// (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. #ifndef BOOST_IOSTREAMS_TEE_HPP_INCLUDED #define BOOST_IOSTREAMS_TEE_HPP_INCLUDED #if defined(_MSC_VER) && (_MSC_VER >= 1020) # pragma once #endif #include #include // BOOST_DEDUCE_TYPENAME. #include #include #include #include #include #include // call_close_all #include #include #include #include #include #include namespace boost { namespace iostreams { // // Template name: tee_filter. // Template parameters: // Device - A blocking Sink. // template class tee_filter : public detail::filter_adapter { public: typedef typename detail::param_type::type param_type; typedef typename char_type_of::type char_type; struct category : dual_use_filter_tag, multichar_tag, closable_tag, flushable_tag, localizable_tag, optimally_buffered_tag { }; BOOST_STATIC_ASSERT(is_device::value); BOOST_STATIC_ASSERT(( is_convertible< // Using mode_of causes failures on VC6-7.0. BOOST_DEDUCED_TYPENAME iostreams::category_of::type, output >::value )); explicit tee_filter(param_type dev) : detail::filter_adapter(dev) { } template std::streamsize read(Source& src, char_type* s, std::streamsize n) { std::streamsize result = iostreams::read(src, s, n); if (result != -1) { std::streamsize result2 = iostreams::write(this->component(), s, result); (void) result2; // Suppress 'unused variable' warning. BOOST_ASSERT(result == result2); } return result; } template std::streamsize write(Sink& snk, const char_type* s, std::streamsize n) { std::streamsize result = iostreams::write(snk, s, n); std::streamsize result2 = iostreams::write(this->component(), s, result); (void) result2; // Suppress 'unused variable' warning. BOOST_ASSERT(result == result2); return result; } template void close(Next&, BOOST_IOS::openmode) { detail::close_all(this->component()); } template bool flush(Sink& snk) { bool r1 = iostreams::flush(snk); bool r2 = iostreams::flush(this->component()); return r1 && r2; } }; BOOST_IOSTREAMS_PIPABLE(tee_filter, 1) // // Template name: tee_device. // Template parameters: // Device - A blocking Device. // Sink - A blocking Sink. // template class tee_device { public: typedef typename detail::param_type::type device_param; typedef typename detail::param_type::type sink_param; typedef typename detail::value_type::type device_value; typedef typename detail::value_type::type sink_value; typedef typename char_type_of::type char_type; typedef typename mpl::if_< is_convertible< BOOST_DEDUCED_TYPENAME iostreams::category_of::type, output >, output, input >::type mode; BOOST_STATIC_ASSERT(is_device::value); BOOST_STATIC_ASSERT(is_device::value); BOOST_STATIC_ASSERT(( is_same< char_type, BOOST_DEDUCED_TYPENAME char_type_of::type >::value )); BOOST_STATIC_ASSERT(( is_convertible< BOOST_DEDUCED_TYPENAME iostreams::category_of::type, output >::value )); struct category : mode, device_tag, closable_tag, flushable_tag, localizable_tag, optimally_buffered_tag { }; tee_device(device_param device, sink_param sink) : dev_(device), sink_(sink) { } std::streamsize read(char_type* s, std::streamsize n) { BOOST_STATIC_ASSERT(( is_convertible< BOOST_DEDUCED_TYPENAME iostreams::category_of::type, input >::value )); std::streamsize result1 = iostreams::read(dev_, s, n); if (result1 != -1) { std::streamsize result2 = iostreams::write(sink_, s, result1); (void) result1; // Suppress 'unused variable' warning. (void) result2; BOOST_ASSERT(result1 == result2); } return result1; } std::streamsize write(const char_type* s, std::streamsize n) { BOOST_STATIC_ASSERT(( is_convertible< BOOST_DEDUCED_TYPENAME iostreams::category_of::type, output >::value )); std::streamsize result1 = iostreams::write(dev_, s, n); std::streamsize result2 = iostreams::write(sink_, s, n); (void) result1; // Suppress 'unused variable' warning. (void) result2; BOOST_ASSERT(result1 == n && result2 == n); return n; } void close() { detail::execute_all( detail::call_close_all(dev_), detail::call_close_all(sink_) ); } bool flush() { bool r1 = iostreams::flush(dev_); bool r2 = iostreams::flush(sink_); return r1 && r2; } template void imbue(const Locale& loc) { iostreams::imbue(dev_, loc); iostreams::imbue(sink_, loc); } std::streamsize optimal_buffer_size() const { return (std::max) ( iostreams::optimal_buffer_size(dev_), iostreams::optimal_buffer_size(sink_) ); } private: device_value dev_; sink_value sink_; }; template tee_filter tee(Sink& snk) { return tee_filter(snk); } template tee_filter tee(const Sink& snk) { return tee_filter(snk); } template tee_device tee(Device& dev, Sink& sink) { return tee_device(dev, sink); } template tee_device tee(const Device& dev, Sink& sink) { return tee_device(dev, sink); } template tee_device tee(Device& dev, const Sink& sink) { return tee_device(dev, sink); } template tee_device tee(const Device& dev, const Sink& sink) { return tee_device(dev, sink); } } } // End namespaces iostreams, boost. #endif // #ifndef BOOST_IOSTREAMS_TEE_HPP_INCLUDED