boost_1_45_0/libs/range/test/algorithm_test/mismatch.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // Boost.Range library
 //
 //  Copyright Neil Groves 2009. 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/range/
 //
 #include <boost/range/algorithm/mismatch.hpp>

 #include <boost/test/test_tools.hpp>
 #include <boost/test/unit_test.hpp>

 #include <boost/assign.hpp>
 #include <algorithm>
 #include <list>
 #include <set>
 #include <vector>

 namespace boost
 {
     namespace
     {
         template< class Container1, class Container2 >
         void eval_mismatch(Container1& cont1,
                            Container2& cont2,
                            BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type ref_it1,
                            BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type ref_it2
                            )
         {
             typedef BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type iter1_t;
             typedef BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type iter2_t;
             typedef std::pair<iter1_t, iter2_t> result_pair_t;

             result_pair_t result = boost::mismatch(cont1, cont2);
             BOOST_CHECK( result.first == ref_it1 );
             BOOST_CHECK( result.second == ref_it2 );

             result = boost::mismatch(boost::make_iterator_range(cont1),
                                      cont2);
             BOOST_CHECK( result.first == ref_it1 );
             BOOST_CHECK( result.second == ref_it2 );

             result = boost::mismatch(cont1,
                                      boost::make_iterator_range(cont2));
             BOOST_CHECK( result.first == ref_it1 );
             BOOST_CHECK( result.second == ref_it2 );

             result = boost::mismatch(boost::make_iterator_range(cont1),
                                      boost::make_iterator_range(cont2));
             BOOST_CHECK( result.first == ref_it1 );
             BOOST_CHECK( result.second == ref_it2 );
         }

         template< class Container1, class Container2, class Pred >
         void eval_mismatch(Container1& cont1,
                            Container2& cont2,
                            Pred pred,
                            BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type ref_it1,
                            BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type ref_it2
                            )
         {
             typedef BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type iter1_t;
             typedef BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type iter2_t;
             typedef std::pair<iter1_t, iter2_t> result_pair_t;

             result_pair_t result = boost::mismatch(cont1, cont2, pred);
             BOOST_CHECK( result.first == ref_it1 );
             BOOST_CHECK( result.second == ref_it2 );

             result = boost::mismatch(boost::make_iterator_range(cont1),
                                      cont2, pred);
             BOOST_CHECK( result.first == ref_it1 );
             BOOST_CHECK( result.second == ref_it2 );

             result = boost::mismatch(cont1,
                                      boost::make_iterator_range(cont2), pred);
             BOOST_CHECK( result.first == ref_it1 );
             BOOST_CHECK( result.second == ref_it2 );

             result = boost::mismatch(boost::make_iterator_range(cont1),
                                      boost::make_iterator_range(cont2),
                                      pred);
             BOOST_CHECK( result.first == ref_it1 );
             BOOST_CHECK( result.second == ref_it2 );
         }

         template< class Container1, class Container2 >
         void eval_mismatch(Container1& cont1,
                            Container2& cont2,
                            const int ref1,
                            const int ref2)
         {
             typedef BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type iter1_t;
             typedef BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type iter2_t;
             typedef std::pair<iter1_t, iter2_t> result_pair_t;

             result_pair_t result = boost::mismatch(cont1, cont2);
             BOOST_CHECK_EQUAL( ref1, *result.first );
             BOOST_CHECK_EQUAL( ref2, *result.second );

             result = boost::mismatch(boost::make_iterator_range(cont1), cont2);
             BOOST_CHECK_EQUAL( ref1, *result.first );
             BOOST_CHECK_EQUAL( ref2, *result.second );

             result = boost::mismatch(cont1, boost::make_iterator_range(cont2));
             BOOST_CHECK_EQUAL( ref1, *result.first );
             BOOST_CHECK_EQUAL( ref2, *result.second );

             result = boost::mismatch(boost::make_iterator_range(cont1),
                                      boost::make_iterator_range(cont2));
             BOOST_CHECK_EQUAL( ref1, *result.first );
             BOOST_CHECK_EQUAL( ref2, *result.second );
         }

         template< class Container1, class Container2, class Pred >
         void eval_mismatch(Container1& cont1,
                            Container2& cont2,
                            Pred pred,
                            const int ref1,
                            const int ref2)
         {
             typedef BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type iter1_t;
             typedef BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type iter2_t;
             typedef std::pair<iter1_t, iter2_t> result_pair_t;

             result_pair_t result = boost::mismatch(cont1, cont2, pred);
             BOOST_CHECK_EQUAL( ref1, *result.first );
             BOOST_CHECK_EQUAL( ref2, *result.second );

             result = boost::mismatch(boost::make_iterator_range(cont1),
                                      cont2, pred);
             BOOST_CHECK_EQUAL( ref1, *result.first );
             BOOST_CHECK_EQUAL( ref2, *result.second );

             result = boost::mismatch(cont1, boost::make_iterator_range(cont2),
                                      pred);
             BOOST_CHECK_EQUAL( ref1, *result.first );
             BOOST_CHECK_EQUAL( ref2, *result.second );

             result = boost::mismatch(boost::make_iterator_range(cont1),
                                      boost::make_iterator_range(cont2),
                                      pred);
             BOOST_CHECK_EQUAL( ref1, *result.first );
             BOOST_CHECK_EQUAL( ref2, *result.second );
         }

         template< class Container1, class Container2 >
         void test_mismatch_impl()
         {
             using namespace boost::assign;

             typedef BOOST_DEDUCED_TYPENAME boost::remove_const<Container1>::type MutableContainer1;
             typedef BOOST_DEDUCED_TYPENAME boost::remove_const<Container2>::type MutableContainer2;

             MutableContainer1 cont1;
             const Container1& cref_cont1 = cont1;
             MutableContainer2 cont2;
             const Container2& cref_cont2 = cont2;

             typedef BOOST_DEDUCED_TYPENAME Container1::iterator iterator1_t;
             typedef BOOST_DEDUCED_TYPENAME Container1::const_iterator const_iterator1_t;
             typedef BOOST_DEDUCED_TYPENAME Container2::iterator iterator2_t;
             typedef BOOST_DEDUCED_TYPENAME Container2::const_iterator const_iterator2_t;

             typedef std::pair<iterator1_t,       iterator2_t>       pair_mmit_t;
             typedef std::pair<const_iterator1_t, iterator2_t>       pair_cmit_t;
             typedef std::pair<iterator1_t,       const_iterator2_t> pair_mcit_t;
             typedef std::pair<const_iterator1_t, const_iterator2_t> pair_ccit_t;

             eval_mismatch(cont1, cont2, cont1.end(), cont2.end());
             eval_mismatch(cont1, cont2, std::equal_to<int>(), cont1.end(), cont2.end());
             eval_mismatch(cref_cont1, cont2, cref_cont1.end(), cont2.end());
             eval_mismatch(cref_cont1, cont2, std::equal_to<int>(), cref_cont1.end(), cont2.end());
             eval_mismatch(cont1, cref_cont2, cont1.end(), cref_cont2.end());
             eval_mismatch(cont1, cref_cont2, std::equal_to<int>(), cont1.end(), cref_cont2.end());
             eval_mismatch(cref_cont1, cref_cont2, cref_cont1.end(), cref_cont2.end());
             eval_mismatch(cref_cont1, cref_cont2, std::equal_to<int>(), cref_cont1.end(), cref_cont2.end());

             cont1 += 1,2,3,4;
             cont2 += 1,2,3,4;
             eval_mismatch(cont1, cont2, cont1.end(), cont2.end());
             eval_mismatch(cont1, cont2, std::equal_to<int>(), cont1.end(), cont2.end());
             eval_mismatch(cref_cont1, cont2, cref_cont1.end(), cont2.end());
             eval_mismatch(cref_cont1, cont2, std::equal_to<int>(), cref_cont1.end(), cont2.end());
             eval_mismatch(cont1, cref_cont2, cont1.end(), cref_cont2.end());
             eval_mismatch(cont1, cref_cont2, std::equal_to<int>(), cont1.end(), cref_cont2.end());
             eval_mismatch(cref_cont1, cref_cont2, cref_cont1.end(), cref_cont2.end());
             eval_mismatch(cref_cont1, cref_cont2, std::equal_to<int>(), cref_cont1.end(), cref_cont2.end());

             cont1.clear();
             cont2.clear();
             cont1 += 1,2,3,4;
             cont2 += 1,2,5,4;
             eval_mismatch(cont1, cont2, 3, 5);
             eval_mismatch(cont1, cont2, std::equal_to<int>(), 3, 5);
             eval_mismatch(cont1, cont2, std::not_equal_to<int>(), cont1.begin(), cont2.begin());
             eval_mismatch(cref_cont1, cont2, 3, 5);
             eval_mismatch(cref_cont1, cont2, std::equal_to<int>(), 3, 5);
             eval_mismatch(cref_cont1, cont2, std::not_equal_to<int>(), cref_cont1.begin(), cont2.begin());
             eval_mismatch(cont1, cref_cont2, 3, 5);
             eval_mismatch(cont1, cref_cont2, std::equal_to<int>(), 3, 5);
             eval_mismatch(cont1, cref_cont2, std::not_equal_to<int>(), cont1.begin(), cref_cont2.begin());
             eval_mismatch(cref_cont1, cref_cont2, 3, 5);
             eval_mismatch(cref_cont1, cref_cont2, std::equal_to<int>(), 3, 5);
             eval_mismatch(cref_cont1, cref_cont2, std::not_equal_to<int>(), cref_cont1.begin(), cref_cont2.begin());
         }

         void test_mismatch()
         {
             test_mismatch_impl< std::list<int>, std::list<int> >();
             test_mismatch_impl< const std::list<int>, std::list<int> >();
             test_mismatch_impl< std::list<int>, const std::list<int> >();
             test_mismatch_impl< const std::list<int>, const std::list<int> >();

             test_mismatch_impl< std::vector<int>, std::list<int> >();
             test_mismatch_impl< const std::vector<int>, std::list<int> >();
             test_mismatch_impl< std::vector<int>, const std::list<int> >();
             test_mismatch_impl< const std::vector<int>, const std::list<int> >();

             test_mismatch_impl< std::list<int>, std::vector<int> >();
             test_mismatch_impl< const std::list<int>, std::vector<int> >();
             test_mismatch_impl< std::list<int>, const std::vector<int> >();
             test_mismatch_impl< const std::list<int>, const std::vector<int> >();
         }
     }
 }

 boost::unit_test::test_suite*
 init_unit_test_suite(int argc, char* argv[])
 {
     boost::unit_test::test_suite* test
         = BOOST_TEST_SUITE( "RangeTestSuite.algorithm.mismatch" );

     test->add( BOOST_TEST_CASE( &boost::test_mismatch ) );

     return test;
 }
	// Boost.Range library
	//
	// Copyright Neil Groves 2009. 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/range/
	//
	#include <boost/range/algorithm/mismatch.hpp>

	#include <boost/test/test_tools.hpp>
	#include <boost/test/unit_test.hpp>

	#include <boost/assign.hpp>
	#include <algorithm>
	#include <list>
	#include <set>
	#include <vector>

	namespace boost
	{
	namespace
	{
	template< class Container1, class Container2 >
	void eval_mismatch(Container1& cont1,
	Container2& cont2,
	BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type ref_it1,
	BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type ref_it2
	)
	{
	typedef BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type iter1_t;
	typedef BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type iter2_t;
	typedef std::pair<iter1_t, iter2_t> result_pair_t;

	result_pair_t result = boost::mismatch(cont1, cont2);
	BOOST_CHECK( result.first == ref_it1 );
	BOOST_CHECK( result.second == ref_it2 );

	result = boost::mismatch(boost::make_iterator_range(cont1),
	cont2);
	BOOST_CHECK( result.first == ref_it1 );
	BOOST_CHECK( result.second == ref_it2 );

	result = boost::mismatch(cont1,
	boost::make_iterator_range(cont2));
	BOOST_CHECK( result.first == ref_it1 );
	BOOST_CHECK( result.second == ref_it2 );

	result = boost::mismatch(boost::make_iterator_range(cont1),
	boost::make_iterator_range(cont2));
	BOOST_CHECK( result.first == ref_it1 );
	BOOST_CHECK( result.second == ref_it2 );
	}

	template< class Container1, class Container2, class Pred >
	void eval_mismatch(Container1& cont1,
	Container2& cont2,
	Pred pred,
	BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type ref_it1,
	BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type ref_it2
	)
	{
	typedef BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type iter1_t;
	typedef BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type iter2_t;
	typedef std::pair<iter1_t, iter2_t> result_pair_t;

	result_pair_t result = boost::mismatch(cont1, cont2, pred);
	BOOST_CHECK( result.first == ref_it1 );
	BOOST_CHECK( result.second == ref_it2 );

	result = boost::mismatch(boost::make_iterator_range(cont1),
	cont2, pred);
	BOOST_CHECK( result.first == ref_it1 );
	BOOST_CHECK( result.second == ref_it2 );

	result = boost::mismatch(cont1,
	boost::make_iterator_range(cont2), pred);
	BOOST_CHECK( result.first == ref_it1 );
	BOOST_CHECK( result.second == ref_it2 );

	result = boost::mismatch(boost::make_iterator_range(cont1),
	boost::make_iterator_range(cont2),
	pred);
	BOOST_CHECK( result.first == ref_it1 );
	BOOST_CHECK( result.second == ref_it2 );
	}

	template< class Container1, class Container2 >
	void eval_mismatch(Container1& cont1,
	Container2& cont2,
	const int ref1,
	const int ref2)
	{
	typedef BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type iter1_t;
	typedef BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type iter2_t;
	typedef std::pair<iter1_t, iter2_t> result_pair_t;

	result_pair_t result = boost::mismatch(cont1, cont2);
	BOOST_CHECK_EQUAL( ref1, *result.first );
	BOOST_CHECK_EQUAL( ref2, *result.second );

	result = boost::mismatch(boost::make_iterator_range(cont1), cont2);
	BOOST_CHECK_EQUAL( ref1, *result.first );
	BOOST_CHECK_EQUAL( ref2, *result.second );

	result = boost::mismatch(cont1, boost::make_iterator_range(cont2));
	BOOST_CHECK_EQUAL( ref1, *result.first );
	BOOST_CHECK_EQUAL( ref2, *result.second );

	result = boost::mismatch(boost::make_iterator_range(cont1),
	boost::make_iterator_range(cont2));
	BOOST_CHECK_EQUAL( ref1, *result.first );
	BOOST_CHECK_EQUAL( ref2, *result.second );
	}

	template< class Container1, class Container2, class Pred >
	void eval_mismatch(Container1& cont1,
	Container2& cont2,
	Pred pred,
	const int ref1,
	const int ref2)
	{
	typedef BOOST_DEDUCED_TYPENAME range_iterator<Container1>::type iter1_t;
	typedef BOOST_DEDUCED_TYPENAME range_iterator<Container2>::type iter2_t;
	typedef std::pair<iter1_t, iter2_t> result_pair_t;

	result_pair_t result = boost::mismatch(cont1, cont2, pred);
	BOOST_CHECK_EQUAL( ref1, *result.first );
	BOOST_CHECK_EQUAL( ref2, *result.second );

	result = boost::mismatch(boost::make_iterator_range(cont1),
	cont2, pred);
	BOOST_CHECK_EQUAL( ref1, *result.first );
	BOOST_CHECK_EQUAL( ref2, *result.second );

	result = boost::mismatch(cont1, boost::make_iterator_range(cont2),
	pred);
	BOOST_CHECK_EQUAL( ref1, *result.first );
	BOOST_CHECK_EQUAL( ref2, *result.second );

	result = boost::mismatch(boost::make_iterator_range(cont1),
	boost::make_iterator_range(cont2),
	pred);
	BOOST_CHECK_EQUAL( ref1, *result.first );
	BOOST_CHECK_EQUAL( ref2, *result.second );
	}

	template< class Container1, class Container2 >
	void test_mismatch_impl()
	{
	using namespace boost::assign;

	typedef BOOST_DEDUCED_TYPENAME boost::remove_const<Container1>::type MutableContainer1;
	typedef BOOST_DEDUCED_TYPENAME boost::remove_const<Container2>::type MutableContainer2;

	MutableContainer1 cont1;
	const Container1& cref_cont1 = cont1;
	MutableContainer2 cont2;
	const Container2& cref_cont2 = cont2;

	typedef BOOST_DEDUCED_TYPENAME Container1::iterator iterator1_t;
	typedef BOOST_DEDUCED_TYPENAME Container1::const_iterator const_iterator1_t;
	typedef BOOST_DEDUCED_TYPENAME Container2::iterator iterator2_t;
	typedef BOOST_DEDUCED_TYPENAME Container2::const_iterator const_iterator2_t;

	typedef std::pair<iterator1_t, iterator2_t> pair_mmit_t;
	typedef std::pair<const_iterator1_t, iterator2_t> pair_cmit_t;
	typedef std::pair<iterator1_t, const_iterator2_t> pair_mcit_t;
	typedef std::pair<const_iterator1_t, const_iterator2_t> pair_ccit_t;

	eval_mismatch(cont1, cont2, cont1.end(), cont2.end());
	eval_mismatch(cont1, cont2, std::equal_to<int>(), cont1.end(), cont2.end());
	eval_mismatch(cref_cont1, cont2, cref_cont1.end(), cont2.end());
	eval_mismatch(cref_cont1, cont2, std::equal_to<int>(), cref_cont1.end(), cont2.end());
	eval_mismatch(cont1, cref_cont2, cont1.end(), cref_cont2.end());
	eval_mismatch(cont1, cref_cont2, std::equal_to<int>(), cont1.end(), cref_cont2.end());
	eval_mismatch(cref_cont1, cref_cont2, cref_cont1.end(), cref_cont2.end());
	eval_mismatch(cref_cont1, cref_cont2, std::equal_to<int>(), cref_cont1.end(), cref_cont2.end());

	cont1 += 1,2,3,4;
	cont2 += 1,2,3,4;
	eval_mismatch(cont1, cont2, cont1.end(), cont2.end());
	eval_mismatch(cont1, cont2, std::equal_to<int>(), cont1.end(), cont2.end());
	eval_mismatch(cref_cont1, cont2, cref_cont1.end(), cont2.end());
	eval_mismatch(cref_cont1, cont2, std::equal_to<int>(), cref_cont1.end(), cont2.end());
	eval_mismatch(cont1, cref_cont2, cont1.end(), cref_cont2.end());
	eval_mismatch(cont1, cref_cont2, std::equal_to<int>(), cont1.end(), cref_cont2.end());
	eval_mismatch(cref_cont1, cref_cont2, cref_cont1.end(), cref_cont2.end());
	eval_mismatch(cref_cont1, cref_cont2, std::equal_to<int>(), cref_cont1.end(), cref_cont2.end());

	cont1.clear();
	cont2.clear();
	cont1 += 1,2,3,4;
	cont2 += 1,2,5,4;
	eval_mismatch(cont1, cont2, 3, 5);
	eval_mismatch(cont1, cont2, std::equal_to<int>(), 3, 5);
	eval_mismatch(cont1, cont2, std::not_equal_to<int>(), cont1.begin(), cont2.begin());
	eval_mismatch(cref_cont1, cont2, 3, 5);
	eval_mismatch(cref_cont1, cont2, std::equal_to<int>(), 3, 5);
	eval_mismatch(cref_cont1, cont2, std::not_equal_to<int>(), cref_cont1.begin(), cont2.begin());
	eval_mismatch(cont1, cref_cont2, 3, 5);
	eval_mismatch(cont1, cref_cont2, std::equal_to<int>(), 3, 5);
	eval_mismatch(cont1, cref_cont2, std::not_equal_to<int>(), cont1.begin(), cref_cont2.begin());
	eval_mismatch(cref_cont1, cref_cont2, 3, 5);
	eval_mismatch(cref_cont1, cref_cont2, std::equal_to<int>(), 3, 5);
	eval_mismatch(cref_cont1, cref_cont2, std::not_equal_to<int>(), cref_cont1.begin(), cref_cont2.begin());
	}

	void test_mismatch()
	{
	test_mismatch_impl< std::list<int>, std::list<int> >();
	test_mismatch_impl< const std::list<int>, std::list<int> >();
	test_mismatch_impl< std::list<int>, const std::list<int> >();
	test_mismatch_impl< const std::list<int>, const std::list<int> >();

	test_mismatch_impl< std::vector<int>, std::list<int> >();
	test_mismatch_impl< const std::vector<int>, std::list<int> >();
	test_mismatch_impl< std::vector<int>, const std::list<int> >();
	test_mismatch_impl< const std::vector<int>, const std::list<int> >();

	test_mismatch_impl< std::list<int>, std::vector<int> >();
	test_mismatch_impl< const std::list<int>, std::vector<int> >();
	test_mismatch_impl< std::list<int>, const std::vector<int> >();
	test_mismatch_impl< const std::list<int>, const std::vector<int> >();
	}
	}
	}

	boost::unit_test::test_suite*
	init_unit_test_suite(int argc, char* argv[])
	{
	boost::unit_test::test_suite* test
	= BOOST_TEST_SUITE( "RangeTestSuite.algorithm.mismatch" );

	test->add( BOOST_TEST_CASE( &boost::test_mismatch ) );

	return test;
	}