///////////////////////////////////////////////////////////////////////////// // // (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 #include #include "common_functors.hpp" #include #include #include #include #include "test_macros.hpp" #include "test_container.hpp" #include "generic_assoc_test.hpp" #include #include namespace boost{ namespace intrusive{ namespace test{ template struct test_generic_set { static void test_all(); private: typedef typename ContainerDefiner::value_cont_type value_cont_type; static void test_sort(value_cont_type&); static void test_insert(value_cont_type&); static void test_insert_advanced(value_cont_type&, detail::true_type); static void test_insert_advanced(value_cont_type&, detail::false_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 void test_generic_set::test_all() { typedef typename ContainerDefiner::template container <>::type set_type; { 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]; { set_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_unique_container(testset, values); } test_sort(values); test_insert(values); test_insert_advanced(values, detail::bool_< is_treap< set_type >::value >()); test_swap(values); test_merge(values); test_find(values); test_impl(); test_generic_assoc::test_all(values); } { value_cont_type values(6); for (int i = 0; i < 6; ++i) (&values[i])->value_ = i+1; set_type testset(values.begin(), values.end()); test::test_iterator_bidirectional(testset); } } //test case due to an error in tree implementation: template void test_generic_set::test_impl() { value_cont_type values (5); for (int i = 0; i < 5; ++i) (&values[i])->value_ = i; typedef typename ContainerDefiner::template container <>::type set_type; set_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 void test_generic_set::test_sort(value_cont_type& values) { typedef typename ContainerDefiner::template container <>::type set_type; set_type testset1 (values.begin(), values.end()); { int init_values [] = { 1, 2, 3, 4, 5 }; TEST_INTRUSIVE_SEQUENCE( init_values, testset1.begin() ); } testset1.clear(); BOOST_TEST (testset1.empty()); typedef typename ContainerDefiner::template container < compare >::type set_type2; set_type2 testset2 (values.begin(), values.begin() + 6); { int init_values [] = { 5, 3, 1, 4, 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, s_iterator_to: template void test_generic_set::test_insert(value_cont_type& values) { typedef typename ContainerDefiner::template container <>::type set_type; { set_type testset; testset.insert(values.begin() + 2, values.begin() + 5); testset.check(); const set_type& const_testset = testset; { int init_values [] = { 1, 4, 5 }; TEST_INTRUSIVE_SEQUENCE( init_values, const_testset.begin() ); } typename set_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 = set_type::s_iterator_to(values[2]); BOOST_TEST (&*i == &values[2]); typedef typename value_cont_type::const_reference const_reference; typename set_type::const_iterator ic; ic = testset.iterator_to (static_cast< const_reference >(values[2])); BOOST_TEST (&*ic == &values[2]); ic = set_type::s_iterator_to (static_cast< const_reference >(values[2])); BOOST_TEST (&*ic == &values[2]); testset.erase (i); testset.check(); { int init_values [] = { 1, 3, 5 }; TEST_INTRUSIVE_SEQUENCE( init_values, testset.begin() ); } } } // treap version template struct prio_comp : priority_compare { bool operator()(const ValueType &v, const KeyType &k) const { return this->priority_compare::operator()(v.int_value(), k.int_value()); } bool operator()(const KeyType &k, const ValueType &v) const { return this->priority_compare::operator()(k.int_value(), v.int_value()); } }; template void test_generic_set::test_insert_advanced (value_cont_type& values, detail::true_type) { typedef typename ContainerDefiner::template container <>::type set_type; typedef typename set_type::key_of_value key_of_value; typedef typename set_type::priority_of_value priority_of_value; typedef typename set_type::value_type value_type; typedef priority_compare<> prio_comp_t; { set_type testset; testset.insert(values.begin(), values.begin() + values.size()); testset.check(); value_type v(1); typename set_type::insert_commit_data data; BOOST_TEST ((!testset.insert_check(1, any_less(), 1, prio_comp_t(), data).second)); BOOST_TEST ((!testset.insert_check(testset.begin(), 1, any_less(), 1, prio_comp_t(), data).second)); BOOST_TEST ((!testset.insert_check(key_of_value()(v), priority_of_value()(v), data).second)); BOOST_TEST ((!testset.insert_check(testset.begin(), key_of_value()(v), priority_of_value()(v), data).second)); } } //test: insert, const_iterator, const_reverse_iterator, erase, s_iterator_to: template void test_generic_set::test_insert_advanced (value_cont_type& values, detail::false_type) { typedef typename ContainerDefiner::template container <>::type set_type; typedef typename set_type::key_of_value key_of_value; typedef typename set_type::value_type value_type; { set_type testset; testset.insert(values.begin(), values.begin() + values.size()); testset.check(); value_type v(1); typename set_type::insert_commit_data data; BOOST_TEST ((!testset.insert_check(1, any_less(), data).second)); BOOST_TEST ((!testset.insert_check(key_of_value()(v), data).second)); BOOST_TEST ((!testset.insert_check(testset.begin(), 1, any_less(), data).second)); BOOST_TEST ((!testset.insert_check(testset.begin(), key_of_value()(v), data).second)); } } //test: insert (seq-version), swap, erase (seq-version), size: template void test_generic_set::test_swap(value_cont_type& values) { typedef typename ContainerDefiner::template container <>::type set_type; set_type testset1 (values.begin(), values.begin() + 2); set_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.front() == &values[3]); BOOST_TEST (&*testset1.begin() == &values[3]); } template void test_generic_set::test_merge(value_cont_type& values) { typedef typename ContainerDefiner::template container <>::type set_type; typedef typename set_type::key_type key_type; typedef typename ContainerDefiner::template container < compare< std::greater > >::type set_greater_type; //2,3 set_type testset1 (values.begin(), values.begin() + 2); //5, 4, 2, 1 set_greater_type testset2; testset2.insert (values.begin() + 2, values.begin() + 6); testset2.merge(testset1); testset1.check(); testset2.check(); BOOST_TEST (testset1.size() == 1); { int init_values [] = { 2 }; TEST_INTRUSIVE_SEQUENCE( init_values, testset1.begin() ); } BOOST_TEST (&*testset1.begin() == &values[1]); BOOST_TEST (testset2.size() == 5); { int init_values [] = { 5, 4, 3, 2, 1 }; TEST_INTRUSIVE_SEQUENCE( init_values, testset2.begin() ); } testset1.merge(testset2); testset1.check(); testset2.check(); BOOST_TEST (testset1.size() == 5); { int init_values [] = { 1, 2, 3, 4, 5 }; TEST_INTRUSIVE_SEQUENCE( init_values, testset1.begin() ); } BOOST_TEST (testset2.size() == 1); { int init_values [] = { 2 }; TEST_INTRUSIVE_SEQUENCE( init_values, testset2.begin() ); } BOOST_TEST (&*testset2.begin() == &values[5]); } //test: find, equal_range (lower_bound, upper_bound), bounded_range: template void test_generic_set::test_find(value_cont_type& values) { typedef typename ContainerDefiner::template container <>::type set_type; set_type testset (values.begin(), values.end()); typedef typename set_type::iterator iterator; typedef typename set_type::const_iterator const_iterator; typedef typename set_type::key_of_value key_of_value; typedef typename value_cont_type::reference reference; { //value_type cmp_val; value_cont_type cmp_val_cont(1); 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 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) == 1); (&cmp_val)->value_ = 7; BOOST_TEST (testset.find (key_of_value()(cmp_val)) == testset.end()); BOOST_TEST (testset.find (7, any_less()) == testset.end()); } { const set_type &const_testset = testset; std::pair range; std::pair const_range; //value_type cmp_val_lower, cmp_val_upper; value_cont_type cmp_val_cont(2); reference cmp_val_lower = cmp_val_cont.front(); 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) == 2); } { (&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) == 2); } { (&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) == 1); } { (&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