libs/bimap/test/test_bimap_sequenced.cpp
// Boost.Bimap // // Copyright (c) 2006-2007 Matias Capeletto // // 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) // VC++ 8.0 warns on usage of certain Standard Library and API functions that // can be cause buffer overruns or other possible security issues if misused. // See http://msdn.microsoft.com/msdnmag/issues/05/05/SafeCandC/default.aspx // But the wording of the warning is misleading and unsettling, there are no // portable alternative functions, and VC++ 8.0's own libraries use the // functions in question. So turn off the warnings. #define _CRT_SECURE_NO_DEPRECATE #define _SCL_SECURE_NO_DEPRECATE #include <boost/config.hpp> #define BOOST_BIMAP_DISABLE_SERIALIZATION // Boost.Test #include <boost/test/minimal.hpp> // std #include <set> #include <map> #include <algorithm> #include <string> #include <functional> // Set type specifications #include <boost/bimap/list_of.hpp> #include <boost/bimap/vector_of.hpp> // bimap container #include <boost/bimap/bimap.hpp> #include <boost/bimap/support/lambda.hpp> #include <libs/bimap/test/test_bimap.hpp> struct left_tag {}; struct right_tag {}; template< class Container, class Data > void test_list_operations(Container & b, Container& c, const Data & d) { c.clear() ; c.assign(d.begin(),d.end()); BOOST_CHECK( std::equal( c.begin(), c.end(), d.begin() ) ); c.reverse(); BOOST_CHECK( std::equal( c.begin(), c.end(), d.rbegin() ) ); c.sort(); BOOST_CHECK( std::equal( c.begin(), c.end(), d.begin() ) ); c.push_front( *d.begin() ); BOOST_CHECK( c.size() == d.size()+1 ); c.unique(); BOOST_CHECK( c.size() == d.size() ); c.relocate( c.begin(), ++c.begin() ); c.relocate( c.end(), c.begin(), ++c.begin() ); b.clear(); c.clear(); c.assign(d.begin(),d.end()); b.splice(b.begin(),c); BOOST_CHECK( c.size() == 0 ); BOOST_CHECK( b.size() == d.size() ); c.splice(c.begin(),b,++b.begin()); BOOST_CHECK( c.size() == 1 ); c.splice(c.begin(),b,b.begin(),b.end()); BOOST_CHECK( b.size() == 0 ); b.assign(d.begin(),d.end()); c.assign(d.begin(),d.end()); b.sort(); c.sort(); b.merge(c); BOOST_CHECK( b.size() == 2*d.size() ); b.unique(); } void test_bimap() { using namespace boost::bimaps; typedef std::map<std::string,long> left_data_type; left_data_type left_data; left_data.insert( left_data_type::value_type("1",1) ); left_data.insert( left_data_type::value_type("2",2) ); left_data.insert( left_data_type::value_type("3",3) ); left_data.insert( left_data_type::value_type("4",4) ); typedef std::map<long,std::string> right_data_type; right_data_type right_data; right_data.insert( right_data_type::value_type(1,"1") ); right_data.insert( right_data_type::value_type(2,"2") ); right_data.insert( right_data_type::value_type(3,"3") ); right_data.insert( right_data_type::value_type(4,"4") ); //-------------------------------------------------------------------- { typedef bimap< list_of< std::string >, vector_of< long > > bm_type; std::set< bm_type::value_type > data; data.insert( bm_type::value_type("1",1) ); data.insert( bm_type::value_type("2",2) ); data.insert( bm_type::value_type("3",3) ); data.insert( bm_type::value_type("4",4) ); bm_type b; test_bimap_init_copy_swap<bm_type>(data) ; test_sequence_container(b,data); test_sequence_container(b.left , left_data); test_vector_container(b.right,right_data); test_mapped_container(b.left ); test_mapped_container(b.right); bm_type c; test_list_operations(b,c,data) ; test_list_operations(b.left,c.left,left_data) ; test_list_operations(b.right,c.right,right_data) ; c.assign(data.begin(),data.end()); b.assign(data.begin(),data.end()); c.remove_if(_key<=bm_type::value_type("1",1)); c.sort(std::less<bm_type::value_type>()); b.sort(std::less<bm_type::value_type>()); c.merge(b,std::less<bm_type::value_type>()); c.unique(std::equal_to<bm_type::value_type>()); c.assign(data.begin(),data.end()); b.assign(data.begin(),data.end()); c.left.remove_if(_key<="1"); c.left.sort(std::less<std::string>()); b.left.sort(std::less<std::string>()); c.left.merge(b.left,std::less<std::string>()); c.left.unique(std::equal_to<std::string>()); c.assign(data.begin(),data.end()); b.assign(data.begin(),data.end()); c.right.remove_if(_key<=1); c.right.sort(std::less<long>()); b.right.sort(std::less<long>()); c.right.merge(b.right,std::less<long>()); c.right.unique(std::equal_to<long>()); c.assign(data.begin(),data.end()); c.right[0].first = -1; c.right.at(0).second = "[1]"; } //-------------------------------------------------------------------- //-------------------------------------------------------------------- { typedef bimap < vector_of<std::string>, list_of<long>, vector_of_relation > bm_type; std::set< bm_type::value_type > data; data.insert( bm_type::value_type("1",1) ); data.insert( bm_type::value_type("2",2) ); data.insert( bm_type::value_type("3",3) ); data.insert( bm_type::value_type("4",4) ); bm_type b; test_bimap_init_copy_swap<bm_type>(data) ; test_vector_container(b,data) ; bm_type c; test_list_operations(b,c,data) ; test_list_operations(b.left,c.left,left_data) ; test_list_operations(b.right,c.right,right_data) ; c.assign(data.begin(),data.end()); b.assign(data.begin(),data.end()); c.remove_if(_key<=bm_type::value_type("1",1)); c.sort(std::less<bm_type::value_type>()); b.sort(std::less<bm_type::value_type>()); c.merge(b,std::less<bm_type::value_type>()); c.unique(std::equal_to<bm_type::value_type>()); c.assign(data.begin(),data.end()); b.assign(data.begin(),data.end()); c.left.remove_if(_key<="1"); c.left.sort(std::less<std::string>()); b.left.sort(std::less<std::string>()); c.left.merge(b.left,std::less<std::string>()); c.left.unique(std::equal_to<std::string>()); c.assign(data.begin(),data.end()); b.assign(data.begin(),data.end()); c.right.remove_if(_key<=1); c.right.sort(std::less<long>()); b.right.sort(std::less<long>()); c.right.merge(b.right,std::less<long>()); c.right.unique(std::equal_to<long>()); c.assign(data.begin(),data.end()); c[0].left = "(1)"; c.at(0).right = -1; c.left[0].first = "[1]"; c.left.at(0).second = -1; } //-------------------------------------------------------------------- //-------------------------------------------------------------------- { typedef bimap < vector_of<std::string>, list_of<long>, list_of_relation > bm_type; std::set< bm_type::value_type > data; data.insert( bm_type::value_type("1",1) ); data.insert( bm_type::value_type("2",2) ); data.insert( bm_type::value_type("3",3) ); data.insert( bm_type::value_type("4",4) ); bm_type b; test_bimap_init_copy_swap<bm_type>(data) ; test_sequence_container(b,data) ; bm_type c; test_list_operations(b,c,data) ; test_list_operations(b.left,c.left,left_data) ; test_list_operations(b.right,c.right,right_data) ; c.assign(data.begin(),data.end()); b.assign(data.begin(),data.end()); c.remove_if(_key<=bm_type::value_type("1",1)); c.sort(std::less<bm_type::value_type>()); b.sort(std::less<bm_type::value_type>()); c.merge(b,std::less<bm_type::value_type>()); c.unique(std::equal_to<bm_type::value_type>()); c.assign(data.begin(),data.end()); c.left[0].first = "[1]"; c.left.at(0).second = -1; } //-------------------------------------------------------------------- } int test_main( int, char* [] ) { test_bimap(); return 0; }