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I am confused about how to actually create a Graph using the boost library, I have looked at the example code and there are no comments explaining what it does.

How do you make a graph, and add vertices and edges as you go?

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3 Answers 3

up vote 22 down vote accepted

Here's a simple example, using an adjacency list and executing a topological sort:

#include <iostream>
#include <deque>
#include <iterator>

#include "boost/graph/adjacency_list.hpp"
#include "boost/graph/topological_sort.hpp"

int main()
{
    // Create a n adjacency list, add some vertices.
    boost::adjacency_list<> g(num tasks);
    boost::add_vertex(0, g);
    boost::add_vertex(1, g);
    boost::add_vertex(2, g);
    boost::add_vertex(3, g);
    boost::add_vertex(4, g);
    boost::add_vertex(5, g);
    boost::add_vertex(6, g);

    // Add edges between vertices.
    boost::add_edge(0, 3, g);
    boost::add_edge(1, 3, g);
    boost::add_edge(1, 4, g);
    boost::add_edge(2, 1, g);
    boost::add_edge(3, 5, g);
    boost::add_edge(4, 6, g);
    boost::add_edge(5, 6, g);

    // Perform a topological sort.
    std::deque<int> topo_order;
    boost::topological_sort(g, std::front_inserter(topo_order));

    // Print the results.
    for(std::deque<int>::const_iterator i = topo_order.begin();
        i != topo_order.end();
        ++i)
    {
        cout << tasks[v] << endl;
    }

    return 0;
}

I agree that the boost::graph documentation can be intimidating. I suggest you have a look at the link below:

http://www.boost.org/doc/libs/1_48_0/libs/graph/doc/table_of_contents.html

I can't recall if the contents of the printed book is the same, I suspect it's a bit easier on the eyes. I actually learnt to use boost:graph from the book. The learning curve can feel pretty steep though. The book I refer to and reviews can be found here:

http://www.amazon.com/Boost-Graph-Library-Reference-Manual/dp/0201729148/ref=sr_1_1?ie=UTF8&qid=1326242972&sr=8-1

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If you are really interested in the Boost Graph Library, you might want to have a look at Jeremy Siek's "The Boost Graph Library". –  Dietmar Kühl Jan 11 '12 at 0:50
    
@DietmarKühl I'll add the link to my answer, I wasn't sure if it was alright posting a link to Amazon :). –  Liam M Jan 11 '12 at 0:54
1  
I've put that code on ideone I had to tweak it a little for some typos. –  Aaron McDaid Jan 11 '12 at 1:04
    
@user1021915: I don't know if it is OK, either. On the other hand, I'm recommending Jeremy's book, not Amazon. –  Dietmar Kühl Jan 11 '12 at 1:08
    
The code won't even compile, after putting the namespaces of boost and std. –  G. Samaras Sep 23 at 17:41

This is based off the example given on the boost::graph website, with comments added:

#include <iostream>
#include <utility>
#include <algorithm>
#include <vector>

#include "boost/graph/graph_traits.hpp"
#include "boost/graph/adjacency_list.hpp"

using namespace boost;

int main(int argc, char *argv[])
{
    //create an -undirected- graph type, using vectors as the underlying containers
    //and an adjacency_list as the basic representation
    typedef adjacency_list<vecS, vecS, undirectedS> UndirectedGraph;

    //Our set of edges, which basically are just converted into ints (0-4)
    enum {A, B, C, D, E, N};
    const char *name = "ABCDE";

    //An edge is just a connection between two vertitices. Our verticies above
    //are an enum, and are just used as integers, so our edges just become
    //a std::pair<int, int>
    typedef std::pair<int, int> Edge;

    //Example uses an array, but we can easily use another container type
    //to hold our edges. 
    std::vector<Edge> edgeVec;
    edgeVec.push_back(Edge(A,B));
    edgeVec.push_back(Edge(A,D));
    edgeVec.push_back(Edge(C,A));
    edgeVec.push_back(Edge(D,C));
    edgeVec.push_back(Edge(C,E));
    edgeVec.push_back(Edge(B,D));
    edgeVec.push_back(Edge(D,E));

    //Now we can initialize our graph using iterators from our above vector
    UndirectedGraph g(edgeVec.begin(), edgeVec.end(), N);

    std::cout << num_edges(g) << "\n";

    //Ok, we want to see that all our edges are now contained in the graph
    typedef graph_traits<UndirectedGraph>::edge_iterator edge_iterator;

    //Tried to make this section more clear, instead of using tie, keeping all
    //the original types so it's more clear what is going on
    std::pair<edge_iterator, edge_iterator> ei = edges(g);
    for(edge_iterator edge_iter = ei.first; edge_iter != ei.second; ++edge_iter) {
        std::cout << "(" << source(*edge_iter, g) << ", " << target(*edge_iter, g) << ")\n";
    }

    std::cout << "\n";
    //Want to add another edge between (A,E)?
    add_edge(A, E, g);

    //Print out the edge list again to see that it has been added
    for(edge_iterator edge_iter = ei.first; edge_iter != ei.second; ++edge_iter) {
        std::cout << "(" << source(*edge_iter, g) << ", " << target(*edge_iter, g) << ")\n";
    }

    //Finally lets add a new vertex - remember the verticies are just of type int
    int F = add_vertex(g);
    std::cout << F << "\n";

    //Connect our new vertex with an edge to A...
    add_edge(A, F, g);

    //...and print out our edge set once more to see that it was added
    for(edge_iterator edge_iter = ei.first; edge_iter != ei.second; ++edge_iter) {
        std::cout << "(" << source(*edge_iter, g) << ", " << target(*edge_iter, g) << ")\n";
    }
    return 0;
}
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so.. how about printing the shortest path between A and D ? –  user1182183 May 23 '13 at 1:05

Boost's adjacency_list is a good way to go, this example creates a directed graph and outputs an image of the graph using AT&T's GraphViz:

#include <iostream>
#include <boost/graph/adjacency_list.hpp>
#include <boost/graph/graphviz.hpp>

int main()
{
    using namespace std;
    using namespace boost;

    /* define the graph type
          listS: selects the STL list container to store 
                 the OutEdge list
          vecS: selects the STL vector container to store 
                the vertices
          directedS: selects directed edges
    */
   typedef adjacency_list< listS, vecS, directedS > digraph;

   // instantiate a digraph object with 8 vertices
   digraph g(8);

   // add some edges
   add_edge(0, 1, g);
   add_edge(1, 5, g);
   add_edge(5, 6, g);
   add_edge(2, 3, g);
   add_edge(2, 4, g);
   add_edge(3, 5, g);
   add_edge(4, 5, g);
   add_edge(5, 7, g);

   // represent graph in DOT format and send to cout
   write_graphviz(cout, g);

   return 0;
}

The output is a DOT file that you can quickly feed into the dot utility that comes with GraphViz.

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