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I am using bundled properties, like this

class cVertex { ... };
class eEdge { ... };
typedef boost::adjacency_list <
    boost::vecS, boost::vecS, boost::undirectedS,
    cVertex, cEdge  >
            graph_t;
graph_t myGraph;

This works nicely for the vertices. I can write code to access the vertex bundled properties easily

const cVertex& v = myGraph[ *vertices(myGraph).first + idx ];

However, the same thing does not seem to work for edges

const cEdge& e = myGraph[ *edges(myGraph).first + idx ];

I get these compiler errors

1>.\cGraph.cpp(109) : error C2678: binary '+' : 
no operator found which takes a left-hand operand of type 
'boost::detail::edge_desc_impl<Directed,Vertex>' 
(or there is no acceptable conversion)

I have also tried this:

For vertices this works well

boost::graph_traits<graph_t>::vertex_iterator vi = vertices(myGraph).first;
vi += idx;

But this gives compiler errors

boost::graph_traits<graph_t>::edge_iterator  ei = edges(myGraph).first;
ei += idx;

Here is the error

>C:\boost\boost_1_51\boost/iterator/iterator_adaptor.hpp(330) :
error C3767: '+=': candidate function(s) not accessible
1>        could be the friend function at 'C:\boost\boost_1_51\boost/graph/topology.hpp(63)' :
'+='  [may be found via argument-dependent lookup]
share|improve this question
    
Why are you trying to access edges by index? That is the issue -- there is no way to advance an edge descriptor (as opposed to an iterator) by a certain number of steps. –  Jeremiah Willcock Jul 7 '13 at 16:53
    
So I can answer question such as: what is the value of bundled property x for the 15th edge? In particular, I present the user with a table of edge properties and allow him the change the values of individual edge properties. The table widget tells me that the value of a property for the 15th edge has just been changed. –  ravenspoint Jul 7 '13 at 17:33
    
In that case, you might want to have a separate, indexable data structure (such as an std::vector) containing the edge descriptors, then index into that. –  Jeremiah Willcock Jul 7 '13 at 22:31
    
I consider that storing the same data in two different containers is both inefficient and a breeding ground for bugs. I will continue to use the workaround described in my answer. –  ravenspoint Jul 8 '13 at 0:47
    
At least if you are going to do that, use std::advance so that you would not need to modify the code to get full performance with edge iterator types that do have operator+=. –  Jeremiah Willcock Jul 8 '13 at 4:23

1 Answer 1

I have found this workaround

boost::graph_traits<graph_t>::edge_iterator  ei = edges(myGraph).first;

for( int k = 0; k < idx; k++ ) {
    ei++;
}

It seems incredible that this is necessary!!!

As suggested by Jeremiah Willcock this code can be made to look simpler by writing

boost::graph_traits<graph_t>::edge_iterator  ei = edges(myGraph).first;
std::advance( ei, idx );

( In reality the code executed is the same, with the addition of a test on whether or not the iterator is random access and the function call itself )

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