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// Boost.Bimap
//
// Copyright (c) 2006-2007 Matias Capeletto
// Copyright (c) 2024 Joaquin M Lopez Munoz
//
// 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 https://web.archive.org/web/20071014014301/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
#include <boost/core/lightweight_test.hpp>
// std
#include <set>
#include <map>
#include <string>
#include <functional>
// Set type specifications
#include <boost/bimap/set_of.hpp>
#include <boost/bimap/multiset_of.hpp>
// List type specification
#include <boost/bimap/list_of.hpp>
// bimap container
#include <boost/bimap/bimap.hpp>
#include "strong_type.hpp"
#include "test_bimap.hpp"
struct left_tag {};
struct right_tag {};
void test_bimap()
{
using namespace boost::bimaps;
typedef std::map<int,double> left_data_type;
left_data_type left_data;
left_data.insert( left_data_type::value_type(1,0.1) );
left_data.insert( left_data_type::value_type(2,0.2) );
left_data.insert( left_data_type::value_type(3,0.3) );
left_data.insert( left_data_type::value_type(4,0.4) );
typedef std::map<double,int> right_data_type;
right_data_type right_data;
right_data.insert( right_data_type::value_type(0.1,1) );
right_data.insert( right_data_type::value_type(0.2,2) );
right_data.insert( right_data_type::value_type(0.3,3) );
right_data.insert( right_data_type::value_type(0.4,4) );
//--------------------------------------------------------------------
{
typedef bimap< int, double > bm_type;
std::set< bm_type::value_type > data;
data.insert( bm_type::value_type(1,0.1) );
data.insert( bm_type::value_type(2,0.2) );
data.insert( bm_type::value_type(3,0.3) );
data.insert( bm_type::value_type(4,0.4) );
bm_type bm;
test_set_set_bimap(bm,data,left_data,right_data);
}
//--------------------------------------------------------------------
//--------------------------------------------------------------------
{
typedef bimap
<
multiset_of< tagged<int, left_tag > >,
multiset_of< tagged<double, right_tag > >,
multiset_of_relation< std::less< _relation > >
> bm_type;
std::set< bm_type::value_type > data;
data.insert( bm_type::value_type(1,0.1) );
data.insert( bm_type::value_type(2,0.2) );
data.insert( bm_type::value_type(3,0.3) );
data.insert( bm_type::value_type(4,0.4) );
bm_type bm;
test_multiset_multiset_bimap(bm,data,left_data,right_data);
test_tagged_bimap<left_tag,right_tag>(bm,data);
}
//--------------------------------------------------------------------
//--------------------------------------------------------------------
{
typedef bimap<int,double,right_based> bm_type;
std::set< bm_type::value_type > data;
data.insert( bm_type::value_type(1,0.1) );
data.insert( bm_type::value_type(2,0.2) );
data.insert( bm_type::value_type(3,0.3) );
data.insert( bm_type::value_type(4,0.4) );
bm_type bm;
test_set_set_bimap(bm,data,left_data,right_data);
}
//--------------------------------------------------------------------
//--------------------------------------------------------------------
{
typedef bimap
<
multiset_of< int, std::greater<int> >, set_of<std::string> ,
multiset_of_relation< std::greater< _relation > >
> bimap_type;
bimap_type b1;
b1.insert( bimap_type::value_type(1,"one") );
bimap_type b2( b1 );
BOOST_TEST( b1 == b2 );
BOOST_TEST( ! ( b1 != b2 ) );
BOOST_TEST( b1 <= b2 );
BOOST_TEST( b1 >= b2 );
BOOST_TEST( ! ( b1 < b2 ) );
BOOST_TEST( ! ( b1 > b2 ) );
b1.insert( bimap_type::value_type(2,"two") );
b2 = b1;
BOOST_TEST( b2 == b1 );
b1.insert( bimap_type::value_type(3,"three") );
b2.left = b1.left;
BOOST_TEST( b2 == b1 );
b1.insert( bimap_type::value_type(4,"four") );
b2.right = b1.right;
BOOST_TEST( b2 == b1 );
b1.clear();
b2.swap(b1);
BOOST_TEST( b2.empty() && !b1.empty() );
b1.left.swap( b2.left );
BOOST_TEST( b1.empty() && !b2.empty() );
b1.right.swap( b2.right );
BOOST_TEST( b2.empty() && !b1.empty() );
}
//--------------------------------------------------------------------
{
typedef bimap
<
set_of< int, std::less< strong<int> > >,
multiset_of< int, std::less< strong<int> > >,
set_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) );
std::map<int,int> sided_data;
sided_data.emplace(1,1);
sided_data.emplace(2,2);
sided_data.emplace(3,3);
sided_data.emplace(4,4);
bm_type bm;
test_basic_bimap(bm,data,sided_data,sided_data);
test_associative_container(bm,data);
test_pair_heterogeneous_ordered_associative_container< strong<int> >(
bm.left,sided_data);
test_pair_heterogeneous_ordered_associative_container< strong<int> >(
bm.right,sided_data);
}
//--------------------------------------------------------------------
}
int main()
{
test_bimap();
return boost::report_errors();
}
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