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路径: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\boost_1_35_0\boost\iostreams\compose.hpp
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// (C) Copyright 2008 CodeRage, LLC (turkanis at coderage dot com) // (C) Copyright 2005-2007 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. // Note: bidirectional streams are not supported. #ifndef BOOST_IOSTREAMS_COMPOSE_HPP_INCLUDED #define BOOST_IOSTREAMS_COMPOSE_HPP_INCLUDED #if defined(_MSC_VER) && (_MSC_VER >= 1020) # pragma once #endif #include
// min. #include
// pair. #include
// DEDUCED_TYPENAME. #include
#include
#include
#include
#include
#include
#include
#include
// mode_of, is_direct. #include
#include
#include
#include
// Must come last. #include
// MSVC. namespace boost { namespace iostreams { namespace detail { template< typename First, typename Second, typename FirstMode = BOOST_DEDUCED_TYPENAME mode_of
::type, typename SecondMode = BOOST_DEDUCED_TYPENAME mode_of
::type > struct composite_mode : select< is_convertible
, FirstMode, is_convertible
, SecondMode, is_convertible
, input, else_, output > { }; // // Template name: composite_device. // Description: Provides a Device view of a Filter, Device pair. // Template paramters: // Filter - A model of Filter. // Device - An indirect model of Device. // template< typename Filter, typename Device, typename Mode = BOOST_DEDUCED_TYPENAME composite_mode
::type > class composite_device { private: typedef typename detail::param_type
::type param_type; typedef typename mode_of
::type filter_mode; typedef typename mode_of
::type device_mode; typedef typename iostreams::select< // Disambiguation for Tru64. is_direct
, direct_adapter
, is_std_io
, Device&, else_, Device >::type value_type; public: typedef typename char_type_of
::type char_type; struct category : Mode, device_tag, closable_tag, flushable_tag, localizable_tag, optimally_buffered_tag { }; composite_device(const Filter& flt, param_type dev); std::streamsize read(char_type* s, std::streamsize n); std::streamsize write(const char_type* s, std::streamsize n); std::streampos seek( stream_offset off, BOOST_IOS::seekdir way, BOOST_IOS::openmode which = BOOST_IOS::in | BOOST_IOS::out ); void close(); void close(BOOST_IOS::openmode which); bool flush(); std::streamsize optimal_buffer_size() const; template
// Avoid dependency on
void imbue(const Locale& loc) { iostreams::imbue(filter_, loc); iostreams::imbue(device_, loc); } Filter& first() { return filter_; } Device& second() { return device_; } private: Filter filter_; value_type device_; }; // // Template name: composite_device. // Description: Provides a Device view of a Filter, Device pair. // Template paramters: // Filter - A model of Filter. // Device - An indirect model of Device. // template< typename Filter1, typename Filter2, typename Mode = BOOST_DEDUCED_TYPENAME composite_mode
::type > class composite_filter { private: typedef reference_wrapper
filter_ref; typedef typename mode_of
::type first_mode; typedef typename mode_of
::type second_mode; // A dual-use filter cannot be composed with a read-write filter BOOST_STATIC_ASSERT( !(is_convertible
::value) || !(is_convertible
::value) || !(is_convertible
::value) || (is_convertible
::value) ); BOOST_STATIC_ASSERT( !(is_convertible
::value) || !(is_convertible
::value) || !(is_convertible
::value) || (is_convertible
::value) ); public: typedef typename char_type_of
::type char_type; struct category : Mode, filter_tag, multichar_tag, closable_tag, flushable_tag, localizable_tag, optimally_buffered_tag { }; composite_filter(const Filter1& filter1, const Filter2& filter2) : filter1_(filter1), filter2_(filter2) { } template
std::streamsize read(Source& src, char_type* s, std::streamsize n) { composite_device
cmp(boost::ref(filter2_), src); return iostreams::read(filter1_, cmp, s, n); } template
std::streamsize write(Sink& snk, const char_type* s, std::streamsize n) { composite_device
cmp(boost::ref(filter2_), snk); return iostreams::write(filter1_, cmp, s, n); } template
std::streampos seek( Device& dev, stream_offset off, BOOST_IOS::seekdir way, BOOST_IOS::openmode which = BOOST_IOS::in | BOOST_IOS::out ) { composite_device
cmp(boost::ref(filter2_), dev); return iostreams::seek(filter1_, cmp, off, way, which); } template
void close(Device& dev) { BOOST_STATIC_ASSERT((!is_convertible
::value)); BOOST_STATIC_ASSERT((!is_convertible
::value)); // Create a new device by composing the second filter2_ with dev. composite_device
cmp(boost::ref(filter2_), dev); // Close input sequences in reverse order and output sequences in // forward order if (!is_convertible
::value) { detail::execute_all( detail::call_close(filter2_, dev, BOOST_IOS::in), detail::call_close(filter1_, cmp, BOOST_IOS::in), detail::call_close(filter1_, cmp, BOOST_IOS::out), detail::call_close(filter2_, dev, BOOST_IOS::out) ); } else if (is_convertible
::value) { detail::execute_all( detail::call_close(filter2_, dev, BOOST_IOS::in), detail::call_close(filter1_, cmp, BOOST_IOS::in) ); } else { detail::execute_all( detail::call_close(filter1_, cmp, BOOST_IOS::out), detail::call_close(filter2_, dev, BOOST_IOS::out) ); } } template
void close(Device& dev, BOOST_IOS::openmode which) { BOOST_STATIC_ASSERT( (is_convertible
::value) || (is_convertible
::value) ); // Create a new device by composing the second filter2_ with dev. composite_device
cmp(boost::ref(filter2_), dev); // Close input sequences in reverse order if ( which == BOOST_IOS::in && ( !is_convertible
::value || is_convertible
::value ) ) { detail::execute_all( detail::call_close(filter2_, dev, BOOST_IOS::in), detail::call_close(filter1_, cmp, BOOST_IOS::in) ); } // Close output sequences in forward order if ( which == BOOST_IOS::out && ( !is_convertible
::value || is_convertible
::value ) ) { detail::execute_all( detail::call_close(filter1_, cmp, BOOST_IOS::out), detail::call_close(filter2_, dev, BOOST_IOS::out) ); } } template
bool flush(Device& dev) { composite_device
cmp(filter2_, dev); return iostreams::flush(filter1_, cmp); } std::streamsize optimal_buffer_size() const { std::streamsize first = iostreams::optimal_buffer_size(filter1_); std::streamsize second = iostreams::optimal_buffer_size(filter2_); return first < second ? second : first; } template
// Avoid dependency on
void imbue(const Locale& loc) { // To do: consider using RAII. iostreams::imbue(filter1_, loc); iostreams::imbue(filter2_, loc); } Filter1& first() { return filter1_; } Filter2& second() { return filter2_; } private: Filter1 filter1_; Filter2 filter2_; }; template
struct composite_traits : mpl::if_< is_device
, composite_device
, composite_filter
> { }; } // End namespace detail. template
struct composite : detail::composite_traits
::type { typedef typename detail::param_type
::type param_type; typedef typename detail::composite_traits
::type base; composite(const Filter& flt, param_type dev) : base(flt, dev) { } }; //--------------Implementation of compose-------------------------------------// // Note: The following workarounds are patterned after resolve.hpp. It has not // yet been confirmed that they are necessary. #ifndef BOOST_IOSTREAMS_BROKEN_OVERLOAD_RESOLUTION //-------------------------// # ifndef BOOST_IOSTREAMS_NO_STREAM_TEMPLATES //-------------------------------// template
composite
compose( const Filter& filter, const FilterOrDevice& fod BOOST_IOSTREAMS_DISABLE_IF_STREAM(FilterOrDevice) ) { return composite
(filter, fod); } template
composite< Filter, std::basic_streambuf
> compose(const Filter& filter, std::basic_streambuf
& sb) { return composite< Filter, std::basic_streambuf
>(filter, sb); } template
composite< Filter, std::basic_istream
> compose(const Filter& filter, std::basic_istream
& is) { return composite< Filter, std::basic_istream
>(filter, is); } template
composite< Filter, std::basic_ostream
> compose(const Filter& filter, std::basic_ostream
& os) { return composite< Filter, std::basic_ostream
>(filter, os); } template
composite< Filter, std::basic_iostream
> compose(const Filter& filter, std::basic_iostream
& io) { return composite< Filter, std::basic_iostream
>(filter, io); } # else // # ifndef BOOST_IOSTREAMS_NO_STREAM_TEMPLATES //---------------------// template
composite
compose( const Filter& filter, const FilterOrDevice& fod BOOST_IOSTREAMS_DISABLE_IF_STREAM(FilterOrDevice) ) { return composite
(filter, fod); } template
composite
compose(const Filter& filter, std::streambuf& sb) { return composite
(filter, sb); } template
composite
compose(const Filter& filter, std::istream& is) { return composite
(filter, is); } template
composite
compose(const Filter& filter, std::ostream& os) { return composite
(filter, os); } template
composite
compose(const Filter& filter, std::iostream& io) { return composite
(filter, io); } # endif // # ifndef BOOST_IOSTREAMS_NO_STREAM_TEMPLATES //--------------------// #else // #ifndef BOOST_IOSTREAMS_BROKEN_OVERLOAD_RESOLUTION //----------------// template
composite
compose(const Filter& flt, const Stream& strm, mpl::true_) { // Bad overload resolution. return composite
(flt, const_cast
(strm)); } template
composite
compose(const Filter& flt, const FilterOrDevice& fod, mpl::false_) { return composite
(flt, fod); } template
composite
compose( const Filter& flt, const FilterOrDevice& fod BOOST_IOSTREAMS_DISABLE_IF_STREAM(T) ) { return compose(flt, fod, is_std_io
()); } # if !BOOST_WORKAROUND(__BORLANDC__, < 0x600) && \ !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) && \ !defined(__GNUC__) // ---------------------------------------------------// template
composite
compose (const Filter& filter, FilterOrDevice& fod) { return composite
(filter, fod); } # endif // Borland 5.x, VC6-7.0 or GCC 2.9x //--------------------------------// #endif // #ifndef BOOST_IOSTREAMS_BROKEN_OVERLOAD_RESOLUTION //---------------// //----------------------------------------------------------------------------// namespace detail { //--------------Implementation of composite_device---------------------------// template
composite_device
::composite_device (const Filter& flt, param_type dev) : filter_(flt), device_(dev) { } template
inline std::streamsize composite_device
::read (char_type* s, std::streamsize n) { return iostreams::read(filter_, device_, s, n); } template
inline std::streamsize composite_device
::write (const char_type* s, std::streamsize n) { return iostreams::write(filter_, device_, s, n); } template
std::streampos composite_device
::seek (stream_offset off, BOOST_IOS::seekdir way, BOOST_IOS::openmode which) { return iostreams::seek(filter_, device_, off, way, which); } template
void composite_device
::close() { BOOST_STATIC_ASSERT((!is_convertible
::value)); BOOST_STATIC_ASSERT( !(is_convertible
::value) || !(is_convertible
::value) || !(is_convertible
::value) ); // Close input sequences in reverse order and output sequences // in forward order if (!is_convertible
::value) { detail::execute_all( detail::call_close(device_, BOOST_IOS::in), detail::call_close(filter_, device_, BOOST_IOS::in), detail::call_close(filter_, device_, BOOST_IOS::out), detail::call_close(device_, BOOST_IOS::out) ); } else if (is_convertible
::value) { detail::execute_all( detail::call_close(device_, BOOST_IOS::in), detail::call_close(filter_, device_, BOOST_IOS::in) ); } else { detail::execute_all( detail::call_close(filter_, device_, BOOST_IOS::out), detail::call_close(device_, BOOST_IOS::out) ); } } template
void composite_device
::close(BOOST_IOS::openmode which) { BOOST_STATIC_ASSERT((is_convertible
::value)); BOOST_STATIC_ASSERT(!(is_convertible
::value)); // Close input sequences in reverse order if (which == BOOST_IOS::in) { detail::execute_all( detail::call_close(device_, BOOST_IOS::in), detail::call_close(filter_, device_, BOOST_IOS::in) ); } // Close output sequences in forward order if (which == BOOST_IOS::out) { detail::execute_all( detail::call_close(filter_, device_, BOOST_IOS::out), detail::call_close(device_, BOOST_IOS::out) ); } } template
bool composite_device
::flush() { bool r1 = iostreams::flush(filter_, device_); bool r2 = iostreams::flush(device_); return r1 && r2; } template
std::streamsize composite_device
::optimal_buffer_size() const { return iostreams::optimal_buffer_size(device_); } } // End namespace detail. } } // End namespaces iostreams, boost. #include
#endif // #ifndef BOOST_IOSTREAMS_COMPOSE_HPP_INCLUDED
compose.hpp
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