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) 2015-2019 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
int castlingRights;
int rule50;
int pliesFromNull;
- Score psq;
Square epSquare;
// Not copied when making a move (will be recomputed anyhow)
+ int repetition;
Key key;
Bitboard checkersBB;
Piece capturedPiece;
StateInfo* previous;
Bitboard blockersForKing[COLOR_NB];
- Bitboard pinnersForKing[COLOR_NB];
+ Bitboard pinners[COLOR_NB];
Bitboard checkSquares[PIECE_TYPE_NB];
};
-// In a std::deque references to elements are unaffected upon resizing
+/// A list to keep track of the position states along the setup moves (from the
+/// start position to the position just before the search starts). Needed by
+/// 'draw by repetition' detection. Use a std::deque because pointers to
+/// elements are not invalidated upon list resizing.
typedef std::unique_ptr<std::deque<StateInfo>> StateListPtr;
Square ep_square() const;
bool empty(Square s) const;
template<PieceType Pt> int count(Color c) const;
+ template<PieceType Pt> int count() const;
template<PieceType Pt> const Square* squares(Color c) const;
template<PieceType Pt> Square square(Color c) const;
+ bool is_on_semiopen_file(Color c, Square s) const;
// Castling
- int can_castle(Color c) const;
- int can_castle(CastlingRight cr) const;
- bool castling_impeded(CastlingRight cr) const;
- Square castling_rook_square(CastlingRight cr) const;
+ int castling_rights(Color c) const;
+ bool can_castle(CastlingRights cr) const;
+ bool castling_impeded(CastlingRights cr) const;
+ Square castling_rook_square(CastlingRights cr) const;
// Checking
Bitboard checkers() const;
- Bitboard discovered_check_candidates() const;
- Bitboard pinned_pieces(Color c) const;
+ Bitboard blockers_for_king(Color c) const;
Bitboard check_squares(PieceType pt) const;
+ bool is_discovery_check_on_king(Color c, Move m) const;
// Attacks to/from a given square
Bitboard attackers_to(Square s) const;
Bitboard attackers_to(Square s, Bitboard occupied) const;
- Bitboard attacks_from(Piece pc, Square s) const;
+ Bitboard attacks_from(PieceType pt, Square s) const;
template<PieceType> Bitboard attacks_from(Square s) const;
template<PieceType> Bitboard attacks_from(Square s, Color c) const;
Bitboard slider_blockers(Bitboard sliders, Square s, Bitboard& pinners) const;
// Piece specific
bool pawn_passed(Color c, Square s) const;
bool opposite_bishops() const;
+ int pawns_on_same_color_squares(Color c, Square s) const;
// Doing and undoing moves
void do_move(Move m, StateInfo& newSt);
void undo_null_move();
// Static Exchange Evaluation
- bool see_ge(Move m, Value value) const;
+ bool see_ge(Move m, Value threshold = VALUE_ZERO) const;
// Accessing hash keys
Key key() const;
// Other properties of the position
Color side_to_move() const;
- Phase game_phase() const;
int game_ply() const;
bool is_chess960() const;
Thread* this_thread() const;
- uint64_t nodes_searched() const;
- bool is_draw() const;
+ bool is_draw(int ply) const;
+ bool has_game_cycle(int ply) const;
+ bool has_repeated() const;
int rule50_count() const;
Score psq_score() const;
Value non_pawn_material(Color c) const;
+ Value non_pawn_material() const;
// Position consistency check, for debugging
- bool pos_is_ok(int* failedStep = nullptr) const;
+ bool pos_is_ok() const;
void flip();
private:
int castlingRightsMask[SQUARE_NB];
Square castlingRookSquare[CASTLING_RIGHT_NB];
Bitboard castlingPath[CASTLING_RIGHT_NB];
- uint64_t nodes;
int gamePly;
Color sideToMove;
+ Score psq;
Thread* thisThread;
StateInfo* st;
bool chess960;
};
-extern std::ostream& operator<<(std::ostream& os, Position& pos);
+namespace PSQT {
+ extern Score psq[PIECE_NB][SQUARE_NB];
+}
+
+extern std::ostream& operator<<(std::ostream& os, const Position& pos);
inline Color Position::side_to_move() const {
return sideToMove;
return pieceCount[make_piece(c, Pt)];
}
+template<PieceType Pt> inline int Position::count() const {
+ return pieceCount[make_piece(WHITE, Pt)] + pieceCount[make_piece(BLACK, Pt)];
+}
+
template<PieceType Pt> inline const Square* Position::squares(Color c) const {
return pieceList[make_piece(c, Pt)];
}
return st->epSquare;
}
-inline int Position::can_castle(CastlingRight cr) const {
+inline bool Position::is_on_semiopen_file(Color c, Square s) const {
+ return !(pieces(c, PAWN) & file_bb(s));
+}
+
+inline bool Position::can_castle(CastlingRights cr) const {
return st->castlingRights & cr;
}
-inline int Position::can_castle(Color c) const {
- return st->castlingRights & ((WHITE_OO | WHITE_OOO) << (2 * c));
+inline int Position::castling_rights(Color c) const {
+ return st->castlingRights & (c == WHITE ? WHITE_CASTLING : BLACK_CASTLING);
}
-inline bool Position::castling_impeded(CastlingRight cr) const {
+inline bool Position::castling_impeded(CastlingRights cr) const {
return byTypeBB[ALL_PIECES] & castlingPath[cr];
}
-inline Square Position::castling_rook_square(CastlingRight cr) const {
+inline Square Position::castling_rook_square(CastlingRights cr) const {
return castlingRookSquare[cr];
}
template<PieceType Pt>
inline Bitboard Position::attacks_from(Square s) const {
+ static_assert(Pt != PAWN, "Pawn attacks need color");
+
return Pt == BISHOP || Pt == ROOK ? attacks_bb<Pt>(s, byTypeBB[ALL_PIECES])
: Pt == QUEEN ? attacks_from<ROOK>(s) | attacks_from<BISHOP>(s)
- : StepAttacksBB[Pt][s];
+ : PseudoAttacks[Pt][s];
}
template<>
inline Bitboard Position::attacks_from<PAWN>(Square s, Color c) const {
- return StepAttacksBB[make_piece(c, PAWN)][s];
+ return PawnAttacks[c][s];
}
-inline Bitboard Position::attacks_from(Piece pc, Square s) const {
- return attacks_bb(pc, s, byTypeBB[ALL_PIECES]);
+inline Bitboard Position::attacks_from(PieceType pt, Square s) const {
+ return attacks_bb(pt, s, byTypeBB[ALL_PIECES]);
}
inline Bitboard Position::attackers_to(Square s) const {
return st->checkersBB;
}
-inline Bitboard Position::discovered_check_candidates() const {
- return st->blockersForKing[~sideToMove] & pieces(sideToMove);
-}
-
-inline Bitboard Position::pinned_pieces(Color c) const {
- return st->blockersForKing[c] & pieces(c);
+inline Bitboard Position::blockers_for_king(Color c) const {
+ return st->blockersForKing[c];
}
inline Bitboard Position::check_squares(PieceType pt) const {
return st->checkSquares[pt];
}
+inline bool Position::is_discovery_check_on_king(Color c, Move m) const {
+ return st->blockersForKing[c] & from_sq(m);
+}
+
inline bool Position::pawn_passed(Color c, Square s) const {
- return !(pieces(~c, PAWN) & passed_pawn_mask(c, s));
+ return !(pieces(~c, PAWN) & passed_pawn_span(c, s));
}
inline bool Position::advanced_pawn_push(Move m) const {
return type_of(moved_piece(m)) == PAWN
- && relative_rank(sideToMove, from_sq(m)) > RANK_4;
+ && relative_rank(sideToMove, to_sq(m)) > RANK_5;
+}
+
+inline int Position::pawns_on_same_color_squares(Color c, Square s) const {
+ return popcount(pieces(c, PAWN) & ((DarkSquares & s) ? DarkSquares : ~DarkSquares));
}
inline Key Position::key() const {
}
inline Score Position::psq_score() const {
- return st->psq;
+ return psq;
}
inline Value Position::non_pawn_material(Color c) const {
return st->nonPawnMaterial[c];
}
+inline Value Position::non_pawn_material() const {
+ return st->nonPawnMaterial[WHITE] + st->nonPawnMaterial[BLACK];
+}
+
inline int Position::game_ply() const {
return gamePly;
}
return st->rule50;
}
-inline uint64_t Position::nodes_searched() const {
- return nodes;
-}
-
inline bool Position::opposite_bishops() const {
return pieceCount[W_BISHOP] == 1
&& pieceCount[B_BISHOP] == 1
index[s] = pieceCount[pc]++;
pieceList[pc][index[s]] = s;
pieceCount[make_piece(color_of(pc), ALL_PIECES)]++;
+ psq += PSQT::psq[pc][s];
}
inline void Position::remove_piece(Piece pc, Square s) {
pieceList[pc][index[lastSquare]] = lastSquare;
pieceList[pc][pieceCount[pc]] = SQ_NONE;
pieceCount[make_piece(color_of(pc), ALL_PIECES)]--;
+ psq -= PSQT::psq[pc][s];
}
inline void Position::move_piece(Piece pc, Square from, Square to) {
// index[from] is not updated and becomes stale. This works as long as index[]
// is accessed just by known occupied squares.
- Bitboard from_to_bb = SquareBB[from] ^ SquareBB[to];
- byTypeBB[ALL_PIECES] ^= from_to_bb;
- byTypeBB[type_of(pc)] ^= from_to_bb;
- byColorBB[color_of(pc)] ^= from_to_bb;
+ Bitboard fromTo = from | to;
+ byTypeBB[ALL_PIECES] ^= fromTo;
+ byTypeBB[type_of(pc)] ^= fromTo;
+ byColorBB[color_of(pc)] ^= fromTo;
board[from] = NO_PIECE;
board[to] = pc;
index[to] = index[from];
pieceList[pc][index[to]] = to;
+ psq += PSQT::psq[pc][to] - PSQT::psq[pc][from];
}
inline void Position::do_move(Move m, StateInfo& newSt) {