Пример #1
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 def split_gt():
     g = GTGraph()
     g.add_edge_list(adjacency)
     component_labels = label_components(g, directed=False)[0].a
     components = group(component_labels)
     result = mesh.submesh(components, only_watertight=only_watertight)
     return result
Пример #2
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 def components_graphtool():
     g = GTGraph()
     # make sure all the nodes are in the graph
     if min_len <= 1:
         g.add_vertex(node_count)
     g.add_edge_list(edges)
     component_labels = label_components(g, directed=False)[0].a
     components = grouping.group(component_labels, min_len=min_len)
     return components
Пример #3
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 def split_gt():
     g = GTGraph()
     if not only_watertight:
         # same as above, for single triangles with no adjacency
         g.add_vertex(len(mesh.faces))
     g.add_edge_list(adjacency)
     component_labels = label_components(g, directed=False)[0].a
     components = group(component_labels)
     result = mesh.submesh(components, only_watertight=only_watertight)
     return result
Пример #4
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    def components_graphtool():
        """
        Find connected components using graphtool
        """
        g = GTGraph()
        # make sure all the nodes are in the graph
        g.add_vertex(node_count)
        # add the edge list
        g.add_edge_list(edges)

        labels = np.array(label_components(g, directed=False)[0].a,
                          dtype=np.int64)[:node_count]

        # we have to remove results that contain nodes outside
        # of the specified node set and reindex
        contained = np.zeros(node_count, dtype=np.bool)
        contained[nodes] = True
        index = np.arange(node_count, dtype=np.int64)[contained]

        components = grouping.group(labels[contained], min_len=min_len)
        components = np.array([index[c] for c in components])

        return components
Пример #5
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 def facets_gt():
     graph_parallel = GTGraph()
     graph_parallel.add_edge_list(face_idx[parallel])
     connected  = label_components(graph_parallel, directed=False)[0].a
     facets_idx = group(connected, min_len=2)
     return facets_idx