constructor(o) {
this.appear = o.appear;
this.vanish = o.vanish;
- this.start = o.start ? o.start : { x: o.vanish[0].x, y: o.vanish[0].y };
- this.end = o.end ? o.end : { x: o.appear[0].x, y: o.appear[0].y };
+ this.start = o.start || { x: o.vanish[0].x, y: o.vanish[0].y };
+ this.end = o.end || { x: o.appear[0].x, y: o.appear[0].y };
}
};
static get LoseOnRepetition() {
return false;
}
+ // And in some others (Iceage), repetitions should be ignored:
+ static get IgnoreRepetition() {
+ return false;
+ }
+ loseOnRepetition() {
+ // In some variants, result depends on the position:
+ return V.LoseOnRepetition;
+ }
+
+ // At some stages, some games could wait clicks only:
+ onlyClick() {
+ return false;
+ }
// Some variants use click infos:
doClick() {
// if more than 9 consecutive free spaces, break the integer,
// otherwise FEN parsing will fail.
if (count <= 9) return count;
- // Currently only boards of size up to 11 or 12:
- return "9" + (count - 9);
+ // Most boards of size < 18:
+ if (count <= 18) return "9" + (count - 9);
+ // Except Gomoku:
+ return "99" + (count - 18);
};
let position = "";
for (let i = 0; i < V.size.x; i++) {
}
// Scan board for kings positions
+ // TODO: should be done from board, no need for the complete FEN
scanKings(fen) {
// Squares of white and black king:
this.kingPos = { w: [-1, -1], b: [-1, -1] };
const fenRows = V.ParseFen(fen).position.split("/");
- const startRow = { 'w': V.size.x - 1, 'b': 0 };
for (let i = 0; i < fenRows.length; i++) {
let k = 0; //column index on board
for (let j = 0; j < fenRows[i].length; j++) {
case V.QUEEN: return this.getPotentialQueenMoves(sq);
case V.KING: return this.getPotentialKingMoves(sq);
}
- return []; //never reached
+ return []; //never reached (but some variants may use it: Bario...)
}
// Build a regular move from its initial and destination squares.
let j = y + step[1];
while (V.OnBoard(i, j) && this.board[i][j] == V.EMPTY) {
moves.push(this.getBasicMove([x, y], [i, j]));
- if (oneStep) continue outerLoop;
+ if (!!oneStep) continue outerLoop;
i += step[0];
j += step[1];
}
// Stop at the first move found
// TODO: not really, it explores all moves from a square (one is enough).
+ // Possible fix: add extra arg "oneMove" to getPotentialMovesFrom,
+ // and then return only boolean true at first move found
+ // (in all getPotentialXXXMoves() ... for all variants ...)
atLeastOneMove() {
const color = this.turn;
for (let i = 0; i < V.size.x; i++) {
V.OnBoard(rx, ry) &&
this.board[rx][ry] != V.EMPTY &&
this.getPiece(rx, ry) == piece &&
- this.getColor(rx, ry) == color &&
- this.canTake([rx, ry], [x, y])
+ this.getColor(rx, ry) == color
) {
return true;
}