/* * 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 formatters/named_scope.hpp * \author Andrey Semashev * \date 11.11.2012 * * The header contains a formatter function for named scope attribute values. */ #ifndef BOOST_LOG_EXPRESSIONS_FORMATTERS_NAMED_SCOPE_HPP_INCLUDED_ #define BOOST_LOG_EXPRESSIONS_FORMATTERS_NAMED_SCOPE_HPP_INCLUDED_ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #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 namespace expressions { //! Scope iteration directions enum scope_iteration_direction { forward, //!< Iterate through scopes from outermost to innermost reverse //!< Iterate through scopes from innermost to outermost }; namespace aux { #ifdef BOOST_LOG_USE_CHAR //! Parses the named scope format string and constructs the formatter function BOOST_LOG_API boost::log::aux::light_function< void (basic_formatting_ostream< char >&, attributes::named_scope::value_type::value_type const&) > parse_named_scope_format(const char* begin, const char* end); #endif #ifdef BOOST_LOG_USE_WCHAR_T //! Parses the named scope format string and constructs the formatter function BOOST_LOG_API boost::log::aux::light_function< void (basic_formatting_ostream< wchar_t >&, attributes::named_scope::value_type::value_type const&) > parse_named_scope_format(const wchar_t* begin, const wchar_t* end); #endif //! Parses the named scope format string and constructs the formatter function template< typename CharT > inline boost::log::aux::light_function< void (basic_formatting_ostream< CharT >&, attributes::named_scope::value_type::value_type const&) > parse_named_scope_format(const CharT* format) { return parse_named_scope_format(format, format + std::char_traits< CharT >::length(format)); } //! Parses the named scope format string and constructs the formatter function template< typename CharT, typename TraitsT, typename AllocatorT > inline boost::log::aux::light_function< void (basic_formatting_ostream< CharT >&, attributes::named_scope::value_type::value_type const&) > parse_named_scope_format(std::basic_string< CharT, TraitsT, AllocatorT > const& format) { const CharT* p = format.c_str(); return parse_named_scope_format(p, p + format.size()); } //! Parses the named scope format string and constructs the formatter function template< typename CharT, typename TraitsT > inline boost::log::aux::light_function< void (basic_formatting_ostream< CharT >&, attributes::named_scope::value_type::value_type const&) > parse_named_scope_format(basic_string_literal< CharT, TraitsT > const& format) { const CharT* p = format.c_str(); return parse_named_scope_format(p, p + format.size()); } template< typename CharT > class format_named_scope_impl { public: //! Function result type typedef void result_type; //! Character type typedef CharT char_type; //! String type typedef std::basic_string< char_type > string_type; //! Formatting stream type typedef basic_formatting_ostream< char_type > stream_type; //! Attribute value type typedef attributes::named_scope::value_type value_type; //! Named scope formatter typedef boost::log::aux::light_function< void (stream_type&, value_type::value_type const&) > element_formatter_type; private: //! Element formatting function element_formatter_type m_element_formatter; //! Element delimiter string_type m_delimiter; //! Incomplete list marker string_type m_incomplete_marker; //! Empty list marker string_type m_empty_marker; //! Maximum number of elements to output value_type::size_type m_depth; //! Iteration direction scope_iteration_direction m_direction; public: //! Initializing constructor format_named_scope_impl ( element_formatter_type const& element_formatter, string_type const& delimiter, string_type const& incomplete_marker, string_type const& empty_marker, value_type::size_type depth, scope_iteration_direction direction ) : m_element_formatter(element_formatter), m_delimiter(delimiter), m_incomplete_marker(incomplete_marker), m_empty_marker(empty_marker), m_depth(depth), m_direction(direction) { } //! Copy constructor format_named_scope_impl(format_named_scope_impl const& that) : m_element_formatter(that.m_element_formatter), m_delimiter(that.m_delimiter), m_incomplete_marker(that.m_incomplete_marker), m_empty_marker(that.m_empty_marker), m_depth(that.m_depth), m_direction(that.m_direction) { } //! Formatting operator result_type operator() (stream_type& strm, value_type const& scopes) const { if (!scopes.empty()) { if (m_direction == expressions::forward) format_forward(strm, scopes); else format_reverse(strm, scopes); } else { strm << m_empty_marker; } } private: //! The function performs formatting of the extracted scope stack in forward direction void format_forward(stream_type& strm, value_type const& scopes) const { value_type::const_iterator it, end = scopes.end(); if (m_depth > 0) { value_type::size_type const scopes_to_iterate = (std::min)(m_depth, scopes.size()); it = scopes.end(); std::advance(it, -static_cast< value_type::difference_type >(scopes_to_iterate)); } else { it = scopes.begin(); } if (it != end) { if (it != scopes.begin()) strm << m_incomplete_marker; m_element_formatter(strm, *it); for (++it; it != end; ++it) { strm << m_delimiter; m_element_formatter(strm, *it); } } } //! The function performs formatting of the extracted scope stack in reverse direction void format_reverse(stream_type& strm, value_type const& scopes) const { value_type::const_reverse_iterator it = scopes.rbegin(), end; if (m_depth > 0) { value_type::size_type const scopes_to_iterate = (std::min)(m_depth, scopes.size()); end = it; std::advance(end, static_cast< value_type::difference_type >(scopes_to_iterate)); } else { end = scopes.rend(); } if (it != end) { m_element_formatter(strm, *it); for (++it; it != end; ++it) { strm << m_delimiter; m_element_formatter(strm, *it); } if (it != scopes.rend()) strm << m_incomplete_marker; } } }; } // namespace aux /*! * Named scope formatter terminal. */ template< typename FallbackPolicyT, typename CharT > class format_named_scope_terminal { public: //! Internal typedef for type categorization typedef void _is_boost_log_terminal; //! Attribute value type typedef attributes::named_scope::value_type value_type; //! Fallback policy typedef FallbackPolicyT fallback_policy; //! Character type typedef CharT char_type; //! String type typedef std::basic_string< char_type > string_type; //! Formatting stream type typedef basic_formatting_ostream< char_type > stream_type; //! Formatter function typedef aux::format_named_scope_impl< char_type > formatter_function_type; //! Function result type typedef string_type result_type; private: //! Attribute value visitor invoker typedef value_visitor_invoker< value_type, fallback_policy > visitor_invoker_type; private: //! Attribute name attribute_name m_name; //! Formatter function formatter_function_type m_formatter; //! Attribute value visitor invoker visitor_invoker_type m_visitor_invoker; public: //! Initializing constructor template< typename FormatT > format_named_scope_terminal ( attribute_name const& name, fallback_policy const& fallback, FormatT const& element_format, string_type const& delimiter, string_type const& incomplete_marker, string_type const& empty_marker, value_type::size_type depth, scope_iteration_direction direction ) : m_name(name), m_formatter(aux::parse_named_scope_format(element_format), delimiter, incomplete_marker, empty_marker, depth, direction), m_visitor_invoker(fallback) { } //! Copy constructor format_named_scope_terminal(format_named_scope_terminal const& that) : m_name(that.m_name), m_formatter(that.m_formatter), m_visitor_invoker(that.m_visitor_invoker) { } //! Returns attribute name attribute_name get_name() const { return m_name; } //! Returns fallback policy fallback_policy const& get_fallback_policy() const { return m_visitor_invoker.get_fallback_policy(); } //! Retruns formatter function formatter_function_type const& get_formatter_function() const { return m_formatter; } //! Invokation operator template< typename ContextT > result_type operator() (ContextT const& ctx) { string_type str; stream_type strm(str); m_visitor_invoker(m_name, fusion::at_c< 0 >(phoenix::env(ctx).args()), binder1st< formatter_function_type&, stream_type& >(m_formatter, strm)); strm.flush(); return boost::move(str); } //! Invokation operator template< typename ContextT > result_type operator() (ContextT const& ctx) const { string_type str; stream_type strm(str); m_visitor_invoker(m_name, fusion::at_c< 0 >(phoenix::env(ctx).args()), binder1st< formatter_function_type const&, stream_type& >(m_formatter, strm)); strm.flush(); return boost::move(str); } BOOST_DELETED_FUNCTION(format_named_scope_terminal()) }; /*! * Named scope formatter actor. */ template< typename FallbackPolicyT, typename CharT, template< typename > class ActorT = phoenix::actor > class format_named_scope_actor : public ActorT< format_named_scope_terminal< FallbackPolicyT, CharT > > { public: //! Character type typedef CharT char_type; //! Fallback policy typedef FallbackPolicyT fallback_policy; //! Base terminal type typedef format_named_scope_terminal< fallback_policy, char_type > terminal_type; //! Attribute value type typedef typename terminal_type::value_type value_type; //! Formatter function typedef typename terminal_type::formatter_function_type formatter_function_type; //! Base actor type typedef ActorT< terminal_type > base_type; public: //! Initializing constructor explicit format_named_scope_actor(base_type const& act) : base_type(act) { } /*! * \returns The attribute name */ attribute_name get_name() const { return this->proto_expr_.child0.get_name(); } /*! * \returns Fallback policy */ fallback_policy const& get_fallback_policy() const { return this->proto_expr_.child0.get_fallback_policy(); } /*! * \returns Formatter function */ formatter_function_type const& get_formatter_function() const { return this->proto_expr_.child0.get_formatter_function(); } }; #ifndef BOOST_LOG_DOXYGEN_PASS #define BOOST_LOG_AUX_OVERLOAD(left_ref, right_ref)\ template< typename LeftExprT, typename FallbackPolicyT, typename CharT >\ BOOST_FORCEINLINE phoenix::actor< aux::attribute_output_terminal< phoenix::actor< LeftExprT >, attributes::named_scope::value_type, FallbackPolicyT, typename format_named_scope_actor< FallbackPolicyT, CharT >::formatter_function_type > >\ operator<< (phoenix::actor< LeftExprT > left_ref left, format_named_scope_actor< FallbackPolicyT, CharT > right_ref right)\ {\ typedef aux::attribute_output_terminal< phoenix::actor< LeftExprT >, attributes::named_scope::value_type, FallbackPolicyT, typename format_named_scope_actor< FallbackPolicyT, CharT >::formatter_function_type > terminal_type;\ phoenix::actor< terminal_type > actor = {{ terminal_type(left, right.get_name(), right.get_formatter_function(), right.get_fallback_policy()) }};\ return actor;\ } #include #undef BOOST_LOG_AUX_OVERLOAD #endif // BOOST_LOG_DOXYGEN_PASS namespace aux { //! Auxiliary traits to acquire default formatter parameters depending on the character type template< typename CharT > struct default_named_scope_params; #ifdef BOOST_LOG_USE_CHAR template< > struct default_named_scope_params< char > { static const char* forward_delimiter() { return "->"; } static const char* reverse_delimiter() { return "<-"; } static const char* incomplete_marker() { return "..."; } static const char* empty_marker() { return ""; } }; #endif #ifdef BOOST_LOG_USE_WCHAR_T template< > struct default_named_scope_params< wchar_t > { static const wchar_t* forward_delimiter() { return L"->"; } static const wchar_t* reverse_delimiter() { return L"<-"; } static const wchar_t* incomplete_marker() { return L"..."; } static const wchar_t* empty_marker() { return L""; } }; #endif template< typename CharT, template< typename > class ActorT, typename FallbackPolicyT, typename ArgsT > BOOST_FORCEINLINE format_named_scope_actor< FallbackPolicyT, CharT, ActorT > format_named_scope(attribute_name const& name, FallbackPolicyT const& fallback, ArgsT const& args) { typedef format_named_scope_actor< FallbackPolicyT, CharT, ActorT > actor_type; typedef typename actor_type::terminal_type terminal_type; typedef default_named_scope_params< CharT > default_params; scope_iteration_direction dir = args[keywords::iteration | expressions::forward]; const CharT* default_delimiter = (dir == expressions::forward ? default_params::forward_delimiter() : default_params::reverse_delimiter()); typename actor_type::base_type act = {{ terminal_type ( name, fallback, args[keywords::format], args[keywords::delimiter | default_delimiter], args[keywords::incomplete_marker | default_params::incomplete_marker()], args[keywords::empty_marker | default_params::empty_marker()], args[keywords::depth | static_cast< attributes::named_scope::value_type::size_type >(0)], dir ) }}; return actor_type(act); } } // namespace aux /*! * The function generates a manipulator node in a template expression. The manipulator must participate in a formatting * expression (stream output or \c format placeholder filler). * * \param name Attribute name * \param element_format Format string for a single named scope */ template< typename CharT > BOOST_FORCEINLINE format_named_scope_actor< fallback_to_none, CharT > format_named_scope(attribute_name const& name, const CharT* element_format) { typedef format_named_scope_actor< fallback_to_none, CharT > actor_type; typedef typename actor_type::terminal_type terminal_type; typename actor_type::base_type act = {{ terminal_type(name, fallback_to_none(), element_format) }}; return actor_type(act); } /*! * The function generates a manipulator node in a template expression. The manipulator must participate in a formatting * expression (stream output or \c format placeholder filler). * * \param name Attribute name * \param element_format Format string for a single named scope */ template< typename CharT > BOOST_FORCEINLINE format_named_scope_actor< fallback_to_none, CharT > format_named_scope(attribute_name const& name, std::basic_string< CharT > const& element_format) { typedef format_named_scope_actor< fallback_to_none, CharT > actor_type; typedef typename actor_type::terminal_type terminal_type; typename actor_type::base_type act = {{ terminal_type(name, fallback_to_none(), element_format) }}; return actor_type(act); } /*! * The function generates a manipulator node in a template expression. The manipulator must participate in a formatting * expression (stream output or \c format placeholder filler). * * \param keyword Attribute keyword * \param element_format Format string for a single named scope */ template< typename DescriptorT, template< typename > class ActorT, typename CharT > BOOST_FORCEINLINE format_named_scope_actor< fallback_to_none, CharT, ActorT > format_named_scope(attribute_keyword< DescriptorT, ActorT > const& keyword, const CharT* element_format) { BOOST_STATIC_ASSERT_MSG((is_same< typename DescriptorT::value_type, attributes::named_scope::value_type >::value),\ "Boost.Log: Named scope formatter only accepts attribute values of type attributes::named_scope::value_type."); typedef format_named_scope_actor< fallback_to_none, CharT, ActorT > actor_type; typedef typename actor_type::terminal_type terminal_type; typename actor_type::base_type act = {{ terminal_type(keyword.get_name(), fallback_to_none(), element_format) }}; return actor_type(act); } /*! * The function generates a manipulator node in a template expression. The manipulator must participate in a formatting * expression (stream output or \c format placeholder filler). * * \param keyword Attribute keyword * \param element_format Format string for a single named scope */ template< typename DescriptorT, template< typename > class ActorT, typename CharT > BOOST_FORCEINLINE format_named_scope_actor< fallback_to_none, CharT, ActorT > format_named_scope(attribute_keyword< DescriptorT, ActorT > const& keyword, std::basic_string< CharT > const& element_format) { BOOST_STATIC_ASSERT_MSG((is_same< typename DescriptorT::value_type, attributes::named_scope::value_type >::value),\ "Boost.Log: Named scope formatter only accepts attribute values of type attributes::named_scope::value_type."); typedef format_named_scope_actor< fallback_to_none, CharT, ActorT > actor_type; typedef typename actor_type::terminal_type terminal_type; typename actor_type::base_type act = {{ terminal_type(keyword.get_name(), fallback_to_none(), element_format) }}; return actor_type(act); } /*! * The function generates a manipulator node in a template expression. The manipulator must participate in a formatting * expression (stream output or \c format placeholder filler). * * \param placeholder Attribute placeholder * \param element_format Format string for a single named scope */ template< typename T, typename FallbackPolicyT, typename TagT, template< typename > class ActorT, typename CharT > BOOST_FORCEINLINE format_named_scope_actor< FallbackPolicyT, CharT, ActorT > format_named_scope(attribute_actor< T, FallbackPolicyT, TagT, ActorT > const& placeholder, const CharT* element_format) { BOOST_STATIC_ASSERT_MSG((is_same< T, attributes::named_scope::value_type >::value),\ "Boost.Log: Named scope formatter only accepts attribute values of type attributes::named_scope::value_type."); typedef format_named_scope_actor< FallbackPolicyT, CharT, ActorT > actor_type; typedef typename actor_type::terminal_type terminal_type; typename actor_type::base_type act = {{ terminal_type(placeholder.get_name(), placeholder.get_fallback_policy(), element_format) }}; return actor_type(act); } /*! * The function generates a manipulator node in a template expression. The manipulator must participate in a formatting * expression (stream output or \c format placeholder filler). * * \param placeholder Attribute placeholder * \param element_format Format string for a single named scope */ template< typename T, typename FallbackPolicyT, typename TagT, template< typename > class ActorT, typename CharT > BOOST_FORCEINLINE format_named_scope_actor< FallbackPolicyT, CharT, ActorT > format_named_scope(attribute_actor< T, FallbackPolicyT, TagT, ActorT > const& placeholder, std::basic_string< CharT > const& element_format) { BOOST_STATIC_ASSERT_MSG((is_same< T, attributes::named_scope::value_type >::value),\ "Boost.Log: Named scope formatter only accepts attribute values of type attributes::named_scope::value_type."); typedef format_named_scope_actor< FallbackPolicyT, CharT, ActorT > actor_type; typedef typename actor_type::terminal_type terminal_type; typename actor_type::base_type act = {{ terminal_type(placeholder.get_name(), placeholder.get_fallback_policy(), element_format) }}; return actor_type(act); } #if !defined(BOOST_LOG_DOXYGEN_PASS) # define BOOST_PP_FILENAME_1 # define BOOST_PP_ITERATION_LIMITS (1, 6) # include BOOST_PP_ITERATE() #else // BOOST_LOG_DOXYGEN_PASS /*! * Formatter generator. Construct the named scope formatter with the specified formatting parameters. * * \param name Attribute name * \param args An set of named parameters. Supported parameters: * \li \c format - A format string for named scopes. The string can contain "%n", "%f" and "%l" placeholders for the scope name, file and line number, respectively. This parameter is mandatory. * \li \c delimiter - A string that is used to delimit the formatted scope names. Default: "->" or "<-", depending on the iteration direction. * \li \c incomplete_marker - A string that is used to indicate that the list was printed incomplete because of depth limitation. Default: "...". * \li \c empty_marker - A string that is output in case if the scope list is empty. Default: "", i.e. nothing is output. * \li \c iteration - Iteration direction, see \c scope_iteration_direction enumeration. Default: forward. * \li \c depth - Iteration depth. Default: unlimited. */ template< typename... ArgsT > unspecified format_named_scope(attribute_name const& name, ArgsT... const& args); /*! \overload */ template< typename DescriptorT, template< typename > class ActorT, typename... ArgsT > unspecified format_named_scope(attribute_keyword< DescriptorT, ActorT > const& keyword, ArgsT... const& args); /*! \overload */ template< typename T, typename FallbackPolicyT, typename TagT, template< typename > class ActorT, typename... ArgsT > unspecified format_named_scope(attribute_actor< T, FallbackPolicyT, TagT, ActorT > const& placeholder, ArgsT... const& args); #endif // BOOST_LOG_DOXYGEN_PASS } // namespace expressions BOOST_LOG_CLOSE_NAMESPACE // namespace log #ifndef BOOST_LOG_DOXYGEN_PASS namespace phoenix { namespace result_of { template< typename FallbackPolicyT, typename CharT > struct is_nullary< custom_terminal< boost::log::expressions::format_named_scope_terminal< FallbackPolicyT, CharT > > > : public mpl::false_ { }; } // namespace result_of } // namespace phoenix #endif } // namespace boost #include #endif // BOOST_LOG_EXPRESSIONS_FORMATTERS_NAMED_SCOPE_HPP_INCLUDED_