#ifndef SPROUT_FUNCTIONAL_MEM_FN_HPP #define SPROUT_FUNCTIONAL_MEM_FN_HPP #include #include #include #include #include namespace sprout { // 20.8.10 member function adaptors namespace detail { template struct maybe_unary_or_binary_function {}; template struct maybe_unary_or_binary_function : public sprout::unary_function {}; template struct maybe_unary_or_binary_function : public sprout::binary_function {}; template struct mem_fn_const_or_non { public: typedef T const& type; }; template struct mem_fn_const_or_non { public: typedef T& type; }; } // namespace detail // // mem_fn_adaptor // template class mem_fn_adaptor; template class mem_fn_adaptor : public sprout::detail::maybe_unary_or_binary_function { public: typedef Res result_type; private: typedef Res (Class::*functor)(Args...); private: functor pmf_; private: template Res call(T& object, Class const volatile*, Args... args) const { return (object.*pmf_)(sprout::forward(args)...); } template Res call(T& ptr, void const volatile*, Args... args) const { return ((*ptr).*pmf_)(sprout::forward(args)...); } public: explicit SPROUT_CONSTEXPR mem_fn_adaptor(functor pmf) : pmf_(pmf) {} Res operator()(Class& object, Args... args) const { return (object.*pmf_)(sprout::forward(args)...); } Res operator()(Class* object, Args... args) const { return (object->*pmf_)(sprout::forward(args)...); } template Res operator()(T& object, Args... args) const { return call(object, &object, sprout::forward(args)...); } }; template class mem_fn_adaptor : public sprout::detail::maybe_unary_or_binary_function { public: typedef Res result_type; private: typedef Res (Class::*functor)(Args...) const; private: functor pmf_; private: template SPROUT_CONSTEXPR Res call(T const& object, Class const volatile*, Args... args) const { return (object.*pmf_)(sprout::forward(args)...); } template SPROUT_CONSTEXPR Res call(T const& ptr, void const volatile*, Args... args) const { return ((*ptr).*pmf_)(sprout::forward(args)...); } public: explicit SPROUT_CONSTEXPR mem_fn_adaptor(functor pmf) : pmf_(pmf) {} SPROUT_CONSTEXPR Res operator()(Class const& object, Args... args) const { return (object.*pmf_)(sprout::forward(args)...); } SPROUT_CONSTEXPR Res operator()(Class const* object, Args... args) const { return (object->*pmf_)(sprout::forward(args)...); } template SPROUT_CONSTEXPR Res operator()(T const& object, Args... args) const { return call(object, &object, sprout::forward(args)...); } }; template class mem_fn_adaptor : public sprout::detail::maybe_unary_or_binary_function { public: typedef Res result_type; private: typedef Res (Class::*functor)(Args...) volatile; private: functor pmf_; private: template Res call(T& object, Class const volatile*, Args... args) const { return (object.*pmf_)(sprout::forward(args)...); } template Res call(T& ptr, void const volatile*, Args... args) const { return ((*ptr).*pmf_)(sprout::forward(args)...); } public: explicit SPROUT_CONSTEXPR mem_fn_adaptor(functor pmf) : pmf_(pmf) {} Res operator()(Class volatile& object, Args... args) const { return (object.*pmf_)(sprout::forward(args)...); } Res operator()(Class volatile* object, Args... args) const { return (object->*pmf_)(sprout::forward(args)...); } template Res operator()(T& object, Args... args) const { return call(object, &object, sprout::forward(args)...); } }; template class mem_fn_adaptor : public sprout::detail::maybe_unary_or_binary_function { public: typedef Res result_type; private: typedef Res (Class::*functor)(Args...) const volatile; private: functor pmf_; private: template SPROUT_CONSTEXPR Res call(T const& object, Class const volatile*, Args... args) const { return (object.*pmf_)(sprout::forward(args)...); } template SPROUT_CONSTEXPR Res call(T const& ptr, void const volatile*, Args... args) const { return ((*ptr).*pmf_)(sprout::forward(args)...); } public: explicit SPROUT_CONSTEXPR mem_fn_adaptor(functor pmf) : pmf_(pmf) {} SPROUT_CONSTEXPR Res operator()(Class const volatile& object, Args... args) const { return (object.*pmf_)(sprout::forward(args)...); } SPROUT_CONSTEXPR Res operator()(Class const volatile* object, Args... args) const { return (object->*pmf_)(sprout::forward(args)...); } template SPROUT_CONSTEXPR Res operator()(T const& object, Args... args) const { return call(object, &object, sprout::forward(args)...); } }; template class mem_fn_adaptor { private: typedef char one; struct two { char v[2]; }; private: template static T& get_ref(); template static one check_const(T&, Class*); template static one check_const(T&, Up* const*); template static two check_const(T&, Up const* const*); template static two check_const(T&, Class const*); template static two check_const(T&, const volatile void*); public: template struct result_type : public sprout::detail::mem_fn_const_or_non< Res, (sizeof(two) == sizeof(check_const(get_ref(), (T*)0))) > {}; template struct result; template struct result : public result_type {}; template struct result : public result_type {}; private: Res Class::* pm_; private: template Res& call(T& object, Class*) const { return object.*pm_; } template Res& call(T& object, Up* const*) const { return (*object).*pm_; } template const Res& call(T& object, Up const* const*) const { return (*object).*pm_; } template Res const& call(T& object, Class const*) const { return object.*pm_; } template const Res& call(T& ptr, void const volatile*) const { return (*ptr).*pm_; } public: explicit SPROUT_CONSTEXPR mem_fn_adaptor(Res Class::* pm) : pm_(pm) {} Res& operator()(Class& object) const { return object.*pm_; } SPROUT_CONSTEXPR Res const& operator()(Class const& object) const { return object.*pm_; } Res& operator()(Class* object) const { return object->*pm_; } SPROUT_CONSTEXPR Res const& operator()(Class const* object) const { return object->*pm_; } template typename result_type::type operator()(T& unknown) const { return call(unknown, &unknown); } }; // // mem_fn // template inline SPROUT_CONSTEXPR sprout::mem_fn_adaptor mem_fn(T Class::* pm) { return sprout::mem_fn_adaptor(pm); } } // namespace sprout #endif // #ifndef SPROUT_FUNCTIONAL_MEM_FN_HPP