typedef std::vector<RootMove> Base;
RootMoveList(Position& pos, Move searchMoves[]);
- void set_non_pv_scores(const Position& pos);
+ void set_non_pv_scores(const Position& pos, Move ttm, SearchStack* ss);
void sort() { insertion_sort<RootMove, Base::iterator>(begin(), end()); }
void sort_multipv(int n) { insertion_sort<RootMove, Base::iterator>(begin(), begin() + n + 1); }
Value root_search(Position& pos, SearchStack* ss, Value alpha,
Value beta, Depth depth, RootMoveList& rml) {
StateInfo st;
+ Move movesSearched[MOVES_MAX];
CheckInfo ci(pos);
int64_t nodes;
Move move;
while (1)
{
// Sort the moves before to (re)search
- rml.set_non_pv_scores(pos);
+ rml.set_non_pv_scores(pos, rml[0].pv[0], ss);
rml.sort();
// Step 10. Loop through all moves in the root move list
// Pick the next root move, and print the move and the move number to
// the standard output.
move = ss->currentMove = rml[moveCount].pv[0];
+ movesSearched[moveCount] = move;
if (current_search_time() >= 1000)
cout << "info currmove " << move
rml[moveCount].pv_score = value;
rml[moveCount].extract_pv_from_tt(pos);
+ // Update killers and history only for non capture moves that fails high
+ if (!pos.move_is_capture_or_promotion(move))
+ {
+ update_history(pos, move, depth, movesSearched, moveCount + 1);
+ update_killers(move, ss);
+ }
+
// Inform GUI that PV has changed
cout << rml[moveCount].pv_info_to_uci(pos, alpha, beta) << endl;
// This is the second order score that is used to compare the moves when
// the first order pv scores of both moves are equal.
- void RootMoveList::set_non_pv_scores(const Position& pos)
+ void RootMoveList::set_non_pv_scores(const Position& pos, Move ttm, SearchStack* ss)
{
Move move;
Value score = VALUE_ZERO;
- MovePicker mp(pos, MOVE_NONE, ONE_PLY, H);
+ MovePicker mp(pos, ttm, ONE_PLY, H, ss);
while ((move = mp.get_next_move()) != MOVE_NONE)
for (Base::iterator it = begin(); it != end(); ++it)