Re: [Boost-users] (no subject)

Thank you for this solution. It compiles. Nevertheless, I still don't achieve what I want to do and I don't understand a few things (I attached the code): 1/ I run the connected_component() function after defining the graph graph_t G(num_nodes) and I expect that there should be as many components as num_nodes as I didn't add the edges yet. However the return of the function tells me there is 1 component ?? After adding the edges between all vertices, the number of components is 1, as it should be. But when I use the function clear_vertex(), I expect to create a new component as the vertex cleaned contain no more edges. The number of components is still one. What I am doing wrong here? 2/I need to know the size in number of vertices of the components, therefore I need to use something like  for (i = 0; i != num_nodes; ++i)      cout << "Vertex " << i <<" is in component " << component[i] << endl;      cout << endl; but of course with our changings done this can't be used. Do you have an idea how I could extract this information. Gabriel --- En date de : Jeu 7.4.11, Cedric Laczny a écrit : De: Cedric Laczny Objet: Re: [Boost-users] (no subject) À: boost-users@lists.boost.org Date: Jeudi 7 avril 2011, 6h50 Alright, now that was a somehow tricky one... Details s. below. On Wednesday, 6. April 2011 12:55:52 Gabriel Marchand wrote:

Hi, I am new to boost and I face the same problem mentioned here with "connected_components()" using a mutable graph (hence using a list for  the vertex container). I try the detailed solution of Aaron Windsor in the previous post but I still get some errors at compilation. Here is my little code:

     #include      #include

     using namespace std;      using namespace boost;

     Box& b = conf.GetBox();

     if (!ai) {          ai = new AtomList();          *ai = conf.GetAtoms().AtomSelector(selecti, b);      }

     typedef boost::adjacency_list<              listS,              listS,              undirectedS,              property,              no_property>

     > graph_t;

     graph_t g(ai->size());      property_map::type index = get(vertex_index, g); graph_traits::vertex_iterator vi, vi_end;      graph_traits::vertices_size_type cnt = 0;      for(tie(vi,vi_end) = vertices(g); vi != vi_end; ++vi)          put(index, *vi, cnt++);

     for (unsigned int i = 0; i < ai->size(); ++i) {          Cartesian& crdi = ai->GetElement(i)->pos;          for (unsigned int j = i + 1; j < ai->size(); ++j) {              Cartesian& crdj = ai->GetElement(j)->pos;              double r = conf.GetBox().CartesianDistance(crdi, crdj);              if (r < rcut) {                  add_edge(vertex(i,g), vertex(j,g), g); // Add edge to Map if distance criteria is satisfied

             }          }      }

     vector<int> component(num_vertices(g));      int num_clusters = connected_components(g, &component[0], vertex_index_map(index));

In the example for connected_components() you used, you probably found the "&component[0]" notation and simply used it. However, this does _not_ work for graphs with listS, only for vecS. So basically what you have to do is to define your own components map and _not_ use that wrapper around a vector. As boost seems to model vertices with listS as void* this can hardly work as it is missing the index that it would normally have when using vecS. Also, for vecS, vertices seem to be modeled as int and therefore can serve as indices for vectors directly. So, to make your code compiles, you should use:   typedef graph_traits::vertex_descriptor Vertex;   map< Vertex, unsigned int > index_std_map;   typedef associative_property_map< map< Vertex, unsigned int > > IndexMap;   IndexMap index( index_std_map );   // put() the values by iterating over all vertices instead of getting the vertex_index from the graph via "get(vertex_index, G)". With this, you can define your own components-map:   vector<int> v_component(num_vertices(G));   iterator_property_map< vector<int>::iterator, IndexMap >    component( v_component.begin(), index ); and call connected_components() via: int num_clusters = connected_components(G, component, vertex_index_map(index));

The compilation is successfull until I add the last line:   int num_clusters = connected_components(g, &component[0], vertex_index_map(index));

Hope somebody can give a hint gabriel

Hope that I could help and that this solution will be correct for you. Please, of course, test the whole approach in order to make sure it works as you expect it to. Generally it should, as long as the mapping from vertex to index/offset is correct. If there are further questions about the problem or my solution, feel free to mail again. Best, Cedric _______________________________________________ Boost-users mailing list Boost-users@lists.boost.org http://lists.boost.org/mailman/listinfo.cgi/boost-users