libs/parameter/test/parameterized_inheritance.cpp
// Copyright Cromwell D. Enage 2018. // 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) #include <boost/parameter/config.hpp> #if !defined(BOOST_PARAMETER_HAS_PERFECT_FORWARDING) && \ (BOOST_PARAMETER_COMPOSE_MAX_ARITY < 3) #error Define BOOST_PARAMETER_COMPOSE_MAX_ARITY as 3 or greater. #endif #include <boost/parameter/name.hpp> namespace test { BOOST_PARAMETER_NAME(a0) BOOST_PARAMETER_NAME(a1) BOOST_PARAMETER_NAME(a2) } #if !defined(BOOST_NO_SFINAE) #include <boost/parameter/is_argument_pack.hpp> #include <boost/type_traits/is_convertible.hpp> #include <boost/core/enable_if.hpp> #endif namespace test { #if !defined(BOOST_NO_SFINAE) struct _enabler { }; #endif template <typename T> class backend0 { T _a0; public: template <typename ArgPack> explicit backend0( ArgPack const& args #if !defined(BOOST_NO_SFINAE) , typename boost::enable_if< boost::parameter::is_argument_pack<ArgPack> , test::_enabler >::type = test::_enabler() #endif ) : _a0(args[test::_a0]) { } #if !defined(BOOST_NO_SFINAE) template <typename U> backend0( backend0<U> const& copy , typename boost::enable_if< boost::is_convertible<U,T> , test::_enabler >::type = test::_enabler() ) : _a0(copy.get_a0()) { } #endif template <typename Iterator> backend0(Iterator itr, Iterator itr_end) : _a0(itr, itr_end) { } T const& get_a0() const { return this->_a0; } protected: template <typename ArgPack> void initialize_impl(ArgPack const& args) { this->_a0 = args[test::_a0]; } }; template <typename B, typename T> class backend1 : public B { T _a1; public: template <typename ArgPack> explicit backend1( ArgPack const& args #if !defined(BOOST_NO_SFINAE) , typename boost::enable_if< boost::parameter::is_argument_pack<ArgPack> , test::_enabler >::type = test::_enabler() #endif ) : B(args), _a1(args[test::_a1]) { } #if !defined(BOOST_NO_SFINAE) template <typename Derived> backend1( Derived const& copy , typename boost::disable_if< boost::parameter::is_argument_pack<Derived> , test::_enabler >::type = test::_enabler() ) : B(copy), _a1(copy.get_a1()) { } #endif T const& get_a1() const { return this->_a1; } protected: template <typename ArgPack> void initialize_impl(ArgPack const& args) { B::initialize_impl(args); this->_a1 = args[test::_a1]; } }; template <typename B, typename T> class backend2 : public B { T _a2; public: template <typename ArgPack> explicit backend2( ArgPack const& args #if !defined(BOOST_NO_SFINAE) , typename boost::enable_if< boost::parameter::is_argument_pack<ArgPack> , test::_enabler >::type = test::_enabler() #endif ) : B(args), _a2(args[test::_a2]) { } #if !defined(BOOST_NO_SFINAE) template <typename Derived> backend2( Derived const& copy , typename boost::disable_if< boost::parameter::is_argument_pack<Derived> , test::_enabler >::type = test::_enabler() ) : B(copy), _a2(copy.get_a2()) { } #endif T const& get_a2() const { return this->_a2; } protected: template <typename ArgPack> void initialize_impl(ArgPack const& args) { B::initialize_impl(args); this->_a2 = args[test::_a2]; } }; } #include <boost/parameter/preprocessor_no_spec.hpp> #if !defined(BOOST_NO_SFINAE) #include <boost/parameter/are_tagged_arguments.hpp> #endif namespace test { template <typename B> struct frontend : public B { BOOST_PARAMETER_NO_SPEC_CONSTRUCTOR(frontend, (B)) #if !defined(BOOST_NO_SFINAE) template <typename Iterator> frontend( Iterator itr , Iterator itr_end , typename boost::disable_if< boost::parameter::are_tagged_arguments<Iterator> , test::_enabler >::type = test::_enabler() ) : B(itr, itr_end) { } template <typename O> frontend(frontend<O> const& copy) : B(copy) { } #endif BOOST_PARAMETER_NO_SPEC_MEMBER_FUNCTION((void), initialize) { this->initialize_impl(args); } BOOST_PARAMETER_NO_SPEC_FUNCTION_CALL_OPERATOR((void)) { this->initialize_impl(args); } }; } // namespace test #include <boost/core/lightweight_test.hpp> #if !defined(BOOST_NO_SFINAE) #include <string> #endif int main() { char const* p = "foo"; char const* q = "bar"; test::frontend< test::backend2<test::backend1<test::backend0<char const*>, char>, int> > composed_obj0(test::_a2 = 4, test::_a1 = ' ', test::_a0 = p); #if defined(BOOST_NO_SFINAE) test::frontend< test::backend1<test::backend2<test::backend0<char const*>, int>, char> > composed_obj1(test::_a0 = p, test::_a1 = ' ', test::_a2 = 4); #else test::frontend< test::backend1<test::backend2<test::backend0<char const*>, int>, char> > composed_obj1(composed_obj0); #endif BOOST_TEST_EQ(composed_obj0.get_a0(), composed_obj1.get_a0()); BOOST_TEST_EQ(composed_obj0.get_a1(), composed_obj1.get_a1()); BOOST_TEST_EQ(composed_obj0.get_a2(), composed_obj1.get_a2()); composed_obj0.initialize(test::_a0 = q, test::_a1 = '!', test::_a2 = 8); composed_obj1.initialize(test::_a2 = 8, test::_a1 = '!', test::_a0 = q); BOOST_TEST_EQ(composed_obj0.get_a0(), composed_obj1.get_a0()); BOOST_TEST_EQ(composed_obj0.get_a1(), composed_obj1.get_a1()); BOOST_TEST_EQ(composed_obj0.get_a2(), composed_obj1.get_a2()); composed_obj0(test::_a2 = 8, test::_a1 = '!', test::_a0 = q); composed_obj1(test::_a0 = q, test::_a1 = '!', test::_a2 = 8); BOOST_TEST_EQ(composed_obj0.get_a0(), composed_obj1.get_a0()); BOOST_TEST_EQ(composed_obj0.get_a1(), composed_obj1.get_a1()); BOOST_TEST_EQ(composed_obj0.get_a2(), composed_obj1.get_a2()); #if !defined(BOOST_NO_SFINAE) test::frontend<test::backend0<std::string> > string_wrap(p, p + 3); BOOST_TEST_EQ(string_wrap.get_a0(), std::string(p)); #endif return boost::report_errors(); }