boost/iostreams/detail/broken_overload_resolution/stream.hpp
// (C) Copyright 2008 CodeRage, LLC (turkanis at coderage dot com) // (C) Copyright 2003-2007 Jonathan Turkanis // 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/iostreams for documentation. #ifndef BOOST_IOSTREAMS_DETAIL_BROKEN_OVERLOAD_RESOLUTION_STREAM_HPP_INCLUDED #define BOOST_IOSTREAMS_DETAIL_BROKEN_OVERLOAD_RESOLUTION_STREAM_HPP_INCLUDED #include <boost/iostreams/detail/broken_overload_resolution/forward.hpp> namespace boost { namespace iostreams { template< typename Device, typename Tr = BOOST_IOSTREAMS_CHAR_TRAITS( BOOST_DEDUCED_TYPENAME char_type_of<Device>::type ), typename Alloc = std::allocator< BOOST_DEDUCED_TYPENAME char_type_of<Device>::type > > struct stream : detail::stream_base<Device, Tr, Alloc> { public: typedef typename char_type_of<Device>::type char_type; struct category : mode_of<Device>::type, closable_tag, detail::stream_traits<Device, Tr>::stream_tag { }; BOOST_IOSTREAMS_STREAMBUF_TYPEDEFS(Tr) private: typedef typename detail::stream_traits< Device, Tr >::stream_type stream_type; public: stream() { } template<typename U0> stream(const U0& u0) { open_impl(detail::forward<Device, U0>(), u0); } template<typename U0, typename U1> stream(const U0& u0, const U1& u1) { open_impl(detail::forward<Device, U0>(), u0, u1); } template<typename U0, typename U1, typename U2> stream(const U0& u0, const U1& u1, const U2& u2) { open_impl(detail::forward<Device, U0>(), u0, u1, u2); } #if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------------// template<typename U0> stream(U0& u0) { open_impl(detail::forward<Device, U0>(), u0); } template<typename U0, typename U1> stream(U0& u0, const U1& u1) { open_impl(detail::forward<Device, U0>(), u0, u1); } template<typename U0, typename U1, typename U2> stream(U0& u0, const U1& u1, const U2& u2) { open_impl(detail::forward<Device, U0>(), u0, u1, u2); } #endif // !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------// template<typename U0> void open(const U0& u0) { open_impl(detail::forward<Device, U0>(), u0); } template<typename U0, typename U1> void open(const U0& u0, const U1& u1) { open_impl(detail::forward<Device, U0>(), u0, u1); } template<typename U0, typename U1, typename U2> void open(const U0& u0, const U1& u1, const U2& u2) { open_impl(detail::forward<Device, U0>(), u0, u1, u2); } #if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------------// template<typename U0> void open(U0& u0) { open_impl(detail::forward<Device, U0>(), u0); } template<typename U0, typename U1> void open(U0& u0, const U1& u1) { open_impl(detail::forward<Device, U0>(), u0, u1); } template<typename U0, typename U1, typename U2> void open(U0& u0, const U1& u1, const U2& u2) { open_impl(detail::forward<Device, U0>(), u0, u1, u2); } #endif // !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------// bool is_open() const { return this->member.is_open(); } void close() { this->member.close(); } bool auto_close() const { return this->member.auto_close(); } void set_auto_close(bool close) { this->member.set_auto_close(close); } bool strict_sync() { return this->member.strict_sync(); } Device& operator*() { return *this->member; } Device* operator->() { return &*this->member; } private: template<typename U0> void open_impl(mpl::false_, const U0& u0) { this->clear(); this->member.open(u0); } #if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------------// template<typename U0> void open_impl(mpl::false_, U0& u0) { this->clear(); this->member.open(detail::wrap(u0)); } #endif // !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------// template<typename U0> void open_impl(mpl::true_, const U0& u0) { this->clear(); this->member.open(Device(const_cast<U0&>(u0))); } #if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------------// template<typename U0> void open_impl(mpl::true_, U0& u0) { this->clear(); this->member.open(Device(u0)); } #endif // !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------// template<typename U0, typename U1> void open_impl(mpl::false_, const U0& u0, const U1& u1) { this->clear(); this->member.open(u0, u1); } template<typename U0, typename U1> void open_impl(mpl::true_, const U0& u0, const U1& u1) { this->clear(); this->member.open(Device(const_cast<U0&>(u0), u1)); } #if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------------// template<typename U0, typename U1> void open_impl(mpl::true_, U0& u0, const U1& u1) { this->clear(); this->member.open(Device(u0, u1)); } #endif // !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------// template<typename U0, typename U1, typename U2> void open_impl(mpl::false_, const U0& u0, const U1& u1, const U2& u2) { this->clear(); this->member.open(u0, u1, u2); } template<typename U0, typename U1, typename U2> void open_impl(mpl::true_, const U0& u0, const U1& u1, const U2& u2) { this->clear(); this->member.open(Device(const_cast<U0&>(u0), u1, u2)); } #if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) //---------------------------------// template<typename U0, typename U1, typename U2> void open_impl(mpl::true_, U0& u0, const U1& u1, const U2& u2) { this->clear(); this->member.open(Device(u0, u1, u2)); } #endif }; } } // End namespaces iostreams, boost. #endif BOOST_IOSTREAMS_DETAIL_BROKEN_OVERLOAD_RESOLUTION_STREAM_HPP_INCLUDED