}
- // Template generate_piece_moves() with specializations
+ // Template generate_piece_moves() with specializations and overloads
template<PieceType>
MoveStack* generate_piece_moves(const Position&, MoveStack*, Color us, Bitboard);
/// generate_checks() generates all pseudo-legal non-capturing, non-promoting
/// checks. It returns the number of generated moves.
-int generate_checks(const Position& pos, MoveStack* mlist, Bitboard dc) {
+int generate_checks(const Position& pos, MoveStack* mlist) {
assert(pos.is_ok());
assert(!pos.is_check());
Color us = pos.side_to_move();
Square ksq = pos.king_square(opposite_color(us));
+ Bitboard dc = pos.discovered_check_candidates(us);
MoveStack* mlist_start = mlist;
- assert(pos.piece_on(ksq) == king_of_color(opposite_color(us)));
+ assert(pos.piece_on(ksq) == piece_of_color_and_type(opposite_color(us), KING));
// Pieces moves
mlist = generate_piece_checks<PAWN>(pos, mlist, us, dc, ksq);
/// in check. Unlike the other move generation functions, this one generates
/// only legal moves. It returns the number of generated moves.
-int generate_evasions(const Position& pos, MoveStack* mlist, Bitboard pinned) {
+int generate_evasions(const Position& pos, MoveStack* mlist) {
assert(pos.is_ok());
assert(pos.is_check());
Square ksq = pos.king_square(us);
MoveStack* mlist_start = mlist;
- assert(pos.piece_on(ksq) == king_of_color(us));
+ assert(pos.piece_on(ksq) == piece_of_color_and_type(us, KING));
// The bitboard of occupied pieces without our king
Bitboard b_noKing = pos.occupied_squares();
if (!(checkers & (checkers - 1))) // Only one bit set?
{
Square checksq = first_1(checkers);
+ Bitboard pinned = pos.pinned_pieces(us);
assert(pos.color_of_piece_on(checksq) == them);
if (blockSquares != EmptyBoardBB)
{
- // Pieces moves
mlist = generate_piece_moves<PAWN>(pos, mlist, us, blockSquares, pinned);
mlist = generate_piece_moves<KNIGHT>(pos, mlist, us, blockSquares, pinned);
mlist = generate_piece_moves<BISHOP>(pos, mlist, us, blockSquares, pinned);
Bitboard pinned = pos.pinned_pieces(pos.side_to_move());
if (pos.is_check())
- return generate_evasions(pos, mlist, pinned);
+ return generate_evasions(pos, mlist);
// Generate pseudo-legal moves
int n = generate_captures(pos, mlist);
// Remove illegal moves from the list
for (int i = 0; i < n; i++)
- if (!pos.pl_move_is_legal(mlist[i].move, pinned))
+ if (!pos.pl_move_is_legal(mlist[i].move))
mlist[i--].move = mlist[--n].move;
return n;
/// returned. If not, the function returns false. This function must
/// only be used when the side to move is not in check.
-bool move_is_legal(const Position& pos, const Move m, Bitboard pinned) {
+bool move_is_legal(const Position& pos, const Move m) {
assert(pos.is_ok());
assert(!pos.is_check());
assert(move_is_ok(m));
- assert(pinned == pos.pinned_pieces(pos.side_to_move()));
Color us = pos.side_to_move();
Color them = opposite_color(us);
Square from = move_from(m);
Piece pc = pos.piece_on(from);
+ Bitboard pinned = pos.pinned_pieces(us);
// If the from square is not occupied by a piece belonging to the side to
// move, the move is obviously not legal.
return false;
assert(pos.square_is_empty(to));
- assert(pos.piece_on(to - pawn_push(us)) == pawn_of_color(them));
+ assert(pos.piece_on(to - pawn_push(us)) == piece_of_color_and_type(them, PAWN));
// The move is pseudo-legal, check if it is also legal
- return pos.pl_move_is_legal(m, pinned);
+ return pos.pl_move_is_legal(m);
}
// Castling moves
assert(from == pos.king_square(us));
assert(to == pos.initial_kr_square(us));
- assert(pos.piece_on(to) == rook_of_color(us));
+ assert(pos.piece_on(to) == piece_of_color_and_type(us, ROOK));
Square g1 = relative_square(us, SQ_G1);
Square f1 = relative_square(us, SQ_F1);
assert(from == pos.king_square(us));
assert(to == pos.initial_qr_square(us));
- assert(pos.piece_on(to) == rook_of_color(us));
+ assert(pos.piece_on(to) == piece_of_color_and_type(us, ROOK));
Square c1 = relative_square(us, SQ_C1);
Square d1 = relative_square(us, SQ_D1);
illegal = true;
if ( square_file(to) == FILE_B
- && ( pos.piece_on(to + DELTA_W) == rook_of_color(them)
- || pos.piece_on(to + DELTA_W) == queen_of_color(them)))
+ && ( pos.piece_on(to + DELTA_W) == piece_of_color_and_type(them, ROOK)
+ || pos.piece_on(to + DELTA_W) == piece_of_color_and_type(them, QUEEN)))
illegal = true;
return !illegal;
return false;
}
// The move is pseudo-legal, check if it is also legal
- return pos.pl_move_is_legal(m, pinned);
+ return pos.pl_move_is_legal(m);
}
// Luckly we can handle all the other pieces in one go
- return ( pos.piece_attacks_square(from, to)
- && pos.pl_move_is_legal(m, pinned)
+ return ( pos.piece_attacks_square(pos.piece_on(from), from, to)
+ && pos.pl_move_is_legal(m)
&& !move_promotion(m));
}
Color them = opposite_color(us);
Square ksq = pos.king_square(us);
- assert(pos.piece_on(ksq) == king_of_color(us));
+ assert(pos.piece_on(ksq) == piece_of_color_and_type(us, KING));
Square rsq = (Side == KING_SIDE ? pos.initial_kr_square(us) : pos.initial_qr_square(us));
Square s1 = relative_square(us, Side == KING_SIDE ? SQ_G1 : SQ_C1);
Square s;
bool illegal = false;
- assert(pos.piece_on(rsq) == rook_of_color(us));
+ assert(pos.piece_on(rsq) == piece_of_color_and_type(us, ROOK));
// It is a bit complicated to correctly handle Chess960
for (s = Min(ksq, s1); s <= Max(ksq, s1); s++)
if ( Side == QUEEN_SIDE
&& square_file(rsq) == FILE_B
- && ( pos.piece_on(relative_square(us, SQ_A1)) == rook_of_color(them)
- || pos.piece_on(relative_square(us, SQ_A1)) == queen_of_color(them)))
+ && ( pos.piece_on(relative_square(us, SQ_A1)) == piece_of_color_and_type(them, ROOK)
+ || pos.piece_on(relative_square(us, SQ_A1)) == piece_of_color_and_type(them, QUEEN)))
illegal = true;
if (!illegal)