FORCE_INLINE MoveStack* generateBishopOrRookMoves(MoveStack* moveStackList, const Position& pos,
const Bitboard& target, const Square /*ksq*/)
{
Bitboard fromBB = pos.bbOf(PT, US);
while (fromBB.isNot0()) {
const Square from = fromBB.firstOneFromI9();
const bool fromCanPromote = canPromote(US, makeRank(from));
Bitboard toBB = pos.attacksFrom<PT>(US, from) & target;
while (toBB.isNot0()) {
const Square to = toBB.firstOneFromI9();
const bool toCanPromote = canPromote(US, makeRank(to));
if (fromCanPromote | toCanPromote) {
(*moveStackList++).move = makePromoteMove<MT>(PT, from, to, pos);
if (MT == NonEvasion || ALL)
(*moveStackList++).move = makeNonPromoteMove<MT>(PT, from, to, pos);
}
else // 角、飛車は成れるなら成り、不成は生成しない。
(*moveStackList++).move = makeNonPromoteMove<MT>(PT, from, to, pos);
}
}
return moveStackList;
}
MoveStack* generateDropMoves20151211(MoveStack* moveStackList, const Position& pos, const Bitboard& target) {
const Hand hand = pos.hand(US);
// まず、歩に対して指し手を生成
if (hand.exists<HPawn>()) {
Bitboard toBB = target;
// 一段目には打てない
const Rank TRank9 = (US == Black ? Rank9 : Rank1);
toBB.andEqualNot(rankMask<TRank9>());
// 二歩の回避
Bitboard pawnsBB = pos.bbOf(Pawn, US);
Square pawnsSquare;
foreachBB(pawnsBB, pawnsSquare, [&](const int part) {
toBB.set(part, toBB.p(part) & ~squareFileMask(pawnsSquare).p(part));
});
// 打ち歩詰めの回避
const Rank TRank1 = (US == Black ? Rank1 : Rank9);
const SquareDelta TDeltaS = (US == Black ? DeltaS : DeltaN);
const Square ksq = pos.kingSquare(oppositeColor(US));
// 相手玉が九段目なら、歩で王手出来ないので、打ち歩詰めを調べる必要はない。
if (makeRank(ksq) != TRank1) {
const Square pawnDropCheckSquare = ksq + TDeltaS;
assert(isInSquare(pawnDropCheckSquare));
if (toBB.isSet(pawnDropCheckSquare) && pos.piece(pawnDropCheckSquare) == Empty) {
if (!pos.isPawnDropCheckMate(US, pawnDropCheckSquare)) {
// ここで clearBit だけして MakeMove しないことも出来る。
// 指し手が生成される順番が変わり、王手が先に生成されるが、後で問題にならないか?
(*moveStackList++).move = makeDropMove(Pawn, pawnDropCheckSquare);
}
toBB.xorBit(pawnDropCheckSquare);
}
}
Square to;
FOREACH_BB(toBB, to, {
(*moveStackList++).move = makeDropMove(Pawn, to);
});
// Square の左右だけ変換
inline Square inverseFile(const Square sq) {
return makeSquare(inverse(makeFile(sq)), makeRank(sq));
}
inline std::string squareToStringCSA(const Square sq) {
const Rank r = makeRank(sq);
const File f = makeFile(sq);
const char ch[] = {fileToCharCSA(f), rankToCharCSA(r), '\0'};
return std::string(ch);
}
ret[retIdx++] = std::make_pair(&r_pe_h[i][jcolor] - &oneArrayKPP[0], MaxWeight() >> (distance+2));
ret[retIdx++] = std::make_pair(&pe[i][jcolor][jto] - &oneArrayKPP[0], MaxWeight() >> (distance+2));
if (E1 < jto)
jto = inverseFile(jto);
ret[retIdx++] = std::make_pair(&ype[krank][i][jcolor][jto] - &oneArrayKPP[0], MaxWeight() >> (distance+2));
}
}
else {
// i, j 共に盤上
const int ibegin = kppIndexBegin(i);
const int jbegin = kppIndexBegin(j);
const Piece ipiece = g_kppBoardIndexStartToPiece.value(ibegin);
const Piece jpiece = g_kppBoardIndexStartToPiece.value(jbegin);
const Square isq = static_cast<Square>(i - ibegin);
const Square jsq = static_cast<Square>(j - jbegin);
const Rank krank = makeRank(ksq);
const File kfile = makeFile(ksq);
const Rank irank = makeRank(isq);
const File ifile = makeFile(isq);
const Rank jrank = makeRank(jsq);
const File jfile = makeFile(jsq);
File diff_file_ki = kfile - ifile;
bool kfile_ifile_is_inversed = false;
if (0 < diff_file_ki) {
diff_file_ki = -diff_file_ki;
kfile_ifile_is_inversed = true;
}
const File diff_file_kj =
static_cast<File>(diff_file_ki == static_cast<File>(0) ? -abs(kfile - jfile) :
kfile_ifile_is_inversed ? jfile - kfile : kfile - jfile);
if (ipiece == jpiece) {
