All Downloads are FREE. Search and download functionalities are using the official Maven repository.

package.dist.chunks.mermaid.core.classDiagram-v2-SPY6V32O.mjs Maven / Gradle / Ivy

Go to download

Markdown-ish syntax for generating flowcharts, mindmaps, sequence diagrams, class diagrams, gantt charts, git graphs and more.

There is a newer version: 11.4.0
Show newest version
import {
  clear as clear2,
  insertEdge,
  insertEdgeLabel,
  markers_default,
  positionEdgeLabel
} from "./chunk-MKAIFKW5.mjs";
import {
  classDb_default,
  classDiagram_default,
  styles_default
} from "./chunk-BAVOGKFW.mjs";
import {
  clear,
  createLabel_default,
  insertNode,
  intersect_rect_default,
  positionNode,
  setNodeElem,
  updateNodeBounds
} from "./chunk-GWHMDDHB.mjs";
import {
  getSubGraphTitleMargins
} from "./chunk-23ATMZXV.mjs";
import {
  createText
} from "./chunk-ZI6V2UE2.mjs";
import {
  getEdgeId,
  getStylesFromArray,
  interpolateToCurve,
  utils_default
} from "./chunk-2EDTWDYI.mjs";
import {
  __name,
  common_default,
  evaluate,
  getConfig2 as getConfig,
  log,
  setupGraphViewbox
} from "./chunk-IIKMQLIC.mjs";

// src/diagrams/class/classRenderer-v2.ts
import { select as select2, curveLinear } from "d3";
import * as graphlib2 from "dagre-d3-es/src/graphlib/index.js";

// src/dagre-wrapper/index.js
import { layout as dagreLayout } from "dagre-d3-es/src/dagre/index.js";
import * as graphlibJson2 from "dagre-d3-es/src/graphlib/json.js";

// src/dagre-wrapper/mermaid-graphlib.js
import * as graphlibJson from "dagre-d3-es/src/graphlib/json.js";
import * as graphlib from "dagre-d3-es/src/graphlib/index.js";
var clusterDb = {};
var descendants = {};
var parents = {};
var clear3 = /* @__PURE__ */ __name(() => {
  descendants = {};
  parents = {};
  clusterDb = {};
}, "clear");
var isDescendant = /* @__PURE__ */ __name((id, ancestorId) => {
  log.trace("In isDescendant", ancestorId, " ", id, " = ", descendants[ancestorId].includes(id));
  if (descendants[ancestorId].includes(id)) {
    return true;
  }
  return false;
}, "isDescendant");
var edgeInCluster = /* @__PURE__ */ __name((edge, clusterId) => {
  log.info("Descendants 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 descendants");
    return false;
  }
  return descendants[clusterId].includes(edge.v) || isDescendant(edge.v, clusterId) || isDescendant(edge.w, clusterId) || descendants[clusterId].includes(edge.w);
}, "edgeInCluster");
var copy = /* @__PURE__ */ __name((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);
  });
}, "copy");
var extractDescendants = /* @__PURE__ */ __name((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;
}, "extractDescendants");
var findNonClusterChild = /* @__PURE__ */ __name((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;
    }
  }
}, "findNonClusterChild");
var getAnchorId = /* @__PURE__ */ __name((id) => {
  if (!clusterDb[id]) {
    return id;
  }
  if (!clusterDb[id].externalConnections) {
    return id;
  }
  if (clusterDb[id]) {
    return clusterDb[id].id;
  }
  return id;
}, "getAnchorId");
var adjustClustersAndEdges = /* @__PURE__ */ __name((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("Descendants of XXX ", id, ": ", descendants[id]);
            clusterDb[id].externalConnections = true;
          }
        }
      });
    } else {
      log.debug("Not a cluster ", id, descendants);
    }
  });
  for (let id of Object.keys(clusterDb)) {
    const nonClusterChild = clusterDb[id].id;
    const parent = graph.parent(nonClusterChild);
    if (parent !== id && clusterDb[parent] && !clusterDb[parent].externalConnections) {
      clusterDb[id].id = parent;
    }
  }
  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) {
        const parent = graph.parent(v);
        clusterDb[parent].externalConnections = true;
        edge.fromCluster = e.v;
      }
      if (w !== e.w) {
        const parent = graph.parent(w);
        clusterDb[parent].externalConnections = true;
        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", graphlibJson.write(graph));
  extractor(graph, 0);
  log.trace(clusterDb);
}, "adjustClustersAndEdges");
var extractor = /* @__PURE__ */ __name((graph, depth) => {
  log.warn("extractor - ", depth, graphlibJson.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]?.clusterData?.dir) {
        dir = clusterDb[node].clusterData.dir;
        log.warn("Fixing dir", clusterDb[node].clusterData.dir, dir);
      }
      const clusterGraph = new graphlib.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", graphlibJson.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, ")", graphlibJson.write(clusterGraph));
      log.debug("Old graph after copy", graphlibJson.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);
    }
  }
}, "extractor");
var sorter = /* @__PURE__ */ __name((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;
}, "sorter");
var sortNodesByHierarchy = /* @__PURE__ */ __name((graph) => sorter(graph, graph.children()), "sortNodesByHierarchy");

// src/dagre-wrapper/clusters.js
import { select } from "d3";
var rect = /* @__PURE__ */ __name((parent, node) => {
  log.info("Creating subgraph rect for ", node.id, node);
  const siteConfig = getConfig();
  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(siteConfig.flowchart.htmlLabels);
  const label = shapeSvg.insert("g").attr("class", "cluster-label");
  const text = node.labelType === "markdown" ? createText(label, node.labelText, { style: node.labelStyle, useHtmlLabels }, siteConfig) : label.node().appendChild(createLabel_default(node.labelText, node.labelStyle, void 0, true));
  let bbox = text.getBBox();
  if (evaluate(siteConfig.flowchart.htmlLabels)) {
    const div = text.children[0];
    const dv = select(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);
  const { subGraphTitleTopMargin } = getSubGraphTitleMargins(siteConfig);
  if (useHtmlLabels) {
    label.attr(
      "transform",
      // This puts the label on top of the box instead of inside it
      `translate(${node.x - bbox.width / 2}, ${node.y - node.height / 2 + subGraphTitleTopMargin})`
    );
  } else {
    label.attr(
      "transform",
      // This puts the label on top of the box instead of inside it
      `translate(${node.x}, ${node.y - node.height / 2 + subGraphTitleTopMargin})`
    );
  }
  const rectBox = rect2.node().getBBox();
  node.width = rectBox.width;
  node.height = rectBox.height;
  node.intersect = function(point) {
    return intersect_rect_default(node, point);
  };
  return shapeSvg;
}, "rect");
var noteGroup = /* @__PURE__ */ __name((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 intersect_rect_default(node, point);
  };
  return shapeSvg;
}, "noteGroup");
var roundedWithTitle = /* @__PURE__ */ __name((parent, node) => {
  const siteConfig = getConfig();
  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_default(node.labelText, node.labelStyle, void 0, true));
  let bbox = text.getBBox();
  if (evaluate(siteConfig.flowchart.htmlLabels)) {
    const div = text.children[0];
    const dv = select(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);
  const { subGraphTitleTopMargin } = getSubGraphTitleMargins(siteConfig);
  label.attr(
    "transform",
    `translate(${node.x - bbox.width / 2}, ${node.y - node.height / 2 - node.padding / 3 + (evaluate(siteConfig.flowchart.htmlLabels) ? 5 : 3) + subGraphTitleTopMargin})`
  );
  const rectBox = rect2.node().getBBox();
  node.height = rectBox.height;
  node.intersect = function(point) {
    return intersect_rect_default(node, point);
  };
  return shapeSvg;
}, "roundedWithTitle");
var divider = /* @__PURE__ */ __name((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 intersect_rect_default(node, point);
  };
  return shapeSvg;
}, "divider");
var shapes = { rect, roundedWithTitle, noteGroup, divider };
var clusterElems = {};
var insertCluster = /* @__PURE__ */ __name((elem, node) => {
  log.trace("Inserting cluster");
  const shape = node.shape || "rect";
  clusterElems[node.id] = shapes[shape](elem, node);
}, "insertCluster");
var clear4 = /* @__PURE__ */ __name(() => {
  clusterElems = {};
}, "clear");

// src/dagre-wrapper/index.js
var recursiveRender = /* @__PURE__ */ __name(async (_elem, graph, diagramType, id, parentCluster, siteConfig) => {
  log.info("Graph in recursive render: XXX", graphlibJson2.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?.clusterNode) {
        log.info("Cluster identified", v, node.width, graph.node(v));
        const { ranksep, nodesep } = graph.graph();
        node.graph.setGraph({
          ...node.graph.graph(),
          ranksep,
          nodesep
        });
        const o = await recursiveRender(
          nodes,
          node.graph,
          diagramType,
          id,
          graph.node(v),
          siteConfig
        );
        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(async 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, "Translating: ", clusterDb[e.v], clusterDb[e.w]);
    await insertEdgeLabel(edgeLabels, edge);
  });
  graph.edges().forEach(function(e) {
    log.info("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(e));
  });
  log.info("Graph before layout:", JSON.stringify(graphlibJson2.write(graph)));
  log.info("#############################################");
  log.info("###                Layout                 ###");
  log.info("#############################################");
  log.info(graph);
  dagreLayout(graph);
  log.info("Graph after layout:", JSON.stringify(graphlibJson2.write(graph)));
  let diff = 0;
  const { subGraphTitleTotalMargin } = getSubGraphTitleMargins(siteConfig);
  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?.clusterNode) {
      node.y += subGraphTitleTotalMargin;
      positionNode(node);
    } else {
      if (graph.children(v).length > 0) {
        node.height += subGraphTitleTotalMargin;
        insertCluster(clusters, node);
        clusterDb[node.id].node = node;
      } else {
        node.y += subGraphTitleTotalMargin / 2;
        positionNode(node);
      }
    }
  });
  graph.edges().forEach(function(e) {
    const edge = graph.edge(e);
    log.info("Edge " + e.v + " -> " + e.w + ": " + JSON.stringify(edge), edge);
    edge.points.forEach((point) => point.y += subGraphTitleTotalMargin / 2);
    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 };
}, "recursiveRender");
var render = /* @__PURE__ */ __name(async (elem, graph, markers, diagramType, id) => {
  markers_default(elem, markers, diagramType, id);
  clear();
  clear2();
  clear4();
  clear3();
  log.warn("Graph at first:", JSON.stringify(graphlibJson2.write(graph)));
  adjustClustersAndEdges(graph);
  log.warn("Graph after:", JSON.stringify(graphlibJson2.write(graph)));
  const siteConfig = getConfig();
  await recursiveRender(elem, graph, diagramType, id, void 0, siteConfig);
}, "render");

// src/diagrams/class/classRenderer-v2.ts
var sanitizeText = /* @__PURE__ */ __name((txt) => common_default.sanitizeText(txt, getConfig()), "sanitizeText");
var conf = {
  dividerMargin: 10,
  padding: 5,
  textHeight: 10,
  curve: void 0
};
var addNamespaces = /* @__PURE__ */ __name(function(namespaces, g, _id, diagObj) {
  log.info("keys:", [...namespaces.keys()]);
  log.info(namespaces);
  namespaces.forEach(function(vertex) {
    const shape = "rect";
    const node = {
      shape,
      id: vertex.id,
      domId: vertex.domId,
      labelText: sanitizeText(vertex.id),
      labelStyle: "",
      style: "fill: none; stroke: black",
      // TODO V10: Flowchart ? Keeping flowchart for backwards compatibility. Remove in next major release
      padding: getConfig().flowchart?.padding ?? getConfig().class?.padding
    };
    g.setNode(vertex.id, node);
    addClasses(vertex.classes, g, _id, diagObj, vertex.id);
    log.info("setNode", node);
  });
}, "addNamespaces");
var addClasses = /* @__PURE__ */ __name(function(classes, g, _id, diagObj, parent) {
  log.info("keys:", [...classes.keys()]);
  log.info(classes);
  [...classes.values()].filter((vertex) => vertex.parent === parent).forEach(function(vertex) {
    const cssClassStr = vertex.cssClasses.join(" ");
    const styles = getStylesFromArray(vertex.styles);
    const vertexText = vertex.label ?? vertex.id;
    const radius = 0;
    const shape = "class_box";
    const node = {
      labelStyle: styles.labelStyle,
      shape,
      labelText: sanitizeText(vertexText),
      classData: vertex,
      rx: radius,
      ry: radius,
      class: cssClassStr,
      style: styles.style,
      id: vertex.id,
      domId: vertex.domId,
      tooltip: diagObj.db.getTooltip(vertex.id, parent) || "",
      haveCallback: vertex.haveCallback,
      link: vertex.link,
      width: vertex.type === "group" ? 500 : void 0,
      type: vertex.type,
      // TODO V10: Flowchart ? Keeping flowchart for backwards compatibility. Remove in next major release
      padding: getConfig().flowchart?.padding ?? getConfig().class?.padding
    };
    g.setNode(vertex.id, node);
    if (parent) {
      g.setParent(vertex.id, parent);
    }
    log.info("setNode", node);
  });
}, "addClasses");
var addNotes = /* @__PURE__ */ __name(function(notes, g, startEdgeId, classes) {
  log.info(notes);
  notes.forEach(function(note, i) {
    const vertex = note;
    const cssNoteStr = "";
    const styles = { labelStyle: "", style: "" };
    const vertexText = vertex.text;
    const radius = 0;
    const shape = "note";
    const node = {
      labelStyle: styles.labelStyle,
      shape,
      labelText: sanitizeText(vertexText),
      noteData: vertex,
      rx: radius,
      ry: radius,
      class: cssNoteStr,
      style: styles.style,
      id: vertex.id,
      domId: vertex.id,
      tooltip: "",
      type: "note",
      // TODO V10: Flowchart ? Keeping flowchart for backwards compatibility. Remove in next major release
      padding: getConfig().flowchart?.padding ?? getConfig().class?.padding
    };
    g.setNode(vertex.id, node);
    log.info("setNode", node);
    if (!vertex.class || !classes.has(vertex.class)) {
      return;
    }
    const edgeId = startEdgeId + i;
    const edgeData = {
      id: `edgeNote${edgeId}`,
      //Set relationship style and line type
      classes: "relation",
      pattern: "dotted",
      // Set link type for rendering
      arrowhead: "none",
      //Set edge extra labels
      startLabelRight: "",
      endLabelLeft: "",
      //Set relation arrow types
      arrowTypeStart: "none",
      arrowTypeEnd: "none",
      style: "fill:none",
      labelStyle: "",
      curve: interpolateToCurve(conf.curve, curveLinear)
    };
    g.setEdge(vertex.id, vertex.class, edgeData, edgeId);
  });
}, "addNotes");
var addRelations = /* @__PURE__ */ __name(function(relations, g) {
  const conf2 = getConfig().flowchart;
  let cnt = 0;
  relations.forEach(function(edge) {
    cnt++;
    const edgeData = {
      //Set relationship style and line type
      classes: "relation",
      pattern: edge.relation.lineType == 1 ? "dashed" : "solid",
      id: getEdgeId(edge.id1, edge.id2, {
        prefix: "id",
        counter: cnt
      }),
      // Set link type for rendering
      arrowhead: edge.type === "arrow_open" ? "none" : "normal",
      //Set edge extra labels
      startLabelRight: edge.relationTitle1 === "none" ? "" : edge.relationTitle1,
      endLabelLeft: edge.relationTitle2 === "none" ? "" : edge.relationTitle2,
      //Set relation arrow types
      arrowTypeStart: getArrowMarker(edge.relation.type1),
      arrowTypeEnd: getArrowMarker(edge.relation.type2),
      style: "fill:none",
      labelStyle: "",
      curve: interpolateToCurve(conf2?.curve, curveLinear)
    };
    log.info(edgeData, edge);
    if (edge.style !== void 0) {
      const styles = getStylesFromArray(edge.style);
      edgeData.style = styles.style;
      edgeData.labelStyle = styles.labelStyle;
    }
    edge.text = edge.title;
    if (edge.text === void 0) {
      if (edge.style !== void 0) {
        edgeData.arrowheadStyle = "fill: #333";
      }
    } else {
      edgeData.arrowheadStyle = "fill: #333";
      edgeData.labelpos = "c";
      if (getConfig().flowchart?.htmlLabels ?? getConfig().htmlLabels) {
        edgeData.labelType = "html";
        edgeData.label = '' + edge.text + "";
      } else {
        edgeData.labelType = "text";
        edgeData.label = edge.text.replace(common_default.lineBreakRegex, "\n");
        if (edge.style === void 0) {
          edgeData.style = edgeData.style || "stroke: #333; stroke-width: 1.5px;fill:none";
        }
        edgeData.labelStyle = edgeData.labelStyle.replace("color:", "fill:");
      }
    }
    g.setEdge(edge.id1, edge.id2, edgeData, cnt);
  });
}, "addRelations");
var setConf = /* @__PURE__ */ __name(function(cnf) {
  conf = {
    ...conf,
    ...cnf
  };
}, "setConf");
var draw = /* @__PURE__ */ __name(async function(text, id, _version, diagObj) {
  log.info("Drawing class - ", id);
  const conf2 = getConfig().flowchart ?? getConfig().class;
  const securityLevel = getConfig().securityLevel;
  log.info("config:", conf2);
  const nodeSpacing = conf2?.nodeSpacing ?? 50;
  const rankSpacing = conf2?.rankSpacing ?? 50;
  const g = new graphlib2.Graph({
    multigraph: true,
    compound: true
  }).setGraph({
    rankdir: diagObj.db.getDirection(),
    nodesep: nodeSpacing,
    ranksep: rankSpacing,
    marginx: 8,
    marginy: 8
  }).setDefaultEdgeLabel(function() {
    return {};
  });
  const namespaces = diagObj.db.getNamespaces();
  const classes = diagObj.db.getClasses();
  const relations = diagObj.db.getRelations();
  const notes = diagObj.db.getNotes();
  log.info(relations);
  addNamespaces(namespaces, g, id, diagObj);
  addClasses(classes, g, id, diagObj);
  addRelations(relations, g);
  addNotes(notes, g, relations.length + 1, classes);
  let sandboxElement;
  if (securityLevel === "sandbox") {
    sandboxElement = select2("#i" + id);
  }
  const root = securityLevel === "sandbox" ? select2(sandboxElement.nodes()[0].contentDocument.body) : select2("body");
  const svg = root.select(`[id="${id}"]`);
  const element = root.select("#" + id + " g");
  await render(
    element,
    g,
    ["aggregation", "extension", "composition", "dependency", "lollipop"],
    "classDiagram",
    id
  );
  utils_default.insertTitle(svg, "classTitleText", conf2?.titleTopMargin ?? 5, diagObj.db.getDiagramTitle());
  setupGraphViewbox(g, svg, conf2?.diagramPadding, conf2?.useMaxWidth);
  if (!conf2?.htmlLabels) {
    const doc = securityLevel === "sandbox" ? sandboxElement.nodes()[0].contentDocument : document;
    const labels = doc.querySelectorAll('[id="' + id + '"] .edgeLabel .label');
    for (const label of labels) {
      const dim = label.getBBox();
      const rect2 = doc.createElementNS("http://www.w3.org/2000/svg", "rect");
      rect2.setAttribute("rx", 0);
      rect2.setAttribute("ry", 0);
      rect2.setAttribute("width", dim.width);
      rect2.setAttribute("height", dim.height);
      label.insertBefore(rect2, label.firstChild);
    }
  }
}, "draw");
function getArrowMarker(type) {
  let marker;
  switch (type) {
    case 0:
      marker = "aggregation";
      break;
    case 1:
      marker = "extension";
      break;
    case 2:
      marker = "composition";
      break;
    case 3:
      marker = "dependency";
      break;
    case 4:
      marker = "lollipop";
      break;
    default:
      marker = "none";
  }
  return marker;
}
__name(getArrowMarker, "getArrowMarker");
var classRenderer_v2_default = {
  setConf,
  draw
};

// src/diagrams/class/classDiagram-v2.ts
var diagram = {
  parser: classDiagram_default,
  db: classDb_default,
  renderer: classRenderer_v2_default,
  styles: styles_default,
  init: /* @__PURE__ */ __name((cnf) => {
    if (!cnf.class) {
      cnf.class = {};
    }
    cnf.class.arrowMarkerAbsolute = cnf.arrowMarkerAbsolute;
    classDb_default.clear();
  }, "init")
};
export {
  diagram
};




© 2015 - 2024 Weber Informatics LLC | Privacy Policy