/* * SPDX-FileCopyrightText: syuilo and other misskey contributors * SPDX-License-Identifier: AGPL-3.0-only */ import CRC32 from 'crc-32'; /** * true ... 黒 * false ... 白 */ export type Color = boolean; const BLACK = true; const WHITE = false; export type MapCell = 'null' | 'empty'; export type Options = { isLlotheo: boolean; canPutEverywhere: boolean; loopedBoard: boolean; }; export type Undo = { color: Color; pos: number; /** * 反転した石の位置の配列 */ effects: number[]; turn: Color | null; }; export class Game { public map: MapCell[]; public mapWidth: number; public mapHeight: number; public board: (Color | null | undefined)[]; public turn: Color | null = BLACK; public opts: Options; public prevPos = -1; public prevColor: Color | null = null; private logs: Undo[] = []; constructor(map: string[], opts: Options) { //#region binds this.putStone = this.putStone.bind(this); //#endregion //#region Options this.opts = opts; if (this.opts.isLlotheo == null) this.opts.isLlotheo = false; if (this.opts.canPutEverywhere == null) this.opts.canPutEverywhere = false; if (this.opts.loopedBoard == null) this.opts.loopedBoard = false; //#endregion //#region Parse map data this.mapWidth = map[0].length; this.mapHeight = map.length; const mapData = map.join(''); this.board = mapData.split('').map(d => d === '-' ? null : d === 'b' ? BLACK : d === 'w' ? WHITE : undefined); this.map = mapData.split('').map(d => d === '-' || d === 'b' || d === 'w' ? 'empty' : 'null'); //#endregion // ゲームが始まった時点で片方の色の石しかないか、始まった時点で勝敗が決定するようなマップの場合がある if (!this.canPutSomewhere(BLACK)) this.turn = this.canPutSomewhere(WHITE) ? WHITE : null; } public get blackCount() { return this.board.filter(x => x === BLACK).length; } public get whiteCount() { return this.board.filter(x => x === WHITE).length; } public posToXy(pos: number): number[] { const x = pos % this.mapWidth; const y = Math.floor(pos / this.mapWidth); return [x, y]; } public xyToPos(x: number, y: number): number { return x + (y * this.mapWidth); } public putStone(pos: number) { const color = this.turn; if (color == null) return; this.prevPos = pos; this.prevColor = color; this.board[pos] = color; // 反転させられる石を取得 const effects = this.effects(color, pos); // 反転させる for (const pos of effects) { this.board[pos] = color; } const turn = this.turn; this.logs.push({ color, pos, effects, turn, }); this.calcTurn(); } private calcTurn() { // ターン計算 this.turn = this.canPutSomewhere(!this.prevColor) ? !this.prevColor : this.canPutSomewhere(this.prevColor!) ? this.prevColor : null; } public undo() { const undo = this.logs.pop()!; this.prevColor = undo.color; this.prevPos = undo.pos; this.board[undo.pos] = null; for (const pos of undo.effects) { const color = this.board[pos]; this.board[pos] = !color; } this.turn = undo.turn; } public mapDataGet(pos: number): MapCell { const [x, y] = this.posToXy(pos); return x < 0 || y < 0 || x >= this.mapWidth || y >= this.mapHeight ? 'null' : this.map[pos]; } public getPuttablePlaces(color: Color): number[] { return Array.from(this.board.keys()).filter(i => this.canPut(color, i)); } public canPutSomewhere(color: Color): boolean { return this.getPuttablePlaces(color).length > 0; } public canPut(color: Color, pos: number): boolean { return ( this.board[pos] !== null ? false : // 既に石が置いてある場所には打てない this.opts.canPutEverywhere ? this.mapDataGet(pos) === 'empty' : // 挟んでなくても置けるモード this.effects(color, pos).length !== 0); // 相手の石を1つでも反転させられるか } /** * 指定のマスに石を置いた時の、反転させられる石を取得します * @param color 自分の色 * @param initPos 位置 */ public effects(color: Color, initPos: number): number[] { const enemyColor = !color; const diffVectors: [number, number][] = [ [0, -1], // 上 [+1, -1], // 右上 [+1, 0], // 右 [+1, +1], // 右下 [0, +1], // 下 [-1, +1], // 左下 [-1, 0], // 左 [-1, -1], // 左上 ]; const effectsInLine = ([dx, dy]: [number, number]): number[] => { const nextPos = (x: number, y: number): [number, number] => [x + dx, y + dy]; const found: number[] = []; // 挟めるかもしれない相手の石を入れておく配列 let [x, y] = this.posToXy(initPos); while (true) { [x, y] = nextPos(x, y); // 座標が指し示す位置がボード外に出たとき if (this.opts.loopedBoard && this.xyToPos( (x = ((x % this.mapWidth) + this.mapWidth) % this.mapWidth), (y = ((y % this.mapHeight) + this.mapHeight) % this.mapHeight)) === initPos) { // 盤面の境界でループし、自分が石を置く位置に戻ってきたとき、挟めるようにしている (ref: Test4のマップ) return found; } else if (x === -1 || y === -1 || x === this.mapWidth || y === this.mapHeight) return []; // 挟めないことが確定 (盤面外に到達) const pos = this.xyToPos(x, y); if (this.mapDataGet(pos) === 'null') return []; // 挟めないことが確定 (配置不可能なマスに到達) const stone = this.board[pos]; if (stone === null) return []; // 挟めないことが確定 (石が置かれていないマスに到達) if (stone === enemyColor) found.push(pos); // 挟めるかもしれない (相手の石を発見) if (stone === color) return found; // 挟めることが確定 (対となる自分の石を発見) } }; return ([] as number[]).concat(...diffVectors.map(effectsInLine)); } public calcCrc32(): number { return CRC32.str(JSON.stringify({ board: this.board, turn: this.turn, })); } public get isEnded(): boolean { return this.turn === null; } public get winner(): Color | null { return this.isEnded ? this.blackCount === this.whiteCount ? null : this.opts.isLlotheo === this.blackCount > this.whiteCount ? WHITE : BLACK : undefined as never; } }