* Massachusetts.
*
* Enhancements Copyright 1992-2001, 2002, 2003, 2004, 2005, 2006,
- * 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014 Free Software Foundation, Inc.
+ * 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016 Free
+ * Software Foundation, Inc.
*
* Enhancements Copyright 2005 Alessandro Scotti
*
int SameColor P((ChessSquare, ChessSquare));
int PosFlags(int index);
-extern signed char initialRights[BOARD_FILES]; /* [HGM] all rights enabled, set in InitPosition */
int quickFlag;
char *pieceDesc[EmptySquare];
+char *defaultDesc[EmptySquare] = {
+ "fmWfceFifmnD", "N", "B", "R", "Q",
+ "F", "A", "BN", "RN", "W", "K",
+ "mRcpR", "N0", "BW", "RF", "gQ",
+ "", "", "QN", "", "N", "",
+ "", "", "", "", "",
+ "", "", "", "", "", "",
+ "", "", "", "", "",
+ "", "", "", "", "", "K"
+};
int
WhitePiece (ChessSquare piece)
#define SameColor(piece1, piece2) (piece1 < EmptySquare && piece2 < EmptySquare && (piece1 < BlackPawn) == (piece2 < BlackPawn) || piece1 == DarkSquare || piece2 == DarkSquare)
#endif
-char pieceToChar[] = {
+unsigned char pieceToChar[EmptySquare+1] = {
'P', 'N', 'B', 'R', 'Q', 'F', 'E', 'A', 'C', 'W', 'M',
'O', 'H', 'I', 'J', 'G', 'D', 'V', 'L', 'S', 'U', 'K',
'p', 'n', 'b', 'r', 'q', 'f', 'e', 'a', 'c', 'w', 'm',
'o', 'h', 'i', 'j', 'g', 'd', 'v', 'l', 's', 'u', 'k',
'x' };
-char pieceNickName[EmptySquare];
+unsigned char pieceNickName[EmptySquare];
+int promoPartner[EmptySquare];
char
PieceToChar (ChessSquare p)
{
- if((int)p < 0 || (int)p >= (int)EmptySquare) return('x'); /* [HGM] for safety */
- return pieceToChar[(int) p];
+ int c;
+ if((int)p < 0 || (int)p >= (int)EmptySquare) return('?'); /* [HGM] for safety */
+ c = pieceToChar[(int) p];
+ if(c & 128) c = c & 63 | 64;
+ return c;
+}
+
+char
+PieceSuffix (ChessSquare p)
+{
+ int c;
+ if((int)p < 0 || (int)p >= (int)EmptySquare) return 0; /* [HGM] for safety */
+ c = pieceToChar[(int) p];
+ if(c < 128) return 0;
+ return SUFFIXES[c - 128 >> 6];
}
int
int i=0;
ChessSquare start = (int)p >= (int)BlackPawn ? BlackPawn : WhitePawn;
- while(start++ != p) if(pieceToChar[(int)start-1] != '.') i++;
+ while(start++ != p) if(pieceToChar[start-1] != '.' && pieceToChar[start-1] != '+') i++;
return i;
}
{
int i, j;
- for (i = 0; i < BOARD_HEIGHT; i++)
+ for (i = 0; i < handSize; i++)
for (j = 0; j < BOARD_WIDTH; j++)
to[i][j] = from[i][j];
for (j = 0; j < BOARD_FILES; j++) // [HGM] gamestate: copy castling rights and ep status
return TRUE;
}
+char defaultName[] = "PNBRQ......................................K" // white
+ "pnbrq......................................k"; // black
+char shogiName[] = "PNBRLS...G.++++++..........................K" // white
+ "pnbrls...g.++++++..........................k"; // black
+char xqName[] = "PH.R.AE..K.C................................" // white
+ "ph.r.ae..k.c................................"; // black
+
+char *
+CollectPieceDescriptors ()
+{ // make a line of piece descriptions for use in the PGN Piece tag:
+ // dump all engine defined pieces, and pieces with non-standard names,
+ // but suppress black pieces that are the same as their white counterpart
+ ChessSquare p;
+ static char buf[MSG_SIZ], s[2];
+ char *m, *pieceName = defaultName;
+ int len, c, d;
+ *buf = NULLCHAR;
+ if(!pieceDefs) return "";
+ if(gameInfo.variant == VariantChu) return ""; // for now don't do this for Chu Shogi
+ if(gameInfo.variant == VariantShogi) pieceName = shogiName;
+ if(gameInfo.variant == VariantXiangqi) pieceName = xqName;
+ for(p=WhitePawn; p<EmptySquare; p++) {
+ if((c = pieceToChar[p]) == '.' || c == '~') continue; // does not participate
+ m = pieceDesc[p]; d = (c == '+' ? pieceToChar[DEMOTED(p)] : c);
+ if(p >= BlackPawn && pieceToChar[BLACK_TO_WHITE p] == (c & ~32)
+ && (c != '+' || pieceToChar[DEMOTED(BLACK_TO_WHITE p)] == d)) {// black member of normal pair
+ char *wm = pieceDesc[BLACK_TO_WHITE p];
+ if(!m && !wm || m && wm && !strcmp(wm, m)) continue; // moves as a white piece
+ } else // white or unpaired black
+ if((p < BlackPawn || CharToPiece(d & ~32) != EmptySquare) && // white or lone black
+ !pieceDesc[p] /*&& pieceName[p] == c*/) continue; // orthodox piece known by its usual name
+// TODO: listing pieces because of unusual name can only be done if we have accurate Betza of all defaults
+ if(!m) m = defaultDesc[p];
+ if(!m) continue;
+ len = strlen(buf);
+ *s = (d > 128 ? SUFFIXES[d-128>>6] : 0); d = 64 + (d & 63);
+ snprintf(buf+len, MSG_SIZ-len, "%s%s%c%s:%s", len ? ";" : "", c == '+' ? "+" : "", d, s, m);
+ }
+ return buf;
+}
+
+int
+LoadPieceDesc (char *s)
+{
+ ChessSquare piece;
+ static char suf[] = SUFFIXES;
+ char *r, *p, *q = s;
+ int ok = TRUE, promoted, c;
+ while(q && *s) {
+ p = s;
+ q = strchr(s, ';');
+ if(q) *q = 0, s = q+1;
+ if(*p == '+') promoted = 1, p++; else promoted = 0;
+ c = *p++;
+ if(!c) { ok = FALSE; continue; } // bad syntax
+ if(*p && (r = strchr(suf, *p))) c += 64*(r - suf + 1), p++;
+ if(*p++ != ':') { ok = FALSE; continue; } // bad syntax
+ if(!strcmp(p, "(null)")) continue; // handle bug in writing of XBoard 4.8.0
+ piece = CharToPiece(c);
+ if(piece >= EmptySquare) { ok = FALSE; continue; } // non-existent piece
+ if(promoted) {
+ piece = promoPartner[piece];
+ if(pieceToChar[piece] != '+') { ok = FALSE; continue; } // promoted form does not exist
+ }
+ ASSIGN(pieceDesc[piece], p);
+ if(piece < BlackPawn && (pieceToChar[WHITE_TO_BLACK piece] == pieceToChar[piece] + 32 || promoted)) {
+ ASSIGN(pieceDesc[WHITE_TO_BLACK piece], p);
+ }
+ pieceDefs = TRUE;
+ if(q) *q = ';';
+ }
+ return ok;
+}
+
// [HGM] gen: configurable move generation from Betza notation sent by engine.
+// Some notes about two-leg moves: GenPseudoLegal() works in two modes, depending on whether a 'kill-
+// square has been set: without one is generates all moves, and a global int legNr flags in bits 0 and 1
+// if the move has 1 or 2 legs. Only the marking of squares makes use of this info, by only marking
+// target squares of leg 1 (rejecting null move). A dummy move with MoveType 'FirstLeg' to the relay square
+// is generated, so a cyan marker can be put there, and other functions can ignore such a move. When the
+// user selects this square, it becomes the kill-square. Once a kill-square is set, only 2-leg moves are
+// generated that use that square as relay, plus 1-leg moves, so the 1-leg move that goes to the kill-square
+// can be marked during 2nd-leg entry to terminate the move there. For judging the pseudo-legality of the
+// 2nd leg, the from-square has to be considered empty, although the moving piece is still on it.
+
+Boolean pieceDefs;
// alphabet "abcdefghijklmnopqrstuvwxyz"
-char symmetry[] = "FBNW.F.WFNKN.N..QR....W..N";
-char xStep[] = "2110.1.03102.10.00....0..2";
-char yStep[] = "2132.1.33313.20.11....1..3";
+char symmetry[] = "FBNW.FFW.NKN.NW.QR....W..N";
+char xStep[] = "2110.130.102.10.00....0..2";
+char yStep[] = "2132.133.313.20.11....1..3";
char dirType[] = "01000104000200000260050000";
+char upgrade[] = "AFCD.BGH.JQL.NO.KW....R..Z";
+char rotate[] = "DRCA.WHG.JKL.NO.QB....F..Z";
+
// alphabet "a b c d e f g h i j k l m n o p q r s t u v w x y z "
int dirs1[] = { 0,0x3C,0,0,0,0xC3,0,0, 0,0,0,0xF0,0,0,0,0,0,0x0F,0 ,0,0,0 ,0,0,0,0 };
int dirs2[] = { 0,0x18,0,0,0,0x81,0,0xFF,0,0,0,0x60,0,0,0,0,0,0x06,0x66,0,0,0x99,0,0,0,0 };
+int dirs3[] = { 0,0x38,0,0,0,0x83,0,0xFF,0,0,0,0xE0,0,0,0,0,0,0x0E,0xEE,0,0,0xBB,0,0,0,0 };
+int dirs4[] = { 0,0x10,0,0,0,0x01,0,0xFF,0,0,0,0x40,0,0,0,0,0,0x04,0x44,0,0,0x11,0,0,0,0 };
int rot[][4] = { // rotation matrices for each direction
{ 1, 0, 0, 1 },
};
void
-MovesFromString (Board board, int flags, int f, int r, char *desc, MoveCallback cb, VOIDSTAR cl)
+OK (Board board, int flags, ChessMove kind, int rf, int ff, int rt, int ft, VOIDSTAR cl)
{
- char *p = desc;
- int mine, his, dir, bit, occup, i;
+ (*(int*)cl)++;
+}
+
+void
+MovesFromString (Board board, int flags, int f, int r, int tx, int ty, int angle, int range, char *desc, MoveCallback cb, VOIDSTAR cl)
+{
+ char buf[80], *p = desc, *atom = NULL;
+ int mine, his, dir, bit, occup, i, ep, promoRank = -1;
+ ChessMove promo= NormalMove; ChessSquare pc = board[r][f];
+ if(pc == DarkSquare) return; // this is not a piece, but a 'hole' in the board
if(flags & F_WHITE_ON_MOVE) his = 2, mine = 1; else his = 1, mine = 2;
+ if(pc == WhitePawn || pc == WhiteLance) promo = WhitePromotion, promoRank = BOARD_HEIGHT-1; else
+ if(pc == BlackPawn || pc == BlackLance) promo = BlackPromotion, promoRank = 0;
while(*p) { // more moves to go
- int expo = 1, dx, dy, x, y, mode, dirSet, retry=0, initial=0;
- if(*p == 'i') initial = 1, p++;
+ int expo = -1, dx, dy, x, y, mode, dirSet, ds2=0, retry=0, initial=0, jump=1, skip = 0, all = 0;
+ char *cont = NULL;
+ while(*p == 'i') initial++, desc = ++p;
while(islower(*p)) p++; // skip prefixes
if(!isupper(*p)) return; // syntax error: no atom
+ dx = xStep[*p-'A'] - '0';// step vector of atom
+ dy = yStep[*p-'A'] - '0';
dirSet = 0; // build direction set based on atom symmetry
switch(symmetry[*p-'A']) {
case 'B': expo = 0; // bishop, slide
- case 'F': // diagonal atom (degenerate 4-fold)
+ case 'F': all = 0xAA; // diagonal atom (degenerate 4-fold)
+ if(tx >= 0) goto king; // continuation legs specified in K/Q system!
while(islower(*desc) && (i = dirType[*desc-'a']) != '0') {
int b = dirs1[*desc-'a']; // use wide version
if( islower(desc[1]) &&
} else desc++;
dirSet |= b;
}
- dirSet &= 0x99; if(!dirSet) dirSet = 0x99;
+ dirSet &= 0xAA; if(!dirSet) dirSet = 0xAA;
break;
case 'R': expo = 0; // rook, slide
- case 'W': // orthogonal atom (non-deg 4-fold)
+ case 'W': all = 0x55; // orthogonal atom (non-deg 4-fold)
+ if(tx >= 0) goto king; // continuation legs specified in K/Q system!
while(islower(*desc) && (dirType[*desc-'a'] & ~4) != '0') dirSet |= dirs2[*desc++-'a'];
dirSet &= 0x55; if(!dirSet) dirSet = 0x55;
+ dirSet = (dirSet << angle | dirSet >> 8-angle) & 255; // re-orient direction system
break;
- case 'N': // oblique atom (degenerate 8-fold)
+ case 'N': all = 0xFF; // oblique atom (degenerate 8-fold)
+ if(tx >= 0) goto king; // continuation legs specified in K/Q system!
+ if(*desc == 'h') { // chiral direction sets 'hr' and 'hl'
+ dirSet = (desc[1] == 'r' ? 0x55 : 0xAA); desc += 2;
+ } else
while(islower(*desc) && (i = dirType[*desc-'a']) != '0') {
int b = dirs2[*desc-'a']; // when alone, use narrow version
if(desc[1] == 'h') b = dirs1[*desc-'a'], desc += 2; // dirs1 is wide version
- else if(islower(desc[1]) && i < '4'
- && ((i | dirType[desc[1]-'a']) & 3) == 3) { // combinable (perpendicular dim)
+ else if(*desc == desc[1] || islower(desc[1]) && i < '4'
+ && ((i | dirType[desc[1]-'a']) & 3) == 3) { // combinable (perpendicular dim or same)
b = dirs1[*desc-'a'] & dirs2[desc[1]-'a']; // intersect wide & perp narrow
desc += 2;
} else desc++;
if(!dirSet) dirSet = 0xFF;
break;
case 'Q': expo = 0; // queen, slide
- case 'K': // non-deg (pseudo) 8-fold
- dirSet=0x55; // start with orthogonal moves
- retry = 1; // and schedule the diagonal moves for later
+ case 'K': all = 0xFF; // non-deg (pseudo) 8-fold
+ king:
+ while(islower(*desc) && (i = dirType[*desc-'a']) != '0') {
+ int b = dirs4[*desc-'a']; // when alone, use narrow version
+ if(desc[1] == *desc) desc++; // doubling forces alone
+ else if(islower(desc[1]) && i < '4'
+ && ((i | dirType[desc[1]-'a']) & 3) == 3) { // combinable (perpendicular dim or same)
+ b = dirs3[*desc-'a'] & dirs3[desc[1]-'a']; // intersect wide & perp wide
+ desc += 2;
+ } else desc++;
+ dirSet |= b;
+ }
+ if(!dirSet) dirSet = (tx < 0 ? 0xFF // default is all directions, but in continuation leg
+ : all == 0xFF ? 0xEF : 0x45); // omits backward, and for 4-fold atoms also diags
+ dirSet = (dirSet << angle | dirSet >> 8-angle) & 255; // re-orient direction system
+ ds2 = dirSet & 0xAA; // extract diagonal directions
+ if(dirSet &= 0x55) // start with orthogonal moves, if present
+ retry = 1, dx = 0; // and schedule the diagonal moves for later
+ else dx = dy, dirSet = ds2; // if no orthogonal directions, do diagonal immediately
break; // should not have direction indicators
default: return; // syntax error: invalid atom
}
- if(mine == 2) dirSet = dirSet >> 4 | dirSet << 4 & 255; // invert black moves
+ if(mine == 2 && tx < 0) dirSet = dirSet >> 4 | dirSet << 4 & 255; // invert black moves
mode = 0; // build mode mask
- if(*desc == 'm') mode |= 4, desc++;
- if(*desc == 'c') mode |= his, desc++;
- if(*desc == 'd') mode |= mine, desc++;
- if(!mode) mode = his + 4;// no mode spec, use default = mc
- dx = xStep[*p-'A'] - '0'; // step vector of atom
- dy = yStep[*p-'A'] - '0';
+ if(*desc == 'm') mode |= 4, desc++; // move to empty
+ if(*desc == 'c') mode |= his, desc++; // capture foe
+ if(*desc == 'd') mode |= mine, desc++; // destroy (capture friend)
+ if(*desc == 'e') mode |= 8, desc++; // e.p. capture last mover
+ if(*desc == 't') mode |= 16, desc++; // exclude enemies as hop platform ('test')
+ if(*desc == 'p') mode |= 32, desc++; // hop over occupied
+ if(*desc == 'g') mode |= 64, desc++; // hop and toggle range
+ if(*desc == 'o') mode |= 128, desc++; // wrap around cylinder board
+ if(*desc == 'y') mode |= 512, desc++; // toggle range on empty square
+ if(*desc == 'n') jump = 0, desc++; // non-jumping
+ while(*desc == 'j') jump++, desc++; // must jump (on B,R,Q: skip first square)
+ if(*desc == 'a') cont = ++desc; // move again after doing what preceded it
if(isdigit(*++p)) expo = atoi(p++); // read exponent
if(expo > 9) p++; // allow double-digit
desc = p; // this is start of next move
- if(initial && (mine == 1 ? r > 1 : r < BOARD_HEIGHT - 2)) continue;
+ if(initial == 2) { if(board[r][f] != initialPosition[r-2*his+3][f]) continue; initial = 0; } else
+ if(initial && !range) {
+ if( (board[r][f] != initialPosition[r][f] ||
+ r == 0 && board[TOUCHED_W] & 1<<f ||
+ r == BOARD_HEIGHT-1 && board[TOUCHED_B] & 1<<f )) continue;
+ initial = 0;
+ }
+ if(expo > 0 && dx == 0 && dy == 0) { // castling indicated by O + number
+ mode |= 1024; dy = 1;
+ }
+ if(expo < 0) expo = 1; // use 1 for default
+ if(!cont) {
+ if(!(mode & 15)) mode |= his + 4; // no mode spec, use default = mc
+ } else {
+ strncpy(buf, cont, 80); cont = buf; // copy next leg(s), so we can modify
+ atom = buf; while(islower(*atom)) atom++; // skip to atom
+ if(mode & 32) mode ^= 256 + 32; // in non-final legs 'p' means 'pass through'
+ if(mode & 64 + 512) {
+ mode |= 256; // and 'g' too, but converts leaper <-> slider
+ if(mode & 512) mode ^= 0x304; // and 'y' is m-like 'g'
+ *atom = upgrade[*atom-'A']; // replace atom, BRQ <-> FWK
+ atom[1] = atom[2] = '\0'; // make sure any old range is stripped off
+ if(expo == 1) atom[1] = '0'; // turn other leapers into riders
+ }
+ if(!(mode & 0x30F)) mode |= 4; // and default of this leg = m
+ }
+ if(dy == 1) skip = jump - 1, jump = 1; // on W & F atoms 'j' = skip first square
do {
for(dir=0, bit=1; dir<8; dir++, bit += bit) { // loop over directions
- int i = expo;
+ int i = expo, j = skip, hop = mode, vx, vy, loop = 0;
if(!(bit & dirSet)) continue; // does not move in this direction
- x = f; y = r; // start square
- do {
- x += dx*rot[dir][0] + dy*rot[dir][1]; // step to next square
- y += dx*rot[dir][2] + dy*rot[dir][3];
- if(y < 0 || y >= BOARD_HEIGHT || x < BOARD_LEFT || x >= BOARD_RGHT) break;
- if(board[y][x] < BlackPawn) occup = 1; else
- if(board[y][x] < EmptySquare) occup = 2; else
+ if(dy != 1 || mode & 1024) j = 0; //
+ vx = dx*rot[dir][0] + dy*rot[dir][1]; // rotate step vector
+ vy = dx*rot[dir][2] + dy*rot[dir][3];
+ if(tx < 0) x = f, y = r; // start square
+ else x = tx, y = ty; // from previous to-square if continuation
+ do { // traverse ray
+ x += vx; y += vy; // step to next square
+ if(y < 0 || y >= BOARD_HEIGHT) break; // vertically off-board: always done
+ if(x < BOARD_LEFT) { if(mode & 128) x += BOARD_RGHT - BOARD_LEFT, loop++; else break; }
+ if(x >= BOARD_RGHT) { if(mode & 128) x -= BOARD_RGHT - BOARD_LEFT, loop++; else break; }
+ if(j) { j--; continue; } // skip irrespective of occupation
+ if(board[y][x] == DarkSquare) break; // black squares are supposed to be off board
+ if(!jump && board[y - vy + vy/2][x - vx + vx/2] != EmptySquare) break; // blocked
+ if(jump > 1 && board[y - vy + vy/2][x - vx + vx/2] == EmptySquare) break; // no hop
+ if(x == f && y == r && !loop) occup = 4; else // start square counts as empty (if not around cylinder!)
+ if(board[y][x] < BlackPawn) occup = 0x101; else
+ if(board[y][x] < EmptySquare) occup = 0x102; else
occup = 4;
- if(occup & mode) cb(board, flags, NormalMove, r, f, y, x, cl); // allowed, generate
+ if(initial && expo - i + 1 != range) { if(occup == 4) continue; else break; }
+ if(cont) { // non-final leg
+ if(mode&16 && his&occup) occup &= 3;// suppress hopping foe in t-mode
+ if(occup & mode) { // valid intermediate square, do continuation
+ char origAtom = *atom;
+ int rg = (expo != 1 ? expo - i + 1 : range); // pass length of last *slider* leg
+ if(!(bit & all)) *atom = rotate[*atom - 'A']; // orth-diag interconversion to make direction valid
+ if(occup & mode & 0x104) // no side effects, merge legs to one move
+ MovesFromString(board, flags, f, r, x, y, dir, rg, cont, cb, cl);
+ if(occup & mode & 3 && (killX < 0 || kill2X < 0 && (legNr > 1 || killX == x && killY == y) ||
+ (legNr == 1 ? kill2X == x && kill2Y == y : killX == x && killY == y))) { // destructive first leg
+ int cnt = 0;
+ legNr <<= 1;
+ MovesFromString(board, flags, f, r, x, y, dir, rg, cont, &OK, &cnt); // count possible continuations
+ legNr >>= 1;
+ if(cnt) { // and if there are
+ if(legNr & 1 ? killX < 0 : kill2X < 0) cb(board, flags, FirstLeg, r, f, y, x, cl); // then generate their first leg
+ legNr <<= 1;
+ MovesFromString(board, flags, f, r, x, y, dir, rg, cont, cb, cl);
+ legNr >>= 1;
+ }
+ }
+ *atom = origAtom; // undo any interconversion
+ }
+ if(occup != 4) break; // occupied squares always terminate the leg
+ continue;
+ }
+ if(hop & 32+64) { if(occup != 4) { if(hop & 64 && i != 1) i = 2; hop &= 31; } continue; } // hopper
+ ep = board[EP_RANK];
+ if(mode & 8 && occup == 4 && board[EP_FILE] == x && (y == (ep & 127) || y - vy == ep - 128)) { // to e.p. square (or 2nd e.p. square)
+ cb(board, flags, mine == 1 ? WhiteCapturesEnPassant : BlackCapturesEnPassant, r, f, y, x, cl);
+ }
+ if(mode & 1024) { // castling
+ i = 2; // kludge to elongate move indefinitely
+ if(occup == 4) continue; // skip empty squares
+ if((x == BOARD_LEFT + skip || x > BOARD_LEFT + skip && vx < 0 && board[y][x-1-skip] == DarkSquare)
+ && board[y][x] == initialPosition[y][x]) { // reached initial corner piece
+ if(pc != WhiteKing && pc != BlackKing || expo == 1) { // non-royal castling (to be entered as two-leg move via 'Rook')
+ if(killX < 0) cb(board, flags, FirstLeg, r, f, y, x, cl); if(killX < f)
+ legNr <<= 1, cb(board, flags, NormalMove, r, f, y, f - expo, cl), legNr >>= 1;
+ } else
+ cb(board, flags, mine == 1 ? WhiteQueenSideCastle : BlackQueenSideCastle, r, f, y, f - expo, cl);
+ }
+ if((x == BOARD_RGHT-1-skip || x < BOARD_RGHT-1-skip && vx > 0 && board[y][x+1+skip] == DarkSquare)
+ && board[y][x] == initialPosition[y][x]) {
+ if(pc != WhiteKing && pc != BlackKing || expo == 1) {
+ if(killX < 0) cb(board, flags, FirstLeg, r, f, y, x, cl); if(killX > f)
+ legNr <<= 1, cb(board, flags, NormalMove, r, f, y, f + expo, cl), legNr >>= 1;
+ } else
+ cb(board, flags, mine == 1 ? WhiteKingSideCastle : BlackKingSideCastle, r, f, y, f + expo, cl);
+ }
+ break;
+ }
+ if(mode & 16 && (board[y][x] == WhiteKing || board[y][x] == BlackKing)) break; // tame piece, cannot capture royal
+ if(occup & mode) cb(board, flags, y == promoRank ? promo : NormalMove, r, f, y, x, cl); // allowed, generate
if(occup != 4) break; // not valid transit square
} while(--i);
}
- dx = dy = 1; dirSet = 0x99; // prepare for diagonal moves of K,Q
- } while(retry--); // and start doing them
+ dx = dy; dirSet = ds2; // prepare for diagonal moves of K,Q
+ } while(retry-- && ds2); // and start doing them
+ if(tx >= 0) break; // don't do other atoms in continuation legs
}
} // next atom
void
Sting (Board board, int flags, int rf, int ff, int dy, int dx, MoveCallback callback, VOIDSTAR closure)
-{ // Lion-like move of Horned Falcon and Souring Eagle
+{ // Lion-like move of Horned Falcon and Soaring Eagle
int ft = ff + dx, rt = rf + dy;
if (rt < 0 || rt >= BOARD_HEIGHT || ft < BOARD_LEFT || ft >= BOARD_RGHT) return;
+ legNr += 2;
if (!SameColor(board[rf][ff], board[rt][ft]))
- callback(board, flags, board[rt][ft] != EmptySquare ? FirstLeg : NormalMove, rf, ff, rt, ft, closure);
+ callback(board, flags, killX < 0 && board[rt][ft] != EmptySquare ? FirstLeg : NormalMove, rf, ff, rt, ft, closure);
+ legNr -= 2;
ft += dx; rt += dy;
if (rt < 0 || rt >= BOARD_HEIGHT || ft < BOARD_LEFT || ft >= BOARD_RGHT) return;
+ legNr += 2;
if (!SameColor(board[rf][ff], board[rt][ft]))
callback(board, flags, NormalMove, rf, ff, rt, ft, closure);
+ if (!SameColor(board[rf][ff], board[rf+dy][ff+dx]))
+ callback(board, flags, NormalMove, rf, ff, rf, ff, closure);
+ legNr -= 2;
}
void
if ((flags & F_WHITE_ON_MOVE) != (board[rf][ff] < BlackPawn)) continue; // [HGM] speed: wrong color
m = 0; piece = board[rf][ff];
if(PieceToChar(piece) == '~')
- piece = (ChessSquare) ( DEMOTED piece );
+ piece = (ChessSquare) ( DEMOTED(piece) );
if(filter != EmptySquare && piece != filter) continue;
- if(pieceDesc[piece]) { MovesFromString(board, flags, ff, rf, pieceDesc[piece], callback, closure); continue; } // [HGM] gen
+ if(pieceDefs && pieceDesc[piece]) { // [HGM] gen: use engine-defined moves
+ MovesFromString(board, flags, ff, rf, -1, -1, 0, 0, pieceDesc[piece], callback, closure);
+ continue;
+ }
if(IS_SHOGI(gameInfo.variant))
piece = (ChessSquare) ( SHOGI piece );
rf, ff, rf + 1, ff + s, closure);
}
if (rf >= BOARD_HEIGHT+1>>1) {// [HGM] grand: 4th & 5th rank on 10-board
+ int victimFile = (board[LAST_TO] & 0x40 ? ff + s : board[LAST_TO] & 255);
if (ff + s >= BOARD_LEFT && ff + s < BOARD_RGHT &&
- (epfile == ff + s || epfile == EP_UNKNOWN) && rf < BOARD_HEIGHT-3 &&
- board[rf][ff + s] == BlackPawn &&
+ (board[EP_FILE] == ff + s || epfile == EP_UNKNOWN) && rf < BOARD_HEIGHT-3 &&
+ (board[rf][victimFile] == BlackPawn || board[rf][victimFile] == BlackLance) &&
board[rf+1][ff + s] == EmptySquare) {
callback(board, flags, WhiteCapturesEnPassant,
rf, ff, rf+1, ff + s, closure);
rf, ff, rf - 1, ff + s, closure);
}
if (rf < BOARD_HEIGHT>>1) {
+ int victimFile = (board[LAST_TO] & 0x40 ? ff + s : board[LAST_TO] & 255);
if (ff + s >= BOARD_LEFT && ff + s < BOARD_RGHT &&
- (epfile == ff + s || epfile == EP_UNKNOWN) && rf > 2 &&
- board[rf][ff + s] == WhitePawn &&
+ (board[EP_FILE] == ff + s || epfile == EP_UNKNOWN) && rf > 2 &&
+ (board[rf][victimFile] == WhitePawn || board[rf][victimFile] == WhiteLance) &&
board[rf-1][ff + s] == EmptySquare) {
callback(board, flags, BlackCapturesEnPassant,
rf, ff, rf-1, ff + s, closure);
/* Gold General (and all its promoted versions) . First do the */
/* diagonal forward steps, then proceed as normal Wazir */
- case SHOGI (PROMOTED WhitePawn):
+ case SHOGI (PROMO WhitePawn):
if(gameInfo.variant == VariantShogi) goto WhiteGold;
- case SHOGI (PROMOTED BlackPawn):
+ case SHOGI (PROMO BlackPawn):
if(gameInfo.variant == VariantShogi) goto BlackGold;
+ case SHOGI WhiteAxe:
+ case SHOGI BlackAxe:
SlideVertical(board, flags, rf, ff, callback, closure);
break;
- case SHOGI (PROMOTED WhiteKnight):
+ case SHOGI (PROMO WhiteKnight):
if(gameInfo.variant == VariantShogi) goto WhiteGold;
+ case SHOGI WhiteClaw:
case SHOGI BlackDrunk:
case SHOGI BlackAlfil:
Ferz(board, flags, rf, ff, callback, closure);
StepBackward(board, flags, rf, ff, callback, closure);
break;
- case SHOGI (PROMOTED BlackKnight):
+ case SHOGI (PROMO BlackKnight):
if(gameInfo.variant == VariantShogi) goto BlackGold;
+ case SHOGI BlackClaw:
case SHOGI WhiteDrunk:
case SHOGI WhiteAlfil:
Ferz(board, flags, rf, ff, callback, closure);
break;
- case SHOGI WhiteStag:
- case SHOGI BlackStag:
+ case SHOGI WhiteGnu:
+ case SHOGI BlackGnu:
if(gameInfo.variant == VariantShogi) goto BlackGold;
SlideVertical(board, flags, rf, ff, callback, closure);
Ferz(board, flags, rf, ff, callback, closure);
StepSideways(board, flags, rf, ff, callback, closure);
break;
- case SHOGI (PROMOTED WhiteQueen):
+ case SHOGI (PROMO WhiteQueen):
case SHOGI WhiteTokin:
case SHOGI WhiteWazir:
WhiteGold:
Wazir(board, flags, rf, ff, callback, closure);
break;
- case SHOGI (PROMOTED BlackQueen):
+ case SHOGI (PROMO BlackQueen):
case SHOGI BlackTokin:
case SHOGI BlackWazir:
BlackGold:
case WhiteWazir:
case BlackWazir:
+ if(gameInfo.variant == VariantXiangqi) {
+ int palace = (piece == WhiteWazir ? 1 : BOARD_HEIGHT-2); // Palace center
+ if(ff <= BOARD_WIDTH/2 && !SameColor(board[rf][ff+1], piece)) callback(board, flags, NormalMove, rf, ff, rf, ff+1, closure);
+ if(ff >= BOARD_WIDTH/2 && !SameColor(board[rf][ff-1], piece)) callback(board, flags, NormalMove, rf, ff, rf, ff-1, closure);
+ if(rf >= palace && !SameColor(board[rf-1][ff], piece)) callback(board, flags, NormalMove, rf, ff, rf-1, ff, closure);
+ if(rf <= palace && !SameColor(board[rf+1][ff], piece)) callback(board, flags, NormalMove, rf, ff, rf+1, ff, closure);
+ break;
+ }
Wazir(board, flags, rf, ff, callback, closure);
break;
/* Make Dragon-King Dababba & Rook-like outside Shogi, for better disambiguation in variant Fairy */
case WhiteDragon:
case BlackDragon:
- if(gameInfo.variant == VariantChuChess) goto DragonKing;
+ if(gameInfo.variant == VariantChuChess || gameInfo.variant == VariantSpartan) goto DragonKing;
for (d = 0; d <= 1; d++) // Dababba moves that Rook cannot do
for (s = -2; s <= 2; s += 4) {
rt = rf + s * d;
ft = ff + s * (1 - d);
if (rt < 0 || rt >= BOARD_HEIGHT || ft < BOARD_LEFT || ft >= BOARD_RGHT) continue;
- if (board[rf+rt>>1][ff+ft>>1] == EmptySquare && gameInfo.variant != VariantSpartan) continue;
+ if (board[rf+rt>>1][ff+ft>>1] == EmptySquare) continue;
if (SameColor(board[rf][ff], board[rt][ft])) continue;
callback(board, flags, NormalMove, rf, ff, rt, ft, closure);
}
- if(gameInfo.variant == VariantSpartan) // in Spartan Chess restrict range to modern Dababba
- Wazir(board, flags, rf, ff, callback, closure);
- else
Rook(board, flags, rf, ff, callback, closure);
break;
Knight(board, flags, rf, ff, callback, closure);
break;
+ case WhiteTower:
+ case BlackTower:
+ for (d = 0; d <= 1; d++) // Dababba moves
+ for (s = -2; s <= 2; s += 4) {
+ rt = rf + s * d;
+ ft = ff + s * (1 - d);
+ if (rt < 0 || rt >= BOARD_HEIGHT || ft < BOARD_LEFT || ft >= BOARD_RGHT) continue;
+ if (SameColor(board[rf][ff], board[rt][ft])) continue;
+ callback(board, flags, NormalMove, rf, ff, rt, ft, closure);
+ }
+ Wazir(board, flags, rf, ff, callback, closure);
+ break;
+
/* Shogi Rooks are ordinary Rooks */
case SHOGI WhiteRook:
case SHOGI BlackRook:
case WhiteFerz:
case BlackFerz:
+ if(gameInfo.variant == VariantXiangqi && ff != BOARD_WIDTH>>1) {
+ int rt = (piece == BlackFerz ? BOARD_HEIGHT-2 : 1);
+ int ft = BOARD_WIDTH>>1;
+ if(!SameColor(board[rf][ff], board[rt][ft]))
+ callback(board, flags, NormalMove, rf, ff, rt, ft, closure);
+ } else
/* [HGM] support Shatranj pieces */
Ferz(board, flags, rf, ff, callback, closure);
break;
for(rt = rf - 2; rt <= rf + 2; rt++) for(ft = ff - 2; ft <= ff + 2; ft++) {
if (rt < 0 || rt >= BOARD_HEIGHT || ft < BOARD_LEFT || ft >= BOARD_RGHT) continue;
if (!(ff == ft && rf == rt) && SameColor(board[rf][ff], board[rt][ft])) continue;
- callback(board, flags, (rt-rf)*(rt-rf) + (ff-ft)*(ff-ft) < 3 && board[rt][ft] != EmptySquare ? FirstLeg : NormalMove,
+ i = (killX >= 0 && (rt-killY)*(rt-killY) + (killX-ft)*(killX-ft) < 3); legNr += 2*i;
+ callback(board, flags, (rt-rf)*(rt-rf) + (ff-ft)*(ff-ft) < 3 && board[rt][ft] != EmptySquare && !i ? FirstLeg : NormalMove,
rf, ff, rt, ft, closure);
+ legNr -= 2*i;
}
break;
- case SHOGI WhiteFalcon:
- case SHOGI BlackFalcon:
+ case SHOGI WhiteDagger:
+ case SHOGI BlackDagger:
case SHOGI WhitePDagger:
case SHOGI BlackPDagger:
SlideSideways(board, flags, rf, ff, callback, closure);
StepVertical(board, flags, rf, ff, callback, closure);
break;
- case SHOGI (PROMOTED WhiteFerz):
+ case SHOGI (PROMO WhiteFerz):
if(gameInfo.variant == VariantShogi) goto WhiteGold;
- case SHOGI (PROMOTED BlackFerz):
+ case SHOGI (PROMO BlackFerz):
if(gameInfo.variant == VariantShogi) goto BlackGold;
+ case SHOGI WhiteSword:
+ case SHOGI BlackSword:
case SHOGI WhitePSword:
case SHOGI BlackPSword:
SlideVertical(board, flags, rf, ff, callback, closure);
StepSideways(board, flags, rf, ff, callback, closure);
break;
- case SHOGI WhiteUnicorn:
- case SHOGI BlackUnicorn:
+ case SHOGI WhiteCat:
+ case SHOGI BlackCat:
Ferz(board, flags, rf, ff, callback, closure);
StepVertical(board, flags, rf, ff, callback, closure);
break;
- case SHOGI WhiteMan:
+ case SHOGI WhiteCopper:
StepDiagForward(board, flags, rf, ff, callback, closure);
StepVertical(board, flags, rf, ff, callback, closure);
break;
- case SHOGI BlackMan:
+ case SHOGI BlackCopper:
StepDiagBackward(board, flags, rf, ff, callback, closure);
StepVertical(board, flags, rf, ff, callback, closure);
break;
SlideVertical(board, flags, rf, ff, callback, closure);
break;
- case SHOGI WhiteHorned:
+ case SHOGI WhiteUnicorn:
Sting(board, flags, rf, ff, 1, 0, callback, closure);
callback(board, flags, NormalMove, rf, ff, rf, ff, closure);
if(killX >= 0) break;
SlideBackward(board, flags, rf, ff, callback, closure);
break;
- case SHOGI BlackHorned:
+ case SHOGI BlackUnicorn:
Sting(board, flags, rf, ff, -1, 0, callback, closure);
callback(board, flags, NormalMove, rf, ff, rf, ff, closure);
if(killX >= 0) break;
SlideForward(board, flags, rf, ff, callback, closure);
break;
- case SHOGI WhiteEagle:
+ case SHOGI WhiteFalcon:
Sting(board, flags, rf, ff, 1, 1, callback, closure);
Sting(board, flags, rf, ff, 1, -1, callback, closure);
callback(board, flags, NormalMove, rf, ff, rf, ff, closure);
SlideDiagBackward(board, flags, rf, ff, callback, closure);
break;
- case SHOGI BlackEagle:
+ case SHOGI BlackFalcon:
Sting(board, flags, rf, ff, -1, 1, callback, closure);
Sting(board, flags, rf, ff, -1, -1, callback, closure);
callback(board, flags, NormalMove, rf, ff, rf, ff, closure);
if(rFilter >= 0 && rFilter != rt || fFilter >= 0 && fFilter != ft) return; // [HGM] speed: ignore moves with wrong to-square
- if (board[EP_STATUS] == EP_IRON_LION && (board[rt][ft] == WhiteLion || board[rt][ft] == BlackLion)) return; //[HGM] lion
+ if ((int)board[EP_STATUS] == EP_IRON_LION && (board[rt][ft] == WhiteLion || board[rt][ft] == BlackLion)) return; //[HGM] lion
if (!(flags & F_IGNORE_CHECK) ) {
int check, promo = (gameInfo.variant == VariantSpartan && kind == BlackPromotion);
int ignoreCheck = (flags & F_IGNORE_CHECK) != 0;
ChessSquare wKing = WhiteKing, bKing = BlackKing, *castlingRights = board[CASTLING];
int inCheck = !ignoreCheck && CheckTest(board, flags, -1, -1, -1, -1, FALSE); // kludge alert: this would mark pre-existing checkers if status==1
+ char *p;
cl.cb = callback;
cl.cl = closure;
wKing = WhiteUnicorn; bKing = BlackUnicorn;
}
+ p = (flags & F_WHITE_ON_MOVE ? pieceDesc[wKing] : pieceDesc[bKing]);
+ if(p && strchr(p, 'O')) return FALSE; // [HGM] gen: castlings were already generated from string
+
for (ff = BOARD_WIDTH>>1; ff >= (BOARD_WIDTH-1)>>1; ff-- /*ics wild 1*/) {
if ((flags & F_WHITE_ON_MOVE) &&
(flags & F_WHITE_KCASTLE_OK) &&
register CheckTestClosure *cl = (CheckTestClosure *) closure;
if (rt == cl->rking && ft == cl->fking) {
- if(xqCheckers[EP_STATUS] >= 2 && xqCheckers[rf][ff]) return; // checker is piece with suspended checking power
+ if((int)xqCheckers[EP_STATUS] >= 2 && xqCheckers[rf][ff]) return; // checker is piece with suspended checking power
cl->check++;
xqCheckers[rf][ff] = xqCheckers[EP_STATUS] & 1; // remember who is checking (if status == 1)
}
- if( board[EP_STATUS] == EP_ROYAL_LION && (board[rt][ft] == WhiteLion || board[rt][ft] == BlackLion)
+ if( (int)board[EP_STATUS] == EP_ROYAL_LION && (board[rt][ft] == WhiteLion || board[rt][ft] == BlackLion)
&& (gameInfo.variant != VariantLion || board[rf][ff] != WhiteKing && board[rf][ff] != BlackKing) )
cl->check++; // [HGM] lion: forbidden counterstrike against Lion equated to putting yourself in check
}
{
CheckTestClosure cl;
ChessSquare king = flags & F_WHITE_ON_MOVE ? WhiteKing : BlackKing;
- ChessSquare captured = EmptySquare, ep=0, trampled=0;
+ ChessSquare captured = EmptySquare, ep=0, trampled=0, trampled2 = 0;
+ int saveKill = killX;
/* Suppress warnings on uninitialized variables */
if(gameInfo.variant == VariantXiangqi)
king = flags & F_WHITE_ON_MOVE ? WhiteWazir : BlackWazir;
if(gameInfo.variant == VariantKnightmate)
king = flags & F_WHITE_ON_MOVE ? WhiteUnicorn : BlackUnicorn;
- if(gameInfo.variant == VariantChu) { // strictly speaking this is not needed, as Chu officially has no check
+ if(gameInfo.variant == VariantChu || gameInfo.variant == VariantShogi) { // strictly speaking this is not needed, as Chu officially has no check
int r, f, k = king, royals=0, prince = flags & F_WHITE_ON_MOVE ? WhiteMonarch : BlackMonarch;
+ if(gameInfo.variant == VariantShogi) prince -= 11; // White/BlackFalcon
for(r=0; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<BOARD_RGHT; f++) {
if(board[r][f] == k || board[r][f] == prince) {
if(++royals > 1) return FALSE; // no check if we have two royals (ignores double captureby Lion!)
}
}
+ if(PieceToChar(king) == '.') return 0; // never in check if the royal piece does not participate
+
if (rt >= 0) {
if (enPassant) {
captured = board[rf][ft];
board[rf][ft] = EmptySquare;
} else {
captured = board[rt][ft];
- if(killX >= 0) { trampled = board[killY][killX]; board[killY][killX] = EmptySquare; }
+ if(killX >= 0) {
+ trampled = board[killY][killX]; board[killY][killX] = EmptySquare; killX = -1; saveKill += (kill2X << 16) + (1 << 30);
+ if(kill2X >= 0) { trampled2 = board[kill2Y][kill2X]; board[kill2Y][kill2X] = EmptySquare; kill2X = -1; }
+ }
}
if(rf == DROP_RANK) board[rt][ft] = ff; else { // [HGM] drop
board[rt][ft] = board[rf][ff];
- board[rf][ff] = EmptySquare;
+ if(rf != rt || ff != ft) board[rf][ff] = EmptySquare;
}
ep = board[EP_STATUS];
if( captured == WhiteLion || captured == BlackLion ) { // [HGM] lion: Chu Lion-capture rules
- ChessSquare victim = killX < 0 ? EmptySquare : trampled;
+ ChessSquare victim = saveKill < 0 ? EmptySquare : trampled;
if( (board[rt][ft] == WhiteLion || board[rt][ft] == BlackLion) && // capturer is Lion
(ff - ft > 1 || ft - ff > 1 || rf - rt > 1 || rt - rf > 1) && // captures from a distance
- (victim == EmptySquare || victim == WhitePawn || victim == BlackPawn) ) // no or worthless 'bridge'
+ (victim == EmptySquare || victim == WhitePawn || victim == BlackPawn // no or worthless 'bridge'
+ || victim == WhiteCobra || victim == BlackCobra) ) // (Pawn or Go Between)
board[EP_STATUS] = EP_ROYAL_LION; // on distant Lion x Lion victim must not be pseudo-legally protected
}
}
/* For compatibility with ICS wild 9, we scan the board in the
order a1, a2, a3, ... b1, b2, ..., h8 to find the first king,
and we test only whether that one is in check. */
+ cl.check = 0;
for (cl.fking = BOARD_LEFT+0; cl.fking < BOARD_RGHT; cl.fking++)
for (cl.rking = 0; cl.rking < BOARD_HEIGHT; cl.rking++) {
if (board[cl.rking][cl.fking] == king) {
- cl.check = 0;
if(gameInfo.variant == VariantXiangqi) {
/* [HGM] In Xiangqi opposing Kings means check as well */
int i, dir;
board[rf][ft] = captured;
board[rt][ft] = EmptySquare;
} else {
- if(killX >= 0) board[killY][killX] = trampled;
+ if(saveKill >= 0) {
+ if(saveKill & 1<<30) board[kill2Y][kill2X = saveKill >> 16 & 0xFFF] = trampled2;
+ board[killY][killX = saveKill & 0xFFF] = trampled;
+ }
board[rt][ft] = captured;
}
board[EP_STATUS] = ep;
}
- return cl.fking < BOARD_RGHT ? cl.check : 1000; // [HGM] atomic: return 1000 if we have no king
+ return cl.fking < BOARD_RGHT ? cl.check : (gameInfo.variant == VariantAtomic)*1000; // [HGM] atomic: return 1000 if we have no king
}
int
if(appData.debugMode) fprintf(debugFP, "LegalDrop: %d @ %d,%d)\n", piece, ft, rt);
if(board[rt][ft] != EmptySquare) return ImpossibleMove; // must drop to empty square
n = PieceToNumber(piece);
- if((gameInfo.holdingsWidth == 0 || (flags & F_WHITE_ON_MOVE ? board[n][BOARD_WIDTH-1] : board[BOARD_HEIGHT-1-n][0]) != piece)
+ if((gameInfo.holdingsWidth == 0 || (flags & F_WHITE_ON_MOVE ? board[n][BOARD_WIDTH-1] : board[handSize-1-n][0]) != piece)
&& gameInfo.variant != VariantBughouse) // in bughouse we don't check for availability, because ICS doesn't always tell us
return ImpossibleMove; // piece not available
if(gameInfo.variant == VariantShogi) { // in Shogi lots of drops are forbidden!
piece == WhiteKnight && rt > BOARD_HEIGHT-3 ||
piece == BlackKnight && rt < 2 ) return IllegalMove; // e.g. where dropped piece has no moves
if(piece == WhitePawn || piece == BlackPawn) {
- int r;
+ int r, max = 1 + (BOARD_HEIGHT == 7); // two Pawns per file in Tori!
for(r=1; r<BOARD_HEIGHT-1; r++)
- if(board[r][ft] == piece) return IllegalMove; // or there already is a Pawn in file
+ if(!(max -= (board[r][ft] == piece))) return IllegalMove; // or there already is a Pawn in file
// should still test if we mate with this Pawn
}
} else if(gameInfo.variant == VariantSChess) { // only back-rank drops
if(quickFlag) flags = flags & ~1 | quickFlag & 1; // [HGM] speed: in quick mode quickFlag specifies side-to-move.
if(rf == DROP_RANK) return LegalDrop(board, flags, ff, rt, ft);
piece = filterPiece = board[rf][ff];
- if(PieceToChar(piece) == '~') filterPiece = DEMOTED piece;
+ if(PieceToChar(piece) == '~') filterPiece = DEMOTED(piece);
/* [HGM] Cobra and Falcon are wildcard pieces; consider all their moves legal */
/* (perhaps we should disallow moves that obviously leave us in check?) */
if((piece == WhiteFalcon || piece == BlackFalcon ||
- piece == WhiteCobra || piece == BlackCobra) && gameInfo.variant != VariantChu)
+ piece == WhiteCobra || piece == BlackCobra) && gameInfo.variant != VariantChu && !pieceDesc[piece])
return CheckTest(board, flags, rf, ff, rt, ft, FALSE) ? IllegalMove : NormalMove;
cl.rf = rf;
if(cl.kind != NormalMove || promoChar == NULLCHAR || promoChar == '=') return cl.kind;
if(promoChar != '+')
return CharToPiece(promoChar) == EmptySquare ? ImpossibleMove : IllegalMove;
- if(PieceToChar(CHUPROMOTED board[rf][ff]) != '+') return ImpossibleMove;
+ if(PieceToChar(CHUPROMOTED(board[rf][ff])) != '+') {
+ if(PieceToChar(CHUPROMOTED (board[rf][ff] < BlackPawn ? WhitePawn : BlackPawn)) != '.')
+ return ImpossibleMove;
+ }
return flags & F_WHITE_ON_MOVE ? WhitePromotion : BlackPromotion;
} else
if(gameInfo.variant == VariantShogi) {
/* [HGM] Shogi promotions. '=' means defer */
if(rf != DROP_RANK && cl.kind == NormalMove) {
ChessSquare piece = board[rf][ff];
+ int zone = BOARD_HEIGHT/3 + (BOARD_HEIGHT == 8);
if(promoChar == PieceToChar(BlackQueen)) promoChar = NULLCHAR; /* [HGM] Kludge */
if(promoChar == 'd' && (piece == WhiteRook || piece == BlackRook) ||
return CharToPiece(promoChar) == EmptySquare ? ImpossibleMove : IllegalMove;
else if(flags & F_WHITE_ON_MOVE) {
if( (int) piece < (int) WhiteWazir &&
- (rf >= BOARD_HEIGHT - BOARD_HEIGHT/3 || rt >= BOARD_HEIGHT - BOARD_HEIGHT/3) ) {
+ (rf >= BOARD_HEIGHT - zone || rt >= BOARD_HEIGHT - zone) ) {
if( (piece == WhitePawn || piece == WhiteQueen) && rt > BOARD_HEIGHT-2 ||
piece == WhiteKnight && rt > BOARD_HEIGHT-3) /* promotion mandatory */
cl.kind = promoChar == '=' ? IllegalMove : WhitePromotion;
cl.kind = promoChar == '+' ? WhitePromotion : WhiteNonPromotion;
} else cl.kind = promoChar == '+' ? IllegalMove : NormalMove;
} else {
- if( (int) piece < (int) BlackWazir && (rf < BOARD_HEIGHT/3 || rt < BOARD_HEIGHT/3) ) {
+ if( (int) piece < (int) BlackWazir && (rf < zone || rt < zone) ) {
if( (piece == BlackPawn || piece == BlackQueen) && rt < 1 ||
piece == BlackKnight && rt < 2 ) /* promotion obligatory */
cl.kind = promoChar == '=' ? IllegalMove : BlackPromotion;
// should test if in zone, really
if(gameInfo.variant == VariantChuChess && (piece == WhiteKnight || piece == BlackKnight) && HasLion(board, flags))
return IllegalMove;
- if(PieceToChar(PROMOTED piece) == '+') return flags & F_WHITE_ON_MOVE ? WhitePromotion : BlackPromotion;
+ if(PieceToChar(PROMOTED(piece)) == '+') return flags & F_WHITE_ON_MOVE ? WhitePromotion : BlackPromotion;
} else
if(promoChar == '=') cl.kind = IllegalMove; else // [HGM] shogi: no deferred promotion outside Shogi
if (cl.kind == WhitePromotion || cl.kind == BlackPromotion) {
{
register DisambiguateClosure *cl = (DisambiguateClosure *) closure;
int wildCard = FALSE; ChessSquare piece = board[rf][ff];
+ extern int kifu; // in parser.c
// [HGM] wild: for wild-card pieces rt and rf are dummies
if(piece == WhiteFalcon || piece == BlackFalcon ||
piece == WhiteCobra || piece == BlackCobra)
- wildCard = TRUE;
+ wildCard = !pieceDefs; // no wildcards when engine defined pieces
if ((cl->pieceIn == EmptySquare || cl->pieceIn == board[rf][ff]
|| PieceToChar(board[rf][ff]) == '~'
- && cl->pieceIn == (ChessSquare)(DEMOTED board[rf][ff])
+ && cl->pieceIn == (ChessSquare)(DEMOTED(board[rf][ff]))
) &&
(cl->rfIn == -1 || cl->rfIn == rf) &&
(cl->ffIn == -1 || cl->ffIn == ff) &&
(cl->rtIn == -1 || cl->rtIn == rt || wildCard) &&
(cl->ftIn == -1 || cl->ftIn == ft || wildCard)) {
+ if(cl->count && rf == cl->rf && ff == cl->ff && rt == cl->rt && ft == cl->ft) return; // duplicate move
+
+ if(cl->count == 1 && kifu & 0x7E && cl->rfIn == -1 && cl->ffIn == -1) { // traditional Shogi disambiguation required
+ int this = 1, other = 1;
+ if(kifu & 2) this &= (flags & 1 ? rt > rf : rt < rf), other &= (flags & 1 ? cl->rt > cl->rf : cl->rt < cl->rf);
+ if(kifu & 4) this &= (flags & 1 ? rt < rf : rt > rf), other &= (flags & 1 ? cl->rt < cl->rf : cl->rt > cl->rf);
+ if(kifu & 8) this &= (rf == rt), other &= (cl->rt == cl->rf);
+ if(kifu & 0x10) this &= (flags & 1 ? ft <= ff : ft >= ff), other &= (flags & 1 ? cl->ft <= cl->ff : cl->ft >= cl->ff);
+ if(kifu & 0x20) this &= (flags & 1 ? ft >= ff : ft <= ff), other &= (flags & 1 ? cl->ft >= cl->ff : cl->ft <= cl->ff);
+ if(kifu & 0x40) this &= (ft == ff), other &= (cl->ft == cl->ff); // should never be used
+ if(!other) cl->count--; // the old move did not satisfy the requested relative position, erase it
+ if(!this) return; // the current move does not satisfy the requested relative position, ignore it
+ }
+
cl->count++;
if(cl->count == 1 || board[rt][ft] != EmptySquare) {
// [HGM] oneclick: if multiple moves, be sure we remember capture
GenLegal(board, flags|F_IGNORE_CHECK, DisambiguateCallback, (VOIDSTAR) closure, closure->pieceIn);
if (closure->count == 0) {
/* No, it's not even that */
- if(!appData.testLegality && closure->pieceIn != EmptySquare) {
+ if(!appData.testLegality && !pieceDefs && closure->pieceIn != EmptySquare) {
int f, r; // if there is only a single piece of the requested type on the board, use that
closure->rt = closure->rtIn, closure->ft = closure->ftIn;
for(r=0; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<BOARD_RGHT; f++)
return;
}
}
+ } else if(pieceDefs && closure->count > 1 && closure->rtIn >=0) { // [HGM] gen: move is ambiguous under engine-defined rules (and not one-click)
+ DisambiguateClosure spare = *closure;
+ if(gameInfo.variant == VariantXiangqi && closure->pieceIn == EmptySquare && closure->ffIn < 0) {
+ closure->ffIn = closure->ftIn; //closure->pieceIn = (flags & 1 ? BlackPawn : WhitePawn); // forward Pawn push has priority
+ Disambiguate(board, flags, closure);
+ return;
+ }
+ pieceDefs = FALSE; spare.count = 0; // See if the (erroneous) built-in rules would resolve that
+ GenLegal(board, flags, DisambiguateCallback, (VOIDSTAR) &spare, closure->pieceIn);
+ if(spare.count == 1) *closure = spare; // It does, so use those in stead (game from file saved before gen patch?)
+ pieceDefs = TRUE;
}
if (c == 'x') c = NULLCHAR; // get rid of any 'x' (which should never happen?)
/* [HGM] Shogi promotions. On input, '=' means defer, '+' promote. Afterwards, c is set to '+' for promotions, NULL other */
if(closure->rfIn != DROP_RANK && closure->kind == NormalMove) {
ChessSquare piece = closure->piece;
+ int zone = BOARD_HEIGHT/3 + (BOARD_HEIGHT == 8);
if (c == 'd' && (piece == WhiteRook || piece == BlackRook) ||
c == 'h' && (piece == WhiteBishop || piece == BlackBishop) ||
c == 'g' && (piece <= WhiteFerz || piece <= BlackFerz && piece >= BlackPawn) )
if(c != NULLCHAR && c != '+' && c != '=') closure->kind = IllegalMove; // otherwise specifying a piece is illegal
else if(flags & F_WHITE_ON_MOVE) {
if( (int) piece < (int) WhiteWazir &&
- (closure->rf >= BOARD_HEIGHT-(BOARD_HEIGHT/3) || closure->rt >= BOARD_HEIGHT-(BOARD_HEIGHT/3)) ) {
+ (closure->rf >= BOARD_HEIGHT-zone || closure->rt >= BOARD_HEIGHT-zone) ) {
if( (piece == WhitePawn || piece == WhiteQueen) && closure->rt > BOARD_HEIGHT-2 ||
piece == WhiteKnight && closure->rt > BOARD_HEIGHT-3) /* promotion mandatory */
closure->kind = c == '=' ? IllegalMove : WhitePromotion;
closure->kind = c == '+' ? WhitePromotion : WhiteNonPromotion;
} else closure->kind = c == '+' ? IllegalMove : NormalMove;
} else {
- if( (int) piece < (int) BlackWazir && (closure->rf < BOARD_HEIGHT/3 || closure->rt < BOARD_HEIGHT/3) ) {
+ if( (int) piece < (int) BlackWazir && (closure->rf < zone || closure->rt < zone) ) {
if( (piece == BlackPawn || piece == BlackQueen) && closure->rt < 1 ||
piece == BlackKnight && closure->rt < 2 ) /* promotion obligatory */
closure->kind = c == '=' ? IllegalMove : BlackPromotion;
if (closure->kind == WhitePromotion || closure->kind == BlackPromotion) {
if(c == NULLCHAR) { // missing promoChar on mandatory promotion; use default for variant
if(gameInfo.variant == VariantShatranj || gameInfo.variant == VariantCourier ||
- gameInfo.variant == VariantMakruk || gameInfo.variant == VariantASEAN)
+ gameInfo.variant == VariantMakruk)
c = PieceToChar(BlackFerz);
+ else if(gameInfo.variant == VariantASEAN)
+ c = PieceToChar(BlackRook);
else if(gameInfo.variant == VariantGreat)
c = PieceToChar(BlackMan);
else if(gameInfo.variant == VariantGrand)
else if(c == 'l' && gameInfo.variant == VariantChuChess && HasLion(board, flags)) closure->kind = IllegalMove;
} else if (c == '+') { // '+' outside shogi, check if pieceToCharTable enabled it
ChessSquare p = closure->piece;
- if(p > WhiteMan && p < BlackPawn || p > BlackMan || PieceToChar(PROMOTED p) != '+')
+ if(p > WhiteMan && p < BlackPawn || p > BlackMan || PieceToChar(PROMOTED(p)) != '+')
closure->kind = ImpossibleMove; // used on non-promotable piece
else if(gameInfo.variant == VariantChuChess && HasLion(board, flags)) closure->kind = IllegalMove;
} else if (c != NULLCHAR) closure->kind = IllegalMove;
if ((rt == cl->rt && ft == cl->ft || rt == rf && ft == ff) && // [HGM] null move matches any toSquare
(board[rf][ff] == cl->piece
|| PieceToChar(board[rf][ff]) == '~' &&
- (ChessSquare) (DEMOTED board[rf][ff]) == cl->piece)
+ (ChessSquare) (DEMOTED(board[rf][ff])) == cl->piece)
) {
if (rf == cl->rf) {
if (ff == cl->ff) {
{
ChessSquare piece;
ChessMove kind;
- char *outp = out, c;
+ char *outp = out, c, capture;
CoordsToAlgebraicClosure cl;
if (rf == DROP_RANK) {
if (promoChar == 'x') promoChar = NULLCHAR;
piece = board[rf][ff];
- if(PieceToChar(piece)=='~') piece = (ChessSquare)(DEMOTED piece);
+ if(PieceToChar(piece)=='~') piece = (ChessSquare)(DEMOTED(piece));
switch (piece) {
case WhitePawn:
}
/* Pawn move */
*outp++ = ff + AAA;
- if (ff == ft && board[rt][ft] == EmptySquare) { /* [HGM] Xiangqi has straight noncapts! */
+ capture = board[rt][ft] != EmptySquare || kind == WhiteCapturesEnPassant || kind == BlackCapturesEnPassant;
+ if (ff == ft && !capture) { /* [HGM] Xiangqi has straight noncapts! */
/* Non-capture; use style "e5" */
if(rt+ONE <= '9')
*outp++ = rt + ONE;
else { *outp++ = (rt+ONE-'0')/10 + '0';*outp++ = (rt+ONE-'0')%10 + '0'; }
} else {
/* Capture; use style "exd5" */
- if(gameInfo.variant != VariantXiangqi || board[rt][ft] != EmptySquare )
+ if(capture)
*outp++ = 'x'; /* [HGM] Xiangqi has sideway noncaptures across river! */
*outp++ = ft + AAA;
if(rt+ONE <= '9')
cl.kind = IllegalMove;
cl.rank = cl.file = cl.either = 0;
c = PieceToChar(piece) ;
- GenLegal(board, flags, CoordsToAlgebraicCallback, (VOIDSTAR) &cl, c!='~' ? piece : (DEMOTED piece)); // [HGM] speed
+ GenLegal(board, flags, CoordsToAlgebraicCallback, (VOIDSTAR) &cl, c!='~' ? piece : (DEMOTED(piece))); // [HGM] speed
if (cl.kind == IllegalMove && !(flags&F_IGNORE_CHECK)) {
/* Generate pretty moves for moving into check, but
still return IllegalMove.
*/
- GenLegal(board, flags|F_IGNORE_CHECK, CoordsToAlgebraicCallback, (VOIDSTAR) &cl, c!='~' ? piece : (DEMOTED piece));
+ GenLegal(board, flags|F_IGNORE_CHECK, CoordsToAlgebraicCallback, (VOIDSTAR) &cl, c!='~' ? piece : (DEMOTED(piece)));
if (cl.kind == IllegalMove) break;
cl.kind = IllegalMove;
}
*/
if( c == '~' || c == '+') {
/* [HGM] print nonexistent piece as its demoted version */
- piece = (ChessSquare) (DEMOTED piece - 11*(gameInfo.variant == VariantChu));
+ piece = (ChessSquare) (CHUDEMOTED(piece));
}
if(c=='+') *outp++ = c;
*outp++ = ToUpper(PieceToChar(piece));
+ if(*outp = PieceSuffix(piece)) outp++;
if (cl.file || (cl.either && !cl.rank)) {
*outp++ = ff + AAA;
int r, f;
for(r=0; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<=BOARD_RGHT; f++)
c += (board[r][f] == piece); // count on-board pieces of given type
- *outp++ = ToUpper(PieceToChar(piece));
+ *outp = PieceToChar(piece);
+ if(*outp == '+') outp++, piece = CHUDEMOTED(piece);
+ *outp++ = ToUpper(PieceToChar(piece));
+ if(*outp = PieceSuffix(piece)) outp++;
}
if(c != 1) { // [HGM] but if there is only one piece of the mentioned type, no from-square, thank you!
*outp++ = ff + AAA;