boost/property_map/vector_property_map.hpp
// Copyright (C) Vladimir Prus 2003. // 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) // // See http://www.boost.org/libs/graph/vector_property_map.html for // documentation. // #ifndef VECTOR_PROPERTY_MAP_HPP_VP_2003_03_04 #define VECTOR_PROPERTY_MAP_HPP_VP_2003_03_04 #include <boost/property_map/property_map.hpp> #include <boost/shared_ptr.hpp> #include <vector> namespace boost { template<typename T, typename IndexMap = identity_property_map> class vector_property_map : public boost::put_get_helper< typename std::iterator_traits< typename std::vector<T>::iterator >::reference, vector_property_map<T, IndexMap> > { public: typedef typename property_traits<IndexMap>::key_type key_type; typedef T value_type; typedef typename std::iterator_traits< typename std::vector<T>::iterator >::reference reference; typedef boost::lvalue_property_map_tag category; vector_property_map(const IndexMap& index = IndexMap()) : store(new std::vector<T>()), index(index) {} vector_property_map(unsigned initial_size, const IndexMap& index = IndexMap()) : store(new std::vector<T>(initial_size)), index(index) {} typename std::vector<T>::iterator storage_begin() { return store->begin(); } typename std::vector<T>::iterator storage_end() { return store->end(); } typename std::vector<T>::const_iterator storage_begin() const { return store->begin(); } typename std::vector<T>::const_iterator storage_end() const { return store->end(); } IndexMap& get_index_map() { return index; } const IndexMap& get_index_map() const { return index; } public: // Copy ctor absent, default semantics is OK. // Assignment operator absent, default semantics is OK. // CONSIDER: not sure that assignment to 'index' is correct. reference operator[](const key_type& v) const { typename property_traits<IndexMap>::value_type i = get(index, v); if (static_cast<unsigned>(i) >= store->size()) { store->resize(i + 1, T()); } return (*store)[i]; } private: // Conceptually, we have a vector of infinite size. For practical // purposes, we start with an empty vector and grow it as needed. // Note that we cannot store pointer to vector here -- we cannot // store pointer to data, because if copy of property map resizes // the vector, the pointer to data will be invalidated. // I wonder if class 'pmap_ref' is simply needed. shared_ptr< std::vector<T> > store; IndexMap index; }; template<typename T, typename IndexMap> vector_property_map<T, IndexMap> make_vector_property_map(IndexMap index) { return vector_property_map<T, IndexMap>(index); } } #ifdef BOOST_GRAPH_USE_MPI #include <boost/property_map/parallel/distributed_property_map.hpp> #include <boost/property_map/parallel/local_property_map.hpp> namespace boost { /** Distributed vector property map. * * This specialization of @ref vector_property_map builds a * distributed vector property map given the local index maps * generated by distributed graph types that automatically have index * properties. * * This specialization is useful when creating external distributed * property maps via the same syntax used to create external * sequential property maps. */ template<typename T, typename ProcessGroup, typename GlobalMap, typename StorageMap> class vector_property_map<T, local_property_map<ProcessGroup, GlobalMap, StorageMap> > : public parallel::distributed_property_map< ProcessGroup, GlobalMap, vector_property_map<T, StorageMap> > { typedef vector_property_map<T, StorageMap> local_iterator_map; typedef parallel::distributed_property_map<ProcessGroup, GlobalMap, local_iterator_map> inherited; typedef local_property_map<ProcessGroup, GlobalMap, StorageMap> index_map_type; public: vector_property_map(const index_map_type& index = index_map_type()) : inherited(index.process_group(), index.global(), local_iterator_map(index.base())) { } vector_property_map(unsigned inital_size, const index_map_type& index = index_map_type()) : inherited(index.process_group(), index.global(), local_iterator_map(inital_size, index.base())) { } }; /** Distributed vector property map. * * This specialization of @ref vector_property_map builds a * distributed vector property map given the local index maps * generated by distributed graph types that automatically have index * properties. * * This specialization is useful when creating external distributed * property maps via the same syntax used to create external * sequential property maps. */ template<typename T, typename ProcessGroup, typename GlobalMap, typename StorageMap> class vector_property_map< T, parallel::distributed_property_map< ProcessGroup, GlobalMap, StorageMap > > : public parallel::distributed_property_map< ProcessGroup, GlobalMap, vector_property_map<T, StorageMap> > { typedef vector_property_map<T, StorageMap> local_iterator_map; typedef parallel::distributed_property_map<ProcessGroup, GlobalMap, local_iterator_map> inherited; typedef parallel::distributed_property_map<ProcessGroup, GlobalMap, StorageMap> index_map_type; public: vector_property_map(const index_map_type& index = index_map_type()) : inherited(index.process_group(), index.global(), local_iterator_map(index.base())) { } vector_property_map(unsigned inital_size, const index_map_type& index = index_map_type()) : inherited(index.process_group(), index.global(), local_iterator_map(inital_size, index.base())) { } }; } #endif // BOOST_GRAPH_USE_MPI #endif