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"..." : "")).replace(/\n/g, ""); }, "upcomingInput"), // displays the character position where the lexing error occurred, i.e. for error messages showPosition: /* @__PURE__ */ p(function() { var s = this.pastInput(), o = new Array(s.length + 1).join("-"); return s + this.upcomingInput() + ` ` + o + "^"; }, "showPosition"), // test the lexed token: return FALSE when not a match, otherwise return token test_match: /* @__PURE__ */ p(function(s, o) { var l, x, v; if (this.options.backtrack_lexer && (v = { 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 && (v.yylloc.range = this.yylloc.range.slice(0))), x = s[0].match(/(?:\r\n?|\n).*/g), x && (this.yylineno += x.length), this.yylloc = { first_line: this.yylloc.last_line, last_line: this.yylineno + 1, first_column: this.yylloc.last_column, last_column: x ? x[x.length - 1].length - x[x.length - 1].match(/\r?\n?/)[0].length : this.yylloc.last_column + s[0].length }, this.yytext += s[0], this.match += s[0], this.matches = s, 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(s[0].length), this.matched += s[0], l = this.performAction.call(this, this.yy, this, o, this.conditionStack[this.conditionStack.length - 1]), this.done && this._input && (this.done = !1), l) return l; if (this._backtrack) { for (var y in v) this[y] = v[y]; return !1; } return !1; }, "test_match"), // return next match in input next: /* @__PURE__ */ p(function() { if (this.done) return this.EOF; this._input || (this.done = !0); var s, o, l, x; this._more || (this.yytext = "", this.match = ""); for (var v = this._currentRules(), y = 0; y < v.length; y++) if (l = this._input.match(this.rules[v[y]]), l && (!o || l[0].length > o[0].length)) { if (o = l, x = y, this.options.backtrack_lexer) { if (s = this.test_match(l, v[y]), s !== !1) return s; if (this._backtrack) { o = !1; continue; } else return !1; } else if (!this.options.flex) break; } return o ? (s = this.test_match(o, v[x]), s !== !1 ? s : !1) : this._input === "" ? this.EOF : this.parseError("Lexical error on line " + (this.yylineno + 1) + `. Unrecognized text. ` + this.showPosition(), { text: "", token: null, line: this.yylineno }); }, "next"), // return next match that has a token lex: /* @__PURE__ */ p(function() { var o = this.next(); return o || this.lex(); }, "lex"), // activates a new lexer condition state (pushes the new lexer condition state onto the condition stack) begin: /* @__PURE__ */ p(function(o) { this.conditionStack.push(o); }, "begin"), // pop the previously active lexer condition state off the condition stack popState: /* @__PURE__ */ p(function() { var o = this.conditionStack.length - 1; return o > 0 ? this.conditionStack.pop() : this.conditionStack[0]; }, "popState"), // produce the lexer rule set which is active for the currently active lexer condition state _currentRules: /* @__PURE__ */ p(function() { return this.conditionStack.length && this.conditionStack[this.conditionStack.length - 1] ? this.conditions[this.conditionStack[this.conditionStack.length - 1]].rules : this.conditions.INITIAL.rules; }, "_currentRules"), // return the currently active lexer condition state; when an index argument is provided it produces the N-th previous condition state, if available topState: /* @__PURE__ */ p(function(o) { return o = this.conditionStack.length - 1 - Math.abs(o || 0), o >= 0 ? this.conditionStack[o] : "INITIAL"; }, "topState"), // alias for begin(condition) pushState: /* @__PURE__ */ p(function(o) { this.begin(o); }, "pushState"), // return the number of states currently on the stack stateStackSize: /* @__PURE__ */ p(function() { return this.conditionStack.length; }, "stateStackSize"), options: { "case-insensitive": !0 }, performAction: /* @__PURE__ */ p(function(o, l, x, v) { switch (x) { case 0: return this.pushState("csv"), 4; case 1: return 10; case 2: return 5; case 3: return 12; case 4: return this.pushState("escaped_text"), 18; case 5: return 20; case 6: return this.popState("escaped_text"), 18; case 7: return 19; } }, "anonymous"), rules: [/^(?:sankey-beta\b)/i, /^(?:$)/i, /^(?:((\u000D\u000A)|(\u000A)))/i, /^(?:(\u002C))/i, /^(?:(\u0022))/i, /^(?:([\u0020-\u0021\u0023-\u002B\u002D-\u007E])*)/i, /^(?:(\u0022)(?!(\u0022)))/i, /^(?:(([\u0020-\u0021\u0023-\u002B\u002D-\u007E])|(\u002C)|(\u000D)|(\u000A)|(\u0022)(\u0022))*)/i], conditions: { csv: { rules: [1, 2, 3, 4, 5, 6, 7], inclusive: !1 }, escaped_text: { rules: [6, 7], inclusive: !1 }, INITIAL: { rules: [0, 1, 2, 3, 4, 5, 6, 7], inclusive: !0 } } }; return _; }(); h.lexer = d; function m() { this.yy = {}; } return p(m, "Parser"), m.prototype = h, h.Parser = m, new m(); }(); at.parser = at; var K = at, J = [], tt = [], Z = /* @__PURE__ */ new Map(), Zt = /* @__PURE__ */ p(() => { J = [], tt = [], Z = /* @__PURE__ */ new Map(), Lt(); }, "clear"), W, Jt = (W = class { constructor(e, i, a = 0) { this.source = e, this.target = i, this.value = a; } }, p(W, "SankeyLink"), W), te = /* @__PURE__ */ p((t, e, i) => { J.push(new Jt(t, e, i)); }, "addLink"), U, ee = (U = class { constructor(e) { this.ID = e; } }, p(U, "SankeyNode"), U), ne = /* @__PURE__ */ p((t) => { t = Et.sanitizeText(t, lt()); let e = Z.get(t); return e === void 0 && (e = new ee(t), Z.set(t, e), tt.push(e)), e; }, "findOrCreateNode"), ie = /* @__PURE__ */ p(() => tt, "getNodes"), se = /* @__PURE__ */ p(() => J, "getLinks"), re = /* @__PURE__ */ p(() => ({ nodes: tt.map((t) => ({ id: t.ID })), links: J.map((t) => ({ source: t.source.ID, target: t.target.ID, value: t.value })) }), "getGraph"), oe = { nodesMap: Z, getConfig: /* @__PURE__ */ p(() => lt().sankey, "getConfig"), getNodes: ie, getLinks: se, getGraph: re, addLink: te, findOrCreateNode: ne, getAccTitle: _t, setAccTitle: xt, getAccDescription: vt, setAccDescription: bt, getDiagramTitle: wt, setDiagramTitle: St, clear: Zt }, z, gt = (z = class { static next(e) { return new z(e + ++z.count); } constructor(e) { this.id = e, this.href = `#${e}`; } toString() { return "url(" + this.href + ")"; } }, p(z, "Uid"), z.count = 0, z), ae = { left: Ct, right: Ot, center: Dt, justify: mt }, le = /* @__PURE__ */ p(function(t, e, i, a) { const { securityLevel: h, sankey: d } = lt(), m = At.sankey; let _; h === "sandbox" && (_ = X("#i" + e)); const s = h === "sandbox" ? X(_.nodes()[0].contentDocument.body) : X("body"), o = h === "sandbox" ? s.select(`[id="${e}"]`) : X(`[id="${e}"]`), l = (d == null ? void 0 : d.width) ?? m.width, x = (d == null ? void 0 : d.height) ?? m.width, v = (d == null ? void 0 : d.useMaxWidth) ?? m.useMaxWidth, y = (d == null ? void 0 : d.nodeAlignment) ?? m.nodeAlignment, b = (d == null ? void 0 : d.prefix) ?? m.prefix, M = (d == null ? void 0 : d.suffix) ?? m.suffix, T = (d == null ? void 0 : d.showValues) ?? m.showValues, N = a.db.getGraph(), C = ae[y]; Bt().nodeId((g) => g.id).nodeWidth(10).nodePadding(10 + (T ? 15 : 0)).nodeAlign(C).extent([ [0, 0], [l, x] ])(N); const S = Mt(It); o.append("g").attr("class", "nodes").selectAll(".node").data(N.nodes).join("g").attr("class", "node").attr("id", (g) => (g.uid = gt.next("node-")).id).attr("transform", function(g) { return "translate(" + g.x0 + "," + g.y0 + ")"; }).attr("x", (g) => g.x0).attr("y", (g) => g.y0).append("rect").attr("height", (g) => g.y1 - g.y0).attr("width", (g) => g.x1 - g.x0).attr("fill", (g) => S(g.id)); const P = /* @__PURE__ */ p(({ id: g, value: E }) => T ? `${g} ${b}${Math.round(E * 100) / 100}${M}` : g, "getText"); o.append("g").attr("class", "node-labels").attr("font-size", 14).selectAll("text").data(N.nodes).join("text").attr("x", (g) => g.x0 < l / 2 ? g.x1 + 6 : g.x0 - 6).attr("y", (g) => (g.y1 + g.y0) / 2).attr("dy", `${T ? "0" : "0.35"}em`).attr("text-anchor", (g) => g.x0 < l / 2 ? "start" : "end").text(P); const B = o.append("g").attr("class", "links").attr("fill", "none").attr("stroke-opacity", 0.5).selectAll(".link").data(N.links).join("g").attr("class", "link").style("mix-blend-mode", "multiply"), O = (d == null ? void 0 : d.linkColor) ?? "gradient"; if (O === "gradient") { const g = B.append("linearGradient").attr("id", (E) => (E.uid = gt.next("linearGradient-")).id).attr("gradientUnits", "userSpaceOnUse").attr("x1", (E) => E.source.x1).attr("x2", (E) => E.target.x0); g.append("stop").attr("offset", "0%").attr("stop-color", (E) => S(E.source.id)), g.append("stop").attr("offset", "100%").attr("stop-color", (E) => S(E.target.id)); } let D; switch (O) { case "gradient": D = /* @__PURE__ */ p((g) => g.uid, "coloring"); break; case "source": D = /* @__PURE__ */ p((g) => S(g.source.id), "coloring"); break; case "target": D = /* @__PURE__ */ p((g) => S(g.target.id), "coloring"); break; default: D = O; } B.append("path").attr("d", Kt()).attr("stroke", D).attr("stroke-width", (g) => Math.max(1, g.width)), Tt(void 0, o, 0, v); }, "draw"), ce = { draw: le }, ue = /* @__PURE__ */ p((t) => t.replaceAll(/^[^\S\n\r]+|[^\S\n\r]+$/g, "").replaceAll(/([\n\r])+/g, ` `).trim(), "prepareTextForParsing"), he = /* @__PURE__ */ p((t) => `.label { font-family: ${t.fontFamily}; }`, "getStyles"), fe = he, ye = K.parse.bind(K); K.parse = (t) => ye(ue(t)); var pe = { styles: fe, parser: K, db: oe, renderer: ce }; export { pe as diagram };