I have a graph ( adjacency_list (listS, vecS, bidirectionalS, VertexVal) ) in which I need to delete 100,000+ nodes. Each node also contains a structure of 2 64-bit integers and another 64-bit integer. The guid check that happens in the code below is checking 1st integer in the structure.

On my laptop ( i7 2.7GHz, 16GB RAM ) it takes about 88 seconds according to VTune.

Following is how I delete the nodes:

  vertex_iterator vi,vi_end;
  boost::tie(vi, vi_end) = boost::vertices(m_graph);
  while (vi!=vi_end) {
    if (m_graph[*vi].guid.part1 == 0) {
      boost::tie(vi, vi_end) = boost::vertices(m_graph);
    } else 

Vtune shows that the boost::remove_vertex() call takes 88.145 seconds. Is there a more efficient way to delete these vertices? Vtune data for boost::remove_vertex_dispatch(). This is the breakdown of the 88 seconds

  • and the graph type is... (you should specify the relevant information. (Bundled) properties, container selections, they'll have a huge impact)
    – sehe
    Commented Feb 6, 2015 at 23:07
  • adjacency_list with (listS, vecS, bidirectionalS, VertexVal.)
    – Dula
    Commented Feb 6, 2015 at 23:09
  • Each node also contains a Vertex Value which is a structure that has 3 64-bit integers.
    – Dula
    Commented Feb 6, 2015 at 23:11
  • The guid is a structure with 2 64-bit integers - 2/3 integers I mentioned above. I'll edit the question - problem solved :)
    – Dula
    Commented Feb 6, 2015 at 23:16

3 Answers 3


In your removal branch you re-tie() the iterators:

boost::tie(vi, vi_end) = boost::vertices(m_graph);

This will cause the loop to restart every time you restart the loop. This is exactly Schlemiel The Painter.

I'll find out whether you can trust remove_vertex not triggering a reallocation. If so, it's easily fixed. Otherwise, you'd want an indexer-based loop instead of iterator-based. Or you might be able to work on the raw container (it's a private member, though, as I remember).

Update Using vecS as the container for vertices is going to cause bad performance here:

If the VertexList template parameter of the adjacency_list was vecS, then all vertex descriptors, edge descriptors, and iterators for the graph are invalidated by this operation. <...> If you need to make frequent use of the remove_vertex() function the listS selector is a much better choice for the VertexList template parameter.

This small benchmark test.cpp compares:

  • with -DSTABLE_IT (listS)

    $ ./stable 
    Generated 100000 vertices and 5000 edges in 14954ms
    The graph has a cycle? false
    starting selective removal...
    Done in 0ms
    After: 99032 vertices and 4916 edges
  • without -DSTABLE_IT (vecS)

    $ ./unstable 
    Generated 100000 vertices and 5000 edges in 76ms
    The graph has a cycle? false
    starting selective removal...
    Done in 396ms
    After: 99032 vertices and 4916 edges
  • using filtered_graph (thanks @cv_and_he in the comments)

    Generated 100000 vertices and 5000 edges in 15ms
    The graph has a cycle? false
    starting selective removal...
    Done in 0ms
    After: 99032 vertices and 4916 edges
    Done in 13ms

You can clearly see that removal is much faster for listS but generating is much slower.

  • 1
    The reason had to be done was because when remove_vertex was called all iterators were invalidated.
    – Dula
    Commented Feb 6, 2015 at 23:29
  • vecS had to be used because I had to detect cyclic dependencies. boost example This only worked with vecS
    – Dula
    Commented Feb 6, 2015 at 23:36
  • @Dula for large graphs adding vertices is gonna be much slower, but my test with a random graph already confirm that listS is much faster during the removal phase. In general, the algorithms that work "naturally" with vecS still work with listS iff you prover the vertex_index_t propertymap. I'll have a look later
    – sehe
    Commented Feb 6, 2015 at 23:48
  • I think slower generation is OK in my use case. Only the deletes happen in bulk. I'll try and modify the graph to use listS and post resulting data.
    – Dula
    Commented Feb 7, 2015 at 0:09
  • 1
    @Dula I remember reading that a good way to "remove" lots of vertices from a graph with a vector vertex_list is creating a filtered_graph that ignores the vertices that are in a set and then simply adding the vertices you want to remove to that set. Here is my attemp at implementing it (be sure to check the hasher since I know very little about unordered_sets and it may very well be wrong). The removing part is obviously fast, but I'm not sure how the performance of accessing the filtered_graph after will be (it may be far slower).
    – llonesmiz
    Commented Feb 7, 2015 at 5:47

I was able to successfully serialize the graph using Boost serialization routines into a string, parse the string and remove the nodes I didn't need and de-serialize the modified string. For 200,000 total nodes in graph and 100,000 that needs to be deleted I was able to successfully finish the operation in less than 2 seconds.

For my particular use-case each vertex has 3 64bit integers. When it needs to be deleted, I mark 2 of those integers as 0s. A valid vertex would never have a 0. When the point comes to clean up the graph - to delete the "deleted" vertices, I follow the above logic.

In the code below removeDeletedNodes() does the string parsing and removing the vertices and mapping the edge numbers.

enter image description here

  • Nice. I'd be interested to know whether filtered_graph would be serializable (I suppose it would). In that case it might be faster because of the reduced need for string manipulation.
    – sehe
    Commented Mar 11, 2015 at 1:33

It would be interesting to see more of the Vtune data.

My experience has been that the default Microsoft allocator can be a big bottleneck when deleting tens of thousands of small objects. Does your Vtune graph show a lot of time in delete or free?

If so, consider switching to a third-party allocator. Nedmalloc is said to be good: http://www.nedprod.com/programs/portable/nedmalloc/

Google has one, tcmalloc, which is very well regarded and much faster than the built-in allocators on almost every platform. https://code.google.com/p/gperftools/ tcmalloc is not a drop-in for Windows.

  • Yes, it does. In the VTune picture 48 seconds are spent in the erase. This would cause the GUID structure to be deleted as well I'm guessing?
    – Dula
    Commented Feb 6, 2015 at 23:25
  • erase would cover the destructor as well as the memory free. Can you go deeper? Commented Feb 6, 2015 at 23:29
  • I don't think so. That's getting into the C++ containers code isn't it?
    – Dula
    Commented Feb 6, 2015 at 23:30
  • Sure, but that wouldn't normally stop VTune. Commented Feb 6, 2015 at 23:31

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