// Boost.Geometry Index // // R-tree query iterators // // Copyright (c) 2011-2013 Adam Wulkiewicz, Lodz, Poland. // // Use, modification and distribution is subject to 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_GEOMETRY_INDEX_DETAIL_RTREE_QUERY_ITERATORS_HPP #define BOOST_GEOMETRY_INDEX_DETAIL_RTREE_QUERY_ITERATORS_HPP #define BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_VIRTUAL //#define BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_FUNCTION //#define BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_TYPE_ERASURE //#define BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_MOVE namespace boost { namespace geometry { namespace index { namespace detail { namespace rtree { namespace iterators { template struct end_query_iterator { typedef std::input_iterator_tag iterator_category; typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::difference_type difference_type; typedef typename Allocators::const_pointer pointer; reference operator*() const { BOOST_ASSERT_MSG(false, "iterator not dereferencable"); pointer p(0); return *p; } const value_type * operator->() const { BOOST_ASSERT_MSG(false, "iterator not dereferencable"); const value_type * p = 0; return p; } end_query_iterator & operator++() { BOOST_ASSERT_MSG(false, "iterator not incrementable"); return *this; } end_query_iterator operator++(int) { BOOST_ASSERT_MSG(false, "iterator not incrementable"); return *this; } friend bool operator==(end_query_iterator const& /*l*/, end_query_iterator const& /*r*/) { return true; } }; template class spatial_query_iterator { typedef visitors::spatial_query_incremental visitor_type; typedef typename visitor_type::node_pointer node_pointer; public: typedef std::input_iterator_tag iterator_category; typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::difference_type difference_type; typedef typename Allocators::const_pointer pointer; inline spatial_query_iterator(Translator const& t, Predicates const& p) : m_visitor(t, p) {} inline spatial_query_iterator(node_pointer root, Translator const& t, Predicates const& p) : m_visitor(t, p) { m_visitor.initialize(root); } reference operator*() const { return m_visitor.dereference(); } const value_type * operator->() const { return boost::addressof(m_visitor.dereference()); } spatial_query_iterator & operator++() { m_visitor.increment(); return *this; } spatial_query_iterator operator++(int) { spatial_query_iterator temp = *this; this->operator++(); return temp; } friend bool operator==(spatial_query_iterator const& l, spatial_query_iterator const& r) { return l.m_visitor == r.m_visitor; } friend bool operator==(spatial_query_iterator const& l, end_query_iterator const& /*r*/) { return l.m_visitor.is_end(); } friend bool operator==(end_query_iterator const& /*l*/, spatial_query_iterator const& r) { return r.m_visitor.is_end(); } private: visitor_type m_visitor; }; template class distance_query_iterator { typedef visitors::distance_query_incremental visitor_type; typedef typename visitor_type::node_pointer node_pointer; public: typedef std::input_iterator_tag iterator_category; typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::difference_type difference_type; typedef typename Allocators::const_pointer pointer; inline distance_query_iterator(Translator const& t, Predicates const& p) : m_visitor(t, p) {} inline distance_query_iterator(node_pointer root, Translator const& t, Predicates const& p) : m_visitor(t, p) { m_visitor.initialize(root); } reference operator*() const { return m_visitor.dereference(); } const value_type * operator->() const { return boost::addressof(m_visitor.dereference()); } distance_query_iterator & operator++() { m_visitor.increment(); return *this; } distance_query_iterator operator++(int) { distance_query_iterator temp = *this; this->operator++(); return temp; } friend bool operator==(distance_query_iterator const& l, distance_query_iterator const& r) { return l.m_visitor == r.m_visitor; } friend bool operator==(distance_query_iterator const& l, end_query_iterator const& /*r*/) { return l.m_visitor.is_end(); } friend bool operator==(end_query_iterator const& /*l*/, distance_query_iterator const& r) { return r.m_visitor.is_end(); } private: visitor_type m_visitor; }; template inline bool operator!=(L const& l, R const& r) { return !(l == r); } }}}}}} // namespace boost::geometry::index::detail::rtree::iterators #if defined(BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_VIRTUAL) || defined(BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_FUNCTION) #if defined(BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_VIRTUAL) namespace boost { namespace geometry { namespace index { namespace detail { namespace rtree { namespace iterators { template class query_iterator_base { public: typedef std::input_iterator_tag iterator_category; typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::difference_type difference_type; typedef typename Allocators::const_pointer pointer; virtual ~query_iterator_base() {} virtual query_iterator_base * clone() const = 0; virtual bool is_end() const = 0; virtual reference dereference() const = 0; virtual void increment() = 0; virtual bool equals(query_iterator_base const&) const = 0; }; template class query_iterator_wrapper : public query_iterator_base { typedef query_iterator_base base_t; public: typedef std::input_iterator_tag iterator_category; typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::difference_type difference_type; typedef typename Allocators::const_pointer pointer; explicit query_iterator_wrapper(Iterator const& it) : m_iterator(it) {} virtual base_t * clone() const { return new query_iterator_wrapper(m_iterator); } virtual bool is_end() const { return m_iterator == end_query_iterator(); } virtual reference dereference() const { return *m_iterator; } virtual void increment() { ++m_iterator; } virtual bool equals(base_t const& r) const { const query_iterator_wrapper * p = dynamic_cast(boost::addressof(r)); BOOST_ASSERT_MSG(p, "those iterators can't be compared"); return m_iterator == p->m_iterator; } private: Iterator m_iterator; }; #elif defined(BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_FUNCTION) #include #include namespace boost { namespace geometry { namespace index { namespace detail { namespace rtree { namespace iterators { template class query_iterator_base { public: typedef std::input_iterator_tag iterator_category; typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::difference_type difference_type; typedef typename Allocators::const_pointer pointer; virtual ~query_iterator_base() {} boost::function clone; boost::function is_end; boost::function dereference; boost::function increment; boost::function equals; }; template class query_iterator_wrapper : public query_iterator_base { typedef query_iterator_base base_t; public: typedef std::input_iterator_tag iterator_category; typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::difference_type difference_type; typedef typename Allocators::const_pointer pointer; explicit query_iterator_wrapper(Iterator const& it) : m_iterator(it) { base_t::clone = boost::bind(&query_iterator_wrapper::clone_, this); base_t::is_end = boost::bind(&query_iterator_wrapper::is_end_, this); base_t::dereference = boost::bind(&query_iterator_wrapper::dereference_, this); base_t::increment = boost::bind(&query_iterator_wrapper::increment_, this); base_t::equals = boost::bind(&query_iterator_wrapper::equals_, this, _1); } private: base_t * clone_() const { return new query_iterator_wrapper(m_iterator); } bool is_end_() const { return m_iterator == end_query_iterator(); } reference dereference_() const { return *m_iterator; } void increment_() { ++m_iterator; } bool equals_(base_t const& r) const { const query_iterator_wrapper * p = dynamic_cast(boost::addressof(r)); BOOST_ASSERT_MSG(p, "those iterators can't be compared"); return m_iterator == p->m_iterator; } private: Iterator m_iterator; }; #endif template class query_iterator { typedef query_iterator_base iterator_base; typedef std::auto_ptr iterator_ptr; public: typedef std::input_iterator_tag iterator_category; typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::difference_type difference_type; typedef typename Allocators::const_pointer pointer; query_iterator() {} template query_iterator(It const& it) : m_ptr(static_cast( new query_iterator_wrapper(it) )) {} query_iterator(end_query_iterator const& /*it*/) {} query_iterator(query_iterator const& o) : m_ptr(o.m_ptr.get() ? o.m_ptr->clone() : 0) {} #ifndef BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_MOVE query_iterator & operator=(query_iterator const& o) { m_ptr.reset(o.m_ptr.get() ? o.m_ptr->clone() : 0); return *this; } #ifndef BOOST_NO_CXX11_RVALUE_REFERENCES query_iterator(query_iterator && o) : m_ptr(o.m_ptr.get()) { o.m_ptr.release(); } query_iterator & operator=(query_iterator && o) { if ( this != boost::addressof(o) ) { m_ptr.reset(o.m_ptr.get()); o.m_ptr.release(); } return *this; } #endif #else // !BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_MOVE private: BOOST_COPYABLE_AND_MOVABLE(query_iterator) public: query_iterator & operator=(BOOST_COPY_ASSIGN_REF(query_iterator) o) { m_ptr.reset(o.m_ptr.get() ? o.m_ptr->clone() : 0); return *this; } query_iterator(BOOST_RV_REF(query_iterator) o) : m_ptr(o.m_ptr.get()) { o.m_ptr.release(); } query_iterator & operator=(BOOST_RV_REF(query_iterator) o) { if ( this != boost::addressof(o) ) { m_ptr.reset(o.m_ptr.get()); o.m_ptr.release(); } return *this; } #endif // BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_MOVE reference operator*() const { return m_ptr->dereference(); } const value_type * operator->() const { return boost::addressof(m_ptr->dereference()); } query_iterator & operator++() { m_ptr->increment(); return *this; } query_iterator operator++(int) { query_iterator temp = *this; this->operator++(); return temp; } friend bool operator==(query_iterator const& l, query_iterator const& r) { if ( l.m_ptr.get() ) { if ( r.m_ptr.get() ) return l.m_ptr->equals(*r.m_ptr); else return l.m_ptr->is_end(); } else { if ( r.m_ptr.get() ) return r.m_ptr->is_end(); else return true; } } private: iterator_ptr m_ptr; }; }}}}}} // namespace boost::geometry::index::detail::rtree::iterators #elif defined(BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_TYPE_ERASURE) #include #include #include namespace boost { namespace geometry { namespace index { namespace detail { namespace rtree { namespace iterators { template struct single_pass_iterator_concept : ::boost::mpl::vector< ::boost::type_erasure::copy_constructible, ::boost::type_erasure::equality_comparable, ::boost::type_erasure::dereferenceable, ::boost::type_erasure::assignable, ::boost::type_erasure::incrementable, ::boost::type_erasure::equality_comparable >, ::boost::type_erasure::relaxed // default ctor > {}; template struct single_pass_iterator_type { typedef ::boost::type_erasure::any< single_pass_iterator_concept< ::boost::type_erasure::_self, Value, Allocators > > type; }; }}}}}} // namespace boost::geometry::index::detail::rtree::iterators namespace boost { namespace type_erasure { template struct concept_interface< ::boost::geometry::index::detail::rtree::single_pass_iterator_concept< T, Value, Allocators >, Base, T> : Base { typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::const_pointer pointer; typedef typename Allocators::difference_type difference_type; typedef ::std::input_iterator_tag iterator_category; }; }} // boost::type_erasure namespace boost { namespace geometry { namespace index { namespace detail { namespace rtree { namespace iterators { template class query_iterator { public: typedef std::input_iterator_tag iterator_category; typedef Value value_type; typedef typename Allocators::const_reference reference; typedef typename Allocators::difference_type difference_type; typedef typename Allocators::const_pointer pointer; private: typedef typename rtree::single_pass_iterator_type::type iterator_type; public: query_iterator() {} template query_iterator(It const& it) : m_iterator(it) {} query_iterator(end_query_iterator const& /*it*/) {} #ifdef BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_MOVE private: BOOST_COPYABLE_AND_MOVABLE(query_iterator) public: query_iterator(query_iterator const& o) : m_iterator(o.m_iterator) {} query_iterator & operator=(BOOST_COPY_ASSIGN_REF(query_iterator) o) { m_iterator = o.m_iterator; return *this; } query_iterator(BOOST_RV_REF(query_iterator) o) : m_iterator(boost::move(o.m_iterator)) {} query_iterator & operator=(BOOST_RV_REF(query_iterator) o) { if ( this != boost::addressof(o) ) { m_iterator = boost::move(o.m_iterator); } return *this; } #endif // BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_MOVE reference operator*() const { return *m_iterator; } const value_type * operator->() const { return boost::addressof(*m_iterator); } query_iterator & operator++() { ++m_iterator; return *this; } query_iterator operator++(int) { query_iterator temp = *this; ++m_iterator; return temp; } friend bool operator==(query_iterator const& l, query_iterator const& r) { if ( !::boost::type_erasure::is_empty(l.m_iterator) ) { if ( !::boost::type_erasure::is_empty(r.m_iterator) ) return l.m_iterator == r.m_iterator; else return l.m_iterator == end_query_iterator(); } else { if ( !::boost::type_erasure::is_empty(r.m_iterator) ) return r.m_iterator == end_query_iterator(); else return true; } } private: iterator_type m_iterator; }; }}}}}} // namespace boost::geometry::index::detail::rtree::iterators #endif // BOOST_GEOMETRY_INDEX_DETAIL_QUERY_ITERATORS_USE_TYPE_ERASURE #endif // BOOST_GEOMETRY_INDEX_DETAIL_RTREE_QUERY_ITERATORS_HPP