import { i as N, G as A } from "./graph-dee88f0d.js";
import { m as J, l as H } from "./layout-03086fc5.js";
import { c as V } from "./clone-a4e35854.js";
import { c as L, g as D, i as p, a as U, b as W, d as _, u as q, s as z, e as K, f as Q, p as O, h as Y, j as Z } from "./edges-4734986e.js";
import { l as s, c as T, p as S, j as R } from "./mermaid-00886c59.js";
import { a as I } from "./createText-0ee50ac4.js";
function m(e) {
var t = {
options: {
directed: e.isDirected(),
multigraph: e.isMultigraph(),
compound: e.isCompound()
},
nodes: tt(e),
edges: et(e)
};
return N(e.graph()) || (t.value = V(e.graph())), t;
}
function tt(e) {
return J(e.nodes(), function(t) {
var n = e.node(t), r = e.parent(t), i = { v: t };
return N(n) || (i.value = n), N(r) || (i.parent = r), i;
});
}
function et(e) {
return J(e.edges(), function(t) {
var n = e.edge(t), r = { v: t.v, w: t.w };
return N(t.name) || (r.name = t.name), N(n) || (r.value = n), r;
});
}
let l = {}, g = {}, P = {};
const nt = () => {
g = {}, P = {}, l = {};
}, B = (e, t) => (s.trace("In isDescendant", t, " ", e, " = ", g[t].includes(e)), !!g[t].includes(e)), it = (e, t) => (s.info("Descendants of ", t, " is ", g[t]), s.info("Edge is ", e), e.v === t || e.w === t ? !1 : g[t] ? g[t].includes(e.v) || B(e.v, t) || B(e.w, t) || g[t].includes(e.w) : (s.debug("Tilt, ", t, ",not in descendants"), !1)), k = (e, t, n, r) => {
s.warn(
"Copying children of ",
e,
"root",
r,
"data",
t.node(e),
r
);
const i = t.children(e) || [];
e !== r && i.push(e), s.warn("Copying (nodes) clusterId", e, "nodes", i), i.forEach((a) => {
if (t.children(a).length > 0)
k(a, t, n, r);
else {
const d = t.node(a);
s.info("cp ", a, " to ", r, " with parent ", e), n.setNode(a, d), r !== t.parent(a) && (s.warn("Setting parent", a, t.parent(a)), n.setParent(a, t.parent(a))), e !== r && a !== e ? (s.debug("Setting parent", a, e), n.setParent(a, e)) : (s.info("In copy ", e, "root", r, "data", t.node(e), r), s.debug(
"Not Setting parent for node=",
a,
"cluster!==rootId",
e !== r,
"node!==clusterId",
a !== e
));
const u = t.edges(a);
s.debug("Copying Edges", u), u.forEach((f) => {
s.info("Edge", f);
const h = t.edge(f.v, f.w, f.name);
s.info("Edge data", h, r);
try {
it(f, r) ? (s.info("Copying as ", f.v, f.w, h, f.name), n.setEdge(f.v, f.w, h, f.name), s.info("newGraph edges ", n.edges(), n.edge(n.edges()[0]))) : s.info(
"Skipping copy of edge ",
f.v,
"-->",
f.w,
" rootId: ",
r,
" clusterId:",
e
);
} catch (w) {
s.error(w);
}
});
}
s.debug("Removing node", a), t.removeNode(a);
});
}, $ = (e, t) => {
const n = t.children(e);
let r = [...n];
for (const i of n)
P[i] = e, r = [...r, ...$(i, t)];
return r;
}, C = (e, t) => {
s.trace("Searching", e);
const n = t.children(e);
if (s.trace("Searching children of id ", e, n), n.length < 1)
return s.trace("This is a valid node", e), e;
for (const r of n) {
const i = C(r, t);
if (i)
return s.trace("Found replacement for", e, " => ", i), i;
}
}, X = (e) => !l[e] || !l[e].externalConnections ? e : l[e] ? l[e].id : e, st = (e, t) => {
if (!e || t > 10) {
s.debug("Opting out, no graph ");
return;
} else
s.debug("Opting in, graph ");
e.nodes().forEach(function(n) {
e.children(n).length > 0 && (s.warn(
"Cluster identified",
n,
" Replacement id in edges: ",
C(n, e)
), g[n] = $(n, e), l[n] = { id: C(n, e), clusterData: e.node(n) });
}), e.nodes().forEach(function(n) {
const r = e.children(n), i = e.edges();
r.length > 0 ? (s.debug("Cluster identified", n, g), i.forEach((a) => {
if (a.v !== n && a.w !== n) {
const d = B(a.v, n), u = B(a.w, n);
d ^ u && (s.warn("Edge: ", a, " leaves cluster ", n), s.warn("Descendants of XXX ", n, ": ", g[n]), l[n].externalConnections = !0);
}
})) : s.debug("Not a cluster ", n, g);
});
for (let n of Object.keys(l)) {
const r = l[n].id, i = e.parent(r);
i !== n && l[i] && !l[i].externalConnections && (l[n].id = i);
}
e.edges().forEach(function(n) {
const r = e.edge(n);
s.warn("Edge " + n.v + " -> " + n.w + ": " + JSON.stringify(n)), s.warn("Edge " + n.v + " -> " + n.w + ": " + JSON.stringify(e.edge(n)));
let i = n.v, a = n.w;
if (s.warn(
"Fix XXX",
l,
"ids:",
n.v,
n.w,
"Translating: ",
l[n.v],
" --- ",
l[n.w]
), l[n.v] && l[n.w] && l[n.v] === l[n.w]) {
s.warn("Fixing and trixing link to self - removing XXX", n.v, n.w, n.name), s.warn("Fixing and trixing - removing XXX", n.v, n.w, n.name), i = X(n.v), a = X(n.w), e.removeEdge(n.v, n.w, n.name);
const d = n.w + "---" + n.v;
e.setNode(d, {
domId: d,
id: d,
labelStyle: "",
labelText: r.label,
padding: 0,
shape: "labelRect",
style: ""
});
const u = structuredClone(r), f = structuredClone(r);
u.label = "", u.arrowTypeEnd = "none", f.label = "", u.fromCluster = n.v, f.toCluster = n.v, e.setEdge(i, d, u, n.name + "-cyclic-special"), e.setEdge(d, a, f, n.name + "-cyclic-special");
} else if (l[n.v] || l[n.w]) {
if (s.warn("Fixing and trixing - removing XXX", n.v, n.w, n.name), i = X(n.v), a = X(n.w), e.removeEdge(n.v, n.w, n.name), i !== n.v) {
const d = e.parent(i);
l[d].externalConnections = !0, r.fromCluster = n.v;
}
if (a !== n.w) {
const d = e.parent(a);
l[d].externalConnections = !0, r.toCluster = n.w;
}
s.warn("Fix Replacing with XXX", i, a, n.name), e.setEdge(i, a, r, n.name);
}
}), s.warn("Adjusted Graph", m(e)), F(e, 0), s.trace(l);
}, F = (e, t) => {
if (s.warn("extractor - ", t, m(e), e.children("D")), t > 10) {
s.error("Bailing out");
return;
}
let n = e.nodes(), r = !1;
for (const i of n) {
const a = e.children(i);
r = r || a.length > 0;
}
if (!r) {
s.debug("Done, no node has children", e.nodes());
return;
}
s.debug("Nodes = ", n, t);
for (const i of n)
if (s.debug(
"Extracting node",
i,
l,
l[i] && !l[i].externalConnections,
!e.parent(i),
e.node(i),
e.children("D"),
" Depth ",
t
), !l[i])
s.debug("Not a cluster", i, t);
else if (!l[i].externalConnections && // !graph.parent(node) &&
e.children(i) && e.children(i).length > 0) {
s.warn(
"Cluster without external connections, without a parent and with children",
i,
t
);
let d = e.graph().rankdir === "TB" ? "LR" : "TB";
l[i] && l[i].clusterData && l[i].clusterData.dir && (d = l[i].clusterData.dir, s.warn("Fixing dir", l[i].clusterData.dir, d));
const u = new A({
multigraph: !0,
compound: !0
}).setGraph({
rankdir: d,
// Todo: set proper spacing
nodesep: 50,
ranksep: 50,
marginx: 8,
marginy: 8
}).setDefaultEdgeLabel(function() {
return {};
});
s.warn("Old graph before copy", m(e)), k(i, e, u, i), e.setNode(i, {
clusterNode: !0,
id: i,
clusterData: l[i].clusterData,
labelText: l[i].labelText,
graph: u
}), s.warn("New graph after copy node: (", i, ")", m(u)), s.debug("Old graph after copy", m(e));
} else
s.warn(
"Cluster ** ",
i,
" **not meeting the criteria !externalConnections:",
!l[i].externalConnections,
" no parent: ",
!e.parent(i),
" children ",
e.children(i) && e.children(i).length > 0,
e.children("D"),
t
), s.debug(l);
n = e.nodes(), s.warn("New list of nodes", n);
for (const i of n) {
const a = e.node(i);
s.warn(" Now next level", i, a), a.clusterNode && F(a.graph, t + 1);
}
}, G = (e, t) => {
if (t.length === 0)
return [];
let n = Object.assign(t);
return t.forEach((r) => {
const i = e.children(r), a = G(e, i);
n = [...n, ...a];
}), n;
}, rt = (e) => G(e, e.children()), at = (e, t) => {
s.info("Creating subgraph rect for ", t.id, t);
const n = T(), r = e.insert("g").attr("class", "cluster" + (t.class ? " " + t.class : "")).attr("id", t.id), i = r.insert("rect", ":first-child"), a = S(n.flowchart.htmlLabels), d = r.insert("g").attr("class", "cluster-label"), u = t.labelType === "markdown" ? I(d, t.labelText, { style: t.labelStyle, useHtmlLabels: a }) : d.node().appendChild(L(t.labelText, t.labelStyle, void 0, !0));
let f = u.getBBox();
if (S(n.flowchart.htmlLabels)) {
const c = u.children[0], o = R(u);
f = c.getBoundingClientRect(), o.attr("width", f.width), o.attr("height", f.height);
}
const h = 0 * t.padding, w = h / 2, x = t.width <= f.width + h ? f.width + h : t.width;
t.width <= f.width + h ? t.diff = (f.width - t.width) / 2 - t.padding / 2 : t.diff = -t.padding / 2, s.trace("Data ", t, JSON.stringify(t)), i.attr("style", t.style).attr("rx", t.rx).attr("ry", t.ry).attr("x", t.x - x / 2).attr("y", t.y - t.height / 2 - w).attr("width", x).attr("height", t.height + h);
const { subGraphTitleTopMargin: v } = D(n);
a ? d.attr(
"transform",
// This puts the label on top of the box instead of inside it
`translate(${t.x - f.width / 2}, ${t.y - t.height / 2 + v})`
) : d.attr(
"transform",
// This puts the label on top of the box instead of inside it
`translate(${t.x}, ${t.y - t.height / 2 + v})`
);
const y = i.node().getBBox();
return t.width = y.width, t.height = y.height, t.intersect = function(c) {
return p(t, c);
}, r;
}, ct = (e, t) => {
const n = e.insert("g").attr("class", "note-cluster").attr("id", t.id), r = n.insert("rect", ":first-child"), i = 0 * t.padding, a = i / 2;
r.attr("rx", t.rx).attr("ry", t.ry).attr("x", t.x - t.width / 2 - a).attr("y", t.y - t.height / 2 - a).attr("width", t.width + i).attr("height", t.height + i).attr("fill", "none");
const d = r.node().getBBox();
return t.width = d.width, t.height = d.height, t.intersect = function(u) {
return p(t, u);
}, n;
}, ot = (e, t) => {
const n = T(), r = e.insert("g").attr("class", t.classes).attr("id", t.id), i = r.insert("rect", ":first-child"), a = r.insert("g").attr("class", "cluster-label"), d = r.append("rect"), u = a.node().appendChild(L(t.labelText, t.labelStyle, void 0, !0));
let f = u.getBBox();
if (S(n.flowchart.htmlLabels)) {
const c = u.children[0], o = R(u);
f = c.getBoundingClientRect(), o.attr("width", f.width), o.attr("height", f.height);
}
f = u.getBBox();
const h = 0 * t.padding, w = h / 2, x = t.width <= f.width + t.padding ? f.width + t.padding : t.width;
t.width <= f.width + t.padding ? t.diff = (f.width + t.padding * 0 - t.width) / 2 : t.diff = -t.padding / 2, i.attr("class", "outer").attr("x", t.x - x / 2 - w).attr("y", t.y - t.height / 2 - w).attr("width", x + h).attr("height", t.height + h), d.attr("class", "inner").attr("x", t.x - x / 2 - w).attr("y", t.y - t.height / 2 - w + f.height - 1).attr("width", x + h).attr("height", t.height + h - f.height - 3);
const { subGraphTitleTopMargin: v } = D(n);
a.attr(
"transform",
`translate(${t.x - f.width / 2}, ${t.y - t.height / 2 - t.padding / 3 + (S(n.flowchart.htmlLabels) ? 5 : 3) + v})`
);
const y = i.node().getBBox();
return t.height = y.height, t.intersect = function(c) {
return p(t, c);
}, r;
}, lt = (e, t) => {
const n = e.insert("g").attr("class", t.classes).attr("id", t.id), r = n.insert("rect", ":first-child"), i = 0 * t.padding, a = i / 2;
r.attr("class", "divider").attr("x", t.x - t.width / 2 - a).attr("y", t.y - t.height / 2).attr("width", t.width + i).attr("height", t.height + i);
const d = r.node().getBBox();
return t.width = d.width, t.height = d.height, t.diff = -t.padding / 2, t.intersect = function(u) {
return p(t, u);
}, n;
}, ft = { rect: at, roundedWithTitle: ot, noteGroup: ct, divider: lt };
let j = {};
const dt = (e, t) => {
s.trace("Inserting cluster");
const n = t.shape || "rect";
j[t.id] = ft[n](e, t);
}, ut = () => {
j = {};
}, M = async (e, t, n, r, i, a) => {
s.info("Graph in recursive render: XXX", m(t), i);
const d = t.graph().rankdir;
s.trace("Dir in recursive render - dir:", d);
const u = e.insert("g").attr("class", "root");
t.nodes() ? s.info("Recursive render XXX", t.nodes()) : s.info("No nodes found for", t), t.edges().length > 0 && s.trace("Recursive edges", t.edge(t.edges()[0]));
const f = u.insert("g").attr("class", "clusters"), h = u.insert("g").attr("class", "edgePaths"), w = u.insert("g").attr("class", "edgeLabels"), x = u.insert("g").attr("class", "nodes");
await Promise.all(
t.nodes().map(async function(c) {
const o = t.node(c);
if (i !== void 0) {
const b = JSON.parse(JSON.stringify(i.clusterData));
s.info("Setting data for cluster XXX (", c, ") ", b, i), t.setNode(i.id, b), t.parent(c) || (s.trace("Setting parent", c, i.id), t.setParent(c, i.id, b));
}
if (s.info("(Insert) Node XXX" + c + ": " + JSON.stringify(t.node(c))), o && o.clusterNode) {
s.info("Cluster identified", c, o.width, t.node(c));
const b = await M(
x,
o.graph,
n,
r,
t.node(c),
a
), E = b.elem;
q(o, E), o.diff = b.diff || 0, s.info("Node bounds (abc123)", c, o, o.width, o.x, o.y), z(E, o), s.warn("Recursive render complete ", E, o);
} else
t.children(c).length > 0 ? (s.info("Cluster - the non recursive path XXX", c, o.id, o, t), s.info(C(o.id, t)), l[o.id] = { id: C(o.id, t), node: o }) : (s.info("Node - the non recursive path", c, o.id, o), await K(x, t.node(c), d));
})
), t.edges().forEach(function(c) {
const o = t.edge(c.v, c.w, c.name);
s.info("Edge " + c.v + " -> " + c.w + ": " + JSON.stringify(c)), s.info("Edge " + c.v + " -> " + c.w + ": ", c, " ", JSON.stringify(t.edge(c))), s.info("Fix", l, "ids:", c.v, c.w, "Translating: ", l[c.v], l[c.w]), Q(w, o);
}), t.edges().forEach(function(c) {
s.info("Edge " + c.v + " -> " + c.w + ": " + JSON.stringify(c));
}), s.info("#############################################"), s.info("### Layout ###"), s.info("#############################################"), s.info(t), H(t), s.info("Graph after layout:", m(t));
let v = 0;
const { subGraphTitleTotalMargin: y } = D(a);
return rt(t).forEach(function(c) {
const o = t.node(c);
s.info("Position " + c + ": " + JSON.stringify(t.node(c))), s.info(
"Position " + c + ": (" + o.x,
"," + o.y,
") width: ",
o.width,
" height: ",
o.height
), o && o.clusterNode ? (o.y += y, O(o)) : t.children(c).length > 0 ? (o.height += y, dt(f, o), l[o.id].node = o) : (o.y += y / 2, O(o));
}), t.edges().forEach(function(c) {
const o = t.edge(c);
s.info("Edge " + c.v + " -> " + c.w + ": " + JSON.stringify(o), o), o.points.forEach((E) => E.y += y / 2);
const b = Y(h, c, o, l, n, t, r);
Z(o, b);
}), t.nodes().forEach(function(c) {
const o = t.node(c);
s.info(c, o.type, o.diff), o.type === "group" && (v = o.diff);
}), { elem: u, diff: v };
}, bt = async (e, t, n, r, i) => {
U(e, n, r, i), W(), _(), ut(), nt(), s.warn("Graph at first:", JSON.stringify(m(t))), st(t), s.warn("Graph after:", JSON.stringify(m(t)));
const a = T();
await M(e, t, r, i, void 0, a);
};
export {
bt as r
};