I am using the Boost Graph Library to store an undirected graph with `double`

edge weights and `double`

vertex weights. At several places in my code, I need to apply Dijkstra's algorithm in order to search for shortest paths. This works quite well until I decided I wanted to temporarily override the stored edge weights by my own weights (only temporarily, the graph weights shall not be modified). My code basically looks like this:

```
// Initial typedefs
typedef boost::property<boost::edge_weight_t, double> edge_weight_t;
typedef boost::property<boost::vertex_discover_time_t, double> vertex_weight_t;
typedef boost::adjacency_list<boost::vecS,
boost::vecS,
boost::undirectedS,
vertex_weight_t,
edge_weight_t> graph_t;
// In a function, where graph is a const reference of type graph_t
std::vector<double> pathLengths( boost::num_vertices( graph ) );
boost::property_map<graph_t, boost::edge_weight_t>::type weightMap;
boost::graph_traits<graph_t>::edge_iterator e_it, e_it_end;
for( boost::tie( e_it, e_it_end ) = boost::edges( graph );
e_it != e_it_end;
++e_it )
{
weightMap[ *e_it ] = 1.0;
}
boost::dijkstra_shortest_paths( graph,
boost::vertex( vertex, graph ),
boost::distance_map( &pathLengths[0] ).weight_map( weightMap ) );
```

Although `graph`

is a *const reference* in the code above, the edge weights of the graph will be *changed* afterwards. What am I doing wrong? Or more specifically, how can I temporarily override the edge weights in a weighted graph?

Obviously, I could simply store the current edge weights, replace them by my weights, and change them back afterwards. However, I am convinced that **I** am at fault, and I do not want ignore this problem.