--- /dev/null
+import ChessRules from "/base_rules.js";
+import { randInt, shuffle } from "@/utils/alea";
+import { ArrayFun } from "@/utils/array";
+
+export default class AmbiguousRules extends ChessRules {
+
+ // TODO: options
+
+ get hasFlags() {
+ return false;
+ }
+
+ setOtherVariables(fenParsed) {
+ super.setOtherVariables(fenParsed);
+ if (this.movesCount == 0)
+ this.subTurn = 2;
+ else
+ this.subTurn = 1;
+ }
+
+ genRandInitFen(seed) {
+ const gr = new GiveawayRules(
+ {mode: "suicide", options: this.options, genFenOnly: true});
+ return gr.genRandInitFen(seed);
+ }
+
+ // Subturn 1: play a move for the opponent on the designated square.
+ // Subturn 2: play a move for me (which just indicate a square).
+ getPotentialMovesFrom([x, y]) {
+ const color = this.turn;
+ const oppCol = V.GetOppCol(color);
+ if (this.subTurn == 2) {
+ // Just play a normal move (which in fact only indicate a square)
+ let movesHash = {};
+ return (
+ super.getPotentialMovesFrom([x, y])
+ .filter(m => {
+ // Filter promotions: keep only one, since no choice now.
+ if (m.appear[0].p != m.vanish[0].p) {
+ const hash = V.CoordsToSquare(m.start) + V.CoordsToSquare(m.end);
+ if (!movesHash[hash]) {
+ movesHash[hash] = true;
+ return true;
+ }
+ return false;
+ }
+ return true;
+ })
+ .map(m => {
+ if (m.vanish.length == 1) m.appear[0].p = V.GOAL;
+ else m.appear[0].p = V.TARGET_CODE[m.vanish[1].p];
+ m.appear[0].c = oppCol;
+ m.vanish.shift();
+ return m;
+ })
+ );
+ }
+ // At subTurn == 1, play a targeted move for opponent
+ // Search for target (we could also have it in a stack...)
+ let target = { x: -1, y: -1 };
+ outerLoop: for (let i = 0; i < V.size.x; i++) {
+ for (let j = 0; j < V.size.y; j++) {
+ if (this.board[i][j] != V.EMPTY) {
+ const piece = this.board[i][j][1];
+ if (
+ piece == V.GOAL ||
+ Object.keys(V.TARGET_DECODE).includes(piece)
+ ) {
+ target = { x: i, y: j};
+ break outerLoop;
+ }
+ }
+ }
+ }
+ // TODO: could be more efficient than generating all moves.
+ this.turn = oppCol;
+ const emptyTarget = (this.board[target.x][target.y][1] == V.GOAL);
+ if (emptyTarget) this.board[target.x][target.y] = V.EMPTY;
+ let moves = super.getPotentialMovesFrom([x, y]);
+ if (emptyTarget) {
+ this.board[target.x][target.y] = color + V.GOAL;
+ moves.forEach(m => {
+ m.vanish.push({
+ x: target.x,
+ y: target.y,
+ c: color,
+ p: V.GOAL
+ });
+ });
+ }
+ this.turn = color;
+ return moves.filter(m => m.end.x == target.x && m.end.y == target.y);
+ }
+
+ canIplay(x, y) {
+ const color = this.getColor(x, y);
+ return (
+ (this.subTurn == 1 && ![this.turn, this.playerColor].includes(color)) ||
+ (this.subTurn == 2 && super.canIplay(x, y))
+ );
+ }
+
+ // Code for empty square target
+ static get GOAL() {
+ return 'g';
+ }
+
+ static get TARGET_DECODE() {
+ return {
+ 's': 'p',
+ 't': 'q',
+ 'u': 'r',
+ 'o': 'n',
+ 'c': 'b',
+ 'l': 'k'
+ };
+ }
+
+ static get TARGET_CODE() {
+ return {
+ 'p': 's',
+ 'q': 't',
+ 'r': 'u',
+ 'n': 'o',
+ 'b': 'c',
+ 'k': 'l'
+ };
+ }
+
+ pieces() {
+ // .........
+ }
+
+ atLeastOneMove() {
+ // Since there are no checks this seems true (same as for Magnetic...)
+ return true;
+ }
+
+ filterValid(moves) {
+ return moves;
+ }
+
+ getCurrentScore() {
+ // This function is only called at subTurn 1
+ const color = V.GetOppCol(this.turn);
+ if (this.kingPos[color][0] < 0) return (color == 'w' ? "0-1" : "1-0");
+ return "*";
+ }
+
+ play(move) {
+ let kingCaptured = false;
+ if (this.subTurn == 1) {
+ this.prePlay(move);
+ this.epSquares.push(this.getEpSquare(move));
+ kingCaptured = this.kingPos[this.turn][0] < 0;
+ }
+ if (kingCaptured) move.kingCaptured = true;
+ V.PlayOnBoard(this.board, move);
+ if (this.subTurn == 2 || kingCaptured) {
+ this.turn = V.GetOppCol(this.turn);
+ this.movesCount++;
+ }
+ if (!kingCaptured) this.subTurn = 3 - this.subTurn;
+ }
+
+};
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