[xogo.git] / variants / Atarigo / class.js

import ChessRules from "/base_rules.js";
import Move from "/utils/Move.js";
import PiPo from "/utils/PiPo.js";
import {ArrayFun} from "/utils/array.js";

export default class AtarigoRules extends ChessRules {

  static get Options() {
    return {
      input: [
        {
          label: "Board size",
          variable: "bsize",
          type: "number",
          defaut: 11
        }
      ]
    };
  }

  get hasFlags() {
    return false;
  }
  get hasEnpassant() {
    return false;
  }
  get clickOnly() {
    return true;
  }

  getSvgChessboard() {
    const flipped = (this.playerColor == 'b');
    let board = `
      <svg
        viewBox="0 0 ${10*(this.size.y)} ${10*(this.size.x)}"
        class="chessboard_SVG">`;
    for (let i=0; i < this.size.x; i++) {
      for (let j=0; j < this.size.y; j++) {
        const ii = (flipped ? this.size.x - 1 - i : i);
        const jj = (flipped ? this.size.y - 1 - j : j);
        board += `
          <rect
            id="${this.coordsToId({x: ii, y: jj})}"
            width="10"
            height="10"
            x="${10*j}"
            y="${10*i}"
            fill="transparent"
          />`;
      }
    }
    // Add lines to delimitate "squares"
    for (let i = 0; i < this.size.x; i++) {
      const y = i * 10 + 5, maxX = this.size.y * 10 - 5;
      board += `
        <line x1="5" y1="${y}" x2="${maxX}" y2="${y}"
              stroke="black" stroke-width="0.2"/>`;
    }
    for (let i = 0; i < this.size.x; i++) {
      const x = i * 10 + 5, maxY = this.size.x * 10 - 5;
      board += `
        <line x1="${x}" y1="5" x2="${x}" y2="${maxY}"
              stroke="black" stroke-width="0.2"/>`;
    }
    board += "</svg>";
    return board;
  }

  get size() {
    return {
      x: this.options["bsize"],
      y: this.options["bsize"],
    };
  }

  genRandInitBaseFen() {
    const fenLine = C.FenEmptySquares(this.size.y);
    return {
      fen: (fenLine + '/').repeat(this.size.x - 1) + fenLine + " w 0",
      o: {}
    };
  }

  pieces(color, x, y) {
    return {
      's': {
        "class": "stone",
        moves: []
      }
    };
  }

  doClick(coords) {
    const [x, y] = [coords.x, coords.y];
    if (this.board[x][y] != "")
      return null;
    const color = this.turn;
    const oppCol = C.GetOppCol(color);
    let move = new Move({
      appear: [ new PiPo({ x: x, y: y, c: color, p: 's' }) ],
      vanish: [],
      start: {x: x, y: y}
    });
    this.playOnBoard(move); //put the stone
    let noSuicide = false;
    let captures = [];
    for (let s of [[0, 1], [1, 0], [0, -1], [-1, 0]]) {
      const [i, j] = [x + s[0], y + s[1]];
      if (this.onBoard(i, j)) {
        if (this.board[i][j] == "")
          noSuicide = true; //clearly
        else if (this.getColor(i, j) == color) {
          // Free space for us = not a suicide
          if (!noSuicide) {
            let explored = ArrayFun.init(this.size.x, this.size.y, false);
            noSuicide = this.searchForEmptySpace([i, j], color, explored);
          }
        }
        else {
          // Free space for opponent = not a capture
          let explored = ArrayFun.init(this.size.x, this.size.y, false);
          const captureSomething =
            !this.searchForEmptySpace([i, j], oppCol, explored);
          if (captureSomething) {
            for (let ii = 0; ii < this.size.x; ii++) {
              for (let jj = 0; jj < this.size.y; jj++) {
                if (explored[ii][jj])
                  captures.push(new PiPo({ x: ii, y: jj, c: oppCol, p: 's' }));
              }
            }
          }
        }
      }
    }
    this.undoOnBoard(move); //remove the stone
    if (!noSuicide && captures.length == 0)
      return null;
    Array.prototype.push.apply(move.vanish, captures);
    return move;
  }

  searchForEmptySpace([x, y], color, explored) {
    if (explored[x][y])
      return false; //didn't find empty space
    explored[x][y] = true;
    let res = false;
    for (let s of [[1, 0], [0, 1], [-1, 0], [0, -1]]) {
      const [i, j] = [x + s[0], y + s[1]];
      if (this.onBoard(i, j)) {
        if (this.board[i][j] == "")
          res = true;
        else if (this.getColor(i, j) == color)
          res = this.searchForEmptySpace([i, j], color, explored) || res;
      }
    }
    return res;
  }

  filterValid(moves) {
    // Suicide check not here, because side-computation of captures
    return moves;
  }

  getCurrentScore(move_s) {
    if (move_s[0].vanish.length > 0)
      return (this.turn == 'w' ? "0-1" : "1-0");
    return "*";
  }

};
Commit	Line	Data
	1	import ChessRules from "/base_rules.js";
	2	import Move from "/utils/Move.js";
	3	import PiPo from "/utils/PiPo.js";
	4	import {ArrayFun} from "/utils/array.js";
	5
	6	export default class AtarigoRules extends ChessRules {
	7
	8	static get Options() {
	9	return {
	10	input: [
	11	{
	12	label: "Board size",
	13	variable: "bsize",
	14	type: "number",
	15	defaut: 11
	16	}
	17	]
	18	};
	19	}
	20
	21	get hasFlags() {
	22	return false;
	23	}
	24	get hasEnpassant() {
	25	return false;
	26	}
	27	get clickOnly() {
	28	return true;
	29	}
	30
	31	getSvgChessboard() {
	32	const flipped = (this.playerColor == 'b');
	33	let board = `
	34	<svg
	35	viewBox="0 0 ${10(this.size.y)} ${10(this.size.x)}"
	36	class="chessboard_SVG">`;
	37	for (let i=0; i < this.size.x; i++) {
	38	for (let j=0; j < this.size.y; j++) {
	39	const ii = (flipped ? this.size.x - 1 - i : i);
	40	const jj = (flipped ? this.size.y - 1 - j : j);
	41	board += `
	42	<rect
	43	id="${this.coordsToId({x: ii, y: jj})}"
	44	width="10"
	45	height="10"
	46	x="${10*j}"
	47	y="${10*i}"
	48	fill="transparent"
	49	/>`;
	50	}
	51	}
	52	// Add lines to delimitate "squares"
	53	for (let i = 0; i < this.size.x; i++) {
	54	const y = i * 10 + 5, maxX = this.size.y * 10 - 5;
	55	board += `
	56	<line x1="5" y1="${y}" x2="${maxX}" y2="${y}"
	57	stroke="black" stroke-width="0.2"/>`;
	58	}
	59	for (let i = 0; i < this.size.x; i++) {
	60	const x = i * 10 + 5, maxY = this.size.x * 10 - 5;
	61	board += `
	62	<line x1="${x}" y1="5" x2="${x}" y2="${maxY}"
	63	stroke="black" stroke-width="0.2"/>`;
	64	}
	65	board += "</svg>";
	66	return board;
	67	}
	68
	69	get size() {
	70	return {
	71	x: this.options["bsize"],
	72	y: this.options["bsize"],
	73	};
	74	}
	75
	76	genRandInitBaseFen() {
	77	const fenLine = C.FenEmptySquares(this.size.y);
	78	return {
	79	fen: (fenLine + '/').repeat(this.size.x - 1) + fenLine + " w 0",
	80	o: {}
	81	};
	82	}
	83
	84	pieces(color, x, y) {
	85	return {
	86	's': {
	87	"class": "stone",
	88	moves: []
	89	}
	90	};
	91	}
	92
	93	doClick(coords) {
	94	const [x, y] = [coords.x, coords.y];
	95	if (this.board[x][y] != "")
	96	return null;
	97	const color = this.turn;
	98	const oppCol = C.GetOppCol(color);
	99	let move = new Move({
	100	appear: [ new PiPo({ x: x, y: y, c: color, p: 's' }) ],
	101	vanish: [],
	102	start: {x: x, y: y}
	103	});
	104	this.playOnBoard(move); //put the stone
	105	let noSuicide = false;
	106	let captures = [];
	107	for (let s of [[0, 1], [1, 0], [0, -1], [-1, 0]]) {
	108	const [i, j] = [x + s[0], y + s[1]];
	109	if (this.onBoard(i, j)) {
	110	if (this.board[i][j] == "")
	111	noSuicide = true; //clearly
	112	else if (this.getColor(i, j) == color) {
	113	// Free space for us = not a suicide
	114	if (!noSuicide) {
	115	let explored = ArrayFun.init(this.size.x, this.size.y, false);
	116	noSuicide = this.searchForEmptySpace([i, j], color, explored);
	117	}
	118	}
	119	else {
	120	// Free space for opponent = not a capture
	121	let explored = ArrayFun.init(this.size.x, this.size.y, false);
	122	const captureSomething =
	123	!this.searchForEmptySpace([i, j], oppCol, explored);
	124	if (captureSomething) {
	125	for (let ii = 0; ii < this.size.x; ii++) {
	126	for (let jj = 0; jj < this.size.y; jj++) {
	127	if (explored[ii][jj])
	128	captures.push(new PiPo({ x: ii, y: jj, c: oppCol, p: 's' }));
	129	}
	130	}
	131	}
	132	}
	133	}
	134	}
	135	this.undoOnBoard(move); //remove the stone
	136	if (!noSuicide && captures.length == 0)
	137	return null;
	138	Array.prototype.push.apply(move.vanish, captures);
	139	return move;
	140	}
	141
	142	searchForEmptySpace([x, y], color, explored) {
	143	if (explored[x][y])
	144	return false; //didn't find empty space
	145	explored[x][y] = true;
	146	let res = false;
	147	for (let s of [[1, 0], [0, 1], [-1, 0], [0, -1]]) {
	148	const [i, j] = [x + s[0], y + s[1]];
	149	if (this.onBoard(i, j)) {
	150	if (this.board[i][j] == "")
	151	res = true;
	152	else if (this.getColor(i, j) == color)
	153	res = this.searchForEmptySpace([i, j], color, explored) \|\| res;
	154	}
	155	}
	156	return res;
	157	}
	158
	159	filterValid(moves) {
	160	// Suicide check not here, because side-computation of captures
	161	return moves;
	162	}
	163
	164	getCurrentScore(move_s) {
	165	if (move_s[0].vanish.length > 0)
	166	return (this.turn == 'w' ? "0-1" : "1-0");
	167	return "*";
	168	}
	169
	170	};