import { _ as X, aq as F, ar as Y, as as _, at as H, l as i, d as V, au as q, av as U, af as $, ak as z, ag as P, ae as K, aw as Q, ax as W, ay as Z } from "./mermaid.core-Cmyps_S7.js"; import { G as B } from "./graph-BaPzJnYr.js"; import { l as I } from "./layout-ZrEF_W9p.js"; import { i as x } from "./_baseUniq-BN26mYqf.js"; import { c as L } from "./clone-Bt-5RraT.js"; import { m as A } from "./_basePickBy-Bz_aTL3_.js"; function p(e) { var t = { options: { directed: e.isDirected(), multigraph: e.isMultigraph(), compound: e.isCompound() }, nodes: ee(e), edges: ne(e) }; return x(e.graph()) || (t.value = L(e.graph())), t; } function ee(e) { return A(e.nodes(), function(t) { var n = e.node(t), o = e.parent(t), c = { v: t }; return x(n) || (c.value = n), x(o) || (c.parent = o), c; }); } function ne(e) { return A(e.edges(), function(t) { var n = e.edge(t), o = { v: t.v, w: t.w }; return x(t.name) || (o.name = t.name), x(n) || (o.value = n), o; }); } var f = /* @__PURE__ */ new Map(), b = /* @__PURE__ */ new Map(), J = /* @__PURE__ */ new Map(), te = /* @__PURE__ */ X(() => { b.clear(), J.clear(), f.clear(); }, "clear"), O = /* @__PURE__ */ X((e, t) => { const n = b.get(t) || []; return i.trace("In isDescendant", t, " ", e, " = ", n.includes(e)), n.includes(e); }, "isDescendant"), se = /* @__PURE__ */ X((e, t) => { const n = b.get(t) || []; return i.info("Descendants of ", t, " is ", n), i.info("Edge is ", e), e.v === t || e.w === t ? !1 : n ? n.includes(e.v) || O(e.v, t) || O(e.w, t) || n.includes(e.w) : (i.debug("Tilt, ", t, ",not in descendants"), !1); }, "edgeInCluster"), G = /* @__PURE__ */ X((e, t, n, o) => { i.warn( "Copying children of ", e, "root", o, "data", t.node(e), o ); const c = t.children(e) || []; e !== o && c.push(e), i.warn("Copying (nodes) clusterId", e, "nodes", c), c.forEach((a) => { if (t.children(a).length > 0) G(a, t, n, o); else { const r = t.node(a); i.info("cp ", a, " to ", o, " with parent ", e), n.setNode(a, r), o !== t.parent(a) && (i.warn("Setting parent", a, t.parent(a)), n.setParent(a, t.parent(a))), e !== o && a !== e ? (i.debug("Setting parent", a, e), n.setParent(a, e)) : (i.info("In copy ", e, "root", o, "data", t.node(e), o), i.debug( "Not Setting parent for node=", a, "cluster!==rootId", e !== o, "node!==clusterId", a !== e )); const u = t.edges(a); i.debug("Copying Edges", u), u.forEach((l) => { i.info("Edge", l); const h = t.edge(l.v, l.w, l.name); i.info("Edge data", h, o); try { se(l, o) ? (i.info("Copying as ", l.v, l.w, h, l.name), n.setEdge(l.v, l.w, h, l.name), i.info("newGraph edges ", n.edges(), n.edge(n.edges()[0]))) : i.info( "Skipping copy of edge ", l.v, "-->", l.w, " rootId: ", o, " clusterId:", e ); } catch (C) { i.error(C); } }); } i.debug("Removing node", a), t.removeNode(a); }); }, "copy"), R = /* @__PURE__ */ X((e, t) => { const n = t.children(e); let o = [...n]; for (const c of n) J.set(c, e), o = [...o, ...R(c, t)]; return o; }, "extractDescendants"), ie = /* @__PURE__ */ X((e, t, n) => { const o = e.edges().filter((l) => l.v === t || l.w === t), c = e.edges().filter((l) => l.v === n || l.w === n), a = o.map((l) => ({ v: l.v === t ? n : l.v, w: l.w === t ? t : l.w })), r = c.map((l) => ({ v: l.v, w: l.w })); return a.filter((l) => r.some((h) => l.v === h.v && l.w === h.w)); }, "findCommonEdges"), D = /* @__PURE__ */ X((e, t, n) => { const o = t.children(e); if (i.trace("Searching children of id ", e, o), o.length < 1) return e; let c; for (const a of o) { const r = D(a, t, n), u = ie(t, n, r); if (r) if (u.length > 0) c = r; else return r; } return c; }, "findNonClusterChild"), k = /* @__PURE__ */ X((e) => !f.has(e) || !f.get(e).externalConnections ? e : f.has(e) ? f.get(e).id : e, "getAnchorId"), re = /* @__PURE__ */ X((e, t) => { if (!e || t > 10) { i.debug("Opting out, no graph "); return; } else i.debug("Opting in, graph "); e.nodes().forEach(function(n) { e.children(n).length > 0 && (i.warn( "Cluster identified", n, " Replacement id in edges: ", D(n, e, n) ), b.set(n, R(n, e)), f.set(n, { id: D(n, e, n), clusterData: e.node(n) })); }), e.nodes().forEach(function(n) { const o = e.children(n), c = e.edges(); o.length > 0 ? (i.debug("Cluster identified", n, b), c.forEach((a) => { const r = O(a.v, n), u = O(a.w, n); r ^ u && (i.warn("Edge: ", a, " leaves cluster ", n), i.warn("Descendants of XXX ", n, ": ", b.get(n)), f.get(n).externalConnections = !0); })) : i.debug("Not a cluster ", n, b); }); for (let n of f.keys()) { const o = f.get(n).id, c = e.parent(o); c !== n && f.has(c) && !f.get(c).externalConnections && (f.get(n).id = c); } e.edges().forEach(function(n) { const o = e.edge(n); i.warn("Edge " + n.v + " -> " + n.w + ": " + JSON.stringify(n)), i.warn("Edge " + n.v + " -> " + n.w + ": " + JSON.stringify(e.edge(n))); let c = n.v, a = n.w; if (i.warn( "Fix XXX", f, "ids:", n.v, n.w, "Translating: ", f.get(n.v), " --- ", f.get(n.w) ), f.get(n.v) || f.get(n.w)) { if (i.warn("Fixing and trying - removing XXX", n.v, n.w, n.name), c = k(n.v), a = k(n.w), e.removeEdge(n.v, n.w, n.name), c !== n.v) { const r = e.parent(c); f.get(r).externalConnections = !0, o.fromCluster = n.v; } if (a !== n.w) { const r = e.parent(a); f.get(r).externalConnections = !0, o.toCluster = n.w; } i.warn("Fix Replacing with XXX", c, a, n.name), e.setEdge(c, a, o, n.name); } }), i.warn("Adjusted Graph", p(e)), T(e, 0), i.trace(f); }, "adjustClustersAndEdges"), T = /* @__PURE__ */ X((e, t) => { var c, a; if (i.warn("extractor - ", t, p(e), e.children("D")), t > 10) { i.error("Bailing out"); return; } let n = e.nodes(), o = !1; for (const r of n) { const u = e.children(r); o = o || u.length > 0; } if (!o) { i.debug("Done, no node has children", e.nodes()); return; } i.debug("Nodes = ", n, t); for (const r of n) if (i.debug( "Extracting node", r, f, f.has(r) && !f.get(r).externalConnections, !e.parent(r), e.node(r), e.children("D"), " Depth ", t ), !f.has(r)) i.debug("Not a cluster", r, t); else if (!f.get(r).externalConnections && e.children(r) && e.children(r).length > 0) { i.warn( "Cluster without external connections, without a parent and with children", r, t ); let l = e.graph().rankdir === "TB" ? "LR" : "TB"; (a = (c = f.get(r)) == null ? void 0 : c.clusterData) != null && a.dir && (l = f.get(r).clusterData.dir, i.warn("Fixing dir", f.get(r).clusterData.dir, l)); const h = new B({ multigraph: !0, compound: !0 }).setGraph({ rankdir: l, nodesep: 50, ranksep: 50, marginx: 8, marginy: 8 }).setDefaultEdgeLabel(function() { return {}; }); i.warn("Old graph before copy", p(e)), G(r, e, h, r), e.setNode(r, { clusterNode: !0, id: r, clusterData: f.get(r).clusterData, label: f.get(r).label, graph: h }), i.warn("New graph after copy node: (", r, ")", p(h)), i.debug("Old graph after copy", p(e)); } else i.warn( "Cluster ** ", r, " **not meeting the criteria !externalConnections:", !f.get(r).externalConnections, " no parent: ", !e.parent(r), " children ", e.children(r) && e.children(r).length > 0, e.children("D"), t ), i.debug(f); n = e.nodes(), i.warn("New list of nodes", n); for (const r of n) { const u = e.node(r); i.warn(" Now next level", r, u), u != null && u.clusterNode && T(u.graph, t + 1); } }, "extractor"), M = /* @__PURE__ */ X((e, t) => { if (t.length === 0) return []; let n = Object.assign([], t); return t.forEach((o) => { const c = e.children(o), a = M(e, c); n = [...n, ...a]; }), n; }, "sorter"), oe = /* @__PURE__ */ X((e) => M(e, e.children()), "sortNodesByHierarchy"), j = /* @__PURE__ */ X(async (e, t, n, o, c, a) => { i.warn("Graph in recursive render:XAX", p(t), c); const r = t.graph().rankdir; i.trace("Dir in recursive render - dir:", r); const u = e.insert("g").attr("class", "root"); t.nodes() ? i.info("Recursive render XXX", t.nodes()) : i.info("No nodes found for", t), t.edges().length > 0 && i.info("Recursive edges", t.edge(t.edges()[0])); const l = u.insert("g").attr("class", "clusters"), h = u.insert("g").attr("class", "edgePaths"), C = u.insert("g").attr("class", "edgeLabels"), g = u.insert("g").attr("class", "nodes"); await Promise.all( t.nodes().map(async function(d) { const s = t.node(d); if (c !== void 0) { const w = JSON.parse(JSON.stringify(c.clusterData)); i.trace( `Setting data for parent cluster XXX Node.id = `, d, ` data=`, w.height, ` Parent cluster`, c.height ), t.setNode(c.id, w), t.parent(d) || (i.trace("Setting parent", d, c.id), t.setParent(d, c.id, w)); } if (i.info("(Insert) Node XXX" + d + ": " + JSON.stringify(t.node(d))), s != null && s.clusterNode) { i.info("Cluster identified XBX", d, s.width, t.node(d)); const { ranksep: w, nodesep: m } = t.graph(); s.graph.setGraph({ ...s.graph.graph(), ranksep: w + 25, nodesep: m }); const N = await j( g, s.graph, n, o, t.node(d), a ), S = N.elem; q(s, S), s.diff = N.diff || 0, i.info( "New compound node after recursive render XAX", d, "width", // node, s.width, "height", s.height // node.x, // node.y ), U(S, s); } else t.children(d).length > 0 ? (i.trace( "Cluster - the non recursive path XBX", d, s.id, s, s.width, "Graph:", t ), i.trace(D(s.id, t)), f.set(s.id, { id: D(s.id, t), node: s })) : (i.trace("Node - the non recursive path XAX", d, g, t.node(d), r), await $(g, t.node(d), { config: a, dir: r })); }) ), await (/* @__PURE__ */ X(async () => { const d = t.edges().map(async function(s) { const w = t.edge(s.v, s.w, s.name); i.info("Edge " + s.v + " -> " + s.w + ": " + JSON.stringify(s)), i.info("Edge " + s.v + " -> " + s.w + ": ", s, " ", JSON.stringify(t.edge(s))), i.info( "Fix", f, "ids:", s.v, s.w, "Translating: ", f.get(s.v), f.get(s.w) ), await Z(C, w); }); await Promise.all(d); }, "processEdges"))(), i.info("Graph before layout:", JSON.stringify(p(t))), i.info("############################################# XXX"), i.info("### Layout ### XXX"), i.info("############################################# XXX"), I(t), i.info("Graph after layout:", JSON.stringify(p(t))); let E = 0, { subGraphTitleTotalMargin: y } = z(a); return await Promise.all( oe(t).map(async function(d) { var w; const s = t.node(d); if (i.info( "Position XBX => " + d + ": (" + s.x, "," + s.y, ") width: ", s.width, " height: ", s.height ), s != null && s.clusterNode) s.y += y, i.info( "A tainted cluster node XBX1", d, s.id, s.width, s.height, s.x, s.y, t.parent(d) ), f.get(s.id).node = s, P(s); else if (t.children(d).length > 0) { i.info( "A pure cluster node XBX1", d, s.id, s.x, s.y, s.width, s.height, t.parent(d) ), s.height += y, t.node(s.parentId); const m = (s == null ? void 0 : s.padding) / 2 || 0, N = ((w = s == null ? void 0 : s.labelBBox) == null ? void 0 : w.height) || 0, S = N - m || 0; i.debug("OffsetY", S, "labelHeight", N, "halfPadding", m), await K(l, s), f.get(s.id).node = s; } else { const m = t.node(s.parentId); s.y += y / 2, i.info( "A regular node XBX1 - using the padding", s.id, "parent", s.parentId, s.width, s.height, s.x, s.y, "offsetY", s.offsetY, "parent", m, m == null ? void 0 : m.offsetY, s ), P(s); } }) ), t.edges().forEach(function(d) { const s = t.edge(d); i.info("Edge " + d.v + " -> " + d.w + ": " + JSON.stringify(s), s), s.points.forEach((S) => S.y += y / 2); const w = t.node(d.v); var m = t.node(d.w); const N = Q(h, s, f, n, w, m, o); W(s, N); }), t.nodes().forEach(function(d) { const s = t.node(d); i.info(d, s.type, s.diff), s.isGroup && (E = s.diff); }), i.warn("Returning from recursive render XAX", u, E), { elem: u, diff: E }; }, "recursiveRender"), ge = /* @__PURE__ */ X(async (e, t) => { var a, r, u, l, h, C; const n = new B({ multigraph: !0, compound: !0 }).setGraph({ rankdir: e.direction, nodesep: ((a = e.config) == null ? void 0 : a.nodeSpacing) || ((u = (r = e.config) == null ? void 0 : r.flowchart) == null ? void 0 : u.nodeSpacing) || e.nodeSpacing, ranksep: ((l = e.config) == null ? void 0 : l.rankSpacing) || ((C = (h = e.config) == null ? void 0 : h.flowchart) == null ? void 0 : C.rankSpacing) || e.rankSpacing, marginx: 8, marginy: 8 }).setDefaultEdgeLabel(function() { return {}; }), o = t.select("g"); F(o, e.markers, e.type, e.diagramId), Y(), _(), H(), te(), e.nodes.forEach((g) => { n.setNode(g.id, { ...g }), g.parentId && n.setParent(g.id, g.parentId); }), i.debug("Edges:", e.edges), e.edges.forEach((g) => { if (g.start === g.end) { const v = g.start, E = v + "---" + v + "---1", y = v + "---" + v + "---2", d = n.node(v); n.setNode(E, { domId: E, id: E, parentId: d.parentId, labelStyle: "", label: "", padding: 0, shape: "labelRect", // shape: 'rect', style: "", width: 10, height: 10 }), n.setParent(E, d.parentId), n.setNode(y, { domId: y, id: y, parentId: d.parentId, labelStyle: "", padding: 0, // shape: 'rect', shape: "labelRect", label: "", style: "", width: 10, height: 10 }), n.setParent(y, d.parentId); const s = structuredClone(g), w = structuredClone(g), m = structuredClone(g); s.label = "", s.arrowTypeEnd = "none", s.id = v + "-cyclic-special-1", w.arrowTypeStart = "none", w.arrowTypeEnd = "none", w.id = v + "-cyclic-special-mid", m.label = "", d.isGroup && (s.fromCluster = v, m.toCluster = v), m.id = v + "-cyclic-special-2", m.arrowTypeStart = "none", n.setEdge(v, E, s, v + "-cyclic-special-0"), n.setEdge(E, y, w, v + "-cyclic-special-1"), n.setEdge(y, v, m, v + "-cyc