X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fuci.cpp;h=dd4040d732397c8752d5d9096b520afb280f7967;hp=718c78752502b61bd991b25191c94b2d30487e41;hb=e1919384a23fe728422f995369161efa192380db;hpb=55376219b7cd17c1dc5d8361e969f30e5421e87e diff --git a/src/uci.cpp b/src/uci.cpp index 718c7875..dd4040d7 100644 --- a/src/uci.cpp +++ b/src/uci.cpp @@ -30,6 +30,8 @@ using namespace std; +extern void benchmark(istringstream& is); + namespace { // FEN string of the initial position, normal chess @@ -52,14 +54,17 @@ namespace { /// that we exit gracefully if the GUI dies unexpectedly. In addition to the UCI /// commands, the function also supports a few debug commands. -void uci_loop() { +void uci_loop(const string& args) { - Position pos(StartFEN, false, 0); // The root position + Position pos(StartFEN, false); // The root position string cmd, token; while (token != "quit") { - if (!getline(cin, cmd)) // Block here waiting for input + if (!args.empty()) + cmd = args; + + else if (!getline(cin, cmd)) // Block here waiting for input cmd = "quit"; istringstream is(cmd); @@ -67,7 +72,10 @@ void uci_loop() { is >> skipws >> token; if (token == "quit" || token == "stop") - Threads.stop_thinking(); + { + Search::Signals.stop = true; + Threads.wait_for_search_finished(); // Cannot quit while threads are running + } else if (token == "ponderhit") { @@ -77,12 +85,18 @@ void uci_loop() { Search::Limits.ponder = false; if (Search::Signals.stopOnPonderhit) - Threads.stop_thinking(); + { + Search::Signals.stop = true; + Threads.wait_for_search_finished(); // Wake up if is sleeping + } } else if (token == "go") go(pos, is); + else if (token == "ucinewgame") + { /* Avoid returning "Unknown command" */ } + else if (token == "isready") cout << "readyok" << endl; @@ -99,11 +113,14 @@ void uci_loop() { pos.print(); else if (token == "flip") - pos.flip_me(); + pos.flip(); else if (token == "eval") cout << Eval::trace(pos) << endl; + else if (token == "bench") + benchmark(is); + else if (token == "key") cout << "key: " << hex << pos.key() << "\nmaterial key: " << pos.material_key() @@ -115,6 +132,12 @@ void uci_loop() { << "\nuciok" << endl; else cout << "Unknown command: " << cmd << endl; + + if (!args.empty()) // Command line arguments have one-shot behaviour + { + Threads.wait_for_search_finished(); + break; + } } } @@ -184,46 +207,42 @@ namespace { // go() is called when engine receives the "go" UCI command. The function sets // the thinking time and other parameters from the input string, and then starts - // the main searching thread. + // the search. void go(Position& pos, istringstream& is) { - string token; Search::LimitsType limits; - std::set searchMoves; - int time[] = { 0, 0 }, inc[] = { 0, 0 }; + vector searchMoves; + string token; while (is >> token) { - if (token == "infinite") - limits.infinite = true; - else if (token == "ponder") - limits.ponder = true; - else if (token == "wtime") - is >> time[WHITE]; + if (token == "wtime") + is >> limits.time[WHITE]; else if (token == "btime") - is >> time[BLACK]; + is >> limits.time[BLACK]; else if (token == "winc") - is >> inc[WHITE]; + is >> limits.inc[WHITE]; else if (token == "binc") - is >> inc[BLACK]; + is >> limits.inc[BLACK]; else if (token == "movestogo") - is >> limits.movesToGo; + is >> limits.movestogo; else if (token == "depth") - is >> limits.maxDepth; + is >> limits.depth; else if (token == "nodes") - is >> limits.maxNodes; + is >> limits.nodes; else if (token == "movetime") - is >> limits.maxTime; + is >> limits.movetime; + else if (token == "infinite") + limits.infinite = true; + else if (token == "ponder") + limits.ponder = true; else if (token == "searchmoves") while (is >> token) - searchMoves.insert(move_from_uci(pos, token)); + searchMoves.push_back(move_from_uci(pos, token)); } - limits.time = time[pos.side_to_move()]; - limits.increment = inc[pos.side_to_move()]; - - Threads.start_thinking(pos, limits, searchMoves, true); + Threads.start_searching(pos, limits, searchMoves); } @@ -244,8 +263,8 @@ namespace { int e = time.elapsed(); - std::cout << "\nNodes " << n - << "\nTime (ms) " << e - << "\nNodes/second " << int(n / (e / 1000.0)) << std::endl; + cout << "\nNodes " << n + << "\nTime (ms) " << e + << "\nNodes/second " << int(n / (e / 1000.0)) << endl; } }