import { b as baseClone, i as isUndefined, m as map, G as Graph, l as layout } from "./layout-a7b9ff07.js"; import { c as createLabel, i as intersectRect, a as insertMarkers, b as clear$2, d as clear$3, u as updateNodeBounds, s as setNodeElem, e as insertNode, f as insertEdgeLabel, p as positionNode, g as insertEdge, h as positionEdgeLabel } from "./edges-9bf94b2d.js"; import { l as log, p as evaluate, c as getConfig, j as d3select } from "./mermaid-491db2d9.js"; import { c as createText } from "./createText-2660bae1.js"; var CLONE_SYMBOLS_FLAG = 4; function clone(value) { return baseClone(value, CLONE_SYMBOLS_FLAG); } function write(g) { var json = { options: { directed: g.isDirected(), multigraph: g.isMultigraph(), compound: g.isCompound() }, nodes: writeNodes(g), edges: writeEdges(g) }; if (!isUndefined(g.graph())) { json.value = clone(g.graph()); } return json; } function writeNodes(g) { return map(g.nodes(), function(v) { var nodeValue = g.node(v); var parent = g.parent(v); var node = { v }; if (!isUndefined(nodeValue)) { node.value = nodeValue; } if (!isUndefined(parent)) { node.parent = parent; } return node; }); } function writeEdges(g) { return map(g.edges(), function(e) { var edgeValue = g.edge(e); var edge = { v: e.v, w: e.w }; if (!isUndefined(e.name)) { edge.name = e.name; } if (!isUndefined(edgeValue)) { edge.value = edgeValue; } return edge; }); } let clusterDb = {}; let descendants = {}; let parents = {}; const clear$1 = () => { descendants = {}; parents = {}; clusterDb = {}; }; const isDescendant = (id, ancenstorId) => { log.trace("In isDecendant", ancenstorId, " ", id, " = ", descendants[ancenstorId].includes(id)); if (descendants[ancenstorId].includes(id)) { return true; } return false; }; const edgeInCluster = (edge, clusterId) => { log.info("Decendants of ", clusterId, " is ", descendants[clusterId]); log.info("Edge is ", edge); if (edge.v === clusterId) { return false; } if (edge.w === clusterId) { return false; } if (!descendants[clusterId]) { log.debug("Tilt, ", clusterId, ",not in decendants"); return false; } return descendants[clusterId].includes(edge.v) || isDescendant(edge.v, clusterId) || isDescendant(edge.w, clusterId) || descendants[clusterId].includes(edge.w); }; const copy = (clusterId, graph, newGraph, rootId) => { log.warn( "Copying children of ", clusterId, "root", rootId, "data", graph.node(clusterId), rootId ); const nodes = graph.children(clusterId) || []; if (clusterId !== rootId) { nodes.push(clusterId); } log.warn("Copying (nodes) clusterId", clusterId, "nodes", nodes); nodes.forEach((node) => { if (graph.children(node).length > 0) { copy(node, graph, newGraph, rootId); } else { const data = graph.node(node); log.info("cp ", node, " to ", rootId, " with parent ", clusterId); newGraph.setNode(node, data); if (rootId !== graph.parent(node)) { log.warn("Setting parent", node, graph.parent(node)); newGraph.setParent(node, graph.parent(node)); } if (clusterId !== rootId && node !== clusterId) { log.debug("Setting parent", node, clusterId); newGraph.setParent(node, clusterId); } else { log.info("In copy ", clusterId, "root", rootId, "data", graph.node(clusterId), rootId); log.debug( "Not Setting parent for node=", node, "cluster!==rootId", clusterId !== rootId, "node!==clusterId", node !== clusterId ); } const edges = graph.edges(node); log.debug("Copying Edges", edges); edges.forEach((edge) => { log.info("Edge", edge); const data2 = graph.edge(edge.v, edge.w, edge.name); log.info("Edge data", data2, rootId); try { if (edgeInCluster(edge, rootId)) { log.info("Copying as ", edge.v, edge.w, data2, edge.name); newGraph.setEdge(edge.v, edge.w, data2, edge.name); log.info("newGraph edges ", newGraph.edges(), newGraph.edge(newGraph.edges()[0])); } else { log.info( "Skipping copy of edge ", edge.v, "-->", edge.w, " rootId: ", rootId, " clusterId:", clusterId ); } } catch (e) { log.error(e); } }); } log.debug("Removing node", node); graph.removeNode(node); }); }; const extractDescendants = (id, graph) => { const children = graph.children(id); let res = [...children]; for (const child of children) { parents[child] = id; res = [...res, ...extractDescendants(child, graph)]; } return res; }; const findNonClusterChild = (id, graph) => { log.trace("Searching", id); const children = graph.children(id); log.trace("Searching children of id ", id, children); if (children.length < 1) { log.trace("This is a valid node", id); return id; } for (const child of children) { const _id = findNonClusterChild(child, graph); if (_id) { log.trace("Found replacement for", id, " => ", _id); return _id; } } }; const getAnchorId = (id) => { if (!clusterDb[id]) { return id; } if (!clusterDb[id].externalConnections) { return id; } if (clusterDb[id]) { return clusterDb[id].id; } return id; }; const adjustClustersAndEdges = (graph, depth) => { if (!graph || depth > 10) { log.debug("Opting out, no graph "); return; } else { log.debug("Opting in, graph "); } graph.nodes().forEach(function(id) { const children = graph.children(id); if (children.length > 0) { log.warn( "Cluster identified", id, " Replacement id in edges: ", findNonClusterChild(id, graph) ); descendants[id] = extractDescendants(id, graph); clusterDb[id] = { id: findNonClusterChild(id, graph), clusterData: graph.node(id) }; } }); graph.nodes().forEach(function(id) { const children = graph.children(id); const edges = graph.edges(); if (children.length > 0) { log.debug("Cluster identified", id, descendants); edges.forEach((edge) => { if (edge.v !== id && edge.w !== id) { const d1 = isDescendant(edge.v, id); const d2 = isDescendant(edge.w, id); if (d1 ^ d2) { log.warn("Edge: ", edge, " leaves cluster ", id); log.warn("Decendants of XXX ", id, ": ", descendants[id]); clusterDb[id].externalConnections = true; } } }); } else { log.debug("Not a cluster ", id, descendants); } }); graph.edges().forEach(function(e) { const edge = graph.edge(e); log.warn("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(e)); log.warn("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(graph.edge(e))); let v = e.v; let w = e.w; log.warn( "Fix XXX", clusterDb, "ids:", e.v, e.w, "Translating: ", clusterDb[e.v], " --- ", clusterDb[e.w] ); if (clusterDb[e.v] && clusterDb[e.w] && clusterDb[e.v] === clusterDb[e.w]) { log.warn("Fixing and trixing link to self - removing XXX", e.v, e.w, e.name); log.warn("Fixing and trixing - removing XXX", e.v, e.w, e.name); v = getAnchorId(e.v); w = getAnchorId(e.w); graph.removeEdge(e.v, e.w, e.name); const specialId = e.w + "---" + e.v; graph.setNode(specialId, { domId: specialId, id: specialId, labelStyle: "", labelText: edge.label, padding: 0, shape: "labelRect", style: "" }); const edge1 = structuredClone(edge); const edge2 = structuredClone(edge); edge1.label = ""; edge1.arrowTypeEnd = "none"; edge2.label = ""; edge1.fromCluster = e.v; edge2.toCluster = e.v; graph.setEdge(v, specialId, edge1, e.name + "-cyclic-special"); graph.setEdge(specialId, w, edge2, e.name + "-cyclic-special"); } else if (clusterDb[e.v] || clusterDb[e.w]) { log.warn("Fixing and trixing - removing XXX", e.v, e.w, e.name); v = getAnchorId(e.v); w = getAnchorId(e.w); graph.removeEdge(e.v, e.w, e.name); if (v !== e.v) { edge.fromCluster = e.v; } if (w !== e.w) { edge.toCluster = e.w; } log.warn("Fix Replacing with XXX", v, w, e.name); graph.setEdge(v, w, edge, e.name); } }); log.warn("Adjusted Graph", write(graph)); extractor(graph, 0); log.trace(clusterDb); }; const extractor = (graph, depth) => { log.warn("extractor - ", depth, write(graph), graph.children("D")); if (depth > 10) { log.error("Bailing out"); return; } let nodes = graph.nodes(); let hasChildren = false; for (const node of nodes) { const children = graph.children(node); hasChildren = hasChildren || children.length > 0; } if (!hasChildren) { log.debug("Done, no node has children", graph.nodes()); return; } log.debug("Nodes = ", nodes, depth); for (const node of nodes) { log.debug( "Extracting node", node, clusterDb, clusterDb[node] && !clusterDb[node].externalConnections, !graph.parent(node), graph.node(node), graph.children("D"), " Depth ", depth ); if (!clusterDb[node]) { log.debug("Not a cluster", node, depth); } else if (!clusterDb[node].externalConnections && // !graph.parent(node) && graph.children(node) && graph.children(node).length > 0) { log.warn( "Cluster without external connections, without a parent and with children", node, depth ); const graphSettings = graph.graph(); let dir = graphSettings.rankdir === "TB" ? "LR" : "TB"; if (clusterDb[node] && clusterDb[node].clusterData && clusterDb[node].clusterData.dir) { dir = clusterDb[node].clusterData.dir; log.warn("Fixing dir", clusterDb[node].clusterData.dir, dir); } const clusterGraph = new Graph({ multigraph: true, compound: true }).setGraph({ rankdir: dir, // Todo: set proper spacing nodesep: 50, ranksep: 50, marginx: 8, marginy: 8 }).setDefaultEdgeLabel(function() { return {}; }); log.warn("Old graph before copy", write(graph)); copy(node, graph, clusterGraph, node); graph.setNode(node, { clusterNode: true, id: node, clusterData: clusterDb[node].clusterData, labelText: clusterDb[node].labelText, graph: clusterGraph }); log.warn("New graph after copy node: (", node, ")", write(clusterGraph)); log.debug("Old graph after copy", write(graph)); } else { log.warn( "Cluster ** ", node, " **not meeting the criteria !externalConnections:", !clusterDb[node].externalConnections, " no parent: ", !graph.parent(node), " children ", graph.children(node) && graph.children(node).length > 0, graph.children("D"), depth ); log.debug(clusterDb); } } nodes = graph.nodes(); log.warn("New list of nodes", nodes); for (const node of nodes) { const data = graph.node(node); log.warn(" Now next level", node, data); if (data.clusterNode) { extractor(data.graph, depth + 1); } } }; const sorter = (graph, nodes) => { if (nodes.length === 0) { return []; } let result = Object.assign(nodes); nodes.forEach((node) => { const children = graph.children(node); const sorted = sorter(graph, children); result = [...result, ...sorted]; }); return result; }; const sortNodesByHierarchy = (graph) => sorter(graph, graph.children()); const rect = (parent, node) => { log.info("Creating subgraph rect for ", node.id, node); const shapeSvg = parent.insert("g").attr("class", "cluster" + (node.class ? " " + node.class : "")).attr("id", node.id); const rect2 = shapeSvg.insert("rect", ":first-child"); const useHtmlLabels = evaluate(getConfig().flowchart.htmlLabels); const label = shapeSvg.insert("g").attr("class", "cluster-label"); const text = node.labelType === "markdown" ? createText(label, node.labelText, { style: node.labelStyle, useHtmlLabels }) : label.node().appendChild(createLabel(node.labelText, node.labelStyle, void 0, true)); let bbox = text.getBBox(); if (evaluate(getConfig().flowchart.htmlLabels)) { const div = text.children[0]; const dv = d3select(text); bbox = div.getBoundingClientRect(); dv.attr("width", bbox.width); dv.attr("height", bbox.height); } const padding = 0 * node.padding; const halfPadding = padding / 2; const width = node.width <= bbox.width + padding ? bbox.width + padding : node.width; if (node.width <= bbox.width + padding) { node.diff = (bbox.width - node.width) / 2 - node.padding / 2; } else { node.diff = -node.padding / 2; } log.trace("Data ", node, JSON.stringify(node)); rect2.attr("style", node.style).attr("rx", node.rx).attr("ry", node.ry).attr("x", node.x - width / 2).attr("y", node.y - node.height / 2 - halfPadding).attr("width", width).attr("height", node.height + padding); if (useHtmlLabels) { label.attr( "transform", // This puts the labal on top of the box instead of inside it "translate(" + (node.x - bbox.width / 2) + ", " + (node.y - node.height / 2) + ")" ); } else { label.attr( "transform", // This puts the labal on top of the box instead of inside it "translate(" + node.x + ", " + (node.y - node.height / 2) + ")" ); } const rectBox = rect2.node().getBBox(); node.width = rectBox.width; node.height = rectBox.height; node.intersect = function(point) { return intersectRect(node, point); }; return shapeSvg; }; const noteGroup = (parent, node) => { const shapeSvg = parent.insert("g").attr("class", "note-cluster").attr("id", node.id); const rect2 = shapeSvg.insert("rect", ":first-child"); const padding = 0 * node.padding; const halfPadding = padding / 2; rect2.attr("rx", node.rx).attr("ry", node.ry).attr("x", node.x - node.width / 2 - halfPadding).attr("y", node.y - node.height / 2 - halfPadding).attr("width", node.width + padding).attr("height", node.height + padding).attr("fill", "none"); const rectBox = rect2.node().getBBox(); node.width = rectBox.width; node.height = rectBox.height; node.intersect = function(point) { return intersectRect(node, point); }; return shapeSvg; }; const roundedWithTitle = (parent, node) => { const shapeSvg = parent.insert("g").attr("class", node.classes).attr("id", node.id); const rect2 = shapeSvg.insert("rect", ":first-child"); const label = shapeSvg.insert("g").attr("class", "cluster-label"); const innerRect = shapeSvg.append("rect"); const text = label.node().appendChild(createLabel(node.labelText, node.labelStyle, void 0, true)); let bbox = text.getBBox(); if (evaluate(getConfig().flowchart.htmlLabels)) { const div = text.children[0]; const dv = d3select(text); bbox = div.getBoundingClientRect(); dv.attr("width", bbox.width); dv.attr("height", bbox.height); } bbox = text.getBBox(); const padding = 0 * node.padding; const halfPadding = padding / 2; const width = node.width <= bbox.width + node.padding ? bbox.width + node.padding : node.width; if (node.width <= bbox.width + node.padding) { node.diff = (bbox.width + node.padding * 0 - node.width) / 2; } else { node.diff = -node.padding / 2; } rect2.attr("class", "outer").attr("x", node.x - width / 2 - halfPadding).attr("y", node.y - node.height / 2 - halfPadding).attr("width", width + padding).attr("height", node.height + padding); innerRect.attr("class", "inner").attr("x", node.x - width / 2 - halfPadding).attr("y", node.y - node.height / 2 - halfPadding + bbox.height - 1).attr("width", width + padding).attr("height", node.height + padding - bbox.height - 3); label.attr( "transform", "translate(" + (node.x - bbox.width / 2) + ", " + (node.y - node.height / 2 - node.padding / 3 + (evaluate(getConfig().flowchart.htmlLabels) ? 5 : 3)) + ")" ); const rectBox = rect2.node().getBBox(); node.height = rectBox.height; node.intersect = function(point) { return intersectRect(node, point); }; return shapeSvg; }; const divider = (parent, node) => { const shapeSvg = parent.insert("g").attr("class", node.classes).attr("id", node.id); const rect2 = shapeSvg.insert("rect", ":first-child"); const padding = 0 * node.padding; const halfPadding = padding / 2; rect2.attr("class", "divider").attr("x", node.x - node.width / 2 - halfPadding).attr("y", node.y - node.height / 2).attr("width", node.width + padding).attr("height", node.height + padding); const rectBox = rect2.node().getBBox(); node.width = rectBox.width; node.height = rectBox.height; node.diff = -node.padding / 2; node.intersect = function(point) { return intersectRect(node, point); }; return shapeSvg; }; const shapes = { rect, roundedWithTitle, noteGroup, divider }; let clusterElems = {}; const insertCluster = (elem, node) => { log.trace("Inserting cluster"); const shape = node.shape || "rect"; clusterElems[node.id] = shapes[shape](elem, node); }; const clear = () => { clusterElems = {}; }; const recursiveRender = async (_elem, graph, diagramtype, id, parentCluster) => { log.info("Graph in recursive render: XXX", write(graph), parentCluster); const dir = graph.graph().rankdir; log.trace("Dir in recursive render - dir:", dir); const elem = _elem.insert("g").attr("class", "root"); if (!graph.nodes()) { log.info("No nodes found for", graph); } else { log.info("Recursive render XXX", graph.nodes()); } if (graph.edges().length > 0) { log.trace("Recursive edges", graph.edge(graph.edges()[0])); } const clusters = elem.insert("g").attr("class", "clusters"); const edgePaths = elem.insert("g").attr("class", "edgePaths"); const edgeLabels = elem.insert("g").attr("class", "edgeLabels"); const nodes = elem.insert("g").attr("class", "nodes"); await Promise.all( graph.nodes().map(async function(v) { const node = graph.node(v); if (parentCluster !== void 0) { const data = JSON.parse(JSON.stringify(parentCluster.clusterData)); log.info("Setting data for cluster XXX (", v, ") ", data, parentCluster); graph.setNode(parentCluster.id, data); if (!graph.parent(v)) { log.trace("Setting parent", v, parentCluster.id); graph.setParent(v, parentCluster.id, data); } } log.info("(Insert) Node XXX" + v + ": " + JSON.stringify(graph.node(v))); if (node && node.clusterNode) { log.info("Cluster identified", v, node.width, graph.node(v)); const o = await recursiveRender(nodes, node.graph, diagramtype, id, graph.node(v)); const newEl = o.elem; updateNodeBounds(node, newEl); node.diff = o.diff || 0; log.info("Node bounds (abc123)", v, node, node.width, node.x, node.y); setNodeElem(newEl, node); log.warn("Recursive render complete ", newEl, node); } else { if (graph.children(v).length > 0) { log.info("Cluster - the non recursive path XXX", v, node.id, node, graph); log.info(findNonClusterChild(node.id, graph)); clusterDb[node.id] = { id: findNonClusterChild(node.id, graph), node }; } else { log.info("Node - the non recursive path", v, node.id, node); await insertNode(nodes, graph.node(v), dir); } } }) ); graph.edges().forEach(function(e) { const edge = graph.edge(e.v, e.w, e.name); log.info("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(e)); log.info("Edge " + e.v + " -> " + e.w + ": ", e, " ", JSON.stringify(graph.edge(e))); log.info("Fix", clusterDb, "ids:", e.v, e.w, "Translateing: ", clusterDb[e.v], clusterDb[e.w]); insertEdgeLabel(edgeLabels, edge); }); graph.edges().forEach(function(e) { log.info("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(e)); }); log.info("#############################################"); log.info("### Layout ###"); log.info("#############################################"); log.info(graph); layout(graph); log.info("Graph after layout:", write(graph)); let diff = 0; sortNodesByHierarchy(graph).forEach(function(v) { const node = graph.node(v); log.info("Position " + v + ": " + JSON.stringify(graph.node(v))); log.info( "Position " + v + ": (" + node.x, "," + node.y, ") width: ", node.width, " height: ", node.height ); if (node && node.clusterNode) { positionNode(node); } else { if (graph.children(v).length > 0) { insertCluster(clusters, node); clusterDb[node.id].node = node; } else { positionNode(node); } } }); graph.edges().forEach(function(e) { const edge = graph.edge(e); log.info("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(edge), edge); const paths = insertEdge(edgePaths, e, edge, clusterDb, diagramtype, graph, id); positionEdgeLabel(edge, paths); }); graph.nodes().forEach(function(v) { const n = graph.node(v); log.info(v, n.type, n.diff); if (n.type === "group") { diff = n.diff; } }); return { elem, diff }; }; const render = async (elem, graph, markers, diagramtype, id) => { insertMarkers(elem, markers, diagramtype, id); clear$2(); clear$3(); clear(); clear$1(); log.warn("Graph at first:", JSON.stringify(write(graph))); adjustClustersAndEdges(graph); log.warn("Graph after:", JSON.stringify(write(graph))); await recursiveRender(elem, graph, diagramtype, id); }; export { render as r };