void ptr_set_test() { using namespace boost; BOOST_MESSAGE( "starting associative container test" ); enum { max_cnt = 10, size = 100 }; C c; BOOST_CHECK( c.size() == 0 ); c.insert( c.end(), new T ); c.insert( c.end(), new T ); const C c2( c.begin(), c.end() ); BOOST_CHECK( c.size() == c2.size() ); C c3; BOOST_MESSAGE( "finished construction test" ); C a_copy( c ); BOOST_CHECK_EQUAL( a_copy.size(), c.size() ); a_copy = a_copy; BOOST_CHECK_EQUAL( a_copy.size(), c.size() ); c.clear(); a_copy = c; a_copy = a_copy; BOOST_CHECK( a_copy.empty() ); BOOST_MESSAGE( "finished copying test" ); BOOST_DEDUCED_TYPENAME C::allocator_type alloc = c.get_allocator(); BOOST_DEDUCED_TYPENAME C::iterator i = c.begin(); BOOST_DEDUCED_TYPENAME C::const_iterator ci = c2.begin(); ci = c.cbegin(); ci = c.cend(); BOOST_DEDUCED_TYPENAME C::iterator i2 = c.end(); BOOST_DEDUCED_TYPENAME C::const_iterator ci2 = c2.begin(); BOOST_MESSAGE( "finished iterator test" ); BOOST_DEDUCED_TYPENAME C::size_type s = c.size(); BOOST_DEDUCED_TYPENAME C::size_type s2 = c.max_size(); hide_warning(s2); BOOST_CHECK_EQUAL( c.size(), s ); bool b = c.empty(); hide_warning(b); BOOST_MESSAGE( "finished accessors test" ); T* t = new T; c.insert( c.end(), t ); c.insert( c.end(), std::auto_ptr<T>( new T ) ); c.insert( new T ); c.insert( std::auto_ptr<T>( new T ) ); c3.insert( c.begin(), c.end() ); c.erase( c.begin() ); c3.erase( c3.begin(), c3.end() ); t = new T; c.insert( new T ); c.erase( *t ); delete t; BOOST_CHECK( c3.empty() ); c.swap( c3 ); BOOST_CHECK( !c3.empty() ); BOOST_CHECK( c.empty() ); c3.clear(); // // remark: we cannot pass c3 directly as it would // extract const iterators ... and the // current standard does not allow erase() // to be given const iterators // c3.erase( boost::make_iterator_range(c3) ); BOOST_CHECK( c3.empty() ); BOOST_MESSAGE( "finished modifiers test" ); c.insert( c.end(), new T ); typename C::auto_type ptr2 = c.release( c.begin() ); std::auto_ptr<C> ap = c.release(); c = c2.clone(); BOOST_MESSAGE( "finished release/clone test" ); c3.insert( new T ); c3.insert( new T ); BOOST_CHECK_EQUAL( c3.size(), 2u ); #if defined(BOOST_NO_SFINAE) || defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING) #else c3.insert( make_iterator_range( c ) ); // BOOST_CHECK_EQUAL( c3.size(), 4u ); #endif c. BOOST_NESTED_TEMPLATE transfer<C>( c3.begin(), c3 ); BOOST_CHECK( c3.empty() == false ); c.clear(); unsigned long c3size = c3.size(); hide_warning( c3size ); unsigned long num = c. BOOST_NESTED_TEMPLATE transfer<C>( c3.begin(), c3.end(), c3 ); BOOST_CHECK( num > 0 ); BOOST_CHECK_EQUAL( num, c.size() ); BOOST_CHECK( c3.empty() ); BOOST_CHECK( !c.empty() ); c3. BOOST_NESTED_TEMPLATE transfer<C>( c ); BOOST_CHECK( !c3.empty() ); BOOST_CHECK( c.empty() ); #ifdef BOOST_NO_SFINAE #else c. BOOST_NESTED_TEMPLATE transfer<C>( make_iterator_range( c3 ), c3 ); BOOST_CHECK( !c.empty() ); BOOST_CHECK( c3.empty() ); #endif BOOST_MESSAGE( "finished transfer test" ); C c4; c4.swap(c3); swap(c4,c3); BOOST_MESSAGE( "finished set/map interface test" ); sub_range<C> sub; sub_range<const C> csub; t = new T; i = c.find( *t ); ci = c2.find( *t ); c2.count( *t ); test_algorithms<T,Ordered>()( c, c2 ); sub = c.equal_range( *t ); csub = c2.equal_range( *t ); delete t; BOOST_MESSAGE( "finished algorithms interface test" ); }
void ptr_map_test() { using namespace boost; BOOST_TEST_MESSAGE( "starting associative container test" ); enum { max_cnt = 10, size = 100 }; C c; BOOST_CHECK( c.size() == 0 ); const C c2( c.begin(), c.end() ); BOOST_CHECK( c.size() == c2.size() ); C c3; BOOST_TEST_MESSAGE( "finished construction test" ); BOOST_DEDUCED_TYPENAME C::allocator_type alloc = c.get_allocator(); BOOST_DEDUCED_TYPENAME C::iterator i = c.begin(); BOOST_DEDUCED_TYPENAME C::const_iterator ci = c2.begin(); BOOST_DEDUCED_TYPENAME C::iterator i2 = c.end(); hide_warning(i2); BOOST_DEDUCED_TYPENAME C::const_iterator ci2 = c2.begin(); hide_warning(ci2); ci = c.cbegin(); ci = c.cend(); BOOST_DEDUCED_TYPENAME C::key_type a_key; BOOST_TEST_MESSAGE( "finished iterator test" ); BOOST_DEDUCED_TYPENAME C::size_type s = c.size(); BOOST_DEDUCED_TYPENAME C::size_type s2 = c.max_size(); hide_warning(s2); BOOST_CHECK_EQUAL( c.size(), s ); bool b = c.empty(); hide_warning(b); BOOST_TEST_MESSAGE( "finished accessors test" ); a_key = get_next_key( a_key ); c.insert( a_key, new T ); a_key = get_next_key( a_key ); c.insert( a_key, new T ); c3.insert( c.begin(), c.end() ); c.insert( c3 ); c.erase( c.begin() ); BOOST_CHECK( c3.end() == c3.erase( boost::make_iterator_range(c3) ) ); c3.erase( a_key ); BOOST_CHECK( c3.empty() ); c.swap( c3 ); swap(c,c3); swap(c3,c); BOOST_CHECK( !c3.empty() ); c3.clear(); BOOST_CHECK( c3.empty() ); BOOST_TEST_MESSAGE( "finished modifiers test" ); a_key = get_next_key( a_key ); c.insert( a_key, new T ); a_key = get_next_key( a_key ); #ifndef BOOST_NO_AUTO_PTR c.insert( a_key, std::auto_ptr<T>( new T ) ); #endif #ifndef BOOST_NO_CXX11_SMART_PTR c.insert( a_key, std::unique_ptr<T>( new T ) ); #endif typename C::auto_type ptr2 = c.release( c.begin() ); #ifndef BOOST_NO_AUTO_PTR std::auto_ptr<C> ap = c.release(); #else std::unique_ptr<C> up = c.release(); #endif c = c2.clone(); BOOST_TEST_MESSAGE( "finished release/clone test" ); a_key = get_next_key( a_key ); c3.insert( a_key, new T ); a_key = get_next_key( a_key ); c3.insert( a_key, new T ); c. BOOST_NESTED_TEMPLATE transfer<C>( c3.begin(), c3 ); c. BOOST_NESTED_TEMPLATE transfer<C>( c3.begin(), c3.end(), c3 ); BOOST_CHECK( c3.empty() ); BOOST_CHECK( !c.empty() ); c3. BOOST_NESTED_TEMPLATE transfer<C>( c ); BOOST_CHECK( !c3.empty() ); BOOST_CHECK( c.empty() ); #ifdef BOOST_NO_SFINAE #else c. BOOST_NESTED_TEMPLATE transfer<C>( make_iterator_range(c3), c3 ); BOOST_CHECK( !c.empty() ); BOOST_CHECK( c3.empty() ); c3. BOOST_NESTED_TEMPLATE transfer<C>(c); #endif BOOST_TEST_MESSAGE( "finished transfer test" ); BOOST_CHECK( !c3.empty() ); c3.replace( c3.begin(), new T ); #ifndef BOOST_NO_AUTO_PTR c3.replace( c3.begin(), std::auto_ptr<T>( new T ) ); #endif #ifndef BOOST_NO_CXX11_SMART_PTR c3.replace( c3.begin(), std::unique_ptr<T>( new T ) ); #endif BOOST_TEST_MESSAGE( "finished set/map interface test" ); // @todo: make macro with algorithms so that the right erase() is called. // c.unique(); // c.unique( std::not_equal_to<T>() ); // c.remove( T() ); // c.remove_if( std::binder1st< std::equal_to<T> >( T() ) ); sub_range<C> sub; sub_range<const C> csub; i = c.find( get_next_key( a_key ) ); ci = c2.find( get_next_key( a_key ) ); c2.count( get_next_key( a_key ) ); sub = c.equal_range( get_next_key( a_key ) ); csub = c2.equal_range( get_next_key( a_key ) ); try { c.at( get_next_key( a_key ) ); } catch( const bad_ptr_container_operation& ) { } try { c2.at( get_next_key( a_key ) ); } catch( const bad_ptr_container_operation& ) { } BOOST_TEST_MESSAGE( "finished algorithms interface test" ); typename C::iterator it = c.begin(), e = c.end(); for( ; it != e; ++it ) { std::cout << "\n mapped value = " << *it->second << " key = " << it->first; //std::cout << "\n mapped value = " << it.value() << " key = " << it.key(); } BOOST_TEST_MESSAGE( "finished iterator test" ); a_key = get_next_key( a_key ); c.insert( a_key, new T ); c.erase( a_key ); c.erase( a_key ); }
void ptr_set_test() { using namespace boost; BOOST_MESSAGE( "starting associative container test" ); enum { max_cnt = 10, size = 100 }; C c; BOOST_CHECK( c.size() == 0 ); const C c2( c.begin(), c.end() ); BOOST_CHECK( c.size() == c2.size() ); C c3; BOOST_MESSAGE( "finished construction test" ); BOOST_DEDUCED_TYPENAME C::allocator_type alloc = c.get_allocator(); BOOST_DEDUCED_TYPENAME C::iterator i = c.begin(); BOOST_DEDUCED_TYPENAME C::const_iterator ci = c2.begin(); BOOST_DEDUCED_TYPENAME C::iterator i2 = c.end(); BOOST_DEDUCED_TYPENAME C::const_iterator ci2 = c2.begin(); BOOST_DEDUCED_TYPENAME C::reverse_iterator ri = c.rbegin(); BOOST_DEDUCED_TYPENAME C::const_reverse_iterator cri = c2.rbegin(); BOOST_DEDUCED_TYPENAME C::reverse_iterator rv2 = c.rend(); BOOST_DEDUCED_TYPENAME C::const_reverse_iterator cvr2 = c2.rend(); BOOST_MESSAGE( "finished iterator test" ); BOOST_DEDUCED_TYPENAME C::size_type s = c.size(); BOOST_DEDUCED_TYPENAME C::size_type s2 = c.max_size(); hide_warning(s2); BOOST_CHECK_EQUAL( c.size(), s ); bool b = c.empty(); hide_warning(b); BOOST_MESSAGE( "finished accessors test" ); T* t = new T; c.insert( c.end(), t ); c.insert( c.end(), std::auto_ptr<T>( new T ) ); c.insert( new T ); c.insert( std::auto_ptr<T>( new T ) ); c3.insert( c.begin(), c.end() ); c.erase( c.begin() ); c3.erase( c3.begin(), c3.end() ); BOOST_CHECK( c3.empty() ); c.swap( c3 ); BOOST_CHECK( !c3.empty() ); c3.clear(); BOOST_CHECK( c3.empty() ); BOOST_MESSAGE( "finished modifiers test" ); c.insert( c.end(), new T ); typename C::auto_type ptr2 = c.release( c.begin() ); std::auto_ptr<C> ap = c.release(); c = c2.clone(); BOOST_MESSAGE( "finished release/clone test" ); c3.insert( new T ); c3.insert( new T ); BOOST_CHECK_EQUAL( c3.size(), 2u ); #if defined(BOOST_NO_SFINAE) || defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING) #else c3.insert( make_iterator_range( c ) ); // BOOST_CHECK_EQUAL( c3.size(), 4u ); #endif c. BOOST_NESTED_TEMPLATE transfer<C>( c3.begin(), c3 ); BOOST_CHECK( c3.empty() == false ); c. BOOST_NESTED_TEMPLATE transfer<C>( c3.begin(), c3.end(), c3 ); BOOST_CHECK( c3.empty() ); BOOST_CHECK( !c.empty() ); c3. BOOST_NESTED_TEMPLATE transfer<C>( c ); BOOST_CHECK( !c3.empty() ); BOOST_CHECK( c.empty() ); #ifdef BOOST_NO_SFINAE #else c. BOOST_NESTED_TEMPLATE transfer<C>( make_iterator_range( c3 ), c3 ); BOOST_CHECK( !c.empty() ); BOOST_CHECK( c3.empty() ); #endif BOOST_MESSAGE( "finished transfer test" ); C c4; c4.swap(c3); swap(c4,c3); BOOST_MESSAGE( "finished set/map interface test" ); sub_range<C> sub; sub_range<const C> csub; t = new T; i = c.find( *t ); ci = c2.find( *t ); c2.count( *t ); i = c.lower_bound( *t ); ci = c2.lower_bound( *t ); i = c.upper_bound( *t ); ci = c2.upper_bound( *t ); sub = c.equal_range( *t ); csub = c2.equal_range( *t ); delete t; BOOST_MESSAGE( "finished algorithms interface test" ); }