X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fsearch.cpp;h=0f2373cd28fd28838c1e79990c5d26349ae554a2;hp=eda9d2929847377916e20fc7608e3c7659531c2f;hb=500c7f44ab46ca6303c465586a17fa63b8488cb4;hpb=1e92df6b20aa224026b435e03169edaf4bbecdc1 diff --git a/src/search.cpp b/src/search.cpp index eda9d292..0f2373cd 100644 --- a/src/search.cpp +++ b/src/search.cpp @@ -409,9 +409,7 @@ bool think(Position& pos, const SearchLimits& limits, Move searchMoves[]) { read_evaluation_uci_options(pos.side_to_move()); Threads.read_uci_options(); - // Allocate pawn and material hash tables if number of active threads - // increased and set a new TT size if changed. - Threads.init_hash_tables(); + // Set a new TT size if changed TT.set_size(Options["Hash"].value()); if (Options["Clear Hash"].value()) @@ -536,8 +534,10 @@ namespace { Rml.bestMoveChanges = 0; - // MultiPV iteration loop - for (MultiPVIteration = 0; MultiPVIteration < Min(MultiPV, (int)Rml.size()); MultiPVIteration++) + // MultiPV iteration loop. At depth 1 perform at least 2 iterations to + // get a score of the second best move for easy move detection. + int e = Min(Max(MultiPV, 2 * int(depth == 1)), (int)Rml.size()); + for (MultiPVIteration = 0; MultiPVIteration < e; MultiPVIteration++) { // Calculate dynamic aspiration window based on previous iterations if (depth >= 5 && abs(Rml[MultiPVIteration].prevScore) < VALUE_KNOWN_WIN) @@ -1002,8 +1002,7 @@ split_point_start: // At split points actual search starts from here << " currmovenumber " << moveCount + MultiPVIteration << endl; } - // At Root and at first iteration do a PV search on all the moves to score root moves - isPvMove = (PvNode && moveCount <= (RootNode && depth <= ONE_PLY ? MAX_MOVES : 1)); + isPvMove = (PvNode && moveCount == 1); givesCheck = pos.move_gives_check(move, ci); captureOrPromotion = pos.move_is_capture_or_promotion(move); @@ -2130,13 +2129,11 @@ split_point_start: // At split points actual search starts from here } // namespace -// Little helper used by idle_loop() to check that all the slaves of a -// master thread have finished searching. +// Little helper used by idle_loop() to check that all the slave threads of a +// split point have finished searching. static bool all_slaves_finished(SplitPoint* sp) { - assert(sp); - for (int i = 0; i < Threads.size(); i++) if (sp->is_slave[i]) return false; @@ -2157,7 +2154,7 @@ void Thread::idle_loop(SplitPoint* sp) { // instead of wasting CPU time polling for work. while ( do_sleep || do_terminate - || (Threads.use_sleeping_threads() && state == Thread::AVAILABLE)) + || (Threads.use_sleeping_threads() && !is_searching)) { assert((!sp && threadID) || Threads.use_sleeping_threads()); @@ -2168,7 +2165,6 @@ void Thread::idle_loop(SplitPoint* sp) { if (do_terminate) { assert(!sp); - state = Thread::TERMINATED; lock_release(&sleepLock); return; } @@ -2184,19 +2180,17 @@ void Thread::idle_loop(SplitPoint* sp) { // particular we need to avoid a deadlock in case a master thread has, // in the meanwhile, allocated us and sent the wake_up() call before we // had the chance to grab the lock. - if (do_sleep || state == Thread::AVAILABLE) + if (do_sleep || !is_searching) cond_wait(&sleepCond, &sleepLock); lock_release(&sleepLock); } // If this thread has been assigned work, launch a search - if (state == Thread::WORKISWAITING) + if (is_searching) { assert(!do_terminate); - state = Thread::SEARCHING; - // Copy split point position and search stack and call search() SearchStack ss[PLY_MAX_PLUS_2]; SplitPoint* tsp = splitPoint; @@ -2214,15 +2208,15 @@ void Thread::idle_loop(SplitPoint* sp) { else assert(false); - assert(state == Thread::SEARCHING); + assert(is_searching); - state = Thread::AVAILABLE; + is_searching = false; // Wake up master thread so to allow it to return from the idle loop in // case we are the last slave of the split point. if ( Threads.use_sleeping_threads() && threadID != tsp->master - && Threads[tsp->master].state == Thread::AVAILABLE) + && !Threads[tsp->master].is_searching) Threads[tsp->master].wake_up(); }