/* * 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 attribute_mapping.hpp * \author Andrey Semashev * \date 07.11.2008 * * The header contains facilities that are used in different sinks to map attribute values * used throughout the application to values used with the specific native logging API. * These tools are mostly needed to map application severity levels on native levels, * required by OS-specific sink backends. */ #ifndef BOOST_LOG_SINKS_ATTRIBUTE_MAPPING_HPP_INCLUDED_ #define BOOST_LOG_SINKS_ATTRIBUTE_MAPPING_HPP_INCLUDED_ #include #include #include #include #include #include #include #include #ifdef BOOST_HAS_PRAGMA_ONCE #pragma once #endif namespace boost { BOOST_LOG_OPEN_NAMESPACE namespace sinks { //! Base class for attribute mapping function objects template< typename MappedT > struct basic_mapping { //! Mapped value type typedef MappedT mapped_type; //! Result type typedef mapped_type result_type; }; namespace aux { //! Attribute value visitor template< typename MappedT > struct direct_mapping_visitor { typedef void result_type; typedef MappedT mapped_type; explicit direct_mapping_visitor(mapped_type& extracted) : m_Extracted(extracted) { } template< typename T > void operator() (T const& val) const { m_Extracted = mapped_type(val); } private: mapped_type& m_Extracted; }; // Specialization for the tagged integer template< typename IntT, typename TagT > struct direct_mapping_visitor< boost::log::aux::tagged_integer< IntT, TagT > > { typedef void result_type; typedef boost::log::aux::tagged_integer< IntT, TagT > mapped_type; explicit direct_mapping_visitor(mapped_type& extracted) : m_Extracted(extracted) { } template< typename T > void operator() (T const& val) const { mapped_type v = { static_cast< IntT >(val) }; m_Extracted = v; } private: mapped_type& m_Extracted; }; } // namespace aux /*! * \brief Straightforward mapping * * This type of mapping assumes that attribute with a particular name always * provides values that map directly onto the native values. The mapping * simply returns the extracted attribute value converted to the native value. */ template< typename MappedT, typename AttributeValueT = int > class basic_direct_mapping : public basic_mapping< MappedT > { //! Base type typedef basic_direct_mapping< MappedT > base_type; public: //! Attribute contained value type typedef AttributeValueT attribute_value_type; //! Mapped value type typedef typename base_type::mapped_type mapped_type; private: //! Attribute name const attribute_name m_Name; //! Visitor invoker for the attribute value value_visitor_invoker< attribute_value_type > m_Invoker; //! Default native value mapped_type m_DefaultValue; public: /*! * Constructor * * \param name Attribute name * \param default_value The default native value that is returned if the attribute value is not found */ explicit basic_direct_mapping(attribute_name const& name, mapped_type const& default_value) : m_Name(name), m_DefaultValue(default_value) { } /*! * Extraction operator * * \param rec A log record to extract value from * \return An extracted attribute value */ mapped_type operator() (record_view const& rec) const { mapped_type res = m_DefaultValue; aux::direct_mapping_visitor< mapped_type > vis(res); m_Invoker(m_Name, rec.attribute_values(), vis); return res; } }; /*! * \brief Customizable mapping * * The class allows to setup a custom mapping between an attribute and native values. * The mapping should be initialized similarly to the standard \c map container, by using * indexing operator and assignment. * * \note Unlike many other components of the library, exact type of the attribute value * must be specified in the template parameter \c AttributeValueT. Type sequences * are not supported. */ template< typename MappedT, typename AttributeValueT = int > class basic_custom_mapping : public basic_mapping< MappedT > { //! Base type typedef basic_mapping< MappedT > base_type; public: //! Attribute contained value type typedef AttributeValueT attribute_value_type; //! Mapped value type typedef typename base_type::mapped_type mapped_type; private: //! \cond //! Mapping type typedef std::map< attribute_value_type, mapped_type > mapping_type; //! Smart reference class for implementing insertion into the map class reference_proxy; friend class reference_proxy; class reference_proxy { mapping_type& m_Mapping; attribute_value_type m_Key; public: //! Constructor reference_proxy(mapping_type& mapping, attribute_value_type const& key) : m_Mapping(mapping), m_Key(key) {} //! Insertion reference_proxy const& operator= (mapped_type const& val) const { m_Mapping[m_Key] = val; return *this; } }; //! Attribute value visitor struct visitor; friend struct visitor; struct visitor { typedef void result_type; visitor(mapping_type const& mapping, mapped_type& extracted) : m_Mapping(mapping), m_Extracted(extracted) { } template< typename T > void operator() (T const& val) const { typename mapping_type::const_iterator it = m_Mapping.find(val); if (it != m_Mapping.end()) m_Extracted = it->second; } private: mapping_type const& m_Mapping; mapped_type& m_Extracted; }; //! \endcond private: //! Attribute name const attribute_name m_Name; //! Visitor invoker for the attribute value value_visitor_invoker< attribute_value_type > m_Invoker; //! Default native value mapped_type m_DefaultValue; //! Conversion mapping mapping_type m_Mapping; public: /*! * Constructor * * \param name Attribute name * \param default_value The default native value that is returned if the conversion cannot be performed */ explicit basic_custom_mapping(attribute_name const& name, mapped_type const& default_value) : m_Name(name), m_DefaultValue(default_value) { } /*! * Extraction operator. Extracts the attribute value and attempts to map it onto * the native value. * * \param rec A log record to extract value from * \return A mapped value, if mapping was successful, or the default value if * mapping did not succeed. */ mapped_type operator() (record_view const& rec) const { mapped_type res = m_DefaultValue; visitor vis(m_Mapping, res); m_Invoker(m_Name, rec.attribute_values(), vis); return res; } /*! * Insertion operator * * \param key Attribute value to be mapped * \return An object of unspecified type that allows to insert a new mapping through assignment. * The \a key argument becomes the key attribute value, and the assigned value becomes the * mapped native value. */ #ifndef BOOST_LOG_DOXYGEN_PASS reference_proxy operator[] (attribute_value_type const& key) #else implementation_defined operator[] (attribute_value_type const& key) #endif { return reference_proxy(m_Mapping, key); } }; } // namespace sinks BOOST_LOG_CLOSE_NAMESPACE // namespace log } // namespace boost #include #endif // BOOST_LOG_SINKS_ATTRIBUTE_MAPPING_HPP_INCLUDED_