// index corresponds to difference in player rank const KOMI_REC = { '9': [ 5.5, 2.5, -0.5, -3.5, -6.5, -9.5, 12.5, 15.5, 18.5, 21.5 ], '13': [ 5.5, 0.5, -5.5, 0.5, -5.5, 0.5, -5.5, 0.5, -5.5, 0.5 ], '19': [ 7.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ] } const HANDI_REC = { '9': [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ], '13': [ 0, 0, 0, 2, 2, 3, 3, 4, 4, 5 ], '19': [ 0, 0, 2, 3, 4, 5, 6, 7, 8, 9 ] } // index represents handicap placement for different board-sizes, eg handiPlace['9][1] = { (3, 3), (7, 7) } // last array in each property also used for hoshi rendering const HANDI_PLACE = { 9 : [ 0, 0, [ '7-3', '3-7' ], // 2 [ '7-7', '7-3', '3-7' ], [ '3-3', '7-7', '3-7', '7-3' ] ], 13 : [ 0, 0, [ '4-10', '10-4' ], // 2 [ '10-10', '4-10', '10-4' ], [ '4-4', '10-10', '4-10', '10-4' ], [ '7-7', '4-4', '10-10', '4-10', '10-4' ], [ '7-4', '4-7', '4-4', '10-10', '4-10', '10-4' ], [ '7-7', '7-4', '4-7', '4-4', '10-10', '4-10', '10-4' ], [ '10-7', '7-4', '7-10', '4-7', '4-4', '10-10', '4-10', '10-4' ], [ '7-7', '10-7', '7-4', '7-10', '4-7', '4-4', '10-10', '4-10', '10-4' ], ], 19 : [ 0, 0, [ '4-16', '16-4' ], // 2 [ '16-16', '4-16', '16-4' ], [ '4-4', '16-16', '4-16', '16-4' ], [ '10-10', '4-4', '16-16', '4-16', '16-4' ], [ '10-4', '4-10', '4-4', '16-16', '4-16', '16-4' ], [ '10-10', '10-4', '4-10', '4-4', '16-16', '4-16', '16-4' ], [ '16-10', '10-4', '10-16', '4-10', '4-4', '16-16', '4-16', '16-4' ], [ '10-10', '16-10', '10-4', '10-16', '4-10', '4-4', '16-16', '4-16', '16-4' ], ] }; const getSingleItemFromSet = set => { let entry; for (entry of set.entries()) { } return entry[0]; } const pipeMap = (...funcs) => obj => { const arr = Object.entries(obj).reduce((acc, [key, value], i, arr) => { funcs.forEach(func => value = func(value, i, arr)); return [...acc, [key, value]]; },[]); return arr.reduce((acc, [key, value]) => { return { ...acc, [key]: value } }, {}); } const checkLegal = ({ point, Game }) => { // if stone (includes ko) return false if (point.stone) { point.legal = false; return point; } const neighbors = getNeighbors({Game, point}); const isEmpty = point => point.stone === 0 && point.legal === true; const isEmptyAdjacent = neighbors.filter(isEmpty); // if empty point adjacent return true if (!isEmptyAdjacent.length) { // if group has liberties return true const isTurnStone = neighbor => neighbor.stone === Game.turn; const getGroupLiberties = point => Array.from(Game.groups[point.group].liberties); const isNotSamePoint = liberty => liberty.pos.x !== point.pos.x && liberty.pos.y !== point.pos.y; const isInGroupWithLiberties = neighbor => getGroupLiberties(neighbor).filter(isNotSamePoint).length; const isInLiveGroup = neighbors.filter(isTurnStone).filter(isInGroupWithLiberties).length; if (isInLiveGroup) { point.legal = true; return point; } // if move would capture opposing group return true if (point.capturing[Game.turn].size) { point.legal = true; return point; } point.legal = false; return point; } point.legal = true; return point; } const getBoardState = (Game) => { const getLegal = point => checkLegal({ point, Game }) return pipeMap(getLegal)(Game.boardState); } const getLegalMoves = (Game) => { const mapLegal = point => point.legal ? 'l' : point.stone; return pipeMap(mapLegal)(Game.boardState); } const getNeighbors = ({ Game, point }) => { let { top = null, btm = null, lft = null, rgt = null} = point.neighbors; const { boardState, boardSize } = Game; // boardState[0] = [ '1-1', Point({x:1, y:1, boardSize}) ] if (top) top = boardState[top]; if (btm) btm = boardState[btm]; if (lft) lft = boardState[lft]; if (rgt) rgt = boardState[rgt]; return [ top, btm, lft, rgt ].filter(value => value); } const initBoard = (game) => { const boardState = {}; const { boardSize, handicap } = game; for (let i = 0; i < Math.pow(boardSize, 2); i++) { const point = Point({ x: Math.floor(i / boardSize) + 1, y: i % boardSize + 1, boardSize }); boardState[`${point.pos.x}-${point.pos.y}`] = point; } if (handicap) { HANDI_PLACE[boardSize][handicap].forEach(pt => { boardState[pt].makeMove({...game, boardState}); }); game.turn *= -1; } return boardState; } // returns Game object const Game = ({gameData = {}, gameRecord = []} = {}) => ({ winner: gameData.winner ||null, turn: gameData.turn || 0, // turn logic depends on handicap stones pass: gameData.pass || 0, // -1 represents state in which resignation has been submitted, not confirmed komi: gameData.komi || 6.5, // komi depends on handicap stones + player rank handicap: gameData.handicap || 0, boardSize: gameData.boardSize || 19, groups: {}, boardState: {}, ko: [], gameRecord: gameRecord, playerState: gameData.playerState || { bCaptures: 0, wCaptures: 0, bScore: 0, wScore: 0 }, initGame: function() { this.winner = null; this.pass = 0; this.turn = 1; this.boardState = initBoard(this); this.boardState = getBoardState(this); this.legalMoves = getLegalMoves(this) return this; }, getMeta: function() { // cannot be chained // does not affect game object return { winner: this.winner, turn: this.turn, pass: this.pass, playerState: this.playerState, gameRecord: this.gameRecord } }, makeMove: function({ player, pos: {x, y}}) { let game = this; let success = false; const point = game.boardState[`${x}-${y}`]; const isTurn = ( game.turn === 1 && player === 'black' ) || ( game.turn === -1 && player === 'white' ); if (isTurn) { if (point.legal) { point.makeMove(game); game.turn *= -1; success = true; } } game.boardState = getBoardState(game); return {...game, legalMoves: getLegalMoves(game), success }; }, initGroup: function(point) { const group = Symbol(`${point.pos.x}-${point.pos.y}`); this.groups[group] = { stones: new Set(), liberties: new Set()}; return { game: this, group }; } }); const Point = ({x, y, boardSize = 19}) => { let point = { pos: {x, y}, key: `${x}-${y}`, stone: 0, // can be 1, -1, 0, ko: false, legal: true, territory: 0, capturing: { '1': new Set(), '-1': new Set() }, group: null, neighbors: { top: x > 1 ? `${ x - 1 }-${ y }` : null, btm: x < boardSize ? `${ x + 1 }-${ y }` : null, rgt: y < boardSize ? `${ x }-${ y + 1 }` : null, lft: y > 1 ? `${ x }-${ y - 1 }` : null }, makeMove: function(Game) { this.stone = Game.turn; this.legal = false; if (this.capturing[this.stone].size) { Game = this.makeCaptures(Game); } Game = this.joinGroup({ point: this, Game }); return this.checkCaptures(Game); }, joinGroup: function({ point, Game }) { if (point.group !== this.group || !point.group) { // if point has no group set current group to new Symbol in game object if (!point.group) { const { game, group } = Game.initGroup(point); this.group = group; Game = game; } // add current point to global group and override current group Game.groups[point.group].stones.add(this); if (this.group !== point.group) { this.group = point.group; } Game = this.setLiberties(Game); getNeighbors({ point:this, Game }).forEach(neighbor => { if ( neighbor.stone === this.stone // this check prevents infinite call chains && neighbor.group !== this.group ) { Game = neighbor.joinGroup({ point: this, Game }); } }) } return Game; }, setLiberties: function(Game) { const neighbors = getNeighbors({ point: this, Game }); const liberties = Game.groups[this.group].liberties; // if point is occupied remove it from liberties set of point group, else add it neighbors.forEach(neighbor => { if (neighbor.stone !== 0) { liberties.delete(neighbor); Game.groups[neighbor.group].liberties.delete(this); } if (neighbor.stone === 0) { liberties.add(neighbor) } }); return Game; }, checkCaptures: function(game) { // if this stone has one liberty const liberties = game.groups[this.group].liberties; if (liberties.size === 1) { const lastLiberty = getSingleItemFromSet(liberties); lastLiberty.capturing[this.stone * -1].add(this.group); } // if neighbors have one liberty const neighbors = getNeighbors({point: this, Game: game}).filter(neighbor => neighbor.stone === -1 * this.stone) neighbors.forEach( neighbor => { const liberties = game.groups[neighbor.group] && game.groups[neighbor.group].liberties; if (liberties && liberties.size === 1) { const lastLiberty = getSingleItemFromSet(liberties); lastLiberty.capturing[neighbor.stone * -1].add(neighbor.group); } }); return game; }, makeCaptures: function(game) { // for each group for (let [captureGroup, _] of this.capturing[this.stone].entries()) { const capturesSet = game.groups[captureGroup].stones; for (let [capture, _] of capturesSet.entries()) { game = capture.removeStone(game); if (capturesSet.size === 1) { const liberties = getNeighbors({ point: this, Game: game }).filter(neighbor => neighbor.stone === 0); if (liberties.length === 1) { capture.ko = true; } } } } // points with stones cannot be played to capture this.capturing = { '1': new Set(), '-1': new Set() } return {...game, boardState: { ...game.boardState, [this.key]: this } }; }, removeStone: function(game) { if (this.stone = 0) { return game; } // reset point this.stone = 0; this.group = null; this.capturing[game.turn] = new Set(); // add captures const player = game.turn > 0 ? 'b' : 'w'; game.playerState[`${player}Captures`] += 1; return {...game, boardState: {...game.boardState, [this.key]: this}}; } } for (let [key, value] of Object.entries(point.neighbors)) { if (value) continue; delete point.neighbors[key]; } return point; }; module.exports = { Game, Point } Game().initGame() .makeMove({ player: 'black', pos: { x: 4, y: 4 } }) // 3 4 5 6 .makeMove({ player: 'white', pos: { x: 4, y: 5 } }) // 4 1 -1 .makeMove({ player: 'black', pos: { x: 5, y: 3 } }) // 5 1 -1 1 -1 .makeMove({ player: 'white', pos: { x: 5, y: 6 } }) // 6 1 -1 .makeMove({ player: 'black', pos: { x: 6, y: 4 } }) .makeMove({ player: 'white', pos: { x: 6, y: 5 } }) .makeMove({ player: 'black', pos: { x: 5, y: 5 } }) .makeMove({ player: 'white', pos: { x: 5, y: 4 } })