boost/range/iterator_range_core.hpp
// Boost.Range library // // Copyright Neil Groves & Thorsten Ottosen & Pavol Droba 2003-2004. // 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) // // For more information, see http://www.boost.org/libs/range/ // #ifndef BOOST_RANGE_ITERATOR_RANGE_CORE_HPP_INCLUDED #define BOOST_RANGE_ITERATOR_RANGE_CORE_HPP_INCLUDED #include <boost/config.hpp> // Define __STL_CONFIG_H, if appropriate. #include <boost/detail/workaround.hpp> #if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1500)) #pragma warning( push ) #pragma warning( disable : 4996 ) #endif #include <boost/assert.hpp> #include <boost/iterator/iterator_traits.hpp> #include <boost/iterator/iterator_facade.hpp> #include <boost/type_traits/is_abstract.hpp> #include <boost/type_traits/is_pointer.hpp> #include <boost/range/functions.hpp> #include <boost/range/iterator.hpp> #include <boost/range/difference_type.hpp> #include <boost/range/algorithm/equal.hpp> #include <boost/range/detail/safe_bool.hpp> #include <boost/utility/enable_if.hpp> #include <iterator> #include <algorithm> #include <cstddef> /*! \file Defines the \c iterator_class and related functions. \c iterator_range is a simple wrapper of iterator pair idiom. It provides a rich subset of Container interface. */ namespace boost { namespace iterator_range_detail { // // The functions adl_begin and adl_end are implemented in a separate // class for gcc-2.9x // template<class IteratorT> struct iterator_range_impl { template< class ForwardRange > static IteratorT adl_begin( ForwardRange& r ) { return static_cast<IteratorT>( boost::begin( r ) ); } template< class ForwardRange > static IteratorT adl_end( ForwardRange& r ) { return static_cast<IteratorT>( boost::end( r ) ); } }; template< class Left, class Right > inline bool less_than( const Left& l, const Right& r ) { return std::lexicographical_compare( boost::begin(l), boost::end(l), boost::begin(r), boost::end(r) ); } template< class Left, class Right > inline bool greater_than( const Left& l, const Right& r ) { return less_than(r,l); } template< class Left, class Right > inline bool less_or_equal_than( const Left& l, const Right& r ) { return !iterator_range_detail::less_than(r,l); } template< class Left, class Right > inline bool greater_or_equal_than( const Left& l, const Right& r ) { return !iterator_range_detail::less_than(l,r); } // This version is maintained since it is used in other boost libraries // such as Boost.Assign template< class Left, class Right > inline bool equal(const Left& l, const Right& r) { return boost::equal(l, r); } struct range_tag { }; struct const_range_tag { }; } // iterator range template class -----------------------------------------// //! iterator_range class /*! An \c iterator_range delimits a range in a sequence by beginning and ending iterators. An iterator_range can be passed to an algorithm which requires a sequence as an input. For example, the \c toupper() function may be used most frequently on strings, but can also be used on iterator_ranges: \code boost::tolower( find( s, "UPPERCASE STRING" ) ); \endcode Many algorithms working with sequences take a pair of iterators, delimiting a working range, as an arguments. The \c iterator_range class is an encapsulation of a range identified by a pair of iterators. It provides a collection interface, so it is possible to pass an instance to an algorithm requiring a collection as an input. */ template<class IteratorT> class iterator_range { typedef range_detail::safe_bool< IteratorT iterator_range<IteratorT>::* > safe_bool_t; protected: // Used by sub_range //! implementation class typedef iterator_range_detail::iterator_range_impl<IteratorT> impl; public: //! this type typedef iterator_range<IteratorT> type; typedef BOOST_DEDUCED_TYPENAME safe_bool_t::unspecified_bool_type unspecified_bool_type; //BOOST_BROKEN_COMPILER_TYPE_TRAITS_SPECIALIZATION(value_type); //! Encapsulated value type typedef BOOST_DEDUCED_TYPENAME iterator_value<IteratorT>::type value_type; //! Difference type typedef BOOST_DEDUCED_TYPENAME iterator_difference<IteratorT>::type difference_type; //! Size type typedef std::size_t size_type; // note: must be unsigned //! This type typedef iterator_range<IteratorT> this_type; //! Reference type // // Needed because value-type is the same for // const and non-const iterators // typedef BOOST_DEDUCED_TYPENAME iterator_reference<IteratorT>::type reference; //! const_iterator type /*! There is no distinction between const_iterator and iterator. These typedefs are provides to fulfill container interface */ typedef IteratorT const_iterator; //! iterator type typedef IteratorT iterator; private: // for return value of operator()() typedef BOOST_DEDUCED_TYPENAME boost::mpl::if_< boost::is_abstract<value_type>, reference, value_type >::type abstract_value_type; public: iterator_range() : m_Begin( iterator() ), m_End( iterator() ) { } //! Constructor from a pair of iterators template< class Iterator > iterator_range( Iterator Begin, Iterator End ) : m_Begin(Begin), m_End(End) {} //! Constructor from a Range template< class Range > iterator_range( const Range& r ) : m_Begin( impl::adl_begin( r ) ), m_End( impl::adl_end( r ) ) {} //! Constructor from a Range template< class Range > iterator_range( Range& r ) : m_Begin( impl::adl_begin( r ) ), m_End( impl::adl_end( r ) ) {} //! Constructor from a Range template< class Range > iterator_range( const Range& r, iterator_range_detail::const_range_tag ) : m_Begin( impl::adl_begin( r ) ), m_End( impl::adl_end( r ) ) {} //! Constructor from a Range template< class Range > iterator_range( Range& r, iterator_range_detail::range_tag ) : m_Begin( impl::adl_begin( r ) ), m_End( impl::adl_end( r ) ) {} #if !BOOST_WORKAROUND(BOOST_MSVC, < 1300) this_type& operator=( const this_type& r ) { m_Begin = r.begin(); m_End = r.end(); return *this; } #endif template< class Iterator > iterator_range& operator=( const iterator_range<Iterator>& r ) { m_Begin = r.begin(); m_End = r.end(); return *this; } template< class ForwardRange > iterator_range& operator=( ForwardRange& r ) { m_Begin = impl::adl_begin( r ); m_End = impl::adl_end( r ); return *this; } template< class ForwardRange > iterator_range& operator=( const ForwardRange& r ) { m_Begin = impl::adl_begin( r ); m_End = impl::adl_end( r ); return *this; } IteratorT begin() const { return m_Begin; } IteratorT end() const { return m_End; } difference_type size() const { return m_End - m_Begin; } bool empty() const { return m_Begin == m_End; } operator unspecified_bool_type() const { return safe_bool_t::to_unspecified_bool(m_Begin != m_End, &iterator_range::m_Begin); } bool operator!() const { return empty(); } bool equal( const iterator_range& r ) const { return m_Begin == r.m_Begin && m_End == r.m_End; } #ifdef BOOST_NO_FUNCTION_TEMPLATE_ORDERING bool operator==( const iterator_range& r ) const { return boost::equal( *this, r ); } bool operator!=( const iterator_range& r ) const { return !operator==(r); } bool operator<( const iterator_range& r ) const { return iterator_range_detail::less_than( *this, r ); } bool operator>( const iterator_range& r ) const { return iterator_range_detail::greater_than( *this, r ); } bool operator<=( const iterator_range& r ) const { return iterator_range_detail::less_or_equal_than( *this, r ); } bool operator>=( const iterator_range& r ) const { return iterator_range_detail::greater_or_equal_than( *this, r ); } #endif public: // convenience reference front() const { BOOST_ASSERT( !empty() ); return *m_Begin; } reference back() const { BOOST_ASSERT( !empty() ); IteratorT last( m_End ); return *--last; } // pop_front() - added to model the SinglePassRangePrimitiveConcept void pop_front() { BOOST_ASSERT( !empty() ); ++m_Begin; } // pop_back() - added to model the BidirectionalRangePrimitiveConcept void pop_back() { BOOST_ASSERT( !empty() ); --m_End; } reference operator[]( difference_type at ) const { BOOST_ASSERT( at >= 0 && at < size() ); return m_Begin[at]; } // // When storing transform iterators, operator[]() // fails because it returns by reference. Therefore // operator()() is provided for these cases. // abstract_value_type operator()( difference_type at ) const { BOOST_ASSERT( at >= 0 && at < size() ); return m_Begin[at]; } iterator_range& advance_begin( difference_type n ) { std::advance( m_Begin, n ); return *this; } iterator_range& advance_end( difference_type n ) { std::advance( m_End, n ); return *this; } private: // begin and end iterators IteratorT m_Begin; IteratorT m_End; protected: // // Allow subclasses an easy way to access the // base type // typedef iterator_range iterator_range_; }; // iterator range free-standing operators ---------------------------// ///////////////////////////////////////////////////////////////////// // comparison operators ///////////////////////////////////////////////////////////////////// template< class IteratorT, class ForwardRange > inline bool operator==( const ForwardRange& l, const iterator_range<IteratorT>& r ) { return boost::equal( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator!=( const ForwardRange& l, const iterator_range<IteratorT>& r ) { return !boost::equal( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator<( const ForwardRange& l, const iterator_range<IteratorT>& r ) { return iterator_range_detail::less_than( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator<=( const ForwardRange& l, const iterator_range<IteratorT>& r ) { return iterator_range_detail::less_or_equal_than( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator>( const ForwardRange& l, const iterator_range<IteratorT>& r ) { return iterator_range_detail::greater_than( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator>=( const ForwardRange& l, const iterator_range<IteratorT>& r ) { return iterator_range_detail::greater_or_equal_than( l, r ); } #ifdef BOOST_NO_FUNCTION_TEMPLATE_ORDERING #else template< class Iterator1T, class Iterator2T > inline bool operator==( const iterator_range<Iterator1T>& l, const iterator_range<Iterator2T>& r ) { return boost::equal( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator==( const iterator_range<IteratorT>& l, const ForwardRange& r ) { return boost::equal( l, r ); } template< class Iterator1T, class Iterator2T > inline bool operator!=( const iterator_range<Iterator1T>& l, const iterator_range<Iterator2T>& r ) { return !boost::equal( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator!=( const iterator_range<IteratorT>& l, const ForwardRange& r ) { return !boost::equal( l, r ); } template< class Iterator1T, class Iterator2T > inline bool operator<( const iterator_range<Iterator1T>& l, const iterator_range<Iterator2T>& r ) { return iterator_range_detail::less_than( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator<( const iterator_range<IteratorT>& l, const ForwardRange& r ) { return iterator_range_detail::less_than( l, r ); } template< class Iterator1T, class Iterator2T > inline bool operator<=( const iterator_range<Iterator1T>& l, const iterator_range<Iterator2T>& r ) { return iterator_range_detail::less_or_equal_than( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator<=( const iterator_range<IteratorT>& l, const ForwardRange& r ) { return iterator_range_detail::less_or_equal_than( l, r ); } template< class Iterator1T, class Iterator2T > inline bool operator>( const iterator_range<Iterator1T>& l, const iterator_range<Iterator2T>& r ) { return iterator_range_detail::greater_than( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator>( const iterator_range<IteratorT>& l, const ForwardRange& r ) { return iterator_range_detail::greater_than( l, r ); } template< class Iterator1T, class Iterator2T > inline bool operator>=( const iterator_range<Iterator1T>& l, const iterator_range<Iterator2T>& r ) { return iterator_range_detail::greater_or_equal_than( l, r ); } template< class IteratorT, class ForwardRange > inline bool operator>=( const iterator_range<IteratorT>& l, const ForwardRange& r ) { return iterator_range_detail::greater_or_equal_than( l, r ); } #endif // BOOST_NO_FUNCTION_TEMPLATE_ORDERING // iterator range utilities -----------------------------------------// //! iterator_range construct helper /*! Construct an \c iterator_range from a pair of iterators \param Begin A begin iterator \param End An end iterator \return iterator_range object */ template< typename IteratorT > inline iterator_range< IteratorT > make_iterator_range( IteratorT Begin, IteratorT End ) { return iterator_range<IteratorT>( Begin, End ); } #ifdef BOOST_NO_FUNCTION_TEMPLATE_ORDERING template< typename Range > inline iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<Range>::type > make_iterator_range( Range& r ) { return iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<Range>::type > ( boost::begin( r ), boost::end( r ) ); } #else //! iterator_range construct helper /*! Construct an \c iterator_range from a \c Range containing the begin and end iterators. */ template< class ForwardRange > inline iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<ForwardRange>::type > make_iterator_range( ForwardRange& r ) { return iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<ForwardRange>::type > ( r, iterator_range_detail::range_tag() ); } template< class ForwardRange > inline iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<const ForwardRange>::type > make_iterator_range( const ForwardRange& r ) { return iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<const ForwardRange>::type > ( r, iterator_range_detail::const_range_tag() ); } #endif // BOOST_NO_FUNCTION_TEMPLATE_ORDERING namespace iterator_range_detail { template< class Range > inline iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<Range>::type > make_range_impl( Range& r, BOOST_DEDUCED_TYPENAME range_difference<Range>::type advance_begin, BOOST_DEDUCED_TYPENAME range_difference<Range>::type advance_end ) { // // Not worth the effort // //if( advance_begin == 0 && advance_end == 0 ) // return make_iterator_range( r ); // BOOST_DEDUCED_TYPENAME range_iterator<Range>::type new_begin = boost::begin( r ), new_end = boost::end( r ); std::advance( new_begin, advance_begin ); std::advance( new_end, advance_end ); return make_iterator_range( new_begin, new_end ); } } #ifdef BOOST_NO_FUNCTION_TEMPLATE_ORDERING template< class Range > inline iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<Range>::type > make_iterator_range( Range& r, BOOST_DEDUCED_TYPENAME range_difference<Range>::type advance_begin, BOOST_DEDUCED_TYPENAME range_difference<Range>::type advance_end ) { //BOOST_ASSERT( advance_begin - advance_end <= size(r) && "creating invalid range" ); return iterator_range_detail::make_range_impl( r, advance_begin, advance_end ); } #else template< class Range > inline iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<Range>::type > make_iterator_range( Range& r, BOOST_DEDUCED_TYPENAME range_difference<Range>::type advance_begin, BOOST_DEDUCED_TYPENAME range_difference<Range>::type advance_end ) { //BOOST_ASSERT( advance_begin - advance_end <= size(r) && "creating invalid range" ); return iterator_range_detail::make_range_impl( r, advance_begin, advance_end ); } template< class Range > inline iterator_range< BOOST_DEDUCED_TYPENAME range_iterator<const Range>::type > make_iterator_range( const Range& r, BOOST_DEDUCED_TYPENAME range_difference<Range>::type advance_begin, BOOST_DEDUCED_TYPENAME range_difference<Range>::type advance_end ) { //BOOST_ASSERT( advance_begin - advance_end <= size(r) && "creating invalid range" ); return iterator_range_detail::make_range_impl( r, advance_begin, advance_end ); } #endif // BOOST_NO_FUNCTION_TEMPLATE_ORDERING //! copy a range into a sequence /*! Construct a new sequence of the specified type from the elements in the given range \param Range An input range \return New sequence */ template< typename SeqT, typename Range > inline SeqT copy_range( const Range& r ) { return SeqT( boost::begin( r ), boost::end( r ) ); } } // namespace 'boost' #if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1500)) #pragma warning( pop ) #endif #endif