boost_1_45_0/libs/bimap/test/test_bimap_unordered.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // 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 <string>
 #include <functional>

 // Set type specifications
 #include <boost/bimap/unordered_set_of.hpp>
 #include <boost/bimap/unordered_multiset_of.hpp>

 // bimap container
 #include <boost/bimap/bimap.hpp>

 #include <libs/bimap/test/test_bimap.hpp>

 struct  left_tag {};
 struct right_tag {};

 void test_bimap()
 {
     using namespace boost::bimaps;


     typedef std::map<char,std::string> left_data_type;
     left_data_type left_data;
     left_data.insert( left_data_type::value_type('a',"a") );
     left_data.insert( left_data_type::value_type('b',"b") );
     left_data.insert( left_data_type::value_type('c',"c") );
     left_data.insert( left_data_type::value_type('d',"e") );

     typedef std::map<std::string,char> right_data_type;
     right_data_type right_data;
     right_data.insert( right_data_type::value_type("a",'a') );
     right_data.insert( right_data_type::value_type("b",'b') );
     right_data.insert( right_data_type::value_type("c",'c') );
     right_data.insert( right_data_type::value_type("d",'e') );


     //--------------------------------------------------------------------
     {
         typedef bimap<
             unordered_set_of<char>, unordered_multiset_of<std::string>

         > bm_type;

         std::set< bm_type::value_type > data;
         data.insert( bm_type::value_type('a',"a") );
         data.insert( bm_type::value_type('b',"b") );
         data.insert( bm_type::value_type('c',"c") );
         data.insert( bm_type::value_type('d',"d") );

         bm_type bm;

         test_unordered_set_unordered_multiset_bimap(
             bm,data,left_data,right_data
         );
     }
     //--------------------------------------------------------------------


     //--------------------------------------------------------------------
     {
         typedef bimap<
                  unordered_set_of< tagged< char       , left_tag  > >,
             unordered_multiset_of< tagged< std::string, right_tag > >

         > bm_type;

         std::set< bm_type::value_type > data;
         data.insert( bm_type::value_type('a',"a") );
         data.insert( bm_type::value_type('b',"b") );
         data.insert( bm_type::value_type('c',"c") );
         data.insert( bm_type::value_type('d',"d") );

         bm_type bm;

         test_unordered_set_unordered_multiset_bimap(
             bm,data,left_data,right_data
         );
         test_tagged_bimap<left_tag,right_tag>(bm,data);
     }
     //--------------------------------------------------------------------


     //--------------------------------------------------------------------
     {
         typedef bimap
         <
             set_of< char, std::greater<char> >,
             unordered_multiset_of<std::string>,
             unordered_set_of_relation<>

         > bm_type;

         std::set< bm_type::value_type > data;
         data.insert( bm_type::value_type('a',"a") );
         data.insert( bm_type::value_type('b',"b") );
         data.insert( bm_type::value_type('c',"c") );
         data.insert( bm_type::value_type('d',"d") );

         bm_type bm;

         test_basic_bimap(bm,data,left_data,right_data);
         test_associative_container(bm,data);
         test_simple_unordered_associative_container(bm,data);
     }
     //--------------------------------------------------------------------


     //--------------------------------------------------------------------
     {
                 typedef bimap
         <
             unordered_multiset_of< char >,
             unordered_multiset_of< std::string >,
             unordered_multiset_of_relation<>

         > bm_type;

         std::set< bm_type::value_type > data;
         data.insert( bm_type::value_type('a',"a") );
         data.insert( bm_type::value_type('b',"b") );
         data.insert( bm_type::value_type('c',"c") );
         data.insert( bm_type::value_type('d',"d") );

         bm_type bm;

         test_basic_bimap(bm,data,left_data,right_data);
         test_associative_container(bm,data);
         test_simple_unordered_associative_container(bm,data);

     }
     //--------------------------------------------------------------------
 }


 int test_main( int, char* [] )
 {
     test_bimap();
     return 0;
 }
	// 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 <string>
	#include <functional>

	// Set type specifications
	#include <boost/bimap/unordered_set_of.hpp>
	#include <boost/bimap/unordered_multiset_of.hpp>

	// bimap container
	#include <boost/bimap/bimap.hpp>

	#include <libs/bimap/test/test_bimap.hpp>

	struct left_tag {};
	struct right_tag {};

	void test_bimap()
	{
	using namespace boost::bimaps;


	typedef std::map<char,std::string> left_data_type;
	left_data_type left_data;
	left_data.insert( left_data_type::value_type('a',"a") );
	left_data.insert( left_data_type::value_type('b',"b") );
	left_data.insert( left_data_type::value_type('c',"c") );
	left_data.insert( left_data_type::value_type('d',"e") );

	typedef std::map<std::string,char> right_data_type;
	right_data_type right_data;
	right_data.insert( right_data_type::value_type("a",'a') );
	right_data.insert( right_data_type::value_type("b",'b') );
	right_data.insert( right_data_type::value_type("c",'c') );
	right_data.insert( right_data_type::value_type("d",'e') );



	//--------------------------------------------------------------------
	{
	typedef bimap<
	unordered_set_of<char>, unordered_multiset_of<std::string>

	> bm_type;

	std::set< bm_type::value_type > data;
	data.insert( bm_type::value_type('a',"a") );
	data.insert( bm_type::value_type('b',"b") );
	data.insert( bm_type::value_type('c',"c") );
	data.insert( bm_type::value_type('d',"d") );

	bm_type bm;

	test_unordered_set_unordered_multiset_bimap(
	bm,data,left_data,right_data
	);
	}
	//--------------------------------------------------------------------


	//--------------------------------------------------------------------
	{
	typedef bimap<
	unordered_set_of< tagged< char , left_tag > >,
	unordered_multiset_of< tagged< std::string, right_tag > >

	> bm_type;

	std::set< bm_type::value_type > data;
	data.insert( bm_type::value_type('a',"a") );
	data.insert( bm_type::value_type('b',"b") );
	data.insert( bm_type::value_type('c',"c") );
	data.insert( bm_type::value_type('d',"d") );

	bm_type bm;

	test_unordered_set_unordered_multiset_bimap(
	bm,data,left_data,right_data
	);
	test_tagged_bimap<left_tag,right_tag>(bm,data);
	}
	//--------------------------------------------------------------------


	//--------------------------------------------------------------------
	{
	typedef bimap
	<
	set_of< char, std::greater<char> >,
	unordered_multiset_of<std::string>,
	unordered_set_of_relation<>

	> bm_type;

	std::set< bm_type::value_type > data;
	data.insert( bm_type::value_type('a',"a") );
	data.insert( bm_type::value_type('b',"b") );
	data.insert( bm_type::value_type('c',"c") );
	data.insert( bm_type::value_type('d',"d") );

	bm_type bm;

	test_basic_bimap(bm,data,left_data,right_data);
	test_associative_container(bm,data);
	test_simple_unordered_associative_container(bm,data);
	}
	//--------------------------------------------------------------------


	//--------------------------------------------------------------------
	{
	typedef bimap
	<
	unordered_multiset_of< char >,
	unordered_multiset_of< std::string >,
	unordered_multiset_of_relation<>

	> bm_type;

	std::set< bm_type::value_type > data;
	data.insert( bm_type::value_type('a',"a") );
	data.insert( bm_type::value_type('b',"b") );
	data.insert( bm_type::value_type('c',"c") );
	data.insert( bm_type::value_type('d',"d") );

	bm_type bm;

	test_basic_bimap(bm,data,left_data,right_data);
	test_associative_container(bm,data);
	test_simple_unordered_associative_container(bm,data);

	}
	//--------------------------------------------------------------------
	}


	int test_main( int, char* [] )
	{
	test_bimap();
	return 0;
	}