#include "misc.h"
#include "movegen.h"
#include "position.h"
-#include "psqtab.h"
#include "thread.h"
#include "tt.h"
#include "uci.h"
namespace {
const string PieceToChar(" PNBRQK pnbrqk");
-Score psq[COLOR_NB][PIECE_TYPE_NB][SQUARE_NB];
// min_attacker() is a helper function used by see() to locate the least
// valuable attacker for the side to move, remove the attacker we just found
// from the bitboards and scan for new X-ray attacks behind it.
-template<int Pt> FORCE_INLINE
+template<int Pt>
PieceType min_attacker(const Bitboard* bb, const Square& to, const Bitboard& stmAttackers,
Bitboard& occupied, Bitboard& attackers) {
return (PieceType)Pt;
}
-template<> FORCE_INLINE
+template<>
PieceType min_attacker<KING>(const Bitboard*, const Square&, const Bitboard&, Bitboard&, Bitboard&) {
return KING; // No need to update bitboards: it is the last cycle
}
/// Position::init() initializes at startup the various arrays used to compute
-/// hash keys and the piece square tables. The latter is a two-step operation:
-/// Firstly, the white halves of the tables are copied from PSQT[] tables.
-/// Secondly, the black halves of the tables are initialized by flipping and
-/// changing the sign of the white scores.
+/// hash keys.
void Position::init() {
for (int cr = NO_CASTLING; cr <= ANY_CASTLING; ++cr)
{
+ Zobrist::castling[cr] = 0;
Bitboard b = cr;
while (b)
{
Zobrist::side = rng.rand<Key>();
Zobrist::exclusion = rng.rand<Key>();
-
- for (PieceType pt = PAWN; pt <= KING; ++pt)
- {
- PieceValue[MG][make_piece(BLACK, pt)] = PieceValue[MG][pt];
- PieceValue[EG][make_piece(BLACK, pt)] = PieceValue[EG][pt];
-
- Score v = make_score(PieceValue[MG][pt], PieceValue[EG][pt]);
-
- for (Square s = SQ_A1; s <= SQ_H8; ++s)
- {
- psq[WHITE][pt][ s] = (v + PSQT[pt][s]);
- psq[BLACK][pt][~s] = -(v + PSQT[pt][s]);
- }
- }
}
Square s = pop_lsb(&b);
Piece pc = piece_on(s);
si->key ^= Zobrist::psq[color_of(pc)][type_of(pc)][s];
- si->psq += psq[color_of(pc)][type_of(pc)][s];
+ si->psq += PSQT::psq[color_of(pc)][type_of(pc)][s];
}
if (si->epSquare != SQ_NONE)
do_castling<true>(us, from, to, rfrom, rto);
captured = NO_PIECE_TYPE;
- st->psq += psq[us][ROOK][rto] - psq[us][ROOK][rfrom];
+ st->psq += PSQT::psq[us][ROOK][rto] - PSQT::psq[us][ROOK][rfrom];
k ^= Zobrist::psq[us][ROOK][rfrom] ^ Zobrist::psq[us][ROOK][rto];
}
prefetch(thisThread->materialTable[st->materialKey]);
// Update incremental scores
- st->psq -= psq[them][captured][capsq];
+ st->psq -= PSQT::psq[them][captured][capsq];
// Reset rule 50 counter
st->rule50 = 0;
^ Zobrist::psq[us][PAWN][pieceCount[us][PAWN]];
// Update incremental score
- st->psq += psq[us][promotion][to] - psq[us][PAWN][to];
+ st->psq += PSQT::psq[us][promotion][to] - PSQT::psq[us][PAWN][to];
// Update material
st->nonPawnMaterial[us] += PieceValue[MG][promotion];
}
// Update incremental scores
- st->psq += psq[us][pt][to] - psq[us][pt][from];
+ st->psq += PSQT::psq[us][pt][to] - PSQT::psq[us][pt][from];
// Set capture piece
st->capturedType = captured;
}
-/// Position::is_draw() tests whether the position is drawn by material, 50 moves
-/// rule or repetition. It does not detect stalemates.
+/// Position::is_draw() tests whether the position is drawn by 50-move rule
+/// or by repetition. It does not detect stalemates.
bool Position::is_draw() const {