boost/graph/graph_concepts.hpp
// //======================================================================= // Copyright 1997, 1998, 1999, 2000 University of Notre Dame. // 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) //======================================================================= // #ifndef BOOST_GRAPH_CONCEPTS_HPP #define BOOST_GRAPH_CONCEPTS_HPP #include <boost/config.hpp> #include <boost/graph/graph_traits.hpp> #include <boost/property_map.hpp> #include <boost/graph/properties.hpp> #include <boost/concept_check.hpp> #include <boost/detail/workaround.hpp> #include <boost/concept/detail/concept_def.hpp> namespace boost { // dwa 2003/7/11 -- This clearly shouldn't be necessary, but if // you want to use vector_as_graph, it is! I'm sure the graph // library leaves these out all over the place. Probably a // redesign involving specializing a template with a static // member function is in order :( // // It is needed in order to allow us to write using boost::vertices as // needed for ADL when using vector_as_graph below. #if !defined(BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP) \ && !BOOST_WORKAROUND(__GNUC__, <= 2) \ && !BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564)) # define BOOST_VECTOR_AS_GRAPH_GRAPH_ADL_HACK #endif #ifdef BOOST_VECTOR_AS_GRAPH_GRAPH_ADL_HACK template <class T> typename T::ThereReallyIsNoMemberByThisNameInT vertices(T const&); #endif namespace concepts { BOOST_concept(MultiPassInputIterator,(T)) { BOOST_CONCEPT_USAGE(MultiPassInputIterator) { BOOST_CONCEPT_ASSERT((InputIterator<T>)); } }; BOOST_concept(Graph,(G)) { typedef typename graph_traits<G>::vertex_descriptor vertex_descriptor; typedef typename graph_traits<G>::directed_category directed_category; typedef typename graph_traits<G>::edge_parallel_category edge_parallel_category; typedef typename graph_traits<G>::traversal_category traversal_category; BOOST_CONCEPT_USAGE(Graph) { BOOST_CONCEPT_ASSERT((DefaultConstructible<vertex_descriptor>)); BOOST_CONCEPT_ASSERT((EqualityComparable<vertex_descriptor>)); BOOST_CONCEPT_ASSERT((Assignable<vertex_descriptor>)); } G g; }; BOOST_concept(IncidenceGraph,(G)) : Graph<G> { typedef typename graph_traits<G>::edge_descriptor edge_descriptor; typedef typename graph_traits<G>::out_edge_iterator out_edge_iterator; typedef typename graph_traits<G>::traversal_category traversal_category; BOOST_CONCEPT_USAGE(IncidenceGraph) { BOOST_CONCEPT_ASSERT((MultiPassInputIterator<out_edge_iterator>)); BOOST_CONCEPT_ASSERT((DefaultConstructible<edge_descriptor>)); BOOST_CONCEPT_ASSERT((EqualityComparable<edge_descriptor>)); BOOST_CONCEPT_ASSERT((Assignable<edge_descriptor>)); BOOST_CONCEPT_ASSERT((Convertible<traversal_category, incidence_graph_tag>)); p = out_edges(u, g); n = out_degree(u, g); e = *p.first; u = source(e, g); v = target(e, g); const_constraints(g); } void const_constraints(const G& cg) { p = out_edges(u, cg); n = out_degree(u, cg); e = *p.first; u = source(e, cg); v = target(e, cg); } std::pair<out_edge_iterator, out_edge_iterator> p; typename graph_traits<G>::vertex_descriptor u, v; typename graph_traits<G>::edge_descriptor e; typename graph_traits<G>::degree_size_type n; G g; }; BOOST_concept(BidirectionalGraph,(G)) : IncidenceGraph<G> { typedef typename graph_traits<G>::in_edge_iterator in_edge_iterator; typedef typename graph_traits<G>::traversal_category traversal_category; BOOST_CONCEPT_USAGE(BidirectionalGraph) { BOOST_CONCEPT_ASSERT((MultiPassInputIterator<in_edge_iterator>)); BOOST_CONCEPT_ASSERT((Convertible<traversal_category, bidirectional_graph_tag>)); p = in_edges(v, g); n = in_degree(v, g); e = *p.first; const_constraints(g); } void const_constraints(const G& cg) { p = in_edges(v, cg); n = in_degree(v, cg); e = *p.first; } std::pair<in_edge_iterator, in_edge_iterator> p; typename graph_traits<G>::vertex_descriptor v; typename graph_traits<G>::edge_descriptor e; typename graph_traits<G>::degree_size_type n; G g; }; BOOST_concept(AdjacencyGraph,(G)) : Graph<G> { typedef typename graph_traits<G>::adjacency_iterator adjacency_iterator; typedef typename graph_traits<G>::traversal_category traversal_category; BOOST_CONCEPT_USAGE(AdjacencyGraph) { BOOST_CONCEPT_ASSERT((MultiPassInputIterator<adjacency_iterator>)); BOOST_CONCEPT_ASSERT((Convertible<traversal_category, adjacency_graph_tag>)); p = adjacent_vertices(v, g); v = *p.first; const_constraints(g); } void const_constraints(const G& cg) { p = adjacent_vertices(v, cg); } std::pair<adjacency_iterator,adjacency_iterator> p; typename graph_traits<G>::vertex_descriptor v; G g; }; BOOST_concept(VertexListGraph,(G)) : Graph<G> { typedef typename graph_traits<G>::vertex_iterator vertex_iterator; typedef typename graph_traits<G>::vertices_size_type vertices_size_type; typedef typename graph_traits<G>::traversal_category traversal_category; BOOST_CONCEPT_USAGE(VertexListGraph) { BOOST_CONCEPT_ASSERT((MultiPassInputIterator<vertex_iterator>)); BOOST_CONCEPT_ASSERT((Convertible<traversal_category, vertex_list_graph_tag>)); #ifdef BOOST_VECTOR_AS_GRAPH_GRAPH_ADL_HACK // dwa 2003/7/11 -- This clearly shouldn't be necessary, but if // you want to use vector_as_graph, it is! I'm sure the graph // library leaves these out all over the place. Probably a // redesign involving specializing a template with a static // member function is in order :( using boost::vertices; #endif p = vertices(g); v = *p.first; const_constraints(g); } void const_constraints(const G& cg) { #ifdef BOOST_VECTOR_AS_GRAPH_GRAPH_ADL_HACK // dwa 2003/7/11 -- This clearly shouldn't be necessary, but if // you want to use vector_as_graph, it is! I'm sure the graph // library leaves these out all over the place. Probably a // redesign involving specializing a template with a static // member function is in order :( using boost::vertices; #endif p = vertices(cg); v = *p.first; V = num_vertices(cg); } std::pair<vertex_iterator,vertex_iterator> p; typename graph_traits<G>::vertex_descriptor v; G g; vertices_size_type V; }; BOOST_concept(EdgeListGraph,(G)) : Graph<G> { typedef typename graph_traits<G>::edge_descriptor edge_descriptor; typedef typename graph_traits<G>::edge_iterator edge_iterator; typedef typename graph_traits<G>::edges_size_type edges_size_type; typedef typename graph_traits<G>::traversal_category traversal_category; BOOST_CONCEPT_USAGE(EdgeListGraph) { BOOST_CONCEPT_ASSERT((MultiPassInputIterator<edge_iterator>)); BOOST_CONCEPT_ASSERT((DefaultConstructible<edge_descriptor>)); BOOST_CONCEPT_ASSERT((EqualityComparable<edge_descriptor>)); BOOST_CONCEPT_ASSERT((Assignable<edge_descriptor>)); BOOST_CONCEPT_ASSERT((Convertible<traversal_category, edge_list_graph_tag>)); p = edges(g); e = *p.first; u = source(e, g); v = target(e, g); const_constraints(g); } void const_constraints(const G& cg) { p = edges(cg); E = num_edges(cg); e = *p.first; u = source(e, cg); v = target(e, cg); } std::pair<edge_iterator,edge_iterator> p; typename graph_traits<G>::vertex_descriptor u, v; typename graph_traits<G>::edge_descriptor e; edges_size_type E; G g; }; BOOST_concept(VertexAndEdgeListGraph,(G)) : VertexListGraph<G> , EdgeListGraph<G> { }; // Where to put the requirement for this constructor? // G g(n_vertices); // Not in mutable graph, then LEDA graph's can't be models of // MutableGraph. BOOST_concept(EdgeMutableGraph,(G)) { typedef typename graph_traits<G>::edge_descriptor edge_descriptor; BOOST_CONCEPT_USAGE(EdgeMutableGraph) { p = add_edge(u, v, g); remove_edge(u, v, g); remove_edge(e, g); clear_vertex(v, g); } G g; edge_descriptor e; std::pair<edge_descriptor, bool> p; typename graph_traits<G>::vertex_descriptor u, v; }; BOOST_concept(VertexMutableGraph,(G)) { BOOST_CONCEPT_USAGE(VertexMutableGraph) { v = add_vertex(g); remove_vertex(v, g); } G g; typename graph_traits<G>::vertex_descriptor u, v; }; BOOST_concept(MutableGraph,(G)) : EdgeMutableGraph<G> , VertexMutableGraph<G> { }; template <class edge_descriptor> struct dummy_edge_predicate { bool operator()(const edge_descriptor&) const { return false; } }; BOOST_concept(MutableIncidenceGraph,(G)) : MutableGraph<G> { BOOST_CONCEPT_USAGE(MutableIncidenceGraph) { remove_edge(iter, g); remove_out_edge_if(u, p, g); } G g; typedef typename graph_traits<G>::edge_descriptor edge_descriptor; dummy_edge_predicate<edge_descriptor> p; typename boost::graph_traits<G>::vertex_descriptor u; typename boost::graph_traits<G>::out_edge_iterator iter; }; BOOST_concept(MutableBidirectionalGraph,(G)) : MutableIncidenceGraph<G> { BOOST_CONCEPT_USAGE(MutableBidirectionalGraph) { remove_in_edge_if(u, p, g); } G g; typedef typename graph_traits<G>::edge_descriptor edge_descriptor; dummy_edge_predicate<edge_descriptor> p; typename boost::graph_traits<G>::vertex_descriptor u; }; BOOST_concept(MutableEdgeListGraph,(G)) : EdgeMutableGraph<G> { BOOST_CONCEPT_USAGE(MutableEdgeListGraph) { remove_edge_if(p, g); } G g; typedef typename graph_traits<G>::edge_descriptor edge_descriptor; dummy_edge_predicate<edge_descriptor> p; }; BOOST_concept(VertexMutablePropertyGraph,(G)) : VertexMutableGraph<G> { BOOST_CONCEPT_USAGE(VertexMutablePropertyGraph) { v = add_vertex(vp, g); } G g; typename graph_traits<G>::vertex_descriptor v; typename vertex_property<G>::type vp; }; BOOST_concept(EdgeMutablePropertyGraph,(G)) : EdgeMutableGraph<G> { typedef typename graph_traits<G>::edge_descriptor edge_descriptor; BOOST_CONCEPT_USAGE(EdgeMutablePropertyGraph) { p = add_edge(u, v, ep, g); } G g; std::pair<edge_descriptor, bool> p; typename graph_traits<G>::vertex_descriptor u, v; typename edge_property<G>::type ep; }; BOOST_concept(AdjacencyMatrix,(G)) : Graph<G> { typedef typename graph_traits<G>::edge_descriptor edge_descriptor; BOOST_CONCEPT_USAGE(AdjacencyMatrix) { p = edge(u, v, g); const_constraints(g); } void const_constraints(const G& cg) { p = edge(u, v, cg); } typename graph_traits<G>::vertex_descriptor u, v; std::pair<edge_descriptor, bool> p; G g; }; BOOST_concept(ReadablePropertyGraph,(G)(X)(Property)) : Graph<G> { typedef typename property_map<G, Property>::const_type const_Map; BOOST_CONCEPT_USAGE(ReadablePropertyGraph) { BOOST_CONCEPT_ASSERT((ReadablePropertyMapConcept<const_Map, X>)); const_constraints(g); } void const_constraints(const G& cg) { const_Map pmap = get(Property(), cg); pval = get(Property(), cg, x); ignore_unused_variable_warning(pmap); } G g; X x; typename property_traits<const_Map>::value_type pval; }; BOOST_concept(PropertyGraph,(G)(X)(Property)) : ReadablePropertyGraph<G, X, Property> { typedef typename property_map<G, Property>::type Map; BOOST_CONCEPT_USAGE(PropertyGraph) { BOOST_CONCEPT_ASSERT((ReadWritePropertyMapConcept<Map, X>)); Map pmap = get(Property(), g); pval = get(Property(), g, x); put(Property(), g, x, pval); ignore_unused_variable_warning(pmap); } G g; X x; typename property_traits<Map>::value_type pval; }; BOOST_concept(LvaluePropertyGraph,(G)(X)(Property)) : ReadablePropertyGraph<G, X, Property> { typedef typename property_map<G, Property>::type Map; typedef typename property_map<G, Property>::const_type const_Map; BOOST_CONCEPT_USAGE(LvaluePropertyGraph) { BOOST_CONCEPT_ASSERT((LvaluePropertyMapConcept<const_Map, X>)); pval = get(Property(), g, x); put(Property(), g, x, pval); } G g; X x; typename property_traits<Map>::value_type pval; }; // This needs to move out of the graph library BOOST_concept(Buffer,(B)) { BOOST_CONCEPT_USAGE(Buffer) { b.push(t); b.pop(); typename B::value_type& v = b.top(); const_constraints(b); ignore_unused_variable_warning(v); } void const_constraints(const B& cb) { const typename B::value_type& v = cb.top(); n = cb.size(); bool e = cb.empty(); ignore_unused_variable_warning(v); ignore_unused_variable_warning(e); } typename B::size_type n; typename B::value_type t; B b; }; BOOST_concept(ColorValue,(C)) : EqualityComparable<C> , DefaultConstructible<C> { BOOST_CONCEPT_USAGE(ColorValue) { c = color_traits<C>::white(); c = color_traits<C>::gray(); c = color_traits<C>::black(); } C c; }; BOOST_concept(BasicMatrix,(M)(I)(V)) { BOOST_CONCEPT_USAGE(BasicMatrix) { V& elt = A[i][j]; const_constraints(A); ignore_unused_variable_warning(elt); } void const_constraints(const M& cA) { const V& elt = cA[i][j]; ignore_unused_variable_warning(elt); } M A; I i, j; }; } // end namespace concepts using boost::concepts::MultiPassInputIteratorConcept; using boost::concepts::GraphConcept; using boost::concepts::IncidenceGraphConcept; using boost::concepts::BidirectionalGraphConcept; using boost::concepts::AdjacencyGraphConcept; using boost::concepts::VertexListGraphConcept; using boost::concepts::EdgeListGraphConcept; using boost::concepts::VertexAndEdgeListGraphConcept; using boost::concepts::EdgeMutableGraphConcept; using boost::concepts::VertexMutableGraphConcept; using boost::concepts::MutableGraphConcept; using boost::concepts::MutableIncidenceGraphConcept; using boost::concepts::MutableBidirectionalGraphConcept; using boost::concepts::MutableEdgeListGraphConcept; using boost::concepts::VertexMutablePropertyGraphConcept; using boost::concepts::EdgeMutablePropertyGraphConcept; using boost::concepts::AdjacencyMatrixConcept; using boost::concepts::ReadablePropertyGraphConcept; using boost::concepts::PropertyGraphConcept; using boost::concepts::LvaluePropertyGraphConcept; using boost::concepts::BufferConcept; using boost::concepts::ColorValueConcept; using boost::concepts::BasicMatrixConcept; } // namespace boost #include <boost/concept/detail/concept_undef.hpp> #endif /* BOOST_GRAPH_CONCEPTS_H */