X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fsearch.cpp;h=1d7abac02587cbaefc04b947be852180b0bde5c8;hp=fb3084247761dca2a60a4155546620fc936eff81;hb=aaa07fb161c6287aafe8c5532335d4034c816f5e;hpb=bdb586ac2b9b5cbbb3e42a8af13035b008403b72 diff --git a/src/search.cpp b/src/search.cpp index fb308424..1d7abac0 100644 --- a/src/search.cpp +++ b/src/search.cpp @@ -189,9 +189,6 @@ namespace { // 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) }; - // The main transposition table - TranspositionTable TT; - /// Variables initialized by UCI options @@ -202,7 +199,7 @@ namespace { Depth ThreatDepth; // heavy SMP read access // Last seconds noise filtering (LSN) - const bool UseLSNFiltering = true; + const bool UseLSNFiltering = false; const int LSNTime = 4000; // In milliseconds const Value LSNValue = value_from_centipawns(200); bool loseOnTime = false; @@ -414,6 +411,7 @@ bool think(const Position& pos, bool infinite, bool ponder, int side_to_move, read_weights(pos.side_to_move()); + // Set the number of active threads int newActiveThreads = get_option_value_int("Threads"); if (newActiveThreads != ActiveThreads) { @@ -474,7 +472,6 @@ bool think(const Position& pos, bool infinite, bool ponder, int side_to_move, else NodesBetweenPolls = 30000; - // Write information to search log file if (UseLogFile) LogFile << "Searching: " << pos.to_fen() << std::endl @@ -492,9 +489,9 @@ bool think(const Position& pos, bool infinite, bool ponder, int side_to_move, { Value v = id_loop(pos, searchMoves); loseOnTime = ( UseLSNFiltering - && myTime < LSNTime - && myIncrement == 0 - && v < -LSNValue); + && myTime < LSNTime + && myIncrement == 0 + && v < -LSNValue); } else { @@ -627,6 +624,15 @@ namespace { // searchMoves are verified, copied, scored and sorted RootMoveList rml(p, searchMoves); + // Print RootMoveList c'tor startup scoring to the standard output, + // so that we print information also for iteration 1. + std::cout << "info depth " << 1 << "\ninfo depth " << 1 + << " score " << value_to_string(rml.get_move_score(0)) + << " time " << current_search_time() + << " nodes " << nodes_searched() + << " nps " << nps() + << " pv " << rml.get_move(0) << "\n"; + // Initialize TT.new_search(); H.clear(); @@ -858,8 +864,9 @@ namespace { << " currmovenumber " << i + 1 << std::endl; // Decide search depth for this move + bool moveIsCapture = pos.move_is_capture(move); bool dangerous; - ext = extension(pos, move, true, pos.move_is_capture(move), pos.move_is_check(move), false, false, &dangerous); + ext = extension(pos, move, true, moveIsCapture, pos.move_is_check(move), false, false, &dangerous); newDepth = (Iteration - 2) * OnePly + ext + InitialDepth; // Make the move, and search it @@ -883,15 +890,30 @@ namespace { } else { - value = -search(pos, ss, -alpha, newDepth, 1, true, 0); + if ( newDepth >= 3*OnePly + && i >= MultiPV + LMRPVMoves + && !dangerous + && !moveIsCapture + && !move_is_promotion(move) + && !move_is_castle(move)) + { + ss[0].reduction = OnePly; + value = -search(pos, ss, -alpha, newDepth-OnePly, 1, true, 0); + } else + value = alpha + 1; // Just to trigger next condition + if (value > alpha) { - // Fail high! Set the boolean variable FailHigh to true, and - // re-search the move with a big window. The variable FailHigh is - // used for time managment: We try to avoid aborting the search - // prematurely during a fail high research. - FailHigh = true; - value = -search_pv(pos, ss, -beta, -alpha, newDepth, 1, 0); + value = -search(pos, ss, -alpha, newDepth, 1, true, 0); + if (value > alpha) + { + // Fail high! Set the boolean variable FailHigh to true, and + // re-search the move with a big window. The variable FailHigh is + // used for time managment: We try to avoid aborting the search + // prematurely during a fail high research. + FailHigh = true; + value = -search_pv(pos, ss, -beta, -alpha, newDepth, 1, 0); + } } } @@ -925,6 +947,7 @@ namespace { // Update PV rml.set_move_score(i, value); update_pv(ss, 0); + TT.extract_pv(pos, ss[0].pv); rml.set_move_pv(i, ss[0].pv); if (MultiPV == 1) @@ -938,6 +961,8 @@ namespace { // Print search information to the standard output std::cout << "info depth " << Iteration << " score " << value_to_string(value) + << ((value >= beta)? + " lowerbound" : ((value <= alpha)? " upperbound" : "")) << " time " << current_search_time() << " nodes " << nodes_searched() << " nps " << nps() @@ -1041,16 +1066,16 @@ namespace { // Initialize a MovePicker object for the current position, and prepare // to search all moves - MovePicker mp = MovePicker(pos, ttMove, depth, H, &ss[ply]); - Move move, movesSearched[256]; int moveCount = 0; Value value, bestValue = -VALUE_INFINITE; - Bitboard dcCandidates = mp.discovered_check_candidates(); Color us = pos.side_to_move(); bool isCheck = pos.is_check(); bool mateThreat = pos.has_mate_threat(opposite_color(us)); + MovePicker mp = MovePicker(pos, ttMove, depth, H, &ss[ply]); + Bitboard dcCandidates = mp.discovered_check_candidates(); + // Loop through all legal moves until no moves remain or a beta cutoff // occurs. while ( alpha < beta @@ -1059,7 +1084,7 @@ namespace { { assert(move_is_ok(move)); - bool singleReply = (isCheck && mp.number_of_moves() == 1); + bool singleReply = (isCheck && mp.number_of_evasions() == 1); bool moveIsCheck = pos.move_is_check(move, dcCandidates); bool moveIsCapture = pos.move_is_capture(move); @@ -1249,14 +1274,7 @@ namespace { pos.undo_null_move(); - if (value_is_mate(nullValue)) - { - if (nullValue == value_mated_in(ply + 2)) - mateThreat = true; - - /* Do not return unproven mates */ - } - else if (nullValue >= beta) + if (nullValue >= beta) { if (depth < 6 * OnePly) return beta; @@ -1272,6 +1290,9 @@ namespace { // move which was reduced. If a connection is found, return a fail // low score (which will cause the reduced move to fail high in the // parent node, which will trigger a re-search with full depth). + if (nullValue == value_mated_in(ply + 2)) + mateThreat = true; + ss[ply].threatMove = ss[ply + 1].currentMove; if ( depth < ThreatDepth && ss[ply - 1].reduction @@ -1312,6 +1333,10 @@ namespace { bool useFutilityPruning = depth < SelectiveDepth && !isCheck; + // Avoid calling evaluate() if we already have the score in TT + if (tte && (tte->type() & VALUE_TYPE_EVAL)) + futilityValue = value_from_tt(tte->value(), ply) + FutilityMargins[int(depth) - 2]; + // Loop through all legal moves until no moves remain or a beta cutoff // occurs. while ( bestValue < beta @@ -1320,7 +1345,7 @@ namespace { { assert(move_is_ok(move)); - bool singleReply = (isCheck && mp.number_of_moves() == 1); + bool singleReply = (isCheck && mp.number_of_evasions() == 1); bool moveIsCheck = pos.move_is_check(move, dcCandidates); bool moveIsCapture = pos.move_is_capture(move); @@ -1489,7 +1514,7 @@ namespace { if (isCheck) staticValue = -VALUE_INFINITE; - else if (tte && tte->type() == VALUE_TYPE_EVAL) + else if (tte && (tte->type() & VALUE_TYPE_EVAL)) { // Use the cached evaluation score if possible assert(ei.futilityMargin == Value(0)); @@ -1510,7 +1535,7 @@ namespace { { // Store the score to avoid a future costly evaluation() call if (!isCheck && !tte && ei.futilityMargin == 0) - TT.store(pos.get_key(), value_to_tt(bestValue, ply), VALUE_TYPE_EVAL, Depth(-127*OnePly), MOVE_NONE); + TT.store(pos.get_key(), value_to_tt(bestValue, ply), VALUE_TYPE_EV_LO, Depth(-127*OnePly), MOVE_NONE); return bestValue; } @@ -1598,9 +1623,13 @@ namespace { Move m = ss[ply].pv[ply]; if (!pvNode) { + // If bestValue isn't changed it means it is still the static evaluation of + // the node, so keep this info to avoid a future costly evaluation() call. + ValueType type = (bestValue == staticValue && !ei.futilityMargin ? VALUE_TYPE_EV_UP : VALUE_TYPE_UPPER); Depth d = (depth == Depth(0) ? Depth(0) : Depth(-1)); + if (bestValue < beta) - TT.store(pos.get_key(), value_to_tt(bestValue, ply), VALUE_TYPE_UPPER, d, MOVE_NONE); + TT.store(pos.get_key(), value_to_tt(bestValue, ply), type, d, MOVE_NONE); else TT.store(pos.get_key(), value_to_tt(bestValue, ply), VALUE_TYPE_LOWER, d, m); } @@ -1916,15 +1945,15 @@ namespace { bool includeAllMoves = (searchMoves[0] == MOVE_NONE); // Generate all legal moves - int lm_count = generate_legal_moves(pos, mlist); + MoveStack* last = generate_moves(pos, mlist); // Add each move to the moves[] array - for (int i = 0; i < lm_count; i++) + for (MoveStack* cur = mlist; cur != last; cur++) { bool includeMove = includeAllMoves; for (int k = 0; !includeMove && searchMoves[k] != MOVE_NONE; k++) - includeMove = (searchMoves[k] == mlist[i].move); + includeMove = (searchMoves[k] == cur->move); if (!includeMove) continue; @@ -1933,7 +1962,7 @@ namespace { StateInfo st; SearchStack ss[PLY_MAX_PLUS_2]; - moves[count].move = mlist[i].move; + moves[count].move = cur->move; pos.do_move(moves[count].move, st); moves[count].score = -qsearch(pos, ss, -VALUE_INFINITE, VALUE_INFINITE, Depth(0), 1, 0); pos.undo_move(moves[count].move); @@ -2104,7 +2133,9 @@ namespace { // the second move is assumed to be a move from the current position. bool connected_moves(const Position& pos, Move m1, Move m2) { + Square f1, t1, f2, t2; + Piece p; assert(move_is_ok(m1)); assert(move_is_ok(m2)); @@ -2130,31 +2161,32 @@ namespace { return true; // Case 4: The destination square for m2 is attacked by the moving piece in m1 - if (pos.piece_attacks_square(pos.piece_on(t1), t1, t2)) + p = pos.piece_on(t1); + if (bit_is_set(pos.attacks_from(p, t1), t2)) return true; // Case 5: Discovered check, checking piece is the piece moved in m1 - if ( piece_is_slider(pos.piece_on(t1)) + if ( piece_is_slider(p) && bit_is_set(squares_between(t1, pos.king_square(pos.side_to_move())), f2) - && !bit_is_set(squares_between(t2, pos.king_square(pos.side_to_move())), t2)) + && !bit_is_set(squares_between(t1, pos.king_square(pos.side_to_move())), t2)) { Bitboard occ = pos.occupied_squares(); Color us = pos.side_to_move(); Square ksq = pos.king_square(us); clear_bit(&occ, f2); - if (pos.type_of_piece_on(t1) == BISHOP) + if (type_of_piece(p) == BISHOP) { if (bit_is_set(bishop_attacks_bb(ksq, occ), t1)) return true; } - else if (pos.type_of_piece_on(t1) == ROOK) + else if (type_of_piece(p) == ROOK) { if (bit_is_set(rook_attacks_bb(ksq, occ), t1)) return true; } else { - assert(pos.type_of_piece_on(t1) == QUEEN); + assert(type_of_piece(p) == QUEEN); if (bit_is_set(queen_attacks_bb(ksq, occ), t1)) return true; } @@ -2218,12 +2250,13 @@ namespace { if (pos.type_of_piece_on(move_from(m)) == PAWN) { - if (pos.move_is_pawn_push_to_7th(m)) + Color c = pos.side_to_move(); + if (relative_rank(c, move_to(m)) == RANK_7) { result += PawnPushTo7thExtension[pvNode]; *dangerous = true; } - if (pos.move_is_passed_pawn_push(m)) + if (pos.pawn_is_passed(c, move_to(m))) { result += PassedPawnExtension[pvNode]; *dangerous = true; @@ -2380,6 +2413,7 @@ namespace { ss.killers[0] = m; } + // fail_high_ply_1() checks if some thread is currently resolving a fail // high at ply 1 at the node below the first root node. This information // is used for time managment.