/*============================================================================= Copyright (c) 2010 Christopher Schmidt 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 #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 namespace ns { template class point { public: point() : x(0), y(0), z(0) {} point(X x_, Y y_, int z_) : x(x_), y(y_), z(z_) {} X get_x() const { return x; } Y get_y() const { return y; } int get_z() const { return z; } void set_x(X x_) { x = x_; } void set_y(Y y_) { y = y_; } void set_z(int z_) { z = z_; } private: X x; Y y; int z; }; } #if BOOST_PP_VARIADICS BOOST_FUSION_ADAPT_TPL_ADT( (X)(Y), (ns::point)(X)(Y), (X, X, obj.get_x(), obj.set_x(val)) (Y, Y, obj.get_y(), obj.set_y(val)) (obj.get_z(), obj.set_z(val)) ) #else // BOOST_PP_VARIADICS BOOST_FUSION_ADAPT_TPL_ADT( (X)(Y), (ns::point)(X)(Y), (X, X, obj.get_x(), obj.set_x(val)) (Y, Y, obj.get_y(), obj.set_y(val)) (auto, auto, obj.get_z(), obj.set_z(val)) ) #endif template class empty_adt_templated_factory { TypeToConstruct operator()() { return TypeToConstruct(); } }; BOOST_FUSION_ADAPT_TPL_ADT( (TypeToConstruct), (empty_adt_templated_factory)(TypeToConstruct), ) int main() { using namespace boost::fusion; typedef ns::point point; typedef ns::point name; std::cout << tuple_open('['); std::cout << tuple_close(']'); std::cout << tuple_delimiter(", "); { BOOST_MPL_ASSERT_NOT((traits::is_view)); BOOST_STATIC_ASSERT(!traits::is_view::value); point p(123, 456, 789); std::cout << at_c<0>(p) << std::endl; std::cout << at_c<1>(p) << std::endl; std::cout << at_c<2>(p) << std::endl; std::cout << p << std::endl; BOOST_TEST(p == make_vector(123, 456, 789)); at_c<0>(p) = 6; at_c<1>(p) = 9; at_c<2>(p) = 12; BOOST_TEST(p == make_vector(6, 9, 12)); BOOST_STATIC_ASSERT(boost::fusion::result_of::size::value == 3); BOOST_STATIC_ASSERT(!boost::fusion::result_of::empty::value); BOOST_TEST(front(p) == 6); BOOST_TEST(back(p) == 12); } { boost::fusion::vector v1(4, 2.f, 2); point v2(5, 3, 3); boost::fusion::vector v3(5, 4., 4); BOOST_TEST(v1 < v2); BOOST_TEST(v1 <= v2); BOOST_TEST(v2 > v1); BOOST_TEST(v2 >= v1); BOOST_TEST(v2 < v3); BOOST_TEST(v2 <= v3); BOOST_TEST(v3 > v2); BOOST_TEST(v3 >= v2); } { boost::fusion::vector v1("Lincoln", "Abraham", 3); name v2("Roosevelt", "Franklin", 3); name v3("Roosevelt", "Theodore", 3); BOOST_TEST(v1 < v2); BOOST_TEST(v1 <= v2); BOOST_TEST(v2 > v1); BOOST_TEST(v2 >= v1); BOOST_TEST(v2 < v3); BOOST_TEST(v2 <= v3); BOOST_TEST(v3 > v2); BOOST_TEST(v3 >= v2); } { // conversion from point to vector point p(5, 3, 3); boost::fusion::vector v(p); v = p; } { // conversion from point to list point p(5, 3, 3); boost::fusion::list l(p); l = p; } { BOOST_MPL_ASSERT((boost::mpl::is_sequence)); BOOST_MPL_ASSERT((boost::is_same< boost::fusion::result_of::value_at_c::type , boost::mpl::front::type>)); } return boost::report_errors(); }