X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fsearch.cpp;h=bd482eaeb769d1a63f6e55c17903e29c797c38bb;hp=8c941794bc4f9fbf436e363061acb64e4c630043;hb=c254861ee6317dd5824cc1bc4800cb81bd906e19;hpb=4f28e19fc0a55c09624d106d9ce6075b29956c49 diff --git a/src/search.cpp b/src/search.cpp index 8c941794..bd482eae 100644 --- a/src/search.cpp +++ b/src/search.cpp @@ -52,7 +52,10 @@ using std::endl; namespace { - /// Types + // Maximum number of allowed moves per position + const int MOVES_MAX = 256; + + // Types enum NodeType { NonPV, PV }; // Set to true to force running with one thread. @@ -76,12 +79,9 @@ namespace { int active_threads() const { return ActiveThreads; } void set_active_threads(int newActiveThreads) { ActiveThreads = newActiveThreads; } void incrementNodeCounter(int threadID) { threads[threadID].nodes++; } - void incrementBetaCounter(Color us, Depth d, int threadID) { threads[threadID].betaCutOffs[us] += unsigned(d); } void resetNodeCounters(); - void resetBetaCounters(); int64_t nodes_searched() const; - void get_beta_counters(Color us, int64_t& our, int64_t& their) const; bool available_thread_exists(int master) const; bool thread_is_available(int slave, int master) const; bool thread_should_stop(int threadID) const; @@ -117,7 +117,7 @@ namespace { struct RootMove { - RootMove() { nodes = cumulativeNodes = ourBeta = theirBeta = 0ULL; } + RootMove() : mp_score(0), nodes(0) {} // RootMove::operator<() is the comparison function used when // sorting the moves. A move m1 is considered to be better @@ -125,12 +125,13 @@ namespace { // have equal score but m1 has the higher beta cut-off count. bool operator<(const RootMove& m) const { - return score != m.score ? score < m.score : theirBeta <= m.theirBeta; + return score != m.score ? score < m.score : mp_score <= m.mp_score; } Move move; Value score; - int64_t nodes, cumulativeNodes, ourBeta, theirBeta; + int mp_score; + int64_t nodes; Move pv[PLY_MAX_PLUS_2]; }; @@ -143,26 +144,40 @@ namespace { public: RootMoveList(Position& pos, Move searchMoves[]); + Move move(int moveNum) const { return moves[moveNum].move; } + Move move_pv(int moveNum, int i) const { return moves[moveNum].pv[i]; } int move_count() const { return count; } - Move get_move(int moveNum) const { return moves[moveNum].move; } - Value get_move_score(int moveNum) const { return moves[moveNum].score; } + Value move_score(int moveNum) const { return moves[moveNum].score; } + int64_t move_nodes(int moveNum) const { return moves[moveNum].nodes; } + void add_move_nodes(int moveNum, int64_t nodes) { moves[moveNum].nodes += nodes; } void set_move_score(int moveNum, Value score) { moves[moveNum].score = score; } - Move get_move_pv(int moveNum, int i) const { return moves[moveNum].pv[i]; } - int64_t get_move_cumulative_nodes(int moveNum) const { return moves[moveNum].cumulativeNodes; } - void set_move_nodes(int moveNum, int64_t nodes); - void set_beta_counters(int moveNum, int64_t our, int64_t their); void set_move_pv(int moveNum, const Move pv[]); + void score_moves(const Position& pos); void sort(); void sort_multipv(int n); private: - static const int MaxRootMoves = 500; - RootMove moves[MaxRootMoves]; + RootMove moves[MOVES_MAX]; int count; }; + // When formatting a move for std::cout we must know if we are in Chess960 + // or not. To keep using the handy operator<<() on the move the trick is to + // embed this flag in the stream itself. Function-like named enum set960 is + // used as a custom manipulator and the stream internal general-purpose array, + // accessed through ios_base::iword(), is used to pass the flag to the move's + // operator<<() that will use it to properly format castling moves. + enum set960 {}; + + std::ostream& operator<< (std::ostream& os, const set960& m) { + + os.iword(0) = int(m); + return os; + } + + /// Adjustments // Step 6. Razoring @@ -173,12 +188,6 @@ namespace { // Dynamic razoring margin based on depth inline Value razor_margin(Depth d) { return Value(0x200 + 0x10 * int(d)); } - // Step 8. Null move search with verification search - - // Null move margin. A null move search will not be done if the static - // evaluation of the position is more than NullMoveMargin below beta. - const Value NullMoveMargin = Value(0x200); - // Maximum depth for use of dynamic threat detection when null move fails low const Depth ThreatDepth = 5 * ONE_PLY; @@ -211,10 +220,10 @@ namespace { const Value FutilityMarginQS = Value(0x80); // Futility lookup tables (initialized at startup) and their getter functions - int32_t FutilityMarginsMatrix[16][64]; // [depth][moveNumber] + Value FutilityMarginsMatrix[16][64]; // [depth][moveNumber] int FutilityMoveCountArray[32]; // [depth] - inline Value futility_margin(Depth d, int mn) { return Value(d < 7 * ONE_PLY ? FutilityMarginsMatrix[Max(d, 1)][Min(mn, 63)] : 2 * VALUE_INFINITE); } + inline Value futility_margin(Depth d, int mn) { return d < 7 * ONE_PLY ? FutilityMarginsMatrix[Max(d, 1)][Min(mn, 63)] : 2 * VALUE_INFINITE; } inline int futility_move_count(Depth d) { return d < 16 * ONE_PLY ? FutilityMoveCountArray[d] : 512; } // Step 14. Reduced search @@ -353,7 +362,7 @@ void init_search() { // Init futility margins array for (d = 1; d < 16; d++) for (mc = 0; mc < 64; mc++) - FutilityMarginsMatrix[d][mc] = 112 * int(log(double(d * d) / 2) / log(2.0) + 1.001) - 8 * mc + 45; + FutilityMarginsMatrix[d][mc] = Value(112 * int(log(double(d * d) / 2) / log(2.0) + 1.001) - 8 * mc + 45); // Init futility move count array for (d = 0; d < 32; d++) @@ -366,7 +375,7 @@ void init_search() { int perft(Position& pos, Depth depth) { - MoveStack mlist[256]; + MoveStack mlist[MOVES_MAX]; StateInfo st; Move m; int sum = 0; @@ -450,7 +459,6 @@ bool think(const Position& pos, bool infinite, bool ponder, int time[], int incr MinimumSplitDepth = get_option_value_int("Minimum Split Depth") * ONE_PLY; MaxThreadsPerSplitPoint = get_option_value_int("Maximum Number of Threads per Split Point"); MultiPV = get_option_value_int("MultiPV"); - Chess960 = get_option_value_bool("UCI_Chess960"); UseLogFile = get_option_value_bool("Use Search Log"); if (UseLogFile) @@ -536,26 +544,27 @@ namespace { // Print RootMoveList startup scoring to the standard output, // so to output information also for iteration 1. - cout << "info depth " << 1 + cout << set960(p.is_chess960()) // Is enough to set once at the beginning + << "info depth " << 1 << "\ninfo depth " << 1 - << " score " << value_to_uci(rml.get_move_score(0)) + << " score " << value_to_uci(rml.move_score(0)) << " time " << current_search_time() << " nodes " << ThreadsMgr.nodes_searched() << " nps " << nps() - << " pv " << rml.get_move(0) << "\n"; + << " pv " << rml.move(0) << "\n"; // Initialize TT.new_search(); H.clear(); init_ss_array(ss, PLY_MAX_PLUS_2); pv[0] = pv[1] = MOVE_NONE; - ValueByIteration[1] = rml.get_move_score(0); + ValueByIteration[1] = rml.move_score(0); Iteration = 1; // Is one move significantly better than others after initial scoring ? if ( rml.move_count() == 1 - || rml.get_move_score(0) > rml.get_move_score(1) + EasyMoveMargin) - EasyMove = rml.get_move(0); + || rml.move_score(0) > rml.move_score(1) + EasyMoveMargin) + EasyMove = rml.move(0); // Iterative deepening loop while (Iteration < PLY_MAX) @@ -616,9 +625,9 @@ namespace { int64_t nodes = ThreadsMgr.nodes_searched(); if ( Iteration >= 8 && EasyMove == pv[0] - && ( ( rml.get_move_cumulative_nodes(0) > (nodes * 85) / 100 + && ( ( rml.move_nodes(0) > (nodes * 85) / 100 && current_search_time() > TimeMgr.available_time() / 16) - ||( rml.get_move_cumulative_nodes(0) > (nodes * 98) / 100 + ||( rml.move_nodes(0) > (nodes * 98) / 100 && current_search_time() > TimeMgr.available_time() / 32))) stopSearch = true; @@ -659,7 +668,7 @@ namespace { // Print the best move and the ponder move to the standard output if (pv[0] == MOVE_NONE) { - pv[0] = rml.get_move(0); + pv[0] = rml.move(0); pv[1] = MOVE_NONE; } @@ -690,7 +699,7 @@ namespace { << move_to_san(p, pv[1]) // Works also with MOVE_NONE << endl; } - return rml.get_move_score(0); + return rml.move_score(0); } @@ -701,13 +710,12 @@ namespace { Value root_search(Position& pos, SearchStack* ss, Move* pv, RootMoveList& rml, Value* alphaPtr, Value* betaPtr) { - EvalInfo ei; StateInfo st; CheckInfo ci(pos); int64_t nodes; Move move; Depth depth, ext, newDepth; - Value value, alpha, beta; + Value value, evalMargin, alpha, beta; bool isCheck, moveIsCheck, captureOrPromotion, dangerous; int researchCountFH, researchCountFL; @@ -726,7 +734,7 @@ namespace { // Step 5. Evaluate the position statically // At root we do this only to get reference value for child nodes - ss->eval = isCheck ? VALUE_NONE : evaluate(pos, ei); + ss->eval = isCheck ? VALUE_NONE : evaluate(pos, evalMargin); // Step 6. Razoring (omitted at root) // Step 7. Static null move pruning (omitted at root) @@ -739,6 +747,7 @@ namespace { while (1) { // Sort the moves before to (re)search + rml.score_moves(pos); rml.sort(); // Step 10. Loop through all moves in the root move list @@ -750,12 +759,9 @@ namespace { // Save the current node count before the move is searched nodes = ThreadsMgr.nodes_searched(); - // Reset beta cut-off counters - ThreadsMgr.resetBetaCounters(); - // Pick the next root move, and print the move and the move number to // the standard output. - move = ss->currentMove = rml.get_move(i); + move = ss->currentMove = rml.move(i); if (current_search_time() >= 1000) cout << "info currmove " << move @@ -871,12 +877,8 @@ namespace { if (AbortSearch) break; - // Remember beta-cutoff and searched nodes counts for this move. The - // info is used to sort the root moves for the next iteration. - int64_t our, their; - ThreadsMgr.get_beta_counters(pos.side_to_move(), our, their); - rml.set_beta_counters(i, our, their); - rml.set_move_nodes(i, ThreadsMgr.nodes_searched() - nodes); + // Remember searched nodes counts for this move + rml.add_move_nodes(i, ThreadsMgr.nodes_searched() - nodes); assert(value >= -VALUE_INFINITE && value <= VALUE_INFINITE); assert(value < beta); @@ -915,19 +917,19 @@ namespace { for (int j = 0; j < Min(MultiPV, rml.move_count()); j++) { cout << "info multipv " << j + 1 - << " score " << value_to_uci(rml.get_move_score(j)) + << " score " << value_to_uci(rml.move_score(j)) << " depth " << (j <= i ? Iteration : Iteration - 1) << " time " << current_search_time() << " nodes " << ThreadsMgr.nodes_searched() << " nps " << nps() << " pv "; - for (int k = 0; rml.get_move_pv(j, k) != MOVE_NONE && k < PLY_MAX; k++) - cout << rml.get_move_pv(j, k) << " "; + for (int k = 0; rml.move_pv(j, k) != MOVE_NONE && k < PLY_MAX; k++) + cout << rml.move_pv(j, k) << " "; cout << endl; } - alpha = rml.get_move_score(Min(i, MultiPV - 1)); + alpha = rml.move_score(Min(i, MultiPV - 1)); } } // PV move or new best move @@ -967,15 +969,14 @@ namespace { assert(ply > 0 && ply < PLY_MAX); assert(pos.thread() >= 0 && pos.thread() < ThreadsMgr.active_threads()); - Move movesSearched[256]; - EvalInfo ei; + Move movesSearched[MOVES_MAX]; StateInfo st; const TTEntry *tte; Key posKey; Move ttMove, move, excludedMove, threatMove; Depth ext, newDepth; - Value bestValue, value, oldAlpha; - Value refinedValue, nullValue, futilityValueScaled; // Non-PV specific + Value bestValue, value, evalMargin, oldAlpha; + Value refinedValue, nullValue, futilityBase, futilityValueScaled; // Non-PV specific bool isCheck, singleEvasion, singularExtensionNode, moveIsCheck, captureOrPromotion, dangerous; bool mateThreat = false; int moveCount = 0; @@ -996,7 +997,7 @@ namespace { // Step 2. Check for aborted search and immediate draw if (AbortSearch || ThreadsMgr.thread_should_stop(threadID)) - return Value(0); + return VALUE_ZERO; if (pos.is_draw() || ply >= PLY_MAX - 1) return VALUE_DRAW; @@ -1028,7 +1029,7 @@ namespace { if (!PvNode && tte && ok_to_use_TT(tte, depth, beta, ply)) { // Refresh tte entry to avoid aging - TT.store(posKey, tte->value(), tte->type(), tte->depth(), ttMove, tte->static_value(), tte->king_danger()); + TT.store(posKey, tte->value(), tte->type(), tte->depth(), ttMove, tte->static_value(), tte->static_value_margin()); ss->bestMove = ttMove; // Can be MOVE_NONE return value_from_tt(tte->value(), ply); @@ -1038,19 +1039,19 @@ namespace { // update gain statistics of parent move. isCheck = pos.is_check(); if (isCheck) - ss->eval = VALUE_NONE; + ss->eval = evalMargin = VALUE_NONE; else if (tte) { assert(tte->static_value() != VALUE_NONE); ss->eval = tte->static_value(); - ei.kingDanger[pos.side_to_move()] = tte->king_danger(); + evalMargin = tte->static_value_margin(); refinedValue = refine_eval(tte, ss->eval, ply); } else { - refinedValue = ss->eval = evaluate(pos, ei); - TT.store(posKey, VALUE_NONE, VALUE_TYPE_NONE, DEPTH_NONE, MOVE_NONE, ss->eval, ei.kingDanger[pos.side_to_move()]); + refinedValue = ss->eval = evaluate(pos, evalMargin); + TT.store(posKey, VALUE_NONE, VALUE_TYPE_NONE, DEPTH_NONE, MOVE_NONE, ss->eval, evalMargin); } // Save gain for the parent non-capture move @@ -1087,14 +1088,11 @@ namespace { return refinedValue - futility_margin(depth, 0); // Step 8. Null move search with verification search (is omitted in PV nodes) - // When we jump directly to qsearch() we do a null move only if static value is - // at least beta. Otherwise we do a null move if static value is not more than - // NullMoveMargin under beta. if ( !PvNode && !ss->skipNullMove && depth > ONE_PLY && !isCheck - && refinedValue >= beta - (depth >= 4 * ONE_PLY ? NullMoveMargin : 0) + && refinedValue >= beta && !value_is_mate(beta) && pos.non_pawn_material(pos.side_to_move())) { @@ -1175,11 +1173,12 @@ namespace { CheckInfo ci(pos); ss->bestMove = MOVE_NONE; singleEvasion = isCheck && mp.number_of_evasions() == 1; + futilityBase = ss->eval + evalMargin; singularExtensionNode = depth >= SingularExtensionDepth[PvNode] && tte && tte->move() && !excludedMove // Do not allow recursive singular extension search - && is_lower_bound(tte->type()) + && (tte->type() & VALUE_TYPE_LOWER) && tte->depth() >= depth - 3 * ONE_PLY; // Step 10. Loop through moves @@ -1246,7 +1245,7 @@ namespace { // We illogically ignore reduction condition depth >= 3*ONE_PLY for predicted depth, // but fixing this made program slightly weaker. Depth predictedDepth = newDepth - reduction(depth, moveCount); - futilityValueScaled = ss->eval + futility_margin(predictedDepth, moveCount) + futilityValueScaled = futilityBase + futility_margin(predictedDepth, moveCount) + H.gain(pos.piece_on(move_from(move)), move_to(move)); if (futilityValueScaled < beta) @@ -1364,17 +1363,14 @@ namespace { ValueType vt = (bestValue <= oldAlpha ? VALUE_TYPE_UPPER : bestValue >= beta ? VALUE_TYPE_LOWER : VALUE_TYPE_EXACT); move = (bestValue <= oldAlpha ? MOVE_NONE : ss->bestMove); - TT.store(posKey, value_to_tt(bestValue, ply), vt, depth, move, ss->eval, ei.kingDanger[pos.side_to_move()]); + TT.store(posKey, value_to_tt(bestValue, ply), vt, depth, move, ss->eval, evalMargin); // Update killers and history only for non capture moves that fails high - if (bestValue >= beta) + if ( bestValue >= beta + && !pos.move_is_capture_or_promotion(move)) { - ThreadsMgr.incrementBetaCounter(pos.side_to_move(), depth, threadID); - if (!pos.move_is_capture_or_promotion(move)) - { update_history(pos, move, depth, movesSearched, moveCount); update_killers(move, ss); - } } assert(bestValue > -VALUE_INFINITE && bestValue < VALUE_INFINITE); @@ -1397,10 +1393,9 @@ namespace { assert(ply > 0 && ply < PLY_MAX); assert(pos.thread() >= 0 && pos.thread() < ThreadsMgr.active_threads()); - EvalInfo ei; StateInfo st; Move ttMove, move; - Value bestValue, value, futilityValue, futilityBase; + Value bestValue, value, evalMargin, futilityValue, futilityBase; bool isCheck, deepChecks, enoughMaterial, moveIsCheck, evasionPrunable; const TTEntry* tte; Value oldAlpha = alpha; @@ -1429,7 +1424,7 @@ namespace { if (isCheck) { bestValue = futilityBase = -VALUE_INFINITE; - ss->eval = VALUE_NONE; + ss->eval = evalMargin = VALUE_NONE; deepChecks = enoughMaterial = false; } else @@ -1438,20 +1433,19 @@ namespace { { assert(tte->static_value() != VALUE_NONE); - ei.kingDanger[pos.side_to_move()] = tte->king_danger(); - bestValue = tte->static_value(); + evalMargin = tte->static_value_margin(); + ss->eval = bestValue = tte->static_value(); } else - bestValue = evaluate(pos, ei); + ss->eval = bestValue = evaluate(pos, evalMargin); - ss->eval = bestValue; update_gains(pos, (ss-1)->currentMove, (ss-1)->eval, ss->eval); // Stand pat. Return immediately if static value is at least beta if (bestValue >= beta) { if (!tte) - TT.store(pos.get_key(), value_to_tt(bestValue, ply), VALUE_TYPE_LOWER, DEPTH_NONE, MOVE_NONE, ss->eval, ei.kingDanger[pos.side_to_move()]); + TT.store(pos.get_key(), value_to_tt(bestValue, ply), VALUE_TYPE_LOWER, DEPTH_NONE, MOVE_NONE, ss->eval, evalMargin); return bestValue; } @@ -1463,7 +1457,7 @@ namespace { deepChecks = (depth == -ONE_PLY && bestValue >= beta - PawnValueMidgame / 8); // Futility pruning parameters, not needed when in check - futilityBase = bestValue + FutilityMarginQS + ei.kingDanger[pos.side_to_move()]; + futilityBase = ss->eval + evalMargin + FutilityMarginQS; enoughMaterial = pos.non_pawn_material(pos.side_to_move()) > RookValueMidgame; } @@ -1493,7 +1487,7 @@ namespace { { futilityValue = futilityBase + pos.endgame_value_of_piece_on(move_to(move)) - + (move_is_ep(move) ? PawnValueEndgame : Value(0)); + + (move_is_ep(move) ? PawnValueEndgame : VALUE_ZERO); if (futilityValue < alpha) { @@ -1503,11 +1497,10 @@ namespace { } } - // Detect blocking evasions that are candidate to be pruned + // Detect non-capture evasions that are candidate to be pruned evasionPrunable = isCheck && bestValue > value_mated_in(PLY_MAX) && !pos.move_is_capture(move) - && pos.type_of_piece_on(move_from(move)) != KING && !pos.can_castle(pos.side_to_move()); // Don't search moves with negative SEE values @@ -1546,14 +1539,9 @@ namespace { return value_mated_in(ply); // Update transposition table - Depth d = (depth == DEPTH_ZERO ? DEPTH_ZERO : Depth(-1)); + Depth d = (depth == DEPTH_ZERO ? DEPTH_ZERO : DEPTH_ZERO - ONE_PLY); ValueType vt = (bestValue <= oldAlpha ? VALUE_TYPE_UPPER : bestValue >= beta ? VALUE_TYPE_LOWER : VALUE_TYPE_EXACT); - TT.store(pos.get_key(), value_to_tt(bestValue, ply), vt, d, ss->bestMove, ss->eval, ei.kingDanger[pos.side_to_move()]); - - // Update killers only for checking moves that fails high - if ( bestValue >= beta - && !pos.move_is_capture_or_promotion(ss->bestMove)) - update_killers(ss->bestMove, ss); + TT.store(pos.get_key(), value_to_tt(bestValue, ply), vt, d, ss->bestMove, ss->eval, evalMargin); assert(bestValue > -VALUE_INFINITE && bestValue < VALUE_INFINITE); @@ -1884,7 +1872,7 @@ namespace { if ( captureOrPromotion && pos.type_of_piece_on(move_to(m)) != PAWN && ( pos.non_pawn_material(WHITE) + pos.non_pawn_material(BLACK) - - pos.midgame_value_of_piece_on(move_to(m)) == Value(0)) + - pos.midgame_value_of_piece_on(move_to(m)) == VALUE_ZERO) && !move_is_promotion(m) && !move_is_ep(m)) { @@ -1957,8 +1945,8 @@ namespace { || v >= Max(value_mate_in(PLY_MAX), beta) || v < Min(value_mated_in(PLY_MAX), beta)) - && ( (is_lower_bound(tte->type()) && v >= beta) - || (is_upper_bound(tte->type()) && v < beta)); + && ( ((tte->type() & VALUE_TYPE_LOWER) && v >= beta) + || ((tte->type() & VALUE_TYPE_UPPER) && v < beta)); } @@ -1971,8 +1959,8 @@ namespace { Value v = value_from_tt(tte->value(), ply); - if ( (is_lower_bound(tte->type()) && v >= defaultEval) - || (is_upper_bound(tte->type()) && v < defaultEval)) + if ( ((tte->type() & VALUE_TYPE_LOWER) && v >= defaultEval) + || ((tte->type() & VALUE_TYPE_UPPER) && v < defaultEval)) return v; return defaultEval; @@ -2238,16 +2226,15 @@ namespace { StateInfo st; TTEntry* tte; Position p(pos, pos.thread()); - EvalInfo ei; - Value v; + Value v, m = VALUE_NONE; for (int i = 0; pv[i] != MOVE_NONE; i++) { tte = TT.retrieve(p.get_key()); if (!tte || tte->move() != pv[i]) { - v = (p.is_check() ? VALUE_NONE : evaluate(p, ei)); - TT.store(p.get_key(), VALUE_NONE, VALUE_TYPE_NONE, DEPTH_NONE, pv[i], v, ei.kingDanger[pos.side_to_move()]); + v = (p.is_check() ? VALUE_NONE : evaluate(p, m)); + TT.store(p.get_key(), VALUE_NONE, VALUE_TYPE_NONE, DEPTH_NONE, pv[i], v, m); } p.do_move(pv[i], st); } @@ -2320,12 +2307,6 @@ namespace { threads[i].nodes = 0ULL; } - void ThreadsManager::resetBetaCounters() { - - for (int i = 0; i < MAX_THREADS; i++) - threads[i].betaCutOffs[WHITE] = threads[i].betaCutOffs[BLACK] = 0ULL; - } - int64_t ThreadsManager::nodes_searched() const { int64_t result = 0ULL; @@ -2335,16 +2316,6 @@ namespace { return result; } - void ThreadsManager::get_beta_counters(Color us, int64_t& our, int64_t& their) const { - - our = their = 0UL; - for (int i = 0; i < MAX_THREADS; i++) - { - our += threads[i].betaCutOffs[us]; - their += threads[i].betaCutOffs[opposite_color(us)]; - } - } - // idle_loop() is where the threads are parked when they have no work to do. // The parameter 'sp', if non-NULL, is a pointer to an active SplitPoint @@ -2737,17 +2708,17 @@ namespace { // RootMoveList c'tor - RootMoveList::RootMoveList(Position& pos, Move searchMoves[]) : count(0) { + RootMoveList::RootMoveList(Position& pos, Move searchMoves[]) { SearchStack ss[PLY_MAX_PLUS_2]; - MoveStack mlist[MaxRootMoves]; + MoveStack mlist[MOVES_MAX]; StateInfo st; bool includeAllMoves = (searchMoves[0] == MOVE_NONE); // Initialize search stack init_ss_array(ss, PLY_MAX_PLUS_2); - ss[0].currentMove = ss[0].bestMove = MOVE_NONE; ss[0].eval = VALUE_NONE; + count = 0; // Generate all legal moves MoveStack* last = generate_moves(pos, mlist); @@ -2764,32 +2735,35 @@ namespace { continue; // Find a quick score for the move + moves[count].move = ss[0].currentMove = moves[count].pv[0] = cur->move; + moves[count].pv[1] = MOVE_NONE; pos.do_move(cur->move, st); - ss[0].currentMove = cur->move; - moves[count].move = cur->move; moves[count].score = -qsearch(pos, ss+1, -VALUE_INFINITE, VALUE_INFINITE, DEPTH_ZERO, 1); - moves[count].pv[0] = cur->move; - moves[count].pv[1] = MOVE_NONE; pos.undo_move(cur->move); count++; } sort(); } + // Score root moves using the standard way used in main search, the moves + // are scored according to the order in which are returned by MovePicker. - // RootMoveList simple methods definitions - - void RootMoveList::set_move_nodes(int moveNum, int64_t nodes) { + void RootMoveList::score_moves(const Position& pos) + { + Move move; + int score = 1000; + MovePicker mp = MovePicker(pos, MOVE_NONE, ONE_PLY, H); - moves[moveNum].nodes = nodes; - moves[moveNum].cumulativeNodes += nodes; + while ((move = mp.get_next_move()) != MOVE_NONE) + for (int i = 0; i < count; i++) + if (moves[i].move == move) + { + moves[i].mp_score = score--; + break; + } } - void RootMoveList::set_beta_counters(int moveNum, int64_t our, int64_t their) { - - moves[moveNum].ourBeta = our; - moves[moveNum].theirBeta = their; - } + // RootMoveList simple methods definitions void RootMoveList::set_move_pv(int moveNum, const Move pv[]) { @@ -2829,4 +2803,4 @@ namespace { } } -} // namspace +} // namespace