/* * 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 matches.hpp * \author Andrey Semashev * \date 02.09.2012 * * The header contains implementation of a \c matches predicate in template expressions. */ #ifndef BOOST_LOG_EXPRESSIONS_PREDICATES_MATCHES_HPP_INCLUDED_ #define BOOST_LOG_EXPRESSIONS_PREDICATES_MATCHES_HPP_INCLUDED_ #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 expressions { /*! * The predicate checks if the attribute value matches a regular expression. The attribute value is assumed to be of a string type. */ template< typename T, typename RegexT, typename FallbackPolicyT = fallback_to_none > class attribute_matches : public aux::attribute_predicate< T, typename boost::log::aux::match_traits< RegexT >::compiled_type, matches_fun, FallbackPolicyT > { typedef aux::attribute_predicate< T, typename boost::log::aux::match_traits< RegexT >::compiled_type, matches_fun, FallbackPolicyT > base_type; public: /*! * Initializing constructor * * \param name Attribute name * \param rex The regular expression to match the attribute value against */ attribute_matches(attribute_name const& name, RegexT const& rex) : base_type(name, boost::log::aux::match_traits< RegexT >::compile(rex)) { } /*! * Initializing constructor * * \param name Attribute name * \param rex The regular expression to match the attribute value against * \param arg Additional parameter for the fallback policy */ template< typename U > attribute_matches(attribute_name const& name, RegexT const& rex, U const& arg) : base_type(name, boost::log::aux::match_traits< RegexT >::compile(rex), arg) { } }; /*! * The function generates a terminal node in a template expression. The node will check if the attribute value, * which is assumed to be a string, matches the specified regular expression. */ template< typename T, typename FallbackPolicyT, typename TagT, template< typename > class ActorT, typename RegexT > BOOST_FORCEINLINE ActorT< aux::unary_function_terminal< attribute_matches< T, RegexT, FallbackPolicyT > > > matches(attribute_actor< T, FallbackPolicyT, TagT, ActorT > const& attr, RegexT const& rex) { typedef aux::unary_function_terminal< attribute_matches< T, RegexT, FallbackPolicyT > > terminal_type; ActorT< terminal_type > act = {{ terminal_type(attr.get_name(), rex, attr.get_fallback_policy()) }}; return act; } /*! * The function generates a terminal node in a template expression. The node will check if the attribute value, * which is assumed to be a string, matches the specified regular expression. */ template< typename DescriptorT, template< typename > class ActorT, typename RegexT > BOOST_FORCEINLINE ActorT< aux::unary_function_terminal< attribute_matches< typename DescriptorT::value_type, RegexT > > > matches(attribute_keyword< DescriptorT, ActorT > const&, RegexT const& rex) { typedef aux::unary_function_terminal< attribute_matches< typename DescriptorT::value_type, RegexT > > terminal_type; ActorT< terminal_type > act = {{ terminal_type(DescriptorT::get_name(), rex) }}; return act; } /*! * The function generates a terminal node in a template expression. The node will check if the attribute value, * which is assumed to be a string, matches the specified regular expression. */ template< typename T, typename RegexT > BOOST_FORCEINLINE phoenix::actor< aux::unary_function_terminal< attribute_matches< T, RegexT > > > matches(attribute_name const& name, RegexT const& rex) { typedef aux::unary_function_terminal< attribute_matches< T, RegexT > > terminal_type; phoenix::actor< terminal_type > act = {{ terminal_type(name, rex) }}; return act; } } // namespace expressions BOOST_LOG_CLOSE_NAMESPACE // namespace log } // namespace boost #include #endif // BOOST_LOG_EXPRESSIONS_PREDICATES_MATCHES_HPP_INCLUDED_