// Copyright 2017 Peter Dimov. // // 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 using namespace boost::variant2; #define STATIC_ASSERT(...) static_assert(__VA_ARGS__, #__VA_ARGS__) struct X1 { int v; X1(): v(0) {} explicit X1(int v): v(v) {} X1(X1 const& r): v(r.v) {} X1(X1&& r): v(r.v) {} X1& operator=( X1 const& r ) { v = r.v; return *this; } X1& operator=( X1&& r ) { v = r.v; return *this; } }; inline bool operator==( X1 const& a, X1 const& b ) { return a.v == b.v; } STATIC_ASSERT( !std::is_nothrow_default_constructible::value ); STATIC_ASSERT( !std::is_nothrow_copy_constructible::value ); STATIC_ASSERT( !std::is_nothrow_move_constructible::value ); STATIC_ASSERT( !std::is_nothrow_copy_assignable::value ); STATIC_ASSERT( !std::is_nothrow_move_assignable::value ); struct X2 { int v; X2(): v(0) {} explicit X2(int v): v(v) {} X2(X2 const& r): v(r.v) {} X2(X2&& r): v(r.v) {} X2& operator=( X2 const& r ) { v = r.v; return *this; } X2& operator=( X2&& r ) { v = r.v; return *this; } }; inline bool operator==( X2 const& a, X2 const& b ) { return a.v == b.v; } STATIC_ASSERT( !std::is_nothrow_default_constructible::value ); STATIC_ASSERT( !std::is_nothrow_copy_constructible::value ); STATIC_ASSERT( !std::is_nothrow_move_constructible::value ); STATIC_ASSERT( !std::is_nothrow_copy_assignable::value ); STATIC_ASSERT( !std::is_nothrow_move_assignable::value ); int main() { { variant v( 1 ); variant v2( v ); BOOST_TEST( holds_alternative( v2 ) ); BOOST_TEST_EQ( get( v ), get( v2 ) ); variant v3( std::move(v) ); BOOST_TEST( holds_alternative( v3 ) ); BOOST_TEST_EQ( get( v2 ), get( v3 ) ); } { variant const v( 1 ); variant v2( v ); BOOST_TEST( holds_alternative( v2 ) ); BOOST_TEST_EQ( get( v ), get( v2 ) ); variant v3( std::move(v) ); BOOST_TEST( holds_alternative( v3 ) ); BOOST_TEST_EQ( get( v2 ), get( v3 ) ); } { variant v( 1 ); variant v2( v ); BOOST_TEST( holds_alternative( v2 ) ); BOOST_TEST_EQ( get( v ), get( v2 ) ); variant v3( std::move(v) ); BOOST_TEST( holds_alternative( v3 ) ); BOOST_TEST_EQ( get( v2 ), get( v3 ) ); } { variant const v( 1 ); variant v2( v ); BOOST_TEST( holds_alternative( v2 ) ); BOOST_TEST_EQ( get( v ), get( v2 ) ); variant v3( std::move(v) ); BOOST_TEST( holds_alternative( v3 ) ); BOOST_TEST_EQ( get( v2 ), get( v3 ) ); } { variant v( 3.14f ); variant v2( v ); BOOST_TEST( holds_alternative( v2 ) ); BOOST_TEST_EQ( get( v ), get( v2 ) ); variant v3( std::move(v) ); BOOST_TEST( holds_alternative( v3 ) ); BOOST_TEST_EQ( get( v2 ), get( v3 ) ); } { variant v( 3.15f ); variant v2( v ); BOOST_TEST( holds_alternative( v2 ) ); BOOST_TEST_EQ( get( v ), get( v2 ) ); variant v3( std::move(v) ); BOOST_TEST( holds_alternative( v3 ) ); BOOST_TEST_EQ( get( v2 ), get( v3 ) ); } { variant v( "s1" ); variant v2( v ); BOOST_TEST( holds_alternative( v2 ) ); BOOST_TEST_EQ( get( v ), get( v2 ) ); variant v3( std::move(v) ); BOOST_TEST( holds_alternative( v3 ) ); BOOST_TEST_EQ( get( v2 ), get( v3 ) ); } { variant v{ X1{1} }; variant v2( v ); BOOST_TEST( holds_alternative( v2 ) ); BOOST_TEST_EQ( get( v ).v, get( v2 ).v ); variant v3( std::move(v) ); BOOST_TEST( holds_alternative( v3 ) ); BOOST_TEST_EQ( get( v2 ).v, get( v3 ).v ); } return boost::report_errors(); }