//======================================================================= // Copyright 2001 Jeremy G. Siek, Andrew Lumsdaine, Lie-Quan Lee, // // Distributed under the Boost Software License, Version 1.0. (See // accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) //======================================================================= #include #include #include #include #include using namespace boost; template < typename Graph, typename VertexNamePropertyMap > void read_graph_file(std::istream & graph_in, std::istream & name_in, Graph & g, VertexNamePropertyMap name_map) { typedef typename graph_traits < Graph >::vertices_size_type size_type; size_type n_vertices; typename graph_traits < Graph >::vertex_descriptor u; typename property_traits < VertexNamePropertyMap >::value_type name; graph_in >> n_vertices; // read in number of vertices for (size_type i = 0; i < n_vertices; ++i) { // Add n vertices to the graph u = add_vertex(g); name_in >> name; put(name_map, u, name); // ** Attach name property to vertex u ** } size_type src, targ; while (graph_in >> src) // Read in edges if (graph_in >> targ) add_edge(src, targ, g); // add an edge to the graph else break; } template < typename Graph, typename VertexNameMap > void output_adjacent_vertices(std::ostream & out, typename graph_traits < Graph >::vertex_descriptor u, const Graph & g, VertexNameMap name_map) { typename graph_traits < Graph >::adjacency_iterator vi, vi_end; out << get(name_map, u) << " -> { "; for (boost::tie(vi, vi_end) = adjacent_vertices(u, g); vi != vi_end; ++vi) out << get(name_map, *vi) << " "; out << "}" << std::endl; } template < typename NameMap > class name_equals_t { public: name_equals_t(const std::string & n, NameMap map) : m_name(n), m_name_map(map) { } template < typename Vertex > bool operator()(Vertex u) const { return get(m_name_map, u) == m_name; } private: std::string m_name; NameMap m_name_map; }; // object generator function template < typename NameMap > inline name_equals_t < NameMap > name_equals(const std::string & str, NameMap name) { return name_equals_t < NameMap > (str, name); } int main(int argc, const char** argv) { typedef adjacency_list // Add a vertex property >graph_type; graph_type g; // use default constructor to create empty graph const char* dep_file_name = argc >= 2 ? argv[1] : "makefile-dependencies.dat"; const char* target_file_name = argc >= 3 ? argv[2] : "makefile-target-names.dat"; std::ifstream file_in(dep_file_name), name_in(target_file_name); if (!file_in) { std::cerr << "** Error: could not open file " << dep_file_name << std::endl; return -1; } if (!name_in) { std::cerr << "** Error: could not open file " << target_file_name << std::endl; return -1; } // Obtain internal property map from the graph property_map < graph_type, vertex_name_t >::type name_map = get(vertex_name, g); read_graph_file(file_in, name_in, g, name_map); graph_traits < graph_type >::vertex_descriptor yow, zag, bar; // Get vertex name property map from the graph typedef property_map < graph_type, vertex_name_t >::type name_map_t; name_map_t name = get(vertex_name, g); // Get iterators for the vertex set graph_traits < graph_type >::vertex_iterator i, end; boost::tie(i, end) = vertices(g); // Find yow.h name_equals_t < name_map_t > predicate1("yow.h", name); yow = *std::find_if(i, end, predicate1); // Find zag.o name_equals_t < name_map_t > predicate2("zag.o", name); zag = *std::find_if(i, end, predicate2); // Find bar.o name_equals_t < name_map_t > predicate3("bar.o", name); bar = *std::find_if(i, end, predicate3); graph_traits < graph_type >::edge_descriptor e1, e2; bool exists; // Get the edge connecting yow.h to zag.o boost::tie(e1, exists) = edge(yow, zag, g); assert(exists == true); assert(source(e1, g) == yow); assert(target(e1, g) == zag); // Discover that there is no edge connecting zag.o to bar.o boost::tie(e2, exists) = edge(zag, bar, g); assert(exists == false); assert(num_vertices(g) == 15); assert(num_edges(g) == 19); return EXIT_SUCCESS; }