boost/graph/detail/indexed_properties.hpp
// Copyright 2005 The Trustees of Indiana University. // 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) // Authors: Jeremiah Willcock // Douglas Gregor // Andrew Lumsdaine // Indexed properties -- used for CSR and CSR-like graphs #ifndef BOOST_GRAPH_INDEXED_PROPERTIES_HPP #define BOOST_GRAPH_INDEXED_PROPERTIES_HPP #include <vector> #include <utility> #include <algorithm> #include <climits> #include <iterator> #include <boost/graph/graph_traits.hpp> #include <boost/graph/properties.hpp> #include <boost/iterator/counting_iterator.hpp> #include <boost/integer.hpp> #include <boost/iterator/iterator_facade.hpp> #include <boost/property_map/property_map.hpp> #include <boost/mpl/if.hpp> namespace boost { namespace detail { template<typename Derived, typename Property, typename Descriptor, typename IndexMap> class indexed_vertex_properties { public: typedef no_property vertex_property_type; typedef Property vertex_bundled; typedef iterator_property_map< typename std::vector<Property>::iterator, IndexMap> vertex_map_type; typedef iterator_property_map< typename std::vector<Property>::const_iterator, IndexMap> const_vertex_map_type; // Directly access a vertex or edge bundle Property& operator[](Descriptor v) { return m_vertex_properties[get(vertex_index, derived(), v)]; } const Property& operator[](Descriptor v) const { return m_vertex_properties[get(vertex_index, derived(), v)]; } vertex_map_type get_vertex_bundle(const IndexMap& index_map = IndexMap()) { return vertex_map_type(m_vertex_properties.begin(), index_map); } const_vertex_map_type get_vertex_bundle(const IndexMap& index_map = IndexMap()) const { return const_vertex_map_type(m_vertex_properties.begin(), index_map); } protected: // Default-construct with no property values indexed_vertex_properties() {} // Initialize with n default-constructed property values indexed_vertex_properties(std::size_t n) : m_vertex_properties(n) { } public: // Clear the properties vector void clear() { m_vertex_properties.clear(); } // Resize the properties vector void resize(std::size_t n) { m_vertex_properties.resize(n); } // Reserve space in the vector of properties void reserve(std::size_t n) { m_vertex_properties.reserve(n); } // Add a new property value to the back void push_back(const Property& prop) { m_vertex_properties.push_back(prop); } // Write an element by raw index void write_by_index(std::size_t idx, const Property& prop) { m_vertex_properties[idx] = prop; } // Access to the derived object Derived& derived() { return *static_cast<Derived*>(this); } const Derived& derived() const { return *static_cast<const Derived*>(this); } public: // should be private, but friend templates not portable std::vector<Property> m_vertex_properties; }; template<typename Derived, typename Descriptor, typename IndexMap> class indexed_vertex_properties<Derived, void, Descriptor, IndexMap> { struct secret {}; public: typedef no_property vertex_property_type; typedef void vertex_bundled; typedef secret vertex_map_type; typedef secret const_vertex_map_type; secret operator[](secret) { return secret(); } vertex_map_type get_vertex_bundle() const { return vertex_map_type(); } protected: // All operations do nothing. indexed_vertex_properties() { } indexed_vertex_properties(std::size_t) { } public: void clear() { } void resize(std::size_t) { } void reserve(std::size_t) { } }; template<typename Derived, typename Property, typename Descriptor, typename IndexMap> class indexed_edge_properties { public: typedef no_property edge_property_type; typedef Property edge_bundled; typedef Property edge_push_back_type; typedef iterator_property_map< typename std::vector<Property>::iterator, IndexMap> edge_map_type; typedef iterator_property_map< typename std::vector<Property>::const_iterator, IndexMap> const_edge_map_type; // Directly access a edge or edge bundle Property& operator[](Descriptor v) { return m_edge_properties[get(edge_index, derived(), v)]; } const Property& operator[](Descriptor v) const { return m_edge_properties[get(edge_index, derived(), v)]; } edge_map_type get_edge_bundle(const IndexMap& index_map = IndexMap()) { return edge_map_type(m_edge_properties.begin(), index_map); } const_edge_map_type get_edge_bundle(const IndexMap& index_map = IndexMap()) const { return const_edge_map_type(m_edge_properties.begin(), index_map); } protected: // Default-construct with no property values indexed_edge_properties() {} // Initialize with n default-constructed property values indexed_edge_properties(std::size_t n) : m_edge_properties(n) { } // Get the size of the properties vector std::size_t size() const { return m_edge_properties.size(); } // Clear the properties vector void clear() { m_edge_properties.clear(); } // Resize the properties vector void resize(std::size_t n) { m_edge_properties.resize(n); } // Reserve space in the vector of properties void reserve(std::size_t n) { m_edge_properties.reserve(n); } // Write an element by raw index void write_by_index(std::size_t idx, const Property& prop) { m_edge_properties[idx] = prop; } public: // Add a new property value to the back void push_back(const Property& prop) { m_edge_properties.push_back(prop); } // Move range of properties backwards void move_range(std::size_t src_begin, std::size_t src_end, std::size_t dest_begin) { std::copy_backward( m_edge_properties.begin() + src_begin, m_edge_properties.begin() + src_end, m_edge_properties.begin() + dest_begin + (src_end - src_begin)); } typedef typename std::vector<Property>::iterator iterator; iterator begin() {return m_edge_properties.begin();} iterator end() {return m_edge_properties.end();} private: // Access to the derived object Derived& derived() { return *static_cast<Derived*>(this); } const Derived& derived() const { return *static_cast<const Derived*>(this); } public: // should be private, but friend templates not portable std::vector<Property> m_edge_properties; }; struct dummy_no_property_iterator : public boost::iterator_facade<dummy_no_property_iterator, no_property, std::random_access_iterator_tag> { mutable no_property prop; no_property& dereference() const {return prop;} bool equal(const dummy_no_property_iterator&) const {return true;} void increment() {} void decrement() {} void advance(std::ptrdiff_t) {} std::ptrdiff_t distance_to(const dummy_no_property_iterator) const {return 0;} }; template<typename Derived, typename Descriptor, typename IndexMap> class indexed_edge_properties<Derived, void, Descriptor, IndexMap> { struct secret {}; public: typedef no_property edge_property_type; typedef void edge_bundled; typedef void* edge_push_back_type; typedef secret edge_map_type; typedef secret const_edge_map_type; secret operator[](secret) { return secret(); } void write_by_index(std::size_t idx, const no_property& prop) {} edge_map_type get_edge_bundle(const IndexMap& = IndexMap()) const { return edge_map_type(); } protected: // All operations do nothing. indexed_edge_properties() { } indexed_edge_properties(std::size_t) { } std::size_t size() const {return 0;} void clear() { } void resize(std::size_t) { } void reserve(std::size_t) { } public: void push_back(const edge_push_back_type&) { } void move_range(std::size_t src_begin, std::size_t src_end, std::size_t dest_begin) {} typedef dummy_no_property_iterator iterator; iterator begin() {return dummy_no_property_iterator();} iterator end() {return dummy_no_property_iterator();} }; } } #endif // BOOST_GRAPH_INDEXED_PROPERTIES_HPP