[vchess.git] / client / src / variants / Doublemove1.js

import { ChessRules } from "@/base_rules";

export class Doublemove1Rules extends ChessRules {

  static IsGoodEnpassant(enpassant) {
    const squares = enpassant.split(",");
    if (squares.length > 2) return false;
    for (let sq of squares) {
      if (sq != "-") {
        const ep = V.SquareToCoords(sq);
        if (isNaN(ep.x) || !V.OnBoard(ep)) return false;
      }
    }
    return true;
  }

  // There may be 2 enPassant squares (if 2 pawns jump 2 squares in same turn)
  getEnpassantFen() {
    return this.epSquares[this.epSquares.length - 1].map(
      epsq => epsq === undefined
        ? "-" //no en-passant
        : V.CoordsToSquare(epsq)
    ).join(",");
  }

  setOtherVariables(fen) {
    const parsedFen = V.ParseFen(fen);
    this.setFlags(parsedFen.flags);
    this.epSquares = [parsedFen.enpassant.split(",").map(sq => {
      if (sq != "-") return V.SquareToCoords(sq);
      return undefined;
    })];
    this.scanKings(fen);
    this.turn = parsedFen.turn;
    this.subTurn = 1;
  }

  getEnpassantCaptures([x, y], shiftX) {
    let moves = [];
    // En passant: always OK if subturn 1,
    // OK on subturn 2 only if enPassant was played at subturn 1
    // (and if there are two e.p. squares available).
    const Lep = this.epSquares.length;
    const epSquares = this.epSquares[Lep - 1]; //always at least one element
    let epSqs = [];
    epSquares.forEach(sq => {
      if (sq) epSqs.push(sq);
    });
    if (epSqs.length == 0) return moves;
    const oppCol = V.GetOppCol(this.getColor(x, y));
    for (let sq of epSqs) {
      if (
        this.subTurn == 1 ||
        (epSqs.length == 2 &&
          // Was this en-passant capture already played at subturn 1 ?
          // (Or maybe the opponent filled the en-passant square with a piece)
          this.board[epSqs[0].x][epSqs[0].y] != V.EMPTY)
      ) {
        if (
          sq.x == x + shiftX &&
          Math.abs(sq.y - y) == 1 &&
          // Add condition "enemy pawn must be present"
          this.getPiece(x, sq.y) == V.PAWN &&
          this.getColor(x, sq.y) == oppCol
        ) {
          let epMove = this.getBasicMove([x, y], [sq.x, sq.y]);
          epMove.vanish.push({
            x: x,
            y: sq.y,
            p: "p",
            c: oppCol
          });
          moves.push(epMove);
        }
      }
    }
    return moves;
  }

  atLeastOneMove() {
    const color = this.turn;
    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 && this.getColor(i, j) == color) {
          const moves = this.getPotentialMovesFrom([i, j]);
          if (moves.length > 0) {
            for (let k = 0; k < moves.length; k++) {
              const m = moves[k];
              // NOTE: not using play() here (=> infinite loop)
              V.PlayOnBoard(this.board, m);
              if (m.vanish[0].p == V.KING)
                this.kingPos[color] = [m.appear[0].x, m.appear[0].y];
              const res = !this.underCheck(color);
              V.UndoOnBoard(this.board, m);
              if (m.vanish[0].p == V.KING)
                this.kingPos[color] = [m.start.x, m.start.y];
              if (res) return true;
            }
          }
        }
      }
    }
    return false;
  }

  play(move) {
    move.flags = JSON.stringify(this.aggregateFlags());
    move.turn = [this.turn, this.subTurn];
    V.PlayOnBoard(this.board, move);
    const epSq = this.getEpSquare(move);
    const oppCol = V.GetOppCol(this.turn);
    if (this.movesCount == 0) {
      // First move in game
      this.turn = "b";
      this.epSquares.push([epSq]);
      this.movesCount = 1;
    }
    // Does this move give check on subturn 1 or reach stalemate?
    // If yes, skip subturn 2
    else if (
      this.subTurn == 1 &&
      (
        this.underCheck(V.GetOppCol(this.turn)) ||
        !this.atLeastOneMove()
      )
    ) {
      this.turn = oppCol;
      this.epSquares.push([epSq]);
      move.checkOnSubturn1 = true;
      this.movesCount++;
    }
    else {
      if (this.subTurn == 2) {
        this.turn = oppCol;
        let lastEpsq = this.epSquares[this.epSquares.length - 1];
        lastEpsq.push(epSq);
      }
      else {
        this.epSquares.push([epSq]);
        this.movesCount++;
      }
      this.subTurn = 3 - this.subTurn;
    }
    this.postPlay(move);
  }

  postPlay(move) {
    const c = move.turn[0];
    const piece = move.vanish[0].p;
    const firstRank = c == "w" ? V.size.x - 1 : 0;

    if (piece == V.KING) {
      this.kingPos[c] = [move.appear[0].x, move.appear[0].y];
      this.castleFlags[c] = [V.size.y, V.size.y];
      return;
    }
    const oppCol = V.GetOppCol(c);
    const oppFirstRank = V.size.x - 1 - firstRank;
    if (
      move.start.x == firstRank && //our rook moves?
      this.castleFlags[c].includes(move.start.y)
    ) {
      const flagIdx = (move.start.y == this.castleFlags[c][0] ? 0 : 1);
      this.castleFlags[c][flagIdx] = V.size.y;
    }
    if (
      move.end.x == oppFirstRank && //we took opponent rook?
      this.castleFlags[oppCol].includes(move.end.y)
    ) {
      const flagIdx = (move.end.y == this.castleFlags[oppCol][0] ? 0 : 1);
      this.castleFlags[oppCol][flagIdx] = V.size.y;
    }
  }

  undo(move) {
    this.disaggregateFlags(JSON.parse(move.flags));
    V.UndoOnBoard(this.board, move);
    if (this.movesCount == 1 || !!move.checkOnSubturn1 || this.subTurn == 2) {
      // The move may not be full, but is fully undone:
      this.epSquares.pop();
      // Moves counter was just incremented:
      this.movesCount--;
    }
    else {
      // Undo the second half of a move
      let lastEpsq = this.epSquares[this.epSquares.length - 1];
      lastEpsq.pop();
    }
    this.turn = move.turn[0];
    this.subTurn = move.turn[1];
    super.postUndo(move);
  }

  static get VALUES() {
    return {
      p: 1,
      r: 5,
      n: 3,
      b: 3,
      q: 7, //slightly less than in orthodox game
      k: 1000
    };
  }

  // No alpha-beta here, just adapted min-max at depth 2(+1)
  getComputerMove() {
    const maxeval = V.INFINITY;
    const color = this.turn;
    const oppCol = V.GetOppCol(this.turn);

    // Search best (half) move for opponent turn
    const getBestMoveEval = () => {
      let score = this.getCurrentScore();
      if (score != "*") {
        if (score == "1/2") return 0;
        return maxeval * (score == "1-0" ? 1 : -1);
      }
      let moves = this.getAllValidMoves();
      let res = oppCol == "w" ? -maxeval : maxeval;
      for (let m of moves) {
        this.play(m);
        score = this.getCurrentScore();
        // Now turn is oppCol,2 if m doesn't give check
        // Otherwise it's color,1. In both cases the next test makes sense
        if (score != "*") {
          if (score == "1/2")
            res = oppCol == "w" ? Math.max(res, 0) : Math.min(res, 0);
          else {
            // Found a mate
            this.undo(m);
            return maxeval * (score == "1-0" ? 1 : -1);
          }
        }
        const evalPos = this.evalPosition();
        res = oppCol == "w" ? Math.max(res, evalPos) : Math.min(res, evalPos);
        this.undo(m);
      }
      return res;
    };

    const moves11 = this.getAllValidMoves();
    let doubleMove = null;
    let bestEval = Number.POSITIVE_INFINITY * (color == 'w' ? -1 : 1);
    // Rank moves using a min-max at depth 2
    for (let i = 0; i < moves11.length; i++) {
      this.play(moves11[i]);
      if (this.turn != color) {
        // We gave check with last move: search the best opponent move
        const evalM = getBestMoveEval() + 0.05 - Math.random() / 10;
        if (
          (color == 'w' && evalM > bestEval) ||
          (color == 'b' && evalM < bestEval)
        ) {
          doubleMove = moves11[i];
          bestEval = evalM;
        }
      }
      else {
        let moves12 = this.getAllValidMoves();
        for (let j = 0; j < moves12.length; j++) {
          this.play(moves12[j]);
          const evalM  = getBestMoveEval() + 0.05 - Math.random() / 10
          if (
            (color == 'w' && evalM > bestEval) ||
            (color == 'b' && evalM < bestEval)
          ) {
            doubleMove = [moves11[i], moves12[j]];
            bestEval = evalM;
          }
          this.undo(moves12[j]);
        }
      }
      this.undo(moves11[i]);
    }
    return doubleMove;
  }

};
Commit	Line	Data
	1	import { ChessRules } from "@/base_rules";
	2
	3	export class Doublemove1Rules extends ChessRules {
	4
	5	static IsGoodEnpassant(enpassant) {
	6	const squares = enpassant.split(",");
	7	if (squares.length > 2) return false;
	8	for (let sq of squares) {
	9	if (sq != "-") {
	10	const ep = V.SquareToCoords(sq);
	11	if (isNaN(ep.x) \|\| !V.OnBoard(ep)) return false;
	12	}
	13	}
	14	return true;
	15	}
	16
	17	// There may be 2 enPassant squares (if 2 pawns jump 2 squares in same turn)
	18	getEnpassantFen() {
	19	return this.epSquares[this.epSquares.length - 1].map(
	20	epsq => epsq === undefined
	21	? "-" //no en-passant
	22	: V.CoordsToSquare(epsq)
	23	).join(",");
	24	}
	25
	26	setOtherVariables(fen) {
	27	const parsedFen = V.ParseFen(fen);
	28	this.setFlags(parsedFen.flags);
	29	this.epSquares = [parsedFen.enpassant.split(",").map(sq => {
	30	if (sq != "-") return V.SquareToCoords(sq);
	31	return undefined;
	32	})];
	33	this.scanKings(fen);
	34	this.turn = parsedFen.turn;
	35	this.subTurn = 1;
	36	}
	37
	38	getEnpassantCaptures([x, y], shiftX) {
	39	let moves = [];
	40	// En passant: always OK if subturn 1,
	41	// OK on subturn 2 only if enPassant was played at subturn 1
	42	// (and if there are two e.p. squares available).
	43	const Lep = this.epSquares.length;
	44	const epSquares = this.epSquares[Lep - 1]; //always at least one element
	45	let epSqs = [];
	46	epSquares.forEach(sq => {
	47	if (sq) epSqs.push(sq);
	48	});
	49	if (epSqs.length == 0) return moves;
	50	const oppCol = V.GetOppCol(this.getColor(x, y));
	51	for (let sq of epSqs) {
	52	if (
	53	this.subTurn == 1 \|\|
	54	(epSqs.length == 2 &&
	55	// Was this en-passant capture already played at subturn 1 ?
	56	// (Or maybe the opponent filled the en-passant square with a piece)
	57	this.board[epSqs[0].x][epSqs[0].y] != V.EMPTY)
	58	) {
	59	if (
	60	sq.x == x + shiftX &&
	61	Math.abs(sq.y - y) == 1 &&
	62	// Add condition "enemy pawn must be present"
	63	this.getPiece(x, sq.y) == V.PAWN &&
	64	this.getColor(x, sq.y) == oppCol
	65	) {
	66	let epMove = this.getBasicMove([x, y], [sq.x, sq.y]);
	67	epMove.vanish.push({
	68	x: x,
	69	y: sq.y,
	70	p: "p",
	71	c: oppCol
	72	});
	73	moves.push(epMove);
	74	}
	75	}
	76	}
	77	return moves;
	78	}
	79
	80	atLeastOneMove() {
	81	const color = this.turn;
	82	for (let i = 0; i < V.size.x; i++) {
	83	for (let j = 0; j < V.size.y; j++) {
	84	if (this.board[i][j] != V.EMPTY && this.getColor(i, j) == color) {
	85	const moves = this.getPotentialMovesFrom([i, j]);
	86	if (moves.length > 0) {
	87	for (let k = 0; k < moves.length; k++) {
	88	const m = moves[k];
	89	// NOTE: not using play() here (=> infinite loop)
	90	V.PlayOnBoard(this.board, m);
	91	if (m.vanish[0].p == V.KING)
	92	this.kingPos[color] = [m.appear[0].x, m.appear[0].y];
	93	const res = !this.underCheck(color);
	94	V.UndoOnBoard(this.board, m);
	95	if (m.vanish[0].p == V.KING)
	96	this.kingPos[color] = [m.start.x, m.start.y];
	97	if (res) return true;
	98	}
	99	}
	100	}
	101	}
	102	}
	103	return false;
	104	}
	105
	106	play(move) {
	107	move.flags = JSON.stringify(this.aggregateFlags());
	108	move.turn = [this.turn, this.subTurn];
	109	V.PlayOnBoard(this.board, move);
	110	const epSq = this.getEpSquare(move);
	111	const oppCol = V.GetOppCol(this.turn);
	112	if (this.movesCount == 0) {
	113	// First move in game
	114	this.turn = "b";
	115	this.epSquares.push([epSq]);
	116	this.movesCount = 1;
	117	}
	118	// Does this move give check on subturn 1 or reach stalemate?
	119	// If yes, skip subturn 2
	120	else if (
	121	this.subTurn == 1 &&
	122	(
	123	this.underCheck(V.GetOppCol(this.turn)) \|\|
	124	!this.atLeastOneMove()
	125	)
	126	) {
	127	this.turn = oppCol;
	128	this.epSquares.push([epSq]);
	129	move.checkOnSubturn1 = true;
	130	this.movesCount++;
	131	}
	132	else {
	133	if (this.subTurn == 2) {
	134	this.turn = oppCol;
	135	let lastEpsq = this.epSquares[this.epSquares.length - 1];
	136	lastEpsq.push(epSq);
	137	}
	138	else {
	139	this.epSquares.push([epSq]);
	140	this.movesCount++;
	141	}
	142	this.subTurn = 3 - this.subTurn;
	143	}
	144	this.postPlay(move);
	145	}
	146
	147	postPlay(move) {
	148	const c = move.turn[0];
	149	const piece = move.vanish[0].p;
	150	const firstRank = c == "w" ? V.size.x - 1 : 0;
	151
	152	if (piece == V.KING) {
	153	this.kingPos[c] = [move.appear[0].x, move.appear[0].y];
	154	this.castleFlags[c] = [V.size.y, V.size.y];
	155	return;
	156	}
	157	const oppCol = V.GetOppCol(c);
	158	const oppFirstRank = V.size.x - 1 - firstRank;
	159	if (
	160	move.start.x == firstRank && //our rook moves?
	161	this.castleFlags[c].includes(move.start.y)
	162	) {
	163	const flagIdx = (move.start.y == this.castleFlags[c][0] ? 0 : 1);
	164	this.castleFlags[c][flagIdx] = V.size.y;
	165	}
	166	if (
	167	move.end.x == oppFirstRank && //we took opponent rook?
	168	this.castleFlags[oppCol].includes(move.end.y)
	169	) {
	170	const flagIdx = (move.end.y == this.castleFlags[oppCol][0] ? 0 : 1);
	171	this.castleFlags[oppCol][flagIdx] = V.size.y;
	172	}
	173	}
	174
	175	undo(move) {
	176	this.disaggregateFlags(JSON.parse(move.flags));
	177	V.UndoOnBoard(this.board, move);
	178	if (this.movesCount == 1 \|\| !!move.checkOnSubturn1 \|\| this.subTurn == 2) {
	179	// The move may not be full, but is fully undone:
	180	this.epSquares.pop();
	181	// Moves counter was just incremented:
	182	this.movesCount--;
	183	}
	184	else {
	185	// Undo the second half of a move
	186	let lastEpsq = this.epSquares[this.epSquares.length - 1];
	187	lastEpsq.pop();
	188	}
	189	this.turn = move.turn[0];
	190	this.subTurn = move.turn[1];
	191	super.postUndo(move);
	192	}
	193
	194	static get VALUES() {
	195	return {
	196	p: 1,
	197	r: 5,
	198	n: 3,
	199	b: 3,
	200	q: 7, //slightly less than in orthodox game
	201	k: 1000
	202	};
	203	}
	204
	205	// No alpha-beta here, just adapted min-max at depth 2(+1)
	206	getComputerMove() {
	207	const maxeval = V.INFINITY;
	208	const color = this.turn;
	209	const oppCol = V.GetOppCol(this.turn);
	210
	211	// Search best (half) move for opponent turn
	212	const getBestMoveEval = () => {
	213	let score = this.getCurrentScore();
	214	if (score != "*") {
	215	if (score == "1/2") return 0;
	216	return maxeval * (score == "1-0" ? 1 : -1);
	217	}
	218	let moves = this.getAllValidMoves();
	219	let res = oppCol == "w" ? -maxeval : maxeval;
	220	for (let m of moves) {
	221	this.play(m);
	222	score = this.getCurrentScore();
	223	// Now turn is oppCol,2 if m doesn't give check
	224	// Otherwise it's color,1. In both cases the next test makes sense
	225	if (score != "*") {
	226	if (score == "1/2")
	227	res = oppCol == "w" ? Math.max(res, 0) : Math.min(res, 0);
	228	else {
	229	// Found a mate
	230	this.undo(m);
	231	return maxeval * (score == "1-0" ? 1 : -1);
	232	}
	233	}
	234	const evalPos = this.evalPosition();
	235	res = oppCol == "w" ? Math.max(res, evalPos) : Math.min(res, evalPos);
	236	this.undo(m);
	237	}
	238	return res;
	239	};
	240
	241	const moves11 = this.getAllValidMoves();
	242	let doubleMove = null;
	243	let bestEval = Number.POSITIVE_INFINITY * (color == 'w' ? -1 : 1);
	244	// Rank moves using a min-max at depth 2
	245	for (let i = 0; i < moves11.length; i++) {
	246	this.play(moves11[i]);
	247	if (this.turn != color) {
	248	// We gave check with last move: search the best opponent move
	249	const evalM = getBestMoveEval() + 0.05 - Math.random() / 10;
	250	if (
	251	(color == 'w' && evalM > bestEval) \|\|
	252	(color == 'b' && evalM < bestEval)
	253	) {
	254	doubleMove = moves11[i];
	255	bestEval = evalM;
	256	}
	257	}
	258	else {
	259	let moves12 = this.getAllValidMoves();
	260	for (let j = 0; j < moves12.length; j++) {
	261	this.play(moves12[j]);
	262	const evalM = getBestMoveEval() + 0.05 - Math.random() / 10
	263	if (
	264	(color == 'w' && evalM > bestEval) \|\|
	265	(color == 'b' && evalM < bestEval)
	266	) {
	267	doubleMove = [moves11[i], moves12[j]];
	268	bestEval = evalM;
	269	}
	270	this.undo(moves12[j]);
	271	}
	272	}
	273	this.undo(moves11[i]);
	274	}
	275	return doubleMove;
	276	}
	277
	278	};