X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fsearch.cpp;h=fefc886424e9935116191a27c44594b7ad6d887b;hp=320f480c2df854ac575ab4f4776f120d5c933a84;hb=d58176bfead421088bb3543b3cb6d1c359a3c91b;hpb=0095f423f2fdb2be7c4a5e1bcf39f18599af5e1e diff --git a/src/search.cpp b/src/search.cpp index 320f480c..fefc8864 100644 --- a/src/search.cpp +++ b/src/search.cpp @@ -170,11 +170,6 @@ namespace { int SkillLevel; bool SkillLevelEnabled; - // Node counters, used only by thread[0] but try to keep in different cache - // lines (64 bytes each) from the heavy multi-thread read accessed variables. - int NodesSincePoll; - int NodesBetweenPolls = 30000; - // History table History H; @@ -199,13 +194,12 @@ namespace { void update_history(const Position& pos, Move move, Depth depth, Move movesSearched[], int moveCount); void do_skill_level(Move* best, Move* ponder); - int current_search_time(int set = 0); + int elapsed_search_time(int set = 0); string score_to_uci(Value v, Value alpha = -VALUE_INFINITE, Value beta = VALUE_INFINITE); string speed_to_uci(int64_t nodes); string pv_to_uci(const Move pv[], int pvNum, bool chess960); string pretty_pv(Position& pos, int depth, Value score, int time, Move pv[]); string depth_to_uci(Depth depth); - void poll(const Position& pos); void wait_for_stop_or_ponderhit(); // MovePickerExt template class extends MovePicker and allows to choose at compile @@ -363,24 +357,13 @@ bool think(Position& pos, const SearchLimits& limits, Move searchMoves[]) { // Initialize global search-related variables StopOnPonderhit = StopRequest = QuitRequest = AspirationFailLow = false; - NodesSincePoll = 0; - current_search_time(get_system_time()); + elapsed_search_time(get_system_time()); Limits = limits; TimeMgr.init(Limits, pos.startpos_ply_counter()); // Set output steram in normal or chess960 mode cout << set960(pos.is_chess960()); - // Set best NodesBetweenPolls interval to avoid lagging under time pressure - if (Limits.maxNodes) - NodesBetweenPolls = std::min(Limits.maxNodes, 30000); - else if (Limits.time && Limits.time < 1000) - NodesBetweenPolls = 1000; - else if (Limits.time && Limits.time < 5000) - NodesBetweenPolls = 5000; - else - NodesBetweenPolls = 30000; - // Look for a book move if (Options["OwnBook"].value()) { @@ -398,6 +381,12 @@ bool think(Position& pos, const SearchLimits& limits, Move searchMoves[]) { } } + // Set best timer interval to avoid lagging under time pressure + if (TimeMgr.available_time()) + Threads.set_timer(std::min(100, std::max(TimeMgr.available_time() / 8, 20))); + else + Threads.set_timer(100); + // Read UCI options UCIMultiPV = Options["MultiPV"].value(); SkillLevel = Options["Skill Level"].value(); @@ -447,14 +436,16 @@ bool think(Position& pos, const SearchLimits& limits, Move searchMoves[]) { Move ponderMove = MOVE_NONE; Move bestMove = id_loop(pos, searchMoves, &ponderMove); + Threads.set_timer(0); + // Write final search statistics and close log file if (Options["Use Search Log"].value()) { - int t = current_search_time(); + int e = elapsed_search_time(); Log log(Options["Search Log Filename"].value()); log << "Nodes: " << pos.nodes_searched() - << "\nNodes/second: " << (t > 0 ? pos.nodes_searched() * 1000 / t : 0) + << "\nNodes/second: " << (e > 0 ? pos.nodes_searched() * 1000 / e : 0) << "\nBest move: " << move_to_san(pos, bestMove); StateInfo st; @@ -591,7 +582,7 @@ namespace { // if we have a fail high/low and we are deep in the search. UCI // protocol requires to send all the PV lines also if are still // to be searched and so refer to the previous search's score. - if ((value > alpha && value < beta) || current_search_time() > 2000) + if ((value > alpha && value < beta) || elapsed_search_time() > 2000) for (int i = 0; i < std::min(UCIMultiPV, (int)Rml.size()); i++) { bool updated = (i <= MultiPVIdx); @@ -644,7 +635,7 @@ namespace { if (Options["Use Search Log"].value()) { Log log(Options["Search Log Filename"].value()); - log << pretty_pv(pos, depth, value, current_search_time(), &Rml[0].pv[0]) << endl; + log << pretty_pv(pos, depth, value, elapsed_search_time(), &Rml[0].pv[0]) << endl; } // Init easyMove at first iteration or drop it if differs from the best move @@ -663,9 +654,9 @@ namespace { && easyMove == bestMove && ( Rml.size() == 1 ||( Rml[0].nodes > (pos.nodes_searched() * 85) / 100 - && current_search_time() > TimeMgr.available_time() / 16) + && elapsed_search_time() > TimeMgr.available_time() / 16) ||( Rml[0].nodes > (pos.nodes_searched() * 98) / 100 - && current_search_time() > TimeMgr.available_time() / 32))) + && elapsed_search_time() > TimeMgr.available_time() / 32))) StopRequest = true; // Take in account some extra time if the best move has changed @@ -674,7 +665,7 @@ namespace { // Stop search if most of available time is already consumed. We probably don't // have enough time to search the first move at the next iteration anyway. - if (current_search_time() > (TimeMgr.available_time() * 62) / 100) + if (elapsed_search_time() > (TimeMgr.available_time() * 62) / 100) StopRequest = true; // If we are allowed to ponder do not stop the search now but keep pondering @@ -743,7 +734,7 @@ namespace { if (PvNode && thread.maxPly < ss->ply) thread.maxPly = ss->ply; - // Step 1. Initialize node and poll. Polling can abort search + // Step 1. Initialize node if (!SpNode) { ss->currentMove = ss->bestMove = threatMove = (ss+1)->excludedMove = MOVE_NONE; @@ -759,12 +750,6 @@ namespace { goto split_point_start; } - if (pos.thread() == 0 && ++NodesSincePoll > NodesBetweenPolls) - { - NodesSincePoll = 0; - poll(pos); - } - // Step 2. Check for aborted search and immediate draw if (( StopRequest || pos.is_draw() @@ -1031,7 +1016,7 @@ split_point_start: // At split points actual search starts from here nodes = pos.nodes_searched(); // For long searches send current move info to GUI - if (pos.thread() == 0 && current_search_time() > 2000) + if (pos.thread() == 0 && elapsed_search_time() > 2000) cout << "info" << depth_to_uci(depth) << " currmove " << move << " currmovenumber " << moveCount + MultiPVIdx << endl; @@ -1745,7 +1730,7 @@ split_point_start: // At split points actual search starts from here // current_search_time() returns the number of milliseconds which have passed // since the beginning of the current search. - int current_search_time(int set) { + int elapsed_search_time(int set) { static int searchStartTime; @@ -1784,7 +1769,7 @@ split_point_start: // At split points actual search starts from here string speed_to_uci(int64_t nodes) { std::stringstream s; - int t = current_search_time(); + int t = elapsed_search_time(); s << " nodes " << nodes << " nps " << (t > 0 ? int(nodes * 1000 / t) : 0) @@ -1910,49 +1895,6 @@ split_point_start: // At split points actual search starts from here return s.str(); } - // poll() performs two different functions: It polls for user input, and it - // looks at the time consumed so far and decides if it's time to abort the - // search. - - void poll(const Position& pos) { - - static int lastInfoTime; - int t = current_search_time(); - - // Print search information - if (t < 1000) - lastInfoTime = 0; - - else if (lastInfoTime > t) - // HACK: Must be a new search where we searched less than - // NodesBetweenPolls nodes during the first second of search. - lastInfoTime = 0; - - else if (t - lastInfoTime >= 1000) - { - lastInfoTime = t; - - dbg_print_mean(); - dbg_print_hit_rate(); - } - - // Should we stop the search? - if (Limits.ponder) - return; - - bool stillAtFirstMove = FirstRootMove - && !AspirationFailLow - && t > TimeMgr.available_time(); - - bool noMoreTime = t > TimeMgr.maximum_time() - || stillAtFirstMove; - - if ( (Limits.useTimeManagement() && noMoreTime) - || (Limits.maxTime && t >= Limits.maxTime) - || (Limits.maxNodes && pos.nodes_searched() >= Limits.maxNodes)) // FIXME - StopRequest = true; - } - // wait_for_stop_or_ponderhit() is called when the maximum depth is reached // while the program is pondering. The point is to work around a wrinkle in @@ -2225,10 +2167,10 @@ void Thread::idle_loop(SplitPoint* sp) { } -// ThreadsManager::do_uci_async_cmd() processes the commands from GUI received -// by listener thread while the other threads are searching. +// do_uci_async_cmd() is called by listener thread when in async mode and 'cmd' +// input line is received from the GUI. -void ThreadsManager::do_uci_async_cmd(const std::string& cmd) { +void do_uci_async_cmd(const std::string& cmd) { if (cmd == "quit") { @@ -2254,3 +2196,37 @@ void ThreadsManager::do_uci_async_cmd(const std::string& cmd) { StopRequest = true; } } + + +// do_timer_event() is called by the timer thread when the timer triggers + +void do_timer_event() { + + static int lastInfoTime; + int e = elapsed_search_time(); + + // Print debug information every second + if (get_system_time() - lastInfoTime >= 1000) + { + lastInfoTime = get_system_time(); + + dbg_print_mean(); + dbg_print_hit_rate(); + } + + // Should we stop the search? + if (Limits.ponder) + return; + + bool stillAtFirstMove = FirstRootMove + && !AspirationFailLow + && e > TimeMgr.available_time(); + + bool noMoreTime = e > TimeMgr.maximum_time() + || stillAtFirstMove; + + if ( (Limits.useTimeManagement() && noMoreTime) + || (Limits.maxTime && e >= Limits.maxTime) + /* missing nodes limit */ ) // FIXME + StopRequest = true; +}