* Massachusetts.
*
* Enhancements Copyright 1992-2001, 2002, 2003, 2004, 2005, 2006,
- * 2007, 2008, 2009, 2010, 2011, 2012, 2013 Free Software Foundation, Inc.
+ * 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014, 2015 Free Software Foundation, Inc.
*
* The following terms apply to Digital Equipment Corporation's copyright
* interest in XBoard:
Pnt frames[kFactor * 2 + 1];
int nFrames, startColor, endColor;
+ if(killX >= 0 && IS_LION(board[fromY][fromX])) Roar();
+
/* Are we animating? */
if (!appData.animate || appData.blindfold)
return;
if(board[toY][toX] == WhiteRook && board[fromY][fromX] == WhiteKing ||
- board[toY][toX] == BlackRook && board[fromY][fromX] == BlackKing)
+ board[toY][toX] == BlackRook && board[fromY][fromX] == BlackKing ||
+ board[toY][toX] == WhiteKing && board[fromY][fromX] == WhiteRook || // [HGM] seirawan
+ board[toY][toX] == BlackKing && board[fromY][fromX] == BlackRook)
return; // [HGM] FRC: no animtion of FRC castlings, as to-square is not true to-square
if (fromY < 0 || fromX < 0 || toX < 0 || toY < 0) return;
{
anims[Player].dragPiece = piece;
SetDragPiece(Player, piece);
+ damage[0][fromY][fromX] = True;
}
void
int hor, vert, i, n = partnerUp * twoBoards;
hor = 64*s_col + 32; vert = 64*s_row + 32;
for(i=0; i<= 64; i++) {
- damage[n][vert+6>>6][hor+6>>6] |= 2;
- damage[n][vert-6>>6][hor+6>>6] |= 2;
- damage[n][vert+6>>6][hor-6>>6] |= 2;
- damage[n][vert-6>>6][hor-6>>6] |= 2;
+ damage[n][vert+8>>6][hor+8>>6] |= 2;
+ damage[n][vert-8>>6][hor+8>>6] |= 2;
+ damage[n][vert+8>>6][hor-8>>6] |= 2;
+ damage[n][vert-8>>6][hor-8>>6] |= 2;
hor += d_col - s_col; vert += d_row - s_row;
}
}
SquareToPos( s_row, s_col, &s_x, &s_y);
SquareToPos( d_row, d_col, &d_x, &d_y);
- if( d_y > s_y ) {
+ if( d_y > s_y && d_y - s_y > abs(d_x - s_x)/2) {
d_y += squareSize / 2 - squareSize / 4; // [HGM] round towards same centers on all sides!
}
- else if( d_y < s_y ) {
+ else if( d_y < s_y && s_y - d_y > abs(d_x - d_y)/2) {
d_y += squareSize / 2 + squareSize / 4;
}
else {
d_y += squareSize / 2;
}
- if( d_x > s_x ) {
+ if( d_x > s_x && d_x - s_x > abs(d_y - s_y)/2) {
d_x += squareSize / 2 - squareSize / 4;
}
- else if( d_x < s_x ) {
+ else if( d_x < s_x && s_x - d_x > abs(d_y - s_y)/2) {
d_x += squareSize / 2 + squareSize / 4;
}
else {