[vchess.git] / public / javascripts / variants / Alice.js

class AliceRules extends ChessRules
{
    static get ALICE_PIECES()
    {
        return {
            's': 'p',
            't': 'q',
            'u': 'r',
            'c': 'b',
            'o': 'n',
            'l': 'k',
        };
    }
    static get ALICE_CODES()
    {
        return {
            'p': 's',
            'q': 't',
            'r': 'u',
            'b': 'c',
            'n': 'o',
            'k': 'l',
        };
    }

    static getPpath(b)
    {
        return (Object.keys(this.ALICE_PIECES).includes(b[1]) ? "Alice/" : "") + b;
    }

    initVariables(fen)
    {
        super.initVariables(fen);
        const fenParts = fen.split(" ");
        const position = fenParts[0].split("/");
        if (this.kingPos["w"][0] < 0 || this.kingPos["b"][0] < 0)
        {
            // INIT_COL_XXX won't be used, so no need to set them for Alice kings
            for (let i=0; i<position.length; i++)
            {
                let k = 0; //column index on board
                for (let j=0; j<position[i].length; j++)
                {
                    switch (position[i].charAt(j))
                    {
                        case 'l':
                            this.kingPos['b'] = [i,k];
                            break;
                        case 'L':
                            this.kingPos['w'] = [i,k];
                            break;
                        default:
                            let num = parseInt(position[i].charAt(j));
                            if (!isNaN(num))
                                k += (num-1);
                    }
                    k++;
                }
            }
        }
    }

    getBoardOfPiece([x,y])
    {
        const V = VariantRules;
        // Build board where the piece is
        const mirrorSide = (Object.keys(V.ALICE_CODES).includes(this.getPiece(x,y)) ? 1 : 2);
        // Build corresponding board from complete board
        const [sizeX,sizeY] = V.size;
        let sideBoard = doubleArray(sizeX, sizeY, "");
        for (let i=0; i<sizeX; i++)
        {
            for (let j=0; j<sizeY; j++)
            {
                const piece = this.getPiece(i,j);
                if (mirrorSide==1 && Object.keys(V.ALICE_CODES).includes(piece))
                    sideBoard[i][j] = this.board[i][j];
                else if (mirrorSide==2 && Object.keys(V.ALICE_PIECES).includes(piece))
                    sideBoard[i][j] = this.getColor(i,j) + V.ALICE_PIECES[piece];
            }
        }
        return sideBoard;
    }

    // TODO: move board building one level up (findAllMoves()) to avoid re-building at every piece...
    // NOTE: castle & enPassant https://www.chessvariants.com/other.dir/alice.html
    // --> Should be OK as is.
    getPotentialMovesFrom([x,y])
    {
        let sideBoard = this.getBoardOfPiece([x,y]);

        // Search valid moves on sideBoard
        let saveBoard = this.board;
        this.board = sideBoard;
        let moves = super.getPotentialMovesFrom([x,y]);
        this.board = saveBoard;

        // Finally filter impossible moves
        const mirrorSide = (Object.keys(VariantRules.ALICE_CODES).includes(this.getPiece(x,y)) ? 1 : 2);
        return moves.filter(m => {
            if (m.appear.length == 2) //castle
            {
                // If appear[i] not in vanish array, then must be empty square on other board
                m.appear.forEach(psq => {
                    if (this.board[psq.x][psq.y] != VariantRules.EMPTY &&
                        ![m.vanish[0].y,m.vanish[1].y].includes(psq.y))
                    {
                        return false;
                    }
                });
            }
            else if (this.board[m.end.x][m.end.y] != VariantRules.EMPTY)
            {
                // Attempt to capture
                const piece = this.getPiece(m.end.x,m.end.y);
                if ((mirrorSide==1 && Object.keys(VariantRules.ALICE_PIECES).includes(piece))
                    || (mirrorSide==2 && Object.keys(VariantRules.ALICE_CODES).includes(piece)))
                {
                    return false;
                }
            }
            // If the move is computed on board1, m.appear change for Alice pieces.
            if (mirrorSide==1)
            {
                m.appear.forEach(psq => { //forEach: castling taken into account
                    psq.p = VariantRules.ALICE_CODES[psq.p]; //goto board2
                });
            }
            else //move on board2: mark vanishing pieces as Alice
            {
                m.vanish.forEach(psq => {
                    psq.p = VariantRules.ALICE_CODES[psq.p];
                });
            }
            // Fix en-passant captures
            if (m.vanish.length == 2 && this.board[m.end.x][m.end.y] == VariantRules.EMPTY)
                m.vanish[1].c = this.getOppCol(this.getColor(x,y));
            return true;
        });
    }

    underCheck(move)
    {
        const color = this.turn;
        this.play(move);
        let sideBoard = this.getBoardOfPiece(this.kingPos[color]);
        let saveBoard = this.board;
        this.board = sideBoard;
        let res = this.isAttacked(this.kingPos[color], this.getOppCol(color));
        this.board = saveBoard;
        this.undo(move);
        return res;
    }

    getCheckSquares(move)
    {
        this.play(move);
        const color = this.turn; //opponent
        let sideBoard = this.getBoardOfPiece(this.kingPos[color]);
        let saveBoard = this.board;
        this.board = sideBoard;
        let res = this.isAttacked(this.kingPos[color], this.getOppCol(color))
            ? [ JSON.parse(JSON.stringify(this.kingPos[color])) ]
            : [ ];
        this.board = saveBoard;
        this.undo(move);
        return res;
    }

    updateVariables(move)
    {
        super.updateVariables(move); //standard king
        const piece = this.getPiece(move.start.x,move.start.y);
        const c = this.getColor(move.start.x,move.start.y);
        // "l" = Alice king
        if (piece == "l")
        {
            this.kingPos[c][0] = move.appear[0].x;
            this.kingPos[c][1] = move.appear[0].y;
            this.castleFlags[c] = [false,false];
        }
    }

    unupdateVariables(move)
    {
        super.unupdateVariables(move);
        const c = this.getColor(move.start.x,move.start.y);
        if (this.getPiece(move.start.x,move.start.y) == "l")
            this.kingPos[c] = [move.start.x, move.start.y];
    }

    getNotation(move)
    {
        if (move.appear.length == 2 && move.appear[0].p == VariantRules.KING)
        {
            if (move.end.y < move.start.y)
                return "0-0-0";
            else
                return "0-0";
        }

        const finalSquare =
            String.fromCharCode(97 + move.end.y) + (VariantRules.size[0]-move.end.x);
        const piece = this.getPiece(move.start.x, move.start.y);

        // Piece or pawn movement
        let notation = piece.toUpperCase() +
            (move.vanish.length > move.appear.length ? "x" : "") + finalSquare;
        if (['s','p'].includes(piece) && !['s','p'].includes(move.appear[0].p))
        {
            // Promotion
            notation += "=" + move.appear[0].p.toUpperCase();
        }
        return notation;
    }

    checkGameEnd()
    {
        const color = this.turn;
        let sideBoard = this.getBoardOfPiece(this.kingPos[color]);
        let saveBoard = this.board;
        this.board = sideBoard;
        let res = "*";
        if (!this.isAttacked(this.kingPos[color], this.getOppCol(color)))
            res = "1/2";
        else
            res = (color == "w" ? "0-1" : "1-0");
        this.board = saveBoard;
        return res;
    }

    static get VALUES() {
        return {
            'p': 1,
            's': 1,
            'r': 5,
            'u': 5,
            'n': 3,
            'o': 3,
            'b': 3,
            'c': 3,
            'q': 9,
            't': 9,
            'k': 1000,
            'l': 1000
        };
    }
}