Example #1
0
  public static <VertexType extends BaseVertex, EdgeType extends BaseEdge<VertexType>>
      BaseGraph<VertexType, EdgeType> getEdgeInducedSubgraph(
          BaseGraph<VertexType, EdgeType> graph, AbstractList<EdgeType> inducedEdges) {
    BaseGraph<VertexType, EdgeType> newGraph = graph.createEmptyGraph();
    newGraph.registerSubgraph(graph);
    newGraph.setSubGraphIndex(graph.getNewSubgraphIndex());

    TreeSet<VertexType> vertices =
        new TreeSet<VertexType>(
            new Comparator<VertexType>() {
              public int compare(VertexType o1, VertexType o2) {
                if (o1.getId() < o2.getId()) return -1;

                if (o1.getId() == o2.getId()) return 0;

                return 1;
              }
            });

    // Removing duplicate vertices by adding them to a TreeSet
    for (EdgeType e : inducedEdges) {
      graph.checkVertex(e.source);
      graph.checkVertex(e.target);
      vertices.add(e.source);
      vertices.add(e.target);
    }

    for (VertexType v : vertices) newGraph.insertVertex(v);

    for (EdgeType e : inducedEdges) newGraph.insertEdge(e);

    return newGraph;
  }
Example #2
0
  public static <VertexType extends BaseVertex, EdgeType extends BaseEdge<VertexType>>
      BaseGraph<VertexType, EdgeType> getVertexInducedSubgraph(
          BaseGraph<VertexType, EdgeType> graph, AbstractList<VertexType> inducedVertices) {
    BaseGraph<VertexType, EdgeType> newGraph = graph.createEmptyGraph();
    newGraph.registerSubgraph(graph);
    newGraph.setSubGraphIndex(graph.getNewSubgraphIndex());

    for (VertexType v : inducedVertices) {
      graph.checkVertex(v);
      newGraph.insertVertex(v);
    }

    for (int i = 0; i < inducedVertices.size(); ++i) {
      for (int j = i + 1; j < inducedVertices.size(); ++j) {
        AbstractList<EdgeType> edges =
            graph.getEdges(inducedVertices.get(i), inducedVertices.get(j));

        for (EdgeType edge : edges) newGraph.insertEdge(edge);
      }
    }

    return newGraph;
  }