// // Boost.Pointer Container // // Copyright Thorsten Ottosen 2003-2005. Use, modification and // distribution is subject to 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) // // For more information, see http://www.boost.org/libs/ptr_container/ // #include "test_data.hpp" #include #include template< typename C, typename B, typename T > void reversible_container_test(); template< class IntContainer > void algorithms_test(); template< typename C, typename B, typename T > void reversible_container_test() { using namespace boost; BOOST_MESSAGE( "starting reversible container test" ); enum { max_cnt = 10, size = 100 }; C c; BOOST_CHECK( c.size() == 0 ); c.push_back( new T ); BOOST_CHECK( c.size() == 1 ); const C c2( c.clone() ); BOOST_CHECK( c2.size() == c.size() ); C c3( c.begin(), c.end() ); BOOST_CHECK( c.size() == c3.size() ); c.assign( c3.begin(), c3.end() ); BOOST_CHECK( c.size() == c3.size() ); c.assign( c3 ); BOOST_MESSAGE( "finished construction test" ); BOOST_DEDUCED_TYPENAME C::allocator_type alloc = c.get_allocator(); hide_warning(alloc); 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(); hide_warning(s); BOOST_DEDUCED_TYPENAME C::size_type s2 = c.max_size(); hide_warning(s2); c.push_back( new T ); bool b = c.empty(); BOOST_CHECK( !c.empty() ); b = is_null( c.begin() ); BOOST_CHECK( b == false ); BOOST_DEDUCED_TYPENAME C::reference r = c.front(); hide_warning(r); BOOST_DEDUCED_TYPENAME C::const_reference cr = c2.front(); hide_warning(cr); BOOST_DEDUCED_TYPENAME C::reference r2 = c.back(); hide_warning(r2); BOOST_DEDUCED_TYPENAME C::const_reference cr2 = c2.back(); hide_warning(cr2); BOOST_MESSAGE( "finished accessors test" ); c.push_back( new T ); c.pop_back(); c.insert( c.end(), new T ); #ifdef BOOST_NO_SFINAE #else c.insert( c.end(), c3 ); #endif c3.insert( c3.end(), 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() ); C c4; c4.swap(c3); #ifdef BOOST_NO_SFINAE #else swap(c4,c3); #endif BOOST_MESSAGE( "finished modifiers test" ); c.push_back( new T ); c.push_back( new T ); c.push_back( new T ); typedef BOOST_DEDUCED_TYPENAME C::auto_type auto_type; #ifdef BOOST_NO_SFINAE #else auto_type ptr = c.release( c.begin() ); #endif std::auto_ptr ap = c.release(); c = c2.clone(); BOOST_CHECK( !c.empty() ); auto_type ptr2 = c.replace(c.begin(), new T ); BOOST_MESSAGE( "finished release/clone/replace test" ); c3.push_back( new T ); c3.push_back( new T ); c3.push_back( new T ); c.transfer( c.begin(), c3.begin(), c3 ); c.transfer( c.end(), c3.begin(), c3.end(), c3 ); #ifdef BOOST_NO_SFINAE #else c.transfer( c.end(), boost::make_iterator_range( c3 ), c3 ); BOOST_CHECK( c3.empty() ); BOOST_CHECK( !c.empty() ); #endif c3.transfer( c3.begin(), c ); BOOST_CHECK( !c3.empty() ); BOOST_CHECK( c.empty() ); BOOST_MESSAGE( "finished transfer test" ); } #include #include template< class Compare, class C > bool is_sorted( const C& c ) { if( c.size() < 2 ) return true; typename C::const_iterator prev = c.begin(), e = c.end(), next = prev; Compare pred; for( ; next != e ; ) { prev = next; ++next; if( next == c.end() ) return true; if( !pred(*prev,*next) ) return false; } return true; } struct equal_to_int { int i_; equal_to_int( int i ) : i_(i) { } bool operator()( int i ) const { return i_ == i; } }; template< class IntContainer > void random_access_algorithms_test() { IntContainer c; assign::push_back( c ) ( new int(1) ) ( new int(3) ) ( new int(6) ) ( new int(7) ) ( new int(2) ) ( new int(2) ) ( new int(0) ) ( new int(6) ) ( new int(3) ); c.sort(); BOOST_CHECK( is_sorted< std::less_equal >( c ) ); BOOST_CHECK_EQUAL( c.size(), 9u ); c.unique(); BOOST_CHECK_EQUAL( c.size(), 6u ); #ifdef PTR_LIST_TEST BOOST_CHECK( c.front() == 0 ); BOOST_CHECK( c.back() == 7 ); #else BOOST_CHECK( c[0] == 0 ); BOOST_CHECK( c[1] == 1 ); BOOST_CHECK( c[2] == 2 ); BOOST_CHECK( c[3] == 3 ); BOOST_CHECK( c[4] == 6 ); BOOST_CHECK( c[5] == 7 ); #endif c.erase_if( equal_to_int(1) ); BOOST_CHECK_EQUAL( c.size(), 5u ); #ifdef PTR_LIST_TEST BOOST_CHECK_EQUAL( c.front(), 0 ); #else BOOST_CHECK_EQUAL( c[0], 0 ); BOOST_CHECK_EQUAL( c[1], 2 ); #endif c.erase_if( equal_to_int(7) ); BOOST_CHECK_EQUAL( c.size(), 4u ); BOOST_CHECK_EQUAL( c.back(), 6 ); // C = [0,2,3,6] IntContainer c2; assign::push_back( c2 ) ( new int(-1) ) ( new int(1) ) ( new int(4) ) ( new int(5) ) ( new int(7) ); BOOST_CHECK( c2.size() == 5u ); c.merge( c2 ); BOOST_CHECK( c2.empty() ); BOOST_CHECK( c.size() == 9u ); BOOST_CHECK( is_sorted< std::less_equal >( c ) ); }