Do trivial deduction.
当前为
// ==UserScript==
// @name Puzz.link Assistance
// @version 24.7.16.1
// @description Do trivial deduction.
// @author Leaving Leaves
// @match https://puzz.link/p*/*
// @match https://pzplus.tck.mn/p*/*
// @match https://pzprxs.vercel.app/p*/*
// @match http://pzv.jp/p*/*
// @icon https://www.google.com/s2/favicons?sz=64&domain=puzz.link
// @grant none
// @namespace https://gf.qytechs.cn/users/1192854
// @license GPL
// ==/UserScript==
'use strict';
const MAXLOOP = 50;
const MAXDFSCELLNUM = 200;
let flg = true, flg2 = true;
let step = false;
let board;
let GENRENAME;
// used for showing pattern
// ×·█━┃┓┛┗┏╺╹╸╻●○
// const list
const CQNUM = {
quesmark: -2,
circle: -2, // no number
black: -2,
none: -1,
wcir: 1,
bcir: 2,
// Moon or Sun
sun: 1,
moon: 2,
};
const CANUM = {
none: -1,
// Yinyang
wcir: 1,
bcir: 2,
};
const CQANS = {
none: 0,
black: 1,
// Light and Shadow
white: 2,
// Starbattle
star: 1,
// Akari
light: 1,
// Shakashaka triangle
triBL: 2,
triBR: 3,
triTR: 4,
triTL: 5,
// Slant
rslash: 31,
lslash: 32,
};
const CQUES = {
none: 0,
// Castle Wall
gray: 0,
white: 1,
black: 2,
// Icebarn
ice: 6,
// Simpleloop
wall: 7,
// Slalom
vgate: 21,
hgate: 22,
// Nurimaze
cir: 41,
tri: 42,
};
const CQSUB = {
none: 0,
dot: 1,
green: 1,
circle: 1,
// Slitherlink
yellow: 2,
// All or Nothing
gray: 1,
// Moon or Sun
cross: 2,
};
const QDIR = {
none: 0,
// arrow
up: 1,
dn: 2,
lt: 3,
rt: 4,
};
const BQSUB = {
none: 0,
link: 1,
cross: 2,
// Icebarn
arrow_up: 11,
arrow_dn: 12,
arrow_lt: 13,
arrow_rt: 14,
};
const BQNUM = {
none: -1,
wcir: 1,
bcir: 2,
};
const CRQSUB = {
none: undefined,
out: 0,
in: 1,
}
const GENRELIST = [
["Akari", AkariAssist],
["Akichiwake", AkichiwakeAssist],
["All or Nothing", AllorNothingAssist],
["Ant Mill", AntMillAssist],
["Aqre", AqreAssist],
["Aquapelago", AquapelagoAssist],
["Ayeheya", AyeheyaAssist],
["Barns", BarnsAssist],
["Canal View", CanalViewAssist],
["Castle Wall", CastleWallAssist],
["Cave", CaveAssist],
["Choco Banana", ChocoBananaAssist],
["Circles and Squares", CirclesAndSquaresAssist],
["Country Road", CountryRoadAssist],
["Creek", CreekAssist],
["Dominion", DominionAssist],
["Dosun-Fuwari", DosunFuwariAssist],
["Double Back", DoubleBackAssist],
["Double Choco", DoubleChocoAssist],
["Fillomino", FillominoAssist],
["FiveCells", FiveCellsAssist],
["FourCells", FourCellsAssist],
["Guide Arrow", GuideArrowAssist],
["Hashiwokakero", HashiwokakeroAssist],
["Heyawake", HeyawakeAssist],
["Hitori", HitoriAssist],
["Icebarn", IcebarnAssist],
["Icelom", IcelomAssist],
["Inverse LITSO", InverseLitsoAssist],
["Kakuro", KakuroAssist],
["Koburin", KoburinAssist],
["Kropki", KropkiAssist],
["Kurodoko", KurodokoAssist],
["Light and Shadow", LightandShadowAssist],
["Litherslink", LitherslinkAssist],
["LITS", LitsAssist],
["Masyu", MasyuAssist],
["Mid-loop", MidloopAssist],
["Minarism", MinarismAssist],
["Mochikoro", MochikoroAssist],
["Moon or Sun", MoonOrSunAssist],
["Myopia", MyopiaAssist],
["Nanameguri", NanameguriAssist],
["Nawabari", NawabariAssist],
["Nonogram", NonogramAssist],
["Norinori", NorinoriAssist],
["Norinuri", NorinuriAssist],
["No Three", NothreeAssist],
["Numberlink", NumberlinkAssist],
["Nuribou", NuribouAssist],
["Nurikabe", NurikabeAssist],
["Nuri-Maze", NuriMazeAssist],
["Nurimisaki", NurimisakiAssist],
["One Room One Door", OneRoomOneDoorAssist],
["Paintarea", PaintareaAssist],
["Pencils", PencilsAssist],
["Pentominous", PentominousAssist],
["Pipelink", PipelinkAssist],
["Putteria", PutteriaAssist],
["Regional Yajilin", RegionalYajilinAssist],
["Ring-ring", RingringAssist],
["Sashigane", SashiganeAssist],
["School Trip", SchoolTripAssist],
["Shakashaka", ShakashakaAssist],
["Shikaku", ShikakuAssist],
["Simple Loop", SimpleloopAssist],
["Slalom", SlalomAssist],
["Slant", SlantAssist],
["Slitherlink", SlitherlinkAssist],
["Square Jam", SquareJamAssist],
["Star Battle", StarbattleAssist],
["Stostone", StostoneAssist],
["Sudoku", SudokuAssist],
["Sukoro", SukoroAssist],
["Tapa", TapaAssist],
["Tapa-Like Loop", TapaLikeLoopAssist],
["Tasquare", TasquareAssist],
["Tatamibari", TatamibariAssist],
["Tentaisho", TentaishoAssist],
["Tents", TentsAssist],
["Tetrominous", TetrominousAssist],
["Yajilin", YajilinAssist],
["Yajisan-Kazusan", YajisanKazusanAssist],
["Yin-Yang", YinyangAssist],
];
// main entrance
let initDone = false;
let main = function () {
GENRENAME = ui.puzzle.info.en;
if (initDone || GENRENAME === undefined) { return; }
initDone = true;
if (document.querySelector("#assist") !== null) { return; }
console.log(`Puzzle Genre Name: ${GENRENAME}`);
console.log(`Puzzle Link: ${window.location.href}`);
console.log("Assistance running...");
let btnName = "Assist";
let btn2Name = "Assist Step";
if (!GENRELIST.some(g => g[0] === GENRENAME)) {
console.log("Automatically generated assistant.");
btnName += "(AG)";
btn2Name += "(AG)";
}
let btn = `<button type="button" class="btn" id="assist" style="display: inline;">${btnName}</button>`;
let btn2 = `<button type="button" class="btn" id="assiststep" style="display: inline;">${btn2Name}</button>`;
document.querySelector('#btntrial').insertAdjacentHTML('afterend', btn);
document.querySelector("#assist").insertAdjacentHTML('afterend', btn2);
document.querySelector("#assist").addEventListener("click", assist, false);
document.querySelector("#assiststep").addEventListener("click", assiststep, false);
window.addEventListener("keypress", (event) => {
if (event.key === 'q' || (event.key === 'Q')) { assist(); }
if (event.key === 'w' || (event.key === 'W')) { assiststep(); }
});
window.parent.postMessage("Ready to Assist", "*");
};
ui.puzzle.on('ready', main, false);
let initTimer = setInterval(() => {
if (initDone) {
clearInterval(initTimer);
return;
}
console.log("Puzz.link Assistance didn't launch. Relaunching...");
main();
}, 1000);
// for postMessage
window.addEventListener(
"message",
(event) => {
if (event.data === "assist") {
assist();
}
if (event.data === "assiststep") {
assiststep();
}
if (event.data === "undo") {
ui.puzzle.undo();
}
if (event.data === "redo") {
ui.puzzle.redo();
}
},
false,
);
function assiststep() {
step = true;
assist();
step = false;
}
function assist() {
console.time("Assisted. Elapsed Time");
flg = true;
board = ui.puzzle.board;
for (let loop = 0; loop < MAXLOOP; loop++) {
if (!flg && !flg2) { break; }
flg = flg2 = false;
if (GENRELIST.some(g => g[0] === GENRENAME)) {
GENRELIST.find(g => g[0] === GENRENAME)[1]();
} else { GeneralAssist(); }
if (flg && step) { break; }
}
ui.puzzle.redraw();
console.timeEnd("Assisted. Elapsed Time");
window.parent.postMessage(ui.puzzle.check().complete ? "Solved" : "Not Solved", "*");
if (ui.puzzle.check().complete) { printBoard(); }
}
function printBoard() {
// only some genres are able (i.e. looks good) to show in text.
let res = "";
let hasSide = false;
forEachCell(cell => fourside(b => hasSide ||= (!b.isnull && b.qans), cell.adjborder));
if (["Slitherlink", "Litherslink", "Myopia"].includes(GENRENAME)) {
for (let i = 0; i < board.cross.length; i++) {
let cross = board.cross[i];
let t;
t |= cross.adjborder.top.line << 0;
t |= cross.adjborder.left.line << 1;
t |= cross.adjborder.bottom.line << 2;
t |= cross.adjborder.right.line << 3;
res += "·╹╸┛╻┃┓┫╺┗━┻┏┣┳╋"[t];
if (cross.bx === board.maxbx) { res += '\n'; }
}
} else if (GENRENAME === "Hashiwokakero") {
forEachCell(cell => {
res += (() => {
if (cell.qnum === CQNUM.none && cell.lcnt > 0) {
if (cell.adjborder.top.line === 1) return "│";
if (cell.adjborder.top.line === 2) return "║";
if (cell.adjborder.left.line === 1) return "─";
if (cell.adjborder.left.line === 2) return "═";
}
if (cell.qnum !== CQNUM.none) {
let num = cell.qnum;
if (num === CQNUM.quesmark) return "?";
if (num >= 0 && num < 10) return "0123456789".split('')[num];
if (num >= 10 && num < 100) return num.toString();
return "#";
}
return "·";
})();
if (cell.bx === board.cols * 2 - 1) { res += '\n'; }
});
} else if (hasSide) {
for (let i = 0; i < board.cross.length; i++) {
let cross = board.cross[i];
let t = 0;
let fn = (c => c.isnull || c.ques === CQUES.wall);
t |= (fn(offset(cross, -.5, -.5)) ^ fn(offset(cross, +.5, -.5))) << 0;
t |= (fn(offset(cross, -.5, -.5)) ^ fn(offset(cross, -.5, +.5))) << 1;
t |= (fn(offset(cross, +.5, +.5)) ^ fn(offset(cross, -.5, +.5))) << 2;
t |= (fn(offset(cross, +.5, +.5)) ^ fn(offset(cross, +.5, -.5))) << 3;
t |= (cross.adjborder.top.qans) << 0;
t |= (cross.adjborder.left.qans) << 1;
t |= (cross.adjborder.bottom.qans) << 2;
t |= (cross.adjborder.right.qans) << 3;
res += "·╹╸┛╻┃┓┫╺┗━┻┏┣┳╋"[t];
if (cross.bx === board.maxbx) { res += '\n'; }
}
} else {
let color = undefined;
if (board.roommgr.components !== undefined) { color = Array(board.roommgr.components.length).fill(undefined); }
// const palette = ["\x1b[31m\x1b[101m", "\x1b[32m\x1b[102m", "\x1b[33m\x1b[103m", "\x1b[36m\x1b[106m"];
const palette = ["\x1b[101m", "\x1b[102m", "\x1b[103m", "\x1b[106m"];
if (board.roommgr.components !== undefined) {
let temp = board.roommgr.getSideAreaInfo().map(([a, b]) => a.id > b.id ? [a.id, b.id] : [b.id, a.id]);
let edge = Array.from(Array(board.roommgr.components.length), i => []);
temp.forEach(([a, b]) => edge[a].push(b));
for (let i = 0; i < color.length;) {
if (color[i] === undefined) { color[i] = 0; } else { color[i]++; }
while (edge[i].some(j => color[i] === color[j])) { color[i]++; }
if (color[i] >= 4) {
color[i] = undefined;
i--;
continue;
}
i++;
}
}
let hasNum = false;
forEachCell(cell => hasNum ||= cell.qnum !== 0);
forEachCell(cell => {
if (color !== undefined && cell.room !== null && color[cell.room.id] !== undefined) {
res += palette[color[cell.room.id]];
}
if (isIce(cell)) { res += "\x1b[106m"; }
res += (() => {
if (GENRENAME === "Akari") {
if (isBlack(cell)) { return "○"; }
if (cell.qnum !== CQNUM.none) { return "█"; }
return "·";
}
if (isBlack(cell) && GENRENAME === "Star Battle") { return "★" };
if (isBlack(cell) || [CQUES.wall, CQUES.white, CQUES.black].includes(cell.ques)) { return "█"; }
if (cell.lcnt > 0) {
let t;
t |= cell.adjborder.top.line << 0;
t |= cell.adjborder.left.line << 1;
t |= cell.adjborder.bottom.line << 2;
t |= cell.adjborder.right.line << 3;
return "·╹╸┛╻┃┓┫╺┗━┻┏┣┳╋"[t];
}
if (GENRENAME === "No Three") { return "·"; }
if (GENRENAME === "Shakashaka" && cell.qnum !== CQNUM.none) { return "█"; }
if (GENRENAME === "Shakashaka" && cell.qans !== CQANS.none) { return "··◣◢◥◤"[cell.qans]; }
if (cell.anum !== -1) {
let num = cell.anum;
if (num === CQNUM.quesmark) return "?";
if (num >= 0 && num < 10) return "0123456789".split('')[num];
if (num >= 10 && num < 100) return num.toString();
return "#";
}
if (cell.qnum !== CQNUM.none && cell.qdir !== 0) {
let num = cell.qnum;
let dir = ".^v<>"[cell.qdir];
if (num >= 0 && num < 10) return num.toString() + dir;
if (num >= 10 && num < 36) return String.fromCharCode(num - 10 + 65) + dir;
if (num >= 36) return "#" + dir;
}
if (hasNum && cell.qnum !== CQNUM.none && GENRENAME !== "Heyawake") {
let num = cell.qnum;
if (num === CQNUM.quesmark) return "?";
if (num >= 0 && num < 10) return "0123456789".split('')[num];
if (num >= 10 && num < 100) return num.toString();
return "#";
}
if (GENRENAME === "Masyu" || GENRENAME === "Yinyang") {
if (cell.qnum === CQNUM.bcir || cell.anum === CANUM.bcir) { return "●"; }
if (cell.qnum === CQNUM.wcir || cell.anum === CANUM.wcir) { return "○"; }
}
return "·";
})();
if (isIce(cell)) { res += "\x1b[49m"; }
if (cell.bx === board.cols * 2 - 1) { res += '\n'; }
});
}
console.log("Solution:\n" + res);
}
let isBlack = c => !c.isnull && c.qans === CQANS.black;
let isGreen = c => !c.isnull && c.qsub === CQSUB.green;
let isDot = isGreen;
let isIce = c => !c.isnull && c.ques === CQUES.ice;
let isSide = b => !b.isnull && (b.qans === 1 || !b.inside);
let isLink = b => !b.isnull && b.qsub === BQSUB.link;
let isLine = b => !b.isnull && b.line === 1;
let isntLine = b => b.isnull || b.qsub === BQSUB.cross;
let isCross = b => !b.isnull && b.qsub === BQSUB.cross;
let isBound = b => b.ques === 1;
let isInside = c => c.bx >= 0 && c.by >= 0 && c.bx <= board.cols * 2 && c.by <= board.rows * 2;
// set val
let offset = function (c, dx, dy, dir = 0) {
dir = (dir % 4 + 4) % 4;
if (dir === 0) { return board.getobj(c.bx + dx * 2, c.by + dy * 2); }
if (dir === 1) { return board.getobj(c.bx + dy * 2, c.by - dx * 2); }
if (dir === 2) { return board.getobj(c.bx - dx * 2, c.by - dy * 2); }
if (dir === 3) { return board.getobj(c.bx - dy * 2, c.by + dx * 2); }
}
let adjlist = function (a, b = undefined) {
if (b === undefined) {
return [a.top, a.left, a.bottom, a.right];
}
return [[a.top, b.top], [a.left, b.left], [a.bottom, b.bottom], [a.right, b.right]];
}
let fourside = function (f, a, b = undefined) {
if (b === undefined) {
f(a.top);
f(a.left);
f(a.bottom);
f(a.right);
} else {
f(a.top, b.top);
f(a.left, b.left);
f(a.bottom, b.bottom);
f(a.right, b.right);
}
};
let dir = function (c, d) {
d = (d % 4 + 4) % 4;
return [c.top, c.left, c.bottom, c.right][d];
}
let qdirRemap = function (qdir) {
return [-1, 0, 2, 1, 3][qdir];
}
let getShape = function (clist) {
let minx = board.maxbx, miny = board.maxby, maxx = board.minbx, maxy = board.minby;
for (let i = 0; i < clist.length; i++) {
minx = Math.min(minx, clist[i].bx);
miny = Math.min(miny, clist[i].by);
maxx = Math.max(maxx, clist[i].bx);
maxy = Math.max(maxy, clist[i].by);
}
let s = [[], [], [], [], [], [], [], []];
for (let y = 0; y <= maxy - miny; y += 2) {
for (let x = 0; x <= maxx - minx; x += 2) {
s[0].push(clist.includes(board.getc(minx + x, miny + y)) ? 1 : 0);
s[1].push(clist.includes(board.getc(minx + x, maxy - y)) ? 1 : 0);
}
}
for (let x = 0; x <= maxx - minx; x += 2) {
for (let y = 0; y <= maxy - miny; y += 2) {
s[4].push(clist.includes(board.getc(minx + x, miny + y)) ? 1 : 0);
s[5].push(clist.includes(board.getc(minx + x, maxy - y)) ? 1 : 0);
}
}
s[2] = s[1].concat().reverse();
s[3] = s[0].concat().reverse();
s[6] = s[5].concat().reverse();
s[7] = s[4].concat().reverse();
for (var h = 0; h < 8; h++) {
s[h] = (h < 4 ? (maxx - minx) / 2 + 1 : (maxy - miny) / 2 + 1) + ":" + s[h].join("");
}
s = s.sort();
return s[0];
}
let cellTrail = function (c, sd) {
let nc = dir(c.adjacent, sd);
while (isIce(nc)) { nc = dir(nc.adjacent, sd); }
let clist = [nc];
while (!nc.isnull && nc !== c && nc.lcnt === 0 && adjlist(nc.adjborder).filter(nnb => !nnb.isnull && nnb.inside && !isCross(nnb)).length === 2) {
let nnc = [0, 1, 2, 3].flatMap(d => {
let nnb = dir(nc.adjborder, d);
let nnc = dir(nc.adjacent, d);
if (clist.length === 1 && nnc === c) { return []; }
while (isIce(nnc)) { nnc = dir(nnc.adjacent, d); }
if (nnb.isnull || !nnb.inside || isCross(nnb) || clist.includes(nnc)) { return []; }
return [nnc];
});
if (nnc.length === 1) {
nc = nnc[0];
clist.push(nc);
}
else { break; }
}
return [c, ...clist];
}
function forEachCell(f = cell => { }) { for (let i = 0; i < board.cell.length; i++) { f(board.cell[i]); } }
function forEachBorder(f = border => { }) { for (let i = 0; i < board.border.length; i++) { f(board.border[i]); } }
function forEachCross(f = cross => { }) { for (let i = 0; i < board.cross.length; i++) { f(board.cross[i]); } }
function forEachRoom(f = room => { }) {
if (board.roommgr.components === undefined) { return; }
for (let i = 0; i < board.roommgr.components.length; i++) { f(board.roommgr.components[i]); }
}
let add_link = function (b) {
if (b === undefined || b.isnull || b.line || b.qans || b.qsub !== BQSUB.none) { return; }
if (step && flg) { return; }
b.setQsub(BQSUB.link);
b.draw();
flg ||= b.qsub === BQSUB.link;
};
let add_cross = function (b) {
if (b === undefined || b.isnull || b.line || b.qsub !== BQSUB.none) { return; }
if (step && flg) { return; }
b.setQsub(BQSUB.cross);
b.draw();
flg ||= b.qsub === BQSUB.cross;
};
let add_line = function (b) {
if (b === undefined || b.isnull || b.line || b.qsub === BQSUB.cross) { return; }
if (step && flg) { return; }
b.setLine(1);
b.draw();
flg ||= b.line;
};
let add_side = function (b) {
if (b === undefined || b.isnull || b.qans || b.qsub === BQSUB.link) { return; }
if (step && flg) { return; }
b.setQans(1);
b.draw();
flg ||= b.qans;
};
let add_black = function (c, notOnNum = false) {
if (notOnNum && (c.qnum !== CQNUM.none || c.qnums.length > 0)) { return; }
if (c === undefined || c.isnull || c.lcnt !== 0 || c.qsub === CQSUB.dot || c.qans !== CQANS.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQans(CQANS.black);
c.draw();
};
let add_dot = function (c, notOnNum = true) {
if (notOnNum && (c.qnum !== CQNUM.none || c.qnums.length > 0)) { return; }
if (c === undefined || c.isnull || c.qans !== CQANS.none || c.qsub !== CQSUB.none || c.anum !== CANUM.none) { return; }
if (step && flg) { return; }
flg ||= c.lcnt === 0;
c.setQsub(CQSUB.dot);
c.draw();
};
let add_green = function (c) {
if (c === undefined || c.isnull || c.qans !== CQANS.none || c.qsub !== CQSUB.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(CQSUB.green);
c.draw();
};
let add_inout = function (cr, qsub) {
if (cr.isnull || cr.qsub !== CRQSUB.none || qsub === undefined) { return; }
flg2 = true;
cr.setQsub(qsub);
}
let add_number = function (c, n) {
if (c === undefined || c.isnull || c.anum !== CANUM.none) { return; }
if (step && flg) { return; }
flg = true;
c.setAnum(n);
c.draw();
};
// single rule deduction
function NShadeInClist({ isShaded = isBlack, isUnshaded = isGreen, add_shaded = add_black, add_unshaded = add_green,
n, clist, AtLeastOne = false } = {}) {
clist = clist.filter(c => c !== undefined && !c.isnull);
if (AtLeastOne && clist.filter(c => !isUnshaded(c)).length === 1) {
clist.filter(c => !isUnshaded(c)).forEach(c => add_shaded(c));
}
if (n < 0) { return; }
if (clist.filter(c => isShaded(c)).length === n) {
clist.filter(c => !isShaded(c)).forEach(c => add_unshaded(c));
}
if (clist.filter(c => !isUnshaded(c)).length === n) {
clist.filter(c => !isUnshaded(c)).forEach(c => add_shaded(c));
}
}
function NoDeadendBorder() {
forEachCross(cross => {
let list = adjlist(cross.adjborder);
if (list.some(b => b.isnull)) { return; }
if (list.filter(b => b.qans).length === 1 &&
list.filter(b => b.qsub !== BQSUB.link).length === 2) {
list.forEach(b => add_side(b));
}
if (list.filter(b => b.qsub !== BQSUB.link).length === 1) {
list.forEach(b => add_link(b));
}
});
}
function NoCrossingBorder() {
for (let i = 0; i < board.cross.length; i++) {
let cross = board.cross[i];
let list = adjlist(cross.adjborder);
if (list.filter(b => !b.isnull && b.qans).length === 3) {
list.forEach(b => add_link(b));
}
}
}
function RoomPassOnce({ LengthClue = false } = {}) {
forEachRoom(room => {
let clist = Array.from(room.clist);
let sc = clist.find(c => c.lcnt > 0);
if (sc !== undefined) {
let cset = new Set();
let dfs = function (c) {
if (c.isnull || c.room !== room || cset.has(c)) { return; }
cset.add(c);
adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (nb.isnull || nb.ques || isCross(nb)) { return; }
dfs(nc);
});
};
dfs(sc);
clist.filter(c => !cset.has(c)).forEach(c => { fourside(add_cross, c.adjborder) });
}
let oblist = [], iblist = [];
clist.forEach(cell => {
fourside((nb, nc) => {
if (!nc.isnull && nc.room !== room && nb.ques) {
oblist.push(nb);
}
if (!nc.isnull && nc.room === room && !nb.ques && !iblist.includes(nb)) {
iblist.push(nb);
}
if (!nc.isnull && nc.room === room && nb.ques && board.roommgr.components.length > 1) {
add_cross(nb);
}
}, cell.adjborder, cell.adjacent);
});
if (oblist.filter(b => isLine(b)).length === 2) {
oblist.forEach(b => add_cross(b));
}
if (oblist.filter(b => !isCross(b)).length === 2) {
oblist.forEach(b => add_line(b));
}
if (oblist.filter(b => isLine(b)).length === 1 && board.roommgr.components.length > 2) {
let nroom = oblist.find(b => isLine(b)).sidecell.find(c => c.room !== room).room;
oblist.forEach(b => b.sidecell.some(c => c.room === nroom) ? add_cross(b) : null);
}
let crlist = [];
let e = new Map();
let v = new Set();
oblist.forEach(b => {
let [s, t] = b.sidecross;
e.set(s, [...(e.get(s) ?? []), t]);
e.set(t, [...(e.get(t) ?? []), s]);
v.add(s);
v.add(t);
});
let ringflg = true;
for (let i = 0; i < board.cols; i++) {
ringflg &&= (board.getc(i * 2 + 1, 1).room === room);
ringflg &&= (board.getc(i * 2 + 1, board.rows * 2 - 1).room === room);
}
for (let j = 0; j < board.rows; j++) {
ringflg &&= (board.getc(1, j * 2 + 1).room === room);
ringflg &&= (board.getc(board.cols * 2 - 1, j * 2 + 1).room === room);
}
if (!ringflg) {
iblist.forEach(b => {
if (!b.sidecell.every(c => c.qsub === CQSUB.circle)) { return; }
if (!b.sidecross.every(cr => v.has(cr) || cr.bx === 0 || cr.by === 0 || cr.bx === board.cols * 2 || cr.by === board.rows * 2)) { return; }
add_line(b);
});
}
v = Array.from(v);
let sv = (v.find(cr => e.get(cr).length === 1) ?? v[0]);
while (sv !== undefined && crlist.length < v.length) {
crlist.push(sv);
sv = e.get(sv).find(cr => !crlist.includes(cr));
}
let len = crlist.length;
if (crlist.some(cr => cr.qsub === CRQSUB.in) && crlist.some(cr => cr.qsub === CRQSUB.out)) {
for (let i = 0; i < len; i++) {
if (crlist[i].qsub === CRQSUB.none || crlist[(i + 1) % len].qsub !== CRQSUB.none) { continue; }
for (let j = (i + 1) % len; j != i; j = (j + 1) % len) {
if (crlist[j].qsub === CRQSUB.in + CRQSUB.out - crlist[i].qsub) { break; }
if (crlist[j].qsub === CRQSUB.none) { continue; }
if (crlist[j].qsub === crlist[i].qsub) {
for (let k = i; k != j; k = (k + 1) % len) {
add_inout(crlist[k], crlist[i].qsub);
}
}
}
}
}
let ocl = clist.filter(c => {
if (adjlist(c.adjborder).some(b => isLine(b) && isBound(b))) { return true; }
if (c.lcnt === 1 && adjlist(c.adjborder).every(b => isLine(b) || isntLine(b) || isBound(b))) { return true; }
return false;
});
if (ocl.length === 2) {
oblist.forEach(b => b.sidecell.every(c => !ocl.includes(c)) ? add_cross(b) : null);
}
// parity
if (ocl.length === 1 && LengthClue && room.top.qnum > 0 && oblist.filter(b => b.line).length < 2 && board.roommgr.components.length > 1) {
let p = (ocl[0].bx + ocl[0].by + (room.top.qnum % 2 === 1 ? 0 : 2)) % 4;
clist.forEach(c => {
if (c === ocl[0]) { return; }
if ((c.bx + c.by) % 4 === p) { return; }
adjlist(c.adjborder).forEach(nb => isBound(nb) ? add_cross(nb) : null);
});
}
// no exit without going through every circle
if (ocl.length === 1 && (clist.some(c => c.qsub === CQSUB.circle && c.lcnt === 0) || room.top.qnum > clist.filter(c => c.lcnt > 0).length)) {
let c = clist.find(c => c.lcnt === 1 && c !== ocl[0] && c.path === ocl[0].path);
if (!c === undefined) {
adjlist(c.adjborder).forEach(nb => isBound(nb) ? add_cross(nb) : null);
}
c = ocl[0];
if (adjlist(c.adjborder).some(b => isLine(b) && isBound(b))) {
adjlist(c.adjborder).forEach(b => isBound(b) ? add_cross(b) : null);
}
if (adjlist(c.adjborder).filter(b => !isBound(b) && !isntLine(b)).length === 1) {
add_line(adjlist(c.adjborder).find(b => !isBound(b) && !isntLine(b)))
}
}
});
// Hamiltonian cycle
if (board.roommgr.components.length > 2) {
let g = new Map();
let blist = [], lset = new Set();
let DSU = new Map(); // Disjoint Set Union
let DSUfind = function (n) {
if (DSU.get(n) !== n) { DSU.set(n, DSUfind(DSU.get(n))); }
return DSU.get(n);
};
forEachBorder(b => {
if (!isBound(b) || isCross(b) || b.sidecell[0].room === b.sidecell[1].room) { return; }
let [s, t] = b.sidecell.map(c => c.room.top.id);
if (!g.has(s)) { g.set(s, new Set()); DSU.set(s, s); }
if (!g.has(t)) { g.set(t, new Set()); DSU.set(t, t); }
g.get(s).add(t);
g.get(t).add(s);
blist.push(b);
if (isLine(b)) {
lset.add(JSON.stringify([s, t]));
lset.add(JSON.stringify([t, s]));
DSU.set(DSUfind(s), DSUfind(t));
}
});
let lflg = true;
while (lflg) {
lflg = false;
g.forEach((tset, s) => {
if (tset.size !== 2) { return; }
Array.from(tset).forEach(t => {
if (!lset.has(JSON.stringify([s, t]))) {
lflg = true;
lset.add(JSON.stringify([s, t]));
lset.add(JSON.stringify([t, s]));
DSU.set(DSUfind(s), DSUfind(t));
}
});
});
g.forEach((tset, s) => {
let tl = Array.from(tset).filter(t => !lset.has(JSON.stringify([s, t])));
tl.forEach(t => {
if (tl.length === tset.size - 2 || DSUfind(s) === DSUfind(t) && Array.from(DSU.values()).some(n => DSUfind(n) !== DSUfind(0))) {
lflg = true;
g.get(s).delete(t);
g.get(t).delete(s);
}
});
});
}
blist.forEach(b => {
let [s, t] = b.sidecell.map(c => c.room.top.id);
if (!g.get(s).has(t)) { add_cross(b); }
});
lset.forEach(e => {
let l = blist.filter(b => JSON.stringify(b.sidecell.map(c => c.room.top.id).sort()) === e);
if (l.length === 1) { add_line(l[0]); }
});
}
// TODO: double bridge / size-2 cut
}
function NoFacingDoor() {
forEachCell(cell => {
for (let d = 0; d < 4; d++) {
if (!isGreen(cell)) { break; }
let pcell = dir(cell.adjacent, d);
let bordercnt = 0;
let emptycellList = [cell];
while (!pcell.isnull && pcell.qans !== CQANS.black && bordercnt < 2) {
if (dir(pcell.adjborder, d + 2).ques) {
bordercnt++;
}
emptycellList.push(pcell);
pcell = dir(pcell.adjacent, d);
}
emptycellList = emptycellList.filter(c => c.qsub !== CQSUB.green);
if (bordercnt === 2 && emptycellList.length === 1) {
add_black(emptycellList[0]);
}
}
});
}
function No2x2Cell({ isShaded, add_unshaded } = {}) {
forEachCell(cell => {
let templist = [cell, offset(cell, 1, 0), offset(cell, 0, 1), offset(cell, 1, 1)];
if (templist.some(c => c.isnull)) { return; }
templist = templist.filter(c => !isShaded(c));
if (templist.length === 1) {
add_unshaded(templist[0]);
}
});
}
function No2x2Black() {
No2x2Cell({
isShaded: isBlack,
add_unshaded: add_green,
});
}
function No2x2Green() {
No2x2Cell({
isShaded: isGreen,
add_unshaded: add_black,
});
}
function CellConnected({ isShaded, isUnshaded, add_shaded, add_unshaded,
isLinked = (c, nb, nc) => isShaded(c) && isShaded(nc),
isNotPassable = (c, nb, nc) => false,
cantDivideShade = n => n > 0,
OutsideAsShaded = false,
OnlyOneConnected = true,
ConnectedInRegion = false,
SizeInRegion = false,
ForceSearch = false,
UnshadeEmpty = true,
DiagDir = false,
Obj = "cell" } = {}) {
let forEachObj = (Obj === "cell" ? forEachCell : forEachCross);
// use tarjan to find cut vertex
let n = 0;
let ord = new Map();
let low = new Map();
let shdn = new Map();
let cnt = new Map();
let fth = new Map();
let vst = new Set();
let shadelist = [];
// to avoid Maximum call stack size exceeded, manually use a stack to track the cells
let dfs = function (sc) {
let stack = [{ cell: sc, father: null, visited: false }];
while (stack.length > 0) {
let cur = stack[stack.length - 1];
let c = cur.cell;
let f = cur.father;
let v = cur.visited;
if (!v) {
if (!c.isnull && isUnshaded(c) || ord.has(c)) { stack.pop(); continue; }
if (c.isnull && !OutsideAsShaded) { stack.pop(); continue; }
ord.set(c, n);
low.set(n, n);
shdn.set(n, 0);
cnt.set(n, 0);
fth.set(c, f);
n++;
stack[stack.length - 1] = { cell: c, father: f, visited: true };
} else {
stack.pop();
}
if (!c.isnull) {
const cellset = new Set();
let linkdfs = function (c) {
if (c.isnull || !isInside(c) || cellset.has(c) || isUnshaded(c)) { return; }
cellset.add(c);
for (let d = 0; d < 4; d++) {
let nb = offset(c, .5, 0, d);
let nc = offset(c, 1, 0, d);
while (isIce(nc)) { nc = offset(nc, 1, 0, d); }
if (isNotPassable(c, nb, nc)) { continue; }
if (nb.isnull || nc.isnull) { continue; }
if (isLinked(c, nb, nc)) {
linkdfs(nc);
}
}
}
linkdfs(c);
if (!v) {
cellset.forEach(cl => {
ord.set(cl, ord.get(c));
shdn.set(ord.get(c), shdn.get(ord.get(c)) + isShaded(cl));
fth.set(cl, f);
});
cnt.set(ord.get(c), cellset.size);
}
let cn = cellset.size;
let fn = function (c, nb, nc) {
if (nb !== undefined && isNotPassable(c, nb, nc)) { return; }
if (nc.isnull && !OutsideAsShaded) { return; }
if (nc === f || f !== null && ord.get(f) === ord.get(nc) || isUnshaded(nc)) { return; }
if (ord.get(c) === ord.get(nc)) { return; }
if (ord.has(nc) && ord.get(nc) < ord.get(c)) {
low.set(ord.get(c), Math.min(low.get(ord.get(c)), ord.get(nc)));
return;
}
if (!v) {
stack.push({ cell: nc, father: c, visited: false });
}
if (v && c === fth.get(nc)) {
let ordc = ord.get(c);
let ordnc = ord.get(nc);
low.set(ordc, Math.min(low.get(ordc), low.get(ordnc)));
if (!vst.has(ordnc)) {
shdn.set(ordc, shdn.get(ordc) + shdn.get(ordnc));
cnt.set(ordc, cnt.get(ordc) + cnt.get(ordnc));
vst.add(ordnc);
}
if (!cellset.has(sc) && ordc <= low.get(ordnc)) {
cn += cnt.get(ordnc);
if (cantDivideShade(shdn.get(ordnc))) {
cellset.forEach(c => shadelist.push(c));
}
}
}
};
let tmp = new Set();
for (let c of cellset) {
for (let d = 0; d < 4; d++) {
let nb = offset(c, .5, 0, d);
let nc = offset(c, 1, 0, d);
while (isIce(nc)) { nc = offset(nc, 1, 0, d); }
if (fth.get(nc) === sc) { tmp.add(ord.get(nc)); }
fn(c, nb, nc);
}
if (DiagDir) {
for (let d = 0; d < 4; d++) {
let nc = offset(c, 1, 1, d);
if (fth.get(nc) === sc) { tmp.add(ord.get(nc)); }
fn(c, undefined, nc);
}
}
}
if (ConnectedInRegion && SizeInRegion && c.room.top.qnum >= 0 && cn + c.room.top.qnum > Array.from(c.room.clist).filter(c => !isUnshaded(c)).length) {
cellset.forEach(c => shadelist.push(c));
}
if (v && c === sc && tmp.size > 1) {
cellset.forEach(c => shadelist.push(c));
}
}
if (!v && c.isnull) {
if (Obj === "cell") {
for (let i = 0; i < board.cols; i++) {
stack.push({ cell: board.getobj(2 * i + 1, board.minby + 1), father: c, visited: false });
stack.push({ cell: board.getobj(2 * i + 1, board.maxby - 1), father: c, visited: false });
}
for (let i = 0; i < board.rows; i++) {
stack.push({ cell: board.getobj(board.minbx + 1, 2 * i + 1), father: c, visited: false });
stack.push({ cell: board.getobj(board.maxbx - 1, 2 * i + 1), father: c, visited: false });
}
}
}
}
}
if (OutsideAsShaded) {
dfs(board.emptycell);
} else {
forEachObj(cell => {
if (!ForceSearch && (!isShaded(cell) || ord.has(cell))) { return; }
if (n > 0 && OnlyOneConnected) { return; }
dfs(cell);
});
}
shadelist.forEach(c => add_shaded(c));
if (ord.size > 0 && UnshadeEmpty) {
forEachObj(cell => {
if (ord.has(cell) || isShaded(cell) || isUnshaded(cell) || isIce(cell)) { return; }
add_unshaded(cell);
});
}
if (ConnectedInRegion) {
forEachRoom(room => {
let clist = Array.from(room.clist);
if (clist.some(c => isShaded(c))) {
clist.filter(c => !ord.has(c)).forEach(c => add_unshaded(c));
}
});
}
}
function GreenConnected() {
CellConnected({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
});
}
function BlackConnected() {
CellConnected({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
});
}
function GreenConnectedDiagonally() {
CellConnected({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
DiagDir: true,
});
}
function CellConnected_InRegion({ isShaded, isUnshaded, add_shaded, add_unshaded, SizeClue = false } = {}) {
CellConnected({
isShaded: isShaded,
isUnshaded: isUnshaded,
add_shaded: add_shaded,
add_unshaded: add_unshaded,
isNotPassable: (c, nb, nc) => nb.ques,
OnlyOneConnected: false,
UnshadeEmpty: false,
ConnectedInRegion: true,
SizeInRegion: SizeClue,
});
if (SizeClue) {
forEachRoom(room => {
if (room.top.qnum < 0) { return; }
let clist = Array.from(room.clist);
// find shaded cell without given shaded cell
clist.forEach(c => {
if (isUnshaded(c) || isShaded(c)) { return; }
let fn = c => c.isnull || c.room !== room || c.qsub === CQSUB.cross;
if (!([0, 1, 2, 3].some(d => fn(offset(c, -1, 0, d)) && [-1, 0, 1].some(y => fn(offset(c, 1, y, d))) ||
fn(offset(c, -1, -1, d)) && [[1, -1], [1, 0], [1, 1], [0, 1], [-1, 1]].some(([x, y]) => fn(offset(c, x, y, d)))))) { return; }
let cset;
let dfs = function (cc) {
if (cc.isnull || cset.has(cc) || cc.room !== room || cc === c) { return; }
cset.add(cc);
fourside(dfs, cc.adjacent);
};
if (adjlist(c.adjacent).every(nc => {
cset = new Set();
dfs(nc);
return cset.size < room.top.qnum;
})) {
add_shaded(c);
}
});
// unshade blank parts smaller than clue
let cset = new Set();
clist.forEach(c => {
if (isUnshaded(c) || cset.has(c)) { return; }
let list = [];
let dfs = function (c) {
if (c.isnull || isUnshaded(c) || !clist.includes(c) || cset.has(c)) { return; }
cset.add(c);
list.push(c);
fourside(dfs, c.adjacent);
};
dfs(c);
if (list.length < room.top.qnum) {
list.forEach(c => add_unshaded(c));
}
});
// unshade cells out of reach
if (clist.some(c => isShaded(c))) {
let cset = new Set();
let t = room.top.qnum - clist.filter(c => isShaded(c)).length;
let queue = clist.flatMap(c => isShaded(c) ? [[c, t]] : []);
while (queue.length > 0) {
let [c, t] = queue.shift();
if (c.room !== room || t < 0 || cset.has(c)) { continue; }
cset.add(c);
fourside(nc => queue.push([nc, t - 1]), c.adjacent);
}
clist.forEach(c => !cset.has(c) ? add_unshaded(c) : null);
}
});
}
}
function BlackConnected_InRegion(SizeClue = false) {
CellConnected_InRegion({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
SizeClue: SizeClue,
});
}
function CellNoLoop({ isShaded, isUnshaded, add_unshaded } = {}) {
let ord = new Map();
let n = 0;
forEachCell(cell => {
if (!isShaded(cell) || ord.has(cell)) { return; }
let dfs = function (c) {
if (c.isnull || !isShaded(c) || ord.has(c)) { return; }
ord.set(c, n);
fourside(dfs, c.adjacent);
}
dfs(cell);
n++;
});
forEachCell(cell => {
if (isShaded(cell) || isUnshaded(cell)) { return; }
let templist = [offset(cell, -1, 0), offset(cell, 0, -1), offset(cell, 0, 1), offset(cell, 1, 0)];
templist = templist.filter(c => !c.isnull && isShaded(c));
templist = templist.map(c => ord.get(c));
for (let i = 0; i < templist.length; i++) {
for (let j = i + 1; j < templist.length; j++) {
if (templist[i] === templist[j]) {
add_unshaded(cell);
}
}
}
});
}
function GreenNoLoopInCell() {
CellNoLoop({
isShaded: isGreen,
isUnshaded: isBlack,
add_unshaded: add_black,
});
}
function BlackNotAdjacent() {
forEachCell(cell => {
if (!isBlack(cell)) { return; }
fourside(add_green, cell.adjacent);
});
}
function BlackNotAdjacent_OverBorder() {
forEachCell(cell => {
if (!isBlack(cell)) { return; }
for (let d = 0; d < 4; d++) {
let nb = offset(cell, 0.5, 0, d);
let nc = offset(cell, 1, 0, d)
if (!nb.isnull && nb.ques) {
add_green(nc);
}
}
});
}
function BlackDomino() {
forEachCell(cell => {
let list = adjlist(cell.adjacent);
// surrounded by dot
if (list.every(c => c.isnull || isGreen(c))) {
add_green(cell);
}
// extend domino
if (isBlack(cell) && list.filter(c => !c.isnull && c.qsub !== CQSUB.dot).length === 1) {
let ncell = list.find(c => !c.isnull && c.qsub !== CQSUB.dot);
add_black(ncell);
}
// finished domino
if (isBlack(cell) && list.some(c => isBlack(c))) {
fourside(add_dot, cell.adjacent);
}
// not making triomino
if (list.filter(c => isBlack(c)).length >= 2) {
add_green(cell);
}
// · ·
// ·█ -> ·█
// ·
for (let d = 0; d < 4; d++) {
if (isBlack(cell) &&
(offset(cell, -1, 0, d).isnull || offset(cell, -1, 0, d).qsub === CQSUB.green) &&
(offset(cell, 0, -1, d).isnull || offset(cell, 0, -1, d).qsub === CQSUB.green)) {
add_dot(offset(cell, 1, 1, d));
}
}
});
}
function SingleLoopInCell({ isPassable = c => true, isPathable = b => b.qsub !== BQSUB.cross,
isPass = c => c.qsub === CQSUB.dot, isPath = b => b.line,
add_notpass = c => { }, add_pass = c => { }, add_notpath = add_cross, add_path = add_line, Directed = false } = {}) {
let add_arrow = function (b, dir) {
if (b === undefined || b.isnull || b.qsub !== BQSUB.none) { return; }
if (step && flg) { return; }
flg = true;
b.setQsub(dir);
b.draw();
};
let genlist = c => {
if (c.adjborder === undefined) { return []; }
return [[c.adjborder.top, BQSUB.arrow_up, BQSUB.arrow_dn], [c.adjborder.bottom, BQSUB.arrow_dn, BQSUB.arrow_up],
[c.adjborder.left, BQSUB.arrow_lt, BQSUB.arrow_rt], [c.adjborder.right, BQSUB.arrow_rt, BQSUB.arrow_lt]];
};
let has_in = function (c) {
let templist = genlist(c);
templist = templist.filter(b => !b[0].isnull && b[0].line);
return templist.some(([b, o_arr, i_arr]) => b.qsub === i_arr);
}
let has_out = function (c) {
let templist = genlist(c);
templist = templist.filter(b => !b[0].isnull && b[0].line);
return templist.some(([b, o_arr, i_arr]) => b.qsub === o_arr);
}
let initied = false;
forEachCross(cross => { initied |= cross.qsub !== 0; })
if (!initied) {
forEachCross(cross => cross.setQsub(CRQSUB.none));
}
let hasIce = false;
forEachCell(cell => { hasIce |= isIce(cell); });
if (!hasIce) {
CellConnected({
isShaded: cr => cr.qsub === CRQSUB.in,
isUnshaded: cr => cr.qsub === CRQSUB.out,
add_shaded: cr => add_inout(cr, CRQSUB.in),
add_unshaded: cr => add_inout(cr, CRQSUB.out),
isLinked: (c, nb, nc) => nb.qsub === BQSUB.cross || c.qsub === CRQSUB.in && nc.qsub === CRQSUB.in,
isNotPassable: (c, nb, nc) => nb.line,
Obj: "cross",
});
CellConnected({
isShaded: cr => cr.qsub === CRQSUB.out,
isUnshaded: cr => cr.qsub === CRQSUB.in,
add_shaded: cr => add_inout(cr, CRQSUB.out),
add_unshaded: cr => add_inout(cr, CRQSUB.in),
isLinked: (c, nb, nc) => nb.qsub === BQSUB.cross || c.qsub === CRQSUB.out && nc.qsub === CRQSUB.out,
isNotPassable: (c, nb, nc) => nb.line,
Obj: "cross",
});
}
forEachCell(cell => {
if (!isPassable(cell)) {
add_notpass(cell);
fourside(add_notpath, cell.adjborder);
}
let emptycnt = 0;
let linecnt = 0;
fourside((c, b) => {
if (!isPassable(c) || !isPathable(b)) {
add_notpath(b);
}
if (!c.isnull && isPassable(c) && isPathable(b)) { emptycnt++; }
linecnt += isPath(b);
}, cell.adjacent, cell.adjborder);
if (linecnt > 0) {
add_pass(cell);
}
// no branch and no cross
if (linecnt === 2 && !isIce(cell)) {
fourside(add_notpath, cell.adjborder);
}
// no deadend
if (emptycnt <= 1) {
fourside(add_notpath, cell.adjborder);
add_notpass(cell);
}
// 2 degree path
if (emptycnt === 2 && (linecnt === 1 || isPass(cell))) {
fourside(add_path, cell.adjborder);
}
// avoid forming multiple loop
if (cell.path !== null && !isIce(cell)) {
for (let d = 0; d < 4; d++) {
let ncell = cellTrail(cell, d).pop();
if (cell.lcnt === 1 && ncell.lcnt === 1 && cell.path === ncell.path && board.linegraph.components.length > 1) {
add_notpath(dir(cell.adjborder, d));
}
if (cell === ncell && board.linegraph.components.length > 0) {
add_notpath(dir(cell.adjborder, d));
}
}
}
if (!isIce(cell) && linecnt === 0) {
let list = [];
for (let d = 0; d < 4; d++) {
let nb = dir(cell.adjborder, d);
let nc = dir(cell.adjacent, d);
while (isIce(nc)) { nc = dir(nc.adjacent, d); }
if (nb.isnull || nc.isnull || nb.qsub === BQSUB.cross) { continue; }
list.push(nc);
}
if (list.length > 0 && list[0].path !== null && list.every(c => c.path === list[0].path && board.linegraph.components.length > 1)) {
fourside(add_notpath, cell.adjborder);
}
}
if (isIce(cell)) {
let fn = (b1, b2) => {
if (b1.line) { add_line(b2); }
if (b1.qsub === BQSUB.cross || b1.isnull) { add_cross(b2) };
}
for (let d = 0; d < 4; d++) {
fn(offset(cell, .5, 0, d), offset(cell, -.5, 0, d));
}
}
// ┏╸ ┏╸
// ┃· -> ┃╺━
// ┗╸ ┗╸
if (cell.lcnt === 0 && isPass(cell)) {
let list = [];
fourside((c, b) => {
if (isPathable(b)) { list.push([c, b]); }
}, cell.adjacent, cell.adjborder);
if (list.length === 3) {
let fn = function (a, b, c) {
if (a[0].path !== null && a[0].path === b[0].path &&
!isIce(a[0]) && !isIce(b[0]) &&
board.linegraph.components.length > 1) {
add_path(c[1]);
}
}
fn(list[0], list[1], list[2]);
fn(list[1], list[2], list[0]);
fn(list[2], list[0], list[1]);
}
}
// extend arrow
if (Directed && cell.lcnt === 2 && !isIce(cell)) {
let list = genlist(cell);
list = list.filter(b => b[0].line);
if (list.filter(b => b[0].qsub === BQSUB.none).length === 1) {
if (list[0][0].qsub !== BQSUB.none) {
list = [list[1], list[0]];
}
if (list[1][0].qsub === list[1][1]) {
add_arrow(list[0][0], list[0][2]);
}
if (list[1][0].qsub === list[1][2]) {
add_arrow(list[0][0], list[0][1]);
}
}
}
// choose path
if (Directed && cell.lcnt === 1 && !isIce(cell)) {
for (let d = 0; d < 4; d++) {
let ncell = dir(cell.adjacent, d);
while (!ncell.isnull && isIce(ncell)) {
ncell = dir(ncell.adjacent, d);
}
if (ncell.isnull || ncell.lcnt !== 1 || dir(ncell.adjborder, d + 2).line) { continue; }
if (has_in(cell) && has_in(ncell) || has_out(cell) && has_out(ncell)) {
add_cross(dir(cell.adjborder, d));
}
}
}
});
// this is here because the following two CellConnected may have bug if line on ice isn't fully labeled with arrow
forEachCell(cell => {
if (isIce(cell)) {
for (let d = 0; d < 4; d++) {
let pcell = cell;
while (isIce(pcell) && dir(pcell.adjborder, d).qsub === BQSUB.cross && dir(pcell.adjborder, d + 2).qsub === BQSUB.cross) {
add_cross(dir(pcell.adjborder, d + 2));
pcell = dir(pcell.adjacent, d + 2);
}
pcell = cell;
while (isIce(pcell) && dir(pcell.adjborder, d).line && (!dir(pcell.adjborder, d + 2).line ||
dir(pcell.adjborder, d).qsub !== BQSUB.none && dir(pcell.adjborder, d + 2).qsub === BQSUB.none)) {
add_line(dir(pcell.adjborder, d + 2));
if (dir(pcell.adjborder, d).qsub !== BQSUB.none) {
add_arrow(dir(pcell.adjborder, d + 2), dir(pcell.adjborder, d).qsub);
}
pcell = dir(pcell.adjacent, d + 2);
}
}
}
});
if (Directed) {
// used to avoid all in/out arrow region
CellConnected({
isShaded: c => !has_out(c) && has_in(c),
isUnshaded: c => has_out(c),
add_shaded: () => { },
add_unshaded: c => fourside(add_cross, c.adjborder),
isNotPassable: (c, nb, nc) => nb.qsub === BQSUB.cross,
OnlyOneConnected: false,
});
CellConnected({
isShaded: c => !has_in(c) && has_out(c),
isUnshaded: c => has_in(c),
add_shaded: () => { },
add_unshaded: c => fourside(add_cross, c.adjborder),
isNotPassable: (c, nb, nc) => nb.qsub === BQSUB.cross,
OnlyOneConnected: false,
});
}
add_inout(board.getobj(0, 0), CRQSUB.out);
// add invisible qsub at cross
if (!hasIce) {
forEachCross(cross => {
// no checker
if (cross.qsub === CRQSUB.none) {
let fn = function (cr, cr1, cr2, cr12) {
if (cr1.isnull || cr2.isnull || cr12.isnull) { return; }
if (cr1.qsub === CRQSUB.none || cr2.qsub === CRQSUB.none || cr12.qsub === CRQSUB.none) { return; }
if (cr1.qsub === cr2.qsub && cr1.qsub !== cr12.qsub) {
add_inout(cr, cr1.qsub);
}
};
for (let d = 0; d < 4; d++) {
if (!isIce(offset(cross, .5, .5, d)))
fn(cross, offset(cross, 1, 0, d), offset(cross, 0, 1, d), offset(cross, 1, 1, d));
}
}
});
}
let di = -1;
if (Directed && !hasIce) {
forEachBorder(border => {
let l = [[BQSUB.arrow_up, CRQSUB.out], [BQSUB.arrow_dn, CRQSUB.in], [BQSUB.arrow_lt, CRQSUB.in], [BQSUB.arrow_rt, CRQSUB.out]];
if (di !== -1) { return; }
if ([11, 12, 13, 14].includes(border.qsub)) {
if (border.sidecross[0].qsub !== CRQSUB.none) {
di = ((border.sidecross[0].qsub) ^ (l.filter(([bq, crq]) => border.qsub === bq)[0][1]));
}
if (border.sidecross[1].qsub !== CRQSUB.none) {
di = ((border.sidecross[1].qsub) ^ (l.filter(([bq, crq]) => border.qsub === bq)[0][1]) ^ 1);
}
}
});
}
let crossSet = new Set();
let dfs = function (cr) {
if (cr.qsub === CRQSUB.none || crossSet.has(cr)) { return; }
crossSet.add(cr);
for (let d = 0; d < 4; d++) {
let ncr = offset(cr, 1, 0, d);
let b = offset(cr, .5, 0, d);
if (ncr.isnull) { continue; }
if (cr.qsub !== CRQSUB.none) {
// add line between different i/o
(() => {
if (cr.isnull || ncr.isnull) { return; }
if (cr.qsub === CRQSUB.none || ncr.qsub === CRQSUB.none) { return; }
if (cr.qsub === ncr.qsub) {
add_cross(b);
}
if (cr.qsub !== ncr.qsub) {
add_line(b);
}
if (cr.qsub !== ncr.qsub && di !== -1) {
let l = [[BQSUB.arrow_up, CRQSUB.out, false], [BQSUB.arrow_dn, CRQSUB.in, false],
[BQSUB.arrow_lt, CRQSUB.in, true], [BQSUB.arrow_rt, CRQSUB.out, true]];
l = l.filter(([bq, crq, vert]) => (crq ^ di) === b.sidecross[0].qsub && vert === b.isvert);
add_arrow(b, l[0][0]);
}
})();
// extend i/o through cross/line
(() => {
if (ncr.isnull) { return; }
if (b.isnull || (!b.inside && !isLine(b)) || isCross(b)) {
add_inout(ncr, cr.qsub);
}
if (!b.isnull && isLine(b) && !hasIce) {
add_inout(ncr, cr.qsub ^ 1);
}
if (!b.isnull && isLine(b) && b.qsub !== BQSUB.none && Directed && hasIce) {
add_inout(ncr, cr.qsub + ([BQSUB.arrow_up, BQSUB.arrow_lt, BQSUB.arrow_dn, BQSUB.arrow_rt][d] === b.qsub ? 1 : -1));
}
if ([11, 12, 13, 14].includes(b.qsub) && di !== -1 && !hasIce) {
let l = [[BQSUB.arrow_up, CRQSUB.out], [BQSUB.arrow_dn, CRQSUB.in],
[BQSUB.arrow_lt, CRQSUB.in], [BQSUB.arrow_rt, CRQSUB.out]];
l = l.filter(([bq, crq]) => bq === b.qsub);
add_inout(b.sidecross[0], l[0][1] ^ di);
add_inout(b.sidecross[1], l[0][1] ^ di ^ 1);
}
})();
dfs(ncr);
}
}
};
forEachCross(cross => dfs(cross));
}
function SingleLoopInBorder() {
let add_bg_color = function (c, color) {
if (c === undefined || c.isnull || c.qsub !== CQSUB.none || c.qsub === color) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(color);
c.draw();
}
let add_bg_inner_color = function (c) { add_bg_color(c, CQSUB.green); }
let add_bg_outer_color = function (c) { add_bg_color(c, CQSUB.yellow); }
let isYellow = c => c.isnull || c.qsub === CQSUB.yellow;
CellConnected({
isShaded: isGreen,
isUnshaded: isYellow,
add_shaded: add_bg_inner_color,
add_unshaded: add_bg_outer_color,
isLinked: (c, nb, nc) => nb.qsub === BQSUB.cross,
isNotPassable: (c, nb, nc) => nb.line,
});
CellConnected({
isShaded: isYellow,
isUnshaded: isGreen,
add_shaded: add_bg_outer_color,
add_unshaded: add_bg_inner_color,
isLinked: (c, nb, nc) => nb.qsub === BQSUB.cross,
isNotPassable: (c, nb, nc) => nb.line,
OutsideAsShaded: true,
});
NoCheckerCell({
isShaded: isGreen,
isUnshaded: isYellow,
add_shaded: add_bg_inner_color,
add_unshaded: add_bg_outer_color,
});
// use qsub for each cross to track what it can be
forEachCross(cross => {
if (cross.qsub === 0 || cross.qsub.length === 0) {
let qsub = [[]];
let list = adjlist(cross.adjborder);
for (let i = 0; i < 4; i++) {
for (let j = i + 1; j < 4; j++) {
qsub.push([list[i], list[j]]);
}
}
cross.setQsub(qsub);
}
cross.setQsub(cross.qsub.filter(s => s.every(b => !b.isnull && b.qsub !== BQSUB.cross)));
fourside(b => {
if (b.line) { cross.setQsub(cross.qsub.filter(s => s.includes(b))); }
if (cross.qsub.every(s => s.includes(b))) { add_line(b); }
if (cross.qsub.every(s => !s.includes(b))) { add_cross(b); }
}, cross.adjborder);
});
// connectivity at cross
forEachCross(cross => {
let blist = adjlist(cross.adjborder);
let linecnt = blist.filter(b => b.line).length;
let crosscnt = blist.filter(b => b.qsub === BQSUB.cross).length;
if (linecnt === 2 || crosscnt === 3) {
blist.forEach(b => add_cross(b));
}
if (linecnt === 1 && crosscnt === 2) {
blist.forEach(b => add_line(b));
}
});
// avoid forming multiple loop
forEachBorder(border => {
if (border.qsub === BQSUB.cross || border.line) { return; }
let cr1 = border.sidecross[0], cr2 = border.sidecross[1];
if (cr1.path !== null && cr1.path === cr2.path && board.linegraph.components.length > 1) {
add_cross(border);
}
});
// deduce color
forEachCell(cell => {
// neighbor color
fourside((b, c) => {
if (!c.isnull && cell.qsub !== CQSUB.none && cell.qsub === c.qsub) {
add_cross(b);
}
if (cell.qsub === CQSUB.yellow && c.isnull) {
add_cross(b);
}
if (!c.isnull && cell.qsub !== CQSUB.none && c.qsub !== CQSUB.none && cell.qsub !== c.qsub) {
add_line(b);
}
if (cell.qsub === CQSUB.green && c.isnull) {
add_line(b);
}
}, cell.adjborder, cell.adjacent);
// deduce neighbor color
if (cell.qsub === CQSUB.none) {
fourside((b, c) => {
if (b.line && c.isnull) {
add_bg_inner_color(cell);
}
if (b.qsub === BQSUB.cross && c.isnull) {
add_bg_outer_color(cell);
}
if (b.line && !c.isnull && c.qsub !== CQSUB.none) {
add_bg_color(cell, CQSUB.green + CQSUB.yellow - c.qsub);
}
if (b.qsub === BQSUB.cross && !c.isnull && c.qsub !== CQSUB.none) {
add_bg_color(cell, c.qsub);
}
}, cell.adjborder, cell.adjacent);
}
let innercnt = adjlist(cell.adjacent).filter(c => isGreen(c)).length;
let outercnt = adjlist(cell.adjacent).filter(c => isYellow(c)).length;
// surrounded by green
if (innercnt === 4) {
add_bg_inner_color(cell);
}
});
}
function NoCheckerCell({ isShaded, isUnshaded, add_shaded, add_unshaded } = {}) {
forEachCell(cell => {
if (isShaded(cell) || isUnshaded(cell)) { return; }
let fn = function (c, c1, c2, c12) {
if (isShaded(c1) && isShaded(c2) && isUnshaded(c12)) {
add_shaded(c);
}
if (isUnshaded(c1) && isUnshaded(c2) && isShaded(c12)) {
add_unshaded(c);
}
};
for (let d = 0; d < 4; d++) {
fn(cell, offset(cell, 1, 0, d), offset(cell, 0, 1, d), offset(cell, 1, 1, d));
}
});
}
function SightNumber({ isShaded, isUnshaded, add_shaded, add_unshaded } = {}) {
forEachCell(cell => {
let qnum = cell.qnum;
if (qnum === CQNUM.none || qnum === CQNUM.quesmark) { return; }
let seencnt = (isShaded(cell) ? 1 : 0);
let farthest = [0, 0, 0, 0];
// count seen shaded cells
for (let d = 0; d < 4; d++) {
let pcell = dir(cell.adjacent, d);
while (!pcell.isnull && isShaded(pcell)) {
farthest[d]++;
seencnt++;
pcell = dir(pcell.adjacent, d);
}
while (!pcell.isnull && !isUnshaded(pcell)) {
farthest[d]++;
pcell = dir(pcell.adjacent, d);
}
}
// not extend too much
for (let d = 0; d < 4; d++) {
let pcell = dir(cell.adjacent, d);
while (!pcell.isnull && isShaded(pcell)) {
pcell = dir(pcell.adjacent, d);
}
if (pcell.isnull || isUnshaded(pcell)) { continue; }
let tcell = pcell;
pcell = dir(pcell.adjacent, d);
let n = 0;
while (!pcell.isnull && isShaded(pcell)) {
n++;
pcell = dir(pcell.adjacent, d);
}
if (n + seencnt + 1 > qnum) {
add_unshaded(tcell);
}
}
// must extend this way
let maxn = farthest.reduce((a, b) => a + b) + (isUnshaded(cell) ? 0 : 1);
for (let d = 0; d < 4; d++) {
for (let j = 1; j <= qnum - maxn + farthest[d]; j++) {
add_shaded(offset(cell, 0, -j, d));
}
}
});
}
function SizeRegion_Cell({ isShaded, isUnshaded, add_shaded, add_unshaded, OneNumPerRegion = true, NoUnshadedNum = true } = {}) {
// TODO: maybe rewrite this someday
forEachCell(cell => {
if (OneNumPerRegion && adjlist(cell.adjacent).every(c => c.isnull || isUnshaded(c))) {
add_unshaded(cell);
}
// don't block region exit
let templist = [offset(cell, -1, -1), offset(cell, -1, 0), offset(cell, -1, 1), offset(cell, 0, -1),
offset(cell, 0, 1), offset(cell, 1, -1), offset(cell, 1, 0), offset(cell, 1, 1)];
if (!isShaded(cell) && !isUnshaded(cell) && templist.filter(c => isUnshaded(c) || c.isnull).length >= 2) {
for (let d = 0; d < 4; d++) {
let ncell = dir(cell.adjacent, d);
if (isUnshaded(ncell)) { continue; }
let cellList = [];
let dfs = function (c) {
if (cellList.length > MAXDFSCELLNUM) { return; }
if (c.isnull || isUnshaded(c) || c === cell || cellList.includes(c)) { return; }
cellList.push(c);
fourside(dfs, c.adjacent);
}
dfs(ncell);
if (cellList.length > MAXDFSCELLNUM) { continue; }
let templist = cellList.filter(c => c.qnum !== CQNUM.none && (NoUnshadedNum || isShaded(c)));
// extend region without num
if (templist.length === 0 && cellList.some(c => isShaded(c)) && OneNumPerRegion) {
add_shaded(cell);
}
// extend region with less cells
if (templist.length >= 1 && templist[0].qnum !== CQNUM.quesmark && templist[0].qnum > cellList.length) {
add_shaded(cell);
}
}
}
// finished region
if (cell.qnum > 0 && isShaded(cell)) {
let cellList = [];
let dfs = function (c) {
if (cellList.length > cell.qnum) { return; }
if (c.isnull || !isShaded(c) || cellList.includes(c)) { return; }
cellList.push(c);
fourside(dfs, c.adjacent);
}
dfs(cell);
if (cellList.length === cell.qnum) {
cellList.forEach(c => fourside(add_unshaded, c.adjacent));
}
}
// finished surrounded region
if (cell.qnum > 0 && (NoUnshadedNum || isShaded(cell))) {
let cellList = [];
let dfs = function (c) {
if (cellList.length > cell.qnum) { return; }
if (c.isnull || isUnshaded(c) || cellList.includes(c)) { return; }
cellList.push(c);
fourside(dfs, c.adjacent);
}
dfs(cell);
if (cell.qnum !== CQNUM.quesmark && cell.qnum === cellList.length) {
cellList.forEach(c => add_shaded(c));
}
}
// not connect two region
if (!isShaded(cell) && !isUnshaded(cell)) {
let cellList = [cell];
let dfs = function (c) {
if (c.isnull || !isShaded(c) || cellList.includes(c)) { return; }
cellList.push(c);
dfs(c.adjacent.top);
dfs(c.adjacent.bottom);
dfs(c.adjacent.left);
dfs(c.adjacent.right);
}
fourside(dfs, cell.adjacent);
let qnumlist = cellList.filter(c => c.qnum !== CQNUM.none);
if (qnumlist.length > 1 && OneNumPerRegion) {
add_unshaded(cell);
}
qnumlist = qnumlist.filter(c => c.qnum !== CQNUM.quesmark);
if (qnumlist.length > 0 && qnumlist.some(c => c.qnum !== qnumlist[0].qnum)) {
add_unshaded(cell);
}
if (qnumlist.length > 0 && cellList.length > qnumlist[0].qnum) {
add_unshaded(cell);
}
}
// cell and region
for (let d = 0; d < 4; d++) {
if (isShaded(cell) || isUnshaded(cell) || cell.qnum === CQNUM.none) { continue; }
let ncell = dir(cell.adjacent, d);
if (ncell.isnull || !isShaded(ncell)) { continue; }
let cellList = [];
let dfs = function (c) {
if (c.isnull || !isShaded(c) || cellList.includes(c)) { return; }
cellList.push(c);
fourside(dfs, c.adjacent);
}
dfs(ncell, cellList);
let templist = cellList.filter(c => c.qnum !== CQNUM.none);
if (templist.length >= 1 && (templist[0].qnum !== CQNUM.quesmark && cell.qnum !== CQNUM.quesmark && templist[0].qnum !== cell.qnum || OneNumPerRegion)) {
add_unshaded(cell);
}
if (cell.qnum !== CQNUM.quesmark && cellList.length + 1 > cell.qnum) {
add_unshaded(cell);
}
}
});
}
function SizeRegion_Border({ isLinkable = (c, nb, nc) => !nb.isnull && !nc.isnull,
isSideable = (c, nb, nc) => !nb.isnull && !nc.isnull,
OneNumPerRegion = false,
scell = null,
allSize = null } = {}) {
NoDeadendBorder();
if (scell === null && allSize === null) {
forEachCell(cell => {
if (cell.qnum === CQNUM.none || cell.qnum === CQNUM.quesmark) { return; }
SizeRegion_Border({
isLinkable: isLinkable,
isSideable: isSideable,
OneNumPerRegion: OneNumPerRegion,
scell: cell,
});
});
}
let isNear = c => !c.isnull && (scell === null || Math.abs(c.bx - scell.bx) + Math.abs(c.by - scell.by) <= 2 * (allSize ?? scell.qnum) - 2);
// use tarjan to find cut vertex
let n = 0;
let ord = new Map();
let low = new Map();
let cgn = new Map();
let ctn = new Map();
let clg = new Map();
let clt = new Map();
let fth = new Map();
let vst = new Set();
let linklist = [], sidelist = [];
// to avoid Maximum call stack size exceeded, manually use a stack to track the cells
let dfs = function (sc) {
let stack = [{ cell: sc, father: null, visited: false }];
while (stack.length > 0) {
let cur = stack[stack.length - 1];
let c = cur.cell;
let f = cur.father;
let v = cur.visited;
if (!v) {
if (ord.has(c)) { stack.pop(); continue; }
ord.set(c, n);
low.set(n, n);
cgn.set(n, 1);
ctn.set(n, 1);
clg.set(n, []);
clt.set(n, []);
fth.set(c, f);
n++;
stack[stack.length - 1] = { cell: c, father: f, visited: true };
} else {
stack.pop();
}
const cellset = new Set();
let linkdfs = function (c) {
if (c.isnull || !isInside(c) || cellset.has(c)) { return; }
cellset.add(c);
for (let d = 0; d < 4; d++) {
let nb = offset(c, .5, 0, d);
let nc = offset(c, 1, 0, d);
if (nb.isnull || nc.isnull) { continue; }
if (isLink(nb) && isLinkable(c, nb, nc)) {
linkdfs(nc);
}
}
}
linkdfs(c);
if (Array.from(cellset).some(c => {
if (!isNear(c)) { return true; }
if (scell !== null && c.qnum !== CQNUM.none && c.qnum !== CQNUM.quesmark && scell.qnum !== c.qnum) { return true; }
if (scell !== null && c.qnum !== CQNUM.none && c.qnum !== CQNUM.quesmark && OneNumPerRegion) { return true; }
return false;
})) {
ord.set(c, -1);
continue;
}
if (!v) {
cellset.forEach(cl => {
ord.set(cl, ord.get(c));
if (allSize !== null) {
clg.set(ord.get(cl), [...clg.get(ord.get(cl)), allSize]);
clt.set(ord.get(cl), [...clt.get(ord.get(cl)), allSize]);
} else if (cl.qnum !== CQNUM.none) {
clg.set(ord.get(cl), [...clg.get(ord.get(cl)), cl.qnum]);
clt.set(ord.get(cl), [...clt.get(ord.get(cl)), cl.qnum]);
}
fth.set(cl, f);
});
cgn.set(ord.get(c), cellset.size);
ctn.set(ord.get(c), cellset.size);
}
let fn = function (c, nb, nc) {
if (nc.isnull || isSide(nb)) { return; }
if (ord.has(nc) && ord.get(nc) === -1) { return; }
if (!isLink(nb) && clg.get(ord.get(c)).includes(cellset.size) && isSideable(c, nb, nc)) {
sidelist.push(nb);
return;
}
if (nc === f || f !== null && ord.get(f) === ord.get(nc) || !isLinkable(c, nb, nc)) { return; }
if (ord.get(c) === ord.get(nc)) { return; }
if (!isLink(nb) && isSideable(c, nb, nc) && ord.has(nc)) {
let cl = clg.get(ord.get(c)), cln = clg.get(ord.get(nc));
if (OneNumPerRegion && cl.length > 0 && cln.length > 0) {
sidelist.push(nb);
}
cl = cl.filter(n => n !== CQNUM.quesmark);
cln = cln.filter(n => n !== CQNUM.quesmark);
if (cl.some(n1 => cln.some(n2 => n1 !== n2))) {
sidelist.push(nb);
}
if ([...cl, ...cln].some(n => n < cgn.get(ord.get(c)) + cgn.get(ord.get(nc)))) {
sidelist.push(nb);
}
}
if (!isLinkable(c, nb, nc)) { return; }
if (ord.has(nc) && ord.get(nc) < ord.get(c)) {
low.set(ord.get(c), Math.min(low.get(ord.get(c)), ord.get(nc)));
return;
}
if (!v && nc.ques !== CQUES.wall) {
stack.push({ cell: nc, father: c, visited: false });
}
if (v && c === fth.get(nc)) {
let ordc = ord.get(c);
let ordnc = ord.get(nc);
low.set(ordc, Math.min(low.get(ordc), low.get(ordnc)));
if (!vst.has(ordnc)) {
ctn.set(ordc, ctn.get(ordc) + ctn.get(ordnc));
clt.set(ordc, [...clt.get(ordc), ...clt.get(ordnc)]);
vst.add(ordnc);
}
if (ordc < low.get(ordnc)) {
linklist.push([c, nb, nc]);
}
}
};
for (let c of cellset) {
for (let d = 0; d < 4; d++) {
let nb = offset(c, .5, 0, d);
let nc = offset(c, 1, 0, d);
fn(c, nb, nc);
}
}
}
}
forEachCell(cell => {
if (ord.has(cell) || cell.ques === CQUES.wall) { return; }
if (scell !== null && scell !== cell) { return; }
sidelist = [];
linklist = [];
dfs(cell);
sidelist.forEach(b => add_side(b));
linklist.forEach(([c, nb, nc]) => {
let ordc = ord.get(c);
let ordnc = ord.get(nc);
let siz = function (cl) {
if (OneNumPerRegion) {
cl = cl.map(n => n === CQNUM.quesmark ? 1 : n);
}
if (!OneNumPerRegion) {
cl = cl.filter(n => n !== CQNUM.quesmark);
cl = Array.from(new Set(cl));
}
return cl.reduce((a, b) => a + b, 0);
}
let cl = clt.get(ordnc);
if (scell === null && siz(cl) > ctn.get(ordnc)) { add_link(nb); }
if (scell === null && !cl.includes(CQNUM.quesmark) && OneNumPerRegion) {
if (siz(cl) === ctn.get(ordnc) && isSideable(c, nb, nc)) { add_side(nb); }
if (siz(cl) !== ctn.get(ordnc) && isLinkable(c, nb, nc)) { add_link(nb); }
}
if (allSize !== null) {
if (ctn.get(ordnc) % allSize === 0 && isSideable(c, nb, nc)) { add_side(nb); }
if (ctn.get(ordnc) % allSize !== 0 && isLinkable(c, nb, nc)) { add_link(nb); }
}
let acl = clt.get(ord.get(cell));
let an = ctn.get(ord.get(cell));
let ocl = [];
acl.forEach(n => {
if (cl.includes(n)) { cl.splice(cl.indexOf(n), 1); }
else { ocl.push(n); }
});
if (siz(ocl) > an - ctn.get(ordnc)) { add_link(nb); }
if (scell === null && !ocl.includes(CQNUM.quesmark) && OneNumPerRegion) {
if (siz(ocl) === an - ctn.get(ordnc) && isSideable(c, nb, nc)) { add_side(nb); }
if (siz(ocl) !== an - ctn.get(ordnc) && isLinkable(c, nb, nc)) { add_link(nb); }
}
});
});
if (scell !== null && ord.size === scell.qnum) {
let clist = Array.from(ord.keys());
clist.forEach(c => {
adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (ord.has(nc)) {
add_link(nb);
}
});
});
}
}
function StripRegion_cell({ isShaded, add_unshaded } = {}) {
forEachCell(cell => {
let templist = [cell, offset(cell, 1, 0), offset(cell, 0, 1), offset(cell, 1, 1)];
if (templist.some(c => c.isnull)) { return; }
// can't be over 2 shades in each 2*2
if (templist.filter(c => isShaded(c)).length === 2) {
templist.forEach(c => add_unshaded(c));
}
});
}
function RectRegion_Cell({ isShaded, isUnshaded, add_shaded, add_unshaded, isSizeAble = (w, h, sc, c) => true } = {}) {
forEachCell(cell => {
if (isShaded(cell) || isUnshaded(cell)) { return; }
// can't be exactly 3 shades in each 2*2
let fn = function (list) {
if (list.some(c => c.isnull)) { return; }
if (list.filter(c => isShaded(c)).length === 2 && list.filter(c => isUnshaded(c)).length === 1) {
add_unshaded(cell);
}
if (list.filter(c => isShaded(c)).length === 3 && list.filter(c => isUnshaded(c)).length === 0) {
add_shaded(cell);
}
};
for (let d = 0; d < 4; d++) {
fn([offset(cell, 1, 0, d), offset(cell, 0, 1, d), offset(cell, 1, 1, d)]);
}
});
// record the (un)shade count in (0,0) to (a,b)
let scnt = Array.from(new Array(board.rows), () => new Array(board.cols).fill(0));
let ucnt = Array.from(new Array(board.rows), () => new Array(board.cols).fill(0));
for (let i = 0; i < board.rows; i++) {
for (let j = 0; j < board.cols; j++) {
scnt[i][j] = (b => isShaded(b) ? 1 : 0)(board.getc(2 * j + 1, 2 * i + 1));
scnt[i][j] += (i > 0 ? scnt[i - 1][j] : 0) + (j > 0 ? scnt[i][j - 1] : 0) - (i > 0 && j > 0 ? scnt[i - 1][j - 1] : 0);
ucnt[i][j] = (b => isUnshaded(b) ? 1 : 0)(board.getc(2 * j + 1, 2 * i + 1));
ucnt[i][j] += (i > 0 ? ucnt[i - 1][j] : 0) + (j > 0 ? ucnt[i][j - 1] : 0) - (i > 0 && j > 0 ? ucnt[i - 1][j - 1] : 0);
}
}
// check if there can be a rectangle exactly between c1 and c2
let isRectAble = function (c1, c2) {
if (c1.isnull || c2.isnull) { return 0; }
let [x1, x2] = [(c1.bx - 1) / 2, (c2.bx - 1) / 2].sort((x, y) => x - y);
let [y1, y2] = [(c1.by - 1) / 2, (c2.by - 1) / 2].sort((x, y) => x - y);
let f = (a, b) => a < 0 || b < 0 ? 0 : ucnt[Math.min(a, board.rows - 1)][Math.min(b, board.cols - 1)];
return f(y2, x2) - f(y1 - 1, x2) - f(y2, x1 - 1) + f(y1 - 1, x1 - 1) === 0;
}
let isRectAble2 = function (c1, c2, dir = ['L', 'U', 'R', 'D']) {
if (c1.isnull || c2.isnull) { return 0; }
let [x1, x2] = [(c1.bx - 1) / 2, (c2.bx - 1) / 2].sort((x, y) => x - y);
let [y1, y2] = [(c1.by - 1) / 2, (c2.by - 1) / 2].sort((x, y) => x - y);
let f = (a, b) => a < 0 || b < 0 ? 0 : scnt[Math.min(a, board.rows - 1)][Math.min(b, board.cols - 1)];
if (dir.includes('L') && f(y2, x1 - 1) - f(y2, x1 - 2) - f(y1 - 1, x1 - 1) + f(y1 - 1, x1 - 2) !== 0) { return false; }
if (dir.includes('U') && f(y1 - 1, x2) - f(y1 - 2, x2) - f(y1 - 1, x1 - 1) + f(y1 - 2, x1 - 1) !== 0) { return false; }
if (dir.includes('R') && f(y2, x2 + 1) - f(y2, x2) - f(y1 - 1, x2 + 1) + f(y1 - 1, x2) !== 0) { return false; }
if (dir.includes('D') && f(y2 + 1, x2) - f(y2, x2) - f(y2 + 1, x1 - 1) + f(y2, x1 - 1) !== 0) { return false; }
return true;
}
forEachCell(cell => {
if (!isShaded(cell) && cell.qnum <= 0) { return; }
if (isShaded(cell.adjborder.top)) { return; }
if (isShaded(cell.adjborder.left)) { return; }
let wid = 1, hei = 1;
while (isShaded(offset(cell, wid, 0))) { wid++; }
while (isShaded(offset(cell, 0, hei))) { hei++; }
let sc = null;
for (let dx = 0; dx < wid; dx++) {
for (let dy = 0; dy < hei; dy++) {
if (offset(cell, dx, dy).qnum >= 0) {
sc = offset(cell, dx, dy);
}
}
}
let rectlist = [];
for (let dl = 0; isRectAble(offset(cell, dl, 0), offset(cell, 0, 0)); dl--) {
if (!isRectAble2(offset(cell, dl, 0), offset(cell, 0, 0), ['L'])) { continue; }
for (let dr = wid - 1; isRectAble(offset(cell, dl, 0), offset(cell, dr, 0)); dr++) {
if (!isRectAble2(offset(cell, dl, 0), offset(cell, dr, 0), ['L', 'R'])) { continue; }
for (let du = 0; isRectAble(offset(cell, dl, du), offset(cell, dr, 0)); du--) {
if (!isRectAble2(offset(cell, dl, du), offset(cell, dr, 0), ['L', 'R', 'U'])) { continue; }
for (let dd = hei - 1; isRectAble(offset(cell, dl, du), offset(cell, dr, dd)); dd++) {
if (!isRectAble2(offset(cell, dl, du), offset(cell, dr, dd))) { continue; }
if (!isSizeAble(dr - dl + 1, dd - du + 1, sc, offset(cell, dl, du))) { continue; }
rectlist.push({ dl: dl, du: du, dr: dr, dd: dd });
}
}
}
}
if (!isShaded(cell) && rectlist.length === 0) {
add_unshaded(cell);
}
if (!isShaded(cell) || rectlist.length === 0) { return; }
let ml = rectlist.reduce((m, obj) => Math.max(m, obj.dl), -board.cols);
let mu = rectlist.reduce((m, obj) => Math.max(m, obj.du), -board.rows);
let mr = rectlist.reduce((m, obj) => Math.min(m, obj.dr), +board.cols);
let md = rectlist.reduce((m, obj) => Math.min(m, obj.dd), +board.rows);
for (let j = ml; j <= mr; j++) { add_shaded(offset(cell, j, 0)); }
for (let j = mu; j <= md; j++) { add_shaded(offset(cell, 0, j)); }
if (rectlist.every(obj => obj.dl === ml)) { add_unshaded(offset(cell, ml - 1, 0)); }
if (rectlist.every(obj => obj.dr === mr)) { add_unshaded(offset(cell, mr + 1, 0)); }
if (rectlist.every(obj => obj.du === mu)) { add_unshaded(offset(cell, 0, mu - 1)); }
if (rectlist.every(obj => obj.dd === md)) { add_unshaded(offset(cell, 0, md + 1)); }
});
}
function RectRegion_Border({ doTrial = true, isSizeAble = (w, h, sc, c) => true } = {}) {
let isLink = b => !b.isnull && b.qsub === BQSUB.link;
let isSide = b => b.isnull || b.qans;
for (let i = 0; i < board.cross.length; i++) {
let cross = board.cross[i];
for (let d = 0; d < 4; d++) {
// × ×
// ×· -> ×·×
// ×
let b1 = dir(cross.adjborder, d);
let b2 = dir(cross.adjborder, d + 1);
if (isLink(b1) && isLink(b2)) {
add_link(dir(cross.adjborder, d + 2));
add_link(dir(cross.adjborder, d + 3));
}
// ┃ ┃
// ×╹ -> ×┃
// ┃
if (isSide(b1) && isLink(b2)) {
add_side(dir(cross.adjborder, d + 2));
}
// × ×
// ━╸ -> ━━━
//
if (isLink(b1) && isSide(b2)) {
add_side(dir(cross.adjborder, d + 3));
}
// ┃ ┃
// ╹ -> ━┻━
// × ×
b2 = dir(cross.adjborder, d + 2);
if (isSide(b1) && isLink(b2)) {
add_side(dir(cross.adjborder, d + 1));
add_side(dir(cross.adjborder, d + 3));
}
}
}
if (!doTrial) { return; }
// record the sides count in (0,0) to (a,b); s1 for horizontal side, s2 for vertical side
const s1 = Array.from(new Array(board.rows), () => new Array(board.cols).fill(0));
const s2 = Array.from(new Array(board.rows), () => new Array(board.cols).fill(0));
// record the links count in a row; l1 for vertical link, l2 for horizontal link
const l1 = Array.from(new Array(board.rows), () => new Array(board.cols).fill(0));
const l2 = Array.from(new Array(board.rows), () => new Array(board.cols).fill(0));
for (let i = 0; i < board.rows; i++) {
for (let j = 0; j < board.cols; j++) {
s1[i][j] = (b => !b.isnull && b.qans ? 1 : 0)(board.getb(2 * j + 1, 2 * i));
s2[i][j] = (b => !b.isnull && b.qans ? 1 : 0)(board.getb(2 * j, 2 * i + 1));
s1[i][j] += (i > 0 ? s1[i - 1][j] : 0) + (j > 0 ? s1[i][j - 1] : 0) - (i > 0 && j > 0 ? s1[i - 1][j - 1] : 0);
s2[i][j] += (i > 0 ? s2[i - 1][j] : 0) + (j > 0 ? s2[i][j - 1] : 0) - (i > 0 && j > 0 ? s2[i - 1][j - 1] : 0);
l1[i][j] = (b => !b.isnull && b.qsub === BQSUB.link ? 1 : 0)(board.getb(2 * j + 1, 2 * i));
l2[i][j] = (b => !b.isnull && b.qsub === BQSUB.link ? 1 : 0)(board.getb(2 * j, 2 * i + 1));
l1[i][j] += (j > 0 ? l1[i][j - 1] : 0);
l2[i][j] += (i > 0 ? l2[i - 1][j] : 0);
}
}
// check if there can be a rectangle exactly between c1 and c2
let isRectAble = function (c1, c2) {
if (c1.isnull || c2.isnull) { return 0; }
let [x1, x2] = [(c1.bx - 1) / 2, (c2.bx - 1) / 2].sort((x, y) => x - y);
let [y1, y2] = [(c1.by - 1) / 2, (c2.by - 1) / 2].sort((x, y) => x - y);
let f1 = (a, b) => a < 0 || b < 0 ? 0 : s1[a][b];
let f2 = (a, b) => a < 0 || b < 0 ? 0 : s2[a][b];
return f1(y2, x2) - f1(y1, x2) - f1(y2, x1 - 1) + f1(y1, x1 - 1)
+ f2(y2, x2) - f2(y1 - 1, x2) - f2(y2, x1) + f2(y1 - 1, x1) === 0;
}
let isRectAble2 = function (c1, c2, dir = ['L', 'U', 'R', 'D']) {
if (c1.isnull || c2.isnull) { return 0; }
let [x1, x2] = [(c1.bx - 1) / 2, (c2.bx - 1) / 2].sort((x, y) => x - y);
let [y1, y2] = [(c1.by - 1) / 2, (c2.by - 1) / 2].sort((x, y) => x - y);
let g1 = (a, b) => a < 0 || b < 0 || a >= board.rows || b >= board.cols ? 0 : l1[a][b];
let g2 = (a, b) => a < 0 || b < 0 || a >= board.rows || b >= board.cols ? 0 : l2[a][b];
if (dir.includes('L') && g2(y2, x1) - g2(y1 - 1, x1) !== 0) { return false; }
if (dir.includes('U') && g1(y1, x2) - g1(y1, x1 - 1) !== 0) { return false; }
if (dir.includes('R') && g2(y2, x2 + 1) - g2(y1 - 1, x2 + 1) !== 0) { return false; }
if (dir.includes('D') && g1(y2 + 1, x2) - g1(y2 + 1, x1 - 1) !== 0) { return false; }
return true;
}
let emptycnt = 0;
forEachCell(c => { if (adjlist(c.adjborder).every(b => b.isnull || b.qsub !== BQSUB.link)) emptycnt++; });
forEachCell(cell => {
if (isLink(cell.adjborder.top)) { return; }
if (isLink(cell.adjborder.left)) { return; }
let wid = 1, hei = 1;
while (isLink(offset(cell, wid - .5, 0))) { wid++; }
while (isLink(offset(cell, 0, hei - .5))) { hei++; }
let sc = null;
for (let dx = 0; dx < wid; dx++) {
for (let dy = 0; dy < hei; dy++) {
if (offset(cell, dx, dy).qnum >= 0) {
sc = offset(cell, dx, dy);
}
}
}
if ([offset(cell, -.5, 0), offset(cell, 0, -.5), offset(cell, wid - .5, 0), offset(cell, 0, hei - .5)]
.every(b => b.isnull || b.qans)) { return; }
// ignore empty cell when there are too many
if (emptycnt > 500 && sc === null) { return; }
let rectlist = [];
for (let dl = 0; isRectAble(offset(cell, dl, 0), offset(cell, 0, 0)); dl--) {
if (!isRectAble2(offset(cell, dl, 0), offset(cell, 0, 0), ['L'])) { continue; }
for (let dr = wid - 1; isRectAble(offset(cell, dl, 0), offset(cell, dr, 0)); dr++) {
if (!isRectAble2(offset(cell, dl, 0), offset(cell, dr, 0), ['L', 'R'])) { continue; }
for (let du = 0; isRectAble(offset(cell, dl, du), offset(cell, dr, 0)); du--) {
if (!isRectAble2(offset(cell, dl, du), offset(cell, dr, 0), ['L', 'R', 'U'])) { continue; }
for (let dd = hei - 1; isRectAble(offset(cell, dl, du), offset(cell, dr, dd)); dd++) {
if (!isRectAble2(offset(cell, dl, du), offset(cell, dr, dd))) { continue; }
if (!isSizeAble(dr - dl + 1, dd - du + 1, sc, offset(cell, dl, du))) { continue; }
rectlist.push({ dl: dl, du: du, dr: dr, dd: dd });
}
}
}
}
if (rectlist.length === 0) { return; }
let ml = rectlist.reduce((m, obj) => Math.max(m, obj.dl), -board.cols);
let mu = rectlist.reduce((m, obj) => Math.max(m, obj.du), -board.rows);
let mr = rectlist.reduce((m, obj) => Math.min(m, obj.dr), +board.cols);
let md = rectlist.reduce((m, obj) => Math.min(m, obj.dd), +board.rows);
for (let j = ml; j < mr; j++) { add_link(offset(cell, j + .5, 0)); }
for (let j = mu; j < md; j++) { add_link(offset(cell, 0, j + .5)); }
if (rectlist.every(obj => obj.dl === ml)) { add_side(offset(cell, ml - .5, 0)); }
if (rectlist.every(obj => obj.dr === mr)) { add_side(offset(cell, mr + .5, 0)); }
if (rectlist.every(obj => obj.du === mu)) { add_side(offset(cell, 0, mu - .5)); }
if (rectlist.every(obj => obj.dd === md)) { add_side(offset(cell, 0, md + .5)); }
});
}
// see all checks from ui.puzzle.pzpr.common.AnsCheck.prototype
// see used checks from ui.puzzle.checker.checklist_normal
function GeneralAssist() {
const checklist = ui.puzzle.checker.checklist_normal;
const numberRemainsUnshaded = ui.puzzle.board.cell[0].numberRemainsUnshaded;
let isGreen = c => !c.isnull && c.qsub === CQSUB.green;;
if (numberRemainsUnshaded) {
isGreen = c => c.qsub === CQSUB.dot || c.qnum !== CQNUM.none;
add_green = add_dot;
}
if (checklist.some(f => f.name === "checkCountinuousUnshadeCell")) {
NoFacingDoor();
}
if (checklist.some(f => f.name === "checkConnectShade")) {
CellConnected({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
});
}
if (checklist.some(f => f.name === "checkConnectUnshadeRB" || f.name === "checkConnectUnshade")) {
CellConnected({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
});
}
if (checklist.some(f => f.name === "checkConnectShadeOutside")) {
CellConnected({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
OutsideAsShaded: true,
});
}
if (checklist.some(f => f.name === "checkConnectUnshadeOutside")) {
CellConnected({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
OutsideAsShaded: true,
});
}
if (checklist.some(f => f.name === "checkConnectShade") &&
checklist.some(f => f.name === "checkConnectUnshadeRB" || f.name === "checkConnectUnshade" || f.name === "checkConnectUnshadeOutside")) {
NoCheckerCell({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
});
}
if (checklist.some(f => f.name === "checkAdjacentShadeCell")) {
BlackNotAdjacent();
}
if (checklist.some(f => f.name === "check2x2ShadeCell")) {
No2x2Cell({
isShaded: isBlack,
add_unshaded: add_green,
})
}
if (checklist.some(f => f.name === "check2x2UnshadeCell")) {
No2x2Cell({
isShaded: isGreen,
add_unshaded: add_black,
})
}
if (checklist.some(f => f.name === "checkDeadendLine") &&
checklist.some(f => f.name === "checkBranchLine") &&
checklist.some(f => f.name === "checkCrossLine") &&
checklist.some(f => f.name === "checkOneLoop")) {
if (checklist.some(f => f.name === "checkNoLine")) {
SingleLoopInCell({
isPassable: c => c.ques !== CQUES.wall,
isPass: c => c.ques !== CQUES.wall,
});
}
else { SingleLoopInCell(); }
}
if (checklist.some(f => f.name === "checkRoomPassOnce")) {
RoomPassOnce();
}
if (checklist.some(f => f.name === "checkUnshadeOnCircle")) {
forEachCell(c => { if (c.qnum === CQNUM.wcir) add_green(c); })
}
if (checklist.some(f => f.name === "checkShadeOnCircle")) {
forEachCell(c => { if (c.qnum === CQNUM.bcir) add_black(c); })
}
if (checklist.some(f => f.name === "checkUnshadeSquare")) {
RectRegion_Cell({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
isSizeAble: (w, h, sc, c) => w === h,
})
}
if (checklist.some(f => f.name === "checkBorderCross")) {
NoCrossingBorder();
}
if (checklist.some(f => f.name === "checkNumberAndUnshadeSize")) {
forEachCell(c => { if (c.qnum !== CQNUM.none) add_green(c); })
SizeRegion_Cell({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: c => add_black(c, true),
OneNumPerRegion: checklist.some(f => f.name === "checkNoNumberInUnshade") &&
checklist.some(f => f.name === "checkDoubleNumberInUnshade"),
});
}
if (checklist.some(f => f.name === "checkNumberSize")) {
SizeRegion_Cell({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
OneNumPerRegion: checklist.some(f => f.name === "checkNoNumberInUnshade") &&
checklist.some(f => f.name === "checkDoubleNumberInUnshade"),
NoUnshadedNum: false,
});
SizeRegion_Cell({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
OneNumPerRegion: checklist.some(f => f.name === "checkNoNumberInUnshade") &&
checklist.some(f => f.name === "checkDoubleNumberInUnshade"),
NoUnshadedNum: false,
});
}
if (checklist.some(f => f.name === "checkSideAreaShadeCell")) {
forEachCell(c => {
if (!isBlack(c)) { return; }
for (let d = 0; d < 4; d++) {
let nb = offset(c, 0.5, 0, d);
let nc = offset(c, 1, 0, d)
if (!nb.isnull && nb.ques) {
add_green(nc);
}
}
});
}
}
// assist for certain genre
function DoubleBackAssist() {
SingleLoopInCell({
isPassable: c => c.ques !== CQUES.wall,
isPass: c => c.ques !== CQUES.wall,
});
forEachRoom(room => {
let oblist = [];
Array.from(room.clist).forEach(cell => {
fourside((nb, nc) => {
if (!nc.isnull && nc.room !== room && nb.ques) {
oblist.push(nb);
}
}, cell.adjborder, cell.adjacent);
});
if (oblist.filter(b => b.line).length === 4) {
oblist.forEach(b => add_cross(b));
}
if (oblist.filter(b => b.qsub !== BQSUB.cross).length === 4) {
oblist.forEach(b => add_line(b));
}
});
}
function HashiwokakeroAssist() {
let add_line = function (b, n = 1) {
if (b === undefined || b.isnull || n <= b.line || b.qsub === BQSUB.cross) { return; }
if (![1, 2].includes(n)) { return; }
if (step && flg) { return; }
b.setLineVal(n);
b.draw();
flg ||= b.line;
};
CellConnected({
isShaded: c => c.lcnt > 0 || c.qnum !== CQNUM.none,
isUnshaded: c => adjlist(c.adjborder).every(b => isntLine(b)),
add_shaded: c => {
if (c.qnum !== CQNUM.none) { return; }
if (isntLine(c.adjborder.top)) {
add_line(c.adjborder.left);
add_line(c.adjborder.right);
}
if (isntLine(c.adjborder.left)) {
add_line(c.adjborder.top);
add_line(c.adjborder.bottom);
}
},
add_unshaded: c => adjlist(c.adjborder).forEach(b => add_cross(b)),
isNotPassable: (c, nb, nc) => isCross(nb),
});
forEachCell(cell => {
for (let d = 0; d < 4; d++) {
if (cell.qnum === CQNUM.none && isntLine(dir(cell.adjborder, d))) {
add_cross(dir(cell.adjborder, d + 2));
}
if (cell.qnum === CQNUM.none && dir(cell.adjborder, d).line) {
add_line(dir(cell.adjborder, d + 2), dir(cell.adjborder, d).line);
}
}
if (cell.qnum === CQNUM.none && cell.lcnt === 2) {
adjlist(cell.adjborder).forEach(b => add_cross(b));
}
if (cell.qnum === adjlist(cell.adjborder).reduce((a, b) => a + b.line, 0)) {
adjlist(cell.adjborder).forEach(b => add_cross(b));
}
if (adjlist(cell.adjborder).filter(b => !b.isnull && !isCross(b)).length === 1) {
adjlist(cell.adjborder).forEach(b => add_line(b, 1));
}
if (cell.qnum !== CQNUM.none) {
let l = [0, 1, 2, 3].map(d => {
let nc = dir(cell.adjacent, d);
if (isCross(dir(cell.adjborder, d))) { return 0; }
while (!nc.isnull && nc.qnum === CQNUM.none) {
if (isCross(dir(nc.adjborder, d))) { return 0; }
nc = dir(nc.adjacent, d);
}
if (nc.isnull) { return 0; }
if (nc.qnum === CQNUM.quesmark) { return 2; }
if (board.linegraph.components.length > 0 && cell.qnum === 1 && nc.qnum === 1) { return 0; }
let ln = adjlist(nc.adjborder);
ln.splice((d + 2) % 4, 1);
ln = nc.qnum - ln.reduce((a, b) => a + b.line, 0);
if (board.linegraph.components.length > 0 && cell.qnum === 2 && nc.qnum === 2) { return Math.min(ln, 1); }
return Math.min(ln, 2);
});
for (let d = 0; d < 4; d++) {
if (l[d] === 0) {
add_cross(dir(cell.adjborder, d));
}
let n = Math.min(cell.qnum - l.reduce((a, b) => a + b) + l[d], 2);
if (cell.qnum >= 0 && n >= 1) {
add_line(dir(cell.adjborder, d), n);
}
}
}
});
}
function CountryRoadAssist() {
let add_circle = function (c) {
if (c === undefined || c.isnull || c.qsub !== CQSUB.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(CQSUB.circle);
c.draw();
};
let add_cellcross = function (c) {
if (c === undefined || c.isnull || c.qsub !== CQSUB.none || c.lcnt > 0) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(CQSUB.cross);
c.draw();
};
CellConnected_InRegion({
isShaded: c => c.qsub === CQSUB.circle,
isUnshaded: c => c.qsub === CQSUB.cross,
add_shaded: add_circle,
add_unshaded: add_cellcross,
SizeClue: true,
});
RoomPassOnce({
LengthClue: true,
});
SingleLoopInCell({
isPass: c => c.qsub === CQSUB.circle,
isNotPassable: c => c.qsub === CQSUB.cross,
});
forEachRoom(room => {
NShadeInClist({
isShaded: c => c.qsub === CQSUB.circle,
isUnshaded: c => c.qsub === CQSUB.cross,
add_shaded: add_circle,
add_unshaded: add_cellcross,
n: room.top.qnum,
clist: Array.from(room.clist),
});
if (Array.from(room.clist).length === 1) {
add_circle(room.clist[0]);
}
});
forEachCell(cell => {
if (adjlist(cell.adjborder).every(b => isntLine(b))) {
add_cellcross(cell);
}
if (cell.qsub === CQSUB.cross) {
adjlist(cell.adjborder).forEach(b => add_cross(b));
for (let d = 0; d < 4; d++) {
let nb = offset(cell, 0.5, 0, d);
let nc = offset(cell, 1, 0, d)
if (!nb.isnull && nb.ques) {
add_circle(nc);
}
}
}
if (cell.lcnt > 0) {
add_circle(cell);
}
if (adjlist(cell.adjborder).filter(b => isntLine(b)).length === 2) {
adjlist(cell.adjborder, cell.adjacent).filter(([nb, nc]) => !nc.isnull && !isntLine(nb) && isBound(nb)).forEach(([nb, nc]) => add_circle(nc));
}
});
}
function MochikoroAssist() {
let cluecnt = 0;
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_green(cell);
cluecnt++;
}
});
No2x2Black();
RectRegion_Cell({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
isSizeAble: (w, h, sc, c) => {
if (sc !== null && sc.qnum !== w * h) { return false; }
if (cluecnt > 1 && [offset(c, -1, -1), offset(c, -1, h), offset(c, w, -1), offset(c, w, h)].every(c => c.isnull || isBlack(c))) { return false; }
for (let i = 0; i < w; i++) {
for (let j = 0; j < h; j++) {
if (offset(c, i, j).qnum > 0 && (offset(c, i, j) !== sc && sc !== null || offset(c, i, j).qnum !== w * h)) { return false; }
}
}
return true;
},
});
GreenConnectedDiagonally();
}
function NumberlinkAssist() {
forEachCell(cell => {
let num = undefined;
if (cell.path !== null) { num = Array.from(cell.path.clist).find(c => c.qnum !== CQNUM.none); }
if (num !== undefined) { num = num.qnum; }
if (cell.qnum !== CQNUM.none) { num = cell.qnum; }
if (cell.lcnt === 2 || cell.lcnt === 1 && cell.qnum !== CQNUM.none) {
adjlist(cell.adjborder).forEach(b => add_cross(b));
}
if (cell.qnum === CQNUM.none && adjlist(cell.adjborder).filter(b => isntLine(b)).length >= 3) {
adjlist(cell.adjborder).forEach(b => add_cross(b));
}
if (num !== undefined) {
adjlist(cell.adjborder, cell.adjacent).forEach(([nb, nc]) => {
if (nc.isnull || isCross(nb)) { return; }
if (nc.path === null && nc.qnum !== CQNUM.none && nc.qnum !== num || nc.path !== null && Array.from(nc.path.clist).some(c => c.qnum !== CQNUM.none && c.qnum !== num)) {
add_cross(nb);
}
});
}
let l = adjlist(cell.adjborder, cell.adjacent).filter(([nb, nc]) => isLine(nb) || !nc.isnull && !isCross(nb));
if (cell.qnum === CQNUM.none && cell.lcnt === 1 && l.length === 2 || cell.qnum !== CQNUM.none && l.length === 1) {
l.forEach(([nb, nc]) => add_line(nb));
}
});
// using uniquity
forEachCross(cross => {
if (adjlist(cross.adjborder).filter(b => isLine(b)).length === 2) {
adjlist(cross.adjborder).forEach(b => add_cross(b));
}
});
}
function SukoroAssist() {
let add_circle = function (c) {
if (c === undefined || c.isnull || c.anum !== CANUM.none || c.qsub !== CQSUB.none || c.qnum !== CQNUM.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(CQSUB.circle);
c.draw();
};
let add_cross = function (c) {
if (c === undefined || c.isnull || c.anum !== CANUM.none || c.qsub !== CQSUB.none || c.qnum !== CQNUM.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(CQSUB.cross);
c.draw();
};
let add_number = function (c, n) {
if (c === undefined || c.isnull || c.anum !== CANUM.none) { return; }
if (step && flg) { return; }
flg = true;
c.setAnum(n);
c.setQsub(CQSUB.none);
c.draw();
};
CellConnected({
isShaded: c => c.anum !== CANUM.none || c.qsub === CQSUB.circle,
isUnshaded: c => c.qsub === CQSUB.cross,
add_shaded: add_circle,
add_unshaded: add_cross,
});
let not1c = new Set();
CellConnected({
isShaded: c => c.anum !== CANUM.none && c.anum !== 1 || c.qsub === CQSUB.circle,
isUnshaded: c => c.qsub === CQSUB.cross || c.anum === 1,
add_shaded: c => {
not1c.add(c);
add_circle(c);
},
add_unshaded: add_cross,
});
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_number(cell, cell.qnum);
}
if (cell.anum !== CANUM.none) {
if (adjlist(cell.adjacent).filter(c => c.anum !== CANUM.none || c.qsub === CQSUB.circle).length === cell.anum) {
adjlist(cell.adjacent).forEach(c => add_cross(c));
}
if (adjlist(cell.adjacent).filter(c => !c.isnull && c.qsub !== CQSUB.cross).length === cell.anum) {
adjlist(cell.adjacent).forEach(c => add_circle(c));
}
}
let l = [2, 3, 4];
if (!not1c.has(cell)) { l.push(1); }
l = l.filter(n => n >= adjlist(cell.adjacent).filter(c => c.anum !== CANUM.none || c.qsub === CQSUB.circle).length);
l = l.filter(n => n <= adjlist(cell.adjacent).filter(c => !c.isnull && c.qsub !== CQSUB.cross).length);
l = l.filter(n => adjlist(cell.adjacent).every(c => c.anum !== n));
if (cell.qsub === CQSUB.circle && l.length === 1) {
add_number(cell, l[0]);
}
if (l.length === 0) {
add_cross(cell);
}
for (let d = 0; d < 4; d++) {
if (cell.anum === 3 && offset(cell, 1, 1, d).anum === 1) {
add_circle(offset(cell, 0, -1, d));
add_circle(offset(cell, -1, 0, d));
add_cross(offset(cell, 1, 2, d));
add_cross(offset(cell, 2, 1, d));
}
}
});
}
function SashiganeAssist() {
NoDeadendBorder();
forEachCell(cell => {
// add side around arrow
if (cell.qdir !== 0 && cell.qdir !== 5) {
let d = qdirRemap(cell.qdir);
[1, 2, 3].forEach(n => add_side(dir(cell.adjborder, d + n)));
}
// at most 2 link for each cell
if (adjlist(cell.adjborder).filter(b => isLink(b)).length === 2) {
adjlist(cell.adjborder).forEach(b => add_side(b));
}
// extend the endpoint of a L
if (adjlist(cell.adjborder).filter(b => !b.isnull && !isSide(b)).length === 1) {
let d = [0, 1, 2, 3].find(n => (b => !b.isnull && !isSide(b))(dir(cell.adjborder, n)));
add_link(dir(cell.adjborder, d));
let ncell = dir(cell.adjacent, d);
while ([d + 1, d - 1].every(n => (b => b.isnull || isSide(b))(dir(ncell.adjborder, n)))) {
add_side(dir(ncell.adjborder, d + 1));
add_side(dir(ncell.adjborder, d - 1));
add_link(dir(ncell.adjborder, d));
ncell = dir(ncell.adjacent, d);
}
if (ncell.qnum !== CQNUM.none) {
add_side(dir(ncell.adjborder, d));
}
if (!offset(ncell, 1, -1, d).isnull && [[-.5, -1], [0, -1.5], [1.5, 0], [1, .5]].every(([x, y]) => (b => b.isnull || isSide(b))(offset(ncell, x, y, d)))) {
add_side(dir(ncell.adjborder, d));
}
if (!offset(ncell, -1, -1, d).isnull && [[.5, -1], [0, -1.5], [-1.5, 0], [-1, .5]].every(([x, y]) => (b => b.isnull || isSide(b))(offset(ncell, x, y, d)))) {
add_side(dir(ncell.adjborder, d));
}
if (!offset(ncell, 1, -1, d).isnull && [[1, -1.5], [1.5, -1], [1.5, 0], [1, .5]].every(([x, y]) => (b => b.isnull || isSide(b))(offset(ncell, x, y, d)))) {
add_side(dir(ncell.adjborder, d));
}
if (!offset(ncell, -1, -1, d).isnull && [[-1, -1.5], [-1.5, -1], [-1.5, 0], [-1, .5]].every(([x, y]) => (b => b.isnull || isSide(b))(offset(ncell, x, y, d)))) {
add_side(dir(ncell.adjborder, d));
}
if (!offset(ncell, 1, -1, d).isnull && [[-.5, -1], [0, -1.5], [1, -1.5], [1.5, -1]].every(([x, y]) => (b => b.isnull || isSide(b))(offset(ncell, x, y, d)))) {
add_side(offset(ncell, .5, 0, d));
}
if (!offset(ncell, -1, -1, d).isnull && [[.5, -1], [0, -1.5], [-1, -1.5], [-1.5, -1]].every(([x, y]) => (b => b.isnull || isSide(b))(offset(ncell, x, y, d)))) {
add_side(offset(ncell, -.5, 0, d));
}
if ((b => b.isnull || isSide(b))(dir(ncell.adjborder, d))) {
if ((b => b.isnull || isSide(b))(offset(ncell, -.5, 0, d))) {
add_side(offset(ncell, 1, +.5, d));
add_side(offset(ncell, 1, -.5, d));
add_link(offset(ncell, .5, 0, d));
}
if ((b => b.isnull || isSide(b))(offset(ncell, +.5, 0, d))) {
add_side(offset(ncell, -1, +.5, d));
add_side(offset(ncell, -1, -.5, d));
add_link(offset(ncell, -.5, 0, d));
}
}
}
// the turning of L
if (cell.qnum !== CQNUM.none || cell.qdir === 5) {
let ext = [0, 0, 0, 0], lnk = [0, 0, 0, 0];
for (let d = 0; d < 4; d++) {
while ((c => !c.isnull && c.qnum === CQNUM.none && c.qdir !== 5 && !isSide(dir(c.adjborder, d + 2)) && [d + 1, d - 1].every(n => !isLink(dir(c.adjborder, n))))(offset(cell, 0, -ext[d] - 1, d))) {
ext[d] = ext[d] + 1;
}
while (isLink(offset(cell, 0, -lnk[d] - .5, d))) {
lnk[d] = lnk[d] + 1;
}
if (isLink(dir(cell.adjborder, d))) {
add_side(dir(cell.adjborder, d + 2));
}
if (isSide(dir(cell.adjborder, d))) {
add_link(dir(cell.adjborder, d + 2));
}
}
for (let d = 0; d < 4; d++) {
if (cell.qnum >= 0) {
ext[d] = Math.min(ext[d], cell.qnum - Math.max(lnk[(d + 1) % 4], lnk[(d + 3) % 4], 1) - 1);
}
while (isLink(offset(cell, 0, -ext[d] - .5, d))) {
ext[d] = ext[d] - 1;
}
if (lnk.reduce((a, b) => a + b) + 1 === cell.qnum || lnk[d] + 2 === cell.qnum) {
add_side(offset(cell, 0, -lnk[d] - .5, d));
}
}
for (let d = 0; d < 4; d++) {
if (ext[d] === 0 || cell.qnum >= 0 && ext[d] + Math.max(ext[(d + 1) % 4], ext[(d + 3) % 4]) + 1 < cell.qnum) {
add_side(offset(cell, 0, -.5, d));
add_link(offset(cell, 0, .5, d));
add_side(offset(cell, -.5, 1, d));
add_side(offset(cell, +.5, 1, d));
}
if (cell.qnum >= 0 && isLink(dir(cell.adjborder, d))) {
for (let i = 1; i < cell.qnum - Math.max(ext[(d + 1) % 4], ext[(d + 3) % 4]); i++) {
add_link(offset(cell, 0, -i + .5, d));
add_side(offset(cell, -.5, -i, d));
add_side(offset(cell, +.5, -i, d));
}
if (ext[d] + Math.max(ext[(d + 1) % 4], ext[(d + 3) % 4]) + 1 === cell.qnum) {
add_side(offset(cell, 0, -ext[d] - .5, d));
}
}
}
}
for (let d = 0; d < 4; d++) {
// ╺┓ ┏┓
// ╻ ┃ -> ┏┛┃
// ┗━┛ ┗━┛
if (!offset(cell, 1, 1, d).isnull && [[1, -.5], [1.5, 0], [1.5, 1], [1, 1.5], [0, 1.5], [-.5, 1]].every(([x, y]) => (b => isSide(b) || b.isnull)(offset(cell, x, y, d)))) {
add_side(offset(cell, 0, .5, d));
add_side(offset(cell, .5, 0, d));
}
}
});
forEachBorder(border => {
// ensure L shape
if (!isSide(border) && !isLink(border)) {
let clist = [];
let dfs = function (c) {
if (c.isnull || clist.includes(c)) { return; }
clist.push(c);
adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (isLink(nb)) {
dfs(nc);
}
})
};
dfs(border.sidecell[0]);
dfs(border.sidecell[1]);
let maxx = clist.reduce((a, b) => Math.max(a, b.bx), 0);
let maxy = clist.reduce((a, b) => Math.max(a, b.by), 0);
let minx = clist.reduce((a, b) => Math.min(a, b.bx), Infinity);
let miny = clist.reduce((a, b) => Math.min(a, b.by), Infinity);
let l = [minx, maxx].flatMap(x => [[x, miny], [x, maxy]]);
let fn = c => {
for (let d = 0; d < 4; d++) {
let fn = b => isLink(b) || b === border;
if (fn(dir(c.adjborder, d)) && fn(dir(c.adjborder, d + 1))) {
return true;
}
}
return false;
};
if (clist.filter(c => c.qnum !== CQNUM.none || c.qdir === 5 || fn(c)).length > 1 || l.every(([x, y]) => clist.some(c => c.bx !== x && c.by !== y) || adjlist(board.getc(x, y).adjborder).filter(b => isSide(b) || b.isnull).length > 2)) {
add_side(border);
}
}
});
}
function TentsAssist() {
let add_tent = function (c) {
if (c === undefined || c.isnull || isDot(c) || c.qnum !== CQNUM.none || c.anum !== CANUM.none) { return; }
if (step && flg) { return; }
flg = true;
c.setAnum(2);
c.draw();
};
let isTentAble = (nb, nc) => !nc.isnull && nc.bx > 0 && nc.by > 0 && !isDot(nc) && nc.qnum === CQNUM.none && !isCross(nb);
forEachCell(cell => {
if (cell.qnum === 1) { // tree
adjlist(cell.adjborder, cell.adjacent).forEach(([nb, nc]) => {
if (isDot(nc) || nc.qnum === 1) {
add_cross(nb);
}
});
let l = adjlist(cell.adjborder, cell.adjacent).filter(([nb, nc]) => isTentAble(nb, nc));
if (l.length === 1) {
add_link(l[0][0]);
add_tent(l[0][1]);
}
if (adjlist(cell.adjborder).some(b => isLink(b))) {
adjlist(cell.adjborder).forEach(b => add_cross(b));
}
for (let d = 0; d < 4; d++) {
if (l.length === 2 && isTentAble(offset(cell, .5, 0, d), offset(cell, 1, 0, d)) && isTentAble(offset(cell, 0, .5, d), offset(cell, 0, 1, d))) {
add_dot(offset(cell, 1, 1, d));
}
if (l.length === 2 && isTentAble(offset(cell, .5, 0, d), offset(cell, 1, 0, d)) && isTentAble(offset(cell, -.5, 0, d), offset(cell, -1, 0, d))) {
add_dot(offset(cell, 0, 1, d));
}
if (!isTentAble(offset(cell, -.5, 0, d), offset(cell, -1, 0, d)) && offset(cell, 1, 0, d).qnum !== 1) {
[[1, -.5], [1.5, 0], [1, .5],].forEach(([x, y]) => {
add_cross(offset(cell, x, y, d));
});
}
}
}
if (cell.anum === 2) { // tent
for (let i = -1; i <= 1; i++) {
for (let j = -1; j <= 1; j++) {
add_dot(offset(cell, i, j));
}
}
let l = adjlist(cell.adjborder, cell.adjacent).filter(([nb, nc]) => nc.qnum === 1 && !isCross(nb));
if (l.length === 1) {
add_link(l[0][0]);
}
if (adjlist(cell.adjborder).some(b => isLink(b))) {
adjlist(cell.adjborder).forEach(b => add_cross(b));
}
}
if (cell.qnum === CQNUM.none && adjlist(cell.adjborder, cell.adjacent).every(([nb, nc]) => nc.isnull || nc.bx < 0 || nc.by < 0 || nc.qnum === CQNUM.none || isCross(nb))) {
add_dot(cell);
}
});
for (let i = 0; i < board.cols; i++) {
let qnum = board.getobj(i * 2 + 1, -1).qnum;
if (qnum === CQNUM.none) { continue; }
let clist = [];
for (let j = 0; j < board.rows; j++) {
clist.push(board.getc(i * 2 + 1, j * 2 + 1));
}
if (clist.filter(c => c.anum === 2).length === qnum) {
clist.forEach(c => add_dot(c));
}
}
for (let j = 0; j < board.rows; j++) {
let qnum = board.getobj(-1, j * 2 + 1).qnum;
if (qnum === CQNUM.none) { continue; }
let clist = [];
for (let i = 0; i < board.cols; i++) {
clist.push(board.getc(i * 2 + 1, j * 2 + 1));
}
if (clist.filter(c => c.anum === 2).length === qnum) {
clist.forEach(c => add_dot(c));
}
}
}
function DominionAssist() {
BlackDomino();
let m = new Map();
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_green(cell);
if (!m.has(cell.qnum)) { m.set(cell.qnum, 0); }
m.set(cell.qnum, m.get(cell.qnum) + 1);
}
});
Array.from(m).forEach(([qnum, n]) => {
if (n === 1) { return; }
CellConnected({
isShaded: c => c.qnum === qnum,
isUnshaded: c => isBlack(c) || [...adjlist(c.adjacent), c].some(c => c.qnum !== CQNUM.none && c.qnum !== qnum),
add_shaded: add_green,
add_unshaded: () => { },
});
});
forEachCell(cell => {
if (isBlack(cell) || isGreen(cell)) { return; }
let clist = [];
let flg = false;
let dfs = function (c) {
if (flg || clist.includes(c) || !isGreen(c)) { return; }
if (c.qnum !== CQNUM.none && clist.some(cc => cc.qnum !== CQNUM.none && cc.qnum !== c.qnum)) {
flg = true;
return;
}
clist.push(c);
fourside(dfs, c.adjacent);
}
fourside(dfs, cell.adjacent);
if (flg) { add_black(cell); }
});
}
function StostoneAssist() {
BlackConnected_InRegion(true);
BlackNotAdjacent_OverBorder();
forEachRoom(room => NShadeInClist({ n: room.top.qnum, clist: Array.from(room.clist), AtLeastOne: true }));
for (let i = 0; i < board.cols; i++) {
let clist = [];
for (let j = 0; j < board.rows; j++) {
clist.push(board.getc(i * 2 + 1, j * 2 + 1));
}
NShadeInClist({ n: board.rows / 2, clist: clist });
}
}
function KakuroAssist() {
let add_candidate = function (c, l) {
if (c.isnull || c.anum !== -1) { return; }
l = l.sort();
while (l.length < 4) { l.push(-1); }
if (c.snum.join(',') === l.join(',')) { return; }
if (step && flg) { return; }
flg = true;
[0, 1, 2, 3].forEach(n => c.setSnum(n, l[n]));
c.draw();
}
let add_number = function (c, n) {
if (c.isnull || c.anum !== -1) { return; }
if (step && flg) { return; }
flg = true;
[0, 1, 2, 3].forEach(n => c.setSnum(n, -1));
c.setAnum(n);
c.draw();
}
let list = [...Array.from(board.cell), ...Array.from(board.excell)];
list = [...list.filter(c => c.qnum > 0).map(c => {
let pc = offset(c, 1, 0), clist = [];
while (!pc.isnull && pc.ques === CQUES.none) {
clist.push(pc);
pc = offset(pc, 1, 0);
}
return [c.qnum, clist];
}),
...list.filter(c => c.qnum2 > 0).map(c => {
let pc = offset(c, 0, 1), clist = [];
while (!pc.isnull && pc.ques === CQUES.none) {
clist.push(pc);
pc = offset(pc, 0, 1);
}
return [c.qnum2, clist];
})];
list = list.filter(([n, l]) => l.length > 0);
list.forEach(([n, clist]) => {
let cand = clist.map(c => {
if (c.anum !== CANUM.none) { return [c.anum]; }
if (c.snum.some(n => n !== -1)) { return c.snum.filter(n => n !== -1); }
return [1, 2, 3, 4, 5, 6, 7, 8, 9];
});
cand = cand.reduce((a, b) => a.flatMap(i => b.flatMap(j => i.includes(j) ? [] : [[...i, j]])), [[]]);
cand = cand.filter(l => new Set(l).size === l.length);
cand = cand.filter(l => l.reduce((a, b) => a + b) === n);
cand = (m => m[0].map((_, i) => m.map(x => x[i])))(cand);
cand = cand.map(l => Array.from(new Set(l)));
cand.forEach((a, i) => {
let c = clist[i];
if (a.length === 1) { add_number(c, a[0]); }
if (a.length <= 4) { add_candidate(c, a); }
});
});
}
function NanameguriAssist() {
SingleLoopInCell();
// 31 = \ , 32 = /
// form1~5 : █ ◣ ◢ ◥ ◤
let roomdata = board.getDiagonalRegions();
roomdata.forEach(room => {
let edges = Array.from(room.edges ?? []);
let inner = Array.from(room.inner ?? []);
if (edges.filter(b => isLine(b)).length === 2) {
edges.filter(b => !isLine(b)).forEach(b => add_cross(b));
}
if (edges.filter(b => !isCross(b) && b.inside).length === 2) {
edges.filter(b => !isCross(b) && b.inside).forEach(b => add_line(b));
}
if (edges.some(c => c.lcnt === 2) && edges.every(c => c.lcnt === 2)) {
Array.from(room.inner).forEach(b => add_cross(b));
}
let forms = [room.form1, room.form2, room.form3, room.form4, room.form5].map(o => Array.from(o ?? []));
edges.forEach(b => {
let [c1, c2] = b.sidecell;
if (!b.isvert && [0, 1, 2].some(n => forms[n].includes(c1)) && [0, 3, 4].some(n => forms[n].includes(c2))) {
add_cross(b);
}
if (b.isvert && [0, 2, 3].some(n => forms[n].includes(c1)) && [0, 1, 4].some(n => forms[n].includes(c2))) {
add_cross(b);
}
});
if ([...edges, ...inner].some(b => isLine(b))) {
let sb = [...edges, ...inner].find(b => isLine(b));
let sc = sb.sidecell.find(c => forms.flat().includes(c));
let abset = new Set([...edges, ...inner]);
let bset = new Set();
let dfs = function (c) {
if (!forms.flat().includes(c)) { return; }
adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (!abset.has(nb) || bset.has(nb) || isCross(nb)) { return; }
bset.add(nb);
dfs(nc);
});
};
dfs(sc);
[...edges, ...inner].forEach(b => {
if (!bset.has(b)) {
add_cross(b);
}
});
}
});
forEachCell(cell => {
if (cell.ques === 31 || cell.ques === 32) {
let fn = (b1, b2, b3, b4) => {
if ([b1, b2].some(b => !b.inside || isCross(b)) || [b3, b4].some(b => isLine(b))) {
add_cross(b1);
add_cross(b2);
add_line(b3);
add_line(b4);
}
};
let fn2 = (c1, c2) => {
if (c1.isnull || c2.isnull) { return false; }
if (c1.lcnt !== 1 || c2.lcnt !== 1) { return false; }
return c1.path === c2.path && board.linegraph.components.length > 1;
};
if (cell.ques === 31) {
fn(offset(cell, 0, -.5), offset(cell, .5, 0), offset(cell, 0, .5), offset(cell, -.5, 0));
fn(offset(cell, 0, .5), offset(cell, -.5, 0), offset(cell, 0, -.5), offset(cell, .5, 0));
}
if (cell.ques === 32) {
fn(offset(cell, .5, 0), offset(cell, 0, .5), offset(cell, -.5, 0), offset(cell, 0, -.5));
fn(offset(cell, -.5, 0), offset(cell, 0, -.5), offset(cell, .5, 0), offset(cell, 0, .5));
}
for (let d = 0; d < 4; d++) {
if (offset(cell, -.5, -.5, d).qsub !== CRQSUB.none) {
add_inout(offset(cell, .5, .5, d), offset(cell, -.5, -.5, d).qsub ^ (d % 2 !== 0) ^ (cell.ques !== 31));
}
if (fn2(offset(cell, 0, -1, d), offset(cell, 1, 0, d)) && [31, 32, 31, 32][d] === cell.ques) {
add_cross(offset(cell, 0, -.5, d));
add_cross(offset(cell, .5, 0, d));
}
}
}
});
}
function OneRoomOneDoorAssist() {
BlackNotAdjacent();
GreenConnected();
CellConnected({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
isNotPassable: (c, nb, nc) => nb.ques === 1,
cantDivideShade: () => true,
OnlyOneConnected: false,
UnshadeEmpty: false,
ForceSearch: true,
});
let bset = new Set();
forEachBorder(border => {
if (border.ques && border.sidecell.every(c => isGreen(c))) {
bset.add(JSON.stringify(border.sidecell.map(c => c.room.top.id).sort()));
}
});
forEachBorder(border => {
if (border.ques && border.sidecell.some(c => isGreen(c)) &&
bset.has(JSON.stringify(border.sidecell.map(c => c.room.top.id).sort()))) {
border.sidecell.forEach(c => add_black(c));
}
});
forEachCell(cell => {
if (!isBlack(cell) && !isGreen(cell)) {
for (let d1 = 0; d1 < 4; d1++) {
if (!isGreen(offset(cell, 1, 0, d1)) || !offset(cell, .5, 0, d1).ques) { continue; }
for (let d2 = d1 + 1; d2 < 4; d2++) {
if (!isGreen(offset(cell, 1, 0, d2)) || !offset(cell, .5, 0, d2).ques) { continue; }
if (offset(cell, 1, 0, d1).room === offset(cell, 1, 0, d2).room) {
add_black(cell);
}
}
}
let list = adjlist(cell.adjacent).flatMap(c => adjlist(c.adjborder, c.adjacent).map(([nb, nc]) => [c, nb, nc]));
list = list.filter(([c, nb, nc]) => !c.isnull && !nb.isnull && !nc.isnull && nc !== cell && nb.ques && !isBlack(c) && !isGreen(c) && isGreen(nc));
list.forEach(([c, nb, nc]) => {
if (list.some(([oc, onb, onc]) => c.room === oc.room && onb !== nb && nc.room === onc.room)) {
add_green(cell);
return;
}
});
}
});
forEachRoom(room => NShadeInClist({ n: room.top.qnum, clist: Array.from(room.clist) }));
}
function DosunFuwariAssist() {
let add_ball = function (c, t) {// 1 for balloon, 2 for iron ball
if (c === undefined || c.isnull || c.qsub === CQSUB.dot || c.qans !== CQANS.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQans(t);
c.draw();
};
let nb = new Set(), ni = new Set();
for (let x = 0; x < board.cols; x++) {
let list = [];
for (let y = 0; y < board.rows; y++) {
let cell = board.cell[y * board.cols + x];
if (cell.ques === 1) { list = []; continue; }
if (isDot(cell) || cell.qans === 2) { list = null; }
if (list !== null && list.some(c => c.room === cell.room)) { list = null; }
if (Array.from(cell.room.clist).some(c => c !== cell && c.qans === 1)) { list = null; }
if (list === null) { nb.add(cell); }
else { list.push(cell); }
if ((c => !c.isnull && c.qans === 2)(offset(cell, 0, -1))) { add_ball(cell, 2); }
}
list = [];
for (let y = board.rows - 1; y >= 0; y--) {
let cell = board.cell[y * board.cols + x];
if (cell.ques === 1) { list = []; continue; }
if (isDot(cell) || cell.qans === 1) { list = null; }
if (list !== null && list.some(c => c.room === cell.room)) { list = null; }
if (Array.from(cell.room.clist).some(c => c !== cell && c.qans === 2)) { list = null; }
if (list === null) { ni.add(cell); }
else { list.push(cell); }
if ((c => !c.isnull && c.qans === 1)(offset(cell, 0, +1))) { add_ball(cell, 1); }
if (nb.has(cell) && ni.has(cell)) { add_dot(cell); }
}
}
forEachRoom(room => {
let clist = Array.from(room.clist);
if (clist.filter(c => !nb.has(c)).length === 1) {
add_ball(clist.filter(c => !nb.has(c))[0], 1);
}
if (clist.filter(c => !ni.has(c)).length === 1) {
add_ball(clist.filter(c => !ni.has(c))[0], 2);
}
});
}
function TetrominousAssist() {
const N = 4;
SizeRegion_Border({
isLinkable: (c, nb, nc) => !nb.isnull && !isSide(nb),
isSideable: (c, nb, nc) => !nb.isnull && !isLink(nb),
allSize: N,
});
forEachBorder(b => { if (b.ques === 1) { add_side(b); } });
const TETRO = [// 0~4 : ILOST
[[[0, 0], [1, 0], [2, 0], [3, 0]], 0],
[[[0, 0], [1, 0], [2, 0], [2, 1]], 1],
[[[0, 0], [0, 1], [1, 0], [1, 1]], 2],
[[[0, 0], [1, 0], [1, 1], [2, 1]], 3],
[[[0, 0], [1, 0], [1, 1], [2, 0]], 4],
];
forEachCell(cell => {
if (cell.qnum >= 0) { add_number(cell, cell.qnum); }
for (let d = 0; d < 4; d++) {
if (cell.anum >= 0 && offset(cell, 1, 0, d).anum >= 0 && cell.anum === offset(cell, 1, 0, d).anum) {
add_link(offset(cell, .5, 0, d));
}
if (cell.anum >= 0 && offset(cell, 1, 0, d).anum >= 0 && cell.anum !== offset(cell, 1, 0, d).anum) {
add_side(offset(cell, .5, 0, d));
}
if (isLink(offset(cell, .5, 0, d)) && cell.anum !== CANUM.none) {
add_number(offset(cell, 1, 0, d), cell.anum);
}
}
if (cell.ques === CQUES.wall) { return; }
if (cell.anum >= 0 || adjlist(cell.adjborder).filter(b => b.isnull || isSide(b)).length === 3) {
let linklist = [], sidelist = [], namelist = [];
TETRO.forEach(([cl, t]) => {
if (cell.anum >= 0 && cell.anum !== t) { return; }
[[0, 1, 2, 3], [1, -1], [...Array(N).keys()]].reduce((a, b) => a.flatMap(i => b.flatMap(j => [[...i, j]])), [[]]).forEach(([d, f, o]) => {
let clist = cl.map(([x, y]) => offset(cell, x - cl[o][0], (y - cl[o][1]) * f, d));
if (clist.some(c => c.isnull || c.ques === CQUES.wall)) { return; }
if (clist.some(c => c.anum >= 0 && c.anum !== t)) { return; }
if (clist.some(c => adjlist(c.adjborder, c.adjacent).some(
([nb, nc]) => {
if (nc.isnull || nc.ques === CQUES.wall) { return false; }
if (isLink(nb) && !clist.includes(nc) || isSide(nb) && clist.includes(nc)) { return true; }
if (clist.includes(nc)) { return false; }
if (nc.anum >= 0 && nc.anum === t) { return true; }
let nclist = [];
let dfs = function (c) {
if (nclist.includes(c)) { return; }
nclist.push(c);
adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (isLink(nb)) { dfs(nc); }
});
};
dfs(nc);
return getShape(clist) === getShape(nclist);
}))) { return; }
let linkl = [], sidel = [];
clist.forEach(c => adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (clist.includes(nc) && !linkl.includes(nb)) { linkl.push(nb); }
if (!clist.includes(nc) && !sidel.includes(nb)) { sidel.push(nb); }
}));
linklist.push(linkl);
sidelist.push(sidel);
namelist.push(t);
});
});
if (linklist.length > 0) { linklist = linklist.reduce((a, b) => a.filter(i => b.includes(i))); }
if (sidelist.length > 0) { sidelist = sidelist.reduce((a, b) => a.filter(i => b.includes(i))); }
linklist.forEach(b => add_link(b));
sidelist.forEach(b => add_side(b));
namelist = Array.from(new Set(namelist));
if (namelist.length === 1) { add_number(cell, namelist[0]); }
}
});
}
function PentominousAssist() {
const N = 5;
SizeRegion_Border({
isLinkable: (c, nb, nc) => !nb.isnull && !isSide(nb),
isSideable: (c, nb, nc) => !nb.isnull && !isLink(nb),
allSize: N,
});
forEachBorder(b => { if (b.ques === 1) { add_side(b); } });
const PENTO = [// 0~11 : FILNPTUVWXYZ
[[[0, 0], [1, 0], [1, 1], [1, 2], [2, 1]], 0],
[[[0, 0], [1, 0], [2, 0], [3, 0], [4, 0]], 1],
[[[0, 0], [1, 0], [2, 0], [3, 0], [3, 1]], 2],
[[[0, 0], [1, 0], [2, 0], [2, 1], [3, 1]], 3],
[[[0, 0], [1, 0], [2, 0], [1, 1], [2, 1]], 4],
[[[0, 0], [1, 0], [1, 1], [1, 2], [2, 0]], 5],
[[[0, 0], [0, 1], [1, 0], [2, 0], [2, 1]], 6],
[[[0, 0], [1, 0], [2, 0], [2, 1], [2, 2]], 7],
[[[0, 0], [1, 0], [1, 1], [2, 1], [2, 2]], 8],
[[[0, 0], [0, 1], [0, 2], [-1, 1], [1, 1]], 9],
[[[0, 0], [1, 0], [1, 1], [2, 0], [3, 0]], 10],
[[[0, 0], [1, 0], [1, 1], [1, 2], [2, 2]], 11],
];
forEachCell(cell => {
if (cell.qnum >= 0) { add_number(cell, cell.qnum); }
for (let d = 0; d < 4; d++) {
if (cell.anum >= 0 && offset(cell, 1, 0, d).anum >= 0 && cell.anum === offset(cell, 1, 0, d).anum) {
add_link(offset(cell, .5, 0, d));
}
if (cell.anum >= 0 && offset(cell, 1, 0, d).anum >= 0 && cell.anum !== offset(cell, 1, 0, d).anum) {
add_side(offset(cell, .5, 0, d));
}
if (isLink(offset(cell, .5, 0, d)) && cell.anum !== CANUM.none) {
add_number(offset(cell, 1, 0, d), cell.anum);
}
}
if (cell.ques === CQUES.wall) { return; }
if (cell.anum >= 0 || adjlist(cell.adjborder).filter(b => b.isnull || isSide(b)).length === 3) {
let linklist = [], sidelist = [], namelist = [];
PENTO.forEach(([cl, t]) => {
if (cell.anum >= 0 && cell.anum !== t) { return; }
[[0, 1, 2, 3], [1, -1], [...Array(N).keys()]].reduce((a, b) => a.flatMap(i => b.flatMap(j => [[...i, j]])), [[]]).forEach(([d, f, o]) => {
let clist = cl.map(([x, y]) => offset(cell, x - cl[o][0], (y - cl[o][1]) * f, d));
if (clist.some(c => c.isnull || c.ques === CQUES.wall)) { return; }
if (clist.some(c => c.anum >= 0 && c.anum !== t)) { return; }
if (clist.some(c => adjlist(c.adjborder, c.adjacent).some(
([nb, nc]) => {
if (nc.isnull || nc.ques === CQUES.wall) { return false; }
if (isLink(nb) && !clist.includes(nc) || isSide(nb) && clist.includes(nc)) { return true; }
if (clist.includes(nc)) { return false; }
if (nc.anum >= 0 && nc.anum === t) { return true; }
let nclist = [];
let dfs = function (c) {
if (nclist.includes(c)) { return; }
nclist.push(c);
adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (isLink(nb)) { dfs(nc); }
});
};
dfs(nc);
return getShape(clist) === getShape(nclist);
}))) { return; }
let linkl = [], sidel = [];
clist.forEach(c => adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (clist.includes(nc) && !linkl.includes(nb)) { linkl.push(nb); }
if (!clist.includes(nc) && !sidel.includes(nb)) { sidel.push(nb); }
}));
linklist.push(linkl);
sidelist.push(sidel);
namelist.push(t);
});
});
if (linklist.length > 0) { linklist = linklist.reduce((a, b) => a.filter(i => b.includes(i))); }
if (sidelist.length > 0) { sidelist = sidelist.reduce((a, b) => a.filter(i => b.includes(i))); }
linklist.forEach(b => add_link(b));
sidelist.forEach(b => add_side(b));
namelist = Array.from(new Set(namelist));
if (namelist.length === 1) { add_number(cell, namelist[0]); }
}
});
}
function FourCellsAssist() {
SizeRegion_Border({
isLinkable: (c, nb, nc) => !nb.isnull && !isSide(nb),
isSideable: (c, nb, nc) => !nb.isnull && !isLink(nb),
allSize: 4,
});
forEachCell(cell => {
if (cell.qnum >= 0) {
let list = adjlist(cell.adjborder, cell.adjacent);
if (list.filter(([nb, nc]) => isSide(nb) || nc.isnull || nc.ques === CQUES.wall).length === cell.qnum) {
list.filter(([nb, nc]) => !isSide(nb)).forEach(([nb, nc]) => add_link(nb));
}
if (list.filter(([nb, nc]) => !isLink(nb)).length === cell.qnum) {
list.filter(([nb, nc]) => !isLink(nb)).forEach(([nb, nc]) => add_side(nb));
}
}
for (let d = 0; d < 4; d++) {
if (cell.qnum === 1 && [1, 2].includes(offset(cell, 1, 0, d).qnum)) {
add_side(offset(cell, .5, 0, d));
}
if (cell.qnum === 3 && offset(cell, 1, 0, d).qnum === 3) {
add_side(offset(cell, .5, 0, d));
}
if (cell.qnum === 1 && isLink(offset(cell, .5, 0, d))) {
add_side(offset(cell, 1, -.5, d));
add_side(offset(cell, 1.5, 0, d));
add_side(offset(cell, 1, .5, d));
}
if (cell.qnum === 1 && [[1, -.5], [1.5, 0], [1, .5]].some(([x, y]) => isLink(offset(cell, x, y, d)))) {
add_side(offset(cell, .5, 0, d));
}
if (cell.qnum === 1 && isSide(offset(cell, 1, 1.5, d)) && isSide(offset(cell, 1.5, 1, d))) {
add_link(offset(cell, -.5, 0, d));
add_link(offset(cell, 0, -.5, d));
}
}
});
}
function FiveCellsAssist() {
SizeRegion_Border({
isLinkable: (c, nb, nc) => !nb.isnull && !isSide(nb),
isSideable: (c, nb, nc) => !nb.isnull && !isLink(nb),
allSize: 5,
});
forEachCell(cell => {
if (cell.qnum >= 0) {
let list = adjlist(cell.adjborder, cell.adjacent);
if (list.filter(([nb, nc]) => isSide(nb) || nc.isnull || nc.ques === CQUES.wall).length === cell.qnum) {
list.filter(([nb, nc]) => !isSide(nb)).forEach(([nb, nc]) => add_link(nb));
}
if (list.filter(([nb, nc]) => !isLink(nb)).length === cell.qnum) {
list.filter(([nb, nc]) => !isLink(nb)).forEach(([nb, nc]) => add_side(nb));
}
}
for (let d = 0; d < 4; d++) {
if (cell.qnum === 1 && offset(cell, 1, 0, d).qnum === 1) {
add_side(offset(cell, .5, 0, d));
}
if (cell.qnum === 3 && offset(cell, 1, 0, d).qnum === 3) {
add_side(offset(cell, .5, 0, d));
}
if (cell.qnum === 1 && isLink(offset(cell, 1, .5, d)) && isLink(offset(cell, .5, 1, d))) {
add_link(offset(cell, .5, 0, d));
add_link(offset(cell, 0, .5, d));
}
if (cell.qnum === 3 && isLink(offset(cell, 1, .5, d)) && isLink(offset(cell, .5, 1, d))) {
add_side(offset(cell, .5, 0, d));
add_side(offset(cell, 0, .5, d));
}
}
});
}
function SchoolTripAssist() {
let add_bed = function (c, d) { // NUDLR = 01234
if (c === undefined || c.isnull || c.qnum !== CQNUM.none || ![CQANS.none, 41, 46].includes(c.qans)) { return; }
if (d === 5 && c.qans === 41) { return; }
if (step && flg) { return; }
flg ||= (41 + d) !== c.qans;
c.setQans(41 + d);
if (d > 0 && d <= 4) {
let nc = [null, offset(c, 0, -1), offset(c, 0, 1), offset(c, -1, 0), offset(c, 1, 0)][d];
let nd = [null, 2, 1, 4, 3][d];
nc.setQans(46 + nd);
}
c.draw();
};
let add_black = function (c) {
if (c.qnum !== CQNUM.none || c.qnums.length > 0) { return; }
if (c === undefined || c.isnull || c.lcnt !== 0 || c.qans !== CQANS.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQans(CQANS.black);
if (c.qsub === CQSUB.dot) {
c.setQsub(CQSUB.none);
}
c.draw();
};
let add_dot = function (c) {
if (c === undefined || c.isnull || c.qnum !== CQNUM.none || [CQANS.black, 41, 42, 43, 44, 45].includes(c.qans) || c.qsub !== CQSUB.none) { return; }
if (step && flg) { return; }
flg ||= c.lcnt === 0;
c.setQsub(CQSUB.dot);
c.draw();
};
let isEmpty = c => !c.isnull && c.qans === CQANS.none && c.qnum === CQNUM.none;
CellConnected({
isShaded: isBlack,
isUnshaded: c => c.isnull || c.qans > 1 || c.qnum !== CQNUM.none,
add_shaded: add_black,
add_unshaded: c => add_bed(c, 5),
});
No2x2Cell({
isShaded: isBlack,
add_unshaded: c => add_bed(c, 5),
});
forEachCell(cell => {
if (cell.qnum !== CQNUM.none && cell.qnum !== CQNUM.quesmark) {
let fn = c => [41, 42, 43, 44, 45].includes(c.qans) || (isEmpty(c) || c.qans === 46) && !isDot(c) &&
[offset(c, 1, 0), offset(c, 0, -1), offset(c, -1, 0)].some(c => isEmpty(c) || c.qans === 46);
if (adjlist(cell.adjacent).filter(c => fn(c)).length === cell.qnum) {
adjlist(cell.adjacent).filter(c => fn(c)).forEach(c => add_bed(c, 0));
}
if (adjlist(cell.adjacent).filter(c => [41, 42, 43, 44, 45].includes(c.qans)).length === cell.qnum) {
fourside(add_dot, cell.adjacent);
}
}
if (isEmpty(cell) || cell.qans === 41 || cell.qans === 46) {
let tmp = [
[cell, offset(cell, 1, 0), 4],
[cell, offset(cell, 0, -1), 1],
[cell, offset(cell, -1, 0), 3],
[offset(cell, -1, 0), cell, 4],
[offset(cell, 0, 1), cell, 1],
[offset(cell, 1, 0), cell, 3],
].filter(([hc, bc, d]) => {
if (hc.isnull || bc.isnull) { return false; }
if (!isEmpty(hc) && hc.qans !== 41 && hc.qans !== 46) { return false; }
if (!isEmpty(bc) && bc.qans !== 46) { return false; }
if (isDot(hc)) { return false; }
return true;
});
if (cell.qans === 46 && tmp.length === 2 && tmp[0][0] === tmp[1][1]) {
add_bed(tmp[0][0], 5);
add_bed(tmp[0][1], 5);
}
if (tmp.every(([hc, bc, d]) => hc !== cell)) {
add_dot(cell);
}
if (tmp.length === 0) {
add_black(cell);
}
if ((cell.qans === 41 || cell.qans === 46) && tmp.length === 1) {
add_bed(tmp[0][0], tmp[0][2]);
}
}
for (let d = 0; d < 4; d++) {
if ([45, 42, 44, 43][d] !== cell.qans) { continue; }
let tmp = [[-1, 0], [2, 0], [0, 1], [0, -1], [1, 1], [1, -1],].map(([x, y]) => offset(cell, x, y, d));
if (tmp.filter(c => isBlack(c) || isEmpty(c)).length === 1) {
tmp.forEach(c => add_black(c));
}
}
});
}
function AntMillAssist() {
BlackDomino();
const squ = 1, crs = 2;
let isDominoAble = function (border) {
if (border.isnull) { return false; }
if (isGreen(border.sidecell[0]) || isGreen(border.sidecell[1])) { return false; }
if (border.ques === crs) { return false; }
let clist, nclist;
if (border.isvert) {
clist = [offset(border, +1.5, +1), offset(border, +1.5, -1), offset(border, -1.5, +1), offset(border, -1.5, -1)];
nclist = [offset(border, +1.5, 0), offset(border, -1.5, 0), offset(border, +.5, +1), offset(border, +.5, -1), offset(border, -.5, +1), offset(border, -.5, -1)];
} else {
clist = [offset(border, +1, +1.5), offset(border, -1, +1.5), offset(border, +1, -1.5), offset(border, -1, -1.5)];
nclist = [offset(border, 0, +1.5), offset(border, 0, -1.5), offset(border, +1, +.5), offset(border, -1, +.5), offset(border, +1, -.5), offset(border, -1, -.5)];
}
clist = clist.filter(c => !c.isnull && !isGreen(c));
return clist.length >= 2 && nclist.every(c => !isBlack(c));
}
forEachBorder(border => {
if (border.ques === squ) {
if (isBlack(border.sidecell[0])) { add_black(border.sidecell[1]); }
if (isBlack(border.sidecell[1])) { add_black(border.sidecell[0]); }
if (isGreen(border.sidecell[0])) { add_green(border.sidecell[1]); }
if (isGreen(border.sidecell[1])) { add_green(border.sidecell[0]); }
if (!isDominoAble(border)) {
add_green(border.sidecell[0]);
add_green(border.sidecell[1]);
}
}
if (border.ques === crs) {
if (isBlack(border.sidecell[0])) { add_green(border.sidecell[1]); }
if (isBlack(border.sidecell[1])) { add_green(border.sidecell[0]); }
if (isGreen(border.sidecell[0])) { add_black(border.sidecell[1]); }
if (isGreen(border.sidecell[1])) { add_black(border.sidecell[0]); }
}
if (isBlack(border.sidecell[0]) && isBlack(border.sidecell[1])) {
let clist;
if (border.isvert) {
clist = [offset(border, +1.5, +1), offset(border, +1.5, -1), offset(border, -1.5, +1), offset(border, -1.5, -1)];
} else {
clist = [offset(border, +1, +1.5), offset(border, -1, +1.5), offset(border, +1, -1.5), offset(border, -1, -1.5)];
}
clist = clist.filter(c => !c.isnull && !isGreen(c));
if (clist.length === 2) {
clist.forEach(c => add_black(c));
}
if (clist.filter(c => isBlack(c)).length === 2) {
clist.forEach(c => add_green(c));
}
}
});
forEachCell(cell => {
for (let d = 0; d < 4; d++) {
if (isBlack(cell) && !isDominoAble(offset(cell, .5, 0, d))) {
add_green(offset(cell, 1, 0, d));
}
}
if (adjlist(cell.adjborder).filter(b => b.ques === squ).length > 1) {
add_green(cell);
}
if (adjlist(cell.adjborder).every(b => !isDominoAble(b))) {
add_green(cell);
}
});
}
function DoubleChocoAssist() {
SizeRegion_Border({
isLinkable: (c, nb, nc) => c.ques === nc.ques,
isSideable: (c, nb, nc) => c.ques === nc.ques,
});
let cset = new Set();
forEachCell(cell => {
let clist = [];
if (cset.has(cell)) { return; }
let dfs = function (c) {
if (clist.includes(c)) { return; }
clist.push(c);
cset.add(c);
fourside((nb, nc) => {
if (isLink(nb) && c.ques === nc.ques) {
dfs(nc);
}
}, c.adjborder, c.adjacent);
};
dfs(cell);
if (clist.every(c => adjlist(c.adjborder, c.adjacent).every(([nb, nc]) => isLink(nb) || isSide(nb) || nc.isnull || c.ques !== nc.ques))) {
let oclist = [], olclist = [];
clist.forEach(c => adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (!isSide(nb) && !nc.isnull && c.ques !== nc.ques) {
oclist.push(nc);
if (isLink(nb)) {
olclist.push(nc);
}
}
}));
if (olclist.length !== 0) {
oclist = [olclist[0]];
}
let cand = clist.flatMap((cc) => {
let r = [clist.map(c => [c.bx - cc.bx, c.by - cc.by])];
r = [...r, ...r.map(l => l.map(([x, y]) => [-y, x]))];
r = [...r, ...r.map(l => l.map(([x, y]) => [-x, y]))];
r = [...r, ...r.map(l => l.map(([x, y]) => [x, -y]))];
r = r.flatMap(l => oclist.map(oc => l.map(([x, y]) => board.getc(oc.bx + x, oc.by + y))));
r = r.filter(l => l.every(c => !c.isnull && c.ques !== cell.ques && (c.qnum === CQNUM.none || c.qnum === clist.length) && !adjlist(c.adjborder, c.adjacent).some(([nb, nc]) => isLink(nb) && !l.includes(nc) && !clist.includes(nc) || isSide(nb) && l.includes(nc))));
if (olclist.length !== 0) {
r = r.filter(l => olclist.every(c => l.includes(c)));
}
return r;
});
if (cand.length > 0) {
let icset = new Set([...cand.reduce((a, b) => a.filter(c => b.includes(c))), ...clist]);
let ucset = new Set(cand.flat());
Array.from(icset).forEach(c => adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (icset.has(nc)) {
add_link(nb);
}
if (!icset.has(nc) && !ucset.has(nc)) {
add_side(nb);
}
}));
}
}
if (clist.every(c => adjlist(c.adjborder, c.adjacent).every(([nb, nc]) => isSide(nb) || nc.isnull || c.ques === nc.ques))) {
let ocset = new Set();
clist.forEach(c => adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (isLink(nb) || isSide(nb) || nc.isnull || clist.includes(nc)) { return; }
ocset.add(nc);
}))
if (ocset.size === 1) {
let oc = Array.from(ocset)[0];
adjlist(oc.adjborder, oc.adjacent).forEach(([nb, nc]) => {
if (clist.includes(nc)) {
add_link(nb);
}
});
}
}
});
}
function MyopiaAssist() {
SingleLoopInBorder();
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
if (cell.qnum === 15 && board.linegraph.components.length > 0 && adjlist(cell.adjborder).every(b => !b.line)) {
adjlist(cell.adjborder).forEach(b => add_cross(b));
}
let arr = [0b0001, 0b0100, 0b0010, 0b1000].map(n => (cell.qnum & n) !== 0);
let dist = [];
for (let di = 0.5; di < Math.min(board.rows, board.cols); di++) {
let temp = [0, 1, 2, 3].map(n => offset(cell, 0, -di, n));
if (temp.some((b, i) => b.isnull && arr[i])) { break; }
if (temp.some((b, i) => b.line && !arr[i])) { break; }
if (temp.every((b, i) => !arr[i] || !b.isnull && b.qsub !== BQSUB.cross)) {
dist.push(di);
}
if (temp.some((b, i) => b.line && arr[i])) { break; }
}
let l = dist.reduce((a, b) => Math.min(a, b), Math.min(board.rows, board.cols));
for (let di = 0.5; di <= l; di++) {
let temp = [0, 1, 2, 3].map(n => offset(cell, 0, -di, n));
temp.forEach((b, i) => {
if (di < l || !arr[i]) {
add_cross(b);
}
if (dist.length === 1 && di === l && arr[i]) {
add_line(b);
}
});
}
}
});
}
function PutteriaAssist() {
forEachCell(cell => {
if (cell.qnum === CQNUM.quesmark) {
add_dot(cell);
}
if (cell.qnum !== CQNUM.quesmark && cell.qnum !== CQNUM.none) {
add_number(cell, cell.qnum);
}
if (cell.anum !== CANUM.none) {
fourside((nc) => {
add_dot(nc);
}, cell.adjacent);
}
// 2 2 2·2
// 2 2 -> 2·2
for (let d = 0; d < 4; d++) {
let list = [cell, offset(cell, 0, 1, d), offset(cell, 2, 0, d), offset(cell, 2, 1, d)];
if (list.every(c => !c.isnull && c.room.clist.length === 2)) {
add_dot(offset(cell, 1, 0, d));
add_dot(offset(cell, 1, 1, d));
}
}
});
forEachRoom(room => {
let clist = Array.from(room.clist).filter(c => c.qsub !== CQSUB.dot && c.qnum !== CQNUM.quesmark);
if (clist.some(c => c.anum !== CANUM.none)) {
clist.forEach(c => add_dot(c));
}
if (clist.length === 1) {
add_number(clist[0], room.clist.length);
return;
}
if (clist.length === 2) {
for (let d = 0; d < 4; d++) {
if (offset(clist[0], 1, 1, d) === clist[1]) {
add_dot(offset(clist[0], 0, 1, d));
add_dot(offset(clist[0], 1, 0, d));
}
if (offset(clist[0], 2, 0, d) === clist[1]) {
add_dot(offset(clist[0], 1, 0, d));
}
}
}
if (clist.length > 0 && clist.every(c => c.bx === clist[0].bx)) {
for (let j = 0; j < board.rows; j++) {
let ac = board.getc(clist[0].bx, j * 2 + 1);
if (ac.room !== room && ac.room.clist.length === room.clist.length) {
add_dot(ac);
}
}
}
if (clist.length > 0 && clist.every(c => c.by === clist[0].by)) {
for (let i = 0; i < board.cols; i++) {
let ac = board.getc(i * 2 + 1, clist[0].by);
if (ac.room !== room && ac.room.clist.length === room.clist.length) {
add_dot(ac);
}
}
}
});
let fn = function (clist) {
let set = new Set();
clist.forEach(cell => {
if (cell.anum !== CANUM.none) {
set.add(cell.anum);
}
});
clist.forEach(cell => {
if (set.has(cell.room.clist.length)) {
add_dot(cell);
}
});
}
for (let i = 0; i < board.cols; i++) {
let clist = [];
for (let j = 0; j < board.rows; j++) {
clist.push(board.getc(i * 2 + 1, j * 2 + 1));
}
fn(clist);
}
for (let j = 0; j < board.rows; j++) {
let clist = [];
for (let i = 0; i < board.cols; i++) {
clist.push(board.getc(i * 2 + 1, j * 2 + 1));
}
fn(clist);
}
}
function FillominoAssist() {
SizeRegion_Border();
forEachCell(cell => {
if (cell.qnum !== CQNUM.none && cell.qnum !== CQNUM.quesmark) { add_number(cell, cell.qnum); }
if (cell.anum !== CANUM.none) {
fourside((nb, nc) => {
if (nb.isnull || nc.isnull) { return; }
if (nc.anum === cell.anum) {
add_link(nb);
}
if (nc.anum !== CANUM.none && nc.anum !== cell.anum) {
add_side(nb);
}
if (nb.qsub === BQSUB.link) {
add_number(nc, cell.anum);
}
}, cell.adjborder, cell.adjacent);
let clist = [];
let dfs = function (c) {
if (clist.includes(c)) { return; }
clist.push(c);
fourside((nb, nc) => {
if (!nb.qans && !nc.isnull && (nc.anum === cell.anum || nc.anum === CANUM.none)) { dfs(nc); }
}, c.adjborder, c.adjacent);
};
dfs(cell);
if (clist.length === cell.anum) {
clist.forEach(c => add_number(c, cell.anum));
}
}
if (cell.anum === CANUM.none) {
let temp = adjlist(cell.adjborder, cell.adjacent);
temp = temp.filter(([nb, nc]) => !nb.isnull && !nc.isnull && nc.anum !== CANUM.none);
temp = temp.map(([nb, nc]) => nc.anum);
temp.forEach(n => {
if (temp.filter(nn => nn === n).length <= 1) { return; }
let clist = [];
let dfs = function (c) {
if (clist.includes(c)) { return; }
clist.push(c);
fourside((nb, nc) => {
if (!nc.isnull && nc.anum === n) { dfs(nc); }
}, c.adjborder, c.adjacent);
};
dfs(cell);
if (clist.length > n) {
fourside((nb, nc) => {
if (!nc.isnull && nc.anum === n) {
add_side(nb);
}
}, cell.adjborder, cell.adjacent);
}
})
}
if (adjlist(cell.adjborder).every(b => b.isnull || isSide(b))) {
add_number(cell, 1);
}
if (adjlist(cell.adjborder).filter(b => b.isnull || isSide(b)).length === 3 &&
adjlist(cell.adjacent).some(c => !c.isnull && c.qnum === 1)) {
fourside(b => add_link(b), cell.adjborder);
}
});
}
function NawabariAssist() {
RectRegion_Border({
isSizeAble: (w, h, sc, c) => {
for (let i = 0; i < w; i++) {
for (let j = 0; j < h; j++) {
if (offset(c, i, j).qnum === CQNUM.none) { continue; }
if (sc !== null && sc !== offset(c, i, j)) { return false; }
sc = offset(c, i, j);
}
}
if (sc === null) { return false; }
let sn = 0;
sn += (c.bx === sc.bx ? 1 : 0);
sn += (c.by === sc.by ? 1 : 0);
sn += (c.bx + (w - 1) * 2 === sc.bx ? 1 : 0);
sn += (c.by + (h - 1) * 2 === sc.by ? 1 : 0);
return sc.qnum === CQNUM.quesmark || sc.qnum === sn;
}
});
}
function BarnsAssist() {
SingleLoopInCell({
isPass: c => true,
isPathable: b => !b.isnull && !b.ques && b.qsub !== BQSUB.cross,
});
}
function MinarismAssist() {
let add_candidate = function (c, l) {
if (c.isnull || c.anum !== -1) { return; }
while (l.length < 4) { l.push(-1); }
if (c.snum.join(',') === l.join(',')) { return; }
if (step && flg) { return; }
flg = true;
[0, 1, 2, 3].forEach(n => c.setSnum(n, l[n]));
c.draw();
}
let add_number = function (c, n) {
if (c.isnull || c.anum !== -1) { return; }
if (step && flg) { return; }
flg = true;
[0, 1, 2, 3].forEach(n => c.setSnum(n, -1));
c.setAnum(n);
c.draw();
}
let size = board.rows;
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_number(cell, cell.qnum);
}
});
forEachCell(cell => {
if (cell.anum !== -1) { return; }
let arr = () => Array(size).fill().map((_, i) => i + 1);
let cand = arr(), row = arr(), col = arr();
forEachCell(c => {
if (cell === c) { return; }
let b = c.anum === -1 && c.snum.every(n => n === -1);
if (cell.bx === c.bx) { col = b ? [] : col.filter(n => n !== c.anum && !c.snum.includes(n)); }
if (cell.by === c.by) { row = b ? [] : row.filter(n => n !== c.anum && !c.snum.includes(n)); }
if (c.anum === -1) { return; }
if (cell.bx === c.bx || cell.by === c.by) {
cand = cand.filter(n => n !== c.anum);
}
});
if (col.length === 1) { add_number(cell, col[0]); return; }
if (row.length === 1) { add_number(cell, row[0]); return; }
if (cell.snum.some(n => n !== -1)) {
add_candidate(cell, cell.snum.filter(n => cand.includes(n)).sort((a, b) => (a - b)));
cand = cand.filter(n => cell.snum.includes(n));
}
if (cell.snum.filter(n => n !== -1).length === 1) {
add_number(cell, cell.snum.find(n => n !== -1));
return;
}
for (let d = 0; d < 4; d++) {
if (offset(cell, .5, 0, d).isnull) { continue; }
let ncell = offset(cell, 1, 0, d);
let nlist = arr();
if (ncell.snum.some(n => n !== -1)) { nlist = ncell.snum.filter(n => n !== -1); }
if (ncell.anum !== -1) { nlist = [ncell.anum]; }
if (offset(cell, .5, 0, d).qnum !== BQNUM.none) {
let dt = offset(cell, .5, 0, d).qnum;
cand = cand.filter(n => nlist.includes(n - dt) || nlist.includes(n + dt));
}
if ([4, 1, 3, 2][d] === offset(cell, .5, 0, d).qdir) {
cand = cand.filter(n => nlist.some(m => n > m));
}
if ([3, 2, 4, 1][d] === offset(cell, .5, 0, d).qdir) {
cand = cand.filter(n => nlist.some(m => n < m));
}
}
if (cand.length <= 4) {
add_candidate(cell, cand);
}
});
}
function KropkiAssist() {
let add_candidate = function (c, l) {
if (c.isnull || c.anum !== -1) { return; }
while (l.length < 4) { l.push(-1); }
if (c.snum.join(',') === l.join(',')) { return; }
if (step && flg) { return; }
flg = true;
[0, 1, 2, 3].forEach(n => c.setSnum(n, l[n]));
c.draw();
}
let add_number = function (c, n) {
if (c.isnull || c.anum !== -1) { return; }
if (step && flg) { return; }
flg = true;
[0, 1, 2, 3].forEach(n => c.setSnum(n, -1));
c.setAnum(n);
c.draw();
}
let size = board.rows;
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_number(cell, cell.qnum);
}
});
forEachCell(cell => {
if (cell.anum !== -1) { return; }
let arr = () => Array(size).fill().map((_, i) => i + 1);
let cand = arr(), row = arr(), col = arr();
forEachCell(c => {
if (cell === c) { return; }
let b = c.anum === -1 && c.snum.every(n => n === -1);
if (cell.bx === c.bx) { col = b ? [] : col.filter(n => n !== c.anum && !c.snum.includes(n)); }
if (cell.by === c.by) { row = b ? [] : row.filter(n => n !== c.anum && !c.snum.includes(n)); }
if (c.anum === -1) { return; }
if (cell.bx === c.bx || cell.by === c.by) {
cand = cand.filter(n => n !== c.anum);
}
});
if (col.length === 1) { add_number(cell, col[0]); return; }
if (row.length === 1) { add_number(cell, row[0]); return; }
if (cell.snum.some(n => n !== -1)) {
add_candidate(cell, cell.snum.filter(n => cand.includes(n)).sort((a, b) => (a - b)));
cand = cand.filter(n => cell.snum.includes(n));
}
if (cell.snum.filter(n => n !== -1).length === 1) {
add_number(cell, cell.snum.find(n => n !== -1));
return;
}
for (let d = 0; d < 4; d++) {
if (offset(cell, .5, 0, d).isnull) { continue; }
let ncell = offset(cell, 1, 0, d);
let nlist = arr();
if (ncell.snum.some(n => n !== -1)) { nlist = ncell.snum.filter(n => n !== -1); }
if (ncell.anum !== -1) { nlist = [ncell.anum]; }
if (offset(cell, .5, 0, d).qnum === BQNUM.wcir) {
cand = cand.filter(n => nlist.includes(n - 1) || nlist.includes(n + 1));
}
if (offset(cell, .5, 0, d).qnum === BQNUM.bcir) {
cand = cand.filter(n => nlist.includes(n / 2) || nlist.includes(n * 2));
}
if (offset(cell, .5, 0, d).qnum === BQNUM.none) {
cand = cand.filter(n => nlist.some(m => ![n - 1, n + 1, n / 2, n * 2].includes(m)));
}
}
if (cand.length <= 4) {
add_candidate(cell, cand);
}
});
}
function MidloopAssist() {
SingleLoopInCell({
isPass: c => c.qnum === CQNUM.bcir,
});
let isDot = c => !c.isnull && c.qnum === CQNUM.bcir;
forEachCell(cell => {
for (let d = 0; d < 4; d++) {
if (isDot(cell) && offset(cell, .5, .5, d).qsub !== CRQSUB.none) {
add_inout(offset(cell, -.5, -.5, d), offset(cell, .5, .5, d).qsub ^ 1);
}
}
});
for (let i = board.minbx + 1; i <= board.maxbx - 1; i++) {
for (let j = board.minby + 1; j <= board.maxby - 1; j++) {
let obj = board.getobj(i, j);
if (!isDot(obj)) { continue; }
let d, b1, b2;
if (i % 2 === 0 && j % 2 === 0) { continue; }
if (i % 2 === 0 || j % 2 === 0) {
add_line(obj);
d = (i % 2 === 0 ? 0 : 1);
b1 = b2 = obj;
}
if (i % 2 === 1 && j % 2 === 1) {
if (adjlist(obj.adjborder).every(b => !b.isnull && !b.line && b.qsub !== BQSUB.cross) &&
[offset(obj, 0, -.5), offset(obj, 0, -1), offset(obj, 0, +.5), offset(obj, 0, +1),
offset(obj, -.5, 0), offset(obj, -1, 0), offset(obj, +.5, 0), offset(obj, +1, 0),].every(obj => !isDot(obj))) { continue; }
if ([obj.adjborder.top, obj.adjborder.bottom].some(b => b.isnull || b.qsub === BQSUB.cross) ||
[obj.adjborder.left, obj.adjborder.right].some(b => !b.isnull && b.line) ||
[offset(obj, 0, -.5), offset(obj, 0, -1),
offset(obj, 0, +.5), offset(obj, 0, +1),].some(obj => isDot(obj))) {
d = 0;
b1 = obj.adjborder.left;
b2 = obj.adjborder.right;
} else {
d = 1;
b1 = obj.adjborder.top;
b2 = obj.adjborder.bottom;
}
add_line(b1);
add_line(b2);
}
while (!b1.isnull && !b2.isnull && (b1.line || b2.line)) {
add_line(b1);
add_line(b2);
b1 = offset(b1, -1, 0, d);
b2 = offset(b2, +1, 0, d);
if (b1.qsub === BQSUB.cross || b2.qsub === BQSUB.cross ||
b1.isnull || b2.isnull ||
[offset(b1, -.5, 0, d), offset(b1, -1, 0, d),
offset(b2, +.5, 0, d), offset(b2, +1, 0, d),].some(obj => isDot(obj))) {
add_cross(b1);
add_cross(b2);
}
}
}
}
}
function PipelinkAssist() {
forEachCell(cell => {
// 11:╋; 12:┃; 13:━; 14:┗; 15:┛; 16:┓; 17:┏
const tmp = [ // ques, u, l, d, r
[11, 1, 1, 1, 1],
[12, 1, 0, 1, 0],
[13, 0, 1, 0, 1],
[14, 1, 0, 0, 1],
[15, 1, 1, 0, 0],
[16, 0, 1, 1, 0],
[17, 0, 0, 1, 1],
];
if (cell.ques === CQUES.none) { return; }
adjlist(cell.adjborder).forEach((b, i) => tmp[cell.ques - 11][i + 1] === 1 ? add_line(b) : add_cross(b));
});
forEachCell(cell => {
let list = adjlist(cell.adjborder);
let linecnt = list.filter(b => !b.isnull && b.line).length;
let crosscnt = list.filter(b => b.isnull || b.qsub === BQSUB.cross).length;
if (linecnt === 3 || crosscnt === 2) {
fourside(add_line, cell.adjborder);
}
if (linecnt === 2 && crosscnt === 1) {
fourside(add_cross, cell.adjborder);
}
for (let d = 0; d < 4; d++) {
if (!offset(cell, 0.5, 0, d).line || !offset(cell, 0, 0.5, d).line) { continue; }
if ((b => b.isnull || b.line || b.qsub === BQSUB.cross)(offset(cell, -.5, 0, d))) { continue; }
if ((b => b.isnull || b.line || b.qsub === BQSUB.cross)(offset(cell, 0, -.5, d))) { continue; }
let dd = d;
let pcell = offset(cell, 1, 0, dd);
while (pcell !== cell) {
if (!offset(pcell, 0.5, 0, dd).line) {
if ((b => !b.isnull && b.qsub !== BQSUB.cross)(offset(pcell, .5, 0, dd))) { break; }
if (!offset(pcell, .5, 0, dd - 1).line && !offset(pcell, .5, 0, dd + 1).line) { break; }
dd = (offset(pcell, .5, 0, dd - 1).line ? dd + 3 : dd + 1) % 4;
}
pcell = offset(pcell, 1, 0, dd);
}
if (pcell === cell && board.linegraph.components.length > 1) {
fourside(add_line, cell.adjborder);
}
}
});
}
function RingringAssist() {
let isWall = c => c.ques === 1;
let isNotPathable = b => b.isnull || b.qsub === BQSUB.cross;
forEachCell(cell => {
if (isWall(cell)) {
fourside(add_cross, cell.adjborder);
}
if (cell.lcnt === 3) {
fourside(add_line, cell.adjborder);
}
if (cell.lcnt === 2 && adjlist(cell.adjborder).some(b => isNotPathable(b))) {
fourside(add_cross, cell.adjborder);
}
let templist = adjlist(cell.adjborder, cell.adjacent);
templist = templist.filter(([nb, nc]) => !(nc.isnull || isWall(nc) || nb.qsub === BQSUB.cross));
if (templist.length === 2) {
templist.forEach(([nb, nc]) => add_line(nb));
}
});
// make the right turning
forEachCell(cell => {
for (let d = 0; d < 4; d++) {
if (!offset(cell, 0, -.5, d).line || !offset(cell, -.5, 0, d).line) { continue; }
if (!isNotPathable(offset(cell, 0, .5, d))) { continue; }
let pcell = cell;
while (offset(pcell, 0, -.5, d).line) {
pcell = offset(pcell, 0, -1, d);
if (isNotPathable(offset(pcell, 0, -.5, d))) {
add_line(offset(pcell, -.5, 0, d));
add_cross(offset(pcell, .5, 0, d));
break;
}
if (offset(pcell, .5, 0, d).line) {
fourside(add_line, pcell.adjborder);
}
}
}
for (let d = 0; d < 4; d++) {
if (!offset(cell, 0, -.5, d).line || !offset(cell, .5, 0, d).line) { continue; }
if (!isNotPathable(offset(cell, 0, .5, d))) { continue; }
let pcell = cell;
while (offset(pcell, 0, -.5, d).line) {
pcell = offset(pcell, 0, -1, d);
if (isNotPathable(offset(pcell, 0, -.5, d))) {
add_line(offset(pcell, .5, 0, d));
add_cross(offset(pcell, -.5, 0, d));
break;
}
if (offset(pcell, -.5, 0, d).line) {
fourside(add_line, pcell.adjborder);
}
}
}
});
forEachCell(cell => {
for (let d = 0; d < 4; d++) {
if (!offset(cell, 0, .5, d).line || !offset(cell, .5, 0, d).line) { continue; }
if (!isNotPathable(offset(cell, 0, -.5, d)) && !isNotPathable(offset(cell, -.5, 0, d))) { continue; }
let h = 1, w = 1;
while (offset(cell, 0, h + .5, d).line) { h++; }
while (offset(cell, w + .5, 0, d).line) { w++; }
let fg = false;
do {
fg = false;
for (let i = 1; i <= h; i++) {
while (isWall(offset(cell, w, i, d)) || offset(cell, w, i - .5, d).qsub === BQSUB.cross) {
add_line(offset(cell, w + .5, 0, d));
w++;
fg = true;
}
}
for (let i = 1; i <= w; i++) {
while (isWall(offset(cell, i, h, d)) || offset(cell, i - .5, h, d).qsub === BQSUB.cross) {
add_line(offset(cell, 0, h + .5, d));
h++;
fg = true;
}
}
} while (fg);
if (isNotPathable(offset(cell, w + .5, 0, d))) {
for (let i = 1; i <= h; i++) {
add_line(offset(cell, w, i - .5, d));
}
if (isNotPathable(offset(cell, 0, h + .5, d)) || isNotPathable(offset(cell, w, h + .5, d))) {
add_cross(offset(cell, 0, h + .5, d));
add_cross(offset(cell, w, h + .5, d));
}
}
if (isNotPathable(offset(cell, 0, h + .5, d))) {
for (let i = 1; i <= w; i++) {
add_line(offset(cell, i - .5, h, d));
}
if (isNotPathable(offset(cell, w + .5, 0, d)) || isNotPathable(offset(cell, w + .5, h, d))) {
add_cross(offset(cell, w + .5, 0, d));
add_cross(offset(cell, w + .5, h, d));
}
}
}
});
}
function NonogramAssist() {
// deduce each clue
let f = function (nl, cl) {
let len = cl.length;
let ll = new Array(nl.length);
ll[ll.length - 1] = len - nl[ll.length - 1];
for (let i = ll.length - 2; i >= 0; i--) {
ll[i] = ll[i + 1] - nl[i] - 1;
}
let dcnt = new Array(len);
let bcnt = new Array(len);
for (let i = 0; i < len; i++) {
dcnt[i] = (i > 0 ? dcnt[i - 1] : 0) + (cl[i].qsub === CQSUB.dot ? 1 : 0);
bcnt[i] = (i > 0 ? bcnt[i - 1] : 0) + (cl[i].qans ? 1 : 0);
}
let res = [];
const MAXSIT = 1000;
let gen = function (n = 0, l = []) {
if (res.length > MAXSIT) { return; }
if (n === nl.length) {
if (l.length > len) { l = l.slice(0, len); }
if (l.length > 0 && bcnt[len - 1] > bcnt[l.length - 1]) { return; }
if (l.length < len) { l = [...l, ...Array(len - l.length).fill(0)]; }
res.push(l);
return;
}
for (let i = l.length; i <= ll[n]; i++) {
if (i + nl[n] < len && cl[i + nl[n]].qans) { continue; }
if ((i > 0 ? bcnt[i - 1] : 0) !== (l.length > 0 ? bcnt[l.length - 1] : 0)) { continue; }
if (dcnt[i + nl[n] - 1] > (i > 0 ? dcnt[i - 1] : 0)) { continue; }
gen(n + 1, [...l, ...Array(i - l.length).fill(0), ...Array(nl[n]).fill(1), 0]);
if (res.length > MAXSIT) { return; }
}
};
gen();
if (res.length === 0 || res.length > MAXSIT) { return; }
for (let i = 0; i < len; i++) {
if (res.every(l => l[i] === res[0][i])) {
if (res[0][i] === 0) { add_dot(cl[i]); }
if (res[0][i] === 1) { add_black(cl[i]); }
}
}
};
for (let i = 0; i < board.rows; i++) {
let nl = [], cl = [];
for (let j = board.minbx + 1; j <= -1; j += 2) { nl.push(board.getex(j, i * 2 + 1).qnum); }
for (let j = 0; j < board.cols; j++) { cl.push(board.getc(j * 2 + 1, i * 2 + 1)); }
nl = nl.filter(n => n >= 0);
f(nl, cl);
}
for (let i = 0; i < board.cols; i++) {
let nl = [], cl = [];
for (let j = board.minby + 1; j <= -1; j += 2) { nl.push(board.getex(i * 2 + 1, j).qnum); }
for (let j = 0; j < board.rows; j++) { cl.push(board.getc(i * 2 + 1, j * 2 + 1)); }
nl = nl.filter(n => n >= 0);
f(nl, cl);
}
}
function SudokuAssist() {
let add_candidate = function (c, l) {
if (c.isnull || c.anum !== -1) { return; }
while (l.length < 4) { l.push(-1); }
if (c.snum.join(',') === l.join(',')) { return; }
if (step && flg) { return; }
flg = true;
[0, 1, 2, 3].forEach(n => c.setSnum(n, l[n]));
c.draw();
}
let add_number = function (c, n) {
if (c.isnull || c.anum !== -1) { return; }
if (step && flg) { return; }
flg = true;
[0, 1, 2, 3].forEach(n => c.setSnum(n, -1));
c.setAnum(n);
c.draw();
}
let size = board.rows;
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_number(cell, cell.qnum);
}
});
forEachCell(cell => {
if (cell.anum !== -1) { return; }
let arr = () => Array(size).fill().map((_, i) => i + 1);
let cand = arr(), row = arr(), col = arr(), box = arr();
forEachCell(c => {
if (cell === c) { return; }
let b = c.anum === -1 && c.snum.every(n => n === -1);
if (cell.bx === c.bx) { col = b ? [] : col.filter(n => n !== c.anum && !c.snum.includes(n)); }
if (cell.by === c.by) { row = b ? [] : row.filter(n => n !== c.anum && !c.snum.includes(n)); }
if (cell.room === c.room) { box = b ? [] : box.filter(n => n !== c.anum && !c.snum.includes(n)); }
if (c.anum === -1) { return; }
if (cell.bx === c.bx || cell.by === c.by || cell.room === c.room) {
cand = cand.filter(n => n !== c.anum);
}
});
if (col.length === 1) { add_number(cell, col[0]); return; }
if (row.length === 1) { add_number(cell, row[0]); return; }
if (box.length === 1) { add_number(cell, box[0]); return; }
if (cell.snum.some(n => n !== -1)) {
add_candidate(cell, cell.snum.filter(n => cand.includes(n)).sort((a, b) => (a - b)));
}
if (cell.snum.filter(n => n !== -1).length === 1) {
add_number(cell, cell.snum.find(n => n !== -1));
return;
}
if (cell.snum.every(n => n === -1) && cand.length <= 4) {
add_candidate(cell, cand);
}
});
}
function CirclesAndSquaresAssist() {
forEachCell(c => { if (c.qnum === CQNUM.wcir) add_green(c); });
forEachCell(c => { if (c.qnum === CQNUM.bcir) add_black(c); });
No2x2Black();
BlackConnected();
RectRegion_Cell({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
isSizeAble: (w, h, sc, c) => w === h,
})
}
function TatamibariAssist() {
RectRegion_Border({
isSizeAble: (w, h, sc, c) => {
if (sc !== null && !(sc.qnum === 1 && w === h || sc.qnum === 2 && w < h || sc.qnum === 3 && w > h)) { return false; }
for (let i = 0; i < w; i++) {
for (let j = 0; j < h; j++) {
if (sc !== null && offset(c, i, j) !== sc && offset(c, i, j).qnum !== CQNUM.none) { return false; }
if (sc === null && offset(c, i, j).qnum !== CQNUM.none) { sc = offset(c, i, j); }
}
}
if (sc === null) { return false; }
return sc.qnum === CQNUM.quesmark || sc.qnum === 1 && w === h || sc.qnum === 2 && w < h || sc.qnum === 3 && w > h;
}
});
NoCrossingBorder();
}
function PencilsAssist() {
let add_tip = function (c, dir) { // 1=↑, 2=↓, 3=←, 4=→
if (c === undefined || c.isnull || isGreen(c) || c.anum !== CANUM.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(CQSUB.yellow);
c.setAnum(dir);
c.draw();
}
let add_yellow = function (c) {
if (c === undefined || c.isnull || c.qans !== CQANS.none || c.qsub !== CQSUB.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(CQSUB.yellow);
c.draw();
};
let add_cross = function (b) {
if (b === undefined || b.isnull || b.line || b.qsub !== BQSUB.none || b.qans || b.ques) { return; }
if (step && flg) { return; }
b.setQsub(BQSUB.cross);
b.draw();
flg ||= b.qsub === BQSUB.cross;
};
for (let i = 0; i < board.border.length; i++) {
let border = board.border[i];
if (border.qans && border.qsub === BQSUB.cross) {
border.setQsub(BQSUB.none);
}
}
// record cells with line that belongs to a tip
let cllist = [];
forEachCell(cell => {
if (cell.anum !== CANUM.none) {
let dfs = function (c) {
if (c.isnull || cllist.includes(c)) { return; }
cllist.push(c);
fourside((nb, nc) => {
if (!nb.isnull && nb.line) {
dfs(nc);
}
}, c.adjborder, c.adjacent);
}
dfs(cell);
}
});
let isTipAble = function (c, dir) {
if (c.isnull || cllist.includes(c) && c.anum !== dir || isGreen(c)) {
return false;
}
return true;
}
forEachCell(cell => {
if (cell.qdir !== 0) {
add_tip(cell, cell.qdir);
}
if (cell.qnum !== CQNUM.none) {
add_green(cell);
}
if (cell.qnum === 1) {
fourside(add_side, cell.adjborder);
}
if (cell.qnum > 1) {
// extend clue
for (let d = 0; d < 2; d++) {
let ll = 0, rr = 0;
while ((b => !b.isnull && b.qsub === BQSUB.cross)(offset(cell, ll - .5, 0, d)) &&
offset(cell, ll - 1, 0, d).qsub !== CQSUB.yellow) { ll--; }
while ((b => !b.isnull && b.qsub === BQSUB.cross)(offset(cell, rr + .5, 0, d)) &&
offset(cell, rr + 1, 0, d).qsub !== CQSUB.yellow) { rr++; }
let lc = ll, rc = rr;
while ((c => !c.isnull && c.qsub !== CQSUB.yellow && (c.qnum < 0 || c.qnum === cell.qnum))(offset(cell, lc - 1, 0, d)) &&
!offset(cell, lc - .5, 0, d).qans && lc > 1 - cell.qnum + rr) {
lc--;
}
while ((c => !c.isnull && c.qsub !== CQSUB.yellow && (c.qnum < 0 || c.qnum === cell.qnum))(offset(cell, rc + 1, 0, d)) &&
!offset(cell, rc + .5, 0, d).qans && rc < cell.qnum - 1 + ll) {
rc++;
}
if ((b => b.isnull || b.qans)(offset(cell, 0, .5, d)) && (b => b.isnull || b.qans)(offset(cell, 0, -.5, d))) {
for (let j = rc - cell.qnum + 1; j <= lc + cell.qnum - 1; j++) {
add_green(offset(cell, j, 0, d));
add_side(offset(cell, j, -.5, d));
add_side(offset(cell, j, +.5, d));
if (j < lc + cell.qnum - 1) {
add_cross(offset(cell, j + .5, 0, d));
}
}
if (rc - lc + 1 === cell.qnum) {
add_side(offset(cell, rc + .5, 0, d));
add_side(offset(cell, lc - .5, 0, d));
if (!isTipAble(offset(cell, rc + 1, 0, d), d === 0 ? 4 : 1)) {
add_tip(offset(cell, lc - 1, 0, d), d === 0 ? 3 : 2)
}
if (!isTipAble(offset(cell, lc - 1, 0, d), d === 0 ? 3 : 2)) {
add_tip(offset(cell, rc + 1, 0, d), d === 0 ? 4 : 1)
}
}
}
if (rc - lc + 1 === cell.qnum && !isTipAble(offset(cell, rc + 1, 0, d), d === 0 ? 4 : 1) &&
!isTipAble(offset(cell, lc - 1, 0, d), d === 0 ? 3 : 2)) {
add_side(offset(cell, +.5, 0, d));
add_side(offset(cell, -.5, 0, d));
}
if (rc - lc + 1 < cell.qnum) {
add_side(offset(cell, +.5, 0, d));
add_side(offset(cell, -.5, 0, d));
}
}
}
// add tip
if (isGreen(cell) && (b => b.isnull || b.qans)(offset(cell, -.5, 0)) && (b => b.isnull || b.qans)(offset(cell, 0, -.5))) {
let dc = 0, rc = 0;
while ((b => !b.isnull && b.qsub === BQSUB.cross)(offset(cell, 0, dc + .5))) { dc++; }
while ((b => !b.isnull && b.qsub === BQSUB.cross)(offset(cell, rc + .5, 0))) { rc++; }
if ((b => b.isnull || b.qans)(offset(cell, 0, dc + .5)) && (b => b.isnull || b.qans)(offset(cell, rc + .5, 0))) {
let list = [];
if (dc === 0) {
list.push([offset(cell, -1, 0), 3]);
list.push([offset(cell, rc + 1, 0), 4]);
}
if (rc === 0) {
list.push([offset(cell, 0, -1), 1]);
list.push([offset(cell, 0, dc + 1), 2]);
}
list = list.filter(p => isTipAble(p[0], p[1]));
if (list.length === 1) {
add_tip(list[0][0], list[0][1]);
}
}
}
// extend to match line and pencil
if (cell.anum !== CANUM.none) {
add_yellow(cell);
let d = qdirRemap(cell.anum);
add_green(offset(cell, 0, 1, d));
add_side(offset(cell, 0, .5, d));
add_side(offset(cell, -.5, 1, d));
add_side(offset(cell, +.5, 1, d));
let pc = cell, lc = cell, llc = cell;
while (offset(pc, 0, .5, d).qsub === BQSUB.cross || pc === cell) {
let list = adjlist(lc.adjborder, lc.adjacent);
list = list.filter(([nb, nc]) => {
if (nc === llc) { return false; }
if (nc.isnull || isGreen(nc) || nc.anum !== CANUM.none) { return false; }
if (cllist.includes(nc) && !nb.line) { return false; }
if (nb.isnull || nb.qsub === BQSUB.cross || nb.qans) { return false; }
return true;
});
if (list.some(p => p[0].line)) {
list = list.filter(p => p[0].line);
}
if (list.length !== 1) { break; }
add_line(list[0][0]);
fourside((nb, nc) => {
if (nc.qsub === CQSUB.yellow) {
add_cross(nb);
}
}, lc.adjborder, lc.adjacent);
llc = lc;
lc = list[0][1];
pc = offset(pc, 0, 1, d);
add_yellow(lc);
}
while (lc.lcnt === 2 || lc === cell && lc.lcnt === 1) {
add_cross(offset(pc, 0, .5, d));
pc = offset(pc, 0, 1, d);
add_green(pc);
add_side(offset(pc, -.5, 0, d));
add_side(offset(pc, +.5, 0, d));
[llc, lc] = [lc, adjlist(lc.adjborder, lc.adjacent).find(([nb, nc]) => !nb.isnull && nb.line && nc !== llc)[1]];
}
if (adjlist(lc.adjborder, lc.adjacent).every(([nb, nc]) =>
nc === llc || nb.isnull || nb.qsub === BQSUB.cross || nb.qans)) {
add_side(offset(pc, 0, .5, d));
}
if (pc !== cell && (b => b.isnull || b.qans)(offset(pc, 0, .5, d))) {
fourside((nb, nc) => {
if (nc.qsub === CQSUB.yellow) {
add_cross(nb);
}
}, lc.adjborder, lc.adjacent);
}
}
if (cell.lcnt === 0 && adjlist(cell.adjborder, cell.adjacent).every(([nb, nc]) => nb.isnull || nb.qans || nb.qsub === BQSUB.cross || isGreen(nc) || nc.lcnt === 2 || nc.lcnt === 1 && nc.anum !== CANUM.none)) {
add_green(cell);
}
if (adjlist(cell.adjborder, cell.adjacent).every(([nb, nc]) => {
if (nc.isnull || nb.qans && isGreen(nc)) { return true; }
if (cllist.includes(nc) && nc.anum === CANUM.none) { return true; }
if (nc.anum !== CANUM.none && offset(nc, 0, 1, qdirRemap(nc.anum)) !== cell) { return true; }
return false;
})) {
add_yellow(cell);
}
if (cell.lcnt > 0) {
add_yellow(cell);
}
if (cell.qsub === CQSUB.yellow && adjlist(cell.adjborder).filter(b => !b.isnull && !b.qans && b.qsub !== BQSUB.cross).length === 1) {
add_line(adjlist(cell.adjborder).find(b => !b.isnull && !b.qans && b.qsub !== BQSUB.cross));
}
if ([[offset(cell, -1, 0), 3], [offset(cell, 1, 0), 4], [offset(cell, 0, -1), 1], [offset(cell, 0, 1), 2]].every(([c, d]) => !isTipAble(c, d)) &&
adjlist(cell.adjborder).filter(b => !b.isnull && !b.qans).length === 1) {
add_cross(adjlist(cell.adjborder).find(b => !b.isnull && !b.qans));
}
for (let d = 0; d < 4; d++) {
let nc = offset(cell, 1, 0, d);
if (nc.isnull) { continue; }
// cross between cells in cllist
if (cllist.includes(cell) && cllist.includes(nc)) {
add_cross(offset(cell, .5, 0, d));
}
// add side between inner and outer
if (cell.qsub !== CQSUB.none && nc.qsub !== CQSUB.none && cell.qsub !== nc.qsub) {
add_side(offset(cell, .5, 0, d));
}
// extend pencil by cross mark
if (isGreen(cell) && (b => b.qsub === BQSUB.cross && !b.qans)(offset(cell, .5, 0, d))) {
add_side(offset(cell, 0, -.5, d));
add_side(offset(cell, 0, +.5, d));
add_side(offset(cell, 1, -.5, d));
add_side(offset(cell, 1, +.5, d));
add_green(nc);
}
// different clue
if (cell.qnum > 0 && nc.qnum > 0 && cell.qnum !== nc.qnum) {
add_side(offset(cell, .5, 0, d));
}
}
});
}
function MoonOrSunAssist() {
RoomPassOnce();
SingleLoopInCell({
isPass: c => {
if (c.qnum === CQNUM.none) { return false; }
if (c.qnum === CQNUM.moon && c.room.count.moon.passed > 0) { return true; }
if (c.qnum === CQNUM.sun && c.room.count.sun.passed > 0) { return true; }
for (let i = 0; i < c.room.clist.length; i++) {
let c2 = c.room.clist[i];
if (c2.qnum !== c.qnum && c2.qsub === CQSUB.cross) { return true; }
}
return false;
},
});
let add_Xcell = function (c) {
if (c === undefined || c.isnull || c.lcnt > 0 || c.qnum === CQNUM.none || c.qsub === CQSUB.cross) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(CQSUB.cross);
c.draw();
}
let roomType = c => {
if (c.room.count.sun.passed > 0) return 1;
if (c.room.count.moon.passed > 0) return 2;
for (let i = 0; i < c.room.clist.length; i++) {
let c2 = c.room.clist[i];
if (c2.qnum === CQNUM.moon && c2.qsub === CQSUB.cross) { return 1; }
if (c2.qnum === CQNUM.sun && c2.qsub === CQSUB.cross) { return 2; }
}
return 0;
}
forEachCell(cell => {
fourside((nb, nc) => {
if (nc.isnull || cell.room === nc.room) { return; }
if (nb.line && roomType(nc) !== 0) {
for (let j = 0; j < cell.room.clist.length; j++) {
let cell2 = cell.room.clist[j];
if (cell2.qnum === roomType(nc)) {
add_Xcell(cell2);
}
}
}
if (roomType(nc) !== 0 && cell.qnum === roomType(nc)) {
add_cross(nb);
}
if (roomType(cell) !== 0 && roomType(nc) !== 0 && roomType(cell) === roomType(nc)) {
add_cross(nb);
}
}, cell.adjborder, cell.adjacent);
if (cell.qnum === CQNUM.none) { return; }
fourside((nb, nc) => {
if (nc.isnull || nc.qnum === CQNUM.none) { return; }
if ((cell.qnum === nc.qnum) ^ (cell.room === nc.room)) {
add_cross(nb);
}
}, cell.adjborder, cell.adjacent);
if (!adjlist(cell.adjborder).some(b => !b.isnull && b.qsub !== BQSUB.cross)) {
add_Xcell(cell);
}
if (roomType(cell) > 0 && cell.qnum !== roomType(cell)) {
add_Xcell(cell);
}
if (cell.qsub === CQSUB.cross) {
fourside(add_cross, cell.adjborder);
}
});
}
function ShikakuAssist() {
let s = Array.from(new Array(board.rows), () => new Array(board.cols).fill([]));
forEachCell(c => {
let x = (c.bx - 1) / 2, y = (c.by - 1) / 2;
let s1 = x > 0 ? s[y][x - 1] : [];
let s2 = y > 0 ? s[y - 1][x] : [];
s[y][x] = [...s1, ...s2.filter(c => !s1.includes(c))];
if (c.qnum !== CQNUM.none) { s[y][x].push(c); }
});
RectRegion_Border({
isSizeAble: (w, h, sc, c) => {
if (sc !== null && w * h !== sc.qnum) { return false; }
let x = (c.bx - 1) / 2 + w - 1, y = (c.by - 1) / 2 + h - 1;
let f = (a, b) => a < 0 || b < 0 ? [] : s[a][b];
if (f(y, x).length - f(y, x - w).length - f(y - h, x).length + f(y - h, x - w).length !== 1) { return false; }
sc = f(y, x).find(c => !f(y, x - w).includes(c) && !f(y - h, x).includes(c));
return sc.qnum === CQNUM.quesmark || w * h === sc.qnum;
}
});
}
function SquareJamAssist() {
RectRegion_Border({
isSizeAble: (w, h, sc, c) => {
if (w !== h) { return false; }
if (sc !== null && w !== sc.qnum) { return false; }
for (let i = 0; i < w; i++) {
for (let j = 0; j < h; j++) {
if (offset(c, i, j).qnum > 0 && sc === null) { sc = offset(c, i, j); }
if (offset(c, i, j).qnum > 0 && offset(c, i, j).qnum !== sc.qnum) { return false; }
}
}
return sc === null || w === sc.qnum;
}
});
NoCrossingBorder();
}
function TasquareAssist() {
RectRegion_Cell({
isShaded: isBlack,
isUnshaded: c => isGreen(c) || c.qnum !== CQNUM.none,
add_shaded: add_black,
add_unshaded: add_dot,
isSizeAble: (w, h, sc, c) => w === h,
});
CellConnected({
isShaded: c => c.qsub === CQSUB.dot || c.qnum !== CQNUM.none,
isUnshaded: isBlack,
add_shaded: add_dot,
add_unshaded: add_black,
});
let is2x2able = function (c) {
for (let d = 0; d < 4; d++) {
let list = [c, offset(c, 0, 1, d), offset(c, 1, 0, d), offset(c, 1, 1, d)];
if (list.every(c => !c.isnull && c.qsub !== CQSUB.dot && c.qnum === CQNUM.none)) {
return true;
}
}
return false;
}
let isNotBlack = c => c.isnull || c.qsub === CQSUB.dot || c.qnum !== CQNUM.none;
forEachCell(cell => {
if (cell.qnum === CQNUM.none) { return; }
add_dot(cell);
let templist = adjlist(cell.adjacent);
if (templist.filter(c => !isNotBlack(c)).length === 1) {
templist.forEach(c => add_black(c, true));
}
if (cell.qnum === CQNUM.quesmark) { return; }
// black cells: n around 0~3, n-3 around 4~7, 2 around 8
if (cell.qnum <= 8) {
let list = adjlist(cell.adjacent).filter(c => !isNotBlack(c));
if ([0, 1, 2, 3].includes(cell.qnum) && list.length === cell.qnum ||
[4, 5, 6].includes(cell.qnum) && list.length === cell.qnum - 3 ||
cell.qnum === 8 && list.length === 2) {
list.forEach(c => add_black(c));
}
}
// 1*2^2 around 4~6, 2*2^2 around 8
if (cell.qnum >= 4 && cell.qnum <= 8) {
let list = [];
for (let d = 0; d < 4; d++) {
list.push([offset(cell, 2, 0, d), offset(cell, 1, 0, d)]);
}
list = list.filter(l => is2x2able(l[1]));
if (list.length === Math.floor(cell.qnum / 4)) {
list.forEach(l => { add_black(l[0]), add_black(l[1]) });
}
}
// · ·
// 3 -> 3
// · ·
if (cell.qnum === 3) {
add_dot(offset(cell, -1, -1));
add_dot(offset(cell, -1, 1));
add_dot(offset(cell, 1, -1));
add_dot(offset(cell, 1, 1));
}
for (let d = 0; d < 4; d++) {
// ? █ -> ?·█ (?<=3)
if (cell.qnum <= 3 && isBlack(offset(cell, 2, 0, d))) {
add_dot(offset(cell, 1, 0, d));
}
// 4 · -> 4··
if (cell.qnum === 4 && isNotBlack(offset(cell, 2, 0, d))) {
add_dot(offset(cell, 1, 0, d));
}
// · ·
// ·1 -> ·1
// ·
if (cell.qnum === 1 && isNotBlack(offset(cell, 0, -1, d)) && isNotBlack(offset(cell, -1, 0, d))) {
add_dot(offset(cell, 1, 1, d));
}
// · ·
// 2 -> 2
// · ·
if (cell.qnum === 2 && isNotBlack(offset(cell, 0, -1, d))) {
add_dot(offset(cell, -1, 1, d));
add_dot(offset(cell, 1, 1, d));
}
}
let blist = [];
let dfs = function (c) {
if (blist.includes(c) || c.isnull || c.qans !== CQANS.black) { return; }
blist.push(c);
fourside(dfs, c.adjacent);
}
adjlist(cell.adjacent).forEach(c => dfs(c));
if (blist.length === cell.qnum) {
fourside(add_dot, cell.adjacent);
blist.forEach(c => fourside(add_dot, c.adjacent));
}
});
}
function TentaishoAssist() {
let isDot = obj => obj.qnum > 0;
let isEmpty = c => !c.isnull && c.ques !== CQUES.wall;
for (let i = 0; i < board.cross.length; i++) {
let cross = board.cross[i];
let list = adjlist(cross.adjborder);
if (list.filter(b => !b.isnull && b.qsub === BQSUB.link).length === 2 && cross.lcnt === 1) {
list.forEach(b => add_side(b));
}
if (list.filter(b => !b.isnull && b.qsub === BQSUB.link).length === 3) {
list.forEach(b => add_link(b));
}
}
let n = 0;
let id = new Map(); // map every cell to unique dot id
let dotmap = new Map(); // get dot obj
let bfs_id = function (clist, n) {
while (clist.length > 0) {
let c = clist.pop();
let x = dotmap.get(n).bx;
let y = dotmap.get(n).by;
if (!isEmpty(c) || id.has(c)) { continue; }
id.set(c, n);
let fn = function (bbx, bby, cbx, cby) {
let nb = board.getb(bbx, bby);
let nc = board.getc(cbx, cby);
if (!isEmpty(nc) || nb.qans || id.has(nc) && id.get(nc) !== id.get(c)) {
add_side(nb);
add_side(board.getb(2 * x - bbx, 2 * y - bby));
}
if (id.has(nc) && id.get(nc) === id.get(c)) {
add_link(nb);
}
if (isEmpty(nc) && nb.qsub === BQSUB.link) {
add_link(board.getb(2 * x - bbx, 2 * y - bby));
clist.push(nc);
clist.push(board.getc(2 * x - cbx, 2 * y - cby));
}
};
fn(c.bx - 1, c.by, c.bx - 2, c.by);
fn(c.bx + 1, c.by, c.bx + 2, c.by);
fn(c.bx, c.by - 1, c.bx, c.by - 2);
fn(c.bx, c.by + 1, c.bx, c.by + 2);
}
};
let id_choice = new Map();
let dfs_idc = function (c, n) {
let x = dotmap.get(n).bx;
let y = dotmap.get(n).by;
let oc = board.getc(2 * x - c.bx, 2 * y - c.by);
if (!isEmpty(c) || id.has(c) && id.get(c) !== n) { return; }
if (!isEmpty(oc) || id.has(oc) && id.get(oc) !== n) { return; }
if (id_choice.has(c) && id_choice.get(c).includes(n)) { return; }
if (id_choice.has(oc) && id_choice.get(oc).includes(n)) { return; }
if (!id_choice.has(c)) { id_choice.set(c, []); }
if (!id_choice.has(oc)) { id_choice.set(oc, []); }
id_choice.set(c, id_choice.get(c).concat([n]));
id_choice.set(oc, id_choice.get(oc).concat([n]));
fourside((nb, nc) => {
if (nb.qans) { return; }
dfs_idc(nc, n);
}, c.adjborder, c.adjacent);
};
// assign cells to dots and deduce
for (let x = board.minbx + 1; x <= board.maxbx - 1; x++) {
for (let y = board.minby + 1; y <= board.maxby - 1; y++) {
if (isDot(board.getobj(x, y))) {
n++;
dotmap.set(n, board.getobj(x, y));
let clist = [];
if (x % 2 === 1 && y % 2 === 1) {
clist.push(board.getc(x, y));
}
if (x % 2 === 1 && y % 2 === 0) {
clist.push(board.getc(x, y - 1));
clist.push(board.getc(x, y + 1));
}
if (x % 2 === 0 && y % 2 === 1) {
clist.push(board.getc(x - 1, y));
clist.push(board.getc(x + 1, y));
}
if (x % 2 === 0 && y % 2 === 0) {
clist.push(board.getc(x - 1, y - 1));
clist.push(board.getc(x - 1, y + 1));
clist.push(board.getc(x + 1, y - 1));
clist.push(board.getc(x + 1, y + 1));
}
bfs_id(clist, n);
}
}
}
// assign cells to possible dots
n = 0;
for (let x = board.minbx + 1; x <= board.maxbx - 1; x++) {
for (let y = board.minby + 1; y <= board.maxby - 1; y++) {
if (isDot(board.getobj(x, y))) {
n++;
let clist = [];
if (x % 2 === 1 && y % 2 === 1) {
clist.push(board.getc(x, y));
}
if (x % 2 === 1 && y % 2 === 0) {
clist.push(board.getc(x, y - 1));
clist.push(board.getc(x, y + 1));
}
if (x % 2 === 0 && y % 2 === 1) {
clist.push(board.getc(x - 1, y));
clist.push(board.getc(x + 1, y));
}
if (x % 2 === 0 && y % 2 === 0) {
clist.push(board.getc(x - 1, y - 1));
clist.push(board.getc(x - 1, y + 1));
clist.push(board.getc(x + 1, y - 1));
clist.push(board.getc(x + 1, y + 1));
}
dfs_idc(clist[0], n);
}
}
}
// check not assigned cells
forEachCell(cell => {
if (!isDot(cell) && adjlist(cell.adjborder).filter(b => !b.isnull && !b.qans).length === 1) {
add_link(adjlist(cell.adjborder).filter(b => !b.isnull && !b.qans)[0]);
}
if (!isEmpty(cell) || id.has(cell)) { return; }
if (id_choice.has(cell) && id_choice.get(cell).length === 1) {
bfs_id([cell], id_choice.get(cell)[0]);
}
});
document.querySelector('#btncolor').click();
}
function NorinuriAssist() {
forEachCell(c => { if (c.qnum !== CQNUM.none) add_green(c); })
BlackDomino();
SizeRegion_Cell({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: c => add_black(c, true),
});
}
function NorinoriAssist() {
BlackDomino();
forEachRoom(room => {
let list = Array.from(room.clist);
// finish region
if (list.filter(c => isBlack(c)).length === 2) {
list.forEach(c => add_dot(c));
}
if (list.filter(c => c.qsub !== CQSUB.dot).length === 2) {
list.forEach(c => add_black(c));
}
if (list.filter(c => isBlack(c)).length === 1) {
list.forEach(c => {
if (isBlack(c) || c.qsub === CQSUB.dot) { return; }
if (!adjlist(c.adjacent).some(nc => !nc.isnull &&
(c.room !== nc.room && nc.qsub !== CQSUB.dot || c.room === nc.room && isBlack(nc)))) {
add_dot(c);
}
});
}
});
}
function AllorNothingAssist() {
let add_color = function (c, color) {
if (c.isnull || c.qsub !== CQSUB.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(color);
c.draw();
};
let add_gray = function (c) { add_color(c, CQSUB.gray); };
let add_yellow = function (c) { add_color(c, CQSUB.yellow); };
let add_border_cross = function (b) { if (b.ques) { add_cross(b); } };
SingleLoopInCell({
isPassable: c => c.qsub !== CQSUB.gray,
isPass: c => c.qsub === CQSUB.yellow,
add_notpass: add_gray,
add_pass: add_yellow,
});
forEachRoom(room => {
let list = Array.from(room.clist);
let nbcnt = function (c) {
let templist = adjlist(c.adjacent);
return templist.filter(nc => !nc.isnull && c.room === nc.room).length;
};
let list2 = list.filter(c => nbcnt(c) !== 1);
let listodd = list.filter(c => (c.bx + c.by) % 4 === 2);
let listeven = list.filter(c => (c.bx + c.by) % 4 === 0);
if (list.length - list2.length === 2) {
list2.forEach(c => fourside(add_border_cross, c.adjborder));
}
if (listeven.length === listodd.length + 1) {
listodd.forEach(c => fourside(add_border_cross, c.adjborder));
}
if (listodd.length === listeven.length + 1) {
listeven.forEach(c => fourside(add_border_cross, c.adjborder));
}
if (list.some(c => c.lcnt > 0 || c.qsub === CQSUB.yellow)) {
list.forEach(c => add_yellow(c));
let templist = list.filter(c => nbcnt(c) === 1);
templist.forEach(c => fourside((nb, nc) => {
if (!nc.isnull && room === nc.room) {
add_line(nb);
}
}, c.adjborder, c.adjacent));
}
if (list.some(c => c.qsub === CQSUB.gray) || list.length - list2.length > 2 ||
Math.abs(listodd.length - listeven.length) > 1) {
list.forEach(c => add_gray(c));
list.forEach(c => fourside(add_cross, c.adjborder));
list.forEach(c => fourside(add_yellow, c.adjacent));
}
});
}
function AqreAssist() {
BlackConnected();
forEachCell(cell => {
let fn = function (c1, c2, c3) {
if (c1.isnull || c2.isnull || c3.isnull) { return; }
if (isBlack(c1) && isBlack(c2) && isBlack(c3)) {
add_green(cell);
}
if (isGreen(c1) && isGreen(c2) && isGreen(c3)) {
add_black(cell);
}
};
if (cell.qsub === CQSUB.none && cell.qans === CQANS.none) {
fn(offset(cell, -3, 0), offset(cell, -2, 0), offset(cell, -1, 0),);
fn(offset(cell, -2, 0), offset(cell, -1, 0), offset(cell, 1, 0),);
fn(offset(cell, -1, 0), offset(cell, 1, 0), offset(cell, 2, 0),);
fn(offset(cell, 1, 0), offset(cell, 2, 0), offset(cell, 3, 0),);
fn(offset(cell, 0, -3), offset(cell, 0, -2), offset(cell, 0, -1),);
fn(offset(cell, 0, -2), offset(cell, 0, -1), offset(cell, 0, 1),);
fn(offset(cell, 0, -1), offset(cell, 0, 1), offset(cell, 0, 2),);
fn(offset(cell, 0, 1), offset(cell, 0, 2), offset(cell, 0, 3),);
}
});
forEachRoom(room => {
let qnum = room.top.qnum;
if (qnum === CQNUM.none || qnum === CQNUM.quesmark) { return; }
let list = Array.from(room.clist);
if (list.filter(c => isBlack(c)).length === qnum) {
list.forEach(c => add_green(c));
}
if (qnum - list.filter(c => isBlack(c)).length ===
list.filter(c => c.qans === CQANS.none && c.qsub === CQSUB.none).length) {
list.forEach(c => add_black(c));
}
});
}
function KurodokoAssist() {
GreenConnected();
BlackNotAdjacent();
SightNumber({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
});
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_green(cell);
}
});
}
function HitoriAssist() {
GreenConnected();
BlackNotAdjacent();
let uniq = new Map();
forEachCell(cell => uniq.set(cell, true));
let fn = function (a) {
let vis = new Map();
for (let cell of a) {
if (cell.qnum === CQNUM.none) continue;
if (isGreen(cell)) vis.set(cell.qnum, cell);
}
for (let cell of a) {
if (cell.qnum === CQNUM.none) continue;
if (vis.has(cell.qnum)) add_black(cell);
}
let cnt = new Map();
for (let cell of a) {
if (cell.qnum === CQNUM.none || isBlack(cell)) continue;
let c = cnt.has(cell.qnum) ? cnt.get(cell.qnum) : 0;
c++;
cnt.set(cell.qnum, c);
}
for (let cell of a) {
if (cell.qnum === CQNUM.none || isBlack(cell)) continue;
if (cnt.get(cell.qnum) >= 2) uniq.set(cell, false);
}
// aba
for (let i = 0; i < a.length - 2; i++) {
if (a[i].qnum === CQNUM.none || a[i].qnum !== a[i + 2].qnum) continue;
add_green(a[i + 1]);
}
// a..aa
for (let i = 0; i < a.length - 1; i++) {
if (a[i].qnum === CQNUM.none || a[i].qnum !== a[i + 1].qnum) continue;
for (let j = 0; j < a.length; j++) {
if (j !== i && j !== i + 1 && a[j].qnum === a[i].qnum) add_black(a[j]);
}
}
};
for (let i = 0; i < board.rows; i++) {
let a = [];
for (let j = 0; j < board.cols; j++) {
a.push(board.getc(2 * j + 1, 2 * i + 1));
}
fn(a);
}
for (let j = 0; j < board.cols; j++) {
let a = [];
for (let i = 0; i < board.rows; i++) {
a.push(board.getc(2 * j + 1, 2 * i + 1));
}
fn(a);
}
forEachCell(cell => {
if (uniq.get(cell)) add_green(cell);
});
}
function CanalViewAssist() {
CellConnected({
isShaded: isBlack,
isUnshaded: c => c.qsub === CQSUB.dot || c.qnum !== CQNUM.none,
add_shaded: add_black,
add_unshaded: add_dot,
});
SightNumber({
isShaded: isBlack,
isUnshaded: c => c.qsub === CQSUB.dot || c.qnum !== CQNUM.none,
add_shaded: add_black,
add_unshaded: add_dot,
});
No2x2Cell({
isShaded: isBlack,
add_unshaded: add_dot,
});
}
function CaveAssist() {
GreenConnected();
CellConnected({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
OutsideAsShaded: true,
});
SightNumber({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
});
NoCheckerCell({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
});
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_green(cell);
}
});
}
function TapaLikeLoopAssist() {
SingleLoopInCell();
let check = function (c, s) {
let qnums = c.qnums;
if (s === "11111111") { return qnums.length === 1 && (qnums[0] === 8 || qnums[0] === CQNUM.quesmark); }
if (s === "00000000") { return qnums.every(n => n === 0 || n === 1 || n === CQNUM.quesmark); }
let l = [[[0, -1.5]], [[1, -1.5], [1.5, -1]], [[1.5, 0]], [[1.5, 1], [1, 1.5]], [[0, 1.5]], [[-1, 1.5], [-1.5, 1]], [[-1.5, 0]], [[-1.5, -1], [-1, -1.5]]].map(e => {
e = e.map(([x, y]) => offset(c, x, y));
e = e.map(b => isLine(b) ? 1 : isntLine(b) ? 0 : -1);
if (e.includes(-1)) return -1;
if (e.length === 1) return e[0];
return e[0] ^ e[1];
});
if (l.some((t, i) => {
if (t === 0 && s[i] !== s[(i + 1) % 8]) { return true; }
if (t === 1 && s[i] === s[(i + 1) % 8]) { return true; }
return false;
})) { return false; }
while (s[0] !== '0') {
s = s.slice(1) + s[0];
}
s = s.split('0').filter(s => s.length > 0).map(s => s.length + 1);
if (s.length > qnums.filter(n => n !== 1).length) { return false; }
for (let i = 0; i < qnums.length; i++) {
if (qnums[i] === CQNUM.quesmark || qnums[i] === 1) { continue; }
if (!s.includes(qnums[i])) { return false; }
s.splice(s.indexOf(qnums[i]), 1);
}
if (s.length > qnums.filter(n => n === CQNUM.quesmark).length) return false;
return true;
};
forEachCell(cell => {
if (cell.qnums.length === 0) { return; }
fourside(add_cross, cell.adjborder);
let list = [[-.5, -1], [.5, -1], [1, -.5], [1, .5], [.5, 1], [-.5, 1], [-1, .5], [-1, -.5]].map(([x, y]) => offset(cell, x, y));
if (cell.qnums[0] === 0) {
list.forEach(b => add_cross(b));
}
let mask = parseInt(list.map(b => !b.isnull && !isCross(b) && !isLine(b) ? "1" : "0").join(""), 2);
let blk = parseInt(list.map(b => isLine(b) ? "1" : "0").join(""), 2);
let setb = 0b11111111, setd = 0b00000000, n = 0;
for (let j = mask; j >= 0; j--) {
j &= mask;
if (check(cell, (j | blk).toString(2).padStart(8, '0'))) {
setb &= (j | blk);
setd |= (j | blk);
n++;
}
}
if (n === 0) {
add_black(cell);
return;
}
setb = setb.toString(2).padStart(8, '0');
setd = setd.toString(2).padStart(8, '0');
for (let j = 0; j < 8; j++) {
if (setb[j] === '1') {
add_line(list[j]);
}
if (setd[j] === '0') {
add_cross(list[j]);
}
}
{
let l = [0, 1, 2, 3].map(d => [[1, .5], [.5, 1], [1, 1.5], [1.5, 1]].map(([x, y]) => offset(cell, x, y, d)));
l = l.filter(([b1, b2, b3, b4]) => !isLine(b1) && !isLine(b2) && !isntLine(b3) && !isntLine(b4));
if (l.length === cell.qnums.filter(n => n === 1).length) {
l.forEach(([b1, b2, b3, b4]) => {
add_cross(b1);
add_cross(b2);
add_line(b3);
add_line(b4);
})
}
if (l.filter(([b1, b2, b3, b4]) => isLine(b3) && isLine(b4)).length === cell.qnums.filter(n => n === 1 || n === CQNUM.quesmark).length) {
l.forEach(([b1, b2, b3, b4]) => {
if (isLine(b3) && isLine(b4)) { return; }
if (isLine(b3)) { add_cross(b4); }
if (isLine(b4)) { add_cross(b3); }
if (isntLine(b1) && isntLine(b2)) {
add_cross(b3);
add_cross(b4);
}
})
}
}
});
}
function TapaAssist() {
No2x2Cell({
isShaded: isBlack,
add_unshaded: add_dot,
});
CellConnected({
isShaded: isBlack,
isUnshaded: c => c.qsub === CQSUB.dot || c.qnums.length > 0,
add_shaded: add_black,
add_unshaded: add_dot,
});
let check = function (qnums, s) {
if (s === "11111111") { return qnums.length === 1 && (qnums[0] === 8 || qnums[0] === CQNUM.quesmark); }
if (s === "00000000") { return qnums.length === 1 && qnums[0] === 0; }
while (s[0] !== '0') {
s = s.slice(1) + s[0];
}
s = s.split('0').filter(s => s.length > 0).map(s => s.length);
if (s.length !== qnums.length) { return false; }
for (let i = 0; i < qnums.length; i++) {
if (qnums[i] === CQNUM.quesmark) { continue; }
if (!s.includes(qnums[i])) { return false; }
s.splice(s.indexOf(qnums[i]), 1);
}
return s.length === qnums.filter(n => n === CQNUM.quesmark).length;
};
let isEmpty = function (c) {
return !c.isnull && c.qans === CQANS.none && c.qsub === CQSUB.none && c.qnums.length === 0;
};
forEachCell(cell => {
if (cell.qnums.length === 0) { return; }
let list = [[-1, -1], [0, -1], [1, -1], [1, 0], [1, 1], [0, 1], [-1, 1], [-1, 0]].map(([x, y]) => offset(cell, x, y));
let mask = parseInt(list.map(c => isEmpty(c) ? "1" : "0").join(""), 2);
let blk = parseInt(list.map(c => isBlack(c) ? "1" : "0").join(""), 2);
let setb = 0b11111111, setd = 0b00000000, n = 0;
for (let j = mask; j >= 0; j--) {
j &= mask;
if (check(cell.qnums, (j | blk).toString(2).padStart(8, '0'))) {
setb &= (j | blk);
setd |= (j | blk);
n++;
}
}
if (n === 0) {
add_black(cell);
return;
}
setb = setb.toString(2).padStart(8, '0');
setd = setd.toString(2).padStart(8, '0');
for (let j = 0; j < 8; j++) {
if (setb[j] === '1') {
add_black(list[j], true);
}
if (setd[j] === '0') {
add_dot(list[j]);
}
}
});
}
function LightandShadowAssist() {
let add_black = function (c) {
if (c.isnull || c.qans !== CQANS.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQans(CQANS.black);
c.draw();
};
let add_white = function (c) {
if (c.isnull || c.qans !== CQANS.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQans(CQANS.white);
c.draw();
};
forEachCell(cell => {
if (cell.qnum !== CQNUM.none && cell.ques === 1) {
add_black(cell);
}
if (cell.qnum !== CQNUM.none && cell.ques === 0) {
add_white(cell);
}
});
SizeRegion_Cell({
isShaded: isBlack,
isUnshaded: c => c.qans === CQANS.white,
add_shaded: add_black,
add_unshaded: add_white,
NoUnshadedNum: false,
});
SizeRegion_Cell({
isShaded: c => c.qans === CQANS.white,
isUnshaded: isBlack,
add_shaded: add_white,
add_unshaded: add_black,
NoUnshadedNum: false,
});
}
function SlalomAssist() {
const stc = board.getc(board.startpos.bx, board.startpos.by);
const gates = board.gatemgr.components.length;
let add_order = function (c, l) {
if (c === undefined || c.isnull || c.ques === 1) { return; }
l = Array.from(new Set(l));
l = l.filter(n => n > 0 && n <= gates + 1);
if (c.qsub !== 0) { l = l.filter(n => c.qsub.includes(n)); }
if (c.qsub !== 0 && l.length === c.qsub.length) { return; }
if (l.length === 0) { return; }
if (step && flg) { return; }
flg2 = true;
c.setQsub(l);
c.draw();
};
let add_arrow = function (b, dir) {
if (b === undefined || b.isnull || b.qsub !== BQSUB.none) { return; }
if (step && flg) { return; }
flg = true;
b.setQsub(dir);
b.draw();
};
let genlist = c => {
if (c.adjborder === undefined) { return []; }
return [[c.adjborder.top, BQSUB.arrow_up, BQSUB.arrow_dn], [c.adjborder.bottom, BQSUB.arrow_dn, BQSUB.arrow_up],
[c.adjborder.left, BQSUB.arrow_lt, BQSUB.arrow_rt], [c.adjborder.right, BQSUB.arrow_rt, BQSUB.arrow_lt]]
};
add_order(stc, [gates + 1]);
SingleLoopInCell({
isPassable: c => c.ques !== 1,
isPass: c => c === stc,
Directed: true,
});
let gaten = new Set(board.gatemgr.components.flatMap(gate => Array.from(gate.clist).flatMap(c => {
if (c.qsub === 0 || c.qsub.length > 1) return [];
return c.qsub;
})));
gaten = new Array(gates).fill(0).map((_, i) => i + 1).filter(n => !gaten.has(n));
for (let i = 0; i < board.gatemgr.components.length; i++) {
let clist = Array.from(board.gatemgr.components[i].clist);
clist = clist.sort((c1, c2) => c1.id - c2.id);
let c1 = clist[0], c2 = clist[clist.length - 1];
if ([CRQSUB.in, CRQSUB.out].includes(offset(c2, .5, .5).qsub)) {
add_inout(offset(c1, -.5, -.5), offset(c2, .5, .5).qsub ^ 1);
}
if ([CRQSUB.in, CRQSUB.out].includes(offset(c1, -.5, -.5).qsub)) {
add_inout(offset(c2, .5, .5), offset(c1, -.5, -.5).qsub ^ 1);
}
clist.forEach(c => {
if (c.qsub === 0 || c.qsub.length > 1) {
add_order(c, gaten);
}
});
}
forEachCell(cell => {
if (cell.ques === 1) {
fourside(add_cross, cell.adjborder);
}
if (cell.ques === CQUES.vgate && (cell.adjacent.top.isnull || cell.adjacent.top.ques !== CQUES.vgate)) {
let list = [];
let pcell = cell;
while (!pcell.isnull && pcell.ques === CQUES.vgate) {
add_cross(pcell.adjborder.top);
add_cross(pcell.adjborder.bottom);
list.push(pcell);
pcell = pcell.adjacent.bottom;
}
if (list.filter(c => c.adjborder.left.line).length === 1) {
list.forEach(c => add_cross(c.adjborder.left));
}
if (list.filter(c => c.adjborder.left.qsub !== BQSUB.cross).length === 1) {
list.forEach(c => add_line(c.adjborder.left));
}
}
if (cell.ques === CQUES.hgate && (cell.adjacent.left.isnull || cell.adjacent.left.ques !== CQUES.hgate)) {
let list = [];
let pcell = cell;
while (!pcell.isnull && pcell.ques === CQUES.hgate) {
add_cross(pcell.adjborder.left);
add_cross(pcell.adjborder.right);
list.push(pcell);
pcell = pcell.adjacent.right;
}
if (list.filter(c => c.adjborder.top.line).length === 1) {
list.forEach(c => add_cross(c.adjborder.top));
}
if (list.filter(c => c.adjborder.top.qsub !== BQSUB.cross).length === 1) {
list.forEach(c => add_line(c.adjborder.top));
}
}
if (cell.gate !== null && cell.gate.number !== -1) {
add_order(cell, [cell.gate.number]);
}
adjlist(cell.adjborder).forEach((nb, d) => {
let clist = cellTrail(cell, d);
let nc = clist[clist.length - 1];
let dn = clist.slice(1, -1).filter(c => c === stc || c.gate !== null).length;
let bl = [cell, nc].some(c => c !== stc && c.gate === null);
if (cell.qsub !== 0 && nc.qsub !== 0) {
if (cell.qsub.every(n1 => nc.qsub.every(n2 =>
Math.abs(n1 - n2) > (bl ? .5 : 1) + dn &&
Math.abs(n1 - n2) < gates + (bl ? .5 : 0) - dn))) {
add_cross(nb);
}
}
if (cell.qsub !== 0 && nc.qsub !== 0 && cell.qsub.length === 1 && nc.qsub.length === 1 && isLine(nb)) {
let l = genlist(cell).filter(([b, arr_o, arr_i]) => b === nb);
let t = Math.abs(cell.qsub[0] - nc.qsub[0]) < gates + (bl ? .5 : 0);
if (cell.qsub[0] < nc.qsub[0]) { add_arrow(nb, l[0][t ? 1 : 2]); }
if (cell.qsub[0] > nc.qsub[0]) { add_arrow(nb, l[0][t ? 2 : 1]); }
}
});
if (cell.qsub !== 0 && cell.qsub.length === 1 && cell.lcnt > 0) {
let cset = new Set();
let dfs = function (c, d, t = 0) {
if (cset.has(c) || c !== cell && c.qsub !== 0 && c.qsub.length === 1) { return; }
cset.add(c);
if (c.gate !== null && c !== cell) { d += .5; }
let cl = [(cell === stc ? 0 : cell.qsub[0]) + d, cell.qsub[0] - d];
if (t === 0) { add_order(c, cl); }
if (t === 1) { add_order(c, [cl[0]]); }
if (t === 2) { add_order(c, [cl[1]]); }
adjlist(c.adjborder, c.adjacent).forEach(([nb, nc]) => {
if (!isLine(nb)) { return; }
let l = genlist(c).filter(([b, arr_o, arr_i]) => b === nb);
let nt = t;
if (l[0][1] === nb.qsub) { nt = 1; }
if (l[0][2] === nb.qsub) { nt = 2; }
dfs(nc, d + (c.gate !== null || c === stc ? .5 : 0), nt);
});
}
dfs(cell, 0);
}
adjlist(cell.adjborder, cell.adjacent).forEach(([nb, nc]) => {
if (cell.qsub === 0 || nc.isnull || nc.qsub === 0) { return; }
if (Math.abs(cell.qsub - nc.qsub) > 1 && Math.abs(cell.qsub - nc.qsub) < gates) {
add_cross(nb);
}
if (Math.abs(cell.qsub - nc.qsub) === 1 && cell.qsub % 1 === .5) {
add_cross(nb);
}
});
});
}
function StarbattleAssist() {
// TODO: check if there are exactly n dot/star in region/row/column
let isCircle = b => !b.isnull && b.qsub === 1;
let isStar = isBlack;
let starcount = board.starCount.count;
let add_star = add_black;
let add_cir = function (b) {
if (b === undefined || b.isnull || b.line || b.qsub !== BQSUB.none) { return; }
if (step && flg) { return; }
if (b.bx % 2 === 0 && b.by % 2 === 0) {
if (adjlist(b.adjborder).some(b => isCircle(b))) { return; }
}
if (b.bx === board.minbx) { b = offset(b, +.5, 0); }
if (b.bx === board.maxbx) { b = offset(b, -.5, 0); }
if (b.by === board.minby) { b = offset(b, 0, +.5); }
if (b.by === board.maxby) { b = offset(b, 0, -.5); }
if (b.bx % 2 === 1 && b.by % 2 === 1) {
add_star(b);
return;
}
b.setQsub(1);
b.draw();
flg ||= b.qsub === 1;
};
if (board.rows === starcount * 4) {
let ct = board.getobj(board.cols, board.rows);
for (let i = 0; i < starcount; i++) {
for (let j = 0; j < starcount; j++) {
for (let d = 0; d < 4; d++) {
add_cir(offset(ct, 2 * i + 1, 2 * j + 1, d));
add_dot(offset(ct, 2 * i + 0.5, 2 * j + 0.5, d));
add_dot(offset(ct, 2 * i + 1.5, 2 * j + 1.5, d));
}
}
}
}
// try covering area with 2*2
let tryCovering = function (clist, n = starcount) {
clist = clist.filter(c => !isDot(c));
if (clist.filter(c => c.qsub !== CQSUB.dot).length <= n * 4) {
let fg = false;
let dfs = function (list = [], dlist = []) {
if (list.filter(c => clist.includes(c)).length + (n - dlist.length) * 4 < clist.length) { return; }
if (dlist.length === n) {
dlist.forEach(b => add_cir(b));
list.forEach(c => {
if (!clist.includes(c)) {
add_dot(c);
}
});
fg = true;
}
if (fg) { return; }
let c = clist.find(cc => !list.includes(cc));
if (c === undefined) { return; }
for (let d = 0; d < 4; d++) {
let l = [c, offset(c, 1, 0, d), offset(c, 0, 1, d), offset(c, 1, 1, d)].filter(cc => !c.isnull);
if (l.some(cc => list.includes(cc))) { continue; }
dfs([...list, ...l], [...dlist, offset(c, .5, .5, d)]);
if (fg) { return; }
}
};
dfs();
}
};
for (let i = 0; i < board.rows - 1; i++) {
let hclist = [], vclist = [];
for (let j = 0; j < board.cols; j++) {
hclist.push(board.getc(j * 2 + 1, i * 2 + 1));
hclist.push(board.getc(j * 2 + 1, i * 2 + 3));
vclist.push(board.getc(i * 2 + 1, j * 2 + 1));
vclist.push(board.getc(i * 2 + 3, j * 2 + 1));
}
tryCovering(hclist, starcount * 2);
tryCovering(vclist, starcount * 2);
}
forEachRoom(room => {
let clist = Array.from(room.clist).filter(c => !isDot(c));
// finish room
if (clist.filter(c => c.qans === CQANS.star).length === starcount) {
clist.forEach(c => add_dot(c));
}
if (clist.filter(c => c.qsub !== CQSUB.dot).length === starcount) {
clist.forEach(c => add_star(c));
}
tryCovering(clist);
});
for (let i = 0; i < board.rows; i++) {
let hcellList = [];
let vcellList = [];
for (let j = 0; j < board.cols; j++) {
hcellList.push(board.getc(2 * j + 1, 2 * i + 1));
vcellList.push(board.getc(2 * i + 1, 2 * j + 1));
}
hcellList = hcellList.filter(c => !isDot(c));
vcellList = vcellList.filter(c => !isDot(c));
// finish row/col
if (hcellList.filter(c => isStar(c) || !isStar(c) && !isStar(c.adjacent.right) &&
isCircle(c.adjborder.right) && !isCircle(c.adjborder.left)).length === starcount) {
hcellList.forEach(c => !isCircle(c.adjborder.left) && !isCircle(c.adjborder.right) && add_dot(c));
}
if (vcellList.filter(c => isStar(c) || !isStar(c) && !isStar(c.adjacent.bottom) &&
isCircle(c.adjborder.bottom) && !isCircle(c.adjborder.top)).length === starcount) {
vcellList.forEach(c => !isCircle(c.adjborder.top) && !isCircle(c.adjborder.bottom) && add_dot(c));
}
for (let j = 0; j < hcellList.length; j++) {
if (hcellList[j].adjacent.right === hcellList[j + 1]) {
hcellList[j] = [hcellList[j], hcellList[j + 1]];
hcellList.splice(j + 1, 1);
} else {
hcellList[j] = [hcellList[j]];
}
}
if (hcellList.length === starcount) {
hcellList.forEach(l => {
if (l.length === 1) {
add_star(l[0]);
}
if (l.length === 2) {
add_cir(l[0].adjborder.right);
}
});
}
for (let j = 0; j < vcellList.length; j++) {
if (vcellList[j].adjacent.bottom === vcellList[j + 1]) {
vcellList[j] = [vcellList[j], vcellList[j + 1]];
vcellList.splice(j + 1, 1);
} else {
vcellList[j] = [vcellList[j]];
}
}
if (vcellList.length === starcount) {
vcellList.forEach(l => {
if (l.length === 1) {
add_star(l[0]);
}
if (l.length === 2) {
add_cir(l[0].adjborder.bottom);
}
});
}
}
forEachCell(cell => {
if (cell.qans === CQANS.star) {
for (let dx = -1; dx <= 1; dx++) {
for (let dy = -1; dy <= 1; dy++) {
add_dot(offset(cell, dx, dy));
}
}
}
});
// adjust circle
for (let i = 0; i < board.cross.length; i++) {
let cross = board.cross[i];
if (cross.qsub !== 1) { continue; }
for (let d = 0; d < 4; d++) {
if (offset(cross, .5, .5, d).qsub === CQSUB.dot && offset(cross, -.5, .5, d).qsub === CQSUB.dot) {
add_cir(offset(cross, 0, -.5, d));
if (offset(cross, 0, -.5, d).qsub === 1) {
cross.setQsub(0);
cross.draw();
}
}
}
}
for (let i = 0; i < board.border.length; i++) {
let border = board.border[i];
if (border.qsub !== 1) { continue; }
if (border.isvert) {
add_dot(offset(border, -.5, -1));
add_dot(offset(border, +.5, -1));
add_dot(offset(border, -.5, +1));
add_dot(offset(border, +.5, +1));
} else {
add_dot(offset(border, -1, -.5));
add_dot(offset(border, -1, +.5));
add_dot(offset(border, +1, -.5));
add_dot(offset(border, +1, +.5));
}
for (let j = 0; j < 2; j++) {
if (border.sidecell[j].qsub === CQSUB.dot) {
add_star(border.sidecell[1 - j]);
}
}
}
}
function CastleWallAssist() {
SingleLoopInCell({
isPassable: c => c.qnum === CQNUM.none,
});
// add invisible qsub at cross
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
// add qsub around b/w clue
if (cell.ques === CQUES.black || cell.ques === CQUES.white) {
for (let d = 0; d < 4; d++) {
add_inout(offset(cell, .5, .5, d), (cell.ques === CQUES.black ? CRQSUB.out : CRQSUB.in));
}
}
// finish clue
if (cell.qnum !== CQNUM.quesmark) {
let d = qdirRemap(cell.qdir);
let borderlist = [];
let pcell = dir(cell.adjacent, d);
let qnum = cell.qnum;
while (!pcell.isnull && (pcell.qnum < 0 || pcell.qdir !== cell.qdir)) {
let b = dir(pcell.adjborder, d);
if (!b.isnull && b.sidecell[0].qnum === CQNUM.none && b.sidecell[1].qnum === CQNUM.none) {
borderlist.push(b);
}
pcell = dir(pcell.adjacent, d);
}
if (!pcell.isnull) {
qnum -= pcell.qnum;
}
if (borderlist.filter(b => b.line).length === qnum) {
borderlist.forEach(b => add_cross(b));
}
if (borderlist.filter(b => b.qsub === BQSUB.none).length === qnum) {
borderlist.forEach(b => add_line(b));
}
}
}
});
}
function NurimisakiAssist() {
let isEmpty = c => !c.isnull && c.qnum === CQNUM.none && c.qsub === CQSUB.none && c.qans === CQANS.none;
let isDot = c => !c.isnull && c.qsub === CQSUB.dot && c.qnum === CQNUM.none;
let isDotEmpty = c => isEmpty(c) || isDot(c);
let isBorderBlack = c => c.isnull || isBlack(c);
let isConnectBlack = c => isBorderBlack(c) || c.qnum !== CQNUM.none;
let isCircle = c => !c.isnull && c.qnum !== CQNUM.none;
let isDotCircle = c => isDot(c) || isCircle(c);
forEachCell(cell => {
let blackcnt = adjlist(cell.adjacent).filter(c => isBorderBlack(c)).length;
let dotcnt = adjlist(cell.adjacent).filter(c => isDot(c)).length;
// no clue pattern
// add dot
if (isEmpty(cell)) {
for (let d = 0; d < 4; d++) {
// cannot place black with 2x2 black rule
// : █
// █_█ : _█ -> A is dot
// A█ ; A█
if (isEmpty(offset(cell, 0, -1, d)) && isBlack(offset(cell, 1, 0, d)) && isBlack(offset(cell, 1, -1, d)) &&
(isBorderBlack(offset(cell, 0, -2, d)) || isBorderBlack(offset(cell, -1, -1, d)))) {
add_dot(cell);
}
else if (isEmpty(offset(cell, 0, -1, d)) && isBlack(offset(cell, -1, 0, d)) && isBlack(offset(cell, -1, -1, d)) &&
(isBorderBlack(offset(cell, 0, -2, d)) || isBorderBlack(offset(cell, 1, -1, d)))) {
add_dot(cell);
}
// : █ : : █
// █_█ : _█ : █_█ : _█ -> A is dot
// A_█ : A_█ : A_ : A_
// ; ; █ ; █
else if (isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 0, -1, d)) && isBlack(offset(cell, 1, -1, d)) &&
(isBorderBlack(offset(cell, 2, 0, d)) || isBorderBlack(offset(cell, 1, 1, d))) &&
(isBorderBlack(offset(cell, 0, -2, d)) || isBorderBlack(offset(cell, -1, -1, d)))) {
add_dot(cell);
}
// ██
// █__ -> A is dot
// A█
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, -1, d)) && isBlack(offset(cell, 1, 0, d)) &&
isBorderBlack(offset(cell, -1, -1, d)) && isBorderBlack(offset(cell, 0, -2, d)) && isBorderBlack(offset(cell, 1, -2, d))) {
add_dot(cell);
}
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, -1, -1, d)) && isBlack(offset(cell, -1, 0, d)) &&
isBorderBlack(offset(cell, 1, -1, d)) && isBorderBlack(offset(cell, 0, -2, d)) && isBorderBlack(offset(cell, -1, -2, d))) {
add_dot(cell);
}
// cannot place black with 2x2 dot rule
else if (isBlack(offset(cell, 1, 0, d)) && isBlack(offset(cell, 1, 1, d)) && isDot(offset(cell, -1, 2, d)) &&
isEmpty(offset(cell, 0, 1, d)) && isDotEmpty(offset(cell, -1, 1, d)) && isDotEmpty(offset(cell, 0, 2, d))) {
add_dot(cell);
}
else if (isBlack(offset(cell, -1, 0, d)) && isBlack(offset(cell, -1, 1, d)) && isDot(offset(cell, 1, 2, d)) &&
isEmpty(offset(cell, 0, 1, d)) && isDotEmpty(offset(cell, 1, 1, d)) && isDotEmpty(offset(cell, 0, 2, d))) {
add_dot(cell);
}
// cannot place black with 2x2 black rule and 2x2 dot rule
else if (isDotEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 0, -2, d)) &&
isBlack(offset(cell, 1, -1, d)) && isBlack(offset(cell, 1, -2, d)) && isBorderBlack(offset(cell, 0, -3, d))) {
add_dot(cell);
}
else if (isDotEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 0, -2, d)) &&
isBlack(offset(cell, -1, -1, d)) && isBlack(offset(cell, -1, -2, d)) && isBorderBlack(offset(cell, 0, -3, d))) {
add_dot(cell);
}
else if (isDotEmpty(offset(cell, -1, 0, d)) && isEmpty(offset(cell, -1, -1, d)) &&
isBlack(offset(cell, 0, -1, d)) && isBorderBlack(offset(cell, -1, 1, d)) && isBorderBlack(offset(cell, -1, -2, d))) {
add_dot(cell);
}
else if (isDotEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, -1, d)) &&
isBlack(offset(cell, 0, -1, d)) && isBorderBlack(offset(cell, 1, 1, d)) && isBorderBlack(offset(cell, 1, -2, d))) {
add_dot(cell);
}
// cannot place black with 2x3 border pattern
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, -1, d)) && isEmpty(offset(cell, 2, -1, d)) &&
isDotEmpty(offset(cell, 1, 0, d)) && isDotEmpty(offset(cell, 2, 0, d)) &&
isBorderBlack(offset(cell, -1, -1, d)) && isBorderBlack(offset(cell, 3, -1, d)) &&
isBorderBlack(offset(cell, 3, 0, d)) && offset(cell, 0, -2, d).isnull) {
add_dot(cell);
}
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, -1, -1, d)) && isEmpty(offset(cell, -2, -1, d)) &&
isDotEmpty(offset(cell, -1, 0, d)) && isDotEmpty(offset(cell, -2, 0, d)) &&
isBorderBlack(offset(cell, 1, -1, d)) && isBorderBlack(offset(cell, -3, -1, d)) &&
isBorderBlack(offset(cell, -3, 0, d)) && offset(cell, 0, -2, d).isnull) {
add_dot(cell);
}
}
}
if (isDot(cell)) {
// dot cannot be deadend
if (blackcnt === 2) {
fourside(add_dot, cell.adjacent);
}
for (let d = 0; d < 4; d++) {
// avoid 2x2 dot
if (isBorderBlack(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 0, 1, d)) &&
isEmpty(offset(cell, -1, 0, d)) && isDot(offset(cell, 1, 1, d))) {
add_dot(offset(cell, -1, 0, d));
}
else if (isBorderBlack(offset(cell, 0, -1, d)) && isEmpty(offset(cell, -1, 0, d)) && isEmpty(offset(cell, 0, 1, d)) &&
isEmpty(offset(cell, 1, 0, d)) && isDot(offset(cell, -1, 1, d))) {
add_dot(offset(cell, 1, 0, d));
}
// dot cannot be deadend with 2x2 dot rule
else if (isBorderBlack(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isBorderBlack(offset(cell, 2, 0, d)) &&
isBorderBlack(offset(cell, 1, -1, d)) && isEmpty(offset(cell, -1, 0, d))) {
add_dot(offset(cell, -1, 0, d));
}
else if (isBorderBlack(offset(cell, 0, -1, d)) && isEmpty(offset(cell, -1, 0, d)) && isBorderBlack(offset(cell, -2, 0, d)) &&
isBorderBlack(offset(cell, -1, -1, d)) && isEmpty(offset(cell, 1, 0, d))) {
add_dot(offset(cell, 1, 0, d));
}
}
}
// add black
if (isEmpty(cell)) {
// black deadend
if (blackcnt >= 3) {
add_black(cell);
}
for (let d = 0; d < 4; d++) {
// cannot dot with 2x2 dot rule
if (isBorderBlack(offset(cell, -1, 0, d)) && isBorderBlack(offset(cell, 2, 0, d)) && isEmpty(offset(cell, 1, 0, d)) &&
offset(cell, 0, -1, d).isnull && offset(cell, 1, -1, d).isnull) {
add_black(cell);
}
else if (isBorderBlack(offset(cell, 1, 0, d)) && isBorderBlack(offset(cell, 0, -1, d)) && isDot(offset(cell, -1, 1, d)) &&
isDotEmpty(offset(cell, -1, 0, d)) && isDotEmpty(offset(cell, 0, 1, d))) {
add_black(cell);
}
}
}
// clue pattern
// any circle clue
if (cell.qnum !== CQNUM.none) {
// clue deadend check
if (blackcnt === 3) {
fourside(add_dot, cell.adjacent);
}
else if (dotcnt === 1) {
fourside(add_black, cell.adjacent);
}
for (let d = 0; d < 4; d++) {
// avoid 2x2 black pattern
if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, -1, d)) &&
isBlack(offset(cell, 0, -2, d)) && isBlack(offset(cell, 1, -2, d))) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, -1, d)) &&
isBlack(offset(cell, 2, 0, d)) && isBlack(offset(cell, 2, -1, d))) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, -1, d)) &&
isEmpty(offset(cell, 0, -2, d)) && isBlack(offset(cell, 1, -2, d)) &&
(isBorderBlack(offset(cell, 0, -3, d)) || isBorderBlack(offset(cell, -1, -2, d)))) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, -1, d)) &&
isEmpty(offset(cell, 2, 0, d)) && isBlack(offset(cell, 2, -1, d)) &&
(isBorderBlack(offset(cell, 3, 0, d)) || isBorderBlack(offset(cell, 2, 1, d)))) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
// avoid 2x2 black and 2x2 dot apttern
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isDotEmpty(offset(cell, 1, -1, d)) &&
isEmpty(offset(cell, 1, -2, d)) && isBlack(offset(cell, 0, -2, d)) && isBorderBlack(offset(cell, 1, -3, d))) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isDotEmpty(offset(cell, 1, -1, d)) &&
isEmpty(offset(cell, 2, -1, d)) && isBlack(offset(cell, 2, 0, d)) && isBorderBlack(offset(cell, 3, -1, d))) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
// avoid border 2x2 black
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, -1, d)) &&
isDotEmpty(offset(cell, 2, 0, d)) && isEmpty(offset(cell, 2, -1, d)) && isBorderBlack(offset(cell, 3, 0, d)) &&
isBorderBlack(offset(cell, 3, -1, d)) && offset(cell, 0, -2, d).isnull) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, -1, d)) &&
isDotEmpty(offset(cell, 0, -2, d)) && isEmpty(offset(cell, 1, -2, d)) && isBorderBlack(offset(cell, 0, -3, d)) &&
isBorderBlack(offset(cell, 1, -3, d)) && offset(cell, 2, 0, d).isnull) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
// avoid border 2x3 pattern
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, -1, d)) &&
isDotEmpty(offset(cell, 2, 0, d)) && isDotEmpty(offset(cell, 2, -1, d)) && isDotEmpty(offset(cell, 3, 0, d)) &&
isEmpty(offset(cell, 3, -1, d)) && isBorderBlack(offset(cell, 4, 0, d)) &&
isBorderBlack(offset(cell, 4, -1, d)) && offset(cell, 0, -2, d).isnull) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
else if (isEmpty(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, -1, d)) &&
isDotEmpty(offset(cell, 0, -2, d)) && isDotEmpty(offset(cell, 1, -2, d)) && isDotEmpty(offset(cell, 0, -3, d)) &&
isEmpty(offset(cell, 1, -3, d)) && isBorderBlack(offset(cell, 0, -4, d)) &&
isBorderBlack(offset(cell, 1, -4, d)) && offset(cell, 2, 0, d).isnull) {
add_black(offset(cell, 0, 1, d));
add_black(offset(cell, -1, 0, d));
}
}
}
if (isEmpty(cell)) {
for (let d = 0; d < 4; d++) {
// cannot place black with 2x2 white
if (isBlack(offset(cell, 1, 0, d)) && isBlack(offset(cell, 1, 1, d)) && isCircle(offset(cell, -1, 2, d)) &&
isEmpty(offset(cell, 0, 1, d)) && isEmpty(offset(cell, -1, 1, d)) && isEmpty(offset(cell, 0, 2, d))) {
add_dot(cell);
}
else if (isBlack(offset(cell, -1, 0, d)) && isBlack(offset(cell, -1, 1, d)) && isCircle(offset(cell, 1, 2, d)) &&
isEmpty(offset(cell, 0, 1, d)) && isEmpty(offset(cell, 1, 1, d)) && isEmpty(offset(cell, 0, 2, d))) {
add_dot(cell);
}
// cannot place dot with 2x2 white
else if (isBorderBlack(offset(cell, 1, 0, d)) && isBorderBlack(offset(cell, 0, -1, d)) && isCircle(offset(cell, -1, 1, d)) &&
isEmpty(offset(cell, -1, 0, d)) && isEmpty(offset(cell, 0, 1, d))) {
add_black(cell);
}
}
}
if (isDot(cell)) {
for (let d = 0; d < 4; d++) {
// avoid 2x2 white
if (isBorderBlack(offset(cell, 0, -1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 0, 1, d)) &&
isDotEmpty(offset(cell, -1, 0, d)) && isCircle(offset(cell, 1, 1, d))) {
add_dot(offset(cell, -1, 0, d));
add_black(offset(cell, 2, 1, d));
add_black(offset(cell, 1, 2, d));
}
else if (isBorderBlack(offset(cell, 0, -1, d)) && isEmpty(offset(cell, -1, 0, d)) && isEmpty(offset(cell, 0, 1, d)) &&
isDotEmpty(offset(cell, 1, 0, d)) && isCircle(offset(cell, -1, 1, d))) {
add_dot(offset(cell, 1, 0, d));
add_black(offset(cell, -2, 1, d));
add_black(offset(cell, -1, 2, d));
}
}
}
// circle clue with number
if (cell.qnum >= 2) {
for (let d = 0; d < 4; d++) {
if (isEmpty(offset(cell, 0, -1, d))) {
// avoid eyesight too long
if (isDotCircle(offset(cell, 0, -cell.qnum, d))) {
add_black(offset(cell, 0, -1, d));
}
// situation for clue at the end
else if (isCircle(offset(cell, 0, -cell.qnum + 1, d)) &&
offset(cell, 0, -cell.qnum + 1, d).qnum !== CQNUM.circle && offset(cell, 0, -cell.qnum + 1, d).qnum !== cell.qnum) {
add_black(offset(cell, 0, -1, d));
}
}
if (isEmpty(offset(cell, 0, -1, d))) {
for (let j = 2; j < cell.qnum; j++) {
// eyesight not enough long
if (j !== cell.qnum - 1 && isConnectBlack(offset(cell, 0, -j, d))) {
add_black(offset(cell, 0, -1, d));
break;
}
if (isBorderBlack(offset(cell, 0, -j, d))) {
add_black(offset(cell, 0, -1, d));
break;
}
// avoid 2x2 dot
if (isDot(offset(cell, 1, -j + 1, d)) && isDot(offset(cell, 1, -j, d))) {
add_black(offset(cell, 0, -1, d));
break;
}
if (isDot(offset(cell, -1, -j + 1, d)) && isDot(offset(cell, -1, -j, d))) {
add_black(offset(cell, 0, -1, d));
break;
}
}
}
// extend eyesight
if (isDot(offset(cell, 0, -1, d))) {
for (let j = 2; j < cell.qnum; j++) {
add_dot(offset(cell, 0, -j, d));
}
add_black(offset(cell, 0, -cell.qnum, d));
}
}
}
});
// 2x2 rules
No2x2Cell({
isShaded: isBlack,
add_unshaded: add_dot,
});
No2x2Cell({
isShaded: c => c.qsub === CQSUB.dot,
add_unshaded: add_black,
});
CellConnected({
isShaded: isDotCircle,
isUnshaded: isBlack,
add_shaded: add_dot,
add_unshaded: add_black,
});
CellConnected({
isShaded: isDot,
isUnshaded: isConnectBlack,
add_shaded: add_dot,
add_unshaded: add_black,
});
}
function ChocoBananaAssist() {
SizeRegion_Cell({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
OneNumPerRegion: false,
NoUnshadedNum: false,
});
SizeRegion_Cell({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
OneNumPerRegion: false,
NoUnshadedNum: false,
});
RectRegion_Cell({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
isSizeAble: (w, h, sc, c) => {
for (let i = 0; i < w; i++) {
for (let j = 0; j < h; j++) {
if (offset(c, i, j).qnum > 0 && offset(c, i, j).qnum !== w * h) { return false; }
}
}
return true;
},
});
forEachCell(cell => {
if (cell.qnum === 1 || cell.qnum === 2) {
add_black(cell);
}
// non-rect
if (isGreen(cell)) {
let templist = [offset(cell, 1, 0), offset(cell, 0, 1), offset(cell, -1, 0), offset(cell, 0, -1)];
templist = templist.filter(c => !c.isnull && c.qans !== CQANS.black);
if (templist.length === 1) {
let ncell = templist[0];
add_green(ncell);
let templist2 = [offset(ncell, 1, 0), offset(ncell, 0, 1), offset(ncell, -1, 0), offset(ncell, 0, -1)];
templist2 = templist2.filter(c => !c.isnull && c.qans !== CQANS.black && c !== cell);
if (templist2.length === 1) {
add_green(templist2[0]);
}
}
}
});
}
function CreekAssist() {
GreenConnected();
let dotcnt = 0;
forEachCell(cell => {
dotcnt += cell.qsub === CQSUB.dot;
});
for (let i = 0; i < board.cross.length; i++) {
let cross = board.cross[i];
let list = [board.getc(cross.bx - 1, cross.by - 1), board.getc(cross.bx - 1, cross.by + 1),
board.getc(cross.bx + 1, cross.by - 1), board.getc(cross.bx + 1, cross.by + 1)];
list = list.filter(c => !c.isnull);
if (cross.qnum >= 0) {
if (list.filter(c => isBlack(c)).length === cross.qnum) {
list.forEach(c => add_dot(c));
}
if (list.filter(c => c.qsub !== CQSUB.dot).length === cross.qnum) {
list.forEach(c => add_black(c));
}
}
for (let d = 0; d < 4; d++) {
// + + + + + + + +
// · █
// + 1 3 + -> + 1 3 +
// · █
// + + + + + + + +
if (cross.qnum === 1 && offset(cross, 1, 0, d).qnum === 3) {
add_dot(offset(cross, -.5, -.5, d));
add_dot(offset(cross, -.5, +.5, d));
add_black(offset(cross, 1.5, -.5, d));
add_black(offset(cross, 1.5, +.5, d));
}
// + + + + + + + +
//
// + 3 + + + 3 + +
// -> █
// + + 3 + + + 3 +
//
// + + + + + + + +
if (cross.qnum === 3 && offset(cross, 1, 1, d).qnum === 3 && dotcnt > 0) {
add_black(offset(cross, .5, .5, d));
}
}
}
}
function SlantAssist() {
let add_slash = function (c, qans) {
if (c === undefined || c.isnull || c.qans !== CQANS.none) { return; }
if (step && flg) { return; }
flg = true;
c.setQans(qans % 2 === 0 ? CQANS.lslash : CQANS.rslash);
c.draw();
};
let isNotSide = function (c) {
return c.bx > board.minbx && c.bx < board.maxbx && c.by > board.minby && c.by < board.maxby;
}
for (let i = 0; i < board.cross.length; i++) {
let cross = board.cross[i];
let adjcellList = [[board.getc(cross.bx - 1, cross.by - 1), CQANS.rslash, CQANS.lslash],
[board.getc(cross.bx - 1, cross.by + 1), CQANS.lslash, CQANS.rslash],
[board.getc(cross.bx + 1, cross.by - 1), CQANS.lslash, CQANS.rslash],
[board.getc(cross.bx + 1, cross.by + 1), CQANS.rslash, CQANS.lslash]];
adjcellList = adjcellList.filter(c => !c[0].isnull);
// finish clue
if (cross.qnum >= 0) {
if (adjcellList.filter(c => c[0].qans === c[1]).length === cross.qnum) {
adjcellList.forEach(c => add_slash(c[0], c[2]));
}
if (adjcellList.filter(c => c[0].qans !== c[2]).length === cross.qnum) {
adjcellList.forEach(c => add_slash(c[0], c[1]));
}
}
for (let d = 0; d < 4; d++) {
// + + + + + + + +
//
// + 1 + + + 1 + +
// -> ╱
// + + 1 + + + 1 +
//
// + + + + + + + +
if (cross.qnum === 1 && isNotSide(cross)) {
let cross2 = offset(cross, 1, 1, d);
if (cross2.qnum === 1 && isNotSide(cross2)) {
add_slash(offset(cross, .5, .5, d), CQANS.lslash + d);
}
}
// + + + + + + + +
// ╱ ╲
// + 1 1 + -> + 1 1 +
// ╲ ╱
// + + + + + + + +
if (cross.qnum === 1) {
if (offset(cross, 0, 1, d).isnull || offset(cross, 0, -1, d).isnull) { continue; }
if (!offset(cross, 1, 0, d).isnull && offset(cross, 1, 0, d).qnum === 1) {
add_slash(offset(cross, -0.5, -.5, d), CQANS.lslash + d);
add_slash(offset(cross, -0.5, +.5, d), CQANS.rslash + d);
add_slash(offset(cross, +1.5, -.5, d), CQANS.rslash + d);
add_slash(offset(cross, +1.5, +.5, d), CQANS.lslash + d);
}
}
// + + + + + + + +
// ╲ ╱
// + 3 3 + -> + 3 3 +
// ╱ ╲
// + + + + + + + +
if (cross.qnum === 3) {
if (!offset(cross, 1, 0, d).isnull && offset(cross, 1, 0, d).qnum === 3 && isNotSide(offset(cross, 1, 0, d))) {
add_slash(offset(cross, -0.5, -.5, d), CQANS.rslash + d);
add_slash(offset(cross, -0.5, +.5, d), CQANS.lslash + d);
add_slash(offset(cross, +1.5, -.5, d), CQANS.lslash + d);
add_slash(offset(cross, +1.5, +.5, d), CQANS.rslash + d);
}
}
}
}
// no loop
// + + + + + +
// / \ / \
// + + + -> + + +
// \ \ \
// + + + + + +
forEachCell(cell => {
if (cell.qans !== CQANS.none) { return; }
let cross1, cross2;
cross1 = board.getobj(cell.bx - 1, cell.by - 1);
cross2 = board.getobj(cell.bx + 1, cell.by + 1);
if (cross1.path !== null && cross1.path === cross2.path) {
add_slash(cell, CQANS.lslash);
}
cross1 = board.getobj(cell.bx - 1, cell.by + 1);
cross2 = board.getobj(cell.bx + 1, cell.by - 1);
if (cross1.path !== null && cross1.path === cross2.path) {
add_slash(cell, CQANS.rslash);
}
});
}
function NuribouAssist() {
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_green(cell);
}
// surrounded white cell
let templist = [offset(cell, 1, 0, 0), offset(cell, 1, 0, 1), offset(cell, 1, 0, 2), offset(cell, 1, 0, 3)];
if (cell.qnum === CQNUM.none && templist.filter(c => isBlack(c)).length === 4) {
add_black(cell);
}
});
StripRegion_cell({
isShaded: isBlack,
add_unshaded: add_green,
});
SizeRegion_Cell({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: c => add_black(c, true),
});
// unreachable cell
{
let list = [];
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
list.push(cell);
if (cell.qnum === CQNUM.quesmark) { return; }
for (let dx = -cell.qnum + 1; dx <= cell.qnum - 1; dx++) {
for (let dy = -cell.qnum + Math.abs(dx) + 1; dy <= cell.qnum - Math.abs(dx) - 1; dy++) {
let c = offset(cell, dx, dy);
if (c.isnull || list.includes(c)) { continue; }
list.push(c);
}
}
}
});
if (!list.some(c => c.qnum === CQNUM.quesmark)) {
forEachCell(cell => {
if (!list.includes(cell)) {
add_black(cell);
}
});
}
}
}
function NurikabeAssist() {
forEachCell(cell => {
// surrounded white cell
let templist = [offset(cell, 1, 0, 0), offset(cell, 1, 0, 1), offset(cell, 1, 0, 2), offset(cell, 1, 0, 3)];
if (cell.qnum === CQNUM.none && templist.filter(c => isBlack(c)).length === 4) {
add_black(cell);
}
});
CellConnected({
isShaded: isBlack,
isUnshaded: c => c.qsub === CQSUB.dot || c.qnum !== CQNUM.none,
add_shaded: c => add_black(c, true),
add_unshaded: add_dot,
});
No2x2Cell({
isShaded: isBlack,
add_unshaded: add_dot,
});
SizeRegion_Cell({
isShaded: c => c.qsub === CQSUB.dot || c.qnum !== CQNUM.none,
isUnshaded: isBlack,
add_shaded: add_dot,
add_unshaded: c => add_black(c, true),
});
// unreachable cell
{
let list = [];
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
list.push(cell);
if (cell.qnum === CQNUM.quesmark) { return; }
for (let dx = -cell.qnum + 1; dx <= cell.qnum - 1; dx++) {
for (let dy = -cell.qnum + Math.abs(dx) + 1; dy <= cell.qnum - Math.abs(dx) - 1; dy++) {
let c = offset(cell, dx, dy);
if (c.isnull || list.includes(c)) { continue; }
list.push(c);
}
}
}
});
if (!list.some(c => c.qnum === CQNUM.quesmark)) {
forEachCell(cell => {
if (!list.includes(cell)) {
add_black(cell);
}
});
}
}
}
function GuideArrowAssist() {
BlackNotAdjacent();
GreenConnected();
GreenNoLoopInCell();
let goalcell = board.getc(board.goalpos.bx, board.goalpos.by);
forEachCell(cell => {
if (cell === goalcell) {
add_green(cell);
return;
}
if (cell.qnum !== CQNUM.none) {
add_green(cell);
if (cell.qnum !== CQNUM.quesmark) {
let d = qdirRemap(cell.qnum);
add_green(dir(cell.adjacent, d));
}
return;
}
});
// direction consistency
{
let vis = new Map();
let dfs = function (c, d) {
if (vis.has(c)) { return; }
vis.set(c, d);
for (let d1 = 0; d1 < 4; d1++) {
if (d1 === d) { continue; }
let c1 = dir(c.adjacent, d1);
if (c1 === undefined || c1.isnull || c1.qsub !== CQSUB.green) { continue; }
dfs(c1, (d1 + 2) % 4);
}
};
dfs(goalcell, -1);
forEachCell(cell => {
if (cell.qnum === CQNUM.none || cell.qnum === CQNUM.quesmark) { return; }
dfs(cell, qdirRemap(cell.qnum));
});
forEachCell(cell => {
if (cell.qsub !== CQSUB.none || cell.qans !== CQANS.none) { return; }
let cnt = 0;
fourside(c => {
if (isGreen(c) && vis.has(c)) { cnt++; }
}, cell.adjacent);
if (cnt >= 2) add_black(cell);
});
}
// single out
{
let vis = new Map();
vis.set(goalcell, -1);
forEachCell(cell => {
let d = (function () {
if (cell.qnum === CQNUM.none || cell.qnum === CQNUM.quesmark) {
let cnt = 0;
let dd = -1;
for (let d1 = 0; d1 < 4; d1++) {
let c1 = dir(cell.adjacent, d1);
if (c1 === undefined || c1.isnull || isBlack(c1)) { continue; }
cnt++;
dd = d1;
}
if (cnt === 1) { return dd; }
return -1;
}
return qdirRemap(cell.qnum);;
})();
if (d === -1) { return; }
while (true) {
if (vis.has(cell)) { break; }
vis.set(cell, d);
cell = dir(cell.adjacent, d);
add_green(cell);
let cnt = 0;
let dd = -1;
for (let d1 = 0; d1 < 4; d1++) {
let c1 = dir(cell.adjacent, d1);
if (c1 === undefined || c1.isnull || isBlack(c1)) { continue; }
if (vis.has(c1) && vis.get(c1) === (d1 + 2) % 4) { continue; }
cnt++;
dd = d1;
}
if (cnt !== 1) { break; }
d = dd;
}
});
}
}
function YinyangAssist() {
let add_color = function (c, color) {
if (c === undefined || c.isnull || c.anum !== CANUM.none || color !== CANUM.wcir && color !== CANUM.bcir) { return; }
if (step && flg) { return; }
flg = true;
c.setAnum(color);
c.draw();
};
let add_black = function (c) {
add_color(c, CANUM.bcir);
};
let add_white = function (c) {
add_color(c, CANUM.wcir);
};
CellConnected({
isShaded: c => c.anum === CANUM.wcir,
isUnshaded: c => c.anum === CANUM.bcir,
add_shaded: add_white,
add_unshaded: add_black,
});
CellConnected({
isShaded: c => c.anum === CANUM.bcir,
isUnshaded: c => c.anum === CANUM.wcir,
add_shaded: add_black,
add_unshaded: add_white,
});
No2x2Cell({
isShaded: c => c.anum === CANUM.wcir,
add_unshaded: add_black,
});
No2x2Cell({
isShaded: c => c.anum === CANUM.bcir,
add_unshaded: add_white,
});
NoCheckerCell({
isShaded: c => c.anum === CANUM.wcir,
isUnshaded: c => c.anum === CANUM.bcir,
add_shaded: add_white,
add_unshaded: add_black,
});
// cell at side is grouped when both sides are even
if (board.rows % 2 === 0 && board.cols % 2 === 0) {
for (let i = 1; i + 1 < board.rows; i += 2) {
let cell1 = board.getc(board.minbx + 1, 2 * i + 1);
let cell2 = board.getc(board.minbx + 1, 2 * i + 3);
if (cell1.anum !== CANUM.none || cell2.anum !== CANUM.none) {
add_color(cell1, cell2.anum);
add_color(cell2, cell1.anum);
}
cell1 = board.getc(board.maxbx - 1, 2 * i + 1);
cell2 = board.getc(board.maxbx - 1, 2 * i + 3);
if (cell1.anum !== CANUM.none || cell2.anum !== CANUM.none) {
add_color(cell1, cell2.anum);
add_color(cell2, cell1.anum);
}
}
for (let i = 1; i + 1 < board.cols; i += 2) {
let cell1 = board.getc(2 * i + 1, board.minby + 1);
let cell2 = board.getc(2 * i + 3, board.minby + 1);
if (cell1.anum !== CANUM.none || cell2.anum !== CANUM.none) {
add_color(cell1, cell2.anum);
add_color(cell2, cell1.anum);
}
cell1 = board.getc(2 * i + 1, board.maxby - 1);
cell2 = board.getc(2 * i + 3, board.maxby - 1);
if (cell1.anum !== CANUM.none || cell2.anum !== CANUM.none) {
add_color(cell1, cell2.anum);
add_color(cell2, cell1.anum);
}
}
}
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_color(cell, cell.qnum);
}
// ○ ● ○●●
// ○ ○ -> ○ ○
if (cell.anum === CANUM.none) {
for (let d = 0; d < 4; d++) {
let templist = [offset(cell, 1, -1, d), offset(cell, 1, 1, d), offset(cell, 0, -1, d), offset(cell, 0, 1, d)];
if (!templist.some(c => c.isnull || c.anum === CANUM.none) &&
templist[0].anum === templist[1].anum && templist[2].anum !== templist[3].anum) {
add_color(cell, CANUM.bcir + CANUM.wcir - templist[0].anum);
}
}
}
});
// outside
{
let firstcell = board.cell[0];
let cellList = [];
for (let j = 0; j < board.rows; j++) { cellList.push(offset(firstcell, 0, j)); }
for (let i = 1; i < board.cols - 1; i++) { cellList.push(offset(firstcell, i, board.rows - 1)); }
for (let j = board.rows - 1; j >= 0; j--) { cellList.push(offset(firstcell, board.cols - 1, j)); }
for (let i = board.cols - 2; i > 0; i--) { cellList.push(offset(firstcell, i, 0)); }
let len = cellList.length;
if (cellList.some(c => c.anum === CANUM.bcir) && cellList.some(c => c.anum === CANUM.wcir)) {
for (let i = 0; i < len; i++) {
if (cellList[i].anum === CANUM.none || cellList[(i + 1) % len].anum !== CANUM.none) { continue; }
for (let j = (i + 1) % len; j != i; j = (j + 1) % len) {
if (cellList[j].anum === CANUM.bcir + CANUM.wcir - cellList[i].anum) { break; }
if (cellList[j].anum === CANUM.none) { continue; }
if (cellList[j].anum === cellList[i].anum) {
for (let k = i; k != j; k = (k + 1) % len) {
add_color(cellList[k], cellList[i].anum);
}
}
}
}
}
}
}
function PaintareaAssist() {
No2x2Black();
No2x2Green();
CellConnected({
isShaded: isBlack,
isUnshaded: isGreen,
add_shaded: add_black,
add_unshaded: add_green,
isLinked: (c, nb, nc) => c.room === nc.room,
});
forEachCell(cell => {
if (cell.qnum >= 0 && adjlist(cell.adjacent).filter(c => isBlack(c)).length === cell.qnum) {
adjlist(cell.adjacent).forEach(c => add_green(c));
}
if (cell.qnum >= 0 && adjlist(cell.adjacent).filter(c => !c.isnull && !isGreen(c)).length === cell.qnum) {
adjlist(cell.adjacent).forEach(c => add_black(c));
}
// no 2*2
let list = [cell, offset(cell, 1, 0), offset(cell, 0, 1), offset(cell, 1, 1)];
if (!list.some(c => c.isnull) && !list.some(c => isGreen(c))) {
let templist2 = list.filter(c => !c.qans);
if (templist2.length > 0 && !templist2.some(c => c.room !== templist2[0].room)) {
add_green(templist2[0]);
}
}
if (!list.some(c => c.qans)) {
let templist2 = list.filter(c => c.qsub !== CQSUB.green);
if (templist2.length > 0 && !templist2.some(c => c.room !== templist2[0].room)) {
add_black(templist2[0]);
}
}
});
forEachRoom(room => {
let cellList = Array.from(room.clist);
if (cellList.some(c => isGreen(c))) {
cellList.forEach(c => add_green(c));
return;
}
if (cellList.some(c => isBlack(c))) {
cellList.forEach(c => add_black(c));
return;
}
});
}
function NuriMazeAssist() {
let startcell = board.getc(board.startpos.bx, board.startpos.by);
let goalcell = board.getc(board.goalpos.bx, board.goalpos.by);
No2x2Black();
No2x2Green();
CellConnected({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
isLinked: (c, nb, nc) => c.room === nc.room,
});
CellConnected({
isShaded: c => {
return c === startcell || c === goalcell || c.ques === CQUES.cir;
},
isUnshaded: c => isBlack(c) || c.ques === CQUES.tri,
add_shaded: add_green,
add_unshaded: () => { },
isLinked: (c, nb, nc) => c.room === nc.room,
});
CellConnected({
isShaded: c => {
if (c === startcell || c === goalcell) { return c.lcnt === 0; }
return c.lcnt == 1;
},
isUnshaded: c => {
if (c === startcell || c === goalcell) { return c.lcnt === 1; }
return c.lcnt === 2 || isBlack(c) || c.ques === CQUES.tri;
},
add_shaded: add_green,
add_unshaded: () => { },
isLinked: (c, nb, nc) => c.room === nc.room,
cantDivideShade: n => n % 2 === 1,
OnlyOneConnected: false,
UnshadeEmpty: false,
});
let circnt = 0;
forEachCell(cell => {
circnt += cell.ques === CQUES.cir;
});
forEachRoom(room => {
let cellList = Array.from(room.clist);
if (cellList.some(c => isGreen(c) || c.ques === CQUES.cir || c.ques === CQUES.tri || c.lcnt > 0) ||
room === startcell.room || room === goalcell.room) {
cellList.forEach(c => add_green(c));
return;
}
if (cellList.some(c => isBlack(c))) {
cellList.forEach(c => add_black(c));
return;
}
let circnt1 = circnt, circnt2 = circnt;
let templist = [];
cellList.forEach(c => {
let list = [offset(c, -1, 0), offset(c, 0, -1), offset(c, 0, 1), offset(c, 1, 0)];
list.forEach(c => {
if (c.isnull || templist.includes(c)) { return; }
templist.push(c);
});
});
templist = templist.filter(c => isGreen(c));
if (templist.length < 2) { return; }
// no loop
let templist2 = templist.map(c => {
let dfslist = [];
let dfs = function (c) {
if (c.isnull || c.qsub !== CQSUB.green || dfslist.includes(c)) { return; }
dfslist.push(c);
fourside(dfs, c.adjacent);
};
dfs(c);
if (dfslist.some(c => c === startcell)) {
circnt1 = dfslist.filter(c => c.ques === CQUES.cir).length;
}
if (dfslist.some(c => c === goalcell)) {
circnt2 = dfslist.filter(c => c.ques === CQUES.cir).length;
}
return dfslist.filter(c => templist.includes(c)).length;
});
if (templist2.some(n => n > 1)) {
cellList.forEach(c => add_black(c));
return;
}
// not enough cir
if (circnt1 + circnt2 < circnt) {
cellList.forEach(c => add_black(c));
return;
}
// no branch for line
templist2 = templist.map(c => {
let res = 0;
let dfslist = [];
let dfs = function (c) {
if (c.isnull || c.qsub !== CQSUB.green || dfslist.includes(c)) { return; }
if (c === startcell || c === goalcell || c.ques === CQUES.cir || c.lcnt > 0) {
res += c === startcell;
res += c === goalcell;
res += (c.ques === CQUES.cir && c.lcnt === 0);
res += c.lcnt;
res += (dfslist.some(c => c.ques === CQUES.tri) ? 2 : 0);
return;
}
dfslist.push(c);
fourside(dfs, c.adjacent);
dfslist.pop();
}
dfs(c);
return Math.min(res, 2);
});
if (templist2.reduce((a, b) => a + b) > 2) {
cellList.forEach(c => add_black(c));
return;
}
});
forEachCell(cell => {
if (cell.ques === CQUES.cir) {
let templist = [offset(cell, -1, 0), offset(cell, 1, 0), offset(cell, 0, -1), offset(cell, 0, 1)];
templist = templist.filter(c => !c.isnull && c.qans !== CQANS.black);
if (templist.length === 2) {
templist.forEach(c => add_green(c));
}
}
// surrounded by black
{
let templist = [offset(cell, -1, 0), offset(cell, 1, 0), offset(cell, 0, -1), offset(cell, 0, 1)];
if (templist.filter(c => isBlack(c)).length === 4) {
add_black(cell);
}
}
// no 2*2
{
let templist = [cell, offset(cell, 1, 0), offset(cell, 0, 1), offset(cell, 1, 1)];
if (!templist.some(c => c.isnull) && !templist.some(c => isGreen(c))) {
let templist2 = templist.filter(c => !c.qans);
if (templist2.length > 0 && !templist2.some(c => c.room !== templist2[0].room)) {
add_green(templist2[0]);
}
}
if (!templist.some(c => c.qans)) {
let templist2 = templist.filter(c => c.qsub !== CQSUB.green);
if (templist2.length > 0 && !templist2.some(c => c.room !== templist2[0].room)) {
add_black(templist2[0]);
}
}
}
});
// line
forEachCell(cell => {
if (isBlack(cell) || cell.ques === CQUES.tri) {
fourside(add_cross, cell.adjborder);
}
if (cell.qans !== CQANS.black) {
let emptycnt = 0;
let linecnt = 0;
fourside((c, b) => {
if (!c.isnull && b.qsub !== BQSUB.cross) { emptycnt++; }
linecnt += b.line;
}, cell.adjacent, cell.adjborder);
if (linecnt > 0) {
add_green(cell);
}
// no branch
if (linecnt === 2 || linecnt === 1 && (cell === startcell || cell === goalcell)) {
fourside(add_cross, cell.adjborder);
}
// no deadend
if (emptycnt === 1) {
if (cell !== startcell && cell !== goalcell) {
fourside(add_cross, cell.adjborder);
} else {
fourside((c, b) => {
if (!c.isnull && b.qsub !== BQSUB.cross) {
add_line(b);
}
}, cell.adjacent, cell.adjborder);
}
}
// 2 degree path
if (emptycnt === 2 && cell !== startcell && cell !== goalcell && (linecnt === 1 || cell.ques === CQUES.cir)) {
fourside((c, b) => {
add_line(b);
if (!b.isnull && b.line) {
add_green(c);
}
}, cell.adjacent, cell.adjborder);
}
// extend line
if (linecnt === 1 && cell !== startcell && cell !== goalcell ||
linecnt === 0 && (cell === startcell || cell === goalcell || cell.ques === CQUES.cir)) {
let fn = function (c, b, list) {
if (c.isnull || c.qsub !== CQSUB.green || list.includes(c)) { return; }
if (b !== null && b.line) { return; }
list.push(c);
if (c.lcnt === 1 || c.ques === CQUES.cir || c === startcell || c === goalcell) {
for (let j = 1; j < list.length; j++) {
let cell1 = list[j - 1];
let cell2 = list[j];
let border = board.getb((cell1.bx + cell2.bx) / 2, (cell1.by + cell2.by) / 2);
add_line(border);
add_green(cell1);
add_green(cell2);
}
}
fn(c.adjacent.top, c.adjborder.top, list);
fn(c.adjacent.bottom, c.adjborder.bottom, list);
fn(c.adjacent.left, c.adjborder.left, list);
fn(c.adjacent.right, c.adjborder.right, list);
list.pop();
}
fn(cell, null, []);
}
}
});
}
function AquapelagoAssist() {
No2x2Green();
BlackNotAdjacent();
GreenConnected();
forEachCell(cell => {
if (cell.qnum !== CQNUM.none) {
add_black(cell);
}
if (cell.qnum > 0) {
let templist = [];
let fn = function (c) {
if (c.qans !== CQANS.black) { return; }
if (templist.includes(c)) { return; }
templist.push(c);
fn(offset(c, -1, -1));
fn(offset(c, -1, +1));
fn(offset(c, +1, -1));
fn(offset(c, +1, +1));
};
fn(cell);
if (templist.length === cell.qnum) {
templist.forEach(c => {
add_green(offset(c, -1, -1));
add_green(offset(c, -1, +1));
add_green(offset(c, +1, -1));
add_green(offset(c, +1, +1));
});
}
if (templist.length < cell.qnum) {
let list = [];
let fn = function (c) {
if (c.isnull || isBlack(c) || isGreen(c)) { return; }
if (list.includes(c)) { return; }
list.push(c);
};
templist.forEach(c => {
fn(offset(c, -1, -1));
fn(offset(c, -1, +1));
fn(offset(c, +1, -1));
fn(offset(c, +1, +1));
});
if (list.length === 1) {
add_black(list[0]);
}
}
}
});
}
function IcelomAssist() {
let add_arrow = function (b, dir) {
if (b === undefined || b.isnull || b.qsub !== BQSUB.none) { return; }
if (step && flg) { return; }
flg = true;
b.setQsub(dir);
b.draw();
};
let inb = board.getb(board.arrowin.bx, board.arrowin.by);
let outb = board.getb(board.arrowout.bx, board.arrowout.by);
add_line(inb);
add_line(outb);
SingleLoopInCell({ isPass: c => !isIce(c), Directed: true });
// add cross outside except IN and OUT
forEachBorder(border => {
if (!border.inside && border !== inb && border !== outb) {
add_cross(border);
}
if (border.qdir != QDIR.none) {
add_arrow(border, border.qdir + 10); // from qdir to bqsub
add_line(border);
}
// TODO: number clue
});
let iceSet = new Set();
forEachCell(cell => {
if (cell.lcnt === 1 && !isIce(cell)) {
for (let d = 0; d < 4; d++) {
let ncell = dir(cell.adjacent, d);
while (!ncell.isnull && isIce(ncell)) {
ncell = dir(ncell.adjacent, d);
}
if (ncell.isnull || ncell.lcnt !== 1 || dir(ncell.adjborder, d + 2).line) { continue; }
if (board.linegraph.components.length > 2 &&
(cell.path === inb.path && ncell.path === outb.path || cell.path === outb.path && ncell.path === inb.path)) {
add_cross(dir(cell.adjborder, d));
}
}
}
});
}
function IcebarnAssist() {
let add_arrow = function (b, dir) {
if (b === undefined || b.isnull || b.qsub !== BQSUB.none) { return; }
if (step && flg) { return; }
flg = true;
b.setQsub(dir);
b.draw();
};
let inb = board.getb(board.arrowin.bx, board.arrowin.by);
let outb = board.getb(board.arrowout.bx, board.arrowout.by);
add_line(inb);
add_line(outb);
SingleLoopInCell({ Directed: true });
// add cross outside except IN and OUT
forEachBorder(border => {
if (!border.inside && border !== inb && border !== outb) {
add_cross(border);
}
if (border.qdir != QDIR.none) {
add_arrow(border, border.qdir + 10); // from qdir to bqsub
add_line(border);
}
});
let iceSet = new Set();
forEachCell(cell => {
// pass all ice
if (isIce(cell) && !iceSet.has(cell)) {
let list = [], blist = [];
let dfs = function (c) {
if (c.isnull || !isIce(c) || iceSet.has(c)) { return; }
iceSet.add(c);
list.push(c);
fourside(b => blist.push(b), c.adjborder);
fourside(dfs, c.adjacent);
}
dfs(cell);
blist = blist.filter(b => b.sidecell.some(c => isIce(c)) && b.sidecell.some(c => !c.isnull && !isIce(c)));
blist = blist.filter(b => b.qsub !== BQSUB.cross);
if (blist.length === 2) {
blist.forEach(b => add_line(b));
}
}
if (cell.lcnt === 1 && !isIce(cell)) {
for (let d = 0; d < 4; d++) {
let ncell = dir(cell.adjacent, d);
while (!ncell.isnull && isIce(ncell)) {
ncell = dir(ncell.adjacent, d);
}
if (ncell.isnull || ncell.lcnt !== 1 || dir(ncell.adjborder, d + 2).line) { continue; }
if (board.linegraph.components.length > 2 &&
(cell.path === inb.path && ncell.path === outb.path || cell.path === outb.path && ncell.path === inb.path)) {
add_cross(dir(cell.adjborder, d));
}
}
}
});
}
function InverseLitsoAssist() {
BlackConnected();
CellConnected({
isShaded: isGreen,
isUnshaded: isBlack,
add_shaded: add_green,
add_unshaded: add_black,
isNotPassable: (c, nb, nc) => nb.ques,
OnlyOneConnected: false,
UnshadeEmpty: false,
});
No2x2Black();
const LITSO = [
[[0, 0], [1, 0], [2, 0], [0, 1]],// L
[[0, 0], [1, 0], [2, 0], [2, 1]],
[[0, 0], [0, 1], [1, 1], [2, 1]],
[[0, 0], [0, 1], [-1, 1], [-2, 1]],
[[0, 0], [1, 0], [0, 1], [0, 2]],
[[0, 0], [1, 0], [1, 1], [1, 2]],
[[0, 0], [0, 1], [0, 2], [1, 2]],
[[0, 0], [0, 1], [0, 2], [-1, 2]],
[[0, 0], [1, 0], [2, 0], [3, 0]],// I
[[0, 0], [0, 1], [0, 2], [0, 3]],
[[0, 0], [1, 0], [2, 0], [1, 1]],// T
[[0, 0], [1, 0], [2, 0], [1, -1]],
[[0, 0], [0, 1], [0, 2], [1, 1]],
[[0, 0], [0, 1], [0, 2], [-1, 1]],
[[0, 0], [1, 0], [1, 1], [2, 1]],// S
[[0, 0], [1, 0], [1, -1], [2, -1]],
[[0, 0], [0, 1], [1, 1], [1, 2]],
[[0, 0], [0, 1], [-1, 1], [-1, 2]],
[[0, 0], [1, 0], [0, 1], [1, 1]],// O
];
const CANDMAX = 50;
forEachRoom(room => {
let clist = Array.from(room.clist).filter(c => !isBlack(c));
let bclist = Array.from(room.clist).filter(c => !isBlack(c) && isGreen(c));
let clistSet = new Set(clist);
let cand = [];
for (let j = 0; j < clist.length; j++) {
let list = LITSO;
list = list.map(l => l.map(([dx, dy]) => offset(clist[j], dx, dy)));
list = list.filter(l => !l.some(c => !clistSet.has(c)));
if (bclist.length > 0) {
list = list.filter(l => bclist.every(c => l.includes(c)));
}
list = list.filter(l => {
let nlist = [];
l.forEach(c => {
fourside(nc => {
if (isGreen(nc) && nc.room !== room) {
nlist.push(nc);
}
}, c.adjacent);
});
// no 2*2
let no2x2 = true;
clist.forEach(c => {
if (no2x2 === false) { return; }
for (let d = 0; d < 4; d++) {
if ([c, offset(c, 1, 0, d), offset(c, 0, 1, d), offset(c, 1, 1, d)].every(cc => isBlack(cc) || cc.room === room && !l.includes(cc))) {
no2x2 = false;
return;
}
}
});
if (no2x2 === false) { return false; }
// no same shape
let cshape = getShape(l);
nlist = nlist.map(c => {
let clist = Array.from(c.room.clist).filter(c => isGreen(c));
if (clist.length > 4) return null;
return getShape(clist);
});
return !nlist.includes(cshape);
});
cand.push(...list);
if (cand.length > CANDMAX) { break; }
}
if (cand.length > CANDMAX) { return; }
for (let j = 0; j < clist.length; j++) {
if (cand.every(l => l.includes(clist[j]))) {
add_dot(clist[j]);
}
if (cand.every(l => !l.includes(clist[j]))) {
add_black(clist[j]);
}
}
});
}
function LitsAssist() {
BlackConnected();
BlackConnected_InRegion();
No2x2Black();
const LITS = [
[[0, 0], [1, 0], [2, 0], [0, 1]],// L
[[0, 0], [1, 0], [2, 0], [2, 1]],
[[0, 0], [0, 1], [1, 1], [2, 1]],
[[0, 0], [0, 1], [-1, 1], [-2, 1]],
[[0, 0], [1, 0], [0, 1], [0, 2]],
[[0, 0], [1, 0], [1, 1], [1, 2]],
[[0, 0], [0, 1], [0, 2], [1, 2]],
[[0, 0], [0, 1], [0, 2], [-1, 2]],
[[0, 0], [1, 0], [2, 0], [3, 0]],// I
[[0, 0], [0, 1], [0, 2], [0, 3]],
[[0, 0], [1, 0], [2, 0], [1, 1]],// T
[[0, 0], [1, 0], [2, 0], [1, -1]],
[[0, 0], [0, 1], [0, 2], [1, 1]],
[[0, 0], [0, 1], [0, 2], [-1, 1]],
[[0, 0], [1, 0], [1, 1], [2, 1]],// S
[[0, 0], [1, 0], [1, -1], [2, -1]],
[[0, 0], [0, 1], [1, 1], [1, 2]],
[[0, 0], [0, 1], [-1, 1], [-1, 2]],
];
const CANDMAX = 50;
forEachRoom(room => {
let clist = Array.from(room.clist).filter(c => !isGreen(c));
let bclist = Array.from(room.clist).filter(c => !isGreen(c) && isBlack(c));
let clistSet = new Set(clist);
let cand = [];
for (let j = 0; j < clist.length; j++) {
let list = LITS;
list = list.map(l => l.map(([dx, dy]) => offset(clist[j], dx, dy)));
list = list.filter(l => !l.some(c => !clistSet.has(c)));
if (bclist.length > 0) {
list = list.filter(l => bclist.every(c => l.includes(c)));
}
list = list.filter(l => l.every(c => !adjlist(c.adjborder, c.adjacent).some(([nb, nc]) => nb.ques === 1 && l.includes(nc))));
list = list.filter(l => {
let nlist = [], con = false;
l.forEach(c => {
fourside(nc => {
if (isBlack(nc) && nc.room !== room) {
nlist.push(nc);
}
if (!nc.isnull && !isGreen(nc) && nc.room !== room) {
con = true;
}
}, c.adjacent);
});
// connectivity
if (!con && board.roommgr.components.length > 1) { return false; }
// no 2*2
let no2x2 = true;
l.forEach(c => {
if (no2x2 === false) { return; }
for (let d = 0; d < 4; d++) {
if ([c, offset(c, 1, 0, d), offset(c, 0, 1, d), offset(c, 1, 1, d)].every(cc => nlist.includes(cc) || l.includes(cc))) {
no2x2 = false;
return;
}
}
});
if (no2x2 === false) { return false; }
// no same shape
let cshape = getShape(l);
nlist = nlist.map(c => {
let clist = Array.from(c.room.clist).filter(c => isBlack(c));
return getShape(clist);
});
return !nlist.includes(cshape);
});
cand.push(...list);
if (cand.length > CANDMAX) { break; }
}
if (cand.length > CANDMAX) { return; }
for (let j = 0; j < clist.length; j++) {
if (cand.every(l => l.includes(clist[j]))) {
add_black(clist[j]);
}
if (cand.every(l => !l.includes(clist[j]))) {
add_dot(clist[j]);
}
}
});
}
function NothreeAssist() {
BlackNotAdjacent();
GreenConnected();
for (let i = 0; i < board.dots.length; i++) {
let dot = board.dots[i].piece;
if (dot.qnum !== 1) { continue; }
let cellList = [];
if (dot.bx % 2 === 1 && dot.by % 2 === 1) {
cellList.push(board.getc(dot.bx, dot.by));
}
if (dot.bx % 2 === 0 && dot.by % 2 === 1) {
cellList.push(board.getc(dot.bx - 1, dot.by));
cellList.push(board.getc(dot.bx + 1, dot.by));
}
if (dot.bx % 2 === 1 && dot.by % 2 === 0) {
cellList.push(board.getc(dot.bx, dot.by - 1));
cellList.push(board.getc(dot.bx, dot.by + 1));
}
if (dot.bx % 2 === 0 && dot.by % 2 === 0) {
cellList.push(board.getc(dot.bx - 1, dot.by - 1));
cellList.push(board.getc(dot.bx + 1, dot.by - 1));
cellList.push(board.getc(dot.bx - 1, dot.by + 1));
cellList.push(board.getc(dot.bx + 1, dot.by + 1));
}
let blackcnt = cellList.filter(c => isBlack(c)).length;
let emptycnt = cellList.filter(c => c.qans !== CQANS.black && c.qsub !== CQSUB.dot).length;
if (blackcnt === 0 && emptycnt === 1) {
cellList.forEach(c => add_black(c));
}
if (blackcnt === 1) {
cellList.forEach(c => add_green(c));
}
}
forEachCell(cell => {
for (let d = 0; d < 4; d++) {
let fn = function (list) {
if (!list.some(c => c.isnull) && list.filter(c => isBlack(c)).length === 2) {
list.forEach(c => add_green(c));
}
}
// O.O.O
fn([cell, offset(cell, 2, 0, d), offset(cell, 4, 0, d)]);
// O..O..O
fn([cell, offset(cell, 3, 0, d), offset(cell, 6, 0, d)]);
// O...O...O
fn([cell, offset(cell, 4, 0, d), offset(cell, 8, 0, d)]);
// OXXXXOX?XXO
for (let l = 5; l * 2 < Math.max(board.cols, board.rows); l++) {
let templist1 = [cell, offset(cell, l, 0, d), offset(cell, 2 * l, 0, d)];
if (templist1.some(c => c.isnull)) { continue; }
templist1 = templist1.filter(c => c.qans !== CQANS.black);
let templist2 = [];
for (let j = 1; j < 2 * l; j++) {
if (j === l) { continue; }
templist2.push(offset(cell, j, 0, d));
}
if (templist2.some(c => isBlack(c))) { continue; }
templist2 = templist2.filter(c => c.qsub !== CQSUB.dot);
if (templist1.length === 0 && templist2.length === 1) {
add_black(templist2[0]);
}
if (templist1.length === 1 && templist2.length === 0) {
add_green(templist1[0]);
}
}
}
});
}
function ShakashakaAssist() {
let isEmpty = c => !c.isnull && c.qnum === CQNUM.none && c.qsub === CQSUB.none && c.qans === CQANS.none;
let isNotBlack = c => !c.isnull && c.qnum === CQNUM.none;
// draw triangle
let add_tri = function (c, ndir) { // 0 = ◣, 1 = ◢, 2 = ◥, 3 = ◤
if (c === undefined || c.isnull || !isEmpty(c)) { return; }
if (step && flg) { return; }
flg = true;
ndir = (ndir % 4 + 4) % 4;
c.setQans(ndir + 2);
c.draw();
};
// check black edge
let isEdge = function (c, ndir) { // 0 = left, 1 = bottom, 2 = right, 3 = top
ndir = (ndir % 4 + 4) % 4;
let tri = [(ndir + 0) % 4 + 2, (ndir + 1) % 4 + 2, (ndir + 2) % 4 + 2, (ndir + 3) % 4 + 2];
return c.isnull || c.qnum !== CQNUM.none || c.qans === tri[0] || c.qans === tri[3];
};
// check if dot connects to edge
let isDotEdge = function (c) {
if (c.qsub !== CQSUB.dot) { return false; }
let dfslist = [];
let dfs = function (c, ndir = -1) {
if (isEmpty(c) || dfslist.includes(c)) { return; }
if (ndir !== -1 && isEdge(c, ndir + 2)) { return true; }
if (c.qsub === CQSUB.dot) {
dfslist.push(c);
for (let d = 0; d < 4; d++) {
if (dfs(dir(c.adjacent, d + 1), d)) { return true; }
}
}
return false;
};
return dfs(c);
};
let isNotDiagRect = function (c) {
return c.isnull || c.qnum !== CQNUM.none || isDotEdge(c);
}
// check if connects to edge
let isEdgeEx = function (c, ndir) { // 0 = left, 1 = bottom, 2 = right, 3 = top
return isEdge(c, ndir) || isDotEdge(c);
};
// corner of a rectangle i.e. both side connects to edge
let isCorner = function (c, ndir) { // 0 = ◣, 1 = ◢, 2 = ◥, 3 = ◤
ndir = (ndir % 4 + 4) % 4;
return isEdgeEx(c, ndir) && isEdgeEx(c, (ndir + 1) % 4)
};
// if can place a specific triangle
let isTriAble_Basic = function (c, ndir) { // 0 = ◣, 1 = ◢, 2 = ◥, 3 = ◤
ndir = (ndir % 4 + 4) % 4;
let tri = [(ndir + 0) % 4 + 2, (ndir + 1) % 4 + 2, (ndir + 2) % 4 + 2, (ndir + 3) % 4 + 2];
let fn = (c, qans) => !c.isnull && c.qans === qans;
// already placed other triangle
if (!isEmpty(c) && c.qans !== tri[0]) { return false; }
// already placed the triangle
if (c.qans === tri[0]) { return true; }
// check if all ~s can be part of a diagonal rectangle.
// ~~
// ◣~
if (isEdge(offset(c, +1, +0, ndir), ndir) || isEdge(offset(c, +0, -1, ndir), ndir + 1)) { return false; }
if (isNotDiagRect(offset(c, +1, -1, ndir))) { return false; }
// ___ _◥_ ___ ___ ___ ___
// _◣◥ or _◣_ or ◣◣_ or ◤◣_ or _◣_ or _◣_
// ___ ___ ___ ___ _◣_ _◢_
if (fn(offset(c, +1, +0, ndir), tri[2]) || fn(offset(c, +0, -1, ndir), tri[2])) { return false; }
if (fn(offset(c, -1, +0, ndir), tri[0]) || fn(offset(c, -1, -1, ndir), tri[3])) { return false; }
if (fn(offset(c, +0, +1, ndir), tri[0]) || fn(offset(c, +0, +1, ndir), tri[1])) { return false; }
// __◤ __◣ __◢ ◤__ ___ ___
// _◣_ or _◣_ or _◣_ or _◣_ or _◣_ or _◣_
// ___ ___ ___ ___ ◣__ __◢
if (fn(offset(c, +1, -1, ndir), tri[3]) || fn(offset(c, -1, -1, ndir), tri[3])) { return false; }
if (fn(offset(c, +1, -1, ndir), tri[0]) || fn(offset(c, -1, +1, ndir), tri[0])) { return false; }
if (fn(offset(c, +1, -1, ndir), tri[1]) || fn(offset(c, +1, +1, ndir), tri[1])) { return false; }
// ◤__ ___ _◥_ ___
// ___ or ___ or ___ or __◥
// ◣__ ◣_◢ ◣__ ◣__
if (fn(offset(c, +0, -2, ndir), tri[3]) || fn(offset(c, +2, +0, ndir), tri[1])) { return false; }
if (fn(offset(c, +1, -2, ndir), tri[2]) || fn(offset(c, +2, -1, ndir), tri[2])) { return false; }
return true;
};
// extend of isntTri including some complex logic
let isTriAble = function (c, ndir, itercnt = 0) { // 0 = ◣, 1 = ◢, 2 = ◥, 3 = ◤
ndir = (ndir % 4 + 4) % 4;
if (!isTriAble_Basic(c, ndir)) { return false; }
if (itercnt >= 5) { return true; }
itercnt++;
// 〓_◣
// _~_ && ~ !== ◥
// __〓
if (isNotBlack(offset(c, -1, 0, ndir)) && isNotBlack(offset(c, 0, 1, ndir)) &&
isEdgeEx(offset(c, -2, 0, ndir), ndir + 2) && isEdgeEx(offset(c, 0, 2, ndir), ndir + 3) &&
isNotBlack(offset(c, -1, 1, ndir)) && !isTriAble(offset(c, -1, 1, ndir), ndir + 2, itercnt)) {
return false;
}
// ◣__ _◤_ ___ ___
// _◣_ or _◣_ , _◣_ or _◣◢
// ___ ___ __◣ ___
if (!isTriAble(offset(c, -1, -1, ndir), ndir, itercnt) &&
!isTriAble(offset(c, +0, -1, ndir), ndir + 3, itercnt)) { return false; }
if (!isTriAble(offset(c, +1, +1, ndir), ndir, itercnt) &&
!isTriAble(offset(c, +1, +0, ndir), ndir + 1, itercnt)) { return false; }
return true;
}
let sel_tri = function (c) {
if (!isEmpty(c)) { return; }
let list = [0, 1, 2, 3].map(n => isTriAble(c, n));
if (list.filter(b => b).length === 1) {
add_tri(c, list.indexOf(true));
}
}
// start assist
forEachCell(cell => {
// dot by clue
if (cell.qnum >= 0 && adjlist(cell.adjacent).filter(c => isNotBlack(c) && c.qans !== CQANS.none).length === cell.qnum) {
fourside(add_dot, cell.adjacent);
}
// triangle by clue
if (cell.qnum >= 0 && adjlist(cell.adjacent).filter(c => isNotBlack(c) && c.qsub !== CQSUB.dot).length === cell.qnum) {
fourside(sel_tri, cell.adjacent);
}
// cannot place any triangle
if (isEmpty(cell) && ![0, 1, 2, 3].some(n => isTriAble(cell, n))) {
add_dot(cell);
}
for (let d = 0; d < 4; d++) {
// _* **
// ** -> **
let list = [offset(cell, 1, 0, d), offset(cell, 0, 1, d), offset(cell, 1, 1, d)];
if (!list.some(c => c.isnull || c.qsub !== CQSUB.dot) && isDotEdge(list[0])) {
add_dot(cell);
}
// 〓_〓 -> 〓*〓
if (isEdgeEx(offset(cell, -1, 0, d), d + 2) && isEdgeEx(offset(cell, 1, 0, d), d)) {
add_dot(cell);
}
// ___ - - _*_
// _1_ && ~ !== ◥ -> _1*
// ~__ - - ___
if (cell.qnum === 1 &&
(c => !c.isnull && (isNotBlack(c) || c.qsub === CQSUB.dot))(offset(cell, -1, 0, d)) &&
(c => !c.isnull && (isNotBlack(c) || c.qsub === CQSUB.dot))(offset(cell, 0, +1, d)) &&
(c => c.qnum === CQNUM.none && !isTriAble(c, d + 2))(offset(cell, -1, 1, d))) {
add_dot(offset(cell, 1, 0, d));
add_dot(offset(cell, 0, -1, d));
}
// 〓_ *_ *_ ~◣
// ** or 〓* or *〓 -> ~~
if (isEmpty(cell)) {
let list = [offset(cell, -1, 0, d), offset(cell, 0, 1, d), offset(cell, -1, 1, d)];
if (list.filter(c => !c.isnull && !isEmpty(c) && c.qsub === CQSUB.dot).length === 2 &&
list.filter(c => !c.isnull && !isEmpty(c) && c.qsub !== CQSUB.dot).length === 1) {
let temp = list.find(c => !c.isnull && !isEmpty(c) && c.qsub !== CQSUB.dot);
if (list.indexOf(temp) === 0 && isCorner(temp, d + 1) ||
list.indexOf(temp) === 1 && isCorner(temp, d + 3) ||
list.indexOf(temp) === 2 && isCorner(temp, d + 2)) { add_tri(cell, d); }
}
}
// __〓 __〓 ◣_〓 ◢_〓
// *〓_ or 〓*_ -> ~~_ or ~~_
if (isEmpty(offset(cell, 0, 0, d)) && isEmpty(offset(cell, 1, 0, d)) && (
offset(cell, 0, 1, d).qsub === CQSUB.dot && isEdge(offset(cell, 1, 1, d), d + 3) ||
offset(cell, 1, 1, d).qsub === CQSUB.dot && isEdge(offset(cell, 0, 1, d), d + 3)) &&
isEdgeEx(offset(cell, 2, 0, d), d)) {
sel_tri(cell);
}
if (isEmpty(offset(cell, 0, 0, d)) && isEmpty(offset(cell, 1, 0, d)) && (
offset(cell, 0, -1, d).qsub === CQSUB.dot && isEdge(offset(cell, 1, -1, d), d + 1) ||
offset(cell, 1, -1, d).qsub === CQSUB.dot && isEdge(offset(cell, 0, -1, d), d + 1)) &&
isEdgeEx(offset(cell, 2, 0, d), d)) {
sel_tri(cell);
}
}
// side extend
if (cell.qans !== CQANS.none) {
let ndir = cell.qans - 2;
// ◣__ _◤_ ___ ___
// _◣_ or _◣_ , _◣_ or _◣◢
// ___ ___ __◣ ___
if (!isTriAble(offset(cell, -1, -1, ndir), ndir + 0)) { add_tri(offset(cell, +0, -1, ndir), ndir + 3); }
if (!isTriAble(offset(cell, +0, -1, ndir), ndir + 3)) { add_tri(offset(cell, -1, -1, ndir), ndir + 0); }
if (!isTriAble(offset(cell, +1, +1, ndir), ndir + 0)) { add_tri(offset(cell, +1, +0, ndir), ndir + 1); }
if (!isTriAble(offset(cell, +1, +0, ndir), ndir + 1)) { add_tri(offset(cell, +1, +1, ndir), ndir + 0); }
// _〓_ __〓 ___ ___
// ___ or ___ or __〓 -> _◥_
// ◣__ ◣__ ◣__ ◣__
if (isEdgeEx(offset(cell, 2, -1, ndir), ndir) || isEdgeEx(offset(cell, 1, -2, ndir), ndir + 1) ||
isEdgeEx(offset(cell, 2, -2, ndir), ndir) || isEdgeEx(offset(cell, 2, -2, ndir), ndir + 1)) {
add_tri(offset(cell, 1, -1, ndir), ndir + 2);
}
// rectangle opposite side extend
// _◤_ _◤_
// ◤__ -> ◤_◢
// ◣◢_ ◣◢_
let tri = [(ndir + 0) % 4 + 2, (ndir + 1) % 4 + 2, (ndir + 2) % 4 + 2, (ndir + 3) % 4 + 2];
let turn1 = offset(cell, 0, -1, ndir);
let turn2 = cell;
while (!offset(turn2, 1, 1, ndir).isnull && offset(turn2, 1, 1, ndir).qans === tri[0]) {
turn2 = offset(turn2, 1, 1, ndir);
}
turn2 = offset(turn2, 1, 0, ndir);
if (turn1.qans === tri[3] && turn2.qans === tri[1]) {
turn1 = offset(turn1, 1, -1, ndir);
turn2 = offset(turn2, 1, -1, ndir);
while ((!turn1.isnull && turn1.qans === tri[3]) || (!turn2.isnull && turn2.qans === tri[1])) {
add_tri(turn1, ndir + 3);
add_tri(turn2, ndir + 1);
turn1 = offset(turn1, 1, -1, ndir);
turn2 = offset(turn2, 1, -1, ndir);
}
}
}
});
}
function AkichiwakeAssist() {
GreenConnected();
BlackNotAdjacent();
NoFacingDoor();
forEachRoom(room => {
let qnum = room.top.qnum;
let clist = Array.from(room.clist);
if (qnum !== CQNUM.none) {
clist.forEach(sc => {
if (isBlack(sc)) { return; }
let l = [];
let dfs = function (c) {
if (l.includes(c) || c.room !== room || c !== sc && !isGreen(c)) { return; }
l.push(c);
adjlist(c.adjacent).forEach(c => dfs(c));
};
dfs(sc);
if (l.length === qnum && isGreen(sc)) {
l.forEach(c => adjlist(c.adjacent).forEach(nc => {
if (!nc.isnull && nc.room === room) { add_black(nc); }
}));
}
if (l.length > qnum && !isGreen(sc)) {
add_black(sc);
}
if (l.length === qnum && !isGreen(sc)) {
let nl = [];
l.forEach(c => adjlist(c.adjacent).forEach(nc => {
if (!nc.isnull && nc.room === room && !l.includes(nc) && !nl.includes(nc)) {
nl.push(nc);
}
}));
if (nl.some(c => adjlist(c.adjacent).some(nc => nl.includes(nc)))) {
add_black(sc);
}
}
});
if (qnum === 0) {
add_black(clist[0]);
}
if (qnum > 0) {
let l = [];
let dfs = function (c) {
if (l.includes(c) || c.room !== room || isBlack(c)) { return; }
l.push(c);
adjlist(c.adjacent).forEach(c => dfs(c));
};
dfs(!isBlack(clist[0]) ? clist[0] : clist[1]);
if (l.length === qnum) {
l.forEach(c => add_green(c));
}
}
}
});
}
function AyeheyaAssist() {
forEachRoom(room => {
let qnum = room.top.qnum;
let rows = room.clist.getRectSize().rows;
let cols = room.clist.getRectSize().cols;
let tx = room.clist.getRectSize().x1 + room.clist.getRectSize().x2;
let ty = room.clist.getRectSize().y1 + room.clist.getRectSize().y2;
if (rows % 2 === 1 && cols % 2 === 0) {
let c1 = board.getc(tx / 2 - 1, ty / 2);
let c2 = board.getc(tx / 2 + 1, ty / 2);
if (c1.room === room) { add_green(c1); }
if (c2.room === room) { add_green(c2); }
}
if (rows % 2 === 0 && cols % 2 === 1) {
let c1 = board.getc(tx / 2, ty / 2 - 1);
let c2 = board.getc(tx / 2, ty / 2 + 1);
if (c1.room === room) { add_green(c1); }
if (c2.room === room) { add_green(c2); }
}
if (rows % 2 === 1 && cols % 2 === 1) {
let c = board.getc(tx / 2, ty / 2);
if (qnum >= 0 && qnum % 2 === 0 && c.room === room) {
add_green(c);
}
if (qnum >= 0 && qnum % 2 === 1 && c.room === room) {
add_black(c);
}
}
Array.from(room.clist).forEach(cell => {
if (isGreen(cell)) {
add_green(board.getc(tx - cell.bx, ty - cell.by));
}
if (isBlack(cell)) {
add_black(board.getc(tx - cell.bx, ty - cell.by));
}
});
});
HeyawakeAssist();
}
function HeyawakeAssist() {
GreenConnected();
BlackNotAdjacent();
NoFacingDoor();
const MAXSIT = 200000;
const MAXAREA = 50;
forEachRoom(room => {
let qnum = room.top.qnum;
if (qnum === CQNUM.none || qnum === CQNUM.quesmark) { return; }
let list = Array.from(room.clist);
let surlist = [];
let sitcnt = 0;
let cst = new Map();
let apl = new Map();
list.forEach(cell => {
cst.set(cell, (isBlack(cell) ? "BLK" : (isGreen(cell) ? "GRN" : "UNK")));
apl.set(cell, (isBlack(cell) ? "BLK" : (isGreen(cell) ? "GRN" : "UNK")));
});
if (qnum === list.filter(c => isBlack(c)).length) {
list.forEach(c => add_green(c));
return
}
// randomly chosen approximate formula
if (list.filter(c => c.qans === CQANS.none && c.qsub === CQSUB.none).length > MAXAREA &&
(qnum - list.filter(c => isBlack(c)).length + 1) < list.filter(c => c.qans === CQANS.none && c.qsub === CQSUB.none).length) { return; }
if ((qnum - list.filter(c => isBlack(c)).length) * 2 + 5 <
list.filter(c => c.qans === CQANS.none && c.qsub === CQSUB.none).length) { return; }
list.forEach(c => {
adjlist(c.adjacent).forEach(c => {
if (c.isnull || c.room === room || surlist.includes(c)) { return; }
if (isGreen(c) || isBlack(c)) { return; }
surlist.push(c);
apl.set(c, "GRN");
});
});
let dfs = function (i, blkcnt) {
if (sitcnt > MAXSIT) { return; }
if (i === list.length) {
if (blkcnt !== qnum) { return; }
let templist = [];
let templist2 = [];
if (list.some(c => {
if (cst.get(c) === "BLK") { return false; }
if (templist.includes(c)) { return false; }
let n = 0;
let olist = [];
let dfs = function (c) {
if (c.isnull || templist.includes(c)) { return false; }
if (c.room !== room) {
if (isBlack(c)) { return false; }
olist.push(c);
return true;
}
if (cst.get(c) === "BLK") { return false; }
templist.push(c);
n++;
let res = 0;
res |= dfs(offset(c, -1, 0));
res |= dfs(offset(c, 0, -1));
res |= dfs(offset(c, 1, 0));
res |= dfs(offset(c, 0, 1));
return res;
};
let res = dfs(c);
if (olist.length === 1) { templist2.push(olist[0]); }
if (!res && n + qnum < list.length) { return true; }
return false;
})) { return; };
list.forEach(c => {
if (apl.get(c) !== "UNK" && apl.get(c) !== cst.get(c)) { apl.set(c, "AMB"); }
if (apl.get(c) === "UNK") { apl.set(c, cst.get(c)); }
});
surlist.forEach(c => {
if (templist2.includes(c)) { return; }
let templist = [offset(c, -1, 0), offset(c, 0, -1), offset(c, 1, 0), offset(c, 0, 1)];
if (templist.some(c => !c.isnull && c.room === room && cst.get(c) === "BLK")) { return; }
apl.set(c, "AMB");
});
return;
}
if (cst.get(list[i]) !== "UNK") { dfs(i + 1, blkcnt); return; }
sitcnt++;
let templist = [offset(list[i], -1, 0), offset(list[i], 0, -1), offset(list[i], 1, 0), offset(list[i], 0, 1)];
if (blkcnt < qnum && !templist.some(c => isBlack(c) || cst.has(c) && cst.get(c) === "BLK")) {
cst.set(list[i], "BLK");
dfs(i + 1, blkcnt + 1);
cst.set(list[i], "UNK");
}
cst.set(list[i], "GRN");
dfs(i + 1, blkcnt);
cst.set(list[i], "UNK");
};
dfs(0, list.filter(c => isBlack(c)).length);
if (sitcnt > MAXSIT) { return; }
list.forEach(c => {
if (apl.get(c) === "BLK") {
add_black(c);
}
if (apl.get(c) === "GRN") {
add_green(c);
}
});
surlist.forEach(c => {
if (apl.get(c) === "GRN") {
add_green(c);
}
});
});
}
function AkariAssist() {
let isEmpty = c => !c.isnull && c.qnum === CQNUM.none && c.qans !== CQANS.light && c.qsub !== CQSUB.dot;
let isNotLight = c => c.isnull || c.qnum !== CQNUM.none || c.qsub === CQSUB.dot
let add_light = function (c) { add_black(c, true); };
forEachCell(cell => {
let emptycnt = 0;
let lightcnt = 0;
// add dot where lighted
if (cell.qlight && cell.qans !== CQANS.light) {
add_dot(cell);
}
// only one place can light
let emptycellList = [];
if (cell.qnum === CQNUM.none && !cell.qlight) {
if (cell.qsub !== CQSUB.dot) {
emptycellList.push(cell);
}
for (let d = 0; d < 4; d++) {
let pcell = dir(cell.adjacent, d);
while (!pcell.isnull && pcell.qnum === CQNUM.none) {
emptycellList.push(pcell);
pcell = dir(pcell.adjacent, d);
}
}
emptycellList = emptycellList.filter(c => c.qsub !== CQSUB.dot);
if (emptycellList.length === 1) {
add_light(emptycellList[0]);
}
}
// only two cells can lit up this cell
if (cell.qsub === CQSUB.dot && !cell.qlight && emptycellList.length === 2) {
let [ec1, ec2] = emptycellList;
if (ec1.bx !== ec2.bx && ec1.by !== ec2.by) {
if (ec1.bx === cell.bx) { [ec1, ec2] = [ec2, ec1]; }
let oc = board.getc(ec1.bx, ec2.by);
let f = true;
for (let i = cell.bx; i !== ec1.bx; i += (ec1.bx > cell.bx ? 1 : -1)) {
f &= board.getc(i, ec2.by).qnum === CQNUM.none;
}
for (let i = cell.by; i !== ec2.by; i += (ec2.by > cell.by ? 1 : -1)) {
f &= board.getc(ec1.bx, i).qnum === CQNUM.none;
}
if (f && oc.qnum === CQNUM.none) {
add_dot(oc);
}
}
}
fourside(c => {
if (!c.isnull && c.qnum === CQNUM.none && c.qsub !== CQSUB.dot && c.qans !== CQANS.light) { emptycnt++; }
lightcnt += (c.qans === CQANS.light);
}, cell.adjacent);
if (cell.qnum >= 0) {
// finished clue
if (cell.qnum === lightcnt) {
fourside(add_dot, cell.adjacent);
}
// finish clue
if (cell.qnum === emptycnt + lightcnt) {
fourside(add_light, cell.adjacent);
}
// dot at corner
if (cell.qnum - lightcnt + 1 === emptycnt) {
for (let d = 0; d < 4; d++) {
if (isEmpty(offset(cell, 0, 1, d)) && isEmpty(offset(cell, 1, 0, d)) && isEmpty(offset(cell, 1, 1, d))) {
add_dot(offset(cell, 1, 1, d));
}
}
}
}
for (let d = 0; d < 4; d++) {
//
// 22 => ●22●
//
if (cell.qnum === 2 && offset(cell, 1, 0, d).qnum === 2) {
add_light(offset(cell, -1, 0, d));
add_light(offset(cell, 2, 0, d));
}
//
// 21· => ●21·
//
if (cell.qnum === 2 && offset(cell, 1, 0, d).qnum === 1 && isNotLight(offset(cell, 2, 0, d))) {
add_light(offset(cell, -1, 0, d));
}
// ●
// 3 => ●3
// 1 1·
// ·
if (cell.qnum === 3 && offset(cell, 1, 1, d).qnum === 1) {
add_light(offset(cell, -1, 0, d));
add_light(offset(cell, 0, -1, d));
add_dot(offset(cell, 1, 2, d));
add_dot(offset(cell, 2, 1, d));
}
// ·
// 2 => 2
// 1 1
//
if (cell.qnum === 2 && offset(cell, 1, 1, d).qnum === 1) {
add_dot(offset(cell, -1, -1, d));
}
// ●
// ·2 => ·2
// 1 1·
// ·
if (cell.qnum === 2 && offset(cell, 1, 1, d).qnum === 1 &&
(isNotLight(offset(cell, -1, 0, d)) || isNotLight(offset(cell, 0, -1, d)))) {
add_light(offset(cell, -1, 0, d));
add_light(offset(cell, 0, -1, d));
add_dot(offset(cell, 1, 2, d));
add_dot(offset(cell, 2, 1, d));
}
// ·
// 1 => ·1
// 1· 1·
// · ·
if (cell.qnum === 1 && offset(cell, 1, 1, d).qnum === 1 &&
isNotLight(offset(cell, 1, 2, d)) && isNotLight(offset(cell, 2, 1, d))) {
add_dot(offset(cell, -1, 0, d));
add_dot(offset(cell, 0, -1, d));
}
}
});
}
function MasyuAssist() {
SingleLoopInCell({
isPass: c => c.qnum !== CQNUM.none,
});
let isBlack = c => !c.isnull && c.qnum === CQNUM.bcir;
let isWhite = c => !c.isnull && c.qnum === CQNUM.wcir;
let isPathable = b => !b.isnull && b.qsub !== BQSUB.cross;
forEachCell(cell => {
for (let d = 0; d < 4; d++) {
if (isWhite(cell) && offset(cell, .5, .5, d).qsub !== CRQSUB.none) {
add_inout(offset(cell, -.5, -.5, d), offset(cell, .5, .5, d).qsub ^ 1);
}
if (isBlack(cell) && isWhite(offset(cell, -1, -1, d)) && isWhite(offset(cell, 1, 1, d)) &&
offset(cell, .5, .5, d).qsub !== CRQSUB.none) {
add_inout(offset(cell, -.5, -.5, d), offset(cell, .5, .5, d).qsub);
}
if (isBlack(cell) && isWhite(offset(cell, -1, -1, d)) && isWhite(offset(cell, 1, 1, d)) &&
offset(cell, -.5, .5, d).qsub !== CRQSUB.none) {
add_inout(offset(cell, .5, -.5, d), offset(cell, -.5, .5, d).qsub ^ 1);
}
// +×+ +×+
// ● ● -> ● ●
// + + +×+
if (isBlack(offset(cell, -1, 0, d)) && isBlack(offset(cell, 1, 0, d)) && !isPathable(offset(cell, 0, -.5, d))) {
add_cross(offset(cell, 0, .5, d));
}
// + + +×+
// ━○ -> ━○━
// + + +×+
if (isWhite(cell) && (offset(cell, -.5, 0, d).line || !isPathable(offset(cell, 0, -.5, d)))) {
add_line(offset(cell, -.5, 0, d));
add_line(offset(cell, +.5, 0, d));
add_cross(offset(cell, 0, -.5, d));
add_cross(offset(cell, 0, +.5, d));
}
// + + + + + + + +
// ━━━○━╸ -> ━━━○━╸×
// + + + + + + + +
if (isWhite(cell) && offset(cell, -.5, 0, d).line && offset(cell, -1.5, 0, d).line) {
add_cross(offset(cell, 1.5, 0, d));
}
// + + + + + +┃+ +
// ━╸ ○ ○ -> ━╸×○×○
// + + + + + +┃+ +
if (isWhite(cell) &&
(offset(cell, -1.5, 0, d).line || isWhite(offset(cell, -1, 0, d)) ||
[offset(cell, -1, -.5, d), offset(cell, -1, +.5, d)].every(b => isntLine(b))) &&
(offset(cell, +1.5, 0, d).line || isWhite(offset(cell, +1, 0, d)) ||
[offset(cell, +1, -.5, d), offset(cell, +1, +.5, d)].every(b => isntLine(b)))) {
add_cross(offset(cell, -.5, 0, d));
add_cross(offset(cell, +.5, 0, d));
add_line(offset(cell, 0, -.5, d));
add_line(offset(cell, 0, +.5, d));
}
// + + + : + + + : + +┃+ : + + + : + + + + + +
// ━● : ●× : ● ╹ : ● ● : ● × -> ━●×
// + + + ; + + + ; + + + ; + + + ; + + + + + +
if (isBlack(cell) && (offset(cell, -.5, 0, d).line || !isPathable(offset(cell, .5, 0, d)) ||
offset(cell, 1, -.5, d).line || offset(cell, 1, .5, d).line ||
isBlack(offset(cell, 1, 0, d)) || !isPathable(offset(cell, 1.5, 0, d)))) {
add_cross(offset(cell, .5, 0, d));
add_line(offset(cell, -.5, 0, d));
}
// + + + + + +
// ●━╸ -> ●━━━
// + + + + + +
if (isBlack(cell) && offset(cell, .5, 0, d).line) {
add_line(offset(cell, 1.5, 0, d));
}
// + + + + + + + + + +
// ● ○ ○ -> ━● ○ ○
// + + + + + + + + + +
if (isBlack(cell) && isWhite(offset(cell, 2, 0, d)) && isWhite(offset(cell, 3, 0, d))) {
add_line(offset(cell, -.5, 0, d));
}
// + + + + + + + +
// ○ ○ ○ ○
// + + + + -> + + + +
// ● ●
// + + + + + +┃+ +
if (isBlack(cell) && isWhite(offset(cell, -1, -1, d)) && isWhite(offset(cell, 1, -1, d))) {
add_line(offset(cell, 0, .5, d));
}
// connectivity and black
if (isBlack(cell) && cell.path !== null && cell.path === offset(cell, 2, 0, d).path &&
offset(cell, 1, 0, d).path === null && board.linegraph.components.length > 1) {
add_line(offset(cell, -.5, 0, d));
}
// connectivity and white
if (isWhite(cell) && offset(cell, -1, 0, d).path !== null && offset(cell, -1, 0, d).path === offset(cell, +1, 0, d).path &&
board.linegraph.components.length > 1) {
add_line(offset(cell, 0, +.5, d));
add_line(offset(cell, 0, -.5, d));
}
}
});
}
function SimpleloopAssist() {
SingleLoopInCell({
isPassable: c => c.ques !== CQUES.wall,
isPass: c => c.ques !== CQUES.wall,
});
}
function KoburinAssist() {
SingleLoopInCell({
isPassable: c => c.qnum === CQNUM.none,
isPass: c => c.qsub === CQSUB.dot,
add_notpass: c => add_black(c, true),
add_pass: add_dot,
});
let isPathable = c => !c.isnull && c.qnum === CQNUM.none && c.qans !== CQANS.black;
let isEmpty = c => !c.isnull && c.qnum === CQNUM.none && c.qans !== CQANS.black && c.qsub !== CQSUB.dot && c.lcnt === 0;
forEachCell(cell => {
// check clue
if (cell.qnum >= 0) {
let list = adjlist(cell.adjacent);
if (list.filter(c => isBlack(c)).length === cell.qnum) {
list.forEach(c => add_dot(c));
}
if (list.filter(c => !c.isnull && c.qnum === CQNUM.none && c.qsub !== CQSUB.dot).length === cell.qnum) {
list.forEach(c => add_black(c, true));
}
}
// add cross
if (cell.qnum !== CQNUM.none) {
fourside(add_cross, cell.adjborder);
for (let d = 0; d < 4; d++) {
// · ·
// 3 -> 3
// · ·
if (cell.qnum === 3) {
add_dot(offset(cell, -1, -1));
add_dot(offset(cell, -1, +1));
add_dot(offset(cell, +1, -1));
add_dot(offset(cell, +1, +1));
}
// █
// 3 -> █3
// █ █
if (cell.qnum === 3 && ((b => b.isnull || b.qsub === BQSUB.cross)(offset(cell, 1.5, 1, d)) ||
(c => c.isnull || isBlack(c) || c.qnum !== CQNUM.none)(offset(cell, 2, 1, d)))) {
add_black(offset(cell, -1, 0, d), true);
add_black(offset(cell, 0, -1, d), true);
}
if (cell.qnum === 3 && ((b => b.isnull || b.qsub === BQSUB.cross)(offset(cell, 1.5, -1, d)) ||
(c => c.isnull || isBlack(c) || c.qnum !== CQNUM.none)(offset(cell, 2, -1, d)))) {
add_black(offset(cell, -1, 0, d), true);
add_black(offset(cell, 0, 1, d), true);
}
// ·
// 2 -> 2
// █ █
if (cell.qnum === 2 && ((b => b.isnull || b.qsub === BQSUB.cross)(offset(cell, 1.5, 1, d)) ||
(c => c.isnull || isBlack(c) || c.qnum !== CQNUM.none)(offset(cell, 2, 1, d)))) {
add_dot(offset(cell, -1, -1, d));
}
if (cell.qnum === 2 && ((b => b.isnull || b.qsub === BQSUB.cross)(offset(cell, 1.5, -1, d)) ||
(c => c.isnull || isBlack(c) || c.qnum !== CQNUM.none)(offset(cell, 2, -1, d)))) {
add_dot(offset(cell, -1, 1, d));
}
}
return;
}
// add dot around black
if (isBlack(cell)) {
fourside(add_cross, cell.adjborder);
fourside(add_dot, cell.adjacent);
return;
}
let emptycnt = 0;
let linecnt = 0;
fourside((b, c) => {
if (isPathable(c) && b.qsub !== BQSUB.cross) { emptycnt++; }
linecnt += b.line;
}, cell.adjborder, cell.adjacent);
// no branch
if (linecnt === 2) {
fourside(add_cross, cell.adjborder);
}
// no deadend
if (emptycnt <= 1) {
add_black(cell, true);
fourside(add_cross, cell.adjborder);
fourside(add_dot, cell.adjacent);
}
// 2 degree cell no deadend
if (emptycnt === 2) {
fourside((b, c) => {
if (!isPathable(c) || b.qsub === BQSUB.cross) { return; }
add_dot(c);
}, cell.adjborder, cell.adjacent);
}
});
}
function YajisanKazusanAssist() {
BlackNotAdjacent();
GreenConnected();
forEachCell(cell => {
// check clue
if (!isBlack(cell) && cell.qnum >= 0 && cell.qdir !== QDIR.none) {
let d = qdirRemap(cell.qdir);
let qnum = cell.qnum;
let list = [];
let dn = 0, lc = null;
while (!offset(cell, 0, -dn - 1, d).isnull) {
dn++;
let c = offset(cell, 0, -dn, d);
if (isBlack(c)) { qnum--; }
if (isBlack(c) || isGreen(c)) { continue; }
if (lc === null) {
lc = c;
continue;
}
if (lc === offset(c, 0, 1, d)) {
list.push([lc, c]);
lc = null;
} else {
list.push([lc]);
lc = c;
}
}
if (lc !== null) { list.push([lc]); }
if (list.length < qnum || qnum < 0) {
add_black(cell);
}
if (qnum === 0) {
add_green(offset(cell, 0, -1, d));
}
if (list.length === qnum && isGreen(cell)) {
list.forEach(p => {
if (p.length === 1) {
add_black(p[0]);
}
});
}
if (qnum === 0 && isGreen(cell)) {
list.forEach(p => p.forEach(c => add_green(c)));
}
}
});
}
function RegionalYajilinAssist() {
SingleLoopInCell({
isPassable: c => !c.isnull && !isBlack(c),
isPass: c => c.qsub === CQSUB.dot,
add_notpass: c => add_black(c, true),
add_pass: c => add_dot(c, false),
});
let isPassable = c => !c.isnull && !isBlack(c);
let isEmpty = c => !c.isnull && !isBlack(c) && c.qsub !== CQSUB.dot && c.lcnt === 0;
forEachRoom(room => {
let n = room.top.qnum;
if (n < 0) { return; }
let clist = Array.from(room.clist);
if (clist.filter(c => !isDot(c) && c.lcnt === 0).length === n) {
clist.filter(c => !isDot(c) && c.lcnt === 0).forEach(c => add_black(c));
}
if (clist.filter(c => isBlack(c)).length === n) {
clist.filter(c => !isBlack(c)).forEach(c => add_dot(c, false));
}
});
forEachCell(cell => {
// add dot around black
if (isBlack(cell)) {
fourside(add_cross, cell.adjborder);
fourside(c => add_dot(c, false), cell.adjacent);
return;
}
let emptycnt = 0;
let linecnt = 0;
fourside((nb, nc) => {
if (isPassable(nc) && nb.qsub !== BQSUB.cross) { emptycnt++; }
linecnt += nb.line;
}, cell.adjborder, cell.adjacent);
// no branch
if (linecnt === 2) {
fourside(add_cross, cell.adjborder);
}
// no deadend
if (emptycnt <= 1) {
add_black(cell);
fourside(add_cross, cell.adjborder);
fourside(c => add_dot(c, false), cell.adjacent);
}
// 2 degree cell no deadend
if (emptycnt === 2) {
fourside((nb, nc) => {
if (!isPassable(nc) || nb.qsub === BQSUB.cross) { return; }
add_dot(nc, false);
}, cell.adjborder, cell.adjacent);
}
// prevent multiple loops
let list = adjlist(cell.adjborder, cell.adjacent);
list = list.filter(([b, c]) => isPassable(c) && b.qsub !== BQSUB.cross);
if (list.length === 0 || list[0][1].path !== undefined && list[0][1].path !== null && list.every(([b, c]) => c.path === list[0][1].path) && board.linegraph.components.length > 1) {
add_black(cell);
}
for (let d = 0; d < 4; d++) {
if (!isPassable(offset(cell, -1, 0, d))) { continue; }
if (!isPassable(offset(cell, 0, -1, d))) { continue; }
if (isPassable(offset(cell, -2, 0, d)) && offset(cell, -1.5, 0, d).qsub !== BQSUB.cross) { continue; }
if (isPassable(offset(cell, 0, -2, d)) && offset(cell, 0, -1.5, d).qsub !== BQSUB.cross) { continue; }
if (!offset(cell, -1, -1.5, d).line && !offset(cell, -1.5, -1, d).line) { continue; }
add_dot(cell, false);
}
});
}
function YajilinAssist() {
SingleLoopInCell({
isPassable: c => !c.isnull && c.qnum === CQNUM.none && !isBlack(c),
isPass: c => c.qsub === CQSUB.dot,
add_notpass: c => add_black(c, true),
add_pass: add_dot,
});
let isPassable = c => !c.isnull && c.qnum === CQNUM.none && !isBlack(c);
let isEmpty = c => !c.isnull && c.qnum === CQNUM.none && !isBlack(c) && c.qsub !== CQSUB.dot && c.lcnt === 0;
forEachCell(cell => {
// check clue
if (cell.qnum >= 0 && cell.qdir !== QDIR.none) {
let d = qdirRemap(cell.qdir);
let qnum = cell.qnum;
let list = [];
let dn = 0, lc = null;
while ((c => !c.isnull && (c.qnum < 0 || c.qdir !== cell.qdir))(offset(cell, 0, -dn - 1, d))) {
dn++;
let c = offset(cell, 0, -dn, d);
if (isBlack(c)) { qnum--; }
if (!isEmpty(c)) { continue; }
if (lc === null) {
lc = c;
continue;
}
if (lc === offset(c, 0, 1, d)) {
list.push([lc, c]);
lc = null;
} else {
list.push([lc]);
lc = c;
}
}
if (lc !== null) { list.push([lc]); }
if ((c => c.qnum >= 0 && c.qdir === cell.qdir)(offset(cell, 0, -dn - 1, d))) {
qnum -= offset(cell, 0, -dn - 1, d).qnum;
}
if (list.length === qnum) {
list.forEach(p => {
if (p.length === 1) {
add_black(p[0]);
}
if (p.length === 2) {
add_cross(offset(p[0], 0, -.5, d));
}
});
}
if (qnum === 0) {
list.forEach(p => p.forEach(c => add_dot(c)));
}
}
// add cross
if (cell.qnum !== CQNUM.none) {
fourside(add_cross, cell.adjborder);
return;
}
// add dot around black
if (isBlack(cell)) {
fourside(add_cross, cell.adjborder);
fourside(add_dot, cell.adjacent);
return;
}
let emptycnt = 0;
let linecnt = 0;
fourside((nb, nc) => {
if (isPassable(nc) && nb.qsub !== BQSUB.cross) { emptycnt++; }
linecnt += nb.line;
}, cell.adjborder, cell.adjacent);
// no branch
if (linecnt === 2) {
fourside(add_cross, cell.adjborder);
}
// no deadend
if (emptycnt <= 1) {
add_black(cell);
fourside(add_cross, cell.adjborder);
fourside(add_dot, cell.adjacent);
}
// 2 degree cell no deadend
if (emptycnt === 2) {
fourside((nb, nc) => {
if (!isPassable(nc) || nb.qsub === BQSUB.cross) { return; }
add_dot(nc);
}, cell.adjborder, cell.adjacent);
}
// prevent multiple loops
let list = adjlist(cell.adjborder, cell.adjacent);
list = list.filter(([b, c]) => isPassable(c) && b.qsub !== BQSUB.cross);
if (list.length === 0 || list[0][1].path !== undefined && list[0][1].path !== null && list.every(([b, c]) => c.path === list[0][1].path) && board.linegraph.components.length > 1) {
add_black(cell);
}
for (let d = 0; d < 4; d++) {
if (!isPassable(offset(cell, -1, 0, d))) { continue; }
if (!isPassable(offset(cell, 0, -1, d))) { continue; }
if (isPassable(offset(cell, -2, 0, d)) && offset(cell, -1.5, 0, d).qsub !== BQSUB.cross) { continue; }
if (isPassable(offset(cell, 0, -2, d)) && offset(cell, 0, -1.5, d).qsub !== BQSUB.cross) { continue; }
if (!offset(cell, -1, -1.5, d).line && !offset(cell, -1.5, -1, d).line) { continue; }
add_dot(cell);
}
});
}
function LitherslinkAssist() {
forEachCell(cell => {
NShadeInClist({
isShaded: isLine,
isUnshaded: isCross,
add_shaded: add_line,
add_unshaded: add_cross,
n: cell.qnum,
clist: adjlist(cell.adjborder),
});
for (let d = 0; d < 4; d++) {
let b1 = offset(cell, 1, .5, d);
let b2 = offset(cell, .5, 1, d);
if (cell.qnum === 1 && ([b1, b2].every(b => isLine(b)) || [b1, b2].every(b => isntLine(b)))) {
add_cross(offset(cell, -.5, 0, d));
add_cross(offset(cell, 0, -.5, d));
}
if (cell.qnum === 1 && (isLine(b1) && isntLine(b2) || isLine(b2) && isntLine(b1))) {
add_cross(offset(cell, .5, 0, d));
add_cross(offset(cell, 0, .5, d));
}
if (cell.qnum === 3 && [b1, b2].every(b => isntLine(b))) {
add_line(offset(cell, -.5, 0, d));
add_line(offset(cell, 0, -.5, d));
}
if (cell.qnum === 3 && (isLine(b1) && isntLine(b2) || isLine(b2) && isntLine(b1))) {
add_line(offset(cell, .5, 0, d));
add_line(offset(cell, 0, .5, d));
}
}
});
forEachCross(cross => {
let lcnt = cross.lcnt;
let ccnt = adjlist(cross.adjborder).filter(b => isntLine(b)).length;
if (lcnt + ccnt === 3 && [0, 2].includes(lcnt)) {
adjlist(cross.adjborder).forEach(b => add_line(b));
}
if (lcnt + ccnt === 3 && [0, 2].includes(lcnt + 1)) {
adjlist(cross.adjborder).forEach(b => add_cross(b));
}
});
forEachBorder(border => {
let [c1, c2] = border.sidecross;
if (!isLine(border) && c1.path !== null && c1.path === c2.path) {
add_cross(border);
}
});
}
function SlitherlinkAssist() {
SingleLoopInBorder();
let add_bg_color = function (c, color) {
if (c === undefined || c.isnull || c.qsub !== CQSUB.none || c.qsub === color) { return; }
if (step && flg) { return; }
flg = true;
c.setQsub(color);
c.draw();
}
let add_bg_inner_color = function (c) { add_bg_color(c, CQSUB.green); }
let add_bg_outer_color = function (c) { add_bg_color(c, CQSUB.yellow); }
let isYellow = c => c.isnull || c.qsub === CQSUB.yellow;
CellConnected({
isShaded: c => isGreen(c) && c.qnum !== 3,
isUnshaded: c => isYellow(c) || c.qsub === CQSUB.none && c.qnum === 3,
add_shaded: add_bg_inner_color,
add_unshaded: add_bg_outer_color,
isLinked: (c, nb, nc) => nb.qsub === BQSUB.cross,
isNotPassable: (c, nb, nc) => nb.line,
});
CellConnected({
isShaded: c => isYellow(c) && c.qnum !== 3,
isUnshaded: c => isGreen(c) || c.qsub === CQSUB.none && c.qnum === 3,
add_shaded: add_bg_outer_color,
add_unshaded: add_bg_inner_color,
isLinked: (c, nb, nc) => nb.qsub === BQSUB.cross,
isNotPassable: (c, nb, nc) => nb.line,
OutsideAsShaded: true,
});
// counting this due to some small loop jokes
let twocnt = 0;
let threecnt = 0;
forEachCell(cell => {
twocnt += cell.qnum === 2;
threecnt += cell.qnum === 3;
});
forEachCell(cell => {
let blist = adjlist(cell.adjborder);
if (blist.filter(b => b.line).length === cell.qnum) {
blist.forEach(b => add_cross(b));
}
if (blist.filter(b => b.qsub !== BQSUB.cross).length === cell.qnum) {
blist.forEach(b => add_line(b));
}
// deduce single clue
if (cell.qnum >= 0) {
let list = [offset(cell, -.5, -.5), offset(cell, .5, -.5), offset(cell, -.5, .5), offset(cell, .5, .5)];
let sum = list.map(cr => cr.qsub.length).reduce((a, b) => a + b, 0);
let comblist = [];
list[0].qsub.forEach(q0 => {
if (adjlist(cell.adjborder).filter(b => [].concat(q0).includes(b)).length > cell.qnum) { return; }
if (2 - adjlist(cell.adjborder).filter(b => [].concat(q0).includes(b)).length > 4 - cell.qnum) { return; }
list[1].qsub.forEach(q1 => {
if (adjlist(cell.adjborder).filter(b => [].concat(q0, q1).includes(b)).length > cell.qnum) { return; }
if (3 - adjlist(cell.adjborder).filter(b => [].concat(q0, q1).includes(b)).length > 4 - cell.qnum) { return; }
if (q0.includes(offset(cell, 0, -.5)) ^ q1.includes(offset(cell, 0, -.5))) { return; }
list[2].qsub.forEach(q2 => {
if (q0.includes(offset(cell, -.5, 0)) ^ q2.includes(offset(cell, -.5, 0))) { return; }
list[3].qsub.forEach(q3 => {
if (q2.includes(offset(cell, 0, .5)) ^ q3.includes(offset(cell, 0, .5))) { return; }
if (q1.includes(offset(cell, .5, 0)) ^ q3.includes(offset(cell, .5, 0))) { return; }
if (adjlist(cell.adjborder).filter(b => [].concat(q0, q1, q2, q3).includes(b)).length !== cell.qnum) { return; }
comblist.push([q0, q1, q2, q3]);
});
});
});
});
list.forEach((cr, i) => { cr.setQsub(cr.qsub.filter(s => comblist.some(comb => comb[i] === s))); });
if (list.map(cr => cr.qsub.length).reduce((a, b) => a + b, 0) < sum) { flg2 = true; }
}
for (let d = 0; d < 4; d++) {
// ×
// · · · ╻ ╻ ╻
// 3 3 -> ┃3┃3┃
// · · · ╹ ╹ ╹
// ×
if (cell.qnum === 3 && (threecnt > 2 || twocnt > 0) &&
offset(cell, 1, 0, d).qnum === 3) {
add_line(offset(cell, -.5, 0, d));
add_line(offset(cell, .5, 0, d));
add_line(offset(cell, 1.5, 0, d));
add_cross(offset(cell, .5, -1, d));
add_cross(offset(cell, .5, 1, d));
let fn = function (c1, c2) {
if (c1.isnull || c1.qsub === CQSUB.yellow) {
add_bg_color(c2, CQSUB.green);
}
if (c1.qsub === CQSUB.green) {
add_bg_color(c2, CQSUB.yellow);
}
};
fn(offset(cell, 0, 1, d), offset(cell, 0, -1, d));
fn(offset(cell, 0, -1, d), offset(cell, 0, 1, d));
}
// ×
// · · · · · ╻
// ×2 3 -> ×2 3┃
// · · · · · ╹
// ×
if (cell.qnum === 2 && offset(cell, 1, 0, d).qnum === 3 && offset(cell, -.5, 0, d).qsub === BQSUB.cross) {
add_line(offset(cell, 1.5, 0, d));
add_cross(offset(cell, .5, -1, d));
add_cross(offset(cell, .5, 1, d));
}
}
});
// deduce color
forEachCell(cell => {
let innercnt = adjlist(cell.adjacent).filter(c => isGreen(c)).length;
let outercnt = adjlist(cell.adjacent).filter(c => isYellow(c)).length;
// number and color deduce
if (cell.qnum >= 0) {
if (cell.qnum < innercnt || 4 - cell.qnum < outercnt) {
add_bg_inner_color(cell);
}
if (cell.qnum < outercnt || 4 - cell.qnum < innercnt) {
add_bg_outer_color(cell);
}
if (isGreen(cell) && cell.qnum === outercnt) {
fourside(add_bg_inner_color, cell.adjacent);
}
if (isYellow(cell) && cell.qnum === innercnt) {
fourside(add_bg_outer_color, cell.adjacent);
}
if (isYellow(cell) && cell.qnum === 4 - outercnt) {
fourside(add_bg_inner_color, cell.adjacent);
}
if (isGreen(cell) && cell.qnum === 4 - innercnt) {
fourside(add_bg_outer_color, cell.adjacent);
}
if (cell.qnum === 2 && outercnt === 2) {
fourside(add_bg_inner_color, cell.adjacent);
}
if (cell.qnum === 2 && innercnt === 2) {
fourside(add_bg_outer_color, cell.adjacent);
}
// 2 different color around 1 or 3
if ((cell.qnum === 1 || cell.qnum === 3) && innercnt === 1 && outercnt === 1) {
fourside((c, d) => {
if (!c.isnull && c.qsub === CQSUB.none) {
if (cell.qnum === 1) { add_cross(d); }
if (cell.qnum === 3) { add_line(d); }
}
}, cell.adjacent, cell.adjborder);
}
// same diagonal color as 3
if (cell.qnum === 3 && cell.qsub !== CQSUB.none) {
for (let d = 0; d < 4; d++) {
if (!offset(cell, 1, 0, d).isnull && !offset(cell, 0, 1, d).isnull && offset(cell, 1, 1, d).qsub === cell.qsub) {
add_line(offset(cell, -.5, 0, d));
add_line(offset(cell, 0, -.5, d));
}
}
}
if (cell.qnum === 2) {
// ×
// ×· ·
// 2 A
// · ·a
// Bb
for (let d = 0; d < 4; d++) {
let b1 = offset(cell, -.5, -1, d);
let b2 = offset(cell, -1, -.5, d);
if (!(b1.isnull || b1.qsub === BQSUB.cross)) { continue; }
if (!(b2.isnull || b2.qsub === BQSUB.cross)) { continue; }
let c1 = offset(cell, 1, 0, d);
let c2 = offset(cell, 0, 1, d);
// A=B
add_bg_color(c1, (c2.isnull ? CQSUB.yellow : c2.qsub));
add_bg_color(c2, (c1.isnull ? CQSUB.yellow : c1.qsub));
}
}
}
});
}
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