import { b as yp, g as sn, l as qr, f as nn, H as Ca, J as mp, K as bp, L as Ep } from "./config-e567ef17.js"; import { s as wp } from "./setupGraphViewbox-a4603a92.js"; import { i as xp } from "./is_dark-151801f4.js"; var Ki = function() { var fe = function(ee, H, te, S) { for (te = te || {}, S = ee.length; S--; te[ee[S]] = H) ; return te; }, he = [1, 4], Q = [1, 13], ce = [1, 12], Y = [1, 15], A = [1, 16], T = [1, 20], w = [1, 19], L = [6, 7, 8], G = [1, 26], U = [1, 24], P = [1, 25], K = [6, 7, 11], D = [1, 6, 13, 15, 16, 19, 22], V = [1, 33], _ = [1, 34], J = [1, 6, 7, 11, 13, 15, 16, 19, 22], ne = { trace: function() { }, yy: {}, symbols_: { error: 2, start: 3, mindMap: 4, spaceLines: 5, SPACELINE: 6, NL: 7, MINDMAP: 8, document: 9, stop: 10, EOF: 11, statement: 12, SPACELIST: 13, node: 14, ICON: 15, CLASS: 16, nodeWithId: 17, nodeWithoutId: 18, NODE_DSTART: 19, NODE_DESCR: 20, NODE_DEND: 21, NODE_ID: 22, $accept: 0, $end: 1 }, terminals_: { 2: "error", 6: "SPACELINE", 7: "NL", 8: "MINDMAP", 11: "EOF", 13: "SPACELIST", 15: "ICON", 16: "CLASS", 19: "NODE_DSTART", 20: "NODE_DESCR", 21: "NODE_DEND", 22: "NODE_ID" }, productions_: [0, [3, 1], [3, 2], [5, 1], [5, 2], [5, 2], [4, 2], [4, 3], [10, 1], [10, 1], [10, 1], [10, 2], [10, 2], [9, 3], [9, 2], [12, 2], [12, 2], [12, 2], [12, 1], [12, 1], [12, 1], [12, 1], [12, 1], [14, 1], [14, 1], [18, 3], [17, 1], [17, 4]], performAction: function(H, te, S, $, k, q, ve) { var pe = q.length - 1; switch (k) { case 6: case 7: return $; case 8: $.getLogger().trace("Stop NL "); break; case 9: $.getLogger().trace("Stop EOF "); break; case 11: $.getLogger().trace("Stop NL2 "); break; case 12: $.getLogger().trace("Stop EOF2 "); break; case 15: $.getLogger().info("Node: ", q[pe].id), $.addNode(q[pe - 1].length, q[pe].id, q[pe].descr, q[pe].type); break; case 16: $.getLogger().trace("Icon: ", q[pe]), $.decorateNode({ icon: q[pe] }); break; case 17: case 21: $.decorateNode({ class: q[pe] }); break; case 18: $.getLogger().trace("SPACELIST"); break; case 19: $.getLogger().trace("Node: ", q[pe].id), $.addNode(0, q[pe].id, q[pe].descr, q[pe].type); break; case 20: $.decorateNode({ icon: q[pe] }); break; case 25: $.getLogger().trace("node found ..", q[pe - 2]), this.$ = { id: q[pe - 1], descr: q[pe - 1], type: $.getType(q[pe - 2], q[pe]) }; break; case 26: this.$ = { id: q[pe], descr: q[pe], type: $.nodeType.DEFAULT }; break; case 27: $.getLogger().trace("node found ..", q[pe - 3]), this.$ = { id: q[pe - 3], descr: q[pe - 1], type: $.getType(q[pe - 2], q[pe]) }; break; } }, table: [{ 3: 1, 4: 2, 5: 3, 6: [1, 5], 8: he }, { 1: [3] }, { 1: [2, 1] }, { 4: 6, 6: [1, 7], 7: [1, 8], 8: he }, { 6: Q, 7: [1, 10], 9: 9, 12: 11, 13: ce, 14: 14, 15: Y, 16: A, 17: 17, 18: 18, 19: T, 22: w }, fe(L, [2, 3]), { 1: [2, 2] }, fe(L, [2, 4]), fe(L, [2, 5]), { 1: [2, 6], 6: Q, 12: 21, 13: ce, 14: 14, 15: Y, 16: A, 17: 17, 18: 18, 19: T, 22: w }, { 6: Q, 9: 22, 12: 11, 13: ce, 14: 14, 15: Y, 16: A, 17: 17, 18: 18, 19: T, 22: w }, { 6: G, 7: U, 10: 23, 11: P }, fe(K, [2, 22], { 17: 17, 18: 18, 14: 27, 15: [1, 28], 16: [1, 29], 19: T, 22: w }), fe(K, [2, 18]), fe(K, [2, 19]), fe(K, [2, 20]), fe(K, [2, 21]), fe(K, [2, 23]), fe(K, [2, 24]), fe(K, [2, 26], { 19: [1, 30] }), { 20: [1, 31] }, { 6: G, 7: U, 10: 32, 11: P }, { 1: [2, 7], 6: Q, 12: 21, 13: ce, 14: 14, 15: Y, 16: A, 17: 17, 18: 18, 19: T, 22: w }, fe(D, [2, 14], { 7: V, 11: _ }), fe(J, [2, 8]), fe(J, [2, 9]), fe(J, [2, 10]), fe(K, [2, 15]), fe(K, [2, 16]), fe(K, [2, 17]), { 20: [1, 35] }, { 21: [1, 36] }, fe(D, [2, 13], { 7: V, 11: _ }), fe(J, [2, 11]), fe(J, [2, 12]), { 21: [1, 37] }, fe(K, [2, 25]), fe(K, [2, 27])], defaultActions: { 2: [2, 1], 6: [2, 2] }, parseError: function(H, te) { if (te.recoverable) this.trace(H); else { var S = new Error(H); throw S.hash = te, S; } }, parse: function(H) { var te = this, S = [0], $ = [], k = [null], q = [], ve = this.table, pe = "", Ae = 0, Ne = 0, _e = 2, tt = 1, ct = q.slice.call(arguments, 1), Pe = Object.create(this.lexer), $e = { yy: {} }; for (var Xe in this.yy) Object.prototype.hasOwnProperty.call(this.yy, Xe) && ($e.yy[Xe] = this.yy[Xe]); Pe.setInput(H, $e.yy), $e.yy.lexer = Pe, $e.yy.parser = this, typeof Pe.yylloc > "u" && (Pe.yylloc = {}); var rt = Pe.yylloc; q.push(rt); var lt = Pe.options && Pe.options.ranges; typeof $e.yy.parseError == "function" ? this.parseError = $e.yy.parseError : this.parseError = Object.getPrototypeOf(this).parseError; function nt() { var jt; return jt = $.pop() || Pe.lex() || tt, typeof jt != "number" && (jt instanceof Array && ($ = jt, jt = $.pop()), jt = te.symbols_[jt] || jt), jt; } for (var je, pt, Et, kt, vt = {}, vr, qt, un, Kr; ; ) { if (pt = S[S.length - 1], this.defaultActions[pt] ? Et = this.defaultActions[pt] : ((je === null || typeof je > "u") && (je = nt()), Et = ve[pt] && ve[pt][je]), typeof Et > "u" || !Et.length || !Et[0]) { var Da = ""; Kr = []; for (vr in ve[pt]) this.terminals_[vr] && vr > _e && Kr.push("'" + this.terminals_[vr] + "'"); Pe.showPosition ? Da = "Parse error on line " + (Ae + 1) + `: ` + Pe.showPosition() + ` Expecting ` + Kr.join(", ") + ", got '" + (this.terminals_[je] || je) + "'" : Da = "Parse error on line " + (Ae + 1) + ": Unexpected " + (je == tt ? "end of input" : "'" + (this.terminals_[je] || je) + "'"), this.parseError(Da, { text: Pe.match, token: this.terminals_[je] || je, line: Pe.yylineno, loc: rt, expected: Kr }); } if (Et[0] instanceof Array && Et.length > 1) throw new Error("Parse Error: multiple actions possible at state: " + pt + ", token: " + je); switch (Et[0]) { case 1: S.push(je), k.push(Pe.yytext), q.push(Pe.yylloc), S.push(Et[1]), je = null, Ne = Pe.yyleng, pe = Pe.yytext, Ae = Pe.yylineno, rt = Pe.yylloc; break; case 2: if (qt = this.productions_[Et[1]][1], vt.$ = k[k.length - qt], vt._$ = { first_line: q[q.length - (qt || 1)].first_line, last_line: q[q.length - 1].last_line, first_column: q[q.length - (qt || 1)].first_column, last_column: q[q.length - 1].last_column }, lt && (vt._$.range = [ q[q.length - (qt || 1)].range[0], q[q.length - 1].range[1] ]), kt = this.performAction.apply(vt, [ pe, Ne, Ae, $e.yy, Et[1], k, q ].concat(ct)), typeof kt < "u") return kt; qt && (S = S.slice(0, -1 * qt * 2), k = k.slice(0, -1 * qt), q = q.slice(0, -1 * qt)), S.push(this.productions_[Et[1]][0]), k.push(vt.$), q.push(vt._$), un = ve[S[S.length - 2]][S[S.length - 1]], S.push(un); break; case 3: return !0; } } return !0; } }, ue = function() { var ee = { EOF: 1, parseError: function(te, S) { if (this.yy.parser) this.yy.parser.parseError(te, S); else throw new Error(te); }, // resets the lexer, sets new input setInput: function(H, te) { return this.yy = te || this.yy || {}, this._input = H, this._more = this._backtrack = this.done = !1, this.yylineno = this.yyleng = 0, this.yytext = this.matched = this.match = "", this.conditionStack = ["INITIAL"], this.yylloc = { first_line: 1, first_column: 0, last_line: 1, last_column: 0 }, this.options.ranges && (this.yylloc.range = [0, 0]), this.offset = 0, this; }, // consumes and returns one char from the input input: function() { var H = this._input[0]; this.yytext += H, this.yyleng++, this.offset++, this.match += H, this.matched += H; var te = H.match(/(?:\r\n?|\n).*/g); return te ? (this.yylineno++, this.yylloc.last_line++) : this.yylloc.last_column++, this.options.ranges && this.yylloc.range[1]++, this._input = this._input.slice(1), H; }, // unshifts one char (or a string) into the input unput: function(H) { var te = H.length, S = H.split(/(?:\r\n?|\n)/g); this._input = H + this._input, this.yytext = this.yytext.substr(0, this.yytext.length - te), this.offset -= te; var $ = this.match.split(/(?:\r\n?|\n)/g); this.match = this.match.substr(0, this.match.length - 1), this.matched = this.matched.substr(0, this.matched.length - 1), S.length - 1 && (this.yylineno -= S.length - 1); var k = this.yylloc.range; return this.yylloc = { first_line: this.yylloc.first_line, last_line: this.yylineno + 1, first_column: this.yylloc.first_column, last_column: S ? (S.length === $.length ? this.yylloc.first_column : 0) + $[$.length - S.length].length - S[0].length : this.yylloc.first_column - te }, this.options.ranges && (this.yylloc.range = [k[0], k[0] + this.yyleng - te]), this.yyleng = this.yytext.length, this; }, // When called from action, caches matched text and appends it on next action more: function() { return this._more = !0, this; }, // When called from action, signals the lexer that this rule fails to match the input, so the next matching rule (regex) should be tested instead. reject: function() { if (this.options.backtrack_lexer) this._backtrack = !0; else return this.parseError("Lexical error on line " + (this.yylineno + 1) + `. You can only invoke reject() in the lexer when the lexer is of the backtracking persuasion (options.backtrack_lexer = true). ` + this.showPosition(), { text: "", token: null, line: this.yylineno }); return this; }, // retain first n characters of the match less: function(H) { this.unput(this.match.slice(H)); }, // displays already matched input, i.e. for error messages pastInput: function() { var H = this.matched.substr(0, this.matched.length - this.match.length); return (H.length > 20 ? "..." : "") + H.substr(-20).replace(/\n/g, ""); }, // displays upcoming input, i.e. for error messages upcomingInput: function() { var H = this.match; return H.length < 20 && (H += this._input.substr(0, 20 - H.length)), (H.substr(0, 20) + (H.length > 20 ? "..." : "")).replace(/\n/g, ""); }, // displays the character position where the lexing error occurred, i.e. for error messages showPosition: function() { var H = this.pastInput(), te = new Array(H.length + 1).join("-"); return H + this.upcomingInput() + ` ` + te + "^"; }, // test the lexed token: return FALSE when not a match, otherwise return token test_match: function(H, te) { var S, $, k; if (this.options.backtrack_lexer && (k = { yylineno: this.yylineno, yylloc: { first_line: this.yylloc.first_line, last_line: this.last_line, first_column: this.yylloc.first_column, last_column: this.yylloc.last_column }, yytext: this.yytext, match: this.match, matches: this.matches, matched: this.matched, yyleng: this.yyleng, offset: this.offset, _more: this._more, _input: this._input, yy: this.yy, conditionStack: this.conditionStack.slice(0), done: this.done }, this.options.ranges && (k.yylloc.range = this.yylloc.range.slice(0))), $ = H[0].match(/(?:\r\n?|\n).*/g), $ && (this.yylineno += $.length), this.yylloc = { first_line: this.yylloc.last_line, last_line: this.yylineno + 1, first_column: this.yylloc.last_column, last_column: $ ? $[$.length - 1].length - $[$.length - 1].match(/\r?\n?/)[0].length : this.yylloc.last_column + H[0].length }, this.yytext += H[0], this.match += H[0], this.matches = H, this.yyleng = this.yytext.length, this.options.ranges && (this.yylloc.range = [this.offset, this.offset += this.yyleng]), this._more = !1, this._backtrack = !1, this._input = this._input.slice(H[0].length), this.matched += H[0], S = this.performAction.call(this, this.yy, this, te, this.conditionStack[this.conditionStack.length - 1]), this.done && this._input && (this.done = !1), S) return S; if (this._backtrack) { for (var q in k) this[q] = k[q]; return !1; } return !1; }, // return next match in input next: function() { if (this.done) return this.EOF; this._input || (this.done = !0); var H, te, S, $; this._more || (this.yytext = "", this.match = ""); for (var k = this._currentRules(), q = 0; q < k.length; q++) if (S = this._input.match(this.rules[k[q]]), S && (!te || S[0].length > te[0].length)) { if (te = S, $ = q, this.options.backtrack_lexer) { if (H = this.test_match(S, k[q]), H !== !1) return H; if (this._backtrack) { te = !1; continue; } else return !1; } else if (!this.options.flex) break; } return te ? (H = this.test_match(te, k[$]), H !== !1 ? H : !1) : this._input === "" ? this.EOF : this.parseError("Lexical error on line " + (this.yylineno + 1) + `. Unrecognized text. ` + this.showPosition(), { text: "", token: null, line: this.yylineno }); }, // return next match that has a token lex: function() { var te = this.next(); return te || this.lex(); }, // activates a new lexer condition state (pushes the new lexer condition state onto the condition stack) begin: function(te) { this.conditionStack.push(te); }, // pop the previously active lexer condition state off the condition stack popState: function() { var te = this.conditionStack.length - 1; return te > 0 ? this.conditionStack.pop() : this.conditionStack[0]; }, // produce the lexer rule set which is active for the currently active lexer condition state _currentRules: function() { return this.conditionStack.length && this.conditionStack[this.conditionStack.length - 1] ? this.conditions[this.conditionStack[this.conditionStack.length - 1]].rules : this.conditions.INITIAL.rules; }, // return the currently active lexer condition state; when an index argument is provided it produces the N-th previous condition state, if available topState: function(te) { return te = this.conditionStack.length - 1 - Math.abs(te || 0), te >= 0 ? this.conditionStack[te] : "INITIAL"; }, // alias for begin(condition) pushState: function(te) { this.begin(te); }, // return the number of states currently on the stack stateStackSize: function() { return this.conditionStack.length; }, options: { "case-insensitive": !0 }, performAction: function(te, S, $, k) { switch ($) { case 0: te.getLogger().trace("Found comment", S.yytext); break; case 1: return 8; case 2: this.begin("CLASS"); break; case 3: return this.popState(), 16; case 4: this.popState(); break; case 5: te.getLogger().trace("Begin icon"), this.begin("ICON"); break; case 6: return te.getLogger().trace("SPACELINE"), 6; case 7: return 7; case 8: return 15; case 9: te.getLogger().trace("end icon"), this.popState(); break; case 10: return te.getLogger().trace("Exploding node"), this.begin("NODE"), 19; case 11: return te.getLogger().trace("Cloud"), this.begin("NODE"), 19; case 12: return te.getLogger().trace("Explosion Bang"), this.begin("NODE"), 19; case 13: return te.getLogger().trace("Cloud Bang"), this.begin("NODE"), 19; case 14: return this.begin("NODE"), 19; case 15: return this.begin("NODE"), 19; case 16: return this.begin("NODE"), 19; case 17: return this.begin("NODE"), 19; case 18: return 13; case 19: return 22; case 20: return 11; case 21: te.getLogger().trace("Starting NSTR"), this.begin("NSTR"); break; case 22: return te.getLogger().trace("description:", S.yytext), "NODE_DESCR"; case 23: this.popState(); break; case 24: return this.popState(), te.getLogger().trace("node end ))"), "NODE_DEND"; case 25: return this.popState(), te.getLogger().trace("node end )"), "NODE_DEND"; case 26: return this.popState(), te.getLogger().trace("node end ...", S.yytext), "NODE_DEND"; case 27: return this.popState(), te.getLogger().trace("node end (("), "NODE_DEND"; case 28: return this.popState(), te.getLogger().trace("node end (-"), "NODE_DEND"; case 29: return this.popState(), te.getLogger().trace("node end (-"), "NODE_DEND"; case 30: return this.popState(), te.getLogger().trace("node end (("), "NODE_DEND"; case 31: return this.popState(), te.getLogger().trace("node end (("), "NODE_DEND"; case 32: return te.getLogger().trace("Long description:", S.yytext), 20; case 33: return te.getLogger().trace("Long description:", S.yytext), 20; } }, rules: [/^(?:\s*%%.*)/i, /^(?:mindmap\b)/i, /^(?::::)/i, /^(?:.+)/i, /^(?:\n)/i, /^(?:::icon\()/i, /^(?:[\s]+[\n])/i, /^(?:[\n]+)/i, /^(?:[^\)]+)/i, /^(?:\))/i, /^(?:-\))/i, /^(?:\(-)/i, /^(?:\)\))/i, /^(?:\))/i, /^(?:\(\()/i, /^(?:\{\{)/i, /^(?:\()/i, /^(?:\[)/i, /^(?:[\s]+)/i, /^(?:[^\(\[\n\-\)\{\}]+)/i, /^(?:$)/i, /^(?:["])/i, /^(?:[^"]+)/i, /^(?:["])/i, /^(?:[\)]\))/i, /^(?:[\)])/i, /^(?:[\]])/i, /^(?:\}\})/i, /^(?:\(-)/i, /^(?:-\))/i, /^(?:\(\()/i, /^(?:\()/i, /^(?:[^\)\]\(\}]+)/i, /^(?:.+(?!\(\())/i], conditions: { CLASS: { rules: [3, 4], inclusive: !1 }, ICON: { rules: [8, 9], inclusive: !1 }, NSTR: { rules: [22, 23], inclusive: !1 }, NODE: { rules: [21, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33], inclusive: !1 }, INITIAL: { rules: [0, 1, 2, 5, 6, 7, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20], inclusive: !0 } } }; return ee; }(); ne.lexer = ue; function j() { this.yy = {}; } return j.prototype = ne, ne.Parser = j, new j(); }(); Ki.parser = Ki; const Tp = Ki, on = (fe) => yp(fe, sn()); let Jt = [], Uu = 0, Ji = {}; const Cp = () => { Jt = [], Uu = 0, Ji = {}; }, Dp = function(fe) { for (let he = Jt.length - 1; he >= 0; he--) if (Jt[he].level < fe) return Jt[he]; return null; }, Sp = () => Jt.length > 0 ? Jt[0] : null, Lp = (fe, he, Q, ce) => { qr.info("addNode", fe, he, Q, ce); const Y = sn(), A = { id: Uu++, nodeId: on(he), level: fe, descr: on(Q), type: ce, children: [], width: sn().mindmap.maxNodeWidth }; switch (A.type) { case yt.ROUNDED_RECT: A.padding = 2 * Y.mindmap.padding; break; case yt.RECT: A.padding = 2 * Y.mindmap.padding; break; case yt.HEXAGON: A.padding = 2 * Y.mindmap.padding; break; default: A.padding = Y.mindmap.padding; } const T = Dp(fe); if (T) T.children.push(A), Jt.push(A); else if (Jt.length === 0) Jt.push(A); else { let w = new Error( 'There can be only one root. No parent could be found for ("' + A.descr + '")' ); throw w.hash = { text: "branch " + name, token: "branch " + name, line: "1", loc: { first_line: 1, last_line: 1, first_column: 1, last_column: 1 }, expected: ['"checkout ' + name + '"'] }, w; } }, yt = { DEFAULT: 0, NO_BORDER: 0, ROUNDED_RECT: 1, RECT: 2, CIRCLE: 3, CLOUD: 4, BANG: 5, HEXAGON: 6 }, Ap = (fe, he) => { switch (qr.debug("In get type", fe, he), fe) { case "[": return yt.RECT; case "(": return he === ")" ? yt.ROUNDED_RECT : yt.CLOUD; case "((": return yt.CIRCLE; case ")": return yt.CLOUD; case "))": return yt.BANG; case "{{": return yt.HEXAGON; default: return yt.DEFAULT; } }, Yu = (fe, he) => { Ji[fe] = he; }, Op = (fe) => { const he = Jt[Jt.length - 1]; fe && fe.icon && (he.icon = on(fe.icon)), fe && fe.class && (he.class = on(fe.class)); }, Wr = (fe) => { switch (fe) { case yt.DEFAULT: return "no-border"; case yt.RECT: return "rect"; case yt.ROUNDED_RECT: return "rounded-rect"; case yt.CIRCLE: return "circle"; case yt.CLOUD: return "cloud"; case yt.BANG: return "bang"; case yt.HEXAGON: return "hexgon"; default: return "no-border"; } }; let Hu; const Np = (fe) => { Hu = fe; }, Mp = () => qr, Ip = (fe) => Jt[fe], ji = (fe) => Ji[fe], Rp = /* @__PURE__ */ Object.freeze(/* @__PURE__ */ Object.defineProperty({ __proto__: null, addNode: Lp, clear: Cp, decorateNode: Op, getElementById: ji, getLogger: Mp, getMindmap: Sp, getNodeById: Ip, getType: Ap, nodeType: yt, get parseError() { return Hu; }, sanitizeText: on, setElementForId: Yu, setErrorHandler: Np, type2Str: Wr }, Symbol.toStringTag, { value: "Module" })), Xu = 12; function kp(fe, he) { fe.each(function() { var Q = nn(this), ce = Q.text().split(/(\s+|
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e : null) || tl(e) || Ju(e) || el(e) || ju(e); }, al = { // special colour names transparent: [0, 0, 0, 0], // NB alpha === 0 // regular colours aliceblue: [240, 248, 255], antiquewhite: [250, 235, 215], aqua: [0, 255, 255], aquamarine: [127, 255, 212], azure: [240, 255, 255], beige: [245, 245, 220], bisque: [255, 228, 196], black: [0, 0, 0], blanchedalmond: [255, 235, 205], blue: [0, 0, 255], blueviolet: [138, 43, 226], brown: [165, 42, 42], burlywood: [222, 184, 135], cadetblue: [95, 158, 160], chartreuse: [127, 255, 0], chocolate: [210, 105, 30], coral: [255, 127, 80], cornflowerblue: [100, 149, 237], cornsilk: [255, 248, 220], crimson: [220, 20, 60], cyan: [0, 255, 255], darkblue: [0, 0, 139], darkcyan: [0, 139, 139], darkgoldenrod: [184, 134, 11], darkgray: [169, 169, 169], darkgreen: [0, 100, 0], darkgrey: [169, 169, 169], darkkhaki: [189, 183, 107], darkmagenta: [139, 0, 139], darkolivegreen: [85, 107, 47], darkorange: [255, 140, 0], darkorchid: [153, 50, 204], darkred: [139, 0, 0], darksalmon: [233, 150, 122], darkseagreen: [143, 188, 143], darkslateblue: [72, 61, 139], darkslategray: [47, 79, 79], darkslategrey: [47, 79, 79], darkturquoise: [0, 206, 209], darkviolet: [148, 0, 211], deeppink: [255, 20, 147], deepskyblue: [0, 191, 255], dimgray: [105, 105, 105], dimgrey: [105, 105, 105], dodgerblue: [30, 144, 255], firebrick: [178, 34, 34], floralwhite: [255, 250, 240], forestgreen: [34, 139, 34], fuchsia: [255, 0, 255], gainsboro: [220, 220, 220], ghostwhite: [248, 248, 255], gold: [255, 215, 0], goldenrod: [218, 165, 32], gray: [128, 128, 128], grey: [128, 128, 128], green: [0, 128, 0], greenyellow: [173, 255, 47], honeydew: [240, 255, 240], hotpink: [255, 105, 180], indianred: [205, 92, 92], indigo: [75, 0, 130], ivory: [255, 255, 240], khaki: [240, 230, 140], lavender: [230, 230, 250], lavenderblush: [255, 240, 245], lawngreen: [124, 252, 0], lemonchiffon: [255, 250, 205], lightblue: [173, 216, 230], lightcoral: [240, 128, 128], lightcyan: [224, 255, 255], lightgoldenrodyellow: [250, 250, 210], lightgray: [211, 211, 211], lightgreen: [144, 238, 144], lightgrey: [211, 211, 211], lightpink: [255, 182, 193], lightsalmon: [255, 160, 122], lightseagreen: [32, 178, 170], lightskyblue: [135, 206, 250], lightslategray: [119, 136, 153], lightslategrey: [119, 136, 153], lightsteelblue: [176, 196, 222], lightyellow: [255, 255, 224], lime: [0, 255, 0], limegreen: [50, 205, 50], linen: [250, 240, 230], magenta: [255, 0, 255], maroon: [128, 0, 0], mediumaquamarine: [102, 205, 170], mediumblue: [0, 0, 205], mediumorchid: [186, 85, 211], mediumpurple: [147, 112, 219], mediumseagreen: [60, 179, 113], mediumslateblue: [123, 104, 238], mediumspringgreen: [0, 250, 154], mediumturquoise: [72, 209, 204], mediumvioletred: [199, 21, 133], midnightblue: [25, 25, 112], mintcream: [245, 255, 250], mistyrose: [255, 228, 225], moccasin: [255, 228, 181], navajowhite: [255, 222, 173], navy: [0, 0, 128], oldlace: [253, 245, 230], olive: [128, 128, 0], olivedrab: [107, 142, 35], orange: [255, 165, 0], orangered: [255, 69, 0], orchid: [218, 112, 214], palegoldenrod: [238, 232, 170], palegreen: [152, 251, 152], paleturquoise: [175, 238, 238], palevioletred: [219, 112, 147], papayawhip: [255, 239, 213], peachpuff: [255, 218, 185], peru: [205, 133, 63], pink: [255, 192, 203], plum: [221, 160, 221], powderblue: [176, 224, 230], purple: [128, 0, 128], red: [255, 0, 0], rosybrown: [188, 143, 143], royalblue: [65, 105, 225], saddlebrown: [139, 69, 19], salmon: [250, 128, 114], sandybrown: [244, 164, 96], seagreen: [46, 139, 87], seashell: [255, 245, 238], sienna: [160, 82, 45], silver: [192, 192, 192], skyblue: [135, 206, 235], slateblue: [106, 90, 205], slategray: [112, 128, 144], slategrey: [112, 128, 144], snow: [255, 250, 250], springgreen: [0, 255, 127], steelblue: [70, 130, 180], tan: [210, 180, 140], teal: [0, 128, 128], thistle: [216, 191, 216], tomato: [255, 99, 71], turquoise: [64, 224, 208], violet: [238, 130, 238], wheat: [245, 222, 179], white: [255, 255, 255], whitesmoke: [245, 245, 245], yellow: [255, 255, 0], yellowgreen: [154, 205, 50] }, ts = function(e) { for (var r = e.map, a = e.keys, n = a.length, i = 0; i < n; i++) { var s = a[i]; if (S(s)) throw Error("Tried to set map with object key"); i < a.length - 1 ? 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Try to use the stylesheet instead."), this.style(v)), (a === void 0 || a) && this.restore(); }, ms = function(e) { return e = { bfs: e.bfs || !e.dfs, dfs: e.dfs || !e.bfs }, function(a, n, i) { var s; S(a) && !pe(a) && (s = a, a = s.roots || s.root, n = s.visit, i = s.directed), i = arguments.length === 2 && !H(n) ? n : i, n = H(n) ? n : function() { }; for (var o = this._private.cy, l = a = ee(a) ? this.filter(a) : a, u = [], f = [], h = {}, c = {}, v = {}, d = 0, g, y = this.byGroup(), p = y.nodes, m = y.edges, b = 0; b < l.length; b++) { var E = l[b], M = E.id(); E.isNode() && (u.unshift(E), e.bfs && (v[M] = !0, f.push(E)), c[M] = 0); } for (var O = function() { var X = e.bfs ? u.shift() : u.pop(), z = X.id(); if (e.dfs) { if (v[z]) return "continue"; v[z] = !0, f.push(X); } var re = c[z], W = h[z], Z = W != null ? W.source() : null, ie = W != null ? W.target() : null, oe = W == null ? void 0 : X.same(Z) ? ie[0] : Z[0], ge = void 0; if (ge = n(X, W, oe, d++, re), ge === !0) return g = X, "break"; if (ge === !1) return "break"; for (var se = X.connectedEdges().filter(function(ye) { return (!i || ye.source().same(X)) && m.has(ye); }), de = 0; de < se.length; de++) { var we = se[de], Te = we.connectedNodes().filter(function(ye) { return !ye.same(X) && p.has(ye); }), Ee = Te.id(); Te.length !== 0 && !v[Ee] && (Te = Te[0], u.push(Te), e.bfs && (v[Ee] = !0, f.push(Te)), h[Ee] = we, c[Ee] = c[z] + 1); } }; u.length !== 0; ) { var x = O(); if (x !== "continue" && x === "break") break; } for (var I = o.collection(), C = 0; C < f.length; C++) { var B = f[C], F = h[B.id()]; F != null && I.push(F), I.push(B); } return { path: o.collection(I), found: o.collection(g) }; }; }, Ia = { breadthFirstSearch: ms({ bfs: !0 }), depthFirstSearch: ms({ dfs: !0 }) }; Ia.bfs = Ia.breadthFirstSearch, Ia.dfs = Ia.depthFirstSearch; var tf = il(function(t, e) { (function() { var r, a, n, i, s, o, l, u, f, h, c, v, d, g, y; n = Math.floor, h = Math.min, a = function(p, m) { return p < m ? -1 : p > m ? 1 : 0; }, f = function(p, m, b, E, M) { var O; if (b == null && (b = 0), M == null && (M = a), b < 0) throw new Error("lo must be non-negative"); for (E == null && (E = p.length); b < E; ) O = n((b + E) / 2), M(m, p[O]) < 0 ? E = O : b = O + 1; return [].splice.apply(p, [b, b - b].concat(m)), m; }, o = function(p, m, b) { return b == null && (b = a), p.push(m), g(p, 0, p.length - 1, b); }, s = function(p, m) { var b, E; return m == null && (m = a), b = p.pop(), p.length ? (E = p[0], p[0] = b, y(p, 0, m)) : E = b, E; }, u = function(p, m, b) { var E; return b == null && (b = a), E = p[0], p[0] = m, y(p, 0, b), E; }, l = function(p, m, b) { var E; return b == null && (b = a), p.length && b(p[0], m) < 0 && (E = [p[0], m], m = E[0], p[0] = E[1], y(p, 0, b)), m; }, i = function(p, m) { var b, E, M, O, x, I; for (m == null && (m = a), O = function() { I = []; for (var C = 0, B = n(p.length / 2); 0 <= B ? C < B : C > B; 0 <= B ? C++ : C--) I.push(C); return I; }.apply(this).reverse(), x = [], E = 0, M = O.length; E < M; E++) b = O[E], x.push(y(p, b, m)); return x; }, d = function(p, m, b) { var E; if (b == null && (b = a), E = p.indexOf(m), E !== -1) return g(p, 0, E, b), y(p, E, b); }, c = function(p, m, b) { var E, M, O, x, I; if (b == null && (b = a), M = p.slice(0, m), !M.length) return M; for (i(M, b), I = p.slice(m), O = 0, x = I.length; O < x; O++) E = I[O], l(M, E, b); return M.sort(b).reverse(); }, v = function(p, m, b) { var E, M, O, x, I, C, B, F, R; if (b == null && (b = a), m * 10 <= p.length) { if (O = p.slice(0, m).sort(b), !O.length) return O; for (M = O[O.length - 1], B = p.slice(m), x = 0, C = B.length; x < C; x++) E = B[x], b(E, M) < 0 && (f(O, E, 0, null, b), O.pop(), M = O[O.length - 1]); return O; } for (i(p, b), R = [], I = 0, F = h(m, p.length); 0 <= F ? I < F : I > F; 0 <= F ? ++I : --I) R.push(s(p, b)); return R; }, g = function(p, m, b, E) { var M, O, x; for (E == null && (E = a), M = p[b]; b > m; ) { if (x = b - 1 >> 1, O = p[x], E(M, O) < 0) { p[b] = O, b = x; continue; } break; } return p[b] = M; }, y = function(p, m, b) { var E, M, O, x, I; for (b == null && (b = a), M = p.length, I = m, O = p[m], E = 2 * m + 1; E < M; ) x = E + 1, x < M && !(b(p[E], p[x]) < 0) && (E = x), p[m] = p[E], m = E, E = 2 * m + 1; return p[m] = O, g(p, I, m, b); }, r = function() { p.push = o, p.pop = s, p.replace = u, p.pushpop = l, p.heapify = i, p.updateItem = d, p.nlargest = c, p.nsmallest = v; function p(m) { this.cmp = m ?? a, this.nodes = []; } return p.prototype.push = function(m) { return o(this.nodes, m, this.cmp); }, p.prototype.pop = function() { return s(this.nodes, this.cmp); }, p.prototype.peek = function() { return this.nodes[0]; }, p.prototype.contains = function(m) { return this.nodes.indexOf(m) !== -1; }, p.prototype.replace = function(m) { return u(this.nodes, m, this.cmp); }, p.prototype.pushpop = function(m) { return l(this.nodes, m, this.cmp); }, p.prototype.heapify = function() { return i(this.nodes, this.cmp); }, p.prototype.updateItem = function(m) { return d(this.nodes, m, this.cmp); }, p.prototype.clear = function() { return this.nodes = []; }, p.prototype.empty = function() { return this.nodes.length === 0; }, p.prototype.size = function() { return this.nodes.length; }, p.prototype.clone = function() { var m; return m = new p(), m.nodes = this.nodes.slice(0), m; }, p.prototype.toArray = function() { return this.nodes.slice(0); }, p.prototype.insert = p.prototype.push, p.prototype.top = p.prototype.peek, p.prototype.front = p.prototype.peek, p.prototype.has = p.prototype.contains, p.prototype.copy = p.prototype.clone, p; }(), function(p, m) { return t.exports = m(); }(this, function() { return r; }); }).call(Sa); }), Ra = tf, rf = Lt({ root: null, weight: function(e) { return 1; }, directed: !1 }), af = { dijkstra: function(e) { if (!S(e)) { var r = arguments; e = { root: r[0], weight: r[1], directed: r[2] }; } var a = rf(e), n = a.root, i = a.weight, s = a.directed, o = this, l = i, u = ee(n) ? this.filter(n)[0] : n[0], f = {}, h = {}, c = {}, v = this.byGroup(), d = v.nodes, g = v.edges; g.unmergeBy(function(re) { return re.isLoop(); }); for (var y = function(W) { return f[W.id()]; }, p = function(W, Z) { f[W.id()] = Z, m.updateItem(W); }, m = new Ra(function(re, W) { return y(re) - y(W); }), b = 0; b < d.length; b++) { var E = d[b]; f[E.id()] = E.same(u) ? 0 : 1 / 0, m.push(E); } for (var M = function(W, Z) { for (var ie = (s ? W.edgesTo(Z) : W.edgesWith(Z)).intersect(g), oe = 1 / 0, ge, se = 0; se < ie.length; se++) { var de = ie[se], we = l(de); (we < oe || !ge) && (oe = we, ge = de); } return { edge: ge, dist: oe }; }; m.size() > 0; ) { var O = m.pop(), x = y(O), I = O.id(); if (c[I] = x, x !== 1 / 0) for (var C = O.neighborhood().intersect(d), B = 0; B < C.length; B++) { var F = C[B], R = F.id(), X = M(O, F), z = x + X.dist; z < y(F) && (p(F, z), h[R] = { node: O, edge: X.edge }); } } return { distanceTo: function(W) { var Z = ee(W) ? d.filter(W)[0] : W[0]; return c[Z.id()]; }, pathTo: function(W) { var Z = ee(W) ? d.filter(W)[0] : W[0], ie = [], oe = Z, ge = oe.id(); if (Z.length > 0) for (ie.unshift(Z); h[ge]; ) { var se = h[ge]; ie.unshift(se.edge), ie.unshift(se.node), oe = se.node, ge = oe.id(); } return o.spawn(ie); } }; } }, nf = { // kruskal's algorithm (finds min spanning tree, assuming undirected graph) // implemented from pseudocode from wikipedia kruskal: function(e) { e = e || function(b) { return 1; }; for (var r = this.byGroup(), a = r.nodes, n = r.edges, i = a.length, s = new Array(i), o = a, l = function(E) { for (var M = 0; M < s.length; M++) { var O = s[M]; if (O.has(E)) return M; } }, u = 0; u < i; u++) s[u] = this.spawn(a[u]); for (var f = n.sort(function(b, E) { return e(b) - e(E); }), h = 0; h < f.length; h++) { var c = f[h], v = c.source()[0], d = c.target()[0], g = l(v), y = l(d), p = s[g], m = s[y]; g !== y && (o.merge(c), p.merge(m), s.splice(y, 1)); } return o; } }, sf = Lt({ root: null, goal: null, weight: function(e) { return 1; }, heuristic: function(e) { return 0; }, directed: !1 }), of = { // Implemented from pseudocode from wikipedia aStar: function(e) { var r = this.cy(), a = sf(e), n = a.root, i = a.goal, s = a.heuristic, o = a.directed, l = a.weight; n = r.collection(n)[0], i = r.collection(i)[0]; var u = n.id(), f = i.id(), h = {}, c = {}, v = {}, d = new Ra(function(ge, se) { return c[ge.id()] - c[se.id()]; }), g = new Jr(), y = {}, p = {}, m = function(se, de) { d.push(se), g.add(de); }, b, E, M = function() { b = d.pop(), E = b.id(), g.delete(E); }, O = function(se) { return g.has(se); }; m(n, u), h[u] = 0, c[u] = s(n); for (var x = 0; d.size() > 0; ) { if (M(), x++, E === f) { for (var I = [], C = i, B = f, F = p[B]; I.unshift(C), F != null && I.unshift(F), C = y[B], C != null; ) B = C.id(), F = p[B]; return { found: !0, distance: h[E], path: this.spawn(I), steps: x }; } v[E] = !0; for (var R = b._private.edges, X = 0; X < R.length; X++) { var z = R[X]; if (this.hasElementWithId(z.id()) && !(o && z.data("source") !== E)) { var re = z.source(), W = z.target(), Z = re.id() !== E ? re : W, ie = Z.id(); if (this.hasElementWithId(ie) && !v[ie]) { var oe = h[E] + l(z); if (!O(ie)) { h[ie] = oe, c[ie] = oe + s(Z), m(Z, ie), y[ie] = b, p[ie] = z; continue; } oe < h[ie] && (h[ie] = oe, c[ie] = oe + s(Z), y[ie] = b, p[ie] = z); } } } } return { found: !1, distance: void 0, path: void 0, steps: x }; } }, uf = Lt({ weight: function(e) { return 1; }, directed: !1 }), lf = { // Implemented from pseudocode from wikipedia floydWarshall: function(e) { for (var r = this.cy(), a = uf(e), n = a.weight, i = a.directed, s = n, o = this.byGroup(), l = o.nodes, u = o.edges, f = l.length, h = f * f, c = function(we) { return l.indexOf(we); }, v = function(we) { return l[we]; }, d = new Array(h), g = 0; g < h; g++) { var y = g % f, p = (g - y) / f; p === y ? d[g] = 0 : d[g] = 1 / 0; } for (var m = new Array(h), b = new Array(h), E = 0; E < u.length; E++) { var M = u[E], O = M.source()[0], x = M.target()[0]; if (O !== x) { var I = c(O), C = c(x), B = I * f + C, F = s(M); if (d[B] > F && (d[B] = F, m[B] = C, b[B] = M), !i) { var R = C * f + I; !i && d[R] > F && (d[R] = F, m[R] = I, b[R] = M); } } } for (var X = 0; X < f; X++) for (var z = 0; z < f; z++) for (var re = z * f + X, W = 0; W < f; W++) { var Z = z * f + W, ie = X * f + W; d[re] + d[ie] < d[Z] && (d[Z] = d[re] + d[ie], m[Z] = m[re]); } var oe = function(we) { return (ee(we) ? r.filter(we) : we)[0]; }, ge = function(we) { return c(oe(we)); }, se = { distance: function(we, Te) { var Ee = ge(we), ye = ge(Te); return d[Ee * f + ye]; }, path: function(we, Te) { var Ee = ge(we), ye = ge(Te), ae = v(Ee); if (Ee === ye) return ae.collection(); if (m[Ee * f + ye] == null) return r.collection(); var xe = r.collection(), Ce = Ee, Oe; for (xe.merge(ae); Ee !== ye; ) Ce = Ee, Ee = m[Ee * f + ye], Oe = b[Ce * f + Ee], xe.merge(Oe), xe.merge(v(Ee)); return xe; } }; return se; } // floydWarshall }, ff = Lt({ weight: function(e) { return 1; }, directed: !1, root: null }), hf = { // Implemented from pseudocode from wikipedia bellmanFord: function(e) { var r = this, a = ff(e), n = a.weight, i = a.directed, s = a.root, o = n, l = this, u = this.cy(), f = this.byGroup(), h = f.edges, c = f.nodes, v = c.length, d = new ur(), g = !1, y = []; s = u.collection(s)[0], h.unmergeBy(function(Fe) { return Fe.isLoop(); }); for (var p = h.length, m = function(ke) { var Ge = d.get(ke.id()); return Ge || (Ge = {}, d.set(ke.id(), Ge)), Ge; }, b = function(ke) { return (ee(ke) ? u.$(ke) : ke)[0]; }, E = function(ke) { return m(b(ke)).dist; }, M = function(ke) { for (var Ge = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : s, et = b(ke), We = [], Ye = et; ; ) { if (Ye == null) return r.spawn(); var Se = m(Ye), N = Se.edge, le = Se.pred; if (We.unshift(Ye[0]), Ye.same(Ge) && We.length > 0) break; N != null && We.unshift(N), Ye = le; } return l.spawn(We); }, O = 0; O < v; O++) { var x = c[O], I = m(x); x.same(s) ? I.dist = 0 : I.dist = 1 / 0, I.pred = null, I.edge = null; } for (var C = !1, B = function(ke, Ge, et, We, Ye, Se) { var N = We.dist + Se; N < Ye.dist && !et.same(We.edge) && (Ye.dist = N, Ye.pred = ke, Ye.edge = et, C = !0); }, F = 1; F < v; F++) { C = !1; for (var R = 0; R < p; R++) { var X = h[R], z = X.source(), re = X.target(), W = o(X), Z = m(z), ie = m(re); B(z, re, X, Z, ie, W), i || B(re, z, X, ie, Z, W); } if (!C) break; } if (C) for (var oe = [], ge = 0; ge < p; ge++) { var se = h[ge], de = se.source(), we = se.target(), Te = o(se), Ee = m(de).dist, ye = m(we).dist; if (Ee + Te < ye || !i && ye + Te < Ee) if (g || (ft("Graph contains a negative weight cycle for Bellman-Ford"), g = !0), e.findNegativeWeightCycles !== !1) { var ae = []; Ee + Te < ye && ae.push(de), !i && ye + Te < Ee && ae.push(we); for (var xe = ae.length, Ce = 0; Ce < xe; Ce++) { var Oe = ae[Ce], Ie = [Oe]; Ie.push(m(Oe).edge); for (var He = m(Oe).pred; Ie.indexOf(He) === -1; ) Ie.push(He), Ie.push(m(He).edge), He = m(He).pred; Ie = Ie.slice(Ie.indexOf(He)); for (var qe = Ie[0].id(), Re = 0, Me = 2; Me < Ie.length; Me += 2) Ie[Me].id() < qe && (qe = Ie[Me].id(), Re = Me); Ie = Ie.slice(Re).concat(Ie.slice(0, Re)), Ie.push(Ie[0]); var Ve = Ie.map(function(Fe) { return Fe.id(); }).join(","); oe.indexOf(Ve) === -1 && (y.push(l.spawn(Ie)), oe.push(Ve)); } } else break; } return { distanceTo: E, pathTo: M, hasNegativeWeightCycle: g, negativeWeightCycles: y }; } // bellmanFord }, cf = Math.sqrt(2), vf = function(e, r, a) { a.length === 0 && xt("Karger-Stein must be run on a connected (sub)graph"); for (var n = a[e], i = n[1], s = n[2], o = r[i], l = r[s], u = a, f = u.length - 1; f >= 0; f--) { var h = u[f], c = h[1], v = h[2]; (r[c] === o && r[v] === l || r[c] === l && r[v] === o) && u.splice(f, 1); } for (var d = 0; d < u.length; d++) { var g = u[d]; g[1] === l ? (u[d] = g.slice(), u[d][1] = o) : g[2] === l && (u[d] = g.slice(), u[d][2] = o); } for (var y = 0; y < r.length; y++) r[y] === l && (r[y] = o); return u; }, ui = function(e, r, a, n) { for (; a > n; ) { var i = Math.floor(Math.random() * r.length); r = vf(i, e, r), a--; } return r; }, df = { // Computes the minimum cut of an undirected graph // Returns the correct answer with high probability kargerStein: function() { var e = this, r = this.byGroup(), a = r.nodes, n = r.edges; n.unmergeBy(function(ie) { return ie.isLoop(); }); var i = a.length, s = n.length, o = Math.ceil(Math.pow(Math.log(i) / Math.LN2, 2)), l = Math.floor(i / cf); if (i < 2) { xt("At least 2 nodes are required for Karger-Stein algorithm"); return; } for (var u = [], f = 0; f < s; f++) { var h = n[f]; u.push([f, a.indexOf(h.source()), a.indexOf(h.target())]); } for (var c = 1 / 0, v = [], d = new Array(i), g = new Array(i), y = new Array(i), p = function(oe, ge) { for (var se = 0; se < i; se++) ge[se] = oe[se]; }, m = 0; m <= o; m++) { for (var b = 0; b < i; b++) g[b] = b; var E = ui(g, u.slice(), i, l), M = E.slice(); p(g, y); var O = ui(g, E, l, 2), x = ui(y, M, l, 2); O.length <= x.length && O.length < c ? (c = O.length, v = O, p(g, d)) : x.length <= O.length && x.length < c && (c = x.length, v = x, p(y, d)); } for (var I = this.spawn(v.map(function(ie) { return n[ie[0]]; })), C = this.spawn(), B = this.spawn(), F = d[0], R = 0; R < d.length; R++) { var X = d[R], z = a[R]; X === F ? C.merge(z) : B.merge(z); } var re = function(oe) { var ge = e.spawn(); return oe.forEach(function(se) { ge.merge(se), se.connectedEdges().forEach(function(de) { e.contains(de) && !I.contains(de) && ge.merge(de); }); }), ge; }, W = [re(C), re(B)], Z = { cut: I, components: W, // n.b. partitions are included to be compatible with the old api spec // (could be removed in a future major version) partition1: C, partition2: B }; return Z; } }, gf = function(e) { return { x: e.x, y: e.y }; }, gn = function(e, r, a) { return { x: e.x * r + a.x, y: e.y * r + a.y }; }, bs = function(e, r, a) { return { x: (e.x - a.x) / r, y: (e.y - a.y) / r }; }, jr = function(e) { return { x: e[0], y: e[1] }; }, pf = function(e) { for (var r = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : 0, a = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : e.length, n = 1 / 0, i = r; i < a; i++) { var s = e[i]; isFinite(s) && (n = Math.min(s, n)); } return n; }, yf = function(e) { for (var r = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : 0, a = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : e.length, n = -1 / 0, i = r; i < a; i++) { var s = e[i]; isFinite(s) && (n = Math.max(s, n)); } return n; }, mf = function(e) { for (var r = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : 0, a = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : e.length, n = 0, i = 0, s = r; s < a; s++) { var o = e[s]; isFinite(o) && (n += o, i++); } return n / i; }, bf = function(e) { var r = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : 0, a = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : e.length, n = arguments.length > 3 && arguments[3] !== void 0 ? arguments[3] : !0, i = arguments.length > 4 && arguments[4] !== void 0 ? arguments[4] : !0, s = arguments.length > 5 && arguments[5] !== void 0 ? arguments[5] : !0; n ? e = e.slice(r, a) : (a < e.length && e.splice(a, e.length - a), r > 0 && e.splice(0, r)); for (var o = 0, l = e.length - 1; l >= 0; l--) { var u = e[l]; s ? isFinite(u) || (e[l] = -1 / 0, o++) : e.splice(l, 1); } i && e.sort(function(c, v) { return c - v; }); var f = e.length, h = Math.floor(f / 2); return f % 2 !== 0 ? e[h + 1 + o] : (e[h - 1 + o] + e[h + o]) / 2; }, Ef = function(e) { return Math.PI * e / 180; }, pn = function(e, r) { return Math.atan2(r, e) - Math.PI / 2; }, li = Math.log2 || function(t) { return Math.log(t) / Math.log(2); }, Es = function(e) { return e > 0 ? 1 : e < 0 ? -1 : 0; }, Pr = function(e, r) { return Math.sqrt(Br(e, r)); }, Br = function(e, r) { var a = r.x - e.x, n = r.y - e.y; return a * a + n * n; }, wf = function(e) { for (var r = e.length, a = 0, n = 0; n < r; n++) a += e[n]; for (var i = 0; i < r; i++) e[i] = e[i] / a; return e; }, St = function(e, r, a, n) { return (1 - n) * (1 - n) * e + 2 * (1 - n) * n * r + n * n * a; }, ea = function(e, r, a, n) { return { x: St(e.x, r.x, a.x, n), y: St(e.y, r.y, a.y, n) }; }, xf = function(e, r, a, n) { var i = { x: r.x - e.x, y: r.y - e.y }, s = Pr(e, r), o = { x: i.x / s, y: i.y / s }; return a = a ?? 0, n = n ?? a * s, { x: e.x + o.x * n, y: e.y + o.y * n }; }, ka = function(e, r, a) { return Math.max(e, Math.min(a, r)); }, Ut = function(e) { if (e == null) return { x1: 1 / 0, y1: 1 / 0, x2: -1 / 0, y2: -1 / 0, w: 0, h: 0 }; if (e.x1 != null && e.y1 != null) { if (e.x2 != null && e.y2 != null && e.x2 >= e.x1 && e.y2 >= e.y1) return { x1: e.x1, y1: e.y1, x2: e.x2, y2: e.y2, w: e.x2 - e.x1, h: e.y2 - e.y1 }; if (e.w != null && e.h != null && e.w >= 0 && e.h >= 0) return { x1: e.x1, y1: e.y1, x2: e.x1 + e.w, y2: e.y1 + e.h, w: e.w, h: e.h }; } }, Tf = function(e) { return { x1: e.x1, x2: e.x2, w: e.w, y1: e.y1, y2: e.y2, h: e.h }; }, Cf = function(e) { e.x1 = 1 / 0, e.y1 = 1 / 0, e.x2 = -1 / 0, e.y2 = -1 / 0, e.w = 0, e.h = 0; }, Df = function(e, r) { e.x1 = Math.min(e.x1, r.x1), e.x2 = Math.max(e.x2, r.x2), e.w = e.x2 - e.x1, e.y1 = Math.min(e.y1, r.y1), e.y2 = Math.max(e.y2, r.y2), e.h = e.y2 - e.y1; }, Sf = function(e, r, a) { e.x1 = Math.min(e.x1, r), e.x2 = Math.max(e.x2, r), e.w = e.x2 - e.x1, e.y1 = Math.min(e.y1, a), e.y2 = Math.max(e.y2, a), e.h = e.y2 - e.y1; }, yn = function(e) { var r = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : 0; return e.x1 -= r, e.x2 += r, e.y1 -= r, e.y2 += r, e.w = e.x2 - e.x1, e.h = e.y2 - e.y1, e; }, fi = function(e) { var r = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : [0], a, n, i, s; if (r.length === 1) a = n = i = s = r[0]; else if (r.length === 2) a = i = r[0], s = n = r[1]; else if (r.length === 4) { var o = w(r, 4); a = o[0], n = o[1], i = o[2], s = o[3]; } return e.x1 -= s, e.x2 += n, e.y1 -= a, e.y2 += i, e.w = e.x2 - e.x1, e.h = e.y2 - e.y1, e; }, ws = function(e, r) { e.x1 = r.x1, e.y1 = r.y1, e.x2 = r.x2, e.y2 = r.y2, e.w = e.x2 - e.x1, e.h = e.y2 - e.y1; }, hi = function(e, r) { return !(e.x1 > r.x2 || r.x1 > e.x2 || e.x2 < r.x1 || r.x2 < e.x1 || e.y2 < r.y1 || r.y2 < e.y1 || e.y1 > r.y2 || r.y1 > e.y2); }, ta = function(e, r, a) { return e.x1 <= r && r <= e.x2 && e.y1 <= a && a <= e.y2; }, Lf = function(e, r) { return ta(e, r.x, r.y); }, xs = function(e, r) { return ta(e, r.x1, r.y1) && ta(e, r.x2, r.y2); }, Ts = function(e, r, a, n, i, s, o) { var l = Fa(i, s), u = i / 2, f = s / 2, h; { var c = a - u + l - o, v = n - f - o, d = a + u - l + o, g = v; if (h = Tr(e, r, a, n, c, v, d, g, !1), h.length > 0) return h; } { var y = a + u + o, p = n - f + l - o, m = y, b = n + f - l + o; if (h = Tr(e, r, a, n, y, p, m, b, !1), h.length > 0) return h; } { var E = a - u + l - o, M = n + f + o, O = a + u - l + o, x = M; if (h = Tr(e, r, a, n, E, M, O, x, !1), h.length > 0) return h; } { var I = a - u - o, C = n - f + l - o, B = I, F = n + f - l + o; if (h = Tr(e, r, a, n, I, C, B, F, !1), h.length > 0) return h; } var R; { var X = a - u + l, z = n - f + l; if (R = Pa(e, r, a, n, X, z, l + o), R.length > 0 && R[0] <= X && R[1] <= z) return [R[0], R[1]]; } { var re = a + u - l, W = n - f + l; if (R = Pa(e, r, a, n, re, W, l + o), R.length > 0 && R[0] >= re && R[1] <= W) return [R[0], R[1]]; } { var Z = a + u - l, ie = n + f - l; if (R = Pa(e, r, a, n, Z, ie, l + o), R.length > 0 && R[0] >= Z && R[1] >= ie) return [R[0], R[1]]; } { var oe = a - u + l, ge = n + f - l; if (R = Pa(e, r, a, n, oe, ge, l + o), R.length > 0 && R[0] <= oe && R[1] >= ge) return [R[0], R[1]]; } return []; }, Af = function(e, r, a, n, i, s, o) { var l = o, u = Math.min(a, i), f = Math.max(a, i), h = Math.min(n, s), c = Math.max(n, s); return u - l <= e && e <= f + l && h - l <= r && r <= c + l; }, Of = function(e, r, a, n, i, s, o, l, u) { var f = { x1: Math.min(a, o, i) - u, x2: Math.max(a, o, i) + u, y1: Math.min(n, l, s) - u, y2: Math.max(n, l, s) + u }; return !(e < f.x1 || e > f.x2 || r < f.y1 || r > f.y2); }, Nf = function(e, r, a, n) { a -= n; var i = r * r - 4 * e * a; if (i < 0) return []; var s = Math.sqrt(i), o = 2 * e, l = (-r + s) / o, u = (-r - s) / o; return [l, u]; }, Mf = function(e, r, a, n, i) { var s = 1e-5; e === 0 && (e = s), r /= e, a /= e, n /= e; var o, l, u, f, h, c, v, d; if (l = (3 * a - r * r) / 9, u = -(27 * n) + r * (9 * a - 2 * (r * r)), u /= 54, o = l * l * l + u * u, i[1] = 0, v = r / 3, o > 0) { h = u + Math.sqrt(o), h = h < 0 ? -Math.pow(-h, 1 / 3) : Math.pow(h, 1 / 3), c = u - Math.sqrt(o), c = c < 0 ? -Math.pow(-c, 1 / 3) : Math.pow(c, 1 / 3), i[0] = -v + h + c, v += (h + c) / 2, i[4] = i[2] = -v, v = Math.sqrt(3) * (-c + h) / 2, i[3] = v, i[5] = -v; return; } if (i[5] = i[3] = 0, o === 0) { d = u < 0 ? -Math.pow(-u, 1 / 3) : Math.pow(u, 1 / 3), i[0] = -v + 2 * d, i[4] = i[2] = -(d + v); return; } l = -l, f = l * l * l, f = Math.acos(u / Math.sqrt(f)), d = 2 * Math.sqrt(l), i[0] = -v + d * Math.cos(f / 3), i[2] = -v + d * Math.cos((f + 2 * Math.PI) / 3), i[4] = -v + d * Math.cos((f + 4 * Math.PI) / 3); }, If = function(e, r, a, n, i, s, o, l) { var u = 1 * a * a - 4 * a * i + 2 * a * o + 4 * i * i - 4 * i * o + o * o + n * n - 4 * n * s + 2 * n * l + 4 * s * s - 4 * s * l + l * l, f = 1 * 9 * a * i - 3 * a * a - 3 * a * o - 6 * i * i + 3 * i * o + 9 * n * s - 3 * n * n - 3 * n * l - 6 * s * s + 3 * s * l, h = 1 * 3 * a * a - 6 * a * i + a * o - a * e + 2 * i * i + 2 * i * e - o * e + 3 * n * n - 6 * n * s + n * l - n * r + 2 * s * s + 2 * s * r - l * r, c = 1 * a * i - a * a + a * e - i * e + n * s - n * n + n * r - s * r, v = []; Mf(u, f, h, c, v); for (var d = 1e-7, g = [], y = 0; y < 6; y += 2) Math.abs(v[y + 1]) < d && v[y] >= 0 && v[y] <= 1 && g.push(v[y]); g.push(1), g.push(0); for (var p = -1, m, b, E, M = 0; M < g.length; M++) m = Math.pow(1 - g[M], 2) * a + 2 * (1 - g[M]) * g[M] * i + g[M] * g[M] * o, b = Math.pow(1 - g[M], 2) * n + 2 * (1 - g[M]) * g[M] * s + g[M] * g[M] * l, E = Math.pow(m - e, 2) + Math.pow(b - r, 2), p >= 0 ? E < p && (p = E) : p = E; return p; }, Rf = function(e, r, a, n, i, s) { var o = [e - a, r - n], l = [i - a, s - n], u = l[0] * l[0] + l[1] * l[1], f = o[0] * o[0] + o[1] * o[1], h = o[0] * l[0] + o[1] * l[1], c = h * h / u; return h < 0 ? f : c > u ? (e - i) * (e - i) + (r - s) * (r - s) : f - c; }, Yt = function(e, r, a) { for (var n, i, s, o, l, u = 0, f = 0; f < a.length / 2; f++) if (n = a[f * 2], i = a[f * 2 + 1], f + 1 < a.length / 2 ? (s = a[(f + 1) * 2], o = a[(f + 1) * 2 + 1]) : (s = a[(f + 1 - a.length / 2) * 2], o = a[(f + 1 - a.length / 2) * 2 + 1]), !(n == e && s == e)) if (n >= e && e >= s || n <= e && e <= s) l = (e - n) / (s - n) * (o - i) + i, l > r && u++; else continue; return u % 2 !== 0; }, gr = function(e, r, a, n, i, s, o, l, u) { var f = new Array(a.length), h; l[0] != null ? (h = Math.atan(l[1] / l[0]), l[0] < 0 ? h = h + Math.PI / 2 : h = -h - Math.PI / 2) : h = l; for (var c = Math.cos(-h), v = Math.sin(-h), d = 0; d < f.length / 2; d++) f[d * 2] = s / 2 * (a[d * 2] * c - a[d * 2 + 1] * v), f[d * 2 + 1] = o / 2 * (a[d * 2 + 1] * c + a[d * 2] * v), f[d * 2] += n, f[d * 2 + 1] += i; var g; if (u > 0) { var y = Ds(f, -u); g = Cs(y); } else g = f; return Yt(e, r, g); }, kf = function(e, r, a, n, i, s, o) { for (var l = new Array(a.length), u = s / 2, f = o / 2, h = di(s, o), c = h * h, v = 0; v < a.length / 4; v++) { var d = void 0, g = void 0; v === 0 ? d = a.length - 2 : d = v * 4 - 2, g = v * 4 + 2; var y = n + u * a[v * 4], p = i + f * a[v * 4 + 1], m = -a[d] * a[g] - a[d + 1] * a[g + 1], b = h / Math.tan(Math.acos(m) / 2), E = y - b * a[d], M = p - b * a[d + 1], O = y + b * a[g], x = p + b * a[g + 1]; l[v * 4] = E, l[v * 4 + 1] = M, l[v * 4 + 2] = O, l[v * 4 + 3] = x; var I = a[d + 1], C = -a[d], B = I * a[g] + C * a[g + 1]; B < 0 && (I *= -1, C *= -1); var F = E + I * h, R = M + C * h, X = Math.pow(F - e, 2) + Math.pow(R - r, 2); if (X <= c) return !0; } return Yt(e, r, l); }, Cs = function(e) { for (var r = new Array(e.length / 2), a, n, i, s, o, l, u, f, h = 0; h < e.length / 4; h++) { a = e[h * 4], n = e[h * 4 + 1], i = e[h * 4 + 2], s = e[h * 4 + 3], h < e.length / 4 - 1 ? (o = e[(h + 1) * 4], l = e[(h + 1) * 4 + 1], u = e[(h + 1) * 4 + 2], f = e[(h + 1) * 4 + 3]) : (o = e[0], l = e[1], u = e[2], f = e[3]); var c = Tr(a, n, i, s, o, l, u, f, !0); r[h * 2] = c[0], r[h * 2 + 1] = c[1]; } return r; }, Ds = function(e, r) { for (var a = new Array(e.length * 2), n, i, s, o, l = 0; l < e.length / 2; l++) { n = e[l * 2], i = e[l * 2 + 1], l < e.length / 2 - 1 ? (s = e[(l + 1) * 2], o = e[(l + 1) * 2 + 1]) : (s = e[0], o = e[1]); var u = o - i, f = -(s - n), h = Math.sqrt(u * u + f * f), c = u / h, v = f / h; a[l * 4] = n + c * r, a[l * 4 + 1] = i + v * r, a[l * 4 + 2] = s + c * r, a[l * 4 + 3] = o + v * r; } return a; }, Pf = function(e, r, a, n, i, s) { var o = a - e, l = n - r; o /= i, l /= s; var u = Math.sqrt(o * o + l * l), f = u - 1; if (f < 0) return []; var h = f / u; return [(a - e) * h + e, (n - r) * h + r]; }, Fr = function(e, r, a, n, i, s, o) { return e -= i, r -= s, e /= a / 2 + o, r /= n / 2 + o, e * e + r * r <= 1; }, Pa = function(e, r, a, n, i, s, o) { var l = [a - e, n - r], u = [e - i, r - s], f = l[0] * l[0] + l[1] * l[1], h = 2 * (u[0] * l[0] + u[1] * l[1]), c = u[0] * u[0] + u[1] * u[1] - o * o, v = h * h - 4 * f * c; if (v < 0) return []; var d = (-h + Math.sqrt(v)) / (2 * f), g = (-h - Math.sqrt(v)) / (2 * f), y = Math.min(d, g), p = Math.max(d, g), m = []; if (y >= 0 && y <= 1 && m.push(y), p >= 0 && p <= 1 && m.push(p), m.length === 0) return []; var b = m[0] * l[0] + e, E = m[0] * l[1] + r; if (m.length > 1) { if (m[0] == m[1]) return [b, E]; var M = m[1] * l[0] + e, O = m[1] * l[1] + r; return [b, E, M, O]; } else return [b, E]; }, ci = function(e, r, a) { return r <= e && e <= a || a <= e && e <= r ? e : e <= r && r <= a || a <= r && r <= e ? r : a; }, Tr = function(e, r, a, n, i, s, o, l, u) { var f = e - i, h = a - e, c = o - i, v = r - s, d = n - r, g = l - s, y = c * v - g * f, p = h * v - d * f, m = g * h - c * d; if (m !== 0) { var b = y / m, E = p / m, M = 1e-3, O = 0 - M, x = 1 + M; return O <= b && b <= x && O <= E && E <= x ? [e + b * h, r + b * d] : u ? [e + b * h, r + b * d] : []; } else return y === 0 || p === 0 ? ci(e, a, o) === o ? [o, l] : ci(e, a, i) === i ? [i, s] : ci(i, o, a) === a ? [a, n] : [] : []; }, Ba = function(e, r, a, n, i, s, o, l) { var u = [], f, h = new Array(a.length), c = !0; s == null && (c = !1); var v; if (c) { for (var d = 0; d < h.length / 2; d++) h[d * 2] = a[d * 2] * s + n, h[d * 2 + 1] = a[d * 2 + 1] * o + i; if (l > 0) { var g = Ds(h, -l); v = Cs(g); } else v = h; } else v = a; for (var y, p, m, b, E = 0; E < v.length / 2; E++) y = v[E * 2], p = v[E * 2 + 1], E < v.length / 2 - 1 ? (m = v[(E + 1) * 2], b = v[(E + 1) * 2 + 1]) : (m = v[0], b = v[1]), f = Tr(e, r, n, i, y, p, m, b), f.length !== 0 && u.push(f[0], f[1]); return u; }, Bf = function(e, r, a, n, i, s, o, l) { for (var u = [], f, h = new Array(a.length), c = s / 2, v = o / 2, d = di(s, o), g = 0; g < a.length / 4; g++) { var y = void 0, p = void 0; g === 0 ? y = a.length - 2 : y = g * 4 - 2, p = g * 4 + 2; var m = n + c * a[g * 4], b = i + v * a[g * 4 + 1], E = -a[y] * a[p] - a[y + 1] * a[p + 1], M = d / Math.tan(Math.acos(E) / 2), O = m - M * a[y], x = b - M * a[y + 1], I = m + M * a[p], C = b + M * a[p + 1]; g === 0 ? (h[a.length - 2] = O, h[a.length - 1] = x) : (h[g * 4 - 2] = O, h[g * 4 - 1] = x), h[g * 4] = I, h[g * 4 + 1] = C; var B = a[y + 1], F = -a[y], R = B * a[p] + F * a[p + 1]; R < 0 && (B *= -1, F *= -1); var X = O + B * d, z = x + F * d; f = Pa(e, r, n, i, X, z, d), f.length !== 0 && u.push(f[0], f[1]); } for (var re = 0; re < h.length / 4; re++) f = Tr(e, r, n, i, h[re * 4], h[re * 4 + 1], h[re * 4 + 2], h[re * 4 + 3], !1), f.length !== 0 && u.push(f[0], f[1]); if (u.length > 2) { for (var W = [u[0], u[1]], Z = Math.pow(W[0] - e, 2) + Math.pow(W[1] - r, 2), ie = 1; ie < u.length / 2; ie++) { var oe = Math.pow(u[ie * 2] - e, 2) + Math.pow(u[ie * 2 + 1] - r, 2); oe <= Z && (W[0] = u[ie * 2], W[1] = u[ie * 2 + 1], Z = oe); } return W; } return u; }, mn = function(e, r, a) { var n = [e[0] - r[0], e[1] - r[1]], i = Math.sqrt(n[0] * n[0] + n[1] * n[1]), s = (i - a) / i; return s < 0 && (s = 1e-5), [r[0] + s * n[0], r[1] + s * n[1]]; }, $t = function(e, r) { var a = vi(e, r); return a = Ss(a), a; }, Ss = function(e) { for (var r, a, n = e.length / 2, i = 1 / 0, s = 1 / 0, o = -1 / 0, l = -1 / 0, u = 0; u < n; u++) r = e[2 * u], a = e[2 * u + 1], i = Math.min(i, r), o = Math.max(o, r), s = Math.min(s, a), l = Math.max(l, a); for (var f = 2 / (o - i), h = 2 / (l - s), c = 0; c < n; c++) r = e[2 * c] = e[2 * c] * f, a = e[2 * c + 1] = e[2 * c + 1] * h, i = Math.min(i, r), o = Math.max(o, r), s = Math.min(s, a), l = Math.max(l, a); if (s < -1) for (var v = 0; v < n; v++) a = e[2 * v + 1] = e[2 * v + 1] + (-1 - s); return e; }, vi = function(e, r) { var a = 1 / e * 2 * Math.PI, n = e % 2 === 0 ? Math.PI / 2 + a / 2 : Math.PI / 2; n += r; for (var i = new Array(e * 2), s, o = 0; o < e; o++) s = o * a + n, i[2 * o] = Math.cos(s), i[2 * o + 1] = Math.sin(-s); return i; }, Fa = function(e, r) { return Math.min(e / 4, r / 4, 8); }, di = function(e, r) { return Math.min(e / 10, r / 10, 8); }, Ls = function() { return 8; }, Ff = function(e, r, a) { return [e - 2 * r + a, 2 * (r - e), e]; }, gi = function(e, r) { return { heightOffset: Math.min(15, 0.05 * r), widthOffset: Math.min(100, 0.25 * e), ctrlPtOffsetPct: 0.05 }; }, zf = Lt({ dampingFactor: 0.8, precision: 1e-6, iterations: 200, weight: function(e) { return 1; } }), Gf = { pageRank: function(e) { for (var r = zf(e), a = r.dampingFactor, n = r.precision, i = r.iterations, s = r.weight, o = this._private.cy, l = this.byGroup(), u = l.nodes, f = l.edges, h = u.length, c = h * h, v = f.length, d = new Array(c), g = new Array(h), y = (1 - a) / h, p = 0; p < h; p++) { for (var m = 0; m < h; m++) { var b = p * h + m; d[b] = 0; } g[p] = 0; } for (var E = 0; E < v; E++) { var M = f[E], O = M.data("source"), x = M.data("target"); if (O !== x) { var I = u.indexOfId(O), C = u.indexOfId(x), B = s(M), F = C * h + I; d[F] += B, g[I] += B; } } for (var R = 1 / h + y, X = 0; X < h; X++) if (g[X] === 0) for (var z = 0; z < h; z++) { var re = z * h + X; d[re] = R; } else for (var W = 0; W < h; W++) { var Z = W * h + X; d[Z] = d[Z] / g[X] + y; } for (var ie = new Array(h), oe = new Array(h), ge, se = 0; se < h; se++) ie[se] = 1; for (var de = 0; de < i; de++) { for (var we = 0; we < h; we++) oe[we] = 0; for (var Te = 0; Te < h; Te++) for (var Ee = 0; Ee < h; Ee++) { var ye = Te * h + Ee; oe[Te] += d[ye] * ie[Ee]; } wf(oe), ge = ie, ie = oe, oe = ge; for (var ae = 0, xe = 0; xe < h; xe++) { var Ce = ge[xe] - ie[xe]; ae += Ce * Ce; } if (ae < n) break; } var Oe = { rank: function(He) { return He = o.collection(He)[0], ie[u.indexOf(He)]; } }; return Oe; } // pageRank }, As = Lt({ root: null, weight: function(e) { return 1; }, directed: !1, alpha: 0 }), ra = { degreeCentralityNormalized: function(e) { e = As(e); var r = this.cy(), a = this.nodes(), n = a.length; if (e.directed) { for (var f = {}, h = {}, c = 0, v = 0, d = 0; d < n; d++) { var g = a[d], y = g.id(); e.root = g; var p = this.degreeCentrality(e); c < p.indegree && (c = p.indegree), v < p.outdegree && (v = p.outdegree), f[y] = p.indegree, h[y] = p.outdegree; } return { indegree: function(b) { return c == 0 ? 0 : (ee(b) && (b = r.filter(b)), f[b.id()] / c); }, outdegree: function(b) { return v === 0 ? 0 : (ee(b) && (b = r.filter(b)), h[b.id()] / v); } }; } else { for (var i = {}, s = 0, o = 0; o < n; o++) { var l = a[o]; e.root = l; var u = this.degreeCentrality(e); s < u.degree && (s = u.degree), i[l.id()] = u.degree; } return { degree: function(b) { return s === 0 ? 0 : (ee(b) && (b = r.filter(b)), i[b.id()] / s); } }; } }, // degreeCentralityNormalized // Implemented from the algorithm in Opsahl's paper // "Node centrality in weighted networks: Generalizing degree and shortest paths" // check the heading 2 "Degree" degreeCentrality: function(e) { e = As(e); var r = this.cy(), a = this, n = e, i = n.root, s = n.weight, o = n.directed, l = n.alpha; if (i = r.collection(i)[0], o) { for (var v = i.connectedEdges(), d = v.filter(function(O) { return O.target().same(i) && a.has(O); }), g = v.filter(function(O) { return O.source().same(i) && a.has(O); }), y = d.length, p = g.length, m = 0, b = 0, E = 0; E < d.length; E++) m += s(d[E]); for (var M = 0; M < g.length; M++) b += s(g[M]); return { indegree: Math.pow(y, 1 - l) * Math.pow(m, l), outdegree: Math.pow(p, 1 - l) * Math.pow(b, l) }; } else { for (var u = i.connectedEdges().intersection(a), f = u.length, h = 0, c = 0; c < u.length; c++) h += s(u[c]); return { degree: Math.pow(f, 1 - l) * Math.pow(h, l) }; } } // degreeCentrality }; ra.dc = ra.degreeCentrality, ra.dcn = ra.degreeCentralityNormalised = ra.degreeCentralityNormalized; var Os = Lt({ harmonic: !0, weight: function() { return 1; }, directed: !1, root: null }), aa = { closenessCentralityNormalized: function(e) { for (var r = Os(e), a = r.harmonic, n = r.weight, i = r.directed, s = this.cy(), o = {}, l = 0, u = this.nodes(), f = this.floydWarshall({ weight: n, directed: i }), h = 0; h < u.length; h++) { for (var c = 0, v = u[h], d = 0; d < u.length; d++) if (h !== d) { var g = f.distance(v, u[d]); a ? c += 1 / g : c += g; } a || (c = 1 / c), l < c && (l = c), o[v.id()] = c; } return { closeness: function(p) { return l == 0 ? 0 : (ee(p) ? p = s.filter(p)[0].id() : p = p.id(), o[p] / l); } }; }, // Implemented from pseudocode from wikipedia closenessCentrality: function(e) { var r = Os(e), a = r.root, n = r.weight, i = r.directed, s = r.harmonic; a = this.filter(a)[0]; for (var o = this.dijkstra({ root: a, weight: n, directed: i }), l = 0, u = this.nodes(), f = 0; f < u.length; f++) { var h = u[f]; if (!h.same(a)) { var c = o.distanceTo(h); s ? l += 1 / c : l += c; } } return s ? l : 1 / l; } // closenessCentrality }; aa.cc = aa.closenessCentrality, aa.ccn = aa.closenessCentralityNormalised = aa.closenessCentralityNormalized; var $f = Lt({ weight: null, directed: !1 }), pi = { // Implemented from the algorithm in the paper "On Variants of Shortest-Path Betweenness Centrality and their Generic Computation" by Ulrik Brandes betweennessCentrality: function(e) { for (var r = $f(e), a = r.directed, n = r.weight, i = n != null, s = this.cy(), o = this.nodes(), l = {}, u = {}, f = 0, h = { set: function(b, E) { u[b] = E, E > f && (f = E); }, get: function(b) { return u[b]; } }, c = 0; c < o.length; c++) { var v = o[c], d = v.id(); a ? l[d] = v.outgoers().nodes() : l[d] = v.openNeighborhood().nodes(), h.set(d, 0); } for (var g = function(b) { for (var E = o[b].id(), M = [], O = {}, x = {}, I = {}, C = new Ra(function(Ee, ye) { return I[Ee] - I[ye]; }), B = 0; B < o.length; B++) { var F = o[B].id(); O[F] = [], x[F] = 0, I[F] = 1 / 0; } for (x[E] = 1, I[E] = 0, C.push(E); !C.empty(); ) { var R = C.pop(); if (M.push(R), i) for (var X = 0; X < l[R].length; X++) { var z = l[R][X], re = s.getElementById(R), W = void 0; re.edgesTo(z).length > 0 ? W = re.edgesTo(z)[0] : W = z.edgesTo(re)[0]; var Z = n(W); z = z.id(), I[z] > I[R] + Z && (I[z] = I[R] + Z, C.nodes.indexOf(z) < 0 ? C.push(z) : C.updateItem(z), x[z] = 0, O[z] = []), I[z] == I[R] + Z && (x[z] = x[z] + x[R], O[z].push(R)); } else for (var ie = 0; ie < l[R].length; ie++) { var oe = l[R][ie].id(); I[oe] == 1 / 0 && (C.push(oe), I[oe] = I[R] + 1), I[oe] == I[R] + 1 && (x[oe] = x[oe] + x[R], O[oe].push(R)); } } for (var ge = {}, se = 0; se < o.length; se++) ge[o[se].id()] = 0; for (; M.length > 0; ) { for (var de = M.pop(), we = 0; we < O[de].length; we++) { var Te = O[de][we]; ge[Te] = ge[Te] + x[Te] / x[de] * (1 + ge[de]); } de != o[b].id() && h.set(de, h.get(de) + ge[de]); } }, y = 0; y < o.length; y++) g(y); var p = { betweenness: function(b) { var E = s.collection(b).id(); return h.get(E); }, betweennessNormalized: function(b) { if (f == 0) return 0; var E = s.collection(b).id(); return h.get(E) / f; } }; return p.betweennessNormalised = p.betweennessNormalized, p; } // betweennessCentrality }; pi.bc = pi.betweennessCentrality; var Vf = Lt({ expandFactor: 2, // affects time of computation and cluster granularity to some extent: M * M inflateFactor: 2, // affects cluster granularity (the greater the value, the more clusters): M(i,j) / E(j) multFactor: 1, // optional self loops for each node. Use a neutral value to improve cluster computations. maxIterations: 20, // maximum number of iterations of the MCL algorithm in a single run attributes: [ // attributes/features used to group nodes, ie. similarity values between nodes function(t) { return 1; } ] }), _f = function(e) { return Vf(e); }, Uf = function(e, r) { for (var a = 0, n = 0; n < r.length; n++) a += r[n](e); return a; }, Yf = function(e, r, a) { for (var n = 0; n < r; n++) e[n * r + n] = a; }, Ns = function(e, r) { for (var a, n = 0; n < r; n++) { a = 0; for (var i = 0; i < r; i++) a += e[i * r + n]; for (var s = 0; s < r; s++) e[s * r + n] = e[s * r + n] / a; } }, Hf = function(e, r, a) { for (var n = new Array(a * a), i = 0; i < a; i++) { for (var s = 0; s < a; s++) n[i * a + s] = 0; for (var o = 0; o < a; o++) for (var l = 0; l < a; l++) n[i * a + l] += e[i * a + o] * r[o * a + l]; } return n; }, Xf = function(e, r, a) { for (var n = e.slice(0), i = 1; i < a; i++) e = Hf(e, n, r); return e; }, qf = function(e, r, a) { for (var n = new Array(r * r), i = 0; i < r * r; i++) n[i] = Math.pow(e[i], a); return Ns(n, r), n; }, Wf = function(e, r, a, n) { for (var i = 0; i < a; i++) { var s = Math.round(e[i] * Math.pow(10, n)) / Math.pow(10, n), o = Math.round(r[i] * Math.pow(10, n)) / Math.pow(10, n); if (s !== o) return !1; } return !0; }, Kf = function(e, r, a, n) { for (var i = [], s = 0; s < r; s++) { for (var o = [], l = 0; l < r; l++) Math.round(e[s * r + l] * 1e3) / 1e3 > 0 && o.push(a[l]); o.length !== 0 && i.push(n.collection(o)); } return i; }, Zf = function(e, r) { for (var a = 0; a < e.length; a++) if (!r[a] || e[a].id() !== r[a].id()) return !1; return !0; }, Qf = function(e) { for (var r = 0; r < e.length; r++) for (var a = 0; a < e.length; a++) r != a && Zf(e[r], e[a]) && e.splice(a, 1); return e; }, Ms = function(e) { for (var r = this.nodes(), a = this.edges(), n = this.cy(), i = _f(e), s = {}, o = 0; o < r.length; o++) s[r[o].id()] = o; for (var l = r.length, u = l * l, f = new Array(u), h, c = 0; c < u; c++) f[c] = 0; for (var v = 0; v < a.length; v++) { var d = a[v], g = s[d.source().id()], y = s[d.target().id()], p = Uf(d, i.attributes); f[g * l + y] += p, f[y * l + g] += p; } Yf(f, l, i.multFactor), Ns(f, l); for (var m = !0, b = 0; m && b < i.maxIterations; ) m = !1, h = Xf(f, l, i.expandFactor), f = qf(h, l, i.inflateFactor), Wf(f, h, u, 4) || (m = !0), b++; var E = Kf(f, l, r, n); return E = Qf(E), E; }, Jf = { markovClustering: Ms, mcl: Ms }, jf = function(e) { return e; }, Is = function(e, r) { return Math.abs(r - e); }, Rs = function(e, r, a) { return e + Is(r, a); }, ks = function(e, r, a) { return e + Math.pow(a - r, 2); }, eh = function(e) { return Math.sqrt(e); }, th = function(e, r, a) { return Math.max(e, Is(r, a)); }, za = function(e, r, a, n, i) { for (var s = arguments.length > 5 && arguments[5] !== void 0 ? arguments[5] : jf, o = n, l, u, f = 0; f < e; f++) l = r(f), u = a(f), o = i(o, l, u); return s(o); }, na = { euclidean: function(e, r, a) { return e >= 2 ? za(e, r, a, 0, ks, eh) : za(e, r, a, 0, Rs); }, squaredEuclidean: function(e, r, a) { return za(e, r, a, 0, ks); }, manhattan: function(e, r, a) { return za(e, r, a, 0, Rs); }, max: function(e, r, a) { return za(e, r, a, -1 / 0, th); } }; na["squared-euclidean"] = na.squaredEuclidean, na.squaredeuclidean = na.squaredEuclidean; function bn(t, e, r, a, n, i) { var s; return H(t) ? s = t : s = na[t] || na.euclidean, e === 0 && H(t) ? s(n, i) : s(e, r, a, n, i); } var rh = Lt({ k: 2, m: 2, sensitivityThreshold: 1e-4, distance: "euclidean", maxIterations: 10, attributes: [], testMode: !1, testCentroids: null }), yi = function(e) { return rh(e); }, En = function(e, r, a, n, i) { var s = i !== "kMedoids", o = s ? function(h) { return a[h]; } : function(h) { return n[h](a); }, l = function(c) { return n[c](r); }, u = a, f = r; return bn(e, n.length, o, l, u, f); }, mi = function(e, r, a) { for (var n = a.length, i = new Array(n), s = new Array(n), o = new Array(r), l = null, u = 0; u < n; u++) i[u] = e.min(a[u]).value, s[u] = e.max(a[u]).value; for (var f = 0; f < r; f++) { l = []; for (var h = 0; h < n; h++) l[h] = Math.random() * (s[h] - i[h]) + i[h]; o[f] = l; } return o; }, Ps = function(e, r, a, n, i) { for (var s = 1 / 0, o = 0, l = 0; l < r.length; l++) { var u = En(a, e, r[l], n, i); u < s && (s = u, o = l); } return o; }, Bs = function(e, r, a) { for (var n = [], i = null, s = 0; s < r.length; s++) i = r[s], a[i.id()] === e && n.push(i); return n; }, ah = function(e, r, a) { return Math.abs(r - e) <= a; }, nh = function(e, r, a) { for (var n = 0; n < e.length; n++) for (var i = 0; i < e[n].length; i++) { var s = Math.abs(e[n][i] - r[n][i]); if (s > a) return !1; } return !0; }, ih = function(e, r, a) { for (var n = 0; n < a; n++) if (e === r[n]) return !0; return !1; }, Fs = function(e, r) { var a = new Array(r); if (e.length < 50) for (var n = 0; n < r; n++) { for (var i = e[Math.floor(Math.random() * e.length)]; ih(i, a, n); ) i = e[Math.floor(Math.random() * e.length)]; a[n] = i; } else for (var s = 0; s < r; s++) a[s] = e[Math.floor(Math.random() * e.length)]; return a; }, zs = function(e, r, a) { for (var n = 0, i = 0; i < r.length; i++) n += En("manhattan", r[i], e, a, "kMedoids"); return n; }, sh = function(e) { var r = this.cy(), a = this.nodes(), n = null, i = yi(e), s = new Array(i.k), o = {}, l; i.testMode ? typeof i.testCentroids == "number" ? (i.testCentroids, l = mi(a, i.k, i.attributes)) : Q(i.testCentroids) === "object" ? l = i.testCentroids : l = mi(a, i.k, i.attributes) : l = mi(a, i.k, i.attributes); for (var u = !0, f = 0; u && f < i.maxIterations; ) { for (var h = 0; h < a.length; h++) n = a[h], o[n.id()] = Ps(n, l, i.distance, i.attributes, "kMeans"); u = !1; for (var c = 0; c < i.k; c++) { var v = Bs(c, a, o); if (v.length !== 0) { for (var d = i.attributes.length, g = l[c], y = new Array(d), p = new Array(d), m = 0; m < d; m++) { p[m] = 0; for (var b = 0; b < v.length; b++) n = v[b], p[m] += i.attributes[m](n); y[m] = p[m] / v.length, ah(y[m], g[m], i.sensitivityThreshold) || (u = !0); } l[c] = y, s[c] = r.collection(v); } } f++; } return s; }, oh = function(e) { var r = this.cy(), a = this.nodes(), n = null, i = yi(e), s = new Array(i.k), o, l = {}, u, f = new Array(i.k); i.testMode ? typeof i.testCentroids == "number" || (Q(i.testCentroids) === "object" ? o = i.testCentroids : o = Fs(a, i.k)) : o = Fs(a, i.k); for (var h = !0, c = 0; h && c < i.maxIterations; ) { for (var v = 0; v < a.length; v++) n = a[v], l[n.id()] = Ps(n, o, i.distance, i.attributes, "kMedoids"); h = !1; for (var d = 0; d < o.length; d++) { var g = Bs(d, a, l); if (g.length !== 0) { f[d] = zs(o[d], g, i.attributes); for (var y = 0; y < g.length; y++) u = zs(g[y], g, i.attributes), u < f[d] && (f[d] = u, o[d] = g[y], h = !0); s[d] = r.collection(g); } } c++; } return s; }, uh = function(e, r, a, n, i) { for (var s, o, l = 0; l < r.length; l++) for (var u = 0; u < e.length; u++) n[l][u] = Math.pow(a[l][u], i.m); for (var f = 0; f < e.length; f++) for (var h = 0; h < i.attributes.length; h++) { s = 0, o = 0; for (var c = 0; c < r.length; c++) s += n[c][f] * i.attributes[h](r[c]), o += n[c][f]; e[f][h] = s / o; } }, lh = function(e, r, a, n, i) { for (var s = 0; s < e.length; s++) r[s] = e[s].slice(); for (var o, l, u, f = 2 / (i.m - 1), h = 0; h < a.length; h++) for (var c = 0; c < n.length; c++) { o = 0; for (var v = 0; v < a.length; v++) l = En(i.distance, n[c], a[h], i.attributes, "cmeans"), u = En(i.distance, n[c], a[v], i.attributes, "cmeans"), o += Math.pow(l / u, f); e[c][h] = 1 / o; } }, fh = function(e, r, a, n) { for (var i = new Array(a.k), s = 0; s < i.length; s++) i[s] = []; for (var o, l, u = 0; u < r.length; u++) { o = -1 / 0, l = -1; for (var f = 0; f < r[0].length; f++) r[u][f] > o && (o = r[u][f], l = f); i[l].push(e[u]); } for (var h = 0; h < i.length; h++) i[h] = n.collection(i[h]); return i; }, Gs = function(e) { var r = this.cy(), a = this.nodes(), n = yi(e), i, s, o, l, u; l = new Array(a.length); for (var f = 0; f < a.length; f++) l[f] = new Array(n.k); o = new Array(a.length); for (var h = 0; h < a.length; h++) o[h] = new Array(n.k); for (var c = 0; c < a.length; c++) { for (var v = 0, d = 0; d < n.k; d++) o[c][d] = Math.random(), v += o[c][d]; for (var g = 0; g < n.k; g++) o[c][g] = o[c][g] / v; } s = new Array(n.k); for (var y = 0; y < n.k; y++) s[y] = new Array(n.attributes.length); u = new Array(a.length); for (var p = 0; p < a.length; p++) u[p] = new Array(n.k); for (var m = !0, b = 0; m && b < n.maxIterations; ) m = !1, uh(s, a, o, u, n), lh(o, l, s, a, n), nh(o, l, n.sensitivityThreshold) || (m = !0), b++; return i = fh(a, o, n, r), { clusters: i, degreeOfMembership: o }; }, hh = { kMeans: sh, kMedoids: oh, fuzzyCMeans: Gs, fcm: Gs }, ch = Lt({ distance: "euclidean", // distance metric to compare nodes linkage: "min", // linkage criterion : how to determine the distance between clusters of nodes mode: "threshold", // mode:'threshold' => clusters must be threshold distance apart threshold: 1 / 0, // the distance threshold // mode:'dendrogram' => the nodes are organised as leaves in a tree (siblings are close), merging makes clusters addDendrogram: !1, // whether to add the dendrogram to the graph for viz dendrogramDepth: 0, // depth at which dendrogram branches are merged into the returned clusters attributes: [] // array of attr functions }), vh = { single: "min", complete: "max" }, dh = function(e) { var r = ch(e), a = vh[r.linkage]; return a != null && (r.linkage = a), r; }, $s = function(e, r, a, n, i) { for (var s = 0, o = 1 / 0, l, u = i.attributes, f = function(C, B) { return bn(i.distance, u.length, function(F) { return u[F](C); }, function(F) { return u[F](B); }, C, B); }, h = 0; h < e.length; h++) { var c = e[h].key, v = a[c][n[c]]; v < o && (s = c, o = v); } if (i.mode === "threshold" && o >= i.threshold || i.mode === "dendrogram" && e.length === 1) return !1; var d = r[s], g = r[n[s]], y; i.mode === "dendrogram" ? y = { left: d, right: g, key: d.key } : y = { value: d.value.concat(g.value), key: d.key }, e[d.index] = y, e.splice(g.index, 1), r[d.key] = y; for (var p = 0; p < e.length; p++) { var m = e[p]; d.key === m.key ? l = 1 / 0 : i.linkage === "min" ? (l = a[d.key][m.key], a[d.key][m.key] > a[g.key][m.key] && (l = a[g.key][m.key])) : i.linkage === "max" ? (l = a[d.key][m.key], a[d.key][m.key] < a[g.key][m.key] && (l = a[g.key][m.key])) : i.linkage === "mean" ? l = (a[d.key][m.key] * d.size + a[g.key][m.key] * g.size) / (d.size + g.size) : i.mode === "dendrogram" ? l = f(m.value, d.value) : l = f(m.value[0], d.value[0]), a[d.key][m.key] = a[m.key][d.key] = l; } for (var b = 0; b < e.length; b++) { var E = e[b].key; if (n[E] === d.key || n[E] === g.key) { for (var M = E, O = 0; O < e.length; O++) { var x = e[O].key; a[E][x] < a[E][M] && (M = x); } n[E] = M; } e[b].index = b; } return d.key = g.key = d.index = g.index = null, !0; }, wn = function t(e, r, a) { e && (e.value ? r.push(e.value) : (e.left && t(e.left, r), e.right && t(e.right, r))); }, gh = function t(e, r) { if (!e) return ""; if (e.left && e.right) { var a = t(e.left, r), n = t(e.right, r), i = r.add({ group: "nodes", data: { id: a + "," + n } }); return r.add({ group: "edges", data: { source: a, target: i.id() } }), r.add({ group: "edges", data: { source: n, target: i.id() } }), i.id(); } else if (e.value) return e.value.id(); }, ph = function t(e, r, a) { if (!e) return []; var n = [], i = [], s = []; return r === 0 ? (e.left && wn(e.left, n), e.right && wn(e.right, i), s = n.concat(i), [a.collection(s)]) : r === 1 ? e.value ? [a.collection(e.value)] : (e.left && wn(e.left, n), e.right && wn(e.right, i), [a.collection(n), a.collection(i)]) : e.value ? [a.collection(e.value)] : (e.left && (n = t(e.left, r - 1, a)), e.right && (i = t(e.right, r - 1, a)), n.concat(i)); }, Vs = function(e) { for (var r = this.cy(), a = this.nodes(), n = dh(e), i = n.attributes, s = function(b, E) { return bn(n.distance, i.length, function(M) { return i[M](b); }, function(M) { return i[M](E); }, b, E); }, o = [], l = [], u = [], f = [], h = 0; h < a.length; h++) { var c = { value: n.mode === "dendrogram" ? a[h] : [a[h]], key: h, index: h }; o[h] = c, f[h] = c, l[h] = [], u[h] = 0; } for (var v = 0; v < o.length; v++) for (var d = 0; d <= v; d++) { var g = void 0; n.mode === "dendrogram" ? g = v === d ? 1 / 0 : s(o[v].value, o[d].value) : g = v === d ? 1 / 0 : s(o[v].value[0], o[d].value[0]), l[v][d] = g, l[d][v] = g, g < l[v][u[v]] && (u[v] = d); } for (var y = $s(o, f, l, u, n); y; ) y = $s(o, f, l, u, n); var p; return n.mode === "dendrogram" ? (p = ph(o[0], n.dendrogramDepth, r), n.addDendrogram && gh(o[0], r)) : (p = new Array(o.length), o.forEach(function(m, b) { m.key = m.index = null, p[b] = r.collection(m.value); })), p; }, yh = { hierarchicalClustering: Vs, hca: Vs }, mh = Lt({ distance: "euclidean", // distance metric to compare attributes between two nodes preference: "median", // suitability of a data point to serve as an exemplar damping: 0.8, // damping factor between [0.5, 1) maxIterations: 1e3, // max number of iterations to run minIterations: 100, // min number of iterations to run in order for clustering to stop attributes: [ // functions to quantify the similarity between any two points // e.g. node => node.data('weight') ] }), bh = function(e) { var r = e.damping, a = e.preference; 0.5 <= r && r < 1 || xt("Damping must range on [0.5, 1). Got: ".concat(r)); var n = ["median", "mean", "min", "max"]; return n.some(function(i) { return i === a; }) || k(a) || xt("Preference must be one of [".concat(n.map(function(i) { return "'".concat(i, "'"); }).join(", "), "] or a number. Got: ").concat(a)), mh(e); }, Eh = function(e, r, a, n) { var i = function(o, l) { return n[l](o); }; return -bn(e, n.length, function(s) { return i(r, s); }, function(s) { return i(a, s); }, r, a); }, wh = function(e, r) { var a = null; return r === "median" ? a = bf(e) : r === "mean" ? a = mf(e) : r === "min" ? a = pf(e) : r === "max" ? a = yf(e) : a = r, a; }, xh = function(e, r, a) { for (var n = [], i = 0; i < e; i++) r[i * e + i] + a[i * e + i] > 0 && n.push(i); return n; }, _s = function(e, r, a) { for (var n = [], i = 0; i < e; i++) { for (var s = -1, o = -1 / 0, l = 0; l < a.length; l++) { var u = a[l]; r[i * e + u] > o && (s = u, o = r[i * e + u]); } s > 0 && n.push(s); } for (var f = 0; f < a.length; f++) n[a[f]] = a[f]; return n; }, Th = function(e, r, a) { for (var n = _s(e, r, a), i = 0; i < a.length; i++) { for (var s = [], o = 0; o < n.length; o++) n[o] === a[i] && s.push(o); for (var l = -1, u = -1 / 0, f = 0; f < s.length; f++) { for (var h = 0, c = 0; c < s.length; c++) h += r[s[c] * e + s[f]]; h > u && (l = f, u = h); } a[i] = s[l]; } return n = _s(e, r, a), n; }, Us = function(e) { for (var r = this.cy(), a = this.nodes(), n = bh(e), i = {}, s = 0; s < a.length; s++) i[a[s].id()] = s; var o, l, u, f, h, c; o = a.length, l = o * o, u = new Array(l); for (var v = 0; v < l; v++) u[v] = -1 / 0; for (var d = 0; d < o; d++) for (var g = 0; g < o; g++) d !== g && (u[d * o + g] = Eh(n.distance, a[d], a[g], n.attributes)); f = wh(u, n.preference); for (var y = 0; y < o; y++) u[y * o + y] = f; h = new Array(l); for (var p = 0; p < l; p++) h[p] = 0; c = new Array(l); for (var m = 0; m < l; m++) c[m] = 0; for (var b = new Array(o), E = new Array(o), M = new Array(o), O = 0; O < o; O++) b[O] = 0, E[O] = 0, M[O] = 0; for (var x = new Array(o * n.minIterations), I = 0; I < x.length; I++) x[I] = 0; var C; for (C = 0; C < n.maxIterations; C++) { for (var B = 0; B < o; B++) { for (var F = -1 / 0, R = -1 / 0, X = -1, z = 0, re = 0; re < o; re++) b[re] = h[B * o + re], z = c[B * o + re] + u[B * o + re], z >= F ? (R = F, F = z, X = re) : z > R && (R = z); for (var W = 0; W < o; W++) h[B * o + W] = (1 - n.damping) * (u[B * o + W] - F) + n.damping * b[W]; h[B * o + X] = (1 - n.damping) * (u[B * o + X] - R) + n.damping * b[X]; } for (var Z = 0; Z < o; Z++) { for (var ie = 0, oe = 0; oe < o; oe++) b[oe] = c[oe * o + Z], E[oe] = Math.max(0, h[oe * o + Z]), ie += E[oe]; ie -= E[Z], E[Z] = h[Z * o + Z], ie += E[Z]; for (var ge = 0; ge < o; ge++) c[ge * o + Z] = (1 - n.damping) * Math.min(0, ie - E[ge]) + n.damping * b[ge]; c[Z * o + Z] = (1 - n.damping) * (ie - E[Z]) + n.damping * b[Z]; } for (var se = 0, de = 0; de < o; de++) { var we = c[de * o + de] + h[de * o + de] > 0 ? 1 : 0; x[C % n.minIterations * o + de] = we, se += we; } if (se > 0 && (C >= n.minIterations - 1 || C == n.maxIterations - 1)) { for (var Te = 0, Ee = 0; Ee < o; Ee++) { M[Ee] = 0; for (var ye = 0; ye < n.minIterations; ye++) M[Ee] += x[ye * o + Ee]; (M[Ee] === 0 || M[Ee] === n.minIterations) && Te++; } if (Te === o) break; } } for (var ae = xh(o, h, c), xe = Th(o, u, ae), Ce = {}, Oe = 0; Oe < ae.length; Oe++) Ce[ae[Oe]] = []; for (var Ie = 0; Ie < a.length; Ie++) { var He = i[a[Ie].id()], qe = xe[He]; qe != null && Ce[qe].push(a[Ie]); } for (var Re = new Array(ae.length), Me = 0; Me < ae.length; Me++) Re[Me] = r.collection(Ce[ae[Me]]); return Re; }, Ch = { affinityPropagation: Us, ap: Us }, Dh = Lt({ root: void 0, directed: !1 }), Sh = { hierholzer: function(e) { if (!S(e)) { var r = arguments; e = { root: r[0], directed: r[1] }; } var a = Dh(e), n = a.root, i = a.directed, s = this, o = !1, l, u, f; n && (f = ee(n) ? this.filter(n)[0].id() : n[0].id()); var h = {}, c = {}; i ? s.forEach(function(m) { var b = m.id(); if (m.isNode()) { var E = m.indegree(!0), M = m.outdegree(!0), O = E - M, x = M - E; O == 1 ? l ? o = !0 : l = b : x == 1 ? u ? o = !0 : u = b : (x > 1 || O > 1) && (o = !0), h[b] = [], m.outgoers().forEach(function(I) { I.isEdge() && h[b].push(I.id()); }); } else c[b] = [void 0, m.target().id()]; }) : s.forEach(function(m) { var b = m.id(); if (m.isNode()) { var E = m.degree(!0); E % 2 && (l ? u ? o = !0 : u = b : l = b), h[b] = [], m.connectedEdges().forEach(function(M) { return h[b].push(M.id()); }); } else c[b] = [m.source().id(), m.target().id()]; }); var v = { found: !1, trail: void 0 }; if (o) return v; if (u && l) if (i) { if (f && u != f) return v; f = u; } else { if (f && u != f && l != f) return v; f || (f = u); } else f || (f = s[0].id()); var d = function(b) { for (var E = b, M = [b], O, x, I; h[E].length; ) O = h[E].shift(), x = c[O][0], I = c[O][1], E != I ? (h[I] = h[I].filter(function(C) { return C != O; }), E = I) : !i && E != x && (h[x] = h[x].filter(function(C) { return C != O; }), E = x), M.unshift(O), M.unshift(E); return M; }, g = [], y = []; for (y = d(f); y.length != 1; ) h[y[0]].length == 0 ? (g.unshift(s.getElementById(y.shift())), g.unshift(s.getElementById(y.shift()))) : y = d(y.shift()).concat(y); g.unshift(s.getElementById(y.shift())); for (var p in h) if (h[p].length) return v; return v.found = !0, v.trail = this.spawn(g, !0), v; } }, xn = function() { var e = this, r = {}, a = 0, n = 0, i = [], s = [], o = {}, l = function(c, v) { for (var d = s.length - 1, g = [], y = e.spawn(); s[d].x != c || s[d].y != v; ) g.push(s.pop().edge), d--; g.push(s.pop().edge), g.forEach(function(p) { var m = p.connectedNodes().intersection(e); y.merge(p), m.forEach(function(b) { var E = b.id(), M = b.connectedEdges().intersection(e); y.merge(b), r[E].cutVertex ? y.merge(M.filter(function(O) { return O.isLoop(); })) : y.merge(M); }); }), i.push(y); }, u = function h(c, v, d) { c === d && (n += 1), r[v] = { id: a, low: a++, cutVertex: !1 }; var g = e.getElementById(v).connectedEdges().intersection(e); if (g.size() === 0) i.push(e.spawn(e.getElementById(v))); else { var y, p, m, b; g.forEach(function(E) { y = E.source().id(), p = E.target().id(), m = y === v ? p : y, m !== d && (b = E.id(), o[b] || (o[b] = !0, s.push({ x: v, y: m, edge: E })), m in r ? r[v].low = Math.min(r[v].low, r[m].id) : (h(c, m, v), r[v].low = Math.min(r[v].low, r[m].low), r[v].id <= r[m].low && (r[v].cutVertex = !0, l(v, m)))); }); } }; e.forEach(function(h) { if (h.isNode()) { var c = h.id(); c in r || (n = 0, u(c, c), r[c].cutVertex = n > 1); } }); var f = Object.keys(r).filter(function(h) { return r[h].cutVertex; }).map(function(h) { return e.getElementById(h); }); return { cut: e.spawn(f), components: i }; }, Lh = { hopcroftTarjanBiconnected: xn, htbc: xn, htb: xn, hopcroftTarjanBiconnectedComponents: xn }, Tn = function() { var e = this, r = {}, a = 0, n = [], i = [], s = e.spawn(e), o = function l(u) { i.push(u), r[u] = { index: a, low: a++, explored: !1 }; var f = e.getElementById(u).connectedEdges().intersection(e); if (f.forEach(function(g) { var y = g.target().id(); y !== u && (y in r || l(y), r[y].explored || (r[u].low = Math.min(r[u].low, r[y].low))); }), r[u].index === r[u].low) { for (var h = e.spawn(); ; ) { var c = i.pop(); if (h.merge(e.getElementById(c)), r[c].low = r[u].index, r[c].explored = !0, c === u) break; } var v = h.edgesWith(h), d = h.merge(v); n.push(d), s = s.difference(d); } }; return e.forEach(function(l) { if (l.isNode()) { var u = l.id(); u in r || o(u); } }), { cut: s, components: n }; }, Ah = { tarjanStronglyConnected: Tn, tsc: Tn, tscc: Tn, tarjanStronglyConnectedComponents: Tn }, Ys = {}; [Ia, af, nf, of, lf, hf, df, Gf, ra, aa, pi, Jf, hh, yh, Ch, Sh, Lh, Ah].forEach(function(t) { Ue(Ys, t); }); /*! Embeddable Minimum Strictly-Compliant Promises/A+ 1.1.1 Thenable Copyright (c) 2013-2014 Ralf S. Engelschall (http://engelschall.com) Licensed under The MIT License (http://opensource.org/licenses/MIT) */ var Hs = 0, Xs = 1, qs = 2, pr = function t(e) { if (!(this instanceof t)) return new t(e); this.id = "Thenable/1.0.7", this.state = Hs, this.fulfillValue = void 0, this.rejectReason = void 0, this.onFulfilled = [], this.onRejected = [], this.proxy = { then: this.then.bind(this) }, typeof e == "function" && e.call(this, this.fulfill.bind(this), this.reject.bind(this)); }; pr.prototype = { /* promise resolving methods */ fulfill: function(e) { return Ws(this, Xs, "fulfillValue", e); }, reject: function(e) { return Ws(this, qs, "rejectReason", e); }, /* "The then Method" [Promises/A+ 1.1, 1.2, 2.2] */ then: function(e, r) { var a = this, n = new pr(); return a.onFulfilled.push(Qs(e, n, "fulfill")), a.onRejected.push(Qs(r, n, "reject")), Ks(a), n.proxy; } }; var Ws = function(e, r, a, n) { return e.state === Hs && (e.state = r, e[a] = n, Ks(e)), e; }, Ks = function(e) { e.state === Xs ? Zs(e, "onFulfilled", e.fulfillValue) : e.state === qs && Zs(e, "onRejected", e.rejectReason); }, Zs = function(e, r, a) { if (e[r].length !== 0) { var n = e[r]; e[r] = []; var i = function() { for (var o = 0; o < n.length; o++) n[o](a); }; typeof setImmediate == "function" ? setImmediate(i) : setTimeout(i, 0); } }, Qs = function(e, r, a) { return function(n) { if (typeof e != "function") r[a].call(r, n); else { var i; try { i = e(n); } catch (s) { r.reject(s); return; } Oh(r, i); } }; }, Oh = function t(e, r) { if (e === r || e.proxy === r) { e.reject(new TypeError("cannot resolve promise with itself")); return; } var a; if (Q(r) === "object" && r !== null || typeof r == "function") try { a = r.then; } catch (i) { e.reject(i); return; } if (typeof a == "function") { var n = !1; try { a.call( r, /* resolvePromise */ /* [Promises/A+ 2.3.3.3.1] */ function(i) { n || (n = !0, i === r ? e.reject(new TypeError("circular thenable chain")) : t(e, i)); }, /* rejectPromise */ /* [Promises/A+ 2.3.3.3.2] */ function(i) { n || (n = !0, e.reject(i)); } ); } catch (i) { n || e.reject(i); } return; } e.fulfill(r); }; pr.all = function(t) { return new pr(function(e, r) { for (var a = new Array(t.length), n = 0, i = function(l, u) { a[l] = u, n++, n === t.length && e(a); }, s = 0; s < t.length; s++) (function(o) { var l = t[o], u = l != null && l.then != null; if (u) l.then(function(h) { i(o, h); }, function(h) { r(h); }); else { var f = l; i(o, f); } })(s); }); }, pr.resolve = function(t) { return new pr(function(e, r) { e(t); }); }, pr.reject = function(t) { return new pr(function(e, r) { r(t); }); }; var ia = typeof Promise < "u" ? Promise : pr, bi = function(e, r, a) { var n = _e(e), i = !n, s = this._private = Ue({ duration: 1e3 }, r, a); if (s.target = e, s.style = s.style || s.css, s.started = !1, s.playing = !1, s.hooked = !1, s.applying = !1, s.progress = 0, s.completes = [], s.frames = [], s.complete && H(s.complete) && s.completes.push(s.complete), i) { var o = e.position(); s.startPosition = s.startPosition || { x: o.x, y: o.y }, s.startStyle = s.startStyle || e.cy().style().getAnimationStartStyle(e, s.style); } if (n) { var l = e.pan(); s.startPan = { x: l.x, y: l.y }, s.startZoom = e.zoom(); } this.length = 1, this[0] = this; }, zr = bi.prototype; Ue(zr, { instanceString: function() { return "animation"; }, hook: function() { var e = this._private; if (!e.hooked) { var r, a = e.target._private.animation; e.queue ? r = a.queue : r = a.current, r.push(this), pe(e.target) && e.target.cy().addToAnimationPool(e.target), e.hooked = !0; } return this; }, play: function() { var e = this._private; return e.progress === 1 && (e.progress = 0), e.playing = !0, e.started = !1, e.stopped = !1, this.hook(), this; }, playing: function() { return this._private.playing; }, apply: function() { var e = this._private; return e.applying = !0, e.started = !1, e.stopped = !1, this.hook(), this; }, applying: function() { return this._private.applying; }, pause: function() { var e = this._private; return e.playing = !1, e.started = !1, this; }, stop: function() { var e = this._private; return e.playing = !1, e.started = !1, e.stopped = !0, this; }, rewind: function() { return this.progress(0); }, fastforward: function() { return this.progress(1); }, time: function(e) { var r = this._private; return e === void 0 ? r.progress * r.duration : this.progress(e / r.duration); }, progress: function(e) { var r = this._private, a = r.playing; return e === void 0 ? r.progress : (a && this.pause(), r.progress = e, r.started = !1, a && this.play(), this); }, completed: function() { return this._private.progress === 1; }, reverse: function() { var e = this._private, r = e.playing; r && this.pause(), e.progress = 1 - e.progress, e.started = !1; var a = function(u, f) { var h = e[u]; h != null && (e[u] = e[f], e[f] = h); }; if (a("zoom", "startZoom"), a("pan", "startPan"), a("position", "startPosition"), e.style) for (var n = 0; n < e.style.length; n++) { var i = e.style[n], s = i.name, o = e.startStyle[s]; e.startStyle[s] = i, e.style[n] = o; } return r && this.play(), this; }, promise: function(e) { var r = this._private, a; switch (e) { case "frame": a = r.frames; break; default: case "complete": case "completed": a = r.completes; } return new ia(function(n, i) { a.push(function() { n(); }); }); } }), zr.complete = zr.completed, zr.run = zr.play, zr.running = zr.playing; var Nh = { animated: function() { return function() { var r = this, a = r.length !== void 0, n = a ? r : [r], i = this._private.cy || this; if (!i.styleEnabled()) return !1; var s = n[0]; if (s) return s._private.animation.current.length > 0; }; }, // animated clearQueue: function() { return function() { var r = this, a = r.length !== void 0, n = a ? r : [r], i = this._private.cy || this; if (!i.styleEnabled()) return this; for (var s = 0; s < n.length; s++) { var o = n[s]; o._private.animation.queue = []; } return this; }; }, // clearQueue delay: function() { return function(r, a) { var n = this._private.cy || this; return n.styleEnabled() ? this.animate({ delay: r, duration: r, complete: a }) : this; }; }, // delay delayAnimation: function() { return function(r, a) { var n = this._private.cy || this; return n.styleEnabled() ? this.animation({ delay: r, duration: r, complete: a }) : this; }; }, // delay animation: function() { return function(r, a) { var n = this, i = n.length !== void 0, s = i ? n : [n], o = this._private.cy || this, l = !i, u = !l; if (!o.styleEnabled()) return this; var f = o.style(); r = Ue({}, r, a); var h = Object.keys(r).length === 0; if (h) return new bi(s[0], r); switch (r.duration === void 0 && (r.duration = 400), r.duration) { case "slow": r.duration = 600; break; case "fast": r.duration = 200; break; } if (u && (r.style = f.getPropsList(r.style || r.css), r.css = void 0), u && r.renderedPosition != null) { var c = r.renderedPosition, v = o.pan(), d = o.zoom(); r.position = bs(c, d, v); } if (l && r.panBy != null) { var g = r.panBy, y = o.pan(); r.pan = { x: y.x + g.x, y: y.y + g.y }; } var p = r.center || r.centre; if (l && p != null) { var m = o.getCenterPan(p.eles, r.zoom); m != null && (r.pan = m); } if (l && r.fit != null) { var b = r.fit, E = o.getFitViewport(b.eles || b.boundingBox, b.padding); E != null && (r.pan = E.pan, r.zoom = E.zoom); } if (l && S(r.zoom)) { var M = o.getZoomedViewport(r.zoom); M != null ? (M.zoomed && (r.zoom = M.zoom), M.panned && (r.pan = M.pan)) : r.zoom = null; } return new bi(s[0], r); }; }, // animate animate: function() { return function(r, a) { var n = this, i = n.length !== void 0, s = i ? n : [n], o = this._private.cy || this; if (!o.styleEnabled()) return this; a && (r = Ue({}, r, a)); for (var l = 0; l < s.length; l++) { var u = s[l], f = u.animated() && (r.queue === void 0 || r.queue), h = u.animation(r, f ? { queue: !0 } : void 0); h.play(); } return this; }; }, // animate stop: function() { return function(r, a) { var n = this, i = n.length !== void 0, s = i ? n : [n], o = this._private.cy || this; if (!o.styleEnabled()) return this; for (var l = 0; l < s.length; l++) { for (var u = s[l], f = u._private, h = f.animation.current, c = 0; c < h.length; c++) { var v = h[c], d = v._private; a && (d.duration = 0); } r && (f.animation.queue = []), a || (f.animation.current = []); } return o.notify("draw"), this; }; } // stop }, Mh = Array.isArray, Cn = Mh, Ih = /\.|\[(?:[^[\]]*|(["'])(?:(?!\1)[^\\]|\\.)*?\1)\]/, Rh = /^\w*$/; function kh(t, e) { if (Cn(t)) return !1; var r = typeof t; return r == "number" || r == "symbol" || r == "boolean" || t == null || Aa(t) ? !0 : Rh.test(t) || !Ih.test(t) || e != null && t in Object(e); } var Ph = kh, Bh = "[object AsyncFunction]", Fh = "[object Function]", zh = "[object GeneratorFunction]", Gh = "[object Proxy]"; function $h(t) { if (!Rr(t)) return !1; var e = is(t); return e == Fh || e == zh || e == Bh || e == Gh; } var Vh = $h, _h = ln["__core-js_shared__"], Ei = _h, Js = function() { var t = /[^.]+$/.exec(Ei && Ei.keys && Ei.keys.IE_PROTO || ""); return t ? 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Ga(null) : {}, this.size = 0; } var lc = uc; function fc(t) { var e = this.has(t) && delete this.__data__[t]; return this.size -= e ? 1 : 0, e; } var hc = fc, cc = "__lodash_hash_undefined__", vc = Object.prototype, dc = vc.hasOwnProperty; function gc(t) { var e = this.__data__; if (Ga) { var r = e[t]; return r === cc ? void 0 : r; } return dc.call(e, t) ? e[t] : void 0; } var pc = gc, yc = Object.prototype, mc = yc.hasOwnProperty; function bc(t) { var e = this.__data__; return Ga ? e[t] !== void 0 : mc.call(e, t); } var Ec = bc, wc = "__lodash_hash_undefined__"; function xc(t, e) { var r = this.__data__; return this.size += this.has(t) ? 0 : 1, r[t] = Ga && e === void 0 ? wc : e, this; } var Tc = xc; function sa(t) { var e = -1, r = t == null ? 0 : t.length; for (this.clear(); ++e < r; ) { var a = t[e]; this.set(a[0], a[1]); } } sa.prototype.clear = lc, sa.prototype.delete = hc, sa.prototype.get = pc, sa.prototype.has = Ec, sa.prototype.set = Tc; var js = sa; function Cc() { this.__data__ = [], this.size = 0; } var Dc = Cc; function Sc(t, e) { return t === e || t !== t && e !== e; } var eo = Sc; function Lc(t, e) { for (var r = t.length; r--; ) if (eo(t[r][0], e)) return r; return -1; } var Dn = Lc, Ac = Array.prototype, Oc = Ac.splice; function Nc(t) { var e = this.__data__, r = Dn(e, t); if (r < 0) return !1; var a = e.length - 1; return r == a ? e.pop() : Oc.call(e, r, 1), --this.size, !0; } var Mc = Nc; function Ic(t) { var e = this.__data__, r = Dn(e, t); return r < 0 ? void 0 : e[r][1]; } var Rc = Ic; function kc(t) { return Dn(this.__data__, t) > -1; } var Pc = kc; function Bc(t, e) { var r = this.__data__, a = Dn(r, t); return a < 0 ? (++this.size, r.push([t, e])) : r[a][1] = e, this; } var Fc = Bc; function oa(t) { var e = -1, r = t == null ? 0 : t.length; for (this.clear(); ++e < r; ) { var a = t[e]; this.set(a[0], a[1]); } } oa.prototype.clear = Dc, oa.prototype.delete = Mc, oa.prototype.get = Rc, oa.prototype.has = Pc, oa.prototype.set = Fc; var zc = oa, Gc = wi(ln, "Map"), $c = Gc; function Vc() { this.size = 0, this.__data__ = { hash: new js(), map: new ($c || zc)(), string: new js() }; } var _c = Vc; function Uc(t) { var e = typeof t; return e == "string" || e == "number" || e == "symbol" || e == "boolean" ? t !== "__proto__" : t === null; } var Yc = Uc; function Hc(t, e) { var r = t.__data__; return Yc(e) ? r[typeof e == "string" ? "string" : "hash"] : r.map; } var Sn = Hc; function Xc(t) { var e = Sn(this, t).delete(t); return this.size -= e ? 1 : 0, e; } var qc = Xc; function Wc(t) { return Sn(this, t).get(t); } var Kc = Wc; function Zc(t) { return Sn(this, t).has(t); } var Qc = Zc; function Jc(t, e) { var r = Sn(this, t), a = r.size; return r.set(t, e), this.size += r.size == a ? 0 : 1, this; } var jc = Jc; function ua(t) { var e = -1, r = t == null ? 0 : t.length; for (this.clear(); ++e < r; ) { var a = t[e]; this.set(a[0], a[1]); } } ua.prototype.clear = _c, ua.prototype.delete = qc, ua.prototype.get = Kc, ua.prototype.has = Qc, ua.prototype.set = jc; var to = ua, ev = "Expected a function"; function xi(t, e) { if (typeof t != "function" || e != null && typeof e != "function") throw new TypeError(ev); var r = function() { var a = arguments, n = e ? e.apply(this, a) : a[0], i = r.cache; if (i.has(n)) return i.get(n); var s = t.apply(this, a); return r.cache = i.set(n, s) || i, s; }; return r.cache = new (xi.Cache || to)(), r; } xi.Cache = to; var tv = xi, rv = 500; function av(t) { var e = tv(t, function(a) { return r.size === rv && r.clear(), a; }), r = e.cache; return e; } var nv = av, iv = /[^.[\]]+|\[(?:(-?\d+(?:\.\d+)?)|(["'])((?:(?!\2)[^\\]|\\.)*?)\2)\]|(?=(?:\.|\[\])(?:\.|\[\]|$))/g, sv = /\\(\\)?/g, ov = nv(function(t) { var e = []; return t.charCodeAt(0) === 46 && e.push(""), t.replace(iv, function(r, a, n, i) { e.push(n ? i.replace(sv, "$1") : a || r); }), e; }), ro = ov; function uv(t, e) { for (var r = -1, a = t == null ? 0 : t.length, n = Array(a); ++r < a; ) n[r] = e(t[r], r, t); return n; } var ao = uv, lv = 1 / 0, no = Zr ? Zr.prototype : void 0, io = no ? no.toString : void 0; function so(t) { if (typeof t == "string") return t; if (Cn(t)) return ao(t, so) + ""; if (Aa(t)) return io ? io.call(t) : ""; var e = t + ""; return e == "0" && 1 / t == -lv ? "-0" : e; } var fv = so; function hv(t) { return t == null ? "" : fv(t); } var oo = hv; function cv(t, e) { return Cn(t) ? t : Ph(t, e) ? [t] : ro(oo(t)); } var uo = cv, vv = 1 / 0; function dv(t) { if (typeof t == "string" || Aa(t)) return t; var e = t + ""; return e == "0" && 1 / t == -vv ? "-0" : e; } var Ti = dv; function gv(t, e) { e = uo(e, t); for (var r = 0, a = e.length; t != null && r < a; ) t = t[Ti(e[r++])]; return r && r == a ? t : void 0; } var pv = gv; function yv(t, e, r) { var a = t == null ? void 0 : pv(t, e); return a === void 0 ? r : a; } var mv = yv, bv = function() { try { var t = wi(Object, "defineProperty"); return t({}, "", {}), t; } catch { } }(), lo = bv; function Ev(t, e, r) { e == "__proto__" && lo ? lo(t, e, { configurable: !0, enumerable: !0, value: r, writable: !0 }) : t[e] = r; } var wv = Ev, xv = Object.prototype, Tv = xv.hasOwnProperty; function Cv(t, e, r) { var a = t[e]; (!(Tv.call(t, e) && eo(a, r)) || r === void 0 && !(e in t)) && wv(t, e, r); } var Dv = Cv, Sv = 9007199254740991, Lv = /^(?:0|[1-9]\d*)$/; function Av(t, e) { var r = typeof t; return e = e ?? Sv, !!e && (r == "number" || r != "symbol" && Lv.test(t)) && t > -1 && t % 1 == 0 && t < e; } var Ov = Av; function Nv(t, e, r, a) { if (!Rr(t)) return t; e = uo(e, t); for (var n = -1, i = e.length, s = i - 1, o = t; o != null && ++n < i; ) { var l = Ti(e[n]), u = r; if (l === "__proto__" || l === "constructor" || l === "prototype") return t; if (n != s) { var f = o[l]; u = a ? a(f, l, o) : void 0, u === void 0 && (u = Rr(f) ? f : Ov(e[n + 1]) ? [] : {}); } Dv(o, l, u), o = o[l]; } return t; } var Mv = Nv; function Iv(t, e, r) { return t == null ? t : Mv(t, e, r); } var Rv = Iv; function kv(t, e) { var r = -1, a = t.length; for (e || (e = Array(a)); ++r < a; ) e[r] = t[r]; return e; } var Pv = kv; function Bv(t) { return Cn(t) ? ao(t, Ti) : Aa(t) ? [t] : Pv(ro(oo(t))); } var Fv = Bv, zv = { // access data field data: function(e) { var r = { field: "data", bindingEvent: "data", allowBinding: !1, allowSetting: !1, allowGetting: !1, settingEvent: "data", settingTriggersEvent: !1, triggerFnName: "trigger", immutableKeys: {}, // key => true if immutable updateStyle: !1, beforeGet: function(n) { }, beforeSet: function(n, i) { }, onSet: function(n) { }, canSet: function(n) { return !0; } }; return e = Ue({}, r, e), function(n, i) { var s = e, o = this, l = o.length !== void 0, u = l ? o : [o], f = l ? o[0] : o; if (ee(n)) { var h = n.indexOf(".") !== -1, c = h && Fv(n); if (s.allowGetting && i === void 0) { var v; return f && (s.beforeGet(f), c && f._private[s.field][n] === void 0 ? v = mv(f._private[s.field], c) : v = f._private[s.field][n]), v; } else if (s.allowSetting && i !== void 0) { var d = !s.immutableKeys[n]; if (d) { var g = T({}, n, i); s.beforeSet(o, g); for (var y = 0, p = u.length; y < p; y++) { var m = u[y]; s.canSet(m) && (c && f._private[s.field][n] === void 0 ? Rv(m._private[s.field], c, i) : m._private[s.field][n] = i); } s.updateStyle && o.updateStyle(), s.onSet(o), s.settingTriggersEvent && o[s.triggerFnName](s.settingEvent); } } } else if (s.allowSetting && S(n)) { var b = n, E, M, O = Object.keys(b); s.beforeSet(o, b); for (var x = 0; x < O.length; x++) { E = O[x], M = b[E]; var I = !s.immutableKeys[E]; if (I) for (var C = 0; C < u.length; C++) { var B = u[C]; s.canSet(B) && (B._private[s.field][E] = M); } } s.updateStyle && o.updateStyle(), s.onSet(o), s.settingTriggersEvent && o[s.triggerFnName](s.settingEvent); } else if (s.allowBinding && H(n)) { var F = n; o.on(s.bindingEvent, F); } else if (s.allowGetting && n === void 0) { var R; return f && (s.beforeGet(f), R = f._private[s.field]), R; } return o; }; }, // data // remove data field removeData: function(e) { var r = { field: "data", event: "data", triggerFnName: "trigger", triggerEvent: !1, immutableKeys: {} // key => true if immutable }; return e = Ue({}, r, e), function(n) { var i = e, s = this, o = s.length !== void 0, l = o ? s : [s]; if (ee(n)) { for (var u = n.split(/\s+/), f = u.length, h = 0; h < f; h++) { var c = u[h]; if (!Pe(c)) { var v = !i.immutableKeys[c]; if (v) for (var d = 0, g = l.length; d < g; d++) l[d]._private[i.field][c] = void 0; } } i.triggerEvent && s[i.triggerFnName](i.event); } else if (n === void 0) { for (var y = 0, p = l.length; y < p; y++) for (var m = l[y]._private[i.field], b = Object.keys(m), E = 0; E < b.length; E++) { var M = b[E], O = !i.immutableKeys[M]; O && (m[M] = void 0); } i.triggerEvent && s[i.triggerFnName](i.event); } return s; }; } // removeData }, Gv = { eventAliasesOn: function(e) { var r = e; r.addListener = r.listen = r.bind = r.on, r.unlisten = r.unbind = r.off = r.removeListener, r.trigger = r.emit, r.pon = r.promiseOn = function(a, n) { var i = this, s = Array.prototype.slice.call(arguments, 0); return new ia(function(o, l) { var u = function(v) { i.off.apply(i, h), o(v); }, f = s.concat([u]), h = f.concat([]); i.on.apply(i, f); }); }; } }, ht = {}; [Nh, zv, Gv].forEach(function(t) { Ue(ht, t); }); var $v = { animate: ht.animate(), animation: ht.animation(), animated: ht.animated(), clearQueue: ht.clearQueue(), delay: ht.delay(), delayAnimation: ht.delayAnimation(), stop: ht.stop() }, Ln = { classes: function(e) { var r = this; if (e === void 0) { var a = []; return r[0]._private.classes.forEach(function(d) { return a.push(d); }), a; } else te(e) || (e = (e || "").match(/\S+/g) || []); for (var n = [], i = new Jr(e), s = 0; s < r.length; s++) { for (var o = r[s], l = o._private, u = l.classes, f = !1, h = 0; h < e.length; h++) { var c = e[h], v = u.has(c); if (!v) { f = !0; break; } } f || (f = u.size !== e.length), f && (l.classes = i, n.push(o)); } return n.length > 0 && this.spawn(n).updateStyle().emit("class"), r; }, addClass: function(e) { return this.toggleClass(e, !0); }, hasClass: function(e) { var r = this[0]; return r != null && r._private.classes.has(e); }, toggleClass: function(e, r) { te(e) || (e = e.match(/\S+/g) || []); for (var a = this, n = r === void 0, i = [], s = 0, o = a.length; s < o; s++) for (var l = a[s], u = l._private.classes, f = !1, h = 0; h < e.length; h++) { var c = e[h], v = u.has(c), d = !1; r || n && !v ? (u.add(c), d = !0) : (!r || n && v) && (u.delete(c), d = !0), !f && d && (i.push(l), f = !0); } return i.length > 0 && this.spawn(i).updateStyle().emit("class"), a; }, removeClass: function(e) { return this.toggleClass(e, !1); }, flashClass: function(e, r) { var a = this; if (r == null) r = 250; else if (r === 0) return a; return a.addClass(e), setTimeout(function() { a.removeClass(e); }, r), a; } }; Ln.className = Ln.classNames = Ln.classes; var it = { metaChar: "[\\!\\\"\\#\\$\\%\\&\\'\\(\\)\\*\\+\\,\\.\\/\\:\\;\\<\\=\\>\\?\\@\\[\\]\\^\\`\\{\\|\\}\\~]", // chars we need to escape in let names, etc comparatorOp: "=|\\!=|>|>=|<|<=|\\$=|\\^=|\\*=", // binary comparison op (used in data selectors) boolOp: "\\?|\\!|\\^", // boolean (unary) operators (used in data selectors) string: `"(?:\\\\"|[^"])*"|'(?:\\\\'|[^'])*'`, // string literals (used in data selectors) -- doublequotes | singlequotes number: vt, // number literal (used in data selectors) --- e.g. 0.1234, 1234, 12e123 meta: "degree|indegree|outdegree", // allowed metadata fields (i.e. allowed functions to use from Collection) separator: "\\s*,\\s*", // queries are separated by commas, e.g. edge[foo = 'bar'], node.someClass descendant: "\\s+", child: "\\s+>\\s+", subject: "\\$", group: "node|edge|\\*", directedEdge: "\\s+->\\s+", undirectedEdge: "\\s+<->\\s+" }; it.variable = "(?:[\\w-.]|(?:\\\\" + it.metaChar + "))+", it.className = "(?:[\\w-]|(?:\\\\" + it.metaChar + "))+", it.value = it.string + "|" + it.number, it.id = it.variable, function() { var t, e, r; for (t = it.comparatorOp.split("|"), r = 0; r < t.length; r++) e = t[r], it.comparatorOp += "|@" + e; for (t = it.comparatorOp.split("|"), r = 0; r < t.length; r++) e = t[r], !(e.indexOf("!") >= 0) && e !== "=" && (it.comparatorOp += "|\\!" + e); }(); var gt = function() { return { checks: [] }; }, Be = { /** E.g. node */ GROUP: 0, /** A collection of elements */ COLLECTION: 1, /** A filter(ele) function */ FILTER: 2, /** E.g. [foo > 1] */ DATA_COMPARE: 3, /** E.g. [foo] */ DATA_EXIST: 4, /** E.g. [?foo] */ DATA_BOOL: 5, /** E.g. [[degree > 2]] */ META_COMPARE: 6, /** E.g. :selected */ STATE: 7, /** E.g. #foo */ ID: 8, /** E.g. .foo */ CLASS: 9, /** E.g. #foo <-> #bar */ UNDIRECTED_EDGE: 10, /** E.g. #foo -> #bar */ DIRECTED_EDGE: 11, /** E.g. $#foo -> #bar */ NODE_SOURCE: 12, /** E.g. #foo -> $#bar */ NODE_TARGET: 13, /** E.g. $#foo <-> #bar */ NODE_NEIGHBOR: 14, /** E.g. #foo > #bar */ CHILD: 15, /** E.g. #foo #bar */ DESCENDANT: 16, /** E.g. $#foo > #bar */ PARENT: 17, /** E.g. $#foo #bar */ ANCESTOR: 18, /** E.g. #foo > $bar > #baz */ COMPOUND_SPLIT: 19, /** Always matches, useful placeholder for subject in `COMPOUND_SPLIT` */ TRUE: 20 }, Ci = [{ selector: ":selected", matches: function(e) { return e.selected(); } }, { selector: ":unselected", matches: function(e) { return !e.selected(); } }, { selector: ":selectable", matches: function(e) { return e.selectable(); } }, { selector: ":unselectable", matches: function(e) { return !e.selectable(); } }, { selector: ":locked", matches: function(e) { return e.locked(); } }, { selector: ":unlocked", matches: function(e) { return !e.locked(); } }, { selector: ":visible", matches: function(e) { return e.visible(); } }, { selector: ":hidden", matches: function(e) { return !e.visible(); } }, { selector: ":transparent", matches: function(e) { return e.transparent(); } }, { selector: ":grabbed", matches: function(e) { return e.grabbed(); } }, { selector: ":free", matches: function(e) { return !e.grabbed(); } }, { selector: ":removed", matches: function(e) { return e.removed(); } }, { selector: ":inside", matches: function(e) { return !e.removed(); } }, { selector: ":grabbable", matches: function(e) { return e.grabbable(); } }, { selector: ":ungrabbable", matches: function(e) { return !e.grabbable(); } }, { selector: ":animated", matches: function(e) { return e.animated(); } }, { selector: ":unanimated", matches: function(e) { return !e.animated(); } }, { selector: ":parent", matches: function(e) { return e.isParent(); } }, { selector: ":childless", matches: function(e) { return e.isChildless(); } }, { selector: ":child", matches: function(e) { return e.isChild(); } }, { selector: ":orphan", matches: function(e) { return e.isOrphan(); } }, { selector: ":nonorphan", matches: function(e) { return e.isChild(); } }, { selector: ":compound", matches: function(e) { return e.isNode() ? e.isParent() : e.source().isParent() || e.target().isParent(); } }, { selector: ":loop", matches: function(e) { return e.isLoop(); } }, { selector: ":simple", matches: function(e) { return e.isSimple(); } }, { selector: ":active", matches: function(e) { return e.active(); } }, { selector: ":inactive", matches: function(e) { return !e.active(); } }, { selector: ":backgrounding", matches: function(e) { return e.backgrounding(); } }, { selector: ":nonbackgrounding", matches: function(e) { return !e.backgrounding(); } }].sort(function(t, e) { return Qu(t.selector, e.selector); }), Vv = function() { for (var t = {}, e, r = 0; r < Ci.length; r++) e = Ci[r], t[e.selector] = e.matches; return t; }(), _v = function(e, r) { return Vv[e](r); }, Uv = "(" + Ci.map(function(t) { return t.selector; }).join("|") + ")", la = function(e) { return e.replace(new RegExp("\\\\(" + it.metaChar + ")", "g"), function(r, a) { return a; }); }, Cr = function(e, r, a) { e[e.length - 1] = a; }, Di = [{ name: "group", // just used for identifying when debugging query: !0, regex: "(" + it.group + ")", populate: function(e, r, a) { var n = w(a, 1), i = n[0]; r.checks.push({ type: Be.GROUP, value: i === "*" ? i : i + "s" }); } }, { name: "state", query: !0, regex: Uv, populate: function(e, r, a) { var n = w(a, 1), i = n[0]; r.checks.push({ type: Be.STATE, value: i }); } }, { name: "id", query: !0, regex: "\\#(" + it.id + ")", populate: function(e, r, a) { var n = w(a, 1), i = n[0]; r.checks.push({ type: Be.ID, value: la(i) }); } }, { name: "className", query: !0, regex: "\\.(" + it.className + ")", populate: function(e, r, a) { var n = w(a, 1), i = n[0]; r.checks.push({ type: Be.CLASS, value: la(i) }); } }, { name: "dataExists", query: !0, regex: "\\[\\s*(" + it.variable + ")\\s*\\]", populate: function(e, r, a) { var n = w(a, 1), i = n[0]; r.checks.push({ type: Be.DATA_EXIST, field: la(i) }); } }, { name: "dataCompare", query: !0, regex: "\\[\\s*(" + it.variable + ")\\s*(" + it.comparatorOp + ")\\s*(" + it.value + ")\\s*\\]", populate: function(e, r, a) { var n = w(a, 3), i = n[0], s = n[1], o = n[2], l = new RegExp("^" + it.string + "$").exec(o) != null; l ? o = o.substring(1, o.length - 1) : o = parseFloat(o), r.checks.push({ type: Be.DATA_COMPARE, field: la(i), operator: s, value: o }); } }, { name: "dataBool", query: !0, regex: "\\[\\s*(" + it.boolOp + ")\\s*(" + it.variable + ")\\s*\\]", populate: function(e, r, a) { var n = w(a, 2), i = n[0], s = n[1]; r.checks.push({ type: Be.DATA_BOOL, field: la(s), operator: i }); } }, { name: "metaCompare", query: !0, regex: "\\[\\[\\s*(" + it.meta + ")\\s*(" + it.comparatorOp + ")\\s*(" + it.number + ")\\s*\\]\\]", populate: function(e, r, a) { var n = w(a, 3), i = n[0], s = n[1], o = n[2]; r.checks.push({ type: Be.META_COMPARE, field: la(i), operator: s, value: parseFloat(o) }); } }, { name: "nextQuery", separator: !0, regex: it.separator, populate: function(e, r) { var a = e.currentSubject, n = e.edgeCount, i = e.compoundCount, s = e[e.length - 1]; a != null && (s.subject = a, e.currentSubject = null), s.edgeCount = n, s.compoundCount = i, e.edgeCount = 0, e.compoundCount = 0; var o = e[e.length++] = gt(); return o; } }, { name: "directedEdge", separator: !0, regex: it.directedEdge, populate: function(e, r) { if (e.currentSubject == null) { var a = gt(), n = r, i = gt(); return a.checks.push({ type: Be.DIRECTED_EDGE, source: n, target: i }), Cr(e, r, a), e.edgeCount++, i; } else { var s = gt(), o = r, l = gt(); return s.checks.push({ type: Be.NODE_SOURCE, source: o, target: l }), Cr(e, r, s), e.edgeCount++, l; } } }, { name: "undirectedEdge", separator: !0, regex: it.undirectedEdge, populate: function(e, r) { if (e.currentSubject == null) { var a = gt(), n = r, i = gt(); return a.checks.push({ type: Be.UNDIRECTED_EDGE, nodes: [n, i] }), Cr(e, r, a), e.edgeCount++, i; } else { var s = gt(), o = r, l = gt(); return s.checks.push({ type: Be.NODE_NEIGHBOR, node: o, neighbor: l }), Cr(e, r, s), l; } } }, { name: "child", separator: !0, regex: it.child, populate: function(e, r) { if (e.currentSubject == null) { var a = gt(), n = gt(), i = e[e.length - 1]; return a.checks.push({ type: Be.CHILD, parent: i, child: n }), Cr(e, r, a), e.compoundCount++, n; } else if (e.currentSubject === r) { var s = gt(), o = e[e.length - 1], l = gt(), u = gt(), f = gt(), h = gt(); return s.checks.push({ type: Be.COMPOUND_SPLIT, left: o, right: l, subject: u }), u.checks = r.checks, r.checks = [{ type: Be.TRUE }], h.checks.push({ type: Be.TRUE }), l.checks.push({ type: Be.PARENT, // type is swapped on right side queries parent: h, child: f // empty for now }), Cr(e, o, s), e.currentSubject = u, e.compoundCount++, f; } else { var c = gt(), v = gt(), d = [{ type: Be.PARENT, parent: c, child: v }]; return c.checks = r.checks, r.checks = d, e.compoundCount++, v; } } }, { name: "descendant", separator: !0, regex: it.descendant, populate: function(e, r) { if (e.currentSubject == null) { var a = gt(), n = gt(), i = e[e.length - 1]; return a.checks.push({ type: Be.DESCENDANT, ancestor: i, descendant: n }), Cr(e, r, a), e.compoundCount++, n; } else if (e.currentSubject === r) { var s = gt(), o = e[e.length - 1], l = gt(), u = gt(), f = gt(), h = gt(); return s.checks.push({ type: Be.COMPOUND_SPLIT, left: o, right: l, subject: u }), u.checks = r.checks, r.checks = [{ type: Be.TRUE }], h.checks.push({ type: Be.TRUE }), l.checks.push({ type: Be.ANCESTOR, // type is swapped on right side queries ancestor: h, descendant: f // empty for now }), Cr(e, o, s), e.currentSubject = u, e.compoundCount++, f; } else { var c = gt(), v = gt(), d = [{ type: Be.ANCESTOR, ancestor: c, descendant: v }]; return c.checks = r.checks, r.checks = d, e.compoundCount++, v; } } }, { name: "subject", modifier: !0, regex: it.subject, populate: function(e, r) { if (e.currentSubject != null && e.currentSubject !== r) return ft("Redefinition of subject in selector `" + e.toString() + "`"), !1; e.currentSubject = r; var a = e[e.length - 1], n = a.checks[0], i = n == null ? null : n.type; i === Be.DIRECTED_EDGE ? n.type = Be.NODE_TARGET : i === Be.UNDIRECTED_EDGE && (n.type = Be.NODE_NEIGHBOR, n.node = n.nodes[1], n.neighbor = n.nodes[0], n.nodes = null); } }]; Di.forEach(function(t) { return t.regexObj = new RegExp("^" + t.regex); }); var Yv = function(e) { for (var r, a, n, i = 0; i < Di.length; i++) { var s = Di[i], o = s.name, l = e.match(s.regexObj); if (l != null) { a = l, r = s, n = o; var u = l[0]; e = e.substring(u.length); break; } } return { expr: r, match: a, name: n, remaining: e }; }, Hv = function(e) { var r = e.match(/^\s+/); if (r) { var a = r[0]; e = e.substring(a.length); } return e; }, Xv = function(e) { var r = this, a = r.inputText = e, n = r[0] = gt(); for (r.length = 1, a = Hv(a); ; ) { var i = Yv(a); if (i.expr == null) return ft("The selector `" + e + "`is invalid"), !1; var s = i.match.slice(1), o = i.expr.populate(r, n, s); if (o === !1) return !1; if (o != null && (n = o), a = i.remaining, a.match(/^\s*$/)) break; } var l = r[r.length - 1]; r.currentSubject != null && (l.subject = r.currentSubject), l.edgeCount = r.edgeCount, l.compoundCount = r.compoundCount; for (var u = 0; u < r.length; u++) { var f = r[u]; if (f.compoundCount > 0 && f.edgeCount > 0) return ft("The selector `" + e + "` is invalid because it uses both a compound selector and an edge selector"), !1; if (f.edgeCount > 1) return ft("The selector `" + e + "` is invalid because it uses multiple edge selectors"), !1; f.edgeCount === 1 && ft("The selector `" + e + "` is deprecated. Edge selectors do not take effect on changes to source and target nodes after an edge is added, for performance reasons. Use a class or data selector on edges instead, updating the class or data of an edge when your app detects a change in source or target nodes."); } return !0; }, qv = function() { if (this.toStringCache != null) return this.toStringCache; for (var e = function(f) { return f ?? ""; }, r = function(f) { return ee(f) ? '"' + f + '"' : e(f); }, a = function(f) { return " " + f + " "; }, n = function(f, h) { var c = f.type, v = f.value; switch (c) { case Be.GROUP: { var d = e(v); return d.substring(0, d.length - 1); } case Be.DATA_COMPARE: { var g = f.field, y = f.operator; return "[" + g + a(e(y)) + r(v) + "]"; } case Be.DATA_BOOL: { var p = f.operator, m = f.field; return "[" + e(p) + m + "]"; } case Be.DATA_EXIST: { var b = f.field; return "[" + b + "]"; } case Be.META_COMPARE: { var E = f.operator, M = f.field; return "[[" + M + a(e(E)) + r(v) + "]]"; } case Be.STATE: return v; case Be.ID: return "#" + v; case Be.CLASS: return "." + v; case Be.PARENT: case Be.CHILD: return i(f.parent, h) + a(">") + i(f.child, h); case Be.ANCESTOR: case Be.DESCENDANT: return i(f.ancestor, h) + " " + i(f.descendant, h); case Be.COMPOUND_SPLIT: { var O = i(f.left, h), x = i(f.subject, h), I = i(f.right, h); return O + (O.length > 0 ? " " : "") + x + I; } case Be.TRUE: return ""; } }, i = function(f, h) { return f.checks.reduce(function(c, v, d) { return c + (h === f && d === 0 ? "$" : "") + n(v, h); }, ""); }, s = "", o = 0; o < this.length; o++) { var l = this[o]; s += i(l, l.subject), this.length > 1 && o < this.length - 1 && (s += ", "); } return this.toStringCache = s, s; }, Wv = { parse: Xv, toString: qv }, fo = function(e, r, a) { var n, i = ee(e), s = k(e), o = ee(a), l, u, f = !1, h = !1, c = !1; switch (r.indexOf("!") >= 0 && (r = r.replace("!", ""), h = !0), r.indexOf("@") >= 0 && (r = r.replace("@", ""), f = !0), (i || o || f) && (l = !i && !s ? "" : "" + e, u = "" + a), f && (e = l = l.toLowerCase(), a = u = u.toLowerCase()), r) { case "*=": n = l.indexOf(u) >= 0; break; case "$=": n = l.indexOf(u, l.length - u.length) >= 0; break; case "^=": n = l.indexOf(u) === 0; break; case "=": n = e === a; break; case ">": c = !0, n = e > a; break; case ">=": c = !0, n = e >= a; break; case "<": c = !0, n = e < a; break; case "<=": c = !0, n = e <= a; break; default: n = !1; break; } return h && (e != null || !c) && (n = !n), n; }, Kv = function(e, r) { switch (r) { case "?": return !!e; case "!": return !e; case "^": return e === void 0; } }, Zv = function(e) { return e !== void 0; }, Si = function(e, r) { return e.data(r); }, Qv = function(e, r) { return e[r](); }, Tt = [], wt = function(e, r) { return e.checks.every(function(a) { return Tt[a.type](a, r); }); }; Tt[Be.GROUP] = function(t, e) { var r = t.value; return r === "*" || r === e.group(); }, Tt[Be.STATE] = function(t, e) { var r = t.value; return _v(r, e); }, Tt[Be.ID] = function(t, e) { var r = t.value; return e.id() === r; }, Tt[Be.CLASS] = function(t, e) { var r = t.value; return e.hasClass(r); }, Tt[Be.META_COMPARE] = function(t, e) { var r = t.field, a = t.operator, n = t.value; return fo(Qv(e, r), a, n); }, Tt[Be.DATA_COMPARE] = function(t, e) { var r = t.field, a = t.operator, n = t.value; return fo(Si(e, r), a, n); }, Tt[Be.DATA_BOOL] = function(t, e) { var r = t.field, a = t.operator; return Kv(Si(e, r), a); }, Tt[Be.DATA_EXIST] = function(t, e) { var r = t.field; return t.operator, Zv(Si(e, r)); }, Tt[Be.UNDIRECTED_EDGE] = function(t, e) { var r = t.nodes[0], a = t.nodes[1], n = e.source(), i = e.target(); return wt(r, n) && wt(a, i) || wt(a, n) && wt(r, i); }, Tt[Be.NODE_NEIGHBOR] = function(t, e) { return wt(t.node, e) && e.neighborhood().some(function(r) { return r.isNode() && wt(t.neighbor, r); }); }, Tt[Be.DIRECTED_EDGE] = function(t, e) { return wt(t.source, e.source()) && wt(t.target, e.target()); }, Tt[Be.NODE_SOURCE] = function(t, e) { return wt(t.source, e) && e.outgoers().some(function(r) { return r.isNode() && wt(t.target, r); }); }, Tt[Be.NODE_TARGET] = function(t, e) { return wt(t.target, e) && e.incomers().some(function(r) { return r.isNode() && wt(t.source, r); }); }, Tt[Be.CHILD] = function(t, e) { return wt(t.child, e) && wt(t.parent, e.parent()); }, Tt[Be.PARENT] = function(t, e) { return wt(t.parent, e) && e.children().some(function(r) { return wt(t.child, r); }); }, Tt[Be.DESCENDANT] = function(t, e) { return wt(t.descendant, e) && e.ancestors().some(function(r) { return wt(t.ancestor, r); }); }, Tt[Be.ANCESTOR] = function(t, e) { return wt(t.ancestor, e) && e.descendants().some(function(r) { return wt(t.descendant, r); }); }, Tt[Be.COMPOUND_SPLIT] = function(t, e) { return wt(t.subject, e) && wt(t.left, e) && wt(t.right, e); }, Tt[Be.TRUE] = function() { return !0; }, Tt[Be.COLLECTION] = function(t, e) { var r = t.value; return r.has(e); }, Tt[Be.FILTER] = function(t, e) { var r = t.value; return r(e); }; var Jv = function(e) { var r = this; if (r.length === 1 && r[0].checks.length === 1 && r[0].checks[0].type === Be.ID) return e.getElementById(r[0].checks[0].value).collection(); var a = function(i) { for (var s = 0; s < r.length; s++) { var o = r[s]; if (wt(o, i)) return !0; } return !1; }; return r.text() == null && (a = function() { return !0; }), e.filter(a); }, jv = function(e) { for (var r = this, a = 0; a < r.length; a++) { var n = r[a]; if (wt(n, e)) return !0; } return !1; }, ed = { matches: jv, filter: Jv }, Dr = function(e) { this.inputText = e, this.currentSubject = null, this.compoundCount = 0, this.edgeCount = 0, this.length = 0, e == null || ee(e) && e.match(/^\s*$/) || (pe(e) ? this.addQuery({ checks: [{ type: Be.COLLECTION, value: e.collection() }] }) : H(e) ? this.addQuery({ checks: [{ type: Be.FILTER, value: e }] }) : ee(e) ? this.parse(e) || (this.invalid = !0) : xt("A selector must be created from a string; found ")); }, Sr = Dr.prototype; [Wv, ed].forEach(function(t) { return Ue(Sr, t); }), Sr.text = function() { return this.inputText; }, Sr.size = function() { return this.length; }, Sr.eq = function(t) { return this[t]; }, Sr.sameText = function(t) { return !this.invalid && !t.invalid && this.text() === t.text(); }, Sr.addQuery = function(t) { this[this.length++] = t; }, Sr.selector = Sr.toString; var Lr = { allAre: function(e) { var r = new Dr(e); return this.every(function(a) { return r.matches(a); }); }, is: function(e) { var r = new Dr(e); return this.some(function(a) { return r.matches(a); }); }, some: function(e, r) { for (var a = 0; a < this.length; a++) { var n = r ? e.apply(r, [this[a], a, this]) : e(this[a], a, this); if (n) return !0; } return !1; }, every: function(e, r) { for (var a = 0; a < this.length; a++) { var n = r ? e.apply(r, [this[a], a, this]) : e(this[a], a, this); if (!n) return !1; } return !0; }, same: function(e) { if (this === e) return !0; e = this.cy().collection(e); var r = this.length, a = e.length; return r !== a ? !1 : r === 1 ? this[0] === e[0] : this.every(function(n) { return e.hasElementWithId(n.id()); }); }, anySame: function(e) { return e = this.cy().collection(e), this.some(function(r) { return e.hasElementWithId(r.id()); }); }, allAreNeighbors: function(e) { e = this.cy().collection(e); var r = this.neighborhood(); return e.every(function(a) { return r.hasElementWithId(a.id()); }); }, contains: function(e) { e = this.cy().collection(e); var r = this; return e.every(function(a) { return r.hasElementWithId(a.id()); }); } }; Lr.allAreNeighbours = Lr.allAreNeighbors, Lr.has = Lr.contains, Lr.equal = Lr.equals = Lr.same; var Kt = function(e, r) { return function(n, i, s, o) { var l = n, u = this, f; if (l == null ? f = "" : pe(l) && l.length === 1 && (f = l.id()), u.length === 1 && f) { var h = u[0]._private, c = h.traversalCache = h.traversalCache || {}, v = c[r] = c[r] || [], d = kr(f), g = v[d]; return g || (v[d] = e.call(u, n, i, s, o)); } else return e.call(u, n, i, s, o); }; }, fa = { parent: function(e) { var r = []; if (this.length === 1) { var a = this[0]._private.parent; if (a) return a; } for (var n = 0; n < this.length; n++) { var i = this[n], s = i._private.parent; s && r.push(s); } return this.spawn(r, !0).filter(e); }, parents: function(e) { for (var r = [], a = this.parent(); a.nonempty(); ) { for (var n = 0; n < a.length; n++) { var i = a[n]; r.push(i); } a = a.parent(); } return this.spawn(r, !0).filter(e); }, commonAncestors: function(e) { for (var r, a = 0; a < this.length; a++) { var n = this[a], i = n.parents(); r = r || i, r = r.intersect(i); } return r.filter(e); }, orphans: function(e) { return this.stdFilter(function(r) { return r.isOrphan(); }).filter(e); }, nonorphans: function(e) { return this.stdFilter(function(r) { return r.isChild(); }).filter(e); }, children: Kt(function(t) { for (var e = [], r = 0; r < this.length; r++) for (var a = this[r], n = a._private.children, i = 0; i < n.length; i++) e.push(n[i]); return this.spawn(e, !0).filter(t); }, "children"), siblings: function(e) { return this.parent().children().not(this).filter(e); }, isParent: function() { var e = this[0]; if (e) return e.isNode() && e._private.children.length !== 0; }, isChildless: function() { var e = this[0]; if (e) return e.isNode() && e._private.children.length === 0; }, isChild: function() { var e = this[0]; if (e) return e.isNode() && e._private.parent != null; }, isOrphan: function() { var e = this[0]; if (e) return e.isNode() && e._private.parent == null; }, descendants: function(e) { var r = []; function a(n) { for (var i = 0; i < n.length; i++) { var s = n[i]; r.push(s), s.children().nonempty() && a(s.children()); } } return a(this.children()), this.spawn(r, !0).filter(e); } }; function Li(t, e, r, a) { for (var n = [], i = new Jr(), s = t.cy(), o = s.hasCompoundNodes(), l = 0; l < t.length; l++) { var u = t[l]; r ? n.push(u) : o && a(n, i, u); } for (; n.length > 0; ) { var f = n.shift(); e(f), i.add(f.id()), o && a(n, i, f); } return t; } function ho(t, e, r) { if (r.isParent()) for (var a = r._private.children, n = 0; n < a.length; n++) { var i = a[n]; e.has(i.id()) || t.push(i); } } fa.forEachDown = function(t) { var e = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !0; return Li(this, t, e, ho); }; function co(t, e, r) { if (r.isChild()) { var a = r._private.parent; e.has(a.id()) || t.push(a); } } fa.forEachUp = function(t) { var e = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !0; return Li(this, t, e, co); }; function td(t, e, r) { co(t, e, r), ho(t, e, r); } fa.forEachUpAndDown = function(t) { var e = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !0; return Li(this, t, e, td); }, fa.ancestors = fa.parents; var $a, vo; $a = vo = { data: ht.data({ field: "data", bindingEvent: "data", allowBinding: !0, allowSetting: !0, settingEvent: "data", settingTriggersEvent: !0, triggerFnName: "trigger", allowGetting: !0, immutableKeys: { id: !0, source: !0, target: !0, parent: !0 }, updateStyle: !0 }), removeData: ht.removeData({ field: "data", event: "data", triggerFnName: "trigger", triggerEvent: !0, immutableKeys: { id: !0, source: !0, target: !0, parent: !0 }, updateStyle: !0 }), scratch: ht.data({ field: "scratch", bindingEvent: "scratch", allowBinding: !0, allowSetting: !0, settingEvent: "scratch", settingTriggersEvent: !0, triggerFnName: "trigger", allowGetting: !0, updateStyle: !0 }), removeScratch: ht.removeData({ field: "scratch", event: "scratch", triggerFnName: "trigger", triggerEvent: !0, updateStyle: !0 }), rscratch: ht.data({ field: "rscratch", allowBinding: !1, allowSetting: !0, settingTriggersEvent: !1, allowGetting: !0 }), removeRscratch: ht.removeData({ field: "rscratch", triggerEvent: !1 }), id: function() { var e = this[0]; if (e) return e._private.data.id; } }, $a.attr = $a.data, $a.removeAttr = $a.removeData; var rd = vo, An = {}; function Ai(t) { return function(e) { var r = this; if (e === void 0 && (e = !0), r.length !== 0) if (r.isNode() && !r.removed()) { for (var a = 0, n = r[0], i = n._private.edges, s = 0; s < i.length; s++) { var o = i[s]; !e && o.isLoop() || (a += t(n, o)); } return a; } else return; }; } Ue(An, { degree: Ai(function(t, e) { return e.source().same(e.target()) ? 2 : 1; }), indegree: Ai(function(t, e) { return e.target().same(t) ? 1 : 0; }), outdegree: Ai(function(t, e) { return e.source().same(t) ? 1 : 0; }) }); function ha(t, e) { return function(r) { for (var a, n = this.nodes(), i = 0; i < n.length; i++) { var s = n[i], o = s[t](r); o !== void 0 && (a === void 0 || e(o, a)) && (a = o); } return a; }; } Ue(An, { minDegree: ha("degree", function(t, e) { return t < e; }), maxDegree: ha("degree", function(t, e) { return t > e; }), minIndegree: ha("indegree", function(t, e) { return t < e; }), maxIndegree: ha("indegree", function(t, e) { return t > e; }), minOutdegree: ha("outdegree", function(t, e) { return t < e; }), maxOutdegree: ha("outdegree", function(t, e) { return t > e; }) }), Ue(An, { totalDegree: function(e) { for (var r = 0, a = this.nodes(), n = 0; n < a.length; n++) r += a[n].degree(e); return r; } }); var tr, go, po = function(e, r, a) { for (var n = 0; n < e.length; n++) { var i = e[n]; if (!i.locked()) { var s = i._private.position, o = { x: r.x != null ? r.x - s.x : 0, y: r.y != null ? r.y - s.y : 0 }; i.isParent() && !(o.x === 0 && o.y === 0) && i.children().shift(o, a), i.dirtyBoundingBoxCache(); } } }, yo = { field: "position", bindingEvent: "position", allowBinding: !0, allowSetting: !0, settingEvent: "position", settingTriggersEvent: !0, triggerFnName: "emitAndNotify", allowGetting: !0, validKeys: ["x", "y"], beforeGet: function(e) { e.updateCompoundBounds(); }, beforeSet: function(e, r) { po(e, r, !1); }, onSet: function(e) { e.dirtyCompoundBoundsCache(); }, canSet: function(e) { return !e.locked(); } }; tr = go = { position: ht.data(yo), // position but no notification to renderer silentPosition: ht.data(Ue({}, yo, { allowBinding: !1, allowSetting: !0, settingTriggersEvent: !1, allowGetting: !1, beforeSet: function(e, r) { po(e, r, !0); }, onSet: function(e) { e.dirtyCompoundBoundsCache(); } })), positions: function(e, r) { if (S(e)) r ? this.silentPosition(e) : this.position(e); else if (H(e)) { var a = e, n = this.cy(); n.startBatch(); for (var i = 0; i < this.length; i++) { var s = this[i], o = void 0; (o = a(s, i)) && (r ? s.silentPosition(o) : s.position(o)); } n.endBatch(); } return this; }, silentPositions: function(e) { return this.positions(e, !0); }, shift: function(e, r, a) { var n; if (S(e) ? (n = { x: k(e.x) ? e.x : 0, y: k(e.y) ? e.y : 0 }, a = r) : ee(e) && k(r) && (n = { x: 0, y: 0 }, n[e] = r), n != null) { var i = this.cy(); i.startBatch(); for (var s = 0; s < this.length; s++) { var o = this[s]; if (!(i.hasCompoundNodes() && o.isChild() && o.ancestors().anySame(this))) { var l = o.position(), u = { x: l.x + n.x, y: l.y + n.y }; a ? o.silentPosition(u) : o.position(u); } } i.endBatch(); } return this; }, silentShift: function(e, r) { return S(e) ? this.shift(e, !0) : ee(e) && k(r) && this.shift(e, r, !0), this; }, // get/set the rendered (i.e. on screen) positon of the element renderedPosition: function(e, r) { var a = this[0], n = this.cy(), i = n.zoom(), s = n.pan(), o = S(e) ? e : void 0, l = o !== void 0 || r !== void 0 && ee(e); if (a && a.isNode()) if (l) for (var u = 0; u < this.length; u++) { var f = this[u]; r !== void 0 ? f.position(e, (r - s[e]) / i) : o !== void 0 && f.position(bs(o, i, s)); } else { var h = a.position(); return o = gn(h, i, s), e === void 0 ? o : o[e]; } else if (!l) return; return this; }, // get/set the position relative to the parent relativePosition: function(e, r) { var a = this[0], n = this.cy(), i = S(e) ? e : void 0, s = i !== void 0 || r !== void 0 && ee(e), o = n.hasCompoundNodes(); if (a && a.isNode()) if (s) for (var l = 0; l < this.length; l++) { var u = this[l], f = o ? u.parent() : null, h = f && f.length > 0, c = h; h && (f = f[0]); var v = c ? f.position() : { x: 0, y: 0 }; r !== void 0 ? u.position(e, r + v[e]) : i !== void 0 && u.position({ x: i.x + v.x, y: i.y + v.y }); } else { var d = a.position(), g = o ? a.parent() : null, y = g && g.length > 0, p = y; y && (g = g[0]); var m = p ? g.position() : { x: 0, y: 0 }; return i = { x: d.x - m.x, y: d.y - m.y }, e === void 0 ? i : i[e]; } else if (!s) return; return this; } }, tr.modelPosition = tr.point = tr.position, tr.modelPositions = tr.points = tr.positions, tr.renderedPoint = tr.renderedPosition, tr.relativePoint = tr.relativePosition; var ad = go, ca, Ar; ca = Ar = {}, Ar.renderedBoundingBox = function(t) { var e = this.boundingBox(t), r = this.cy(), a = r.zoom(), n = r.pan(), i = e.x1 * a + n.x, s = e.x2 * a + n.x, o = e.y1 * a + n.y, l = e.y2 * a + n.y; return { x1: i, x2: s, y1: o, y2: l, w: s - i, h: l - o }; }, Ar.dirtyCompoundBoundsCache = function() { var t = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : !1, e = this.cy(); return !e.styleEnabled() || !e.hasCompoundNodes() ? this : (this.forEachUp(function(r) { if (r.isParent()) { var a = r._private; a.compoundBoundsClean = !1, a.bbCache = null, t || r.emitAndNotify("bounds"); } }), this); }, Ar.updateCompoundBounds = function() { var t = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : !1, e = this.cy(); if (!e.styleEnabled() || !e.hasCompoundNodes()) return this; if (!t && e.batching()) return this; function r(s) { if (!s.isParent()) return; var o = s._private, l = s.children(), u = s.pstyle("compound-sizing-wrt-labels").value === "include", f = { width: { val: s.pstyle("min-width").pfValue, left: s.pstyle("min-width-bias-left"), right: s.pstyle("min-width-bias-right") }, height: { val: s.pstyle("min-height").pfValue, top: s.pstyle("min-height-bias-top"), bottom: s.pstyle("min-height-bias-bottom") } }, h = l.boundingBox({ includeLabels: u, includeOverlays: !1, // updating the compound bounds happens outside of the regular // cache cycle (i.e. before fired events) useCache: !1 }), c = o.position; (h.w === 0 || h.h === 0) && (h = { w: s.pstyle("width").pfValue, h: s.pstyle("height").pfValue }, h.x1 = c.x - h.w / 2, h.x2 = c.x + h.w / 2, h.y1 = c.y - h.h / 2, h.y2 = c.y + h.h / 2); function v(C, B, F) { var R = 0, X = 0, z = B + F; return C > 0 && z > 0 && (R = B / z * C, X = F / z * C), { biasDiff: R, biasComplementDiff: X }; } function d(C, B, F, R) { if (F.units === "%") switch (R) { case "width": return C > 0 ? F.pfValue * C : 0; case "height": return B > 0 ? F.pfValue * B : 0; case "average": return C > 0 && B > 0 ? F.pfValue * (C + B) / 2 : 0; case "min": return C > 0 && B > 0 ? C > B ? F.pfValue * B : F.pfValue * C : 0; case "max": return C > 0 && B > 0 ? C > B ? F.pfValue * C : F.pfValue * B : 0; default: return 0; } else return F.units === "px" ? F.pfValue : 0; } var g = f.width.left.value; f.width.left.units === "px" && f.width.val > 0 && (g = g * 100 / f.width.val); var y = f.width.right.value; f.width.right.units === "px" && f.width.val > 0 && (y = y * 100 / f.width.val); var p = f.height.top.value; f.height.top.units === "px" && f.height.val > 0 && (p = p * 100 / f.height.val); var m = f.height.bottom.value; f.height.bottom.units === "px" && f.height.val > 0 && (m = m * 100 / f.height.val); var b = v(f.width.val - h.w, g, y), E = b.biasDiff, M = b.biasComplementDiff, O = v(f.height.val - h.h, p, m), x = O.biasDiff, I = O.biasComplementDiff; o.autoPadding = d(h.w, h.h, s.pstyle("padding"), s.pstyle("padding-relative-to").value), o.autoWidth = Math.max(h.w, f.width.val), c.x = (-E + h.x1 + h.x2 + M) / 2, o.autoHeight = Math.max(h.h, f.height.val), c.y = (-x + h.y1 + h.y2 + I) / 2; } for (var a = 0; a < this.length; a++) { var n = this[a], i = n._private; (!i.compoundBoundsClean || t) && (r(n), e.batching() || (i.compoundBoundsClean = !0)); } return this; }; var Zt = function(e) { return e === 1 / 0 || e === -1 / 0 ? 0 : e; }, rr = function(e, r, a, n, i) { n - r === 0 || i - a === 0 || r == null || a == null || n == null || i == null || (e.x1 = r < e.x1 ? r : e.x1, e.x2 = n > e.x2 ? n : e.x2, e.y1 = a < e.y1 ? a : e.y1, e.y2 = i > e.y2 ? i : e.y2, e.w = e.x2 - e.x1, e.h = e.y2 - e.y1); }, Gr = function(e, r) { return r == null ? e : rr(e, r.x1, r.y1, r.x2, r.y2); }, Va = function(e, r, a) { return er(e, r, a); }, On = function(e, r, a) { if (!r.cy().headless()) { var n = r._private, i = n.rstyle, s = i.arrowWidth / 2, o = r.pstyle(a + "-arrow-shape").value, l, u; if (o !== "none") { a === "source" ? (l = i.srcX, u = i.srcY) : a === "target" ? (l = i.tgtX, u = i.tgtY) : (l = i.midX, u = i.midY); var f = n.arrowBounds = n.arrowBounds || {}, h = f[a] = f[a] || {}; h.x1 = l - s, h.y1 = u - s, h.x2 = l + s, h.y2 = u + s, h.w = h.x2 - h.x1, h.h = h.y2 - h.y1, yn(h, 1), rr(e, h.x1, h.y1, h.x2, h.y2); } } }, Oi = function(e, r, a) { if (!r.cy().headless()) { var n; a ? n = a + "-" : n = ""; var i = r._private, s = i.rstyle, o = r.pstyle(n + "label").strValue; if (o) { var l = r.pstyle("text-halign"), u = r.pstyle("text-valign"), f = Va(s, "labelWidth", a), h = Va(s, "labelHeight", a), c = Va(s, "labelX", a), v = Va(s, "labelY", a), d = r.pstyle(n + "text-margin-x").pfValue, g = r.pstyle(n + "text-margin-y").pfValue, y = r.isEdge(), p = r.pstyle(n + "text-rotation"), m = r.pstyle("text-outline-width").pfValue, b = r.pstyle("text-border-width").pfValue, E = b / 2, M = r.pstyle("text-background-padding").pfValue, O = 2, x = h, I = f, C = I / 2, B = x / 2, F, R, X, z; if (y) F = c - C, R = c + C, X = v - B, z = v + B; else { switch (l.value) { case "left": F = c - I, R = c; break; case "center": F = c - C, R = c + C; break; case "right": F = c, R = c + I; break; } switch (u.value) { case "top": X = v - x, z = v; break; case "center": X = v - B, z = v + B; break; case "bottom": X = v, z = v + x; break; } } F += d - Math.max(m, E) - M - O, R += d + Math.max(m, E) + M + O, X += g - Math.max(m, E) - M - O, z += g + Math.max(m, E) + M + O; var re = a || "main", W = i.labelBounds, Z = W[re] = W[re] || {}; Z.x1 = F, Z.y1 = X, Z.x2 = R, Z.y2 = z, Z.w = R - F, Z.h = z - X; var ie = y && p.strValue === "autorotate", oe = p.pfValue != null && p.pfValue !== 0; if (ie || oe) { var ge = ie ? Va(i.rstyle, "labelAngle", a) : p.pfValue, se = Math.cos(ge), de = Math.sin(ge), we = (F + R) / 2, Te = (X + z) / 2; if (!y) { switch (l.value) { case "left": we = R; break; case "right": we = F; break; } switch (u.value) { case "top": Te = z; break; case "bottom": Te = X; break; } } var Ee = function(qe, Re) { return qe = qe - we, Re = Re - Te, { x: qe * se - Re * de + we, y: qe * de + Re * se + Te }; }, ye = Ee(F, X), ae = Ee(F, z), xe = Ee(R, X), Ce = Ee(R, z); F = Math.min(ye.x, ae.x, xe.x, Ce.x), R = Math.max(ye.x, ae.x, xe.x, Ce.x), X = Math.min(ye.y, ae.y, xe.y, Ce.y), z = Math.max(ye.y, ae.y, xe.y, Ce.y); } var Oe = re + "Rot", Ie = W[Oe] = W[Oe] || {}; Ie.x1 = F, Ie.y1 = X, Ie.x2 = R, Ie.y2 = z, Ie.w = R - F, Ie.h = z - X, rr(e, F, X, R, z), rr(i.labelBounds.all, F, X, R, z); } return e; } }, nd = function(e, r) { var a = e._private.cy, n = a.styleEnabled(), i = a.headless(), s = Ut(), o = e._private, l = e.isNode(), u = e.isEdge(), f, h, c, v, d, g, y = o.rstyle, p = l && n ? e.pstyle("bounds-expansion").pfValue : [0], m = function(Ve) { return Ve.pstyle("display").value !== "none"; }, b = !n || m(e) && (!u || m(e.source()) && m(e.target())); if (b) { var E = 0, M = 0; n && r.includeOverlays && (E = e.pstyle("overlay-opacity").value, E !== 0 && (M = e.pstyle("overlay-padding").value)); var O = 0, x = 0; n && r.includeUnderlays && (O = e.pstyle("underlay-opacity").value, O !== 0 && (x = e.pstyle("underlay-padding").value)); var I = Math.max(M, x), C = 0, B = 0; if (n && (C = e.pstyle("width").pfValue, B = C / 2), l && r.includeNodes) { var F = e.position(); d = F.x, g = F.y; var R = e.outerWidth(), X = R / 2, z = e.outerHeight(), re = z / 2; f = d - X, h = d + X, c = g - re, v = g + re, rr(s, f, c, h, v); } else if (u && r.includeEdges) if (n && !i) { var W = e.pstyle("curve-style").strValue; if (f = Math.min(y.srcX, y.midX, y.tgtX), h = Math.max(y.srcX, y.midX, y.tgtX), c = Math.min(y.srcY, y.midY, y.tgtY), v = Math.max(y.srcY, y.midY, y.tgtY), f -= B, h += B, c -= B, v += B, rr(s, f, c, h, v), W === "haystack") { var Z = y.haystackPts; if (Z && Z.length === 2) { if (f = Z[0].x, c = Z[0].y, h = Z[1].x, v = Z[1].y, f > h) { var ie = f; f = h, h = ie; } if (c > v) { var oe = c; c = v, v = oe; } rr(s, f - B, c - B, h + B, v + B); } } else if (W === "bezier" || W === "unbundled-bezier" || W === "segments" || W === "taxi") { var ge; switch (W) { case "bezier": case "unbundled-bezier": ge = y.bezierPts; break; case "segments": case "taxi": ge = y.linePts; break; } if (ge != null) for (var se = 0; se < ge.length; se++) { var de = ge[se]; f = de.x - B, h = de.x + B, c = de.y - B, v = de.y + B, rr(s, f, c, h, v); } } } else { var we = e.source(), Te = we.position(), Ee = e.target(), ye = Ee.position(); if (f = Te.x, h = ye.x, c = Te.y, v = ye.y, f > h) { var ae = f; f = h, h = ae; } if (c > v) { var xe = c; c = v, v = xe; } f -= B, h += B, c -= B, v += B, rr(s, f, c, h, v); } if (n && r.includeEdges && u && (On(s, e, "mid-source"), On(s, e, "mid-target"), On(s, e, "source"), On(s, e, "target")), n) { var Ce = e.pstyle("ghost").value === "yes"; if (Ce) { var Oe = e.pstyle("ghost-offset-x").pfValue, Ie = e.pstyle("ghost-offset-y").pfValue; rr(s, s.x1 + Oe, s.y1 + Ie, s.x2 + Oe, s.y2 + Ie); } } var He = o.bodyBounds = o.bodyBounds || {}; ws(He, s), fi(He, p), yn(He, 1), n && (f = s.x1, h = s.x2, c = s.y1, v = s.y2, rr(s, f - I, c - I, h + I, v + I)); var qe = o.overlayBounds = o.overlayBounds || {}; ws(qe, s), fi(qe, p), yn(qe, 1); var Re = o.labelBounds = o.labelBounds || {}; Re.all != null ? Cf(Re.all) : Re.all = Ut(), n && r.includeLabels && (r.includeMainLabels && Oi(s, e, null), u && (r.includeSourceLabels && Oi(s, e, "source"), r.includeTargetLabels && Oi(s, e, "target"))); } return s.x1 = Zt(s.x1), s.y1 = Zt(s.y1), s.x2 = Zt(s.x2), s.y2 = Zt(s.y2), s.w = Zt(s.x2 - s.x1), s.h = Zt(s.y2 - s.y1), s.w > 0 && s.h > 0 && b && (fi(s, p), yn(s, 1)), s; }, mo = function(e) { var r = 0, a = function(s) { return (s ? 1 : 0) << r++; }, n = 0; return n += a(e.incudeNodes), n += a(e.includeEdges), n += a(e.includeLabels), n += a(e.includeMainLabels), n += a(e.includeSourceLabels), n += a(e.includeTargetLabels), n += a(e.includeOverlays), n; }, bo = function(e) { if (e.isEdge()) { var r = e.source().position(), a = e.target().position(), n = function(s) { return Math.round(s); }; return Yl([n(r.x), n(r.y), n(a.x), n(a.y)]); } else return 0; }, Eo = function(e, r) { var a = e._private, n, i = e.isEdge(), s = r == null ? wo : mo(r), o = s === wo, l = bo(e), u = a.bbCachePosKey === l, f = r.useCache && u, h = function(g) { return g._private.bbCache == null || g._private.styleDirty; }, c = !f || h(e) || i && h(e.source()) || h(e.target()); if (c ? (u || e.recalculateRenderedStyle(f), n = nd(e, _a), a.bbCache = n, a.bbCachePosKey = l) : n = a.bbCache, !o) { var v = e.isNode(); n = Ut(), (r.includeNodes && v || r.includeEdges && !v) && (r.includeOverlays ? Gr(n, a.overlayBounds) : Gr(n, a.bodyBounds)), r.includeLabels && (r.includeMainLabels && (!i || r.includeSourceLabels && r.includeTargetLabels) ? Gr(n, a.labelBounds.all) : (r.includeMainLabels && Gr(n, a.labelBounds.mainRot), r.includeSourceLabels && Gr(n, a.labelBounds.sourceRot), r.includeTargetLabels && Gr(n, a.labelBounds.targetRot))), n.w = n.x2 - n.x1, n.h = n.y2 - n.y1; } return n; }, _a = { includeNodes: !0, includeEdges: !0, includeLabels: !0, includeMainLabels: !0, includeSourceLabels: !0, includeTargetLabels: !0, includeOverlays: !0, includeUnderlays: !0, useCache: !0 }, wo = mo(_a), xo = Lt(_a); Ar.boundingBox = function(t) { var e; if (this.length === 1 && this[0]._private.bbCache != null && !this[0]._private.styleDirty && (t === void 0 || t.useCache === void 0 || t.useCache === !0)) t === void 0 ? t = _a : t = xo(t), e = Eo(this[0], t); else { e = Ut(), t = t || _a; var r = xo(t), a = this, n = a.cy(), i = n.styleEnabled(); if (i) for (var s = 0; s < a.length; s++) { var o = a[s], l = o._private, u = bo(o), f = l.bbCachePosKey === u, h = r.useCache && f && !l.styleDirty; o.recalculateRenderedStyle(h); } this.updateCompoundBounds(!t.useCache); for (var c = 0; c < a.length; c++) { var v = a[c]; Gr(e, Eo(v, r)); } } return e.x1 = Zt(e.x1), e.y1 = Zt(e.y1), e.x2 = Zt(e.x2), e.y2 = Zt(e.y2), e.w = Zt(e.x2 - e.x1), e.h = Zt(e.y2 - e.y1), e; }, Ar.dirtyBoundingBoxCache = function() { for (var t = 0; t < this.length; t++) { var e = this[t]._private; e.bbCache = null, e.bbCachePosKey = null, e.bodyBounds = null, e.overlayBounds = null, e.labelBounds.all = null, e.labelBounds.source = null, e.labelBounds.target = null, e.labelBounds.main = null, e.labelBounds.sourceRot = null, e.labelBounds.targetRot = null, e.labelBounds.mainRot = null, e.arrowBounds.source = null, e.arrowBounds.target = null, e.arrowBounds["mid-source"] = null, e.arrowBounds["mid-target"] = null; } return this.emitAndNotify("bounds"), this; }, Ar.boundingBoxAt = function(t) { var e = this.nodes(), r = this.cy(), a = r.hasCompoundNodes(), n = r.collection(); if (a && (n = e.filter(function(u) { return u.isParent(); }), e = e.not(n)), S(t)) { var i = t; t = function() { return i; }; } var s = function(f, h) { return f._private.bbAtOldPos = t(f, h); }, o = function(f) { return f._private.bbAtOldPos; }; r.startBatch(), e.forEach(s).silentPositions(t), a && (n.dirtyCompoundBoundsCache(), n.dirtyBoundingBoxCache(), n.updateCompoundBounds(!0)); var l = Tf(this.boundingBox({ useCache: !1 })); return e.silentPositions(o), a && (n.dirtyCompoundBoundsCache(), n.dirtyBoundingBoxCache(), n.updateCompoundBounds(!0)), r.endBatch(), l; }, ca.boundingbox = ca.bb = ca.boundingBox, ca.renderedBoundingbox = ca.renderedBoundingBox; var id = Ar, Ua, Ya; Ua = Ya = {}; var To = function(e) { e.uppercaseName = kt(e.name), e.autoName = "auto" + e.uppercaseName, e.labelName = "label" + e.uppercaseName, e.outerName = "outer" + e.uppercaseName, e.uppercaseOuterName = kt(e.outerName), Ua[e.name] = function() { var a = this[0], n = a._private, i = n.cy, s = i._private.styleEnabled; if (a) if (s) { if (a.isParent()) return a.updateCompoundBounds(), n[e.autoName] || 0; var o = a.pstyle(e.name); switch (o.strValue) { case "label": return a.recalculateRenderedStyle(), n.rstyle[e.labelName] || 0; default: return o.pfValue; } } else return 1; }, Ua["outer" + e.uppercaseName] = function() { var a = this[0], n = a._private, i = n.cy, s = i._private.styleEnabled; if (a) if (s) { var o = a[e.name](), l = a.pstyle("border-width").pfValue, u = 2 * a.padding(); return o + l + u; } else return 1; }, Ua["rendered" + e.uppercaseName] = function() { var a = this[0]; if (a) { var n = a[e.name](); return n * this.cy().zoom(); } }, Ua["rendered" + e.uppercaseOuterName] = function() { var a = this[0]; if (a) { var n = a[e.outerName](); return n * this.cy().zoom(); } }; }; To({ name: "width" }), To({ name: "height" }), Ya.padding = function() { var t = this[0], e = t._private; return t.isParent() ? (t.updateCompoundBounds(), e.autoPadding !== void 0 ? e.autoPadding : t.pstyle("padding").pfValue) : t.pstyle("padding").pfValue; }, Ya.paddedHeight = function() { var t = this[0]; return t.height() + 2 * t.padding(); }, Ya.paddedWidth = function() { var t = this[0]; return t.width() + 2 * t.padding(); }; var sd = Ya, od = function(e, r) { if (e.isEdge()) return r(e); }, ud = function(e, r) { if (e.isEdge()) { var a = e.cy(); return gn(r(e), a.zoom(), a.pan()); } }, ld = function(e, r) { if (e.isEdge()) { var a = e.cy(), n = a.pan(), i = a.zoom(); return r(e).map(function(s) { return gn(s, i, n); }); } }, fd = function(e) { return e.renderer().getControlPoints(e); }, hd = function(e) { return e.renderer().getSegmentPoints(e); }, cd = function(e) { return e.renderer().getSourceEndpoint(e); }, vd = function(e) { return e.renderer().getTargetEndpoint(e); }, dd = function(e) { return e.renderer().getEdgeMidpoint(e); }, Co = { controlPoints: { get: fd, mult: !0 }, segmentPoints: { get: hd, mult: !0 }, sourceEndpoint: { get: cd }, targetEndpoint: { get: vd }, midpoint: { get: dd } }, gd = function(e) { return "rendered" + e[0].toUpperCase() + e.substr(1); }, pd = Object.keys(Co).reduce(function(t, e) { var r = Co[e], a = gd(e); return t[e] = function() { return od(this, r.get); }, r.mult ? t[a] = function() { return ld(this, r.get); } : t[a] = function() { return ud(this, r.get); }, t; }, {}), yd = Ue({}, ad, id, sd, pd); /*! Event object based on jQuery events, MIT license https://jquery.org/license/ https://tldrlegal.com/license/mit-license https://github.com/jquery/jquery/blob/master/src/event.js */ var Do = function(e, r) { this.recycle(e, r); }; function Ha() { return !1; } function Nn() { return !0; } Do.prototype = { instanceString: function() { return "event"; }, recycle: function(e, r) { if (this.isImmediatePropagationStopped = this.isPropagationStopped = this.isDefaultPrevented = Ha, e != null && e.preventDefault ? (this.type = e.type, this.isDefaultPrevented = e.defaultPrevented ? Nn : Ha) : e != null && e.type ? r = e : this.type = e, r != null && (this.originalEvent = r.originalEvent, this.type = r.type != null ? r.type : this.type, this.cy = r.cy, this.target = r.target, this.position = r.position, this.renderedPosition = r.renderedPosition, this.namespace = r.namespace, this.layout = r.layout), this.cy != null && this.position != null && this.renderedPosition == null) { var a = this.position, n = this.cy.zoom(), i = this.cy.pan(); this.renderedPosition = { x: a.x * n + i.x, y: a.y * n + i.y }; } this.timeStamp = e && e.timeStamp || Date.now(); }, preventDefault: function() { this.isDefaultPrevented = Nn; var e = this.originalEvent; e && e.preventDefault && e.preventDefault(); }, stopPropagation: function() { this.isPropagationStopped = Nn; var e = this.originalEvent; e && e.stopPropagation && e.stopPropagation(); }, stopImmediatePropagation: function() { this.isImmediatePropagationStopped = Nn, this.stopPropagation(); }, isDefaultPrevented: Ha, isPropagationStopped: Ha, isImmediatePropagationStopped: Ha }; var So = /^([^.]+)(\.(?:[^.]+))?$/, md = ".*", Lo = { qualifierCompare: function(e, r) { return e === r; }, eventMatches: function() { return !0; }, addEventFields: function() { }, callbackContext: function(e) { return e; }, beforeEmit: function() { }, afterEmit: function() { }, bubble: function() { return !1; }, parent: function() { return null; }, context: null }, Ao = Object.keys(Lo), bd = {}; function Mn() { for (var t = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : bd, e = arguments.length > 1 ? arguments[1] : void 0, r = 0; r < Ao.length; r++) { var a = Ao[r]; this[a] = t[a] || Lo[a]; } this.context = e || this.context, this.listeners = [], this.emitting = 0; } var Or = Mn.prototype, Oo = function(e, r, a, n, i, s, o) { H(n) && (i = n, n = null), o && (s == null ? s = o : s = Ue({}, s, o)); for (var l = te(a) ? a : a.split(/\s+/), u = 0; u < l.length; u++) { var f = l[u]; if (!Pe(f)) { var h = f.match(So); if (h) { var c = h[1], v = h[2] ? h[2] : null, d = r(e, f, c, v, n, i, s); if (d === !1) break; } } } }, No = function(e, r) { return e.addEventFields(e.context, r), new Do(r.type, r); }, Ed = function(e, r, a) { if (ct(a)) { r(e, a); return; } else if (S(a)) { r(e, No(e, a)); return; } for (var n = te(a) ? a : a.split(/\s+/), i = 0; i < n.length; i++) { var s = n[i]; if (!Pe(s)) { var o = s.match(So); if (o) { var l = o[1], u = o[2] ? o[2] : null, f = No(e, { type: l, namespace: u, target: e.context }); r(e, f); } } } }; Or.on = Or.addListener = function(t, e, r, a, n) { return Oo(this, function(i, s, o, l, u, f, h) { H(f) && i.listeners.push({ event: s, // full event string callback: f, // callback to run type: o, // the event type (e.g. 'click') namespace: l, // the event namespace (e.g. ".foo") qualifier: u, // a restriction on whether to match this emitter conf: h // additional configuration }); }, t, e, r, a, n), this; }, Or.one = function(t, e, r, a) { return this.on(t, e, r, a, { one: !0 }); }, Or.removeListener = Or.off = function(t, e, r, a) { var n = this; this.emitting !== 0 && (this.listeners = Kl(this.listeners)); for (var i = this.listeners, s = function(u) { var f = i[u]; Oo(n, function(h, c, v, d, g, y) { if ((f.type === v || t === "*") && (!d && f.namespace !== ".*" || f.namespace === d) && (!g || h.qualifierCompare(f.qualifier, g)) && (!y || f.callback === y)) return i.splice(u, 1), !1; }, t, e, r, a); }, o = i.length - 1; o >= 0; o--) s(o); return this; }, Or.removeAllListeners = function() { return this.removeListener("*"); }, Or.emit = Or.trigger = function(t, e, r) { var a = this.listeners, n = a.length; return this.emitting++, te(e) || (e = [e]), Ed(this, function(i, s) { r != null && (a = [{ event: s.event, type: s.type, namespace: s.namespace, callback: r }], n = a.length); for (var o = function(f) { var h = a[f]; if (h.type === s.type && (!h.namespace || h.namespace === s.namespace || h.namespace === md) && i.eventMatches(i.context, h, s)) { var c = [s]; e != null && Ql(c, e), i.beforeEmit(i.context, h, s), h.conf && h.conf.one && (i.listeners = i.listeners.filter(function(g) { return g !== h; })); var v = i.callbackContext(i.context, h, s), d = h.callback.apply(v, c); i.afterEmit(i.context, h, s), d === !1 && (s.stopPropagation(), s.preventDefault()); } }, l = 0; l < n; l++) o(l); i.bubble(i.context) && !s.isPropagationStopped() && i.parent(i.context).emit(s, e); }, t), this.emitting--, this; }; var wd = { qualifierCompare: function(e, r) { return e == null || r == null ? e == null && r == null : e.sameText(r); }, eventMatches: function(e, r, a) { var n = r.qualifier; return n != null ? e !== a.target && Ae(a.target) && n.matches(a.target) : !0; }, addEventFields: function(e, r) { r.cy = e.cy(), r.target = e; }, callbackContext: function(e, r, a) { return r.qualifier != null ? a.target : e; }, beforeEmit: function(e, r) { r.conf && r.conf.once && r.conf.onceCollection.removeListener(r.event, r.qualifier, r.callback); }, bubble: function() { return !0; }, parent: function(e) { return e.isChild() ? e.parent() : e.cy(); } }, In = function(e) { return ee(e) ? new Dr(e) : e; }, Mo = { createEmitter: function() { for (var e = 0; e < this.length; e++) { var r = this[e], a = r._private; a.emitter || (a.emitter = new Mn(wd, r)); } return this; }, emitter: function() { return this._private.emitter; }, on: function(e, r, a) { for (var n = In(r), i = 0; i < this.length; i++) { var s = this[i]; s.emitter().on(e, n, a); } return this; }, removeListener: function(e, r, a) { for (var n = In(r), i = 0; i < this.length; i++) { var s = this[i]; s.emitter().removeListener(e, n, a); } return this; }, removeAllListeners: function() { for (var e = 0; e < this.length; e++) { var r = this[e]; r.emitter().removeAllListeners(); } return this; }, one: function(e, r, a) { for (var n = In(r), i = 0; i < this.length; i++) { var s = this[i]; s.emitter().one(e, n, a); } return this; }, once: function(e, r, a) { for (var n = In(r), i = 0; i < this.length; i++) { var s = this[i]; s.emitter().on(e, n, a, { once: !0, onceCollection: this }); } }, emit: function(e, r) { for (var a = 0; a < this.length; a++) { var n = this[a]; n.emitter().emit(e, r); } return this; }, emitAndNotify: function(e, r) { if (this.length !== 0) return this.cy().notify(e, this), this.emit(e, r), this; } }; ht.eventAliasesOn(Mo); var Io = { nodes: function(e) { return this.filter(function(r) { return r.isNode(); }).filter(e); }, edges: function(e) { return this.filter(function(r) { return r.isEdge(); }).filter(e); }, // internal helper to get nodes and edges as separate collections with single iteration over elements byGroup: function() { for (var e = this.spawn(), r = this.spawn(), a = 0; a < this.length; a++) { var n = this[a]; n.isNode() ? e.push(n) : r.push(n); } return { nodes: e, edges: r }; }, filter: function(e, r) { if (e === void 0) return this; if (ee(e) || pe(e)) return new Dr(e).filter(this); if (H(e)) { for (var a = this.spawn(), n = this, i = 0; i < n.length; i++) { var s = n[i], o = r ? e.apply(r, [s, i, n]) : e(s, i, n); o && a.push(s); } return a; } return this.spawn(); }, not: function(e) { if (e) { ee(e) && (e = this.filter(e)); for (var r = this.spawn(), a = 0; a < this.length; a++) { var n = this[a], i = e.has(n); i || r.push(n); } return r; } else return this; }, absoluteComplement: function() { var e = this.cy(); return e.mutableElements().not(this); }, intersect: function(e) { if (ee(e)) { var r = e; return this.filter(r); } for (var a = this.spawn(), n = this, i = e, s = this.length < e.length, o = s ? n : i, l = s ? i : n, u = 0; u < o.length; u++) { var f = o[u]; l.has(f) && a.push(f); } return a; }, xor: function(e) { var r = this._private.cy; ee(e) && (e = r.$(e)); var a = this.spawn(), n = this, i = e, s = function(l, u) { for (var f = 0; f < l.length; f++) { var h = l[f], c = h._private.data.id, v = u.hasElementWithId(c); v || a.push(h); } }; return s(n, i), s(i, n), a; }, diff: function(e) { var r = this._private.cy; ee(e) && (e = r.$(e)); var a = this.spawn(), n = this.spawn(), i = this.spawn(), s = this, o = e, l = function(f, h, c) { for (var v = 0; v < f.length; v++) { var d = f[v], g = d._private.data.id, y = h.hasElementWithId(g); y ? i.merge(d) : c.push(d); } }; return l(s, o, a), l(o, s, n), { left: a, right: n, both: i }; }, add: function(e) { var r = this._private.cy; if (!e) return this; if (ee(e)) { var a = e; e = r.mutableElements().filter(a); } for (var n = this.spawnSelf(), i = 0; i < e.length; i++) { var s = e[i], o = !this.has(s); o && n.push(s); } return n; }, // in place merge on calling collection merge: function(e) { var r = this._private, a = r.cy; if (!e) return this; if (e && ee(e)) { var n = e; e = a.mutableElements().filter(n); } for (var i = r.map, s = 0; s < e.length; s++) { var o = e[s], l = o._private.data.id, u = !i.has(l); if (u) { var f = this.length++; this[f] = o, i.set(l, { ele: o, index: f }); } } return this; }, unmergeAt: function(e) { var r = this[e], a = r.id(), n = this._private, i = n.map; this[e] = void 0, i.delete(a); var s = e === this.length - 1; if (this.length > 1 && !s) { var o = this.length - 1, l = this[o], u = l._private.data.id; this[o] = void 0, this[e] = l, i.set(u, { ele: l, index: e }); } return this.length--, this; }, // remove single ele in place in calling collection unmergeOne: function(e) { e = e[0]; var r = this._private, a = e._private.data.id, n = r.map, i = n.get(a); if (!i) return this; var s = i.index; return this.unmergeAt(s), this; }, // remove eles in place on calling collection unmerge: function(e) { var r = this._private.cy; if (!e) return this; if (e && ee(e)) { var a = e; e = r.mutableElements().filter(a); } for (var n = 0; n < e.length; n++) this.unmergeOne(e[n]); return this; }, unmergeBy: function(e) { for (var r = this.length - 1; r >= 0; r--) { var a = this[r]; e(a) && this.unmergeAt(r); } return this; }, map: function(e, r) { for (var a = [], n = this, i = 0; i < n.length; i++) { var s = n[i], o = r ? e.apply(r, [s, i, n]) : e(s, i, n); a.push(o); } return a; }, reduce: function(e, r) { for (var a = r, n = this, i = 0; i < n.length; i++) a = e(a, n[i], i, n); return a; }, max: function(e, r) { for (var a = -1 / 0, n, i = this, s = 0; s < i.length; s++) { var o = i[s], l = r ? e.apply(r, [o, s, i]) : e(o, s, i); l > a && (a = l, n = o); } return { value: a, ele: n }; }, min: function(e, r) { for (var a = 1 / 0, n, i = this, s = 0; s < i.length; s++) { var o = i[s], l = r ? e.apply(r, [o, s, i]) : e(o, s, i); l < a && (a = l, n = o); } return { value: a, ele: n }; } }, st = Io; st.u = st["|"] = st["+"] = st.union = st.or = st.add, st["\\"] = st["!"] = st["-"] = st.difference = st.relativeComplement = st.subtract = st.not, st.n = st["&"] = st["."] = st.and = st.intersection = st.intersect, st["^"] = st["(+)"] = st["(-)"] = st.symmetricDifference = st.symdiff = st.xor, st.fnFilter = st.filterFn = st.stdFilter = st.filter, st.complement = st.abscomp = st.absoluteComplement; var xd = { isNode: function() { return this.group() === "nodes"; }, isEdge: function() { return this.group() === "edges"; }, isLoop: function() { return this.isEdge() && this.source()[0] === this.target()[0]; }, isSimple: function() { return this.isEdge() && this.source()[0] !== this.target()[0]; }, group: function() { var e = this[0]; if (e) return e._private.group; } }, Ro = function(e, r) { var a = e.cy(), n = a.hasCompoundNodes(); function i(f) { var h = f.pstyle("z-compound-depth"); return h.value === "auto" ? n ? f.zDepth() : 0 : h.value === "bottom" ? -1 : h.value === "top" ? ii : 0; } var s = i(e) - i(r); if (s !== 0) return s; function o(f) { var h = f.pstyle("z-index-compare"); return h.value === "auto" && f.isNode() ? 1 : 0; } var l = o(e) - o(r); if (l !== 0) return l; var u = e.pstyle("z-index").value - r.pstyle("z-index").value; return u !== 0 ? u : e.poolIndex() - r.poolIndex(); }, Rn = { forEach: function(e, r) { if (H(e)) for (var a = this.length, n = 0; n < a; n++) { var i = this[n], s = r ? e.apply(r, [i, n, this]) : e(i, n, this); if (s === !1) break; } return this; }, toArray: function() { for (var e = [], r = 0; r < this.length; r++) e.push(this[r]); return e; }, slice: function(e, r) { var a = [], n = this.length; r == null && (r = n), e == null && (e = 0), e < 0 && (e = n + e), r < 0 && (r = n + r); for (var i = e; i >= 0 && i < r && i < n; i++) a.push(this[i]); return this.spawn(a); }, size: function() { return this.length; }, eq: function(e) { return this[e] || this.spawn(); }, first: function() { return this[0] || this.spawn(); }, last: function() { return this[this.length - 1] || this.spawn(); }, empty: function() { return this.length === 0; }, nonempty: function() { return !this.empty(); }, sort: function(e) { if (!H(e)) return this; var r = this.toArray().sort(e); return this.spawn(r); }, sortByZIndex: function() { return this.sort(Ro); }, zDepth: function() { var e = this[0]; if (e) { var r = e._private, a = r.group; if (a === "nodes") { var n = r.data.parent ? e.parents().size() : 0; return e.isParent() ? n : ii - 1; } else { var i = r.source, s = r.target, o = i.zDepth(), l = s.zDepth(); return Math.max(o, l, 0); } } } }; Rn.each = Rn.forEach; var Td = function() { var e = "undefined", r = (typeof Symbol > "u" ? "undefined" : Q(Symbol)) != e && Q(Symbol.iterator) != e; r && (Rn[Symbol.iterator] = function() { var a = this, n = { value: void 0, done: !1 }, i = 0, s = this.length; return T({ next: function() { return i < s ? n.value = a[i++] : (n.value = void 0, n.done = !0), n; } }, Symbol.iterator, function() { return this; }); }); }; Td(); var Cd = Lt({ nodeDimensionsIncludeLabels: !1 }), kn = { // Calculates and returns node dimensions { x, y } based on options given layoutDimensions: function(e) { e = Cd(e); var r; if (!this.takesUpSpace()) r = { w: 0, h: 0 }; else if (e.nodeDimensionsIncludeLabels) { var a = this.boundingBox(); r = { w: a.w, h: a.h }; } else r = { w: this.outerWidth(), h: this.outerHeight() }; return (r.w === 0 || r.h === 0) && (r.w = r.h = 1), r; }, // using standard layout options, apply position function (w/ or w/o animation) layoutPositions: function(e, r, a) { var n = this.nodes().filter(function(M) { return !M.isParent(); }), i = this.cy(), s = r.eles, o = function(O) { return O.id(); }, l = nt(a, o); e.emit({ type: "layoutstart", layout: e }), e.animations = []; var u = function(O, x, I) { var C = { x: x.x1 + x.w / 2, y: x.y1 + x.h / 2 }, B = { // scale from center of bounding box (not necessarily 0,0) x: (I.x - C.x) * O, y: (I.y - C.y) * O }; return { x: C.x + B.x, y: C.y + B.y }; }, f = r.spacingFactor && r.spacingFactor !== 1, h = function() { if (!f) return null; for (var O = Ut(), x = 0; x < n.length; x++) { var I = n[x], C = l(I, x); Sf(O, C.x, C.y); } return O; }, c = h(), v = nt(function(M, O) { var x = l(M, O); if (f) { var I = Math.abs(r.spacingFactor); x = u(I, c, x); } return r.transform != null && (x = r.transform(M, x)), x; }, o); if (r.animate) { for (var d = 0; d < n.length; d++) { var g = n[d], y = v(g, d), p = r.animateFilter == null || r.animateFilter(g, d); if (p) { var m = g.animation({ position: y, duration: r.animationDuration, easing: r.animationEasing }); e.animations.push(m); } else g.position(y); } if (r.fit) { var b = i.animation({ fit: { boundingBox: s.boundingBoxAt(v), padding: r.padding }, duration: r.animationDuration, easing: r.animationEasing }); e.animations.push(b); } else if (r.zoom !== void 0 && r.pan !== void 0) { var E = i.animation({ zoom: r.zoom, pan: r.pan, duration: r.animationDuration, easing: r.animationEasing }); e.animations.push(E); } e.animations.forEach(function(M) { return M.play(); }), e.one("layoutready", r.ready), e.emit({ type: "layoutready", layout: e }), ia.all(e.animations.map(function(M) { return M.promise(); })).then(function() { e.one("layoutstop", r.stop), e.emit({ type: "layoutstop", layout: e }); }); } else n.positions(v), r.fit && i.fit(r.eles, r.padding), r.zoom != null && i.zoom(r.zoom), r.pan && i.pan(r.pan), e.one("layoutready", r.ready), e.emit({ type: "layoutready", layout: e }), e.one("layoutstop", r.stop), e.emit({ type: "layoutstop", layout: e }); return this; }, layout: function(e) { var r = this.cy(); return r.makeLayout(Ue({}, e, { eles: this })); } }; kn.createLayout = kn.makeLayout = kn.layout; function ko(t, e, r) { var a = r._private, n = a.styleCache = a.styleCache || [], i; return (i = n[t]) != null || (i = n[t] = e(r)), i; } function Pn(t, e) { return t = kr(t), function(a) { return ko(t, e, a); }; } function Bn(t, e) { t = kr(t); var r = function(n) { return e.call(n); }; return function() { var n = this[0]; if (n) return ko(t, r, n); }; } var At = { recalculateRenderedStyle: function(e) { var r = this.cy(), a = r.renderer(), n = r.styleEnabled(); return a && n && a.recalculateRenderedStyle(this, e), this; }, dirtyStyleCache: function() { var e = this.cy(), r = function(i) { return i._private.styleCache = null; }; if (e.hasCompoundNodes()) { var a; a = this.spawnSelf().merge(this.descendants()).merge(this.parents()), a.merge(a.connectedEdges()), a.forEach(r); } else this.forEach(function(n) { r(n), n.connectedEdges().forEach(r); }); return this; }, // fully updates (recalculates) the style for the elements updateStyle: function(e) { var r = this._private.cy; if (!r.styleEnabled()) return this; if (r.batching()) { var a = r._private.batchStyleEles; return a.merge(this), this; } var n = r.hasCompoundNodes(), i = this; e = !!(e || e === void 0), n && (i = this.spawnSelf().merge(this.descendants()).merge(this.parents())); var s = i; return e ? s.emitAndNotify("style") : s.emit("style"), i.forEach(function(o) { return o._private.styleDirty = !0; }), this; }, // private: clears dirty flag and recalculates style cleanStyle: function() { var e = this.cy(); if (e.styleEnabled()) for (var r = 0; r < this.length; r++) { var a = this[r]; a._private.styleDirty && (a._private.styleDirty = !1, e.style().apply(a)); } }, // get the internal parsed style object for the specified property parsedStyle: function(e) { var r = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !0, a = this[0], n = a.cy(); if (n.styleEnabled() && a) { this.cleanStyle(); var i = a._private.style[e]; return i ?? (r ? n.style().getDefaultProperty(e) : null); } }, numericStyle: function(e) { var r = this[0]; if (r.cy().styleEnabled() && r) { var a = r.pstyle(e); return a.pfValue !== void 0 ? a.pfValue : a.value; } }, numericStyleUnits: function(e) { var r = this[0]; if (r.cy().styleEnabled() && r) return r.pstyle(e).units; }, // get the specified css property as a rendered value (i.e. on-screen value) // or get the whole rendered style if no property specified (NB doesn't allow setting) renderedStyle: function(e) { var r = this.cy(); if (!r.styleEnabled()) return this; var a = this[0]; if (a) return r.style().getRenderedStyle(a, e); }, // read the calculated css style of the element or override the style (via a bypass) style: function(e, r) { var a = this.cy(); if (!a.styleEnabled()) return this; var n = !1, i = a.style(); if (S(e)) { var s = e; i.applyBypass(this, s, n), this.emitAndNotify("style"); } else if (ee(e)) if (r === void 0) { var o = this[0]; return o ? i.getStylePropertyValue(o, e) : void 0; } else i.applyBypass(this, e, r, n), this.emitAndNotify("style"); else if (e === void 0) { var l = this[0]; return l ? i.getRawStyle(l) : void 0; } return this; }, removeStyle: function(e) { var r = this.cy(); if (!r.styleEnabled()) return this; var a = !1, n = r.style(), i = this; if (e === void 0) for (var s = 0; s < i.length; s++) { var o = i[s]; n.removeAllBypasses(o, a); } else { e = e.split(/\s+/); for (var l = 0; l < i.length; l++) { var u = i[l]; n.removeBypasses(u, e, a); } } return this.emitAndNotify("style"), this; }, show: function() { return this.css("display", "element"), this; }, hide: function() { return this.css("display", "none"), this; }, effectiveOpacity: function() { var e = this.cy(); if (!e.styleEnabled()) return 1; var r = e.hasCompoundNodes(), a = this[0]; if (a) { var n = a._private, i = a.pstyle("opacity").value; if (!r) return i; var s = n.data.parent ? a.parents() : null; if (s) for (var o = 0; o < s.length; o++) { var l = s[o], u = l.pstyle("opacity").value; i = u * i; } return i; } }, transparent: function() { var e = this.cy(); if (!e.styleEnabled()) return !1; var r = this[0], a = r.cy().hasCompoundNodes(); if (r) return a ? r.effectiveOpacity() === 0 : r.pstyle("opacity").value === 0; }, backgrounding: function() { var e = this.cy(); if (!e.styleEnabled()) return !1; var r = this[0]; return !!r._private.backgrounding; } }; function Ni(t, e) { var r = t._private, a = r.data.parent ? t.parents() : null; if (a) for (var n = 0; n < a.length; n++) { var i = a[n]; if (!e(i)) return !1; } return !0; } function Mi(t) { var e = t.ok, r = t.edgeOkViaNode || t.ok, a = t.parentOk || t.ok; return function() { var n = this.cy(); if (!n.styleEnabled()) return !0; var i = this[0], s = n.hasCompoundNodes(); if (i) { var o = i._private; if (!e(i)) return !1; if (i.isNode()) return !s || Ni(i, a); var l = o.source, u = o.target; return r(l) && (!s || Ni(l, r)) && (l === u || r(u) && (!s || Ni(u, r))); } }; } var va = Pn("eleTakesUpSpace", function(t) { return t.pstyle("display").value === "element" && t.width() !== 0 && (t.isNode() ? t.height() !== 0 : !0); }); At.takesUpSpace = Bn("takesUpSpace", Mi({ ok: va })); var Dd = Pn("eleInteractive", function(t) { return t.pstyle("events").value === "yes" && t.pstyle("visibility").value === "visible" && va(t); }), Sd = Pn("parentInteractive", function(t) { return t.pstyle("visibility").value === "visible" && va(t); }); At.interactive = Bn("interactive", Mi({ ok: Dd, parentOk: Sd, edgeOkViaNode: va })), At.noninteractive = function() { var t = this[0]; if (t) return !t.interactive(); }; var Ld = Pn("eleVisible", function(t) { return t.pstyle("visibility").value === "visible" && t.pstyle("opacity").pfValue !== 0 && va(t); }), Ad = va; At.visible = Bn("visible", Mi({ ok: Ld, edgeOkViaNode: Ad })), At.hidden = function() { var t = this[0]; if (t) return !t.visible(); }, At.isBundledBezier = Bn("isBundledBezier", function() { return this.cy().styleEnabled() ? !this.removed() && this.pstyle("curve-style").value === "bezier" && this.takesUpSpace() : !1; }), At.bypass = At.css = At.style, At.renderedCss = At.renderedStyle, At.removeBypass = At.removeCss = At.removeStyle, At.pstyle = At.parsedStyle; var Nr = {}; function Po(t) { return function() { var e = arguments, r = []; if (e.length === 2) { var a = e[0], n = e[1]; this.on(t.event, a, n); } else if (e.length === 1 && H(e[0])) { var i = e[0]; this.on(t.event, i); } else if (e.length === 0 || e.length === 1 && te(e[0])) { for (var s = e.length === 1 ? e[0] : null, o = 0; o < this.length; o++) { var l = this[o], u = !t.ableField || l._private[t.ableField], f = l._private[t.field] != t.value; if (t.overrideAble) { var h = t.overrideAble(l); if (h !== void 0 && (u = h, !h)) return this; } u && (l._private[t.field] = t.value, f && r.push(l)); } var c = this.spawn(r); c.updateStyle(), c.emit(t.event), s && c.emit(s); } return this; }; } function da(t) { Nr[t.field] = function() { var e = this[0]; if (e) { if (t.overrideField) { var r = t.overrideField(e); if (r !== void 0) return r; } return e._private[t.field]; } }, Nr[t.on] = Po({ event: t.on, field: t.field, ableField: t.ableField, overrideAble: t.overrideAble, value: !0 }), Nr[t.off] = Po({ event: t.off, field: t.field, ableField: t.ableField, overrideAble: t.overrideAble, value: !1 }); } da({ field: "locked", overrideField: function(e) { return e.cy().autolock() ? !0 : void 0; }, on: "lock", off: "unlock" }), da({ field: "grabbable", overrideField: function(e) { return e.cy().autoungrabify() || e.pannable() ? !1 : void 0; }, on: "grabify", off: "ungrabify" }), da({ field: "selected", ableField: "selectable", overrideAble: function(e) { return e.cy().autounselectify() ? !1 : void 0; }, on: "select", off: "unselect" }), da({ field: "selectable", overrideField: function(e) { return e.cy().autounselectify() ? !1 : void 0; }, on: "selectify", off: "unselectify" }), Nr.deselect = Nr.unselect, Nr.grabbed = function() { var t = this[0]; if (t) return t._private.grabbed; }, da({ field: "active", on: "activate", off: "unactivate" }), da({ field: "pannable", on: "panify", off: "unpanify" }), Nr.inactive = function() { var t = this[0]; if (t) return !t._private.active; }; var Pt = {}, Bo = function(e) { return function(a) { for (var n = this, i = [], s = 0; s < n.length; s++) { var o = n[s]; if (o.isNode()) { for (var l = !1, u = o.connectedEdges(), f = 0; f < u.length; f++) { var h = u[f], c = h.source(), v = h.target(); if (e.noIncomingEdges && v === o && c !== o || e.noOutgoingEdges && c === o && v !== o) { l = !0; break; } } l || i.push(o); } } return this.spawn(i, !0).filter(a); }; }, Fo = function(e) { return function(r) { for (var a = this, n = [], i = 0; i < a.length; i++) { var s = a[i]; if (s.isNode()) for (var o = s.connectedEdges(), l = 0; l < o.length; l++) { var u = o[l], f = u.source(), h = u.target(); e.outgoing && f === s ? (n.push(u), n.push(h)) : e.incoming && h === s && (n.push(u), n.push(f)); } } return this.spawn(n, !0).filter(r); }; }, zo = function(e) { return function(r) { for (var a = this, n = [], i = {}; ; ) { var s = e.outgoing ? a.outgoers() : a.incomers(); if (s.length === 0) break; for (var o = !1, l = 0; l < s.length; l++) { var u = s[l], f = u.id(); i[f] || (i[f] = !0, n.push(u), o = !0); } if (!o) break; a = s; } return this.spawn(n, !0).filter(r); }; }; Pt.clearTraversalCache = function() { for (var t = 0; t < this.length; t++) this[t]._private.traversalCache = null; }, Ue(Pt, { // get the root nodes in the DAG roots: Bo({ noIncomingEdges: !0 }), // get the leaf nodes in the DAG leaves: Bo({ noOutgoingEdges: !0 }), // normally called children in graph theory // these nodes =edges=> outgoing nodes outgoers: Kt(Fo({ outgoing: !0 }), "outgoers"), // aka DAG descendants successors: zo({ outgoing: !0 }), // normally called parents in graph theory // these nodes <=edges= incoming nodes incomers: Kt(Fo({ incoming: !0 }), "incomers"), // aka DAG ancestors predecessors: zo({ incoming: !0 }) }), Ue(Pt, { neighborhood: Kt(function(t) { for (var e = [], r = this.nodes(), a = 0; a < r.length; a++) for (var n = r[a], i = n.connectedEdges(), s = 0; s < i.length; s++) { var o = i[s], l = o.source(), u = o.target(), f = n === l ? u : l; f.length > 0 && e.push(f[0]), e.push(o[0]); } return this.spawn(e, !0).filter(t); }, "neighborhood"), closedNeighborhood: function(e) { return this.neighborhood().add(this).filter(e); }, openNeighborhood: function(e) { return this.neighborhood(e); } }), Pt.neighbourhood = Pt.neighborhood, Pt.closedNeighbourhood = Pt.closedNeighborhood, Pt.openNeighbourhood = Pt.openNeighborhood, Ue(Pt, { source: Kt(function(e) { var r = this[0], a; return r && (a = r._private.source || r.cy().collection()), a && e ? a.filter(e) : a; }, "source"), target: Kt(function(e) { var r = this[0], a; return r && (a = r._private.target || r.cy().collection()), a && e ? a.filter(e) : a; }, "target"), sources: Go({ attr: "source" }), targets: Go({ attr: "target" }) }); function Go(t) { return function(r) { for (var a = [], n = 0; n < this.length; n++) { var i = this[n], s = i._private[t.attr]; s && a.push(s); } return this.spawn(a, !0).filter(r); }; } Ue(Pt, { edgesWith: Kt($o(), "edgesWith"), edgesTo: Kt($o({ thisIsSrc: !0 }), "edgesTo") }); function $o(t) { return function(r) { var a = [], n = this._private.cy, i = t || {}; ee(r) && (r = n.$(r)); for (var s = 0; s < r.length; s++) for (var o = r[s]._private.edges, l = 0; l < o.length; l++) { var u = o[l], f = u._private.data, h = this.hasElementWithId(f.source) && r.hasElementWithId(f.target), c = r.hasElementWithId(f.source) && this.hasElementWithId(f.target), v = h || c; v && ((i.thisIsSrc || i.thisIsTgt) && (i.thisIsSrc && !h || i.thisIsTgt && !c) || a.push(u)); } return this.spawn(a, !0); }; } Ue(Pt, { connectedEdges: Kt(function(t) { for (var e = [], r = this, a = 0; a < r.length; a++) { var n = r[a]; if (n.isNode()) for (var i = n._private.edges, s = 0; s < i.length; s++) { var o = i[s]; e.push(o); } } return this.spawn(e, !0).filter(t); }, "connectedEdges"), connectedNodes: Kt(function(t) { for (var e = [], r = this, a = 0; a < r.length; a++) { var n = r[a]; n.isEdge() && (e.push(n.source()[0]), e.push(n.target()[0])); } return this.spawn(e, !0).filter(t); }, "connectedNodes"), parallelEdges: Kt(Vo(), "parallelEdges"), codirectedEdges: Kt(Vo({ codirected: !0 }), "codirectedEdges") }); function Vo(t) { var e = { codirected: !1 }; return t = Ue({}, e, t), function(a) { for (var n = [], i = this.edges(), s = t, o = 0; o < i.length; o++) for (var l = i[o], u = l._private, f = u.source, h = f._private.data.id, c = u.data.target, v = f._private.edges, d = 0; d < v.length; d++) { var g = v[d], y = g._private.data, p = y.target, m = y.source, b = p === c && m === h, E = h === p && c === m; (s.codirected && b || !s.codirected && (b || E)) && n.push(g); } return this.spawn(n, !0).filter(a); }; } Ue(Pt, { components: function(e) { var r = this, a = r.cy(), n = a.collection(), i = e == null ? r.nodes() : e.nodes(), s = []; e != null && i.empty() && (i = e.sources()); var o = function(f, h) { n.merge(f), i.unmerge(f), h.merge(f); }; if (i.empty()) return r.spawn(); var l = function() { var f = a.collection(); s.push(f); var h = i[0]; o(h, f), r.bfs({ directed: !1, roots: h, visit: function(v) { return o(v, f); } }), f.forEach(function(c) { c.connectedEdges().forEach(function(v) { r.has(v) && f.has(v.source()) && f.has(v.target()) && f.merge(v); }); }); }; do l(); while (i.length > 0); return s; }, component: function() { var e = this[0]; return e.cy().mutableElements().components(e)[0]; } }), Pt.componentsOf = Pt.components; var Ot = function(e, r) { var a = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : !1, n = arguments.length > 3 && arguments[3] !== void 0 ? arguments[3] : !1; if (e === void 0) { xt("A collection must have a reference to the core"); return; } var i = new ur(), s = !1; if (!r) r = []; else if (r.length > 0 && S(r[0]) && !Ae(r[0])) { s = !0; for (var o = [], l = new Jr(), u = 0, f = r.length; u < f; u++) { var h = r[u]; h.data == null && (h.data = {}); var c = h.data; if (c.id == null) c.id = ps(); else if (e.hasElementWithId(c.id) || l.has(c.id)) continue; var v = new dn(e, h, !1); o.push(v), l.add(c.id); } r = o; } this.length = 0; for (var d = 0, g = r.length; d < g; d++) { var y = r[d][0]; if (y != null) { var p = y._private.data.id; (!a || !i.has(p)) && (a && i.set(p, { index: this.length, ele: y }), this[this.length] = y, this.length++); } } this._private = { eles: this, cy: e, get map() { return this.lazyMap == null && this.rebuildMap(), this.lazyMap; }, set map(m) { this.lazyMap = m; }, rebuildMap: function() { for (var b = this.lazyMap = new ur(), E = this.eles, M = 0; M < E.length; M++) { var O = E[M]; b.set(O.id(), { index: M, ele: O }); } } }, a && (this._private.map = i), s && !n && this.restore(); }, mt = dn.prototype = Ot.prototype = Object.create(Array.prototype); mt.instanceString = function() { return "collection"; }, mt.spawn = function(t, e) { return new Ot(this.cy(), t, e); }, mt.spawnSelf = function() { return this.spawn(this); }, mt.cy = function() { return this._private.cy; }, mt.renderer = function() { return this._private.cy.renderer(); }, mt.element = function() { return this[0]; }, mt.collection = function() { return Ne(this) ? this : new Ot(this._private.cy, [this]); }, mt.unique = function() { return new Ot(this._private.cy, this, !0); }, mt.hasElementWithId = function(t) { return t = "" + t, this._private.map.has(t); }, mt.getElementById = function(t) { t = "" + t; var e = this._private.cy, r = this._private.map.get(t); return r ? r.ele : new Ot(e); }, mt.$id = mt.getElementById, mt.poolIndex = function() { var t = this._private.cy, e = t._private.elements, r = this[0]._private.data.id; return e._private.map.get(r).index; }, mt.indexOf = function(t) { var e = t[0]._private.data.id; return this._private.map.get(e).index; }, mt.indexOfId = function(t) { return t = "" + t, this._private.map.get(t).index; }, mt.json = function(t) { var e = this.element(), r = this.cy(); if (e == null && t) return this; if (e != null) { var a = e._private; if (S(t)) { if (r.startBatch(), t.data) { e.data(t.data); var n = a.data; if (e.isEdge()) { var i = !1, s = {}, o = t.data.source, l = t.data.target; o != null && o != n.source && (s.source = "" + o, i = !0), l != null && l != n.target && (s.target = "" + l, i = !0), i && (e = e.move(s)); } else { var u = "parent" in t.data, f = t.data.parent; u && (f != null || n.parent != null) && f != n.parent && (f === void 0 && (f = null), f != null && (f = "" + f), e = e.move({ parent: f })); } } t.position && e.position(t.position); var h = function(g, y, p) { var m = t[g]; m != null && m !== a[g] && (m ? e[y]() : e[p]()); }; return h("removed", "remove", "restore"), h("selected", "select", "unselect"), h("selectable", "selectify", "unselectify"), h("locked", "lock", "unlock"), h("grabbable", "grabify", "ungrabify"), h("pannable", "panify", "unpanify"), t.classes != null && e.classes(t.classes), r.endBatch(), this; } else if (t === void 0) { var c = { data: or(a.data), position: or(a.position), group: a.group, removed: a.removed, selected: a.selected, selectable: a.selectable, locked: a.locked, grabbable: a.grabbable, pannable: a.pannable, classes: null }; c.classes = ""; var v = 0; return a.classes.forEach(function(d) { return c.classes += v++ === 0 ? d : " " + d; }), c; } } }, mt.jsons = function() { for (var t = [], e = 0; e < this.length; e++) { var r = this[e], a = r.json(); t.push(a); } return t; }, mt.clone = function() { for (var t = this.cy(), e = [], r = 0; r < this.length; r++) { var a = this[r], n = a.json(), i = new dn(t, n, !1); e.push(i); } return new Ot(t, e); }, mt.copy = mt.clone, mt.restore = function() { for (var t = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : !0, e = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !0, r = this, a = r.cy(), n = a._private, i = [], s = [], o, l = 0, u = r.length; l < u; l++) { var f = r[l]; e && !f.removed() || (f.isNode() ? i.push(f) : s.push(f)); } o = i.concat(s); var h, c = function() { o.splice(h, 1), h--; }; for (h = 0; h < o.length; h++) { var v = o[h], d = v._private, g = d.data; if (v.clearTraversalCache(), !(!e && !d.removed)) { if (g.id === void 0) g.id = ps(); else if (k(g.id)) g.id = "" + g.id; else if (Pe(g.id) || !ee(g.id)) { xt("Can not create element with invalid string ID `" + g.id + "`"), c(); continue; } else if (a.hasElementWithId(g.id)) { xt("Can not create second element with ID `" + g.id + "`"), c(); continue; } } var y = g.id; if (v.isNode()) { var p = d.position; p.x == null && (p.x = 0), p.y == null && (p.y = 0); } if (v.isEdge()) { for (var m = v, b = ["source", "target"], E = b.length, M = !1, O = 0; O < E; O++) { var x = b[O], I = g[x]; k(I) && (I = g[x] = "" + g[x]), I == null || I === "" ? (xt("Can not create edge `" + y + "` with unspecified " + x), M = !0) : a.hasElementWithId(I) || (xt("Can not create edge `" + y + "` with nonexistant " + x + " `" + I + "`"), M = !0); } if (M) { c(); continue; } var C = a.getElementById(g.source), B = a.getElementById(g.target); C.same(B) ? C._private.edges.push(m) : (C._private.edges.push(m), B._private.edges.push(m)), m._private.source = C, m._private.target = B; } d.map = new ur(), d.map.set(y, { ele: v, index: 0 }), d.removed = !1, e && a.addToPool(v); } for (var F = 0; F < i.length; F++) { var R = i[F], X = R._private.data; k(X.parent) && (X.parent = "" + X.parent); var z = X.parent, re = z != null; if (re || R._private.parent) { var W = R._private.parent ? a.collection().merge(R._private.parent) : a.getElementById(z); if (W.empty()) X.parent = void 0; else if (W[0].removed()) ft("Node added with missing parent, reference to parent removed"), X.parent = void 0, R._private.parent = null; else { for (var Z = !1, ie = W; !ie.empty(); ) { if (R.same(ie)) { Z = !0, X.parent = void 0; break; } ie = ie.parent(); } Z || (W[0]._private.children.push(R), R._private.parent = W[0], n.hasCompoundNodes = !0); } } } if (o.length > 0) { for (var oe = o.length === r.length ? r : new Ot(a, o), ge = 0; ge < oe.length; ge++) { var se = oe[ge]; se.isNode() || (se.parallelEdges().clearTraversalCache(), se.source().clearTraversalCache(), se.target().clearTraversalCache()); } var de; n.hasCompoundNodes ? de = a.collection().merge(oe).merge(oe.connectedNodes()).merge(oe.parent()) : de = oe, de.dirtyCompoundBoundsCache().dirtyBoundingBoxCache().updateStyle(t), t ? oe.emitAndNotify("add") : e && oe.emit("add"); } return r; }, mt.removed = function() { var t = this[0]; return t && t._private.removed; }, mt.inside = function() { var t = this[0]; return t && !t._private.removed; }, mt.remove = function() { var t = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : !0, e = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !0, r = this, a = [], n = {}, i = r._private.cy; function s(z) { for (var re = z._private.edges, W = 0; W < re.length; W++) l(re[W]); } function o(z) { for (var re = z._private.children, W = 0; W < re.length; W++) l(re[W]); } function l(z) { var re = n[z.id()]; e && z.removed() || re || (n[z.id()] = !0, z.isNode() ? (a.push(z), s(z), o(z)) : a.unshift(z)); } for (var u = 0, f = r.length; u < f; u++) { var h = r[u]; l(h); } function c(z, re) { var W = z._private.edges; wr(W, re), z.clearTraversalCache(); } function v(z) { z.clearTraversalCache(); } var d = []; d.ids = {}; function g(z, re) { re = re[0], z = z[0]; var W = z._private.children, Z = z.id(); wr(W, re), re._private.parent = null, d.ids[Z] || (d.ids[Z] = !0, d.push(z)); } r.dirtyCompoundBoundsCache(), e && i.removeFromPool(a); for (var y = 0; y < a.length; y++) { var p = a[y]; if (p.isEdge()) { var m = p.source()[0], b = p.target()[0]; c(m, p), c(b, p); for (var E = p.parallelEdges(), M = 0; M < E.length; M++) { var O = E[M]; v(O), O.isBundledBezier() && O.dirtyBoundingBoxCache(); } } else { var x = p.parent(); x.length !== 0 && g(x, p); } e && (p._private.removed = !0); } var I = i._private.elements; i._private.hasCompoundNodes = !1; for (var C = 0; C < I.length; C++) { var B = I[C]; if (B.isParent()) { i._private.hasCompoundNodes = !0; break; } } var F = new Ot(this.cy(), a); F.size() > 0 && (t ? F.emitAndNotify("remove") : e && F.emit("remove")); for (var R = 0; R < d.length; R++) { var X = d[R]; (!e || !X.removed()) && X.updateStyle(); } return F; }, mt.move = function(t) { var e = this._private.cy, r = this, a = !1, n = !1, i = function(d) { return d == null ? d : "" + d; }; if (t.source !== void 0 || t.target !== void 0) { var s = i(t.source), o = i(t.target), l = s != null && e.hasElementWithId(s), u = o != null && e.hasElementWithId(o); (l || u) && (e.batch(function() { r.remove(a, n), r.emitAndNotify("moveout"); for (var v = 0; v < r.length; v++) { var d = r[v], g = d._private.data; d.isEdge() && (l && (g.source = s), u && (g.target = o)); } r.restore(a, n); }), r.emitAndNotify("move")); } else if (t.parent !== void 0) { var f = i(t.parent), h = f === null || e.hasElementWithId(f); if (h) { var c = f === null ? void 0 : f; e.batch(function() { var v = r.remove(a, n); v.emitAndNotify("moveout"); for (var d = 0; d < r.length; d++) { var g = r[d], y = g._private.data; g.isNode() && (y.parent = c); } v.restore(a, n); }), r.emitAndNotify("move"); } } return this; }, [Ys, $v, Ln, Lr, fa, rd, An, yd, Mo, Io, xd, Rn, kn, At, Nr, Pt].forEach(function(t) { Ue(mt, t); }); var Od = { add: function(e) { var r, a = this; if (pe(e)) { var n = e; if (n._private.cy === a) r = n.restore(); else { for (var i = [], s = 0; s < n.length; s++) { var o = n[s]; i.push(o.json()); } r = new Ot(a, i); } } else if (te(e)) { var l = e; r = new Ot(a, l); } else if (S(e) && (te(e.nodes) || te(e.edges))) { for (var u = e, f = [], h = ["nodes", "edges"], c = 0, v = h.length; c < v; c++) { var d = h[c], g = u[d]; if (te(g)) for (var y = 0, p = g.length; y < p; y++) { var m = Ue({ group: d }, g[y]); f.push(m); } } r = new Ot(a, f); } else { var b = e; r = new dn(a, b).collection(); } return r; }, remove: function(e) { if (!pe(e)) { if (ee(e)) { var r = e; e = this.$(r); } } return e.remove(); } }; /*! Bezier curve function generator. Copyright Gaetan Renaudeau. MIT License: http://en.wikipedia.org/wiki/MIT_License */ function Nd(t, e, r, a) { var n = 4, i = 1e-3, s = 1e-7, o = 10, l = 11, u = 1 / (l - 1), f = typeof Float32Array < "u"; if (arguments.length !== 4) return !1; for (var h = 0; h < 4; ++h) if (typeof arguments[h] != "number" || isNaN(arguments[h]) || !isFinite(arguments[h])) return !1; t = Math.min(t, 1), r = Math.min(r, 1), t = Math.max(t, 0), r = Math.max(r, 0); var c = f ? new Float32Array(l) : new Array(l); function v(B, F) { return 1 - 3 * F + 3 * B; } function d(B, F) { return 3 * F - 6 * B; } function g(B) { return 3 * B; } function y(B, F, R) { return ((v(F, R) * B + d(F, R)) * B + g(F)) * B; } function p(B, F, R) { return 3 * v(F, R) * B * B + 2 * d(F, R) * B + g(F); } function m(B, F) { for (var R = 0; R < n; ++R) { var X = p(F, t, r); if (X === 0) return F; var z = y(F, t, r) - B; F -= z / X; } return F; } function b() { for (var B = 0; B < l; ++B) c[B] = y(B * u, t, r); } function E(B, F, R) { var X, z, re = 0; do z = F + (R - F) / 2, X = y(z, t, r) - B, X > 0 ? R = z : F = z; while (Math.abs(X) > s && ++re < o); return z; } function M(B) { for (var F = 0, R = 1, X = l - 1; R !== X && c[R] <= B; ++R) F += u; --R; var z = (B - c[R]) / (c[R + 1] - c[R]), re = F + z * u, W = p(re, t, r); return W >= i ? m(B, re) : W === 0 ? re : E(B, F, F + u); } var O = !1; function x() { O = !0, (t !== e || r !== a) && b(); } var I = function(F) { return O || x(), t === e && r === a ? F : F === 0 ? 0 : F === 1 ? 1 : y(M(F), e, a); }; I.getControlPoints = function() { return [{ x: t, y: e }, { x: r, y: a }]; }; var C = "generateBezier(" + [t, e, r, a] + ")"; return I.toString = function() { return C; }, I; } /*! Runge-Kutta spring physics function generator. Adapted from Framer.js, copyright Koen Bok. MIT License: http://en.wikipedia.org/wiki/MIT_License */ var Md = function() { function t(a) { return -a.tension * a.x - a.friction * a.v; } function e(a, n, i) { var s = { x: a.x + i.dx * n, v: a.v + i.dv * n, tension: a.tension, friction: a.friction }; return { dx: s.v, dv: t(s) }; } function r(a, n) { var i = { dx: a.v, dv: t(a) }, s = e(a, n * 0.5, i), o = e(a, n * 0.5, s), l = e(a, n, o), u = 1 / 6 * (i.dx + 2 * (s.dx + o.dx) + l.dx), f = 1 / 6 * (i.dv + 2 * (s.dv + o.dv) + l.dv); return a.x = a.x + u * n, a.v = a.v + f * n, a; } return function a(n, i, s) { var o = { x: -1, v: 0, tension: null, friction: null }, l = [0], u = 0, f = 1 / 1e4, h = 16 / 1e3, c, v, d; for (n = parseFloat(n) || 500, i = parseFloat(i) || 20, s = s || null, o.tension = n, o.friction = i, c = s !== null, c ? (u = a(n, i), v = u / s * h) : v = h; d = r(d || o, v), l.push(1 + d.x), u += 16, Math.abs(d.x) > f && Math.abs(d.v) > f; ) ; return c ? function(g) { return l[g * (l.length - 1) | 0]; } : u; }; }(), bt = function(e, r, a, n) { var i = Nd(e, r, a, n); return function(s, o, l) { return s + (o - s) * i(l); }; }, Fn = { linear: function(e, r, a) { return e + (r - e) * a; }, // default easings ease: bt(0.25, 0.1, 0.25, 1), "ease-in": bt(0.42, 0, 1, 1), "ease-out": bt(0, 0, 0.58, 1), "ease-in-out": bt(0.42, 0, 0.58, 1), // sine "ease-in-sine": bt(0.47, 0, 0.745, 0.715), "ease-out-sine": bt(0.39, 0.575, 0.565, 1), "ease-in-out-sine": bt(0.445, 0.05, 0.55, 0.95), // quad "ease-in-quad": bt(0.55, 0.085, 0.68, 0.53), "ease-out-quad": bt(0.25, 0.46, 0.45, 0.94), "ease-in-out-quad": bt(0.455, 0.03, 0.515, 0.955), // cubic "ease-in-cubic": bt(0.55, 0.055, 0.675, 0.19), "ease-out-cubic": bt(0.215, 0.61, 0.355, 1), "ease-in-out-cubic": bt(0.645, 0.045, 0.355, 1), // quart "ease-in-quart": bt(0.895, 0.03, 0.685, 0.22), "ease-out-quart": bt(0.165, 0.84, 0.44, 1), "ease-in-out-quart": bt(0.77, 0, 0.175, 1), // quint "ease-in-quint": bt(0.755, 0.05, 0.855, 0.06), "ease-out-quint": bt(0.23, 1, 0.32, 1), "ease-in-out-quint": bt(0.86, 0, 0.07, 1), // expo "ease-in-expo": bt(0.95, 0.05, 0.795, 0.035), "ease-out-expo": bt(0.19, 1, 0.22, 1), "ease-in-out-expo": bt(1, 0, 0, 1), // circ "ease-in-circ": bt(0.6, 0.04, 0.98, 0.335), "ease-out-circ": bt(0.075, 0.82, 0.165, 1), "ease-in-out-circ": bt(0.785, 0.135, 0.15, 0.86), // user param easings... spring: function(e, r, a) { if (a === 0) return Fn.linear; var n = Md(e, r, a); return function(i, s, o) { return i + (s - i) * n(o); }; }, "cubic-bezier": bt }; function _o(t, e, r, a, n) { if (a === 1 || e === r) return r; var i = n(e, r, a); return t == null || ((t.roundValue || t.color) && (i = Math.round(i)), t.min !== void 0 && (i = Math.max(i, t.min)), t.max !== void 0 && (i = Math.min(i, t.max))), i; } function Uo(t, e) { return t.pfValue != null || t.value != null ? t.pfValue != null && (e == null || e.type.units !== "%") ? t.pfValue : t.value : t; } function ga(t, e, r, a, n) { var i = n != null ? n.type : null; r < 0 ? r = 0 : r > 1 && (r = 1); var s = Uo(t, n), o = Uo(e, n); if (k(s) && k(o)) return _o(i, s, o, r, a); if (te(s) && te(o)) { for (var l = [], u = 0; u < o.length; u++) { var f = s[u], h = o[u]; if (f != null && h != null) { var c = _o(i, f, h, r, a); l.push(c); } else l.push(h); } return l; } } function Id(t, e, r, a) { var n = !a, i = t._private, s = e._private, o = s.easing, l = s.startTime, u = a ? t : t.cy(), f = u.style(); if (!s.easingImpl) if (o == null) s.easingImpl = Fn.linear; else { var h; if (ee(o)) { var c = f.parse("transition-timing-function", o); h = c.value; } else h = o; var v, d; ee(h) ? (v = h, d = []) : (v = h[1], d = h.slice(2).map(function(oe) { return +oe; })), d.length > 0 ? (v === "spring" && d.push(s.duration), s.easingImpl = Fn[v].apply(null, d)) : s.easingImpl = Fn[v]; } var g = s.easingImpl, y; if (s.duration === 0 ? y = 1 : y = (r - l) / s.duration, s.applying && (y = s.progress), y < 0 ? y = 0 : y > 1 && (y = 1), s.delay == null) { var p = s.startPosition, m = s.position; if (m && n && !t.locked()) { var b = {}; Xa(p.x, m.x) && (b.x = ga(p.x, m.x, y, g)), Xa(p.y, m.y) && (b.y = ga(p.y, m.y, y, g)), t.position(b); } var E = s.startPan, M = s.pan, O = i.pan, x = M != null && a; x && (Xa(E.x, M.x) && (O.x = ga(E.x, M.x, y, g)), Xa(E.y, M.y) && (O.y = ga(E.y, M.y, y, g)), t.emit("pan")); var I = s.startZoom, C = s.zoom, B = C != null && a; B && (Xa(I, C) && (i.zoom = ka(i.minZoom, ga(I, C, y, g), i.maxZoom)), t.emit("zoom")), (x || B) && t.emit("viewport"); var F = s.style; if (F && F.length > 0 && n) { for (var R = 0; R < F.length; R++) { var X = F[R], z = X.name, re = X, W = s.startStyle[z], Z = f.properties[W.name], ie = ga(W, re, y, g, Z); f.overrideBypass(t, z, ie); } t.emit("style"); } } return s.progress = y, y; } function Xa(t, e) { return t == null || e == null ? !1 : k(t) && k(e) ? !0 : !!(t && e); } function Rd(t, e, r, a) { var n = e._private; n.started = !0, n.startTime = r - n.progress * n.duration; } function Yo(t, e) { var r = e._private.aniEles, a = []; function n(f, h) { var c = f._private, v = c.animation.current, d = c.animation.queue, g = !1; if (v.length === 0) { var y = d.shift(); y && v.push(y); } for (var p = function(O) { for (var x = O.length - 1; x >= 0; x--) { var I = O[x]; I(); } O.splice(0, O.length); }, m = v.length - 1; m >= 0; m--) { var b = v[m], E = b._private; if (E.stopped) { v.splice(m, 1), E.hooked = !1, E.playing = !1, E.started = !1, p(E.frames); continue; } !E.playing && !E.applying || (E.playing && E.applying && (E.applying = !1), E.started || Rd(f, b, t), Id(f, b, t, h), E.applying && (E.applying = !1), p(E.frames), E.step != null && E.step(t), b.completed() && (v.splice(m, 1), E.hooked = !1, E.playing = !1, E.started = !1, p(E.completes)), g = !0); } return !h && v.length === 0 && d.length === 0 && a.push(f), g; } for (var i = !1, s = 0; s < r.length; s++) { var o = r[s], l = n(o); i = i || l; } var u = n(e, !0); (i || u) && (r.length > 0 ? e.notify("draw", r) : e.notify("draw")), r.unmerge(a), e.emit("step"); } var kd = { // pull in animation functions animate: ht.animate(), animation: ht.animation(), animated: ht.animated(), clearQueue: ht.clearQueue(), delay: ht.delay(), delayAnimation: ht.delayAnimation(), stop: ht.stop(), addToAnimationPool: function(e) { var r = this; r.styleEnabled() && r._private.aniEles.merge(e); }, stopAnimationLoop: function() { this._private.animationsRunning = !1; }, startAnimationLoop: function() { var e = this; if (e._private.animationsRunning = !0, !e.styleEnabled()) return; function r() { e._private.animationsRunning && hn(function(i) { Yo(i, e), r(); }); } var a = e.renderer(); a && a.beforeRender ? a.beforeRender(function(i, s) { Yo(s, e); }, a.beforeRenderPriorities.animations) : r(); } }, Pd = { qualifierCompare: function(e, r) { return e == null || r == null ? e == null && r == null : e.sameText(r); }, eventMatches: function(e, r, a) { var n = r.qualifier; return n != null ? e !== a.target && Ae(a.target) && n.matches(a.target) : !0; }, addEventFields: function(e, r) { r.cy = e, r.target = e; }, callbackContext: function(e, r, a) { return r.qualifier != null ? a.target : e; } }, zn = function(e) { return ee(e) ? new Dr(e) : e; }, Ho = { createEmitter: function() { var e = this._private; return e.emitter || (e.emitter = new Mn(Pd, this)), this; }, emitter: function() { return this._private.emitter; }, on: function(e, r, a) { return this.emitter().on(e, zn(r), a), this; }, removeListener: function(e, r, a) { return this.emitter().removeListener(e, zn(r), a), this; }, removeAllListeners: function() { return this.emitter().removeAllListeners(), this; }, one: function(e, r, a) { return this.emitter().one(e, zn(r), a), this; }, once: function(e, r, a) { return this.emitter().one(e, zn(r), a), this; }, emit: function(e, r) { return this.emitter().emit(e, r), this; }, emitAndNotify: function(e, r) { return this.emit(e), this.notify(e, r), this; } }; ht.eventAliasesOn(Ho); var Ii = { png: function(e) { var r = this._private.renderer; return e = e || {}, r.png(e); }, jpg: function(e) { var r = this._private.renderer; return e = e || {}, e.bg = e.bg || "#fff", r.jpg(e); } }; Ii.jpeg = Ii.jpg; var Gn = { layout: function(e) { var r = this; if (e == null) { xt("Layout options must be specified to make a layout"); return; } if (e.name == null) { xt("A `name` must be specified to make a layout"); return; } var a = e.name, n = r.extension("layout", a); if (n == null) { xt("No such layout `" + a + "` found. Did you forget to import it and `cytoscape.use()` it?"); return; } var i; ee(e.eles) ? i = r.$(e.eles) : i = e.eles != null ? e.eles : r.$(); var s = new n(Ue({}, e, { cy: r, eles: i })); return s; } }; Gn.createLayout = Gn.makeLayout = Gn.layout; var Bd = { notify: function(e, r) { var a = this._private; if (this.batching()) { a.batchNotifications = a.batchNotifications || {}; var n = a.batchNotifications[e] = a.batchNotifications[e] || this.collection(); r != null && n.merge(r); return; } if (a.notificationsEnabled) { var i = this.renderer(); this.destroyed() || !i || i.notify(e, r); } }, notifications: function(e) { var r = this._private; return e === void 0 ? r.notificationsEnabled : (r.notificationsEnabled = !!e, this); }, noNotifications: function(e) { this.notifications(!1), e(), this.notifications(!0); }, batching: function() { return this._private.batchCount > 0; }, startBatch: function() { var e = this._private; return e.batchCount == null && (e.batchCount = 0), e.batchCount === 0 && (e.batchStyleEles = this.collection(), e.batchNotifications = {}), e.batchCount++, this; }, endBatch: function() { var e = this._private; if (e.batchCount === 0) return this; if (e.batchCount--, e.batchCount === 0) { e.batchStyleEles.updateStyle(); var r = this.renderer(); Object.keys(e.batchNotifications).forEach(function(a) { var n = e.batchNotifications[a]; n.empty() ? r.notify(a) : r.notify(a, n); }); } return this; }, batch: function(e) { return this.startBatch(), e(), this.endBatch(), this; }, // for backwards compatibility batchData: function(e) { var r = this; return this.batch(function() { for (var a = Object.keys(e), n = 0; n < a.length; n++) { var i = a[n], s = e[i], o = r.getElementById(i); o.data(s); } }); } }, Fd = Lt({ hideEdgesOnViewport: !1, textureOnViewport: !1, motionBlur: !1, motionBlurOpacity: 0.05, pixelRatio: void 0, desktopTapThreshold: 4, touchTapThreshold: 8, wheelSensitivity: 1, debug: !1, showFps: !1 }), Ri = { renderTo: function(e, r, a, n) { var i = this._private.renderer; return i.renderTo(e, r, a, n), this; }, renderer: function() { return this._private.renderer; }, forceRender: function() { return this.notify("draw"), this; }, resize: function() { return this.invalidateSize(), this.emitAndNotify("resize"), this; }, initRenderer: function(e) { var r = this, a = r.extension("renderer", e.name); if (a == null) { xt("Can not initialise: No such renderer `".concat(e.name, "` found. Did you forget to import it and `cytoscape.use()` it?")); return; } e.wheelSensitivity !== void 0 && ft("You have set a custom wheel sensitivity. This will make your app zoom unnaturally when using mainstream mice. You should change this value from the default only if you can guarantee that all your users will use the same hardware and OS configuration as your current machine."); var n = Fd(e); n.cy = r, r._private.renderer = new a(n), this.notify("init"); }, destroyRenderer: function() { var e = this; e.notify("destroy"); var r = e.container(); if (r) for (r._cyreg = null; r.childNodes.length > 0; ) r.removeChild(r.childNodes[0]); e._private.renderer = null, e.mutableElements().forEach(function(a) { var n = a._private; n.rscratch = {}, n.rstyle = {}, n.animation.current = [], n.animation.queue = []; }); }, onRender: function(e) { return this.on("render", e); }, offRender: function(e) { return this.off("render", e); } }; Ri.invalidateDimensions = Ri.resize; var $n = { // get a collection // - empty collection on no args // - collection of elements in the graph on selector arg // - guarantee a returned collection when elements or collection specified collection: function(e, r) { return ee(e) ? this.$(e) : pe(e) ? e.collection() : te(e) ? (r || (r = {}), new Ot(this, e, r.unique, r.removed)) : new Ot(this); }, nodes: function(e) { var r = this.$(function(a) { return a.isNode(); }); return e ? r.filter(e) : r; }, edges: function(e) { var r = this.$(function(a) { return a.isEdge(); }); return e ? r.filter(e) : r; }, // search the graph like jQuery $: function(e) { var r = this._private.elements; return e ? r.filter(e) : r.spawnSelf(); }, mutableElements: function() { return this._private.elements; } }; $n.elements = $n.filter = $n.$; var Bt = {}, qa = "t", zd = "f"; Bt.apply = function(t) { for (var e = this, r = e._private, a = r.cy, n = a.collection(), i = 0; i < t.length; i++) { var s = t[i], o = e.getContextMeta(s); if (!o.empty) { var l = e.getContextStyle(o), u = e.applyContextStyle(o, l, s); s._private.appliedInitStyle ? e.updateTransitions(s, u.diffProps) : s._private.appliedInitStyle = !0; var f = e.updateStyleHints(s); f && n.push(s); } } return n; }, Bt.getPropertiesDiff = function(t, e) { var r = this, a = r._private.propDiffs = r._private.propDiffs || {}, n = t + "-" + e, i = a[n]; if (i) return i; for (var s = [], o = {}, l = 0; l < r.length; l++) { var u = r[l], f = t[l] === qa, h = e[l] === qa, c = f !== h, v = u.mappedProperties.length > 0; if (c || h && v) { var d = void 0; c && v || c ? d = u.properties : v && (d = u.mappedProperties); for (var g = 0; g < d.length; g++) { for (var y = d[g], p = y.name, m = !1, b = l + 1; b < r.length; b++) { var E = r[b], M = e[b] === qa; if (M && (m = E.properties[y.name] != null, m)) break; } !o[p] && !m && (o[p] = !0, s.push(p)); } } } return a[n] = s, s; }, Bt.getContextMeta = function(t) { for (var e = this, r = "", a, n = t._private.styleCxtKey || "", i = 0; i < e.length; i++) { var s = e[i], o = s.selector && s.selector.matches(t); o ? r += qa : r += zd; } return a = e.getPropertiesDiff(n, r), t._private.styleCxtKey = r, { key: r, diffPropNames: a, empty: a.length === 0 }; }, Bt.getContextStyle = function(t) { var e = t.key, r = this, a = this._private.contextStyles = this._private.contextStyles || {}; if (a[e]) return a[e]; for (var n = { _private: { key: e } }, i = 0; i < r.length; i++) { var s = r[i], o = e[i] === qa; if (o) for (var l = 0; l < s.properties.length; l++) { var u = s.properties[l]; n[u.name] = u; } } return a[e] = n, n; }, Bt.applyContextStyle = function(t, e, r) { for (var a = this, n = t.diffPropNames, i = {}, s = a.types, o = 0; o < n.length; o++) { var l = n[o], u = e[l], f = r.pstyle(l); if (!u) if (f) f.bypass ? u = { name: l, deleteBypassed: !0 } : u = { name: l, delete: !0 }; else continue; if (f !== u) { if (u.mapped === s.fn && f != null && f.mapping != null && f.mapping.value === u.value) { var h = f.mapping, c = h.fnValue = u.value(r); if (c === h.prevFnValue) continue; } var v = i[l] = { prev: f }; a.applyParsedProperty(r, u), v.next = r.pstyle(l), v.next && v.next.bypass && (v.next = v.next.bypassed); } } return { diffProps: i }; }, Bt.updateStyleHints = function(t) { var e = t._private, r = this, a = r.propertyGroupNames, n = r.propertyGroupKeys, i = function(Oe, Ie, He) { return r.getPropertiesHash(Oe, Ie, He); }, s = e.styleKey; if (t.removed()) return !1; var o = e.group === "nodes", l = t._private.style; a = Object.keys(l); for (var u = 0; u < n.length; u++) { var f = n[u]; e.styleKeys[f] = [Qr, Oa]; } for (var h = function(Oe, Ie) { return e.styleKeys[Ie][0] = Na(Oe, e.styleKeys[Ie][0]); }, c = function(Oe, Ie) { return e.styleKeys[Ie][1] = Ma(Oe, e.styleKeys[Ie][1]); }, v = function(Oe, Ie) { h(Oe, Ie), c(Oe, Ie); }, d = function(Oe, Ie) { for (var He = 0; He < Oe.length; He++) { var qe = Oe.charCodeAt(He); h(qe, Ie), c(qe, Ie); } }, g = 2e9, y = function(Oe) { return -128 < Oe && Oe < 128 && Math.floor(Oe) !== Oe ? g - (Oe * 1024 | 0) : Oe; }, p = 0; p < a.length; p++) { var m = a[p], b = l[m]; if (b != null) { var E = this.properties[m], M = E.type, O = E.groupKey, x = void 0; E.hashOverride != null ? x = E.hashOverride(t, b) : b.pfValue != null && (x = b.pfValue); var I = E.enums == null ? b.value : null, C = x != null, B = I != null, F = C || B, R = b.units; if (M.number && F && !M.multiple) { var X = C ? x : I; v(y(X), O), !C && R != null && d(R, O); } else d(b.strValue, O); } } for (var z = [Qr, Oa], re = 0; re < n.length; re++) { var W = n[re], Z = e.styleKeys[W]; z[0] = Na(Z[0], z[0]), z[1] = Ma(Z[1], z[1]); } e.styleKey = Ul(z[0], z[1]); var ie = e.styleKeys; e.labelDimsKey = Er(ie.labelDimensions); var oe = i(t, ["label"], ie.labelDimensions); if (e.labelKey = Er(oe), e.labelStyleKey = Er(cn(ie.commonLabel, oe)), !o) { var ge = i(t, ["source-label"], ie.labelDimensions); e.sourceLabelKey = Er(ge), e.sourceLabelStyleKey = Er(cn(ie.commonLabel, ge)); var se = i(t, ["target-label"], ie.labelDimensions); e.targetLabelKey = Er(se), e.targetLabelStyleKey = Er(cn(ie.commonLabel, se)); } if (o) { var de = e.styleKeys, we = de.nodeBody, Te = de.nodeBorder, Ee = de.backgroundImage, ye = de.compound, ae = de.pie, xe = [we, Te, Ee, ye, ae].filter(function(Ce) { return Ce != null; }).reduce(cn, [Qr, Oa]); e.nodeKey = Er(xe), e.hasPie = ae != null && ae[0] !== Qr && ae[1] !== Oa; } return s !== e.styleKey; }, Bt.clearStyleHints = function(t) { var e = t._private; e.styleCxtKey = "", e.styleKeys = {}, e.styleKey = null, e.labelKey = null, e.labelStyleKey = null, e.sourceLabelKey = null, e.sourceLabelStyleKey = null, e.targetLabelKey = null, e.targetLabelStyleKey = null, e.nodeKey = null, e.hasPie = null; }, Bt.applyParsedProperty = function(t, e) { var r = this, a = e, n = t._private.style, i, s = r.types, o = r.properties[a.name].type, l = a.bypass, u = n[a.name], f = u && u.bypass, h = t._private, c = "mapping", v = function(we) { return we == null ? null : we.pfValue != null ? we.pfValue : we.value; }, d = function() { var we = v(u), Te = v(a); r.checkTriggers(t, a.name, we, Te); }; if (a && a.name.substr(0, 3) === "pie" && ft("The pie style properties are deprecated. Create charts using background images instead."), e.name === "curve-style" && t.isEdge() && // loops must be bundled beziers (e.value !== "bezier" && t.isLoop() || // edges connected to compound nodes can not be haystacks e.value === "haystack" && (t.source().isParent() || t.target().isParent())) && (a = e = this.parse(e.name, "bezier", l)), a.delete) return n[a.name] = void 0, d(), !0; if (a.deleteBypassed) return u ? u.bypass ? (u.bypassed = void 0, d(), !0) : !1 : (d(), !0); if (a.deleteBypass) return u ? u.bypass ? (n[a.name] = u.bypassed, d(), !0) : !1 : (d(), !0); var g = function() { ft("Do not assign mappings to elements without corresponding data (i.e. ele `" + t.id() + "` has no mapping for property `" + a.name + "` with data field `" + a.field + "`); try a `[" + a.field + "]` selector to limit scope to elements with `" + a.field + "` defined"); }; switch (a.mapped) { case s.mapData: { for (var y = a.field.split("."), p = h.data, m = 0; m < y.length && p; m++) { var b = y[m]; p = p[b]; } if (p == null) return g(), !1; var E; if (k(p)) { var M = a.fieldMax - a.fieldMin; M === 0 ? E = 0 : E = (p - a.fieldMin) / M; } else return ft("Do not use continuous mappers without specifying numeric data (i.e. `" + a.field + ": " + p + "` for `" + t.id() + "` is non-numeric)"), !1; if (E < 0 ? E = 0 : E > 1 && (E = 1), o.color) { var O = a.valueMin[0], x = a.valueMax[0], I = a.valueMin[1], C = a.valueMax[1], B = a.valueMin[2], F = a.valueMax[2], R = a.valueMin[3] == null ? 1 : a.valueMin[3], X = a.valueMax[3] == null ? 1 : a.valueMax[3], z = [Math.round(O + (x - O) * E), Math.round(I + (C - I) * E), Math.round(B + (F - B) * E), Math.round(R + (X - R) * E)]; i = { // colours are simple, so just create the flat property instead of expensive string parsing bypass: a.bypass, // we're a bypass if the mapping property is a bypass name: a.name, value: z, strValue: "rgb(" + z[0] + ", " + z[1] + ", " + z[2] + ")" }; } else if (o.number) { var re = a.valueMin + (a.valueMax - a.valueMin) * E; i = this.parse(a.name, re, a.bypass, c); } else return !1; if (!i) return g(), !1; i.mapping = a, a = i; break; } case s.data: { for (var W = a.field.split("."), Z = h.data, ie = 0; ie < W.length && Z; ie++) { var oe = W[ie]; Z = Z[oe]; } if (Z != null && (i = this.parse(a.name, Z, a.bypass, c)), !i) return g(), !1; i.mapping = a, a = i; break; } case s.fn: { var ge = a.value, se = a.fnValue != null ? a.fnValue : ge(t); if (a.prevFnValue = se, se == null) return ft("Custom function mappers may not return null (i.e. `" + a.name + "` for ele `" + t.id() + "` is null)"), !1; if (i = this.parse(a.name, se, a.bypass, c), !i) return ft("Custom function mappers may not return invalid values for the property type (i.e. `" + a.name + "` for ele `" + t.id() + "` is invalid)"), !1; i.mapping = or(a), a = i; break; } case void 0: break; default: return !1; } return l ? (f ? a.bypassed = u.bypassed : a.bypassed = u, n[a.name] = a) : f ? u.bypassed = a : n[a.name] = a, d(), !0; }, Bt.cleanElements = function(t, e) { for (var r = 0; r < t.length; r++) { var a = t[r]; if (this.clearStyleHints(a), a.dirtyCompoundBoundsCache(), a.dirtyBoundingBoxCache(), !e) a._private.style = {}; else for (var n = a._private.style, i = Object.keys(n), s = 0; s < i.length; s++) { var o = i[s], l = n[o]; l != null && (l.bypass ? l.bypassed = null : n[o] = null); } } }, Bt.update = function() { var t = this._private.cy, e = t.mutableElements(); e.updateStyle(); }, Bt.updateTransitions = function(t, e) { var r = this, a = t._private, n = t.pstyle("transition-property").value, i = t.pstyle("transition-duration").pfValue, s = t.pstyle("transition-delay").pfValue; if (n.length > 0 && i > 0) { for (var o = {}, l = !1, u = 0; u < n.length; u++) { var f = n[u], h = t.pstyle(f), c = e[f]; if (c) { var v = c.prev, d = v, g = c.next != null ? c.next : h, y = !1, p = void 0, m = 1e-6; d && (k(d.pfValue) && k(g.pfValue) ? (y = g.pfValue - d.pfValue, p = d.pfValue + m * y) : k(d.value) && k(g.value) ? (y = g.value - d.value, p = d.value + m * y) : te(d.value) && te(g.value) && (y = d.value[0] !== g.value[0] || d.value[1] !== g.value[1] || d.value[2] !== g.value[2], p = d.strValue), y && (o[f] = g.strValue, this.applyBypass(t, f, p), l = !0)); } } if (!l) return; a.transitioning = !0, new ia(function(b) { s > 0 ? t.delayAnimation(s).play().promise().then(b) : b(); }).then(function() { return t.animation({ style: o, duration: i, easing: t.pstyle("transition-timing-function").value, queue: !1 }).play().promise(); }).then(function() { r.removeBypasses(t, n), t.emitAndNotify("style"), a.transitioning = !1; }); } else a.transitioning && (this.removeBypasses(t, n), t.emitAndNotify("style"), a.transitioning = !1); }, Bt.checkTrigger = function(t, e, r, a, n, i) { var s = this.properties[e], o = n(s); o != null && o(r, a) && i(s); }, Bt.checkZOrderTrigger = function(t, e, r, a) { var n = this; this.checkTrigger(t, e, r, a, function(i) { return i.triggersZOrder; }, function() { n._private.cy.notify("zorder", t); }); }, Bt.checkBoundsTrigger = function(t, e, r, a) { this.checkTrigger(t, e, r, a, function(n) { return n.triggersBounds; }, function(n) { t.dirtyCompoundBoundsCache(), t.dirtyBoundingBoxCache(), // only for beziers -- so performance of other edges isn't affected n.triggersBoundsOfParallelBeziers && (e === "curve-style" && (r === "bezier" || a === "bezier") || e === "display" && (r === "none" || a === "none")) && t.parallelEdges().forEach(function(i) { i.isBundledBezier() && i.dirtyBoundingBoxCache(); }); }); }, Bt.checkTriggers = function(t, e, r, a) { t.dirtyStyleCache(), this.checkZOrderTrigger(t, e, r, a), this.checkBoundsTrigger(t, e, r, a); }; var Wa = {}; Wa.applyBypass = function(t, e, r, a) { var n = this, i = [], s = !0; if (e === "*" || e === "**") { if (r !== void 0) for (var o = 0; o < n.properties.length; o++) { var l = n.properties[o], u = l.name, f = this.parse(u, r, !0); f && i.push(f); } } else if (ee(e)) { var h = this.parse(e, r, !0); h && i.push(h); } else if (S(e)) { var c = e; a = r; for (var v = Object.keys(c), d = 0; d < v.length; d++) { var g = v[d], y = c[g]; if (y === void 0 && (y = c[pt(g)]), y !== void 0) { var p = this.parse(g, y, !0); p && i.push(p); } } } else return !1; if (i.length === 0) return !1; for (var m = !1, b = 0; b < t.length; b++) { for (var E = t[b], M = {}, O = void 0, x = 0; x < i.length; x++) { var I = i[x]; if (a) { var C = E.pstyle(I.name); O = M[I.name] = { prev: C }; } m = this.applyParsedProperty(E, or(I)) || m, a && (O.next = E.pstyle(I.name)); } m && this.updateStyleHints(E), a && this.updateTransitions(E, M, s); } return m; }, Wa.overrideBypass = function(t, e, r) { e = je(e); for (var a = 0; a < t.length; a++) { var n = t[a], i = n._private.style[e], s = this.properties[e].type, o = s.color, l = s.mutiple, u = i ? i.pfValue != null ? i.pfValue : i.value : null; !i || !i.bypass ? this.applyBypass(n, e, r) : (i.value = r, i.pfValue != null && (i.pfValue = r), o ? i.strValue = "rgb(" + r.join(",") + ")" : l ? i.strValue = r.join(" ") : i.strValue = "" + r, this.updateStyleHints(n)), this.checkTriggers(n, e, u, r); } }, Wa.removeAllBypasses = function(t, e) { return this.removeBypasses(t, this.propertyNames, e); }, Wa.removeBypasses = function(t, e, r) { for (var a = !0, n = 0; n < t.length; n++) { for (var i = t[n], s = {}, o = 0; o < e.length; o++) { var l = e[o], u = this.properties[l], f = i.pstyle(u.name); if (!(!f || !f.bypass)) { var h = "", c = this.parse(l, h, !0), v = s[u.name] = { prev: f }; this.applyParsedProperty(i, c), v.next = i.pstyle(u.name); } } this.updateStyleHints(i), r && this.updateTransitions(i, s, a); } }; var ki = {}; ki.getEmSizeInPixels = function() { var t = this.containerCss("font-size"); return t != null ? parseFloat(t) : 1; }, ki.containerCss = function(t) { var e = this._private.cy, r = e.container(); if (D && r && D.getComputedStyle) return D.getComputedStyle(r).getPropertyValue(t); }; var lr = {}; lr.getRenderedStyle = function(t, e) { return e ? this.getStylePropertyValue(t, e, !0) : this.getRawStyle(t, !0); }, lr.getRawStyle = function(t, e) { var r = this; if (t = t[0], t) { for (var a = {}, n = 0; n < r.properties.length; n++) { var i = r.properties[n], s = r.getStylePropertyValue(t, i.name, e); s != null && (a[i.name] = s, a[pt(i.name)] = s); } return a; } }, lr.getIndexedStyle = function(t, e, r, a) { var n = t.pstyle(e)[r][a]; return n ?? t.cy().style().getDefaultProperty(e)[r][0]; }, lr.getStylePropertyValue = function(t, e, r) { var a = this; if (t = t[0], t) { var n = a.properties[e]; n.alias && (n = n.pointsTo); var i = n.type, s = t.pstyle(n.name); if (s) { var o = s.value, l = s.units, u = s.strValue; if (r && i.number && o != null && k(o)) { var f = t.cy().zoom(), h = function(y) { return y * f; }, c = function(y, p) { return h(y) + p; }, v = te(o), d = v ? l.every(function(g) { return g != null; }) : l != null; return d ? v ? o.map(function(g, y) { return c(g, l[y]); }).join(" ") : c(o, l) : v ? o.map(function(g) { return ee(g) ? g : "" + h(g); }).join(" ") : "" + h(o); } else if (u != null) return u; } return null; } }, lr.getAnimationStartStyle = function(t, e) { for (var r = {}, a = 0; a < e.length; a++) { var n = e[a], i = n.name, s = t.pstyle(i); s !== void 0 && (S(s) ? s = this.parse(i, s.strValue) : s = this.parse(i, s)), s && (r[i] = s); } return r; }, lr.getPropsList = function(t) { var e = this, r = [], a = t, n = e.properties; if (a) for (var i = Object.keys(a), s = 0; s < i.length; s++) { var o = i[s], l = a[o], u = n[o] || n[je(o)], f = this.parse(u.name, l); f && r.push(f); } return r; }, lr.getNonDefaultPropertiesHash = function(t, e, r) { var a = r.slice(), n, i, s, o, l, u; for (l = 0; l < e.length; l++) if (n = e[l], i = t.pstyle(n, !1), i != null) if (i.pfValue != null) a[0] = Na(o, a[0]), a[1] = Ma(o, a[1]); else for (s = i.strValue, u = 0; u < s.length; u++) o = s.charCodeAt(u), a[0] = Na(o, a[0]), a[1] = Ma(o, a[1]); return a; }, lr.getPropertiesHash = lr.getNonDefaultPropertiesHash; var Vn = {}; Vn.appendFromJson = function(t) { for (var e = this, r = 0; r < t.length; r++) { var a = t[r], n = a.selector, i = a.style || a.css, s = Object.keys(i); e.selector(n); for (var o = 0; o < s.length; o++) { var l = s[o], u = i[l]; e.css(l, u); } } return e; }, Vn.fromJson = function(t) { var e = this; return e.resetToDefault(), e.appendFromJson(t), e; }, Vn.json = function() { for (var t = [], e = this.defaultLength; e < this.length; e++) { for (var r = this[e], a = r.selector, n = r.properties, i = {}, s = 0; s < n.length; s++) { var o = n[s]; i[o.name] = o.strValue; } t.push({ selector: a ? a.toString() : "core", style: i }); } return t; }; var Pi = {}; Pi.appendFromString = function(t) { var e = this, r = this, a = "" + t, n, i, s; a = a.replace(/[/][*](\s|.)+?[*][/]/g, ""); function o() { a.length > n.length ? a = a.substr(n.length) : a = ""; } function l() { i.length > s.length ? i = i.substr(s.length) : i = ""; } for (; ; ) { var u = a.match(/^\s*$/); if (u) break; var f = a.match(/^\s*((?:.|\s)+?)\s*\{((?:.|\s)+?)\}/); if (!f) { ft("Halting stylesheet parsing: String stylesheet contains more to parse but no selector and block found in: " + a); break; } n = f[0]; var h = f[1]; if (h !== "core") { var c = new Dr(h); if (c.invalid) { ft("Skipping parsing of block: Invalid selector found in string stylesheet: " + h), o(); continue; } } var v = f[2], d = !1; i = v; for (var g = []; ; ) { var y = i.match(/^\s*$/); if (y) break; var p = i.match(/^\s*(.+?)\s*:\s*(.+?)(?:\s*;|\s*$)/); if (!p) { ft("Skipping parsing of block: Invalid formatting of style property and value definitions found in:" + v), d = !0; break; } s = p[0]; var m = p[1], b = p[2], E = e.properties[m]; if (!E) { ft("Skipping property: Invalid property name in: " + s), l(); continue; } var M = r.parse(m, b); if (!M) { ft("Skipping property: Invalid property definition in: " + s), l(); continue; } g.push({ name: m, val: b }), l(); } if (d) { o(); break; } r.selector(h); for (var O = 0; O < g.length; O++) { var x = g[O]; r.css(x.name, x.val); } o(); } return r; }, Pi.fromString = function(t) { var e = this; return e.resetToDefault(), e.appendFromString(t), e; }; var Nt = {}; (function() { var t = vt, e = qt, r = Kr, a = Da, n = jt, i = function(xe) { return "^" + xe + "\\s*\\(\\s*([\\w\\.]+)\\s*\\)$"; }, s = function(xe) { var Ce = t + "|\\w+|" + e + "|" + r + "|" + a + "|" + n; return "^" + xe + "\\s*\\(([\\w\\.]+)\\s*\\,\\s*(" + t + ")\\s*\\,\\s*(" + t + ")\\s*,\\s*(" + Ce + ")\\s*\\,\\s*(" + Ce + ")\\)$"; }, o = [`^url\\s*\\(\\s*['"]?(.+?)['"]?\\s*\\)$`, "^(none)$", "^(.+)$"]; Nt.types = { time: { number: !0, min: 0, units: "s|ms", implicitUnits: "ms" }, percent: { number: !0, min: 0, max: 100, units: "%", implicitUnits: "%" }, percentages: { number: !0, min: 0, max: 100, units: "%", implicitUnits: "%", multiple: !0 }, zeroOneNumber: { number: !0, min: 0, max: 1, unitless: !0 }, zeroOneNumbers: { number: !0, min: 0, max: 1, unitless: !0, multiple: !0 }, nOneOneNumber: { number: !0, min: -1, max: 1, unitless: !0 }, nonNegativeInt: { number: !0, min: 0, integer: !0, unitless: !0 }, position: { enums: ["parent", "origin"] }, nodeSize: { number: !0, min: 0, enums: ["label"] }, number: { number: !0, unitless: !0 }, numbers: { number: !0, unitless: !0, multiple: !0 }, positiveNumber: { number: !0, unitless: !0, min: 0, strictMin: !0 }, size: { number: !0, min: 0 }, bidirectionalSize: { number: !0 }, // allows negative bidirectionalSizeMaybePercent: { number: !0, allowPercent: !0 }, // allows negative bidirectionalSizes: { number: !0, multiple: !0 }, // allows negative sizeMaybePercent: { number: !0, min: 0, allowPercent: !0 }, axisDirection: { enums: ["horizontal", "leftward", "rightward", "vertical", "upward", "downward", "auto"] }, paddingRelativeTo: { enums: ["width", "height", "average", "min", "max"] }, bgWH: { number: !0, min: 0, allowPercent: !0, enums: ["auto"], multiple: !0 }, bgPos: { number: !0, allowPercent: !0, multiple: !0 }, bgRelativeTo: { enums: ["inner", "include-padding"], multiple: !0 }, bgRepeat: { enums: ["repeat", "repeat-x", "repeat-y", "no-repeat"], multiple: !0 }, bgFit: { enums: ["none", "contain", "cover"], multiple: !0 }, bgCrossOrigin: { enums: ["anonymous", "use-credentials"], multiple: !0 }, bgClip: { enums: ["none", "node"], multiple: !0 }, bgContainment: { enums: ["inside", "over"], multiple: !0 }, color: { color: !0 }, colors: { color: !0, multiple: !0 }, fill: { enums: ["solid", "linear-gradient", "radial-gradient"] }, bool: { enums: ["yes", "no"] }, bools: { enums: ["yes", "no"], multiple: !0 }, lineStyle: { enums: ["solid", "dotted", "dashed"] }, lineCap: { enums: ["butt", "round", "square"] }, borderStyle: { enums: ["solid", "dotted", "dashed", "double"] }, curveStyle: { enums: ["bezier", "unbundled-bezier", "haystack", "segments", "straight", "straight-triangle", "taxi"] }, fontFamily: { regex: '^([\\w- \\"]+(?:\\s*,\\s*[\\w- \\"]+)*)$' }, fontStyle: { enums: ["italic", "normal", "oblique"] }, fontWeight: { enums: ["normal", "bold", "bolder", "lighter", "100", "200", "300", "400", "500", "600", "800", "900", 100, 200, 300, 400, 500, 600, 700, 800, 900] }, textDecoration: { enums: ["none", "underline", "overline", "line-through"] }, textTransform: { enums: ["none", "uppercase", "lowercase"] }, textWrap: { enums: ["none", "wrap", "ellipsis"] }, textOverflowWrap: { enums: ["whitespace", "anywhere"] }, textBackgroundShape: { enums: ["rectangle", "roundrectangle", "round-rectangle"] }, nodeShape: { enums: ["rectangle", "roundrectangle", "round-rectangle", "cutrectangle", "cut-rectangle", "bottomroundrectangle", "bottom-round-rectangle", "barrel", "ellipse", "triangle", "round-triangle", "square", "pentagon", "round-pentagon", "hexagon", "round-hexagon", "concavehexagon", "concave-hexagon", "heptagon", "round-heptagon", "octagon", "round-octagon", "tag", "round-tag", "star", "diamond", "round-diamond", "vee", "rhomboid", "polygon"] }, overlayShape: { enums: ["roundrectangle", "round-rectangle", "ellipse"] }, compoundIncludeLabels: { enums: ["include", "exclude"] }, arrowShape: { enums: ["tee", "triangle", "triangle-tee", "circle-triangle", "triangle-cross", "triangle-backcurve", "vee", "square", "circle", "diamond", "chevron", "none"] }, arrowFill: { enums: ["filled", "hollow"] }, display: { enums: ["element", "none"] }, visibility: { enums: ["hidden", "visible"] }, zCompoundDepth: { enums: ["bottom", "orphan", "auto", "top"] }, zIndexCompare: { enums: ["auto", "manual"] }, valign: { enums: ["top", "center", "bottom"] }, halign: { enums: ["left", "center", "right"] }, justification: { enums: ["left", "center", "right", "auto"] }, text: { string: !0 }, data: { mapping: !0, regex: i("data") }, layoutData: { mapping: !0, regex: i("layoutData") }, scratch: { mapping: !0, regex: i("scratch") }, mapData: { mapping: !0, regex: s("mapData") }, mapLayoutData: { mapping: !0, regex: s("mapLayoutData") }, mapScratch: { mapping: !0, regex: s("mapScratch") }, fn: { mapping: !0, fn: !0 }, url: { regexes: o, singleRegexMatchValue: !0 }, urls: { regexes: o, singleRegexMatchValue: !0, multiple: !0 }, propList: { propList: !0 }, angle: { number: !0, units: "deg|rad", implicitUnits: "rad" }, textRotation: { number: !0, units: "deg|rad", implicitUnits: "rad", enums: ["none", "autorotate"] }, polygonPointList: { number: !0, multiple: !0, evenMultiple: !0, min: -1, max: 1, unitless: !0 }, edgeDistances: { enums: ["intersection", "node-position"] }, edgeEndpoint: { number: !0, multiple: !0, units: "%|px|em|deg|rad", implicitUnits: "px", enums: ["inside-to-node", "outside-to-node", "outside-to-node-or-label", "outside-to-line", "outside-to-line-or-label"], singleEnum: !0, validate: function(xe, Ce) { switch (xe.length) { case 2: return Ce[0] !== "deg" && Ce[0] !== "rad" && Ce[1] !== "deg" && Ce[1] !== "rad"; case 1: return ee(xe[0]) || Ce[0] === "deg" || Ce[0] === "rad"; default: return !1; } } }, easing: { regexes: ["^(spring)\\s*\\(\\s*(" + t + ")\\s*,\\s*(" + t + ")\\s*\\)$", "^(cubic-bezier)\\s*\\(\\s*(" + t + ")\\s*,\\s*(" + t + ")\\s*,\\s*(" + t + ")\\s*,\\s*(" + t + ")\\s*\\)$"], enums: ["linear", "ease", "ease-in", "ease-out", "ease-in-out", "ease-in-sine", "ease-out-sine", "ease-in-out-sine", "ease-in-quad", "ease-out-quad", "ease-in-out-quad", "ease-in-cubic", "ease-out-cubic", "ease-in-out-cubic", "ease-in-quart", "ease-out-quart", "ease-in-out-quart", "ease-in-quint", "ease-out-quint", "ease-in-out-quint", "ease-in-expo", "ease-out-expo", "ease-in-out-expo", "ease-in-circ", "ease-out-circ", "ease-in-out-circ"] }, gradientDirection: { enums: [ "to-bottom", "to-top", "to-left", "to-right", "to-bottom-right", "to-bottom-left", "to-top-right", "to-top-left", "to-right-bottom", "to-left-bottom", "to-right-top", "to-left-top" // different order ] }, boundsExpansion: { number: !0, multiple: !0, min: 0, validate: function(xe) { var Ce = xe.length; return Ce === 1 || Ce === 2 || Ce === 4; } } }; var l = { zeroNonZero: function(xe, Ce) { return (xe == null || Ce == null) && xe !== Ce || xe == 0 && Ce != 0 ? !0 : xe != 0 && Ce == 0; }, any: function(xe, Ce) { return xe != Ce; }, emptyNonEmpty: function(xe, Ce) { var Oe = Pe(xe), Ie = Pe(Ce); return Oe && !Ie || !Oe && Ie; } }, u = Nt.types, f = [{ name: "label", type: u.text, triggersBounds: l.any, triggersZOrder: l.emptyNonEmpty }, { name: "text-rotation", type: u.textRotation, triggersBounds: l.any }, { name: "text-margin-x", type: u.bidirectionalSize, triggersBounds: l.any }, { name: "text-margin-y", type: u.bidirectionalSize, triggersBounds: l.any }], h = [{ name: "source-label", type: u.text, triggersBounds: l.any }, { name: "source-text-rotation", type: u.textRotation, triggersBounds: l.any }, { name: "source-text-margin-x", type: u.bidirectionalSize, triggersBounds: l.any }, { name: "source-text-margin-y", type: u.bidirectionalSize, triggersBounds: l.any }, { name: "source-text-offset", type: u.size, triggersBounds: l.any }], c = [{ name: "target-label", type: u.text, triggersBounds: l.any }, { name: "target-text-rotation", type: u.textRotation, triggersBounds: l.any }, { name: "target-text-margin-x", type: u.bidirectionalSize, triggersBounds: l.any }, { name: "target-text-margin-y", type: u.bidirectionalSize, triggersBounds: l.any }, { name: "target-text-offset", type: u.size, triggersBounds: l.any }], v = [{ name: "font-family", type: u.fontFamily, triggersBounds: l.any }, { name: "font-style", type: u.fontStyle, triggersBounds: l.any }, { name: "font-weight", type: u.fontWeight, triggersBounds: l.any }, { name: "font-size", type: u.size, triggersBounds: l.any }, { name: "text-transform", type: u.textTransform, triggersBounds: l.any }, { name: "text-wrap", type: u.textWrap, triggersBounds: l.any }, { name: "text-overflow-wrap", type: u.textOverflowWrap, triggersBounds: l.any }, { name: "text-max-width", type: u.size, triggersBounds: l.any }, { name: "text-outline-width", type: u.size, triggersBounds: l.any }, { name: "line-height", type: u.positiveNumber, triggersBounds: l.any }], d = [{ name: "text-valign", type: u.valign, triggersBounds: l.any }, { name: "text-halign", type: u.halign, triggersBounds: l.any }, { name: "color", type: u.color }, { name: "text-outline-color", type: u.color }, { name: "text-outline-opacity", type: u.zeroOneNumber }, { name: "text-background-color", type: u.color }, { name: "text-background-opacity", type: u.zeroOneNumber }, { name: "text-background-padding", type: u.size, triggersBounds: l.any }, { name: "text-border-opacity", type: u.zeroOneNumber }, { name: "text-border-color", type: u.color }, { name: "text-border-width", type: u.size, triggersBounds: l.any }, { name: "text-border-style", type: u.borderStyle, triggersBounds: l.any }, { name: "text-background-shape", type: u.textBackgroundShape, triggersBounds: l.any }, { name: "text-justification", type: u.justification }], g = [{ name: "events", type: u.bool }, { name: "text-events", type: u.bool }], y = [{ name: "display", type: u.display, triggersZOrder: l.any, triggersBounds: l.any, triggersBoundsOfParallelBeziers: !0 }, { name: "visibility", type: u.visibility, triggersZOrder: l.any }, { name: "opacity", type: u.zeroOneNumber, triggersZOrder: l.zeroNonZero }, { name: "text-opacity", type: u.zeroOneNumber }, { name: "min-zoomed-font-size", type: u.size }, { name: "z-compound-depth", type: u.zCompoundDepth, triggersZOrder: l.any }, { name: "z-index-compare", type: u.zIndexCompare, triggersZOrder: l.any }, { name: "z-index", type: u.nonNegativeInt, triggersZOrder: l.any }], p = [{ name: "overlay-padding", type: u.size, triggersBounds: l.any }, { name: "overlay-color", type: u.color }, { name: "overlay-opacity", type: u.zeroOneNumber, triggersBounds: l.zeroNonZero }, { name: "overlay-shape", type: u.overlayShape, triggersBounds: l.any }], m = [{ name: "underlay-padding", type: u.size, triggersBounds: l.any }, { name: "underlay-color", type: u.color }, { name: "underlay-opacity", type: u.zeroOneNumber, triggersBounds: l.zeroNonZero }, { name: "underlay-shape", type: u.overlayShape, triggersBounds: l.any }], b = [{ name: "transition-property", type: u.propList }, { name: "transition-duration", type: u.time }, { name: "transition-delay", type: u.time }, { name: "transition-timing-function", type: u.easing }], E = function(xe, Ce) { return Ce.value === "label" ? -xe.poolIndex() : Ce.pfValue; }, M = [{ name: "height", type: u.nodeSize, triggersBounds: l.any, hashOverride: E }, { name: "width", type: u.nodeSize, triggersBounds: l.any, hashOverride: E }, { name: "shape", type: u.nodeShape, triggersBounds: l.any }, { name: "shape-polygon-points", type: u.polygonPointList, triggersBounds: l.any }, { name: "background-color", type: u.color }, { name: "background-fill", type: u.fill }, { name: "background-opacity", type: u.zeroOneNumber }, { name: "background-blacken", type: u.nOneOneNumber }, { name: "background-gradient-stop-colors", type: u.colors }, { name: "background-gradient-stop-positions", type: u.percentages }, { name: "background-gradient-direction", type: u.gradientDirection }, { name: "padding", type: u.sizeMaybePercent, triggersBounds: l.any }, { name: "padding-relative-to", type: u.paddingRelativeTo, triggersBounds: l.any }, { name: "bounds-expansion", type: u.boundsExpansion, triggersBounds: l.any }], O = [{ name: "border-color", type: u.color }, { name: "border-opacity", type: u.zeroOneNumber }, { name: "border-width", type: u.size, triggersBounds: l.any }, { name: "border-style", type: u.borderStyle }], x = [{ name: "background-image", type: u.urls }, { name: "background-image-crossorigin", type: u.bgCrossOrigin }, { name: "background-image-opacity", type: u.zeroOneNumbers }, { name: "background-image-containment", type: u.bgContainment }, { name: "background-image-smoothing", type: u.bools }, { name: "background-position-x", type: u.bgPos }, { name: "background-position-y", type: u.bgPos }, { name: "background-width-relative-to", type: u.bgRelativeTo }, { name: "background-height-relative-to", type: u.bgRelativeTo }, { name: "background-repeat", type: u.bgRepeat }, { name: "background-fit", type: u.bgFit }, { name: "background-clip", type: u.bgClip }, { name: "background-width", type: u.bgWH }, { name: "background-height", type: u.bgWH }, { name: "background-offset-x", type: u.bgPos }, { name: "background-offset-y", type: u.bgPos }], I = [{ name: "position", type: u.position, triggersBounds: l.any }, { name: "compound-sizing-wrt-labels", type: u.compoundIncludeLabels, triggersBounds: l.any }, { name: "min-width", type: u.size, triggersBounds: l.any }, { name: "min-width-bias-left", type: u.sizeMaybePercent, triggersBounds: l.any }, { name: "min-width-bias-right", type: u.sizeMaybePercent, triggersBounds: l.any }, { name: "min-height", type: u.size, triggersBounds: l.any }, { name: "min-height-bias-top", type: u.sizeMaybePercent, triggersBounds: l.any }, { name: "min-height-bias-bottom", type: u.sizeMaybePercent, triggersBounds: l.any }], C = [{ name: "line-style", type: u.lineStyle }, { name: "line-color", type: u.color }, { name: "line-fill", type: u.fill }, { name: "line-cap", type: u.lineCap }, { name: "line-opacity", type: u.zeroOneNumber }, { name: "line-dash-pattern", type: u.numbers }, { name: "line-dash-offset", type: u.number }, { name: "line-gradient-stop-colors", type: u.colors }, { name: "line-gradient-stop-positions", type: u.percentages }, { name: "curve-style", type: u.curveStyle, triggersBounds: l.any, triggersBoundsOfParallelBeziers: !0 }, { name: "haystack-radius", type: u.zeroOneNumber, triggersBounds: l.any }, { name: "source-endpoint", type: u.edgeEndpoint, triggersBounds: l.any }, { name: "target-endpoint", type: u.edgeEndpoint, triggersBounds: l.any }, { name: "control-point-step-size", type: u.size, triggersBounds: l.any }, { name: "control-point-distances", type: u.bidirectionalSizes, triggersBounds: l.any }, { name: "control-point-weights", type: u.numbers, triggersBounds: l.any }, { name: "segment-distances", type: u.bidirectionalSizes, triggersBounds: l.any }, { name: "segment-weights", type: u.numbers, triggersBounds: l.any }, { name: "taxi-turn", type: u.bidirectionalSizeMaybePercent, triggersBounds: l.any }, { name: "taxi-turn-min-distance", type: u.size, triggersBounds: l.any }, { name: "taxi-direction", type: u.axisDirection, triggersBounds: l.any }, { name: "edge-distances", type: u.edgeDistances, triggersBounds: l.any }, { name: "arrow-scale", type: u.positiveNumber, triggersBounds: l.any }, { name: "loop-direction", type: u.angle, triggersBounds: l.any }, { name: "loop-sweep", type: u.angle, triggersBounds: l.any }, { name: "source-distance-from-node", type: u.size, triggersBounds: l.any }, { name: "target-distance-from-node", type: u.size, triggersBounds: l.any }], B = [{ name: "ghost", type: u.bool, triggersBounds: l.any }, { name: "ghost-offset-x", type: u.bidirectionalSize, triggersBounds: l.any }, { name: "ghost-offset-y", type: u.bidirectionalSize, triggersBounds: l.any }, { name: "ghost-opacity", type: u.zeroOneNumber }], F = [{ name: "selection-box-color", type: u.color }, { name: "selection-box-opacity", type: u.zeroOneNumber }, { name: "selection-box-border-color", type: u.color }, { name: "selection-box-border-width", type: u.size }, { name: "active-bg-color", type: u.color }, { name: "active-bg-opacity", type: u.zeroOneNumber }, { name: "active-bg-size", type: u.size }, { name: "outside-texture-bg-color", type: u.color }, { name: "outside-texture-bg-opacity", type: u.zeroOneNumber }], R = []; Nt.pieBackgroundN = 16, R.push({ name: "pie-size", type: u.sizeMaybePercent }); for (var X = 1; X <= Nt.pieBackgroundN; X++) R.push({ name: "pie-" + X + "-background-color", type: u.color }), R.push({ name: "pie-" + X + "-background-size", type: u.percent }), R.push({ name: "pie-" + X + "-background-opacity", type: u.zeroOneNumber }); var z = [], re = Nt.arrowPrefixes = ["source", "mid-source", "target", "mid-target"]; [{ name: "arrow-shape", type: u.arrowShape, triggersBounds: l.any }, { name: "arrow-color", type: u.color }, { name: "arrow-fill", type: u.arrowFill }].forEach(function(ae) { re.forEach(function(xe) { var Ce = xe + "-" + ae.name, Oe = ae.type, Ie = ae.triggersBounds; z.push({ name: Ce, type: Oe, triggersBounds: Ie }); }); }, {}); var W = Nt.properties = [].concat(g, b, y, p, m, B, d, v, f, h, c, M, O, x, R, I, C, z, F), Z = Nt.propertyGroups = { // common to all eles behavior: g, transition: b, visibility: y, overlay: p, underlay: m, ghost: B, // labels commonLabel: d, labelDimensions: v, mainLabel: f, sourceLabel: h, targetLabel: c, // node props nodeBody: M, nodeBorder: O, backgroundImage: x, pie: R, compound: I, // edge props edgeLine: C, edgeArrow: z, core: F }, ie = Nt.propertyGroupNames = {}, oe = Nt.propertyGroupKeys = Object.keys(Z); oe.forEach(function(ae) { ie[ae] = Z[ae].map(function(xe) { return xe.name; }), Z[ae].forEach(function(xe) { return xe.groupKey = ae; }); }); var ge = Nt.aliases = [{ name: "content", pointsTo: "label" }, { name: "control-point-distance", pointsTo: "control-point-distances" }, { name: "control-point-weight", pointsTo: "control-point-weights" }, { name: "edge-text-rotation", pointsTo: "text-rotation" }, { name: "padding-left", pointsTo: "padding" }, { name: "padding-right", pointsTo: "padding" }, { name: "padding-top", pointsTo: "padding" }, { name: "padding-bottom", pointsTo: "padding" }]; Nt.propertyNames = W.map(function(ae) { return ae.name; }); for (var se = 0; se < W.length; se++) { var de = W[se]; W[de.name] = de; } for (var we = 0; we < ge.length; we++) { var Te = ge[we], Ee = W[Te.pointsTo], ye = { name: Te.name, alias: !0, pointsTo: Ee }; W.push(ye), W[Te.name] = ye; } })(), Nt.getDefaultProperty = function(t) { return this.getDefaultProperties()[t]; }, Nt.getDefaultProperties = function() { var t = this._private; if (t.defaultProperties != null) return t.defaultProperties; for (var e = Ue({ // core props "selection-box-color": "#ddd", "selection-box-opacity": 0.65, "selection-box-border-color": "#aaa", "selection-box-border-width": 1, "active-bg-color": "black", "active-bg-opacity": 0.15, "active-bg-size": 30, "outside-texture-bg-color": "#000", "outside-texture-bg-opacity": 0.125, // common node/edge props events: "yes", "text-events": "no", "text-valign": "top", "text-halign": "center", "text-justification": "auto", "line-height": 1, color: "#000", "text-outline-color": "#000", "text-outline-width": 0, "text-outline-opacity": 1, "text-opacity": 1, "text-decoration": "none", "text-transform": "none", "text-wrap": "none", "text-overflow-wrap": "whitespace", "text-max-width": 9999, "text-background-color": "#000", "text-background-opacity": 0, "text-background-shape": "rectangle", "text-background-padding": 0, "text-border-opacity": 0, "text-border-width": 0, "text-border-style": "solid", "text-border-color": "#000", "font-family": "Helvetica Neue, Helvetica, sans-serif", "font-style": "normal", "font-weight": "normal", "font-size": 16, "min-zoomed-font-size": 0, "text-rotation": "none", "source-text-rotation": "none", "target-text-rotation": "none", visibility: "visible", display: "element", opacity: 1, "z-compound-depth": "auto", "z-index-compare": "auto", "z-index": 0, label: "", "text-margin-x": 0, "text-margin-y": 0, "source-label": "", "source-text-offset": 0, "source-text-margin-x": 0, "source-text-margin-y": 0, "target-label": "", "target-text-offset": 0, "target-text-margin-x": 0, "target-text-margin-y": 0, "overlay-opacity": 0, "overlay-color": "#000", "overlay-padding": 10, "overlay-shape": "round-rectangle", "underlay-opacity": 0, "underlay-color": "#000", "underlay-padding": 10, "underlay-shape": "round-rectangle", "transition-property": "none", "transition-duration": 0, "transition-delay": 0, "transition-timing-function": "linear", // node props "background-blacken": 0, "background-color": "#999", "background-fill": "solid", "background-opacity": 1, "background-image": "none", "background-image-crossorigin": "anonymous", "background-image-opacity": 1, "background-image-containment": "inside", "background-image-smoothing": "yes", "background-position-x": "50%", "background-position-y": "50%", "background-offset-x": 0, "background-offset-y": 0, "background-width-relative-to": "include-padding", "background-height-relative-to": "include-padding", "background-repeat": "no-repeat", "background-fit": "none", "background-clip": "node", "background-width": "auto", "background-height": "auto", "border-color": "#000", "border-opacity": 1, "border-width": 0, "border-style": "solid", height: 30, width: 30, shape: "ellipse", "shape-polygon-points": "-1, -1, 1, -1, 1, 1, -1, 1", "bounds-expansion": 0, // node gradient "background-gradient-direction": "to-bottom", "background-gradient-stop-colors": "#999", "background-gradient-stop-positions": "0%", // ghost props ghost: "no", "ghost-offset-y": 0, "ghost-offset-x": 0, "ghost-opacity": 0, // compound props padding: 0, "padding-relative-to": "width", position: "origin", "compound-sizing-wrt-labels": "include", "min-width": 0, "min-width-bias-left": 0, "min-width-bias-right": 0, "min-height": 0, "min-height-bias-top": 0, "min-height-bias-bottom": 0 }, { // node pie bg "pie-size": "100%" }, [{ name: "pie-{{i}}-background-color", value: "black" }, { name: "pie-{{i}}-background-size", value: "0%" }, { name: "pie-{{i}}-background-opacity", value: 1 }].reduce(function(l, u) { for (var f = 1; f <= Nt.pieBackgroundN; f++) { var h = u.name.replace("{{i}}", f), c = u.value; l[h] = c; } return l; }, {}), { // edge props "line-style": "solid", "line-color": "#999", "line-fill": "solid", "line-cap": "butt", "line-opacity": 1, "line-gradient-stop-colors": "#999", "line-gradient-stop-positions": "0%", "control-point-step-size": 40, "control-point-weights": 0.5, "segment-weights": 0.5, "segment-distances": 20, "taxi-turn": "50%", "taxi-turn-min-distance": 10, "taxi-direction": "auto", "edge-distances": "intersection", "curve-style": "haystack", "haystack-radius": 0, "arrow-scale": 1, "loop-direction": "-45deg", "loop-sweep": "-90deg", "source-distance-from-node": 0, "target-distance-from-node": 0, "source-endpoint": "outside-to-node", "target-endpoint": "outside-to-node", "line-dash-pattern": [6, 3], "line-dash-offset": 0 }, [{ name: "arrow-shape", value: "none" }, { name: "arrow-color", value: "#999" }, { name: "arrow-fill", value: "filled" }].reduce(function(l, u) { return Nt.arrowPrefixes.forEach(function(f) { var h = f + "-" + u.name, c = u.value; l[h] = c; }), l; }, {})), r = {}, a = 0; a < this.properties.length; a++) { var n = this.properties[a]; if (!n.pointsTo) { var i = n.name, s = e[i], o = this.parse(i, s); r[i] = o; } } return t.defaultProperties = r, t.defaultProperties; }, Nt.addDefaultStylesheet = function() { this.selector(":parent").css({ shape: "rectangle", padding: 10, "background-color": "#eee", "border-color": "#ccc", "border-width": 1 }).selector("edge").css({ width: 3 }).selector(":loop").css({ "curve-style": "bezier" }).selector("edge:compound").css({ "curve-style": "bezier", "source-endpoint": "outside-to-line", "target-endpoint": "outside-to-line" }).selector(":selected").css({ "background-color": "#0169D9", "line-color": "#0169D9", "source-arrow-color": "#0169D9", "target-arrow-color": "#0169D9", "mid-source-arrow-color": "#0169D9", "mid-target-arrow-color": "#0169D9" }).selector(":parent:selected").css({ "background-color": "#CCE1F9", "border-color": "#aec8e5" }).selector(":active").css({ "overlay-color": "black", "overlay-padding": 10, "overlay-opacity": 0.25 }), this.defaultLength = this.length; }; var _n = {}; _n.parse = function(t, e, r, a) { var n = this; if (H(e)) return n.parseImplWarn(t, e, r, a); var i = a === "mapping" || a === !0 || a === !1 || a == null ? "dontcare" : a, s = r ? "t" : "f", o = "" + e, l = hs(t, o, s, i), u = n.propCache = n.propCache || [], f; return (f = u[l]) || (f = u[l] = n.parseImplWarn(t, e, r, a)), (r || a === "mapping") && (f = or(f), f && (f.value = or(f.value))), f; }, _n.parseImplWarn = function(t, e, r, a) { var n = this.parseImpl(t, e, r, a); return !n && e != null && ft("The style property `".concat(t, ": ").concat(e, "` is invalid")), n && (n.name === "width" || n.name === "height") && e === "label" && ft("The style value of `label` is deprecated for `" + n.name + "`"), n; }, _n.parseImpl = function(t, e, r, a) { var n = this; t = je(t); var i = n.properties[t], s = e, o = n.types; if (!i || e === void 0) return null; i.alias && (i = i.pointsTo, t = i.name); var l = ee(e); l && (e = e.trim()); var u = i.type; if (!u) return null; if (r && (e === "" || e === null)) return { name: t, value: e, bypass: !0, deleteBypass: !0 }; if (H(e)) return { name: t, value: e, strValue: "fn", mapped: o.fn, bypass: r }; var f, h; if (!(!l || a || e.length < 7 || e[1] !== "a")) { if (e.length >= 7 && e[0] === "d" && (f = new RegExp(o.data.regex).exec(e))) { if (r) return !1; var c = o.data; return { name: t, value: f, strValue: "" + e, mapped: c, field: f[1], bypass: r }; } else if (e.length >= 10 && e[0] === "m" && (h = new RegExp(o.mapData.regex).exec(e))) { if (r || u.multiple) return !1; var v = o.mapData; if (!(u.color || u.number)) return !1; var d = this.parse(t, h[4]); if (!d || d.mapped) return !1; var g = this.parse(t, h[5]); if (!g || g.mapped) return !1; if (d.pfValue === g.pfValue || d.strValue === g.strValue) return ft("`" + t + ": " + e + "` is not a valid mapper because the output range is zero; converting to `" + t + ": " + d.strValue + "`"), this.parse(t, d.strValue); if (u.color) { var y = d.value, p = g.value, m = y[0] === p[0] && y[1] === p[1] && y[2] === p[2] && // optional alpha (y[3] === p[3] || (y[3] == null || y[3] === 1) && (p[3] == null || p[3] === 1)); if (m) return !1; } return { name: t, value: h, strValue: "" + e, mapped: v, field: h[1], fieldMin: parseFloat(h[2]), // min & max are numeric fieldMax: parseFloat(h[3]), valueMin: d.value, valueMax: g.value, bypass: r }; } } if (u.multiple && a !== "multiple") { var b; if (l ? b = e.split(/\s+/) : te(e) ? b = e : b = [e], u.evenMultiple && b.length % 2 !== 0) return null; for (var E = [], M = [], O = [], x = "", I = !1, C = 0; C < b.length; C++) { var B = n.parse(t, b[C], r, "multiple"); I = I || ee(B.value), E.push(B.value), O.push(B.pfValue != null ? B.pfValue : B.value), M.push(B.units), x += (C > 0 ? " " : "") + B.strValue; } return u.validate && !u.validate(E, M) ? null : u.singleEnum && I ? E.length === 1 && ee(E[0]) ? { name: t, value: E[0], strValue: E[0], bypass: r } : null : { name: t, value: E, pfValue: O, strValue: x, bypass: r, units: M }; } var F = function() { for (var Ce = 0; Ce < u.enums.length; Ce++) { var Oe = u.enums[Ce]; if (Oe === e) return { name: t, value: e, strValue: "" + e, bypass: r }; } return null; }; if (u.number) { var R, X = "px"; if (u.units && (R = u.units), u.implicitUnits && (X = u.implicitUnits), !u.unitless) if (l) { var z = "px|em" + (u.allowPercent ? "|\\%" : ""); R && (z = R); var re = e.match("^(" + vt + ")(" + z + ")?$"); re && (e = re[1], R = re[2] || X); } else (!R || u.implicitUnits) && (R = X); if (e = parseFloat(e), isNaN(e) && u.enums === void 0) return null; if (isNaN(e) && u.enums !== void 0) return e = s, F(); if (u.integer && !q(e) || u.min !== void 0 && (e < u.min || u.strictMin && e === u.min) || u.max !== void 0 && (e > u.max || u.strictMax && e === u.max)) return null; var W = { name: t, value: e, strValue: "" + e + (R || ""), units: R, bypass: r }; return u.unitless || R !== "px" && R !== "em" ? W.pfValue = e : W.pfValue = R === "px" || !R ? e : this.getEmSizeInPixels() * e, (R === "ms" || R === "s") && (W.pfValue = R === "ms" ? e : 1e3 * e), (R === "deg" || R === "rad") && (W.pfValue = R === "rad" ? e : Ef(e)), R === "%" && (W.pfValue = e / 100), W; } else if (u.propList) { var Z = [], ie = "" + e; if (ie !== "none") { for (var oe = ie.split(/\s*,\s*|\s+/), ge = 0; ge < oe.length; ge++) { var se = oe[ge].trim(); n.properties[se] ? Z.push(se) : ft("`" + se + "` is not a valid property name"); } if (Z.length === 0) return null; } return { name: t, value: Z, strValue: Z.length === 0 ? "none" : Z.join(" "), bypass: r }; } else if (u.color) { var de = rl(e); return de ? { name: t, value: de, pfValue: de, strValue: "rgb(" + de[0] + "," + de[1] + "," + de[2] + ")", // n.b. no spaces b/c of multiple support bypass: r } : null; } else if (u.regex || u.regexes) { if (u.enums) { var we = F(); if (we) return we; } for (var Te = u.regexes ? u.regexes : [u.regex], Ee = 0; Ee < Te.length; Ee++) { var ye = new RegExp(Te[Ee]), ae = ye.exec(e); if (ae) return { name: t, value: u.singleRegexMatchValue ? ae[1] : ae, strValue: "" + e, bypass: r }; } return null; } else return u.string ? { name: t, value: "" + e, strValue: "" + e, bypass: r } : u.enums ? F() : null; }; var Ft = function t(e) { if (!(this instanceof t)) return new t(e); if (!_e(e)) { xt("A style must have a core reference"); return; } this._private = { cy: e, coreStyle: {} }, this.length = 0, this.resetToDefault(); }, zt = Ft.prototype; zt.instanceString = function() { return "style"; }, zt.clear = function() { for (var t = this._private, e = t.cy, r = e.elements(), a = 0; a < this.length; a++) this[a] = void 0; return this.length = 0, t.contextStyles = {}, t.propDiffs = {}, this.cleanElements(r, !0), r.forEach(function(n) { var i = n[0]._private; i.styleDirty = !0, i.appliedInitStyle = !1; }), this; }, zt.resetToDefault = function() { return this.clear(), this.addDefaultStylesheet(), this; }, zt.core = function(t) { return this._private.coreStyle[t] || this.getDefaultProperty(t); }, zt.selector = function(t) { var e = t === "core" ? null : new Dr(t), r = this.length++; return this[r] = { selector: e, properties: [], mappedProperties: [], index: r }, this; }, zt.css = function() { var t = this, e = arguments; if (e.length === 1) for (var r = e[0], a = 0; a < t.properties.length; a++) { var n = t.properties[a], i = r[n.name]; i === void 0 && (i = r[pt(n.name)]), i !== void 0 && this.cssRule(n.name, i); } else e.length === 2 && this.cssRule(e[0], e[1]); return this; }, zt.style = zt.css, zt.cssRule = function(t, e) { var r = this.parse(t, e); if (r) { var a = this.length - 1; this[a].properties.push(r), this[a].properties[r.name] = r, r.name.match(/pie-(\d+)-background-size/) && r.value && (this._private.hasPie = !0), r.mapped && this[a].mappedProperties.push(r); var n = !this[a].selector; n && (this._private.coreStyle[r.name] = r); } return this; }, zt.append = function(t) { return tt(t) ? t.appendToStyle(this) : te(t) ? this.appendFromJson(t) : ee(t) && this.appendFromString(t), this; }, Ft.fromJson = function(t, e) { var r = new Ft(t); return r.fromJson(e), r; }, Ft.fromString = function(t, e) { return new Ft(t).fromString(e); }, [Bt, Wa, ki, lr, Vn, Pi, Nt, _n].forEach(function(t) { Ue(zt, t); }), Ft.types = zt.types, Ft.properties = zt.properties, Ft.propertyGroups = zt.propertyGroups, Ft.propertyGroupNames = zt.propertyGroupNames, Ft.propertyGroupKeys = zt.propertyGroupKeys; var Gd = { style: function(e) { if (e) { var r = this.setStyle(e); r.update(); } return this._private.style; }, setStyle: function(e) { var r = this._private; return tt(e) ? r.style = e.generateStyle(this) : te(e) ? r.style = Ft.fromJson(this, e) : ee(e) ? r.style = Ft.fromString(this, e) : r.style = Ft(this), r.style; }, // e.g. cy.data() changed => recalc ele mappers updateStyle: function() { this.mutableElements().updateStyle(); } }, $d = "single", $r = { autolock: function(e) { if (e !== void 0) this._private.autolock = !!e; else return this._private.autolock; return this; }, autoungrabify: function(e) { if (e !== void 0) this._private.autoungrabify = !!e; else return this._private.autoungrabify; return this; }, autounselectify: function(e) { if (e !== void 0) this._private.autounselectify = !!e; else return this._private.autounselectify; return this; }, selectionType: function(e) { var r = this._private; if (r.selectionType == null && (r.selectionType = $d), e !== void 0) (e === "additive" || e === "single") && (r.selectionType = e); else return r.selectionType; return this; }, panningEnabled: function(e) { if (e !== void 0) this._private.panningEnabled = !!e; else return this._private.panningEnabled; return this; }, userPanningEnabled: function(e) { if (e !== void 0) this._private.userPanningEnabled = !!e; else return this._private.userPanningEnabled; return this; }, zoomingEnabled: function(e) { if (e !== void 0) this._private.zoomingEnabled = !!e; else return this._private.zoomingEnabled; return this; }, userZoomingEnabled: function(e) { if (e !== void 0) this._private.userZoomingEnabled = !!e; else return this._private.userZoomingEnabled; return this; }, boxSelectionEnabled: function(e) { if (e !== void 0) this._private.boxSelectionEnabled = !!e; else return this._private.boxSelectionEnabled; return this; }, pan: function() { var e = arguments, r = this._private.pan, a, n, i, s, o; switch (e.length) { case 0: return r; case 1: if (ee(e[0])) return a = e[0], r[a]; if (S(e[0])) { if (!this._private.panningEnabled) return this; i = e[0], s = i.x, o = i.y, k(s) && (r.x = s), k(o) && (r.y = o), this.emit("pan viewport"); } break; case 2: if (!this._private.panningEnabled) return this; a = e[0], n = e[1], (a === "x" || a === "y") && k(n) && (r[a] = n), this.emit("pan viewport"); break; } return this.notify("viewport"), this; }, panBy: function(e, r) { var a = arguments, n = this._private.pan, i, s, o, l, u; if (!this._private.panningEnabled) return this; switch (a.length) { case 1: S(e) && (o = a[0], l = o.x, u = o.y, k(l) && (n.x += l), k(u) && (n.y += u), this.emit("pan viewport")); break; case 2: i = e, s = r, (i === "x" || i === "y") && k(s) && (n[i] += s), this.emit("pan viewport"); break; } return this.notify("viewport"), this; }, fit: function(e, r) { var a = this.getFitViewport(e, r); if (a) { var n = this._private; n.zoom = a.zoom, n.pan = a.pan, this.emit("pan zoom viewport"), this.notify("viewport"); } return this; }, getFitViewport: function(e, r) { if (k(e) && r === void 0 && (r = e, e = void 0), !(!this._private.panningEnabled || !this._private.zoomingEnabled)) { var a; if (ee(e)) { var n = e; e = this.$(n); } else if (Xe(e)) { var i = e; a = { x1: i.x1, y1: i.y1, x2: i.x2, y2: i.y2 }, a.w = a.x2 - a.x1, a.h = a.y2 - a.y1; } else pe(e) || (e = this.mutableElements()); if (!(pe(e) && e.empty())) { a = a || e.boundingBox(); var s = this.width(), o = this.height(), l; if (r = k(r) ? r : 0, !isNaN(s) && !isNaN(o) && s > 0 && o > 0 && !isNaN(a.w) && !isNaN(a.h) && a.w > 0 && a.h > 0) { l = Math.min((s - 2 * r) / a.w, (o - 2 * r) / a.h), l = l > this._private.maxZoom ? this._private.maxZoom : l, l = l < this._private.minZoom ? this._private.minZoom : l; var u = { // now pan to middle x: (s - l * (a.x1 + a.x2)) / 2, y: (o - l * (a.y1 + a.y2)) / 2 }; return { zoom: l, pan: u }; } } } }, zoomRange: function(e, r) { var a = this._private; if (r == null) { var n = e; e = n.min, r = n.max; } return k(e) && k(r) && e <= r ? (a.minZoom = e, a.maxZoom = r) : k(e) && r === void 0 && e <= a.maxZoom ? a.minZoom = e : k(r) && e === void 0 && r >= a.minZoom && (a.maxZoom = r), this; }, minZoom: function(e) { return e === void 0 ? this._private.minZoom : this.zoomRange({ min: e }); }, maxZoom: function(e) { return e === void 0 ? this._private.maxZoom : this.zoomRange({ max: e }); }, getZoomedViewport: function(e) { var r = this._private, a = r.pan, n = r.zoom, i, s, o = !1; if (r.zoomingEnabled || (o = !0), k(e) ? s = e : S(e) && (s = e.level, e.position != null ? i = gn(e.position, n, a) : e.renderedPosition != null && (i = e.renderedPosition), i != null && !r.panningEnabled && (o = !0)), s = s > r.maxZoom ? r.maxZoom : s, s = s < r.minZoom ? r.minZoom : s, o || !k(s) || s === n || i != null && (!k(i.x) || !k(i.y))) return null; if (i != null) { var l = a, u = n, f = s, h = { x: -f / u * (i.x - l.x) + i.x, y: -f / u * (i.y - l.y) + i.y }; return { zoomed: !0, panned: !0, zoom: f, pan: h }; } else return { zoomed: !0, panned: !1, zoom: s, pan: a }; }, zoom: function(e) { if (e === void 0) return this._private.zoom; var r = this.getZoomedViewport(e), a = this._private; return r == null || !r.zoomed ? this : (a.zoom = r.zoom, r.panned && (a.pan.x = r.pan.x, a.pan.y = r.pan.y), this.emit("zoom" + (r.panned ? " pan" : "") + " viewport"), this.notify("viewport"), this); }, viewport: function(e) { var r = this._private, a = !0, n = !0, i = [], s = !1, o = !1; if (!e) return this; if (k(e.zoom) || (a = !1), S(e.pan) || (n = !1), !a && !n) return this; if (a) { var l = e.zoom; l < r.minZoom || l > r.maxZoom || !r.zoomingEnabled ? s = !0 : (r.zoom = l, i.push("zoom")); } if (n && (!s || !e.cancelOnFailedZoom) && r.panningEnabled) { var u = e.pan; k(u.x) && (r.pan.x = u.x, o = !1), k(u.y) && (r.pan.y = u.y, o = !1), o || i.push("pan"); } return i.length > 0 && (i.push("viewport"), this.emit(i.join(" ")), this.notify("viewport")), this; }, center: function(e) { var r = this.getCenterPan(e); return r && (this._private.pan = r, this.emit("pan viewport"), this.notify("viewport")), this; }, getCenterPan: function(e, r) { if (this._private.panningEnabled) { if (ee(e)) { var a = e; e = this.mutableElements().filter(a); } else pe(e) || (e = this.mutableElements()); if (e.length !== 0) { var n = e.boundingBox(), i = this.width(), s = this.height(); r = r === void 0 ? this._private.zoom : r; var o = { // middle x: (i - r * (n.x1 + n.x2)) / 2, y: (s - r * (n.y1 + n.y2)) / 2 }; return o; } } }, reset: function() { return !this._private.panningEnabled || !this._private.zoomingEnabled ? this : (this.viewport({ pan: { x: 0, y: 0 }, zoom: 1 }), this); }, invalidateSize: function() { this._private.sizeCache = null; }, size: function() { var e = this._private, r = e.container; return e.sizeCache = e.sizeCache || (r ? function() { var a = D.getComputedStyle(r), n = function(s) { return parseFloat(a.getPropertyValue(s)); }; return { width: r.clientWidth - n("padding-left") - n("padding-right"), height: r.clientHeight - n("padding-top") - n("padding-bottom") }; }() : { // fallback if no container (not 0 b/c can be used for dividing etc) width: 1, height: 1 }); }, width: function() { return this.size().width; }, height: function() { return this.size().height; }, extent: function() { var e = this._private.pan, r = this._private.zoom, a = this.renderedExtent(), n = { x1: (a.x1 - e.x) / r, x2: (a.x2 - e.x) / r, y1: (a.y1 - e.y) / r, y2: (a.y2 - e.y) / r }; return n.w = n.x2 - n.x1, n.h = n.y2 - n.y1, n; }, renderedExtent: function() { var e = this.width(), r = this.height(); return { x1: 0, y1: 0, x2: e, y2: r, w: e, h: r }; }, multiClickDebounceTime: function(e) { if (e) this._private.multiClickDebounceTime = e; else return this._private.multiClickDebounceTime; return this; } }; $r.centre = $r.center, $r.autolockNodes = $r.autolock, $r.autoungrabifyNodes = $r.autoungrabify; var Ka = { data: ht.data({ field: "data", bindingEvent: "data", allowBinding: !0, allowSetting: !0, settingEvent: "data", settingTriggersEvent: !0, triggerFnName: "trigger", allowGetting: !0, updateStyle: !0 }), removeData: ht.removeData({ field: "data", event: "data", triggerFnName: "trigger", triggerEvent: !0, updateStyle: !0 }), scratch: ht.data({ field: "scratch", bindingEvent: "scratch", allowBinding: !0, allowSetting: !0, settingEvent: "scratch", settingTriggersEvent: !0, triggerFnName: "trigger", allowGetting: !0, updateStyle: !0 }), removeScratch: ht.removeData({ field: "scratch", event: "scratch", triggerFnName: "trigger", triggerEvent: !0, updateStyle: !0 }) }; Ka.attr = Ka.data, Ka.removeAttr = Ka.removeData; var Za = function(e) { var r = this; e = Ue({}, e); var a = e.container; a && !ve(a) && ve(a[0]) && (a = a[0]); var n = a ? a._cyreg : null; n = n || {}, n && n.cy && (n.cy.destroy(), n = {}); var i = n.readies = n.readies || []; a && (a._cyreg = n), n.cy = r; var s = D !== void 0 && a !== void 0 && !e.headless, o = e; o.layout = Ue({ name: s ? "grid" : "null" }, o.layout), o.renderer = Ue({ name: s ? "canvas" : "null" }, o.renderer); var l = function(d, g, y) { return g !== void 0 ? g : y !== void 0 ? y : d; }, u = this._private = { container: a, // html dom ele container ready: !1, // whether ready has been triggered options: o, // cached options elements: new Ot(this), // elements in the graph listeners: [], // list of listeners aniEles: new Ot(this), // elements being animated data: o.data || {}, // data for the core scratch: {}, // scratch object for core layout: null, renderer: null, destroyed: !1, // whether destroy was called notificationsEnabled: !0, // whether notifications are sent to the renderer minZoom: 1e-50, maxZoom: 1e50, zoomingEnabled: l(!0, o.zoomingEnabled), userZoomingEnabled: l(!0, o.userZoomingEnabled), panningEnabled: l(!0, o.panningEnabled), userPanningEnabled: l(!0, o.userPanningEnabled), boxSelectionEnabled: l(!0, o.boxSelectionEnabled), autolock: l(!1, o.autolock, o.autolockNodes), autoungrabify: l(!1, o.autoungrabify, o.autoungrabifyNodes), autounselectify: l(!1, o.autounselectify), styleEnabled: o.styleEnabled === void 0 ? s : o.styleEnabled, zoom: k(o.zoom) ? o.zoom : 1, pan: { x: S(o.pan) && k(o.pan.x) ? o.pan.x : 0, y: S(o.pan) && k(o.pan.y) ? o.pan.y : 0 }, animation: { // object for currently-running animations current: [], queue: [] }, hasCompoundNodes: !1, multiClickDebounceTime: l(250, o.multiClickDebounceTime) }; this.createEmitter(), this.selectionType(o.selectionType), this.zoomRange({ min: o.minZoom, max: o.maxZoom }); var f = function(d, g) { var y = d.some(rt); if (y) return ia.all(d).then(g); g(d); }; u.styleEnabled && r.setStyle([]); var h = Ue({}, o, o.renderer); r.initRenderer(h); var c = function(d, g, y) { r.notifications(!1); var p = r.mutableElements(); p.length > 0 && p.remove(), d != null && (S(d) || te(d)) && r.add(d), r.one("layoutready", function(b) { r.notifications(!0), r.emit(b), r.one("load", g), r.emitAndNotify("load"); }).one("layoutstop", function() { r.one("done", y), r.emit("done"); }); var m = Ue({}, r._private.options.layout); m.eles = r.elements(), r.layout(m).run(); }; f([o.style, o.elements], function(v) { var d = v[0], g = v[1]; u.styleEnabled && r.style().append(d), c(g, function() { r.startAnimationLoop(), u.ready = !0, H(o.ready) && r.on("ready", o.ready); for (var y = 0; y < i.length; y++) { var p = i[y]; r.on("ready", p); } n && (n.readies = []), r.emit("ready"); }, o.done); }); }, Un = Za.prototype; Ue(Un, { instanceString: function() { return "core"; }, isReady: function() { return this._private.ready; }, destroyed: function() { return this._private.destroyed; }, ready: function(e) { return this.isReady() ? this.emitter().emit("ready", [], e) : this.on("ready", e), this; }, destroy: function() { var e = this; if (!e.destroyed()) return e.stopAnimationLoop(), e.destroyRenderer(), this.emit("destroy"), e._private.destroyed = !0, e; }, hasElementWithId: function(e) { return this._private.elements.hasElementWithId(e); }, getElementById: function(e) { return this._private.elements.getElementById(e); }, hasCompoundNodes: function() { return this._private.hasCompoundNodes; }, headless: function() { return this._private.renderer.isHeadless(); }, styleEnabled: function() { return this._private.styleEnabled; }, addToPool: function(e) { return this._private.elements.merge(e), this; }, removeFromPool: function(e) { return this._private.elements.unmerge(e), this; }, container: function() { return this._private.container || null; }, mount: function(e) { if (e != null) { var r = this, a = r._private, n = a.options; return !ve(e) && ve(e[0]) && (e = e[0]), r.stopAnimationLoop(), r.destroyRenderer(), a.container = e, a.styleEnabled = !0, r.invalidateSize(), r.initRenderer(Ue({}, n, n.renderer, { // allow custom renderer name to be re-used, otherwise use canvas name: n.renderer.name === "null" ? "canvas" : n.renderer.name })), r.startAnimationLoop(), r.style(n.style), r.emit("mount"), r; } }, unmount: function() { var e = this; return e.stopAnimationLoop(), e.destroyRenderer(), e.initRenderer({ name: "null" }), e.emit("unmount"), e; }, options: function() { return or(this._private.options); }, json: function(e) { var r = this, a = r._private, n = r.mutableElements(), i = function(E) { return r.getElementById(E.id()); }; if (S(e)) { if (r.startBatch(), e.elements) { var s = {}, o = function(E, M) { for (var O = [], x = [], I = 0; I < E.length; I++) { var C = E[I]; if (!C.data.id) { ft("cy.json() cannot handle elements without an ID attribute"); continue; } var B = "" + C.data.id, F = r.getElementById(B); s[B] = !0, F.length !== 0 ? x.push({ ele: F, json: C }) : (M && (C.group = M), O.push(C)); } r.add(O); for (var R = 0; R < x.length; R++) { var X = x[R], z = X.ele, re = X.json; z.json(re); } }; if (te(e.elements)) o(e.elements); else for (var l = ["nodes", "edges"], u = 0; u < l.length; u++) { var f = l[u], h = e.elements[f]; te(h) && o(h, f); } var c = r.collection(); n.filter(function(b) { return !s[b.id()]; }).forEach(function(b) { b.isParent() ? c.merge(b) : b.remove(); }), c.forEach(function(b) { return b.children().move({ parent: null }); }), c.forEach(function(b) { return i(b).remove(); }); } e.style && r.style(e.style), e.zoom != null && e.zoom !== a.zoom && r.zoom(e.zoom), e.pan && (e.pan.x !== a.pan.x || e.pan.y !== a.pan.y) && r.pan(e.pan), e.data && r.data(e.data); for (var v = ["minZoom", "maxZoom", "zoomingEnabled", "userZoomingEnabled", "panningEnabled", "userPanningEnabled", "boxSelectionEnabled", "autolock", "autoungrabify", "autounselectify", "multiClickDebounceTime"], d = 0; d < v.length; d++) { var g = v[d]; e[g] != null && r[g](e[g]); } return r.endBatch(), this; } else { var y = !!e, p = {}; y ? p.elements = this.elements().map(function(b) { return b.json(); }) : (p.elements = {}, n.forEach(function(b) { var E = b.group(); p.elements[E] || (p.elements[E] = []), p.elements[E].push(b.json()); })), this._private.styleEnabled && (p.style = r.style().json()), p.data = or(r.data()); var m = a.options; return p.zoomingEnabled = a.zoomingEnabled, p.userZoomingEnabled = a.userZoomingEnabled, p.zoom = a.zoom, p.minZoom = a.minZoom, p.maxZoom = a.maxZoom, p.panningEnabled = a.panningEnabled, p.userPanningEnabled = a.userPanningEnabled, p.pan = or(a.pan), p.boxSelectionEnabled = a.boxSelectionEnabled, p.renderer = or(m.renderer), p.hideEdgesOnViewport = m.hideEdgesOnViewport, p.textureOnViewport = m.textureOnViewport, p.wheelSensitivity = m.wheelSensitivity, p.motionBlur = m.motionBlur, p.multiClickDebounceTime = m.multiClickDebounceTime, p; } } }), Un.$id = Un.getElementById, [Od, kd, Ho, Ii, Gn, Bd, Ri, $n, Gd, $r, Ka].forEach(function(t) { Ue(Un, t); }); var Vd = { fit: !0, // whether to fit the viewport to the graph directed: !1, // whether the tree is directed downwards (or edges can point in any direction if false) padding: 30, // padding on fit circle: !1, // put depths in concentric circles if true, put depths top down if false grid: !1, // whether to create an even grid into which the DAG is placed (circle:false only) spacingFactor: 1.75, // positive spacing factor, larger => more space between nodes (N.B. n/a if causes overlap) boundingBox: void 0, // constrain layout bounds; { x1, y1, x2, y2 } or { x1, y1, w, h } avoidOverlap: !0, // prevents node overlap, may overflow boundingBox if not enough space nodeDimensionsIncludeLabels: !1, // Excludes the label when calculating node bounding boxes for the layout algorithm roots: void 0, // the roots of the trees maximal: !1, // whether to shift nodes down their natural BFS depths in order to avoid upwards edges (DAGS only) depthSort: void 0, // a sorting function to order nodes at equal depth. e.g. function(a, b){ return a.data('weight') - b.data('weight') } animate: !1, // whether to transition the node positions animationDuration: 500, // duration of animation in ms if enabled animationEasing: void 0, // easing of animation if enabled, animateFilter: function(e, r) { return !0; }, // a function that determines whether the node should be animated. All nodes animated by default on animate enabled. Non-animated nodes are positioned immediately when the layout starts ready: void 0, // callback on layoutready stop: void 0, // callback on layoutstop transform: function(e, r) { return r; } // transform a given node position. Useful for changing flow direction in discrete layouts }, pa = function(e) { return e.scratch("breadthfirst"); }, Xo = function(e, r) { return e.scratch("breadthfirst", r); }; function qo(t) { this.options = Ue({}, Vd, t); } qo.prototype.run = function() { var t = this.options, e = t, r = t.cy, a = e.eles, n = a.nodes().filter(function(Re) { return !Re.isParent(); }), i = a, s = e.directed, o = e.maximal || e.maximalAdjustments > 0, l = Ut(e.boundingBox ? e.boundingBox : { x1: 0, y1: 0, w: r.width(), h: r.height() }), u; if (pe(e.roots)) u = e.roots; else if (te(e.roots)) { for (var f = [], h = 0; h < e.roots.length; h++) { var c = e.roots[h], v = r.getElementById(c); f.push(v); } u = r.collection(f); } else if (ee(e.roots)) u = r.$(e.roots); else if (s) u = n.roots(); else { var d = a.components(); u = r.collection(); for (var g = function(Me) { var Ve = d[Me], Fe = Ve.maxDegree(!1), ke = Ve.filter(function(Ge) { return Ge.degree(!1) === Fe; }); u = u.add(ke); }, y = 0; y < d.length; y++) g(y); } var p = [], m = {}, b = function(Me, Ve) { p[Ve] == null && (p[Ve] = []); var Fe = p[Ve].length; p[Ve].push(Me), Xo(Me, { index: Fe, depth: Ve }); }, E = function(Me, Ve) { var Fe = pa(Me), ke = Fe.depth, Ge = Fe.index; p[ke][Ge] = null, b(Me, Ve); }; i.bfs({ roots: u, directed: e.directed, visit: function(Me, Ve, Fe, ke, Ge) { var et = Me[0], We = et.id(); b(et, Ge), m[We] = !0; } }); for (var M = [], O = 0; O < n.length; O++) { var x = n[O]; m[x.id()] || M.push(x); } var I = function(Me) { for (var Ve = p[Me], Fe = 0; Fe < Ve.length; Fe++) { var ke = Ve[Fe]; if (ke == null) { Ve.splice(Fe, 1), Fe--; continue; } Xo(ke, { depth: Me, index: Fe }); } }, C = function() { for (var Me = 0; Me < p.length; Me++) I(Me); }, B = function(Me, Ve) { for (var Fe = pa(Me), ke = Me.incomers().filter(function(N) { return N.isNode() && a.has(N); }), Ge = -1, et = Me.id(), We = 0; We < ke.length; We++) { var Ye = ke[We], Se = pa(Ye); Ge = Math.max(Ge, Se.depth); } return Fe.depth <= Ge ? Ve[et] ? null : (E(Me, Ge + 1), Ve[et] = !0, !0) : !1; }; if (s && o) { var F = [], R = {}, X = function(Me) { return F.push(Me); }, z = function() { return F.shift(); }; for (n.forEach(function(Re) { return F.push(Re); }); F.length > 0; ) { var re = z(), W = B(re, R); if (W) re.outgoers().filter(function(Re) { return Re.isNode() && a.has(Re); }).forEach(X); else if (W === null) { ft("Detected double maximal shift for node `" + re.id() + "`. Bailing maximal adjustment due to cycle. Use `options.maximal: true` only on DAGs."); break; } } } C(); var Z = 0; if (e.avoidOverlap) for (var ie = 0; ie < n.length; ie++) { var oe = n[ie], ge = oe.layoutDimensions(e), se = ge.w, de = ge.h; Z = Math.max(Z, se, de); } var we = {}, Te = function(Me) { if (we[Me.id()]) return we[Me.id()]; for (var Ve = pa(Me).depth, Fe = Me.neighborhood(), ke = 0, Ge = 0, et = 0; et < Fe.length; et++) { var We = Fe[et]; if (!(We.isEdge() || We.isParent() || !n.has(We))) { var Ye = pa(We); if (Ye != null) { var Se = Ye.index, N = Ye.depth; if (!(Se == null || N == null)) { var le = p[N].length; N < Ve && (ke += Se / le, Ge++); } } } } return Ge = Math.max(1, Ge), ke = ke / Ge, Ge === 0 && (ke = 0), we[Me.id()] = ke, ke; }, Ee = function(Me, Ve) { var Fe = Te(Me), ke = Te(Ve), Ge = Fe - ke; return Ge === 0 ? es(Me.id(), Ve.id()) : Ge; }; e.depthSort !== void 0 && (Ee = e.depthSort); for (var ye = 0; ye < p.length; ye++) p[ye].sort(Ee), I(ye); for (var ae = [], xe = 0; xe < M.length; xe++) ae.push(M[xe]); p.unshift(ae), C(); for (var Ce = 0, Oe = 0; Oe < p.length; Oe++) Ce = Math.max(p[Oe].length, Ce); var Ie = { x: l.x1 + l.w / 2, y: l.x1 + l.h / 2 }, He = p.reduce(function(Re, Me) { return Math.max(Re, Me.length); }, 0), qe = function(Me) { var Ve = pa(Me), Fe = Ve.depth, ke = Ve.index, Ge = p[Fe].length, et = Math.max(l.w / ((e.grid ? He : Ge) + 1), Z), We = Math.max(l.h / (p.length + 1), Z), Ye = Math.min(l.w / 2 / p.length, l.h / 2 / p.length); if (Ye = Math.max(Ye, Z), e.circle) { var N = Ye * Fe + Ye - (p.length > 0 && p[0].length <= 3 ? Ye / 2 : 0), le = 2 * Math.PI / p[Fe].length * ke; return Fe === 0 && p[0].length === 1 && (N = 1), { x: Ie.x + N * Math.cos(le), y: Ie.y + N * Math.sin(le) }; } else { var Se = { x: Ie.x + (ke + 1 - (Ge + 1) / 2) * et, y: (Fe + 1) * We }; return Se; } }; return a.nodes().layoutPositions(this, e, qe), this; }; var _d = { fit: !0, // whether to fit the viewport to the graph padding: 30, // the padding on fit boundingBox: void 0, // constrain layout bounds; { x1, y1, x2, y2 } or { x1, y1, w, h } avoidOverlap: !0, // prevents node overlap, may overflow boundingBox and radius if not enough space nodeDimensionsIncludeLabels: !1, // Excludes the label when calculating node bounding boxes for the layout algorithm spacingFactor: void 0, // Applies a multiplicative factor (>0) to expand or compress the overall area that the nodes take up radius: void 0, // the radius of the circle startAngle: 3 / 2 * Math.PI, // where nodes start in radians sweep: void 0, // how many radians should be between the first and last node (defaults to full circle) clockwise: !0, // whether the layout should go clockwise (true) or counterclockwise/anticlockwise (false) sort: void 0, // a sorting function to order the nodes; e.g. function(a, b){ return a.data('weight') - b.data('weight') } animate: !1, // whether to transition the node positions animationDuration: 500, // duration of animation in ms if enabled animationEasing: void 0, // easing of animation if enabled animateFilter: function(e, r) { return !0; }, // a function that determines whether the node should be animated. All nodes animated by default on animate enabled. Non-animated nodes are positioned immediately when the layout starts ready: void 0, // callback on layoutready stop: void 0, // callback on layoutstop transform: function(e, r) { return r; } // transform a given node position. Useful for changing flow direction in discrete layouts }; function Wo(t) { this.options = Ue({}, _d, t); } Wo.prototype.run = function() { var t = this.options, e = t, r = t.cy, a = e.eles, n = e.counterclockwise !== void 0 ? !e.counterclockwise : e.clockwise, i = a.nodes().not(":parent"); e.sort && (i = i.sort(e.sort)); for (var s = Ut(e.boundingBox ? e.boundingBox : { x1: 0, y1: 0, w: r.width(), h: r.height() }), o = { x: s.x1 + s.w / 2, y: s.y1 + s.h / 2 }, l = e.sweep === void 0 ? 2 * Math.PI - 2 * Math.PI / i.length : e.sweep, u = l / Math.max(1, i.length - 1), f, h = 0, c = 0; c < i.length; c++) { var v = i[c], d = v.layoutDimensions(e), g = d.w, y = d.h; h = Math.max(h, g, y); } if (k(e.radius) ? f = e.radius : i.length <= 1 ? f = 0 : f = Math.min(s.h, s.w) / 2 - h, i.length > 1 && e.avoidOverlap) { h *= 1.75; var p = Math.cos(u) - Math.cos(0), m = Math.sin(u) - Math.sin(0), b = Math.sqrt(h * h / (p * p + m * m)); f = Math.max(b, f); } var E = function(O, x) { var I = e.startAngle + x * u * (n ? 1 : -1), C = f * Math.cos(I), B = f * Math.sin(I), F = { x: o.x + C, y: o.y + B }; return F; }; return a.nodes().layoutPositions(this, e, E), this; }; var Ud = { fit: !0, // whether to fit the viewport to the graph padding: 30, // the padding on fit startAngle: 3 / 2 * Math.PI, // where nodes start in radians sweep: void 0, // how many radians should be between the first and last node (defaults to full circle) clockwise: !0, // whether the layout should go clockwise (true) or counterclockwise/anticlockwise (false) equidistant: !1, // whether levels have an equal radial distance betwen them, may cause bounding box overflow minNodeSpacing: 10, // min spacing between outside of nodes (used for radius adjustment) boundingBox: void 0, // constrain layout bounds; { x1, y1, x2, y2 } or { x1, y1, w, h } avoidOverlap: !0, // prevents node overlap, may overflow boundingBox if not enough space nodeDimensionsIncludeLabels: !1, // Excludes the label when calculating node bounding boxes for the layout algorithm height: void 0, // height of layout area (overrides container height) width: void 0, // width of layout area (overrides container width) spacingFactor: void 0, // Applies a multiplicative factor (>0) to expand or compress the overall area that the nodes take up concentric: function(e) { return e.degree(); }, levelWidth: function(e) { return e.maxDegree() / 4; }, animate: !1, // whether to transition the node positions animationDuration: 500, // duration of animation in ms if enabled animationEasing: void 0, // easing of animation if enabled animateFilter: function(e, r) { return !0; }, // a function that determines whether the node should be animated. All nodes animated by default on animate enabled. Non-animated nodes are positioned immediately when the layout starts ready: void 0, // callback on layoutready stop: void 0, // callback on layoutstop transform: function(e, r) { return r; } // transform a given node position. Useful for changing flow direction in discrete layouts }; function Ko(t) { this.options = Ue({}, Ud, t); } Ko.prototype.run = function() { for (var t = this.options, e = t, r = e.counterclockwise !== void 0 ? !e.counterclockwise : e.clockwise, a = t.cy, n = e.eles, i = n.nodes().not(":parent"), s = Ut(e.boundingBox ? e.boundingBox : { x1: 0, y1: 0, w: a.width(), h: a.height() }), o = { x: s.x1 + s.w / 2, y: s.y1 + s.h / 2 }, l = [], u = 0, f = 0; f < i.length; f++) { var h = i[f], c = void 0; c = e.concentric(h), l.push({ value: c, node: h }), h._private.scratch.concentric = c; } i.updateStyle(); for (var v = 0; v < i.length; v++) { var d = i[v], g = d.layoutDimensions(e); u = Math.max(u, g.w, g.h); } l.sort(function(Re, Me) { return Me.value - Re.value; }); for (var y = e.levelWidth(i), p = [[]], m = p[0], b = 0; b < l.length; b++) { var E = l[b]; if (m.length > 0) { var M = Math.abs(m[0].value - E.value); M >= y && (m = [], p.push(m)); } m.push(E); } var O = u + e.minNodeSpacing; if (!e.avoidOverlap) { var x = p.length > 0 && p[0].length > 1, I = Math.min(s.w, s.h) / 2 - O, C = I / (p.length + x ? 1 : 0); O = Math.min(O, C); } for (var B = 0, F = 0; F < p.length; F++) { var R = p[F], X = e.sweep === void 0 ? 2 * Math.PI - 2 * Math.PI / R.length : e.sweep, z = R.dTheta = X / Math.max(1, R.length - 1); if (R.length > 1 && e.avoidOverlap) { var re = Math.cos(z) - Math.cos(0), W = Math.sin(z) - Math.sin(0), Z = Math.sqrt(O * O / (re * re + W * W)); B = Math.max(Z, B); } R.r = B, B += O; } if (e.equidistant) { for (var ie = 0, oe = 0, ge = 0; ge < p.length; ge++) { var se = p[ge], de = se.r - oe; ie = Math.max(ie, de); } oe = 0; for (var we = 0; we < p.length; we++) { var Te = p[we]; we === 0 && (oe = Te.r), Te.r = oe, oe += ie; } } for (var Ee = {}, ye = 0; ye < p.length; ye++) for (var ae = p[ye], xe = ae.dTheta, Ce = ae.r, Oe = 0; Oe < ae.length; Oe++) { var Ie = ae[Oe], He = e.startAngle + (r ? 1 : -1) * xe * Oe, qe = { x: o.x + Ce * Math.cos(He), y: o.y + Ce * Math.sin(He) }; Ee[Ie.node.id()] = qe; } return n.nodes().layoutPositions(this, e, function(Re) { var Me = Re.id(); return Ee[Me]; }), this; }; var Bi, Yd = { // Called on `layoutready` ready: function() { }, // Called on `layoutstop` stop: function() { }, // Whether to animate while running the layout // true : Animate continuously as the layout is running // false : Just show the end result // 'end' : Animate with the end result, from the initial positions to the end positions animate: !0, // Easing of the animation for animate:'end' animationEasing: void 0, // The duration of the animation for animate:'end' animationDuration: void 0, // A function that determines whether the node should be animated // All nodes animated by default on animate enabled // Non-animated nodes are positioned immediately when the layout starts animateFilter: function(e, r) { return !0; }, // The layout animates only after this many milliseconds for animate:true // (prevents flashing on fast runs) animationThreshold: 250, // Number of iterations between consecutive screen positions update refresh: 20, // Whether to fit the network view after when done fit: !0, // Padding on fit padding: 30, // Constrain layout bounds; { x1, y1, x2, y2 } or { x1, y1, w, h } boundingBox: void 0, // Excludes the label when calculating node bounding boxes for the layout algorithm nodeDimensionsIncludeLabels: !1, // Randomize the initial positions of the nodes (true) or use existing positions (false) randomize: !1, // Extra spacing between components in non-compound graphs componentSpacing: 40, // Node repulsion (non overlapping) multiplier nodeRepulsion: function(e) { return 2048; }, // Node repulsion (overlapping) multiplier nodeOverlap: 4, // Ideal edge (non nested) length idealEdgeLength: function(e) { return 32; }, // Divisor to compute edge forces edgeElasticity: function(e) { return 32; }, // Nesting factor (multiplier) to compute ideal edge length for nested edges nestingFactor: 1.2, // Gravity force (constant) gravity: 1, // Maximum number of iterations to perform numIter: 1e3, // Initial temperature (maximum node displacement) initialTemp: 1e3, // Cooling factor (how the temperature is reduced between consecutive iterations coolingFactor: 0.99, // Lower temperature threshold (below this point the layout will end) minTemp: 1 }; function Yn(t) { this.options = Ue({}, Yd, t), this.options.layout = this; } Yn.prototype.run = function() { var t = this.options, e = t.cy, r = this; r.stopped = !1, (t.animate === !0 || t.animate === !1) && r.emit({ type: "layoutstart", layout: r }), t.debug === !0 ? Bi = !0 : Bi = !1; var a = Hd(e, r, t); Bi && Wd(a), t.randomize && Kd(a); var n = dr(), i = function() { Zd(a, e, t), t.fit === !0 && e.fit(t.padding); }, s = function(c) { return !(r.stopped || c >= t.numIter || (Qd(a, t), a.temperature = a.temperature * t.coolingFactor, a.temperature < t.minTemp)); }, o = function() { if (t.animate === !0 || t.animate === !1) i(), r.one("layoutstop", t.stop), r.emit({ type: "layoutstop", layout: r }); else { var c = t.eles.nodes(), v = Zo(a, t, c); c.layoutPositions(r, t, v); } }, l = 0, u = !0; if (t.animate === !0) { var f = function h() { for (var c = 0; u && c < t.refresh; ) u = s(l), l++, c++; if (!u) Jo(a, t), o(); else { var v = dr(); v - n >= t.animationThreshold && i(), hn(h); } }; f(); } else { for (; u; ) u = s(l), l++; Jo(a, t), o(); } return this; }, Yn.prototype.stop = function() { return this.stopped = !0, this.thread && this.thread.stop(), this.emit("layoutstop"), this; }, Yn.prototype.destroy = function() { return this.thread && this.thread.stop(), this; }; var Hd = function(e, r, a) { for (var n = a.eles.edges(), i = a.eles.nodes(), s = { isCompound: e.hasCompoundNodes(), layoutNodes: [], idToIndex: {}, nodeSize: i.size(), graphSet: [], indexToGraph: [], layoutEdges: [], edgeSize: n.size(), temperature: a.initialTemp, clientWidth: e.width(), clientHeight: e.width(), boundingBox: Ut(a.boundingBox ? a.boundingBox : { x1: 0, y1: 0, w: e.width(), h: e.height() }) }, o = a.eles.components(), l = {}, u = 0; u < o.length; u++) for (var f = o[u], h = 0; h < f.length; h++) { var c = f[h]; l[c.id()] = u; } for (var u = 0; u < s.nodeSize; u++) { var v = i[u], d = v.layoutDimensions(a), g = {}; g.isLocked = v.locked(), g.id = v.data("id"), g.parentId = v.data("parent"), g.cmptId = l[v.id()], g.children = [], g.positionX = v.position("x"), g.positionY = v.position("y"), g.offsetX = 0, g.offsetY = 0, g.height = d.w, g.width = d.h, g.maxX = g.positionX + g.width / 2, g.minX = g.positionX - g.width / 2, g.maxY = g.positionY + g.height / 2, g.minY = g.positionY - g.height / 2, g.padLeft = parseFloat(v.style("padding")), g.padRight = parseFloat(v.style("padding")), g.padTop = parseFloat(v.style("padding")), g.padBottom = parseFloat(v.style("padding")), g.nodeRepulsion = H(a.nodeRepulsion) ? a.nodeRepulsion(v) : a.nodeRepulsion, s.layoutNodes.push(g), s.idToIndex[g.id] = u; } for (var y = [], p = 0, m = -1, b = [], u = 0; u < s.nodeSize; u++) { var v = s.layoutNodes[u], E = v.parentId; E != null ? s.layoutNodes[s.idToIndex[E]].children.push(v.id) : (y[++m] = v.id, b.push(v.id)); } for (s.graphSet.push(b); p <= m; ) { var M = y[p++], O = s.idToIndex[M], c = s.layoutNodes[O], x = c.children; if (x.length > 0) { s.graphSet.push(x); for (var u = 0; u < x.length; u++) y[++m] = x[u]; } } for (var u = 0; u < s.graphSet.length; u++) for (var I = s.graphSet[u], h = 0; h < I.length; h++) { var C = s.idToIndex[I[h]]; s.indexToGraph[C] = u; } for (var u = 0; u < s.edgeSize; u++) { var B = n[u], F = {}; F.id = B.data("id"), F.sourceId = B.data("source"), F.targetId = B.data("target"); var R = H(a.idealEdgeLength) ? a.idealEdgeLength(B) : a.idealEdgeLength, X = H(a.edgeElasticity) ? a.edgeElasticity(B) : a.edgeElasticity, z = s.idToIndex[F.sourceId], re = s.idToIndex[F.targetId], W = s.indexToGraph[z], Z = s.indexToGraph[re]; if (W != Z) { for (var ie = Xd(F.sourceId, F.targetId, s), oe = s.graphSet[ie], ge = 0, g = s.layoutNodes[z]; oe.indexOf(g.id) === -1; ) g = s.layoutNodes[s.idToIndex[g.parentId]], ge++; for (g = s.layoutNodes[re]; oe.indexOf(g.id) === -1; ) g = s.layoutNodes[s.idToIndex[g.parentId]], ge++; R *= ge * a.nestingFactor; } F.idealLength = R, F.elasticity = X, s.layoutEdges.push(F); } return s; }, Xd = function(e, r, a) { var n = qd(e, r, 0, a); return 2 > n.count ? 0 : n.graph; }, qd = function t(e, r, a, n) { var i = n.graphSet[a]; if (-1 < i.indexOf(e) && -1 < i.indexOf(r)) return { count: 2, graph: a }; for (var s = 0, o = 0; o < i.length; o++) { var l = i[o], u = n.idToIndex[l], f = n.layoutNodes[u].children; if (f.length !== 0) { var h = n.indexToGraph[n.idToIndex[f[0]]], c = t(e, r, h, n); if (c.count !== 0) if (c.count === 1) { if (s++, s === 2) break; } else return c; } } return { count: s, graph: a }; }, Wd, Kd = function(e, r) { for (var a = e.clientWidth, n = e.clientHeight, i = 0; i < e.nodeSize; i++) { var s = e.layoutNodes[i]; s.children.length === 0 && !s.isLocked && (s.positionX = Math.random() * a, s.positionY = Math.random() * n); } }, Zo = function(e, r, a) { var n = e.boundingBox, i = { x1: 1 / 0, x2: -1 / 0, y1: 1 / 0, y2: -1 / 0 }; return r.boundingBox && (a.forEach(function(s) { var o = e.layoutNodes[e.idToIndex[s.data("id")]]; i.x1 = Math.min(i.x1, o.positionX), i.x2 = Math.max(i.x2, o.positionX), i.y1 = Math.min(i.y1, o.positionY), i.y2 = Math.max(i.y2, o.positionY); }), i.w = i.x2 - i.x1, i.h = i.y2 - i.y1), function(s, o) { var l = e.layoutNodes[e.idToIndex[s.data("id")]]; if (r.boundingBox) { var u = (l.positionX - i.x1) / i.w, f = (l.positionY - i.y1) / i.h; return { x: n.x1 + u * n.w, y: n.y1 + f * n.h }; } else return { x: l.positionX, y: l.positionY }; }; }, Zd = function(e, r, a) { var n = a.layout, i = a.eles.nodes(), s = Zo(e, a, i); i.positions(s), e.ready !== !0 && (e.ready = !0, n.one("layoutready", a.ready), n.emit({ type: "layoutready", layout: this })); }, Qd = function(e, r, a) { Jd(e, r), tg(e), rg(e, r), ag(e), ng(e); }, Jd = function(e, r) { for (var a = 0; a < e.graphSet.length; a++) for (var n = e.graphSet[a], i = n.length, s = 0; s < i; s++) for (var o = e.layoutNodes[e.idToIndex[n[s]]], l = s + 1; l < i; l++) { var u = e.layoutNodes[e.idToIndex[n[l]]]; jd(o, u, e, r); } }, Qo = function(e) { return -e + 2 * e * Math.random(); }, jd = function(e, r, a, n) { var i = e.cmptId, s = r.cmptId; if (!(i !== s && !a.isCompound)) { var o = r.positionX - e.positionX, l = r.positionY - e.positionY, u = 1; o === 0 && l === 0 && (o = Qo(u), l = Qo(u)); var f = eg(e, r, o, l); if (f > 0) var h = n.nodeOverlap * f, c = Math.sqrt(o * o + l * l), v = h * o / c, d = h * l / c; else var g = Hn(e, o, l), y = Hn(r, -1 * o, -1 * l), p = y.x - g.x, m = y.y - g.y, b = p * p + m * m, c = Math.sqrt(b), h = (e.nodeRepulsion + r.nodeRepulsion) / b, v = h * p / c, d = h * m / c; e.isLocked || (e.offsetX -= v, e.offsetY -= d), r.isLocked || (r.offsetX += v, r.offsetY += d); } }, eg = function(e, r, a, n) { if (a > 0) var i = e.maxX - r.minX; else var i = r.maxX - e.minX; if (n > 0) var s = e.maxY - r.minY; else var s = r.maxY - e.minY; return i >= 0 && s >= 0 ? Math.sqrt(i * i + s * s) : 0; }, Hn = function(e, r, a) { var n = e.positionX, i = e.positionY, s = e.height || 1, o = e.width || 1, l = a / r, u = s / o, f = {}; return r === 0 && 0 < a || r === 0 && 0 > a ? (f.x = n, f.y = i + s / 2, f) : 0 < r && -1 * u <= l && l <= u ? (f.x = n + o / 2, f.y = i + o * a / 2 / r, f) : 0 > r && -1 * u <= l && l <= u ? (f.x = n - o / 2, f.y = i - o * a / 2 / r, f) : 0 < a && (l <= -1 * u || l >= u) ? (f.x = n + s * r / 2 / a, f.y = i + s / 2, f) : (0 > a && (l <= -1 * u || l >= u) && (f.x = n - s * r / 2 / a, f.y = i - s / 2), f); }, tg = function(e, r) { for (var a = 0; a < e.edgeSize; a++) { var n = e.layoutEdges[a], i = e.idToIndex[n.sourceId], s = e.layoutNodes[i], o = e.idToIndex[n.targetId], l = e.layoutNodes[o], u = l.positionX - s.positionX, f = l.positionY - s.positionY; if (!(u === 0 && f === 0)) { var h = Hn(s, u, f), c = Hn(l, -1 * u, -1 * f), v = c.x - h.x, d = c.y - h.y, g = Math.sqrt(v * v + d * d), y = Math.pow(n.idealLength - g, 2) / n.elasticity; if (g !== 0) var p = y * v / g, m = y * d / g; else var p = 0, m = 0; s.isLocked || (s.offsetX += p, s.offsetY += m), l.isLocked || (l.offsetX -= p, l.offsetY -= m); } } }, rg = function(e, r) { if (r.gravity !== 0) for (var a = 1, n = 0; n < e.graphSet.length; n++) { var i = e.graphSet[n], s = i.length; if (n === 0) var o = e.clientHeight / 2, l = e.clientWidth / 2; else var u = e.layoutNodes[e.idToIndex[i[0]]], f = e.layoutNodes[e.idToIndex[u.parentId]], o = f.positionX, l = f.positionY; for (var h = 0; h < s; h++) { var c = e.layoutNodes[e.idToIndex[i[h]]]; if (!c.isLocked) { var v = o - c.positionX, d = l - c.positionY, g = Math.sqrt(v * v + d * d); if (g > a) { var y = r.gravity * v / g, p = r.gravity * d / g; c.offsetX += y, c.offsetY += p; } } } } }, ag = function(e, r) { var a = [], n = 0, i = -1; for (a.push.apply(a, e.graphSet[0]), i += e.graphSet[0].length; n <= i; ) { var s = a[n++], o = e.idToIndex[s], l = e.layoutNodes[o], u = l.children; if (0 < u.length && !l.isLocked) { for (var f = l.offsetX, h = l.offsetY, c = 0; c < u.length; c++) { var v = e.layoutNodes[e.idToIndex[u[c]]]; v.offsetX += f, v.offsetY += h, a[++i] = u[c]; } l.offsetX = 0, l.offsetY = 0; } } }, ng = function(e, r) { for (var a = 0; a < e.nodeSize; a++) { var n = e.layoutNodes[a]; 0 < n.children.length && (n.maxX = void 0, n.minX = void 0, n.maxY = void 0, n.minY = void 0); } for (var a = 0; a < e.nodeSize; a++) { var n = e.layoutNodes[a]; if (!(0 < n.children.length || n.isLocked)) { var i = ig(n.offsetX, n.offsetY, e.temperature); n.positionX += i.x, n.positionY += i.y, n.offsetX = 0, n.offsetY = 0, n.minX = n.positionX - n.width, n.maxX = n.positionX + n.width, n.minY = n.positionY - n.height, n.maxY = n.positionY + n.height, sg(n, e); } } for (var a = 0; a < e.nodeSize; a++) { var n = e.layoutNodes[a]; 0 < n.children.length && !n.isLocked && (n.positionX = (n.maxX + n.minX) / 2, n.positionY = (n.maxY + n.minY) / 2, n.width = n.maxX - n.minX, n.height = n.maxY - n.minY); } }, ig = function(e, r, a) { var n = Math.sqrt(e * e + r * r); if (n > a) var i = { x: a * e / n, y: a * r / n }; else var i = { x: e, y: r }; return i; }, sg = function t(e, r) { var a = e.parentId; if (a != null) { var n = r.layoutNodes[r.idToIndex[a]], i = !1; if ((n.maxX == null || e.maxX + n.padRight > n.maxX) && (n.maxX = e.maxX + n.padRight, i = !0), (n.minX == null || e.minX - n.padLeft < n.minX) && (n.minX = e.minX - n.padLeft, i = !0), (n.maxY == null || e.maxY + n.padBottom > n.maxY) && (n.maxY = e.maxY + n.padBottom, i = !0), (n.minY == null || e.minY - n.padTop < n.minY) && (n.minY = e.minY - n.padTop, i = !0), i) return t(n, r); } }, Jo = function(e, r) { for (var a = e.layoutNodes, n = [], i = 0; i < a.length; i++) { var s = a[i], o = s.cmptId, l = n[o] = n[o] || []; l.push(s); } for (var u = 0, i = 0; i < n.length; i++) { var f = n[i]; if (f) { f.x1 = 1 / 0, f.x2 = -1 / 0, f.y1 = 1 / 0, f.y2 = -1 / 0; for (var h = 0; h < f.length; h++) { var c = f[h]; f.x1 = Math.min(f.x1, c.positionX - c.width / 2), f.x2 = Math.max(f.x2, c.positionX + c.width / 2), f.y1 = Math.min(f.y1, c.positionY - c.height / 2), f.y2 = Math.max(f.y2, c.positionY + c.height / 2); } f.w = f.x2 - f.x1, f.h = f.y2 - f.y1, u += f.w * f.h; } } n.sort(function(m, b) { return b.w * b.h - m.w * m.h; }); for (var v = 0, d = 0, g = 0, y = 0, p = Math.sqrt(u) * e.clientWidth / e.clientHeight, i = 0; i < n.length; i++) { var f = n[i]; if (f) { for (var h = 0; h < f.length; h++) { var c = f[h]; c.isLocked || (c.positionX += v - f.x1, c.positionY += d - f.y1); } v += f.w + r.componentSpacing, g += f.w + r.componentSpacing, y = Math.max(y, f.h), g > p && (d += y + r.componentSpacing, v = 0, g = 0, y = 0); } } }, og = { fit: !0, // whether to fit the viewport to the graph padding: 30, // padding used on fit boundingBox: void 0, // constrain layout bounds; { x1, y1, x2, y2 } or { x1, y1, w, h } avoidOverlap: !0, // prevents node overlap, may overflow boundingBox if not enough space avoidOverlapPadding: 10, // extra spacing around nodes when avoidOverlap: true nodeDimensionsIncludeLabels: !1, // Excludes the label when calculating node bounding boxes for the layout algorithm spacingFactor: void 0, // Applies a multiplicative factor (>0) to expand or compress the overall area that the nodes take up condense: !1, // uses all available space on false, uses minimal space on true rows: void 0, // force num of rows in the grid cols: void 0, // force num of columns in the grid position: function(e) { }, // returns { row, col } for element sort: void 0, // a sorting function to order the nodes; e.g. function(a, b){ return a.data('weight') - b.data('weight') } animate: !1, // whether to transition the node positions animationDuration: 500, // duration of animation in ms if enabled animationEasing: void 0, // easing of animation if enabled animateFilter: function(e, r) { return !0; }, // a function that determines whether the node should be animated. All nodes animated by default on animate enabled. Non-animated nodes are positioned immediately when the layout starts ready: void 0, // callback on layoutready stop: void 0, // callback on layoutstop transform: function(e, r) { return r; } // transform a given node position. Useful for changing flow direction in discrete layouts }; function jo(t) { this.options = Ue({}, og, t); } jo.prototype.run = function() { var t = this.options, e = t, r = t.cy, a = e.eles, n = a.nodes().not(":parent"); e.sort && (n = n.sort(e.sort)); var i = Ut(e.boundingBox ? e.boundingBox : { x1: 0, y1: 0, w: r.width(), h: r.height() }); if (i.h === 0 || i.w === 0) a.nodes().layoutPositions(this, e, function(we) { return { x: i.x1, y: i.y1 }; }); else { var s = n.size(), o = Math.sqrt(s * i.h / i.w), l = Math.round(o), u = Math.round(i.w / i.h * o), f = function(Te) { if (Te == null) return Math.min(l, u); var Ee = Math.min(l, u); Ee == l ? l = Te : u = Te; }, h = function(Te) { if (Te == null) return Math.max(l, u); var Ee = Math.max(l, u); Ee == l ? l = Te : u = Te; }, c = e.rows, v = e.cols != null ? e.cols : e.columns; if (c != null && v != null) l = c, u = v; else if (c != null && v == null) l = c, u = Math.ceil(s / l); else if (c == null && v != null) u = v, l = Math.ceil(s / u); else if (u * l > s) { var d = f(), g = h(); (d - 1) * g >= s ? f(d - 1) : (g - 1) * d >= s && h(g - 1); } else for (; u * l < s; ) { var y = f(), p = h(); (p + 1) * y >= s ? h(p + 1) : f(y + 1); } var m = i.w / u, b = i.h / l; if (e.condense && (m = 0, b = 0), e.avoidOverlap) for (var E = 0; E < n.length; E++) { var M = n[E], O = M._private.position; (O.x == null || O.y == null) && (O.x = 0, O.y = 0); var x = M.layoutDimensions(e), I = e.avoidOverlapPadding, C = x.w + I, B = x.h + I; m = Math.max(m, C), b = Math.max(b, B); } for (var F = {}, R = function(Te, Ee) { return !!F["c-" + Te + "-" + Ee]; }, X = function(Te, Ee) { F["c-" + Te + "-" + Ee] = !0; }, z = 0, re = 0, W = function() { re++, re >= u && (re = 0, z++); }, Z = {}, ie = 0; ie < n.length; ie++) { var oe = n[ie], ge = e.position(oe); if (ge && (ge.row !== void 0 || ge.col !== void 0)) { var se = { row: ge.row, col: ge.col }; if (se.col === void 0) for (se.col = 0; R(se.row, se.col); ) se.col++; else if (se.row === void 0) for (se.row = 0; R(se.row, se.col); ) se.row++; Z[oe.id()] = se, X(se.row, se.col); } } var de = function(Te, Ee) { var ye, ae; if (Te.locked() || Te.isParent()) return !1; var xe = Z[Te.id()]; if (xe) ye = xe.col * m + m / 2 + i.x1, ae = xe.row * b + b / 2 + i.y1; else { for (; R(z, re); ) W(); ye = re * m + m / 2 + i.x1, ae = z * b + b / 2 + i.y1, X(z, re), W(); } return { x: ye, y: ae }; }; n.layoutPositions(this, e, de); } return this; }; var ug = { ready: function() { }, // on layoutready stop: function() { } // on layoutstop }; function Fi(t) { this.options = Ue({}, ug, t); } Fi.prototype.run = function() { var t = this.options, e = t.eles, r = this; return t.cy, r.emit("layoutstart"), e.nodes().positions(function() { return { x: 0, y: 0 }; }), r.one("layoutready", t.ready), r.emit("layoutready"), r.one("layoutstop", t.stop), r.emit("layoutstop"), this; }, Fi.prototype.stop = function() { return this; }; var lg = { positions: void 0, // map of (node id) => (position obj); or function(node){ return somPos; } zoom: void 0, // the zoom level to set (prob want fit = false if set) pan: void 0, // the pan level to set (prob want fit = false if set) fit: !0, // whether to fit to viewport padding: 30, // padding on fit animate: !1, // whether to transition the node positions animationDuration: 500, // duration of animation in ms if enabled animationEasing: void 0, // easing of animation if enabled animateFilter: function(e, r) { return !0; }, // a function that determines whether the node should be animated. All nodes animated by default on animate enabled. Non-animated nodes are positioned immediately when the layout starts ready: void 0, // callback on layoutready stop: void 0, // callback on layoutstop transform: function(e, r) { return r; } // transform a given node position. Useful for changing flow direction in discrete layouts }; function eu(t) { this.options = Ue({}, lg, t); } eu.prototype.run = function() { var t = this.options, e = t.eles, r = e.nodes(), a = H(t.positions); function n(i) { if (t.positions == null) return gf(i.position()); if (a) return t.positions(i); var s = t.positions[i._private.data.id]; return s ?? null; } return r.layoutPositions(this, t, function(i, s) { var o = n(i); return i.locked() || o == null ? !1 : o; }), this; }; var fg = { fit: !0, // whether to fit to viewport padding: 30, // fit padding boundingBox: void 0, // constrain layout bounds; { x1, y1, x2, y2 } or { x1, y1, w, h } animate: !1, // whether to transition the node positions animationDuration: 500, // duration of animation in ms if enabled animationEasing: void 0, // easing of animation if enabled animateFilter: function(e, r) { return !0; }, // a function that determines whether the node should be animated. All nodes animated by default on animate enabled. Non-animated nodes are positioned immediately when the layout starts ready: void 0, // callback on layoutready stop: void 0, // callback on layoutstop transform: function(e, r) { return r; } // transform a given node position. Useful for changing flow direction in discrete layouts }; function tu(t) { this.options = Ue({}, fg, t); } tu.prototype.run = function() { var t = this.options, e = t.cy, r = t.eles, a = Ut(t.boundingBox ? t.boundingBox : { x1: 0, y1: 0, w: e.width(), h: e.height() }), n = function(s, o) { return { x: a.x1 + Math.round(Math.random() * a.w), y: a.y1 + Math.round(Math.random() * a.h) }; }; return r.nodes().layoutPositions(this, t, n), this; }; var hg = [{ name: "breadthfirst", impl: qo }, { name: "circle", impl: Wo }, { name: "concentric", impl: Ko }, { name: "cose", impl: Yn }, { name: "grid", impl: jo }, { name: "null", impl: Fi }, { name: "preset", impl: eu }, { name: "random", impl: tu }]; function ru(t) { this.options = t, this.notifications = 0; } var au = function() { }, nu = function() { throw new Error("A headless instance can not render images"); }; ru.prototype = { recalculateRenderedStyle: au, notify: function() { this.notifications++; }, init: au, isHeadless: function() { return !0; }, png: nu, jpg: nu }; var zi = {}; zi.arrowShapeWidth = 0.3, zi.registerArrowShapes = function() { var t = this.arrowShapes = {}, e = this, r = function(u, f, h, c, v, d, g) { var y = v.x - h / 2 - g, p = v.x + h / 2 + g, m = v.y - h / 2 - g, b = v.y + h / 2 + g, E = y <= u && u <= p && m <= f && f <= b; return E; }, a = function(u, f, h, c, v) { var d = u * Math.cos(c) - f * Math.sin(c), g = u * Math.sin(c) + f * Math.cos(c), y = d * h, p = g * h, m = y + v.x, b = p + v.y; return { x: m, y: b }; }, n = function(u, f, h, c) { for (var v = [], d = 0; d < u.length; d += 2) { var g = u[d], y = u[d + 1]; v.push(a(g, y, f, h, c)); } return v; }, i = function(u) { for (var f = [], h = 0; h < u.length; h++) { var c = u[h]; f.push(c.x, c.y); } return f; }, s = function(u) { return u.pstyle("width").pfValue * u.pstyle("arrow-scale").pfValue * 2; }, o = function(u, f) { ee(f) && (f = t[f]), t[u] = Ue({ name: u, points: [-0.15, -0.3, 0.15, -0.3, 0.15, 0.3, -0.15, 0.3], collide: function(c, v, d, g, y, p) { var m = i(n(this.points, d + 2 * p, g, y)), b = Yt(c, v, m); return b; }, roughCollide: r, draw: function(c, v, d, g) { var y = n(this.points, v, d, g); e.arrowShapeImpl("polygon")(c, y); }, spacing: function(c) { return 0; }, gap: s }, f); }; o("none", { collide: vn, roughCollide: vn, draw: si, spacing: ds, gap: ds }), o("triangle", { points: [-0.15, -0.3, 0, 0, 0.15, -0.3] }), o("arrow", "triangle"), o("triangle-backcurve", { points: t.triangle.points, controlPoint: [0, -0.15], roughCollide: r, draw: function(u, f, h, c, v) { var d = n(this.points, f, h, c), g = this.controlPoint, y = a(g[0], g[1], f, h, c); e.arrowShapeImpl(this.name)(u, d, y); }, gap: function(u) { return s(u) * 0.8; } }), o("triangle-tee", { points: [0, 0, 0.15, -0.3, -0.15, -0.3, 0, 0], pointsTee: [-0.15, -0.4, -0.15, -0.5, 0.15, -0.5, 0.15, -0.4], collide: function(u, f, h, c, v, d, g) { var y = i(n(this.points, h + 2 * g, c, v)), p = i(n(this.pointsTee, h + 2 * g, c, v)), m = Yt(u, f, y) || Yt(u, f, p); return m; }, draw: function(u, f, h, c, v) { var d = n(this.points, f, h, c), g = n(this.pointsTee, f, h, c); e.arrowShapeImpl(this.name)(u, d, g); } }), o("circle-triangle", { radius: 0.15, pointsTr: [0, -0.15, 0.15, -0.45, -0.15, -0.45, 0, -0.15], collide: function(u, f, h, c, v, d, g) { var y = v, p = Math.pow(y.x - u, 2) + Math.pow(y.y - f, 2) <= Math.pow((h + 2 * g) * this.radius, 2), m = i(n(this.points, h + 2 * g, c, v)); return Yt(u, f, m) || p; }, draw: function(u, f, h, c, v) { var d = n(this.pointsTr, f, h, c); e.arrowShapeImpl(this.name)(u, d, c.x, c.y, this.radius * f); }, spacing: function(u) { return e.getArrowWidth(u.pstyle("width").pfValue, u.pstyle("arrow-scale").value) * this.radius; } }), o("triangle-cross", { points: [0, 0, 0.15, -0.3, -0.15, -0.3, 0, 0], baseCrossLinePts: [ -0.15, -0.4, // first half of the rectangle -0.15, -0.4, 0.15, -0.4, // second half of the rectangle 0.15, -0.4 ], crossLinePts: function(u, f) { var h = this.baseCrossLinePts.slice(), c = f / u, v = 3, d = 5; return h[v] = h[v] - c, h[d] = h[d] - c, h; }, collide: function(u, f, h, c, v, d, g) { var y = i(n(this.points, h + 2 * g, c, v)), p = i(n(this.crossLinePts(h, d), h + 2 * g, c, v)), m = Yt(u, f, y) || Yt(u, f, p); return m; }, draw: function(u, f, h, c, v) { var d = n(this.points, f, h, c), g = n(this.crossLinePts(f, v), f, h, c); e.arrowShapeImpl(this.name)(u, d, g); } }), o("vee", { points: [-0.15, -0.3, 0, 0, 0.15, -0.3, 0, -0.15], gap: function(u) { return s(u) * 0.525; } }), o("circle", { radius: 0.15, collide: function(u, f, h, c, v, d, g) { var y = v, p = Math.pow(y.x - u, 2) + Math.pow(y.y - f, 2) <= Math.pow((h + 2 * g) * this.radius, 2); return p; }, draw: function(u, f, h, c, v) { e.arrowShapeImpl(this.name)(u, c.x, c.y, this.radius * f); }, spacing: function(u) { return e.getArrowWidth(u.pstyle("width").pfValue, u.pstyle("arrow-scale").value) * this.radius; } }), o("tee", { points: [-0.15, 0, -0.15, -0.1, 0.15, -0.1, 0.15, 0], spacing: function(u) { return 1; }, gap: function(u) { return 1; } }), o("square", { points: [-0.15, 0, 0.15, 0, 0.15, -0.3, -0.15, -0.3] }), o("diamond", { points: [-0.15, -0.15, 0, -0.3, 0.15, -0.15, 0, 0], gap: function(u) { return u.pstyle("width").pfValue * u.pstyle("arrow-scale").value; } }), o("chevron", { points: [0, 0, -0.15, -0.15, -0.1, -0.2, 0, -0.1, 0.1, -0.2, 0.15, -0.15], gap: function(u) { return 0.95 * u.pstyle("width").pfValue * u.pstyle("arrow-scale").value; } }); }; var Vr = {}; Vr.projectIntoViewport = function(t, e) { var r = this.cy, a = this.findContainerClientCoords(), n = a[0], i = a[1], s = a[4], o = r.pan(), l = r.zoom(), u = ((t - n) / s - o.x) / l, f = ((e - i) / s - o.y) / l; return [u, f]; }, Vr.findContainerClientCoords = function() { if (this.containerBB) return this.containerBB; var t = this.container, e = t.getBoundingClientRect(), r = D.getComputedStyle(t), a = function(p) { return parseFloat(r.getPropertyValue(p)); }, n = { left: a("padding-left"), right: a("padding-right"), top: a("padding-top"), bottom: a("padding-bottom") }, i = { left: a("border-left-width"), right: a("border-right-width"), top: a("border-top-width"), bottom: a("border-bottom-width") }, s = t.clientWidth, o = t.clientHeight, l = n.left + n.right, u = n.top + n.bottom, f = i.left + i.right, h = e.width / (s + f), c = s - l, v = o - u, d = e.left + n.left + i.left, g = e.top + n.top + i.top; return this.containerBB = [d, g, c, v, h]; }, Vr.invalidateContainerClientCoordsCache = function() { this.containerBB = null; }, Vr.findNearestElement = function(t, e, r, a) { return this.findNearestElements(t, e, r, a)[0]; }, Vr.findNearestElements = function(t, e, r, a) { var n = this, i = this, s = i.getCachedZSortedEles(), o = [], l = i.cy.zoom(), u = i.cy.hasCompoundNodes(), f = (a ? 24 : 8) / l, h = (a ? 8 : 2) / l, c = (a ? 8 : 2) / l, v = 1 / 0, d, g; r && (s = s.interactive); function y(x, I) { if (x.isNode()) { if (g) return; g = x, o.push(x); } if (x.isEdge() && (I == null || I < v)) if (d) { if (d.pstyle("z-compound-depth").value === x.pstyle("z-compound-depth").value && d.pstyle("z-compound-depth").value === x.pstyle("z-compound-depth").value) { for (var C = 0; C < o.length; C++) if (o[C].isEdge()) { o[C] = x, d = x, v = I ?? v; break; } } } else o.push(x), d = x, v = I ?? v; } function p(x) { var I = x.outerWidth() + 2 * h, C = x.outerHeight() + 2 * h, B = I / 2, F = C / 2, R = x.position(); if (R.x - B <= t && t <= R.x + B && R.y - F <= e && e <= R.y + F) { var X = i.nodeShapes[n.getNodeShape(x)]; if (X.checkPoint(t, e, 0, I, C, R.x, R.y)) return y(x, 0), !0; } } function m(x) { var I = x._private, C = I.rscratch, B = x.pstyle("width").pfValue, F = x.pstyle("arrow-scale").value, R = B / 2 + f, X = R * R, z = R * 2, ie = I.source, oe = I.target, re; if (C.edgeType === "segments" || C.edgeType === "straight" || C.edgeType === "haystack") { for (var W = C.allpts, Z = 0; Z + 3 < W.length; Z += 2) if (Af(t, e, W[Z], W[Z + 1], W[Z + 2], W[Z + 3], z) && X > (re = Rf(t, e, W[Z], W[Z + 1], W[Z + 2], W[Z + 3]))) return y(x, re), !0; } else if (C.edgeType === "bezier" || C.edgeType === "multibezier" || C.edgeType === "self" || C.edgeType === "compound") { for (var W = C.allpts, Z = 0; Z + 5 < C.allpts.length; Z += 4) if (Of(t, e, W[Z], W[Z + 1], W[Z + 2], W[Z + 3], W[Z + 4], W[Z + 5], z) && X > (re = If(t, e, W[Z], W[Z + 1], W[Z + 2], W[Z + 3], W[Z + 4], W[Z + 5]))) return y(x, re), !0; } for (var ie = ie || I.source, oe = oe || I.target, ge = n.getArrowWidth(B, F), se = [{ name: "source", x: C.arrowStartX, y: C.arrowStartY, angle: C.srcArrowAngle }, { name: "target", x: C.arrowEndX, y: C.arrowEndY, angle: C.tgtArrowAngle }, { name: "mid-source", x: C.midX, y: C.midY, angle: C.midsrcArrowAngle }, { name: "mid-target", x: C.midX, y: C.midY, angle: C.midtgtArrowAngle }], Z = 0; Z < se.length; Z++) { var de = se[Z], we = i.arrowShapes[x.pstyle(de.name + "-arrow-shape").value], Te = x.pstyle("width").pfValue; if (we.roughCollide(t, e, ge, de.angle, { x: de.x, y: de.y }, Te, f) && we.collide(t, e, ge, de.angle, { x: de.x, y: de.y }, Te, f)) return y(x), !0; } u && o.length > 0 && (p(ie), p(oe)); } function b(x, I, C) { return er(x, I, C); } function E(x, I) { var C = x._private, B = c, F; I ? F = I + "-" : F = "", x.boundingBox(); var R = C.labelBounds[I || "main"], X = x.pstyle(F + "label").value, z = x.pstyle("text-events").strValue === "yes"; if (!(!z || !X)) { var re = b(C.rscratch, "labelX", I), W = b(C.rscratch, "labelY", I), Z = b(C.rscratch, "labelAngle", I), ie = x.pstyle(F + "text-margin-x").pfValue, oe = x.pstyle(F + "text-margin-y").pfValue, ge = R.x1 - B - ie, se = R.x2 + B - ie, de = R.y1 - B - oe, we = R.y2 + B - oe; if (Z) { var Te = Math.cos(Z), Ee = Math.sin(Z), ye = function(qe, Re) { return qe = qe - re, Re = Re - W, { x: qe * Te - Re * Ee + re, y: qe * Ee + Re * Te + W }; }, ae = ye(ge, de), xe = ye(ge, we), Ce = ye(se, de), Oe = ye(se, we), Ie = [ // with the margin added after the rotation is applied ae.x + ie, ae.y + oe, Ce.x + ie, Ce.y + oe, Oe.x + ie, Oe.y + oe, xe.x + ie, xe.y + oe ]; if (Yt(t, e, Ie)) return y(x), !0; } else if (ta(R, t, e)) return y(x), !0; } } for (var M = s.length - 1; M >= 0; M--) { var O = s[M]; O.isNode() ? p(O) || E(O) : m(O) || E(O) || E(O, "source") || E(O, "target"); } return o; }, Vr.getAllInBox = function(t, e, r, a) { var n = this.getCachedZSortedEles().interactive, i = [], s = Math.min(t, r), o = Math.max(t, r), l = Math.min(e, a), u = Math.max(e, a); t = s, r = o, e = l, a = u; for (var f = Ut({ x1: t, y1: e, x2: r, y2: a }), h = 0; h < n.length; h++) { var c = n[h]; if (c.isNode()) { var v = c, d = v.boundingBox({ includeNodes: !0, includeEdges: !1, includeLabels: !1 }); hi(f, d) && !xs(d, f) && i.push(v); } else { var g = c, y = g._private, p = y.rscratch; if (p.startX != null && p.startY != null && !ta(f, p.startX, p.startY) || p.endX != null && p.endY != null && !ta(f, p.endX, p.endY)) continue; if (p.edgeType === "bezier" || p.edgeType === "multibezier" || p.edgeType === "self" || p.edgeType === "compound" || p.edgeType === "segments" || p.edgeType === "haystack") { for (var m = y.rstyle.bezierPts || y.rstyle.linePts || y.rstyle.haystackPts, b = !0, E = 0; E < m.length; E++) if (!Lf(f, m[E])) { b = !1; break; } b && i.push(g); } else (p.edgeType === "haystack" || p.edgeType === "straight") && i.push(g); } } return i; }; var Xn = {}; Xn.calculateArrowAngles = function(t) { var e = t._private.rscratch, r = e.edgeType === "haystack", a = e.edgeType === "bezier", n = e.edgeType === "multibezier", i = e.edgeType === "segments", s = e.edgeType === "compound", o = e.edgeType === "self", l, u, f, h, c, v, p, m; if (r ? (f = e.haystackPts[0], h = e.haystackPts[1], c = e.haystackPts[2], v = e.haystackPts[3]) : (f = e.arrowStartX, h = e.arrowStartY, c = e.arrowEndX, v = e.arrowEndY), p = e.midX, m = e.midY, i) l = f - e.segpts[0], u = h - e.segpts[1]; else if (n || s || o || a) { var d = e.allpts, g = St(d[0], d[2], d[4], 0.1), y = St(d[1], d[3], d[5], 0.1); l = f - g, u = h - y; } else l = f - p, u = h - m; e.srcArrowAngle = pn(l, u); var p = e.midX, m = e.midY; if (r && (p = (f + c) / 2, m = (h + v) / 2), l = c - f, u = v - h, i) { var d = e.allpts; if (d.length / 2 % 2 === 0) { var b = d.length / 2, E = b - 2; l = d[b] - d[E], u = d[b + 1] - d[E + 1]; } else { var b = d.length / 2 - 1, E = b - 2, M = b + 2; l = d[b] - d[E], u = d[b + 1] - d[E + 1]; } } else if (n || s || o) { var d = e.allpts, O = e.ctrlpts, x, I, C, B; if (O.length / 2 % 2 === 0) { var F = d.length / 2 - 1, R = F + 2, X = R + 2; x = St(d[F], d[R], d[X], 0), I = St(d[F + 1], d[R + 1], d[X + 1], 0), C = St(d[F], d[R], d[X], 1e-4), B = St(d[F + 1], d[R + 1], d[X + 1], 1e-4); } else { var R = d.length / 2 - 1, F = R - 2, X = R + 2; x = St(d[F], d[R], d[X], 0.4999), I = St(d[F + 1], d[R + 1], d[X + 1], 0.4999), C = St(d[F], d[R], d[X], 0.5), B = St(d[F + 1], d[R + 1], d[X + 1], 0.5); } l = C - x, u = B - I; } if (e.midtgtArrowAngle = pn(l, u), e.midDispX = l, e.midDispY = u, l *= -1, u *= -1, i) { var d = e.allpts; if (d.length / 2 % 2 !== 0) { var b = d.length / 2 - 1, M = b + 2; l = -(d[M] - d[b]), u = -(d[M + 1] - d[b + 1]); } } if (e.midsrcArrowAngle = pn(l, u), i) l = c - e.segpts[e.segpts.length - 2], u = v - e.segpts[e.segpts.length - 1]; else if (n || s || o || a) { var d = e.allpts, z = d.length, g = St(d[z - 6], d[z - 4], d[z - 2], 0.9), y = St(d[z - 5], d[z - 3], d[z - 1], 0.9); l = c - g, u = v - y; } else l = c - p, u = v - m; e.tgtArrowAngle = pn(l, u); }, Xn.getArrowWidth = Xn.getArrowHeight = function(t, e) { var r = this.arrowWidthCache = this.arrowWidthCache || {}, a = r[t + ", " + e]; return a || (a = Math.max(Math.pow(t * 13.37, 0.9), 29) * e, r[t + ", " + e] = a, a); }; var Vt = {}; Vt.findHaystackPoints = function(t) { for (var e = 0; e < t.length; e++) { var r = t[e], a = r._private, n = a.rscratch; if (!n.haystack) { var i = Math.random() * 2 * Math.PI; n.source = { x: Math.cos(i), y: Math.sin(i) }, i = Math.random() * 2 * Math.PI, n.target = { x: Math.cos(i), y: Math.sin(i) }; } var s = a.source, o = a.target, l = s.position(), u = o.position(), f = s.width(), h = o.width(), c = s.height(), v = o.height(), d = r.pstyle("haystack-radius").value, g = d / 2; n.haystackPts = n.allpts = [n.source.x * f * g + l.x, n.source.y * c * g + l.y, n.target.x * h * g + u.x, n.target.y * v * g + u.y], n.midX = (n.allpts[0] + n.allpts[2]) / 2, n.midY = (n.allpts[1] + n.allpts[3]) / 2, n.edgeType = "haystack", n.haystack = !0, this.storeEdgeProjections(r), this.calculateArrowAngles(r), this.recalculateEdgeLabelProjections(r), this.calculateLabelAngles(r); } }, Vt.findSegmentsPoints = function(t, e) { var r = t._private.rscratch, a = e.posPts, n = e.intersectionPts, i = e.vectorNormInverse, s = t.pstyle("edge-distances").value, o = t.pstyle("segment-weights"), l = t.pstyle("segment-distances"), u = Math.min(o.pfValue.length, l.pfValue.length); r.edgeType = "segments", r.segpts = []; for (var f = 0; f < u; f++) { var h = o.pfValue[f], c = l.pfValue[f], v = 1 - h, d = h, g = s === "node-position" ? a : n, y = { x: g.x1 * v + g.x2 * d, y: g.y1 * v + g.y2 * d }; r.segpts.push(y.x + i.x * c, y.y + i.y * c); } }, Vt.findLoopPoints = function(t, e, r, a) { var n = t._private.rscratch, i = e.dirCounts, s = e.srcPos, o = t.pstyle("control-point-distances"), l = o ? o.pfValue[0] : void 0, u = t.pstyle("loop-direction").pfValue, f = t.pstyle("loop-sweep").pfValue, h = t.pstyle("control-point-step-size").pfValue; n.edgeType = "self"; var c = r, v = h; a && (c = 0, v = l); var d = u - Math.PI / 2, g = d - f / 2, y = d + f / 2, p = String(u + "_" + f); c = i[p] === void 0 ? i[p] = 0 : ++i[p], n.ctrlpts = [s.x + Math.cos(g) * 1.4 * v * (c / 3 + 1), s.y + Math.sin(g) * 1.4 * v * (c / 3 + 1), s.x + Math.cos(y) * 1.4 * v * (c / 3 + 1), s.y + Math.sin(y) * 1.4 * v * (c / 3 + 1)]; }, Vt.findCompoundLoopPoints = function(t, e, r, a) { var n = t._private.rscratch; n.edgeType = "compound"; var i = e.srcPos, s = e.tgtPos, o = e.srcW, l = e.srcH, u = e.tgtW, f = e.tgtH, h = t.pstyle("control-point-step-size").pfValue, c = t.pstyle("control-point-distances"), v = c ? c.pfValue[0] : void 0, d = r, g = h; a && (d = 0, g = v); var y = 50, p = { x: i.x - o / 2, y: i.y - l / 2 }, m = { x: s.x - u / 2, y: s.y - f / 2 }, b = { x: Math.min(p.x, m.x), y: Math.min(p.y, m.y) }, E = 0.5, M = Math.max(E, Math.log(o * 0.01)), O = Math.max(E, Math.log(u * 0.01)); n.ctrlpts = [b.x, b.y - (1 + Math.pow(y, 1.12) / 100) * g * (d / 3 + 1) * M, b.x - (1 + Math.pow(y, 1.12) / 100) * g * (d / 3 + 1) * O, b.y]; }, Vt.findStraightEdgePoints = function(t) { t._private.rscratch.edgeType = "straight"; }, Vt.findBezierPoints = function(t, e, r, a, n) { var i = t._private.rscratch, s = e.vectorNormInverse, o = e.posPts, l = e.intersectionPts, u = t.pstyle("edge-distances").value, f = t.pstyle("control-point-step-size").pfValue, h = t.pstyle("control-point-distances"), c = t.pstyle("control-point-weights"), v = h && c ? Math.min(h.value.length, c.value.length) : 1, d = h ? h.pfValue[0] : void 0, g = c.value[0], y = a; i.edgeType = y ? "multibezier" : "bezier", i.ctrlpts = []; for (var p = 0; p < v; p++) { var m = (0.5 - e.eles.length / 2 + r) * f * (n ? -1 : 1), b = void 0, E = Es(m); y && (d = h ? h.pfValue[p] : f, g = c.value[p]), a ? b = d : b = d !== void 0 ? E * d : void 0; var M = b !== void 0 ? b : m, O = 1 - g, x = g, I = u === "node-position" ? o : l, C = { x: I.x1 * O + I.x2 * x, y: I.y1 * O + I.y2 * x }; i.ctrlpts.push(C.x + s.x * M, C.y + s.y * M); } }, Vt.findTaxiPoints = function(t, e) { var r = t._private.rscratch; r.edgeType = "segments"; var a = "vertical", n = "horizontal", i = "leftward", s = "rightward", o = "downward", l = "upward", u = "auto", f = e.posPts, h = e.srcW, c = e.srcH, v = e.tgtW, d = e.tgtH, g = t.pstyle("edge-distances").value, y = g !== "node-position", p = t.pstyle("taxi-direction").value, m = p, b = t.pstyle("taxi-turn"), E = b.units === "%", M = b.pfValue, O = M < 0, x = t.pstyle("taxi-turn-min-distance").pfValue, I = y ? (h + v) / 2 : 0, C = y ? (c + d) / 2 : 0, B = f.x2 - f.x1, F = f.y2 - f.y1, R = function(ze, at) { return ze > 0 ? Math.max(ze - at, 0) : Math.min(ze + at, 0); }, X = R(B, I), z = R(F, C), re = !1; m === u ? p = Math.abs(X) > Math.abs(z) ? n : a : m === l || m === o ? (p = a, re = !0) : (m === i || m === s) && (p = n, re = !0); var W = p === a, Z = W ? z : X, ie = W ? F : B, oe = Es(ie), ge = !1; !(re && (E || O)) && (m === o && ie < 0 || m === l && ie > 0 || m === i && ie > 0 || m === s && ie < 0) && (oe *= -1, Z = oe * Math.abs(Z), ge = !0); var se; if (E) { var de = M < 0 ? 1 + M : M; se = de * Z; } else { var we = M < 0 ? Z : 0; se = we + M * oe; } var Te = function(ze) { return Math.abs(ze) < x || Math.abs(ze) >= Math.abs(Z); }, Ee = Te(se), ye = Te(Math.abs(Z) - Math.abs(se)), ae = Ee || ye; if (ae && !ge) if (W) { var xe = Math.abs(ie) <= c / 2, Ce = Math.abs(B) <= v / 2; if (xe) { var Oe = (f.x1 + f.x2) / 2, Ie = f.y1, He = f.y2; r.segpts = [Oe, Ie, Oe, He]; } else if (Ce) { var qe = (f.y1 + f.y2) / 2, Re = f.x1, Me = f.x2; r.segpts = [Re, qe, Me, qe]; } else r.segpts = [f.x1, f.y2]; } else { var Ve = Math.abs(ie) <= h / 2, Fe = Math.abs(F) <= d / 2; if (Ve) { var ke = (f.y1 + f.y2) / 2, Ge = f.x1, et = f.x2; r.segpts = [Ge, ke, et, ke]; } else if (Fe) { var We = (f.x1 + f.x2) / 2, Ye = f.y1, Se = f.y2; r.segpts = [We, Ye, We, Se]; } else r.segpts = [f.x2, f.y1]; } else if (W) { var N = f.y1 + se + (y ? c / 2 * oe : 0), le = f.x1, De = f.x2; r.segpts = [le, N, De, N]; } else { var me = f.x1 + se + (y ? h / 2 * oe : 0), be = f.y1, Ke = f.y2; r.segpts = [me, be, me, Ke]; } }, Vt.tryToCorrectInvalidPoints = function(t, e) { var r = t._private.rscratch; if (r.edgeType === "bezier") { var a = e.srcPos, n = e.tgtPos, i = e.srcW, s = e.srcH, o = e.tgtW, l = e.tgtH, u = e.srcShape, f = e.tgtShape, h = !k(r.startX) || !k(r.startY), c = !k(r.arrowStartX) || !k(r.arrowStartY), v = !k(r.endX) || !k(r.endY), d = !k(r.arrowEndX) || !k(r.arrowEndY), g = 3, y = this.getArrowWidth(t.pstyle("width").pfValue, t.pstyle("arrow-scale").value) * this.arrowShapeWidth, p = g * y, m = Pr({ x: r.ctrlpts[0], y: r.ctrlpts[1] }, { x: r.startX, y: r.startY }), b = m < p, E = Pr({ x: r.ctrlpts[0], y: r.ctrlpts[1] }, { x: r.endX, y: r.endY }), M = E < p, O = !1; if (h || c || b) { O = !0; var x = { // delta x: r.ctrlpts[0] - a.x, y: r.ctrlpts[1] - a.y }, I = Math.sqrt(x.x * x.x + x.y * x.y), C = { // normalised delta x: x.x / I, y: x.y / I }, B = Math.max(i, s), F = { // *2 radius guarantees outside shape x: r.ctrlpts[0] + C.x * 2 * B, y: r.ctrlpts[1] + C.y * 2 * B }, R = u.intersectLine(a.x, a.y, i, s, F.x, F.y, 0); b ? (r.ctrlpts[0] = r.ctrlpts[0] + C.x * (p - m), r.ctrlpts[1] = r.ctrlpts[1] + C.y * (p - m)) : (r.ctrlpts[0] = R[0] + C.x * p, r.ctrlpts[1] = R[1] + C.y * p); } if (v || d || M) { O = !0; var X = { // delta x: r.ctrlpts[0] - n.x, y: r.ctrlpts[1] - n.y }, z = Math.sqrt(X.x * X.x + X.y * X.y), re = { // normalised delta x: X.x / z, y: X.y / z }, W = Math.max(i, s), Z = { // *2 radius guarantees outside shape x: r.ctrlpts[0] + re.x * 2 * W, y: r.ctrlpts[1] + re.y * 2 * W }, ie = f.intersectLine(n.x, n.y, o, l, Z.x, Z.y, 0); M ? (r.ctrlpts[0] = r.ctrlpts[0] + re.x * (p - E), r.ctrlpts[1] = r.ctrlpts[1] + re.y * (p - E)) : (r.ctrlpts[0] = ie[0] + re.x * p, r.ctrlpts[1] = ie[1] + re.y * p); } O && this.findEndpoints(t); } }, Vt.storeAllpts = function(t) { var e = t._private.rscratch; if (e.edgeType === "multibezier" || e.edgeType === "bezier" || e.edgeType === "self" || e.edgeType === "compound") { e.allpts = [], e.allpts.push(e.startX, e.startY); for (var r = 0; r + 1 < e.ctrlpts.length; r += 2) e.allpts.push(e.ctrlpts[r], e.ctrlpts[r + 1]), r + 3 < e.ctrlpts.length && e.allpts.push((e.ctrlpts[r] + e.ctrlpts[r + 2]) / 2, (e.ctrlpts[r + 1] + e.ctrlpts[r + 3]) / 2); e.allpts.push(e.endX, e.endY); var a, n; e.ctrlpts.length / 2 % 2 === 0 ? (a = e.allpts.length / 2 - 1, e.midX = e.allpts[a], e.midY = e.allpts[a + 1]) : (a = e.allpts.length / 2 - 3, n = 0.5, e.midX = St(e.allpts[a], e.allpts[a + 2], e.allpts[a + 4], n), e.midY = St(e.allpts[a + 1], e.allpts[a + 3], e.allpts[a + 5], n)); } else if (e.edgeType === "straight") e.allpts = [e.startX, e.startY, e.endX, e.endY], e.midX = (e.startX + e.endX + e.arrowStartX + e.arrowEndX) / 4, e.midY = (e.startY + e.endY + e.arrowStartY + e.arrowEndY) / 4; else if (e.edgeType === "segments") if (e.allpts = [], e.allpts.push(e.startX, e.startY), e.allpts.push.apply(e.allpts, e.segpts), e.allpts.push(e.endX, e.endY), e.segpts.length % 4 === 0) { var i = e.segpts.length / 2, s = i - 2; e.midX = (e.segpts[s] + e.segpts[i]) / 2, e.midY = (e.segpts[s + 1] + e.segpts[i + 1]) / 2; } else { var o = e.segpts.length / 2 - 1; e.midX = e.segpts[o], e.midY = e.segpts[o + 1]; } }, Vt.checkForInvalidEdgeWarning = function(t) { var e = t[0]._private.rscratch; e.nodesOverlap || k(e.startX) && k(e.startY) && k(e.endX) && k(e.endY) ? e.loggedErr = !1 : e.loggedErr || (e.loggedErr = !0, ft("Edge `" + t.id() + "` has invalid endpoints and so it is impossible to draw. Adjust your edge style (e.g. control points) accordingly or use an alternative edge type. This is expected behaviour when the source node and the target node overlap.")); }, Vt.findEdgeControlPoints = function(t) { var e = this; if (!(!t || t.length === 0)) { for (var r = this, a = r.cy, n = a.hasCompoundNodes(), i = { map: new ur(), get: function(x) { var I = this.map.get(x[0]); return I != null ? I.get(x[1]) : null; }, set: function(x, I) { var C = this.map.get(x[0]); C == null && (C = new ur(), this.map.set(x[0], C)), C.set(x[1], I); } }, s = [], o = [], l = 0; l < t.length; l++) { var u = t[l], f = u._private, h = u.pstyle("curve-style").value; if (!(u.removed() || !u.takesUpSpace())) { if (h === "haystack") { o.push(u); continue; } var c = h === "unbundled-bezier" || h === "segments" || h === "straight" || h === "straight-triangle" || h === "taxi", v = h === "unbundled-bezier" || h === "bezier", d = f.source, g = f.target, y = d.poolIndex(), p = g.poolIndex(), m = [y, p].sort(), b = i.get(m); b == null && (b = { eles: [] }, i.set(m, b), s.push(m)), b.eles.push(u), c && (b.hasUnbundled = !0), v && (b.hasBezier = !0); } } for (var E = function(x) { var I = s[x], C = i.get(I), B = void 0; if (!C.hasUnbundled) { var F = C.eles[0].parallelEdges().filter(function(Se) { return Se.isBundledBezier(); }); oi(C.eles), F.forEach(function(Se) { return C.eles.push(Se); }), C.eles.sort(function(Se, N) { return Se.poolIndex() - N.poolIndex(); }); } var R = C.eles[0], X = R.source(), z = R.target(); if (X.poolIndex() > z.poolIndex()) { var re = X; X = z, z = re; } var W = C.srcPos = X.position(), Z = C.tgtPos = z.position(), ie = C.srcW = X.outerWidth(), oe = C.srcH = X.outerHeight(), ge = C.tgtW = z.outerWidth(), se = C.tgtH = z.outerHeight(), de = C.srcShape = r.nodeShapes[e.getNodeShape(X)], we = C.tgtShape = r.nodeShapes[e.getNodeShape(z)]; C.dirCounts = { north: 0, west: 0, south: 0, east: 0, northwest: 0, southwest: 0, northeast: 0, southeast: 0 }; for (var Te = 0; Te < C.eles.length; Te++) { var Ee = C.eles[Te], ye = Ee[0]._private.rscratch, ae = Ee.pstyle("curve-style").value, xe = ae === "unbundled-bezier" || ae === "segments" || ae === "taxi", Ce = !X.same(Ee.source()); if (!C.calculatedIntersection && X !== z && (C.hasBezier || C.hasUnbundled)) { C.calculatedIntersection = !0; var Oe = de.intersectLine(W.x, W.y, ie, oe, Z.x, Z.y, 0), Ie = C.srcIntn = Oe, He = we.intersectLine(Z.x, Z.y, ge, se, W.x, W.y, 0), qe = C.tgtIntn = He, Re = C.intersectionPts = { x1: Oe[0], x2: He[0], y1: Oe[1], y2: He[1] }, Me = C.posPts = { x1: W.x, x2: Z.x, y1: W.y, y2: Z.y }, Ve = He[1] - Oe[1], Fe = He[0] - Oe[0], ke = Math.sqrt(Fe * Fe + Ve * Ve), Ge = C.vector = { x: Fe, y: Ve }, et = C.vectorNorm = { x: Ge.x / ke, y: Ge.y / ke }, We = { x: -et.y, y: et.x }; C.nodesOverlap = !k(ke) || we.checkPoint(Oe[0], Oe[1], 0, ge, se, Z.x, Z.y) || de.checkPoint(He[0], He[1], 0, ie, oe, W.x, W.y), C.vectorNormInverse = We, B = { nodesOverlap: C.nodesOverlap, dirCounts: C.dirCounts, calculatedIntersection: !0, hasBezier: C.hasBezier, hasUnbundled: C.hasUnbundled, eles: C.eles, srcPos: Z, tgtPos: W, srcW: ge, srcH: se, tgtW: ie, tgtH: oe, srcIntn: qe, tgtIntn: Ie, srcShape: we, tgtShape: de, posPts: { x1: Me.x2, y1: Me.y2, x2: Me.x1, y2: Me.y1 }, intersectionPts: { x1: Re.x2, y1: Re.y2, x2: Re.x1, y2: Re.y1 }, vector: { x: -Ge.x, y: -Ge.y }, vectorNorm: { x: -et.x, y: -et.y }, vectorNormInverse: { x: -We.x, y: -We.y } }; } var Ye = Ce ? B : C; ye.nodesOverlap = Ye.nodesOverlap, ye.srcIntn = Ye.srcIntn, ye.tgtIntn = Ye.tgtIntn, n && (X.isParent() || X.isChild() || z.isParent() || z.isChild()) && (X.parents().anySame(z) || z.parents().anySame(X) || X.same(z) && X.isParent()) ? e.findCompoundLoopPoints(Ee, Ye, Te, xe) : X === z ? e.findLoopPoints(Ee, Ye, Te, xe) : ae === "segments" ? e.findSegmentsPoints(Ee, Ye) : ae === "taxi" ? e.findTaxiPoints(Ee, Ye) : ae === "straight" || !xe && C.eles.length % 2 === 1 && Te === Math.floor(C.eles.length / 2) ? e.findStraightEdgePoints(Ee) : e.findBezierPoints(Ee, Ye, Te, xe, Ce), e.findEndpoints(Ee), e.tryToCorrectInvalidPoints(Ee, Ye), e.checkForInvalidEdgeWarning(Ee), e.storeAllpts(Ee), e.storeEdgeProjections(Ee), e.calculateArrowAngles(Ee), e.recalculateEdgeLabelProjections(Ee), e.calculateLabelAngles(Ee); } }, M = 0; M < s.length; M++) E(M); this.findHaystackPoints(o); } }; function iu(t) { var e = []; if (t != null) { for (var r = 0; r < t.length; r += 2) { var a = t[r], n = t[r + 1]; e.push({ x: a, y: n }); } return e; } } Vt.getSegmentPoints = function(t) { var e = t[0]._private.rscratch, r = e.edgeType; if (r === "segments") return this.recalculateRenderedStyle(t), iu(e.segpts); }, Vt.getControlPoints = function(t) { var e = t[0]._private.rscratch, r = e.edgeType; if (r === "bezier" || r === "multibezier" || r === "self" || r === "compound") return this.recalculateRenderedStyle(t), iu(e.ctrlpts); }, Vt.getEdgeMidpoint = function(t) { var e = t[0]._private.rscratch; return this.recalculateRenderedStyle(t), { x: e.midX, y: e.midY }; }; var Qa = {}; Qa.manualEndptToPx = function(t, e) { var r = this, a = t.position(), n = t.outerWidth(), i = t.outerHeight(); if (e.value.length === 2) { var s = [e.pfValue[0], e.pfValue[1]]; return e.units[0] === "%" && (s[0] = s[0] * n), e.units[1] === "%" && (s[1] = s[1] * i), s[0] += a.x, s[1] += a.y, s; } else { var o = e.pfValue[0]; o = -Math.PI / 2 + o; var l = 2 * Math.max(n, i), u = [a.x + Math.cos(o) * l, a.y + Math.sin(o) * l]; return r.nodeShapes[this.getNodeShape(t)].intersectLine(a.x, a.y, n, i, u[0], u[1], 0); } }, Qa.findEndpoints = function(t) { var e = this, r, a = t.source()[0], n = t.target()[0], i = a.position(), s = n.position(), o = t.pstyle("target-arrow-shape").value, l = t.pstyle("source-arrow-shape").value, u = t.pstyle("target-distance-from-node").pfValue, f = t.pstyle("source-distance-from-node").pfValue, h = t.pstyle("curve-style").value, c = t._private.rscratch, v = c.edgeType, d = h === "taxi", g = v === "self" || v === "compound", y = v === "bezier" || v === "multibezier" || g, p = v !== "bezier", m = v === "straight" || v === "segments", b = v === "segments", E = y || p || m, M = g || d, O = t.pstyle("source-endpoint"), x = M ? "outside-to-node" : O.value, I = t.pstyle("target-endpoint"), C = M ? "outside-to-node" : I.value; c.srcManEndpt = O, c.tgtManEndpt = I; var B, F, R, X; if (y) { var z = [c.ctrlpts[0], c.ctrlpts[1]], re = p ? [c.ctrlpts[c.ctrlpts.length - 2], c.ctrlpts[c.ctrlpts.length - 1]] : z; B = re, F = z; } else if (m) { var W = b ? c.segpts.slice(0, 2) : [s.x, s.y], Z = b ? c.segpts.slice(c.segpts.length - 2) : [i.x, i.y]; B = Z, F = W; } if (C === "inside-to-node") r = [s.x, s.y]; else if (I.units) r = this.manualEndptToPx(n, I); else if (C === "outside-to-line") r = c.tgtIntn; else if (C === "outside-to-node" || C === "outside-to-node-or-label" ? R = B : (C === "outside-to-line" || C === "outside-to-line-or-label") && (R = [i.x, i.y]), r = e.nodeShapes[this.getNodeShape(n)].intersectLine(s.x, s.y, n.outerWidth(), n.outerHeight(), R[0], R[1], 0), C === "outside-to-node-or-label" || C === "outside-to-line-or-label") { var ie = n._private.rscratch, oe = ie.labelWidth, ge = ie.labelHeight, se = ie.labelX, de = ie.labelY, we = oe / 2, Te = ge / 2, Ee = n.pstyle("text-valign").value; Ee === "top" ? de -= Te : Ee === "bottom" && (de += Te); var ye = n.pstyle("text-halign").value; ye === "left" ? se -= we : ye === "right" && (se += we); var ae = Ba(R[0], R[1], [se - we, de - Te, se + we, de - Te, se + we, de + Te, se - we, de + Te], s.x, s.y); if (ae.length > 0) { var xe = i, Ce = Br(xe, jr(r)), Oe = Br(xe, jr(ae)), Ie = Ce; if (Oe < Ce && (r = ae, Ie = Oe), ae.length > 2) { var He = Br(xe, { x: ae[2], y: ae[3] }); He < Ie && (r = [ae[2], ae[3]]); } } } var qe = mn(r, B, e.arrowShapes[o].spacing(t) + u), Re = mn(r, B, e.arrowShapes[o].gap(t) + u); if (c.endX = Re[0], c.endY = Re[1], c.arrowEndX = qe[0], c.arrowEndY = qe[1], x === "inside-to-node") r = [i.x, i.y]; else if (O.units) r = this.manualEndptToPx(a, O); else if (x === "outside-to-line") r = c.srcIntn; else if (x === "outside-to-node" || x === "outside-to-node-or-label" ? X = F : (x === "outside-to-line" || x === "outside-to-line-or-label") && (X = [s.x, s.y]), r = e.nodeShapes[this.getNodeShape(a)].intersectLine(i.x, i.y, a.outerWidth(), a.outerHeight(), X[0], X[1], 0), x === "outside-to-node-or-label" || x === "outside-to-line-or-label") { var Me = a._private.rscratch, Ve = Me.labelWidth, Fe = Me.labelHeight, ke = Me.labelX, Ge = Me.labelY, et = Ve / 2, We = Fe / 2, Ye = a.pstyle("text-valign").value; Ye === "top" ? Ge -= We : Ye === "bottom" && (Ge += We); var Se = a.pstyle("text-halign").value; Se === "left" ? ke -= et : Se === "right" && (ke += et); var N = Ba(X[0], X[1], [ke - et, Ge - We, ke + et, Ge - We, ke + et, Ge + We, ke - et, Ge + We], i.x, i.y); if (N.length > 0) { var le = s, De = Br(le, jr(r)), me = Br(le, jr(N)), be = De; if (me < De && (r = [N[0], N[1]], be = me), N.length > 2) { var Ke = Br(le, { x: N[2], y: N[3] }); Ke < be && (r = [N[2], N[3]]); } } } var Le = mn(r, F, e.arrowShapes[l].spacing(t) + f), ze = mn(r, F, e.arrowShapes[l].gap(t) + f); c.startX = ze[0], c.startY = ze[1], c.arrowStartX = Le[0], c.arrowStartY = Le[1], E && (!k(c.startX) || !k(c.startY) || !k(c.endX) || !k(c.endY) ? c.badLine = !0 : c.badLine = !1); }, Qa.getSourceEndpoint = function(t) { var e = t[0]._private.rscratch; switch (this.recalculateRenderedStyle(t), e.edgeType) { case "haystack": return { x: e.haystackPts[0], y: e.haystackPts[1] }; default: return { x: e.arrowStartX, y: e.arrowStartY }; } }, Qa.getTargetEndpoint = function(t) { var e = t[0]._private.rscratch; switch (this.recalculateRenderedStyle(t), e.edgeType) { case "haystack": return { x: e.haystackPts[2], y: e.haystackPts[3] }; default: return { x: e.arrowEndX, y: e.arrowEndY }; } }; var Gi = {}; function cg(t, e, r) { for (var a = function(u, f, h, c) { return St(u, f, h, c); }, n = e._private, i = n.rstyle.bezierPts, s = 0; s < t.bezierProjPcts.length; s++) { var o = t.bezierProjPcts[s]; i.push({ x: a(r[0], r[2], r[4], o), y: a(r[1], r[3], r[5], o) }); } } Gi.storeEdgeProjections = function(t) { var e = t._private, r = e.rscratch, a = r.edgeType; if (e.rstyle.bezierPts = null, e.rstyle.linePts = null, e.rstyle.haystackPts = null, a === "multibezier" || a === "bezier" || a === "self" || a === "compound") { e.rstyle.bezierPts = []; for (var n = 0; n + 5 < r.allpts.length; n += 4) cg(this, t, r.allpts.slice(n, n + 6)); } else if (a === "segments") for (var i = e.rstyle.linePts = [], n = 0; n + 1 < r.allpts.length; n += 2) i.push({ x: r.allpts[n], y: r.allpts[n + 1] }); else if (a === "haystack") { var s = r.haystackPts; e.rstyle.haystackPts = [{ x: s[0], y: s[1] }, { x: s[2], y: s[3] }]; } e.rstyle.arrowWidth = this.getArrowWidth(t.pstyle("width").pfValue, t.pstyle("arrow-scale").value) * this.arrowShapeWidth; }, Gi.recalculateEdgeProjections = function(t) { this.findEdgeControlPoints(t); }; var fr = {}; fr.recalculateNodeLabelProjection = function(t) { var e = t.pstyle("label").strValue; if (!Pe(e)) { var r, a, n = t._private, i = t.width(), s = t.height(), o = t.padding(), l = t.position(), u = t.pstyle("text-halign").strValue, f = t.pstyle("text-valign").strValue, h = n.rscratch, c = n.rstyle; switch (u) { case "left": r = l.x - i / 2 - o; break; case "right": r = l.x + i / 2 + o; break; default: r = l.x; } switch (f) { case "top": a = l.y - s / 2 - o; break; case "bottom": a = l.y + s / 2 + o; break; default: a = l.y; } h.labelX = r, h.labelY = a, c.labelX = r, c.labelY = a, this.calculateLabelAngles(t), this.applyLabelDimensions(t); } }; var su = function(e, r) { var a = Math.atan(r / e); return e === 0 && a < 0 && (a = a * -1), a; }, ou = function(e, r) { var a = r.x - e.x, n = r.y - e.y; return su(a, n); }, vg = function(e, r, a, n) { var i = ka(0, n - 1e-3, 1), s = ka(0, n + 1e-3, 1), o = ea(e, r, a, i), l = ea(e, r, a, s); return ou(o, l); }; fr.recalculateEdgeLabelProjections = function(t) { var e, r = t._private, a = r.rscratch, n = this, i = { mid: t.pstyle("label").strValue, source: t.pstyle("source-label").strValue, target: t.pstyle("target-label").strValue }; if (i.mid || i.source || i.target) { e = { x: a.midX, y: a.midY }; var s = function(h, c, v) { xr(r.rscratch, h, c, v), xr(r.rstyle, h, c, v); }; s("labelX", null, e.x), s("labelY", null, e.y); var o = su(a.midDispX, a.midDispY); s("labelAutoAngle", null, o); var l = function f() { if (f.cache) return f.cache; for (var h = [], c = 0; c + 5 < a.allpts.length; c += 4) { var v = { x: a.allpts[c], y: a.allpts[c + 1] }, d = { x: a.allpts[c + 2], y: a.allpts[c + 3] }, g = { x: a.allpts[c + 4], y: a.allpts[c + 5] }; h.push({ p0: v, p1: d, p2: g, startDist: 0, length: 0, segments: [] }); } var y = r.rstyle.bezierPts, p = n.bezierProjPcts.length; function m(x, I, C, B, F) { var R = Pr(I, C), X = x.segments[x.segments.length - 1], z = { p0: I, p1: C, t0: B, t1: F, startDist: X ? X.startDist + X.length : 0, length: R }; x.segments.push(z), x.length += R; } for (var b = 0; b < h.length; b++) { var E = h[b], M = h[b - 1]; M && (E.startDist = M.startDist + M.length), m(E, E.p0, y[b * p], 0, n.bezierProjPcts[0]); for (var O = 0; O < p - 1; O++) m(E, y[b * p + O], y[b * p + O + 1], n.bezierProjPcts[O], n.bezierProjPcts[O + 1]); m(E, y[b * p + p - 1], E.p2, n.bezierProjPcts[p - 1], 1); } return f.cache = h; }, u = function(h) { var c, v = h === "source"; if (i[h]) { var d = t.pstyle(h + "-text-offset").pfValue; switch (a.edgeType) { case "self": case "compound": case "bezier": case "multibezier": { for (var g = l(), y, p = 0, m = 0, b = 0; b < g.length; b++) { for (var E = g[v ? b : g.length - 1 - b], M = 0; M < E.segments.length; M++) { var O = E.segments[v ? M : E.segments.length - 1 - M], x = b === g.length - 1 && M === E.segments.length - 1; if (p = m, m += O.length, m >= d || x) { y = { cp: E, segment: O }; break; } } if (y) break; } var I = y.cp, C = y.segment, B = (d - p) / C.length, F = C.t1 - C.t0, R = v ? C.t0 + F * B : C.t1 - F * B; R = ka(0, R, 1), e = ea(I.p0, I.p1, I.p2, R), c = vg(I.p0, I.p1, I.p2, R); break; } case "straight": case "segments": case "haystack": { for (var X = 0, z, re, W, Z, ie = a.allpts.length, oe = 0; oe + 3 < ie && (v ? (W = { x: a.allpts[oe], y: a.allpts[oe + 1] }, Z = { x: a.allpts[oe + 2], y: a.allpts[oe + 3] }) : (W = { x: a.allpts[ie - 2 - oe], y: a.allpts[ie - 1 - oe] }, Z = { x: a.allpts[ie - 4 - oe], y: a.allpts[ie - 3 - oe] }), z = Pr(W, Z), re = X, X += z, !(X >= d)); oe += 2) ; var ge = d - re, se = ge / z; se = ka(0, se, 1), e = xf(W, Z, se), c = ou(W, Z); break; } } s("labelX", h, e.x), s("labelY", h, e.y), s("labelAutoAngle", h, c); } }; u("source"), u("target"), this.applyLabelDimensions(t); } }, fr.applyLabelDimensions = function(t) { this.applyPrefixedLabelDimensions(t), t.isEdge() && (this.applyPrefixedLabelDimensions(t, "source"), this.applyPrefixedLabelDimensions(t, "target")); }, fr.applyPrefixedLabelDimensions = function(t, e) { var r = t._private, a = this.getLabelText(t, e), n = this.calculateLabelDimensions(t, a), i = t.pstyle("line-height").pfValue, s = t.pstyle("text-wrap").strValue, o = er(r.rscratch, "labelWrapCachedLines", e) || [], l = s !== "wrap" ? 1 : Math.max(o.length, 1), u = n.height / l, f = u * i, h = n.width, c = n.height + (l - 1) * (i - 1) * u; xr(r.rstyle, "labelWidth", e, h), xr(r.rscratch, "labelWidth", e, h), xr(r.rstyle, "labelHeight", e, c), xr(r.rscratch, "labelHeight", e, c), xr(r.rscratch, "labelLineHeight", e, f); }, fr.getLabelText = function(t, e) { var r = t._private, a = e ? e + "-" : "", n = t.pstyle(a + "label").strValue, i = t.pstyle("text-transform").value, s = function(ge, se) { return se ? (xr(r.rscratch, ge, e, se), se) : er(r.rscratch, ge, e); }; if (!n) return ""; i == "none" || (i == "uppercase" ? n = n.toUpperCase() : i == "lowercase" && (n = n.toLowerCase())); var o = t.pstyle("text-wrap").value; if (o === "wrap") { var l = s("labelKey"); if (l != null && s("labelWrapKey") === l) return s("labelWrapCachedText"); for (var u = "​", f = n.split(` `), h = t.pstyle("text-max-width").pfValue, c = t.pstyle("text-overflow-wrap").value, v = c === "anywhere", d = [], g = /[\s\u200b]+/, y = v ? "" : " ", p = 0; p < f.length; p++) { var m = f[p], b = this.calculateLabelDimensions(t, m), E = b.width; if (v) { var M = m.split("").join(u); m = M; } if (E > h) { for (var O = m.split(g), x = "", I = 0; I < O.length; I++) { var C = O[I], B = x.length === 0 ? C : x + y + C, F = this.calculateLabelDimensions(t, B), R = F.width; R <= h ? x += C + y : (x && d.push(x), x = C + y); } x.match(/^[\s\u200b]+$/) || d.push(x); } else d.push(m); } s("labelWrapCachedLines", d), n = s("labelWrapCachedText", d.join(` `)), s("labelWrapKey", l); } else if (o === "ellipsis") { var X = t.pstyle("text-max-width").pfValue, z = "", re = "…", W = !1; if (this.calculateLabelDimensions(t, n).width < X) return n; for (var Z = 0; Z < n.length; Z++) { var ie = this.calculateLabelDimensions(t, z + n[Z] + re).width; if (ie > X) break; z += n[Z], Z === n.length - 1 && (W = !0); } return W || (z += re), z; } return n; }, fr.getLabelJustification = function(t) { var e = t.pstyle("text-justification").strValue, r = t.pstyle("text-halign").strValue; if (e === "auto") if (t.isNode()) switch (r) { case "left": return "right"; case "right": return "left"; default: return "center"; } else return "center"; else return e; }, fr.calculateLabelDimensions = function(t, e) { var r = this, a = kr(e, t._private.labelDimsKey), n = r.labelDimCache || (r.labelDimCache = []), i = n[a]; if (i != null) return i; var s = 0, o = t.pstyle("font-style").strValue, l = t.pstyle("font-size").pfValue, u = t.pstyle("font-family").strValue, f = t.pstyle("font-weight").strValue, h = this.labelCalcCanvas, c = this.labelCalcCanvasContext; if (!h) { h = this.labelCalcCanvas = document.createElement("canvas"), c = this.labelCalcCanvasContext = h.getContext("2d"); var v = h.style; v.position = "absolute", v.left = "-9999px", v.top = "-9999px", v.zIndex = "-1", v.visibility = "hidden", v.pointerEvents = "none"; } c.font = "".concat(o, " ").concat(f, " ").concat(l, "px ").concat(u); for (var d = 0, g = 0, y = e.split(` `), p = 0; p < y.length; p++) { var m = y[p], b = c.measureText(m), E = Math.ceil(b.width), M = l; d = Math.max(E, d), g += M; } return d += s, g += s, n[a] = { width: d, height: g }; }, fr.calculateLabelAngle = function(t, e) { var r = t._private, a = r.rscratch, n = t.isEdge(), i = e ? e + "-" : "", s = t.pstyle(i + "text-rotation"), o = s.strValue; return o === "none" ? 0 : n && o === "autorotate" ? a.labelAutoAngle : o === "autorotate" ? 0 : s.pfValue; }, fr.calculateLabelAngles = function(t) { var e = this, r = t.isEdge(), a = t._private, n = a.rscratch; n.labelAngle = e.calculateLabelAngle(t), r && (n.sourceLabelAngle = e.calculateLabelAngle(t, "source"), n.targetLabelAngle = e.calculateLabelAngle(t, "target")); }; var uu = {}, lu = 28, fu = !1; uu.getNodeShape = function(t) { var e = this, r = t.pstyle("shape").value; if (r === "cutrectangle" && (t.width() < lu || t.height() < lu)) return fu || (ft("The `cutrectangle` node shape can not be used at small sizes so `rectangle` is used instead"), fu = !0), "rectangle"; if (t.isParent()) return r === "rectangle" || r === "roundrectangle" || r === "round-rectangle" || r === "cutrectangle" || r === "cut-rectangle" || r === "barrel" ? r : "rectangle"; if (r === "polygon") { var a = t.pstyle("shape-polygon-points").value; return e.nodeShapes.makePolygon(a).name; } return r; }; var qn = {}; qn.registerCalculationListeners = function() { var t = this.cy, e = t.collection(), r = this, a = function(s) { var o = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !0; if (e.merge(s), o) for (var l = 0; l < s.length; l++) { var u = s[l], f = u._private, h = f.rstyle; h.clean = !1, h.cleanConnected = !1; } }; r.binder(t).on("bounds.* dirty.*", function(s) { var o = s.target; a(o); }).on("style.* background.*", function(s) { var o = s.target; a(o, !1); }); var n = function(s) { if (s) { var o = r.onUpdateEleCalcsFns; e.cleanStyle(); for (var l = 0; l < e.length; l++) { var u = e[l], f = u._private.rstyle; u.isNode() && !f.cleanConnected && (a(u.connectedEdges()), f.cleanConnected = !0); } if (o) for (var h = 0; h < o.length; h++) { var c = o[h]; c(s, e); } r.recalculateRenderedStyle(e), e = t.collection(); } }; r.flushRenderedStyleQueue = function() { n(!0); }, r.beforeRender(n, r.beforeRenderPriorities.eleCalcs); }, qn.onUpdateEleCalcs = function(t) { var e = this.onUpdateEleCalcsFns = this.onUpdateEleCalcsFns || []; e.push(t); }, qn.recalculateRenderedStyle = function(t, e) { var r = function(E) { return E._private.rstyle.cleanConnected; }, a = [], n = []; if (!this.destroyed) { e === void 0 && (e = !0); for (var i = 0; i < t.length; i++) { var s = t[i], o = s._private, l = o.rstyle; s.isEdge() && (!r(s.source()) || !r(s.target())) && (l.clean = !1), !(e && l.clean || s.removed()) && s.pstyle("display").value !== "none" && (o.group === "nodes" ? n.push(s) : a.push(s), l.clean = !0); } for (var u = 0; u < n.length; u++) { var f = n[u], h = f._private, c = h.rstyle, v = f.position(); this.recalculateNodeLabelProjection(f), c.nodeX = v.x, c.nodeY = v.y, c.nodeW = f.pstyle("width").pfValue, c.nodeH = f.pstyle("height").pfValue; } this.recalculateEdgeProjections(a); for (var d = 0; d < a.length; d++) { var g = a[d], y = g._private, p = y.rstyle, m = y.rscratch; p.srcX = m.arrowStartX, p.srcY = m.arrowStartY, p.tgtX = m.arrowEndX, p.tgtY = m.arrowEndY, p.midX = m.midX, p.midY = m.midY, p.labelAngle = m.labelAngle, p.sourceLabelAngle = m.sourceLabelAngle, p.targetLabelAngle = m.targetLabelAngle; } } }; var Wn = {}; Wn.updateCachedGrabbedEles = function() { var t = this.cachedZSortedEles; if (t) { t.drag = [], t.nondrag = []; for (var e = [], r = 0; r < t.length; r++) { var a = t[r], n = a._private.rscratch; a.grabbed() && !a.isParent() ? e.push(a) : n.inDragLayer ? t.drag.push(a) : t.nondrag.push(a); } for (var r = 0; r < e.length; r++) { var a = e[r]; t.drag.push(a); } } }, Wn.invalidateCachedZSortedEles = function() { this.cachedZSortedEles = null; }, Wn.getCachedZSortedEles = function(t) { if (t || !this.cachedZSortedEles) { var e = this.cy.mutableElements().toArray(); e.sort(Ro), e.interactive = e.filter(function(r) { return r.interactive(); }), this.cachedZSortedEles = e, this.updateCachedGrabbedEles(); } else e = this.cachedZSortedEles; return e; }; var hu = {}; [Vr, Xn, Vt, Qa, Gi, fr, uu, qn, Wn].forEach(function(t) { Ue(hu, t); }); var cu = {}; cu.getCachedImage = function(t, e, r) { var a = this, n = a.imageCache = a.imageCache || {}, i = n[t]; if (i) return i.image.complete || i.image.addEventListener("load", r), i.image; i = n[t] = n[t] || {}; var s = i.image = new Image(); s.addEventListener("load", r), s.addEventListener("error", function() { s.error = !0; }); var o = "data:", l = t.substring(0, o.length).toLowerCase() === o; return l || (s.crossOrigin = e), s.src = t, s; }; var ya = {}; ya.registerBinding = function(t, e, r, a) { var n = Array.prototype.slice.apply(arguments, [1]), i = this.binder(t); return i.on.apply(i, n); }, ya.binder = function(t) { var e = this, r = t === window || t === document || t === document.body || $e(t); if (e.supportsPassiveEvents == null) { var a = !1; try { var n = Object.defineProperty({}, "passive", { get: function() { return a = !0, !0; } }); window.addEventListener("test", null, n); } catch { } e.supportsPassiveEvents = a; } var i = function(o, l, u) { var f = Array.prototype.slice.call(arguments); return r && e.supportsPassiveEvents && (f[2] = { capture: u ?? !1, passive: !1, once: !1 }), e.bindings.push({ target: t, args: f }), (t.addEventListener || t.on).apply(t, f), this; }; return { on: i, addEventListener: i, addListener: i, bind: i }; }, ya.nodeIsDraggable = function(t) { return t && t.isNode() && !t.locked() && t.grabbable(); }, ya.nodeIsGrabbable = function(t) { return this.nodeIsDraggable(t) && t.interactive(); }, ya.load = function() { var t = this, e = function(N) { return N.selected(); }, r = function(N, le, De, me) { N == null && (N = t.cy); for (var be = 0; be < le.length; be++) { var Ke = le[be]; N.emit({ originalEvent: De, type: Ke, position: me }); } }, a = function(N) { return N.shiftKey || N.metaKey || N.ctrlKey; }, n = function(N, le) { var De = !0; if (t.cy.hasCompoundNodes() && N && N.pannable()) for (var me = 0; le && me < le.length; me++) { var N = le[me]; if (N.isNode() && N.isParent() && !N.pannable()) { De = !1; break; } } else De = !0; return De; }, i = function(N) { N[0]._private.grabbed = !0; }, s = function(N) { N[0]._private.grabbed = !1; }, o = function(N) { N[0]._private.rscratch.inDragLayer = !0; }, l = function(N) { N[0]._private.rscratch.inDragLayer = !1; }, u = function(N) { N[0]._private.rscratch.isGrabTarget = !0; }, f = function(N) { N[0]._private.rscratch.isGrabTarget = !1; }, h = function(N, le) { var De = le.addToList, me = De.has(N); !me && N.grabbable() && !N.locked() && (De.merge(N), i(N)); }, c = function(N, le) { if (N.cy().hasCompoundNodes() && !(le.inDragLayer == null && le.addToList == null)) { var De = N.descendants(); le.inDragLayer && (De.forEach(o), De.connectedEdges().forEach(o)), le.addToList && h(De, le); } }, v = function(N, le) { le = le || {}; var De = N.cy().hasCompoundNodes(); le.inDragLayer && (N.forEach(o), N.neighborhood().stdFilter(function(me) { return !De || me.isEdge(); }).forEach(o)), le.addToList && N.forEach(function(me) { h(me, le); }), c(N, le), y(N, { inDragLayer: le.inDragLayer }), t.updateCachedGrabbedEles(); }, d = v, g = function(N) { N && (t.getCachedZSortedEles().forEach(function(le) { s(le), l(le), f(le); }), t.updateCachedGrabbedEles()); }, y = function(N, le) { if (!(le.inDragLayer == null && le.addToList == null) && N.cy().hasCompoundNodes()) { var De = N.ancestors().orphans(); if (!De.same(N)) { var me = De.descendants().spawnSelf().merge(De).unmerge(N).unmerge(N.descendants()), be = me.connectedEdges(); le.inDragLayer && (be.forEach(o), me.forEach(o)), le.addToList && me.forEach(function(Ke) { h(Ke, le); }); } } }, p = function() { document.activeElement != null && document.activeElement.blur != null && document.activeElement.blur(); }, m = typeof MutationObserver < "u", b = typeof ResizeObserver < "u"; m ? (t.removeObserver = new MutationObserver(function(Se) { for (var N = 0; N < Se.length; N++) { var le = Se[N], De = le.removedNodes; if (De) for (var me = 0; me < De.length; me++) { var be = De[me]; if (be === t.container) { t.destroy(); break; } } } }), t.container.parentNode && t.removeObserver.observe(t.container.parentNode, { childList: !0 })) : t.registerBinding(t.container, "DOMNodeRemoved", function(Se) { t.destroy(); }); var E = fn(function() { t.cy.resize(); }, 100); m && (t.styleObserver = new MutationObserver(E), t.styleObserver.observe(t.container, { attributes: !0 })), t.registerBinding(window, "resize", E), b && (t.resizeObserver = new ResizeObserver(E), t.resizeObserver.observe(t.container)); var M = function(N, le) { for (; N != null; ) le(N), N = N.parentNode; }, O = function() { t.invalidateContainerClientCoordsCache(); }; M(t.container, function(Se) { t.registerBinding(Se, "transitionend", O), t.registerBinding(Se, "animationend", O), t.registerBinding(Se, "scroll", O); }), t.registerBinding(t.container, "contextmenu", function(Se) { Se.preventDefault(); }); var x = function() { return t.selection[4] !== 0; }, I = function(N) { for (var le = t.findContainerClientCoords(), De = le[0], me = le[1], be = le[2], Ke = le[3], Le = N.touches ? N.touches : [N], ze = !1, at = 0; at < Le.length; at++) { var dt = Le[at]; if (De <= dt.clientX && dt.clientX <= De + be && me <= dt.clientY && dt.clientY <= me + Ke) { ze = !0; break; } } if (!ze) return !1; for (var Qe = t.container, ut = N.target, Ze = ut.parentNode, Je = !1; Ze; ) { if (Ze === Qe) { Je = !0; break; } Ze = Ze.parentNode; } return !!Je; }; t.registerBinding(t.container, "mousedown", function(N) { if (I(N)) { N.preventDefault(), p(), t.hoverData.capture = !0, t.hoverData.which = N.which; var le = t.cy, De = [N.clientX, N.clientY], me = t.projectIntoViewport(De[0], De[1]), be = t.selection, Ke = t.findNearestElements(me[0], me[1], !0, !1), Le = Ke[0], ze = t.dragData.possibleDragElements; t.hoverData.mdownPos = me, t.hoverData.mdownGPos = De; var at = function() { t.hoverData.tapholdCancelled = !1, clearTimeout(t.hoverData.tapholdTimeout), t.hoverData.tapholdTimeout = setTimeout(function() { if (!t.hoverData.tapholdCancelled) { var Ct = t.hoverData.down; Ct ? Ct.emit({ originalEvent: N, type: "taphold", position: { x: me[0], y: me[1] } }) : le.emit({ originalEvent: N, type: "taphold", position: { x: me[0], y: me[1] } }); } }, t.tapholdDuration); }; if (N.which == 3) { t.hoverData.cxtStarted = !0; var dt = { originalEvent: N, type: "cxttapstart", position: { x: me[0], y: me[1] } }; Le ? (Le.activate(), Le.emit(dt), t.hoverData.down = Le) : le.emit(dt), t.hoverData.downTime = new Date().getTime(), t.hoverData.cxtDragged = !1; } else if (N.which == 1) { Le && Le.activate(); { if (Le != null && t.nodeIsGrabbable(Le)) { var Qe = function(Ct) { return { originalEvent: N, type: Ct, position: { x: me[0], y: me[1] } }; }, ut = function(Ct) { Ct.emit(Qe("grab")); }; if (u(Le), !Le.selected()) ze = t.dragData.possibleDragElements = le.collection(), d(Le, { addToList: ze }), Le.emit(Qe("grabon")).emit(Qe("grab")); else { ze = t.dragData.possibleDragElements = le.collection(); var Ze = le.$(function(Je) { return Je.isNode() && Je.selected() && t.nodeIsGrabbable(Je); }); v(Ze, { addToList: ze }), Le.emit(Qe("grabon")), Ze.forEach(ut); } t.redrawHint("eles", !0), t.redrawHint("drag", !0); } t.hoverData.down = Le, t.hoverData.downs = Ke, t.hoverData.downTime = new Date().getTime(); } r(Le, ["mousedown", "tapstart", "vmousedown"], N, { x: me[0], y: me[1] }), Le == null ? (be[4] = 1, t.data.bgActivePosistion = { x: me[0], y: me[1] }, t.redrawHint("select", !0), t.redraw()) : Le.pannable() && (be[4] = 1), at(); } be[0] = be[2] = me[0], be[1] = be[3] = me[1]; } }, !1), t.registerBinding(window, "mousemove", function(N) { var le = t.hoverData.capture; if (!(!le && !I(N))) { var De = !1, me = t.cy, be = me.zoom(), Ke = [N.clientX, N.clientY], Le = t.projectIntoViewport(Ke[0], Ke[1]), ze = t.hoverData.mdownPos, at = t.hoverData.mdownGPos, dt = t.selection, Qe = null; !t.hoverData.draggingEles && !t.hoverData.dragging && !t.hoverData.selecting && (Qe = t.findNearestElement(Le[0], Le[1], !0, !1)); var ut = t.hoverData.last, Ze = t.hoverData.down, Je = [Le[0] - dt[2], Le[1] - dt[3]], Ct = t.dragData.possibleDragElements, It; if (at) { var ar = Ke[0] - at[0], nr = ar * ar, Rt = Ke[1] - at[1], Qt = Rt * Rt, _t = nr + Qt; t.hoverData.isOverThresholdDrag = It = _t >= t.desktopTapThreshold2; } var br = a(N); It && (t.hoverData.tapholdCancelled = !0); var Ir = function() { var cr = t.hoverData.dragDelta = t.hoverData.dragDelta || []; cr.length === 0 ? (cr.push(Je[0]), cr.push(Je[1])) : (cr[0] += Je[0], cr[1] += Je[1]); }; De = !0, r(Qe, ["mousemove", "vmousemove", "tapdrag"], N, { x: Le[0], y: Le[1] }); var xa = function() { t.data.bgActivePosistion = void 0, t.hoverData.selecting || me.emit({ originalEvent: N, type: "boxstart", position: { x: Le[0], y: Le[1] } }), dt[4] = 1, t.hoverData.selecting = !0, t.redrawHint("select", !0), t.redraw(); }; if (t.hoverData.which === 3) { if (It) { var Hr = { originalEvent: N, type: "cxtdrag", position: { x: Le[0], y: Le[1] } }; Ze ? Ze.emit(Hr) : me.emit(Hr), t.hoverData.cxtDragged = !0, (!t.hoverData.cxtOver || Qe !== t.hoverData.cxtOver) && (t.hoverData.cxtOver && t.hoverData.cxtOver.emit({ originalEvent: N, type: "cxtdragout", position: { x: Le[0], y: Le[1] } }), t.hoverData.cxtOver = Qe, Qe && Qe.emit({ originalEvent: N, type: "cxtdragover", position: { x: Le[0], y: Le[1] } })); } } else if (t.hoverData.dragging) { if (De = !0, me.panningEnabled() && me.userPanningEnabled()) { var Ta; if (t.hoverData.justStartedPan) { var Jn = t.hoverData.mdownPos; Ta = { x: (Le[0] - Jn[0]) * be, y: (Le[1] - Jn[1]) * be }, t.hoverData.justStartedPan = !1; } else Ta = { x: Je[0] * be, y: Je[1] * be }; me.panBy(Ta), me.emit("dragpan"), t.hoverData.dragged = !0; } Le = t.projectIntoViewport(N.clientX, N.clientY); } else if (dt[4] == 1 && (Ze == null || Ze.pannable())) { if (It) { if (!t.hoverData.dragging && me.boxSelectionEnabled() && (br || !me.panningEnabled() || !me.userPanningEnabled())) xa(); else if (!t.hoverData.selecting && me.panningEnabled() && me.userPanningEnabled()) { var Xr = n(Ze, t.hoverData.downs); Xr && (t.hoverData.dragging = !0, t.hoverData.justStartedPan = !0, dt[4] = 0, t.data.bgActivePosistion = jr(ze), t.redrawHint("select", !0), t.redraw()); } Ze && Ze.pannable() && Ze.active() && Ze.unactivate(); } } else { if (Ze && Ze.pannable() && Ze.active() && Ze.unactivate(), (!Ze || !Ze.grabbed()) && Qe != ut && (ut && r(ut, ["mouseout", "tapdragout"], N, { x: Le[0], y: Le[1] }), Qe && r(Qe, ["mouseover", "tapdragover"], N, { x: Le[0], y: Le[1] }), t.hoverData.last = Qe), Ze) if (It) { if (me.boxSelectionEnabled() && br) Ze && Ze.grabbed() && (g(Ct), Ze.emit("freeon"), Ct.emit("free"), t.dragData.didDrag && (Ze.emit("dragfreeon"), Ct.emit("dragfree"))), xa(); else if (Ze && Ze.grabbed() && t.nodeIsDraggable(Ze)) { var Ht = !t.dragData.didDrag; Ht && t.redrawHint("eles", !0), t.dragData.didDrag = !0, t.hoverData.draggingEles || v(Ct, { inDragLayer: !0 }); var Gt = { x: 0, y: 0 }; if (k(Je[0]) && k(Je[1]) && (Gt.x += Je[0], Gt.y += Je[1], Ht)) { var Xt = t.hoverData.dragDelta; Xt && k(Xt[0]) && k(Xt[1]) && (Gt.x += Xt[0], Gt.y += Xt[1]); } t.hoverData.draggingEles = !0, Ct.silentShift(Gt).emit("position drag"), t.redrawHint("drag", !0), t.redraw(); } } else Ir(); De = !0; } if (dt[2] = Le[0], dt[3] = Le[1], De) return N.stopPropagation && N.stopPropagation(), N.preventDefault && N.preventDefault(), !1; } }, !1); var C, B, F; t.registerBinding(window, "mouseup", function(N) { var le = t.hoverData.capture; if (le) { t.hoverData.capture = !1; var De = t.cy, me = t.projectIntoViewport(N.clientX, N.clientY), be = t.selection, Ke = t.findNearestElement(me[0], me[1], !0, !1), Le = t.dragData.possibleDragElements, ze = t.hoverData.down, at = a(N); if (t.data.bgActivePosistion && (t.redrawHint("select", !0), t.redraw()), t.hoverData.tapholdCancelled = !0, t.data.bgActivePosistion = void 0, ze && ze.unactivate(), t.hoverData.which === 3) { var dt = { originalEvent: N, type: "cxttapend", position: { x: me[0], y: me[1] } }; if (ze ? ze.emit(dt) : De.emit(dt), !t.hoverData.cxtDragged) { var Qe = { originalEvent: N, type: "cxttap", position: { x: me[0], y: me[1] } }; ze ? ze.emit(Qe) : De.emit(Qe); } t.hoverData.cxtDragged = !1, t.hoverData.which = null; } else if (t.hoverData.which === 1) { if (r(Ke, ["mouseup", "tapend", "vmouseup"], N, { x: me[0], y: me[1] }), !t.dragData.didDrag && // didn't move a node around !t.hoverData.dragged && // didn't pan !t.hoverData.selecting && // not box selection !t.hoverData.isOverThresholdDrag && (r(ze, ["click", "tap", "vclick"], N, { x: me[0], y: me[1] }), B = !1, N.timeStamp - F <= De.multiClickDebounceTime() ? (C && clearTimeout(C), B = !0, F = null, r(ze, ["dblclick", "dbltap", "vdblclick"], N, { x: me[0], y: me[1] })) : (C = setTimeout(function() { B || r(ze, ["oneclick", "onetap", "voneclick"], N, { x: me[0], y: me[1] }); }, De.multiClickDebounceTime()), F = N.timeStamp)), ze == null && !t.dragData.didDrag && !t.hoverData.selecting && !t.hoverData.dragged && !a(N) && (De.$(e).unselect(["tapunselect"]), Le.length > 0 && t.redrawHint("eles", !0), t.dragData.possibleDragElements = Le = De.collection()), Ke == ze && !t.dragData.didDrag && !t.hoverData.selecting && Ke != null && Ke._private.selectable && (t.hoverData.dragging || (De.selectionType() === "additive" || at ? Ke.selected() ? Ke.unselect(["tapunselect"]) : Ke.select(["tapselect"]) : at || (De.$(e).unmerge(Ke).unselect(["tapunselect"]), Ke.select(["tapselect"]))), t.redrawHint("eles", !0)), t.hoverData.selecting) { var ut = De.collection(t.getAllInBox(be[0], be[1], be[2], be[3])); t.redrawHint("select", !0), ut.length > 0 && t.redrawHint("eles", !0), De.emit({ type: "boxend", originalEvent: N, position: { x: me[0], y: me[1] } }); var Ze = function(It) { return It.selectable() && !It.selected(); }; De.selectionType() === "additive" || at || De.$(e).unmerge(ut).unselect(), ut.emit("box").stdFilter(Ze).select().emit("boxselect"), t.redraw(); } if (t.hoverData.dragging && (t.hoverData.dragging = !1, t.redrawHint("select", !0), t.redrawHint("eles", !0), t.redraw()), !be[4]) { t.redrawHint("drag", !0), t.redrawHint("eles", !0); var Je = ze && ze.grabbed(); g(Le), Je && (ze.emit("freeon"), Le.emit("free"), t.dragData.didDrag && (ze.emit("dragfreeon"), Le.emit("dragfree"))); } } be[4] = 0, t.hoverData.down = null, t.hoverData.cxtStarted = !1, t.hoverData.draggingEles = !1, t.hoverData.selecting = !1, t.hoverData.isOverThresholdDrag = !1, t.dragData.didDrag = !1, t.hoverData.dragged = !1, t.hoverData.dragDelta = [], t.hoverData.mdownPos = null, t.hoverData.mdownGPos = null; } }, !1); var R = function(N) { if (!t.scrollingPage) { var le = t.cy, De = le.zoom(), me = le.pan(), be = t.projectIntoViewport(N.clientX, N.clientY), Ke = [be[0] * De + me.x, be[1] * De + me.y]; if (t.hoverData.draggingEles || t.hoverData.dragging || t.hoverData.cxtStarted || x()) { N.preventDefault(); return; } if (le.panningEnabled() && le.userPanningEnabled() && le.zoomingEnabled() && le.userZoomingEnabled()) { N.preventDefault(), t.data.wheelZooming = !0, clearTimeout(t.data.wheelTimeout), t.data.wheelTimeout = setTimeout(function() { t.data.wheelZooming = !1, t.redrawHint("eles", !0), t.redraw(); }, 150); var Le; N.deltaY != null ? Le = N.deltaY / -250 : N.wheelDeltaY != null ? Le = N.wheelDeltaY / 1e3 : Le = N.wheelDelta / 1e3, Le = Le * t.wheelSensitivity; var ze = N.deltaMode === 1; ze && (Le *= 33); var at = le.zoom() * Math.pow(10, Le); N.type === "gesturechange" && (at = t.gestureStartZoom * N.scale), le.zoom({ level: at, renderedPosition: { x: Ke[0], y: Ke[1] } }), le.emit(N.type === "gesturechange" ? "pinchzoom" : "scrollzoom"); } } }; t.registerBinding(t.container, "wheel", R, !0), t.registerBinding(window, "scroll", function(N) { t.scrollingPage = !0, clearTimeout(t.scrollingPageTimeout), t.scrollingPageTimeout = setTimeout(function() { t.scrollingPage = !1; }, 250); }, !0), t.registerBinding(t.container, "gesturestart", function(N) { t.gestureStartZoom = t.cy.zoom(), t.hasTouchStarted || N.preventDefault(); }, !0), t.registerBinding(t.container, "gesturechange", function(Se) { t.hasTouchStarted || R(Se); }, !0), t.registerBinding(t.container, "mouseout", function(N) { var le = t.projectIntoViewport(N.clientX, N.clientY); t.cy.emit({ originalEvent: N, type: "mouseout", position: { x: le[0], y: le[1] } }); }, !1), t.registerBinding(t.container, "mouseover", function(N) { var le = t.projectIntoViewport(N.clientX, N.clientY); t.cy.emit({ originalEvent: N, type: "mouseover", position: { x: le[0], y: le[1] } }); }, !1); var X, z, re, W, Z, ie, oe, ge, se, de, we, Te, Ee, ye = function(N, le, De, me) { return Math.sqrt((De - N) * (De - N) + (me - le) * (me - le)); }, ae = function(N, le, De, me) { return (De - N) * (De - N) + (me - le) * (me - le); }, xe; t.registerBinding(t.container, "touchstart", xe = function(N) { if (t.hasTouchStarted = !0, !!I(N)) { p(), t.touchData.capture = !0, t.data.bgActivePosistion = void 0; var le = t.cy, De = t.touchData.now, me = t.touchData.earlier; if (N.touches[0]) { var be = t.projectIntoViewport(N.touches[0].clientX, N.touches[0].clientY); De[0] = be[0], De[1] = be[1]; } if (N.touches[1]) { var be = t.projectIntoViewport(N.touches[1].clientX, N.touches[1].clientY); De[2] = be[0], De[3] = be[1]; } if (N.touches[2]) { var be = t.projectIntoViewport(N.touches[2].clientX, N.touches[2].clientY); De[4] = be[0], De[5] = be[1]; } if (N.touches[1]) { t.touchData.singleTouchMoved = !0, g(t.dragData.touchDragEles); var Ke = t.findContainerClientCoords(); se = Ke[0], de = Ke[1], we = Ke[2], Te = Ke[3], X = N.touches[0].clientX - se, z = N.touches[0].clientY - de, re = N.touches[1].clientX - se, W = N.touches[1].clientY - de, Ee = 0 <= X && X <= we && 0 <= re && re <= we && 0 <= z && z <= Te && 0 <= W && W <= Te; var Le = le.pan(), ze = le.zoom(); Z = ye(X, z, re, W), ie = ae(X, z, re, W), oe = [(X + re) / 2, (z + W) / 2], ge = [(oe[0] - Le.x) / ze, (oe[1] - Le.y) / ze]; var at = 200, dt = at * at; if (ie < dt && !N.touches[2]) { var Qe = t.findNearestElement(De[0], De[1], !0, !0), ut = t.findNearestElement(De[2], De[3], !0, !0); Qe && Qe.isNode() ? (Qe.activate().emit({ originalEvent: N, type: "cxttapstart", position: { x: De[0], y: De[1] } }), t.touchData.start = Qe) : ut && ut.isNode() ? (ut.activate().emit({ originalEvent: N, type: "cxttapstart", position: { x: De[0], y: De[1] } }), t.touchData.start = ut) : le.emit({ originalEvent: N, type: "cxttapstart", position: { x: De[0], y: De[1] } }), t.touchData.start && (t.touchData.start._private.grabbed = !1), t.touchData.cxt = !0, t.touchData.cxtDragged = !1, t.data.bgActivePosistion = void 0, t.redraw(); return; } } if (N.touches[2]) le.boxSelectionEnabled() && N.preventDefault(); else if (!N.touches[1]) { if (N.touches[0]) { var Ze = t.findNearestElements(De[0], De[1], !0, !0), Je = Ze[0]; if (Je != null && (Je.activate(), t.touchData.start = Je, t.touchData.starts = Ze, t.nodeIsGrabbable(Je))) { var Ct = t.dragData.touchDragEles = le.collection(), It = null; t.redrawHint("eles", !0), t.redrawHint("drag", !0), Je.selected() ? (It = le.$(function(_t) { return _t.selected() && t.nodeIsGrabbable(_t); }), v(It, { addToList: Ct })) : d(Je, { addToList: Ct }), u(Je); var ar = function(br) { return { originalEvent: N, type: br, position: { x: De[0], y: De[1] } }; }; Je.emit(ar("grabon")), It ? It.forEach(function(_t) { _t.emit(ar("grab")); }) : Je.emit(ar("grab")); } r(Je, ["touchstart", "tapstart", "vmousedown"], N, { x: De[0], y: De[1] }), Je == null && (t.data.bgActivePosistion = { x: be[0], y: be[1] }, t.redrawHint("select", !0), t.redraw()), t.touchData.singleTouchMoved = !1, t.touchData.singleTouchStartTime = +new Date(), clearTimeout(t.touchData.tapholdTimeout), t.touchData.tapholdTimeout = setTimeout(function() { t.touchData.singleTouchMoved === !1 && !t.pinching && !t.touchData.selecting && r(t.touchData.start, ["taphold"], N, { x: De[0], y: De[1] }); }, t.tapholdDuration); } } if (N.touches.length >= 1) { for (var nr = t.touchData.startPosition = [], Rt = 0; Rt < De.length; Rt++) nr[Rt] = me[Rt] = De[Rt]; var Qt = N.touches[0]; t.touchData.startGPosition = [Qt.clientX, Qt.clientY]; } } }, !1); var Ce; t.registerBinding(window, "touchmove", Ce = function(N) { var le = t.touchData.capture; if (!(!le && !I(N))) { var De = t.selection, me = t.cy, be = t.touchData.now, Ke = t.touchData.earlier, Le = me.zoom(); if (N.touches[0]) { var ze = t.projectIntoViewport(N.touches[0].clientX, N.touches[0].clientY); be[0] = ze[0], be[1] = ze[1]; } if (N.touches[1]) { var ze = t.projectIntoViewport(N.touches[1].clientX, N.touches[1].clientY); be[2] = ze[0], be[3] = ze[1]; } if (N.touches[2]) { var ze = t.projectIntoViewport(N.touches[2].clientX, N.touches[2].clientY); be[4] = ze[0], be[5] = ze[1]; } var at = t.touchData.startGPosition, dt; if (le && N.touches[0] && at) { for (var Qe = [], ut = 0; ut < be.length; ut++) Qe[ut] = be[ut] - Ke[ut]; var Ze = N.touches[0].clientX - at[0], Je = Ze * Ze, Ct = N.touches[0].clientY - at[1], It = Ct * Ct, ar = Je + It; dt = ar >= t.touchTapThreshold2; } if (le && t.touchData.cxt) { N.preventDefault(); var nr = N.touches[0].clientX - se, Rt = N.touches[0].clientY - de, Qt = N.touches[1].clientX - se, _t = N.touches[1].clientY - de, br = ae(nr, Rt, Qt, _t), Ir = br / ie, xa = 150, Hr = xa * xa, Ta = 1.5, Jn = Ta * Ta; if (Ir >= Jn || br >= Hr) { t.touchData.cxt = !1, t.data.bgActivePosistion = void 0, t.redrawHint("select", !0); var Xr = { originalEvent: N, type: "cxttapend", position: { x: be[0], y: be[1] } }; t.touchData.start ? (t.touchData.start.unactivate().emit(Xr), t.touchData.start = null) : me.emit(Xr); } } if (le && t.touchData.cxt) { var Xr = { originalEvent: N, type: "cxtdrag", position: { x: be[0], y: be[1] } }; t.data.bgActivePosistion = void 0, t.redrawHint("select", !0), t.touchData.start ? t.touchData.start.emit(Xr) : me.emit(Xr), t.touchData.start && (t.touchData.start._private.grabbed = !1), t.touchData.cxtDragged = !0; var Ht = t.findNearestElement(be[0], be[1], !0, !0); (!t.touchData.cxtOver || Ht !== t.touchData.cxtOver) && (t.touchData.cxtOver && t.touchData.cxtOver.emit({ originalEvent: N, type: "cxtdragout", position: { x: be[0], y: be[1] } }), t.touchData.cxtOver = Ht, Ht && Ht.emit({ originalEvent: N, type: "cxtdragover", position: { x: be[0], y: be[1] } })); } else if (le && N.touches[2] && me.boxSelectionEnabled()) N.preventDefault(), t.data.bgActivePosistion = void 0, this.lastThreeTouch = +new Date(), t.touchData.selecting || me.emit({ originalEvent: N, type: "boxstart", position: { x: be[0], y: be[1] } }), t.touchData.selecting = !0, t.touchData.didSelect = !0, De[4] = 1, !De || De.length === 0 || De[0] === void 0 ? (De[0] = (be[0] + be[2] + be[4]) / 3, De[1] = (be[1] + be[3] + be[5]) / 3, De[2] = (be[0] + be[2] + be[4]) / 3 + 1, De[3] = (be[1] + be[3] + be[5]) / 3 + 1) : (De[2] = (be[0] + be[2] + be[4]) / 3, De[3] = (be[1] + be[3] + be[5]) / 3), t.redrawHint("select", !0), t.redraw(); else if (le && N.touches[1] && !t.touchData.didSelect && me.zoomingEnabled() && me.panningEnabled() && me.userZoomingEnabled() && me.userPanningEnabled()) { N.preventDefault(), t.data.bgActivePosistion = void 0, t.redrawHint("select", !0); var Gt = t.dragData.touchDragEles; if (Gt) { t.redrawHint("drag", !0); for (var Xt = 0; Xt < Gt.length; Xt++) { var jn = Gt[Xt]._private; jn.grabbed = !1, jn.rscratch.inDragLayer = !1; } } var cr = t.touchData.start, nr = N.touches[0].clientX - se, Rt = N.touches[0].clientY - de, Qt = N.touches[1].clientX - se, _t = N.touches[1].clientY - de, Fu = ye(nr, Rt, Qt, _t), up = Fu / Z; if (Ee) { var lp = nr - X, fp = Rt - z, hp = Qt - re, cp = _t - W, vp = (lp + hp) / 2, dp = (fp + cp) / 2, rn = me.zoom(), qi = rn * up, ei = me.pan(), zu = ge[0] * rn + ei.x, Gu = ge[1] * rn + ei.y, gp = { x: -qi / rn * (zu - ei.x - vp) + zu, y: -qi / rn * (Gu - ei.y - dp) + Gu }; if (cr && cr.active()) { var Gt = t.dragData.touchDragEles; g(Gt), t.redrawHint("drag", !0), t.redrawHint("eles", !0), cr.unactivate().emit("freeon"), Gt.emit("free"), t.dragData.didDrag && (cr.emit("dragfreeon"), Gt.emit("dragfree")); } me.viewport({ zoom: qi, pan: gp, cancelOnFailedZoom: !0 }), me.emit("pinchzoom"), Z = Fu, X = nr, z = Rt, re = Qt, W = _t, t.pinching = !0; } if (N.touches[0]) { var ze = t.projectIntoViewport(N.touches[0].clientX, N.touches[0].clientY); be[0] = ze[0], be[1] = ze[1]; } if (N.touches[1]) { var ze = t.projectIntoViewport(N.touches[1].clientX, N.touches[1].clientY); be[2] = ze[0], be[3] = ze[1]; } if (N.touches[2]) { var ze = t.projectIntoViewport(N.touches[2].clientX, N.touches[2].clientY); be[4] = ze[0], be[5] = ze[1]; } } else if (N.touches[0] && !t.touchData.didSelect) { var ir = t.touchData.start, Wi = t.touchData.last, Ht; if (!t.hoverData.draggingEles && !t.swipePanning && (Ht = t.findNearestElement(be[0], be[1], !0, !0)), le && ir != null && N.preventDefault(), le && ir != null && t.nodeIsDraggable(ir)) if (dt) { var Gt = t.dragData.touchDragEles, $u = !t.dragData.didDrag; $u && v(Gt, { inDragLayer: !0 }), t.dragData.didDrag = !0; var an = { x: 0, y: 0 }; if (k(Qe[0]) && k(Qe[1]) && (an.x += Qe[0], an.y += Qe[1], $u)) { t.redrawHint("eles", !0); var sr = t.touchData.dragDelta; sr && k(sr[0]) && k(sr[1]) && (an.x += sr[0], an.y += sr[1]); } t.hoverData.draggingEles = !0, Gt.silentShift(an).emit("position drag"), t.redrawHint("drag", !0), t.touchData.startPosition[0] == Ke[0] && t.touchData.startPosition[1] == Ke[1] && t.redrawHint("eles", !0), t.redraw(); } else { var sr = t.touchData.dragDelta = t.touchData.dragDelta || []; sr.length === 0 ? (sr.push(Qe[0]), sr.push(Qe[1])) : (sr[0] += Qe[0], sr[1] += Qe[1]); } if (r(ir || Ht, ["touchmove", "tapdrag", "vmousemove"], N, { x: be[0], y: be[1] }), (!ir || !ir.grabbed()) && Ht != Wi && (Wi && Wi.emit({ originalEvent: N, type: "tapdragout", position: { x: be[0], y: be[1] } }), Ht && Ht.emit({ originalEvent: N, type: "tapdragover", position: { x: be[0], y: be[1] } })), t.touchData.last = Ht, le) for (var Xt = 0; Xt < be.length; Xt++) be[Xt] && t.touchData.startPosition[Xt] && dt && (t.touchData.singleTouchMoved = !0); if (le && (ir == null || ir.pannable()) && me.panningEnabled() && me.userPanningEnabled()) { var pp = n(ir, t.touchData.starts); pp && (N.preventDefault(), t.data.bgActivePosistion || (t.data.bgActivePosistion = jr(t.touchData.startPosition)), t.swipePanning ? (me.panBy({ x: Qe[0] * Le, y: Qe[1] * Le }), me.emit("dragpan")) : dt && (t.swipePanning = !0, me.panBy({ x: Ze * Le, y: Ct * Le }), me.emit("dragpan"), ir && (ir.unactivate(), t.redrawHint("select", !0), t.touchData.start = null))); var ze = t.projectIntoViewport(N.touches[0].clientX, N.touches[0].clientY); be[0] = ze[0], be[1] = ze[1]; } } for (var ut = 0; ut < be.length; ut++) Ke[ut] = be[ut]; le && N.touches.length > 0 && !t.hoverData.draggingEles && !t.swipePanning && t.data.bgActivePosistion != null && (t.data.bgActivePosistion = void 0, t.redrawHint("select", !0), t.redraw()); } }, !1); var Oe; t.registerBinding(window, "touchcancel", Oe = function(N) { var le = t.touchData.start; t.touchData.capture = !1, le && le.unactivate(); }); var Ie, He, qe, Re; if (t.registerBinding(window, "touchend", Ie = function(N) { var le = t.touchData.start, De = t.touchData.capture; if (De) N.touches.length === 0 && (t.touchData.capture = !1), N.preventDefault(); else return; var me = t.selection; t.swipePanning = !1, t.hoverData.draggingEles = !1; var be = t.cy, Ke = be.zoom(), Le = t.touchData.now, ze = t.touchData.earlier; if (N.touches[0]) { var at = t.projectIntoViewport(N.touches[0].clientX, N.touches[0].clientY); Le[0] = at[0], Le[1] = at[1]; } if (N.touches[1]) { var at = t.projectIntoViewport(N.touches[1].clientX, N.touches[1].clientY); Le[2] = at[0], Le[3] = at[1]; } if (N.touches[2]) { var at = t.projectIntoViewport(N.touches[2].clientX, N.touches[2].clientY); Le[4] = at[0], Le[5] = at[1]; } le && le.unactivate(); var dt; if (t.touchData.cxt) { if (dt = { originalEvent: N, type: "cxttapend", position: { x: Le[0], y: Le[1] } }, le ? le.emit(dt) : be.emit(dt), !t.touchData.cxtDragged) { var Qe = { originalEvent: N, type: "cxttap", position: { x: Le[0], y: Le[1] } }; le ? le.emit(Qe) : be.emit(Qe); } t.touchData.start && (t.touchData.start._private.grabbed = !1), t.touchData.cxt = !1, t.touchData.start = null, t.redraw(); return; } if (!N.touches[2] && be.boxSelectionEnabled() && t.touchData.selecting) { t.touchData.selecting = !1; var ut = be.collection(t.getAllInBox(me[0], me[1], me[2], me[3])); me[0] = void 0, me[1] = void 0, me[2] = void 0, me[3] = void 0, me[4] = 0, t.redrawHint("select", !0), be.emit({ type: "boxend", originalEvent: N, position: { x: Le[0], y: Le[1] } }); var Ze = function(Hr) { return Hr.selectable() && !Hr.selected(); }; ut.emit("box").stdFilter(Ze).select().emit("boxselect"), ut.nonempty() && t.redrawHint("eles", !0), t.redraw(); } if (le != null && le.unactivate(), N.touches[2]) t.data.bgActivePosistion = void 0, t.redrawHint("select", !0); else if (!N.touches[1]) { if (!N.touches[0]) { if (!N.touches[0]) { t.data.bgActivePosistion = void 0, t.redrawHint("select", !0); var Je = t.dragData.touchDragEles; if (le != null) { var Ct = le._private.grabbed; g(Je), t.redrawHint("drag", !0), t.redrawHint("eles", !0), Ct && (le.emit("freeon"), Je.emit("free"), t.dragData.didDrag && (le.emit("dragfreeon"), Je.emit("dragfree"))), r(le, ["touchend", "tapend", "vmouseup", "tapdragout"], N, { x: Le[0], y: Le[1] }), le.unactivate(), t.touchData.start = null; } else { var It = t.findNearestElement(Le[0], Le[1], !0, !0); r(It, ["touchend", "tapend", "vmouseup", "tapdragout"], N, { x: Le[0], y: Le[1] }); } var ar = t.touchData.startPosition[0] - Le[0], nr = ar * ar, Rt = t.touchData.startPosition[1] - Le[1], Qt = Rt * Rt, _t = nr + Qt, br = _t * Ke * Ke; t.touchData.singleTouchMoved || (le || be.$(":selected").unselect(["tapunselect"]), r(le, ["tap", "vclick"], N, { x: Le[0], y: Le[1] }), He = !1, N.timeStamp - Re <= be.multiClickDebounceTime() ? (qe && clearTimeout(qe), He = !0, Re = null, r(le, ["dbltap", "vdblclick"], N, { x: Le[0], y: Le[1] })) : (qe = setTimeout(function() { He || r(le, ["onetap", "voneclick"], N, { x: Le[0], y: Le[1] }); }, be.multiClickDebounceTime()), Re = N.timeStamp)), le != null && !t.dragData.didDrag && le._private.selectable && br < t.touchTapThreshold2 && !t.pinching && (be.selectionType() === "single" ? (be.$(e).unmerge(le).unselect(["tapunselect"]), le.select(["tapselect"])) : le.selected() ? le.unselect(["tapunselect"]) : le.select(["tapselect"]), t.redrawHint("eles", !0)), t.touchData.singleTouchMoved = !0; } } } for (var Ir = 0; Ir < Le.length; Ir++) ze[Ir] = Le[Ir]; t.dragData.didDrag = !1, N.touches.length === 0 && (t.touchData.dragDelta = [], t.touchData.startPosition = null, t.touchData.startGPosition = null, t.touchData.didSelect = !1), N.touches.length < 2 && (N.touches.length === 1 && (t.touchData.startGPosition = [N.touches[0].clientX, N.touches[0].clientY]), t.pinching = !1, t.redrawHint("eles", !0), t.redraw()); }, !1), typeof TouchEvent > "u") { var Me = [], Ve = function(N) { return { clientX: N.clientX, clientY: N.clientY, force: 1, identifier: N.pointerId, pageX: N.pageX, pageY: N.pageY, radiusX: N.width / 2, radiusY: N.height / 2, screenX: N.screenX, screenY: N.screenY, target: N.target }; }, Fe = function(N) { return { event: N, touch: Ve(N) }; }, ke = function(N) { Me.push(Fe(N)); }, Ge = function(N) { for (var le = 0; le < Me.length; le++) { var De = Me[le]; if (De.event.pointerId === N.pointerId) { Me.splice(le, 1); return; } } }, et = function(N) { var le = Me.filter(function(De) { return De.event.pointerId === N.pointerId; })[0]; le.event = N, le.touch = Ve(N); }, We = function(N) { N.touches = Me.map(function(le) { return le.touch; }); }, Ye = function(N) { return N.pointerType === "mouse" || N.pointerType === 4; }; t.registerBinding(t.container, "pointerdown", function(Se) { Ye(Se) || (Se.preventDefault(), ke(Se), We(Se), xe(Se)); }), t.registerBinding(t.container, "pointerup", function(Se) { Ye(Se) || (Ge(Se), We(Se), Ie(Se)); }), t.registerBinding(t.container, "pointercancel", function(Se) { Ye(Se) || (Ge(Se), We(Se), Oe(Se)); }), t.registerBinding(t.container, "pointermove", function(Se) { Ye(Se) || (Se.preventDefault(), et(Se), We(Se), Ce(Se)); }); } }; var yr = {}; yr.generatePolygon = function(t, e) { return this.nodeShapes[t] = { renderer: this, name: t, points: e, draw: function(a, n, i, s, o) { this.renderer.nodeShapeImpl("polygon", a, n, i, s, o, this.points); }, intersectLine: function(a, n, i, s, o, l, u) { return Ba(o, l, this.points, a, n, i / 2, s / 2, u); }, checkPoint: function(a, n, i, s, o, l, u) { return gr(a, n, this.points, l, u, s, o, [0, -1], i); } }; }, yr.generateEllipse = function() { return this.nodeShapes.ellipse = { renderer: this, name: "ellipse", draw: function(e, r, a, n, i) { this.renderer.nodeShapeImpl(this.name, e, r, a, n, i); }, intersectLine: function(e, r, a, n, i, s, o) { return Pf(i, s, e, r, a / 2 + o, n / 2 + o); }, checkPoint: function(e, r, a, n, i, s, o) { return Fr(e, r, n, i, s, o, a); } }; }, yr.generateRoundPolygon = function(t, e) { for (var r = new Array(e.length * 2), a = 0; a < e.length / 2; a++) { var n = a * 2, i = void 0; a < e.length / 2 - 1 ? i = (a + 1) * 2 : i = 0, r[a * 4] = e[n], r[a * 4 + 1] = e[n + 1]; var s = e[i] - e[n], o = e[i + 1] - e[n + 1], l = Math.sqrt(s * s + o * o); r[a * 4 + 2] = s / l, r[a * 4 + 3] = o / l; } return this.nodeShapes[t] = { renderer: this, name: t, points: r, draw: function(f, h, c, v, d) { this.renderer.nodeShapeImpl("round-polygon", f, h, c, v, d, this.points); }, intersectLine: function(f, h, c, v, d, g, y) { return Bf(d, g, this.points, f, h, c, v); }, checkPoint: function(f, h, c, v, d, g, y) { return kf(f, h, this.points, g, y, v, d); } }; }, yr.generateRoundRectangle = function() { return this.nodeShapes["round-rectangle"] = this.nodeShapes.roundrectangle = { renderer: this, name: "round-rectangle", points: $t(4, 0), draw: function(e, r, a, n, i) { this.renderer.nodeShapeImpl(this.name, e, r, a, n, i); }, intersectLine: function(e, r, a, n, i, s, o) { return Ts(i, s, e, r, a, n, o); }, checkPoint: function(e, r, a, n, i, s, o) { var l = Fa(n, i), u = l * 2; return !!(gr(e, r, this.points, s, o, n, i - u, [0, -1], a) || gr(e, r, this.points, s, o, n - u, i, [0, -1], a) || Fr(e, r, u, u, s - n / 2 + l, o - i / 2 + l, a) || Fr(e, r, u, u, s + n / 2 - l, o - i / 2 + l, a) || Fr(e, r, u, u, s + n / 2 - l, o + i / 2 - l, a) || Fr(e, r, u, u, s - n / 2 + l, o + i / 2 - l, a)); } }; }, yr.generateCutRectangle = function() { return this.nodeShapes["cut-rectangle"] = this.nodeShapes.cutrectangle = { renderer: this, name: "cut-rectangle", cornerLength: Ls(), points: $t(4, 0), draw: function(e, r, a, n, i) { this.renderer.nodeShapeImpl(this.name, e, r, a, n, i); }, generateCutTrianglePts: function(e, r, a, n) { var i = this.cornerLength, s = r / 2, o = e / 2, l = a - o, u = a + o, f = n - s, h = n + s; return { topLeft: [l, f + i, l + i, f, l + i, f + i], topRight: [u - i, f, u, f + i, u - i, f + i], bottomRight: [u, h - i, u - i, h, u - i, h - i], bottomLeft: [l + i, h, l, h - i, l + i, h - i] }; }, intersectLine: function(e, r, a, n, i, s, o) { var l = this.generateCutTrianglePts(a + 2 * o, n + 2 * o, e, r), u = [].concat.apply([], [l.topLeft.splice(0, 4), l.topRight.splice(0, 4), l.bottomRight.splice(0, 4), l.bottomLeft.splice(0, 4)]); return Ba(i, s, u, e, r); }, checkPoint: function(e, r, a, n, i, s, o) { if (gr(e, r, this.points, s, o, n, i - 2 * this.cornerLength, [0, -1], a) || gr(e, r, this.points, s, o, n - 2 * this.cornerLength, i, [0, -1], a)) return !0; var l = this.generateCutTrianglePts(n, i, s, o); return Yt(e, r, l.topLeft) || Yt(e, r, l.topRight) || Yt(e, r, l.bottomRight) || Yt(e, r, l.bottomLeft); } }; }, yr.generateBarrel = function() { return this.nodeShapes.barrel = { renderer: this, name: "barrel", points: $t(4, 0), draw: function(e, r, a, n, i) { this.renderer.nodeShapeImpl(this.name, e, r, a, n, i); }, intersectLine: function(e, r, a, n, i, s, o) { var l = 0.15, u = 0.5, f = 0.85, h = this.generateBarrelBezierPts(a + 2 * o, n + 2 * o, e, r), c = function(g) { var y = ea({ x: g[0], y: g[1] }, { x: g[2], y: g[3] }, { x: g[4], y: g[5] }, l), p = ea({ x: g[0], y: g[1] }, { x: g[2], y: g[3] }, { x: g[4], y: g[5] }, u), m = ea({ x: g[0], y: g[1] }, { x: g[2], y: g[3] }, { x: g[4], y: g[5] }, f); return [g[0], g[1], y.x, y.y, p.x, p.y, m.x, m.y, g[4], g[5]]; }, v = [].concat(c(h.topLeft), c(h.topRight), c(h.bottomRight), c(h.bottomLeft)); return Ba(i, s, v, e, r); }, generateBarrelBezierPts: function(e, r, a, n) { var i = r / 2, s = e / 2, o = a - s, l = a + s, u = n - i, f = n + i, h = gi(e, r), c = h.heightOffset, v = h.widthOffset, d = h.ctrlPtOffsetPct * e, g = { topLeft: [o, u + c, o + d, u, o + v, u], topRight: [l - v, u, l - d, u, l, u + c], bottomRight: [l, f - c, l - d, f, l - v, f], bottomLeft: [o + v, f, o + d, f, o, f - c] }; return g.topLeft.isTop = !0, g.topRight.isTop = !0, g.bottomLeft.isBottom = !0, g.bottomRight.isBottom = !0, g; }, checkPoint: function(e, r, a, n, i, s, o) { var l = gi(n, i), u = l.heightOffset, f = l.widthOffset; if (gr(e, r, this.points, s, o, n, i - 2 * u, [0, -1], a) || gr(e, r, this.points, s, o, n - 2 * f, i, [0, -1], a)) return !0; for (var h = this.generateBarrelBezierPts(n, i, s, o), c = function(x, I, C) { var B = C[4], F = C[2], R = C[0], X = C[5], z = C[1], re = Math.min(B, R), W = Math.max(B, R), Z = Math.min(X, z), ie = Math.max(X, z); if (re <= x && x <= W && Z <= I && I <= ie) { var oe = Ff(B, F, R), ge = Nf(oe[0], oe[1], oe[2], x), se = ge.filter(function(de) { return 0 <= de && de <= 1; }); if (se.length > 0) return se[0]; } return null; }, v = Object.keys(h), d = 0; d < v.length; d++) { var g = v[d], y = h[g], p = c(e, r, y); if (p != null) { var m = y[5], b = y[3], E = y[1], M = St(m, b, E, p); if (y.isTop && M <= r || y.isBottom && r <= M) return !0; } } return !1; } }; }, yr.generateBottomRoundrectangle = function() { return this.nodeShapes["bottom-round-rectangle"] = this.nodeShapes.bottomroundrectangle = { renderer: this, name: "bottom-round-rectangle", points: $t(4, 0), draw: function(e, r, a, n, i) { this.renderer.nodeShapeImpl(this.name, e, r, a, n, i); }, intersectLine: function(e, r, a, n, i, s, o) { var l = e - (a / 2 + o), u = r - (n / 2 + o), f = u, h = e + (a / 2 + o), c = Tr(i, s, e, r, l, u, h, f, !1); return c.length > 0 ? c : Ts(i, s, e, r, a, n, o); }, checkPoint: function(e, r, a, n, i, s, o) { var l = Fa(n, i), u = 2 * l; if (gr(e, r, this.points, s, o, n, i - u, [0, -1], a) || gr(e, r, this.points, s, o, n - u, i, [0, -1], a)) return !0; var f = n / 2 + 2 * a, h = i / 2 + 2 * a, c = [s - f, o - h, s - f, o, s + f, o, s + f, o - h]; return !!(Yt(e, r, c) || Fr(e, r, u, u, s + n / 2 - l, o + i / 2 - l, a) || Fr(e, r, u, u, s - n / 2 + l, o + i / 2 - l, a)); } }; }, yr.registerNodeShapes = function() { var t = this.nodeShapes = {}, e = this; this.generateEllipse(), this.generatePolygon("triangle", $t(3, 0)), this.generateRoundPolygon("round-triangle", $t(3, 0)), this.generatePolygon("rectangle", $t(4, 0)), t.square = t.rectangle, this.generateRoundRectangle(), this.generateCutRectangle(), this.generateBarrel(), this.generateBottomRoundrectangle(); { var r = [0, 1, 1, 0, 0, -1, -1, 0]; this.generatePolygon("diamond", r), this.generateRoundPolygon("round-diamond", r); } this.generatePolygon("pentagon", $t(5, 0)), this.generateRoundPolygon("round-pentagon", $t(5, 0)), this.generatePolygon("hexagon", $t(6, 0)), this.generateRoundPolygon("round-hexagon", $t(6, 0)), this.generatePolygon("heptagon", $t(7, 0)), this.generateRoundPolygon("round-heptagon", $t(7, 0)), this.generatePolygon("octagon", $t(8, 0)), this.generateRoundPolygon("round-octagon", $t(8, 0)); var a = new Array(20); { var n = vi(5, 0), i = vi(5, Math.PI / 5), s = 0.5 * (3 - Math.sqrt(5)); s *= 1.57; for (var o = 0; o < i.length / 2; o++) i[o * 2] *= s, i[o * 2 + 1] *= s; for (var o = 0; o < 20 / 4; o++) a[o * 4] = n[o * 2], a[o * 4 + 1] = n[o * 2 + 1], a[o * 4 + 2] = i[o * 2], a[o * 4 + 3] = i[o * 2 + 1]; } a = Ss(a), this.generatePolygon("star", a), this.generatePolygon("vee", [-1, -1, 0, -0.333, 1, -1, 0, 1]), this.generatePolygon("rhomboid", [-1, -1, 0.333, -1, 1, 1, -0.333, 1]), this.nodeShapes.concavehexagon = this.generatePolygon("concave-hexagon", [-1, -0.95, -0.75, 0, -1, 0.95, 1, 0.95, 0.75, 0, 1, -0.95]); { var l = [-1, -1, 0.25, -1, 1, 0, 0.25, 1, -1, 1]; this.generatePolygon("tag", l), this.generateRoundPolygon("round-tag", l); } t.makePolygon = function(u) { var f = u.join("$"), h = "polygon-" + f, c; return (c = this[h]) ? c : e.generatePolygon(h, u); }; }; var Ja = {}; Ja.timeToRender = function() { return this.redrawTotalTime / this.redrawCount; }, Ja.redraw = function(t) { t = t || ys(); var e = this; e.averageRedrawTime === void 0 && (e.averageRedrawTime = 0), e.lastRedrawTime === void 0 && (e.lastRedrawTime = 0), e.lastDrawTime === void 0 && (e.lastDrawTime = 0), e.requestedFrame = !0, e.renderOptions = t; }, Ja.beforeRender = function(t, e) { if (!this.destroyed) { e == null && xt("Priority is not optional for beforeRender"); var r = this.beforeRenderCallbacks; r.push({ fn: t, priority: e }), r.sort(function(a, n) { return n.priority - a.priority; }); } }; var vu = function(e, r, a) { for (var n = e.beforeRenderCallbacks, i = 0; i < n.length; i++) n[i].fn(r, a); }; Ja.startRenderLoop = function() { var t = this, e = t.cy; if (!t.renderLoopStarted) { t.renderLoopStarted = !0; var r = function a(n) { if (!t.destroyed) { if (!e.batching()) if (t.requestedFrame && !t.skipFrame) { vu(t, !0, n); var i = dr(); t.render(t.renderOptions); var s = t.lastDrawTime = dr(); t.averageRedrawTime === void 0 && (t.averageRedrawTime = s - i), t.redrawCount === void 0 && (t.redrawCount = 0), t.redrawCount++, t.redrawTotalTime === void 0 && (t.redrawTotalTime = 0); var o = s - i; t.redrawTotalTime += o, t.lastRedrawTime = o, t.averageRedrawTime = t.averageRedrawTime / 2 + o / 2, t.requestedFrame = !1; } else vu(t, !1, n); t.skipFrame = !1, hn(a); } }; hn(r); } }; var dg = function(e) { this.init(e); }, du = dg, ma = du.prototype; ma.clientFunctions = ["redrawHint", "render", "renderTo", "matchCanvasSize", "nodeShapeImpl", "arrowShapeImpl"], ma.init = function(t) { var e = this; e.options = t, e.cy = t.cy; var r = e.container = t.cy.container(); if (D) { var a = D.document, n = a.head, i = "__________cytoscape_stylesheet", s = "__________cytoscape_container", o = a.getElementById(i) != null; if (r.className.indexOf(s) < 0 && (r.className = (r.className || "") + " " + s), !o) { var l = a.createElement("style"); l.id = i, l.innerHTML = "." + s + " { position: relative; }", n.insertBefore(l, n.children[0]); } var u = D.getComputedStyle(r), f = u.getPropertyValue("position"); f === "static" && ft("A Cytoscape container has style position:static and so can not use UI extensions properly"); } e.selection = [void 0, void 0, void 0, void 0, 0], e.bezierProjPcts = [0.05, 0.225, 0.4, 0.5, 0.6, 0.775, 0.95], e.hoverData = { down: null, last: null, downTime: null, triggerMode: null, dragging: !1, initialPan: [null, null], capture: !1 }, e.dragData = { possibleDragElements: [] }, e.touchData = { start: null, capture: !1, // These 3 fields related to tap, taphold events startPosition: [null, null, null, null, null, null], singleTouchStartTime: null, singleTouchMoved: !0, now: [null, null, null, null, null, null], earlier: [null, null, null, null, null, null] }, e.redraws = 0, e.showFps = t.showFps, e.debug = t.debug, e.hideEdgesOnViewport = t.hideEdgesOnViewport, e.textureOnViewport = t.textureOnViewport, e.wheelSensitivity = t.wheelSensitivity, e.motionBlurEnabled = t.motionBlur, e.forcedPixelRatio = k(t.pixelRatio) ? t.pixelRatio : null, e.motionBlur = t.motionBlur, e.motionBlurOpacity = t.motionBlurOpacity, e.motionBlurTransparency = 1 - e.motionBlurOpacity, e.motionBlurPxRatio = 1, e.mbPxRBlurry = 1, e.minMbLowQualFrames = 4, e.fullQualityMb = !1, e.clearedForMotionBlur = [], e.desktopTapThreshold = t.desktopTapThreshold, e.desktopTapThreshold2 = t.desktopTapThreshold * t.desktopTapThreshold, e.touchTapThreshold = t.touchTapThreshold, e.touchTapThreshold2 = t.touchTapThreshold * t.touchTapThreshold, e.tapholdDuration = 500, e.bindings = [], e.beforeRenderCallbacks = [], e.beforeRenderPriorities = { // higher priority execs before lower one animations: 400, eleCalcs: 300, eleTxrDeq: 200, lyrTxrDeq: 150, lyrTxrSkip: 100 }, e.registerNodeShapes(), e.registerArrowShapes(), e.registerCalculationListeners(); }, ma.notify = function(t, e) { var r = this, a = r.cy; if (!this.destroyed) { if (t === "init") { r.load(); return; } if (t === "destroy") { r.destroy(); return; } (t === "add" || t === "remove" || t === "move" && a.hasCompoundNodes() || t === "load" || t === "zorder" || t === "mount") && r.invalidateCachedZSortedEles(), t === "viewport" && r.redrawHint("select", !0), (t === "load" || t === "resize" || t === "mount") && (r.invalidateContainerClientCoordsCache(), r.matchCanvasSize(r.container)), r.redrawHint("eles", !0), r.redrawHint("drag", !0), this.startRenderLoop(), this.redraw(); } }, ma.destroy = function() { var t = this; t.destroyed = !0, t.cy.stopAnimationLoop(); for (var e = 0; e < t.bindings.length; e++) { var r = t.bindings[e], a = r, n = a.target; (n.off || n.removeEventListener).apply(n, a.args); } if (t.bindings = [], t.beforeRenderCallbacks = [], t.onUpdateEleCalcsFns = [], t.removeObserver && t.removeObserver.disconnect(), t.styleObserver && t.styleObserver.disconnect(), t.resizeObserver && t.resizeObserver.disconnect(), t.labelCalcDiv) try { document.body.removeChild(t.labelCalcDiv); } catch { } }, ma.isHeadless = function() { return !1; }, [zi, hu, cu, ya, yr, Ja].forEach(function(t) { Ue(ma, t); }); var $i = 1e3 / 60, gu = { setupDequeueing: function(e) { return function() { var a = this, n = this.renderer; if (!a.dequeueingSetup) { a.dequeueingSetup = !0; var i = fn(function() { n.redrawHint("eles", !0), n.redrawHint("drag", !0), n.redraw(); }, e.deqRedrawThreshold), s = function(u, f) { var h = dr(), c = n.averageRedrawTime, v = n.lastRedrawTime, d = [], g = n.cy.extent(), y = n.getPixelRatio(); for (u || n.flushRenderedStyleQueue(); ; ) { var p = dr(), m = p - h, b = p - f; if (v < $i) { var E = $i - (u ? c : 0); if (b >= e.deqFastCost * E) break; } else if (u) { if (m >= e.deqCost * v || m >= e.deqAvgCost * c) break; } else if (b >= e.deqNoDrawCost * $i) break; var M = e.deq(a, y, g); if (M.length > 0) for (var O = 0; O < M.length; O++) d.push(M[O]); else break; } d.length > 0 && (e.onDeqd(a, d), !u && e.shouldRedraw(a, d, y, g) && i()); }, o = e.priority || si; n.beforeRender(s, o(a)); } }; } }, gg = /* @__PURE__ */ function() { function t(e) { var r = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : vn; ce(this, t), this.idsByKey = new ur(), this.keyForId = new ur(), this.cachesByLvl = new ur(), this.lvls = [], this.getKey = e, this.doesEleInvalidateKey = r; } return A(t, [{ key: "getIdsFor", value: function(r) { r == null && xt("Can not get id list for null key"); var a = this.idsByKey, n = this.idsByKey.get(r); return n || (n = new Jr(), a.set(r, n)), n; } }, { key: "addIdForKey", value: function(r, a) { r != null && this.getIdsFor(r).add(a); } }, { key: "deleteIdForKey", value: function(r, a) { r != null && this.getIdsFor(r).delete(a); } }, { key: "getNumberOfIdsForKey", value: function(r) { return r == null ? 0 : this.getIdsFor(r).size; } }, { key: "updateKeyMappingFor", value: function(r) { var a = r.id(), n = this.keyForId.get(a), i = this.getKey(r); this.deleteIdForKey(n, a), this.addIdForKey(i, a), this.keyForId.set(a, i); } }, { key: "deleteKeyMappingFor", value: function(r) { var a = r.id(), n = this.keyForId.get(a); this.deleteIdForKey(n, a), this.keyForId.delete(a); } }, { key: "keyHasChangedFor", value: function(r) { var a = r.id(), n = this.keyForId.get(a), i = this.getKey(r); return n !== i; } }, { key: "isInvalid", value: function(r) { return this.keyHasChangedFor(r) || this.doesEleInvalidateKey(r); } }, { key: "getCachesAt", value: function(r) { var a = this.cachesByLvl, n = this.lvls, i = a.get(r); return i || (i = new ur(), a.set(r, i), n.push(r)), i; } }, { key: "getCache", value: function(r, a) { return this.getCachesAt(a).get(r); } }, { key: "get", value: function(r, a) { var n = this.getKey(r), i = this.getCache(n, a); return i != null && this.updateKeyMappingFor(r), i; } }, { key: "getForCachedKey", value: function(r, a) { var n = this.keyForId.get(r.id()), i = this.getCache(n, a); return i; } }, { key: "hasCache", value: function(r, a) { return this.getCachesAt(a).has(r); } }, { key: "has", value: function(r, a) { var n = this.getKey(r); return this.hasCache(n, a); } }, { key: "setCache", value: function(r, a, n) { n.key = r, this.getCachesAt(a).set(r, n); } }, { key: "set", value: function(r, a, n) { var i = this.getKey(r); this.setCache(i, a, n), this.updateKeyMappingFor(r); } }, { key: "deleteCache", value: function(r, a) { this.getCachesAt(a).delete(r); } }, { key: "delete", value: function(r, a) { var n = this.getKey(r); this.deleteCache(n, a); } }, { key: "invalidateKey", value: function(r) { var a = this; this.lvls.forEach(function(n) { return a.deleteCache(r, n); }); } // returns true if no other eles reference the invalidated cache (n.b. other eles may need the cache with the same key) }, { key: "invalidate", value: function(r) { var a = r.id(), n = this.keyForId.get(a); this.deleteKeyMappingFor(r); var i = this.doesEleInvalidateKey(r); return i && this.invalidateKey(n), i || this.getNumberOfIdsForKey(n) === 0; } }]), t; }(), pu = 25, Kn = 50, Zn = -4, Vi = 3, pg = 7.99, yg = 8, mg = 1024, bg = 1024, Eg = 1024, wg = 0.2, xg = 0.8, Tg = 10, Cg = 0.15, Dg = 0.1, Sg = 0.9, Lg = 0.9, Ag = 100, Og = 1, ba = { dequeue: "dequeue", downscale: "downscale", highQuality: "highQuality" }, Ng = Lt({ getKey: null, doesEleInvalidateKey: vn, drawElement: null, getBoundingBox: null, getRotationPoint: null, getRotationOffset: null, isVisible: vs, allowEdgeTxrCaching: !0, allowParentTxrCaching: !0 }), ja = function(e, r) { var a = this; a.renderer = e, a.onDequeues = []; var n = Ng(r); Ue(a, n), a.lookup = new gg(n.getKey, n.doesEleInvalidateKey), a.setupDequeueing(); }, Dt = ja.prototype; Dt.reasons = ba, Dt.getTextureQueue = function(t) { var e = this; return e.eleImgCaches = e.eleImgCaches || {}, e.eleImgCaches[t] = e.eleImgCaches[t] || []; }, Dt.getRetiredTextureQueue = function(t) { var e = this, r = e.eleImgCaches.retired = e.eleImgCaches.retired || {}, a = r[t] = r[t] || []; return a; }, Dt.getElementQueue = function() { var t = this, e = t.eleCacheQueue = t.eleCacheQueue || new Ra(function(r, a) { return a.reqs - r.reqs; }); return e; }, Dt.getElementKeyToQueue = function() { var t = this, e = t.eleKeyToCacheQueue = t.eleKeyToCacheQueue || {}; return e; }, Dt.getElement = function(t, e, r, a, n) { var i = this, s = this.renderer, o = s.cy.zoom(), l = this.lookup; if (!e || e.w === 0 || e.h === 0 || isNaN(e.w) || isNaN(e.h) || !t.visible() || t.removed() || !i.allowEdgeTxrCaching && t.isEdge() || !i.allowParentTxrCaching && t.isParent()) return null; if (a == null && (a = Math.ceil(li(o * r))), a < Zn) a = Zn; else if (o >= pg || a > Vi) return null; var u = Math.pow(2, a), f = e.h * u, h = e.w * u, c = s.eleTextBiggerThanMin(t, u); if (!this.isVisible(t, c)) return null; var v = l.get(t, a); if (v && v.invalidated && (v.invalidated = !1, v.texture.invalidatedWidth -= v.width), v) return v; var d; if (f <= pu ? d = pu : f <= Kn ? d = Kn : d = Math.ceil(f / Kn) * Kn, f > Eg || h > bg) return null; var g = i.getTextureQueue(d), y = g[g.length - 2], p = function() { return i.recycleTexture(d, h) || i.addTexture(d, h); }; y || (y = g[g.length - 1]), y || (y = p()), y.width - y.usedWidth < h && (y = p()); for (var m = function(W) { return W && W.scaledLabelShown === c; }, b = n && n === ba.dequeue, E = n && n === ba.highQuality, M = n && n === ba.downscale, O, x = a + 1; x <= Vi; x++) { var I = l.get(t, x); if (I) { O = I; break; } } var C = O && O.level === a + 1 ? O : null, B = function() { y.context.drawImage(C.texture.canvas, C.x, 0, C.width, C.height, y.usedWidth, 0, h, f); }; if (y.context.setTransform(1, 0, 0, 1, 0, 0), y.context.clearRect(y.usedWidth, 0, h, d), m(C)) B(); else if (m(O)) if (E) { for (var F = O.level; F > a; F--) C = i.getElement(t, e, r, F, ba.downscale); B(); } else return i.queueElement(t, O.level - 1), O; else { var R; if (!b && !E && !M) for (var X = a - 1; X >= Zn; X--) { var z = l.get(t, X); if (z) { R = z; break; } } if (m(R)) return i.queueElement(t, a), R; y.context.translate(y.usedWidth, 0), y.context.scale(u, u), this.drawElement(y.context, t, e, c, !1), y.context.scale(1 / u, 1 / u), y.context.translate(-y.usedWidth, 0); } return v = { x: y.usedWidth, texture: y, level: a, scale: u, width: h, height: f, scaledLabelShown: c }, y.usedWidth += Math.ceil(h + yg), y.eleCaches.push(v), l.set(t, a, v), i.checkTextureFullness(y), v; }, Dt.invalidateElements = function(t) { for (var e = 0; e < t.length; e++) this.invalidateElement(t[e]); }, Dt.invalidateElement = function(t) { var e = this, r = e.lookup, a = [], n = r.isInvalid(t); if (n) { for (var i = Zn; i <= Vi; i++) { var s = r.getForCachedKey(t, i); s && a.push(s); } var o = r.invalidate(t); if (o) for (var l = 0; l < a.length; l++) { var u = a[l], f = u.texture; f.invalidatedWidth += u.width, u.invalidated = !0, e.checkTextureUtility(f); } e.removeFromQueue(t); } }, Dt.checkTextureUtility = function(t) { t.invalidatedWidth >= wg * t.width && this.retireTexture(t); }, Dt.checkTextureFullness = function(t) { var e = this, r = e.getTextureQueue(t.height); t.usedWidth / t.width > xg && t.fullnessChecks >= Tg ? wr(r, t) : t.fullnessChecks++; }, Dt.retireTexture = function(t) { var e = this, r = t.height, a = e.getTextureQueue(r), n = this.lookup; wr(a, t), t.retired = !0; for (var i = t.eleCaches, s = 0; s < i.length; s++) { var o = i[s]; n.deleteCache(o.key, o.level); } oi(i); var l = e.getRetiredTextureQueue(r); l.push(t); }, Dt.addTexture = function(t, e) { var r = this, a = r.getTextureQueue(t), n = {}; return a.push(n), n.eleCaches = [], n.height = t, n.width = Math.max(mg, e), n.usedWidth = 0, n.invalidatedWidth = 0, n.fullnessChecks = 0, n.canvas = r.renderer.makeOffscreenCanvas(n.width, n.height), n.context = n.canvas.getContext("2d"), n; }, Dt.recycleTexture = function(t, e) { for (var r = this, a = r.getTextureQueue(t), n = r.getRetiredTextureQueue(t), i = 0; i < n.length; i++) { var s = n[i]; if (s.width >= e) return s.retired = !1, s.usedWidth = 0, s.invalidatedWidth = 0, s.fullnessChecks = 0, oi(s.eleCaches), s.context.setTransform(1, 0, 0, 1, 0, 0), s.context.clearRect(0, 0, s.width, s.height), wr(n, s), a.push(s), s; } }, Dt.queueElement = function(t, e) { var r = this, a = r.getElementQueue(), n = r.getElementKeyToQueue(), i = this.getKey(t), s = n[i]; if (s) s.level = Math.max(s.level, e), s.eles.merge(t), s.reqs++, a.updateItem(s); else { var o = { eles: t.spawn().merge(t), level: e, reqs: 1, key: i }; a.push(o), n[i] = o; } }, Dt.dequeue = function(t) { for (var e = this, r = e.getElementQueue(), a = e.getElementKeyToQueue(), n = [], i = e.lookup, s = 0; s < Og && r.size() > 0; s++) { var o = r.pop(), l = o.key, u = o.eles[0], f = i.hasCache(u, o.level); if (a[l] = null, f) continue; n.push(o); var h = e.getBoundingBox(u); e.getElement(u, h, t, o.level, ba.dequeue); } return n; }, Dt.removeFromQueue = function(t) { var e = this, r = e.getElementQueue(), a = e.getElementKeyToQueue(), n = this.getKey(t), i = a[n]; i != null && (i.eles.length === 1 ? (i.reqs = ii, r.updateItem(i), r.pop(), a[n] = null) : i.eles.unmerge(t)); }, Dt.onDequeue = function(t) { this.onDequeues.push(t); }, Dt.offDequeue = function(t) { wr(this.onDequeues, t); }, Dt.setupDequeueing = gu.setupDequeueing({ deqRedrawThreshold: Ag, deqCost: Cg, deqAvgCost: Dg, deqNoDrawCost: Sg, deqFastCost: Lg, deq: function(e, r, a) { return e.dequeue(r, a); }, onDeqd: function(e, r) { for (var a = 0; a < e.onDequeues.length; a++) { var n = e.onDequeues[a]; n(r); } }, shouldRedraw: function(e, r, a, n) { for (var i = 0; i < r.length; i++) for (var s = r[i].eles, o = 0; o < s.length; o++) { var l = s[o].boundingBox(); if (hi(l, n)) return !0; } return !1; }, priority: function(e) { return e.renderer.beforeRenderPriorities.eleTxrDeq; } }); var Mg = 1, en = -4, Qn = 2, Ig = 3.99, Rg = 50, kg = 50, Pg = 0.15, Bg = 0.1, Fg = 0.9, zg = 0.9, Gg = 1, yu = 250, $g = 4e3 * 4e3, Vg = !0, mu = function(e) { var r = this, a = r.renderer = e, n = a.cy; r.layersByLevel = {}, r.firstGet = !0, r.lastInvalidationTime = dr() - 2 * yu, r.skipping = !1, r.eleTxrDeqs = n.collection(), r.scheduleElementRefinement = fn(function() { r.refineElementTextures(r.eleTxrDeqs), r.eleTxrDeqs.unmerge(r.eleTxrDeqs); }, kg), a.beforeRender(function(s, o) { o - r.lastInvalidationTime <= yu ? r.skipping = !0 : r.skipping = !1; }, a.beforeRenderPriorities.lyrTxrSkip); var i = function(o, l) { return l.reqs - o.reqs; }; r.layersQueue = new Ra(i), r.setupDequeueing(); }, Mt = mu.prototype, bu = 0, _g = Math.pow(2, 53) - 1; Mt.makeLayer = function(t, e) { var r = Math.pow(2, e), a = Math.ceil(t.w * r), n = Math.ceil(t.h * r), i = this.renderer.makeOffscreenCanvas(a, n), s = { id: bu = ++bu % _g, bb: t, level: e, width: a, height: n, canvas: i, context: i.getContext("2d"), eles: [], elesQueue: [], reqs: 0 }, o = s.context, l = -s.bb.x1, u = -s.bb.y1; return o.scale(r, r), o.translate(l, u), s; }, Mt.getLayers = function(t, e, r) { var a = this, n = a.renderer, i = n.cy, s = i.zoom(), o = a.firstGet; if (a.firstGet = !1, r == null) { if (r = Math.ceil(li(s * e)), r < en) r = en; else if (s >= Ig || r > Qn) return null; } a.validateLayersElesOrdering(r, t); var l = a.layersByLevel, u = Math.pow(2, r), f = l[r] = l[r] || [], h, c = a.levelIsComplete(r, t), v, d = function() { var B = function(re) { if (a.validateLayersElesOrdering(re, t), a.levelIsComplete(re, t)) return v = l[re], !0; }, F = function(re) { if (!v) for (var W = r + re; en <= W && W <= Qn && !B(W); W += re) ; }; F(1), F(-1); for (var R = f.length - 1; R >= 0; R--) { var X = f[R]; X.invalid && wr(f, X); } }; if (!c) d(); else return f; var g = function() { if (!h) { h = Ut(); for (var B = 0; B < t.length; B++) Df(h, t[B].boundingBox()); } return h; }, y = function(B) { B = B || {}; var F = B.after; g(); var R = h.w * u * (h.h * u); if (R > $g) return null; var X = a.makeLayer(h, r); if (F != null) { var z = f.indexOf(F) + 1; f.splice(z, 0, X); } else (B.insert === void 0 || B.insert) && f.unshift(X); return X; }; if (a.skipping && !o) return null; for (var p = null, m = t.length / Mg, b = !o, E = 0; E < t.length; E++) { var M = t[E], O = M._private.rscratch, x = O.imgLayerCaches = O.imgLayerCaches || {}, I = x[r]; if (I) { p = I; continue; } if ((!p || p.eles.length >= m || !xs(p.bb, M.boundingBox())) && (p = y({ insert: !0, after: p }), !p)) return null; v || b ? a.queueLayer(p, M) : a.drawEleInLayer(p, M, r, e), p.eles.push(M), x[r] = p; } return v || (b ? null : f); }, Mt.getEleLevelForLayerLevel = function(t, e) { return t; }, Mt.drawEleInLayer = function(t, e, r, a) { var n = this, i = this.renderer, s = t.context, o = e.boundingBox(); o.w === 0 || o.h === 0 || !e.visible() || (r = n.getEleLevelForLayerLevel(r, a), i.setImgSmoothing(s, !1), i.drawCachedElement(s, e, null, null, r, Vg), i.setImgSmoothing(s, !0)); }, Mt.levelIsComplete = function(t, e) { var r = this, a = r.layersByLevel[t]; if (!a || a.length === 0) return !1; for (var n = 0, i = 0; i < a.length; i++) { var s = a[i]; if (s.reqs > 0 || s.invalid) return !1; n += s.eles.length; } return n === e.length; }, Mt.validateLayersElesOrdering = function(t, e) { var r = this.layersByLevel[t]; if (r) for (var a = 0; a < r.length; a++) { for (var n = r[a], i = -1, s = 0; s < e.length; s++) if (n.eles[0] === e[s]) { i = s; break; } if (i < 0) { this.invalidateLayer(n); continue; } for (var o = i, s = 0; s < n.eles.length; s++) if (n.eles[s] !== e[o + s]) { this.invalidateLayer(n); break; } } }, Mt.updateElementsInLayers = function(t, e) { for (var r = this, a = Ae(t[0]), n = 0; n < t.length; n++) for (var i = a ? null : t[n], s = a ? t[n] : t[n].ele, o = s._private.rscratch, l = o.imgLayerCaches = o.imgLayerCaches || {}, u = en; u <= Qn; u++) { var f = l[u]; f && (i && r.getEleLevelForLayerLevel(f.level) !== i.level || e(f, s, i)); } }, Mt.haveLayers = function() { for (var t = this, e = !1, r = en; r <= Qn; r++) { var a = t.layersByLevel[r]; if (a && a.length > 0) { e = !0; break; } } return e; }, Mt.invalidateElements = function(t) { var e = this; t.length !== 0 && (e.lastInvalidationTime = dr(), !(t.length === 0 || !e.haveLayers()) && e.updateElementsInLayers(t, function(a, n, i) { e.invalidateLayer(a); })); }, Mt.invalidateLayer = function(t) { if (this.lastInvalidationTime = dr(), !t.invalid) { var e = t.level, r = t.eles, a = this.layersByLevel[e]; wr(a, t), t.elesQueue = [], t.invalid = !0, t.replacement && (t.replacement.invalid = !0); for (var n = 0; n < r.length; n++) { var i = r[n]._private.rscratch.imgLayerCaches; i && (i[e] = null); } } }, Mt.refineElementTextures = function(t) { var e = this; e.updateElementsInLayers(t, function(a, n, i) { var s = a.replacement; if (s || (s = a.replacement = e.makeLayer(a.bb, a.level), s.replaces = a, s.eles = a.eles), !s.reqs) for (var o = 0; o < s.eles.length; o++) e.queueLayer(s, s.eles[o]); }); }, Mt.enqueueElementRefinement = function(t) { this.eleTxrDeqs.merge(t), this.scheduleElementRefinement(); }, Mt.queueLayer = function(t, e) { var r = this, a = r.layersQueue, n = t.elesQueue, i = n.hasId = n.hasId || {}; if (!t.replacement) { if (e) { if (i[e.id()]) return; n.push(e), i[e.id()] = !0; } t.reqs ? (t.reqs++, a.updateItem(t)) : (t.reqs = 1, a.push(t)); } }, Mt.dequeue = function(t) { for (var e = this, r = e.layersQueue, a = [], n = 0; n < Gg && r.size() !== 0; ) { var i = r.peek(); if (i.replacement) { r.pop(); continue; } if (i.replaces && i !== i.replaces.replacement) { r.pop(); continue; } if (i.invalid) { r.pop(); continue; } var s = i.elesQueue.shift(); s && (e.drawEleInLayer(i, s, i.level, t), n++), a.length === 0 && a.push(!0), i.elesQueue.length === 0 && (r.pop(), i.reqs = 0, i.replaces && e.applyLayerReplacement(i), e.requestRedraw()); } return a; }, Mt.applyLayerReplacement = function(t) { var e = this, r = e.layersByLevel[t.level], a = t.replaces, n = r.indexOf(a); if (!(n < 0 || a.invalid)) { r[n] = t; for (var i = 0; i < t.eles.length; i++) { var s = t.eles[i]._private, o = s.imgLayerCaches = s.imgLayerCaches || {}; o && (o[t.level] = t); } e.requestRedraw(); } }, Mt.requestRedraw = fn(function() { var t = this.renderer; t.redrawHint("eles", !0), t.redrawHint("drag", !0), t.redraw(); }, 100), Mt.setupDequeueing = gu.setupDequeueing({ deqRedrawThreshold: Rg, deqCost: Pg, deqAvgCost: Bg, deqNoDrawCost: Fg, deqFastCost: zg, deq: function(e, r) { return e.dequeue(r); }, onDeqd: si, shouldRedraw: vs, priority: function(e) { return e.renderer.beforeRenderPriorities.lyrTxrDeq; } }); var Eu = {}, wu; function Ug(t, e) { for (var r = 0; r < e.length; r++) { var a = e[r]; t.lineTo(a.x, a.y); } } function Yg(t, e, r) { for (var a, n = 0; n < e.length; n++) { var i = e[n]; n === 0 && (a = i), t.lineTo(i.x, i.y); } t.quadraticCurveTo(r.x, r.y, a.x, a.y); } function xu(t, e, r) { t.beginPath && t.beginPath(); for (var a = e, n = 0; n < a.length; n++) { var i = a[n]; t.lineTo(i.x, i.y); } var s = r, o = r[0]; t.moveTo(o.x, o.y); for (var n = 1; n < s.length; n++) { var i = s[n]; t.lineTo(i.x, i.y); } t.closePath && t.closePath(); } function Hg(t, e, r, a, n) { t.beginPath && t.beginPath(), t.arc(r, a, n, 0, Math.PI * 2, !1); var i = e, s = i[0]; t.moveTo(s.x, s.y); for (var o = 0; o < i.length; o++) { var l = i[o]; t.lineTo(l.x, l.y); } t.closePath && t.closePath(); } function Xg(t, e, r, a) { t.arc(e, r, a, 0, Math.PI * 2, !1); } Eu.arrowShapeImpl = function(t) { return (wu || (wu = { polygon: Ug, "triangle-backcurve": Yg, "triangle-tee": xu, "circle-triangle": Hg, "triangle-cross": xu, circle: Xg }))[t]; }; var hr = {}; hr.drawElement = function(t, e, r, a, n, i) { var s = this; e.isNode() ? s.drawNode(t, e, r, a, n, i) : s.drawEdge(t, e, r, a, n, i); }, hr.drawElementOverlay = function(t, e) { var r = this; e.isNode() ? r.drawNodeOverlay(t, e) : r.drawEdgeOverlay(t, e); }, hr.drawElementUnderlay = function(t, e) { var r = this; e.isNode() ? r.drawNodeUnderlay(t, e) : r.drawEdgeUnderlay(t, e); }, hr.drawCachedElementPortion = function(t, e, r, a, n, i, s, o) { var l = this, u = r.getBoundingBox(e); if (!(u.w === 0 || u.h === 0)) { var f = r.getElement(e, u, a, n, i); if (f != null) { var h = o(l, e); if (h === 0) return; var c = s(l, e), v = u.x1, d = u.y1, g = u.w, y = u.h, p, m, b, E, M; if (c !== 0) { var O = r.getRotationPoint(e); b = O.x, E = O.y, t.translate(b, E), t.rotate(c), M = l.getImgSmoothing(t), M || l.setImgSmoothing(t, !0); var x = r.getRotationOffset(e); p = x.x, m = x.y; } else p = v, m = d; var I; h !== 1 && (I = t.globalAlpha, t.globalAlpha = I * h), t.drawImage(f.texture.canvas, f.x, 0, f.width, f.height, p, m, g, y), h !== 1 && (t.globalAlpha = I), c !== 0 && (t.rotate(-c), t.translate(-b, -E), M || l.setImgSmoothing(t, !1)); } else r.drawElement(t, e); } }; var qg = function() { return 0; }, Wg = function(e, r) { return e.getTextAngle(r, null); }, Kg = function(e, r) { return e.getTextAngle(r, "source"); }, Zg = function(e, r) { return e.getTextAngle(r, "target"); }, Qg = function(e, r) { return r.effectiveOpacity(); }, _i = function(e, r) { return r.pstyle("text-opacity").pfValue * r.effectiveOpacity(); }; hr.drawCachedElement = function(t, e, r, a, n, i) { var s = this, o = s.data, l = o.eleTxrCache, u = o.lblTxrCache, f = o.slbTxrCache, h = o.tlbTxrCache, c = e.boundingBox(), v = i === !0 ? l.reasons.highQuality : null; if (!(c.w === 0 || c.h === 0 || !e.visible()) && (!a || hi(c, a))) { var d = e.isEdge(), g = e.element()._private.rscratch.badLine; s.drawElementUnderlay(t, e), s.drawCachedElementPortion(t, e, l, r, n, v, qg, Qg), (!d || !g) && s.drawCachedElementPortion(t, e, u, r, n, v, Wg, _i), d && !g && (s.drawCachedElementPortion(t, e, f, r, n, v, Kg, _i), s.drawCachedElementPortion(t, e, h, r, n, v, Zg, _i)), s.drawElementOverlay(t, e); } }, hr.drawElements = function(t, e) { for (var r = this, a = 0; a < e.length; a++) { var n = e[a]; r.drawElement(t, n); } }, hr.drawCachedElements = function(t, e, r, a) { for (var n = this, i = 0; i < e.length; i++) { var s = e[i]; n.drawCachedElement(t, s, r, a); } }, hr.drawCachedNodes = function(t, e, r, a) { for (var n = this, i = 0; i < e.length; i++) { var s = e[i]; s.isNode() && n.drawCachedElement(t, s, r, a); } }, hr.drawLayeredElements = function(t, e, r, a) { var n = this, i = n.data.lyrTxrCache.getLayers(e, r); if (i) for (var s = 0; s < i.length; s++) { var o = i[s], l = o.bb; l.w === 0 || l.h === 0 || t.drawImage(o.canvas, l.x1, l.y1, l.w, l.h); } else n.drawCachedElements(t, e, r, a); }; var mr = {}; mr.drawEdge = function(t, e, r) { var a = arguments.length > 3 && arguments[3] !== void 0 ? arguments[3] : !0, n = arguments.length > 4 && arguments[4] !== void 0 ? arguments[4] : !0, i = arguments.length > 5 && arguments[5] !== void 0 ? arguments[5] : !0, s = this, o = e._private.rscratch; if (!(i && !e.visible()) && !(o.badLine || o.allpts == null || isNaN(o.allpts[0]))) { var l; r && (l = r, t.translate(-l.x1, -l.y1)); var u = i ? e.pstyle("opacity").value : 1, f = i ? e.pstyle("line-opacity").value : 1, h = e.pstyle("curve-style").value, c = e.pstyle("line-style").value, v = e.pstyle("width").pfValue, d = e.pstyle("line-cap").value, g = u * f, y = u * f, p = function() { var R = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : g; h === "straight-triangle" ? (s.eleStrokeStyle(t, e, R), s.drawEdgeTrianglePath(e, t, o.allpts)) : (t.lineWidth = v, t.lineCap = d, s.eleStrokeStyle(t, e, R), s.drawEdgePath(e, t, o.allpts, c), t.lineCap = "butt"); }, m = function() { n && s.drawEdgeOverlay(t, e); }, b = function() { n && s.drawEdgeUnderlay(t, e); }, E = function() { var R = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : y; s.drawArrowheads(t, e, R); }, M = function() { s.drawElementText(t, e, null, a); }; t.lineJoin = "round"; var O = e.pstyle("ghost").value === "yes"; if (O) { var x = e.pstyle("ghost-offset-x").pfValue, I = e.pstyle("ghost-offset-y").pfValue, C = e.pstyle("ghost-opacity").value, B = g * C; t.translate(x, I), p(B), E(B), t.translate(-x, -I); } b(), p(), E(), m(), M(), r && t.translate(l.x1, l.y1); } }; var Tu = function(e) { if (!["overlay", "underlay"].includes(e)) throw new Error("Invalid state"); return function(r, a) { if (a.visible()) { var n = a.pstyle("".concat(e, "-opacity")).value; if (n !== 0) { var i = this, s = i.usePaths(), o = a._private.rscratch, l = a.pstyle("".concat(e, "-padding")).pfValue, u = 2 * l, f = a.pstyle("".concat(e, "-color")).value; r.lineWidth = u, o.edgeType === "self" && !s ? r.lineCap = "butt" : r.lineCap = "round", i.colorStrokeStyle(r, f[0], f[1], f[2], n), i.drawEdgePath(a, r, o.allpts, "solid"); } } }; }; mr.drawEdgeOverlay = Tu("overlay"), mr.drawEdgeUnderlay = Tu("underlay"), mr.drawEdgePath = function(t, e, r, a) { var n = t._private.rscratch, i = e, s, o = !1, l = this.usePaths(), u = t.pstyle("line-dash-pattern").pfValue, f = t.pstyle("line-dash-offset").pfValue; if (l) { var h = r.join("$"), c = n.pathCacheKey && n.pathCacheKey === h; c ? (s = e = n.pathCache, o = !0) : (s = e = new Path2D(), n.pathCacheKey = h, n.pathCache = s); } if (i.setLineDash) switch (a) { case "dotted": i.setLineDash([1, 1]); break; case "dashed": i.setLineDash(u), i.lineDashOffset = f; break; case "solid": i.setLineDash([]); break; } if (!o && !n.badLine) switch (e.beginPath && e.beginPath(), e.moveTo(r[0], r[1]), n.edgeType) { case "bezier": case "self": case "compound": case "multibezier": for (var v = 2; v + 3 < r.length; v += 4) e.quadraticCurveTo(r[v], r[v + 1], r[v + 2], r[v + 3]); break; case "straight": case "segments": case "haystack": for (var d = 2; d + 1 < r.length; d += 2) e.lineTo(r[d], r[d + 1]); break; } e = i, l ? e.stroke(s) : e.stroke(), e.setLineDash && e.setLineDash([]); }, mr.drawEdgeTrianglePath = function(t, e, r) { e.fillStyle = e.strokeStyle; for (var a = t.pstyle("width").pfValue, n = 0; n + 1 < r.length; n += 2) { var i = [r[n + 2] - r[n], r[n + 3] - r[n + 1]], s = Math.sqrt(i[0] * i[0] + i[1] * i[1]), o = [i[1] / s, -i[0] / s], l = [o[0] * a / 2, o[1] * a / 2]; e.beginPath(), e.moveTo(r[n] - l[0], r[n + 1] - l[1]), e.lineTo(r[n] + l[0], r[n + 1] + l[1]), e.lineTo(r[n + 2], r[n + 3]), e.closePath(), e.fill(); } }, mr.drawArrowheads = function(t, e, r) { var a = e._private.rscratch, n = a.edgeType === "haystack"; n || this.drawArrowhead(t, e, "source", a.arrowStartX, a.arrowStartY, a.srcArrowAngle, r), this.drawArrowhead(t, e, "mid-target", a.midX, a.midY, a.midtgtArrowAngle, r), this.drawArrowhead(t, e, "mid-source", a.midX, a.midY, a.midsrcArrowAngle, r), n || this.drawArrowhead(t, e, "target", a.arrowEndX, a.arrowEndY, a.tgtArrowAngle, r); }, mr.drawArrowhead = function(t, e, r, a, n, i, s) { if (!(isNaN(a) || a == null || isNaN(n) || n == null || isNaN(i) || i == null)) { var o = this, l = e.pstyle(r + "-arrow-shape").value; if (l !== "none") { var u = e.pstyle(r + "-arrow-fill").value === "hollow" ? "both" : "filled", f = e.pstyle(r + "-arrow-fill").value, h = e.pstyle("width").pfValue, c = e.pstyle("opacity").value; s === void 0 && (s = c); var v = t.globalCompositeOperation; (s !== 1 || f === "hollow") && (t.globalCompositeOperation = "destination-out", o.colorFillStyle(t, 255, 255, 255, 1), o.colorStrokeStyle(t, 255, 255, 255, 1), o.drawArrowShape(e, t, u, h, l, a, n, i), t.globalCompositeOperation = v); var d = e.pstyle(r + "-arrow-color").value; o.colorFillStyle(t, d[0], d[1], d[2], s), o.colorStrokeStyle(t, d[0], d[1], d[2], s), o.drawArrowShape(e, t, f, h, l, a, n, i); } } }, mr.drawArrowShape = function(t, e, r, a, n, i, s, o) { var l = this, u = this.usePaths() && n !== "triangle-cross", f = !1, h, c = e, v = { x: i, y: s }, d = t.pstyle("arrow-scale").value, g = this.getArrowWidth(a, d), y = l.arrowShapes[n]; if (u) { var p = l.arrowPathCache = l.arrowPathCache || [], m = kr(n), b = p[m]; b != null ? (h = e = b, f = !0) : (h = e = new Path2D(), p[m] = h); } f || (e.beginPath && e.beginPath(), u ? y.draw(e, 1, 0, { x: 0, y: 0 }, 1) : y.draw(e, g, o, v, a), e.closePath && e.closePath()), e = c, u && (e.translate(i, s), e.rotate(o), e.scale(g, g)), (r === "filled" || r === "both") && (u ? e.fill(h) : e.fill()), (r === "hollow" || r === "both") && (e.lineWidth = (y.matchEdgeWidth ? a : 1) / (u ? g : 1), e.lineJoin = "miter", u ? e.stroke(h) : e.stroke()), u && (e.scale(1 / g, 1 / g), e.rotate(-o), e.translate(-i, -s)); }; var Ui = {}; Ui.safeDrawImage = function(t, e, r, a, n, i, s, o, l, u) { if (!(n <= 0 || i <= 0 || l <= 0 || u <= 0)) try { t.drawImage(e, r, a, n, i, s, o, l, u); } catch (f) { ft(f); } }, Ui.drawInscribedImage = function(t, e, r, a, n) { var i = this, s = r.position(), o = s.x, l = s.y, u = r.cy().style(), f = u.getIndexedStyle.bind(u), h = f(r, "background-fit", "value", a), c = f(r, "background-repeat", "value", a), v = r.width(), d = r.height(), g = r.padding() * 2, y = v + (f(r, "background-width-relative-to", "value", a) === "inner" ? 0 : g), p = d + (f(r, "background-height-relative-to", "value", a) === "inner" ? 0 : g), m = r._private.rscratch, b = f(r, "background-clip", "value", a), E = b === "node", M = f(r, "background-image-opacity", "value", a) * n, O = f(r, "background-image-smoothing", "value", a), x = e.width || e.cachedW, I = e.height || e.cachedH; (x == null || I == null) && (document.body.appendChild(e), x = e.cachedW = e.width || e.offsetWidth, I = e.cachedH = e.height || e.offsetHeight, document.body.removeChild(e)); var C = x, B = I; if (f(r, "background-width", "value", a) !== "auto" && (f(r, "background-width", "units", a) === "%" ? C = f(r, "background-width", "pfValue", a) * y : C = f(r, "background-width", "pfValue", a)), f(r, "background-height", "value", a) !== "auto" && (f(r, "background-height", "units", a) === "%" ? B = f(r, "background-height", "pfValue", a) * p : B = f(r, "background-height", "pfValue", a)), !(C === 0 || B === 0)) { if (h === "contain") { var F = Math.min(y / C, p / B); C *= F, B *= F; } else if (h === "cover") { var F = Math.max(y / C, p / B); C *= F, B *= F; } var R = o - y / 2, X = f(r, "background-position-x", "units", a), z = f(r, "background-position-x", "pfValue", a); X === "%" ? R += (y - C) * z : R += z; var re = f(r, "background-offset-x", "units", a), W = f(r, "background-offset-x", "pfValue", a); re === "%" ? R += (y - C) * W : R += W; var Z = l - p / 2, ie = f(r, "background-position-y", "units", a), oe = f(r, "background-position-y", "pfValue", a); ie === "%" ? Z += (p - B) * oe : Z += oe; var ge = f(r, "background-offset-y", "units", a), se = f(r, "background-offset-y", "pfValue", a); ge === "%" ? Z += (p - B) * se : Z += se, m.pathCache && (R -= o, Z -= l, o = 0, l = 0); var de = t.globalAlpha; t.globalAlpha = M; var we = i.getImgSmoothing(t), Te = !1; if (O === "no" && we ? (i.setImgSmoothing(t, !1), Te = !0) : O === "yes" && !we && (i.setImgSmoothing(t, !0), Te = !0), c === "no-repeat") E && (t.save(), m.pathCache ? t.clip(m.pathCache) : (i.nodeShapes[i.getNodeShape(r)].draw(t, o, l, y, p), t.clip())), i.safeDrawImage(t, e, 0, 0, x, I, R, Z, C, B), E && t.restore(); else { var Ee = t.createPattern(e, c); t.fillStyle = Ee, i.nodeShapes[i.getNodeShape(r)].draw(t, o, l, y, p), t.translate(R, Z), t.fill(), t.translate(-R, -Z); } t.globalAlpha = de, Te && i.setImgSmoothing(t, we); } }; var _r = {}; _r.eleTextBiggerThanMin = function(t, e) { if (!e) { var r = t.cy().zoom(), a = this.getPixelRatio(), n = Math.ceil(li(r * a)); e = Math.pow(2, n); } var i = t.pstyle("font-size").pfValue * e, s = t.pstyle("min-zoomed-font-size").pfValue; return !(i < s); }, _r.drawElementText = function(t, e, r, a, n) { var i = arguments.length > 5 && arguments[5] !== void 0 ? arguments[5] : !0, s = this; if (a == null) { if (i && !s.eleTextBiggerThanMin(e)) return; } else if (a === !1) return; if (e.isNode()) { var o = e.pstyle("label"); if (!o || !o.value) return; var l = s.getLabelJustification(e); t.textAlign = l, t.textBaseline = "bottom"; } else { var u = e.element()._private.rscratch.badLine, f = e.pstyle("label"), h = e.pstyle("source-label"), c = e.pstyle("target-label"); if (u || (!f || !f.value) && (!h || !h.value) && (!c || !c.value)) return; t.textAlign = "center", t.textBaseline = "bottom"; } var v = !r, d; r && (d = r, t.translate(-d.x1, -d.y1)), n == null ? (s.drawText(t, e, null, v, i), e.isEdge() && (s.drawText(t, e, "source", v, i), s.drawText(t, e, "target", v, i))) : s.drawText(t, e, n, v, i), r && t.translate(d.x1, d.y1); }, _r.getFontCache = function(t) { var e; this.fontCaches = this.fontCaches || []; for (var r = 0; r < this.fontCaches.length; r++) if (e = this.fontCaches[r], e.context === t) return e; return e = { context: t }, this.fontCaches.push(e), e; }, _r.setupTextStyle = function(t, e) { var r = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : !0, a = e.pstyle("font-style").strValue, n = e.pstyle("font-size").pfValue + "px", i = e.pstyle("font-family").strValue, s = e.pstyle("font-weight").strValue, o = r ? e.effectiveOpacity() * e.pstyle("text-opacity").value : 1, l = e.pstyle("text-outline-opacity").value * o, u = e.pstyle("color").value, f = e.pstyle("text-outline-color").value; t.font = a + " " + s + " " + n + " " + i, t.lineJoin = "round", this.colorFillStyle(t, u[0], u[1], u[2], o), this.colorStrokeStyle(t, f[0], f[1], f[2], l); }; function Jg(t, e, r, a, n) { var i = arguments.length > 5 && arguments[5] !== void 0 ? arguments[5] : 5; t.beginPath(), t.moveTo(e + i, r), t.lineTo(e + a - i, r), t.quadraticCurveTo(e + a, r, e + a, r + i), t.lineTo(e + a, r + n - i), t.quadraticCurveTo(e + a, r + n, e + a - i, r + n), t.lineTo(e + i, r + n), t.quadraticCurveTo(e, r + n, e, r + n - i), t.lineTo(e, r + i), t.quadraticCurveTo(e, r, e + i, r), t.closePath(), t.fill(); } _r.getTextAngle = function(t, e) { var r, a = t._private, n = a.rscratch, i = e ? e + "-" : "", s = t.pstyle(i + "text-rotation"), o = er(n, "labelAngle", e); return s.strValue === "autorotate" ? r = t.isEdge() ? o : 0 : s.strValue === "none" ? r = 0 : r = s.pfValue, r; }, _r.drawText = function(t, e, r) { var a = arguments.length > 3 && arguments[3] !== void 0 ? arguments[3] : !0, n = arguments.length > 4 && arguments[4] !== void 0 ? arguments[4] : !0, i = e._private, s = i.rscratch, o = n ? e.effectiveOpacity() : 1; if (!(n && (o === 0 || e.pstyle("text-opacity").value === 0))) { r === "main" && (r = null); var l = er(s, "labelX", r), u = er(s, "labelY", r), f, h, c = this.getLabelText(e, r); if (c != null && c !== "" && !isNaN(l) && !isNaN(u)) { this.setupTextStyle(t, e, n); var v = r ? r + "-" : "", d = er(s, "labelWidth", r), g = er(s, "labelHeight", r), y = e.pstyle(v + "text-margin-x").pfValue, p = e.pstyle(v + "text-margin-y").pfValue, m = e.isEdge(), b = e.pstyle("text-halign").value, E = e.pstyle("text-valign").value; m && (b = "center", E = "center"), l += y, u += p; var M; switch (a ? M = this.getTextAngle(e, r) : M = 0, M !== 0 && (f = l, h = u, t.translate(f, h), t.rotate(M), l = 0, u = 0), E) { case "top": break; case "center": u += g / 2; break; case "bottom": u += g; break; } var O = e.pstyle("text-background-opacity").value, x = e.pstyle("text-border-opacity").value, I = e.pstyle("text-border-width").pfValue, C = e.pstyle("text-background-padding").pfValue; if (O > 0 || I > 0 && x > 0) { var B = l - C; switch (b) { case "left": B -= d; break; case "center": B -= d / 2; break; } var F = u - g - C, R = d + 2 * C, X = g + 2 * C; if (O > 0) { var z = t.fillStyle, re = e.pstyle("text-background-color").value; t.fillStyle = "rgba(" + re[0] + "," + re[1] + "," + re[2] + "," + O * o + ")"; var W = e.pstyle("text-background-shape").strValue; W.indexOf("round") === 0 ? Jg(t, B, F, R, X, 2) : t.fillRect(B, F, R, X), t.fillStyle = z; } if (I > 0 && x > 0) { var Z = t.strokeStyle, ie = t.lineWidth, oe = e.pstyle("text-border-color").value, ge = e.pstyle("text-border-style").value; if (t.strokeStyle = "rgba(" + oe[0] + "," + oe[1] + "," + oe[2] + "," + x * o + ")", t.lineWidth = I, t.setLineDash) switch (ge) { case "dotted": t.setLineDash([1, 1]); break; case "dashed": t.setLineDash([4, 2]); break; case "double": t.lineWidth = I / 4, t.setLineDash([]); break; case "solid": t.setLineDash([]); break; } if (t.strokeRect(B, F, R, X), ge === "double") { var se = I / 2; t.strokeRect(B + se, F + se, R - se * 2, X - se * 2); } t.setLineDash && t.setLineDash([]), t.lineWidth = ie, t.strokeStyle = Z; } } var de = 2 * e.pstyle("text-outline-width").pfValue; if (de > 0 && (t.lineWidth = de), e.pstyle("text-wrap").value === "wrap") { var we = er(s, "labelWrapCachedLines", r), Te = er(s, "labelLineHeight", r), Ee = d / 2, ye = this.getLabelJustification(e); switch (ye === "auto" || (b === "left" ? ye === "left" ? l += -d : ye === "center" && (l += -Ee) : b === "center" ? ye === "left" ? l += -Ee : ye === "right" && (l += Ee) : b === "right" && (ye === "center" ? l += Ee : ye === "right" && (l += d))), E) { case "top": u -= (we.length - 1) * Te; break; case "center": case "bottom": u -= (we.length - 1) * Te; break; } for (var ae = 0; ae < we.length; ae++) de > 0 && t.strokeText(we[ae], l, u), t.fillText(we[ae], l, u), u += Te; } else de > 0 && t.strokeText(c, l, u), t.fillText(c, l, u); M !== 0 && (t.rotate(-M), t.translate(-f, -h)); } } }; var Ea = {}; Ea.drawNode = function(t, e, r) { var a = arguments.length > 3 && arguments[3] !== void 0 ? arguments[3] : !0, n = arguments.length > 4 && arguments[4] !== void 0 ? arguments[4] : !0, i = arguments.length > 5 && arguments[5] !== void 0 ? arguments[5] : !0, s = this, o, l, u = e._private, f = u.rscratch, h = e.position(); if (!(!k(h.x) || !k(h.y)) && !(i && !e.visible())) { var c = i ? e.effectiveOpacity() : 1, v = s.usePaths(), d, g = !1, y = e.padding(); o = e.width() + 2 * y, l = e.height() + 2 * y; var p; r && (p = r, t.translate(-p.x1, -p.y1)); for (var m = e.pstyle("background-image"), b = m.value, E = new Array(b.length), M = new Array(b.length), O = 0, x = 0; x < b.length; x++) { var I = b[x], C = E[x] = I != null && I !== "none"; if (C) { var B = e.cy().style().getIndexedStyle(e, "background-image-crossorigin", "value", x); O++, M[x] = s.getCachedImage(I, B, function() { u.backgroundTimestamp = Date.now(), e.emitAndNotify("background"); }); } } var F = e.pstyle("background-blacken").value, R = e.pstyle("border-width").pfValue, X = e.pstyle("background-opacity").value * c, z = e.pstyle("border-color").value, re = e.pstyle("border-style").value, W = e.pstyle("border-opacity").value * c; t.lineJoin = "miter"; var Z = function() { var ke = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : X; s.eleFillStyle(t, e, ke); }, ie = function() { var ke = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : W; s.colorStrokeStyle(t, z[0], z[1], z[2], ke); }, oe = e.pstyle("shape").strValue, ge = e.pstyle("shape-polygon-points").pfValue; if (v) { t.translate(h.x, h.y); var se = s.nodePathCache = s.nodePathCache || [], de = hs(oe === "polygon" ? oe + "," + ge.join(",") : oe, "" + l, "" + o), we = se[de]; we != null ? (d = we, g = !0, f.pathCache = d) : (d = new Path2D(), se[de] = f.pathCache = d); } var Te = function() { if (!g) { var ke = h; v && (ke = { x: 0, y: 0 }), s.nodeShapes[s.getNodeShape(e)].draw(d || t, ke.x, ke.y, o, l); } v ? t.fill(d) : t.fill(); }, Ee = function() { for (var ke = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : c, Ge = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !0, et = u.backgrounding, We = 0, Ye = 0; Ye < M.length; Ye++) { var Se = e.cy().style().getIndexedStyle(e, "background-image-containment", "value", Ye); if (Ge && Se === "over" || !Ge && Se === "inside") { We++; continue; } E[Ye] && M[Ye].complete && !M[Ye].error && (We++, s.drawInscribedImage(t, M[Ye], e, Ye, ke)); } u.backgrounding = We !== O, et !== u.backgrounding && e.updateStyle(!1); }, ye = function() { var ke = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : !1, Ge = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : c; s.hasPie(e) && (s.drawPie(t, e, Ge), ke && (v || s.nodeShapes[s.getNodeShape(e)].draw(t, h.x, h.y, o, l))); }, ae = function() { var ke = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : c, Ge = (F > 0 ? F : -F) * ke, et = F > 0 ? 0 : 255; F !== 0 && (s.colorFillStyle(t, et, et, et, Ge), v ? t.fill(d) : t.fill()); }, xe = function() { if (R > 0) { if (t.lineWidth = R, t.lineCap = "butt", t.setLineDash) switch (re) { case "dotted": t.setLineDash([1, 1]); break; case "dashed": t.setLineDash([4, 2]); break; case "solid": case "double": t.setLineDash([]); break; } if (v ? t.stroke(d) : t.stroke(), re === "double") { t.lineWidth = R / 3; var ke = t.globalCompositeOperation; t.globalCompositeOperation = "destination-out", v ? t.stroke(d) : t.stroke(), t.globalCompositeOperation = ke; } t.setLineDash && t.setLineDash([]); } }, Ce = function() { n && s.drawNodeOverlay(t, e, h, o, l); }, Oe = function() { n && s.drawNodeUnderlay(t, e, h, o, l); }, Ie = function() { s.drawElementText(t, e, null, a); }, He = e.pstyle("ghost").value === "yes"; if (He) { var qe = e.pstyle("ghost-offset-x").pfValue, Re = e.pstyle("ghost-offset-y").pfValue, Me = e.pstyle("ghost-opacity").value, Ve = Me * c; t.translate(qe, Re), Z(Me * X), Te(), Ee(Ve, !0), ie(Me * W), xe(), ye(F !== 0 || R !== 0), Ee(Ve, !1), ae(Ve), t.translate(-qe, -Re); } v && t.translate(-h.x, -h.y), Oe(), v && t.translate(h.x, h.y), Z(), Te(), Ee(c, !0), ie(), xe(), ye(F !== 0 || R !== 0), Ee(c, !1), ae(), v && t.translate(-h.x, -h.y), Ie(), Ce(), r && t.translate(p.x1, p.y1); } }; var Cu = function(e) { if (!["overlay", "underlay"].includes(e)) throw new Error("Invalid state"); return function(r, a, n, i, s) { var o = this; if (a.visible()) { var l = a.pstyle("".concat(e, "-padding")).pfValue, u = a.pstyle("".concat(e, "-opacity")).value, f = a.pstyle("".concat(e, "-color")).value, h = a.pstyle("".concat(e, "-shape")).value; if (u > 0) { if (n = n || a.position(), i == null || s == null) { var c = a.padding(); i = a.width() + 2 * c, s = a.height() + 2 * c; } o.colorFillStyle(r, f[0], f[1], f[2], u), o.nodeShapes[h].draw(r, n.x, n.y, i + l * 2, s + l * 2), r.fill(); } } }; }; Ea.drawNodeOverlay = Cu("overlay"), Ea.drawNodeUnderlay = Cu("underlay"), Ea.hasPie = function(t) { return t = t[0], t._private.hasPie; }, Ea.drawPie = function(t, e, r, a) { e = e[0], a = a || e.position(); var n = e.cy().style(), i = e.pstyle("pie-size"), s = a.x, o = a.y, l = e.width(), u = e.height(), f = Math.min(l, u) / 2, h = 0, c = this.usePaths(); c && (s = 0, o = 0), i.units === "%" ? f = f * i.pfValue : i.pfValue !== void 0 && (f = i.pfValue / 2); for (var v = 1; v <= n.pieBackgroundN; v++) { var d = e.pstyle("pie-" + v + "-background-size").value, g = e.pstyle("pie-" + v + "-background-color").value, y = e.pstyle("pie-" + v + "-background-opacity").value * r, p = d / 100; p + h > 1 && (p = 1 - h); var m = 1.5 * Math.PI + 2 * Math.PI * h, b = 2 * Math.PI * p, E = m + b; d === 0 || h >= 1 || h + p > 1 || (t.beginPath(), t.moveTo(s, o), t.arc(s, o, f, m, E), t.closePath(), this.colorFillStyle(t, g[0], g[1], g[2], y), t.fill(), h += p); } }; var Wt = {}, jg = 100; Wt.getPixelRatio = function() { var t = this.data.contexts[0]; if (this.forcedPixelRatio != null) return this.forcedPixelRatio; var e = t.backingStorePixelRatio || t.webkitBackingStorePixelRatio || t.mozBackingStorePixelRatio || t.msBackingStorePixelRatio || t.oBackingStorePixelRatio || t.backingStorePixelRatio || 1; return (window.devicePixelRatio || 1) / e; }, Wt.paintCache = function(t) { for (var e = this.paintCaches = this.paintCaches || [], r = !0, a, n = 0; n < e.length; n++) if (a = e[n], a.context === t) { r = !1; break; } return r && (a = { context: t }, e.push(a)), a; }, Wt.createGradientStyleFor = function(t, e, r, a, n) { var i, s = this.usePaths(), o = r.pstyle(e + "-gradient-stop-colors").value, l = r.pstyle(e + "-gradient-stop-positions").pfValue; if (a === "radial-gradient") if (r.isEdge()) { var u = r.sourceEndpoint(), f = r.targetEndpoint(), h = r.midpoint(), c = Pr(u, h), v = Pr(f, h); i = t.createRadialGradient(h.x, h.y, 0, h.x, h.y, Math.max(c, v)); } else { var d = s ? { x: 0, y: 0 } : r.position(), g = r.paddedWidth(), y = r.paddedHeight(); i = t.createRadialGradient(d.x, d.y, 0, d.x, d.y, Math.max(g, y)); } else if (r.isEdge()) { var p = r.sourceEndpoint(), m = r.targetEndpoint(); i = t.createLinearGradient(p.x, p.y, m.x, m.y); } else { var b = s ? { x: 0, y: 0 } : r.position(), E = r.paddedWidth(), M = r.paddedHeight(), O = E / 2, x = M / 2, I = r.pstyle("background-gradient-direction").value; switch (I) { case "to-bottom": i = t.createLinearGradient(b.x, b.y - x, b.x, b.y + x); break; case "to-top": i = t.createLinearGradient(b.x, b.y + x, b.x, b.y - x); break; case "to-left": i = t.createLinearGradient(b.x + O, b.y, b.x - O, b.y); break; case "to-right": i = t.createLinearGradient(b.x - O, b.y, b.x + O, b.y); break; case "to-bottom-right": case "to-right-bottom": i = t.createLinearGradient(b.x - O, b.y - x, b.x + O, b.y + x); break; case "to-top-right": case "to-right-top": i = t.createLinearGradient(b.x - O, b.y + x, b.x + O, b.y - x); break; case "to-bottom-left": case "to-left-bottom": i = t.createLinearGradient(b.x + O, b.y - x, b.x - O, b.y + x); break; case "to-top-left": case "to-left-top": i = t.createLinearGradient(b.x + O, b.y + x, b.x - O, b.y - x); break; } } if (!i) return null; for (var C = l.length === o.length, B = o.length, F = 0; F < B; F++) i.addColorStop(C ? l[F] : F / (B - 1), "rgba(" + o[F][0] + "," + o[F][1] + "," + o[F][2] + "," + n + ")"); return i; }, Wt.gradientFillStyle = function(t, e, r, a) { var n = this.createGradientStyleFor(t, "background", e, r, a); if (!n) return null; t.fillStyle = n; }, Wt.colorFillStyle = function(t, e, r, a, n) { t.fillStyle = "rgba(" + e + "," + r + "," + a + "," + n + ")"; }, Wt.eleFillStyle = function(t, e, r) { var a = e.pstyle("background-fill").value; if (a === "linear-gradient" || a === "radial-gradient") this.gradientFillStyle(t, e, a, r); else { var n = e.pstyle("background-color").value; this.colorFillStyle(t, n[0], n[1], n[2], r); } }, Wt.gradientStrokeStyle = function(t, e, r, a) { var n = this.createGradientStyleFor(t, "line", e, r, a); if (!n) return null; t.strokeStyle = n; }, Wt.colorStrokeStyle = function(t, e, r, a, n) { t.strokeStyle = "rgba(" + e + "," + r + "," + a + "," + n + ")"; }, Wt.eleStrokeStyle = function(t, e, r) { var a = e.pstyle("line-fill").value; if (a === "linear-gradient" || a === "radial-gradient") this.gradientStrokeStyle(t, e, a, r); else { var n = e.pstyle("line-color").value; this.colorStrokeStyle(t, n[0], n[1], n[2], r); } }, Wt.matchCanvasSize = function(t) { var e = this, r = e.data, a = e.findContainerClientCoords(), n = a[2], i = a[3], s = e.getPixelRatio(), o = e.motionBlurPxRatio; (t === e.data.bufferCanvases[e.MOTIONBLUR_BUFFER_NODE] || t === e.data.bufferCanvases[e.MOTIONBLUR_BUFFER_DRAG]) && (s = o); var l = n * s, u = i * s, f; if (!(l === e.canvasWidth && u === e.canvasHeight)) { e.fontCaches = null; var h = r.canvasContainer; h.style.width = n + "px", h.style.height = i + "px"; for (var c = 0; c < e.CANVAS_LAYERS; c++) f = r.canvases[c], f.width = l, f.height = u, f.style.width = n + "px", f.style.height = i + "px"; for (var c = 0; c < e.BUFFER_COUNT; c++) f = r.bufferCanvases[c], f.width = l, f.height = u, f.style.width = n + "px", f.style.height = i + "px"; e.textureMult = 1, s <= 1 && (f = r.bufferCanvases[e.TEXTURE_BUFFER], e.textureMult = 2, f.width = l * e.textureMult, f.height = u * e.textureMult), e.canvasWidth = l, e.canvasHeight = u; } }, Wt.renderTo = function(t, e, r, a) { this.render({ forcedContext: t, forcedZoom: e, forcedPan: r, drawAllLayers: !0, forcedPxRatio: a }); }, Wt.render = function(t) { t = t || ys(); var e = t.forcedContext, r = t.drawAllLayers, a = t.drawOnlyNodeLayer, n = t.forcedZoom, i = t.forcedPan, s = this, o = t.forcedPxRatio === void 0 ? this.getPixelRatio() : t.forcedPxRatio, l = s.cy, u = s.data, f = u.canvasNeedsRedraw, h = s.textureOnViewport && !e && (s.pinching || s.hoverData.dragging || s.swipePanning || s.data.wheelZooming), c = t.motionBlur !== void 0 ? t.motionBlur : s.motionBlur, v = s.motionBlurPxRatio, d = l.hasCompoundNodes(), g = s.hoverData.draggingEles, y = !!(s.hoverData.selecting || s.touchData.selecting); c = c && !e && s.motionBlurEnabled && !y; var p = c; e || (s.prevPxRatio !== o && (s.invalidateContainerClientCoordsCache(), s.matchCanvasSize(s.container), s.redrawHint("eles", !0), s.redrawHint("drag", !0)), s.prevPxRatio = o), !e && s.motionBlurTimeout && clearTimeout(s.motionBlurTimeout), c && (s.mbFrames == null && (s.mbFrames = 0), s.mbFrames++, s.mbFrames < 3 && (p = !1), s.mbFrames > s.minMbLowQualFrames && (s.motionBlurPxRatio = s.mbPxRBlurry)), s.clearingMotionBlur && (s.motionBlurPxRatio = 1), s.textureDrawLastFrame && !h && (f[s.NODE] = !0, f[s.SELECT_BOX] = !0); var m = l.style(), b = l.zoom(), E = n !== void 0 ? n : b, M = l.pan(), O = { x: M.x, y: M.y }, x = { zoom: b, pan: { x: M.x, y: M.y } }, I = s.prevViewport, C = I === void 0 || x.zoom !== I.zoom || x.pan.x !== I.pan.x || x.pan.y !== I.pan.y; !C && !(g && !d) && (s.motionBlurPxRatio = 1), i && (O = i), E *= o, O.x *= o, O.y *= o; var B = s.getCachedZSortedEles(); function F(Re, Me, Ve, Fe, ke) { var Ge = Re.globalCompositeOperation; Re.globalCompositeOperation = "destination-out", s.colorFillStyle(Re, 255, 255, 255, s.motionBlurTransparency), Re.fillRect(Me, Ve, Fe, ke), Re.globalCompositeOperation = Ge; } function R(Re, Me) { var Ve, Fe, ke, Ge; !s.clearingMotionBlur && (Re === u.bufferContexts[s.MOTIONBLUR_BUFFER_NODE] || Re === u.bufferContexts[s.MOTIONBLUR_BUFFER_DRAG]) ? (Ve = { x: M.x * v, y: M.y * v }, Fe = b * v, ke = s.canvasWidth * v, Ge = s.canvasHeight * v) : (Ve = O, Fe = E, ke = s.canvasWidth, Ge = s.canvasHeight), Re.setTransform(1, 0, 0, 1, 0, 0), Me === "motionBlur" ? F(Re, 0, 0, ke, Ge) : !e && (Me === void 0 || Me) && Re.clearRect(0, 0, ke, Ge), r || (Re.translate(Ve.x, Ve.y), Re.scale(Fe, Fe)), i && Re.translate(i.x, i.y), n && Re.scale(n, n); } if (h || (s.textureDrawLastFrame = !1), h) { if (s.textureDrawLastFrame = !0, !s.textureCache) { s.textureCache = {}, s.textureCache.bb = l.mutableElements().boundingBox(), s.textureCache.texture = s.data.bufferCanvases[s.TEXTURE_BUFFER]; var X = s.data.bufferContexts[s.TEXTURE_BUFFER]; X.setTransform(1, 0, 0, 1, 0, 0), X.clearRect(0, 0, s.canvasWidth * s.textureMult, s.canvasHeight * s.textureMult), s.render({ forcedContext: X, drawOnlyNodeLayer: !0, forcedPxRatio: o * s.textureMult }); var x = s.textureCache.viewport = { zoom: l.zoom(), pan: l.pan(), width: s.canvasWidth, height: s.canvasHeight }; x.mpan = { x: (0 - x.pan.x) / x.zoom, y: (0 - x.pan.y) / x.zoom }; } f[s.DRAG] = !1, f[s.NODE] = !1; var z = u.contexts[s.NODE], re = s.textureCache.texture, x = s.textureCache.viewport; z.setTransform(1, 0, 0, 1, 0, 0), c ? F(z, 0, 0, x.width, x.height) : z.clearRect(0, 0, x.width, x.height); var W = m.core("outside-texture-bg-color").value, Z = m.core("outside-texture-bg-opacity").value; s.colorFillStyle(z, W[0], W[1], W[2], Z), z.fillRect(0, 0, x.width, x.height); var b = l.zoom(); R(z, !1), z.clearRect(x.mpan.x, x.mpan.y, x.width / x.zoom / o, x.height / x.zoom / o), z.drawImage(re, x.mpan.x, x.mpan.y, x.width / x.zoom / o, x.height / x.zoom / o); } else s.textureOnViewport && !e && (s.textureCache = null); var ie = l.extent(), oe = s.pinching || s.hoverData.dragging || s.swipePanning || s.data.wheelZooming || s.hoverData.draggingEles || s.cy.animated(), ge = s.hideEdgesOnViewport && oe, se = []; if (se[s.NODE] = !f[s.NODE] && c && !s.clearedForMotionBlur[s.NODE] || s.clearingMotionBlur, se[s.NODE] && (s.clearedForMotionBlur[s.NODE] = !0), se[s.DRAG] = !f[s.DRAG] && c && !s.clearedForMotionBlur[s.DRAG] || s.clearingMotionBlur, se[s.DRAG] && (s.clearedForMotionBlur[s.DRAG] = !0), f[s.NODE] || r || a || se[s.NODE]) { var de = c && !se[s.NODE] && v !== 1, z = e || (de ? s.data.bufferContexts[s.MOTIONBLUR_BUFFER_NODE] : u.contexts[s.NODE]), we = c && !de ? "motionBlur" : void 0; R(z, we), ge ? s.drawCachedNodes(z, B.nondrag, o, ie) : s.drawLayeredElements(z, B.nondrag, o, ie), s.debug && s.drawDebugPoints(z, B.nondrag), !r && !c && (f[s.NODE] = !1); } if (!a && (f[s.DRAG] || r || se[s.DRAG])) { var de = c && !se[s.DRAG] && v !== 1, z = e || (de ? s.data.bufferContexts[s.MOTIONBLUR_BUFFER_DRAG] : u.contexts[s.DRAG]); R(z, c && !de ? "motionBlur" : void 0), ge ? s.drawCachedNodes(z, B.drag, o, ie) : s.drawCachedElements(z, B.drag, o, ie), s.debug && s.drawDebugPoints(z, B.drag), !r && !c && (f[s.DRAG] = !1); } if (s.showFps || !a && f[s.SELECT_BOX] && !r) { var z = e || u.contexts[s.SELECT_BOX]; if (R(z), s.selection[4] == 1 && (s.hoverData.selecting || s.touchData.selecting)) { var b = s.cy.zoom(), Te = m.core("selection-box-border-width").value / b; z.lineWidth = Te, z.fillStyle = "rgba(" + m.core("selection-box-color").value[0] + "," + m.core("selection-box-color").value[1] + "," + m.core("selection-box-color").value[2] + "," + m.core("selection-box-opacity").value + ")", z.fillRect(s.selection[0], s.selection[1], s.selection[2] - s.selection[0], s.selection[3] - s.selection[1]), Te > 0 && (z.strokeStyle = "rgba(" + m.core("selection-box-border-color").value[0] + "," + m.core("selection-box-border-color").value[1] + "," + m.core("selection-box-border-color").value[2] + "," + m.core("selection-box-opacity").value + ")", z.strokeRect(s.selection[0], s.selection[1], s.selection[2] - s.selection[0], s.selection[3] - s.selection[1])); } if (u.bgActivePosistion && !s.hoverData.selecting) { var b = s.cy.zoom(), Ee = u.bgActivePosistion; z.fillStyle = "rgba(" + m.core("active-bg-color").value[0] + "," + m.core("active-bg-color").value[1] + "," + m.core("active-bg-color").value[2] + "," + m.core("active-bg-opacity").value + ")", z.beginPath(), z.arc(Ee.x, Ee.y, m.core("active-bg-size").pfValue / b, 0, 2 * Math.PI), z.fill(); } var ye = s.lastRedrawTime; if (s.showFps && ye) { ye = Math.round(ye); var ae = Math.round(1e3 / ye); z.setTransform(1, 0, 0, 1, 0, 0), z.fillStyle = "rgba(255, 0, 0, 0.75)", z.strokeStyle = "rgba(255, 0, 0, 0.75)", z.lineWidth = 1, z.fillText("1 frame = " + ye + " ms = " + ae + " fps", 0, 20); var xe = 60; z.strokeRect(0, 30, 250, 20), z.fillRect(0, 30, 250 * Math.min(ae / xe, 1), 20); } r || (f[s.SELECT_BOX] = !1); } if (c && v !== 1) { var Ce = u.contexts[s.NODE], Oe = s.data.bufferCanvases[s.MOTIONBLUR_BUFFER_NODE], Ie = u.contexts[s.DRAG], He = s.data.bufferCanvases[s.MOTIONBLUR_BUFFER_DRAG], qe = function(Me, Ve, Fe) { Me.setTransform(1, 0, 0, 1, 0, 0), Fe || !p ? Me.clearRect(0, 0, s.canvasWidth, s.canvasHeight) : F(Me, 0, 0, s.canvasWidth, s.canvasHeight); var ke = v; Me.drawImage( Ve, // img 0, 0, // sx, sy s.canvasWidth * ke, s.canvasHeight * ke, // sw, sh 0, 0, // x, y s.canvasWidth, s.canvasHeight // w, h ); }; (f[s.NODE] || se[s.NODE]) && (qe(Ce, Oe, se[s.NODE]), f[s.NODE] = !1), (f[s.DRAG] || se[s.DRAG]) && (qe(Ie, He, se[s.DRAG]), f[s.DRAG] = !1); } s.prevViewport = x, s.clearingMotionBlur && (s.clearingMotionBlur = !1, s.motionBlurCleared = !0, s.motionBlur = !0), c && (s.motionBlurTimeout = setTimeout(function() { s.motionBlurTimeout = null, s.clearedForMotionBlur[s.NODE] = !1, s.clearedForMotionBlur[s.DRAG] = !1, s.motionBlur = !1, s.clearingMotionBlur = !h, s.mbFrames = 0, f[s.NODE] = !0, f[s.DRAG] = !0, s.redraw(); }, jg)), e || l.emit("render"); }; var Mr = {}; Mr.drawPolygonPath = function(t, e, r, a, n, i) { var s = a / 2, o = n / 2; t.beginPath && t.beginPath(), t.moveTo(e + s * i[0], r + o * i[1]); for (var l = 1; l < i.length / 2; l++) t.lineTo(e + s * i[l * 2], r + o * i[l * 2 + 1]); t.closePath(); }, Mr.drawRoundPolygonPath = function(t, e, r, a, n, i) { var s = a / 2, o = n / 2, l = di(a, n); t.beginPath && t.beginPath(); for (var u = 0; u < i.length / 4; u++) { var f = void 0, h = void 0; u === 0 ? f = i.length - 2 : f = u * 4 - 2, h = u * 4 + 2; var c = e + s * i[u * 4], v = r + o * i[u * 4 + 1], d = -i[f] * i[h] - i[f + 1] * i[h + 1], g = l / Math.tan(Math.acos(d) / 2), y = c - g * i[f], p = v - g * i[f + 1], m = c + g * i[h], b = v + g * i[h + 1]; u === 0 ? t.moveTo(y, p) : t.lineTo(y, p), t.arcTo(c, v, m, b, l); } t.closePath(); }, Mr.drawRoundRectanglePath = function(t, e, r, a, n) { var i = a / 2, s = n / 2, o = Fa(a, n); t.beginPath && t.beginPath(), t.moveTo(e, r - s), t.arcTo(e + i, r - s, e + i, r, o), t.arcTo(e + i, r + s, e, r + s, o), t.arcTo(e - i, r + s, e - i, r, o), t.arcTo(e - i, r - s, e, r - s, o), t.lineTo(e, r - s), t.closePath(); }, Mr.drawBottomRoundRectanglePath = function(t, e, r, a, n) { var i = a / 2, s = n / 2, o = Fa(a, n); t.beginPath && t.beginPath(), t.moveTo(e, r - s), t.lineTo(e + i, r - s), t.lineTo(e + i, r), t.arcTo(e + i, r + s, e, r + s, o), t.arcTo(e - i, r + s, e - i, r, o), t.lineTo(e - i, r - s), t.lineTo(e, r - s), t.closePath(); }, Mr.drawCutRectanglePath = function(t, e, r, a, n) { var i = a / 2, s = n / 2, o = Ls(); t.beginPath && t.beginPath(), t.moveTo(e - i + o, r - s), t.lineTo(e + i - o, r - s), t.lineTo(e + i, r - s + o), t.lineTo(e + i, r + s - o), t.lineTo(e + i - o, r + s), t.lineTo(e - i + o, r + s), t.lineTo(e - i, r + s - o), t.lineTo(e - i, r - s + o), t.closePath(); }, Mr.drawBarrelPath = function(t, e, r, a, n) { var i = a / 2, s = n / 2, o = e - i, l = e + i, u = r - s, f = r + s, h = gi(a, n), c = h.widthOffset, v = h.heightOffset, d = h.ctrlPtOffsetPct * c; t.beginPath && t.beginPath(), t.moveTo(o, u + v), t.lineTo(o, f - v), t.quadraticCurveTo(o + d, f, o + c, f), t.lineTo(l - c, f), t.quadraticCurveTo(l - d, f, l, f - v), t.lineTo(l, u + v), t.quadraticCurveTo(l - d, u, l - c, u), t.lineTo(o + c, u), t.quadraticCurveTo(o + d, u, o, u + v), t.closePath(); }; for (var Du = Math.sin(0), Su = Math.cos(0), Yi = {}, Hi = {}, Lu = Math.PI / 40, wa = 0 * Math.PI; wa < 2 * Math.PI; wa += Lu) Yi[wa] = Math.sin(wa), Hi[wa] = Math.cos(wa); Mr.drawEllipsePath = function(t, e, r, a, n) { if (t.beginPath && t.beginPath(), t.ellipse) t.ellipse(e, r, a / 2, n / 2, 0, 0, 2 * Math.PI); else for (var i, s, o = a / 2, l = n / 2, u = 0 * Math.PI; u < 2 * Math.PI; u += Lu) i = e - o * Yi[u] * Du + o * Hi[u] * Su, s = r + l * Hi[u] * Du + l * Yi[u] * Su, u === 0 ? t.moveTo(i, s) : t.lineTo(i, s); t.closePath(); }; var tn = {}; tn.createBuffer = function(t, e) { var r = document.createElement("canvas"); return r.width = t, r.height = e, [r, r.getContext("2d")]; }, tn.bufferCanvasImage = function(t) { var e = this.cy, r = e.mutableElements(), a = r.boundingBox(), n = this.findContainerClientCoords(), i = t.full ? Math.ceil(a.w) : n[2], s = t.full ? Math.ceil(a.h) : n[3], o = k(t.maxWidth) || k(t.maxHeight), l = this.getPixelRatio(), u = 1; if (t.scale !== void 0) i *= t.scale, s *= t.scale, u = t.scale; else if (o) { var f = 1 / 0, h = 1 / 0; k(t.maxWidth) && (f = u * t.maxWidth / i), k(t.maxHeight) && (h = u * t.maxHeight / s), u = Math.min(f, h), i *= u, s *= u; } o || (i *= l, s *= l, u *= l); var c = document.createElement("canvas"); c.width = i, c.height = s, c.style.width = i + "px", c.style.height = s + "px"; var v = c.getContext("2d"); if (i > 0 && s > 0) { v.clearRect(0, 0, i, s), v.globalCompositeOperation = "source-over"; var d = this.getCachedZSortedEles(); if (t.full) v.translate(-a.x1 * u, -a.y1 * u), v.scale(u, u), this.drawElements(v, d), v.scale(1 / u, 1 / u), v.translate(a.x1 * u, a.y1 * u); else { var g = e.pan(), y = { x: g.x * u, y: g.y * u }; u *= e.zoom(), v.translate(y.x, y.y), v.scale(u, u), this.drawElements(v, d), v.scale(1 / u, 1 / u), v.translate(-y.x, -y.y); } t.bg && (v.globalCompositeOperation = "destination-over", v.fillStyle = t.bg, v.rect(0, 0, i, s), v.fill()); } return c; }; function ep(t, e) { for (var r = atob(t), a = new ArrayBuffer(r.length), n = new Uint8Array(a), i = 0; i < r.length; i++) n[i] = r.charCodeAt(i); return new Blob([a], { type: e }); } function Au(t) { var e = t.indexOf(","); return t.substr(e + 1); } function Ou(t, e, r) { var a = function() { return e.toDataURL(r, t.quality); }; switch (t.output) { case "blob-promise": return new ia(function(n, i) { try { e.toBlob(function(s) { s != null ? 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ae + "-" : ""; return { x: xe.x + Ce.pstyle(Oe + "text-margin-x").pfValue, y: xe.y + Ce.pstyle(Oe + "text-margin-y").pfValue }; }, R = function(ae, xe, Ce) { var Oe = ae[0]._private.rscratch; return { x: Oe[xe], y: Oe[Ce] }; }, X = function(ae) { return F("", R(ae, "labelX", "labelY"), ae); }, z = function(ae) { return F("source", R(ae, "sourceLabelX", "sourceLabelY"), ae); }, re = function(ae) { return F("target", R(ae, "targetLabelX", "targetLabelY"), ae); }, W = function(ae) { return h(M(ae)); }, Z = function(ae) { return h(x(ae)); }, ie = function(ae) { return h(I(ae)); }, oe = function(ae) { var xe = O(ae), Ce = h(O(ae)); if (ae.isNode()) { switch (ae.pstyle("text-halign").value) { case "left": Ce.x = -xe.w; break; case "right": Ce.x = 0; break; } switch (ae.pstyle("text-valign").value) { case "top": Ce.y = -xe.h; break; case "bottom": Ce.y = 0; break; } } return Ce; }, ge = e.data.eleTxrCache = new ja(e, { getKey: v, doesEleInvalidateKey: c, drawElement: p, getBoundingBox: M, getRotationPoint: B, getRotationOffset: W, allowEdgeTxrCaching: !1, allowParentTxrCaching: !1 }), se = e.data.lblTxrCache = new ja(e, { getKey: d, drawElement: m, getBoundingBox: O, getRotationPoint: X, getRotationOffset: oe, isVisible: C }), de = e.data.slbTxrCache = new ja(e, { getKey: g, drawElement: b, getBoundingBox: x, getRotationPoint: z, getRotationOffset: Z, isVisible: C }), we = e.data.tlbTxrCache = new ja(e, { getKey: y, drawElement: E, getBoundingBox: I, getRotationPoint: re, getRotationOffset: ie, isVisible: C }), Te = e.data.lyrTxrCache = new mu(e); e.onUpdateEleCalcs(function(ae, xe) { ge.invalidateElements(xe), se.invalidateElements(xe), de.invalidateElements(xe), we.invalidateElements(xe), Te.invalidateElements(xe); for (var Ce = 0; Ce < xe.length; Ce++) { var Oe = xe[Ce]._private; Oe.oldBackgroundTimestamp = Oe.backgroundTimestamp; } }); var Ee = function(ae) { for (var xe = 0; xe < ae.length; xe++) Te.enqueueElementRefinement(ae[xe].ele); }; ge.onDequeue(Ee), se.onDequeue(Ee), de.onDequeue(Ee), we.onDequeue(Ee); } ot.redrawHint = function(t, e) { var r = this; switch (t) { case "eles": r.data.canvasNeedsRedraw[ot.NODE] = e; break; case "drag": r.data.canvasNeedsRedraw[ot.DRAG] = e; break; case "select": r.data.canvasNeedsRedraw[ot.SELECT_BOX] = e; break; } }; var rp = typeof Path2D < "u"; ot.path2dEnabled = function(t) { if (t === void 0) return this.pathsEnabled; this.pathsEnabled = !!t; }, ot.usePaths = function() { return rp && this.pathsEnabled; }, ot.setImgSmoothing = function(t, e) { t.imageSmoothingEnabled != null ? 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( /******/ function() { return A.default; } ) : ( /******/ function() { return A; } ); return Y.d(T, "a", T), T; }, Y.o = function(A, T) { return Object.prototype.hasOwnProperty.call(A, T); }, Y.p = "", Y(Y.s = 26); }([ /* 0 */ /***/ function(Q, ce, Y) { function A() { } A.QUALITY = 1, A.DEFAULT_CREATE_BENDS_AS_NEEDED = !1, A.DEFAULT_INCREMENTAL = !1, A.DEFAULT_ANIMATION_ON_LAYOUT = !0, A.DEFAULT_ANIMATION_DURING_LAYOUT = !1, A.DEFAULT_ANIMATION_PERIOD = 50, A.DEFAULT_UNIFORM_LEAF_NODE_SIZES = !1, A.DEFAULT_GRAPH_MARGIN = 15, A.NODE_DIMENSIONS_INCLUDE_LABELS = !1, A.SIMPLE_NODE_SIZE = 40, A.SIMPLE_NODE_HALF_SIZE = A.SIMPLE_NODE_SIZE / 2, A.EMPTY_COMPOUND_NODE_SIZE = 40, A.MIN_EDGE_LENGTH = 1, A.WORLD_BOUNDARY = 1e6, A.INITIAL_WORLD_BOUNDARY = A.WORLD_BOUNDARY / 1e3, A.WORLD_CENTER_X = 1200, A.WORLD_CENTER_Y = 900, Q.exports = A; }, /* 1 */ /***/ function(Q, ce, Y) { var A = Y(2), T = Y(8), w = Y(9); function L(U, P, K) { A.call(this, K), this.isOverlapingSourceAndTarget = !1, this.vGraphObject = K, this.bendpoints = [], this.source = U, this.target = P; } L.prototype = Object.create(A.prototype); for (var G in A) L[G] = A[G]; L.prototype.getSource = function() { return this.source; }, L.prototype.getTarget = function() { return this.target; }, L.prototype.isInterGraph = function() { return this.isInterGraph; }, L.prototype.getLength = function() { return this.length; }, L.prototype.isOverlapingSourceAndTarget = function() { return this.isOverlapingSourceAndTarget; }, L.prototype.getBendpoints = function() { return this.bendpoints; }, L.prototype.getLca = function() { return this.lca; }, L.prototype.getSourceInLca = function() { return this.sourceInLca; }, L.prototype.getTargetInLca = function() { return this.targetInLca; }, L.prototype.getOtherEnd = function(U) { if (this.source === U) return this.target; if (this.target === U) return this.source; throw "Node is not incident with this edge"; }, L.prototype.getOtherEndInGraph = function(U, P) { for (var K = this.getOtherEnd(U), D = P.getGraphManager().getRoot(); ; ) { if (K.getOwner() == P) return K; if (K.getOwner() == D) break; K = K.getOwner().getParent(); } return null; }, L.prototype.updateLength = function() { var U = new Array(4); this.isOverlapingSourceAndTarget = T.getIntersection(this.target.getRect(), this.source.getRect(), U), this.isOverlapingSourceAndTarget || (this.lengthX = U[0] - U[2], this.lengthY = U[1] - U[3], Math.abs(this.lengthX) < 1 && (this.lengthX = w.sign(this.lengthX)), Math.abs(this.lengthY) < 1 && (this.lengthY = w.sign(this.lengthY)), this.length = Math.sqrt(this.lengthX * this.lengthX + this.lengthY * this.lengthY)); }, L.prototype.updateLengthSimple = function() { this.lengthX = this.target.getCenterX() - this.source.getCenterX(), this.lengthY = this.target.getCenterY() - this.source.getCenterY(), Math.abs(this.lengthX) < 1 && (this.lengthX = w.sign(this.lengthX)), Math.abs(this.lengthY) < 1 && (this.lengthY = w.sign(this.lengthY)), this.length = Math.sqrt(this.lengthX * this.lengthX + this.lengthY * this.lengthY); }, Q.exports = L; }, /* 2 */ /***/ function(Q, ce, Y) { function A(T) { this.vGraphObject = T; } Q.exports = A; }, /* 3 */ /***/ function(Q, ce, Y) { var A = Y(2), T = Y(10), w = Y(13), L = Y(0), G = Y(16), U = Y(4); function P(D, V, _, J) { _ == null && J == null && (J = V), A.call(this, J), D.graphManager != null && (D = D.graphManager), this.estimatedSize = T.MIN_VALUE, this.inclusionTreeDepth = T.MAX_VALUE, this.vGraphObject = J, this.edges = [], this.graphManager = D, _ != null && V != null ? this.rect = new w(V.x, V.y, _.width, _.height) : this.rect = new w(); } P.prototype = Object.create(A.prototype); for (var K in A) P[K] = A[K]; P.prototype.getEdges = function() { return this.edges; }, P.prototype.getChild = function() { return this.child; }, P.prototype.getOwner = function() { return this.owner; }, P.prototype.getWidth = function() { return this.rect.width; }, P.prototype.setWidth = function(D) { this.rect.width = D; }, P.prototype.getHeight = function() { return this.rect.height; }, P.prototype.setHeight = function(D) { this.rect.height = D; }, P.prototype.getCenterX = function() { return this.rect.x + this.rect.width / 2; }, P.prototype.getCenterY = function() { return this.rect.y + this.rect.height / 2; }, P.prototype.getCenter = function() { return new U(this.rect.x + this.rect.width / 2, this.rect.y + this.rect.height / 2); }, P.prototype.getLocation = function() { return new U(this.rect.x, this.rect.y); }, P.prototype.getRect = function() { return this.rect; }, P.prototype.getDiagonal = function() { return Math.sqrt(this.rect.width * this.rect.width + this.rect.height * this.rect.height); }, P.prototype.getHalfTheDiagonal = function() { return Math.sqrt(this.rect.height * this.rect.height + this.rect.width * this.rect.width) / 2; }, P.prototype.setRect = function(D, V) { this.rect.x = D.x, this.rect.y = D.y, this.rect.width = V.width, this.rect.height = V.height; }, P.prototype.setCenter = function(D, V) { this.rect.x = D - this.rect.width / 2, this.rect.y = V - this.rect.height / 2; }, P.prototype.setLocation = function(D, V) { this.rect.x = D, this.rect.y = V; }, P.prototype.moveBy = function(D, V) { this.rect.x += D, this.rect.y += V; }, P.prototype.getEdgeListToNode = function(D) { var V = [], _ = this; return _.edges.forEach(function(J) { if (J.target == D) { if (J.source != _) throw "Incorrect edge source!"; V.push(J); } }), V; }, P.prototype.getEdgesBetween = function(D) { var V = [], _ = this; return _.edges.forEach(function(J) { if (!(J.source == _ || J.target == _)) throw "Incorrect edge source and/or target"; (J.target == D || J.source == D) && V.push(J); }), V; }, P.prototype.getNeighborsList = function() { var D = /* @__PURE__ */ new Set(), V = this; return V.edges.forEach(function(_) { if (_.source == V) D.add(_.target); else { if (_.target != V) throw "Incorrect incidency!"; D.add(_.source); } }), D; }, P.prototype.withChildren = function() { var D = /* @__PURE__ */ new Set(), V, _; if (D.add(this), this.child != null) for (var J = this.child.getNodes(), ne = 0; ne < J.length; ne++) V = J[ne], _ = V.withChildren(), _.forEach(function(ue) { D.add(ue); }); return D; }, P.prototype.getNoOfChildren = function() { var D = 0, V; if (this.child == null) D = 1; else for (var _ = this.child.getNodes(), J = 0; J < _.length; J++) V = _[J], D += V.getNoOfChildren(); return D == 0 && (D = 1), D; }, P.prototype.getEstimatedSize = function() { if (this.estimatedSize == T.MIN_VALUE) throw "assert failed"; return this.estimatedSize; }, P.prototype.calcEstimatedSize = function() { return this.child == null ? this.estimatedSize = (this.rect.width + this.rect.height) / 2 : (this.estimatedSize = this.child.calcEstimatedSize(), this.rect.width = this.estimatedSize, this.rect.height = this.estimatedSize, this.estimatedSize); }, P.prototype.scatter = function() { var D, V, _ = -L.INITIAL_WORLD_BOUNDARY, J = L.INITIAL_WORLD_BOUNDARY; D = L.WORLD_CENTER_X + G.nextDouble() * (J - _) + _; var ne = -L.INITIAL_WORLD_BOUNDARY, ue = L.INITIAL_WORLD_BOUNDARY; V = L.WORLD_CENTER_Y + G.nextDouble() * (ue - ne) + ne, this.rect.x = D, this.rect.y = V; }, P.prototype.updateBounds = function() { if (this.getChild() == null) throw "assert failed"; if (this.getChild().getNodes().length != 0) { var D = this.getChild(); if (D.updateBounds(!0), this.rect.x = D.getLeft(), this.rect.y = D.getTop(), this.setWidth(D.getRight() - D.getLeft()), this.setHeight(D.getBottom() - D.getTop()), L.NODE_DIMENSIONS_INCLUDE_LABELS) { var V = D.getRight() - D.getLeft(), _ = D.getBottom() - D.getTop(); this.labelWidth > V && (this.rect.x -= (this.labelWidth - V) / 2, this.setWidth(this.labelWidth)), this.labelHeight > _ && (this.labelPos == "center" ? this.rect.y -= (this.labelHeight - _) / 2 : this.labelPos == "top" && (this.rect.y -= this.labelHeight - _), this.setHeight(this.labelHeight)); } } }, P.prototype.getInclusionTreeDepth = function() { if (this.inclusionTreeDepth == T.MAX_VALUE) throw "assert failed"; return this.inclusionTreeDepth; }, P.prototype.transform = function(D) { var V = this.rect.x; V > L.WORLD_BOUNDARY ? V = L.WORLD_BOUNDARY : V < -L.WORLD_BOUNDARY && (V = -L.WORLD_BOUNDARY); var _ = this.rect.y; _ > L.WORLD_BOUNDARY ? _ = L.WORLD_BOUNDARY : _ < -L.WORLD_BOUNDARY && (_ = -L.WORLD_BOUNDARY); var J = new U(V, _), ne = D.inverseTransformPoint(J); this.setLocation(ne.x, ne.y); }, P.prototype.getLeft = function() { return this.rect.x; }, P.prototype.getRight = function() { return this.rect.x + this.rect.width; }, P.prototype.getTop = function() { return this.rect.y; }, P.prototype.getBottom = function() { return this.rect.y + this.rect.height; }, P.prototype.getParent = function() { return this.owner == null ? null : this.owner.getParent(); }, Q.exports = P; }, /* 4 */ /***/ function(Q, ce, Y) { function A(T, w) { T == null && w == null ? (this.x = 0, this.y = 0) : (this.x = T, this.y = w); } A.prototype.getX = function() { return this.x; }, A.prototype.getY = function() { return this.y; }, A.prototype.setX = function(T) { this.x = T; }, A.prototype.setY = function(T) { this.y = T; }, A.prototype.getDifference = function(T) { return new DimensionD(this.x - T.x, this.y - T.y); }, A.prototype.getCopy = function() { return new A(this.x, this.y); }, A.prototype.translate = function(T) { return this.x += T.width, this.y += T.height, this; }, Q.exports = A; }, /* 5 */ /***/ function(Q, ce, Y) { var A = Y(2), T = Y(10), w = Y(0), L = Y(6), G = Y(3), U = Y(1), P = Y(13), K = Y(12), D = Y(11); function V(J, ne, ue) { A.call(this, ue), this.estimatedSize = T.MIN_VALUE, this.margin = w.DEFAULT_GRAPH_MARGIN, this.edges = [], this.nodes = [], this.isConnected = !1, this.parent = J, ne != null && ne instanceof L ? this.graphManager = ne : ne != null && ne instanceof Layout && (this.graphManager = ne.graphManager); } V.prototype = Object.create(A.prototype); for (var _ in A) V[_] = A[_]; V.prototype.getNodes = function() { return this.nodes; }, V.prototype.getEdges = function() { return this.edges; }, V.prototype.getGraphManager = function() { return this.graphManager; }, V.prototype.getParent = function() { return this.parent; }, V.prototype.getLeft = function() { return this.left; }, V.prototype.getRight = function() { return this.right; }, V.prototype.getTop = function() { return this.top; }, V.prototype.getBottom = function() { return this.bottom; }, V.prototype.isConnected = function() { return this.isConnected; }, V.prototype.add = function(J, ne, ue) { if (ne == null && ue == null) { var j = J; if (this.graphManager == null) throw "Graph has no graph mgr!"; if (this.getNodes().indexOf(j) > -1) throw "Node already in graph!"; return j.owner = this, this.getNodes().push(j), j; } else { var ee = J; if (!(this.getNodes().indexOf(ne) > -1 && this.getNodes().indexOf(ue) > -1)) throw "Source or target not in graph!"; if (!(ne.owner == ue.owner && ne.owner == this)) throw "Both owners must be this graph!"; return ne.owner != ue.owner ? null : (ee.source = ne, ee.target = ue, ee.isInterGraph = !1, this.getEdges().push(ee), ne.edges.push(ee), ue != ne && ue.edges.push(ee), ee); } }, V.prototype.remove = function(J) { var ne = J; if (J instanceof G) { if (ne == null) throw "Node is null!"; if (!(ne.owner != null && ne.owner == this)) throw "Owner graph is invalid!"; if (this.graphManager == null) throw "Owner graph manager is invalid!"; for (var ue = ne.edges.slice(), j, ee = ue.length, H = 0; H < ee; H++) j = ue[H], j.isInterGraph ? this.graphManager.remove(j) : j.source.owner.remove(j); var te = this.nodes.indexOf(ne); if (te == -1) throw "Node not in owner node list!"; this.nodes.splice(te, 1); } else if (J instanceof U) { var j = J; if (j == null) throw "Edge is null!"; if (!(j.source != null && j.target != null)) throw "Source and/or target is null!"; if (!(j.source.owner != null && j.target.owner != null && j.source.owner == this && j.target.owner == this)) throw "Source and/or target owner is invalid!"; var S = j.source.edges.indexOf(j), $ = j.target.edges.indexOf(j); if (!(S > -1 && $ > -1)) throw "Source and/or target doesn't know this edge!"; j.source.edges.splice(S, 1), j.target != j.source && j.target.edges.splice($, 1); var te = j.source.owner.getEdges().indexOf(j); if (te == -1) throw "Not in owner's edge list!"; j.source.owner.getEdges().splice(te, 1); } }, V.prototype.updateLeftTop = function() { for (var J = T.MAX_VALUE, ne = T.MAX_VALUE, ue, j, ee, H = this.getNodes(), te = H.length, S = 0; S < te; S++) { var $ = H[S]; ue = $.getTop(), j = $.getLeft(), J > ue && (J = ue), ne > j && (ne = j); } return J == T.MAX_VALUE ? null : (H[0].getParent().paddingLeft != null ? ee = H[0].getParent().paddingLeft : ee = this.margin, this.left = ne - ee, this.top = J - ee, new K(this.left, this.top)); }, V.prototype.updateBounds = function(J) { for (var ne = T.MAX_VALUE, ue = -T.MAX_VALUE, j = T.MAX_VALUE, ee = -T.MAX_VALUE, H, te, S, $, k, q = this.nodes, ve = q.length, pe = 0; pe < ve; pe++) { var Ae = q[pe]; J && Ae.child != null && Ae.updateBounds(), H = Ae.getLeft(), te = Ae.getRight(), S = Ae.getTop(), $ = Ae.getBottom(), ne > H && (ne = H), ue < te && (ue = te), j > S && (j = S), ee < $ && (ee = $); } var Ne = new P(ne, j, ue - ne, ee - j); ne == T.MAX_VALUE && (this.left = this.parent.getLeft(), this.right = this.parent.getRight(), this.top = this.parent.getTop(), this.bottom = this.parent.getBottom()), q[0].getParent().paddingLeft != null ? k = q[0].getParent().paddingLeft : k = this.margin, this.left = Ne.x - k, this.right = Ne.x + Ne.width + k, this.top = Ne.y - k, this.bottom = Ne.y + Ne.height + k; }, V.calculateBounds = function(J) { for (var ne = T.MAX_VALUE, ue = -T.MAX_VALUE, j = T.MAX_VALUE, ee = -T.MAX_VALUE, H, te, S, $, k = J.length, q = 0; q < k; q++) { var ve = J[q]; H = ve.getLeft(), te = ve.getRight(), S = ve.getTop(), $ = ve.getBottom(), ne > H && (ne = H), ue < te && (ue = te), j > S && (j = S), ee < $ && (ee = $); } var pe = new P(ne, j, ue - ne, ee - j); return pe; }, V.prototype.getInclusionTreeDepth = function() { return this == this.graphManager.getRoot() ? 1 : this.parent.getInclusionTreeDepth(); }, V.prototype.getEstimatedSize = function() { if (this.estimatedSize == T.MIN_VALUE) throw "assert failed"; return this.estimatedSize; }, V.prototype.calcEstimatedSize = function() { for (var J = 0, ne = this.nodes, ue = ne.length, j = 0; j < ue; j++) { var ee = ne[j]; J += ee.calcEstimatedSize(); } return J == 0 ? this.estimatedSize = w.EMPTY_COMPOUND_NODE_SIZE : this.estimatedSize = J / Math.sqrt(this.nodes.length), this.estimatedSize; }, V.prototype.updateConnected = function() { var J = this; if (this.nodes.length == 0) { this.isConnected = !0; return; } var ne = new D(), ue = /* @__PURE__ */ new Set(), j = this.nodes[0], ee, H, te = j.withChildren(); for (te.forEach(function(pe) { ne.push(pe), ue.add(pe); }); ne.length !== 0; ) { j = ne.shift(), ee = j.getEdges(); for (var S = ee.length, $ = 0; $ < S; $++) { var k = ee[$]; if (H = k.getOtherEndInGraph(j, this), H != null && !ue.has(H)) { var q = H.withChildren(); q.forEach(function(pe) { ne.push(pe), ue.add(pe); }); } } } if (this.isConnected = !1, ue.size >= this.nodes.length) { var ve = 0; ue.forEach(function(pe) { pe.owner == J && ve++; }), ve == this.nodes.length && (this.isConnected = !0); } }, Q.exports = V; }, /* 6 */ /***/ function(Q, ce, Y) { var A, T = Y(1); function w(L) { A = Y(5), this.layout = L, this.graphs = [], this.edges = []; } w.prototype.addRoot = function() { var L = this.layout.newGraph(), G = this.layout.newNode(null), U = this.add(L, G); return this.setRootGraph(U), this.rootGraph; }, w.prototype.add = function(L, G, U, P, K) { if (U == null && P == null && K == null) { if (L == null) throw "Graph is null!"; if (G == null) throw "Parent node is null!"; if (this.graphs.indexOf(L) > -1) throw "Graph already in this graph mgr!"; if (this.graphs.push(L), L.parent != null) throw "Already has a parent!"; if (G.child != null) throw "Already has a child!"; return L.parent = G, G.child = L, L; } else { K = U, P = G, U = L; var D = P.getOwner(), V = K.getOwner(); if (!(D != null && D.getGraphManager() == this)) throw "Source not in this graph mgr!"; if (!(V != null && V.getGraphManager() == this)) throw "Target not in this graph mgr!"; if (D == V) return U.isInterGraph = !1, D.add(U, P, K); if (U.isInterGraph = !0, U.source = P, U.target = K, this.edges.indexOf(U) > -1) throw "Edge already in inter-graph edge list!"; if (this.edges.push(U), !(U.source != null && U.target != null)) throw "Edge source and/or target is null!"; if (!(U.source.edges.indexOf(U) == -1 && U.target.edges.indexOf(U) == -1)) throw "Edge already in source and/or target incidency list!"; return U.source.edges.push(U), U.target.edges.push(U), U; } }, w.prototype.remove = function(L) { if (L instanceof A) { var G = L; if (G.getGraphManager() != this) throw "Graph not in this graph mgr"; if (!(G == this.rootGraph || G.parent != null && G.parent.graphManager == this)) throw "Invalid parent node!"; var U = []; U = U.concat(G.getEdges()); for (var P, K = U.length, D = 0; D < K; D++) P = U[D], G.remove(P); var V = []; V = V.concat(G.getNodes()); var _; K = V.length; for (var D = 0; D < K; D++) _ = V[D], G.remove(_); G == this.rootGraph && this.setRootGraph(null); var J = this.graphs.indexOf(G); this.graphs.splice(J, 1), G.parent = null; } else if (L instanceof T) { if (P = L, P == null) throw "Edge is null!"; if (!P.isInterGraph) throw "Not an inter-graph edge!"; if (!(P.source != null && P.target != null)) throw "Source and/or target is null!"; if (!(P.source.edges.indexOf(P) != -1 && P.target.edges.indexOf(P) != -1)) throw "Source and/or target doesn't know this edge!"; var J = P.source.edges.indexOf(P); if (P.source.edges.splice(J, 1), J = P.target.edges.indexOf(P), P.target.edges.splice(J, 1), !(P.source.owner != null && P.source.owner.getGraphManager() != null)) throw "Edge owner graph or owner graph manager is null!"; if (P.source.owner.getGraphManager().edges.indexOf(P) == -1) throw "Not in owner graph manager's edge list!"; var J = P.source.owner.getGraphManager().edges.indexOf(P); P.source.owner.getGraphManager().edges.splice(J, 1); } }, w.prototype.updateBounds = function() { this.rootGraph.updateBounds(!0); }, w.prototype.getGraphs = function() { return this.graphs; }, w.prototype.getAllNodes = function() { if (this.allNodes == null) { for (var L = [], G = this.getGraphs(), U = G.length, P = 0; P < U; P++) L = L.concat(G[P].getNodes()); this.allNodes = L; } return this.allNodes; }, w.prototype.resetAllNodes = function() { this.allNodes = null; }, w.prototype.resetAllEdges = function() { this.allEdges = null; }, w.prototype.resetAllNodesToApplyGravitation = function() { this.allNodesToApplyGravitation = null; }, w.prototype.getAllEdges = function() { if (this.allEdges == null) { var L = [], G = this.getGraphs(); G.length; for (var U = 0; U < G.length; U++) L = L.concat(G[U].getEdges()); L = L.concat(this.edges), this.allEdges = L; } return this.allEdges; }, w.prototype.getAllNodesToApplyGravitation = function() { return this.allNodesToApplyGravitation; }, w.prototype.setAllNodesToApplyGravitation = function(L) { if (this.allNodesToApplyGravitation != null) throw "assert failed"; this.allNodesToApplyGravitation = L; }, w.prototype.getRoot = function() { return this.rootGraph; }, w.prototype.setRootGraph = function(L) { if (L.getGraphManager() != this) throw "Root not in this graph mgr!"; this.rootGraph = L, L.parent == null && (L.parent = this.layout.newNode("Root node")); }, w.prototype.getLayout = function() { return this.layout; }, w.prototype.isOneAncestorOfOther = function(L, G) { if (!(L != null && G != null)) throw "assert failed"; if (L == G) return !0; var U = L.getOwner(), P; do { if (P = U.getParent(), P == null) break; if (P == G) return !0; if (U = P.getOwner(), U == null) break; } while (!0); U = G.getOwner(); do { if (P = U.getParent(), P == null) break; if (P == L) return !0; if (U = P.getOwner(), U == null) break; } while (!0); return !1; }, w.prototype.calcLowestCommonAncestors = function() { for (var L, G, U, P, K, D = this.getAllEdges(), V = D.length, _ = 0; _ < V; _++) { if (L = D[_], G = L.source, U = L.target, L.lca = null, L.sourceInLca = G, L.targetInLca = U, G == U) { L.lca = G.getOwner(); continue; } for (P = G.getOwner(); L.lca == null; ) { for (L.targetInLca = U, K = U.getOwner(); L.lca == null; ) { if (K == P) { L.lca = K; break; } if (K == this.rootGraph) break; if (L.lca != null) throw "assert failed"; L.targetInLca = K.getParent(), K = L.targetInLca.getOwner(); } if (P == this.rootGraph) break; L.lca == null && (L.sourceInLca = P.getParent(), P = L.sourceInLca.getOwner()); } if (L.lca == null) throw "assert failed"; } }, w.prototype.calcLowestCommonAncestor = function(L, G) { if (L == G) return L.getOwner(); var U = L.getOwner(); do { if (U == null) break; var P = G.getOwner(); do { if (P == null) break; if (P == U) return P; P = P.getParent().getOwner(); } while (!0); U = U.getParent().getOwner(); } while (!0); return U; }, w.prototype.calcInclusionTreeDepths = function(L, G) { L == null && G == null && (L = this.rootGraph, G = 1); for (var U, P = L.getNodes(), K = P.length, D = 0; D < K; D++) U = P[D], U.inclusionTreeDepth = G, U.child != null && this.calcInclusionTreeDepths(U.child, G + 1); }, w.prototype.includesInvalidEdge = function() { for (var L, G = this.edges.length, U = 0; U < G; U++) if (L = this.edges[U], this.isOneAncestorOfOther(L.source, L.target)) return !0; return !1; }, Q.exports = w; }, /* 7 */ /***/ function(Q, ce, Y) { var A = Y(0); function T() { } for (var w in A) T[w] = A[w]; T.MAX_ITERATIONS = 2500, T.DEFAULT_EDGE_LENGTH = 50, T.DEFAULT_SPRING_STRENGTH = 0.45, T.DEFAULT_REPULSION_STRENGTH = 4500, T.DEFAULT_GRAVITY_STRENGTH = 0.4, T.DEFAULT_COMPOUND_GRAVITY_STRENGTH = 1, T.DEFAULT_GRAVITY_RANGE_FACTOR = 3.8, T.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR = 1.5, T.DEFAULT_USE_SMART_IDEAL_EDGE_LENGTH_CALCULATION = !0, T.DEFAULT_USE_SMART_REPULSION_RANGE_CALCULATION = !0, T.DEFAULT_COOLING_FACTOR_INCREMENTAL = 0.3, T.COOLING_ADAPTATION_FACTOR = 0.33, T.ADAPTATION_LOWER_NODE_LIMIT = 1e3, T.ADAPTATION_UPPER_NODE_LIMIT = 5e3, T.MAX_NODE_DISPLACEMENT_INCREMENTAL = 100, T.MAX_NODE_DISPLACEMENT = T.MAX_NODE_DISPLACEMENT_INCREMENTAL * 3, T.MIN_REPULSION_DIST = T.DEFAULT_EDGE_LENGTH / 10, T.CONVERGENCE_CHECK_PERIOD = 100, T.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR = 0.1, T.MIN_EDGE_LENGTH = 1, T.GRID_CALCULATION_CHECK_PERIOD = 10, Q.exports = T; }, /* 8 */ /***/ function(Q, ce, Y) { var A = Y(12); function T() { } T.calcSeparationAmount = function(w, L, G, U) { if (!w.intersects(L)) throw "assert failed"; var P = new Array(2); this.decideDirectionsForOverlappingNodes(w, L, P), G[0] = Math.min(w.getRight(), L.getRight()) - Math.max(w.x, L.x), G[1] = Math.min(w.getBottom(), L.getBottom()) - Math.max(w.y, L.y), w.getX() <= L.getX() && w.getRight() >= L.getRight() ? G[0] += Math.min(L.getX() - w.getX(), w.getRight() - L.getRight()) : L.getX() <= w.getX() && L.getRight() >= w.getRight() && (G[0] += Math.min(w.getX() - L.getX(), L.getRight() - w.getRight())), w.getY() <= L.getY() && w.getBottom() >= L.getBottom() ? G[1] += Math.min(L.getY() - w.getY(), w.getBottom() - L.getBottom()) : L.getY() <= w.getY() && L.getBottom() >= w.getBottom() && (G[1] += Math.min(w.getY() - L.getY(), L.getBottom() - w.getBottom())); var K = Math.abs((L.getCenterY() - w.getCenterY()) / (L.getCenterX() - w.getCenterX())); L.getCenterY() === w.getCenterY() && L.getCenterX() === w.getCenterX() && (K = 1); var D = K * G[0], V = G[1] / K; G[0] < V ? V = G[0] : D = G[1], G[0] = -1 * P[0] * (V / 2 + U), G[1] = -1 * P[1] * (D / 2 + U); }, T.decideDirectionsForOverlappingNodes = function(w, L, G) { w.getCenterX() < L.getCenterX() ? G[0] = -1 : G[0] = 1, w.getCenterY() < L.getCenterY() ? G[1] = -1 : G[1] = 1; }, T.getIntersection2 = function(w, L, G) { var U = w.getCenterX(), P = w.getCenterY(), K = L.getCenterX(), D = L.getCenterY(); if (w.intersects(L)) return G[0] = U, G[1] = P, G[2] = K, G[3] = D, !0; var V = w.getX(), _ = w.getY(), J = w.getRight(), ne = w.getX(), ue = w.getBottom(), j = w.getRight(), ee = w.getWidthHalf(), H = w.getHeightHalf(), te = L.getX(), S = L.getY(), $ = L.getRight(), k = L.getX(), q = L.getBottom(), ve = L.getRight(), pe = L.getWidthHalf(), Ae = L.getHeightHalf(), Ne = !1, _e = !1; if (U === K) { if (P > D) return G[0] = U, G[1] = _, G[2] = K, G[3] = q, !1; if (P < D) return G[0] = U, G[1] = ue, G[2] = K, G[3] = S, !1; } else if (P === D) { if (U > K) return G[0] = V, G[1] = P, G[2] = $, G[3] = D, !1; if (U < K) return G[0] = J, G[1] = P, G[2] = te, G[3] = D, !1; } else { var tt = w.height / w.width, ct = L.height / L.width, Pe = (D - P) / (K - U), $e = void 0, Xe = void 0, rt = void 0, lt = void 0, nt = void 0, je = void 0; if (-tt === Pe ? U > K ? (G[0] = ne, G[1] = ue, Ne = !0) : (G[0] = J, G[1] = _, Ne = !0) : tt === Pe && (U > K ? (G[0] = V, G[1] = _, Ne = !0) : (G[0] = j, G[1] = ue, Ne = !0)), -ct === Pe ? K > U ? (G[2] = k, G[3] = q, _e = !0) : (G[2] = $, G[3] = S, _e = !0) : ct === Pe && (K > U ? (G[2] = te, G[3] = S, _e = !0) : (G[2] = ve, G[3] = q, _e = !0)), Ne && _e) return !1; if (U > K ? P > D ? ($e = this.getCardinalDirection(tt, Pe, 4), Xe = this.getCardinalDirection(ct, Pe, 2)) : ($e = this.getCardinalDirection(-tt, Pe, 3), Xe = this.getCardinalDirection(-ct, Pe, 1)) : P > D ? ($e = this.getCardinalDirection(-tt, Pe, 1), Xe = this.getCardinalDirection(-ct, Pe, 3)) : ($e = this.getCardinalDirection(tt, Pe, 2), Xe = this.getCardinalDirection(ct, Pe, 4)), !Ne) switch ($e) { case 1: lt = _, rt = U + -H / Pe, G[0] = rt, G[1] = lt; break; case 2: rt = j, lt = P + ee * Pe, G[0] = rt, G[1] = lt; break; case 3: lt = ue, rt = U + H / Pe, G[0] = rt, G[1] = lt; break; case 4: rt = ne, lt = P + -ee * Pe, G[0] = rt, G[1] = lt; break; } if (!_e) switch (Xe) { case 1: je = S, nt = K + -Ae / Pe, G[2] = nt, G[3] = je; break; case 2: nt = ve, je = D + pe * Pe, G[2] = nt, G[3] = je; break; case 3: je = q, nt = K + Ae / Pe, G[2] = nt, G[3] = je; break; case 4: nt = k, je = D + -pe * Pe, G[2] = nt, G[3] = je; break; } } return !1; }, T.getCardinalDirection = function(w, L, G) { return w > L ? G : 1 + G % 4; }, T.getIntersection = function(w, L, G, U) { if (U == null) return this.getIntersection2(w, L, G); var P = w.x, K = w.y, D = L.x, V = L.y, _ = G.x, J = G.y, ne = U.x, ue = U.y, j = void 0, ee = void 0, H = void 0, te = void 0, S = void 0, $ = void 0, k = void 0, q = void 0, ve = void 0; return H = V - K, S = P - D, k = D * K - P * V, te = ue - J, $ = _ - ne, q = ne * J - _ * ue, ve = H * $ - te * S, ve === 0 ? null : (j = (S * q - $ * k) / ve, ee = (te * k - H * q) / ve, new A(j, ee)); }, T.angleOfVector = function(w, L, G, U) { var P = void 0; return w !== G ? (P = Math.atan((U - L) / (G - w)), G < w ? P += Math.PI : U < L && (P += this.TWO_PI)) : U < L ? P = this.ONE_AND_HALF_PI : P = this.HALF_PI, P; }, T.doIntersect = function(w, L, G, U) { var P = w.x, K = w.y, D = L.x, V = L.y, _ = G.x, J = G.y, ne = U.x, ue = U.y, j = (D - P) * (ue - J) - (ne - _) * (V - K); if (j === 0) return !1; var ee = ((ue - J) * (ne - P) + (_ - ne) * (ue - K)) / j, H = ((K - V) * (ne - P) + (D - P) * (ue - K)) / j; return 0 < ee && ee < 1 && 0 < H && H < 1; }, T.HALF_PI = 0.5 * Math.PI, T.ONE_AND_HALF_PI = 1.5 * Math.PI, T.TWO_PI = 2 * Math.PI, T.THREE_PI = 3 * Math.PI, Q.exports = T; }, /* 9 */ /***/ function(Q, ce, Y) { function A() { } A.sign = function(T) { return T > 0 ? 1 : T < 0 ? -1 : 0; }, A.floor = function(T) { return T < 0 ? Math.ceil(T) : Math.floor(T); }, A.ceil = function(T) { return T < 0 ? Math.floor(T) : Math.ceil(T); }, Q.exports = A; }, /* 10 */ /***/ function(Q, ce, Y) { function A() { } A.MAX_VALUE = 2147483647, A.MIN_VALUE = -2147483648, Q.exports = A; }, /* 11 */ /***/ function(Q, ce, Y) { var A = function() { function P(K, D) { for (var V = 0; V < D.length; V++) { var _ = D[V]; _.enumerable = _.enumerable || !1, _.configurable = !0, "value" in _ && (_.writable = !0), Object.defineProperty(K, _.key, _); } } return function(K, D, V) { return D && P(K.prototype, D), V && P(K, V), K; }; }(); function T(P, K) { if (!(P instanceof K)) throw new TypeError("Cannot call a class as a function"); } var w = function(K) { return { value: K, next: null, prev: null }; }, L = function(K, D, V, _) { return K !== null ? K.next = D : _.head = D, V !== null ? V.prev = D : _.tail = D, D.prev = K, D.next = V, _.length++, D; }, G = function(K, D) { var V = K.prev, _ = K.next; return V !== null ? V.next = _ : D.head = _, _ !== null ? _.prev = V : D.tail = V, K.prev = K.next = null, D.length--, K; }, U = function() { function P(K) { var D = this; T(this, P), this.length = 0, this.head = null, this.tail = null, K != null && K.forEach(function(V) { return D.push(V); }); } return A(P, [{ key: "size", value: function() { return this.length; } }, { key: "insertBefore", value: function(D, V) { return L(V.prev, w(D), V, this); } }, { key: "insertAfter", value: function(D, V) { return L(V, w(D), V.next, this); } }, { key: "insertNodeBefore", value: function(D, V) { return L(V.prev, D, V, this); } }, { key: "insertNodeAfter", value: function(D, V) { return L(V, D, V.next, this); } }, { key: "push", value: function(D) { return L(this.tail, w(D), null, this); } }, { key: "unshift", value: function(D) { return L(null, w(D), this.head, this); } }, { key: "remove", value: function(D) { return G(D, this); } }, { key: "pop", value: function() { return G(this.tail, this).value; } }, { key: "popNode", value: function() { return G(this.tail, this); } }, { key: "shift", value: function() { return G(this.head, this).value; } }, { key: "shiftNode", value: function() { return G(this.head, this); } }, { key: "get_object_at", value: function(D) { if (D <= this.length()) { for (var V = 1, _ = this.head; V < D; ) _ = _.next, V++; return _.value; } } }, { key: "set_object_at", value: function(D, V) { if (D <= this.length()) { for (var _ = 1, J = this.head; _ < D; ) J = J.next, _++; J.value = V; } } }]), P; }(); Q.exports = U; }, /* 12 */ /***/ function(Q, ce, Y) { function A(T, w, L) { this.x = null, this.y = null, T == null && w == null && L == null ? (this.x = 0, this.y = 0) : typeof T == "number" && typeof w == "number" && L == null ? (this.x = T, this.y = w) : T.constructor.name == "Point" && w == null && L == null && (L = T, this.x = L.x, this.y = L.y); } A.prototype.getX = function() { return this.x; }, A.prototype.getY = function() { return this.y; }, A.prototype.getLocation = function() { return new A(this.x, this.y); }, A.prototype.setLocation = function(T, w, L) { T.constructor.name == "Point" && w == null && L == null ? (L = T, this.setLocation(L.x, L.y)) : typeof T == "number" && typeof w == "number" && L == null && (parseInt(T) == T && parseInt(w) == w ? this.move(T, w) : (this.x = Math.floor(T + 0.5), this.y = Math.floor(w + 0.5))); }, A.prototype.move = function(T, w) { this.x = T, this.y = w; }, A.prototype.translate = function(T, w) { this.x += T, this.y += w; }, A.prototype.equals = function(T) { if (T.constructor.name == "Point") { var w = T; return this.x == w.x && this.y == w.y; } return this == T; }, A.prototype.toString = function() { return new A().constructor.name + "[x=" + this.x + ",y=" + this.y + "]"; }, Q.exports = A; }, /* 13 */ /***/ function(Q, ce, Y) { function A(T, w, L, G) { this.x = 0, this.y = 0, this.width = 0, this.height = 0, T != null && w != null && L != null && G != null && (this.x = T, this.y = w, this.width = L, this.height = G); } A.prototype.getX = function() { return this.x; }, A.prototype.setX = function(T) { this.x = T; }, A.prototype.getY = function() { return this.y; }, A.prototype.setY = function(T) { this.y = T; }, A.prototype.getWidth = function() { return this.width; }, A.prototype.setWidth = function(T) { this.width = T; }, A.prototype.getHeight = function() { return this.height; }, A.prototype.setHeight = function(T) { this.height = T; }, A.prototype.getRight = function() { return this.x + this.width; }, A.prototype.getBottom = function() { return this.y + this.height; }, A.prototype.intersects = function(T) { return !(this.getRight() < T.x || this.getBottom() < T.y || T.getRight() < this.x || T.getBottom() < this.y); }, A.prototype.getCenterX = function() { return this.x + this.width / 2; }, A.prototype.getMinX = function() { return this.getX(); }, A.prototype.getMaxX = function() { return this.getX() + this.width; }, A.prototype.getCenterY = function() { return this.y + this.height / 2; }, A.prototype.getMinY = function() { return this.getY(); }, A.prototype.getMaxY = function() { return this.getY() + this.height; }, A.prototype.getWidthHalf = function() { return this.width / 2; }, A.prototype.getHeightHalf = function() { return this.height / 2; }, Q.exports = A; }, /* 14 */ /***/ function(Q, ce, Y) { var A = typeof Symbol == "function" && typeof Symbol.iterator == "symbol" ? function(w) { return typeof w; } : function(w) { return w && typeof Symbol == "function" && w.constructor === Symbol && w !== Symbol.prototype ? "symbol" : typeof w; }; function T() { } T.lastID = 0, T.createID = function(w) { return T.isPrimitive(w) ? w : (w.uniqueID != null || (w.uniqueID = T.getString(), T.lastID++), w.uniqueID); }, T.getString = function(w) { return w == null && (w = T.lastID), "Object#" + w; }, T.isPrimitive = function(w) { var L = typeof w > "u" ? "undefined" : A(w); return w == null || L != "object" && L != "function"; }, Q.exports = T; }, /* 15 */ /***/ function(Q, ce, Y) { function A(_) { if (Array.isArray(_)) { for (var J = 0, ne = Array(_.length); J < _.length; J++) ne[J] = _[J]; return ne; } else return Array.from(_); } var T = Y(0), w = Y(6), L = Y(3), G = Y(1), U = Y(5), P = Y(4), K = Y(17), D = Y(27); function V(_) { D.call(this), this.layoutQuality = T.QUALITY, this.createBendsAsNeeded = T.DEFAULT_CREATE_BENDS_AS_NEEDED, this.incremental = T.DEFAULT_INCREMENTAL, this.animationOnLayout = T.DEFAULT_ANIMATION_ON_LAYOUT, this.animationDuringLayout = T.DEFAULT_ANIMATION_DURING_LAYOUT, this.animationPeriod = T.DEFAULT_ANIMATION_PERIOD, this.uniformLeafNodeSizes = T.DEFAULT_UNIFORM_LEAF_NODE_SIZES, this.edgeToDummyNodes = /* @__PURE__ */ new Map(), this.graphManager = new w(this), this.isLayoutFinished = !1, this.isSubLayout = !1, this.isRemoteUse = !1, _ != null && (this.isRemoteUse = _); } V.RANDOM_SEED = 1, V.prototype = Object.create(D.prototype), V.prototype.getGraphManager = function() { return this.graphManager; }, V.prototype.getAllNodes = function() { return this.graphManager.getAllNodes(); }, V.prototype.getAllEdges = function() { return this.graphManager.getAllEdges(); }, V.prototype.getAllNodesToApplyGravitation = function() { return this.graphManager.getAllNodesToApplyGravitation(); }, V.prototype.newGraphManager = function() { var _ = new w(this); return this.graphManager = _, _; }, V.prototype.newGraph = function(_) { return new U(null, this.graphManager, _); }, V.prototype.newNode = function(_) { return new L(this.graphManager, _); }, V.prototype.newEdge = function(_) { return new G(null, null, _); }, V.prototype.checkLayoutSuccess = function() { return this.graphManager.getRoot() == null || this.graphManager.getRoot().getNodes().length == 0 || this.graphManager.includesInvalidEdge(); }, V.prototype.runLayout = function() { this.isLayoutFinished = !1, this.tilingPreLayout && this.tilingPreLayout(), this.initParameters(); var _; return this.checkLayoutSuccess() ? _ = !1 : _ = this.layout(), T.ANIMATE === "during" ? !1 : (_ && (this.isSubLayout || this.doPostLayout()), this.tilingPostLayout && this.tilingPostLayout(), this.isLayoutFinished = !0, _); }, V.prototype.doPostLayout = function() { this.incremental || this.transform(), this.update(); }, V.prototype.update2 = function() { if (this.createBendsAsNeeded && (this.createBendpointsFromDummyNodes(), this.graphManager.resetAllEdges()), !this.isRemoteUse) { for (var _ = this.graphManager.getAllEdges(), J = 0; J < _.length; J++) _[J]; for (var ne = this.graphManager.getRoot().getNodes(), J = 0; J < ne.length; J++) ne[J]; this.update(this.graphManager.getRoot()); } }, V.prototype.update = function(_) { if (_ == null) this.update2(); else if (_ instanceof L) { var J = _; if (J.getChild() != null) for (var ne = J.getChild().getNodes(), ue = 0; ue < ne.length; ue++) update(ne[ue]); if (J.vGraphObject != null) { var j = J.vGraphObject; j.update(J); } } else if (_ instanceof G) { var ee = _; if (ee.vGraphObject != null) { var H = ee.vGraphObject; H.update(ee); } } else if (_ instanceof U) { var te = _; if (te.vGraphObject != null) { var S = te.vGraphObject; S.update(te); } } }, V.prototype.initParameters = function() { this.isSubLayout || (this.layoutQuality = T.QUALITY, this.animationDuringLayout = T.DEFAULT_ANIMATION_DURING_LAYOUT, this.animationPeriod = T.DEFAULT_ANIMATION_PERIOD, this.animationOnLayout = T.DEFAULT_ANIMATION_ON_LAYOUT, this.incremental = T.DEFAULT_INCREMENTAL, this.createBendsAsNeeded = T.DEFAULT_CREATE_BENDS_AS_NEEDED, this.uniformLeafNodeSizes = T.DEFAULT_UNIFORM_LEAF_NODE_SIZES), this.animationDuringLayout && (this.animationOnLayout = !1); }, V.prototype.transform = function(_) { if (_ == null) this.transform(new P(0, 0)); else { var J = new K(), ne = this.graphManager.getRoot().updateLeftTop(); if (ne != null) { J.setWorldOrgX(_.x), J.setWorldOrgY(_.y), J.setDeviceOrgX(ne.x), J.setDeviceOrgY(ne.y); for (var ue = this.getAllNodes(), j, ee = 0; ee < ue.length; ee++) j = ue[ee], j.transform(J); } } }, V.prototype.positionNodesRandomly = function(_) { if (_ == null) this.positionNodesRandomly(this.getGraphManager().getRoot()), this.getGraphManager().getRoot().updateBounds(!0); else for (var J, ne, ue = _.getNodes(), j = 0; j < ue.length; j++) J = ue[j], ne = J.getChild(), ne == null || ne.getNodes().length == 0 ? J.scatter() : (this.positionNodesRandomly(ne), J.updateBounds()); }, V.prototype.getFlatForest = function() { for (var _ = [], J = !0, ne = this.graphManager.getRoot().getNodes(), ue = !0, j = 0; j < ne.length; j++) ne[j].getChild() != null && (ue = !1); if (!ue) return _; var ee = /* @__PURE__ */ new Set(), H = [], te = /* @__PURE__ */ new Map(), S = []; for (S = S.concat(ne); S.length > 0 && J; ) { for (H.push(S[0]); H.length > 0 && J; ) { var $ = H[0]; H.splice(0, 1), ee.add($); for (var k = $.getEdges(), j = 0; j < k.length; j++) { var q = k[j].getOtherEnd($); if (te.get($) != q) if (!ee.has(q)) H.push(q), te.set(q, $); else { J = !1; break; } } } if (!J) _ = []; else { var ve = [].concat(A(ee)); _.push(ve); for (var j = 0; j < ve.length; j++) { var pe = ve[j], Ae = S.indexOf(pe); Ae > -1 && S.splice(Ae, 1); } ee = /* @__PURE__ */ new Set(), te = /* @__PURE__ */ new Map(); } } return _; }, V.prototype.createDummyNodesForBendpoints = function(_) { for (var J = [], ne = _.source, ue = this.graphManager.calcLowestCommonAncestor(_.source, _.target), j = 0; j < _.bendpoints.length; j++) { var ee = this.newNode(null); ee.setRect(new Point(0, 0), new Dimension(1, 1)), ue.add(ee); var H = this.newEdge(null); this.graphManager.add(H, ne, ee), J.add(ee), ne = ee; } var H = this.newEdge(null); return this.graphManager.add(H, ne, _.target), this.edgeToDummyNodes.set(_, J), _.isInterGraph() ? this.graphManager.remove(_) : ue.remove(_), J; }, V.prototype.createBendpointsFromDummyNodes = function() { var _ = []; _ = _.concat(this.graphManager.getAllEdges()), _ = [].concat(A(this.edgeToDummyNodes.keys())).concat(_); for (var J = 0; J < _.length; J++) { var ne = _[J]; if (ne.bendpoints.length > 0) { for (var ue = this.edgeToDummyNodes.get(ne), j = 0; j < ue.length; j++) { var ee = ue[j], H = new P(ee.getCenterX(), ee.getCenterY()), te = ne.bendpoints.get(j); te.x = H.x, te.y = H.y, ee.getOwner().remove(ee); } this.graphManager.add(ne, ne.source, ne.target); } } }, V.transform = function(_, J, ne, ue) { if (ne != null && ue != null) { var j = J; if (_ <= 50) { var ee = J / ne; j -= (J - ee) / 50 * (50 - _); } else { var H = J * ue; j += (H - J) / 50 * (_ - 50); } return j; } else { var te, S; return _ <= 50 ? (te = 9 * J / 500, S = J / 10) : (te = 9 * J / 50, S = -8 * J), te * _ + S; } }, V.findCenterOfTree = function(_) { var J = []; J = J.concat(_); var ne = [], ue = /* @__PURE__ */ new Map(), j = !1, ee = null; (J.length == 1 || J.length == 2) && (j = !0, ee = J[0]); for (var H = 0; H < J.length; H++) { var te = J[H], S = te.getNeighborsList().size; ue.set(te, te.getNeighborsList().size), S == 1 && ne.push(te); } var $ = []; for ($ = $.concat(ne); !j; ) { var k = []; k = k.concat($), $ = []; for (var H = 0; H < J.length; H++) { var te = J[H], q = J.indexOf(te); q >= 0 && J.splice(q, 1); var ve = te.getNeighborsList(); ve.forEach(function(Ne) { if (ne.indexOf(Ne) < 0) { var _e = ue.get(Ne), tt = _e - 1; tt == 1 && $.push(Ne), ue.set(Ne, tt); } }); } ne = ne.concat($), (J.length == 1 || J.length == 2) && (j = !0, ee = J[0]); } return ee; }, V.prototype.setGraphManager = function(_) { this.graphManager = _; }, Q.exports = V; }, /* 16 */ /***/ function(Q, ce, Y) { function A() { } A.seed = 1, A.x = 0, A.nextDouble = function() { return A.x = Math.sin(A.seed++) * 1e4, A.x - Math.floor(A.x); }, Q.exports = A; }, /* 17 */ /***/ function(Q, ce, Y) { var A = Y(4); function T(w, L) { this.lworldOrgX = 0, this.lworldOrgY = 0, this.ldeviceOrgX = 0, this.ldeviceOrgY = 0, this.lworldExtX = 1, this.lworldExtY = 1, this.ldeviceExtX = 1, this.ldeviceExtY = 1; } T.prototype.getWorldOrgX = function() { return this.lworldOrgX; }, T.prototype.setWorldOrgX = function(w) { this.lworldOrgX = w; }, T.prototype.getWorldOrgY = function() { return this.lworldOrgY; }, T.prototype.setWorldOrgY = function(w) { this.lworldOrgY = w; }, T.prototype.getWorldExtX = function() { return this.lworldExtX; }, T.prototype.setWorldExtX = function(w) { this.lworldExtX = w; }, T.prototype.getWorldExtY = function() { return this.lworldExtY; }, T.prototype.setWorldExtY = function(w) { this.lworldExtY = w; }, T.prototype.getDeviceOrgX = function() { return this.ldeviceOrgX; }, T.prototype.setDeviceOrgX = function(w) { this.ldeviceOrgX = w; }, T.prototype.getDeviceOrgY = function() { return this.ldeviceOrgY; }, T.prototype.setDeviceOrgY = function(w) { this.ldeviceOrgY = w; }, T.prototype.getDeviceExtX = function() { return this.ldeviceExtX; }, T.prototype.setDeviceExtX = function(w) { this.ldeviceExtX = w; }, T.prototype.getDeviceExtY = function() { return this.ldeviceExtY; }, T.prototype.setDeviceExtY = function(w) { this.ldeviceExtY = w; }, T.prototype.transformX = function(w) { var L = 0, G = this.lworldExtX; return G != 0 && (L = this.ldeviceOrgX + (w - this.lworldOrgX) * this.ldeviceExtX / G), L; }, T.prototype.transformY = function(w) { var L = 0, G = this.lworldExtY; return G != 0 && (L = this.ldeviceOrgY + (w - this.lworldOrgY) * this.ldeviceExtY / G), L; }, T.prototype.inverseTransformX = function(w) { var L = 0, G = this.ldeviceExtX; return G != 0 && (L = this.lworldOrgX + (w - this.ldeviceOrgX) * this.lworldExtX / G), L; }, T.prototype.inverseTransformY = function(w) { var L = 0, G = this.ldeviceExtY; return G != 0 && (L = this.lworldOrgY + (w - this.ldeviceOrgY) * this.lworldExtY / G), L; }, T.prototype.inverseTransformPoint = function(w) { var L = new A(this.inverseTransformX(w.x), this.inverseTransformY(w.y)); return L; }, Q.exports = T; }, /* 18 */ /***/ function(Q, ce, Y) { function A(D) { if (Array.isArray(D)) { for (var V = 0, _ = Array(D.length); V < D.length; V++) _[V] = D[V]; return _; } else return Array.from(D); } var T = Y(15), w = Y(7), L = Y(0), G = Y(8), U = Y(9); function P() { T.call(this), this.useSmartIdealEdgeLengthCalculation = w.DEFAULT_USE_SMART_IDEAL_EDGE_LENGTH_CALCULATION, this.idealEdgeLength = w.DEFAULT_EDGE_LENGTH, this.springConstant = w.DEFAULT_SPRING_STRENGTH, this.repulsionConstant = w.DEFAULT_REPULSION_STRENGTH, this.gravityConstant = w.DEFAULT_GRAVITY_STRENGTH, this.compoundGravityConstant = w.DEFAULT_COMPOUND_GRAVITY_STRENGTH, this.gravityRangeFactor = w.DEFAULT_GRAVITY_RANGE_FACTOR, this.compoundGravityRangeFactor = w.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR, this.displacementThresholdPerNode = 3 * w.DEFAULT_EDGE_LENGTH / 100, this.coolingFactor = w.DEFAULT_COOLING_FACTOR_INCREMENTAL, this.initialCoolingFactor = w.DEFAULT_COOLING_FACTOR_INCREMENTAL, this.totalDisplacement = 0, this.oldTotalDisplacement = 0, this.maxIterations = w.MAX_ITERATIONS; } P.prototype = Object.create(T.prototype); for (var K in T) P[K] = T[K]; P.prototype.initParameters = function() { T.prototype.initParameters.call(this, arguments), this.totalIterations = 0, this.notAnimatedIterations = 0, this.useFRGridVariant = w.DEFAULT_USE_SMART_REPULSION_RANGE_CALCULATION, this.grid = []; }, P.prototype.calcIdealEdgeLengths = function() { for (var D, V, _, J, ne, ue, j = this.getGraphManager().getAllEdges(), ee = 0; ee < j.length; ee++) D = j[ee], D.idealLength = this.idealEdgeLength, D.isInterGraph && (_ = D.getSource(), J = D.getTarget(), ne = D.getSourceInLca().getEstimatedSize(), ue = D.getTargetInLca().getEstimatedSize(), this.useSmartIdealEdgeLengthCalculation && (D.idealLength += ne + ue - 2 * L.SIMPLE_NODE_SIZE), V = D.getLca().getInclusionTreeDepth(), D.idealLength += w.DEFAULT_EDGE_LENGTH * w.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR * (_.getInclusionTreeDepth() + J.getInclusionTreeDepth() - 2 * V)); }, P.prototype.initSpringEmbedder = function() { var D = this.getAllNodes().length; this.incremental ? (D > w.ADAPTATION_LOWER_NODE_LIMIT && (this.coolingFactor = Math.max(this.coolingFactor * w.COOLING_ADAPTATION_FACTOR, this.coolingFactor - (D - w.ADAPTATION_LOWER_NODE_LIMIT) / (w.ADAPTATION_UPPER_NODE_LIMIT - w.ADAPTATION_LOWER_NODE_LIMIT) * this.coolingFactor * (1 - w.COOLING_ADAPTATION_FACTOR))), this.maxNodeDisplacement = w.MAX_NODE_DISPLACEMENT_INCREMENTAL) : (D > w.ADAPTATION_LOWER_NODE_LIMIT ? this.coolingFactor = Math.max(w.COOLING_ADAPTATION_FACTOR, 1 - (D - w.ADAPTATION_LOWER_NODE_LIMIT) / (w.ADAPTATION_UPPER_NODE_LIMIT - w.ADAPTATION_LOWER_NODE_LIMIT) * (1 - w.COOLING_ADAPTATION_FACTOR)) : this.coolingFactor = 1, this.initialCoolingFactor = this.coolingFactor, this.maxNodeDisplacement = w.MAX_NODE_DISPLACEMENT), this.maxIterations = Math.max(this.getAllNodes().length * 5, this.maxIterations), this.totalDisplacementThreshold = this.displacementThresholdPerNode * this.getAllNodes().length, this.repulsionRange = this.calcRepulsionRange(); }, P.prototype.calcSpringForces = function() { for (var D = this.getAllEdges(), V, _ = 0; _ < D.length; _++) V = D[_], this.calcSpringForce(V, V.idealLength); }, P.prototype.calcRepulsionForces = function() { var D = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : !0, V = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !1, _, J, ne, ue, j = this.getAllNodes(), ee; if (this.useFRGridVariant) for (this.totalIterations % w.GRID_CALCULATION_CHECK_PERIOD == 1 && D && this.updateGrid(), ee = /* @__PURE__ */ new Set(), _ = 0; _ < j.length; _++) ne = j[_], this.calculateRepulsionForceOfANode(ne, ee, D, V), ee.add(ne); else for (_ = 0; _ < j.length; _++) for (ne = j[_], J = _ + 1; J < j.length; J++) ue = j[J], ne.getOwner() == ue.getOwner() && this.calcRepulsionForce(ne, ue); }, P.prototype.calcGravitationalForces = function() { for (var D, V = this.getAllNodesToApplyGravitation(), _ = 0; _ < V.length; _++) D = V[_], this.calcGravitationalForce(D); }, P.prototype.moveNodes = function() { for (var D = this.getAllNodes(), V, _ = 0; _ < D.length; _++) V = D[_], V.move(); }, P.prototype.calcSpringForce = function(D, V) { var _ = D.getSource(), J = D.getTarget(), ne, ue, j, ee; if (this.uniformLeafNodeSizes && _.getChild() == null && J.getChild() == null) D.updateLengthSimple(); else if (D.updateLength(), D.isOverlapingSourceAndTarget) return; ne = D.getLength(), ne != 0 && (ue = this.springConstant * (ne - V), j = ue * (D.lengthX / ne), ee = ue * (D.lengthY / ne), _.springForceX += j, _.springForceY += ee, J.springForceX -= j, J.springForceY -= ee); }, P.prototype.calcRepulsionForce = function(D, V) { var _ = D.getRect(), J = V.getRect(), ne = new Array(2), ue = new Array(4), j, ee, H, te, S, $, k; if (_.intersects(J)) { G.calcSeparationAmount(_, J, ne, w.DEFAULT_EDGE_LENGTH / 2), $ = 2 * ne[0], k = 2 * ne[1]; var q = D.noOfChildren * V.noOfChildren / (D.noOfChildren + V.noOfChildren); D.repulsionForceX -= q * $, D.repulsionForceY -= q * k, V.repulsionForceX += q * $, V.repulsionForceY += q * k; } else this.uniformLeafNodeSizes && D.getChild() == null && V.getChild() == null ? (j = J.getCenterX() - _.getCenterX(), ee = J.getCenterY() - _.getCenterY()) : (G.getIntersection(_, J, ue), j = ue[2] - ue[0], ee = ue[3] - ue[1]), Math.abs(j) < w.MIN_REPULSION_DIST && (j = U.sign(j) * w.MIN_REPULSION_DIST), Math.abs(ee) < w.MIN_REPULSION_DIST && (ee = U.sign(ee) * w.MIN_REPULSION_DIST), H = j * j + ee * ee, te = Math.sqrt(H), S = this.repulsionConstant * D.noOfChildren * V.noOfChildren / H, $ = S * j / te, k = S * ee / te, D.repulsionForceX -= $, D.repulsionForceY -= k, V.repulsionForceX += $, V.repulsionForceY += k; }, P.prototype.calcGravitationalForce = function(D) { var V, _, J, ne, ue, j, ee, H; V = D.getOwner(), _ = (V.getRight() + V.getLeft()) / 2, J = (V.getTop() + V.getBottom()) / 2, ne = D.getCenterX() - _, ue = D.getCenterY() - J, j = Math.abs(ne) + D.getWidth() / 2, ee = Math.abs(ue) + D.getHeight() / 2, D.getOwner() == this.graphManager.getRoot() ? (H = V.getEstimatedSize() * this.gravityRangeFactor, (j > H || ee > H) && (D.gravitationForceX = -this.gravityConstant * ne, D.gravitationForceY = -this.gravityConstant * ue)) : (H = V.getEstimatedSize() * this.compoundGravityRangeFactor, (j > H || ee > H) && (D.gravitationForceX = -this.gravityConstant * ne * this.compoundGravityConstant, D.gravitationForceY = -this.gravityConstant * ue * this.compoundGravityConstant)); }, P.prototype.isConverged = function() { var D, V = !1; return this.totalIterations > this.maxIterations / 3 && (V = Math.abs(this.totalDisplacement - this.oldTotalDisplacement) < 2), D = this.totalDisplacement < this.totalDisplacementThreshold, this.oldTotalDisplacement = this.totalDisplacement, D || V; }, P.prototype.animate = function() { this.animationDuringLayout && !this.isSubLayout && (this.notAnimatedIterations == this.animationPeriod ? (this.update(), this.notAnimatedIterations = 0) : this.notAnimatedIterations++); }, P.prototype.calcNoOfChildrenForAllNodes = function() { for (var D, V = this.graphManager.getAllNodes(), _ = 0; _ < V.length; _++) D = V[_], D.noOfChildren = D.getNoOfChildren(); }, P.prototype.calcGrid = function(D) { var V = 0, _ = 0; V = parseInt(Math.ceil((D.getRight() - D.getLeft()) / this.repulsionRange)), _ = parseInt(Math.ceil((D.getBottom() - D.getTop()) / this.repulsionRange)); for (var J = new Array(V), ne = 0; ne < V; ne++) J[ne] = new Array(_); for (var ne = 0; ne < V; ne++) for (var ue = 0; ue < _; ue++) J[ne][ue] = new Array(); return J; }, P.prototype.addNodeToGrid = function(D, V, _) { var J = 0, ne = 0, ue = 0, j = 0; J = parseInt(Math.floor((D.getRect().x - V) / this.repulsionRange)), ne = parseInt(Math.floor((D.getRect().width + D.getRect().x - V) / this.repulsionRange)), ue = parseInt(Math.floor((D.getRect().y - _) / this.repulsionRange)), j = parseInt(Math.floor((D.getRect().height + D.getRect().y - _) / this.repulsionRange)); for (var ee = J; ee <= ne; ee++) for (var H = ue; H <= j; H++) this.grid[ee][H].push(D), D.setGridCoordinates(J, ne, ue, j); }, P.prototype.updateGrid = function() { var D, V, _ = this.getAllNodes(); for (this.grid = this.calcGrid(this.graphManager.getRoot()), D = 0; D < _.length; D++) V = _[D], this.addNodeToGrid(V, this.graphManager.getRoot().getLeft(), this.graphManager.getRoot().getTop()); }, P.prototype.calculateRepulsionForceOfANode = function(D, V, _, J) { if (this.totalIterations % w.GRID_CALCULATION_CHECK_PERIOD == 1 && _ || J) { var ne = /* @__PURE__ */ new Set(); D.surrounding = new Array(); for (var ue, j = this.grid, ee = D.startX - 1; ee < D.finishX + 2; ee++) for (var H = D.startY - 1; H < D.finishY + 2; H++) if (!(ee < 0 || H < 0 || ee >= j.length || H >= j[0].length)) { for (var te = 0; te < j[ee][H].length; te++) if (ue = j[ee][H][te], !(D.getOwner() != ue.getOwner() || D == ue) && !V.has(ue) && !ne.has(ue)) { var S = Math.abs(D.getCenterX() - ue.getCenterX()) - (D.getWidth() / 2 + ue.getWidth() / 2), $ = Math.abs(D.getCenterY() - ue.getCenterY()) - (D.getHeight() / 2 + ue.getHeight() / 2); S <= this.repulsionRange && $ <= this.repulsionRange && ne.add(ue); } } D.surrounding = [].concat(A(ne)); } for (ee = 0; ee < D.surrounding.length; ee++) this.calcRepulsionForce(D, D.surrounding[ee]); }, P.prototype.calcRepulsionRange = function() { return 0; }, Q.exports = P; }, /* 19 */ /***/ function(Q, ce, Y) { var A = Y(1), T = Y(7); function w(G, U, P) { A.call(this, G, U, P), this.idealLength = T.DEFAULT_EDGE_LENGTH; } w.prototype = Object.create(A.prototype); for (var L in A) w[L] = A[L]; Q.exports = w; }, /* 20 */ /***/ function(Q, ce, Y) { var A = Y(3); function T(L, G, U, P) { A.call(this, L, G, U, P), this.springForceX = 0, this.springForceY = 0, this.repulsionForceX = 0, this.repulsionForceY = 0, this.gravitationForceX = 0, this.gravitationForceY = 0, this.displacementX = 0, this.displacementY = 0, this.startX = 0, this.finishX = 0, this.startY = 0, this.finishY = 0, this.surrounding = []; } T.prototype = Object.create(A.prototype); for (var w in A) T[w] = A[w]; T.prototype.setGridCoordinates = function(L, G, U, P) { this.startX = L, this.finishX = G, this.startY = U, this.finishY = P; }, Q.exports = T; }, /* 21 */ /***/ function(Q, ce, Y) { function A(T, w) { this.width = 0, this.height = 0, T !== null && w !== null && (this.height = w, this.width = T); } A.prototype.getWidth = function() { return this.width; }, A.prototype.setWidth = function(T) { this.width = T; }, A.prototype.getHeight = function() { return this.height; }, A.prototype.setHeight = function(T) { this.height = T; }, Q.exports = A; }, /* 22 */ /***/ function(Q, ce, Y) { var A = Y(14); function T() { this.map = {}, this.keys = []; } T.prototype.put = function(w, L) { var G = A.createID(w); this.contains(G) || (this.map[G] = L, this.keys.push(w)); }, T.prototype.contains = function(w) { return A.createID(w), this.map[w] != null; }, T.prototype.get = function(w) { var L = A.createID(w); return this.map[L]; }, T.prototype.keySet = function() { return this.keys; }, Q.exports = T; }, /* 23 */ /***/ function(Q, ce, Y) { var A = Y(14); function T() { this.set = {}; } T.prototype.add = function(w) { var L = A.createID(w); this.contains(L) || (this.set[L] = w); }, T.prototype.remove = function(w) { delete this.set[A.createID(w)]; }, T.prototype.clear = function() { this.set = {}; }, T.prototype.contains = function(w) { return this.set[A.createID(w)] == w; }, T.prototype.isEmpty = function() { return this.size() === 0; }, T.prototype.size = function() { return Object.keys(this.set).length; }, T.prototype.addAllTo = function(w) { for (var L = Object.keys(this.set), G = L.length, U = 0; U < G; U++) w.push(this.set[L[U]]); }, T.prototype.size = function() { return Object.keys(this.set).length; }, T.prototype.addAll = function(w) { for (var L = w.length, G = 0; G < L; G++) { var U = w[G]; this.add(U); } }, Q.exports = T; }, /* 24 */ /***/ function(Q, ce, Y) { var A = function() { function G(U, P) { for (var K = 0; K < P.length; K++) { var D = P[K]; D.enumerable = D.enumerable || !1, D.configurable = !0, "value" in D && (D.writable = !0), Object.defineProperty(U, D.key, D); } } return function(U, P, K) { return P && G(U.prototype, P), K && G(U, K), U; }; }(); function T(G, U) { if (!(G instanceof U)) throw new TypeError("Cannot call a class as a function"); } var w = Y(11), L = function() { function G(U, P) { T(this, G), (P !== null || P !== void 0) && (this.compareFunction = this._defaultCompareFunction); var K = void 0; U instanceof w ? K = U.size() : K = U.length, this._quicksort(U, 0, K - 1); } return A(G, [{ key: "_quicksort", value: function(P, K, D) { if (K < D) { var V = this._partition(P, K, D); this._quicksort(P, K, V), this._quicksort(P, V + 1, D); } } }, { key: "_partition", value: function(P, K, D) { for (var V = this._get(P, K), _ = K, J = D; ; ) { for (; this.compareFunction(V, this._get(P, J)); ) J--; for (; this.compareFunction(this._get(P, _), V); ) _++; if (_ < J) this._swap(P, _, J), _++, J--; else return J; } } }, { key: "_get", value: function(P, K) { return P instanceof w ? P.get_object_at(K) : P[K]; } }, { key: "_set", value: function(P, K, D) { P instanceof w ? P.set_object_at(K, D) : P[K] = D; } }, { key: "_swap", value: function(P, K, D) { var V = this._get(P, K); this._set(P, K, this._get(P, D)), this._set(P, D, V); } }, { key: "_defaultCompareFunction", value: function(P, K) { return K > P; } }]), G; }(); Q.exports = L; }, /* 25 */ /***/ function(Q, ce, Y) { var A = function() { function L(G, U) { for (var P = 0; P < U.length; P++) { var K = U[P]; K.enumerable = K.enumerable || !1, K.configurable = !0, "value" in K && (K.writable = !0), Object.defineProperty(G, K.key, K); } } return function(G, U, P) { return U && L(G.prototype, U), P && L(G, P), G; }; }(); function T(L, G) { if (!(L instanceof G)) throw new TypeError("Cannot call a class as a function"); } var w = function() { function L(G, U) { var P = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : 1, K = arguments.length > 3 && arguments[3] !== void 0 ? arguments[3] : -1, D = arguments.length > 4 && arguments[4] !== void 0 ? arguments[4] : -1; T(this, L), this.sequence1 = G, this.sequence2 = U, this.match_score = P, this.mismatch_penalty = K, this.gap_penalty = D, this.iMax = G.length + 1, this.jMax = U.length + 1, this.grid = new Array(this.iMax); for (var V = 0; V < this.iMax; V++) { this.grid[V] = new Array(this.jMax); for (var _ = 0; _ < this.jMax; _++) this.grid[V][_] = 0; } this.tracebackGrid = new Array(this.iMax); for (var J = 0; J < this.iMax; J++) { this.tracebackGrid[J] = new Array(this.jMax); for (var ne = 0; ne < this.jMax; ne++) this.tracebackGrid[J][ne] = [null, null, null]; } this.alignments = [], this.score = -1, this.computeGrids(); } return A(L, [{ key: "getScore", value: function() { return this.score; } }, { key: "getAlignments", value: function() { return this.alignments; } // Main dynamic programming procedure }, { key: "computeGrids", value: function() { for (var U = 1; U < this.jMax; U++) this.grid[0][U] = this.grid[0][U - 1] + this.gap_penalty, this.tracebackGrid[0][U] = [!1, !1, !0]; for (var P = 1; P < this.iMax; P++) this.grid[P][0] = this.grid[P - 1][0] + this.gap_penalty, this.tracebackGrid[P][0] = [!1, !0, !1]; for (var K = 1; K < this.iMax; K++) for (var D = 1; D < this.jMax; D++) { var V = void 0; this.sequence1[K - 1] === this.sequence2[D - 1] ? V = this.grid[K - 1][D - 1] + this.match_score : V = this.grid[K - 1][D - 1] + this.mismatch_penalty; var _ = this.grid[K - 1][D] + this.gap_penalty, J = this.grid[K][D - 1] + this.gap_penalty, ne = [V, _, J], ue = this.arrayAllMaxIndexes(ne); this.grid[K][D] = ne[ue[0]], this.tracebackGrid[K][D] = [ue.includes(0), ue.includes(1), ue.includes(2)]; } this.score = this.grid[this.iMax - 1][this.jMax - 1]; } // Gets all possible valid sequence combinations }, { key: "alignmentTraceback", value: function() { var U = []; for (U.push({ pos: [this.sequence1.length, this.sequence2.length], seq1: "", seq2: "" }); U[0]; ) { var P = U[0], K = this.tracebackGrid[P.pos[0]][P.pos[1]]; K[0] && U.push({ pos: [P.pos[0] - 1, P.pos[1] - 1], seq1: this.sequence1[P.pos[0] - 1] + P.seq1, seq2: this.sequence2[P.pos[1] - 1] + P.seq2 }), K[1] && U.push({ pos: [P.pos[0] - 1, P.pos[1]], seq1: this.sequence1[P.pos[0] - 1] + P.seq1, seq2: "-" + P.seq2 }), K[2] && U.push({ pos: [P.pos[0], P.pos[1] - 1], seq1: "-" + P.seq1, seq2: this.sequence2[P.pos[1] - 1] + P.seq2 }), P.pos[0] === 0 && P.pos[1] === 0 && this.alignments.push({ sequence1: P.seq1, sequence2: P.seq2 }), U.shift(); } return this.alignments; } // Helper Functions }, { key: "getAllIndexes", value: function(U, P) { for (var K = [], D = -1; (D = U.indexOf(P, D + 1)) !== -1; ) K.push(D); return K; } }, { key: "arrayAllMaxIndexes", value: function(U) { return this.getAllIndexes(U, Math.max.apply(null, U)); } }]), L; }(); Q.exports = w; }, /* 26 */ /***/ function(Q, ce, Y) { var A = function() { }; A.FDLayout = Y(18), A.FDLayoutConstants = Y(7), A.FDLayoutEdge = Y(19), A.FDLayoutNode = Y(20), A.DimensionD = Y(21), A.HashMap = Y(22), A.HashSet = Y(23), A.IGeometry = Y(8), A.IMath = Y(9), A.Integer = Y(10), A.Point = Y(12), A.PointD = Y(4), A.RandomSeed = Y(16), A.RectangleD = Y(13), A.Transform = Y(17), A.UniqueIDGeneretor = Y(14), A.Quicksort = Y(24), A.LinkedList = Y(11), A.LGraphObject = Y(2), A.LGraph = Y(5), A.LEdge = Y(1), A.LGraphManager = Y(6), A.LNode = Y(3), A.Layout = Y(15), A.LayoutConstants = Y(0), A.NeedlemanWunsch = Y(25), Q.exports = A; }, /* 27 */ /***/ function(Q, ce, Y) { function A() { this.listeners = []; } var T = A.prototype; T.addListener = function(w, L) { this.listeners.push({ event: w, callback: L }); }, T.removeListener = function(w, L) { for (var G = this.listeners.length; G >= 0; G--) { var U = this.listeners[G]; U.event === w && U.callback === L && this.listeners.splice(G, 1); } }, T.emit = function(w, L) { for (var G = 0; G < this.listeners.length; G++) { var U = this.listeners[G]; w === U.event && U.callback(L); } }, Q.exports = A; } /******/ ]) ); }); }(Kp)), ri; } var _u; function Qp() { return _u || (_u = 1, function(fe, he) { (function(ce, Y) { fe.exports = Y(Zp()); })(Ca, function(Q) { return ( /******/ function(ce) { var Y = {}; function A(T) { if (Y[T]) return Y[T].exports; var w = Y[T] = { /******/ i: T, /******/ l: !1, /******/ exports: {} /******/ }; return ce[T].call(w.exports, w, w.exports, A), w.l = !0, w.exports; } return A.m = ce, A.c = Y, A.i = function(T) { return T; }, A.d = function(T, w, L) { A.o(T, w) || Object.defineProperty(T, w, { /******/ configurable: !1, /******/ enumerable: !0, /******/ get: L /******/ }); }, A.n = function(T) { var w = T && T.__esModule ? ( /******/ function() { return T.default; } ) : ( /******/ function() { return T; } ); return A.d(w, "a", w), w; }, A.o = function(T, w) { return Object.prototype.hasOwnProperty.call(T, w); }, A.p = "", A(A.s = 7); }([ /* 0 */ /***/ function(ce, Y) { ce.exports = Q; }, /* 1 */ /***/ function(ce, Y, A) { var T = A(0).FDLayoutConstants; function w() { } for (var L in T) w[L] = T[L]; w.DEFAULT_USE_MULTI_LEVEL_SCALING = !1, w.DEFAULT_RADIAL_SEPARATION = T.DEFAULT_EDGE_LENGTH, w.DEFAULT_COMPONENT_SEPERATION = 60, w.TILE = !0, w.TILING_PADDING_VERTICAL = 10, w.TILING_PADDING_HORIZONTAL = 10, w.TREE_REDUCTION_ON_INCREMENTAL = !1, ce.exports = w; }, /* 2 */ /***/ function(ce, Y, A) { var T = A(0).FDLayoutEdge; function w(G, U, P) { T.call(this, G, U, P); } w.prototype = Object.create(T.prototype); for (var L in T) w[L] = T[L]; ce.exports = w; }, /* 3 */ /***/ function(ce, Y, A) { var T = A(0).LGraph; function w(G, U, P) { T.call(this, G, U, P); } w.prototype = Object.create(T.prototype); for (var L in T) w[L] = T[L]; ce.exports = w; }, /* 4 */ /***/ function(ce, Y, A) { var T = A(0).LGraphManager; function w(G) { T.call(this, G); } w.prototype = Object.create(T.prototype); for (var L in T) w[L] = T[L]; ce.exports = w; }, /* 5 */ /***/ function(ce, Y, A) { var T = A(0).FDLayoutNode, w = A(0).IMath; function L(U, P, K, D) { T.call(this, U, P, K, D); } L.prototype = Object.create(T.prototype); for (var G in T) L[G] = T[G]; L.prototype.move = function() { var U = this.graphManager.getLayout(); this.displacementX = U.coolingFactor * (this.springForceX + this.repulsionForceX + this.gravitationForceX) / this.noOfChildren, this.displacementY = U.coolingFactor * (this.springForceY + this.repulsionForceY + this.gravitationForceY) / this.noOfChildren, Math.abs(this.displacementX) > U.coolingFactor * U.maxNodeDisplacement && (this.displacementX = U.coolingFactor * U.maxNodeDisplacement * w.sign(this.displacementX)), Math.abs(this.displacementY) > U.coolingFactor * U.maxNodeDisplacement && (this.displacementY = U.coolingFactor * U.maxNodeDisplacement * w.sign(this.displacementY)), this.child == null ? this.moveBy(this.displacementX, this.displacementY) : this.child.getNodes().length == 0 ? this.moveBy(this.displacementX, this.displacementY) : this.propogateDisplacementToChildren(this.displacementX, this.displacementY), U.totalDisplacement += Math.abs(this.displacementX) + Math.abs(this.displacementY), this.springForceX = 0, this.springForceY = 0, this.repulsionForceX = 0, this.repulsionForceY = 0, this.gravitationForceX = 0, this.gravitationForceY = 0, this.displacementX = 0, this.displacementY = 0; }, L.prototype.propogateDisplacementToChildren = function(U, P) { for (var K = this.getChild().getNodes(), D, V = 0; V < K.length; V++) D = K[V], D.getChild() == null ? (D.moveBy(U, P), D.displacementX += U, D.displacementY += P) : D.propogateDisplacementToChildren(U, P); }, L.prototype.setPred1 = function(U) { this.pred1 = U; }, L.prototype.getPred1 = function() { return pred1; }, L.prototype.getPred2 = function() { return pred2; }, L.prototype.setNext = function(U) { this.next = U; }, L.prototype.getNext = function() { return next; }, L.prototype.setProcessed = function(U) { this.processed = U; }, L.prototype.isProcessed = function() { return processed; }, ce.exports = L; }, /* 6 */ /***/ function(ce, Y, A) { var T = A(0).FDLayout, w = A(4), L = A(3), G = A(5), U = A(2), P = A(1), K = A(0).FDLayoutConstants, D = A(0).LayoutConstants, V = A(0).Point, _ = A(0).PointD, J = A(0).Layout, ne = A(0).Integer, ue = A(0).IGeometry, j = A(0).LGraph, ee = A(0).Transform; function H() { T.call(this), this.toBeTiled = {}; } H.prototype = Object.create(T.prototype); for (var te in T) H[te] = T[te]; H.prototype.newGraphManager = function() { var S = new w(this); return this.graphManager = S, S; }, H.prototype.newGraph = function(S) { return new L(null, this.graphManager, S); }, H.prototype.newNode = function(S) { return new G(this.graphManager, S); }, H.prototype.newEdge = function(S) { return new U(null, null, S); }, H.prototype.initParameters = function() { T.prototype.initParameters.call(this, arguments), this.isSubLayout || (P.DEFAULT_EDGE_LENGTH < 10 ? this.idealEdgeLength = 10 : this.idealEdgeLength = P.DEFAULT_EDGE_LENGTH, this.useSmartIdealEdgeLengthCalculation = P.DEFAULT_USE_SMART_IDEAL_EDGE_LENGTH_CALCULATION, this.springConstant = K.DEFAULT_SPRING_STRENGTH, this.repulsionConstant = K.DEFAULT_REPULSION_STRENGTH, this.gravityConstant = K.DEFAULT_GRAVITY_STRENGTH, this.compoundGravityConstant = K.DEFAULT_COMPOUND_GRAVITY_STRENGTH, this.gravityRangeFactor = K.DEFAULT_GRAVITY_RANGE_FACTOR, this.compoundGravityRangeFactor = K.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR, this.prunedNodesAll = [], this.growTreeIterations = 0, this.afterGrowthIterations = 0, this.isTreeGrowing = !1, this.isGrowthFinished = !1, this.coolingCycle = 0, this.maxCoolingCycle = this.maxIterations / K.CONVERGENCE_CHECK_PERIOD, this.finalTemperature = K.CONVERGENCE_CHECK_PERIOD / this.maxIterations, this.coolingAdjuster = 1); }, H.prototype.layout = function() { var S = D.DEFAULT_CREATE_BENDS_AS_NEEDED; return S && (this.createBendpoints(), this.graphManager.resetAllEdges()), this.level = 0, this.classicLayout(); }, H.prototype.classicLayout = function() { if (this.nodesWithGravity = this.calculateNodesToApplyGravitationTo(), this.graphManager.setAllNodesToApplyGravitation(this.nodesWithGravity), this.calcNoOfChildrenForAllNodes(), this.graphManager.calcLowestCommonAncestors(), this.graphManager.calcInclusionTreeDepths(), this.graphManager.getRoot().calcEstimatedSize(), this.calcIdealEdgeLengths(), this.incremental) { if (P.TREE_REDUCTION_ON_INCREMENTAL) { this.reduceTrees(), this.graphManager.resetAllNodesToApplyGravitation(); var $ = new Set(this.getAllNodes()), k = this.nodesWithGravity.filter(function(pe) { return $.has(pe); }); this.graphManager.setAllNodesToApplyGravitation(k); } } else { var S = this.getFlatForest(); if (S.length > 0) this.positionNodesRadially(S); else { this.reduceTrees(), this.graphManager.resetAllNodesToApplyGravitation(); var $ = new Set(this.getAllNodes()), k = this.nodesWithGravity.filter(function(q) { return $.has(q); }); this.graphManager.setAllNodesToApplyGravitation(k), this.positionNodesRandomly(); } } return this.initSpringEmbedder(), this.runSpringEmbedder(), !0; }, H.prototype.tick = function() { if (this.totalIterations++, this.totalIterations === this.maxIterations && !this.isTreeGrowing && !this.isGrowthFinished) if (this.prunedNodesAll.length > 0) this.isTreeGrowing = !0; else return !0; if (this.totalIterations % K.CONVERGENCE_CHECK_PERIOD == 0 && !this.isTreeGrowing && !this.isGrowthFinished) { if (this.isConverged()) if (this.prunedNodesAll.length > 0) this.isTreeGrowing = !0; else return !0; this.coolingCycle++, this.layoutQuality == 0 ? this.coolingAdjuster = this.coolingCycle : this.layoutQuality == 1 && (this.coolingAdjuster = this.coolingCycle / 3), this.coolingFactor = Math.max(this.initialCoolingFactor - Math.pow(this.coolingCycle, Math.log(100 * (this.initialCoolingFactor - this.finalTemperature)) / Math.log(this.maxCoolingCycle)) / 100 * this.coolingAdjuster, this.finalTemperature), this.animationPeriod = Math.ceil(this.initialAnimationPeriod * Math.sqrt(this.coolingFactor)); } if (this.isTreeGrowing) { if (this.growTreeIterations % 10 == 0) if (this.prunedNodesAll.length > 0) { this.graphManager.updateBounds(), this.updateGrid(), this.growTree(this.prunedNodesAll), this.graphManager.resetAllNodesToApplyGravitation(); var S = new Set(this.getAllNodes()), $ = this.nodesWithGravity.filter(function(ve) { return S.has(ve); }); this.graphManager.setAllNodesToApplyGravitation($), this.graphManager.updateBounds(), this.updateGrid(), this.coolingFactor = K.DEFAULT_COOLING_FACTOR_INCREMENTAL; } else this.isTreeGrowing = !1, this.isGrowthFinished = !0; this.growTreeIterations++; } if (this.isGrowthFinished) { if (this.isConverged()) return !0; this.afterGrowthIterations % 10 == 0 && (this.graphManager.updateBounds(), this.updateGrid()), this.coolingFactor = K.DEFAULT_COOLING_FACTOR_INCREMENTAL * ((100 - this.afterGrowthIterations) / 100), this.afterGrowthIterations++; } var k = !this.isTreeGrowing && !this.isGrowthFinished, q = this.growTreeIterations % 10 == 1 && this.isTreeGrowing || this.afterGrowthIterations % 10 == 1 && this.isGrowthFinished; return this.totalDisplacement = 0, this.graphManager.updateBounds(), this.calcSpringForces(), this.calcRepulsionForces(k, q), this.calcGravitationalForces(), this.moveNodes(), this.animate(), !1; }, H.prototype.getPositionsData = function() { for (var S = this.graphManager.getAllNodes(), $ = {}, k = 0; k < S.length; k++) { var q = S[k].rect, ve = S[k].id; $[ve] = { id: ve, x: q.getCenterX(), y: q.getCenterY(), w: q.width, h: q.height }; } return $; }, H.prototype.runSpringEmbedder = function() { this.initialAnimationPeriod = 25, this.animationPeriod = this.initialAnimationPeriod; var S = !1; if (K.ANIMATE === "during") this.emit("layoutstarted"); else { for (; !S; ) S = this.tick(); this.graphManager.updateBounds(); } }, H.prototype.calculateNodesToApplyGravitationTo = function() { var S = [], $, k = this.graphManager.getGraphs(), q = k.length, ve; for (ve = 0; ve < q; ve++) $ = k[ve], $.updateConnected(), $.isConnected || (S = S.concat($.getNodes())); return S; }, H.prototype.createBendpoints = function() { var S = []; S = S.concat(this.graphManager.getAllEdges()); var $ = /* @__PURE__ */ new Set(), k; for (k = 0; k < S.length; k++) { var q = S[k]; if (!$.has(q)) { var ve = q.getSource(), pe = q.getTarget(); if (ve == pe) q.getBendpoints().push(new _()), q.getBendpoints().push(new _()), this.createDummyNodesForBendpoints(q), $.add(q); else { var Ae = []; if (Ae = Ae.concat(ve.getEdgeListToNode(pe)), Ae = Ae.concat(pe.getEdgeListToNode(ve)), !$.has(Ae[0])) { if (Ae.length > 1) { var Ne; for (Ne = 0; Ne < Ae.length; Ne++) { var _e = Ae[Ne]; _e.getBendpoints().push(new _()), this.createDummyNodesForBendpoints(_e); } } Ae.forEach(function(tt) { $.add(tt); }); } } } if ($.size == S.length) break; } }, H.prototype.positionNodesRadially = function(S) { for (var $ = new V(0, 0), k = Math.ceil(Math.sqrt(S.length)), q = 0, ve = 0, pe = 0, Ae = new _(0, 0), Ne = 0; Ne < S.length; Ne++) { Ne % k == 0 && (pe = 0, ve = q, Ne != 0 && (ve += P.DEFAULT_COMPONENT_SEPERATION), q = 0); var _e = S[Ne], tt = J.findCenterOfTree(_e); $.x = pe, $.y = ve, Ae = H.radialLayout(_e, tt, $), Ae.y > q && (q = Math.floor(Ae.y)), pe = Math.floor(Ae.x + P.DEFAULT_COMPONENT_SEPERATION); } this.transform(new _(D.WORLD_CENTER_X - Ae.x / 2, D.WORLD_CENTER_Y - Ae.y / 2)); }, H.radialLayout = function(S, $, k) { var q = Math.max(this.maxDiagonalInTree(S), P.DEFAULT_RADIAL_SEPARATION); H.branchRadialLayout($, null, 0, 359, 0, q); var ve = j.calculateBounds(S), pe = new ee(); pe.setDeviceOrgX(ve.getMinX()), pe.setDeviceOrgY(ve.getMinY()), pe.setWorldOrgX(k.x), pe.setWorldOrgY(k.y); for (var Ae = 0; Ae < S.length; Ae++) { var Ne = S[Ae]; Ne.transform(pe); } var _e = new _(ve.getMaxX(), ve.getMaxY()); return pe.inverseTransformPoint(_e); }, H.branchRadialLayout = function(S, $, k, q, ve, pe) { var Ae = (q - k + 1) / 2; Ae < 0 && (Ae += 180); var Ne = (Ae + k) % 360, _e = Ne * ue.TWO_PI / 360, tt = ve * Math.cos(_e), ct = ve * Math.sin(_e); S.setCenter(tt, ct); var Pe = []; Pe = Pe.concat(S.getEdges()); var $e = Pe.length; $ != null && $e--; for (var Xe = 0, rt = Pe.length, lt, nt = S.getEdgesBetween($); nt.length > 1; ) { var je = nt[0]; nt.splice(0, 1); var pt = Pe.indexOf(je); pt >= 0 && Pe.splice(pt, 1), rt--, $e--; } $ != null ? lt = (Pe.indexOf(nt[0]) + 1) % rt : lt = 0; for (var Et = Math.abs(q - k) / $e, kt = lt; Xe != $e; kt = ++kt % rt) { var vt = Pe[kt].getOtherEnd(S); if (vt != $) { var vr = (k + Xe * Et) % 360, qt = (vr + Et) % 360; H.branchRadialLayout(vt, S, vr, qt, ve + pe, pe), Xe++; } } }, H.maxDiagonalInTree = function(S) { for (var $ = ne.MIN_VALUE, k = 0; k < S.length; k++) { var q = S[k], ve = q.getDiagonal(); ve > $ && ($ = ve); } return $; }, H.prototype.calcRepulsionRange = function() { return 2 * (this.level + 1) * this.idealEdgeLength; }, H.prototype.groupZeroDegreeMembers = function() { var S = this, $ = {}; this.memberGroups = {}, this.idToDummyNode = {}; for (var k = [], q = this.graphManager.getAllNodes(), ve = 0; ve < q.length; ve++) { var pe = q[ve], Ae = pe.getParent(); this.getNodeDegreeWithChildren(pe) === 0 && (Ae.id == null || !this.getToBeTiled(Ae)) && k.push(pe); } for (var ve = 0; ve < k.length; ve++) { var pe = k[ve], Ne = pe.getParent().id; typeof $[Ne] > "u" && ($[Ne] = []), $[Ne] = $[Ne].concat(pe); } Object.keys($).forEach(function(_e) { if ($[_e].length > 1) { var tt = "DummyCompound_" + _e; S.memberGroups[tt] = $[_e]; var ct = $[_e][0].getParent(), Pe = new G(S.graphManager); Pe.id = tt, Pe.paddingLeft = ct.paddingLeft || 0, Pe.paddingRight = ct.paddingRight || 0, Pe.paddingBottom = ct.paddingBottom || 0, Pe.paddingTop = ct.paddingTop || 0, S.idToDummyNode[tt] = Pe; var $e = S.getGraphManager().add(S.newGraph(), Pe), Xe = ct.getChild(); Xe.add(Pe); for (var rt = 0; rt < $[_e].length; rt++) { var lt = $[_e][rt]; Xe.remove(lt), $e.add(lt); } } }); }, H.prototype.clearCompounds = function() { var S = {}, $ = {}; this.performDFSOnCompounds(); for (var k = 0; k < this.compoundOrder.length; k++) $[this.compoundOrder[k].id] = this.compoundOrder[k], S[this.compoundOrder[k].id] = [].concat(this.compoundOrder[k].getChild().getNodes()), this.graphManager.remove(this.compoundOrder[k].getChild()), this.compoundOrder[k].child = null; this.graphManager.resetAllNodes(), this.tileCompoundMembers(S, $); }, H.prototype.clearZeroDegreeMembers = function() { var S = this, $ = this.tiledZeroDegreePack = []; Object.keys(this.memberGroups).forEach(function(k) { var q = S.idToDummyNode[k]; $[k] = S.tileNodes(S.memberGroups[k], q.paddingLeft + q.paddingRight), q.rect.width = $[k].width, q.rect.height = $[k].height; }); }, H.prototype.repopulateCompounds = function() { for (var S = this.compoundOrder.length - 1; S >= 0; S--) { var $ = this.compoundOrder[S], k = $.id, q = $.paddingLeft, ve = $.paddingTop; this.adjustLocations(this.tiledMemberPack[k], $.rect.x, $.rect.y, q, ve); } }, H.prototype.repopulateZeroDegreeMembers = function() { var S = this, $ = this.tiledZeroDegreePack; Object.keys($).forEach(function(k) { var q = S.idToDummyNode[k], ve = q.paddingLeft, pe = q.paddingTop; S.adjustLocations($[k], q.rect.x, q.rect.y, ve, pe); }); }, H.prototype.getToBeTiled = function(S) { var $ = S.id; if (this.toBeTiled[$] != null) return this.toBeTiled[$]; var k = S.getChild(); if (k == null) return this.toBeTiled[$] = !1, !1; for (var q = k.getNodes(), ve = 0; ve < q.length; ve++) { var pe = q[ve]; if (this.getNodeDegree(pe) > 0) return this.toBeTiled[$] = !1, !1; if (pe.getChild() == null) { this.toBeTiled[pe.id] = !1; continue; } if (!this.getToBeTiled(pe)) return this.toBeTiled[$] = !1, !1; } return this.toBeTiled[$] = !0, !0; }, H.prototype.getNodeDegree = function(S) { S.id; for (var $ = S.getEdges(), k = 0, q = 0; q < $.length; q++) { var ve = $[q]; ve.getSource().id !== ve.getTarget().id && (k = k + 1); } return k; }, H.prototype.getNodeDegreeWithChildren = function(S) { var $ = this.getNodeDegree(S); if (S.getChild() == null) return $; for (var k = S.getChild().getNodes(), q = 0; q < k.length; q++) { var ve = k[q]; $ += this.getNodeDegreeWithChildren(ve); } return $; }, H.prototype.performDFSOnCompounds = function() { this.compoundOrder = [], this.fillCompexOrderByDFS(this.graphManager.getRoot().getNodes()); }, H.prototype.fillCompexOrderByDFS = function(S) { for (var $ = 0; $ < S.length; $++) { var k = S[$]; k.getChild() != null && this.fillCompexOrderByDFS(k.getChild().getNodes()), this.getToBeTiled(k) && this.compoundOrder.push(k); } }, H.prototype.adjustLocations = function(S, $, k, q, ve) { $ += q, k += ve; for (var pe = $, Ae = 0; Ae < S.rows.length; Ae++) { var Ne = S.rows[Ae]; $ = pe; for (var _e = 0, tt = 0; tt < Ne.length; tt++) { var ct = Ne[tt]; ct.rect.x = $, ct.rect.y = k, $ += ct.rect.width + S.horizontalPadding, ct.rect.height > _e && (_e = ct.rect.height); } k += _e + S.verticalPadding; } }, H.prototype.tileCompoundMembers = function(S, $) { var k = this; this.tiledMemberPack = [], Object.keys(S).forEach(function(q) { var ve = $[q]; k.tiledMemberPack[q] = k.tileNodes(S[q], ve.paddingLeft + ve.paddingRight), ve.rect.width = k.tiledMemberPack[q].width, ve.rect.height = k.tiledMemberPack[q].height; }); }, H.prototype.tileNodes = function(S, $) { var k = P.TILING_PADDING_VERTICAL, q = P.TILING_PADDING_HORIZONTAL, ve = { rows: [], rowWidth: [], rowHeight: [], width: 0, height: $, // assume minHeight equals to minWidth verticalPadding: k, horizontalPadding: q }; S.sort(function(Ne, _e) { return Ne.rect.width * Ne.rect.height > _e.rect.width * _e.rect.height ? -1 : Ne.rect.width * Ne.rect.height < _e.rect.width * _e.rect.height ? 1 : 0; }); for (var pe = 0; pe < S.length; pe++) { var Ae = S[pe]; ve.rows.length == 0 ? this.insertNodeToRow(ve, Ae, 0, $) : this.canAddHorizontal(ve, Ae.rect.width, Ae.rect.height) ? this.insertNodeToRow(ve, Ae, this.getShortestRowIndex(ve), $) : this.insertNodeToRow(ve, Ae, ve.rows.length, $), this.shiftToLastRow(ve); } return ve; }, H.prototype.insertNodeToRow = function(S, $, k, q) { var ve = q; if (k == S.rows.length) { var pe = []; S.rows.push(pe), S.rowWidth.push(ve), S.rowHeight.push(0); } var Ae = S.rowWidth[k] + $.rect.width; S.rows[k].length > 0 && (Ae += S.horizontalPadding), S.rowWidth[k] = Ae, S.width < Ae && (S.width = Ae); var Ne = $.rect.height; k > 0 && (Ne += S.verticalPadding); var _e = 0; Ne > S.rowHeight[k] && (_e = S.rowHeight[k], S.rowHeight[k] = Ne, _e = S.rowHeight[k] - _e), S.height += _e, S.rows[k].push($); }, H.prototype.getShortestRowIndex = function(S) { for (var $ = -1, k = Number.MAX_VALUE, q = 0; q < S.rows.length; q++) S.rowWidth[q] < k && ($ = q, k = S.rowWidth[q]); return $; }, H.prototype.getLongestRowIndex = function(S) { for (var $ = -1, k = Number.MIN_VALUE, q = 0; q < S.rows.length; q++) S.rowWidth[q] > k && ($ = q, k = S.rowWidth[q]); return $; }, H.prototype.canAddHorizontal = function(S, $, k) { var q = this.getShortestRowIndex(S); if (q < 0) return !0; var ve = S.rowWidth[q]; if (ve + S.horizontalPadding + $ <= S.width) return !0; var pe = 0; S.rowHeight[q] < k && q > 0 && (pe = k + S.verticalPadding - S.rowHeight[q]); var Ae; S.width - ve >= $ + S.horizontalPadding ? Ae = (S.height + pe) / (ve + $ + S.horizontalPadding) : Ae = (S.height + pe) / S.width, pe = k + S.verticalPadding; var Ne; return S.width < $ ? Ne = (S.height + pe) / $ : Ne = (S.height + pe) / S.width, Ne < 1 && (Ne = 1 / Ne), Ae < 1 && (Ae = 1 / Ae), Ae < Ne; }, H.prototype.shiftToLastRow = function(S) { var $ = this.getLongestRowIndex(S), k = S.rowWidth.length - 1, q = S.rows[$], ve = q[q.length - 1], pe = ve.width + S.horizontalPadding; if (S.width - S.rowWidth[k] > pe && $ != k) { q.splice(-1, 1), S.rows[k].push(ve), S.rowWidth[$] = S.rowWidth[$] - pe, S.rowWidth[k] = S.rowWidth[k] + pe, S.width = S.rowWidth[instance.getLongestRowIndex(S)]; for (var Ae = Number.MIN_VALUE, Ne = 0; Ne < q.length; Ne++) q[Ne].height > Ae && (Ae = q[Ne].height); $ > 0 && (Ae += S.verticalPadding); var _e = S.rowHeight[$] + S.rowHeight[k]; S.rowHeight[$] = Ae, S.rowHeight[k] < ve.height + S.verticalPadding && (S.rowHeight[k] = ve.height + S.verticalPadding); var tt = S.rowHeight[$] + S.rowHeight[k]; S.height += tt - _e, this.shiftToLastRow(S); } }, H.prototype.tilingPreLayout = function() { P.TILE && (this.groupZeroDegreeMembers(), this.clearCompounds(), this.clearZeroDegreeMembers()); }, H.prototype.tilingPostLayout = function() { P.TILE && (this.repopulateZeroDegreeMembers(), this.repopulateCompounds()); }, H.prototype.reduceTrees = function() { for (var S = [], $ = !0, k; $; ) { var q = this.graphManager.getAllNodes(), ve = []; $ = !1; for (var pe = 0; pe < q.length; pe++) k = q[pe], k.getEdges().length == 1 && !k.getEdges()[0].isInterGraph && k.getChild() == null && (ve.push([k, k.getEdges()[0], k.getOwner()]), $ = !0); if ($ == !0) { for (var Ae = [], Ne = 0; Ne < ve.length; Ne++) ve[Ne][0].getEdges().length == 1 && (Ae.push(ve[Ne]), ve[Ne][0].getOwner().remove(ve[Ne][0])); S.push(Ae), this.graphManager.resetAllNodes(), this.graphManager.resetAllEdges(); } } this.prunedNodesAll = S; }, H.prototype.growTree = function(S) { for (var $ = S.length, k = S[$ - 1], q, ve = 0; ve < k.length; ve++) q = k[ve], this.findPlaceforPrunedNode(q), q[2].add(q[0]), q[2].add(q[1], q[1].source, q[1].target); S.splice(S.length - 1, 1), this.graphManager.resetAllNodes(), this.graphManager.resetAllEdges(); }, H.prototype.findPlaceforPrunedNode = function(S) { var $, k, q = S[0]; q == S[1].source ? k = S[1].target : k = S[1].source; var ve = k.startX, pe = k.finishX, Ae = k.startY, Ne = k.finishY, _e = 0, tt = 0, ct = 0, Pe = 0, $e = [_e, ct, tt, Pe]; if (Ae > 0) for (var Xe = ve; Xe <= pe; Xe++) $e[0] += this.grid[Xe][Ae - 1].length + this.grid[Xe][Ae].length - 1; if (pe < this.grid.length - 1) for (var Xe = Ae; Xe <= Ne; Xe++) $e[1] += this.grid[pe + 1][Xe].length + this.grid[pe][Xe].length - 1; if (Ne < this.grid[0].length - 1) for (var Xe = ve; Xe <= pe; Xe++) $e[2] += this.grid[Xe][Ne + 1].length + this.grid[Xe][Ne].length - 1; if (ve > 0) for (var Xe = Ae; Xe <= Ne; Xe++) $e[3] += this.grid[ve - 1][Xe].length + this.grid[ve][Xe].length - 1; for (var rt = ne.MAX_VALUE, lt, nt, je = 0; je < $e.length; je++) $e[je] < rt ? (rt = $e[je], lt = 1, nt = je) : $e[je] == rt && lt++; if (lt == 3 && rt == 0) $e[0] == 0 && $e[1] == 0 && $e[2] == 0 ? $ = 1 : $e[0] == 0 && $e[1] == 0 && $e[3] == 0 ? $ = 0 : $e[0] == 0 && $e[2] == 0 && $e[3] == 0 ? $ = 3 : $e[1] == 0 && $e[2] == 0 && $e[3] == 0 && ($ = 2); else if (lt == 2 && rt == 0) { var pt = Math.floor(Math.random() * 2); $e[0] == 0 && $e[1] == 0 ? pt == 0 ? $ = 0 : $ = 1 : $e[0] == 0 && $e[2] == 0 ? pt == 0 ? $ = 0 : $ = 2 : $e[0] == 0 && $e[3] == 0 ? pt == 0 ? $ = 0 : $ = 3 : $e[1] == 0 && $e[2] == 0 ? pt == 0 ? $ = 1 : $ = 2 : $e[1] == 0 && $e[3] == 0 ? pt == 0 ? $ = 1 : $ = 3 : pt == 0 ? $ = 2 : $ = 3; } else if (lt == 4 && rt == 0) { var pt = Math.floor(Math.random() * 4); $ = pt; } else $ = nt; $ == 0 ? q.setCenter(k.getCenterX(), k.getCenterY() - k.getHeight() / 2 - K.DEFAULT_EDGE_LENGTH - q.getHeight() / 2) : $ == 1 ? q.setCenter(k.getCenterX() + k.getWidth() / 2 + K.DEFAULT_EDGE_LENGTH + q.getWidth() / 2, k.getCenterY()) : $ == 2 ? q.setCenter(k.getCenterX(), k.getCenterY() + k.getHeight() / 2 + K.DEFAULT_EDGE_LENGTH + q.getHeight() / 2) : q.setCenter(k.getCenterX() - k.getWidth() / 2 - K.DEFAULT_EDGE_LENGTH - q.getWidth() / 2, k.getCenterY()); }, ce.exports = H; }, /* 7 */ /***/ function(ce, Y, A) { var T = {}; T.layoutBase = A(0), T.CoSEConstants = A(1), T.CoSEEdge = A(2), T.CoSEGraph = A(3), T.CoSEGraphManager = A(4), T.CoSELayout = A(6), T.CoSENode = A(5), ce.exports = T; } /******/ ]) ); }); }(Wp)), ti; } (function(fe, he) { (function(ce, Y) { fe.exports = Y(Qp()); })(Ca, function(Q) { return ( /******/ function(ce) { var Y = {}; function A(T) { if (Y[T]) return Y[T].exports; var w = Y[T] = { /******/ i: T, /******/ l: !1, /******/ exports: {} /******/ }; return ce[T].call(w.exports, w, w.exports, A), w.l = !0, w.exports; } return A.m = ce, A.c = Y, A.i = function(T) { return T; }, A.d = function(T, w, L) { A.o(T, w) || Object.defineProperty(T, w, { /******/ configurable: !1, /******/ enumerable: !0, /******/ get: L /******/ }); }, A.n = function(T) { var w = T && T.__esModule ? ( /******/ function() { return T.default; } ) : ( /******/ function() { return T; } ); return A.d(w, "a", w), w; }, A.o = function(T, w) { return Object.prototype.hasOwnProperty.call(T, w); }, A.p = "", A(A.s = 1); }([ /* 0 */ /***/ function(ce, Y) { ce.exports = Q; }, /* 1 */ /***/ function(ce, Y, A) { var T = A(0).layoutBase.LayoutConstants, w = A(0).layoutBase.FDLayoutConstants, L = A(0).CoSEConstants, G = A(0).CoSELayout, U = A(0).CoSENode, P = A(0).layoutBase.PointD, K = A(0).layoutBase.DimensionD, D = { // Called on `layoutready` ready: function() { }, // Called on `layoutstop` stop: function() { }, // 'draft', 'default' or 'proof" // - 'draft' fast cooling rate // - 'default' moderate cooling rate // - "proof" slow cooling rate quality: "default", // include labels in node dimensions nodeDimensionsIncludeLabels: !1, // number of ticks per frame; higher is faster but more jerky refresh: 30, // Whether to fit the network view after when done fit: !0, // Padding on fit padding: 10, // Whether to enable incremental mode randomize: !0, // Node repulsion (non overlapping) multiplier nodeRepulsion: 4500, // Ideal edge (non nested) length idealEdgeLength: 50, // Divisor to compute edge forces edgeElasticity: 0.45, // Nesting factor (multiplier) to compute ideal edge length for nested edges nestingFactor: 0.1, // Gravity force (constant) gravity: 0.25, // Maximum number of iterations to perform numIter: 2500, // For enabling tiling tile: !0, // Type of layout animation. The option set is {'during', 'end', false} animate: "end", // Duration for animate:end animationDuration: 500, // Represents the amount of the vertical space to put between the zero degree members during the tiling operation(can also be a function) tilingPaddingVertical: 10, // Represents the amount of the horizontal space to put between the zero degree members during the tiling operation(can also be a function) tilingPaddingHorizontal: 10, // Gravity range (constant) for compounds gravityRangeCompound: 1.5, // Gravity force (constant) for compounds gravityCompound: 1, // Gravity range (constant) gravityRange: 3.8, // Initial cooling factor for incremental layout initialEnergyOnIncremental: 0.5 }; function V(ue, j) { var ee = {}; for (var H in ue) ee[H] = ue[H]; for (var H in j) ee[H] = j[H]; return ee; } function _(ue) { this.options = V(D, ue), J(this.options); } var J = function(j) { j.nodeRepulsion != null && (L.DEFAULT_REPULSION_STRENGTH = w.DEFAULT_REPULSION_STRENGTH = j.nodeRepulsion), j.idealEdgeLength != null && (L.DEFAULT_EDGE_LENGTH = w.DEFAULT_EDGE_LENGTH = j.idealEdgeLength), j.edgeElasticity != null && (L.DEFAULT_SPRING_STRENGTH = w.DEFAULT_SPRING_STRENGTH = j.edgeElasticity), j.nestingFactor != null && (L.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR = w.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR = j.nestingFactor), j.gravity != null && (L.DEFAULT_GRAVITY_STRENGTH = w.DEFAULT_GRAVITY_STRENGTH = j.gravity), j.numIter != null && (L.MAX_ITERATIONS = w.MAX_ITERATIONS = j.numIter), j.gravityRange != null && (L.DEFAULT_GRAVITY_RANGE_FACTOR = w.DEFAULT_GRAVITY_RANGE_FACTOR = j.gravityRange), j.gravityCompound != null && (L.DEFAULT_COMPOUND_GRAVITY_STRENGTH = w.DEFAULT_COMPOUND_GRAVITY_STRENGTH = j.gravityCompound), j.gravityRangeCompound != null && (L.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR = w.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR = j.gravityRangeCompound), j.initialEnergyOnIncremental != null && (L.DEFAULT_COOLING_FACTOR_INCREMENTAL = w.DEFAULT_COOLING_FACTOR_INCREMENTAL = j.initialEnergyOnIncremental), j.quality == "draft" ? T.QUALITY = 0 : j.quality == "proof" ? T.QUALITY = 2 : T.QUALITY = 1, L.NODE_DIMENSIONS_INCLUDE_LABELS = w.NODE_DIMENSIONS_INCLUDE_LABELS = T.NODE_DIMENSIONS_INCLUDE_LABELS = j.nodeDimensionsIncludeLabels, L.DEFAULT_INCREMENTAL = w.DEFAULT_INCREMENTAL = T.DEFAULT_INCREMENTAL = !j.randomize, L.ANIMATE = w.ANIMATE = T.ANIMATE = j.animate, L.TILE = j.tile, L.TILING_PADDING_VERTICAL = typeof j.tilingPaddingVertical == "function" ? j.tilingPaddingVertical.call() : j.tilingPaddingVertical, L.TILING_PADDING_HORIZONTAL = typeof j.tilingPaddingHorizontal == "function" ? j.tilingPaddingHorizontal.call() : j.tilingPaddingHorizontal; }; _.prototype.run = function() { var ue, j, ee = this.options; this.idToLNode = {}; var H = this.layout = new G(), te = this; te.stopped = !1, this.cy = this.options.cy, this.cy.trigger({ type: "layoutstart", layout: this }); var S = H.newGraphManager(); this.gm = S; var $ = this.options.eles.nodes(), k = this.options.eles.edges(); this.root = S.addRoot(), this.processChildrenList(this.root, this.getTopMostNodes($), H); for (var q = 0; q < k.length; q++) { var ve = k[q], pe = this.idToLNode[ve.data("source")], Ae = this.idToLNode[ve.data("target")]; if (pe !== Ae && pe.getEdgesBetween(Ae).length == 0) { var Ne = S.add(H.newEdge(), pe, Ae); Ne.id = ve.id(); } } var _e = function(Pe, $e) { typeof Pe == "number" && (Pe = $e); var Xe = Pe.data("id"), rt = te.idToLNode[Xe]; return { x: rt.getRect().getCenterX(), y: rt.getRect().getCenterY() }; }, tt = function ct() { for (var Pe = function() { ee.fit && ee.cy.fit(ee.eles, ee.padding), ue || (ue = !0, te.cy.one("layoutready", ee.ready), te.cy.trigger({ type: "layoutready", layout: te })); }, $e = te.options.refresh, Xe, rt = 0; rt < $e && !Xe; rt++) Xe = te.stopped || te.layout.tick(); if (Xe) { H.checkLayoutSuccess() && !H.isSubLayout && H.doPostLayout(), H.tilingPostLayout && H.tilingPostLayout(), H.isLayoutFinished = !0, te.options.eles.nodes().positions(_e), Pe(), te.cy.one("layoutstop", te.options.stop), te.cy.trigger({ type: "layoutstop", layout: te }), j && cancelAnimationFrame(j), ue = !1; return; } var lt = te.layout.getPositionsData(); ee.eles.nodes().positions(function(nt, je) { if (typeof nt == "number" && (nt = je), !nt.isParent()) { for (var pt = nt.id(), Et = lt[pt], kt = nt; Et == null && (Et = lt[kt.data("parent")] || lt["DummyCompound_" + kt.data("parent")], lt[pt] = Et, kt = kt.parent()[0], kt != null); ) ; return Et != null ? { x: Et.x, y: Et.y } : { x: nt.position("x"), y: nt.position("y") }; } }), Pe(), j = requestAnimationFrame(ct); }; return H.addListener("layoutstarted", function() { te.options.animate === "during" && (j = requestAnimationFrame(tt)); }), H.runLayout(), this.options.animate !== "during" && (te.options.eles.nodes().not(":parent").layoutPositions(te, te.options, _e), ue = !1), this; }, _.prototype.getTopMostNodes = function(ue) { for (var j = {}, ee = 0; ee < ue.length; ee++) j[ue[ee].id()] = !0; var H = ue.filter(function(te, S) { typeof te == "number" && (te = S); for (var $ = te.parent()[0]; $ != null; ) { if (j[$.id()]) return !1; $ = $.parent()[0]; } return !0; }); return H; }, _.prototype.processChildrenList = function(ue, j, ee) { for (var H = j.length, te = 0; te < H; te++) { var S = j[te], $ = S.children(), k, q = S.layoutDimensions({ nodeDimensionsIncludeLabels: this.options.nodeDimensionsIncludeLabels }); if (S.outerWidth() != null && S.outerHeight() != null ? k = ue.add(new U(ee.graphManager, new P(S.position("x") - q.w / 2, S.position("y") - q.h / 2), new K(parseFloat(q.w), parseFloat(q.h)))) : k = ue.add(new U(this.graphManager)), k.id = S.data("id"), k.paddingLeft = parseInt(S.css("padding")), k.paddingTop = parseInt(S.css("padding")), k.paddingRight = parseInt(S.css("padding")), k.paddingBottom = parseInt(S.css("padding")), this.options.nodeDimensionsIncludeLabels && S.isParent()) { var ve = S.boundingBox({ includeLabels: !0, includeNodes: !1 }).w, pe = S.boundingBox({ includeLabels: !0, includeNodes: !1 }).h, Ae = S.css("text-halign"); k.labelWidth = ve, k.labelHeight = pe, k.labelPos = Ae; } if (this.idToLNode[S.data("id")] = k, isNaN(k.rect.x) && (k.rect.x = 0), isNaN(k.rect.y) && (k.rect.y = 0), $ != null && $.length > 0) { var Ne; Ne = ee.getGraphManager().add(ee.newGraph(), k), this.processChildrenList(Ne, $, ee); } } }, _.prototype.stop = function() { return this.stopped = !0, this; }; var ne = function(j) { j("layout", "cose-bilkent", _); }; typeof cytoscape < "u" && ne(cytoscape), ce.exports = ne; } /******/ ]) ); }); })(qp); const Jp = /* @__PURE__ */ mp(Qi); Wu.use(Jp); function Ku(fe, he, Q, ce) { qu.drawNode(fe, he, Q, ce), he.children && he.children.forEach((Y, A) => { Ku(fe, Y, Q < 0 ? A : Q, ce); }); } function jp(fe, he) { he.edges().map((Q, ce) => { const Y = Q.data(); if (Q[0]._private.bodyBounds) { const A = Q[0]._private.rscratch; qr.trace("Edge: ", ce, Y), fe.insert("path").attr( "d", `M ${A.startX},${A.startY} L ${A.midX},${A.midY} L${A.endX},${A.endY} ` ).attr("class", "edge section-edge-" + Y.section + " edge-depth-" + Y.depth); } }); } function Zu(fe, he, Q, ce) { he.add({ group: "nodes", data: { id: fe.id, labelText: fe.descr, height: fe.height, width: fe.width, level: ce, nodeId: fe.id, padding: fe.padding, type: fe.type }, position: { x: fe.x, y: fe.y } }), fe.children && fe.children.forEach((Y) => { Zu(Y, he, Q, ce + 1), he.add({ group: "edges", data: { id: `${fe.id}_${Y.id}`, source: fe.id, target: Y.id, depth: ce, section: Y.section } }); }); } function ey(fe, he) { return new Promise((Q) => { const ce = nn("body").append("div").attr("id", "cy").attr("style", "display:none"), Y = Wu({ container: document.getElementById("cy"), // container to render in style: [ { selector: "edge", style: { "curve-style": "bezier" } } ] }); ce.remove(), Zu(fe, Y, he, 0), Y.nodes().forEach(function(A) { A.layoutDimensions = () => { const T = A.data(); return { w: T.width, h: T.height }; }; }), Y.layout({ name: "cose-bilkent", quality: "proof", // headless: true, styleEnabled: !1, animate: !1 }).run(), Y.ready((A) => { qr.info("Ready", A), Q(Y); }); }); } function ty(fe) { fe.nodes().map((he, Q) => { const ce = he.data(); ce.x = he.position().x, ce.y = he.position().y, qu.positionNode(ce); const Y = ji(ce.nodeId); qr.info("Id:", Q, "Position: (", he.position().x, ", ", he.position().y, ")", ce), Y.attr( "transform", `translate(${he.position().x - ce.width / 2}, ${he.position().y - ce.height / 2})` ), Y.attr("attr", `apa-${Q})`); }); } const ry = async (fe, he, Q, ce) => { const Y = sn(); ce.db.clear(), ce.parser.parse(fe), qr.debug(`Renering info diagram ` + fe); const A = sn().securityLevel; let T; A === "sandbox" && (T = nn("#i" + he)); const L = (A === "sandbox" ? nn(T.nodes()[0].contentDocument.body) : nn("body")).select("#" + he); L.append("g"); const G = ce.db.getMindmap(), U = L.append("g"); U.attr("class", "mindmap-edges"); const P = L.append("g"); P.attr("class", "mindmap-nodes"), Ku(P, G, -1, Y); const K = await ey(G, Y); jp(U, K), ty(K), wp(void 0, L, Y.mindmap.padding, Y.mindmap.useMaxWidth); }, ay = { draw: ry }, ny = (fe) => { let he = ""; for (let Q = 0; Q < fe.THEME_COLOR_LIMIT; Q++) fe["lineColor" + Q] = fe["lineColor" + Q] || fe["cScaleInv" + Q], xp(fe["lineColor" + Q]) ? fe["lineColor" + Q] = bp(fe["lineColor" + Q], 20) : fe["lineColor" + Q] = Ep(fe["lineColor" + Q], 20); for (let Q = 0; Q < fe.THEME_COLOR_LIMIT; Q++) { const ce = "" + (17 - 3 * Q); he += ` .section-${Q - 1} rect, .section-${Q - 1} path, .section-${Q - 1} circle, .section-${Q - 1} polygon, .section-${Q - 1} path { fill: ${fe["cScale" + Q]}; } .section-${Q - 1} text { fill: ${fe["cScaleLabel" + Q]}; } .node-icon-${Q - 1} { font-size: 40px; color: ${fe["cScaleLabel" + Q]}; } .section-edge-${Q - 1}{ stroke: ${fe["cScale" + Q]}; } .edge-depth-${Q - 1}{ stroke-width: ${ce}; } .section-${Q - 1} line { stroke: ${fe["cScaleInv" + Q]} ; stroke-width: 3; } .disabled, .disabled circle, .disabled text { fill: lightgray; } .disabled text { fill: #efefef; } `; } return he; }, iy = (fe) => ` .edge { stroke-width: 3; } ${ny(fe)} .section-root rect, .section-root path, .section-root circle, .section-root polygon { fill: ${fe.git0}; } .section-root text { fill: ${fe.gitBranchLabel0}; } .icon-container { height:100%; display: flex; justify-content: center; align-items: center; } .edge { fill: none; } `, sy = iy, fy = { db: Rp, renderer: ay, parser: Tp, styles: sy }; export { fy as diagram }; //# sourceMappingURL=mindmap-definition-9c087979.js.map