/****************************************************************************** The MIT License(MIT) Embedded Template Library. https://github.com/ETLCPP/etl http://www.etlcpp.com Copyright(c) 2014 jwellbelove, rlindeman Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files(the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and / or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions : The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ******************************************************************************/ #include "UnitTest++.h" #include #include #include #include #include #include #include #include "etl/multimap.h" static const size_t MAX_SIZE = 10; #define TEST_GREATER_THAN #ifdef TEST_GREATER_THAN typedef etl::multimap > Data; typedef etl::imultimap > IData; typedef std::multimap > Compare_Data; #else typedef etl::multimap > Data; typedef etl::imultimap > IData; typedef std::multimap > Compare_Data; #endif typedef Data::iterator Data_iterator; typedef Data::const_iterator Data_const_iterator; typedef Compare_Data::iterator Compare_Data_iterator; typedef Compare_Data::const_iterator Compare_Data_const_iterator; //************************************************************************* static std::ostream& operator << (std::ostream& os, const Data_iterator& it) { os << (*it).first << " " << (*it).second; return os; } //************************************************************************* static std::ostream& operator << (std::ostream& os, const Data_const_iterator& it) { os << (*it).first << " " << (*it).second; return os; } //************************************************************************* static std::ostream& operator << (std::ostream& os, const Compare_Data_iterator& it) { os << (*it).first << " " << (*it).second; return os; } //************************************************************************* static std::ostream& operator << (std::ostream& os, const Compare_Data_const_iterator& it) { os << (*it).first << " " << (*it).second; return os; } namespace { SUITE(test_multimap) { //************************************************************************* template bool Check_Equal(T1 begin1, T1 end1, T2 begin2) { while (begin1 != end1) { if ((begin1->first != begin2->first) || (begin1->second != begin2->second)) { return false; } ++begin1; ++begin2; } return true; } //************************************************************************* struct SetupFixture { // Multimaps of predefined data from which to constuct multimaps used in // each test std::multimap initial_data; std::multimap excess_data; std::multimap different_data; std::multimap random_data; std::multimap initial_data_even; std::multimap test_data; SetupFixture() { // Create a map of initial data initial_data.insert(std::pair("0", 0)); initial_data.insert(std::pair("0", 1)); initial_data.insert(std::pair("1", 2)); initial_data.insert(std::pair("1", 3)); initial_data.insert(std::pair("1", 4)); initial_data.insert(std::pair("2", 5)); initial_data.insert(std::pair("2", 8)); initial_data.insert(std::pair("2", 7)); initial_data.insert(std::pair("3", 6)); initial_data.insert(std::pair("4", 9)); // Create a multimap of excess data excess_data.insert(std::pair("0", 0)); excess_data.insert(std::pair("1", 1)); excess_data.insert(std::pair("2", 2)); excess_data.insert(std::pair("2", 3)); excess_data.insert(std::pair("3", 6)); excess_data.insert(std::pair("3", 5)); excess_data.insert(std::pair("3", 4)); excess_data.insert(std::pair("4", 7)); excess_data.insert(std::pair("5", 8)); excess_data.insert(std::pair("6", 9)); excess_data.insert(std::pair("10", 10)); // Create a multimap of different data different_data.insert(std::pair("10", 10)); different_data.insert(std::pair("11", 11)); different_data.insert(std::pair("12", 12)); different_data.insert(std::pair("13", 13)); different_data.insert(std::pair("14", 14)); different_data.insert(std::pair("15", 15)); different_data.insert(std::pair("16", 16)); different_data.insert(std::pair("17", 17)); different_data.insert(std::pair("18", 18)); different_data.insert(std::pair("19", 19)); // Create a multimap of random data random_data.insert(std::pair("3", 6)); random_data.insert(std::pair("3", 5)); random_data.insert(std::pair("0", 0)); random_data.insert(std::pair("5", 8)); random_data.insert(std::pair("6", 9)); random_data.insert(std::pair("2", 2)); random_data.insert(std::pair("0", 1)); random_data.insert(std::pair("2", 3)); random_data.insert(std::pair("4", 7)); random_data.insert(std::pair("3", 4)); //even values initial_data_even.insert(std::pair("00", 0)); initial_data_even.insert(std::pair("02", 2)); initial_data_even.insert(std::pair("04", 4)); initial_data_even.insert(std::pair("06", 6)); initial_data_even.insert(std::pair("08", 8)); initial_data_even.insert(std::pair("10", 10)); initial_data_even.insert(std::pair("12", 12)); initial_data_even.insert(std::pair("14", 14)); initial_data_even.insert(std::pair("16", 16)); initial_data_even.insert(std::pair("18", 18)); //test set test_data.insert(std::pair("00", 0)); test_data.insert(std::pair("01", 1)); test_data.insert(std::pair("02", 2)); test_data.insert(std::pair("03", 3)); test_data.insert(std::pair("04", 4)); test_data.insert(std::pair("05", 5)); test_data.insert(std::pair("06", 6)); test_data.insert(std::pair("07", 7)); test_data.insert(std::pair("08", 8)); test_data.insert(std::pair("09", 9)); test_data.insert(std::pair("10", 10)); test_data.insert(std::pair("11", 11)); test_data.insert(std::pair("12", 12)); test_data.insert(std::pair("13", 13)); test_data.insert(std::pair("14", 14)); test_data.insert(std::pair("15", 15)); test_data.insert(std::pair("16", 16)); test_data.insert(std::pair("17", 17)); test_data.insert(std::pair("18", 18)); test_data.insert(std::pair("19", 19)); } }; //************************************************************************* TEST_FIXTURE(SetupFixture, test_default_constructor) { Data data; CHECK_EQUAL(data.size(), size_t(0)); CHECK(data.empty()); CHECK_EQUAL(data.capacity(), MAX_SIZE); CHECK_EQUAL(data.max_size(), MAX_SIZE); CHECK(data.begin() == data.end()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_destruct_via_imultimap) { Data* pdata = new Data(initial_data.begin(), initial_data.end()); IData* pidata = pdata; delete pidata; } //************************************************************************* TEST_FIXTURE(SetupFixture, test_constructor_range) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(compare_data.begin(), compare_data.end()); CHECK(data.size() == MAX_SIZE); CHECK(!data.empty()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_constructor_initializer_list) { Compare_Data compare_data = { Data::value_type(std::string("0"), 0), Data::value_type(std::string("1"), 1), Data::value_type(std::string("2"), 2), Data::value_type(std::string("3"), 3) }; Data data = { Data::value_type(std::string("0"), 0), Data::value_type(std::string("1"), 1), Data::value_type(std::string("2"), 2), Data::value_type(std::string("3"), 3) }; CHECK_EQUAL(compare_data.size(), data.size()); CHECK(!data.empty()); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_assignment) { Data data(initial_data.begin(), initial_data.end()); Data otherData; otherData = data; bool isEqual = Check_Equal(data.begin(), data.end(), otherData.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_assignment_interface) { Data data1(initial_data.begin(), initial_data.end()); Data data2; IData& idata1 = data1; IData& idata2 = data2; idata2 = idata1; bool isEqual = std::equal(data1.begin(), data1.end(), data2.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_self_assignment) { Data data(initial_data.begin(), initial_data.end()); Data other_data(data); other_data = other_data; bool isEqual = std::equal(data.begin(), data.end(), other_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_begin) { Data data(initial_data.begin(), initial_data.end()); const Data constData(data); CHECK_EQUAL(data.begin(), std::begin(data)); CHECK_EQUAL(constData.begin(), std::begin(constData)); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_end) { Data data(initial_data.begin(), initial_data.end()); const Data constData(data); CHECK_EQUAL(data.end(), std::end(data)); CHECK_EQUAL(constData.end(), std::end(constData)); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_empty) { Data data; data.insert(initial_data.begin(), initial_data.end()); CHECK(data.full()); CHECK(!data.empty()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_full) { Data data; CHECK(!data.full()); CHECK(data.empty()); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_assign_range) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data; data.assign(compare_data.begin(), compare_data.end()); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_insert_value) { Compare_Data compare_data; Data data; Data::iterator data_result = data.insert(Data::value_type(std::string("2"), 1)); Compare_Data::iterator compare_result = compare_data.insert(std::make_pair(std::string("2"), 1)); // Check that both return successful return results CHECK_EQUAL(compare_result->first, data_result->first); CHECK_EQUAL(compare_result->second, data_result->second); data_result = data.insert(Data::value_type(std::string("1"), 1)); compare_result = compare_data.insert(std::make_pair(std::string("1"), 1)); // Check that both return successful return results CHECK_EQUAL(compare_result->first, data_result->first); CHECK_EQUAL(compare_result->second, data_result->second); data_result = data.insert(Data::value_type(std::string("2"), 2)); compare_result = compare_data.insert(std::make_pair(std::string("2"), 2)); // Check that both return successful return results CHECK_EQUAL(compare_result->first, data_result->first); CHECK_EQUAL(compare_result->second, data_result->second); data_result = data.insert(Data::value_type(std::string("3"), 3)); compare_result = compare_data.insert(std::make_pair(std::string("3"), 3)); // Check that both return successful return results CHECK_EQUAL(compare_result->first, data_result->first); CHECK_EQUAL(compare_result->second, data_result->second); // Adding this next 2 will trigger a 3 node rotate RL on insert data_result = data.insert(Data::value_type(std::string("2"), 3)); compare_result = compare_data.insert(std::make_pair(std::string("2"), 3)); // Check that both return successful return results CHECK_EQUAL(compare_result->first, data_result->first); CHECK_EQUAL(compare_result->second, data_result->second); // Adding this next 4 will trigger a 2 node rotate left on insert data_result = data.insert(Data::value_type(std::string("4"), 4)); compare_result = compare_data.insert(std::make_pair(std::string("4"), 4)); // Check that both return successful return results CHECK_EQUAL(compare_result->first, data_result->first); CHECK_EQUAL(compare_result->second, data_result->second); data_result = data.insert(Data::value_type(std::string("0"), 0)); compare_result = compare_data.insert(std::make_pair(std::string("0"), 0)); // Check that both return successful return results CHECK_EQUAL(compare_result->first, data_result->first); CHECK_EQUAL(compare_result->second, data_result->second); // Check that elements in map are the same bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_insert_hint_value) { Compare_Data compare_data; Data data; Data::iterator data_result = data.insert(Data::value_type(std::string("0"), 0)); Compare_Data::iterator compare_result = compare_data.insert(std::make_pair(std::string("0"), 0)); // Check that both return successful return results CHECK_EQUAL(compare_result->first, data_result->first); CHECK_EQUAL(compare_result->second, data_result->second); // Check that elements in map are the same bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); data.insert(data_result, std::make_pair(std::string("1"), 1)); compare_data.insert(compare_result, std::make_pair(std::string("1"), 1)); isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_insert_const_hint_value) { Compare_Data compare_data; Data data; Data::iterator data_result = data.insert(Data::value_type(std::string("2"), 0)); Compare_Data::iterator compare_result = compare_data.insert(std::make_pair(std::string("2"), 0)); // Check that both return successful return results CHECK_EQUAL(compare_result->first, data_result->first); CHECK_EQUAL(compare_result->second, data_result->second); // Check that elements in map are the same bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); data.insert(Data::const_iterator(data_result), std::make_pair(std::string("1"), 1)); compare_data.insert(Compare_Data::const_iterator(compare_result), std::make_pair(std::string("1"), 1)); isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_insert_value_excess) { Data data(initial_data.begin(), initial_data.end()); CHECK_THROW(data.insert(std::make_pair(std::string("10"), 10)), etl::multimap_full); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_insert_range) { Compare_Data compare_data; Data data; data.insert(initial_data.begin(), initial_data.end()); compare_data.insert(initial_data.begin(), initial_data.end()); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_insert_range_random) { Compare_Data compare_data; Data data; data.insert(random_data.begin(), random_data.end()); compare_data.insert(random_data.begin(), random_data.end()); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_insert_range_excess) { Data data; CHECK_THROW(data.insert(excess_data.begin(), excess_data.end()), etl::multimap_full); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_equal_range) { Compare_Data compare_data(random_data.begin(), random_data.end()); Data data(random_data.begin(), random_data.end()); // Test a number not available std::pair data_result = data.equal_range("1"); std::pair compare_result = compare_data.equal_range("1"); // Check that both return the same return results CHECK_EQUAL(compare_result.first->first, data_result.first->first); CHECK_EQUAL(compare_result.first->second, data_result.first->second); CHECK_EQUAL(compare_result.second->first, data_result.second->first); CHECK_EQUAL(compare_result.second->second, data_result.second->second); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_const_equal_range) { const Compare_Data compare_data(initial_data.begin(), initial_data.end()); const Data data(initial_data.begin(), initial_data.end()); // Test a number with several of the same key std::pair data_result = data.equal_range("2"); std::pair compare_result = compare_data.equal_range("2"); // Check that both return the same return results CHECK_EQUAL(compare_result.first->first, data_result.first->first); CHECK_EQUAL(compare_result.first->second, data_result.first->second); CHECK_EQUAL(compare_result.second->first, data_result.second->first); CHECK_EQUAL(compare_result.second->second, data_result.second->second); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_erase_value) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(initial_data.begin(), initial_data.end()); size_t compare_count = compare_data.erase("2"); size_t data_count = data.erase("2"); // Check that both return the same return results CHECK_EQUAL(compare_count, data_count); // Erase another value compare_count = compare_data.erase("1"); data_count = data.erase("1"); // Check that both return the same return results CHECK_EQUAL(compare_count, data_count); // Erase another value compare_count = compare_data.erase("3"); data_count = data.erase("3"); // Check that both return the same return results CHECK_EQUAL(compare_count, data_count); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_erase_single) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(initial_data.begin(), initial_data.end()); Compare_Data::iterator i_compare = compare_data.begin(); Data::iterator i_data = data.begin(); compare_data.erase(i_compare); data.erase(i_data); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_const_erase_single) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(initial_data.begin(), initial_data.end()); Compare_Data::const_iterator i_compare = compare_data.cbegin(); Data::const_iterator i_data = data.cbegin(); std::advance(i_compare, 8); std::advance(i_data, 8); Compare_Data::const_iterator i_compare1 = compare_data.erase(i_compare); Data::const_iterator i_data1 = data.erase(i_data); CHECK_EQUAL(i_compare1->second, i_data1->second); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_erase_range) { Compare_Data compare_data(random_data.begin(), random_data.end()); Data data(random_data.begin(), random_data.end()); Compare_Data::iterator i_compare = compare_data.begin(); Data::iterator i_data = data.begin(); Compare_Data::iterator i_compare_end = compare_data.begin(); Data::iterator i_data_end = data.begin(); std::advance(i_compare, 1); std::advance(i_data, 1); std::advance(i_compare_end, 4); std::advance(i_data_end, 4); compare_data.erase(i_compare, i_compare_end); data.erase(i_data, i_data_end); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_const_erase_range) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(initial_data.begin(), initial_data.end()); compare_data.erase(compare_data.cbegin(), compare_data.cend()); data.erase(data.cbegin(), data.cend()); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_clear) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(compare_data.begin(), compare_data.end()); data.clear(); CHECK_EQUAL(data.size(), size_t(0)); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_count) { const Data data(initial_data.begin(), initial_data.end()); const Compare_Data compare_data(initial_data.begin(), initial_data.end()); CHECK_EQUAL(compare_data.count("."), data.count(".")); CHECK_EQUAL(compare_data.count("0"), data.count("0")); CHECK_EQUAL(compare_data.count("1"), data.count("1")); CHECK_EQUAL(compare_data.count("2"), data.count("2")); CHECK_EQUAL(compare_data.count("3"), data.count("3")); CHECK_EQUAL(compare_data.count("4"), data.count("4")); CHECK_EQUAL(compare_data.count("A"), data.count("A")); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_iterator) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(compare_data.begin(), compare_data.end()); bool isEqual = Check_Equal(data.begin(), data.end(), compare_data.begin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_const_iterator) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(compare_data.begin(), compare_data.end()); bool isEqual = Check_Equal(data.cbegin(), data.cend(), compare_data.cbegin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_reverse_iterator) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(compare_data.begin(), compare_data.end()); bool isEqual = Check_Equal(data.rbegin(), data.rend(), compare_data.rbegin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_const_reverse_iterator) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(compare_data.begin(), compare_data.end()); bool isEqual = Check_Equal(data.crbegin(), data.crend(), compare_data.crbegin()); CHECK(isEqual); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_find) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(initial_data.begin(), initial_data.end()); Data::iterator i_data = data.find("0"); Compare_Data::iterator i_compare = compare_data.find("0"); // Check that both return successful return results CHECK_EQUAL(i_compare->first, i_data->first); CHECK_EQUAL(i_compare->second, i_data->second); i_data = data.find("1"); i_compare = compare_data.find("1"); // Check that both return successful return results CHECK_EQUAL(i_compare->first, i_data->first); CHECK_EQUAL(i_compare->second, i_data->second); i_data = data.find("2"); i_compare = compare_data.find("2"); // Check that both return successful return results CHECK_EQUAL(i_compare->first, i_data->first); CHECK_EQUAL(i_compare->second, i_data->second); i_data = data.find("3"); i_compare = compare_data.find("3"); // Check that both return successful return results CHECK_EQUAL(i_compare->first, i_data->first); CHECK_EQUAL(i_compare->second, i_data->second); i_data = data.find("."); i_compare = compare_data.find("."); // Check that both return successful return results CHECK_EQUAL(data.end(), i_data); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.find("A"); i_compare = compare_data.find("A"); // Check that both return successful return results CHECK_EQUAL(data.end(), i_data); CHECK_EQUAL(compare_data.end(), i_compare); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_find_const) { const Compare_Data compare_data(initial_data.begin(), initial_data.end()); const Data data(initial_data.begin(), initial_data.end()); Data::const_iterator i_data = data.find("0"); Compare_Data::const_iterator i_compare = compare_data.find("0"); // Check that both return successful return results CHECK_EQUAL(i_compare->first, i_data->first); CHECK_EQUAL(i_compare->second, i_data->second); i_data = data.find("1"); i_compare = compare_data.find("1"); // Check that both return successful return results CHECK_EQUAL(i_compare->first, i_data->first); CHECK_EQUAL(i_compare->second, i_data->second); i_data = data.find("2"); i_compare = compare_data.find("2"); // Check that both return successful return results CHECK_EQUAL(i_compare->first, i_data->first); CHECK_EQUAL(i_compare->second, i_data->second); i_data = data.find("3"); i_compare = compare_data.find("3"); // Check that both return successful return results CHECK_EQUAL(i_compare->first, i_data->first); CHECK_EQUAL(i_compare->second, i_data->second); i_data = data.find("."); i_compare = compare_data.find("."); // Check that both return successful return results CHECK_EQUAL(data.end(), i_data); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.find("A"); i_compare = compare_data.find("A"); // Check that both return successful return results CHECK_EQUAL(data.end(), i_data); CHECK_EQUAL(compare_data.end(), i_compare); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_equal) { const Data initial1(initial_data.begin(), initial_data.end()); const Data initial2(initial_data.begin(), initial_data.end()); CHECK(initial1 == initial2); const Data different(different_data.begin(), different_data.end()); CHECK(!(initial1 == different)); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_not_equal) { const Data initial1(initial_data.begin(), initial_data.end()); const Data initial2(initial_data.begin(), initial_data.end()); CHECK(!(initial1 != initial2)); const Data different(different_data.begin(), different_data.end()); CHECK(initial1 != different); } //************************************************************************* TEST_FIXTURE(SetupFixture, test_lower_bound) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(initial_data.begin(), initial_data.end()); Compare_Data::iterator i_compare = compare_data.lower_bound("2"); Data::iterator i_data = data.lower_bound("2"); CHECK_EQUAL(i_compare->second, i_data->second); #ifdef TEST_GREATER_THAN i_compare = compare_data.lower_bound("."); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.lower_bound("."); CHECK_EQUAL(data.end(), i_data); i_compare = compare_data.lower_bound("A"); i_data = data.lower_bound("A"); CHECK_EQUAL(i_compare->second, i_data->second); #else i_compare = compare_data.lower_bound("."); i_data = data.lower_bound("."); CHECK_EQUAL(i_compare->second, i_data->second); i_compare = compare_data.lower_bound("A"); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.lower_bound("A"); CHECK_EQUAL(data.end(), i_data); #endif } //************************************************************************* TEST_FIXTURE(SetupFixture, test_lower_bound_const) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); const Data data(initial_data.begin(), initial_data.end()); Compare_Data::const_iterator i_compare = compare_data.lower_bound("4"); Data::const_iterator i_data = data.lower_bound("4"); CHECK_EQUAL(i_compare->second, i_data->second); #ifdef TEST_GREATER_THAN i_compare = compare_data.lower_bound("."); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.lower_bound("."); CHECK_EQUAL(data.end(), i_data); i_compare = compare_data.lower_bound("A"); i_data = data.lower_bound("A"); CHECK_EQUAL(i_compare->second, i_data->second); #else i_compare = compare_data.lower_bound("."); i_data = data.lower_bound("."); CHECK_EQUAL(i_compare->second, i_data->second); i_compare = compare_data.lower_bound("A"); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.lower_bound("A"); CHECK_EQUAL(data.end(), i_data); #endif } //************************************************************************* TEST_FIXTURE(SetupFixture, test_upper_bound) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); Data data(initial_data.begin(), initial_data.end()); Compare_Data::iterator i_compare = compare_data.upper_bound("1"); Data::iterator i_data = data.upper_bound("1"); CHECK_EQUAL(i_compare->second, i_data->second); #ifdef TEST_GREATER_THAN i_compare = compare_data.upper_bound("."); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.upper_bound("."); CHECK_EQUAL(data.end(), i_data); i_compare = compare_data.upper_bound("A"); i_data = data.upper_bound("A"); CHECK_EQUAL(i_compare->second, i_data->second); #else i_compare = compare_data.upper_bound("."); i_data = data.upper_bound("."); CHECK_EQUAL(i_compare->second, i_data->second); i_compare = compare_data.upper_bound("A"); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.upper_bound("A"); CHECK_EQUAL(data.end(), i_data); #endif } //************************************************************************* TEST_FIXTURE(SetupFixture, test_upper_bound_const) { Compare_Data compare_data(initial_data.begin(), initial_data.end()); const Data data(initial_data.begin(), initial_data.end()); Compare_Data::const_iterator i_compare = compare_data.upper_bound("3"); Data::const_iterator i_data = data.upper_bound("3"); CHECK_EQUAL(i_compare->second, i_data->second); #ifdef TEST_GREATER_THAN i_compare = compare_data.upper_bound("."); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.upper_bound("."); CHECK_EQUAL(data.end(), i_data); i_compare = compare_data.upper_bound("A"); i_data = data.upper_bound("A"); CHECK_EQUAL(i_compare->second, i_data->second); #else i_compare = compare_data.upper_bound("."); i_data = data.upper_bound("."); CHECK_EQUAL(i_compare->second, i_data->second); i_compare = compare_data.upper_bound("A"); CHECK_EQUAL(compare_data.end(), i_compare); i_data = data.upper_bound("A"); CHECK_EQUAL(data.end(), i_data); #endif } //************************************************************************* TEST_FIXTURE(SetupFixture, test_key_compare) { const Data data(initial_data.begin(), initial_data.end()); Data::key_compare compare = data.key_comp(); Data::key_type a("A"); Data::key_type b("B"); #ifdef TEST_GREATER_THAN CHECK(!compare(a, b)); CHECK(compare(b, a)); #else CHECK(compare(a, b)); CHECK(!compare(b, a)); #endif } //************************************************************************* TEST_FIXTURE(SetupFixture, test_value_compare) { const Data data(initial_data.begin(), initial_data.end()); Data::value_compare compare = data.value_comp(); Data::value_type a(std::string("A"), 0); Data::value_type b(std::string("B"), 1); #ifdef TEST_GREATER_THAN CHECK(!compare(a, b)); CHECK(compare(b, a)); #else CHECK(compare(a, b)); CHECK(!compare(b, a)); #endif } //************************************************************************* TEST_FIXTURE(SetupFixture, test_compare_lower_upper_bound) { Data data(initial_data_even.begin(), initial_data_even.end()); Compare_Data compare(initial_data_even.begin(), initial_data_even.end()); std::vector > tab(test_data.begin(), test_data.end()); //make sure both data and compare contain same elements std::vector > data_elements(data.begin(), data.end()); std::vector > compare_data_elements(compare.begin(), compare.end()); CHECK(data_elements == compare_data_elements); CHECK_EQUAL(data_elements.size(), MAX_SIZE); for(std::vector >::iterator it = tab.begin() ; it != tab.end() ; ++it) { std::string i = it->first; //lower_bound CHECK_EQUAL(compare.lower_bound(i) == compare.end(), data.lower_bound(i) == data.end()); //if both end, or none if((compare.lower_bound(i) == compare.end()) == (data.lower_bound(i) == data.end())) { //if both are not end if(compare.lower_bound(i) != compare.end()) { CHECK((*compare.lower_bound(i)) == (*data.lower_bound(i))); } std::pair stlret = compare.equal_range(i); std::pair etlret = data.equal_range(i); CHECK_EQUAL(stlret.first == compare.end(), etlret.first == data.end()); if((stlret.first != compare.end()) && (etlret.first != data.end())) { CHECK((*stlret.first) == (*etlret.first)); } CHECK_EQUAL(stlret.second == compare.end(), etlret.second == data.end()); if((stlret.second != compare.end()) && (etlret.second != data.end())) { CHECK((*stlret.second) == (*etlret.second)); } } //upper_bound CHECK_EQUAL(compare.upper_bound(i) == compare.end(), data.upper_bound(i) == data.end()); //if both end, or none if((compare.upper_bound(i) == compare.end()) == (data.upper_bound(i) == data.end())) { //if both are not end if(compare.upper_bound(i) != compare.end()) { CHECK((*compare.upper_bound(i)) == (*data.upper_bound(i))); } } } } //************************************************************************* TEST_FIXTURE(SetupFixture, test_erase_bug) { using Data = etl::multimap; int keys[10] = { 3, 2, 1, 0, 3, 0, 3, 0, 2, 2 }; Data data; for (int eltNum = 0; eltNum != 10; ++eltNum) { data.insert(Data::value_type(keys[eltNum], eltNum)); } data.erase(2); int prv = INT_MAX; Data::const_reverse_iterator pos; bool pass = true; for (pos = data.crbegin(); pos != data.crend(); ++pos) { if (pos->first > prv) { pass = false; break; } prv = pos->first; } CHECK(pass); } }; }