libs/ptr_container/test/ptr_array.cpp
// // 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 <boost/test/unit_test.hpp> #include "test_data.hpp" #include <boost/ptr_container/ptr_array.hpp> #include <boost/ptr_container/detail/ptr_container_disable_deprecated.hpp> #include <boost/utility.hpp> #include <boost/array.hpp> #include <algorithm> #include <iostream> #include <cstddef> #include <string> using namespace std; using namespace boost; template< class Node, size_t N > class n_ary_tree : boost::noncopyable { typedef n_ary_tree<Node,N> this_type; typedef ptr_array<this_type,N> tree_t; tree_t tree; Node data; public: n_ary_tree() { } n_ary_tree( const Node& r ) : data(r) { } public: // modifers void set_data( const Node& r ) { data = r; } template< size_t idx > void set_child( this_type* r ) { tree. BOOST_NESTED_TEMPLATE replace<idx>(r); } public: // accessors void print( std::ostream&, std::string indent = " " ); template< size_t idx > this_type& child() { return tree. BOOST_NESTED_TEMPLATE at<idx>(); } template< size_t idx > const this_type& child() const { return tree. BOOST_NESTED_TEMPLATE at<idx>(); } }; template< class Node, size_t N > void n_ary_tree<Node,N>::print( std::ostream& out, std::string indent ) { out << indent << data << "\n"; indent += " "; for( size_t i = 0; i != N; ++i ) if( !tree.is_null(i) ) tree[i].print( out, indent + " " ); } template< class C, class B, class T > void test_array_interface(); #if defined(BOOST_PTR_CONTAINER_DISABLE_DEPRECATED) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" #endif void test_array() { typedef n_ary_tree<std::string,2> binary_tree; binary_tree tree; tree.set_data( "root" ); tree.set_child<0>( new binary_tree( "left subtree" ) ); tree.set_child<1>( new binary_tree( "right subtree" ) ); binary_tree& left = tree.child<0>(); left.set_child<0>( new binary_tree( "left left subtree" ) ); left.set_child<1>( new binary_tree( "left right subtree" ) ); binary_tree& right = tree.child<1>(); right.set_child<0>( new binary_tree( "right left subtree" ) ); right.set_child<1>( new binary_tree( "right right subtree" ) ); tree.print( std::cout ); test_array_interface<ptr_array<Base,10>,Base,Derived_class>(); test_array_interface<ptr_array<nullable<Base>,10>,Base,Derived_class>(); test_array_interface<ptr_array<Value,10>,Value,Value>(); test_array_interface<ptr_array<nullable<Value>,10>,Value,Value>(); ptr_array<int,10> vec; BOOST_CHECK_THROW( vec.at(10), bad_ptr_container_operation ); BOOST_CHECK_THROW( (vec.replace(10u, new int(0))), bad_ptr_container_operation ); #ifndef BOOST_NO_AUTO_PTR BOOST_CHECK_THROW( (vec.replace(10u, std::auto_ptr<int>(new int(0)))), bad_ptr_container_operation ); #endif #ifndef BOOST_NO_CXX11_SMART_PTR BOOST_CHECK_THROW( (vec.replace(10u, std::unique_ptr<int>(new int(0)))), bad_ptr_container_operation ); #endif BOOST_CHECK_THROW( (vec.replace(0u, 0)), bad_ptr_container_operation ); ptr_array<Derived_class,2> derived; derived.replace( 0, new Derived_class ); derived.replace( 1, new Derived_class ); ptr_array<Base,2> base( derived ); BOOST_TEST_MESSAGE( "finished derived to base test" ); base = derived; ptr_array<Base,2> base2( base ); base2 = base; base = base; } template< class C, class B, class T > void test_array_interface() { C c; c.replace( 0, new T ); c.replace( 1, new B ); c.replace( 9, new T ); #ifndef BOOST_NO_AUTO_PTR c.replace( 0, std::auto_ptr<T>( new T ) ); #endif #ifndef BOOST_NO_CXX11_SMART_PTR c.replace( 0, std::unique_ptr<T>( new T ) ); #endif const C c2( c.clone() ); BOOST_DEDUCED_TYPENAME C::iterator i = c.begin(); hide_warning(i); BOOST_DEDUCED_TYPENAME C::const_iterator ci = c2.begin(); hide_warning(ci); BOOST_DEDUCED_TYPENAME C::iterator i2 = c.end(); hide_warning(i2); BOOST_DEDUCED_TYPENAME C::const_iterator ci2 = c2.begin(); hide_warning(ci2); BOOST_DEDUCED_TYPENAME C::reverse_iterator ri = c.rbegin(); hide_warning(ri); BOOST_DEDUCED_TYPENAME C::const_reverse_iterator cri = c2.rbegin(); hide_warning(cri); BOOST_DEDUCED_TYPENAME C::reverse_iterator rv2 = c.rend(); hide_warning(rv2); BOOST_DEDUCED_TYPENAME C::const_reverse_iterator cvr2 = c2.rend(); hide_warning(cvr2); BOOST_TEST_MESSAGE( "finished iterator test" ); BOOST_CHECK_EQUAL( c.empty(), false ); BOOST_CHECK_EQUAL( c.size(), c.max_size() ); BOOST_TEST_MESSAGE( "finished capacity test" ); BOOST_CHECK_EQUAL( c.is_null(0), false ); BOOST_CHECK_EQUAL( c.is_null(1), false ); BOOST_CHECK_EQUAL( c.is_null(2), true ); c.front(); c.back(); c2.front(); c2.back(); C c3; c.swap( c3 ); C c4; swap(c4,c3); c3.swap(c4); BOOST_CHECK_EQUAL( c.is_null(0), true ); BOOST_CHECK_EQUAL( c3.is_null(0), false ); c.replace( 5, new T ); BOOST_CHECK_EQUAL( c.is_null(5), false ); c = c3.release(); for( size_t i = 0; i < c3.size(); ++i ) BOOST_CHECK_EQUAL( c3.is_null(i), true ); BOOST_TEST_MESSAGE( "finished element access test" ); } #if defined(BOOST_PTR_CONTAINER_DISABLE_DEPRECATED) #pragma GCC diagnostic pop #endif using boost::unit_test::test_suite; test_suite* init_unit_test_suite( int argc, char* argv[] ) { test_suite* test = BOOST_TEST_SUITE( "Pointer Container Test Suite" ); test->add( BOOST_TEST_CASE( &test_array ) ); return test; }