/* * Copyright Andrey Semashev 2007 - 2015. * 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 format.hpp * \author Andrey Semashev * \date 15.11.2012 * * \brief This header is the Boost.Log library implementation, see the library documentation * at http://www.boost.org/doc/libs/release/libs/log/doc/html/index.html. */ #ifndef BOOST_LOG_DETAIL_FORMAT_HPP_INCLUDED_ #define BOOST_LOG_DETAIL_FORMAT_HPP_INCLUDED_ #include #include #include #include #include #include #include #include #include #include #include #ifdef BOOST_HAS_PRAGMA_ONCE #pragma once #endif namespace boost { BOOST_LOG_OPEN_NAMESPACE namespace aux { //! An element (either literal or placeholder) of the format string struct format_element { //! Argument placeholder number or -1 if it's not a placeholder (i.e. a literal) int arg_number; //! If the element describes a constant literal, the starting character and length of the literal unsigned int literal_start_pos, literal_len; format_element() : arg_number(0), literal_start_pos(0), literal_len(0) { } static format_element literal(unsigned int start_pos, unsigned int len) { format_element el; el.arg_number = -1; el.literal_start_pos = start_pos; el.literal_len = len; return el; } static format_element positional_argument(unsigned int arg_n) { format_element el; el.arg_number = arg_n; return el; } }; //! Parsed format string description template< typename CharT > struct format_description { BOOST_COPYABLE_AND_MOVABLE_ALT(format_description) public: //! Character type typedef CharT char_type; //! String type typedef std::basic_string< char_type > string_type; //! Array of format element descriptors typedef std::vector< format_element > format_element_list; //! Characters of all literal parts of the format string string_type literal_chars; //! Format element descriptors format_element_list format_elements; BOOST_DEFAULTED_FUNCTION(format_description(), {}) format_description(format_description const& that) : literal_chars(that.literal_chars), format_elements(that.format_elements) { } format_description(BOOST_RV_REF(format_description) that) { literal_chars.swap(that.literal_chars); format_elements.swap(that.format_elements); } format_description& operator= (format_description that) { literal_chars.swap(that.literal_chars); format_elements.swap(that.format_elements); return *this; } }; //! Parses format string template< typename CharT > BOOST_LOG_API format_description< CharT > parse_format(const CharT* begin, const CharT* end); //! Parses format string template< typename CharT > BOOST_FORCEINLINE format_description< CharT > parse_format(const CharT* begin) { return parse_format(begin, begin + std::char_traits< CharT >::length(begin)); } //! Parses format string template< typename CharT, typename TraitsT, typename AllocatorT > BOOST_FORCEINLINE format_description< CharT > parse_format(std::basic_string< CharT, TraitsT, AllocatorT > const& fmt) { const CharT* begin = fmt.c_str(); return parse_format(begin, begin + fmt.size()); } //! Formatter object template< typename CharT > class basic_format { public: //! Character type typedef CharT char_type; //! String type typedef std::basic_string< char_type > string_type; //! Stream type typedef basic_formatting_ostream< char_type > stream_type; //! Format description type typedef format_description< char_type > format_description_type; //! The pump receives arguments and formats them into strings. At destruction the pump composes the final string in the attached stream. class pump; friend class pump; private: //! Formatting params for a single placeholder in the format string struct formatting_params { //! Formatting element index in the format description unsigned int element_idx; //! Formatting result string_type target; formatting_params() : element_idx(~0u) {} }; typedef std::vector< formatting_params > formatting_params_list; private: //! Format string description format_description_type m_format; //! Formatting parameters for all placeholders formatting_params_list m_formatting_params; //! Current formatting position unsigned int m_current_idx; public: //! Initializing constructor explicit basic_format(string_type const& fmt) : m_format(aux::parse_format(fmt)), m_current_idx(0) { init_params(); } //! Initializing constructor explicit basic_format(const char_type* fmt) : m_format(aux::parse_format(fmt)), m_current_idx(0) { init_params(); } //! Clears all formatted strings and resets the current formatting position void clear() BOOST_NOEXCEPT { for (typename formatting_params_list::iterator it = m_formatting_params.begin(), end = m_formatting_params.end(); it != end; ++it) { it->target.clear(); } m_current_idx = 0; } //! Creates a pump that will receive all format arguments and put the formatted string into the stream pump make_pump(stream_type& strm) { // Flush the stream beforehand so that the pump can safely switch the stream storage string strm.flush(); return pump(*this, strm); } //! Composes the final string from the formatted pieces string_type str() const { string_type result; compose(result); return BOOST_LOG_NRVO_RESULT(result); } private: //! Initializes the formatting params void init_params() { typename format_description_type::format_element_list::const_iterator it = m_format.format_elements.begin(), end = m_format.format_elements.end(); for (; it != end; ++it) { if (it->arg_number >= 0) { if (static_cast< unsigned int >(it->arg_number) >= m_formatting_params.size()) m_formatting_params.resize(it->arg_number + 1); m_formatting_params[it->arg_number].element_idx = static_cast< unsigned int >(it - m_format.format_elements.begin()); } } } //! Composes the final string from the formatted pieces template< typename T > void compose(T& str) const { typename format_description_type::format_element_list::const_iterator it = m_format.format_elements.begin(), end = m_format.format_elements.end(); for (; it != end; ++it) { if (it->arg_number >= 0) { // This is a placeholder string_type const& target = m_formatting_params[it->arg_number].target; str.append(target.data(), target.size()); } else { // This is a literal const char_type* p = m_format.literal_chars.c_str() + it->literal_start_pos; str.append(p, it->literal_len); } } } }; //! The pump receives arguments and formats them into strings. At destruction the pump composes the final string in the attached stream. template< typename CharT > class basic_format< CharT >::pump { BOOST_MOVABLE_BUT_NOT_COPYABLE(pump) private: //! The guard temporarily replaces storage string in the specified stream struct scoped_storage { scoped_storage(stream_type& strm, string_type& storage) : m_stream(strm), m_storage_state_backup(strm.rdbuf()->get_storage_state()) { strm.attach(storage); } ~scoped_storage() { m_stream.rdbuf()->set_storage_state(m_storage_state_backup); } private: stream_type& m_stream; typename stream_type::streambuf_type::storage_state m_storage_state_backup; }; private: //! Reference to the owner basic_format* m_owner; //! Reference to the stream stream_type* m_stream; //! Unhandled exception count const unsigned int m_exception_count; public: //! Initializing constructor pump(basic_format& owner, stream_type& strm) BOOST_NOEXCEPT : m_owner(&owner), m_stream(&strm), m_exception_count(unhandled_exception_count()) { } //! Move constructor pump(BOOST_RV_REF(pump) that) BOOST_NOEXCEPT : m_owner(that.m_owner), m_stream(that.m_stream), m_exception_count(that.m_exception_count) { that.m_owner = NULL; that.m_stream = NULL; } //! Destructor ~pump() BOOST_NOEXCEPT_IF(false) { if (m_owner) { // Whether or not the destructor is called because of an exception, the format object has to be cleared boost::log::aux::cleanup_guard< basic_format< char_type > > cleanup1(*m_owner); BOOST_ASSERT(m_stream != NULL); if (m_exception_count >= unhandled_exception_count()) { // Compose the final string in the stream buffer m_stream->flush(); m_owner->compose(*m_stream->rdbuf()); } } } /*! * Puts an argument to the formatter. Note the pump has to be returned by value and not by reference in order this to * work with Boost.Phoenix expressions. Otherwise the pump that is returned from \c basic_format::make_pump is * destroyed after the first call to \c operator%, and the returned reference becomes dangling. */ template< typename T > pump operator% (T const& val) { BOOST_ASSERT_MSG(m_owner != NULL && m_stream != NULL, "Boost.Log: This basic_format::pump has already been moved from"); if (m_owner->m_current_idx < m_owner->m_formatting_params.size()) { scoped_storage storage_guard(*m_stream, m_owner->m_formatting_params[m_owner->m_current_idx].target); *m_stream << val; m_stream->flush(); ++m_owner->m_current_idx; } return boost::move(*this); } }; } // namespace aux BOOST_LOG_CLOSE_NAMESPACE // namespace log } // namespace boost #include #endif // BOOST_LOG_DETAIL_FORMAT_HPP_INCLUDED_