import { _ as S, l as z, j as Nt, aj as Dt, O as mt, d as at, H as Ot, V as At, C as tt, i as et, W as It, X as Ct, Y as Rt } from "./mermaid.core-Cmyps_S7.js"; import { c as pt } from "./cytoscape.esm-C2cgT2B2.js"; import { c as ot, g as xt } from "./index-DeMSGuTm.js"; var dt = { exports: {} }, it = { exports: {} }, nt = { exports: {} }, ut; function Mt() { return ut || (ut = 1, function(I, w) { (function(m, y) { I.exports = y(); })(ot, function() { return ( /******/ function(f) { var m = {}; function y(r) { if (m[r]) return m[r].exports; var t = m[r] = { /******/ i: r, /******/ l: !1, /******/ exports: {} /******/ }; return f[r].call(t.exports, t, t.exports, y), t.l = !0, t.exports; } return y.m = f, y.c = m, y.i = function(r) { return r; }, y.d = function(r, t, e) { y.o(r, t) || Object.defineProperty(r, t, { /******/ configurable: !1, /******/ enumerable: !0, /******/ get: e /******/ }); }, y.n = function(r) { var t = r && r.__esModule ? ( /******/ function() { return r.default; } ) : ( /******/ function() { return r; } ); return y.d(t, "a", t), t; }, y.o = function(r, t) { return Object.prototype.hasOwnProperty.call(r, t); }, y.p = "", y(y.s = 26); }([ /* 0 */ /***/ function(f, m, y) { function r() { } r.QUALITY = 1, r.DEFAULT_CREATE_BENDS_AS_NEEDED = !1, r.DEFAULT_INCREMENTAL = !1, r.DEFAULT_ANIMATION_ON_LAYOUT = !0, r.DEFAULT_ANIMATION_DURING_LAYOUT = !1, r.DEFAULT_ANIMATION_PERIOD = 50, r.DEFAULT_UNIFORM_LEAF_NODE_SIZES = !1, r.DEFAULT_GRAPH_MARGIN = 15, r.NODE_DIMENSIONS_INCLUDE_LABELS = !1, r.SIMPLE_NODE_SIZE = 40, r.SIMPLE_NODE_HALF_SIZE = r.SIMPLE_NODE_SIZE / 2, r.EMPTY_COMPOUND_NODE_SIZE = 40, r.MIN_EDGE_LENGTH = 1, r.WORLD_BOUNDARY = 1e6, r.INITIAL_WORLD_BOUNDARY = r.WORLD_BOUNDARY / 1e3, r.WORLD_CENTER_X = 1200, r.WORLD_CENTER_Y = 900, f.exports = r; }, /* 1 */ /***/ function(f, m, y) { var r = y(2), t = y(8), e = y(9); function i(g, a, v) { r.call(this, v), this.isOverlapingSourceAndTarget = !1, this.vGraphObject = v, this.bendpoints = [], this.source = g, this.target = a; } i.prototype = Object.create(r.prototype); for (var o in r) i[o] = r[o]; i.prototype.getSource = function() { return this.source; }, i.prototype.getTarget = function() { return this.target; }, i.prototype.isInterGraph = function() { return this.isInterGraph; }, i.prototype.getLength = function() { return this.length; }, i.prototype.isOverlapingSourceAndTarget = function() { return this.isOverlapingSourceAndTarget; }, i.prototype.getBendpoints = function() { return this.bendpoints; }, i.prototype.getLca = function() { return this.lca; }, i.prototype.getSourceInLca = function() { return this.sourceInLca; }, i.prototype.getTargetInLca = function() { return this.targetInLca; }, i.prototype.getOtherEnd = function(g) { if (this.source === g) return this.target; if (this.target === g) return this.source; throw "Node is not incident with this edge"; }, i.prototype.getOtherEndInGraph = function(g, a) { for (var v = this.getOtherEnd(g), n = a.getGraphManager().getRoot(); ; ) { if (v.getOwner() == a) return v; if (v.getOwner() == n) break; v = v.getOwner().getParent(); } return null; }, i.prototype.updateLength = function() { var g = new Array(4); this.isOverlapingSourceAndTarget = t.getIntersection(this.target.getRect(), this.source.getRect(), g), this.isOverlapingSourceAndTarget || (this.lengthX = g[0] - g[2], this.lengthY = g[1] - g[3], Math.abs(this.lengthX) < 1 && (this.lengthX = e.sign(this.lengthX)), Math.abs(this.lengthY) < 1 && (this.lengthY = e.sign(this.lengthY)), this.length = Math.sqrt(this.lengthX * this.lengthX + this.lengthY * this.lengthY)); }, i.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 = e.sign(this.lengthX)), Math.abs(this.lengthY) < 1 && (this.lengthY = e.sign(this.lengthY)), this.length = Math.sqrt(this.lengthX * this.lengthX + this.lengthY * this.lengthY); }, f.exports = i; }, /* 2 */ /***/ function(f, m, y) { function r(t) { this.vGraphObject = t; } f.exports = r; }, /* 3 */ /***/ function(f, m, y) { var r = y(2), t = y(10), e = y(13), i = y(0), o = y(16), g = y(4); function a(n, c, l, E) { l == null && E == null && (E = c), r.call(this, E), n.graphManager != null && (n = n.graphManager), this.estimatedSize = t.MIN_VALUE, this.inclusionTreeDepth = t.MAX_VALUE, this.vGraphObject = E, this.edges = [], this.graphManager = n, l != null && c != null ? this.rect = new e(c.x, c.y, l.width, l.height) : this.rect = new e(); } a.prototype = Object.create(r.prototype); for (var v in r) a[v] = r[v]; a.prototype.getEdges = function() { return this.edges; }, a.prototype.getChild = function() { return this.child; }, a.prototype.getOwner = function() { return this.owner; }, a.prototype.getWidth = function() { return this.rect.width; }, a.prototype.setWidth = function(n) { this.rect.width = n; }, a.prototype.getHeight = function() { return this.rect.height; }, a.prototype.setHeight = function(n) { this.rect.height = n; }, a.prototype.getCenterX = function() { return this.rect.x + this.rect.width / 2; }, a.prototype.getCenterY = function() { return this.rect.y + this.rect.height / 2; }, a.prototype.getCenter = function() { return new g(this.rect.x + this.rect.width / 2, this.rect.y + this.rect.height / 2); }, a.prototype.getLocation = function() { return new g(this.rect.x, this.rect.y); }, a.prototype.getRect = function() { return this.rect; }, a.prototype.getDiagonal = function() { return Math.sqrt(this.rect.width * this.rect.width + this.rect.height * this.rect.height); }, a.prototype.getHalfTheDiagonal = function() { return Math.sqrt(this.rect.height * this.rect.height + this.rect.width * this.rect.width) / 2; }, a.prototype.setRect = function(n, c) { this.rect.x = n.x, this.rect.y = n.y, this.rect.width = c.width, this.rect.height = c.height; }, a.prototype.setCenter = function(n, c) { this.rect.x = n - this.rect.width / 2, this.rect.y = c - this.rect.height / 2; }, a.prototype.setLocation = function(n, c) { this.rect.x = n, this.rect.y = c; }, a.prototype.moveBy = function(n, c) { this.rect.x += n, this.rect.y += c; }, a.prototype.getEdgeListToNode = function(n) { var c = [], l = this; return l.edges.forEach(function(E) { if (E.target == n) { if (E.source != l) throw "Incorrect edge source!"; c.push(E); } }), c; }, a.prototype.getEdgesBetween = function(n) { var c = [], l = this; return l.edges.forEach(function(E) { if (!(E.source == l || E.target == l)) throw "Incorrect edge source and/or target"; (E.target == n || E.source == n) && c.push(E); }), c; }, a.prototype.getNeighborsList = function() { var n = /* @__PURE__ */ new Set(), c = this; return c.edges.forEach(function(l) { if (l.source == c) n.add(l.target); else { if (l.target != c) throw "Incorrect incidency!"; n.add(l.source); } }), n; }, a.prototype.withChildren = function() { var n = /* @__PURE__ */ new Set(), c, l; if (n.add(this), this.child != null) for (var E = this.child.getNodes(), T = 0; T < E.length; T++) c = E[T], l = c.withChildren(), l.forEach(function(D) { n.add(D); }); return n; }, a.prototype.getNoOfChildren = function() { var n = 0, c; if (this.child == null) n = 1; else for (var l = this.child.getNodes(), E = 0; E < l.length; E++) c = l[E], n += c.getNoOfChildren(); return n == 0 && (n = 1), n; }, a.prototype.getEstimatedSize = function() { if (this.estimatedSize == t.MIN_VALUE) throw "assert failed"; return this.estimatedSize; }, a.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); }, a.prototype.scatter = function() { var n, c, l = -i.INITIAL_WORLD_BOUNDARY, E = i.INITIAL_WORLD_BOUNDARY; n = i.WORLD_CENTER_X + o.nextDouble() * (E - l) + l; var T = -i.INITIAL_WORLD_BOUNDARY, D = i.INITIAL_WORLD_BOUNDARY; c = i.WORLD_CENTER_Y + o.nextDouble() * (D - T) + T, this.rect.x = n, this.rect.y = c; }, a.prototype.updateBounds = function() { if (this.getChild() == null) throw "assert failed"; if (this.getChild().getNodes().length != 0) { var n = this.getChild(); if (n.updateBounds(!0), this.rect.x = n.getLeft(), this.rect.y = n.getTop(), this.setWidth(n.getRight() - n.getLeft()), this.setHeight(n.getBottom() - n.getTop()), i.NODE_DIMENSIONS_INCLUDE_LABELS) { var c = n.getRight() - n.getLeft(), l = n.getBottom() - n.getTop(); this.labelWidth > c && (this.rect.x -= (this.labelWidth - c) / 2, this.setWidth(this.labelWidth)), this.labelHeight > l && (this.labelPos == "center" ? this.rect.y -= (this.labelHeight - l) / 2 : this.labelPos == "top" && (this.rect.y -= this.labelHeight - l), this.setHeight(this.labelHeight)); } } }, a.prototype.getInclusionTreeDepth = function() { if (this.inclusionTreeDepth == t.MAX_VALUE) throw "assert failed"; return this.inclusionTreeDepth; }, a.prototype.transform = function(n) { var c = this.rect.x; c > i.WORLD_BOUNDARY ? c = i.WORLD_BOUNDARY : c < -i.WORLD_BOUNDARY && (c = -i.WORLD_BOUNDARY); var l = this.rect.y; l > i.WORLD_BOUNDARY ? l = i.WORLD_BOUNDARY : l < -i.WORLD_BOUNDARY && (l = -i.WORLD_BOUNDARY); var E = new g(c, l), T = n.inverseTransformPoint(E); this.setLocation(T.x, T.y); }, a.prototype.getLeft = function() { return this.rect.x; }, a.prototype.getRight = function() { return this.rect.x + this.rect.width; }, a.prototype.getTop = function() { return this.rect.y; }, a.prototype.getBottom = function() { return this.rect.y + this.rect.height; }, a.prototype.getParent = function() { return this.owner == null ? null : this.owner.getParent(); }, f.exports = a; }, /* 4 */ /***/ function(f, m, y) { function r(t, e) { t == null && e == null ? (this.x = 0, this.y = 0) : (this.x = t, this.y = e); } r.prototype.getX = function() { return this.x; }, r.prototype.getY = function() { return this.y; }, r.prototype.setX = function(t) { this.x = t; }, r.prototype.setY = function(t) { this.y = t; }, r.prototype.getDifference = function(t) { return new DimensionD(this.x - t.x, this.y - t.y); }, r.prototype.getCopy = function() { return new r(this.x, this.y); }, r.prototype.translate = function(t) { return this.x += t.width, this.y += t.height, this; }, f.exports = r; }, /* 5 */ /***/ function(f, m, y) { var r = y(2), t = y(10), e = y(0), i = y(6), o = y(3), g = y(1), a = y(13), v = y(12), n = y(11); function c(E, T, D) { r.call(this, D), this.estimatedSize = t.MIN_VALUE, this.margin = e.DEFAULT_GRAPH_MARGIN, this.edges = [], this.nodes = [], this.isConnected = !1, this.parent = E, T != null && T instanceof i ? this.graphManager = T : T != null && T instanceof Layout && (this.graphManager = T.graphManager); } c.prototype = Object.create(r.prototype); for (var l in r) c[l] = r[l]; c.prototype.getNodes = function() { return this.nodes; }, c.prototype.getEdges = function() { return this.edges; }, c.prototype.getGraphManager = function() { return this.graphManager; }, c.prototype.getParent = function() { return this.parent; }, c.prototype.getLeft = function() { return this.left; }, c.prototype.getRight = function() { return this.right; }, c.prototype.getTop = function() { return this.top; }, c.prototype.getBottom = function() { return this.bottom; }, c.prototype.isConnected = function() { return this.isConnected; }, c.prototype.add = function(E, T, D) { if (T == null && D == null) { var L = E; if (this.graphManager == null) throw "Graph has no graph mgr!"; if (this.getNodes().indexOf(L) > -1) throw "Node already in graph!"; return L.owner = this, this.getNodes().push(L), L; } else { var O = E; if (!(this.getNodes().indexOf(T) > -1 && this.getNodes().indexOf(D) > -1)) throw "Source or target not in graph!"; if (!(T.owner == D.owner && T.owner == this)) throw "Both owners must be this graph!"; return T.owner != D.owner ? null : (O.source = T, O.target = D, O.isInterGraph = !1, this.getEdges().push(O), T.edges.push(O), D != T && D.edges.push(O), O); } }, c.prototype.remove = function(E) { var T = E; if (E instanceof o) { if (T == null) throw "Node is null!"; if (!(T.owner != null && T.owner == this)) throw "Owner graph is invalid!"; if (this.graphManager == null) throw "Owner graph manager is invalid!"; for (var D = T.edges.slice(), L, O = D.length, d = 0; d < O; d++) L = D[d], L.isInterGraph ? this.graphManager.remove(L) : L.source.owner.remove(L); var N = this.nodes.indexOf(T); if (N == -1) throw "Node not in owner node list!"; this.nodes.splice(N, 1); } else if (E instanceof g) { var L = E; if (L == null) throw "Edge is null!"; if (!(L.source != null && L.target != null)) throw "Source and/or target is null!"; if (!(L.source.owner != null && L.target.owner != null && L.source.owner == this && L.target.owner == this)) throw "Source and/or target owner is invalid!"; var s = L.source.edges.indexOf(L), h = L.target.edges.indexOf(L); if (!(s > -1 && h > -1)) throw "Source and/or target doesn't know this edge!"; L.source.edges.splice(s, 1), L.target != L.source && L.target.edges.splice(h, 1); var N = L.source.owner.getEdges().indexOf(L); if (N == -1) throw "Not in owner's edge list!"; L.source.owner.getEdges().splice(N, 1); } }, c.prototype.updateLeftTop = function() { for (var E = t.MAX_VALUE, T = t.MAX_VALUE, D, L, O, d = this.getNodes(), N = d.length, s = 0; s < N; s++) { var h = d[s]; D = h.getTop(), L = h.getLeft(), E > D && (E = D), T > L && (T = L); } return E == t.MAX_VALUE ? null : (d[0].getParent().paddingLeft != null ? O = d[0].getParent().paddingLeft : O = this.margin, this.left = T - O, this.top = E - O, new v(this.left, this.top)); }, c.prototype.updateBounds = function(E) { for (var T = t.MAX_VALUE, D = -t.MAX_VALUE, L = t.MAX_VALUE, O = -t.MAX_VALUE, d, N, s, h, u, p = this.nodes, A = p.length, C = 0; C < A; C++) { var R = p[C]; E && R.child != null && R.updateBounds(), d = R.getLeft(), N = R.getRight(), s = R.getTop(), h = R.getBottom(), T > d && (T = d), D < N && (D = N), L > s && (L = s), O < h && (O = h); } var x = new a(T, L, D - T, O - L); T == t.MAX_VALUE && (this.left = this.parent.getLeft(), this.right = this.parent.getRight(), this.top = this.parent.getTop(), this.bottom = this.parent.getBottom()), p[0].getParent().paddingLeft != null ? u = p[0].getParent().paddingLeft : u = this.margin, this.left = x.x - u, this.right = x.x + x.width + u, this.top = x.y - u, this.bottom = x.y + x.height + u; }, c.calculateBounds = function(E) { for (var T = t.MAX_VALUE, D = -t.MAX_VALUE, L = t.MAX_VALUE, O = -t.MAX_VALUE, d, N, s, h, u = E.length, p = 0; p < u; p++) { var A = E[p]; d = A.getLeft(), N = A.getRight(), s = A.getTop(), h = A.getBottom(), T > d && (T = d), D < N && (D = N), L > s && (L = s), O < h && (O = h); } var C = new a(T, L, D - T, O - L); return C; }, c.prototype.getInclusionTreeDepth = function() { return this == this.graphManager.getRoot() ? 1 : this.parent.getInclusionTreeDepth(); }, c.prototype.getEstimatedSize = function() { if (this.estimatedSize == t.MIN_VALUE) throw "assert failed"; return this.estimatedSize; }, c.prototype.calcEstimatedSize = function() { for (var E = 0, T = this.nodes, D = T.length, L = 0; L < D; L++) { var O = T[L]; E += O.calcEstimatedSize(); } return E == 0 ? this.estimatedSize = e.EMPTY_COMPOUND_NODE_SIZE : this.estimatedSize = E / Math.sqrt(this.nodes.length), this.estimatedSize; }, c.prototype.updateConnected = function() { var E = this; if (this.nodes.length == 0) { this.isConnected = !0; return; } var T = new n(), D = /* @__PURE__ */ new Set(), L = this.nodes[0], O, d, N = L.withChildren(); for (N.forEach(function(C) { T.push(C), D.add(C); }); T.length !== 0; ) { L = T.shift(), O = L.getEdges(); for (var s = O.length, h = 0; h < s; h++) { var u = O[h]; if (d = u.getOtherEndInGraph(L, this), d != null && !D.has(d)) { var p = d.withChildren(); p.forEach(function(C) { T.push(C), D.add(C); }); } } } if (this.isConnected = !1, D.size >= this.nodes.length) { var A = 0; D.forEach(function(C) { C.owner == E && A++; }), A == this.nodes.length && (this.isConnected = !0); } }, f.exports = c; }, /* 6 */ /***/ function(f, m, y) { var r, t = y(1); function e(i) { r = y(5), this.layout = i, this.graphs = [], this.edges = []; } e.prototype.addRoot = function() { var i = this.layout.newGraph(), o = this.layout.newNode(null), g = this.add(i, o); return this.setRootGraph(g), this.rootGraph; }, e.prototype.add = function(i, o, g, a, v) { if (g == null && a == null && v == null) { if (i == null) throw "Graph is null!"; if (o == null) throw "Parent node is null!"; if (this.graphs.indexOf(i) > -1) throw "Graph already in this graph mgr!"; if (this.graphs.push(i), i.parent != null) throw "Already has a parent!"; if (o.child != null) throw "Already has a child!"; return i.parent = o, o.child = i, i; } else { v = g, a = o, g = i; var n = a.getOwner(), c = v.getOwner(); if (!(n != null && n.getGraphManager() == this)) throw "Source not in this graph mgr!"; if (!(c != null && c.getGraphManager() == this)) throw "Target not in this graph mgr!"; if (n == c) return g.isInterGraph = !1, n.add(g, a, v); if (g.isInterGraph = !0, g.source = a, g.target = v, this.edges.indexOf(g) > -1) throw "Edge already in inter-graph edge list!"; if (this.edges.push(g), !(g.source != null && g.target != null)) throw "Edge source and/or target is null!"; if (!(g.source.edges.indexOf(g) == -1 && g.target.edges.indexOf(g) == -1)) throw "Edge already in source and/or target incidency list!"; return g.source.edges.push(g), g.target.edges.push(g), g; } }, e.prototype.remove = function(i) { if (i instanceof r) { var o = i; if (o.getGraphManager() != this) throw "Graph not in this graph mgr"; if (!(o == this.rootGraph || o.parent != null && o.parent.graphManager == this)) throw "Invalid parent node!"; var g = []; g = g.concat(o.getEdges()); for (var a, v = g.length, n = 0; n < v; n++) a = g[n], o.remove(a); var c = []; c = c.concat(o.getNodes()); var l; v = c.length; for (var n = 0; n < v; n++) l = c[n], o.remove(l); o == this.rootGraph && this.setRootGraph(null); var E = this.graphs.indexOf(o); this.graphs.splice(E, 1), o.parent = null; } else if (i instanceof t) { if (a = i, a == null) throw "Edge is null!"; if (!a.isInterGraph) throw "Not an inter-graph edge!"; if (!(a.source != null && a.target != null)) throw "Source and/or target is null!"; if (!(a.source.edges.indexOf(a) != -1 && a.target.edges.indexOf(a) != -1)) throw "Source and/or target doesn't know this edge!"; var E = a.source.edges.indexOf(a); if (a.source.edges.splice(E, 1), E = a.target.edges.indexOf(a), a.target.edges.splice(E, 1), !(a.source.owner != null && a.source.owner.getGraphManager() != null)) throw "Edge owner graph or owner graph manager is null!"; if (a.source.owner.getGraphManager().edges.indexOf(a) == -1) throw "Not in owner graph manager's edge list!"; var E = a.source.owner.getGraphManager().edges.indexOf(a); a.source.owner.getGraphManager().edges.splice(E, 1); } }, e.prototype.updateBounds = function() { this.rootGraph.updateBounds(!0); }, e.prototype.getGraphs = function() { return this.graphs; }, e.prototype.getAllNodes = function() { if (this.allNodes == null) { for (var i = [], o = this.getGraphs(), g = o.length, a = 0; a < g; a++) i = i.concat(o[a].getNodes()); this.allNodes = i; } return this.allNodes; }, e.prototype.resetAllNodes = function() { this.allNodes = null; }, e.prototype.resetAllEdges = function() { this.allEdges = null; }, e.prototype.resetAllNodesToApplyGravitation = function() { this.allNodesToApplyGravitation = null; }, e.prototype.getAllEdges = function() { if (this.allEdges == null) { var i = [], o = this.getGraphs(); o.length; for (var g = 0; g < o.length; g++) i = i.concat(o[g].getEdges()); i = i.concat(this.edges), this.allEdges = i; } return this.allEdges; }, e.prototype.getAllNodesToApplyGravitation = function() { return this.allNodesToApplyGravitation; }, e.prototype.setAllNodesToApplyGravitation = function(i) { if (this.allNodesToApplyGravitation != null) throw "assert failed"; this.allNodesToApplyGravitation = i; }, e.prototype.getRoot = function() { return this.rootGraph; }, e.prototype.setRootGraph = function(i) { if (i.getGraphManager() != this) throw "Root not in this graph mgr!"; this.rootGraph = i, i.parent == null && (i.parent = this.layout.newNode("Root node")); }, e.prototype.getLayout = function() { return this.layout; }, e.prototype.isOneAncestorOfOther = function(i, o) { if (!(i != null && o != null)) throw "assert failed"; if (i == o) return !0; var g = i.getOwner(), a; do { if (a = g.getParent(), a == null) break; if (a == o) return !0; if (g = a.getOwner(), g == null) break; } while (!0); g = o.getOwner(); do { if (a = g.getParent(), a == null) break; if (a == i) return !0; if (g = a.getOwner(), g == null) break; } while (!0); return !1; }, e.prototype.calcLowestCommonAncestors = function() { for (var i, o, g, a, v, n = this.getAllEdges(), c = n.length, l = 0; l < c; l++) { if (i = n[l], o = i.source, g = i.target, i.lca = null, i.sourceInLca = o, i.targetInLca = g, o == g) { i.lca = o.getOwner(); continue; } for (a = o.getOwner(); i.lca == null; ) { for (i.targetInLca = g, v = g.getOwner(); i.lca == null; ) { if (v == a) { i.lca = v; break; } if (v == this.rootGraph) break; if (i.lca != null) throw "assert failed"; i.targetInLca = v.getParent(), v = i.targetInLca.getOwner(); } if (a == this.rootGraph) break; i.lca == null && (i.sourceInLca = a.getParent(), a = i.sourceInLca.getOwner()); } if (i.lca == null) throw "assert failed"; } }, e.prototype.calcLowestCommonAncestor = function(i, o) { if (i == o) return i.getOwner(); var g = i.getOwner(); do { if (g == null) break; var a = o.getOwner(); do { if (a == null) break; if (a == g) return a; a = a.getParent().getOwner(); } while (!0); g = g.getParent().getOwner(); } while (!0); return g; }, e.prototype.calcInclusionTreeDepths = function(i, o) { i == null && o == null && (i = this.rootGraph, o = 1); for (var g, a = i.getNodes(), v = a.length, n = 0; n < v; n++) g = a[n], g.inclusionTreeDepth = o, g.child != null && this.calcInclusionTreeDepths(g.child, o + 1); }, e.prototype.includesInvalidEdge = function() { for (var i, o = this.edges.length, g = 0; g < o; g++) if (i = this.edges[g], this.isOneAncestorOfOther(i.source, i.target)) return !0; return !1; }, f.exports = e; }, /* 7 */ /***/ function(f, m, y) { var r = y(0); function t() { } for (var e in r) t[e] = r[e]; 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, f.exports = t; }, /* 8 */ /***/ function(f, m, y) { var r = y(12); function t() { } t.calcSeparationAmount = function(e, i, o, g) { if (!e.intersects(i)) throw "assert failed"; var a = new Array(2); this.decideDirectionsForOverlappingNodes(e, i, a), o[0] = Math.min(e.getRight(), i.getRight()) - Math.max(e.x, i.x), o[1] = Math.min(e.getBottom(), i.getBottom()) - Math.max(e.y, i.y), e.getX() <= i.getX() && e.getRight() >= i.getRight() ? o[0] += Math.min(i.getX() - e.getX(), e.getRight() - i.getRight()) : i.getX() <= e.getX() && i.getRight() >= e.getRight() && (o[0] += Math.min(e.getX() - i.getX(), i.getRight() - e.getRight())), e.getY() <= i.getY() && e.getBottom() >= i.getBottom() ? o[1] += Math.min(i.getY() - e.getY(), e.getBottom() - i.getBottom()) : i.getY() <= e.getY() && i.getBottom() >= e.getBottom() && (o[1] += Math.min(e.getY() - i.getY(), i.getBottom() - e.getBottom())); var v = Math.abs((i.getCenterY() - e.getCenterY()) / (i.getCenterX() - e.getCenterX())); i.getCenterY() === e.getCenterY() && i.getCenterX() === e.getCenterX() && (v = 1); var n = v * o[0], c = o[1] / v; o[0] < c ? c = o[0] : n = o[1], o[0] = -1 * a[0] * (c / 2 + g), o[1] = -1 * a[1] * (n / 2 + g); }, t.decideDirectionsForOverlappingNodes = function(e, i, o) { e.getCenterX() < i.getCenterX() ? o[0] = -1 : o[0] = 1, e.getCenterY() < i.getCenterY() ? o[1] = -1 : o[1] = 1; }, t.getIntersection2 = function(e, i, o) { var g = e.getCenterX(), a = e.getCenterY(), v = i.getCenterX(), n = i.getCenterY(); if (e.intersects(i)) return o[0] = g, o[1] = a, o[2] = v, o[3] = n, !0; var c = e.getX(), l = e.getY(), E = e.getRight(), T = e.getX(), D = e.getBottom(), L = e.getRight(), O = e.getWidthHalf(), d = e.getHeightHalf(), N = i.getX(), s = i.getY(), h = i.getRight(), u = i.getX(), p = i.getBottom(), A = i.getRight(), C = i.getWidthHalf(), R = i.getHeightHalf(), x = !1, _ = !1; if (g === v) { if (a > n) return o[0] = g, o[1] = l, o[2] = v, o[3] = p, !1; if (a < n) return o[0] = g, o[1] = D, o[2] = v, o[3] = s, !1; } else if (a === n) { if (g > v) return o[0] = c, o[1] = a, o[2] = h, o[3] = n, !1; if (g < v) return o[0] = E, o[1] = a, o[2] = N, o[3] = n, !1; } else { var U = e.height / e.width, X = i.height / i.width, M = (n - a) / (v - g), G = void 0, F = void 0, b = void 0, Y = void 0, k = void 0, H = void 0; if (-U === M ? g > v ? (o[0] = T, o[1] = D, x = !0) : (o[0] = E, o[1] = l, x = !0) : U === M && (g > v ? (o[0] = c, o[1] = l, x = !0) : (o[0] = L, o[1] = D, x = !0)), -X === M ? v > g ? (o[2] = u, o[3] = p, _ = !0) : (o[2] = h, o[3] = s, _ = !0) : X === M && (v > g ? (o[2] = N, o[3] = s, _ = !0) : (o[2] = A, o[3] = p, _ = !0)), x && _) return !1; if (g > v ? a > n ? (G = this.getCardinalDirection(U, M, 4), F = this.getCardinalDirection(X, M, 2)) : (G = this.getCardinalDirection(-U, M, 3), F = this.getCardinalDirection(-X, M, 1)) : a > n ? (G = this.getCardinalDirection(-U, M, 1), F = this.getCardinalDirection(-X, M, 3)) : (G = this.getCardinalDirection(U, M, 2), F = this.getCardinalDirection(X, M, 4)), !x) switch (G) { case 1: Y = l, b = g + -d / M, o[0] = b, o[1] = Y; break; case 2: b = L, Y = a + O * M, o[0] = b, o[1] = Y; break; case 3: Y = D, b = g + d / M, o[0] = b, o[1] = Y; break; case 4: b = T, Y = a + -O * M, o[0] = b, o[1] = Y; break; } if (!_) switch (F) { case 1: H = s, k = v + -R / M, o[2] = k, o[3] = H; break; case 2: k = A, H = n + C * M, o[2] = k, o[3] = H; break; case 3: H = p, k = v + R / M, o[2] = k, o[3] = H; break; case 4: k = u, H = n + -C * M, o[2] = k, o[3] = H; break; } } return !1; }, t.getCardinalDirection = function(e, i, o) { return e > i ? o : 1 + o % 4; }, t.getIntersection = function(e, i, o, g) { if (g == null) return this.getIntersection2(e, i, o); var a = e.x, v = e.y, n = i.x, c = i.y, l = o.x, E = o.y, T = g.x, D = g.y, L = void 0, O = void 0, d = void 0, N = void 0, s = void 0, h = void 0, u = void 0, p = void 0, A = void 0; return d = c - v, s = a - n, u = n * v - a * c, N = D - E, h = l - T, p = T * E - l * D, A = d * h - N * s, A === 0 ? null : (L = (s * p - h * u) / A, O = (N * u - d * p) / A, new r(L, O)); }, t.angleOfVector = function(e, i, o, g) { var a = void 0; return e !== o ? (a = Math.atan((g - i) / (o - e)), o < e ? a += Math.PI : g < i && (a += this.TWO_PI)) : g < i ? a = this.ONE_AND_HALF_PI : a = this.HALF_PI, a; }, t.doIntersect = function(e, i, o, g) { var a = e.x, v = e.y, n = i.x, c = i.y, l = o.x, E = o.y, T = g.x, D = g.y, L = (n - a) * (D - E) - (T - l) * (c - v); if (L === 0) return !1; var O = ((D - E) * (T - a) + (l - T) * (D - v)) / L, d = ((v - c) * (T - a) + (n - a) * (D - v)) / L; return 0 < O && O < 1 && 0 < d && d < 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, f.exports = t; }, /* 9 */ /***/ function(f, m, y) { function r() { } r.sign = function(t) { return t > 0 ? 1 : t < 0 ? -1 : 0; }, r.floor = function(t) { return t < 0 ? Math.ceil(t) : Math.floor(t); }, r.ceil = function(t) { return t < 0 ? Math.floor(t) : Math.ceil(t); }, f.exports = r; }, /* 10 */ /***/ function(f, m, y) { function r() { } r.MAX_VALUE = 2147483647, r.MIN_VALUE = -2147483648, f.exports = r; }, /* 11 */ /***/ function(f, m, y) { var r = /* @__PURE__ */ function() { function a(v, n) { for (var c = 0; c < n.length; c++) { var l = n[c]; l.enumerable = l.enumerable || !1, l.configurable = !0, "value" in l && (l.writable = !0), Object.defineProperty(v, l.key, l); } } return function(v, n, c) { return n && a(v.prototype, n), c && a(v, c), v; }; }(); function t(a, v) { if (!(a instanceof v)) throw new TypeError("Cannot call a class as a function"); } var e = function(v) { return { value: v, next: null, prev: null }; }, i = function(v, n, c, l) { return v !== null ? v.next = n : l.head = n, c !== null ? c.prev = n : l.tail = n, n.prev = v, n.next = c, l.length++, n; }, o = function(v, n) { var c = v.prev, l = v.next; return c !== null ? c.next = l : n.head = l, l !== null ? l.prev = c : n.tail = c, v.prev = v.next = null, n.length--, v; }, g = function() { function a(v) { var n = this; t(this, a), this.length = 0, this.head = null, this.tail = null, v != null && v.forEach(function(c) { return n.push(c); }); } return r(a, [{ key: "size", value: function() { return this.length; } }, { key: "insertBefore", value: function(n, c) { return i(c.prev, e(n), c, this); } }, { key: "insertAfter", value: function(n, c) { return i(c, e(n), c.next, this); } }, { key: "insertNodeBefore", value: function(n, c) { return i(c.prev, n, c, this); } }, { key: "insertNodeAfter", value: function(n, c) { return i(c, n, c.next, this); } }, { key: "push", value: function(n) { return i(this.tail, e(n), null, this); } }, { key: "unshift", value: function(n) { return i(null, e(n), this.head, this); } }, { key: "remove", value: function(n) { return o(n, this); } }, { key: "pop", value: function() { return o(this.tail, this).value; } }, { key: "popNode", value: function() { return o(this.tail, this); } }, { key: "shift", value: function() { return o(this.head, this).value; } }, { key: "shiftNode", value: function() { return o(this.head, this); } }, { key: "get_object_at", value: function(n) { if (n <= this.length()) { for (var c = 1, l = this.head; c < n; ) l = l.next, c++; return l.value; } } }, { key: "set_object_at", value: function(n, c) { if (n <= this.length()) { for (var l = 1, E = this.head; l < n; ) E = E.next, l++; E.value = c; } } }]), a; }(); f.exports = g; }, /* 12 */ /***/ function(f, m, y) { function r(t, e, i) { this.x = null, this.y = null, t == null && e == null && i == null ? (this.x = 0, this.y = 0) : typeof t == "number" && typeof e == "number" && i == null ? (this.x = t, this.y = e) : t.constructor.name == "Point" && e == null && i == null && (i = t, this.x = i.x, this.y = i.y); } r.prototype.getX = function() { return this.x; }, r.prototype.getY = function() { return this.y; }, r.prototype.getLocation = function() { return new r(this.x, this.y); }, r.prototype.setLocation = function(t, e, i) { t.constructor.name == "Point" && e == null && i == null ? (i = t, this.setLocation(i.x, i.y)) : typeof t == "number" && typeof e == "number" && i == null && (parseInt(t) == t && parseInt(e) == e ? this.move(t, e) : (this.x = Math.floor(t + 0.5), this.y = Math.floor(e + 0.5))); }, r.prototype.move = function(t, e) { this.x = t, this.y = e; }, r.prototype.translate = function(t, e) { this.x += t, this.y += e; }, r.prototype.equals = function(t) { if (t.constructor.name == "Point") { var e = t; return this.x == e.x && this.y == e.y; } return this == t; }, r.prototype.toString = function() { return new r().constructor.name + "[x=" + this.x + ",y=" + this.y + "]"; }, f.exports = r; }, /* 13 */ /***/ function(f, m, y) { function r(t, e, i, o) { this.x = 0, this.y = 0, this.width = 0, this.height = 0, t != null && e != null && i != null && o != null && (this.x = t, this.y = e, this.width = i, this.height = o); } r.prototype.getX = function() { return this.x; }, r.prototype.setX = function(t) { this.x = t; }, r.prototype.getY = function() { return this.y; }, r.prototype.setY = function(t) { this.y = t; }, r.prototype.getWidth = function() { return this.width; }, r.prototype.setWidth = function(t) { this.width = t; }, r.prototype.getHeight = function() { return this.height; }, r.prototype.setHeight = function(t) { this.height = t; }, r.prototype.getRight = function() { return this.x + this.width; }, r.prototype.getBottom = function() { return this.y + this.height; }, r.prototype.intersects = function(t) { return !(this.getRight() < t.x || this.getBottom() < t.y || t.getRight() < this.x || t.getBottom() < this.y); }, r.prototype.getCenterX = function() { return this.x + this.width / 2; }, r.prototype.getMinX = function() { return this.getX(); }, r.prototype.getMaxX = function() { return this.getX() + this.width; }, r.prototype.getCenterY = function() { return this.y + this.height / 2; }, r.prototype.getMinY = function() { return this.getY(); }, r.prototype.getMaxY = function() { return this.getY() + this.height; }, r.prototype.getWidthHalf = function() { return this.width / 2; }, r.prototype.getHeightHalf = function() { return this.height / 2; }, f.exports = r; }, /* 14 */ /***/ function(f, m, y) { var r = typeof Symbol == "function" && typeof Symbol.iterator == "symbol" ? function(e) { return typeof e; } : function(e) { return e && typeof Symbol == "function" && e.constructor === Symbol && e !== Symbol.prototype ? "symbol" : typeof e; }; function t() { } t.lastID = 0, t.createID = function(e) { return t.isPrimitive(e) ? e : (e.uniqueID != null || (e.uniqueID = t.getString(), t.lastID++), e.uniqueID); }, t.getString = function(e) { return e == null && (e = t.lastID), "Object#" + e; }, t.isPrimitive = function(e) { var i = typeof e > "u" ? "undefined" : r(e); return e == null || i != "object" && i != "function"; }, f.exports = t; }, /* 15 */ /***/ function(f, m, y) { function r(l) { if (Array.isArray(l)) { for (var E = 0, T = Array(l.length); E < l.length; E++) T[E] = l[E]; return T; } else return Array.from(l); } var t = y(0), e = y(6), i = y(3), o = y(1), g = y(5), a = y(4), v = y(17), n = y(27); function c(l) { n.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 e(this), this.isLayoutFinished = !1, this.isSubLayout = !1, this.isRemoteUse = !1, l != null && (this.isRemoteUse = l); } c.RANDOM_SEED = 1, c.prototype = Object.create(n.prototype), c.prototype.getGraphManager = function() { return this.graphManager; }, c.prototype.getAllNodes = function() { return this.graphManager.getAllNodes(); }, c.prototype.getAllEdges = function() { return this.graphManager.getAllEdges(); }, c.prototype.getAllNodesToApplyGravitation = function() { return this.graphManager.getAllNodesToApplyGravitation(); }, c.prototype.newGraphManager = function() { var l = new e(this); return this.graphManager = l, l; }, c.prototype.newGraph = function(l) { return new g(null, this.graphManager, l); }, c.prototype.newNode = function(l) { return new i(this.graphManager, l); }, c.prototype.newEdge = function(l) { return new o(null, null, l); }, c.prototype.checkLayoutSuccess = function() { return this.graphManager.getRoot() == null || this.graphManager.getRoot().getNodes().length == 0 || this.graphManager.includesInvalidEdge(); }, c.prototype.runLayout = function() { this.isLayoutFinished = !1, this.tilingPreLayout && this.tilingPreLayout(), this.initParameters(); var l; return this.checkLayoutSuccess() ? l = !1 : l = this.layout(), t.ANIMATE === "during" ? !1 : (l && (this.isSubLayout || this.doPostLayout()), this.tilingPostLayout && this.tilingPostLayout(), this.isLayoutFinished = !0, l); }, c.prototype.doPostLayout = function() { this.incremental || this.transform(), this.update(); }, c.prototype.update2 = function() { if (this.createBendsAsNeeded && (this.createBendpointsFromDummyNodes(), this.graphManager.resetAllEdges()), !this.isRemoteUse) { for (var l = this.graphManager.getAllEdges(), E = 0; E < l.length; E++) l[E]; for (var T = this.graphManager.getRoot().getNodes(), E = 0; E < T.length; E++) T[E]; this.update(this.graphManager.getRoot()); } }, c.prototype.update = function(l) { if (l == null) this.update2(); else if (l instanceof i) { var E = l; if (E.getChild() != null) for (var T = E.getChild().getNodes(), D = 0; D < T.length; D++) update(T[D]); if (E.vGraphObject != null) { var L = E.vGraphObject; L.update(E); } } else if (l instanceof o) { var O = l; if (O.vGraphObject != null) { var d = O.vGraphObject; d.update(O); } } else if (l instanceof g) { var N = l; if (N.vGraphObject != null) { var s = N.vGraphObject; s.update(N); } } }, c.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); }, c.prototype.transform = function(l) { if (l == null) this.transform(new a(0, 0)); else { var E = new v(), T = this.graphManager.getRoot().updateLeftTop(); if (T != null) { E.setWorldOrgX(l.x), E.setWorldOrgY(l.y), E.setDeviceOrgX(T.x), E.setDeviceOrgY(T.y); for (var D = this.getAllNodes(), L, O = 0; O < D.length; O++) L = D[O], L.transform(E); } } }, c.prototype.positionNodesRandomly = function(l) { if (l == null) this.positionNodesRandomly(this.getGraphManager().getRoot()), this.getGraphManager().getRoot().updateBounds(!0); else for (var E, T, D = l.getNodes(), L = 0; L < D.length; L++) E = D[L], T = E.getChild(), T == null || T.getNodes().length == 0 ? E.scatter() : (this.positionNodesRandomly(T), E.updateBounds()); }, c.prototype.getFlatForest = function() { for (var l = [], E = !0, T = this.graphManager.getRoot().getNodes(), D = !0, L = 0; L < T.length; L++) T[L].getChild() != null && (D = !1); if (!D) return l; var O = /* @__PURE__ */ new Set(), d = [], N = /* @__PURE__ */ new Map(), s = []; for (s = s.concat(T); s.length > 0 && E; ) { for (d.push(s[0]); d.length > 0 && E; ) { var h = d[0]; d.splice(0, 1), O.add(h); for (var u = h.getEdges(), L = 0; L < u.length; L++) { var p = u[L].getOtherEnd(h); if (N.get(h) != p) if (!O.has(p)) d.push(p), N.set(p, h); else { E = !1; break; } } } if (!E) l = []; else { var A = [].concat(r(O)); l.push(A); for (var L = 0; L < A.length; L++) { var C = A[L], R = s.indexOf(C); R > -1 && s.splice(R, 1); } O = /* @__PURE__ */ new Set(), N = /* @__PURE__ */ new Map(); } } return l; }, c.prototype.createDummyNodesForBendpoints = function(l) { for (var E = [], T = l.source, D = this.graphManager.calcLowestCommonAncestor(l.source, l.target), L = 0; L < l.bendpoints.length; L++) { var O = this.newNode(null); O.setRect(new Point(0, 0), new Dimension(1, 1)), D.add(O); var d = this.newEdge(null); this.graphManager.add(d, T, O), E.add(O), T = O; } var d = this.newEdge(null); return this.graphManager.add(d, T, l.target), this.edgeToDummyNodes.set(l, E), l.isInterGraph() ? this.graphManager.remove(l) : D.remove(l), E; }, c.prototype.createBendpointsFromDummyNodes = function() { var l = []; l = l.concat(this.graphManager.getAllEdges()), l = [].concat(r(this.edgeToDummyNodes.keys())).concat(l); for (var E = 0; E < l.length; E++) { var T = l[E]; if (T.bendpoints.length > 0) { for (var D = this.edgeToDummyNodes.get(T), L = 0; L < D.length; L++) { var O = D[L], d = new a(O.getCenterX(), O.getCenterY()), N = T.bendpoints.get(L); N.x = d.x, N.y = d.y, O.getOwner().remove(O); } this.graphManager.add(T, T.source, T.target); } } }, c.transform = function(l, E, T, D) { if (T != null && D != null) { var L = E; if (l <= 50) { var O = E / T; L -= (E - O) / 50 * (50 - l); } else { var d = E * D; L += (d - E) / 50 * (l - 50); } return L; } else { var N, s; return l <= 50 ? (N = 9 * E / 500, s = E / 10) : (N = 9 * E / 50, s = -8 * E), N * l + s; } }, c.findCenterOfTree = function(l) { var E = []; E = E.concat(l); var T = [], D = /* @__PURE__ */ new Map(), L = !1, O = null; (E.length == 1 || E.length == 2) && (L = !0, O = E[0]); for (var d = 0; d < E.length; d++) { var N = E[d], s = N.getNeighborsList().size; D.set(N, N.getNeighborsList().size), s == 1 && T.push(N); } var h = []; for (h = h.concat(T); !L; ) { var u = []; u = u.concat(h), h = []; for (var d = 0; d < E.length; d++) { var N = E[d], p = E.indexOf(N); p >= 0 && E.splice(p, 1); var A = N.getNeighborsList(); A.forEach(function(x) { if (T.indexOf(x) < 0) { var _ = D.get(x), U = _ - 1; U == 1 && h.push(x), D.set(x, U); } }); } T = T.concat(h), (E.length == 1 || E.length == 2) && (L = !0, O = E[0]); } return O; }, c.prototype.setGraphManager = function(l) { this.graphManager = l; }, f.exports = c; }, /* 16 */ /***/ function(f, m, y) { function r() { } r.seed = 1, r.x = 0, r.nextDouble = function() { return r.x = Math.sin(r.seed++) * 1e4, r.x - Math.floor(r.x); }, f.exports = r; }, /* 17 */ /***/ function(f, m, y) { var r = y(4); function t(e, i) { 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(e) { this.lworldOrgX = e; }, t.prototype.getWorldOrgY = function() { return this.lworldOrgY; }, t.prototype.setWorldOrgY = function(e) { this.lworldOrgY = e; }, t.prototype.getWorldExtX = function() { return this.lworldExtX; }, t.prototype.setWorldExtX = function(e) { this.lworldExtX = e; }, t.prototype.getWorldExtY = function() { return this.lworldExtY; }, t.prototype.setWorldExtY = function(e) { this.lworldExtY = e; }, t.prototype.getDeviceOrgX = function() { return this.ldeviceOrgX; }, t.prototype.setDeviceOrgX = function(e) { this.ldeviceOrgX = e; }, t.prototype.getDeviceOrgY = function() { return this.ldeviceOrgY; }, t.prototype.setDeviceOrgY = function(e) { this.ldeviceOrgY = e; }, t.prototype.getDeviceExtX = function() { return this.ldeviceExtX; }, t.prototype.setDeviceExtX = function(e) { this.ldeviceExtX = e; }, t.prototype.getDeviceExtY = function() { return this.ldeviceExtY; }, t.prototype.setDeviceExtY = function(e) { this.ldeviceExtY = e; }, t.prototype.transformX = function(e) { var i = 0, o = this.lworldExtX; return o != 0 && (i = this.ldeviceOrgX + (e - this.lworldOrgX) * this.ldeviceExtX / o), i; }, t.prototype.transformY = function(e) { var i = 0, o = this.lworldExtY; return o != 0 && (i = this.ldeviceOrgY + (e - this.lworldOrgY) * this.ldeviceExtY / o), i; }, t.prototype.inverseTransformX = function(e) { var i = 0, o = this.ldeviceExtX; return o != 0 && (i = this.lworldOrgX + (e - this.ldeviceOrgX) * this.lworldExtX / o), i; }, t.prototype.inverseTransformY = function(e) { var i = 0, o = this.ldeviceExtY; return o != 0 && (i = this.lworldOrgY + (e - this.ldeviceOrgY) * this.lworldExtY / o), i; }, t.prototype.inverseTransformPoint = function(e) { var i = new r(this.inverseTransformX(e.x), this.inverseTransformY(e.y)); return i; }, f.exports = t; }, /* 18 */ /***/ function(f, m, y) { function r(n) { if (Array.isArray(n)) { for (var c = 0, l = Array(n.length); c < n.length; c++) l[c] = n[c]; return l; } else return Array.from(n); } var t = y(15), e = y(7), i = y(0), o = y(8), g = y(9); function a() { t.call(this), this.useSmartIdealEdgeLengthCalculation = e.DEFAULT_USE_SMART_IDEAL_EDGE_LENGTH_CALCULATION, this.idealEdgeLength = e.DEFAULT_EDGE_LENGTH, this.springConstant = e.DEFAULT_SPRING_STRENGTH, this.repulsionConstant = e.DEFAULT_REPULSION_STRENGTH, this.gravityConstant = e.DEFAULT_GRAVITY_STRENGTH, this.compoundGravityConstant = e.DEFAULT_COMPOUND_GRAVITY_STRENGTH, this.gravityRangeFactor = e.DEFAULT_GRAVITY_RANGE_FACTOR, this.compoundGravityRangeFactor = e.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR, this.displacementThresholdPerNode = 3 * e.DEFAULT_EDGE_LENGTH / 100, this.coolingFactor = e.DEFAULT_COOLING_FACTOR_INCREMENTAL, this.initialCoolingFactor = e.DEFAULT_COOLING_FACTOR_INCREMENTAL, this.totalDisplacement = 0, this.oldTotalDisplacement = 0, this.maxIterations = e.MAX_ITERATIONS; } a.prototype = Object.create(t.prototype); for (var v in t) a[v] = t[v]; a.prototype.initParameters = function() { t.prototype.initParameters.call(this, arguments), this.totalIterations = 0, this.notAnimatedIterations = 0, this.useFRGridVariant = e.DEFAULT_USE_SMART_REPULSION_RANGE_CALCULATION, this.grid = []; }, a.prototype.calcIdealEdgeLengths = function() { for (var n, c, l, E, T, D, L = this.getGraphManager().getAllEdges(), O = 0; O < L.length; O++) n = L[O], n.idealLength = this.idealEdgeLength, n.isInterGraph && (l = n.getSource(), E = n.getTarget(), T = n.getSourceInLca().getEstimatedSize(), D = n.getTargetInLca().getEstimatedSize(), this.useSmartIdealEdgeLengthCalculation && (n.idealLength += T + D - 2 * i.SIMPLE_NODE_SIZE), c = n.getLca().getInclusionTreeDepth(), n.idealLength += e.DEFAULT_EDGE_LENGTH * e.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR * (l.getInclusionTreeDepth() + E.getInclusionTreeDepth() - 2 * c)); }, a.prototype.initSpringEmbedder = function() { var n = this.getAllNodes().length; this.incremental ? (n > e.ADAPTATION_LOWER_NODE_LIMIT && (this.coolingFactor = Math.max(this.coolingFactor * e.COOLING_ADAPTATION_FACTOR, this.coolingFactor - (n - e.ADAPTATION_LOWER_NODE_LIMIT) / (e.ADAPTATION_UPPER_NODE_LIMIT - e.ADAPTATION_LOWER_NODE_LIMIT) * this.coolingFactor * (1 - e.COOLING_ADAPTATION_FACTOR))), this.maxNodeDisplacement = e.MAX_NODE_DISPLACEMENT_INCREMENTAL) : (n > e.ADAPTATION_LOWER_NODE_LIMIT ? this.coolingFactor = Math.max(e.COOLING_ADAPTATION_FACTOR, 1 - (n - e.ADAPTATION_LOWER_NODE_LIMIT) / (e.ADAPTATION_UPPER_NODE_LIMIT - e.ADAPTATION_LOWER_NODE_LIMIT) * (1 - e.COOLING_ADAPTATION_FACTOR)) : this.coolingFactor = 1, this.initialCoolingFactor = this.coolingFactor, this.maxNodeDisplacement = e.MAX_NODE_DISPLACEMENT), this.maxIterations = Math.max(this.getAllNodes().length * 5, this.maxIterations), this.totalDisplacementThreshold = this.displacementThresholdPerNode * this.getAllNodes().length, this.repulsionRange = this.calcRepulsionRange(); }, a.prototype.calcSpringForces = function() { for (var n = this.getAllEdges(), c, l = 0; l < n.length; l++) c = n[l], this.calcSpringForce(c, c.idealLength); }, a.prototype.calcRepulsionForces = function() { var n = arguments.length > 0 && arguments[0] !== void 0 ? arguments[0] : !0, c = arguments.length > 1 && arguments[1] !== void 0 ? arguments[1] : !1, l, E, T, D, L = this.getAllNodes(), O; if (this.useFRGridVariant) for (this.totalIterations % e.GRID_CALCULATION_CHECK_PERIOD == 1 && n && this.updateGrid(), O = /* @__PURE__ */ new Set(), l = 0; l < L.length; l++) T = L[l], this.calculateRepulsionForceOfANode(T, O, n, c), O.add(T); else for (l = 0; l < L.length; l++) for (T = L[l], E = l + 1; E < L.length; E++) D = L[E], T.getOwner() == D.getOwner() && this.calcRepulsionForce(T, D); }, a.prototype.calcGravitationalForces = function() { for (var n, c = this.getAllNodesToApplyGravitation(), l = 0; l < c.length; l++) n = c[l], this.calcGravitationalForce(n); }, a.prototype.moveNodes = function() { for (var n = this.getAllNodes(), c, l = 0; l < n.length; l++) c = n[l], c.move(); }, a.prototype.calcSpringForce = function(n, c) { var l = n.getSource(), E = n.getTarget(), T, D, L, O; if (this.uniformLeafNodeSizes && l.getChild() == null && E.getChild() == null) n.updateLengthSimple(); else if (n.updateLength(), n.isOverlapingSourceAndTarget) return; T = n.getLength(), T != 0 && (D = this.springConstant * (T - c), L = D * (n.lengthX / T), O = D * (n.lengthY / T), l.springForceX += L, l.springForceY += O, E.springForceX -= L, E.springForceY -= O); }, a.prototype.calcRepulsionForce = function(n, c) { var l = n.getRect(), E = c.getRect(), T = new Array(2), D = new Array(4), L, O, d, N, s, h, u; if (l.intersects(E)) { o.calcSeparationAmount(l, E, T, e.DEFAULT_EDGE_LENGTH / 2), h = 2 * T[0], u = 2 * T[1]; var p = n.noOfChildren * c.noOfChildren / (n.noOfChildren + c.noOfChildren); n.repulsionForceX -= p * h, n.repulsionForceY -= p * u, c.repulsionForceX += p * h, c.repulsionForceY += p * u; } else this.uniformLeafNodeSizes && n.getChild() == null && c.getChild() == null ? (L = E.getCenterX() - l.getCenterX(), O = E.getCenterY() - l.getCenterY()) : (o.getIntersection(l, E, D), L = D[2] - D[0], O = D[3] - D[1]), Math.abs(L) < e.MIN_REPULSION_DIST && (L = g.sign(L) * e.MIN_REPULSION_DIST), Math.abs(O) < e.MIN_REPULSION_DIST && (O = g.sign(O) * e.MIN_REPULSION_DIST), d = L * L + O * O, N = Math.sqrt(d), s = this.repulsionConstant * n.noOfChildren * c.noOfChildren / d, h = s * L / N, u = s * O / N, n.repulsionForceX -= h, n.repulsionForceY -= u, c.repulsionForceX += h, c.repulsionForceY += u; }, a.prototype.calcGravitationalForce = function(n) { var c, l, E, T, D, L, O, d; c = n.getOwner(), l = (c.getRight() + c.getLeft()) / 2, E = (c.getTop() + c.getBottom()) / 2, T = n.getCenterX() - l, D = n.getCenterY() - E, L = Math.abs(T) + n.getWidth() / 2, O = Math.abs(D) + n.getHeight() / 2, n.getOwner() == this.graphManager.getRoot() ? (d = c.getEstimatedSize() * this.gravityRangeFactor, (L > d || O > d) && (n.gravitationForceX = -this.gravityConstant * T, n.gravitationForceY = -this.gravityConstant * D)) : (d = c.getEstimatedSize() * this.compoundGravityRangeFactor, (L > d || O > d) && (n.gravitationForceX = -this.gravityConstant * T * this.compoundGravityConstant, n.gravitationForceY = -this.gravityConstant * D * this.compoundGravityConstant)); }, a.prototype.isConverged = function() { var n, c = !1; return this.totalIterations > this.maxIterations / 3 && (c = Math.abs(this.totalDisplacement - this.oldTotalDisplacement) < 2), n = this.totalDisplacement < this.totalDisplacementThreshold, this.oldTotalDisplacement = this.totalDisplacement, n || c; }, a.prototype.animate = function() { this.animationDuringLayout && !this.isSubLayout && (this.notAnimatedIterations == this.animationPeriod ? (this.update(), this.notAnimatedIterations = 0) : this.notAnimatedIterations++); }, a.prototype.calcNoOfChildrenForAllNodes = function() { for (var n, c = this.graphManager.getAllNodes(), l = 0; l < c.length; l++) n = c[l], n.noOfChildren = n.getNoOfChildren(); }, a.prototype.calcGrid = function(n) { var c = 0, l = 0; c = parseInt(Math.ceil((n.getRight() - n.getLeft()) / this.repulsionRange)), l = parseInt(Math.ceil((n.getBottom() - n.getTop()) / this.repulsionRange)); for (var E = new Array(c), T = 0; T < c; T++) E[T] = new Array(l); for (var T = 0; T < c; T++) for (var D = 0; D < l; D++) E[T][D] = new Array(); return E; }, a.prototype.addNodeToGrid = function(n, c, l) { var E = 0, T = 0, D = 0, L = 0; E = parseInt(Math.floor((n.getRect().x - c) / this.repulsionRange)), T = parseInt(Math.floor((n.getRect().width + n.getRect().x - c) / this.repulsionRange)), D = parseInt(Math.floor((n.getRect().y - l) / this.repulsionRange)), L = parseInt(Math.floor((n.getRect().height + n.getRect().y - l) / this.repulsionRange)); for (var O = E; O <= T; O++) for (var d = D; d <= L; d++) this.grid[O][d].push(n), n.setGridCoordinates(E, T, D, L); }, a.prototype.updateGrid = function() { var n, c, l = this.getAllNodes(); for (this.grid = this.calcGrid(this.graphManager.getRoot()), n = 0; n < l.length; n++) c = l[n], this.addNodeToGrid(c, this.graphManager.getRoot().getLeft(), this.graphManager.getRoot().getTop()); }, a.prototype.calculateRepulsionForceOfANode = function(n, c, l, E) { if (this.totalIterations % e.GRID_CALCULATION_CHECK_PERIOD == 1 && l || E) { var T = /* @__PURE__ */ new Set(); n.surrounding = new Array(); for (var D, L = this.grid, O = n.startX - 1; O < n.finishX + 2; O++) for (var d = n.startY - 1; d < n.finishY + 2; d++) if (!(O < 0 || d < 0 || O >= L.length || d >= L[0].length)) { for (var N = 0; N < L[O][d].length; N++) if (D = L[O][d][N], !(n.getOwner() != D.getOwner() || n == D) && !c.has(D) && !T.has(D)) { var s = Math.abs(n.getCenterX() - D.getCenterX()) - (n.getWidth() / 2 + D.getWidth() / 2), h = Math.abs(n.getCenterY() - D.getCenterY()) - (n.getHeight() / 2 + D.getHeight() / 2); s <= this.repulsionRange && h <= this.repulsionRange && T.add(D); } } n.surrounding = [].concat(r(T)); } for (O = 0; O < n.surrounding.length; O++) this.calcRepulsionForce(n, n.surrounding[O]); }, a.prototype.calcRepulsionRange = function() { return 0; }, f.exports = a; }, /* 19 */ /***/ function(f, m, y) { var r = y(1), t = y(7); function e(o, g, a) { r.call(this, o, g, a), this.idealLength = t.DEFAULT_EDGE_LENGTH; } e.prototype = Object.create(r.prototype); for (var i in r) e[i] = r[i]; f.exports = e; }, /* 20 */ /***/ function(f, m, y) { var r = y(3); function t(i, o, g, a) { r.call(this, i, o, g, a), 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(r.prototype); for (var e in r) t[e] = r[e]; t.prototype.setGridCoordinates = function(i, o, g, a) { this.startX = i, this.finishX = o, this.startY = g, this.finishY = a; }, f.exports = t; }, /* 21 */ /***/ function(f, m, y) { function r(t, e) { this.width = 0, this.height = 0, t !== null && e !== null && (this.height = e, this.width = t); } r.prototype.getWidth = function() { return this.width; }, r.prototype.setWidth = function(t) { this.width = t; }, r.prototype.getHeight = function() { return this.height; }, r.prototype.setHeight = function(t) { this.height = t; }, f.exports = r; }, /* 22 */ /***/ function(f, m, y) { var r = y(14); function t() { this.map = {}, this.keys = []; } t.prototype.put = function(e, i) { var o = r.createID(e); this.contains(o) || (this.map[o] = i, this.keys.push(e)); }, t.prototype.contains = function(e) { return r.createID(e), this.map[e] != null; }, t.prototype.get = function(e) { var i = r.createID(e); return this.map[i]; }, t.prototype.keySet = function() { return this.keys; }, f.exports = t; }, /* 23 */ /***/ function(f, m, y) { var r = y(14); function t() { this.set = {}; } t.prototype.add = function(e) { var i = r.createID(e); this.contains(i) || (this.set[i] = e); }, t.prototype.remove = function(e) { delete this.set[r.createID(e)]; }, t.prototype.clear = function() { this.set = {}; }, t.prototype.contains = function(e) { return this.set[r.createID(e)] == e; }, t.prototype.isEmpty = function() { return this.size() === 0; }, t.prototype.size = function() { return Object.keys(this.set).length; }, t.prototype.addAllTo = function(e) { for (var i = Object.keys(this.set), o = i.length, g = 0; g < o; g++) e.push(this.set[i[g]]); }, t.prototype.size = function() { return Object.keys(this.set).length; }, t.prototype.addAll = function(e) { for (var i = e.length, o = 0; o < i; o++) { var g = e[o]; this.add(g); } }, f.exports = t; }, /* 24 */ /***/ function(f, m, y) { var r = /* @__PURE__ */ function() { function o(g, a) { for (var v = 0; v < a.length; v++) { var n = a[v]; n.enumerable = n.enumerable || !1, n.configurable = !0, "value" in n && (n.writable = !0), Object.defineProperty(g, n.key, n); } } return function(g, a, v) { return a && o(g.prototype, a), v && o(g, v), g; }; }(); function t(o, g) { if (!(o instanceof g)) throw new TypeError("Cannot call a class as a function"); } var e = y(11), i = function() { function o(g, a) { t(this, o), (a !== null || a !== void 0) && (this.compareFunction = this._defaultCompareFunction); var v = void 0; g instanceof e ? v = g.size() : v = g.length, this._quicksort(g, 0, v - 1); } return r(o, [{ key: "_quicksort", value: function(a, v, n) { if (v < n) { var c = this._partition(a, v, n); this._quicksort(a, v, c), this._quicksort(a, c + 1, n); } } }, { key: "_partition", value: function(a, v, n) { for (var c = this._get(a, v), l = v, E = n; ; ) { for (; this.compareFunction(c, this._get(a, E)); ) E--; for (; this.compareFunction(this._get(a, l), c); ) l++; if (l < E) this._swap(a, l, E), l++, E--; else return E; } } }, { key: "_get", value: function(a, v) { return a instanceof e ? a.get_object_at(v) : a[v]; } }, { key: "_set", value: function(a, v, n) { a instanceof e ? a.set_object_at(v, n) : a[v] = n; } }, { key: "_swap", value: function(a, v, n) { var c = this._get(a, v); this._set(a, v, this._get(a, n)), this._set(a, n, c); } }, { key: "_defaultCompareFunction", value: function(a, v) { return v > a; } }]), o; }(); f.exports = i; }, /* 25 */ /***/ function(f, m, y) { var r = /* @__PURE__ */ function() { function i(o, g) { for (var a = 0; a < g.length; a++) { var v = g[a]; v.enumerable = v.enumerable || !1, v.configurable = !0, "value" in v && (v.writable = !0), Object.defineProperty(o, v.key, v); } } return function(o, g, a) { return g && i(o.prototype, g), a && i(o, a), o; }; }(); function t(i, o) { if (!(i instanceof o)) throw new TypeError("Cannot call a class as a function"); } var e = function() { function i(o, g) { var a = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : 1, v = arguments.length > 3 && arguments[3] !== void 0 ? arguments[3] : -1, n = arguments.length > 4 && arguments[4] !== void 0 ? arguments[4] : -1; t(this, i), this.sequence1 = o, this.sequence2 = g, this.match_score = a, this.mismatch_penalty = v, this.gap_penalty = n, this.iMax = o.length + 1, this.jMax = g.length + 1, this.grid = new Array(this.iMax); for (var c = 0; c < this.iMax; c++) { this.grid[c] = new Array(this.jMax); for (var l = 0; l < this.jMax; l++) this.grid[c][l] = 0; } this.tracebackGrid = new Array(this.iMax); for (var E = 0; E < this.iMax; E++) { this.tracebackGrid[E] = new Array(this.jMax); for (var T = 0; T < this.jMax; T++) this.tracebackGrid[E][T] = [null, null, null]; } this.alignments = [], this.score = -1, this.computeGrids(); } return r(i, [{ key: "getScore", value: function() { return this.score; } }, { key: "getAlignments", value: function() { return this.alignments; } // Main dynamic programming procedure }, { key: "computeGrids", value: function() { for (var g = 1; g < this.jMax; g++) this.grid[0][g] = this.grid[0][g - 1] + this.gap_penalty, this.tracebackGrid[0][g] = [!1, !1, !0]; for (var a = 1; a < this.iMax; a++) this.grid[a][0] = this.grid[a - 1][0] + this.gap_penalty, this.tracebackGrid[a][0] = [!1, !0, !1]; for (var v = 1; v < this.iMax; v++) for (var n = 1; n < this.jMax; n++) { var c = void 0; this.sequence1[v - 1] === this.sequence2[n - 1] ? c = this.grid[v - 1][n - 1] + this.match_score : c = this.grid[v - 1][n - 1] + this.mismatch_penalty; var l = this.grid[v - 1][n] + this.gap_penalty, E = this.grid[v][n - 1] + this.gap_penalty, T = [c, l, E], D = this.arrayAllMaxIndexes(T); this.grid[v][n] = T[D[0]], this.tracebackGrid[v][n] = [D.includes(0), D.includes(1), D.includes(2)]; } this.score = this.grid[this.iMax - 1][this.jMax - 1]; } // Gets all possible valid sequence combinations }, { key: "alignmentTraceback", value: function() { var g = []; for (g.push({ pos: [this.sequence1.length, this.sequence2.length], seq1: "", seq2: "" }); g[0]; ) { var a = g[0], v = this.tracebackGrid[a.pos[0]][a.pos[1]]; v[0] && g.push({ pos: [a.pos[0] - 1, a.pos[1] - 1], seq1: this.sequence1[a.pos[0] - 1] + a.seq1, seq2: this.sequence2[a.pos[1] - 1] + a.seq2 }), v[1] && g.push({ pos: [a.pos[0] - 1, a.pos[1]], seq1: this.sequence1[a.pos[0] - 1] + a.seq1, seq2: "-" + a.seq2 }), v[2] && g.push({ pos: [a.pos[0], a.pos[1] - 1], seq1: "-" + a.seq1, seq2: this.sequence2[a.pos[1] - 1] + a.seq2 }), a.pos[0] === 0 && a.pos[1] === 0 && this.alignments.push({ sequence1: a.seq1, sequence2: a.seq2 }), g.shift(); } return this.alignments; } // Helper Functions }, { key: "getAllIndexes", value: function(g, a) { for (var v = [], n = -1; (n = g.indexOf(a, n + 1)) !== -1; ) v.push(n); return v; } }, { key: "arrayAllMaxIndexes", value: function(g) { return this.getAllIndexes(g, Math.max.apply(null, g)); } }]), i; }(); f.exports = e; }, /* 26 */ /***/ function(f, m, y) { var r = function() { }; r.FDLayout = y(18), r.FDLayoutConstants = y(7), r.FDLayoutEdge = y(19), r.FDLayoutNode = y(20), r.DimensionD = y(21), r.HashMap = y(22), r.HashSet = y(23), r.IGeometry = y(8), r.IMath = y(9), r.Integer = y(10), r.Point = y(12), r.PointD = y(4), r.RandomSeed = y(16), r.RectangleD = y(13), r.Transform = y(17), r.UniqueIDGeneretor = y(14), r.Quicksort = y(24), r.LinkedList = y(11), r.LGraphObject = y(2), r.LGraph = y(5), r.LEdge = y(1), r.LGraphManager = y(6), r.LNode = y(3), r.Layout = y(15), r.LayoutConstants = y(0), r.NeedlemanWunsch = y(25), f.exports = r; }, /* 27 */ /***/ function(f, m, y) { function r() { this.listeners = []; } var t = r.prototype; t.addListener = function(e, i) { this.listeners.push({ event: e, callback: i }); }, t.removeListener = function(e, i) { for (var o = this.listeners.length; o >= 0; o--) { var g = this.listeners[o]; g.event === e && g.callback === i && this.listeners.splice(o, 1); } }, t.emit = function(e, i) { for (var o = 0; o < this.listeners.length; o++) { var g = this.listeners[o]; e === g.event && g.callback(i); } }, f.exports = r; } /******/ ]) ); }); }(nt)), nt.exports; } var ft; function wt() { return ft || (ft = 1, function(I, w) { (function(m, y) { I.exports = y(Mt()); })(ot, function(f) { return ( /******/ function(m) { var y = {}; function r(t) { if (y[t]) return y[t].exports; var e = y[t] = { /******/ i: t, /******/ l: !1, /******/ exports: {} /******/ }; return m[t].call(e.exports, e, e.exports, r), e.l = !0, e.exports; } return r.m = m, r.c = y, r.i = function(t) { return t; }, r.d = function(t, e, i) { r.o(t, e) || Object.defineProperty(t, e, { /******/ configurable: !1, /******/ enumerable: !0, /******/ get: i /******/ }); }, r.n = function(t) { var e = t && t.__esModule ? ( /******/ function() { return t.default; } ) : ( /******/ function() { return t; } ); return r.d(e, "a", e), e; }, r.o = function(t, e) { return Object.prototype.hasOwnProperty.call(t, e); }, r.p = "", r(r.s = 7); }([ /* 0 */ /***/ function(m, y) { m.exports = f; }, /* 1 */ /***/ function(m, y, r) { var t = r(0).FDLayoutConstants; function e() { } for (var i in t) e[i] = t[i]; e.DEFAULT_USE_MULTI_LEVEL_SCALING = !1, e.DEFAULT_RADIAL_SEPARATION = t.DEFAULT_EDGE_LENGTH, e.DEFAULT_COMPONENT_SEPERATION = 60, e.TILE = !0, e.TILING_PADDING_VERTICAL = 10, e.TILING_PADDING_HORIZONTAL = 10, e.TREE_REDUCTION_ON_INCREMENTAL = !1, m.exports = e; }, /* 2 */ /***/ function(m, y, r) { var t = r(0).FDLayoutEdge; function e(o, g, a) { t.call(this, o, g, a); } e.prototype = Object.create(t.prototype); for (var i in t) e[i] = t[i]; m.exports = e; }, /* 3 */ /***/ function(m, y, r) { var t = r(0).LGraph; function e(o, g, a) { t.call(this, o, g, a); } e.prototype = Object.create(t.prototype); for (var i in t) e[i] = t[i]; m.exports = e; }, /* 4 */ /***/ function(m, y, r) { var t = r(0).LGraphManager; function e(o) { t.call(this, o); } e.prototype = Object.create(t.prototype); for (var i in t) e[i] = t[i]; m.exports = e; }, /* 5 */ /***/ function(m, y, r) { var t = r(0).FDLayoutNode, e = r(0).IMath; function i(g, a, v, n) { t.call(this, g, a, v, n); } i.prototype = Object.create(t.prototype); for (var o in t) i[o] = t[o]; i.prototype.move = function() { var g = this.graphManager.getLayout(); this.displacementX = g.coolingFactor * (this.springForceX + this.repulsionForceX + this.gravitationForceX) / this.noOfChildren, this.displacementY = g.coolingFactor * (this.springForceY + this.repulsionForceY + this.gravitationForceY) / this.noOfChildren, Math.abs(this.displacementX) > g.coolingFactor * g.maxNodeDisplacement && (this.displacementX = g.coolingFactor * g.maxNodeDisplacement * e.sign(this.displacementX)), Math.abs(this.displacementY) > g.coolingFactor * g.maxNodeDisplacement && (this.displacementY = g.coolingFactor * g.maxNodeDisplacement * e.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), g.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; }, i.prototype.propogateDisplacementToChildren = function(g, a) { for (var v = this.getChild().getNodes(), n, c = 0; c < v.length; c++) n = v[c], n.getChild() == null ? (n.moveBy(g, a), n.displacementX += g, n.displacementY += a) : n.propogateDisplacementToChildren(g, a); }, i.prototype.setPred1 = function(g) { this.pred1 = g; }, i.prototype.getPred1 = function() { return pred1; }, i.prototype.getPred2 = function() { return pred2; }, i.prototype.setNext = function(g) { this.next = g; }, i.prototype.getNext = function() { return next; }, i.prototype.setProcessed = function(g) { this.processed = g; }, i.prototype.isProcessed = function() { return processed; }, m.exports = i; }, /* 6 */ /***/ function(m, y, r) { var t = r(0).FDLayout, e = r(4), i = r(3), o = r(5), g = r(2), a = r(1), v = r(0).FDLayoutConstants, n = r(0).LayoutConstants, c = r(0).Point, l = r(0).PointD, E = r(0).Layout, T = r(0).Integer, D = r(0).IGeometry, L = r(0).LGraph, O = r(0).Transform; function d() { t.call(this), this.toBeTiled = {}; } d.prototype = Object.create(t.prototype); for (var N in t) d[N] = t[N]; d.prototype.newGraphManager = function() { var s = new e(this); return this.graphManager = s, s; }, d.prototype.newGraph = function(s) { return new i(null, this.graphManager, s); }, d.prototype.newNode = function(s) { return new o(this.graphManager, s); }, d.prototype.newEdge = function(s) { return new g(null, null, s); }, d.prototype.initParameters = function() { t.prototype.initParameters.call(this, arguments), this.isSubLayout || (a.DEFAULT_EDGE_LENGTH < 10 ? this.idealEdgeLength = 10 : this.idealEdgeLength = a.DEFAULT_EDGE_LENGTH, this.useSmartIdealEdgeLengthCalculation = a.DEFAULT_USE_SMART_IDEAL_EDGE_LENGTH_CALCULATION, this.springConstant = v.DEFAULT_SPRING_STRENGTH, this.repulsionConstant = v.DEFAULT_REPULSION_STRENGTH, this.gravityConstant = v.DEFAULT_GRAVITY_STRENGTH, this.compoundGravityConstant = v.DEFAULT_COMPOUND_GRAVITY_STRENGTH, this.gravityRangeFactor = v.DEFAULT_GRAVITY_RANGE_FACTOR, this.compoundGravityRangeFactor = v.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 / v.CONVERGENCE_CHECK_PERIOD, this.finalTemperature = v.CONVERGENCE_CHECK_PERIOD / this.maxIterations, this.coolingAdjuster = 1); }, d.prototype.layout = function() { var s = n.DEFAULT_CREATE_BENDS_AS_NEEDED; return s && (this.createBendpoints(), this.graphManager.resetAllEdges()), this.level = 0, this.classicLayout(); }, d.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 (a.TREE_REDUCTION_ON_INCREMENTAL) { this.reduceTrees(), this.graphManager.resetAllNodesToApplyGravitation(); var h = new Set(this.getAllNodes()), u = this.nodesWithGravity.filter(function(C) { return h.has(C); }); this.graphManager.setAllNodesToApplyGravitation(u); } } else { var s = this.getFlatForest(); if (s.length > 0) this.positionNodesRadially(s); else { this.reduceTrees(), this.graphManager.resetAllNodesToApplyGravitation(); var h = new Set(this.getAllNodes()), u = this.nodesWithGravity.filter(function(p) { return h.has(p); }); this.graphManager.setAllNodesToApplyGravitation(u), this.positionNodesRandomly(); } } return this.initSpringEmbedder(), this.runSpringEmbedder(), !0; }, d.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 % v.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()), h = this.nodesWithGravity.filter(function(A) { return s.has(A); }); this.graphManager.setAllNodesToApplyGravitation(h), this.graphManager.updateBounds(), this.updateGrid(), this.coolingFactor = v.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 = v.DEFAULT_COOLING_FACTOR_INCREMENTAL * ((100 - this.afterGrowthIterations) / 100), this.afterGrowthIterations++; } var u = !this.isTreeGrowing && !this.isGrowthFinished, p = this.growTreeIterations % 10 == 1 && this.isTreeGrowing || this.afterGrowthIterations % 10 == 1 && this.isGrowthFinished; return this.totalDisplacement = 0, this.graphManager.updateBounds(), this.calcSpringForces(), this.calcRepulsionForces(u, p), this.calcGravitationalForces(), this.moveNodes(), this.animate(), !1; }, d.prototype.getPositionsData = function() { for (var s = this.graphManager.getAllNodes(), h = {}, u = 0; u < s.length; u++) { var p = s[u].rect, A = s[u].id; h[A] = { id: A, x: p.getCenterX(), y: p.getCenterY(), w: p.width, h: p.height }; } return h; }, d.prototype.runSpringEmbedder = function() { this.initialAnimationPeriod = 25, this.animationPeriod = this.initialAnimationPeriod; var s = !1; if (v.ANIMATE === "during") this.emit("layoutstarted"); else { for (; !s; ) s = this.tick(); this.graphManager.updateBounds(); } }, d.prototype.calculateNodesToApplyGravitationTo = function() { var s = [], h, u = this.graphManager.getGraphs(), p = u.length, A; for (A = 0; A < p; A++) h = u[A], h.updateConnected(), h.isConnected || (s = s.concat(h.getNodes())); return s; }, d.prototype.createBendpoints = function() { var s = []; s = s.concat(this.graphManager.getAllEdges()); var h = /* @__PURE__ */ new Set(), u; for (u = 0; u < s.length; u++) { var p = s[u]; if (!h.has(p)) { var A = p.getSource(), C = p.getTarget(); if (A == C) p.getBendpoints().push(new l()), p.getBendpoints().push(new l()), this.createDummyNodesForBendpoints(p), h.add(p); else { var R = []; if (R = R.concat(A.getEdgeListToNode(C)), R = R.concat(C.getEdgeListToNode(A)), !h.has(R[0])) { if (R.length > 1) { var x; for (x = 0; x < R.length; x++) { var _ = R[x]; _.getBendpoints().push(new l()), this.createDummyNodesForBendpoints(_); } } R.forEach(function(U) { h.add(U); }); } } } if (h.size == s.length) break; } }, d.prototype.positionNodesRadially = function(s) { for (var h = new c(0, 0), u = Math.ceil(Math.sqrt(s.length)), p = 0, A = 0, C = 0, R = new l(0, 0), x = 0; x < s.length; x++) { x % u == 0 && (C = 0, A = p, x != 0 && (A += a.DEFAULT_COMPONENT_SEPERATION), p = 0); var _ = s[x], U = E.findCenterOfTree(_); h.x = C, h.y = A, R = d.radialLayout(_, U, h), R.y > p && (p = Math.floor(R.y)), C = Math.floor(R.x + a.DEFAULT_COMPONENT_SEPERATION); } this.transform(new l(n.WORLD_CENTER_X - R.x / 2, n.WORLD_CENTER_Y - R.y / 2)); }, d.radialLayout = function(s, h, u) { var p = Math.max(this.maxDiagonalInTree(s), a.DEFAULT_RADIAL_SEPARATION); d.branchRadialLayout(h, null, 0, 359, 0, p); var A = L.calculateBounds(s), C = new O(); C.setDeviceOrgX(A.getMinX()), C.setDeviceOrgY(A.getMinY()), C.setWorldOrgX(u.x), C.setWorldOrgY(u.y); for (var R = 0; R < s.length; R++) { var x = s[R]; x.transform(C); } var _ = new l(A.getMaxX(), A.getMaxY()); return C.inverseTransformPoint(_); }, d.branchRadialLayout = function(s, h, u, p, A, C) { var R = (p - u + 1) / 2; R < 0 && (R += 180); var x = (R + u) % 360, _ = x * D.TWO_PI / 360, U = A * Math.cos(_), X = A * Math.sin(_); s.setCenter(U, X); var M = []; M = M.concat(s.getEdges()); var G = M.length; h != null && G--; for (var F = 0, b = M.length, Y, k = s.getEdgesBetween(h); k.length > 1; ) { var H = k[0]; k.splice(0, 1); var P = M.indexOf(H); P >= 0 && M.splice(P, 1), b--, G--; } h != null ? Y = (M.indexOf(k[0]) + 1) % b : Y = 0; for (var B = Math.abs(p - u) / G, $ = Y; F != G; $ = ++$ % b) { var K = M[$].getOtherEnd(s); if (K != h) { var Q = (u + F * B) % 360, J = (Q + B) % 360; d.branchRadialLayout(K, s, Q, J, A + C, C), F++; } } }, d.maxDiagonalInTree = function(s) { for (var h = T.MIN_VALUE, u = 0; u < s.length; u++) { var p = s[u], A = p.getDiagonal(); A > h && (h = A); } return h; }, d.prototype.calcRepulsionRange = function() { return 2 * (this.level + 1) * this.idealEdgeLength; }, d.prototype.groupZeroDegreeMembers = function() { var s = this, h = {}; this.memberGroups = {}, this.idToDummyNode = {}; for (var u = [], p = this.graphManager.getAllNodes(), A = 0; A < p.length; A++) { var C = p[A], R = C.getParent(); this.getNodeDegreeWithChildren(C) === 0 && (R.id == null || !this.getToBeTiled(R)) && u.push(C); } for (var A = 0; A < u.length; A++) { var C = u[A], x = C.getParent().id; typeof h[x] > "u" && (h[x] = []), h[x] = h[x].concat(C); } Object.keys(h).forEach(function(_) { if (h[_].length > 1) { var U = "DummyCompound_" + _; s.memberGroups[U] = h[_]; var X = h[_][0].getParent(), M = new o(s.graphManager); M.id = U, M.paddingLeft = X.paddingLeft || 0, M.paddingRight = X.paddingRight || 0, M.paddingBottom = X.paddingBottom || 0, M.paddingTop = X.paddingTop || 0, s.idToDummyNode[U] = M; var G = s.getGraphManager().add(s.newGraph(), M), F = X.getChild(); F.add(M); for (var b = 0; b < h[_].length; b++) { var Y = h[_][b]; F.remove(Y), G.add(Y); } } }); }, d.prototype.clearCompounds = function() { var s = {}, h = {}; this.performDFSOnCompounds(); for (var u = 0; u < this.compoundOrder.length; u++) h[this.compoundOrder[u].id] = this.compoundOrder[u], s[this.compoundOrder[u].id] = [].concat(this.compoundOrder[u].getChild().getNodes()), this.graphManager.remove(this.compoundOrder[u].getChild()), this.compoundOrder[u].child = null; this.graphManager.resetAllNodes(), this.tileCompoundMembers(s, h); }, d.prototype.clearZeroDegreeMembers = function() { var s = this, h = this.tiledZeroDegreePack = []; Object.keys(this.memberGroups).forEach(function(u) { var p = s.idToDummyNode[u]; h[u] = s.tileNodes(s.memberGroups[u], p.paddingLeft + p.paddingRight), p.rect.width = h[u].width, p.rect.height = h[u].height; }); }, d.prototype.repopulateCompounds = function() { for (var s = this.compoundOrder.length - 1; s >= 0; s--) { var h = this.compoundOrder[s], u = h.id, p = h.paddingLeft, A = h.paddingTop; this.adjustLocations(this.tiledMemberPack[u], h.rect.x, h.rect.y, p, A); } }, d.prototype.repopulateZeroDegreeMembers = function() { var s = this, h = this.tiledZeroDegreePack; Object.keys(h).forEach(function(u) { var p = s.idToDummyNode[u], A = p.paddingLeft, C = p.paddingTop; s.adjustLocations(h[u], p.rect.x, p.rect.y, A, C); }); }, d.prototype.getToBeTiled = function(s) { var h = s.id; if (this.toBeTiled[h] != null) return this.toBeTiled[h]; var u = s.getChild(); if (u == null) return this.toBeTiled[h] = !1, !1; for (var p = u.getNodes(), A = 0; A < p.length; A++) { var C = p[A]; if (this.getNodeDegree(C) > 0) return this.toBeTiled[h] = !1, !1; if (C.getChild() == null) { this.toBeTiled[C.id] = !1; continue; } if (!this.getToBeTiled(C)) return this.toBeTiled[h] = !1, !1; } return this.toBeTiled[h] = !0, !0; }, d.prototype.getNodeDegree = function(s) { s.id; for (var h = s.getEdges(), u = 0, p = 0; p < h.length; p++) { var A = h[p]; A.getSource().id !== A.getTarget().id && (u = u + 1); } return u; }, d.prototype.getNodeDegreeWithChildren = function(s) { var h = this.getNodeDegree(s); if (s.getChild() == null) return h; for (var u = s.getChild().getNodes(), p = 0; p < u.length; p++) { var A = u[p]; h += this.getNodeDegreeWithChildren(A); } return h; }, d.prototype.performDFSOnCompounds = function() { this.compoundOrder = [], this.fillCompexOrderByDFS(this.graphManager.getRoot().getNodes()); }, d.prototype.fillCompexOrderByDFS = function(s) { for (var h = 0; h < s.length; h++) { var u = s[h]; u.getChild() != null && this.fillCompexOrderByDFS(u.getChild().getNodes()), this.getToBeTiled(u) && this.compoundOrder.push(u); } }, d.prototype.adjustLocations = function(s, h, u, p, A) { h += p, u += A; for (var C = h, R = 0; R < s.rows.length; R++) { var x = s.rows[R]; h = C; for (var _ = 0, U = 0; U < x.length; U++) { var X = x[U]; X.rect.x = h, X.rect.y = u, h += X.rect.width + s.horizontalPadding, X.rect.height > _ && (_ = X.rect.height); } u += _ + s.verticalPadding; } }, d.prototype.tileCompoundMembers = function(s, h) { var u = this; this.tiledMemberPack = [], Object.keys(s).forEach(function(p) { var A = h[p]; u.tiledMemberPack[p] = u.tileNodes(s[p], A.paddingLeft + A.paddingRight), A.rect.width = u.tiledMemberPack[p].width, A.rect.height = u.tiledMemberPack[p].height; }); }, d.prototype.tileNodes = function(s, h) { var u = a.TILING_PADDING_VERTICAL, p = a.TILING_PADDING_HORIZONTAL, A = { rows: [], rowWidth: [], rowHeight: [], width: 0, height: h, // assume minHeight equals to minWidth verticalPadding: u, horizontalPadding: p }; s.sort(function(x, _) { return x.rect.width * x.rect.height > _.rect.width * _.rect.height ? -1 : x.rect.width * x.rect.height < _.rect.width * _.rect.height ? 1 : 0; }); for (var C = 0; C < s.length; C++) { var R = s[C]; A.rows.length == 0 ? this.insertNodeToRow(A, R, 0, h) : this.canAddHorizontal(A, R.rect.width, R.rect.height) ? this.insertNodeToRow(A, R, this.getShortestRowIndex(A), h) : this.insertNodeToRow(A, R, A.rows.length, h), this.shiftToLastRow(A); } return A; }, d.prototype.insertNodeToRow = function(s, h, u, p) { var A = p; if (u == s.rows.length) { var C = []; s.rows.push(C), s.rowWidth.push(A), s.rowHeight.push(0); } var R = s.rowWidth[u] + h.rect.width; s.rows[u].length > 0 && (R += s.horizontalPadding), s.rowWidth[u] = R, s.width < R && (s.width = R); var x = h.rect.height; u > 0 && (x += s.verticalPadding); var _ = 0; x > s.rowHeight[u] && (_ = s.rowHeight[u], s.rowHeight[u] = x, _ = s.rowHeight[u] - _), s.height += _, s.rows[u].push(h); }, d.prototype.getShortestRowIndex = function(s) { for (var h = -1, u = Number.MAX_VALUE, p = 0; p < s.rows.length; p++) s.rowWidth[p] < u && (h = p, u = s.rowWidth[p]); return h; }, d.prototype.getLongestRowIndex = function(s) { for (var h = -1, u = Number.MIN_VALUE, p = 0; p < s.rows.length; p++) s.rowWidth[p] > u && (h = p, u = s.rowWidth[p]); return h; }, d.prototype.canAddHorizontal = function(s, h, u) { var p = this.getShortestRowIndex(s); if (p < 0) return !0; var A = s.rowWidth[p]; if (A + s.horizontalPadding + h <= s.width) return !0; var C = 0; s.rowHeight[p] < u && p > 0 && (C = u + s.verticalPadding - s.rowHeight[p]); var R; s.width - A >= h + s.horizontalPadding ? R = (s.height + C) / (A + h + s.horizontalPadding) : R = (s.height + C) / s.width, C = u + s.verticalPadding; var x; return s.width < h ? x = (s.height + C) / h : x = (s.height + C) / s.width, x < 1 && (x = 1 / x), R < 1 && (R = 1 / R), R < x; }, d.prototype.shiftToLastRow = function(s) { var h = this.getLongestRowIndex(s), u = s.rowWidth.length - 1, p = s.rows[h], A = p[p.length - 1], C = A.width + s.horizontalPadding; if (s.width - s.rowWidth[u] > C && h != u) { p.splice(-1, 1), s.rows[u].push(A), s.rowWidth[h] = s.rowWidth[h] - C, s.rowWidth[u] = s.rowWidth[u] + C, s.width = s.rowWidth[instance.getLongestRowIndex(s)]; for (var R = Number.MIN_VALUE, x = 0; x < p.length; x++) p[x].height > R && (R = p[x].height); h > 0 && (R += s.verticalPadding); var _ = s.rowHeight[h] + s.rowHeight[u]; s.rowHeight[h] = R, s.rowHeight[u] < A.height + s.verticalPadding && (s.rowHeight[u] = A.height + s.verticalPadding); var U = s.rowHeight[h] + s.rowHeight[u]; s.height += U - _, this.shiftToLastRow(s); } }, d.prototype.tilingPreLayout = function() { a.TILE && (this.groupZeroDegreeMembers(), this.clearCompounds(), this.clearZeroDegreeMembers()); }, d.prototype.tilingPostLayout = function() { a.TILE && (this.repopulateZeroDegreeMembers(), this.repopulateCompounds()); }, d.prototype.reduceTrees = function() { for (var s = [], h = !0, u; h; ) { var p = this.graphManager.getAllNodes(), A = []; h = !1; for (var C = 0; C < p.length; C++) u = p[C], u.getEdges().length == 1 && !u.getEdges()[0].isInterGraph && u.getChild() == null && (A.push([u, u.getEdges()[0], u.getOwner()]), h = !0); if (h == !0) { for (var R = [], x = 0; x < A.length; x++) A[x][0].getEdges().length == 1 && (R.push(A[x]), A[x][0].getOwner().remove(A[x][0])); s.push(R), this.graphManager.resetAllNodes(), this.graphManager.resetAllEdges(); } } this.prunedNodesAll = s; }, d.prototype.growTree = function(s) { for (var h = s.length, u = s[h - 1], p, A = 0; A < u.length; A++) p = u[A], this.findPlaceforPrunedNode(p), p[2].add(p[0]), p[2].add(p[1], p[1].source, p[1].target); s.splice(s.length - 1, 1), this.graphManager.resetAllNodes(), this.graphManager.resetAllEdges(); }, d.prototype.findPlaceforPrunedNode = function(s) { var h, u, p = s[0]; p == s[1].source ? u = s[1].target : u = s[1].source; var A = u.startX, C = u.finishX, R = u.startY, x = u.finishY, _ = 0, U = 0, X = 0, M = 0, G = [_, X, U, M]; if (R > 0) for (var F = A; F <= C; F++) G[0] += this.grid[F][R - 1].length + this.grid[F][R].length - 1; if (C < this.grid.length - 1) for (var F = R; F <= x; F++) G[1] += this.grid[C + 1][F].length + this.grid[C][F].length - 1; if (x < this.grid[0].length - 1) for (var F = A; F <= C; F++) G[2] += this.grid[F][x + 1].length + this.grid[F][x].length - 1; if (A > 0) for (var F = R; F <= x; F++) G[3] += this.grid[A - 1][F].length + this.grid[A][F].length - 1; for (var b = T.MAX_VALUE, Y, k, H = 0; H < G.length; H++) G[H] < b ? (b = G[H], Y = 1, k = H) : G[H] == b && Y++; if (Y == 3 && b == 0) G[0] == 0 && G[1] == 0 && G[2] == 0 ? h = 1 : G[0] == 0 && G[1] == 0 && G[3] == 0 ? h = 0 : G[0] == 0 && G[2] == 0 && G[3] == 0 ? h = 3 : G[1] == 0 && G[2] == 0 && G[3] == 0 && (h = 2); else if (Y == 2 && b == 0) { var P = Math.floor(Math.random() * 2); G[0] == 0 && G[1] == 0 ? P == 0 ? h = 0 : h = 1 : G[0] == 0 && G[2] == 0 ? P == 0 ? h = 0 : h = 2 : G[0] == 0 && G[3] == 0 ? P == 0 ? h = 0 : h = 3 : G[1] == 0 && G[2] == 0 ? P == 0 ? h = 1 : h = 2 : G[1] == 0 && G[3] == 0 ? P == 0 ? h = 1 : h = 3 : P == 0 ? h = 2 : h = 3; } else if (Y == 4 && b == 0) { var P = Math.floor(Math.random() * 4); h = P; } else h = k; h == 0 ? p.setCenter(u.getCenterX(), u.getCenterY() - u.getHeight() / 2 - v.DEFAULT_EDGE_LENGTH - p.getHeight() / 2) : h == 1 ? p.setCenter(u.getCenterX() + u.getWidth() / 2 + v.DEFAULT_EDGE_LENGTH + p.getWidth() / 2, u.getCenterY()) : h == 2 ? p.setCenter(u.getCenterX(), u.getCenterY() + u.getHeight() / 2 + v.DEFAULT_EDGE_LENGTH + p.getHeight() / 2) : p.setCenter(u.getCenterX() - u.getWidth() / 2 - v.DEFAULT_EDGE_LENGTH - p.getWidth() / 2, u.getCenterY()); }, m.exports = d; }, /* 7 */ /***/ function(m, y, r) { var t = {}; t.layoutBase = r(0), t.CoSEConstants = r(1), t.CoSEEdge = r(2), t.CoSEGraph = r(3), t.CoSEGraphManager = r(4), t.CoSELayout = r(6), t.CoSENode = r(5), m.exports = t; } /******/ ]) ); }); }(it)), it.exports; } (function(I, w) { (function(m, y) { I.exports = y(wt()); })(ot, function(f) { return ( /******/ function(m) { var y = {}; function r(t) { if (y[t]) return y[t].exports; var e = y[t] = { /******/ i: t, /******/ l: !1, /******/ exports: {} /******/ }; return m[t].call(e.exports, e, e.exports, r), e.l = !0, e.exports; } return r.m = m, r.c = y, r.i = function(t) { return t; }, r.d = function(t, e, i) { r.o(t, e) || Object.defineProperty(t, e, { /******/ configurable: !1, /******/ enumerable: !0, /******/ get: i /******/ }); }, r.n = function(t) { var e = t && t.__esModule ? ( /******/ function() { return t.default; } ) : ( /******/ function() { return t; } ); return r.d(e, "a", e), e; }, r.o = function(t, e) { return Object.prototype.hasOwnProperty.call(t, e); }, r.p = "", r(r.s = 1); }([ /* 0 */ /***/ function(m, y) { m.exports = f; }, /* 1 */ /***/ function(m, y, r) { var t = r(0).layoutBase.LayoutConstants, e = r(0).layoutBase.FDLayoutConstants, i = r(0).CoSEConstants, o = r(0).CoSELayout, g = r(0).CoSENode, a = r(0).layoutBase.PointD, v = r(0).layoutBase.DimensionD, n = { // 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 c(D, L) { var O = {}; for (var d in D) O[d] = D[d]; for (var d in L) O[d] = L[d]; return O; } function l(D) { this.options = c(n, D), E(this.options); } var E = function(L) { L.nodeRepulsion != null && (i.DEFAULT_REPULSION_STRENGTH = e.DEFAULT_REPULSION_STRENGTH = L.nodeRepulsion), L.idealEdgeLength != null && (i.DEFAULT_EDGE_LENGTH = e.DEFAULT_EDGE_LENGTH = L.idealEdgeLength), L.edgeElasticity != null && (i.DEFAULT_SPRING_STRENGTH = e.DEFAULT_SPRING_STRENGTH = L.edgeElasticity), L.nestingFactor != null && (i.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR = e.PER_LEVEL_IDEAL_EDGE_LENGTH_FACTOR = L.nestingFactor), L.gravity != null && (i.DEFAULT_GRAVITY_STRENGTH = e.DEFAULT_GRAVITY_STRENGTH = L.gravity), L.numIter != null && (i.MAX_ITERATIONS = e.MAX_ITERATIONS = L.numIter), L.gravityRange != null && (i.DEFAULT_GRAVITY_RANGE_FACTOR = e.DEFAULT_GRAVITY_RANGE_FACTOR = L.gravityRange), L.gravityCompound != null && (i.DEFAULT_COMPOUND_GRAVITY_STRENGTH = e.DEFAULT_COMPOUND_GRAVITY_STRENGTH = L.gravityCompound), L.gravityRangeCompound != null && (i.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR = e.DEFAULT_COMPOUND_GRAVITY_RANGE_FACTOR = L.gravityRangeCompound), L.initialEnergyOnIncremental != null && (i.DEFAULT_COOLING_FACTOR_INCREMENTAL = e.DEFAULT_COOLING_FACTOR_INCREMENTAL = L.initialEnergyOnIncremental), L.quality == "draft" ? t.QUALITY = 0 : L.quality == "proof" ? t.QUALITY = 2 : t.QUALITY = 1, i.NODE_DIMENSIONS_INCLUDE_LABELS = e.NODE_DIMENSIONS_INCLUDE_LABELS = t.NODE_DIMENSIONS_INCLUDE_LABELS = L.nodeDimensionsIncludeLabels, i.DEFAULT_INCREMENTAL = e.DEFAULT_INCREMENTAL = t.DEFAULT_INCREMENTAL = !L.randomize, i.ANIMATE = e.ANIMATE = t.ANIMATE = L.animate, i.TILE = L.tile, i.TILING_PADDING_VERTICAL = typeof L.tilingPaddingVertical == "function" ? L.tilingPaddingVertical.call() : L.tilingPaddingVertical, i.TILING_PADDING_HORIZONTAL = typeof L.tilingPaddingHorizontal == "function" ? L.tilingPaddingHorizontal.call() : L.tilingPaddingHorizontal; }; l.prototype.run = function() { var D, L, O = this.options; this.idToLNode = {}; var d = this.layout = new o(), N = this; N.stopped = !1, this.cy = this.options.cy, this.cy.trigger({ type: "layoutstart", layout: this }); var s = d.newGraphManager(); this.gm = s; var h = this.options.eles.nodes(), u = this.options.eles.edges(); this.root = s.addRoot(), this.processChildrenList(this.root, this.getTopMostNodes(h), d); for (var p = 0; p < u.length; p++) { var A = u[p], C = this.idToLNode[A.data("source")], R = this.idToLNode[A.data("target")]; if (C !== R && C.getEdgesBetween(R).length == 0) { var x = s.add(d.newEdge(), C, R); x.id = A.id(); } } var _ = function(M, G) { typeof M == "number" && (M = G); var F = M.data("id"), b = N.idToLNode[F]; return { x: b.getRect().getCenterX(), y: b.getRect().getCenterY() }; }, U = function X() { for (var M = function() { O.fit && O.cy.fit(O.eles, O.padding), D || (D = !0, N.cy.one("layoutready", O.ready), N.cy.trigger({ type: "layoutready", layout: N })); }, G = N.options.refresh, F, b = 0; b < G && !F; b++) F = N.stopped || N.layout.tick(); if (F) { d.checkLayoutSuccess() && !d.isSubLayout && d.doPostLayout(), d.tilingPostLayout && d.tilingPostLayout(), d.isLayoutFinished = !0, N.options.eles.nodes().positions(_), M(), N.cy.one("layoutstop", N.options.stop), N.cy.trigger({ type: "layoutstop", layout: N }), L && cancelAnimationFrame(L), D = !1; return; } var Y = N.layout.getPositionsData(); O.eles.nodes().positions(function(k, H) { if (typeof k == "number" && (k = H), !k.isParent()) { for (var P = k.id(), B = Y[P], $ = k; B == null && (B = Y[$.data("parent")] || Y["DummyCompound_" + $.data("parent")], Y[P] = B, $ = $.parent()[0], $ != null); ) ; return B != null ? { x: B.x, y: B.y } : { x: k.position("x"), y: k.position("y") }; } }), M(), L = requestAnimationFrame(X); }; return d.addListener("layoutstarted", function() { N.options.animate === "during" && (L = requestAnimationFrame(U)); }), d.runLayout(), this.options.animate !== "during" && (N.options.eles.nodes().not(":parent").layoutPositions(N, N.options, _), D = !1), this; }, l.prototype.getTopMostNodes = function(D) { for (var L = {}, O = 0; O < D.length; O++) L[D[O].id()] = !0; var d = D.filter(function(N, s) { typeof N == "number" && (N = s); for (var h = N.parent()[0]; h != null; ) { if (L[h.id()]) return !1; h = h.parent()[0]; } return !0; }); return d; }, l.prototype.processChildrenList = function(D, L, O) { for (var d = L.length, N = 0; N < d; N++) { var s = L[N], h = s.children(), u, p = s.layoutDimensions({ nodeDimensionsIncludeLabels: this.options.nodeDimensionsIncludeLabels }); if (s.outerWidth() != null && s.outerHeight() != null ? u = D.add(new g(O.graphManager, new a(s.position("x") - p.w / 2, s.position("y") - p.h / 2), new v(parseFloat(p.w), parseFloat(p.h)))) : u = D.add(new g(this.graphManager)), u.id = s.data("id"), u.paddingLeft = parseInt(s.css("padding")), u.paddingTop = parseInt(s.css("padding")), u.paddingRight = parseInt(s.css("padding")), u.paddingBottom = parseInt(s.css("padding")), this.options.nodeDimensionsIncludeLabels && s.isParent()) { var A = s.boundingBox({ includeLabels: !0, includeNodes: !1 }).w, C = s.boundingBox({ includeLabels: !0, includeNodes: !1 }).h, R = s.css("text-halign"); u.labelWidth = A, u.labelHeight = C, u.labelPos = R; } if (this.idToLNode[s.data("id")] = u, isNaN(u.rect.x) && (u.rect.x = 0), isNaN(u.rect.y) && (u.rect.y = 0), h != null && h.length > 0) { var x; x = O.getGraphManager().add(O.newGraph(), u), this.processChildrenList(x, h, O); } } }, l.prototype.stop = function() { return this.stopped = !0, this; }; var T = function(L) { L("layout", "cose-bilkent", l); }; typeof cytoscape < "u" && T(cytoscape), m.exports = T; } /******/ ]) ); }); })(dt); var St = dt.exports; const Gt = /* @__PURE__ */ xt(St); var st = function() { var I = /* @__PURE__ */ S(function(O, d, N, s) { for (N = N || {}, s = O.length; s--; N[O[s]] = d) ; return N; }, "o"), w = [1, 4], f = [1, 13], m = [1, 12], y = [1, 15], r = [1, 16], t = [1, 20], e = [1, 19], i = [6, 7, 8], o = [1, 26], g = [1, 24], a = [1, 25], v = [6, 7, 11], n = [1, 6, 13, 15, 16, 19, 22], c = [1, 33], l = [1, 34], E = [1, 6, 7, 11, 13, 15, 16, 19, 22], T = { trace: /* @__PURE__ */ S(function() { }, "trace"), 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, $end: 1 }, terminals_: { 2: "error", 6: "SPACELINE", 7: "NL", 8: "MINDMAP", 11: "EOF", 13: "SPACELIST", 15: "ICON", 16: "CLASS", 19: "NODE_DSTART", 20: "NODE_DESCR", 21: "NODE_DEND", 22: "NODE_ID" }, productions_: [0, [3, 1], [3, 2], [5, 1], [5, 2], [5, 2], [4, 2], [4, 3], [10, 1], [10, 1], [10, 1], [10, 2], [10, 2], [9, 3], [9, 2], [12, 2], [12, 2], [12, 2], [12, 1], [12, 1], [12, 1], [12, 1], [12, 1], [14, 1], [14, 1], [18, 3], [17, 1], [17, 4]], performAction: /* @__PURE__ */ S(function(d, N, s, h, u, p, A) { var C = p.length - 1; switch (u) { case 6: case 7: return h; case 8: h.getLogger().trace("Stop NL "); break; case 9: h.getLogger().trace("Stop EOF "); break; case 11: h.getLogger().trace("Stop NL2 "); break; case 12: h.getLogger().trace("Stop EOF2 "); break; case 15: h.getLogger().info("Node: ", p[C].id), h.addNode(p[C - 1].length, p[C].id, p[C].descr, p[C].type); break; case 16: h.getLogger().trace("Icon: ", p[C]), h.decorateNode({ icon: p[C] }); break; case 17: case 21: h.decorateNode({ class: p[C] }); break; case 18: h.getLogger().trace("SPACELIST"); break; case 19: h.getLogger().trace("Node: ", p[C].id), h.addNode(0, p[C].id, p[C].descr, p[C].type); break; case 20: h.decorateNode({ icon: p[C] }); break; case 25: h.getLogger().trace("node found ..", p[C - 2]), this.$ = { id: p[C - 1], descr: p[C - 1], type: h.getType(p[C - 2], p[C]) }; break; case 26: this.$ = { id: p[C], descr: p[C], type: h.nodeType.DEFAULT }; break; case 27: h.getLogger().trace("node found ..", p[C - 3]), this.$ = { id: p[C - 3], descr: p[C - 1], type: h.getType(p[C - 2], p[C]) }; break; } }, "anonymous"), table: [{ 3: 1, 4: 2, 5: 3, 6: [1, 5], 8: w }, { 1: [3] }, { 1: [2, 1] }, { 4: 6, 6: [1, 7], 7: [1, 8], 8: w }, { 6: f, 7: [1, 10], 9: 9, 12: 11, 13: m, 14: 14, 15: y, 16: r, 17: 17, 18: 18, 19: t, 22: e }, I(i, [2, 3]), { 1: [2, 2] }, I(i, [2, 4]), I(i, [2, 5]), { 1: [2, 6], 6: f, 12: 21, 13: m, 14: 14, 15: y, 16: r, 17: 17, 18: 18, 19: t, 22: e }, { 6: f, 9: 22, 12: 11, 13: m, 14: 14, 15: y, 16: r, 17: 17, 18: 18, 19: t, 22: e }, { 6: o, 7: g, 10: 23, 11: a }, I(v, [2, 22], { 17: 17, 18: 18, 14: 27, 15: [1, 28], 16: [1, 29], 19: t, 22: e }), I(v, [2, 18]), I(v, [2, 19]), I(v, [2, 20]), I(v, [2, 21]), I(v, [2, 23]), I(v, [2, 24]), I(v, [2, 26], { 19: [1, 30] }), { 20: [1, 31] }, { 6: o, 7: g, 10: 32, 11: a }, { 1: [2, 7], 6: f, 12: 21, 13: m, 14: 14, 15: y, 16: r, 17: 17, 18: 18, 19: t, 22: e }, I(n, [2, 14], { 7: c, 11: l }), I(E, [2, 8]), I(E, [2, 9]), I(E, [2, 10]), I(v, [2, 15]), I(v, [2, 16]), I(v, [2, 17]), { 20: [1, 35] }, { 21: [1, 36] }, I(n, [2, 13], { 7: c, 11: l }), I(E, [2, 11]), I(E, [2, 12]), { 21: [1, 37] }, I(v, [2, 25]), I(v, [2, 27])], defaultActions: { 2: [2, 1], 6: [2, 2] }, parseError: /* @__PURE__ */ S(function(d, N) { if (N.recoverable) this.trace(d); else { var s = new Error(d); throw s.hash = N, s; } }, "parseError"), parse: /* @__PURE__ */ S(function(d) { var N = this, s = [0], h = [], u = [null], p = [], A = this.table, C = "", R = 0, x = 0, _ = 2, U = 1, X = p.slice.call(arguments, 1), M = Object.create(this.lexer), G = { yy: {} }; for (var F in this.yy) Object.prototype.hasOwnProperty.call(this.yy, F) && (G.yy[F] = this.yy[F]); M.setInput(d, G.yy), G.yy.lexer = M, G.yy.parser = this, typeof M.yylloc > "u" && (M.yylloc = {}); var b = M.yylloc; p.push(b); var Y = M.options && M.options.ranges; typeof G.yy.parseError == "function" ? this.parseError = G.yy.parseError : this.parseError = Object.getPrototypeOf(this).parseError; function k(V) { s.length = s.length - 2 * V, u.length = u.length - V, p.length = p.length - V; } S(k, "popStack"); function H() { var V; return V = h.pop() || M.lex() || U, typeof V != "number" && (V instanceof Array && (h = V, V = h.pop()), V = N.symbols_[V] || V), V; } S(H, "lex"); for (var P, B, $, K, Q = {}, J, j, gt, q; ; ) { if (B = s[s.length - 1], this.defaultActions[B] ? $ = this.defaultActions[B] : ((P === null || typeof P > "u") && (P = H()), $ = A[B] && A[B][P]), typeof $ > "u" || !$.length || !$[0]) { var rt = ""; q = []; for (J in A[B]) this.terminals_[J] && J > _ && q.push("'" + this.terminals_[J] + "'"); M.showPosition ? rt = "Parse error on line " + (R + 1) + `: ` + M.showPosition() + ` Expecting ` + q.join(", ") + ", got '" + (this.terminals_[P] || P) + "'" : rt = "Parse error on line " + (R + 1) + ": Unexpected " + (P == U ? "end of input" : "'" + (this.terminals_[P] || P) + "'"), this.parseError(rt, { text: M.match, token: this.terminals_[P] || P, line: M.yylineno, loc: b, expected: q }); } if ($[0] instanceof Array && $.length > 1) throw new Error("Parse Error: multiple actions possible at state: " + B + ", token: " + P); switch ($[0]) { case 1: s.push(P), u.push(M.yytext), p.push(M.yylloc), s.push($[1]), P = null, x = M.yyleng, C = M.yytext, R = M.yylineno, b = M.yylloc; break; case 2: if (j = this.productions_[$[1]][1], Q.$ = u[u.length - j], Q._$ = { first_line: p[p.length - (j || 1)].first_line, last_line: p[p.length - 1].last_line, first_column: p[p.length - (j || 1)].first_column, last_column: p[p.length - 1].last_column }, Y && (Q._$.range = [ p[p.length - (j || 1)].range[0], p[p.length - 1].range[1] ]), K = this.performAction.apply(Q, [ C, x, R, G.yy, $[1], u, p ].concat(X)), typeof K < "u") return K; j && (s = s.slice(0, -1 * j * 2), u = u.slice(0, -1 * j), p = p.slice(0, -1 * j)), s.push(this.productions_[$[1]][0]), u.push(Q.$), p.push(Q._$), gt = A[s[s.length - 2]][s[s.length - 1]], s.push(gt); break; case 3: return !0; } } return !0; }, "parse") }, D = /* @__PURE__ */ function() { var O = { EOF: 1, parseError: /* @__PURE__ */ S(function(N, s) { if (this.yy.parser) this.yy.parser.parseError(N, s); else throw new Error(N); }, "parseError"), // resets the lexer, sets new input setInput: /* @__PURE__ */ S(function(d, N) { return this.yy = N || this.yy || {}, this._input = d, 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; }, "setInput"), // consumes and returns one char from the input input: /* @__PURE__ */ S(function() { var d = this._input[0]; this.yytext += d, this.yyleng++, this.offset++, this.match += d, this.matched += d; var N = d.match(/(?:\r\n?|\n).*/g); return N ? (this.yylineno++, this.yylloc.last_line++) : this.yylloc.last_column++, this.options.ranges && this.yylloc.range[1]++, this._input = this._input.slice(1), d; }, "input"), // unshifts one char (or a string) into the input unput: /* @__PURE__ */ S(function(d) { var N = d.length, s = d.split(/(?:\r\n?|\n)/g); this._input = d + this._input, this.yytext = this.yytext.substr(0, this.yytext.length - N), this.offset -= N; var h = 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 u = 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 === h.length ? this.yylloc.first_column : 0) + h[h.length - s.length].length - s[0].length : this.yylloc.first_column - N }, this.options.ranges && (this.yylloc.range = [u[0], u[0] + this.yyleng - N]), this.yyleng = this.yytext.length, this; }, "unput"), // When called from action, caches matched text and appends it on next action more: /* @__PURE__ */ S(function() { return this._more = !0, this; }, "more"), // 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: /* @__PURE__ */ S(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; }, "reject"), // retain first n characters of the match less: /* @__PURE__ */ S(function(d) { this.unput(this.match.slice(d)); }, "less"), // displays already matched input, i.e. for error messages pastInput: /* @__PURE__ */ S(function() { var d = this.matched.substr(0, this.matched.length - this.match.length); return (d.length > 20 ? "..." : "") + d.substr(-20).replace(/\n/g, ""); }, "pastInput"), // displays upcoming input, i.e. for error messages upcomingInput: /* @__PURE__ */ S(function() { var d = this.match; return d.length < 20 && (d += this._input.substr(0, 20 - d.length)), (d.substr(0, 20) + (d.length > 20 ? "..." : "")).replace(/\n/g, ""); }, "upcomingInput"), // displays the character position where the lexing error occurred, i.e. for error messages showPosition: /* @__PURE__ */ S(function() { var d = this.pastInput(), N = new Array(d.length + 1).join("-"); return d + this.upcomingInput() + ` ` + N + "^"; }, "showPosition"), // test the lexed token: return FALSE when not a match, otherwise return token test_match: /* @__PURE__ */ S(function(d, N) { var s, h, u; if (this.options.backtrack_lexer && (u = { 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 && (u.yylloc.range = this.yylloc.range.slice(0))), h = d[0].match(/(?:\r\n?|\n).*/g), h && (this.yylineno += h.length), this.yylloc = { first_line: this.yylloc.last_line, last_line: this.yylineno + 1, first_column: this.yylloc.last_column, last_column: h ? h[h.length - 1].length - h[h.length - 1].match(/\r?\n?/)[0].length : this.yylloc.last_column + d[0].length }, this.yytext += d[0], this.match += d[0], this.matches = d, 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(d[0].length), this.matched += d[0], s = this.performAction.call(this, this.yy, this, N, this.conditionStack[this.conditionStack.length - 1]), this.done && this._input && (this.done = !1), s) return s; if (this._backtrack) { for (var p in u) this[p] = u[p]; return !1; } return !1; }, "test_match"), // return next match in input next: /* @__PURE__ */ S(function() { if (this.done) return this.EOF; this._input || (this.done = !0); var d, N, s, h; this._more || (this.yytext = "", this.match = ""); for (var u = this._currentRules(), p = 0; p < u.length; p++) if (s = this._input.match(this.rules[u[p]]), s && (!N || s[0].length > N[0].length)) { if (N = s, h = p, this.options.backtrack_lexer) { if (d = this.test_match(s, u[p]), d !== !1) return d; if (this._backtrack) { N = !1; continue; } else return !1; } else if (!this.options.flex) break; } return N ? (d = this.test_match(N, u[h]), d !== !1 ? d : !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__ */ S(function() { var N = this.next(); return N || this.lex(); }, "lex"), // activates a new lexer condition state (pushes the new lexer condition state onto the condition stack) begin: /* @__PURE__ */ S(function(N) { this.conditionStack.push(N); }, "begin"), // pop the previously active lexer condition state off the condition stack popState: /* @__PURE__ */ S(function() { var N = this.conditionStack.length - 1; return N > 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__ */ S(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__ */ S(function(N) { return N = this.conditionStack.length - 1 - Math.abs(N || 0), N >= 0 ? this.conditionStack[N] : "INITIAL"; }, "topState"), // alias for begin(condition) pushState: /* @__PURE__ */ S(function(N) { this.begin(N); }, "pushState"), // return the number of states currently on the stack stateStackSize: /* @__PURE__ */ S(function() { return this.conditionStack.length; }, "stateStackSize"), options: { "case-insensitive": !0 }, performAction: /* @__PURE__ */ S(function(N, s, h, u) { switch (h) { case 0: return N.getLogger().trace("Found comment", s.yytext), 6; case 1: return 8; case 2: this.begin("CLASS"); break; case 3: return this.popState(), 16; case 4: this.popState(); break; case 5: N.getLogger().trace("Begin icon"), this.begin("ICON"); break; case 6: return N.getLogger().trace("SPACELINE"), 6; case 7: return 7; case 8: return 15; case 9: N.getLogger().trace("end icon"), this.popState(); break; case 10: return N.getLogger().trace("Exploding node"), this.begin("NODE"), 19; case 11: return N.getLogger().trace("Cloud"), this.begin("NODE"), 19; case 12: return N.getLogger().trace("Explosion Bang"), this.begin("NODE"), 19; case 13: return N.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: this.begin("NSTR2"); break; case 22: return "NODE_DESCR"; case 23: this.popState(); break; case 24: N.getLogger().trace("Starting NSTR"), this.begin("NSTR"); break; case 25: return N.getLogger().trace("description:", s.yytext), "NODE_DESCR"; case 26: this.popState(); break; case 27: return this.popState(), N.getLogger().trace("node end ))"), "NODE_DEND"; case 28: return this.popState(), N.getLogger().trace("node end )"), "NODE_DEND"; case 29: return this.popState(), N.getLogger().trace("node end ...", s.yytext), "NODE_DEND"; case 30: return this.popState(), N.getLogger().trace("node end (("), "NODE_DEND"; case 31: return this.popState(), N.getLogger().trace("node end (-"), "NODE_DEND"; case 32: return this.popState(), N.getLogger().trace("node end (-"), "NODE_DEND"; case 33: return this.popState(), N.getLogger().trace("node end (("), "NODE_DEND"; case 34: return this.popState(), N.getLogger().trace("node end (("), "NODE_DEND"; case 35: return N.getLogger().trace("Long description:", s.yytext), 20; case 36: return N.getLogger().trace("Long description:", s.yytext), 20; } }, "anonymous"), 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, /^(?:\()/i, /^(?:[^\)\]\(\}]+)/i, /^(?:.+(?!\(\())/i], conditions: { CLASS: { rules: [3, 4], inclusive: !1 }, ICON: { rules: [8, 9], inclusive: !1 }, NSTR2: { rules: [22, 23], inclusive: !1 }, NSTR: { rules: [25, 26], inclusive: !1 }, NODE: { rules: [21, 24, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36], inclusive: !1 }, INITIAL: { rules: [0, 1, 2, 5, 6, 7, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20], inclusive: !0 } } }; return O; }(); T.lexer = D; function L() { this.yy = {}; } return S(L, "Parser"), L.prototype = T, T.Parser = L, new L(); }(); st.parser = st; var _t = st, Z = [], vt = 0, ht = {}, Ft = /* @__PURE__ */ S(() => { Z = [], vt = 0, ht = {}; }, "clear"), bt = /* @__PURE__ */ S(function(I) { for (let w = Z.length - 1; w >= 0; w--) if (Z[w].level < I) return Z[w]; return null; }, "getParent"), Ut = /* @__PURE__ */ S(() => Z.length > 0 ? Z[0] : null, "getMindmap"), Pt = /* @__PURE__ */ S((I, w, f, m) => { var i, o; z.info("addNode", I, w, f, m); const y = at(); let r = ((i = y.mindmap) == null ? void 0 : i.padding) ?? tt.mindmap.padding; switch (m) { case W.ROUNDED_RECT: case W.RECT: case W.HEXAGON: r *= 2; } const t = { id: vt++, nodeId: et(w, y), level: I, descr: et(f, y), type: m, children: [], width: ((o = y.mindmap) == null ? void 0 : o.maxNodeWidth) ?? tt.mindmap.maxNodeWidth, padding: r }, e = bt(I); if (e) e.children.push(t), Z.push(t); else if (Z.length === 0) Z.push(t); else throw new Error( 'There can be only one root. No parent could be found for ("' + t.descr + '")' ); }, "addNode"), W = { DEFAULT: 0, NO_BORDER: 0, ROUNDED_RECT: 1, RECT: 2, CIRCLE: 3, CLOUD: 4, BANG: 5, HEXAGON: 6 }, Yt = /* @__PURE__ */ S((I, w) => { switch (z.debug("In get type", I, w), I) { case "[": return W.RECT; case "(": return w === ")" ? W.ROUNDED_RECT : W.CLOUD; case "((": return W.CIRCLE; case ")": return W.CLOUD; case "))": return W.BANG; case "{{": return W.HEXAGON; default: return W.DEFAULT; } }, "getType"), Xt = /* @__PURE__ */ S((I, w) => { ht[I] = w; }, "setElementForId"), kt = /* @__PURE__ */ S((I) => { if (!I) return; const w = at(), f = Z[Z.length - 1]; I.icon && (f.icon = et(I.icon, w)), I.class && (f.class = et(I.class, w)); }, "decorateNode"), Ht = /* @__PURE__ */ S((I) => { switch (I) { case W.DEFAULT: return "no-border"; case W.RECT: return "rect"; case W.ROUNDED_RECT: return "rounded-rect"; case W.CIRCLE: return "circle"; case W.CLOUD: return "cloud"; case W.BANG: return "bang"; case W.HEXAGON: return "hexgon"; default: return "no-border"; } }, "type2Str"), $t = /* @__PURE__ */ S(() => z, "getLogger"), Wt = /* @__PURE__ */ S((I) => ht[I], "getElementById"), Bt = { clear: Ft, addNode: Pt, getMindmap: Ut, nodeType: W, getType: Yt, setElementForId: Xt, decorateNode: kt, type2Str: Ht, getLogger: $t, getElementById: Wt }, Vt = Bt, Zt = 12, Qt = /* @__PURE__ */ S(function(I, w, f, m) { w.append("path").attr("id", "node-" + f.id).attr("class", "node-bkg node-" + I.type2Str(f.type)).attr( "d", `M0 ${f.height - 5} v${-f.height + 2 * 5} q0,-5 5,-5 h${f.width - 2 * 5} q5,0 5,5 v${f.height - 5} H0 Z` ), w.append("line").attr("class", "node-line-" + m).attr("x1", 0).attr("y1", f.height).attr("x2", f.width).attr("y2", f.height); }, "defaultBkg"), jt = /* @__PURE__ */ S(function(I, w, f) { w.append("rect").attr("id", "node-" + f.id).attr("class", "node-bkg node-" + I.type2Str(f.type)).attr("height", f.height).attr("width", f.width); }, "rectBkg"), zt = /* @__PURE__ */ S(function(I, w, f) { const m = f.width, y = f.height, r = 0.15 * m, t = 0.25 * m, e = 0.35 * m, i = 0.2 * m; w.append("path").attr("id", "node-" + f.id).attr("class", "node-bkg node-" + I.type2Str(f.type)).attr( "d", `M0 0 a${r},${r} 0 0,1 ${m * 0.25},${-1 * m * 0.1} a${e},${e} 1 0,1 ${m * 0.4},${-1 * m * 0.1} a${t},${t} 1 0,1 ${m * 0.35},${1 * m * 0.2} a${r},${r} 1 0,1 ${m * 0.15},${1 * y * 0.35} a${i},${i} 1 0,1 ${-1 * m * 0.15},${1 * y * 0.65} a${t},${r} 1 0,1 ${-1 * m * 0.25},${m * 0.15} a${e},${e} 1 0,1 ${-1 * m * 0.5},0 a${r},${r} 1 0,1 ${-1 * m * 0.25},${-1 * m * 0.15} a${r},${r} 1 0,1 ${-1 * m * 0.1},${-1 * y * 0.35} a${i},${i} 1 0,1 ${m * 0.1},${-1 * y * 0.65} H0 V0 Z` ); }, "cloudBkg"), Kt = /* @__PURE__ */ S(function(I, w, f) { const m = f.width, y = f.height, r = 0.15 * m; w.append("path").attr("id", "node-" + f.id).attr("class", "node-bkg node-" + I.type2Str(f.type)).attr( "d", `M0 0 a${r},${r} 1 0,0 ${m * 0.25},${-1 * y * 0.1} a${r},${r} 1 0,0 ${m * 0.25},0 a${r},${r} 1 0,0 ${m * 0.25},0 a${r},${r} 1 0,0 ${m * 0.25},${1 * y * 0.1} a${r},${r} 1 0,0 ${m * 0.15},${1 * y * 0.33} a${r * 0.8},${r * 0.8} 1 0,0 0,${1 * y * 0.34} a${r},${r} 1 0,0 ${-1 * m * 0.15},${1 * y * 0.33} a${r},${r} 1 0,0 ${-1 * m * 0.25},${y * 0.15} a${r},${r} 1 0,0 ${-1 * m * 0.25},0 a${r},${r} 1 0,0 ${-1 * m * 0.25},0 a${r},${r} 1 0,0 ${-1 * m * 0.25},${-1 * y * 0.15} a${r},${r} 1 0,0 ${-1 * m * 0.1},${-1 * y * 0.33} a${r * 0.8},${r * 0.8} 1 0,0 0,${-1 * y * 0.34} a${r},${r} 1 0,0 ${m * 0.1},${-1 * y * 0.33} H0 V0 Z` ); }, "bangBkg"), Jt = /* @__PURE__ */ S(function(I, w, f) { w.append("circle").attr("id", "node-" + f.id).attr("class", "node-bkg node-" + I.type2Str(f.type)).attr("r", f.width / 2); }, "circleBkg"); function yt(I, w, f, m, y) { return I.insert("polygon", ":first-child").attr( "points", m.map(function(r) { return r.x + "," + r.y; }).join(" ") ).attr("transform", "translate(" + (y.width - w) / 2 + ", " + f + ")"); } S(yt, "insertPolygonShape"); var qt = /* @__PURE__ */ S(function(I, w, f) { const m = f.height, r = m / 4, t = f.width - f.padding + 2 * r, e = [ { x: r, y: 0 }, { x: t - r, y: 0 }, { x: t, y: -m / 2 }, { x: t - r, y: -m }, { x: r, y: -m }, { x: 0, y: -m / 2 } ]; yt(w, t, m, e, f); }, "hexagonBkg"), te = /* @__PURE__ */ S(function(I, w, f) { w.append("rect").attr("id", "node-" + f.id).attr("class", "node-bkg node-" + I.type2Str(f.type)).attr("height", f.height).attr("rx", f.padding).attr("ry", f.padding).attr("width", f.width); }, "roundedRectBkg"), ee = /* @__PURE__ */ S(async function(I, w, f, m, y) { const r = y.htmlLabels, t = m % (Zt - 1), e = w.append("g"); f.section = t; let i = "section-" + t; t < 0 && (i += " section-root"), e.attr("class", (f.class ? f.class + " " : "") + "mindmap-node " + i); const o = e.append("g"), g = e.append("g"), a = f.descr.replace(/()/g, ` `); await Dt( g, a, { useHtmlLabels: r, width: f.width, classes: "mindmap-node-label" }, y ), r || g.attr("dy", "1em").attr("alignment-baseline", "middle").attr("dominant-baseline", "middle").attr("text-anchor", "middle"); const v = g.node().getBBox(), [n] = mt(y.fontSize); if (f.height = v.height + n * 1.1 * 0.5 + f.padding, f.width = v.width + 2 * f.padding, f.icon) if (f.type === I.nodeType.CIRCLE) f.height += 50, f.width += 50, e.append("foreignObject").attr("height", "50px").attr("width", f.width).attr("style", "text-align: center;").append("div").attr("class", "icon-container").append("i").attr("class", "node-icon-" + t + " " + f.icon), g.attr( "transform", "translate(" + f.width / 2 + ", " + (f.height / 2 - 1.5 * f.padding) + ")" ); else { f.width += 50; const c = f.height; f.height = Math.max(c, 60); const l = Math.abs(f.height - c); e.append("foreignObject").attr("width", "60px").attr("height", f.height).attr("style", "text-align: center;margin-top:" + l / 2 + "px;").append("div").attr("class", "icon-container").append("i").attr("class", "node-icon-" + t + " " + f.icon), g.attr( "transform", "translate(" + (25 + f.width / 2) + ", " + (l / 2 + f.padding / 2) + ")" ); } else if (r) { const c = (f.width - v.width) / 2, l = (f.height - v.height) / 2; g.attr("transform", "translate(" + c + ", " + l + ")"); } else { const c = f.width / 2, l = f.padding / 2; g.attr("transform", "translate(" + c + ", " + l + ")"); } switch (f.type) { case I.nodeType.DEFAULT: Qt(I, o, f, t); break; case I.nodeType.ROUNDED_RECT: te(I, o, f, t); break; case I.nodeType.RECT: jt(I, o, f, t); break; case I.nodeType.CIRCLE: o.attr("transform", "translate(" + f.width / 2 + ", " + +f.height / 2 + ")"), Jt(I, o, f, t); break; case I.nodeType.CLOUD: zt(I, o, f, t); break; case I.nodeType.BANG: Kt(I, o, f, t); break; case I.nodeType.HEXAGON: qt(I, o, f, t); break; } return I.setElementForId(f.id, e), f.height; }, "drawNode"), re = /* @__PURE__ */ S(function(I, w) { const f = I.getElementById(w.id), m = w.x || 0, y = w.y || 0; f.attr("transform", "translate(" + m + "," + y + ")"); }, "positionNode"); pt.use(Gt); async function lt(I, w, f, m, y) { await ee(I, w, f, m, y), f.children && await Promise.all( f.children.map( (r, t) => lt(I, w, r, m < 0 ? t : m, y) ) ); } S(lt, "drawNodes"); function Et(I, w) { w.edges().map((f, m) => { const y = f.data(); if (f[0]._private.bodyBounds) { const r = f[0]._private.rscratch; z.trace("Edge: ", m, y), I.insert("path").attr( "d", `M ${r.startX},${r.startY} L ${r.midX},${r.midY} L${r.endX},${r.endY} ` ).attr("class", "edge section-edge-" + y.section + " edge-depth-" + y.depth); } }); } S(Et, "drawEdges"); function ct(I, w, f, m) { w.add({ group: "nodes", data: { id: I.id.toString(), labelText: I.descr, height: I.height, width: I.width, level: m, nodeId: I.id, padding: I.padding, type: I.type }, position: { x: I.x, y: I.y } }), I.children && I.children.forEach((y) => { ct(y, w, f, m + 1), w.add({ group: "edges", data: { id: `${I.id}_${y.id}`, source: I.id, target: y.id, depth: m, section: y.section } }); }); } S(ct, "addNodes"); function Lt(I, w) { return new Promise((f) => { const m = Nt("body").append("div").attr("id", "cy").attr("style", "display:none"), y = pt({ container: document.getElementById("cy"), // container to render in style: [ { selector: "edge", style: { "curve-style": "bezier" } } ] }); m.remove(), ct(I, y, w, 0), y.nodes().forEach(function(r) { r.layoutDimensions = () => { const t = r.data(); return { w: t.width, h: t.height }; }; }), y.layout({ name: "cose-bilkent", // @ts-ignore Types for cose-bilkent are not correct? quality: "proof", styleEnabled: !1, animate: !1 }).run(), y.ready((r) => { z.info("Ready", r), f(y); }); }); } S(Lt, "layoutMindmap"); function Tt(I, w) { w.nodes().map((f, m) => { const y = f.data(); y.x = f.position().x, y.y = f.position().y, re(I, y); const r = I.getElementById(y.nodeId); z.info("Id:", m, "Position: (", f.position().x, ", ", f.position().y, ")", y), r.attr( "transform", `translate(${f.position().x - y.width / 2}, ${f.position().y - y.height / 2})` ), r.attr("attr", `apa-${m})`); }); } S(Tt, "positionNodes"); var ie = /* @__PURE__ */ S(async (I, w, f, m) => { var a, v; z.debug(`Rendering mindmap diagram ` + I); const y = m.db, r = y.getMindmap(); if (!r) return; const t = at(); t.htmlLabels = !1; const e = Ot(w), i = e.append("g"); i.attr("class", "mindmap-edges"); const o = e.append("g"); o.attr("class", "mindmap-nodes"), await lt(y, o, r, -1, t); const g = await Lt(r, t); Et(i, g), Tt(y, g), At( void 0, e, ((a = t.mindmap) == null ? void 0 : a.padding) ?? tt.mindmap.padding, ((v = t.mindmap) == null ? void 0 : v.useMaxWidth) ?? tt.mindmap.useMaxWidth ); }, "draw"), ne = { draw: ie }, se = /* @__PURE__ */ S((I) => { let w = ""; for (let f = 0; f < I.THEME_COLOR_LIMIT; f++) I["lineColor" + f] = I["lineColor" + f] || I["cScaleInv" + f], It(I["lineColor" + f]) ? I["lineColor" + f] = Ct(I["lineColor" + f], 20) : I["lineColor" + f] = Rt(I["lineColor" + f], 20); for (let f = 0; f < I.THEME_COLOR_LIMIT; f++) { const m = "" + (17 - 3 * f); w += ` .section-${f - 1} rect, .section-${f - 1} path, .section-${f - 1} circle, .section-${f - 1} polygon, .section-${f - 1} path { fill: ${I["cScale" + f]}; } .section-${f - 1} text { fill: ${I["cScaleLabel" + f]}; } .node-icon-${f - 1} { font-size: 40px; color: ${I["cScaleLabel" + f]}; } .section-edge-${f - 1}{ stroke: ${I["cScale" + f]}; } .edge-depth-${f - 1}{ stroke-width: ${m}; } .section-${f - 1} line { stroke: ${I["cScaleInv" + f]} ; stroke-width: 3; } .disabled, .disabled circle, .disabled text { fill: lightgray; } .disabled text { fill: #efefef; } `; } return w; }, "genSections"), ae = /* @__PURE__ */ S((I) => ` .edge { stroke-width: 3; } ${se(I)} .section-root rect, .section-root path, .section-root circle, .section-root polygon { fill: ${I.git0}; } .section-root text { fill: ${I.gitBranchLabel0}; } .icon-container { height:100%; display: flex; justify-content: center; align-items: center; } .edge { fill: none; } .mindmap-node-label { dy: 1em; alignment-baseline: middle; text-anchor: middle; dominant-baseline: middle; text-align: center; } `, "getStyles"), oe = ae, ge = { db: Vt, renderer: ne, parser: _t, styles: oe }; export { ge as diagram };