X-Git-Url: https://git.sesse.net/?a=blobdiff_plain;f=src%2Fuci.cpp;h=5d842d25e73b6635b1472d2fead5eb525f602336;hb=98965c139df1483a3d684ee8bc7a60dc4b95efa1;hp=21bbb88472d4ce55b1fb5e56eba372a333e074c7;hpb=84ec1f7331f402f4ab2e2201b72b3ee378cce659;p=stockfish
diff --git a/src/uci.cpp b/src/uci.cpp
index 21bbb884..5d842d25 100644
--- a/src/uci.cpp
+++ b/src/uci.cpp
@@ -1,7 +1,6 @@
/*
Stockfish, a UCI chess playing engine derived from Glaurung 2.1
- Copyright (C) 2004-2008 Tord Romstad (Glaurung author)
- Copyright (C) 2008-2009 Marco Costalba
+ 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
@@ -17,315 +16,378 @@
along with this program. If not, see .
*/
-
-////
-//// Includes
-////
-
#include
+#include
#include
#include
#include
-#include "book.h"
#include "evaluate.h"
-#include "misc.h"
-#include "move.h"
#include "movegen.h"
#include "position.h"
-#include "san.h"
#include "search.h"
+#include "thread.h"
+#include "timeman.h"
+#include "tt.h"
#include "uci.h"
-#include "ucioption.h"
+#include "syzygy/tbprobe.h"
using namespace std;
-////
-//// Local definitions:
-////
+namespace Stockfish {
+
+extern vector setup_bench(const Position&, istream&);
namespace {
- // UCIInputParser is a class for parsing UCI input. The class
- // is actually a string stream built on a given input string.
+ // FEN string for the initial position in standard chess
+ const char* StartFEN = "rnbqkbnr/pppppppp/8/8/8/8/PPPPPPPP/RNBQKBNR w KQkq - 0 1";
- typedef istringstream UCIInputParser;
- // The root position. This is set up when the user (or in practice, the GUI)
- // sends the "position" UCI command. The root position is sent to the think()
- // function when the program receives the "go" command.
- Position RootPosition(StartPosition);
+ // position() is called when the engine receives the "position" UCI command.
+ // It sets up the position that is described in the given FEN string ("fen") or
+ // the initial position ("startpos") and then makes the moves given in the following
+ // move list ("moves").
- // Local functions
- bool handle_command(const string& command);
- void set_option(UCIInputParser& uip);
- void set_position(UCIInputParser& uip);
- bool go(UCIInputParser& uip);
- void perft(UCIInputParser& uip);
-}
+ void position(Position& pos, istringstream& is, StateListPtr& states) {
+ Move m;
+ string token, fen;
-////
-//// Functions
-////
+ is >> token;
-/// uci_main_loop() is the only global function in this file. It is
-/// called immediately after the program has finished initializing.
-/// The program remains in this loop until it receives the "quit" UCI
-/// command. It waits for a command from the user, and passes this
-/// command to handle_command and also intercepts EOF from stdin,
-/// by translating EOF to the "quit" command. This ensures that Stockfish
-/// exits gracefully if the GUI dies unexpectedly.
+ if (token == "startpos")
+ {
+ fen = StartFEN;
+ is >> token; // Consume the "moves" token, if any
+ }
+ else if (token == "fen")
+ while (is >> token && token != "moves")
+ fen += token + " ";
+ else
+ return;
-void uci_main_loop() {
+ states = StateListPtr(new std::deque(1)); // Drop the old state and create a new one
+ pos.set(fen, Options["UCI_Chess960"], &states->back(), Threads.main());
- RootPosition.from_fen(StartPosition);
- string command;
+ // Parse the move list, if any
+ while (is >> token && (m = UCI::to_move(pos, token)) != MOVE_NONE)
+ {
+ states->emplace_back();
+ pos.do_move(m, states->back());
+ }
+ }
- do {
- // Wait for a command from stdin
- if (!getline(cin, command))
- command = "quit";
+ // trace_eval() prints the evaluation of the current position, consistent with
+ // the UCI options set so far.
- } while (handle_command(command));
-}
+ void trace_eval(Position& pos) {
+ StateListPtr states(new std::deque(1));
+ Position p;
+ p.set(pos.fen(), Options["UCI_Chess960"], &states->back(), Threads.main());
-////
-//// Local functions
-////
+ Eval::NNUE::verify();
-namespace {
+ sync_cout << "\n" << Eval::trace(p) << sync_endl;
+ }
- // handle_command() takes a text string as input, uses a
- // UCIInputParser object to parse this text string as a UCI command,
- // and calls the appropriate functions. In addition to the UCI
- // commands, the function also supports a few debug commands.
- bool handle_command(const string& command) {
+ // setoption() is called when the engine receives the "setoption" UCI command.
+ // The function updates the UCI option ("name") to the given value ("value").
- UCIInputParser uip(command);
- string token;
+ void setoption(istringstream& is) {
- if (!(uip >> token)) // operator>>() skips any whitespace
- return true;
+ string token, name, value;
- if (token == "quit")
- return false;
+ is >> token; // Consume the "name" token
- if (token == "go")
- return go(uip);
+ // Read the option name (can contain spaces)
+ while (is >> token && token != "value")
+ name += (name.empty() ? "" : " ") + token;
- if (token == "uci")
- {
- cout << "id name " << engine_name()
- << "\nid author Tord Romstad, Marco Costalba, Joona Kiiski\n";
- print_uci_options();
- cout << "uciok" << endl;
- }
- else if (token == "ucinewgame")
- {
- push_button("New Game");
- Position::init_piece_square_tables();
- RootPosition.from_fen(StartPosition);
- }
- else if (token == "isready")
- cout << "readyok" << endl;
- else if (token == "position")
- set_position(uip);
- else if (token == "setoption")
- set_option(uip);
-
- // The remaining commands are for debugging purposes only.
- // Perhaps they should be removed later in order to reduce the
- // size of the program binary.
- else if (token == "d")
- RootPosition.print();
- else if (token == "flip")
- {
- Position p(RootPosition);
- RootPosition.flipped_copy(p);
- }
- else if (token == "eval")
- {
- EvalInfo ei;
- cout << "Incremental mg: " << mg_value(RootPosition.value())
- << "\nIncremental eg: " << eg_value(RootPosition.value())
- << "\nFull eval: " << evaluate(RootPosition, ei, 0) << endl;
- }
- else if (token == "key")
- cout << "key: " << hex << RootPosition.get_key()
- << "\nmaterial key: " << RootPosition.get_material_key()
- << "\npawn key: " << RootPosition.get_pawn_key() << endl;
- else if (token == "perft")
- perft(uip);
+ // Read the option value (can contain spaces)
+ while (is >> token)
+ value += (value.empty() ? "" : " ") + token;
+
+ if (Options.count(name))
+ Options[name] = value;
else
- cout << "Unknown command: " << command << endl;
+ sync_cout << "No such option: " << name << sync_endl;
+ }
+
- return true;
+ // go() is called when the engine receives the "go" UCI command. The function
+ // sets the thinking time and other parameters from the input string, then starts
+ // with a search.
+
+ void go(Position& pos, istringstream& is, StateListPtr& states) {
+
+ Search::LimitsType limits;
+ string token;
+ bool ponderMode = false;
+
+ limits.startTime = now(); // The search starts 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);
}
- // set_position() is called when Stockfish receives the "position" UCI
- // command. The input parameter is a UCIInputParser. It is assumed
- // that this parser has consumed the first token of the UCI command
- // ("position"), and is ready to read the second token ("startpos"
- // or "fen", if the input is well-formed).
+ // bench() is called when the engine receives the "bench" command.
+ // Firstly, a list of UCI commands is set up according to the bench
+ // parameters, then it is run one by one, printing a summary at the end.
- void set_position(UCIInputParser& uip) {
+ void bench(Position& pos, istream& args, StateListPtr& states) {
string token;
+ uint64_t num, nodes = 0, cnt = 1;
- if (!(uip >> token)) // operator>>() skips any whitespace
- return;
+ vector list = setup_bench(pos, args);
+ num = count_if(list.begin(), list.end(), [](string s) { return s.find("go ") == 0 || s.find("eval") == 0; });
- if (token == "startpos")
- RootPosition.from_fen(StartPosition);
- else if (token == "fen")
- {
- string fen;
- while (uip >> token && token != "moves")
- {
- fen += token;
- fen += ' ';
- }
- RootPosition.from_fen(fen);
- }
+ TimePoint elapsed = now();
- if (uip.good())
+ for (const auto& cmd : list)
{
- if (token != "moves")
- uip >> token;
+ istringstream is(cmd);
+ is >> skipws >> token;
- if (token == "moves")
+ if (token == "go" || token == "eval")
{
- Move move;
- StateInfo st;
- while (uip >> token)
+ cerr << "\nPosition: " << cnt++ << '/' << num << " (" << pos.fen() << ")" << endl;
+ if (token == "go")
{
- move = move_from_string(RootPosition, token);
- RootPosition.do_move(move, st);
- if (RootPosition.rule_50_counter() == 0)
- RootPosition.reset_game_ply();
+ go(pos, is, states);
+ Threads.main()->wait_for_search_finished();
+ nodes += Threads.nodes_searched();
}
- // Our StateInfo st is about going out of scope so copy
- // its content inside RootPosition before they disappear.
- RootPosition.detach();
+ 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 a while
}
- }
+ elapsed = now() - elapsed + 1; // Ensure positivity to avoid a 'divide by zero'
- // set_option() is called when Stockfish receives the "setoption" UCI
- // command. The input parameter is a UCIInputParser. It is assumed
- // that this parser has consumed the first token of the UCI command
- // ("setoption"), and is ready to read the second token ("name", if
- // the input is well-formed).
+ dbg_print();
- void set_option(UCIInputParser& uip) {
+ cerr << "\n==========================="
+ << "\nTotal time (ms) : " << elapsed
+ << "\nNodes searched : " << nodes
+ << "\nNodes/second : " << 1000 * nodes / elapsed << endl;
+ }
- string token, name;
+ // The win rate model returns the probability of winning (in per mille units) given an
+ // eval and a game ply. It fits the LTC fishtest statistics rather accurately.
+ int win_rate_model(Value v, int ply) {
- if (!(uip >> token)) // operator>>() skips any whitespace
- return;
+ // The model only captures up to 240 plies, so limit the input and then rescale
+ double m = std::min(240, ply) / 64.0;
- if (token == "name" && uip >> name)
- {
- while (uip >> token && token != "value")
- name += (" " + token);
+ // The coefficients of a third-order polynomial fit is based on the fishtest data
+ // for two parameters that need to transform eval to the argument of a logistic
+ // function.
+ constexpr double as[] = { -0.58270499, 2.68512549, 15.24638015, 344.49745382};
+ constexpr double bs[] = { -2.65734562, 15.96509799, -20.69040836, 73.61029937 };
- if (token == "value")
- {
- // Reads until end of line and left trim white space
- getline(uip, token);
- token.erase(0, token.find_first_not_of(" \n\r\t"));
+ // Enforce that NormalizeToPawnValue corresponds to a 50% win rate at ply 64
+ static_assert(UCI::NormalizeToPawnValue == int(as[0] + as[1] + as[2] + as[3]));
- set_option_value(name, token);
- } else
- push_button(name);
- }
+ 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 the eval to centipawns with limited range
+ double x = std::clamp(double(v), -4000.0, 4000.0);
+
+ // Return the win rate in per mille units rounded to the nearest value
+ return int(0.5 + 1000 / (1 + std::exp((a - x) / b)));
}
+} // namespace
- // go() is called when Stockfish receives the "go" UCI command. The
- // input parameter is a UCIInputParser. It is assumed that this
- // parser has consumed the first token of the UCI command ("go"),
- // and is ready to read the second token. The function sets the
- // thinking time and other parameters from the input string, and
- // calls think() (defined in search.cpp) with the appropriate
- // parameters. Returns false if a quit command is received while
- // thinking, returns true otherwise.
- bool go(UCIInputParser& uip) {
+/// UCI::loop() waits for a command from the stdin, parses it and then calls the appropriate
+/// function. It also intercepts an end-of-file (EOF) indication from the stdin to ensure a
+/// graceful exit if the GUI dies unexpectedly. When called with some command-line arguments,
+/// like running 'bench', the function returns immediately after the command is executed.
+/// In addition to the UCI ones, some additional debug commands are also supported.
- string token;
+void UCI::loop(int argc, char* argv[]) {
- int time[2] = {0, 0}, inc[2] = {0, 0};
- int movesToGo = 0, depth = 0, nodes = 0, moveTime = 0;
- bool infinite = false, ponder = false;
- Move searchMoves[500];
+ Position pos;
+ string token, cmd;
+ StateListPtr states(new std::deque(1));
- searchMoves[0] = MOVE_NONE;
+ pos.set(StartFEN, false, &states->back(), Threads.main());
- while (uip >> token)
- {
- if (token == "infinite")
- infinite = true;
- else if (token == "ponder")
- ponder = true;
- else if (token == "wtime")
- uip >> time[0];
- else if (token == "btime")
- uip >> time[1];
- else if (token == "winc")
- uip >> inc[0];
- else if (token == "binc")
- uip >> inc[1];
- else if (token == "movestogo")
- uip >> movesToGo;
- else if (token == "depth")
- uip >> depth;
- else if (token == "nodes")
- uip >> nodes;
- else if (token == "movetime")
- uip >> moveTime;
- else if (token == "searchmoves")
- {
- int numOfMoves = 0;
- while (!uip.eof())
- {
- uip >> token;
- searchMoves[numOfMoves++] = move_from_string(RootPosition, token);
- }
- searchMoves[numOfMoves] = MOVE_NONE;
- }
- }
+ for (int i = 1; i < argc; ++i)
+ cmd += std::string(argv[i]) + " ";
+
+ do {
+ if (argc == 1 && !getline(cin, cmd)) // Wait for an input or an end-of-file (EOF) indication
+ cmd = "quit";
+
+ istringstream is(cmd);
+
+ token.clear(); // Avoid a stale if getline() returns nothing or a blank line
+ is >> skipws >> token;
+
+ if ( token == "quit"
+ || token == "stop")
+ Threads.stop = true;
+
+ // The GUI sends 'ponderhit' to tell that the user has played the expected move.
+ // So, 'ponderhit' is sent if pondering was done on the same move that the user
+ // has played. The search should continue, but should also switch from pondering
+ // to the normal search.
+ else if (token == "ponderhit")
+ Threads.main()->ponder = false; // Switch to the 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;
+
+ // Add custom non-UCI commands, mainly for debugging purposes.
+ // These commands must not be used 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 == "--help" || token == "help" || token == "--license" || token == "license")
+ sync_cout << "\nStockfish is a powerful chess engine for playing and analyzing."
+ "\nIt is released as free software licensed under the GNU GPLv3 License."
+ "\nStockfish is normally used with a graphical user interface (GUI) and implements"
+ "\nthe Universal Chess Interface (UCI) protocol to communicate with a GUI, an API, etc."
+ "\nFor any further information, visit https://github.com/official-stockfish/Stockfish#readme"
+ "\nor read the corresponding README.md and Copying.txt files distributed along with this program.\n" << sync_endl;
+ else if (!token.empty() && token[0] != '#')
+ sync_cout << "Unknown command: '" << cmd << "'. Type help for more information." << sync_endl;
+
+ } while (token != "quit" && argc == 1); // The command-line arguments are one-shot
+}
- if (moveTime)
- infinite = true; // HACK
- assert(RootPosition.is_ok());
+/// UCI::value() converts a Value to a string by adhering to 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,
+/// uses negative values for 'y'.
- return think(RootPosition, infinite, ponder, RootPosition.side_to_move(),
- time, inc, movesToGo, depth, nodes, moveTime, searchMoves);
- }
+string UCI::value(Value v) {
- void perft(UCIInputParser& uip) {
+ assert(-VALUE_INFINITE < v && v < VALUE_INFINITE);
- string token;
- int depth, tm, n;
- Position pos = RootPosition;
+ stringstream ss;
- if (!(uip >> depth))
- return;
+ if (abs(v) < VALUE_MATE_IN_MAX_PLY)
+ ss << "cp " << v * 100 / NormalizeToPawnValue;
+ else
+ ss << "mate " << (v > 0 ? VALUE_MATE - v + 1 : -VALUE_MATE - v) / 2;
- tm = get_system_time();
+ return ss.str();
+}
- n = perft(pos, depth * OnePly);
- tm = get_system_time() - tm;
- std::cout << "\nNodes " << n
- << "\nTime (ms) " << tm
- << "\nNodes/second " << (int)(n/(tm/1000.0)) << std::endl;
- }
+/// UCI::wdl() reports the win-draw-loss (WDL) statistics given an evaluation
+/// and a game ply based on the 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 the e1g1 notation is printed in
+/// standard chess mode and in e1h1 notation it is printed 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)
+ str[4] = char(tolower(str[4])); // The promotion piece character must be lowercased
+
+ for (const auto& m : MoveList(pos))
+ if (str == UCI::move(m, pos.is_chess960()))
+ return m;
+
+ return MOVE_NONE;
+}
+
+} // namespace Stockfish