int sq;

for (sq = 0; sq < SquareNb; sq++) CastleMask[sq] = 0xF;

CastleMask[E1] &= ~FlagsWhiteKingCastle;

CastleMask[H1] &= ~FlagsWhiteKingCastle;

CastleMask[E1] &= ~FlagsWhiteQueenCastle;

CastleMask[A1] &= ~FlagsWhiteQueenCastle;

CastleMask[E8] &= ~FlagsBlackKingCastle;

CastleMask[H8] &= ~FlagsBlackKingCastle;

CastleMask[E8] &= ~FlagsBlackQueenCastle;

CastleMask[A8] &= ~FlagsBlackQueenCastle;

int me, opp;

int from, to;

int piece, pos, capture;

int old_flags, new_flags;

int delta;

int sq;

int pawn, rook;

ASSERT(board!=NULL);

ASSERT(move_is_ok(move));

ASSERT(undo!=NULL);

ASSERT(board_is_legal(board));

// initialise undo

undo->capture = false;

undo->turn = board->turn;

undo->flags = board->flags;

undo->ep_square = board->ep_square;

undo->ply_nb = board->ply_nb;

undo->cap_sq = board->cap_sq;

undo->moving_piece = board->moving_piece;

undo->opening = board->opening;

undo->endgame = board->endgame;

undo->key = board->key;

undo->pawn_key = board->pawn_key;

undo->material_key = board->material_key;

// init

me = board->turn;

opp = COLOUR_OPP(me);

from = MOVE_FROM(move);

to = MOVE_TO(move);

piece = board->square[from];

board->moving_piece = piece;

ASSERT(COLOUR_IS(piece,me));

// update key stack

ASSERT(board->sp<StackSize);

board->stack[board->sp++] = board->key;

// update turn

board->turn = opp;

board->key ^= RANDOM_64(RandomTurn);

// update castling rights

old_flags = board->flags;

new_flags = old_flags & CastleMask[from] & CastleMask[to];

board->flags = new_flags;

board->key ^= Castle64[new_flags^old_flags]; // HACK

// update en-passant square

if ((sq=board->ep_square) != SquareNone) {

board->key ^= RANDOM_64(RandomEnPassant+SQUARE_FILE(sq)-FileA);

board->ep_square = SquareNone;

}

if (PIECE_IS_PAWN(piece)) {

delta = to - from;

if (delta == +32 || delta == -32) {

pawn = PAWN_MAKE(opp);

if (board->square[to-1] == pawn || board->square[to+1] == pawn) {

board->ep_square = (from + to) / 2;

board->key ^= RANDOM_64(RandomEnPassant+SQUARE_FILE(to)-FileA);

}

}

}

// update move number (captures are handled later)

board->ply_nb++;

if (PIECE_IS_PAWN(piece)) board->ply_nb = 0; // conversion

// update last square

board->cap_sq = SquareNone;

// remove the captured piece

sq = to;

if (MOVE_IS_EN_PASSANT(move)) sq = SQUARE_EP_DUAL(sq);

if ((capture=board->square[sq]) != Empty) {

ASSERT(COLOUR_IS(capture,opp));

ASSERT(!PIECE_IS_KING(capture));

undo->capture = true;

undo->capture_square = sq;

undo->capture_piece = capture;

undo->capture_pos = board->pos[sq];

square_clear(board,sq,capture,true);

board->ply_nb = 0; // conversion

board->cap_sq = to;

}

// move the piece

if (MOVE_IS_PROMOTE(move)) {

// promote

undo->pawn_pos = board->pos[from];

square_clear(board,from,piece,true);

piece = move_promote(move);

// insert the promote piece in MV order

for (pos = board->piece_size[me]; pos > 0 && piece > board->square[board->piece[me][pos-1]]; pos--) // HACK

;

square_set(board,to,piece,pos,true);

board->cap_sq = to;

} else {

// normal move

square_move(board,from,to,piece,true);

}

// move the rook in case of castling

if (MOVE_IS_CASTLE(move)) {

rook = Rook64 | COLOUR_FLAG(me); // HACK

if (to == G1) {

square_move(board,H1,F1,rook,true);

} else if (to == C1) {

square_move(board,A1,D1,rook,true);

} else if (to == G8) {

square_move(board,H8,F8,rook,true);

} else if (to == C8) {

square_move(board,A8,D8,rook,true);

} else {

ASSERT(false);

}

}

// debug

ASSERT(board_is_ok(board));

int me;

int from, to;

int piece, pos;

int rook;

ASSERT(board!=NULL);

ASSERT(move_is_ok(move));

ASSERT(undo!=NULL);

// init

me = undo->turn;

from = MOVE_FROM(move);

to = MOVE_TO(move);

piece = board->square[to];

ASSERT(COLOUR_IS(piece,me));

// castle

if (MOVE_IS_CASTLE(move)) {

rook = Rook64 | COLOUR_FLAG(me); // HACK

if (to == G1) {

square_move(board,F1,H1,rook,false);

} else if (to == C1) {

square_move(board,D1,A1,rook,false);

} else if (to == G8) {

square_move(board,F8,H8,rook,false);

} else if (to == C8) {

square_move(board,D8,A8,rook,false);

} else {

ASSERT(false);

}

}

// move the piece backward

if (MOVE_IS_PROMOTE(move)) {

// promote

ASSERT(piece==move_promote(move));

square_clear(board,to,piece,false);

piece = PAWN_MAKE(me);

pos = undo->pawn_pos;

square_set(board,from,piece,pos,false);

} else {

// normal move

square_move(board,to,from,piece,false);

}

// put the captured piece back

if (undo->capture) {

square_set(board,undo->capture_square,undo->capture_piece,undo->capture_pos,false);

}

// update board info

board->turn = undo->turn;

board->flags = undo->flags;

board->ep_square = undo->ep_square;

board->ply_nb = undo->ply_nb;

board->cap_sq = undo->cap_sq;

board->moving_piece = undo->moving_piece;

board->opening = undo->opening;

board->endgame = undo->endgame;

board->key = undo->key;

board->pawn_key = undo->pawn_key;

board->material_key = undo->material_key;

// update key stack

ASSERT(board->sp>0);

board->sp--;

// debug

ASSERT(board_is_ok(board));

ASSERT(board_is_legal(board));

int sq;

ASSERT(board!=NULL);

ASSERT(undo!=NULL);

ASSERT(board_is_legal(board));

ASSERT(!board_is_check(board));

// initialise undo

undo->turn = board->turn;

undo->ep_square = board->ep_square;

undo->ply_nb = board->ply_nb;

undo->cap_sq = board->cap_sq;

undo->moving_piece = board->moving_piece;

undo->key = board->key;

// update key stack

ASSERT(board->sp<StackSize);

board->stack[board->sp++] = board->key;

// update turn

board->turn = COLOUR_OPP(board->turn);

board->key ^= RANDOM_64(RandomTurn);

// update en-passant square

sq = board->ep_square;

if (sq != SquareNone) {

board->key ^= RANDOM_64(RandomEnPassant+SQUARE_FILE(sq)-FileA);

board->ep_square = SquareNone;

}

// update move number

board->ply_nb = 0; // HACK: null move is considered as a conversion

// update last square

board->cap_sq = SquareNone;

board->moving_piece = PieceNone256;

// debug

ASSERT(board_is_ok(board));

ASSERT(board!=NULL);

ASSERT(undo!=NULL);

ASSERT(board_is_legal(board));

ASSERT(!board_is_check(board));

// update board info

board->turn = undo->turn;

board->ep_square = undo->ep_square;

board->ply_nb = undo->ply_nb;

board->cap_sq = undo->cap_sq;

board->moving_piece = undo->moving_piece;

board->key = undo->key;

// update key stack

ASSERT(board->sp>0);

board->sp--;

// debug

ASSERT(board_is_ok(board));

int pos, piece_12, colour;

int sq;

int i, size;

int sq_64;

uint64 hash_xor;

ASSERT(board!=NULL);

ASSERT(SQUARE_IS_OK(square));

ASSERT(piece_is_ok(piece));

ASSERT(update==true||update==false);

// init

pos = board->pos[square];

ASSERT(pos>=0);

piece_12 = PIECE_TO_12(piece);

colour = PIECE_COLOUR(piece);

// square

ASSERT(board->square[square]==piece);

board->square[square] = Empty;

// piece list

if (!PIECE_IS_PAWN(piece)) {

// init

size = board->piece_size[colour];

ASSERT(size>=1);

// stable swap

ASSERT(pos>=0&&pos<size);

ASSERT(board->pos[square]==pos);

board->pos[square] = -1;

for (i = pos; i < size-1; i++) {

sq = board->piece[colour][i+1];

board->piece[colour][i] = sq;

ASSERT(board->pos[sq]==i+1);

board->pos[sq] = i;

}

// size

size--;

board->piece[colour][size] = SquareNone;

board->piece_size[colour] = size;

} else {

// init

size = board->pawn_size[colour];

ASSERT(size>=1);

// stable swap

ASSERT(pos>=0&&pos<size);

ASSERT(board->pos[square]==pos);

board->pos[square] = -1;

for (i = pos; i < size-1; i++) {

sq = board->pawn[colour][i+1];

board->pawn[colour][i] = sq;

ASSERT(board->pos[sq]==i+1);

board->pos[sq] = i;

}

// size

size--;

board->pawn[colour][size] = SquareNone;

board->pawn_size[colour] = size;

// pawn "bitboard"

board->pawn_file[colour][SQUARE_FILE(square)] ^= BIT(PAWN_RANK(square,colour));

}

// material

ASSERT(board->piece_nb>0);

board->piece_nb--;

ASSERT(board->number[piece_12]>0);

board->number[piece_12]--;

board->piece_material[colour] -= VALUE_PIECE(piece); // Thomas

// update

if (update) {

// init

sq_64 = SQUARE_TO_64(square);

// PST

board->opening -= PST(piece_12,sq_64,Opening);

board->endgame -= PST(piece_12,sq_64,Endgame);

// hash key

hash_xor = RANDOM_64(RandomPiece+(piece_12^1)*64+sq_64); // HACK: ^1 for PolyGlot book

board->key ^= hash_xor;

if (PIECE_IS_PAWN(piece)) board->pawn_key ^= hash_xor;

// material key

board->material_key ^= RANDOM_64(piece_12*16+board->number[piece_12]);

}

int piece_12, colour;

int sq;

int i, size;

int sq_64;

uint64 hash_xor;

ASSERT(board!=NULL);

ASSERT(SQUARE_IS_OK(square));

ASSERT(piece_is_ok(piece));

ASSERT(pos>=0);

ASSERT(update==true||update==false);

// init

piece_12 = PIECE_TO_12(piece);

colour = PIECE_COLOUR(piece);

// square

ASSERT(board->square[square]==Empty);

board->square[square] = piece;

// piece list

if (!PIECE_IS_PAWN(piece)) {

// init

size = board->piece_size[colour];

ASSERT(size>=0);

// size

size++;

board->piece[colour][size] = SquareNone;

board->piece_size[colour] = size;

// stable swap

ASSERT(pos>=0&&pos<size);

for (i = size-1; i > pos; i--) {

sq = board->piece[colour][i-1];

board->piece[colour][i] = sq;

ASSERT(board->pos[sq]==i-1);

board->pos[sq] = i;

}

board->piece[colour][pos] = square;

ASSERT(board->pos[square]==-1);

board->pos[square] = pos;

} else {

// init

size = board->pawn_size[colour];

ASSERT(size>=0);

// size

size++;

board->pawn[colour][size] = SquareNone;

board->pawn_size[colour] = size;

// stable swap

ASSERT(pos>=0&&pos<size);

for (i = size-1; i > pos; i--) {

sq = board->pawn[colour][i-1];

board->pawn[colour][i] = sq;

ASSERT(board->pos[sq]==i-1);

board->pos[sq] = i;

}

board->pawn[colour][pos] = square;

ASSERT(board->pos[square]==-1);

board->pos[square] = pos;

// pawn "bitboard"

board->pawn_file[colour][SQUARE_FILE(square)] ^= BIT(PAWN_RANK(square,colour));

}

// material

ASSERT(board->piece_nb<32);

board->piece_nb++;;

ASSERT(board->number[piece_12]<9);

board->number[piece_12]++;

board->piece_material[colour] += VALUE_PIECE(piece); // Thomas

// update

if (update) {

// init

sq_64 = SQUARE_TO_64(square);

// PST

board->opening += PST(piece_12,sq_64,Opening);

board->endgame += PST(piece_12,sq_64,Endgame);

// hash key

hash_xor = RANDOM_64(RandomPiece+(piece_12^1)*64+sq_64); // HACK: ^1 for PolyGlot book

board->key ^= hash_xor;

if (PIECE_IS_PAWN(piece)) board->pawn_key ^= hash_xor;

// material key

board->material_key ^= RANDOM_64(piece_12*16+(board->number[piece_12]-1));

}

int colour;

int pos;

int from_64, to_64;

int piece_12;

int piece_index;

uint64 hash_xor;

ASSERT(board!=NULL);

ASSERT(SQUARE_IS_OK(from));

ASSERT(SQUARE_IS_OK(to));

ASSERT(piece_is_ok(piece));

ASSERT(update==true||update==false);

// init

colour = PIECE_COLOUR(piece);

pos = board->pos[from];

ASSERT(pos>=0);

// from

ASSERT(board->square[from]==piece);

board->square[from] = Empty;

ASSERT(board->pos[from]==pos);

board->pos[from] = -1; // not needed

// to

ASSERT(board->square[to]==Empty);

board->square[to] = piece;

ASSERT(board->pos[to]==-1);

board->pos[to] = pos;

// piece list

if (!PIECE_IS_PAWN(piece)) {

ASSERT(board->piece[colour][pos]==from);

board->piece[colour][pos] = to;

} else {

ASSERT(board->pawn[colour][pos]==from);

board->pawn[colour][pos] = to;

// pawn "bitboard"

board->pawn_file[colour][SQUARE_FILE(from)] ^= BIT(PAWN_RANK(from,colour));

board->pawn_file[colour][SQUARE_FILE(to)] ^= BIT(PAWN_RANK(to,colour));

}

// update

if (update) {

// init

from_64 = SQUARE_TO_64(from);

to_64 = SQUARE_TO_64(to);

piece_12 = PIECE_TO_12(piece);

// PST

board->opening += PST(piece_12,to_64,Opening) - PST(piece_12,from_64,Opening);

board->endgame += PST(piece_12,to_64,Endgame) - PST(piece_12,from_64,Endgame);

// hash key

piece_index = RandomPiece + (piece_12^1) * 64; // HACK: ^1 for PolyGlot book

hash_xor = RANDOM_64(piece_index+to_64) ^ RANDOM_64(piece_index+from_64);

board->key ^= hash_xor;

if (PIECE_IS_PAWN(piece)) board->pawn_key ^= hash_xor;

}