third_party/boost/intrusive/test/generic_multiset_test.hpp - platform/external/sdv/vsomeip - Git at Google

 /////////////////////////////////////////////////////////////////////////////
 //
 // (C) Copyright Olaf Krzikalla 2004-2006.
 // (C) Copyright Ion Gaztanaga  2006-2013.
 //
 // 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)
 //
 // See http://www.boost.org/libs/intrusive for documentation.
 //
 /////////////////////////////////////////////////////////////////////////////
 #include <boost/container/vector.hpp>
 #include <boost/intrusive/detail/config_begin.hpp>
 #include "common_functors.hpp"
 #include <boost/core/lightweight_test.hpp>
 #include <boost/intrusive/options.hpp>
 #include <boost/intrusive/detail/iterator.hpp>
 #include "test_macros.hpp"
 #include "test_container.hpp"
 #include "generic_assoc_test.hpp"
 #include <typeinfo>

 namespace boost{
 namespace intrusive{
 namespace test{

 template<class ContainerDefiner>
 struct test_generic_multiset
 {
    typedef typename ContainerDefiner::value_cont_type    value_cont_type;

    static void test_all();
    static void test_sort(value_cont_type&);
    static void test_insert(value_cont_type&);
    static void test_swap(value_cont_type&);
    static void test_merge(value_cont_type&);
    static void test_find(value_cont_type&);
    static void test_impl();
 };

 template<class ContainerDefiner>
 void test_generic_multiset<ContainerDefiner>::test_all ()
 {
    static const int random_init[6] = { 3, 2, 4, 1, 5, 2 };
    value_cont_type values (6);
    for (int i = 0; i < 6; ++i)
       (&values[i])->value_ = random_init[i];
    typedef typename ContainerDefiner::template container
       <>::type multiset_type;
    {
       multiset_type testset(values.begin(), values.end());
       test::test_container(testset);
       testset.clear();
       testset.insert(values.begin(), values.end());
       test::test_common_unordered_and_associative_container(testset, values);
       testset.clear();
       testset.insert(values.begin(), values.end());
       test::test_associative_container(testset, values);
       testset.clear();
       testset.insert(values.begin(), values.end());
       test::test_non_unique_container(testset, values);
    }
    test_sort(values);
    test_insert(values);
    test_swap(values);
    test_merge(values);
    test_find(values);
    test_impl();
    test_generic_assoc<ContainerDefiner>::test_all(values);
 }

 //test case due to an error in tree implementation:
 template<class ContainerDefiner>
 void test_generic_multiset<ContainerDefiner>::test_impl()
 {
    value_cont_type values (5);
    for (int i = 0; i < 5; ++i)
       (&values[i])->value_ = i;
    typedef typename ContainerDefiner::template container
       <>::type multiset_type;

    multiset_type testset;
    for (int i = 0; i < 5; ++i)
       testset.insert (values[i]);

    testset.erase (testset.iterator_to (values[0]));
    testset.erase (testset.iterator_to (values[1]));
    testset.insert (values[1]);

    testset.erase (testset.iterator_to (values[2]));
    testset.erase (testset.iterator_to (values[3]));
 }

 //test: constructor, iterator, clear, reverse_iterator, front, back, size:
 template<class ContainerDefiner>
 void test_generic_multiset<ContainerDefiner>::test_sort(value_cont_type& values)
 {
    typedef typename ContainerDefiner::template container
       <>::type multiset_type;

    multiset_type testset1 (values.begin(), values.end());
    {  int init_values [] = { 1, 2, 2, 3, 4, 5 };
       TEST_INTRUSIVE_SEQUENCE( init_values, testset1.begin() );  }

    testset1.clear();
    BOOST_TEST (testset1.empty());

    typedef typename ContainerDefiner::template container
       <compare<even_odd>
       >::type multiset_type2;

    multiset_type2 testset2 (values.begin(), values.begin() + 6);
    {  int init_values [] = { 5, 3, 1, 4, 2, 2 };
       TEST_INTRUSIVE_SEQUENCE( init_values, testset2.rbegin() );  }

    BOOST_TEST (testset2.begin()->value_ == 2);
    BOOST_TEST (testset2.rbegin()->value_ == 5);
 }

 //test: insert, const_iterator, const_reverse_iterator, erase, iterator_to:
 template<class ContainerDefiner>
 void test_generic_multiset<ContainerDefiner>::test_insert(value_cont_type& values)
 {
    typedef typename ContainerDefiner::template container
       <>::type multiset_type;

    multiset_type testset;
    testset.insert(values.begin() + 2, values.begin() + 5);
    testset.check();
    {  int init_values [] = { 1, 4, 5 };
       TEST_INTRUSIVE_SEQUENCE( init_values, testset.begin() );  }

    typename multiset_type::iterator i = testset.begin();
    BOOST_TEST (i->value_ == 1);

    i = testset.insert (i, values[0]);
    testset.check();
    BOOST_TEST (&*i == &values[0]);

    {  int init_values [] = { 5, 4, 3, 1 };
       TEST_INTRUSIVE_SEQUENCE( init_values, testset.rbegin() );  }

    i = testset.iterator_to (values[2]);
    BOOST_TEST (&*i == &values[2]);

    i = multiset_type::s_iterator_to (values[2]);
    BOOST_TEST (&*i == &values[2]);

    testset.erase(i);
    testset.check();

    {  int init_values [] = { 1, 3, 5 };
       TEST_INTRUSIVE_SEQUENCE( init_values, testset.begin() );  }
 }

 //test: insert (seq-version), swap, erase (seq-version), size:
 template<class ContainerDefiner>
 void test_generic_multiset<ContainerDefiner>::test_swap(value_cont_type& values)
 {
    typedef typename ContainerDefiner::template container
       <>::type multiset_type;
    multiset_type testset1 (values.begin(), values.begin() + 2);
    multiset_type testset2;
    testset2.insert (values.begin() + 2, values.begin() + 6);
    testset1.swap (testset2);

    {  int init_values [] = { 1, 2, 4, 5 };
       TEST_INTRUSIVE_SEQUENCE( init_values, testset1.begin() );  }
    {  int init_values [] = { 2, 3 };
       TEST_INTRUSIVE_SEQUENCE( init_values, testset2.begin() );  }

    testset1.erase (testset1.iterator_to(values[5]), testset1.end());
    BOOST_TEST (testset1.size() == 1);
    BOOST_TEST (&*testset1.begin() == &values[3]);
 }

 template<class ContainerDefiner>
 void test_generic_multiset<ContainerDefiner>::test_merge(value_cont_type& values)
 {
    typedef typename ContainerDefiner::template container
       <>::type multiset_type;
    typedef typename multiset_type::key_of_value key_of_value;
    typedef typename multiset_type::key_type     key_type;

    typedef typename ContainerDefiner::template container
       < compare< std::greater<key_type> > >::type multiset_greater_type;

    //original vector: 3, 2, 4, 1, 5, 2
    //2,3
    multiset_type testset1 (values.begin(), values.begin() + 2);
    //5, 4, 2, 1
    multiset_greater_type testset2;
    testset2.insert (values.begin() + 2, values.begin() + 6);

    testset2.merge(testset1);
    testset1.check();
    testset2.check();

    BOOST_TEST (testset1.empty());
    BOOST_TEST (testset2.size() == 6);
    {  int init_values [] = { 5, 4, 3, 2, 2, 1 };
       TEST_INTRUSIVE_SEQUENCE( init_values, testset2.begin() );  }

    value_cont_type cmp_val_cont(1);
    typename value_cont_type::reference cmp_val = cmp_val_cont.front();
    (&cmp_val)->value_ = 2;

    BOOST_TEST (*testset2.find(key_of_value()(cmp_val)) == values[5]);
    BOOST_TEST (*testset2.find(2, any_greater()) == values[5]);
    BOOST_TEST (&*(++testset2.find(key_of_value()(cmp_val))) == &values[1]);

    testset1.merge(testset2);
    testset1.check();
    testset2.check();

    BOOST_TEST (testset1.size() == 6);
    {  int init_values [] = { 1, 2, 2, 3, 4, 5 };
       TEST_INTRUSIVE_SEQUENCE( init_values, testset1.begin() );  }
    BOOST_TEST (*testset1.find(key_of_value()(cmp_val)) == values[5]);
    BOOST_TEST (*testset1.find(2, any_less()) == values[5]);
    BOOST_TEST (&*(++testset1.find(key_of_value()(cmp_val))) == &values[1]);
    BOOST_TEST (testset2.empty());
 }

 //test: find, equal_range (lower_bound, upper_bound):
 template<class ContainerDefiner>
 void test_generic_multiset<ContainerDefiner>::test_find(value_cont_type& values)
 {
    typedef typename ContainerDefiner::template container
       <>::type multiset_type;
    typedef typename multiset_type::key_of_value key_of_value;
    multiset_type testset (values.begin(), values.end());
    typedef typename multiset_type::iterator        iterator;
    typedef typename multiset_type::const_iterator  const_iterator;

    {
       value_cont_type cmp_val_cont(1);
       typename value_cont_type::reference cmp_val = cmp_val_cont.front();
       (&cmp_val)->value_ = 2;
       iterator i = testset.find (key_of_value()(cmp_val));
       BOOST_TEST (i == testset.find (2, any_less()));
       BOOST_TEST (i->value_ == 2);
       BOOST_TEST ((++i)->value_ == 2);
       std::pair<iterator,iterator> range = testset.equal_range (key_of_value()(cmp_val));
       BOOST_TEST(range == testset.equal_range (2, any_less()));

       BOOST_TEST (range.first->value_ == 2);
       BOOST_TEST (range.second->value_ == 3);
       BOOST_TEST (boost::intrusive::iterator_distance (range.first, range.second) == 2);

       (&cmp_val)->value_ = 7;
       BOOST_TEST (testset.find(key_of_value()(cmp_val)) == testset.end());
       BOOST_TEST (testset.find (7, any_less()) == testset.end());
    }
    {  //1, 2, 2, 3, 4, 5
       const multiset_type &const_testset = testset;
       std::pair<iterator,iterator> range;
       std::pair<const_iterator, const_iterator> const_range;
       value_cont_type cmp_val_cont(2);
       typename value_cont_type::reference cmp_val_lower = cmp_val_cont.front();
       typename value_cont_type::reference cmp_val_upper = cmp_val_cont.back();
       {
       (&cmp_val_lower)->value_ = 1;
       (&cmp_val_upper)->value_ = 2;
       //left-closed, right-closed
       range = testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), true, true);
       BOOST_TEST (range == testset.bounded_range (1, 2, any_less(), true, true));
       BOOST_TEST (range.first->value_ == 1);
       BOOST_TEST (range.second->value_ == 3);
       BOOST_TEST (boost::intrusive::iterator_distance (range.first, range.second) == 3);
       }
       {
       (&cmp_val_lower)->value_ = 1;
       (&cmp_val_upper)->value_ = 2;
       const_range = const_testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), true, false);
       BOOST_TEST (const_range == const_testset.bounded_range (1, 2, any_less(), true, false));
       BOOST_TEST (const_range.first->value_ == 1);
       BOOST_TEST (const_range.second->value_ == 2);
       BOOST_TEST (boost::intrusive::iterator_distance (const_range.first, const_range.second) == 1);

       (&cmp_val_lower)->value_ = 1;
       (&cmp_val_upper)->value_ = 3;
       range = testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), true, false);
       BOOST_TEST (range == testset.bounded_range (1, 3, any_less(), true, false));
       BOOST_TEST (range.first->value_ == 1);
       BOOST_TEST (range.second->value_ == 3);
       BOOST_TEST (boost::intrusive::iterator_distance (range.first, range.second) == 3);
       }
       {
       (&cmp_val_lower)->value_ = 1;
       (&cmp_val_upper)->value_ = 2;
       const_range = const_testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), false, true);
       BOOST_TEST (const_range == const_testset.bounded_range (1, 2, any_less(), false, true));
       BOOST_TEST (const_range.first->value_ == 2);
       BOOST_TEST (const_range.second->value_ == 3);
       BOOST_TEST (boost::intrusive::iterator_distance (const_range.first, const_range.second) == 2);
       }
       {
       (&cmp_val_lower)->value_ = 1;
       (&cmp_val_upper)->value_ = 2;
       range = testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), false, false);
       BOOST_TEST (range == testset.bounded_range (1, 2, any_less(), false, false));
       BOOST_TEST (range.first->value_ == 2);
       BOOST_TEST (range.second->value_ == 2);
       BOOST_TEST (boost::intrusive::iterator_distance (range.first, range.second) == 0);
       }
       {
       (&cmp_val_lower)->value_ = 5;
       (&cmp_val_upper)->value_ = 6;
       const_range = const_testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), true, false);
       BOOST_TEST (const_range == const_testset.bounded_range (5, 6, any_less(), true, false));
       BOOST_TEST (const_range.first->value_ == 5);
       BOOST_TEST (const_range.second == const_testset.end());
       BOOST_TEST (boost::intrusive::iterator_distance (const_range.first, const_range.second) == 1);
       }
    }
 }

 }}}   //namespace boost::intrusive::test

 #include <boost/intrusive/detail/config_end.hpp>
	/////////////////////////////////////////////////////////////////////////////
	//
	// (C) Copyright Olaf Krzikalla 2004-2006.
	// (C) Copyright Ion Gaztanaga 2006-2013.
	//
	// 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)
	//
	// See http://www.boost.org/libs/intrusive for documentation.
	//
	/////////////////////////////////////////////////////////////////////////////
	#include <boost/container/vector.hpp>
	#include <boost/intrusive/detail/config_begin.hpp>
	#include "common_functors.hpp"
	#include <boost/core/lightweight_test.hpp>
	#include <boost/intrusive/options.hpp>
	#include <boost/intrusive/detail/iterator.hpp>
	#include "test_macros.hpp"
	#include "test_container.hpp"
	#include "generic_assoc_test.hpp"
	#include <typeinfo>

	namespace boost{
	namespace intrusive{
	namespace test{

	template<class ContainerDefiner>
	struct test_generic_multiset
	{
	typedef typename ContainerDefiner::value_cont_type value_cont_type;

	static void test_all();
	static void test_sort(value_cont_type&);
	static void test_insert(value_cont_type&);
	static void test_swap(value_cont_type&);
	static void test_merge(value_cont_type&);
	static void test_find(value_cont_type&);
	static void test_impl();
	};

	template<class ContainerDefiner>
	void test_generic_multiset<ContainerDefiner>::test_all ()
	{
	static const int random_init[6] = { 3, 2, 4, 1, 5, 2 };
	value_cont_type values (6);
	for (int i = 0; i < 6; ++i)
	(&values[i])->value_ = random_init[i];
	typedef typename ContainerDefiner::template container
	<>::type multiset_type;
	{
	multiset_type testset(values.begin(), values.end());
	test::test_container(testset);
	testset.clear();
	testset.insert(values.begin(), values.end());
	test::test_common_unordered_and_associative_container(testset, values);
	testset.clear();
	testset.insert(values.begin(), values.end());
	test::test_associative_container(testset, values);
	testset.clear();
	testset.insert(values.begin(), values.end());
	test::test_non_unique_container(testset, values);
	}
	test_sort(values);
	test_insert(values);
	test_swap(values);
	test_merge(values);
	test_find(values);
	test_impl();
	test_generic_assoc<ContainerDefiner>::test_all(values);
	}

	//test case due to an error in tree implementation:
	template<class ContainerDefiner>
	void test_generic_multiset<ContainerDefiner>::test_impl()
	{
	value_cont_type values (5);
	for (int i = 0; i < 5; ++i)
	(&values[i])->value_ = i;
	typedef typename ContainerDefiner::template container
	<>::type multiset_type;

	multiset_type testset;
	for (int i = 0; i < 5; ++i)
	testset.insert (values[i]);

	testset.erase (testset.iterator_to (values[0]));
	testset.erase (testset.iterator_to (values[1]));
	testset.insert (values[1]);

	testset.erase (testset.iterator_to (values[2]));
	testset.erase (testset.iterator_to (values[3]));
	}

	//test: constructor, iterator, clear, reverse_iterator, front, back, size:
	template<class ContainerDefiner>
	void test_generic_multiset<ContainerDefiner>::test_sort(value_cont_type& values)
	{
	typedef typename ContainerDefiner::template container
	<>::type multiset_type;

	multiset_type testset1 (values.begin(), values.end());
	{ int init_values [] = { 1, 2, 2, 3, 4, 5 };
	TEST_INTRUSIVE_SEQUENCE( init_values, testset1.begin() ); }

	testset1.clear();
	BOOST_TEST (testset1.empty());

	typedef typename ContainerDefiner::template container
	<compare<even_odd>
	>::type multiset_type2;

	multiset_type2 testset2 (values.begin(), values.begin() + 6);
	{ int init_values [] = { 5, 3, 1, 4, 2, 2 };
	TEST_INTRUSIVE_SEQUENCE( init_values, testset2.rbegin() ); }

	BOOST_TEST (testset2.begin()->value_ == 2);
	BOOST_TEST (testset2.rbegin()->value_ == 5);
	}

	//test: insert, const_iterator, const_reverse_iterator, erase, iterator_to:
	template<class ContainerDefiner>
	void test_generic_multiset<ContainerDefiner>::test_insert(value_cont_type& values)
	{
	typedef typename ContainerDefiner::template container
	<>::type multiset_type;

	multiset_type testset;
	testset.insert(values.begin() + 2, values.begin() + 5);
	testset.check();
	{ int init_values [] = { 1, 4, 5 };
	TEST_INTRUSIVE_SEQUENCE( init_values, testset.begin() ); }

	typename multiset_type::iterator i = testset.begin();
	BOOST_TEST (i->value_ == 1);

	i = testset.insert (i, values[0]);
	testset.check();
	BOOST_TEST (&*i == &values[0]);

	{ int init_values [] = { 5, 4, 3, 1 };
	TEST_INTRUSIVE_SEQUENCE( init_values, testset.rbegin() ); }

	i = testset.iterator_to (values[2]);
	BOOST_TEST (&*i == &values[2]);

	i = multiset_type::s_iterator_to (values[2]);
	BOOST_TEST (&*i == &values[2]);

	testset.erase(i);
	testset.check();

	{ int init_values [] = { 1, 3, 5 };
	TEST_INTRUSIVE_SEQUENCE( init_values, testset.begin() ); }
	}

	//test: insert (seq-version), swap, erase (seq-version), size:
	template<class ContainerDefiner>
	void test_generic_multiset<ContainerDefiner>::test_swap(value_cont_type& values)
	{
	typedef typename ContainerDefiner::template container
	<>::type multiset_type;
	multiset_type testset1 (values.begin(), values.begin() + 2);
	multiset_type testset2;
	testset2.insert (values.begin() + 2, values.begin() + 6);
	testset1.swap (testset2);

	{ int init_values [] = { 1, 2, 4, 5 };
	TEST_INTRUSIVE_SEQUENCE( init_values, testset1.begin() ); }
	{ int init_values [] = { 2, 3 };
	TEST_INTRUSIVE_SEQUENCE( init_values, testset2.begin() ); }

	testset1.erase (testset1.iterator_to(values[5]), testset1.end());
	BOOST_TEST (testset1.size() == 1);
	BOOST_TEST (&*testset1.begin() == &values[3]);
	}

	template<class ContainerDefiner>
	void test_generic_multiset<ContainerDefiner>::test_merge(value_cont_type& values)
	{
	typedef typename ContainerDefiner::template container
	<>::type multiset_type;
	typedef typename multiset_type::key_of_value key_of_value;
	typedef typename multiset_type::key_type key_type;

	typedef typename ContainerDefiner::template container
	< compare< std::greater<key_type> > >::type multiset_greater_type;

	//original vector: 3, 2, 4, 1, 5, 2
	//2,3
	multiset_type testset1 (values.begin(), values.begin() + 2);
	//5, 4, 2, 1
	multiset_greater_type testset2;
	testset2.insert (values.begin() + 2, values.begin() + 6);

	testset2.merge(testset1);
	testset1.check();
	testset2.check();

	BOOST_TEST (testset1.empty());
	BOOST_TEST (testset2.size() == 6);
	{ int init_values [] = { 5, 4, 3, 2, 2, 1 };
	TEST_INTRUSIVE_SEQUENCE( init_values, testset2.begin() ); }

	value_cont_type cmp_val_cont(1);
	typename value_cont_type::reference cmp_val = cmp_val_cont.front();
	(&cmp_val)->value_ = 2;

	BOOST_TEST (*testset2.find(key_of_value()(cmp_val)) == values[5]);
	BOOST_TEST (*testset2.find(2, any_greater()) == values[5]);
	BOOST_TEST (&*(++testset2.find(key_of_value()(cmp_val))) == &values[1]);

	testset1.merge(testset2);
	testset1.check();
	testset2.check();

	BOOST_TEST (testset1.size() == 6);
	{ int init_values [] = { 1, 2, 2, 3, 4, 5 };
	TEST_INTRUSIVE_SEQUENCE( init_values, testset1.begin() ); }
	BOOST_TEST (*testset1.find(key_of_value()(cmp_val)) == values[5]);
	BOOST_TEST (*testset1.find(2, any_less()) == values[5]);
	BOOST_TEST (&*(++testset1.find(key_of_value()(cmp_val))) == &values[1]);
	BOOST_TEST (testset2.empty());
	}

	//test: find, equal_range (lower_bound, upper_bound):
	template<class ContainerDefiner>
	void test_generic_multiset<ContainerDefiner>::test_find(value_cont_type& values)
	{
	typedef typename ContainerDefiner::template container
	<>::type multiset_type;
	typedef typename multiset_type::key_of_value key_of_value;
	multiset_type testset (values.begin(), values.end());
	typedef typename multiset_type::iterator iterator;
	typedef typename multiset_type::const_iterator const_iterator;

	{
	value_cont_type cmp_val_cont(1);
	typename value_cont_type::reference cmp_val = cmp_val_cont.front();
	(&cmp_val)->value_ = 2;
	iterator i = testset.find (key_of_value()(cmp_val));
	BOOST_TEST (i == testset.find (2, any_less()));
	BOOST_TEST (i->value_ == 2);
	BOOST_TEST ((++i)->value_ == 2);
	std::pair<iterator,iterator> range = testset.equal_range (key_of_value()(cmp_val));
	BOOST_TEST(range == testset.equal_range (2, any_less()));

	BOOST_TEST (range.first->value_ == 2);
	BOOST_TEST (range.second->value_ == 3);
	BOOST_TEST (boost::intrusive::iterator_distance (range.first, range.second) == 2);

	(&cmp_val)->value_ = 7;
	BOOST_TEST (testset.find(key_of_value()(cmp_val)) == testset.end());
	BOOST_TEST (testset.find (7, any_less()) == testset.end());
	}
	{ //1, 2, 2, 3, 4, 5
	const multiset_type &const_testset = testset;
	std::pair<iterator,iterator> range;
	std::pair<const_iterator, const_iterator> const_range;
	value_cont_type cmp_val_cont(2);
	typename value_cont_type::reference cmp_val_lower = cmp_val_cont.front();
	typename value_cont_type::reference cmp_val_upper = cmp_val_cont.back();
	{
	(&cmp_val_lower)->value_ = 1;
	(&cmp_val_upper)->value_ = 2;
	//left-closed, right-closed
	range = testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), true, true);
	BOOST_TEST (range == testset.bounded_range (1, 2, any_less(), true, true));
	BOOST_TEST (range.first->value_ == 1);
	BOOST_TEST (range.second->value_ == 3);
	BOOST_TEST (boost::intrusive::iterator_distance (range.first, range.second) == 3);
	}
	{
	(&cmp_val_lower)->value_ = 1;
	(&cmp_val_upper)->value_ = 2;
	const_range = const_testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), true, false);
	BOOST_TEST (const_range == const_testset.bounded_range (1, 2, any_less(), true, false));
	BOOST_TEST (const_range.first->value_ == 1);
	BOOST_TEST (const_range.second->value_ == 2);
	BOOST_TEST (boost::intrusive::iterator_distance (const_range.first, const_range.second) == 1);

	(&cmp_val_lower)->value_ = 1;
	(&cmp_val_upper)->value_ = 3;
	range = testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), true, false);
	BOOST_TEST (range == testset.bounded_range (1, 3, any_less(), true, false));
	BOOST_TEST (range.first->value_ == 1);
	BOOST_TEST (range.second->value_ == 3);
	BOOST_TEST (boost::intrusive::iterator_distance (range.first, range.second) == 3);
	}
	{
	(&cmp_val_lower)->value_ = 1;
	(&cmp_val_upper)->value_ = 2;
	const_range = const_testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), false, true);
	BOOST_TEST (const_range == const_testset.bounded_range (1, 2, any_less(), false, true));
	BOOST_TEST (const_range.first->value_ == 2);
	BOOST_TEST (const_range.second->value_ == 3);
	BOOST_TEST (boost::intrusive::iterator_distance (const_range.first, const_range.second) == 2);
	}
	{
	(&cmp_val_lower)->value_ = 1;
	(&cmp_val_upper)->value_ = 2;
	range = testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), false, false);
	BOOST_TEST (range == testset.bounded_range (1, 2, any_less(), false, false));
	BOOST_TEST (range.first->value_ == 2);
	BOOST_TEST (range.second->value_ == 2);
	BOOST_TEST (boost::intrusive::iterator_distance (range.first, range.second) == 0);
	}
	{
	(&cmp_val_lower)->value_ = 5;
	(&cmp_val_upper)->value_ = 6;
	const_range = const_testset.bounded_range (key_of_value()(cmp_val_lower), key_of_value()(cmp_val_upper), true, false);
	BOOST_TEST (const_range == const_testset.bounded_range (5, 6, any_less(), true, false));
	BOOST_TEST (const_range.first->value_ == 5);
	BOOST_TEST (const_range.second == const_testset.end());
	BOOST_TEST (boost::intrusive::iterator_distance (const_range.first, const_range.second) == 1);
	}
	}
	}

	}}} //namespace boost::intrusive::test

	#include <boost/intrusive/detail/config_end.hpp>