream is(cmd); is >> skipws >> token; if (token == "go" || token == "eval") { cerr << "\nPosition: " << cnt++ << '/' << num << " (" << pos.fen() << ")" << endl; if (token == "go") { go(pos, is, states); Threads.main()->wait_for_search_finished(); nodes += Threads.nodes_searched(); } else trace_eval(pos); } else if (token == "setoption") setoption(is); else if (token == "position") position(pos, is, states); else if (token == "ucinewgame") { Search::clear(); elapsed = now(); } // Search::clear() may take some while } elapsed = now() - elapsed + 1; // Ensure positivity to avoid a 'divide by zero' dbg_print(); // Just before exiting cerr << "\n===========================" << "\nTotal time (ms) : " << elapsed << "\nNodes searched : " << nodes << "\nNodes/second : " << 1000 * nodes / elapsed << endl; } // The win rate model returns the probability (per mille) of winning given an eval // and a game-ply. The model fits rather accurately the LTC fishtest statistics. int win_rate_model(Value v, int ply) { // The model captures only up to 240 plies, so limit input (and rescale) double m = std::min(240, ply) / 64.0; // Coefficients of a 3rd order polynomial fit based on fishtest data // for two parameters needed to transform eval to the argument of a // logistic function. double as[] = {-1.17202460e-01, 5.94729104e-01, 1.12065546e+01, 1.22606222e+02}; double bs[] = {-1.79066759, 11.30759193, -17.43677612, 36.47147479}; double a = (((as[0] * m + as[1]) * m + as[2]) * m) + as[3]; double b = (((bs[0] * m + bs[1]) * m + bs[2]) * m) + bs[3]; // Transform eval to centipawns with limited range double x = std::clamp(double(100 * v) / PawnValueEg, -2000.0, 2000.0); // Return win rate in per mille (rounded to nearest) return int(0.5 + 1000 / (1 + std::exp((a - x) / b))); } } // namespace /// UCI::loop() waits for a command from stdin, parses it and calls the appropriate /// function. Also intercepts EOF from stdin to ensure gracefully exiting if the /// GUI dies unexpectedly. When called with some command line arguments, e.g. to /// run 'bench', once the command is executed the function returns immediately. /// In addition to the UCI ones, also some additional debug commands are supported. void UCI::loop(int argc, char* argv[]) { Position pos; string token, cmd; StateListPtr states(new std::deque(1)); pos.set(StartFEN, false, &states->back(), Threads.main()); for (int i = 1; i < argc; ++i) cmd += std::string(argv[i]) + " "; do { if (argc == 1 && !getline(cin, cmd)) // Block here waiting for input or EOF cmd = "quit"; istringstream is(cmd); token.clear(); // Avoid a stale if getline() returns empty or blank line is >> skipws >> token; if ( token == "quit" || token == "stop") Threads.stop = true; // The GUI sends 'ponderhit' to tell us the user has played the expected move. // So 'ponderhit' will be sent if we were told to ponder on the same move the // user has played. We should continue searching but switch from pondering to // normal search. else if (token == "ponderhit") Threads.main()->ponder = false; // Switch to normal search else if (token == "uci") sync_cout << "id name " << engine_info(true) << "\n" << Options << "\nuciok" << sync_endl; else if (token == "setoption") setoption(is); else if (token == "go") go(pos, is, states); else if (token == "position") position(pos, is, states); else if (token == "ucinewgame") Search::clear(); else if (token == "isready") sync_cout << "readyok" << sync_endl; // Additional custom non-UCI commands, mainly for debugging. // Do not use these commands during a search! else if (token == "flip") pos.flip(); else if (token == "bench") bench(pos, is, states); else if (token == "d") sync_cout << pos << sync_endl; else if (token == "eval") trace_eval(pos); else if (token == "compiler") sync_cout << compiler_info() << sync_endl; else if (token == "export_net") { std::optional filename; std::string f; if (is >> skipws >> f) filename = f; Eval::NNUE::save_eval(filename); } else if (!token.empty() && token[0] != '#') sync_cout << "Unknown command: " << cmd << sync_endl; } while (token != "quit" && argc == 1); // Command line args are one-shot } /// UCI::value() converts a Value to a string suitable for use with the UCI /// protocol specification: /// /// cp The score from the engine's point of view in centipawns. /// mate Mate in y moves, not plies. If the engine is getting mated /// use negative values for y. string UCI::value(Value v) { assert(-VALUE_INFINITE < v && v < VALUE_INFINITE); stringstream ss; if (abs(v) < VALUE_MATE_IN_MAX_PLY) ss << "cp " << v * 100 / PawnValueEg; else ss << "mate " << (v > 0 ? VALUE_MATE - v + 1 : -VALUE_MATE - v) / 2; return ss.str(); } /// UCI::wdl() report WDL statistics given an evaluation and a game ply, based on /// data gathered for fishtest LTC games. string UCI::wdl(Value v, int ply) { stringstream ss; int wdl_w = win_rate_model( v, ply); int wdl_l = win_rate_model(-v, ply); int wdl_d = 1000 - wdl_w - wdl_l; ss << " wdl " << wdl_w << " " << wdl_d << " " << wdl_l; return ss.str(); } /// UCI::square() converts a Square to a string in algebraic notation (g1, a7, etc.) std::string UCI::square(Square s) { return std::string{ char('a' + file_of(s)), char('1' + rank_of(s)) }; } /// UCI::move() converts a Move to a string in coordinate notation (g1f3, a7a8q). /// The only special case is castling, where we print in the e1g1 notation in /// normal chess mode, and in e1h1 notation in chess960 mode. Internally all /// castling moves are always encoded as 'king captures rook'. string UCI::move(Move m, bool chess960) { Square from = from_sq(m); Square to = to_sq(m); if (m == MOVE_NONE) return "(none)"; if (m == MOVE_NULL) return "0000"; if (type_of(m) == CASTLING && !chess960) to = make_square(to > from ? FILE_G : FILE_C, rank_of(from)); string move = UCI::square(from) + UCI::square(to); if (type_of(m) == PROMOTION) move += " pnbrqk"[promotion_type(m)]; return move; } /// UCI::to_move() converts a string representing a move in coordinate notation /// (g1f3, a7a8q) to the corresponding legal Move, if any. Move UCI::to_move(const Position& pos, string& str) { if (str.length() == 5) // Junior could send promotion piece in uppercase str[4] = char(tolower(str[4])); for (const auto& m : MoveList(pos)) if (str == UCI::move(m, pos.is_chess960())) return m; return MOVE_NONE; } } // namespace Stockfish