/* * Copyright Andrey Semashev 2007 - 2014. * 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 formatter_parser.hpp * \author Andrey Semashev * \date 07.04.2008 * * The header contains definition of a formatter parser function, along with facilities to * add support for custom formatters. */ #ifndef BOOST_LOG_UTILITY_SETUP_FORMATTER_PARSER_HPP_INCLUDED_ #define BOOST_LOG_UTILITY_SETUP_FORMATTER_PARSER_HPP_INCLUDED_ #include #include #include #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 /*! * Formatter factory base interface. */ template< typename CharT > struct formatter_factory { //! Character type typedef CharT char_type; //! String type typedef std::basic_string< char_type > string_type; //! The formatter function object typedef basic_formatter< char_type > formatter_type; /*! * Type of the map of formatter factory arguments [argument name -> argument value]. * This type of maps will be passed to formatter factories on attempt to create a formatter. */ typedef std::map< string_type, string_type > args_map; /*! * Default constructor */ BOOST_DEFAULTED_FUNCTION(formatter_factory(), {}) /*! * Virtual destructor */ virtual ~formatter_factory() {} /*! * The function creates a formatter for the specified attribute. * * \param name Attribute name * \param args Formatter arguments */ virtual formatter_type create_formatter(attribute_name const& name, args_map const& args) = 0; BOOST_DELETED_FUNCTION(formatter_factory(formatter_factory const&)) BOOST_DELETED_FUNCTION(formatter_factory& operator= (formatter_factory const&)) }; /*! * Base class for formatter factories. This class provides default implementation of formatter expressions for * types supporting stream output. The factory does not take into account any additional parameters that may be specified. */ template< typename CharT, typename AttributeValueT > class basic_formatter_factory : public formatter_factory< CharT > { private: typedef formatter_factory< CharT > base_type; public: //! Attribute value type typedef AttributeValueT value_type; // Type imports from the base class typedef typename base_type::formatter_type formatter_type; typedef typename base_type::args_map args_map; /*! * The function creates a formatter for the specified attribute. * * \param name Attribute name * \param args Formatter arguments */ formatter_type create_formatter(attribute_name const& name, args_map const& args) { return formatter_type(expressions::stream << expressions::attr< value_type >(name)); } }; /*! * \brief The function registers a user-defined formatter factory * * The function registers a user-defined formatter factory. The registered factory function will be * called when the formatter parser detects the specified attribute name in the formatter string. * * \pre !!attr_name && !!factory. * * \param attr_name Attribute name * \param factory Pointer to the formatter factory */ template< typename CharT > BOOST_LOG_SETUP_API void register_formatter_factory( attribute_name const& attr_name, shared_ptr< formatter_factory< CharT > > const& factory); /*! * \brief The function registers a user-defined formatter factory * * The function registers a user-defined formatter factory. The registered factory function will be * called when the formatter parser detects the specified attribute name in the formatter string. * * \pre !!attr_name && !!factory. * * \param attr_name Attribute name * \param factory Pointer to the formatter factory */ template< typename FactoryT > inline typename enable_if< is_base_and_derived< formatter_factory< typename FactoryT::char_type >, FactoryT > >::type register_formatter_factory(attribute_name const& attr_name, shared_ptr< FactoryT > const& factory) { typedef formatter_factory< typename FactoryT::char_type > factory_base; register_formatter_factory(attr_name, boost::static_pointer_cast< factory_base >(factory)); } /*! * \brief The function registers a simple formatter factory * * The function registers a simple formatter factory. The registered factory will generate formatters * that will be equivalent to the log::expressions::attr formatter (i.e. that will use the * native \c operator<< to format the attribute value). The factory does not use any arguments from the format string, * if specified. * * \pre !!attr_name. * * \param attr_name Attribute name */ template< typename AttributeValueT, typename CharT > inline void register_simple_formatter_factory(attribute_name const& attr_name) { shared_ptr< formatter_factory< CharT > > factory = boost::make_shared< basic_formatter_factory< CharT, AttributeValueT > >(); register_formatter_factory(attr_name, factory); } /*! * The function parses a formatter from the sequence of characters * * \pre begin <= end, both pointers must not be NULL * \param begin Pointer to the first character of the sequence * \param end Pointer to the after-the-last character of the sequence * \return The parsed formatter. * * \b Throws: An std::exception-based exception, if a formatter cannot be recognized in the character sequence. */ template< typename CharT > BOOST_LOG_SETUP_API basic_formatter< CharT > parse_formatter(const CharT* begin, const CharT* end); /*! * The function parses a formatter from the string * * \param str A string that contains format description * \return The parsed formatter. * * \b Throws: An std::exception-based exception, if a formatter cannot be recognized in the character sequence. */ template< typename CharT, typename TraitsT, typename AllocatorT > inline basic_formatter< CharT > parse_formatter(std::basic_string< CharT, TraitsT, AllocatorT > const& str) { const CharT* p = str.c_str(); return parse_formatter(p, p + str.size()); } /*! * The function parses a formatter from the string * * \pre str != NULL, str points to a zero-terminated string * \param str A string that contains format description. * \return The parsed formatter. * * \b Throws: An std::exception-based exception, if a formatter cannot be recognized in the character sequence. */ template< typename CharT > inline basic_formatter< CharT > parse_formatter(const CharT* str) { return parse_formatter(str, str + std::char_traits< CharT >::length(str)); } BOOST_LOG_CLOSE_NAMESPACE // namespace log } // namespace boost #include #endif // BOOST_LOG_UTILITY_SETUP_FORMATTER_PARSER_HPP_INCLUDED_