Jens Müller wrote:
I found it hard to adapt it to the graph.cpp test program, I think it makes a lot of assumptions not configurable in graph_type.hpp which are only true for adjacency_list.
See attached error log ... An updated leda_graph.hpp with a tiny correction is attached as well. ...found 523 target(s)... ...updating 2 target(s)... C++ graph.o graph.cpp: In function `int main(int, char**)': graph.cpp:163: error: invalid initialization of non-const reference of type 'leda::graph&' from a temporary of type 'size_t' ././leda_graph.hpp:686: error: in passing argument 1 of `leda::node_struct* boost::add_vertex(leda::graph&)' graph.cpp:185: error: invalid initialization of non-const reference of type 'leda::graph&' from a temporary of type 'size_t' ././leda_graph.hpp:738: error: in passing argument 3 of `std::pair<leda::edge_struct*, bool> boost::add_edge(leda::node_struct*, leda::node_struct*, leda::graph&)' graph.cpp:227: warning: comparison between signed and unsigned integer expressions graph.cpp:267: warning: comparison between signed and unsigned integer expressions graph.cpp:289: error: non-lvalue in assignment graph.cpp:290: error: non-lvalue in assignment graph.cpp:389: error: no matching function for call to `boost::leda_graph_id_map::leda_graph_id_map(size_t)' ././leda_graph.hpp:748: note: candidates are: boost::leda_graph_id_map::leda_graph_id_map(const boost::leda_graph_id_map&) ././leda_graph.hpp:754: note: boost::leda_graph_id_map::leda_graph_id_map() graph.cpp:403: error: non-lvalue in assignment graph.cpp:427: warning: comparison between signed and unsigned integer expressions ././leda_graph.hpp: In constructor `boost::graph_traits<leda::GRAPH<vtype, etype> >::adjacency_iterator::adjacency_iterator(leda::node_struct*, const leda::GRAPH<vtype, etype>*) [with vtype = int, etype = int]': /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:264: instantiated from `bool boost::is_adj_dispatch(Graph&, Vertex, Vertex, boost::directed_tag) [with Graph = leda::GRAPH<int, int>, Vertex = leda::node_struct*]' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:308: instantiated from `bool boost::is_adjacent(Graph&, Vertex, Vertex) [with Graph = Graph, Vertex = leda::node_struct*]' graph.cpp:98: instantiated from `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]' graph.cpp:197: instantiated from here ././leda_graph.hpp:84: error: cannot convert `leda::node_struct*' to `leda::edge_struct*' in initialization /./leda_graph.hpp: In function `std::pair<typename boost::graph_traits<leda::GRAPH<vtype, etype> >::adjacency_iterator, typename boost::graph_traits<leda::GRAPH<vtype, etype> >::adjacency_iterator> boost::adjacent_vertices(typename boost::graph_traits<leda::GRAPH<vtype, etype> >::vertex_descriptor, const leda::GRAPH<vtype, etype>&) [with vtype = int, etype = int]': /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:265: instantiated from `bool boost::is_adj_dispatch(Graph&, Vertex, Vertex, boost::directed_tag) [with Graph = leda::GRAPH<int, int>, Vertex = leda::node_struct*]' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:308: instantiated from `bool boost::is_adjacent(Graph&, Vertex, Vertex) [with Graph = Graph, Vertex = leda::node_struct*]' graph.cpp:98: instantiated from `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]' graph.cpp:197: instantiated from here ././leda_graph.hpp:448: error: no matching function for call to `leda::GRAPH<int, int>::first_adj_edge(leda::node_struct*&, int) const' /sw/linux/LEDA/LEDA-5.0.1/incl_old/LEDA/graph.h:1473: note: candidates are: leda::edge_struct* leda::graph::first_adj_edge(leda::node_struct*) const ././leda_graph.hpp: In constructor `boost::graph_traits<leda::GRAPH<vtype, etype> >::out_edge_iterator::out_edge_iterator(leda::node_struct*, const leda::GRAPH<vtype, etype>*) [with vtype = int, etype = int]': /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:280: instantiated from `bool boost::is_adj_dispatch(Graph&, Vertex, Vertex, boost::directed_tag) [with Graph = leda::GRAPH<int, int>, Vertex = leda::node_struct*]' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:308: instantiated from `bool boost::is_adjacent(Graph&, Vertex, Vertex) [with Graph = Graph, Vertex = leda::node_struct*]' graph.cpp:98: instantiated from `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]' graph.cpp:197: instantiated from here ././leda_graph.hpp:110: error: cannot convert `leda::node_struct*' to `leda::edge_struct*' in initialization ././leda_graph.hpp: In function `std::pair<typename boost::graph_traits<leda::GRAPH<vtype, etype> >::out_edge_iterator, typename boost::graph_traits<leda::GRAPH<vtype, etype> >::out_edge_iterator> boost::out_edges(typename boost::graph_traits<leda::GRAPH<vtype, etype> >::vertex_descriptor, const leda::GRAPH<vtype, etype>&) [with vtype = int, etype = int]': /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:282: instantiated from `bool boost::is_adj_dispatch(Graph&, Vertex, Vertex, boost::directed_tag) [with Graph = leda::GRAPH<int, int>, Vertex = leda::node_struct*]' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:308: instantiated from `bool boost::is_adjacent(Graph&, Vertex, Vertex) [with Graph = Graph, Vertex = leda::node_struct*]' graph.cpp:98: instantiated from `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]' graph.cpp:197: instantiated from here ././leda_graph.hpp:422: error: no matching function for call to `leda::GRAPH<int, int>::first_adj_edge(leda::node_struct*&, int) const' /sw/linux/LEDA/LEDA-5.0.1/incl_old/LEDA/graph.h:1473: note: candidates are: leda::edge_struct* leda::graph::first_adj_edge(leda::node_struct*) const /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp: In function `bool boost::in_edge_set(Graph&, Edge) [with Graph = leda::GRAPH<int, int>, Edge = leda::edge_struct*]': graph.cpp:103: instantiated from `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]' graph.cpp:197: instantiated from here /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:314: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:314: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:314: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' ././leda_graph.hpp: In constructor `boost::graph_traits<leda::GRAPH<vtype, etype> >::edge_iterator::edge_iterator(leda::edge_struct*, const leda::GRAPH<vtype, etype>*) [with vtype = int, etype = int]': ././leda_graph.hpp:409: instantiated from `std::pair<typename boost::graph_traits<leda::GRAPH<vtype, etype> >::edge_iterator, typename boost::graph_traits<leda::GRAPH<vtype, etype> >::edge_iterator> boost::edges(const leda::GRAPH<vtype, etype>&) [with vtype = int, etype = int]' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:315: instantiated from `bool boost::in_edge_set(Graph&, Edge) [with Graph = leda::GRAPH<int, int>, Edge = leda::edge_struct*]' graph.cpp:103: instantiated from `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]' graph.cpp:197: instantiated from here ././leda_graph.hpp:191: error: cannot convert `leda::edge_struct*' to `leda::node_struct*' in initialization /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp: In function `bool boost::in_edge_set(Graph&, Edge) [with Graph = leda::GRAPH<int, int>, Edge = leda::edge_struct*]': graph.cpp:103: instantiated from `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]' graph.cpp:197: instantiated from here /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:315: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:315: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:316: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:316: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:316: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:317: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:317: error: no type named `edge_iterator' in `class leda::GRAPH<int, int>' graph.cpp: In function `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]': graph.cpp:197: instantiated from here graph.cpp:108: warning: comparison between signed and unsigned integer expressions /sw/linux/LEDA/LEDA-5.0.1/incl_old/LEDA/graph.h:1363: error: `leda::edge' is not a function, /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/detail/adjacency_list.hpp:1546: error: conflict with `template<class Config, class Base> std::pair<typename Config::edge_descriptor, bool> boost::edge(typename Config::vertex_descriptor, typename Config::vertex_descriptor, const boost::adj_list_helper<Config, Base>&)' graph.cpp:113: error: in call to `edge' graph.cpp:113: error: no matching function for call to `edge(leda::node_struct*&, leda::node_struct*&, leda::GRAPH<int, int>&)' ././leda_graph.hpp: In member function `void boost::graph_traits<leda::GRAPH<vtype, etype> >::edge_iterator::increment() [with vtype = int, etype = int]': /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/iterator/iterator_facade.hpp:523: instantiated from `static void boost::iterator_core_access::increment(Facade&) [with Facade = boost::graph_traits<Graph>::edge_iterator]' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/iterator/iterator_facade.hpp:665: instantiated from `Derived& boost::iterator_facade<I, V, TC, R, D>::operator++() [with Derived = boost::graph_traits<Graph>::edge_iterator, Value = leda::edge_struct*, CategoryOrTraversal = boost::bidirectional_traversal_tag, Reference = leda::edge_struct* const&, Difference = leda::edge_struct* const*]' graph.cpp:133: instantiated from `size_t count_edges(Graph&) [with Graph = Graph]' graph.cpp:118: instantiated from `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]' graph.cpp:197: instantiated from here ././leda_graph.hpp:199: error: no matching function for call to `leda::GRAPH<int, int>::succ_edge(leda::node_struct*&) const' /sw/linux/LEDA/LEDA-5.0.1/incl_old/LEDA/graph.h:1459: note: candidates are: leda::edge_struct* leda::graph::succ_edge(leda::edge_struct*) const graph.cpp: In function `bool check_edge_added(Graph&, Edge, typename boost::graph_traits<G>::vertex_descriptor, typename boost::graph_traits<G>::vertex_descriptor, EdgeID, size_t, bool) [with Graph = Graph, Edge = leda::edge_struct*, EdgeID = boost::leda_graph_id_map]': graph.cpp:197: instantiated from here graph.cpp:118: warning: comparison between signed and unsigned integer expressions /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp: In function `bool boost::in_edge_set(Graph&, Vertex, Vertex) [with Graph = Graph, Vertex = leda::node_struct*]': graph.cpp:226: instantiated from here /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:332: error: no type named `edge_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:332: error: no type named `edge_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:333: error: no type named `edge_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:333: error: no type named `edge_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:333: error: no type named `edge_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:333: error: no type named `edge_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:333: error: no type named `edge_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:334: error: no type named `edge_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:334: error: no type named `edge_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp: In function `bool boost::in_vertex_set(Graph&, Vertex) [with Graph = Graph, Vertex = leda::node_struct*]': graph.cpp:300: instantiated from here /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:323: error: no type named `vertex_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:323: error: no type named `vertex_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:323: error: no type named `vertex_iterator' in `class Graph' graph.cpp:300: instantiated from here /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:324: error: no type named `vertex_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:324: error: no type named `vertex_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:325: error: no type named `vertex_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:325: error: no type named `vertex_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:325: error: no type named `vertex_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:326: error: no type named `vertex_iterator' in `class Graph' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/graph/graph_utility.hpp:326: error: no type named `vertex_iterator' in `class Graph' ././leda_graph.hpp: In member function `leda::edge_struct* const& boost::graph_traits<leda::GRAPH<vtype, etype> >::edge_iterator::dereference() const [with vtype = int, etype = int]': /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/iterator/iterator_facade.hpp:517: instantiated from `static typename Facade::reference boost::iterator_core_access::dereference(const Facade&) [with Facade = boost::graph_traits<Graph>::edge_iterator]' /home/jmueller/software-gcc34/boost/include/boost-1_33_1/boost/iterator/iterator_facade.hpp:635: instantiated from `Reference boost::iterator_facade<I, V, TC, R, D>::operator*() const [with Derived = boost::graph_traits<Graph>::edge_iterator, Value = leda::edge_struct*, CategoryOrTraversal = boost::bidirectional_traversal_tag, Reference = leda::edge_struct* const&, Difference = leda::edge_struct* const*]' graph.cpp:343: instantiated from here ././leda_graph.hpp:194: error: invalid initialization of reference of type 'leda::edge_struct* const&' from expression of type 'leda::node_struct* const' ././leda_graph.hpp: In function `void boost::clear_vertex(typename boost::graph_traits<leda::GRAPH<vtype, etype> >::vertex_descriptor, leda::GRAPH<vtype, etype>&) [with vtype = int, etype = int]': graph.cpp:421: instantiated from here ././leda_graph.hpp:561: error: no matching function for call to `remove_edge(leda::edge_struct* const&)' ././leda_graph.hpp:695: note: candidates are: void boost::remove_edge(leda::node_struct*, leda::node_struct*, leda::graph&) ././leda_graph.hpp:707: note: void boost::remove_edge(leda::edge_struct*, leda::graph&) ././leda_graph.hpp: In constructor `boost::graph_traits<leda::GRAPH<vtype, etype> >::in_edge_iterator::in_edge_iterator(leda::node_struct*, const leda::GRAPH<vtype, etype>*) [with vtype = int, etype = int]': ././leda_graph.hpp:563: instantiated from `void boost::clear_vertex(typename boost::graph_traits<leda::GRAPH<vtype, etype> >::vertex_descriptor, leda::GRAPH<vtype, etype>&) [with vtype = int, etype = int]' graph.cpp:421: instantiated from here ././leda_graph.hpp:137: error: cannot convert `leda::node_struct*' to `leda::edge_struct*' in initialization ././leda_graph.hpp: In function `std::pair<typename boost::graph_traits<leda::GRAPH<vtype, etype> >::in_edge_iterator, typename boost::graph_traits<leda::GRAPH<vtype, etype> >::in_edge_iterator> boost::in_edges(typename boost::graph_traits<leda::GRAPH<vtype, etype> >::vertex_descriptor, const leda::GRAPH<vtype, etype>&) [with vtype = int, etype = int]': ././leda_graph.hpp:564: instantiated from `void boost::clear_vertex(typename boost::graph_traits<leda::GRAPH<vtype, etype> >::vertex_descriptor, leda::GRAPH<vtype, etype>&) [with vtype = int, etype = int]' graph.cpp:421: instantiated from here ././leda_graph.hpp:435: error: no matching function for call to `leda::GRAPH<int, int>::first_adj_edge(leda::node_struct*&, int) const' /sw/linux/LEDA/LEDA-5.0.1/incl_old/LEDA/graph.h:1473: note: candidates are: leda::edge_struct* leda::graph::first_adj_edge(leda::node_struct*) const g++34 -c -o graph.o -g -Wall -Wno-deprecated -pipe -O -I. -I/home/jmueller/software-gcc34/boost/include/boost-1_33_1 -I/sw/linux/LEDA/LEDA-5.0.1/include -I/sw/linux/LEDA/LEDA-5.0.1/incl -I/sw/linux/LEDA/LEDA-5.0.1/incl_old graph.cpp ...failed C++ graph.o ... ...skipped graph for lack of <.>graph.o... ...failed updating 1 target(s)... ...skipped 1 target(s)... //======================================================================= // Copyright 2002 Indiana University. // Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek // // 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 <boost/graph/adjacency_list.hpp> #include <./leda_graph.hpp> //typedef boost::adjacency_list<boost::setS, boost::setS, boost::undirectedS, boost::property<vertex_id_t, std::size_t>, boost::property<edge_id_t, std::size_t> > Graph; //typedef boost::property<vertex_id_t, std::size_t> VertexId; //typedef boost::property<edge_id_t, std::size_t> EdgeID; typedef leda::GRAPH<int, int> Graph; typedef boost::leda_graph_id_map VertexID; typedef boost::leda_graph_id_map EdgeID; /* TODO: * Are id maps really available for all kinds of LEDA graphs? What is the id() member function there? Where is it documented? CHANGES: * property map interface to the LEDA edge_array class nearly 1:1 copy of node_array stuff * adapter for non-templated 'graph' class added nearly 1:1 copy of code for GRAPH<vtype,etype> * fixed access functions (outside iterator code) to use member functions of the graph/GRAPH class see http://www.algorithmic-solutions.info/leda_manual/graph.html * replaced leda_something by leda::something * make iterators use 'public' LEDA interfaces see http://www.algorithmic-solutions.info/leda_manual/graph.html * implemented clear_vertex * implemented EdgeListGraph concept * edge_iterator class * edges function -> please add to documentation */ //======================================================================= // Copyright 1997, 1998, 1999, 2000 University of Notre Dame. // Copyright 2004 The Trustees of Indiana University. // Copyright 2007 University of Karlsruhe // Authors: Andrew Lumsdaine, Lie-Quan Lee, Jeremy G. Siek, Douglas Gregor, // Jens Mueller // // 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) //======================================================================= #ifndef BOOST_GRAPH_LEDA_HPP #define BOOST_GRAPH_LEDA_HPP #include <boost/config.hpp> #include <boost/iterator/iterator_facade.hpp> #include <boost/graph/graph_traits.hpp> #include <boost/graph/properties.hpp> #include <LEDA/graph.h> #include <LEDA/node_array.h> #include <LEDA/node_map.h> // The functions and classes in this file allows the user to // treat a LEDA GRAPH object as a boost graph "as is". No // wrapper is needed for the GRAPH object. // Warning: this implementation relies on partial specialization // for the graph_traits class (so it won't compile with Visual C++) // Warning: this implementation is in alpha and has not been tested #if !defined BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION namespace boost { struct leda_graph_traversal_category : public virtual bidirectional_graph_tag, public virtual adjacency_graph_tag, public virtual vertex_list_graph_tag { }; template <class vtype, class etype> struct graph_traits< leda::GRAPH<vtype,etype> > { typedef leda::node vertex_descriptor; typedef leda::edge edge_descriptor; class adjacency_iterator : public iterator_facade<adjacency_iterator, leda::node, bidirectional_traversal_tag, leda::node, const leda::node*> { public: adjacency_iterator(leda::node node = 0, const leda::GRAPH<vtype, etype>* g = 0) : base(node), g(g) {} private: leda::node dereference() const { return leda::target(base); } bool equal(const adjacency_iterator& other) const { return base == other.base; } void increment() { base = g->adj_succ(base); } void decrement() { base = g->adj_pred(base); } leda::edge base; const leda::GRAPH<vtype, etype>* g; friend class iterator_core_access; }; class out_edge_iterator : public iterator_facade<out_edge_iterator, leda::edge, bidirectional_traversal_tag, const leda::edge&, const leda::edge*> { public: out_edge_iterator(leda::node node = 0, const leda::GRAPH<vtype, etype>* g = 0) : base(node), g(g) {} private: const leda::edge& dereference() const { return base; } bool equal(const out_edge_iterator& other) const { return base == other.base; } void increment() { base = g->adj_succ(base); } void decrement() { base = g->adj_pred(base); } leda::edge base; const leda::GRAPH<vtype, etype>* g; friend class iterator_core_access; }; class in_edge_iterator : public iterator_facade<in_edge_iterator, leda::edge, bidirectional_traversal_tag, const leda::edge&, const leda::edge*> { public: in_edge_iterator(leda::node node = 0, const leda::GRAPH<vtype, etype>* g = 0) : base(node), g(g) {} private: const leda::edge& dereference() const { return base; } bool equal(const in_edge_iterator& other) const { return base == other.base; } void increment() { base = g->in_succ(base); } void decrement() { base = g->in_pred(base); } leda::edge base; const leda::GRAPH<vtype, etype>* g; friend class iterator_core_access; }; class vertex_iterator : public iterator_facade<vertex_iterator, leda::node, bidirectional_traversal_tag, const leda::node&, const leda::node*> { public: vertex_iterator(leda::node node = 0, const leda::GRAPH<vtype, etype>* g = 0) : base(node), g(g) {} private: const leda::node& dereference() const { return base; } bool equal(const vertex_iterator& other) const { return base == other.base; } void increment() { base = g->succ_node(base); } void decrement() { base = g->pred_node(base); } leda::node base; const leda::GRAPH<vtype, etype>* g; friend class iterator_core_access; }; class edge_iterator : public iterator_facade<edge_iterator, leda::edge, bidirectional_traversal_tag, const leda::edge&, const leda::edge*> { public: edge_iterator(leda::edge edge = 0, const leda::GRAPH<vtype, etype>* g = 0) : base(edge), g(g) {} private: const leda::edge& dereference() const { return base; } bool equal(const edge_iterator& other) const { return base == other.base; } void increment() { base = g->succ_edge(base); } void decrement() { base = g->pred_edge(base); } leda::node base; const leda::GRAPH<vtype, etype>* g; friend class iterator_core_access; }; typedef directed_tag directed_category; typedef allow_parallel_edge_tag edge_parallel_category; // not sure here typedef leda_graph_traversal_category traversal_category; typedef int vertices_size_type; typedef int edges_size_type; typedef int degree_size_type; }; template<> struct graph_traits<leda::graph> { typedef leda::node vertex_descriptor; typedef leda::edge edge_descriptor; class adjacency_iterator : public iterator_facade<adjacency_iterator, leda::node, bidirectional_traversal_tag, leda::node, const leda::node*> { public: adjacency_iterator(leda::edge edge = 0, const leda::graph* g = 0) : base(edge), g(g) {} private: leda::node dereference() const { return leda::target(base); } bool equal(const adjacency_iterator& other) const { return base == other.base; } void increment() { base = g->adj_succ(base); } void decrement() { base = g->adj_pred(base); } leda::edge base; const leda::graph* g; friend class iterator_core_access; }; class out_edge_iterator : public iterator_facade<out_edge_iterator, leda::edge, bidirectional_traversal_tag, const leda::edge&, const leda::edge*> { public: out_edge_iterator(leda::edge edge = 0, const leda::graph* g = 0) : base(edge), g(g) {} private: const leda::edge& dereference() const { return base; } bool equal(const out_edge_iterator& other) const { return base == other.base; } void increment() { base = g->adj_succ(base); } void decrement() { base = g->adj_pred(base); } leda::edge base; const leda::graph* g; friend class iterator_core_access; }; class in_edge_iterator : public iterator_facade<in_edge_iterator, leda::edge, bidirectional_traversal_tag, const leda::edge&, const leda::edge*> { public: in_edge_iterator(leda::edge edge = 0, const leda::graph* g = 0) : base(edge), g(g) {} private: const leda::edge& dereference() const { return base; } bool equal(const in_edge_iterator& other) const { return base == other.base; } void increment() { base = g->in_succ(base); } void decrement() { base = g->in_pred(base); } leda::edge base; const leda::graph* g; friend class iterator_core_access; }; class vertex_iterator : public iterator_facade<vertex_iterator, leda::node, bidirectional_traversal_tag, const leda::node&, const leda::node*> { public: vertex_iterator(leda::node node = 0, const leda::graph* g = 0) : base(node), g(g) {} private: const leda::node& dereference() const { return base; } bool equal(const vertex_iterator& other) const { return base == other.base; } void increment() { base = g->succ_node(base); } void decrement() { base = g->pred_node(base); } leda::node base; const leda::graph* g; friend class iterator_core_access; }; class edge_iterator : public iterator_facade<edge_iterator, leda::edge, bidirectional_traversal_tag, const leda::edge&, const leda::edge*> { public: edge_iterator(leda::edge edge = 0, const leda::graph* g = 0) : base(edge), g(g) {} private: const leda::edge& dereference() const { return base; } bool equal(const edge_iterator& other) const { return base == other.base; } void increment() { base = g->succ_edge(base); } void decrement() { base = g->pred_edge(base); } leda::edge base; const leda::graph* g; friend class iterator_core_access; }; typedef directed_tag directed_category; typedef allow_parallel_edge_tag edge_parallel_category; // not sure here typedef leda_graph_traversal_category traversal_category; typedef int vertices_size_type; typedef int edges_size_type; typedef int degree_size_type; }; } // namespace boost #endif namespace boost { //=========================================================================== // functions for GRAPH<vtype,etype> template <class vtype, class etype> typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor source(typename graph_traits< leda::GRAPH<vtype,etype> >::edge_descriptor e, const leda::GRAPH<vtype,etype>& g) { return source(e); } template <class vtype, class etype> typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor target(typename graph_traits< leda::GRAPH<vtype,etype> >::edge_descriptor e, const leda::GRAPH<vtype,etype>& g) { return target(e); } template <class vtype, class etype> inline std::pair< typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_iterator, typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_iterator > vertices(const leda::GRAPH<vtype,etype>& g) { typedef typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_iterator Iter; return std::make_pair( Iter(g.first_node(),&g), Iter(0,&g) ); } template <class vtype, class etype> inline std::pair< typename graph_traits< leda::GRAPH<vtype,etype> >::edge_iterator, typename graph_traits< leda::GRAPH<vtype,etype> >::edge_iterator > edges(const leda::GRAPH<vtype,etype>& g) { typedef typename graph_traits< leda::GRAPH<vtype,etype> >::edge_iterator Iter; return std::make_pair( Iter(g.first_edge(),&g), Iter(0,&g) ); } template <class vtype, class etype> inline std::pair< typename graph_traits< leda::GRAPH<vtype,etype> >::out_edge_iterator, typename graph_traits< leda::GRAPH<vtype,etype> >::out_edge_iterator > out_edges( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, const leda::GRAPH<vtype,etype>& g) { typedef typename graph_traits< leda::GRAPH<vtype,etype> > ::out_edge_iterator Iter; return std::make_pair( Iter(g.first_adj_edge(u,0),&g), Iter(0,&g) ); } template <class vtype, class etype> inline std::pair< typename graph_traits< leda::GRAPH<vtype,etype> >::in_edge_iterator, typename graph_traits< leda::GRAPH<vtype,etype> >::in_edge_iterator > in_edges( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, const leda::GRAPH<vtype,etype>& g) { typedef typename graph_traits< leda::GRAPH<vtype,etype> > ::in_edge_iterator Iter; return std::make_pair( Iter(g.first_adj_edge(u,1),&g), Iter(0,&g) ); } template <class vtype, class etype> inline std::pair< typename graph_traits< leda::GRAPH<vtype,etype> >::adjacency_iterator, typename graph_traits< leda::GRAPH<vtype,etype> >::adjacency_iterator > adjacent_vertices( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, const leda::GRAPH<vtype,etype>& g) { typedef typename graph_traits< leda::GRAPH<vtype,etype> > ::adjacency_iterator Iter; return std::make_pair( Iter(g.first_adj_edge(u,0),&g), Iter(0,&g) ); } template <class vtype, class etype> typename graph_traits< leda::GRAPH<vtype,etype> >::vertices_size_type num_vertices(const leda::GRAPH<vtype,etype>& g) { return g.number_of_nodes(); } template <class vtype, class etype> typename graph_traits< leda::GRAPH<vtype,etype> >::edges_size_type num_edges(const leda::GRAPH<vtype,etype>& g) { return g.number_of_edges(); } template <class vtype, class etype> typename graph_traits< leda::GRAPH<vtype,etype> >::degree_size_type out_degree( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, const leda::GRAPH<vtype,etype>& g) { return g.outdeg(u); } template <class vtype, class etype> typename graph_traits< leda::GRAPH<vtype,etype> >::degree_size_type in_degree( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, const leda::GRAPH<vtype,etype>& g) { return g.indeg(u); } template <class vtype, class etype> typename graph_traits< leda::GRAPH<vtype,etype> >::degree_size_type degree( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, const leda::GRAPH<vtype,etype>& g) { return g.outdeg(u) + g.indeg(u); } template <class vtype, class etype> typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor add_vertex(leda::GRAPH<vtype,etype>& g) { return g.new_node(); } template <class vtype, class etype> typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor add_vertex(const vtype& vp, leda::GRAPH<vtype,etype>& g) { return g.new_node(vp); } template <class vtype, class etype> std::pair< typename graph_traits< leda::GRAPH<vtype,etype> >::edge_descriptor, bool> add_edge( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor v, leda::GRAPH<vtype,etype>& g) { return std::make_pair(g.new_edge(u, v), true); } template <class vtype, class etype> std::pair< typename graph_traits< leda::GRAPH<vtype,etype> >::edge_descriptor, bool> add_edge( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor v, const etype& et, leda::GRAPH<vtype,etype>& g) { return std::make_pair(g.new_edge(u, v, et), true); } template <class vtype, class etype> void remove_edge( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor v, leda::GRAPH<vtype,etype>& g) { typename graph_traits< leda::GRAPH<vtype,etype> >::out_edge_iterator i,iend; for (boost::tie(i,iend) = out_edges(u,g); i != iend; ++i) if (target(*i,g) == v) g.del_edge(*i); } template <class vtype, class etype> void remove_edge( typename graph_traits< leda::GRAPH<vtype,etype> >::edge_descriptor e, leda::GRAPH<vtype,etype>& g) { g.del_edge(e); } template <class vtype, class etype> void clear_vertex( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, leda::GRAPH<vtype,etype>& g) { typename graph_traits< leda::GRAPH<vtype,etype> >::out_edge_iterator ei, ei_end; for (tie(ei, ei_end)=out_edges(u,g); ei!=ei_end; ei++) remove_edge(*ei); typename graph_traits< leda::GRAPH<vtype,etype> >::in_edge_iterator iei, iei_end; for (tie(iei, iei_end)=in_edges(u,g); iei!=iei_end; iei++) remove_edge(*iei, g); } template <class vtype, class etype> void remove_vertex( typename graph_traits< leda::GRAPH<vtype,etype> >::vertex_descriptor u, leda::GRAPH<vtype,etype>& g) { g.del_node(u); } //=========================================================================== // functions for graph (non-templated version) graph_traits<leda::graph>::vertex_descriptor source(graph_traits<leda::graph>::edge_descriptor e, const leda::graph& g) { return source(e); } graph_traits<leda::graph>::vertex_descriptor target(graph_traits<leda::graph>::edge_descriptor e, const leda::graph& g) { return target(e); } inline std::pair< graph_traits<leda::graph>::vertex_iterator, graph_traits<leda::graph>::vertex_iterator > vertices(const leda::graph& g) { typedef graph_traits<leda::graph>::vertex_iterator Iter; return std::make_pair( Iter(g.first_node(),&g), Iter(0,&g) ); } inline std::pair< graph_traits<leda::graph>::edge_iterator, graph_traits<leda::graph>::edge_iterator > edges(const leda::graph& g) { typedef graph_traits<leda::graph>::edge_iterator Iter; return std::make_pair( Iter(g.first_edge(),&g), Iter(0,&g) ); } inline std::pair< graph_traits<leda::graph>::out_edge_iterator, graph_traits<leda::graph>::out_edge_iterator > out_edges( graph_traits<leda::graph>::vertex_descriptor u, const leda::graph& g) { typedef graph_traits<leda::graph>::out_edge_iterator Iter; return std::make_pair( Iter(g.first_adj_edge(u),&g), Iter(0,&g) ); } inline std::pair< graph_traits<leda::graph>::in_edge_iterator, graph_traits<leda::graph>::in_edge_iterator > in_edges( graph_traits<leda::graph>::vertex_descriptor u, const leda::graph& g) { typedef graph_traits<leda::graph> ::in_edge_iterator Iter; return std::make_pair( Iter(g.first_in_edge(u),&g), Iter(0,&g) ); } inline std::pair< graph_traits<leda::graph>::adjacency_iterator, graph_traits<leda::graph>::adjacency_iterator > adjacent_vertices( graph_traits<leda::graph>::vertex_descriptor u, const leda::graph& g) { typedef graph_traits<leda::graph> ::adjacency_iterator Iter; return std::make_pair( Iter(g.first_adj_edge(u),&g), Iter(0,&g) ); } graph_traits<leda::graph>::vertices_size_type num_vertices(const leda::graph& g) { return g.number_of_nodes(); } graph_traits<leda::graph>::edges_size_type num_edges(const leda::graph& g) { return g.number_of_edges(); } graph_traits<leda::graph>::degree_size_type out_degree( graph_traits<leda::graph>::vertex_descriptor u, const leda::graph& g) { return g.outdeg(u); } graph_traits<leda::graph>::degree_size_type in_degree( graph_traits<leda::graph>::vertex_descriptor u, const leda::graph& g) { return g.indeg(u); } graph_traits<leda::graph>::degree_size_type degree( graph_traits<leda::graph>::vertex_descriptor u, const leda::graph& g) { return g.outdeg(u) + g.indeg(u); } graph_traits<leda::graph>::vertex_descriptor add_vertex(leda::graph& g) { return g.new_node(); } void remove_edge( graph_traits<leda::graph>::vertex_descriptor u, graph_traits<leda::graph>::vertex_descriptor v, leda::graph& g) { graph_traits<leda::graph>::out_edge_iterator i,iend; for (boost::tie(i,iend) = out_edges(u,g); i != iend; ++i) if (target(*i,g) == v) g.del_edge(*i); } void remove_edge( graph_traits<leda::graph>::edge_descriptor e, leda::graph& g) { g.del_edge(e); } void clear_vertex( graph_traits<leda::graph>::vertex_descriptor u, leda::graph& g) { graph_traits<leda::graph>::out_edge_iterator ei, ei_end; for (tie(ei, ei_end)=out_edges(u,g); ei!=ei_end; ei++) remove_edge(*ei, g); graph_traits<leda::graph>::in_edge_iterator iei, iei_end; for (tie(iei, iei_end)=in_edges(u,g); iei!=iei_end; iei++) remove_edge(*iei, g); } void remove_vertex( graph_traits<leda::graph>::vertex_descriptor u, leda::graph& g) { g.del_node(u); } std::pair< graph_traits<leda::graph>::edge_descriptor, bool> add_edge( graph_traits<leda::graph>::vertex_descriptor u, graph_traits<leda::graph>::vertex_descriptor v, leda::graph& g) { return std::make_pair(g.new_edge(u, v), true); } //=========================================================================== // property maps for GRAPH<vtype,etype> class leda_graph_id_map : public put_get_helper<int, leda_graph_id_map> { public: typedef readable_property_map_tag category; typedef int value_type; typedef int reference; typedef leda::node key_type; leda_graph_id_map() { } template <class T> long operator[](T x) const { return x->id(); } }; template <class vtype, class etype> inline leda_graph_id_map get(vertex_index_t, const leda::GRAPH<vtype, etype>& g) { return leda_graph_id_map(); } template <class vtype, class etype> inline leda_graph_id_map get(edge_index_t, const leda::GRAPH<vtype, etype>& g) { return leda_graph_id_map(); } template <class Tag> struct leda_property_map { }; template <> struct leda_property_map<vertex_index_t> { template <class vtype, class etype> struct bind_ { typedef leda_graph_id_map type; typedef leda_graph_id_map const_type; }; }; template <> struct leda_property_map<edge_index_t> { template <class vtype, class etype> struct bind_ { typedef leda_graph_id_map type; typedef leda_graph_id_map const_type; }; }; template <class Data, class DataRef, class GraphPtr> class leda_graph_data_map : public put_get_helper<DataRef, leda_graph_data_map<Data,DataRef,GraphPtr> > { public: typedef Data value_type; typedef DataRef reference; typedef void key_type; typedef lvalue_property_map_tag category; leda_graph_data_map(GraphPtr g) : m_g(g) { } template <class NodeOrEdge> DataRef operator[](NodeOrEdge x) const { return (*m_g)[x]; } protected: GraphPtr m_g; }; template <> struct leda_property_map<vertex_all_t> { template <class vtype, class etype> struct bind_ { typedef leda_graph_data_map<vtype, vtype&, leda::GRAPH<vtype, etype>*> type; typedef leda_graph_data_map<vtype, const vtype&, const leda::GRAPH<vtype, etype>*> const_type; }; }; template <class vtype, class etype > inline typename property_map< leda::GRAPH<vtype, etype>, vertex_all_t>::type get(vertex_all_t, leda::GRAPH<vtype, etype>& g) { typedef typename property_map< leda::GRAPH<vtype, etype>, vertex_all_t>::type pmap_type; return pmap_type(&g); } template <class vtype, class etype > inline typename property_map< leda::GRAPH<vtype, etype>, vertex_all_t>::const_type get(vertex_all_t, const leda::GRAPH<vtype, etype>& g) { typedef typename property_map< leda::GRAPH<vtype, etype>, vertex_all_t>::const_type pmap_type; return pmap_type(&g); } template <> struct leda_property_map<edge_all_t> { template <class vtype, class etype> struct bind_ { typedef leda_graph_data_map<etype, etype&, leda::GRAPH<vtype, etype>*> type; typedef leda_graph_data_map<etype, const etype&, const leda::GRAPH<vtype, etype>*> const_type; }; }; template <class vtype, class etype > inline typename property_map< leda::GRAPH<vtype, etype>, edge_all_t>::type get(edge_all_t, leda::GRAPH<vtype, etype>& g) { typedef typename property_map< leda::GRAPH<vtype, etype>, edge_all_t>::type pmap_type; return pmap_type(&g); } template <class vtype, class etype > inline typename property_map< leda::GRAPH<vtype, etype>, edge_all_t>::const_type get(edge_all_t, const leda::GRAPH<vtype, etype>& g) { typedef typename property_map< leda::GRAPH<vtype, etype>, edge_all_t>::const_type pmap_type; return pmap_type(&g); } // property map interface to the LEDA node_array class template <class E, class ERef, class NodeMapPtr> class leda_node_property_map : public put_get_helper<ERef, leda_node_property_map<E, ERef, NodeMapPtr> > { public: typedef E value_type; typedef ERef reference; typedef leda::node key_type; typedef lvalue_property_map_tag category; leda_node_property_map(NodeMapPtr a) : m_array(a) { } ERef operator[](leda::node n) const { return (*m_array)[n]; } protected: NodeMapPtr m_array; }; template <class E> leda_node_property_map<E, const E&, const leda::node_array<E>*> make_leda_node_property_map(const leda::node_array<E>& a) { typedef leda_node_property_map<E, const E&, const leda::node_array<E>*> pmap_type; return pmap_type(&a); } template <class E> leda_node_property_map<E, E&, leda::node_array<E>*> make_leda_node_property_map(leda::node_array<E>& a) { typedef leda_node_property_map<E, E&, leda::node_array<E>*> pmap_type; return pmap_type(&a); } template <class E> leda_node_property_map<E, const E&, const leda::node_map<E>*> make_leda_node_property_map(const leda::node_map<E>& a) { typedef leda_node_property_map<E,const E&,const leda::node_map<E>*> pmap_type; return pmap_type(&a); } template <class E> leda_node_property_map<E, E&, leda::node_map<E>*> make_leda_node_property_map(leda::node_map<E>& a) { typedef leda_node_property_map<E, E&, leda::node_map<E>*> pmap_type; return pmap_type(&a); } // g++ 'enumeral_type' in template unification not implemented workaround template <class vtype, class etype, class Tag> struct property_map<leda::GRAPH<vtype, etype>, Tag> { typedef typename leda_property_map<Tag>::template bind_<vtype, etype> map_gen; typedef typename map_gen::type type; typedef typename map_gen::const_type const_type; }; template <class vtype, class etype, class PropertyTag, class Key> inline typename boost::property_traits< typename boost::property_map<leda::GRAPH<vtype, etype>,PropertyTag>::const_type
::value_type get(PropertyTag p, const leda::GRAPH<vtype, etype>& g, const Key& key) { return get(get(p, g), key); }
template <class vtype, class etype, class PropertyTag, class Key,class Value> inline void put(PropertyTag p, leda::GRAPH<vtype, etype>& g, const Key& key, const Value& value) { typedef typename property_map<leda::GRAPH<vtype, etype>, PropertyTag>::type Map; Map pmap = get(p, g); put(pmap, key, value); } // property map interface to the LEDA edge_array class template <class E, class ERef, class EdgeMapPtr> class leda_edge_property_map : public put_get_helper<ERef, leda_edge_property_map<E, ERef, EdgeMapPtr> > { public: typedef E value_type; typedef ERef reference; typedef leda::edge key_type; typedef lvalue_property_map_tag category; leda_edge_property_map(EdgeMapPtr a) : m_array(a) { } ERef operator[](leda::edge n) const { return (*m_array)[n]; } protected: EdgeMapPtr m_array; }; template <class E> leda_edge_property_map<E, const E&, const leda::edge_array<E>*> make_leda_node_property_map(const leda::node_array<E>& a) { typedef leda_edge_property_map<E, const E&, const leda::node_array<E>*> pmap_type; return pmap_type(&a); } template <class E> leda_edge_property_map<E, E&, leda::edge_array<E>*> make_leda_edge_property_map(leda::edge_array<E>& a) { typedef leda_edge_property_map<E, E&, leda::edge_array<E>*> pmap_type; return pmap_type(&a); } template <class E> leda_edge_property_map<E, const E&, const leda::edge_map<E>*> make_leda_edge_property_map(const leda::edge_map<E>& a) { typedef leda_edge_property_map<E,const E&,const leda::edge_map<E>*> pmap_type; return pmap_type(&a); } template <class E> leda_edge_property_map<E, E&, leda::edge_map<E>*> make_leda_edge_property_map(leda::edge_map<E>& a) { typedef leda_edge_property_map<E, E&, leda::edge_map<E>*> pmap_type; return pmap_type(&a); } } // namespace boost #endif // BOOST_GRAPH_LEDA_HPP