// (C) Copyright Jeremy Siek 1999-2001. // Copyright (C) 2006 Trustees of Indiana University // Authors: Douglas Gregor and Jeremy 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) // See http://www.boost.org/libs/property_map for documentation. #ifndef BOOST_PROPERTY_MAP_HPP #define BOOST_PROPERTY_MAP_HPP #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace boost { //========================================================================= // property_traits class BOOST_MPL_HAS_XXX_TRAIT_DEF(key_type) BOOST_MPL_HAS_XXX_TRAIT_DEF(value_type) BOOST_MPL_HAS_XXX_TRAIT_DEF(reference) BOOST_MPL_HAS_XXX_TRAIT_DEF(category) template struct is_property_map : boost::mpl::and_< has_key_type, has_value_type, has_reference, has_category > {}; template struct default_property_traits { typedef typename PA::key_type key_type; typedef typename PA::value_type value_type; typedef typename PA::reference reference; typedef typename PA::category category; }; struct null_property_traits {}; template struct property_traits : boost::mpl::if_, default_property_traits, null_property_traits>::type {}; #if 0 template struct property_traits { typedef typename PA::key_type key_type; typedef typename PA::value_type value_type; typedef typename PA::reference reference; typedef typename PA::category category; }; #endif //========================================================================= // property_traits category tags namespace detail { enum ePropertyMapID { READABLE_PA, WRITABLE_PA, READ_WRITE_PA, LVALUE_PA, OP_BRACKET_PA, RAND_ACCESS_ITER_PA, LAST_PA }; } struct readable_property_map_tag { enum { id = detail::READABLE_PA }; }; struct writable_property_map_tag { enum { id = detail::WRITABLE_PA }; }; struct read_write_property_map_tag : public readable_property_map_tag, public writable_property_map_tag { enum { id = detail::READ_WRITE_PA }; }; struct lvalue_property_map_tag : public read_write_property_map_tag { enum { id = detail::LVALUE_PA }; }; //========================================================================= // property_traits specialization for pointers template struct property_traits { // BOOST_STATIC_ASSERT(boost::is_same::value && !"Using pointers as property maps is deprecated"); typedef T value_type; typedef value_type& reference; typedef std::ptrdiff_t key_type; typedef lvalue_property_map_tag category; }; template struct property_traits { // BOOST_STATIC_ASSERT(boost::is_same::value && !"Using pointers as property maps is deprecated"); typedef T value_type; typedef const value_type& reference; typedef std::ptrdiff_t key_type; typedef lvalue_property_map_tag category; }; #if !defined(BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP) // MSVC doesn't have Koenig lookup, so the user has to // do boost::get() anyways, and the using clause // doesn't really work for MSVC. } // namespace boost #endif // These need to go in global namespace because Koenig // lookup does not apply to T*. // V must be convertible to T template inline void put(T* pa, std::ptrdiff_t k, const V& val) { pa[k] = val; } template inline const T& get(const T* pa, std::ptrdiff_t k) { return pa[k]; } #if !defined(BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP) namespace boost { using ::put; using ::get; #endif //========================================================================= // concept checks for property maps template struct ReadablePropertyMapConcept { typedef typename property_traits::key_type key_type; typedef typename property_traits::reference reference; typedef typename property_traits::category Category; typedef boost::readable_property_map_tag ReadableTag; void constraints() { BOOST_CONCEPT_ASSERT((ConvertibleConcept)); val = get(pmap, k); } PMap pmap; Key k; typename property_traits::value_type val; }; template struct readable_property_map_archetype { typedef KeyArchetype key_type; typedef ValueArchetype value_type; typedef convertible_to_archetype reference; typedef readable_property_map_tag category; }; template const typename readable_property_map_archetype::reference& get(const readable_property_map_archetype&, const typename readable_property_map_archetype::key_type&) { typedef typename readable_property_map_archetype::reference R; return static_object::get(); } template struct WritablePropertyMapConcept { typedef typename property_traits::key_type key_type; typedef typename property_traits::category Category; typedef boost::writable_property_map_tag WritableTag; void constraints() { BOOST_CONCEPT_ASSERT((ConvertibleConcept)); put(pmap, k, val); } PMap pmap; Key k; typename property_traits::value_type val; }; template struct writable_property_map_archetype { typedef KeyArchetype key_type; typedef ValueArchetype value_type; typedef void reference; typedef writable_property_map_tag category; }; template void put(const writable_property_map_archetype&, const typename writable_property_map_archetype::key_type&, const typename writable_property_map_archetype::value_type&) { } template struct ReadWritePropertyMapConcept { typedef typename property_traits::category Category; typedef boost::read_write_property_map_tag ReadWriteTag; void constraints() { BOOST_CONCEPT_ASSERT((ReadablePropertyMapConcept)); BOOST_CONCEPT_ASSERT((WritablePropertyMapConcept)); BOOST_CONCEPT_ASSERT((ConvertibleConcept)); } }; template struct read_write_property_map_archetype : public readable_property_map_archetype, public writable_property_map_archetype { typedef KeyArchetype key_type; typedef ValueArchetype value_type; typedef convertible_to_archetype reference; typedef read_write_property_map_tag category; }; template struct LvaluePropertyMapConcept { typedef typename property_traits::category Category; typedef boost::lvalue_property_map_tag LvalueTag; typedef typename property_traits::reference reference; void constraints() { BOOST_CONCEPT_ASSERT((ReadablePropertyMapConcept)); BOOST_CONCEPT_ASSERT((ConvertibleConcept)); typedef typename property_traits::value_type value_type; BOOST_MPL_ASSERT((boost::mpl::or_< boost::is_same, boost::is_same >)); reference ref = pmap[k]; ignore_unused_variable_warning(ref); } PMap pmap; Key k; }; template struct lvalue_property_map_archetype : public readable_property_map_archetype { typedef KeyArchetype key_type; typedef ValueArchetype value_type; typedef const ValueArchetype& reference; typedef lvalue_property_map_tag category; const value_type& operator[](const key_type&) const { return static_object::get(); } }; template struct Mutable_LvaluePropertyMapConcept { typedef typename property_traits::category Category; typedef boost::lvalue_property_map_tag LvalueTag; typedef typename property_traits::reference reference; void constraints() { BOOST_CONCEPT_ASSERT((ReadWritePropertyMapConcept)); BOOST_CONCEPT_ASSERT((ConvertibleConcept)); typedef typename property_traits::value_type value_type; BOOST_MPL_ASSERT((boost::is_same)); reference ref = pmap[k]; ignore_unused_variable_warning(ref); } PMap pmap; Key k; }; template struct mutable_lvalue_property_map_archetype : public readable_property_map_archetype, public writable_property_map_archetype { typedef KeyArchetype key_type; typedef ValueArchetype value_type; typedef ValueArchetype& reference; typedef lvalue_property_map_tag category; value_type& operator[](const key_type&) const { return static_object::get(); } }; template struct typed_identity_property_map; // A helper class for constructing a property map // from a class that implements operator[] template struct put_get_helper { }; template inline Reference get(const put_get_helper& pa, const K& k) { Reference v = static_cast(pa)[k]; return v; } template inline void put(const put_get_helper& pa, K k, const V& v) { static_cast(pa)[k] = v; } //========================================================================= // Adapter to turn a RandomAccessIterator into a property map template ::value_type , class R = typename std::iterator_traits::reference #endif > class iterator_property_map : public boost::put_get_helper< R, iterator_property_map > { public: typedef typename property_traits::key_type key_type; typedef T value_type; typedef R reference; typedef boost::lvalue_property_map_tag category; inline iterator_property_map( RandomAccessIterator cc = RandomAccessIterator(), const IndexMap& _id = IndexMap() ) : iter(cc), index(_id) { } inline R operator[](key_type v) const { return *(iter + get(index, v)) ; } protected: RandomAccessIterator iter; IndexMap index; }; #if !defined BOOST_NO_STD_ITERATOR_TRAITS template inline iterator_property_map< RAIter, ID, typename std::iterator_traits::value_type, typename std::iterator_traits::reference> make_iterator_property_map(RAIter iter, ID id) { BOOST_CONCEPT_ASSERT((RandomAccessIteratorConcept)); typedef iterator_property_map< RAIter, ID, typename std::iterator_traits::value_type, typename std::iterator_traits::reference> PA; return PA(iter, id); } #endif template inline iterator_property_map make_iterator_property_map(RAIter iter, ID id, Value) { BOOST_CONCEPT_ASSERT((RandomAccessIteratorConcept)); typedef iterator_property_map PMap; return PMap(iter, id); } template ::value_type , class R = typename std::iterator_traits::reference #endif > class safe_iterator_property_map : public boost::put_get_helper< R, safe_iterator_property_map > { public: typedef typename property_traits::key_type key_type; typedef T value_type; typedef R reference; typedef boost::lvalue_property_map_tag category; inline safe_iterator_property_map( RandomAccessIterator first, std::size_t n_ = 0, const IndexMap& _id = IndexMap() ) : iter(first), n(n_), index(_id) { } inline safe_iterator_property_map() { } inline R operator[](key_type v) const { BOOST_ASSERT(get(index, v) < n); return *(iter + get(index, v)) ; } typename property_traits::value_type size() const { return n; } protected: RandomAccessIterator iter; typename property_traits::value_type n; IndexMap index; }; template inline safe_iterator_property_map< RAIter, ID, typename std::iterator_traits::value_type, typename std::iterator_traits::reference> make_safe_iterator_property_map(RAIter iter, std::size_t n, ID id) { BOOST_CONCEPT_ASSERT((RandomAccessIteratorConcept)); typedef safe_iterator_property_map< RAIter, ID, typename std::iterator_traits::value_type, typename std::iterator_traits::reference> PA; return PA(iter, n, id); } template inline safe_iterator_property_map make_safe_iterator_property_map(RAIter iter, std::size_t n, ID id, Value) { BOOST_CONCEPT_ASSERT((RandomAccessIteratorConcept)); typedef safe_iterator_property_map PMap; return PMap(iter, n, id); } //========================================================================= // An adaptor to turn a Unique Pair Associative Container like std::map or // std::hash_map into an Lvalue Property Map. template class associative_property_map : public boost::put_get_helper< typename UniquePairAssociativeContainer::value_type::second_type&, associative_property_map > { typedef UniquePairAssociativeContainer C; public: typedef typename C::key_type key_type; typedef typename C::value_type::second_type value_type; typedef value_type& reference; typedef lvalue_property_map_tag category; associative_property_map() : m_c(0) { } associative_property_map(C& c) : m_c(&c) { } reference operator[](const key_type& k) const { return (*m_c)[k]; } private: C* m_c; }; template associative_property_map make_assoc_property_map(UniquePairAssociativeContainer& c) { return associative_property_map(c); } template class const_associative_property_map : public boost::put_get_helper< const typename UniquePairAssociativeContainer::value_type::second_type&, const_associative_property_map > { typedef UniquePairAssociativeContainer C; public: typedef typename C::key_type key_type; typedef typename C::value_type::second_type value_type; typedef const value_type& reference; typedef lvalue_property_map_tag category; const_associative_property_map() : m_c(0) { } const_associative_property_map(const C& c) : m_c(&c) { } reference operator[](const key_type& k) const { return m_c->find(k)->second; } private: C const* m_c; }; template const_associative_property_map make_assoc_property_map(const UniquePairAssociativeContainer& c) { return const_associative_property_map(c); } //========================================================================= // A property map that always returns the same object by value. // template class static_property_map : public boost::put_get_helper > { ValueType value; public: typedef KeyType key_type; typedef ValueType value_type; typedef ValueType reference; typedef readable_property_map_tag category; static_property_map(ValueType v) : value(v) {} template inline reference operator[](T) const { return value; } }; template static_property_map make_static_property_map(const ValueType& v) { return static_property_map(v); } //========================================================================= // A property map that always returns a reference to the same object. // template class ref_property_map : public boost::put_get_helper > { ValueType* value; public: typedef KeyType key_type; typedef ValueType value_type; typedef ValueType& reference; typedef lvalue_property_map_tag category; ref_property_map(ValueType& v) : value(&v) {} ValueType& operator[](key_type const&) const { return *value; } }; //========================================================================= // A generalized identity property map template struct typed_identity_property_map : public boost::put_get_helper > { typedef T key_type; typedef T value_type; typedef T reference; typedef boost::readable_property_map_tag category; inline value_type operator[](const key_type& v) const { return v; } }; //========================================================================= // A property map that applies the identity function to integers typedef typed_identity_property_map identity_property_map; //========================================================================= // A property map that does not do anything, for // when you have to supply a property map, but don't need it. namespace detail { struct dummy_pmap_reference { template dummy_pmap_reference& operator=(const T&) { return *this; } operator int() { return 0; } }; } class dummy_property_map : public boost::put_get_helper { public: typedef void key_type; typedef int value_type; typedef detail::dummy_pmap_reference reference; typedef boost::read_write_property_map_tag category; inline dummy_property_map() : c(0) { } inline dummy_property_map(value_type cc) : c(cc) { } inline dummy_property_map(const dummy_property_map& x) : c(x.c) { } template inline reference operator[](Vertex) const { return reference(); } protected: value_type c; }; // Convert a Readable property map into a function object template class property_map_function { PropMap pm; typedef typename property_traits::key_type param_type; public: explicit property_map_function(const PropMap& pm): pm(pm) {} typedef typename property_traits::value_type result_type; result_type operator()(const param_type& k) const {return get(pm, k);} }; template property_map_function make_property_map_function(const PropMap& pm) { return property_map_function(pm); } } // namespace boost #ifdef BOOST_GRAPH_USE_MPI #include #endif #include #endif /* BOOST_PROPERTY_MAP_HPP */