Stockfish, a UCI chess playing engine derived from Glaurung 2.1
Copyright (C) 2004-2008 Tord Romstad (Glaurung author)
Copyright (C) 2008-2015 Marco Costalba, Joona Kiiski, Tord Romstad
- Copyright (C) 2015-2016 Marco Costalba, Joona Kiiski, Gary Linscott, Tord Romstad
+ Copyright (C) 2015-2017 Marco Costalba, Joona Kiiski, Gary Linscott, Tord Romstad
Stockfish is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
extern int SquareDistance[SQUARE_NB][SQUARE_NB];
-extern Bitboard RookMasks [SQUARE_NB];
-extern Bitboard RookMagics [SQUARE_NB];
-extern Bitboard* RookAttacks[SQUARE_NB];
-extern unsigned RookShifts [SQUARE_NB];
-
-extern Bitboard BishopMasks [SQUARE_NB];
-extern Bitboard BishopMagics [SQUARE_NB];
-extern Bitboard* BishopAttacks[SQUARE_NB];
-extern unsigned BishopShifts [SQUARE_NB];
-
extern Bitboard SquareBB[SQUARE_NB];
extern Bitboard FileBB[FILE_NB];
extern Bitboard RankBB[RANK_NB];
}
-/// shift_bb() moves a bitboard one step along direction Delta. Mainly for pawns
+/// shift() moves a bitboard one step along direction D. Mainly for pawns
-template<Square Delta>
-inline Bitboard shift_bb(Bitboard b) {
- return Delta == DELTA_N ? b << 8 : Delta == DELTA_S ? b >> 8
- : Delta == DELTA_NE ? (b & ~FileHBB) << 9 : Delta == DELTA_SE ? (b & ~FileHBB) >> 7
- : Delta == DELTA_NW ? (b & ~FileABB) << 7 : Delta == DELTA_SW ? (b & ~FileABB) >> 9
+template<Square D>
+inline Bitboard shift(Bitboard b) {
+ return D == NORTH ? b << 8 : D == SOUTH ? b >> 8
+ : D == NORTH_EAST ? (b & ~FileHBB) << 9 : D == SOUTH_EAST ? (b & ~FileHBB) >> 7
+ : D == NORTH_WEST ? (b & ~FileABB) << 7 : D == SOUTH_WEST ? (b & ~FileABB) >> 9
: 0;
}
/// forward_bb() returns a bitboard representing all the squares along the line
/// in front of the given one, from the point of view of the given color:
-/// ForwardBB[c][s] = in_front_bb(c, s) & file_bb(s)
+/// ForwardBB[c][s] = in_front_bb(c, rank_of(s)) & file_bb(s)
inline Bitboard forward_bb(Color c, Square s) {
return ForwardBB[c][s];
/// pawn_attack_span() returns a bitboard representing all the squares that can be
/// attacked by a pawn of the given color when it moves along its file, starting
/// from the given square:
-/// PawnAttackSpan[c][s] = in_front_bb(c, s) & adjacent_files_bb(s);
+/// PawnAttackSpan[c][s] = in_front_bb(c, rank_of(s)) & adjacent_files_bb(s);
inline Bitboard pawn_attack_span(Color c, Square s) {
return PawnAttackSpan[c][s];
template<PieceType Pt>
inline unsigned magic_index(Square s, Bitboard occupied) {
+ extern Bitboard RookMasks[SQUARE_NB];
+ extern Bitboard RookMagics[SQUARE_NB];
+ extern unsigned RookShifts[SQUARE_NB];
+ extern Bitboard BishopMasks[SQUARE_NB];
+ extern Bitboard BishopMagics[SQUARE_NB];
+ extern unsigned BishopShifts[SQUARE_NB];
+
Bitboard* const Masks = Pt == ROOK ? RookMasks : BishopMasks;
Bitboard* const Magics = Pt == ROOK ? RookMagics : BishopMagics;
unsigned* const Shifts = Pt == ROOK ? RookShifts : BishopShifts;
template<PieceType Pt>
inline Bitboard attacks_bb(Square s, Bitboard occupied) {
+
+ extern Bitboard* RookAttacks[SQUARE_NB];
+ extern Bitboard* BishopAttacks[SQUARE_NB];
+
return (Pt == ROOK ? RookAttacks : BishopAttacks)[s][magic_index<Pt>(s, occupied)];
}
}
-/// lsb() and msb() return the least/most significant bit in a non-zero bitboard
+/// popcount() counts the number of non-zero bits in a bitboard
-#ifdef USE_BSFQ
+inline int popcount(Bitboard b) {
-# if defined(_MSC_VER) && !defined(__INTEL_COMPILER)
+#ifndef USE_POPCNT
-inline Square lsb(Bitboard b) {
- unsigned long idx;
- _BitScanForward64(&idx, b);
- return (Square) idx;
-}
+ extern uint8_t PopCnt16[1 << 16];
+ union { Bitboard bb; uint16_t u[4]; } v = { b };
+ return PopCnt16[v.u[0]] + PopCnt16[v.u[1]] + PopCnt16[v.u[2]] + PopCnt16[v.u[3]];
-inline Square msb(Bitboard b) {
- unsigned long idx;
- _BitScanReverse64(&idx, b);
- return (Square) idx;
-}
+#elif defined(_MSC_VER) || defined(__INTEL_COMPILER)
-# elif defined(__arm__)
+ return (int)_mm_popcnt_u64(b);
-inline int lsb32(uint32_t v) {
- __asm__("rbit %0, %1" : "=r"(v) : "r"(v));
- return __builtin_clz(v);
-}
+#else // Assumed gcc or compatible compiler
-inline Square msb(Bitboard b) {
- return (Square) (63 - __builtin_clzll(b));
+ return __builtin_popcountll(b);
+
+#endif
}
+
+/// lsb() and msb() return the least/most significant bit in a non-zero bitboard
+
+#if defined(__GNUC__)
+
inline Square lsb(Bitboard b) {
- return (Square) (uint32_t(b) ? lsb32(uint32_t(b)) : 32 + lsb32(uint32_t(b >> 32)));
+ assert(b);
+ return Square(__builtin_ctzll(b));
}
-# else // Assumed gcc or compatible compiler
+inline Square msb(Bitboard b) {
+ assert(b);
+ return Square(63 ^ __builtin_clzll(b));
+}
-inline Square lsb(Bitboard b) { // Assembly code by Heinz van Saanen
- Bitboard idx;
- __asm__("bsfq %1, %0": "=r"(idx): "rm"(b) );
+#elif defined(_WIN64) && defined(_MSC_VER)
+
+inline Square lsb(Bitboard b) {
+ assert(b);
+ unsigned long idx;
+ _BitScanForward64(&idx, b);
return (Square) idx;
}
inline Square msb(Bitboard b) {
- Bitboard idx;
- __asm__("bsrq %1, %0": "=r"(idx): "rm"(b) );
+ assert(b);
+ unsigned long idx;
+ _BitScanReverse64(&idx, b);
return (Square) idx;
}
-# endif
+#else
-#else // ifdef(USE_BSFQ)
+#define NO_BSF // Fallback on software implementation for other cases
Square lsb(Bitboard b);
Square msb(Bitboard b);