X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fsearch.cpp;h=cff8e768a73693ec3ec29046165602aac7fd404c;hp=74dc9e29bdb4f2fafa53eb95a1b208413d2bfa45;hb=a24da071f0d6128c633febab7df55f14475217c3;hpb=a7cdf7299a771949332f8c7ef77ae8fd125d0f08 diff --git a/src/search.cpp b/src/search.cpp index 74dc9e29..cff8e768 100644 --- a/src/search.cpp +++ b/src/search.cpp @@ -1,7 +1,7 @@ /* Stockfish, a UCI chess playing engine derived from Glaurung 2.1 Copyright (C) 2004-2008 Tord Romstad (Glaurung author) - Copyright (C) 2008-2012 Marco Costalba, Joona Kiiski, Tord Romstad + Copyright (C) 2008-2013 Marco Costalba, Joona Kiiski, Tord Romstad Stockfish is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by @@ -182,7 +182,7 @@ void Search::think() { static PolyglotBook book; // Defined static to initialize the PRNG only once RootColor = RootPos.side_to_move(); - TimeMgr.init(Limits, RootPos.startpos_ply_counter(), RootColor); + TimeMgr.init(Limits, RootPos.game_ply(), RootColor); if (RootMoves.empty()) { @@ -293,7 +293,7 @@ namespace { Stack ss[MAX_PLY_PLUS_2]; int depth, prevBestMoveChanges; Value bestValue, alpha, beta, delta; - bool bestMoveNeverChanged = true; + bool triedEasyMove = false; memset(ss, 0, 4 * sizeof(Stack)); depth = BestMoveChanges = 0; @@ -416,10 +416,6 @@ namespace { << std::endl; } - // Filter out startup noise when monitoring best move stability - if (depth > 2 && BestMoveChanges) - bestMoveNeverChanged = false; - // Do we have found a "mate in x"? if ( Limits.mate && bestValue >= VALUE_MATE_IN_MAX_PLY @@ -444,10 +440,12 @@ namespace { // Stop search early if one move seems to be much better than others if ( depth >= 12 && !stop + && !triedEasyMove && PVSize == 1 - && ( (bestMoveNeverChanged && pos.captured_piece_type()) - || Time::now() - SearchTime > (TimeMgr.available_time() * 40) / 100)) + && ( RootMoves.size() == 1 + || Time::now() - SearchTime > (TimeMgr.available_time() * 20) / 100)) { + triedEasyMove = true; Value rBeta = bestValue - 2 * PawnValueMg; (ss+1)->excludedMove = RootMoves[0].pv[0]; (ss+1)->skipNullMove = true; @@ -494,7 +492,7 @@ namespace { Move movesSearched[64]; StateInfo st; const TTEntry *tte; - SplitPoint* sp; + SplitPoint* splitPoint; Key posKey; Move ttMove, move, excludedMove, bestMove, threatMove; Depth ext, newDepth; @@ -511,15 +509,15 @@ namespace { if (SpNode) { - sp = ss->sp; - bestMove = sp->bestMove; - threatMove = sp->threatMove; - bestValue = sp->bestValue; + splitPoint = ss->splitPoint; + bestMove = splitPoint->bestMove; + threatMove = splitPoint->threatMove; + bestValue = splitPoint->bestValue; tte = NULL; ttMove = excludedMove = MOVE_NONE; ttValue = VALUE_NONE; - assert(sp->bestValue > -VALUE_INFINITE && sp->moveCount > 0); + assert(splitPoint->bestValue > -VALUE_INFINITE && splitPoint->moveCount > 0); goto split_point_start; } @@ -794,8 +792,8 @@ split_point_start: // At split points actual search starts from here if (!pos.pl_move_is_legal(move, ci.pinned)) continue; - moveCount = ++sp->moveCount; - sp->mutex.unlock(); + moveCount = ++splitPoint->moveCount; + splitPoint->mutex.unlock(); } else moveCount++; @@ -861,9 +859,7 @@ split_point_start: // At split points actual search starts from here && !captureOrPromotion && !inCheck && !dangerous - && move != ttMove - && (bestValue > VALUE_MATED_IN_MAX_PLY || ( bestValue == -VALUE_INFINITE - && alpha > VALUE_MATED_IN_MAX_PLY))) + && move != ttMove) { // Move count based pruning if ( depth < 16 * ONE_PLY @@ -871,7 +867,7 @@ split_point_start: // At split points actual search starts from here && (!threatMove || !refutes(pos, move, threatMove))) { if (SpNode) - sp->mutex.lock(); + splitPoint->mutex.lock(); continue; } @@ -886,17 +882,17 @@ split_point_start: // At split points actual search starts from here if (futilityValue < beta) { if (SpNode) - sp->mutex.lock(); + splitPoint->mutex.lock(); continue; } // Prune moves with negative SEE at low depths - if ( predictedDepth < 2 * ONE_PLY + if ( predictedDepth < 3 * ONE_PLY && pos.see_sign(move) < 0) { if (SpNode) - sp->mutex.lock(); + splitPoint->mutex.lock(); continue; } @@ -929,7 +925,8 @@ split_point_start: // At split points actual search starts from here { ss->reduction = reduction(depth, moveCount); Depth d = std::max(newDepth - ss->reduction, ONE_PLY); - alpha = SpNode ? sp->alpha : alpha; + if (SpNode) + alpha = splitPoint->alpha; value = -search(pos, ss+1, -(alpha+1), -alpha, d); @@ -942,7 +939,9 @@ split_point_start: // At split points actual search starts from here // Step 16. Full depth search, when LMR is skipped or fails high if (doFullDepthSearch) { - alpha = SpNode ? sp->alpha : alpha; + if (SpNode) + alpha = splitPoint->alpha; + value = newDepth < ONE_PLY ? givesCheck ? -qsearch(pos, ss+1, -(alpha+1), -alpha, DEPTH_ZERO) : -qsearch(pos, ss+1, -(alpha+1), -alpha, DEPTH_ZERO) @@ -965,9 +964,9 @@ split_point_start: // At split points actual search starts from here // Step 18. Check for new best move if (SpNode) { - sp->mutex.lock(); - bestValue = sp->bestValue; - alpha = sp->alpha; + splitPoint->mutex.lock(); + bestValue = splitPoint->bestValue; + alpha = splitPoint->alpha; } // Finished searching the move. If Signals.stop is true, the search @@ -1002,20 +1001,20 @@ split_point_start: // At split points actual search starts from here if (value > bestValue) { - bestValue = SpNode ? sp->bestValue = value : value; + bestValue = SpNode ? splitPoint->bestValue = value : value; if (value > alpha) { - bestMove = SpNode ? sp->bestMove = move : move; + bestMove = SpNode ? splitPoint->bestMove = move : move; if (PvNode && value < beta) // Update alpha! Always alpha < beta - alpha = SpNode ? sp->alpha = value : value; + alpha = SpNode ? splitPoint->alpha = value : value; else { assert(value >= beta); // Fail high if (SpNode) - sp->cutoff = true; + splitPoint->cutoff = true; break; } @@ -1614,13 +1613,11 @@ void Thread::idle_loop() { // Pointer 'this_sp' is not null only if we are called from split(), and not // at the thread creation. So it means we are the split point's master. - const SplitPoint* this_sp = splitPointsSize ? activeSplitPoint : NULL; + SplitPoint* this_sp = splitPointsSize ? activeSplitPoint : NULL; assert(!this_sp || (this_sp->masterThread == this && searching)); - // If this thread is the master of a split point and all slaves have finished - // their work at this split point, return from the idle loop. - while (!this_sp || this_sp->slavesMask) + while (true) { // If we are not searching, wait for a condition to be signaled instead of // wasting CPU time polling for work. @@ -1668,7 +1665,7 @@ void Thread::idle_loop() { Position pos(*sp->pos, this); memcpy(ss, sp->ss - 1, 4 * sizeof(Stack)); - (ss+1)->sp = sp; + (ss+1)->splitPoint = sp; sp->mutex.lock(); @@ -1713,6 +1710,17 @@ void Thread::idle_loop() { // unsafe because if we are exiting there is a chance are already freed. sp->mutex.unlock(); } + + // If this thread is the master of a split point and all slaves have finished + // their work at this split point, return from the idle loop. + if (this_sp && !this_sp->slavesMask) + { + this_sp->mutex.lock(); + bool finished = !this_sp->slavesMask; // Retest under lock protection + this_sp->mutex.unlock(); + if (finished) + return; + } } }