# Using Boost Graph Library (BGL) to identify connected components

I am trying to use the Boost Ggraph Library. On each iteration of my program, I have a set of points, e.g. {1,2,3,4,5,6,7,8,9,10} on iteration one and {1,2,3,...,1000} on iteration two, ...

For each point I know which other points it is connected to, e.g. at iteration one every point is connected as below:

``````c(1)={3,5,7,8}
c(2)={}
c(3)={1,4,10}
c(4)={3}
c(5)={1,9}
c(6)={}
c(7)={1,8}
c(8)={1,7}
c(9)={5}
c(10)={3}
``````

Each point has a property, e.g. p(1)=10, p(2)=100, p(3)=20, ...

How can I create an undirected graph in Boost and iterate over the connected component(s)?

You will need to include the following headers:

``````#include <boost/graph/adjacency_list.hpp>
#include <boost/graph/connected_components.hpp>
``````

Then you need to declare a type for your graph. The following is suitable for the requirements you gave, however you might want to consult this page to learn more about other choices for template parameters:

``````typedef
boost::vecS            // edge list
, boost::vecS            // vertex list
, boost::undirectedS     // directedness
, float                  // property associated with vertices
>
Graph;
``````

You may create a graph with a given number of points, and you may later add more points:

``````Graph c (10);              // create a graph with 10 points
``````

To add edges use (note that vertices are enumerated starting from 0):

``````boost::add_edge (0, 1, c); // add an edge between vertices 0 and 1 in the graph
``````

Finally, with the following piece of code you may compute connected components in your graph:

``````std::vector<int> component (boost::num_vertices (c));
size_t num_components = boost::connected_components (c, &component[0]);
``````

The value returned from the function is the number of found components. Each item in `component` vector will be set to the component id of the corresponding vertex. This means that you can iterate over it and e.g. print the vertices that belong to a particular component:

``````std::cout << "Vertices in the first component:" << std::endl;
for (size_t i = 0; i < boost::num_vertices (c); ++i)
if (component[i] == 0)
std::cout << i << " ";
``````
• Thanks @taketwo. In case, I would have several sub-graphs in this collection, does boost also give me number of available sub-graphs? can I iterate through my sub-graphs with this.
– ziv
Mar 30, 2014 at 16:47
• Yes, boost returns the number of components found (as one might expect, it is stored in `num_components` in the second last snippet). Also, the very last snippet shows how to iterate though vertices of a particular component (i.e. subgraph). You may add another loop around it to iterate though all components. Another option is to look at boost-subgraph. BTW, if your original question is answered, please accept the answer. Mar 30, 2014 at 18:43
• This is not correct, for example if vertex with vertex descriptor 0 was deleted from the graph, the graph consists of vertex descriptors 1, 2, ..., boost::num_vertices(c). You need to keep track of the vertex descriptors of these vertices, it is not safe to assume that vertex descriptors at any given time are simply 0 -> num_vertices()-1.
– j x
Sep 10, 2018 at 20:27
• I suppose what you mean is that `std::cout << i << " ";` does not give us vertex descriptors, but rather sequential indices into the vector of vertices of the graph? Please suggest a fix, I will be happy to update the last snippet. Sep 11, 2018 at 21:31