boost/log/expressions/formatters/max_size_decorator.hpp
/* * Copyright Andrey Semashev 2016. * 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) */ /*! * \file formatters/max_size_decorator.hpp * \author Andrey Semashev * \date 06.07.2016 * * The header contains implementation of a string length limiting decorator. */ #ifndef BOOST_LOG_EXPRESSIONS_FORMATTERS_MAX_SIZE_DECORATOR_HPP_INCLUDED_ #define BOOST_LOG_EXPRESSIONS_FORMATTERS_MAX_SIZE_DECORATOR_HPP_INCLUDED_ #include <cstddef> #include <string> #include <boost/assert.hpp> #include <boost/mpl/bool.hpp> #include <boost/move/core.hpp> #include <boost/move/utility_core.hpp> #include <boost/core/addressof.hpp> #include <boost/phoenix/core/actor.hpp> #include <boost/phoenix/core/meta_grammar.hpp> #include <boost/phoenix/core/terminal_fwd.hpp> #include <boost/phoenix/core/is_nullary.hpp> #include <boost/phoenix/core/environment.hpp> #include <boost/phoenix/support/vector.hpp> #include <boost/fusion/sequence/intrinsic/at_c.hpp> #include <boost/type_traits/remove_cv.hpp> #include <boost/type_traits/remove_reference.hpp> #include <boost/log/detail/config.hpp> #include <boost/log/detail/custom_terminal_spec.hpp> #include <boost/log/utility/formatting_ostream.hpp> #include <boost/log/detail/header.hpp> #ifdef BOOST_HAS_PRAGMA_ONCE #pragma once #endif namespace boost { BOOST_LOG_OPEN_NAMESPACE namespace expressions { namespace aux { //! String size limiting decorator stream output terminal template< typename LeftT, typename SubactorT, typename CharT > class max_size_decorator_output_terminal { private: //! Self type typedef max_size_decorator_output_terminal< LeftT, SubactorT, CharT > this_type; public: #ifndef BOOST_LOG_DOXYGEN_PASS //! Internal typedef for type categorization typedef void _is_boost_log_terminal; #endif //! Character type typedef CharT char_type; //! String type typedef std::basic_string< char_type > string_type; //! String size type typedef std::size_t size_type; //! Adopted actor type typedef SubactorT subactor_type; //! Result type definition template< typename > struct result; template< typename ThisT, typename ContextT > struct result< ThisT(ContextT) > { typedef typename remove_cv< typename remove_reference< ContextT >::type >::type context_type; typedef typename phoenix::evaluator::impl< typename LeftT::proto_base_expr&, context_type, phoenix::unused >::result_type type; }; private: //! Left argument actor LeftT m_left; //! Adopted formatter actor subactor_type m_subactor; //! Max size of the formatted string produced by the adopted formatter size_type m_max_size; //! Overflow marker string_type m_overflow_marker; public: /*! * Initializing constructor. Creates decorator of the \a fmt formatter with the specified \a decorations. */ max_size_decorator_output_terminal(LeftT const& left, subactor_type const& sub, size_type max_size, string_type const& overflow_marker = string_type()) : m_left(left), m_subactor(sub), m_max_size(max_size), m_overflow_marker(overflow_marker) { BOOST_ASSERT(overflow_marker.size() <= max_size); } /*! * Copy constructor */ max_size_decorator_output_terminal(max_size_decorator_output_terminal const& that) : m_left(that.m_left), m_subactor(that.m_subactor), m_max_size(that.m_max_size), m_overflow_marker(that.m_overflow_marker) { } /*! * Invokation operator */ template< typename ContextT > typename result< this_type(ContextT const&) >::type operator() (ContextT const& ctx) { // Flush the stream and keep the current write position in the target string typedef typename result< this_type(ContextT const&) >::type result_type; result_type strm = phoenix::eval(m_left, ctx); strm.flush(); if (!strm.rdbuf()->storage_overflow()) { const size_type old_max_size = strm.rdbuf()->max_size(); const size_type start_pos = strm.rdbuf()->storage()->size(), max_size_left = strm.rdbuf()->storage()->max_size() - start_pos; strm.rdbuf()->max_size(start_pos + (m_max_size <= max_size_left ? m_max_size : max_size_left)); try { // Invoke the adopted formatter phoenix::eval(m_subactor, ctx); // Flush the buffered characters and apply decorations strm.flush(); if (strm.rdbuf()->storage_overflow()) { if (!m_overflow_marker.empty()) { // Free up space for the overflow marker strm.rdbuf()->max_size(strm.rdbuf()->max_size() - m_overflow_marker.size()); // Append the marker strm.rdbuf()->max_size(strm.rdbuf()->storage()->max_size()); strm.rdbuf()->storage_overflow(false); strm.rdbuf()->append(m_overflow_marker.data(), m_overflow_marker.size()); } else { strm.rdbuf()->storage_overflow(false); } } // Restore the original size limit strm.rdbuf()->max_size(old_max_size); } catch (...) { strm.rdbuf()->storage_overflow(false); strm.rdbuf()->max_size(old_max_size); throw; } } return strm; } /*! * Invokation operator */ template< typename ContextT > typename result< const this_type(ContextT const&) >::type operator() (ContextT const& ctx) const { // Flush the stream and keep the current write position in the target string typedef typename result< const this_type(ContextT const&) >::type result_type; result_type strm = phoenix::eval(m_left, ctx); strm.flush(); if (!strm.rdbuf()->storage_overflow()) { const size_type old_max_size = strm.rdbuf()->max_size(); const size_type start_pos = strm.rdbuf()->storage()->size(), max_size_left = strm.rdbuf()->storage()->max_size() - start_pos; strm.rdbuf()->max_size(start_pos + (m_max_size <= max_size_left ? m_max_size : max_size_left)); try { // Invoke the adopted formatter phoenix::eval(m_subactor, ctx); // Flush the buffered characters and apply decorations strm.flush(); if (strm.rdbuf()->storage_overflow()) { if (!m_overflow_marker.empty()) { // Free up space for the overflow marker strm.rdbuf()->max_size(strm.rdbuf()->max_size() - m_overflow_marker.size()); // Append the marker strm.rdbuf()->max_size(strm.rdbuf()->storage()->max_size()); strm.rdbuf()->storage_overflow(false); strm.rdbuf()->append(m_overflow_marker.data(), m_overflow_marker.size()); } else { strm.rdbuf()->storage_overflow(false); } } // Restore the original size limit strm.rdbuf()->max_size(old_max_size); } catch (...) { strm.rdbuf()->storage_overflow(false); strm.rdbuf()->max_size(old_max_size); throw; } } return strm; } BOOST_DELETED_FUNCTION(max_size_decorator_output_terminal()) }; } // namespace aux /*! * String size limiting decorator terminal class. This formatter allows to limit the maximum total length * of the strings generated by other formatters. * * The \c max_size_decorator_terminal class aggregates the formatter being decorated, the maximum string length * it can produce and an optional truncation marker string, which will be put at the end of the output if the limit is exceeded. Note that * the marker length is included in the limit and as such must not exceed it. * The \c max_size_decorator_terminal class is a formatter itself, so it can be used to construct * more complex formatters, including nesting decorators. */ template< typename SubactorT, typename CharT > class max_size_decorator_terminal { private: //! Self type typedef max_size_decorator_terminal< SubactorT, CharT > this_type; public: #ifndef BOOST_LOG_DOXYGEN_PASS //! Internal typedef for type categorization typedef void _is_boost_log_terminal; #endif //! Character type typedef CharT char_type; //! String type typedef std::basic_string< char_type > string_type; //! String size type typedef std::size_t size_type; //! Stream type typedef basic_formatting_ostream< char_type > stream_type; //! Adopted actor type typedef SubactorT subactor_type; //! Result type definition typedef string_type result_type; private: //! Adopted formatter actor subactor_type m_subactor; //! Max size of the formatted string produced by the adopted formatter size_type m_max_size; //! Overflow marker string_type m_overflow_marker; public: /*! * Initializing constructor. */ max_size_decorator_terminal(subactor_type const& sub, size_type max_size, string_type const& overflow_marker = string_type()) : m_subactor(sub), m_max_size(max_size), m_overflow_marker(overflow_marker) { BOOST_ASSERT(overflow_marker.size() <= max_size); } /*! * Copy constructor */ max_size_decorator_terminal(max_size_decorator_terminal const& that) : m_subactor(that.m_subactor), m_max_size(that.m_max_size), m_overflow_marker(that.m_overflow_marker) { } /*! * \returns Adopted subactor */ subactor_type const& get_subactor() const { return m_subactor; } /*! * \returns Max string size limit */ size_type get_max_size() const { return m_max_size; } /*! * \returns Max string size limit */ string_type const& get_overflow_marker() const { return m_overflow_marker; } /*! * Invokation operator */ template< typename ContextT > result_type operator() (ContextT const& ctx) { string_type str; stream_type strm(str); strm.rdbuf()->max_size(m_max_size); // Invoke the adopted formatter typedef phoenix::vector3< subactor_type*, typename fusion::result_of::at_c< typename remove_cv< typename remove_reference< typename phoenix::result_of::env< ContextT const& >::type >::type >::type::args_type, 0 >::type, stream_type& > env_type; env_type env = { boost::addressof(m_subactor), fusion::at_c< 0 >(phoenix::env(ctx).args()), strm }; phoenix::eval(m_subactor, phoenix::make_context(env, phoenix::actions(ctx))); // Flush the buffered characters and see of overflow happened strm.flush(); if (strm.rdbuf()->storage_overflow() && !m_overflow_marker.empty()) { strm.rdbuf()->max_size(strm.rdbuf()->max_size() - m_overflow_marker.size()); strm.rdbuf()->max_size(str.max_size()); strm.rdbuf()->storage_overflow(false); strm.rdbuf()->append(m_overflow_marker.data(), m_overflow_marker.size()); strm.flush(); } return BOOST_LOG_NRVO_RESULT(str); } /*! * Invokation operator */ template< typename ContextT > result_type operator() (ContextT const& ctx) const { string_type str; stream_type strm(str); strm.rdbuf()->max_size(m_max_size); // Invoke the adopted formatter typedef phoenix::vector3< const subactor_type*, typename fusion::result_of::at_c< typename remove_cv< typename remove_reference< typename phoenix::result_of::env< ContextT const& >::type >::type >::type::args_type, 0 >::type, stream_type& > env_type; env_type env = { boost::addressof(m_subactor), fusion::at_c< 0 >(phoenix::env(ctx).args()), strm }; phoenix::eval(m_subactor, phoenix::make_context(env, phoenix::actions(ctx))); // Flush the buffered characters and see of overflow happened strm.flush(); if (strm.rdbuf()->storage_overflow()) { strm.rdbuf()->max_size(strm.rdbuf()->max_size() - m_overflow_marker.size()); strm.rdbuf()->max_size(str.max_size()); strm.rdbuf()->storage_overflow(false); strm.rdbuf()->append(m_overflow_marker.data(), m_overflow_marker.size()); strm.flush(); } return BOOST_LOG_NRVO_RESULT(str); } BOOST_DELETED_FUNCTION(max_size_decorator_terminal()) }; /*! * Character decorator actor */ template< typename SubactorT, typename CharT, template< typename > class ActorT = phoenix::actor > class max_size_decorator_actor : public ActorT< max_size_decorator_terminal< SubactorT, CharT > > { public: //! Base terminal type typedef max_size_decorator_terminal< SubactorT, CharT > terminal_type; //! Character type typedef typename terminal_type::char_type char_type; //! Base actor type typedef ActorT< terminal_type > base_type; public: //! Initializing constructor explicit max_size_decorator_actor(base_type const& act) : base_type(act) { } //! Returns reference to the terminal terminal_type const& get_terminal() const { return this->proto_expr_.child0; } }; #ifndef BOOST_LOG_DOXYGEN_PASS #define BOOST_LOG_AUX_OVERLOAD(left_ref, right_ref)\ template< typename LeftExprT, typename SubactorT, typename CharT, template< typename > class ActorT >\ BOOST_FORCEINLINE phoenix::actor< aux::max_size_decorator_output_terminal< phoenix::actor< LeftExprT >, SubactorT, CharT > >\ operator<< (phoenix::actor< LeftExprT > left_ref left, max_size_decorator_actor< SubactorT, CharT, ActorT > right_ref right)\ {\ typedef aux::max_size_decorator_output_terminal< phoenix::actor< LeftExprT >, SubactorT, CharT > terminal_type;\ phoenix::actor< terminal_type > actor = {{ terminal_type(left, right.get_terminal().get_subactor(), right.get_terminal().get_max_size(), right.get_terminal().get_overflow_marker()) }};\ return actor;\ } #include <boost/log/detail/generate_overloads.hpp> #undef BOOST_LOG_AUX_OVERLOAD #endif // BOOST_LOG_DOXYGEN_PASS namespace aux { template< typename CharT > class max_size_decorator_gen { private: typedef CharT char_type; typedef std::basic_string< char_type > string_type; typedef std::size_t size_type; private: size_type m_max_size; string_type m_overflow_marker; public: explicit max_size_decorator_gen(size_type max_size, string_type const& overflow_marker = string_type()) : m_max_size(max_size), m_overflow_marker(overflow_marker) { BOOST_ASSERT(overflow_marker.size() <= max_size); } template< typename SubactorT > BOOST_FORCEINLINE max_size_decorator_actor< SubactorT, char_type > operator[] (SubactorT const& subactor) const { typedef max_size_decorator_actor< SubactorT, char_type > result_type; typedef typename result_type::terminal_type terminal_type; typename result_type::base_type act = {{ terminal_type(subactor, m_max_size, m_overflow_marker) }}; return result_type(act); } }; } // namespace aux /*! * The function returns a decorator generator object. The generator provides <tt>operator[]</tt> that can be used * to construct the actual decorator. * * \param max_size The maximum number of characters (i.e. string element objects) that the decorated formatter can produce. */ template< typename CharT > BOOST_FORCEINLINE aux::max_size_decorator_gen< CharT > max_size_decor(std::size_t max_size) { return aux::max_size_decorator_gen< CharT >(max_size); } /*! * The function returns a decorator generator object. The generator provides <tt>operator[]</tt> that can be used * to construct the actual decorator. * * \param max_size The maximum number of characters (i.e. string element objects) that the decorated formatter can produce. * \param overflow_marker The marker string which is appended to the output if the \a max_size limit is exceeded. Must be * a non-null pointer to a zero-terminated string. * * \pre The \a overflow_marker length must not exceed the \a max_size limit. */ template< typename CharT > BOOST_FORCEINLINE aux::max_size_decorator_gen< CharT > max_size_decor(std::size_t max_size, const CharT* overflow_marker) { return aux::max_size_decorator_gen< CharT >(max_size, overflow_marker); } /*! * The function returns a decorator generator object. The generator provides <tt>operator[]</tt> that can be used * to construct the actual decorator. * * \param max_size The maximum number of characters (i.e. string element objects) that the decorated formatter can produce. * \param overflow_marker The marker string which is appended to the output if the \a max_size limit is exceeded. * * \pre The \a overflow_marker length must not exceed the \a max_size limit. */ template< typename CharT > BOOST_FORCEINLINE aux::max_size_decorator_gen< CharT > max_size_decor(std::size_t max_size, std::basic_string< CharT > const& overflow_marker) { return aux::max_size_decorator_gen< CharT >(max_size, overflow_marker); } } // namespace expressions BOOST_LOG_CLOSE_NAMESPACE // namespace log #ifndef BOOST_LOG_DOXYGEN_PASS namespace phoenix { namespace result_of { template< typename SubactorT, typename CharT > struct is_nullary< custom_terminal< boost::log::expressions::max_size_decorator_terminal< SubactorT, CharT > > > : public mpl::false_ { }; template< typename LeftT, typename SubactorT, typename CharT > struct is_nullary< custom_terminal< boost::log::expressions::aux::max_size_decorator_output_terminal< LeftT, SubactorT, CharT > > > : public mpl::false_ { }; } // namespace result_of } // namespace phoenix #endif } // namespace boost #include <boost/log/detail/footer.hpp> #endif // BOOST_LOG_EXPRESSIONS_FORMATTERS_MAX_SIZE_DECORATOR_HPP_INCLUDED_