// // Copyright (c) Antony Polukhin, 2012-2014. // // 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) // #ifndef BOOST_TYPE_INDEX_HPP #define BOOST_TYPE_INDEX_HPP /// \file boost/type_index.hpp /// \brief Includes minimal set of headers required to use the Boost.TypeIndex library. /// /// By inclusion of this file most optimal type index classes will be included and used /// as a boost::typeindex::type_index and boost::typeindex::type_info. #include #ifdef BOOST_HAS_PRAGMA_ONCE # pragma once #endif #if defined(BOOST_TYPE_INDEX_USER_TYPEINDEX) # include BOOST_TYPE_INDEX_USER_TYPEINDEX # ifdef BOOST_HAS_PRAGMA_DETECT_MISMATCH # pragma detect_mismatch( "boost__type_index__abi", "user defined type_index class is used: " BOOST_STRINGIZE(BOOST_TYPE_INDEX_USER_TYPEINDEX)) # endif #elif (!defined(BOOST_NO_RTTI) && !defined(BOOST_TYPE_INDEX_FORCE_NO_RTTI_COMPATIBILITY)) || defined(BOOST_MSVC) # include # if defined(BOOST_NO_RTTI) || defined(BOOST_TYPE_INDEX_FORCE_NO_RTTI_COMPATIBILITY) # include # ifdef BOOST_HAS_PRAGMA_DETECT_MISMATCH # pragma detect_mismatch( "boost__type_index__abi", "RTTI is off - typeid() is used only for templates") # endif # else # ifdef BOOST_HAS_PRAGMA_DETECT_MISMATCH # pragma detect_mismatch( "boost__type_index__abi", "RTTI is used") # endif # endif #else # include # include # ifdef BOOST_HAS_PRAGMA_DETECT_MISMATCH # pragma detect_mismatch( "boost__type_index__abi", "RTTI is off - using CTTI") # endif #endif #ifndef BOOST_TYPE_INDEX_REGISTER_CLASS #define BOOST_TYPE_INDEX_REGISTER_CLASS #endif namespace boost { namespace typeindex { #if defined(BOOST_TYPE_INDEX_DOXYGEN_INVOKED) /// \def BOOST_TYPE_INDEX_FUNCTION_SIGNATURE /// BOOST_TYPE_INDEX_FUNCTION_SIGNATURE is used by boost::typeindex::ctti_type_index class to /// deduce the name of a type. If your compiler is not recognized /// by the TypeIndex library and you wish to work with boost::typeindex::ctti_type_index, you may /// define this macro by yourself. /// /// BOOST_TYPE_INDEX_FUNCTION_SIGNATURE must be defined to a compiler specific macro /// that outputs the \b whole function signature \b including \b template \b parameters. /// /// If your compiler is not recognised and BOOST_TYPE_INDEX_FUNCTION_SIGNATURE is not defined, /// then a compile-time error will arise at any attempt to use boost::typeindex::ctti_type_index classes. /// /// See BOOST_TYPE_INDEX_REGISTER_CTTI_PARSING_PARAMS and BOOST_TYPE_INDEX_CTTI_USER_DEFINED_PARSING /// for an information of how to tune the implementation to make a nice pretty_name() output. #define BOOST_TYPE_INDEX_FUNCTION_SIGNATURE BOOST_CURRENT_FUNCTION /// \def BOOST_TYPE_INDEX_CTTI_USER_DEFINED_PARSING /// This is a helper macro for making correct pretty_names() with RTTI off. /// /// BOOST_TYPE_INDEX_CTTI_USER_DEFINED_PARSING macro may be defined to /// '(begin_skip, end_skip, runtime_skip, runtime_skip_until)' with parameters for adding a /// support for compilers, that by default are not recognized by TypeIndex library. /// /// \b Example: /// /// Imagine the situation when /// \code boost::typeindex::ctti_type_index::type_id().pretty_name() \endcode /// returns the following string: /// \code "static const char *boost::detail::ctti::n() [T = int]" \endcode /// and \code boost::typeindex::ctti_type_index::type_id().pretty_name() \endcode returns the following: /// \code "static const char *boost::detail::ctti::n() [T = short]" \endcode /// /// As we may see first 39 characters are "static const char *boost::detail::ctti<" and they do not depend on /// the type T. After first 39 characters we have a human readable type name which is duplicated at the end /// of a string. String always ends on ']', which consumes 1 character. /// /// Now if we define `BOOST_TYPE_INDEX_CTTI_USER_DEFINED_PARSING` to /// `(39, 1, false, "")` we'll be getting \code "int>::n() [T = int" \endcode /// for `boost::typeindex::ctti_type_index::type_id().pretty_name()` and \code "short>::n() [T = short" \endcode /// for `boost::typeindex::ctti_type_index::type_id().pretty_name()`. /// /// Now we need to take additional care of the characters that go before the last mention of our type. We'll /// do that by telling the macro that we need to cut off everything that goes before the "T = " including the "T = " /// itself: /// /// \code (39, 1, true, "T = ") \endcode /// /// In case of GCC or Clang command line we need to add the following line while compiling all the sources: /// /// \code /// -DBOOST_TYPE_INDEX_CTTI_USER_DEFINED_PARSING='(39, 1, true, "T = ")' /// \endcode /// \param begin_skip How many characters must be skipped at the beginning of the type holding string. /// Must be a compile time constant. /// \param end_skip How many characters must be skipped at the end of the type holding string. /// Must be a compile time constant. /// \param runtime_skip Do we need additional checks at runtime to cut off the more characters. /// Must be `true` or `false`. /// \param runtime_skip_until Skip all the characters before the following string (including the string itself). /// Must be a compile time array of characters. /// /// See [RTTI emulation limitations](boost_typeindex/rtti_emulation_limitations.html) for more info. #define BOOST_TYPE_INDEX_CTTI_USER_DEFINED_PARSING (0, 0, false, "") /// Depending on a compiler flags, optimal implementation of type_index will be used /// as a default boost::typeindex::type_index. /// /// Could be a boost::typeindex::stl_type_index, boost::typeindex::ctti_type_index or /// user defined type_index class. /// /// \b See boost::typeindex::type_index_facade for a full description of type_index functions. typedef platform_specific type_index; #elif defined(BOOST_TYPE_INDEX_USER_TYPEINDEX) // Nothing to do #elif (!defined(BOOST_NO_RTTI) && !defined(BOOST_TYPE_INDEX_FORCE_NO_RTTI_COMPATIBILITY)) || defined(BOOST_MSVC) typedef boost::typeindex::stl_type_index type_index; #else typedef boost::typeindex::ctti_type_index type_index; #endif /// Depending on a compiler flags, optimal implementation of type_info will be used /// as a default boost::typeindex::type_info. /// /// Could be a std::type_info, boost::typeindex::detail::ctti_data or /// some user defined class. /// /// type_info \b is \b not copyable or default constructible. It is \b not assignable too! typedef type_index::type_info_t type_info; #if defined(BOOST_TYPE_INDEX_DOXYGEN_INVOKED) /// \def BOOST_TYPE_INDEX_USER_TYPEINDEX /// BOOST_TYPE_INDEX_USER_TYPEINDEX can be defined to the path to header file /// with user provided implementation of type_index. /// /// See [Making a custom type_index](boost_typeindex/making_a_custom_type_index.html) section /// of documentation for usage example. #define BOOST_TYPE_INDEX_USER_TYPEINDEX /// \def BOOST_TYPE_INDEX_REGISTER_CLASS /// BOOST_TYPE_INDEX_REGISTER_CLASS is used to help to emulate RTTI. /// Put this macro into the public section of polymorphic class to allow runtime type detection. /// /// Depending on the typeid() availability this macro will expand to nothing or to virtual helper function /// `virtual const type_info& boost_type_info_type_id_runtime_() const noexcept`. /// /// \b Example: /// \code /// class A { /// public: /// BOOST_TYPE_INDEX_REGISTER_CLASS /// virtual ~A(){} /// }; /// /// struct B: public A { /// BOOST_TYPE_INDEX_REGISTER_CLASS /// }; /// /// struct C: public B { /// BOOST_TYPE_INDEX_REGISTER_CLASS /// }; /// /// ... /// /// C c1; /// A* pc1 = &c1; /// assert(boost::typeindex::type_id() == boost::typeindex::type_id_runtime(*pc1)); /// \endcode #define BOOST_TYPE_INDEX_REGISTER_CLASS nothing-or-some-virtual-functions /// \def BOOST_TYPE_INDEX_FORCE_NO_RTTI_COMPATIBILITY /// BOOST_TYPE_INDEX_FORCE_NO_RTTI_COMPATIBILITY is a helper macro that must be defined if mixing /// RTTI on/off modules. See /// [Mixing sources with RTTI on and RTTI off](boost_typeindex/mixing_sources_with_rtti_on_and_.html) /// section of documentation for more info. #define BOOST_TYPE_INDEX_FORCE_NO_RTTI_COMPATIBILITY #endif // defined(BOOST_TYPE_INDEX_DOXYGEN_INVOKED) /// Function to get boost::typeindex::type_index for a type T. /// Removes const, volatile && and & modifiers from T. /// /// \b Example: /// \code /// type_index ti = type_id(); /// std::cout << ti.pretty_name(); // Outputs 'int' /// \endcode /// /// \tparam T Type for which type_index must be created. /// \throw Nothing. /// \return boost::typeindex::type_index with information about the specified type T. template inline type_index type_id() BOOST_NOEXCEPT { return type_index::type_id(); } /// Function for constructing boost::typeindex::type_index instance for type T. /// Does not remove const, volatile, & and && modifiers from T. /// /// If T has no const, volatile, & and && modifiers, then returns exactly /// the same result as in case of calling `type_id()`. /// /// \b Example: /// \code /// type_index ti = type_id_with_cvr(); /// std::cout << ti.pretty_name(); // Outputs 'int&' /// \endcode /// /// \tparam T Type for which type_index must be created. /// \throw Nothing. /// \return boost::typeindex::type_index with information about the specified type T. template inline type_index type_id_with_cvr() BOOST_NOEXCEPT { return type_index::type_id_with_cvr(); } /// Function that works exactly like C++ typeid(rtti_val) call, but returns boost::type_index. /// /// Retunrs runtime information about specified type. /// /// \b Requirements: RTTI available or Base and Derived classes must be marked with BOOST_TYPE_INDEX_REGISTER_CLASS. /// /// \b Example: /// \code /// struct Base { virtual ~Base(){} }; /// struct Derived: public Base {}; /// ... /// Derived d; /// Base& b = d; /// type_index ti = type_id_runtime(b); /// std::cout << ti.pretty_name(); // Outputs 'Derived' /// \endcode /// /// \param runtime_val Varaible which runtime type must be returned. /// \throw Nothing. /// \return boost::typeindex::type_index with information about the specified variable. template inline type_index type_id_runtime(const T& runtime_val) BOOST_NOEXCEPT { return type_index::type_id_runtime(runtime_val); } }} // namespace boost::typeindex #endif // BOOST_TYPE_INDEX_HPP