X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fsearch.cpp;h=3ad5423d9d41a7f4600dc97cce32bed306514b2c;hp=1582b7bc01e841468227e6ca3fd1fd4188db6c1a;hb=f1d982e2c07372627394b83cf24f48e77a34145b;hpb=95aadb5e53b6b605412682e0138235c6710138d1 diff --git a/src/search.cpp b/src/search.cpp index 1582b7bc..3ad5423d 100644 --- a/src/search.cpp +++ b/src/search.cpp @@ -23,6 +23,7 @@ //// #include +#include #include #include #include @@ -47,6 +48,26 @@ namespace { /// Types + // IterationInfoType stores search results for each iteration + // + // Because we use relatively small (dynamic) aspiration window, + // there happens many fail highs and fail lows in root. And + // because we don't do researches in those cases, "value" stored + // here is not necessarily exact. Instead in case of fail high/low + // we guess what the right value might be and store our guess + // as a "speculated value" and then move on. Speculated values are + // used just to calculate aspiration window width, so also if are + // not exact is not big a problem. + + struct IterationInfoType { + + IterationInfoType(Value v = Value(0), Value sv = Value(0)) + : value(v), speculatedValue(sv) {} + + Value value, speculatedValue; + }; + + // The BetaCounterType class is used to order moves at ply one. // Apart for the first one that has its score, following moves // normally have score -VALUE_INFINITE, so are ordered according @@ -108,18 +129,17 @@ namespace { }; - /// Constants and variables + /// Constants and variables initialized from UCI options // Minimum number of full depth (i.e. non-reduced) moves at PV and non-PV - // nodes: - int LMRPVMoves = 15; - int LMRNonPVMoves = 4; + // nodes + int LMRPVMoves, LMRNonPVMoves; - // Depth limit for use of dynamic threat detection: - Depth ThreatDepth = 5*OnePly; + // Depth limit for use of dynamic threat detection + Depth ThreatDepth; - // Depth limit for selective search: - Depth SelectiveDepth = 7*OnePly; + // Depth limit for selective search + const Depth SelectiveDepth = 7*OnePly; // Use internal iterative deepening? const bool UseIIDAtPVNodes = true; @@ -156,33 +176,34 @@ namespace { const bool PruneBlockingMoves = false; // Use futility pruning? - bool UseQSearchFutilityPruning = true; - bool UseFutilityPruning = true; + bool UseQSearchFutilityPruning, UseFutilityPruning; // Margins for futility pruning in the quiescence search, and at frontier // and near frontier nodes - Value FutilityMarginQS = Value(0x80); - Value FutilityMargins[6] = { Value(0x100), Value(0x200), Value(0x250), - Value(0x2A0), Value(0x340), Value(0x3A0) }; + const Value FutilityMarginQS = Value(0x80); + + // Remaining depth: 1 ply 1.5 ply 2 ply 2.5 ply 3 ply 3.5 ply + const Value FutilityMargins[12] = { Value(0x100), Value(0x120), Value(0x200), Value(0x220), Value(0x250), Value(0x270), + // 4 ply 4.5 ply 5 ply 5.5 ply 6 ply 6.5 ply + Value(0x2A0), Value(0x2C0), Value(0x340), Value(0x360), Value(0x3A0), Value(0x3C0) }; + // Razoring + const Depth RazorDepth = 4*OnePly; - // Razoring - const bool RazorAtDepthOne = false; - Depth RazorDepth = 4*OnePly; - Value RazorMargin = Value(0x300); + // Remaining depth: 1 ply 1.5 ply 2 ply 2.5 ply 3 ply 3.5 ply + const Value RazorMargins[6] = { Value(0x180), Value(0x300), Value(0x300), Value(0x3C0), Value(0x3C0), Value(0x3C0) }; + + // Remaining depth: 1 ply 1.5 ply 2 ply 2.5 ply 3 ply 3.5 ply + const Value RazorApprMargins[6] = { Value(0x520), Value(0x300), Value(0x300), Value(0x300), Value(0x300), Value(0x300) }; // Last seconds noise filtering (LSN) - bool UseLSNFiltering = false; + bool UseLSNFiltering; bool looseOnTime = false; - int LSNTime = 4 * 1000; // In milliseconds - Value LSNValue = Value(0x200); + int LSNTime; // In milliseconds + Value LSNValue; - // Extensions. Array index 0 is used at non-PV nodes, index 1 at PV nodes. - Depth CheckExtension[2] = {OnePly, OnePly}; - Depth SingleReplyExtension[2] = {OnePly / 2, OnePly / 2}; - Depth PawnPushTo7thExtension[2] = {OnePly / 2, OnePly / 2}; - Depth PassedPawnExtension[2] = {Depth(0), Depth(0)}; - Depth PawnEndgameExtension[2] = {OnePly, OnePly}; - Depth MateThreatExtension[2] = {Depth(0), Depth(0)}; + // Extensions. Array index 0 is used at non-PV nodes, index 1 at PV nodes. + Depth CheckExtension[2], SingleReplyExtension[2], PawnPushTo7thExtension[2]; + Depth PassedPawnExtension[2], PawnEndgameExtension[2], MateThreatExtension[2]; // Search depth at iteration 1 const Depth InitialDepth = OnePly /*+ OnePly/2*/; @@ -196,11 +217,11 @@ namespace { BetaCounterType BetaCounter; // Scores and number of times the best move changed for each iteration: - Value ValueByIteration[PLY_MAX_PLUS_2]; + IterationInfoType IterationInfo[PLY_MAX_PLUS_2]; int BestMoveChangesByIteration[PLY_MAX_PLUS_2]; // MultiPV mode - int MultiPV = 1; + int MultiPV; // Time managment variables int SearchStartTime; @@ -214,20 +235,21 @@ namespace { bool AbortSearch; bool Quit; bool FailHigh; + bool FailLow; bool Problem; bool PonderingEnabled; int ExactMaxTime; // Show current line? - bool ShowCurrentLine = false; + bool ShowCurrentLine; // Log file - bool UseLogFile = false; + bool UseLogFile; std::ofstream LogFile; // MP related variables - Depth MinimumSplitDepth = 4*OnePly; - int MaxThreadsPerSplitPoint = 4; + Depth MinimumSplitDepth; + int MaxThreadsPerSplitPoint; Thread Threads[THREAD_MAX]; Lock MPLock; bool AllThreadsShouldExit = false; @@ -246,13 +268,10 @@ namespace { /// Functions Value id_loop(const Position &pos, Move searchMoves[]); - Value root_search(Position &pos, SearchStack ss[], RootMoveList &rml); - Value search_pv(Position &pos, SearchStack ss[], Value alpha, Value beta, - Depth depth, int ply, int threadID); - Value search(Position &pos, SearchStack ss[], Value beta, - Depth depth, int ply, bool allowNullmove, int threadID); - Value qsearch(Position &pos, SearchStack ss[], Value alpha, Value beta, - Depth depth, int ply, int threadID); + Value root_search(Position &pos, SearchStack ss[], RootMoveList &rml, Value alpha, Value beta); + Value search_pv(Position &pos, SearchStack ss[], Value alpha, Value beta, Depth depth, int ply, int threadID); + Value search(Position &pos, SearchStack ss[], Value beta, Depth depth, int ply, bool allowNullmove, int threadID); + Value qsearch(Position &pos, SearchStack ss[], Value alpha, Value beta, Depth depth, int ply, int threadID); void sp_search(SplitPoint *sp, int threadID); void sp_search_pv(SplitPoint *sp, int threadID); void init_node(SearchStack ss[], int ply, int threadID); @@ -302,7 +321,7 @@ namespace { //// // The main transposition table -TranspositionTable TT = TranspositionTable(TTDefaultSize); +TranspositionTable TT; // Number of active threads: @@ -380,6 +399,7 @@ void think(const Position &pos, bool infinite, bool ponder, int side_to_move, AbortSearch = false; Quit = false; FailHigh = false; + FailLow = false; Problem = false; ExactMaxTime = maxTime; @@ -412,7 +432,6 @@ void think(const Position &pos, bool infinite, bool ponder, int side_to_move, LMRPVMoves = get_option_value_int("Full Depth Moves (PV nodes)") + 1; LMRNonPVMoves = get_option_value_int("Full Depth Moves (non-PV nodes)") + 1; ThreatDepth = get_option_value_int("Threat Depth") * OnePly; - SelectiveDepth = get_option_value_int("Selective Plies") * OnePly; Chess960 = get_option_value_bool("UCI_Chess960"); ShowCurrentLine = get_option_value_bool("UCI_ShowCurrLine"); @@ -423,14 +442,6 @@ void think(const Position &pos, bool infinite, bool ponder, int side_to_move, UseQSearchFutilityPruning = get_option_value_bool("Futility Pruning (Quiescence Search)"); UseFutilityPruning = get_option_value_bool("Futility Pruning (Main Search)"); - FutilityMarginQS = value_from_centipawns(get_option_value_int("Futility Margin (Quiescence Search)")); - int fmScale = get_option_value_int("Futility Margin Scale Factor (Main Search)"); - for (int i = 0; i < 6; i++) - FutilityMargins[i] = (FutilityMargins[i] * fmScale) / 100; - - RazorDepth = (get_option_value_int("Maximum Razoring Depth") + 1) * OnePly; - RazorMargin = value_from_centipawns(get_option_value_int("Razoring Margin")); - UseLSNFiltering = get_option_value_bool("LSN filtering"); LSNTime = get_option_value_int("LSN Time Margin (sec)") * 1000; LSNValue = value_from_centipawns(get_option_value_int("LSN Value Margin")); @@ -654,14 +665,13 @@ namespace { ss[i].init(i); ss[i].initKillers(); } - ValueByIteration[0] = Value(0); - ValueByIteration[1] = rml.get_move_score(0); + IterationInfo[1] = IterationInfoType(rml.get_move_score(0), rml.get_move_score(0)); Iteration = 1; EasyMove = rml.scan_for_easy_move(); // Iterative deepening loop - while (!AbortSearch && Iteration < PLY_MAX) + while (Iteration < PLY_MAX) { // Initialize iteration rml.sort(); @@ -672,8 +682,62 @@ namespace { std::cout << "info depth " << Iteration << std::endl; + // Calculate dynamic search window based on previous iterations + Value alpha, beta; + + if (MultiPV == 1 && Iteration >= 6) + { + int prevDelta1 = IterationInfo[Iteration - 1].speculatedValue - IterationInfo[Iteration - 2].speculatedValue; + int prevDelta2 = IterationInfo[Iteration - 2].speculatedValue - IterationInfo[Iteration - 3].speculatedValue; + + int delta = Max(2 * abs(prevDelta1) + abs(prevDelta2), ProblemMargin); + + alpha = Max(IterationInfo[Iteration - 1].value - delta, -VALUE_INFINITE); + beta = Min(IterationInfo[Iteration - 1].value + delta, VALUE_INFINITE); + } + else + { + alpha = - VALUE_INFINITE; + beta = VALUE_INFINITE; + } + // Search to the current depth - ValueByIteration[Iteration] = root_search(p, ss, rml); + Value value = root_search(p, ss, rml, alpha, beta); + + // Write PV to transposition table, in case the relevant entries have + // been overwritten during the search. + TT.insert_pv(p, ss[0].pv); + + if (AbortSearch) + break; // Value cannot be trusted. Break out immediately! + + //Save info about search result + Value speculatedValue; + bool fHigh = false; + bool fLow = false; + Value delta = value - IterationInfo[Iteration - 1].value; + + if (value >= beta) + { + assert(delta > 0); + + fHigh = true; + speculatedValue = value + delta; + BestMoveChangesByIteration[Iteration] += 2; // Allocate more time + } + else if (value <= alpha) + { + assert(value == alpha); + assert(delta < 0); + + fLow = true; + speculatedValue = value + delta; + BestMoveChangesByIteration[Iteration] += 3; // Allocate more time + } else + speculatedValue = value; + + speculatedValue = Min(Max(speculatedValue, -VALUE_INFINITE), VALUE_INFINITE); + IterationInfo[Iteration] = IterationInfoType(value, speculatedValue); // Erase the easy move if it differs from the new best move if (ss[0].pv[0] != EasyMove) @@ -692,13 +756,15 @@ namespace { // Stop search early when the last two iterations returned a mate score if ( Iteration >= 6 - && abs(ValueByIteration[Iteration]) >= abs(VALUE_MATE) - 100 - && abs(ValueByIteration[Iteration-1]) >= abs(VALUE_MATE) - 100) + && abs(IterationInfo[Iteration].value) >= abs(VALUE_MATE) - 100 + && abs(IterationInfo[Iteration-1].value) >= abs(VALUE_MATE) - 100) stopSearch = true; // Stop search early if one move seems to be much better than the rest int64_t nodes = nodes_searched(); if ( Iteration >= 8 + && !fLow + && !fHigh && EasyMove == ss[0].pv[0] && ( ( rml.get_move_cumulative_nodes(0) > (nodes * 85) / 100 && current_search_time() > MaxSearchTime / 16) @@ -719,15 +785,13 @@ namespace { if (stopSearch) { + //FIXME: Implement fail-low emergency measures if (!PonderSearch) break; else StopOnPonderhit = true; } } - // Write PV to transposition table, in case the relevant entries have - // been overwritten during the search: - TT.insert_pv(p, ss[0].pv); if (MaxDepth && Iteration >= MaxDepth) break; @@ -784,15 +848,23 @@ namespace { // scheme (perhaps we should try to use this at internal PV nodes, too?) // and prints some information to the standard output. - Value root_search(Position &pos, SearchStack ss[], RootMoveList &rml) { + Value root_search(Position &pos, SearchStack ss[], RootMoveList &rml, Value alpha, Value beta) { - Value alpha = -VALUE_INFINITE; - Value beta = VALUE_INFINITE, value; + Value oldAlpha = alpha; + Value value; Bitboard dcCandidates = pos.discovered_check_candidates(pos.side_to_move()); // Loop through all the moves in the root move list for (int i = 0; i < rml.move_count() && !AbortSearch; i++) { + if (alpha >= beta) + { + // We failed high, invalidate and skip next moves, leave node-counters + // and beta-counters as they are and quickly return, we will try to do + // a research at the next iteration with a bigger aspiration window. + rml.set_move_score(i, -VALUE_INFINITE); + continue; + } int64_t nodes; Move move; StateInfo st; @@ -825,12 +897,12 @@ namespace { if (i < MultiPV) { - value = -search_pv(pos, ss, -beta, VALUE_INFINITE, newDepth, 1, 0); + value = -search_pv(pos, ss, -beta, -alpha, newDepth, 1, 0); // If the value has dropped a lot compared to the last iteration, // set the boolean variable Problem to true. This variable is used // for time managment: When Problem is true, we try to complete the // current iteration before playing a move. - Problem = (Iteration >= 2 && value <= ValueByIteration[Iteration-1] - ProblemMargin); + Problem = (Iteration >= 2 && value <= IterationInfo[Iteration-1].value - ProblemMargin); if (Problem && StopOnPonderhit) StopOnPonderhit = false; @@ -855,7 +927,7 @@ namespace { // was aborted because the user interrupted the search or because we // ran out of time. In this case, the return value of the search cannot // be trusted, and we break out of the loop without updating the best - // move and/or PV: + // move and/or PV. if (AbortSearch) break; @@ -874,7 +946,7 @@ namespace { rml.set_move_score(i, -VALUE_INFINITE); else { - // New best move! + // PV move or new best move! // Update PV rml.set_move_score(i, value); @@ -906,11 +978,12 @@ namespace { LogFile << pretty_pv(pos, current_search_time(), Iteration, nodes_searched(), value, ss[0].pv) << std::endl; - alpha = value; + if (value > alpha) + alpha = value; // Reset the global variable Problem to false if the value isn't too // far below the final value from the last iteration. - if (value > ValueByIteration[Iteration - 1] - NoProblemMargin) + if (value > IterationInfo[Iteration - 1].value - NoProblemMargin) Problem = false; } else // MultiPV > 1 @@ -934,7 +1007,11 @@ namespace { } alpha = rml.get_move_score(Min(i, MultiPV-1)); } - } + } // New best move case + + assert(alpha >= oldAlpha); + + FailLow = (alpha == oldAlpha); } return alpha; } @@ -1083,7 +1160,7 @@ namespace { // (from the computer's point of view) since the previous iteration: if ( ply == 1 && Iteration >= 2 - && -value <= ValueByIteration[Iteration-1] - ProblemMargin) + && -value <= IterationInfo[Iteration-1].value - ProblemMargin) Problem = true; } @@ -1111,7 +1188,7 @@ namespace { return bestValue; if (bestValue <= oldAlpha) - TT.store(pos, value_to_tt(bestValue, ply), depth, MOVE_NONE, VALUE_TYPE_UPPER); + TT.store(pos, value_to_tt(bestValue, ply), VALUE_TYPE_UPPER, depth, MOVE_NONE); else if (bestValue >= beta) { @@ -1122,10 +1199,10 @@ namespace { update_history(pos, m, depth, movesSearched, moveCount); update_killers(m, ss[ply]); } - TT.store(pos, value_to_tt(bestValue, ply), depth, m, VALUE_TYPE_LOWER); + TT.store(pos, value_to_tt(bestValue, ply), VALUE_TYPE_LOWER, depth, m); } else - TT.store(pos, value_to_tt(bestValue, ply), depth, ss[ply].pv[ply], VALUE_TYPE_EXACT); + TT.store(pos, value_to_tt(bestValue, ply), VALUE_TYPE_EXACT, depth, ss[ply].pv[ply]); return bestValue; } @@ -1230,17 +1307,14 @@ namespace { } // Null move search not allowed, try razoring else if ( !value_is_mate(beta) - && approximateEval < beta - RazorMargin && depth < RazorDepth - && (RazorAtDepthOne || depth > OnePly) + && approximateEval < beta - RazorApprMargins[int(depth) - 2] && ttMove == MOVE_NONE && !pos.has_pawn_on_7th(pos.side_to_move())) { Value v = qsearch(pos, ss, beta-1, beta, Depth(0), ply, threadID); - if ( (v < beta - RazorMargin - RazorMargin / 4) - || (depth <= 2*OnePly && v < beta - RazorMargin) - || (depth <= OnePly && v < beta - RazorMargin / 2)) - return v; + if (v < beta - RazorMargins[int(depth) - 2]) + return v; } // Go with internal iterative deepening if we don't have a TT move @@ -1295,12 +1369,11 @@ namespace { continue; // Value based pruning - if (depth < 7 * OnePly && approximateEval < beta) + if (approximateEval < beta) { if (futilityValue == VALUE_NONE) futilityValue = evaluate(pos, ei, threadID) - + FutilityMargins[int(depth)/2 - 1] - + 32 * (depth & 1); + + FutilityMargins[int(depth) - 2]; if (futilityValue < beta) { @@ -1375,7 +1448,7 @@ namespace { return bestValue; if (bestValue < beta) - TT.store(pos, value_to_tt(bestValue, ply), depth, MOVE_NONE, VALUE_TYPE_UPPER); + TT.store(pos, value_to_tt(bestValue, ply), VALUE_TYPE_UPPER, depth, MOVE_NONE); else { BetaCounter.add(pos.side_to_move(), depth, threadID); @@ -1385,7 +1458,7 @@ namespace { update_history(pos, m, depth, movesSearched, moveCount); update_killers(m, ss[ply]); } - TT.store(pos, value_to_tt(bestValue, ply), depth, m, VALUE_TYPE_LOWER); + TT.store(pos, value_to_tt(bestValue, ply), VALUE_TYPE_LOWER, depth, m); } assert(bestValue > -VALUE_INFINITE && bestValue < VALUE_INFINITE); @@ -1431,6 +1504,7 @@ namespace { return value_from_tt(tte->value(), ply); } } + Move ttMove = (tte ? tte->move() : MOVE_NONE); // Evaluate the position statically EvalInfo ei; @@ -1463,7 +1537,7 @@ namespace { { // Store the score to avoid a future costly evaluation() call if (!isCheck && !tte && ei.futilityMargin == 0) - TT.store(pos, value_to_tt(bestValue, ply), Depth(-127*OnePly), MOVE_NONE, VALUE_TYPE_EVAL); + TT.store(pos, value_to_tt(bestValue, ply), VALUE_TYPE_EVAL, Depth(-127*OnePly), MOVE_NONE); return bestValue; } @@ -1474,7 +1548,7 @@ namespace { // Initialize a MovePicker object for the current position, and prepare // to search the moves. Because the depth is <= 0 here, only captures, // queen promotions and checks (only if depth == 0) will be generated. - MovePicker mp = MovePicker(pos, pvNode, MOVE_NONE, EmptySearchStack, depth); + MovePicker mp = MovePicker(pos, pvNode, ttMove, EmptySearchStack, depth); Move move; int moveCount = 0; Bitboard dcCandidates = mp.discovered_check_candidates(); @@ -1551,22 +1625,20 @@ namespace { assert(bestValue > -VALUE_INFINITE && bestValue < VALUE_INFINITE); // Update transposition table + Move m = ss[ply].pv[ply]; if (!pvNode) { Depth d = (depth == Depth(0) ? Depth(0) : Depth(-1)); if (bestValue < beta) - TT.store(pos, value_to_tt(bestValue, ply), d, MOVE_NONE, VALUE_TYPE_UPPER); + TT.store(pos, value_to_tt(bestValue, ply), VALUE_TYPE_UPPER, d, MOVE_NONE); else - TT.store(pos, value_to_tt(bestValue, ply), d, MOVE_NONE, VALUE_TYPE_LOWER); + TT.store(pos, value_to_tt(bestValue, ply), VALUE_TYPE_LOWER, d, m); } // Update killers only for good check moves - Move m = ss[ply].currentMove; if (alpha >= beta && ok_to_history(pos, m)) // Only non capture moves are considered - { - // Wrong to update history when depth is <= 0 update_killers(m, ss[ply]); - } + return bestValue; } @@ -1796,7 +1868,7 @@ namespace { // (from the computer's point of view) since the previous iteration. if ( sp->ply == 1 && Iteration >= 2 - && -value <= ValueByIteration[Iteration-1] - ProblemMargin) + && -value <= IterationInfo[Iteration-1].value - ProblemMargin) Problem = true; } lock_release(&(sp->lock)); @@ -2425,8 +2497,8 @@ namespace { return; bool overTime = t > AbsoluteMaxSearchTime - || (RootMoveNumber == 1 && t > MaxSearchTime + ExtraSearchTime) - || ( !FailHigh && !fail_high_ply_1() && !Problem + || (RootMoveNumber == 1 && t > MaxSearchTime + ExtraSearchTime && !FailLow) //FIXME: We are not checking any problem flags, BUG? + || ( !FailHigh && !FailLow && !fail_high_ply_1() && !Problem && t > 6*(MaxSearchTime + ExtraSearchTime)); if ( (Iteration >= 3 && (!InfiniteSearch && overTime)) @@ -2447,8 +2519,8 @@ namespace { (!InfiniteSearch && (StopOnPonderhit || t > AbsoluteMaxSearchTime || (RootMoveNumber == 1 && - t > MaxSearchTime + ExtraSearchTime) || - (!FailHigh && !fail_high_ply_1() && !Problem && + t > MaxSearchTime + ExtraSearchTime && !FailLow) || + (!FailHigh && !FailLow && !fail_high_ply_1() && !Problem && t > 6*(MaxSearchTime + ExtraSearchTime))))) AbortSearch = true; }