# Remove 100,000+ nodes from a Boost graph

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::remove_vertex(*vi,m_graph);
boost::tie(vi, vi_end) = boost::vertices(m_graph);
} else
++vi;
}
``````

Vtune shows that the boost::remove_vertex() call takes 88.145 seconds. Is there a more efficient way to delete these vertices?

• 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

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.

• 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
• @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). 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.

• 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