boost/multi_index/detail/iter_adaptor.hpp
/* Copyright 2003-2013 Joaquin M Lopez Munoz. * 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/multi_index for library home page. */ #ifndef BOOST_MULTI_INDEX_DETAIL_ITER_ADAPTOR_HPP #define BOOST_MULTI_INDEX_DETAIL_ITER_ADAPTOR_HPP #if defined(_MSC_VER) #pragma once #endif #include <boost/config.hpp> /* keep it first to prevent nasty warns in MSVC */ #include <boost/mpl/apply.hpp> #include <boost/operators.hpp> namespace boost{ namespace multi_index{ namespace detail{ /* Poor man's version of boost::iterator_adaptor. Used instead of the * original as compile times for the latter are significantly higher. * The interface is not replicated exactly, only to the extent necessary * for internal consumption. */ /* NB. The purpose of the (non-inclass) global operators ==, < and - defined * above is to partially alleviate a problem of MSVC++ 6.0 by * which * friend-injected operators on T are not visible if T is instantiated only * in template code where T is a dependent type. */ class iter_adaptor_access { public: template<class Class> static typename Class::reference dereference(const Class& x) { return x.dereference(); } template<class Class> static bool equal(const Class& x,const Class& y) { return x.equal(y); } template<class Class> static void increment(Class& x) { x.increment(); } template<class Class> static void decrement(Class& x) { x.decrement(); } template<class Class> static void advance(Class& x,typename Class::difference_type n) { x.advance(n); } template<class Class> static typename Class::difference_type distance_to( const Class& x,const Class& y) { return x.distance_to(y); } }; template<typename Category> struct iter_adaptor_selector; template<class Derived,class Base> class forward_iter_adaptor_base: public forward_iterator_helper< Derived, typename Base::value_type, typename Base::difference_type, typename Base::pointer, typename Base::reference> { public: typedef typename Base::reference reference; reference operator*()const { return iter_adaptor_access::dereference(final()); } friend bool operator==(const Derived& x,const Derived& y) { return iter_adaptor_access::equal(x,y); } Derived& operator++() { iter_adaptor_access::increment(final()); return final(); } private: Derived& final(){return *static_cast<Derived*>(this);} const Derived& final()const{return *static_cast<const Derived*>(this);} }; template<class Derived,class Base> bool operator==( const forward_iter_adaptor_base<Derived,Base>& x, const forward_iter_adaptor_base<Derived,Base>& y) { return iter_adaptor_access::equal( static_cast<const Derived&>(x),static_cast<const Derived&>(y)); } template<> struct iter_adaptor_selector<std::forward_iterator_tag> { template<class Derived,class Base> struct apply { typedef forward_iter_adaptor_base<Derived,Base> type; }; }; template<class Derived,class Base> class bidirectional_iter_adaptor_base: public bidirectional_iterator_helper< Derived, typename Base::value_type, typename Base::difference_type, typename Base::pointer, typename Base::reference> { public: typedef typename Base::reference reference; reference operator*()const { return iter_adaptor_access::dereference(final()); } friend bool operator==(const Derived& x,const Derived& y) { return iter_adaptor_access::equal(x,y); } Derived& operator++() { iter_adaptor_access::increment(final()); return final(); } Derived& operator--() { iter_adaptor_access::decrement(final()); return final(); } private: Derived& final(){return *static_cast<Derived*>(this);} const Derived& final()const{return *static_cast<const Derived*>(this);} }; template<class Derived,class Base> bool operator==( const bidirectional_iter_adaptor_base<Derived,Base>& x, const bidirectional_iter_adaptor_base<Derived,Base>& y) { return iter_adaptor_access::equal( static_cast<const Derived&>(x),static_cast<const Derived&>(y)); } template<> struct iter_adaptor_selector<std::bidirectional_iterator_tag> { template<class Derived,class Base> struct apply { typedef bidirectional_iter_adaptor_base<Derived,Base> type; }; }; template<class Derived,class Base> class random_access_iter_adaptor_base: public random_access_iterator_helper< Derived, typename Base::value_type, typename Base::difference_type, typename Base::pointer, typename Base::reference> { public: typedef typename Base::reference reference; typedef typename Base::difference_type difference_type; reference operator*()const { return iter_adaptor_access::dereference(final()); } friend bool operator==(const Derived& x,const Derived& y) { return iter_adaptor_access::equal(x,y); } friend bool operator<(const Derived& x,const Derived& y) { return iter_adaptor_access::distance_to(x,y)>0; } Derived& operator++() { iter_adaptor_access::increment(final()); return final(); } Derived& operator--() { iter_adaptor_access::decrement(final()); return final(); } Derived& operator+=(difference_type n) { iter_adaptor_access::advance(final(),n); return final(); } Derived& operator-=(difference_type n) { iter_adaptor_access::advance(final(),-n); return final(); } friend difference_type operator-(const Derived& x,const Derived& y) { return iter_adaptor_access::distance_to(y,x); } private: Derived& final(){return *static_cast<Derived*>(this);} const Derived& final()const{return *static_cast<const Derived*>(this);} }; template<class Derived,class Base> bool operator==( const random_access_iter_adaptor_base<Derived,Base>& x, const random_access_iter_adaptor_base<Derived,Base>& y) { return iter_adaptor_access::equal( static_cast<const Derived&>(x),static_cast<const Derived&>(y)); } template<class Derived,class Base> bool operator<( const random_access_iter_adaptor_base<Derived,Base>& x, const random_access_iter_adaptor_base<Derived,Base>& y) { return iter_adaptor_access::distance_to( static_cast<const Derived&>(x),static_cast<const Derived&>(y))>0; } template<class Derived,class Base> typename random_access_iter_adaptor_base<Derived,Base>::difference_type operator-( const random_access_iter_adaptor_base<Derived,Base>& x, const random_access_iter_adaptor_base<Derived,Base>& y) { return iter_adaptor_access::distance_to( static_cast<const Derived&>(y),static_cast<const Derived&>(x)); } template<> struct iter_adaptor_selector<std::random_access_iterator_tag> { template<class Derived,class Base> struct apply { typedef random_access_iter_adaptor_base<Derived,Base> type; }; }; template<class Derived,class Base> struct iter_adaptor_base { typedef iter_adaptor_selector< typename Base::iterator_category> selector; typedef typename mpl::apply2< selector,Derived,Base>::type type; }; template<class Derived,class Base> class iter_adaptor:public iter_adaptor_base<Derived,Base>::type { protected: iter_adaptor(){} explicit iter_adaptor(const Base& b_):b(b_){} const Base& base_reference()const{return b;} Base& base_reference(){return b;} private: Base b; }; } /* namespace multi_index::detail */ } /* namespace multi_index */ } /* namespace boost */ #endif