libs/ptr_container/test/tree_test.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 "test_data.hpp" #include <boost/ptr_container/ptr_vector.hpp> #include <boost/utility.hpp> #include <boost/lexical_cast.hpp> #include <algorithm> #include <iostream> #include <cstddef> #include <string> using namespace std; using namespace boost; class node; class tree { typedef ptr_vector<node> nodes_t; nodes_t nodes; protected: void swap( tree& r ) { nodes.swap( r.nodes ); } public: typedef nodes_t::iterator iterator; typedef nodes_t::const_iterator const_iterator; public: void add_child( node* n ); void remove( iterator n ); void write_tree( ostream& os ) const; size_t size() const; node& child( size_t idx ); const node& child( size_t idx ) const; iterator child_begin(); const_iterator child_begin() const; iterator child_end(); const_iterator child_end() const; iterator find( const string& match ); }; class node : noncopyable { virtual size_t do_node_size() const = 0; virtual string do_description() const = 0; virtual void do_write_value( ostream& os ) const = 0; public: virtual ~node() { } size_t node_size() const { return do_node_size(); } string description() const { return do_description(); } void write_value( ostream& os ) const { do_write_value( os ); } }; class inner_node : public node, public tree { string name; virtual size_t do_node_size() const { return tree::size(); } virtual string do_description() const { return lexical_cast<string>( name ); } virtual void do_write_value( ostream& os ) const { os << " inner node: " << name; } void swap( inner_node& r ) { name.swap( r.name ); tree::swap( r ); } public: inner_node() : name("inner node") { } inner_node( const string& r ) : name(r) { } inner_node* release() { inner_node* ptr( new inner_node ); ptr->swap( *this ); return ptr; } }; template< class T > class leaf : public node { T data; virtual size_t do_node_size() const { return 1; } virtual string do_description() const { return lexical_cast<string>( data ); } virtual void do_write_value( ostream& os ) const { os << " leaf: " << data; } public: leaf() : data( T() ) { } leaf( const T& r ) : data(r) { } void set_data( const T& r ) { data = r; } }; ///////////////////////////////////////////////////////////////////////// // tree implementation ///////////////////////////////////////////////////////////////////////// inline void tree::add_child( node* n ) { nodes.push_back( n ); } inline void tree::remove( iterator n ) { BOOST_ASSERT( n != nodes.end() ); nodes.erase( n ); } void tree::write_tree( ostream& os ) const { for( const_iterator i = nodes.begin(), e = nodes.end(); i != e; ++i ) { i->write_value( os ); if( const inner_node* p = dynamic_cast<const inner_node*>( &*i ) ) p->write_tree( os ); } } size_t tree::size() const { size_t res = 1; for( const_iterator i = nodes.begin(), e = nodes.end(); i != e; ++i ) { res += i->node_size(); } return res; } inline node& tree::child( size_t idx ) { return nodes[idx]; } inline const node& tree::child( size_t idx ) const { return nodes[idx]; } inline tree::iterator tree::child_begin() { return nodes.begin(); } inline tree::const_iterator tree::child_begin() const { return nodes.begin(); } inline tree::iterator tree::child_end() { return nodes.end(); } inline tree::const_iterator tree::child_end() const { return nodes.end(); } tree::iterator tree::find( const string& match ) { for( iterator i = nodes.begin(), e = nodes.end(); i != e; ++i ) { if( i->description() == match ) return i; if( inner_node* p = dynamic_cast<inner_node*>( &*i ) ) { iterator j = p->find( match ); if( j != p->child_end() ) return j; } } return child_end(); } ///////////////////////////////////////////////////////////////////////// // test case ///////////////////////////////////////////////////////////////////////// void test_tree() { tree root; BOOST_CHECK_EQUAL( root.size(), 1u ); inner_node node1( "node 1" ); node1.add_child( new leaf<string>( "leaf 1" ) ); node1.add_child( new leaf<int>( 42 ) ); inner_node node2( "node 2" ); node2.add_child( new leaf<float>( 42.0f ) ); node2.add_child( new leaf<string>( "leaf 4" ) ); root.add_child( node1.release() ); BOOST_CHECK_EQUAL( root.size(), 4u ); root.add_child( node2.release() ); root.add_child( new inner_node( "node 3" ) ); BOOST_CHECK_EQUAL( root.size(), 8u ); root.add_child( new leaf<string>( "leaf 5" ) ); BOOST_CHECK_EQUAL( root.size(), 9u ); root.write_tree( cout ); tree::iterator a_leaf = root.find( "42" ); BOOST_CHECK_EQUAL( a_leaf->description(), "42" ); leaf<int>& the_leaf = dynamic_cast< leaf<int>& >( *a_leaf ); the_leaf.set_data( 2*42 ); BOOST_CHECK_EQUAL( a_leaf->description(), "84" ); } #include <boost/test/unit_test.hpp> 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_tree ) ); return test; }