X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Fbitboard.h;h=9252c3dc9149091fe387531f4036dd8ca0171465;hp=b0e272338c0f536f95067a4f34747ba6e714b22f;hb=20ceeac8b3a3bd13a64d6a224ef190d6cdd94f63;hpb=0424273d0b20ae7ad65143b530b2db8b94de0338 diff --git a/src/bitboard.h b/src/bitboard.h index b0e27233..9252c3dc 100644 --- a/src/bitboard.h +++ b/src/bitboard.h @@ -106,7 +106,7 @@ extern Magic RookMagics[SQUARE_NB]; extern Magic BishopMagics[SQUARE_NB]; inline Bitboard square_bb(Square s) { - assert(s >= SQ_A1 && s <= SQ_H8); + assert(is_ok(s)); return SquareBB[s]; } @@ -123,7 +123,7 @@ inline Bitboard operator&(Square s, Bitboard b) { return b & s; } inline Bitboard operator|(Square s, Bitboard b) { return b | s; } inline Bitboard operator^(Square s, Bitboard b) { return b ^ s; } -inline Bitboard operator|(Square s, Square s2) { return square_bb(s) | square_bb(s2); } +inline Bitboard operator|(Square s, Square s2) { return square_bb(s) | s2; } constexpr bool more_than_one(Bitboard b) { return b & (b - 1); @@ -209,8 +209,8 @@ inline Bitboard between_bb(Square s1, Square s2) { /// forward_ranks_bb(BLACK, SQ_D3) will return the 16 squares on ranks 1 and 2. inline Bitboard forward_ranks_bb(Color c, Square s) { - return c == WHITE ? ~Rank1BB << 8 * (rank_of(s) - RANK_1) - : ~Rank8BB >> 8 * (RANK_8 - rank_of(s)); + return c == WHITE ? ~Rank1BB << 8 * relative_rank(WHITE, s) + : ~Rank8BB >> 8 * relative_rank(BLACK, s); } @@ -255,8 +255,15 @@ template<> inline int distance(Square x, Square y) { return std::abs(file_ template<> inline int distance(Square x, Square y) { return std::abs(rank_of(x) - rank_of(y)); } template<> inline int distance(Square x, Square y) { return SquareDistance[x][y]; } -template constexpr const T& clamp(const T& v, const T& lo, const T& hi) { - return v < lo ? lo : v > hi ? hi : v; +inline int edge_distance(File f) { return std::min(f, File(FILE_H - f)); } +inline int edge_distance(Rank r) { return std::min(r, Rank(RANK_8 - r)); } + +/// Return the target square bitboard if we do not step off the board, empty otherwise + +inline Bitboard safe_destination(Square s, int step) +{ + Square to = Square(s + step); + return is_ok(to) && distance(s, to) <= 2 ? square_bb(to) : Bitboard(0); } /// attacks_bb() returns a bitboard representing all the squares attacked by a @@ -376,14 +383,17 @@ inline Square msb(Bitboard b) { /// pop_lsb() finds and clears the least significant bit in a non-zero bitboard inline Square pop_lsb(Bitboard* b) { + assert(*b); const Square s = lsb(*b); *b &= *b - 1; return s; } -/// frontmost_sq() returns the most advanced square for the given color +/// frontmost_sq() returns the most advanced square for the given color, +/// requires a non-zero bitboard. inline Square frontmost_sq(Color c, Bitboard b) { + assert(b); return c == WHITE ? msb(b) : lsb(b); }