fsfw/contrib/fsfw_contrib/etl-20.39.4/test/test_list.cpp

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/******************************************************************************
The MIT License(MIT)
Embedded Template Library.
https://github.com/ETLCPP/etl
https://www.etlcpp.com
Copyright(c) 2014 John Wellbelove
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 "unit_test_framework.h"
#include "etl/list.h"
#include "data.h"
#include <algorithm>
#include <array>
#include <list>
#include <vector>
#include <functional>
namespace
{
SUITE(test_list)
{
typedef TestDataDC<std::string> ItemDC;
typedef TestDataNDC<std::string> ItemNDC;
typedef TestDataM<uint32_t> ItemM;
const size_t SIZE = 10UL;
typedef etl::list<ItemDC, SIZE> DataDC;
typedef etl::list<ItemNDC, SIZE> DataNDC;
typedef etl::list<ItemNDC, 2 * SIZE> DataNDC2;
typedef etl::ilist<ItemNDC> IDataNDC;
typedef etl::list<int, SIZE> DataInt;
typedef etl::list<ItemM, SIZE> DataM;
typedef etl::ilist<ItemM> IDataM;
typedef std::list<ItemNDC> CompareData;
typedef std::vector<ItemNDC> InitialData;
InitialData stable_sort_data;
InitialData unsorted_data;
InitialData sorted_data;
InitialData non_unique_data;
InitialData small_data;
InitialData merge_data0;
InitialData merge_data1;
InitialData merge_data2;
InitialData merge_data3;
InitialData merge_data4;
bool are_equal;
//*************************************************************************
struct SetupFixture
{
SetupFixture()
{
stable_sort_data = { ItemNDC("1", 1), ItemNDC("2", 2), ItemNDC("3", 3), ItemNDC("2", 4), ItemNDC("0", 5), ItemNDC("2", 6), ItemNDC("7", 7), ItemNDC("4", 8), ItemNDC("4", 9), ItemNDC("8", 10) };
unsorted_data = { ItemNDC("1"), ItemNDC("0"), ItemNDC("3"), ItemNDC("2"), ItemNDC("5"), ItemNDC("4"), ItemNDC("7"), ItemNDC("6"), ItemNDC("9"), ItemNDC("8") };
sorted_data = { ItemNDC("0"), ItemNDC("1"), ItemNDC("2"), ItemNDC("3"), ItemNDC("4"), ItemNDC("5"), ItemNDC("6"), ItemNDC("7"), ItemNDC("8"), ItemNDC("9") };
non_unique_data = { ItemNDC("0"), ItemNDC("0"), ItemNDC("1"), ItemNDC("1"), ItemNDC("2"), ItemNDC("3"), ItemNDC("3"), ItemNDC("3"), ItemNDC("4"), ItemNDC("5") };
small_data = { ItemNDC("0"), ItemNDC("1"), ItemNDC("2"), ItemNDC("3"), ItemNDC("4"), ItemNDC("5") };
merge_data0 = { ItemNDC("1"), ItemNDC("1"), ItemNDC("3"), ItemNDC("3"), ItemNDC("5"), ItemNDC("7"), ItemNDC("8") };
merge_data1 = { ItemNDC("1"), ItemNDC("2"), ItemNDC("3"), ItemNDC("3"), ItemNDC("6"), ItemNDC("9"), ItemNDC("9") };
merge_data2 = { ItemNDC("0"), ItemNDC("2"), ItemNDC("3"), ItemNDC("3"), ItemNDC("6"), ItemNDC("7"), ItemNDC("7") };
merge_data3 = { ItemNDC("0"), ItemNDC("2"), ItemNDC("3"), ItemNDC("3"), ItemNDC("6"), ItemNDC("7") };
merge_data4 = { ItemNDC("0"), ItemNDC("2"), ItemNDC("3"), ItemNDC("3"), ItemNDC("6"), ItemNDC("7"), ItemNDC("8"), ItemNDC("9") };
}
};
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_default_constructor)
{
DataNDC data;
CHECK_EQUAL(data.size(), 0UL);
CHECK(data.empty());
CHECK_EQUAL(data.max_size(), SIZE);
CHECK(data.begin() == data.end());
}
#if ETL_USING_CPP17 && ETL_HAS_INITIALIZER_LIST && !defined(ETL_TEMPLATE_DEDUCTION_GUIDE_TESTS_DISABLED)
//*************************************************************************
TEST(test_cpp17_deduced_constructor)
{
etl::list data{ ItemNDC("1", 1), ItemNDC("2", 2), ItemNDC("3", 3), ItemNDC("2", 4), ItemNDC("0", 5), ItemNDC("2", 6), ItemNDC("7", 7), ItemNDC("4", 8), ItemNDC("4", 9), ItemNDC("8", 10) };
etl::list< ItemNDC, 10> check = { ItemNDC("1", 1), ItemNDC("2", 2), ItemNDC("3", 3), ItemNDC("2", 4), ItemNDC("0", 5), ItemNDC("2", 6), ItemNDC("7", 7), ItemNDC("4", 8), ItemNDC("4", 9), ItemNDC("8", 10) };
CHECK(!data.empty());
CHECK(data.full());
CHECK(data.begin() != data.end());
CHECK_EQUAL(0U, data.available());
CHECK_EQUAL(10U, data.capacity());
CHECK_EQUAL(10U, data.size());
CHECK_EQUAL(10U, data.max_size());
CHECK(data == check);
}
#endif
//*************************************************************************
TEST(test_destruct_via_ilist)
{
int current_count = ItemNDC::get_instance_count();
DataNDC* pdata = new DataNDC(sorted_data.begin(), sorted_data.end());
CHECK_EQUAL(int(current_count + sorted_data.size()), ItemNDC::get_instance_count());
IDataNDC* pidata = pdata;
delete pidata;
CHECK_EQUAL(current_count, ItemNDC::get_instance_count());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_constructor_size)
{
const size_t INITIAL_SIZE = 4UL;
DataDC data(INITIAL_SIZE);
CHECK(data.size() == INITIAL_SIZE);
CHECK(!data.empty());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_constructor_size_excess)
{
CHECK_THROW(DataDC data(SIZE + 1), etl::list_full);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_constructor_size_value)
{
const size_t INITIAL_SIZE = 4UL;
const ItemNDC INITIAL_VALUE = ItemNDC("1");
std::array<ItemNDC, INITIAL_SIZE> compare_data = { ItemNDC("1"), ItemNDC("1"), ItemNDC("1"), ItemNDC("1") };
DataNDC data(INITIAL_SIZE, INITIAL_VALUE);
CHECK(data.size() == INITIAL_SIZE);
CHECK(!data.empty());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_constructor_size_value_excess)
{
CHECK_THROW(DataNDC data(SIZE + 1, ItemNDC("1")), etl::list_full);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_constructor_range)
{
DataNDC data(sorted_data.begin(), sorted_data.end());
CHECK_EQUAL(SIZE, data.size());
CHECK(!data.empty());
}
#if ETL_HAS_INITIALIZER_LIST
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_constructor_initializer_list)
{
DataNDC data = { ItemNDC("0"), ItemNDC("1"), ItemNDC("2"), ItemNDC("3") };
CHECK_EQUAL(4U, data.size());
DataNDC::const_iterator i_item = data.begin();
CHECK_EQUAL(ItemNDC("0"), *i_item++);
CHECK_EQUAL(ItemNDC("1"), *i_item++);
CHECK_EQUAL(ItemNDC("2"), *i_item++);
CHECK_EQUAL(ItemNDC("3"), *i_item++);
}
#endif
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_copy_constructor)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
DataNDC other_data(data);
CHECK_EQUAL(data.size(), other_data.size());
CHECK(std::equal(data.begin(), data.end(), other_data.begin()));
other_data.pop_front();
CHECK_EQUAL(compare_data.size(), data.size());
CHECK_EQUAL(compare_data.size() - 1, other_data.size());
other_data.pop_back();
CHECK_EQUAL(compare_data.size(), data.size());
CHECK_EQUAL(compare_data.size() - 2, other_data.size());
}
//*************************************************************************
TEST(test_move_constructor)
{
ItemM p1(1U);
ItemM p2(2U);
ItemM p3(3U);
ItemM p4(4U);
DataM data1;
data1.push_back(std::move(p1));
data1.push_back(std::move(p2));
data1.push_back(std::move(p3));
data1.push_back(std::move(p4));
CHECK(!bool(p1));
CHECK(!bool(p2));
CHECK(!bool(p3));
CHECK(!bool(p4));
DataM data2(std::move(data1));
CHECK_EQUAL(0U, data1.size());
CHECK_EQUAL(4U, data2.size());
DataM::iterator itr = data2.begin();
ItemM pr = std::move(*itr++);
CHECK_EQUAL(1U, pr.value);
CHECK_EQUAL(2U, (*itr++).value);
CHECK_EQUAL(3U, (*itr++).value);
CHECK_EQUAL(4U, (*itr++).value);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_iterator)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(compare_data.begin(), compare_data.end());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_const_iterator)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(compare_data.begin(), compare_data.end());
are_equal = std::equal(data.cbegin(), data.cend(), compare_data.cbegin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_reverse_iterator)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(compare_data.begin(), compare_data.end());
are_equal = std::equal(data.rbegin(), data.rend(), compare_data.rbegin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_const_reverse_iterator)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(compare_data.begin(), compare_data.end());
are_equal = std::equal(data.crbegin(), data.crend(), compare_data.crbegin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_front_insert_iterator)
{
DataInt data = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9};
DataInt expected = {81, 64, 49, 36, 25, 16, 9, 4, 1, 0};
DataInt transformed;
auto squared = [](int value)
{
return value * value;
};
etl::transform(data.cbegin(), data.cend(), etl::front_inserter(transformed), squared);
CHECK_EQUAL(expected.size(), transformed.size());
bool transformed_equals_expected = std::equal(transformed.begin(),
transformed.end(),
expected.begin());
CHECK(transformed_equals_expected);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_resize_up)
{
const size_t INITIAL_SIZE = 4UL;
const size_t NEW_SIZE = 8UL;
DataDC data(INITIAL_SIZE);
data.resize(NEW_SIZE);
CHECK_EQUAL(data.size(), NEW_SIZE);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_resize_up_value)
{
const size_t INITIAL_SIZE = 4UL;
const size_t NEW_SIZE = 8UL;
const ItemNDC VALUE = ItemNDC("1");
DataNDC data(INITIAL_SIZE, VALUE);
data.resize(NEW_SIZE, VALUE);
CompareData compare_data(INITIAL_SIZE, VALUE);
compare_data.resize(NEW_SIZE, VALUE);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_resize_excess)
{
const size_t INITIAL_SIZE = 4UL;
const ItemNDC VALUE = ItemNDC("1");
DataNDC data(INITIAL_SIZE, VALUE);
CHECK_THROW(data.resize(data.max_size() + 1, VALUE), etl::list_full);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_resize_down)
{
const size_t INITIAL_SIZE = 4UL;
const size_t NEW_SIZE = 2UL;
const ItemNDC VALUE = ItemNDC("1");
DataNDC data(INITIAL_SIZE, VALUE);
data.resize(NEW_SIZE, VALUE);
CHECK_EQUAL(data.size(), NEW_SIZE);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_resize_zero)
{
const size_t INITIAL_SIZE = 4UL;
const size_t NEW_SIZE = 0UL;
const ItemNDC VALUE = ItemNDC("1");
DataNDC data(INITIAL_SIZE, VALUE);
data.resize(NEW_SIZE, VALUE);
CHECK_EQUAL(data.size(), NEW_SIZE);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_clear)
{
DataNDC data(sorted_data.begin(), sorted_data.end());
data.clear();
CHECK_EQUAL(0U, data.size());
// Do it again to check that clear() didn't screw up the internals.
data.assign(sorted_data.begin(), sorted_data.end());
CHECK_EQUAL(SIZE, data.size());
data.clear();
CHECK_EQUAL(0UL, data.size());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_clear_pod)
{
DataInt data(SIZE, 1);
data.clear();
CHECK(data.empty());
// Do it again to check that clear() didn't screw up the internals.
data.resize(SIZE);
CHECK_EQUAL(SIZE, data.size());
data.clear();
CHECK_EQUAL(0UL, data.size());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_assign_range)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data;
// Do it twice. We should only get one copy.
data.assign(compare_data.begin(), compare_data.end());
data.assign(compare_data.begin(), compare_data.end());
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_assign_size_value)
{
const size_t INITIAL_SIZE = 4UL;
const ItemNDC VALUE = ItemNDC("1");
CompareData compare_data(INITIAL_SIZE, VALUE);
DataNDC data;
// Do it twice. We should only get one copy.
data.assign(INITIAL_SIZE, VALUE);
data.assign(INITIAL_SIZE, VALUE);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_assign_size_value_excess)
{
const ItemNDC VALUE = ItemNDC("1");
DataNDC data;
CHECK_THROW(data.assign(data.max_size() + 1, VALUE), etl::list_full);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_insert_position_value)
{
const size_t INITIAL_SIZE = 4UL;
const ItemNDC VALUE = ItemNDC("1");
const ItemNDC INSERT_VALUE = ItemNDC("2");
CompareData compare_data(INITIAL_SIZE, VALUE);
DataNDC data(INITIAL_SIZE, VALUE);
size_t offset = 2UL;
DataNDC::iterator i_data = data.begin();
std::advance(i_data, offset);
CompareData::iterator i_compare_data = compare_data.begin();
std::advance(i_compare_data, offset);
data.insert(i_data, INSERT_VALUE);
compare_data.insert(i_compare_data, INSERT_VALUE);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
offset = 0;
i_data = data.begin();
std::advance(i_data, offset);
i_compare_data = compare_data.begin();
std::advance(i_compare_data, offset);
data.insert(i_data, INSERT_VALUE);
compare_data.insert(i_compare_data, INSERT_VALUE);
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
i_data = data.end();
i_compare_data = compare_data.end();
data.insert(i_data, VALUE);
compare_data.insert(i_compare_data, VALUE);
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_insert_position_value_move)
{
ItemM p1(1U);
ItemM p2(2U);
ItemM p3(3U);
ItemM p4(4U);
DataM data1;
data1.insert(data1.begin(), std::move(p1));
data1.insert(data1.begin(), std::move(p2));
data1.insert(data1.begin(), std::move(p3));
data1.insert(data1.begin(), std::move(p4));
CHECK_EQUAL(4U, data1.size());
CHECK(!bool(p1));
CHECK(!bool(p2));
CHECK(!bool(p3));
CHECK(!bool(p4));
DataM::const_iterator itr = data1.begin();
CHECK_EQUAL(4U, (*itr++).value);
CHECK_EQUAL(3U, (*itr++).value);
CHECK_EQUAL(2U, (*itr++).value);
CHECK_EQUAL(1U, (*itr++).value);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_emplace_position_value)
{
const size_t INITIAL_SIZE = 4UL;
const ItemNDC VALUE = ItemNDC("1");
const std::string INSERT_VALUE = "2";
CompareData compare_data(INITIAL_SIZE, VALUE);
DataNDC data(INITIAL_SIZE, VALUE);
//size_t offset = 2UL;
DataNDC::iterator i_data = data.begin();
//std::advance(i_data, offset);
//CompareData::iterator i_compare_data = compare_data.begin();
//std::advance(i_compare_data, offset);
data.emplace(i_data, INSERT_VALUE);
//compare_data.emplace(i_compare_data, INSERT_VALUE);
//CHECK_EQUAL(compare_data.size(), data.size());
//are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
//CHECK(are_equal);
//offset = 0;
//i_data = data.begin();
//std::advance(i_data, offset);
//i_compare_data = compare_data.begin();
//std::advance(i_compare_data, offset);
//data.emplace(i_data, INSERT_VALUE);
//compare_data.emplace(i_compare_data, INSERT_VALUE);
//are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
//CHECK(are_equal);
//i_data = data.end();
//i_compare_data = compare_data.end();
//data.emplace(i_data, VALUE);
//compare_data.emplace(i_compare_data, VALUE);
//are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
//CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_emplace_position_default_constructor)
{
//std::list<ItemDC> compare_data;
//DataDC data;
//size_t offset = 2UL;
//DataDC::iterator i_data = data.begin();
//std::advance(i_data, offset);
//std::list<ItemDC>::iterator i_compare_data = compare_data.begin();
//std::advance(i_compare_data, offset);
//data.emplace(i_data);
//compare_data.emplace(i_compare_data);
//CHECK_EQUAL(compare_data.size(), data.size());
//are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
//CHECK(are_equal);
//offset = 0;
//i_data = data.begin();
//std::advance(i_data, offset);
//i_compare_data = compare_data.begin();
//std::advance(i_compare_data, offset);
//data.emplace(i_data);
//compare_data.emplace(i_compare_data);
//are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
//CHECK(are_equal);
//i_data = data.end();
//i_compare_data = compare_data.end();
//data.emplace(i_data);
//compare_data.emplace(i_compare_data);
//are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
//CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_insert_range)
{
std::vector<ItemNDC> test1 = { ItemNDC("1"), ItemNDC("2"), ItemNDC("3"), ItemNDC("4"), ItemNDC("5") };
std::vector<ItemNDC> test2 = { ItemNDC("6"), ItemNDC("7"), ItemNDC("8"), ItemNDC("9"), ItemNDC("10") };
CompareData compare_data(test1.begin(), test1.end());
DataNDC data(test1.begin(), test1.end());
compare_data.insert(compare_data.begin(), test2.begin(), test2.end());
data.insert(data.begin(), test2.begin(), test2.end());
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
compare_data.assign(test1.begin(), test1.end());
data.assign(test1.begin(), test1.end());
compare_data.insert(compare_data.end(), test2.begin(), test2.end());
data.insert(data.end(), test2.begin(), test2.end());
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
compare_data.assign(test1.begin(), test1.end());
data.assign(test1.begin(), test1.end());
CompareData::iterator icd = compare_data.begin();
DataNDC::iterator id = data.begin();
std::advance(icd, 3);
std::advance(id, 3);
compare_data.insert(icd, test2.begin(), test2.end());
data.insert(id, test2.begin(), test2.end());
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_front)
{
CompareData compare_data;
DataNDC data;
compare_data.push_front(ItemNDC("1"));
compare_data.push_front(ItemNDC("2"));
compare_data.push_front(ItemNDC("3"));
compare_data.push_front(ItemNDC("4"));
compare_data.push_front(ItemNDC("5"));
compare_data.push_front(ItemNDC("6"));
CHECK_NO_THROW(data.push_front(ItemNDC("1")));
CHECK_NO_THROW(data.push_front(ItemNDC("2")));
CHECK_NO_THROW(data.push_front(ItemNDC("3")));
CHECK_NO_THROW(data.push_front(ItemNDC("4")));
CHECK_NO_THROW(data.push_front(ItemNDC("5")));
CHECK_NO_THROW(data.push_front(ItemNDC("6")));
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_front_move)
{
ItemM p1(1U);
ItemM p2(2U);
ItemM p3(3U);
ItemM p4(4U);
DataM data;
data.push_front(std::move(p1));
data.push_front(std::move(p2));
data.push_front(std::move(p3));
data.push_front(std::move(p4));
CHECK_EQUAL(4U, data.size());
CHECK(!bool(p1));
CHECK(!bool(p2));
CHECK(!bool(p3));
CHECK(!bool(p4));
DataM::const_iterator itr = data.begin();
CHECK_EQUAL(4U, (*itr++).value);
CHECK_EQUAL(3U, (*itr++).value);
CHECK_EQUAL(2U, (*itr++).value);
CHECK_EQUAL(1U, (*itr++).value);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_emplace_front)
{
std::list<ItemDC> compare_data;
etl::list<ItemDC, 7U> data;
compare_data.emplace_front();
compare_data.emplace_front("1");
compare_data.emplace_front("2");
compare_data.emplace_front("3");
compare_data.emplace_front("4");
compare_data.emplace_front("5");
compare_data.emplace_front("6");
CHECK_NO_THROW(data.emplace_front());
CHECK_NO_THROW(data.emplace_front("1"));
CHECK_NO_THROW(data.emplace_front("2"));
CHECK_NO_THROW(data.emplace_front("3"));
CHECK_NO_THROW(data.emplace_front("4"));
CHECK_NO_THROW(data.emplace_front("5"));
CHECK_NO_THROW(data.emplace_front("6"));
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_emplace_front_return)
{
DataNDC data;
data.emplace_front("24");
auto& front = data.emplace_front("42");
CHECK_EQUAL(front, data.front());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_front_excess)
{
DataNDC data;
CHECK_NO_THROW(data.push_front(ItemNDC("1")));
CHECK_NO_THROW(data.push_front(ItemNDC("2")));
CHECK_NO_THROW(data.push_front(ItemNDC("3")));
CHECK_NO_THROW(data.push_front(ItemNDC("4")));
CHECK_NO_THROW(data.push_front(ItemNDC("5")));
CHECK_NO_THROW(data.push_front(ItemNDC("6")));
CHECK_NO_THROW(data.push_front(ItemNDC("7")));
CHECK_NO_THROW(data.push_front(ItemNDC("8")));
CHECK_NO_THROW(data.push_front(ItemNDC("9")));
CHECK_NO_THROW(data.push_front(ItemNDC("10")));
CHECK_THROW(data.push_front(ItemNDC("11")) , etl::list_full);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_front_pop_front)
{
DataNDC data;
for (size_t i = 0UL; i < 2UL * data.max_size(); ++i)
{
CHECK_NO_THROW(data.push_front(ItemNDC("1")));
data.pop_front();
}
CHECK(data.empty());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_front_pop_back)
{
DataNDC data;
for (size_t i = 0UL; i < 2UL * data.max_size(); ++i)
{
CHECK_NO_THROW(data.push_front(ItemNDC("1")));
data.pop_back();
}
CHECK(data.empty());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_back_pop_front)
{
DataNDC data;
for (size_t i = 0UL; i < 2UL * data.max_size(); ++i)
{
CHECK_NO_THROW(data.push_front(ItemNDC("1")));
data.pop_front();
}
CHECK(data.empty());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_back_pop_back)
{
DataNDC data;
for (size_t i = 0UL; i < 2UL * data.max_size(); ++i)
{
CHECK_NO_THROW(data.push_front(ItemNDC("1")));
data.pop_back();
}
CHECK(data.empty());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_back)
{
CompareData compare_data;
DataNDC data;
compare_data.push_back(ItemNDC("1"));
compare_data.push_back(ItemNDC("2"));
compare_data.push_back(ItemNDC("3"));
compare_data.push_back(ItemNDC("4"));
compare_data.push_back(ItemNDC("5"));
compare_data.push_back(ItemNDC("6"));
CHECK_NO_THROW(data.push_back(ItemNDC("1")));
CHECK_NO_THROW(data.push_back(ItemNDC("2")));
CHECK_NO_THROW(data.push_back(ItemNDC("3")));
CHECK_NO_THROW(data.push_back(ItemNDC("4")));
CHECK_NO_THROW(data.push_back(ItemNDC("5")));
CHECK_NO_THROW(data.push_back(ItemNDC("6")));
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_back_move)
{
ItemM p1(1U);
ItemM p2(2U);
ItemM p3(3U);
ItemM p4(4U);
DataM data;
data.push_back(std::move(p1));
data.push_back(std::move(p2));
data.push_back(std::move(p3));
data.push_back(std::move(p4));
CHECK_EQUAL(4U, data.size());
CHECK(!bool(p1));
CHECK(!bool(p2));
CHECK(!bool(p3));
CHECK(!bool(p4));
DataM::const_iterator itr = data.begin();
CHECK_EQUAL(1U, (*itr++).value);
CHECK_EQUAL(2U, (*itr++).value);
CHECK_EQUAL(3U, (*itr++).value);
CHECK_EQUAL(4U, (*itr++).value);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_emplace_back)
{
std::list<ItemDC> compare_data;
etl::list<ItemDC, 7U> data;
compare_data.emplace_back();
compare_data.emplace_back("1");
compare_data.emplace_back("2");
compare_data.emplace_back("3");
compare_data.emplace_back("4");
compare_data.emplace_back("5");
compare_data.emplace_back("6");
CHECK_NO_THROW(data.emplace_back());
CHECK_NO_THROW(data.emplace_back("1"));
CHECK_NO_THROW(data.emplace_back("2"));
CHECK_NO_THROW(data.emplace_back("3"));
CHECK_NO_THROW(data.emplace_back("4"));
CHECK_NO_THROW(data.emplace_back("5"));
CHECK_NO_THROW(data.emplace_back("6"));
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_emplace_back_return)
{
DataNDC data;
data.emplace_back("24");
auto& back = data.emplace_back("42");
CHECK_EQUAL(back, data.back());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_push_back_excess)
{
DataNDC data;
data.push_back(ItemNDC("1"));
data.push_back(ItemNDC("2"));
data.push_back(ItemNDC("3"));
data.push_back(ItemNDC("4"));
data.push_back(ItemNDC("5"));
data.push_back(ItemNDC("6"));
data.push_back(ItemNDC("7"));
data.push_back(ItemNDC("8"));
data.push_back(ItemNDC("9"));
data.push_back(ItemNDC("10"));
CHECK_THROW(data.push_back(ItemNDC("11")), etl::list_full);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_pop_back)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
compare_data.pop_back();
compare_data.pop_back();
data.pop_back();
data.pop_back();
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_pop_front_exception)
{
DataNDC data;
CHECK_THROW(data.pop_front(), etl::list_empty);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_pop_back_exception)
{
DataNDC data;
CHECK_THROW(data.pop_back(), etl::list_empty);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_erase_single_iterator)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
DataNDC::iterator i_data = data.begin();
std::advance(i_data, 2);
CompareData::iterator i_compare_data = compare_data.begin();
std::advance(i_compare_data, 2);
i_compare_data = compare_data.erase(i_compare_data);
i_data = data.erase(i_data);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK(*i_compare_data == *i_data);
i_compare_data = compare_data.erase(compare_data.begin());
i_data = data.erase(data.begin());
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
are_equal = i_data == data.begin();
CHECK(are_equal);
// Move to the last value and erase.
i_compare_data = compare_data.begin();
std::advance(i_compare_data, compare_data.size() - 1);
i_compare_data = compare_data.erase(i_compare_data);
i_data = data.begin();
std::advance(i_data, data.size() - 1);
i_data = data.erase(i_data);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
are_equal = i_data == data.end();
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_erase_single_const_iterator)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
DataNDC::const_iterator i_data = data.begin();
std::advance(i_data, 2);
CompareData::const_iterator i_compare_data = compare_data.cbegin();
std::advance(i_compare_data, 2);
i_compare_data = compare_data.erase(i_compare_data);
i_data = data.erase(i_data);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.cbegin(), data.cend(), compare_data.cbegin());
CHECK(are_equal);
CHECK(*i_compare_data == *i_data);
i_compare_data = compare_data.erase(compare_data.cbegin());
i_data = data.erase(data.cbegin());
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
are_equal = i_data == data.begin();
CHECK(are_equal);
// Move to the last value and erase.
i_compare_data = compare_data.begin();
std::advance(i_compare_data, compare_data.size() - 1);
i_compare_data = compare_data.erase(i_compare_data);
i_data = data.begin();
std::advance(i_data, data.size() - 1);
i_data = data.erase(i_data);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
are_equal = i_data == data.end();
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_erase_range)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
DataNDC::const_iterator i_data_1 = data.cbegin();
std::advance(i_data_1, 2);
DataNDC::const_iterator i_data_2 = data.cbegin();
std::advance(i_data_2, 4);
CompareData::const_iterator i_compare_data_1 = compare_data.begin();
std::advance(i_compare_data_1, 2);
CompareData::const_iterator i_compare_data_2 = compare_data.begin();
std::advance(i_compare_data_2, 4);
CompareData::iterator citr = compare_data.erase(i_compare_data_1, i_compare_data_2);
CHECK(citr == i_compare_data_2);
DataNDC::iterator ditr = data.erase(i_data_1, i_data_2);
CHECK(ditr == i_data_2);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_erase_all)
{
DataNDC data(sorted_data.begin(), sorted_data.end());
DataNDC::iterator itr = data.erase(data.cbegin(), data.cend());
CHECK(itr == data.cbegin());
CHECK(data.empty());
// Check that it is still in a valid state.
data.push_back(ItemNDC("1"));
CHECK(!data.empty());
CHECK_EQUAL(1U, data.size());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_front)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
CHECK_EQUAL(compare_data.front(), data.front());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_front_const)
{
const CompareData compare_data(sorted_data.begin(), sorted_data.end());
const DataNDC data(sorted_data.begin(), sorted_data.end());
CHECK_EQUAL(compare_data.front(), data.front());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_back)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
CHECK_EQUAL(compare_data.back(), data.back());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_back_const)
{
const CompareData compare_data(sorted_data.begin(), sorted_data.end());
const DataNDC data(sorted_data.begin(), sorted_data.end());
CHECK_EQUAL(compare_data.back(), data.back());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_assignment)
{
DataNDC data(sorted_data.begin(), sorted_data.end());
DataNDC other_data;
other_data = data;
CHECK_EQUAL(data.size(), other_data.size());
are_equal = std::equal(data.begin(), data.end(), other_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST(test_move_assignment)
{
ItemM p1(1U);
ItemM p2(2U);
ItemM p3(3U);
ItemM p4(4U);
DataM data1;
data1.push_back(std::move(p1));
data1.push_back(std::move(p2));
data1.push_back(std::move(p3));
data1.push_back(std::move(p4));
DataM data2;
data2.push_back(ItemM(5U));
data2 = std::move(data1);
CHECK_EQUAL(0U, data1.size());
CHECK_EQUAL(4U, data2.size());
DataM::const_iterator itr = data2.begin();
CHECK_EQUAL(1U, (*itr++).value);
CHECK_EQUAL(2U, (*itr++).value);
CHECK_EQUAL(3U, (*itr++).value);
CHECK_EQUAL(4U, (*itr++).value);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_assignment_interface)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data1(sorted_data.begin(), sorted_data.end());
DataNDC data2;
IDataNDC& idata1 = data1;
IDataNDC& idata2 = data2;
idata2 = idata1;
CHECK_EQUAL(data1.size(), data2.size());
are_equal = std::equal(data1.begin(), data1.end(), data2.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST(test_move_assignment_interface)
{
ItemM p1(1U);
ItemM p2(2U);
ItemM p3(3U);
ItemM p4(4U);
DataM data1;
data1.push_back(std::move(p1));
data1.push_back(std::move(p2));
data1.push_back(std::move(p3));
data1.push_back(std::move(p4));
DataM data2;
data2.push_back(ItemM(5U));
IDataM& idata1 = data1;
IDataM& idata2 = data2;
idata2 = std::move(idata1);
CHECK_EQUAL(0U, data1.size());
CHECK_EQUAL(4U, data2.size());
DataM::const_iterator itr = data2.begin();
CHECK_EQUAL(1U, (*itr++).value);
CHECK_EQUAL(2U, (*itr++).value);
CHECK_EQUAL(3U, (*itr++).value);
CHECK_EQUAL(4U, (*itr++).value);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_self_assignment)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
DataNDC other_data = data;
#include "etl/private/diagnostic_self_assign_overloaded_push.h"
other_data = other_data;
#include "etl/private/diagnostic_pop.h"
CHECK_EQUAL(data.size(), other_data.size());
are_equal = std::equal(data.begin(), data.end(), other_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_unique)
{
CompareData compare_data(non_unique_data.begin(), non_unique_data.end());
DataNDC data(non_unique_data.begin(), non_unique_data.end());
compare_data.unique();
data.unique();
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_unique_trivial)
{
CompareData compare_data;
DataNDC data;
compare_data.unique();
data.unique();
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_remove)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
compare_data.remove(ItemNDC("7"));
data.remove(ItemNDC("7"));
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_remove_if)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
compare_data.remove_if(std::bind(std::equal_to<ItemNDC>(), std::placeholders::_1, ItemNDC("7")));
data.remove_if(std::bind(std::equal_to<ItemNDC>(), std::placeholders::_1, ItemNDC("7")));
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_reverse)
{
CompareData compare_data(sorted_data.begin(), sorted_data.end());
DataNDC data(sorted_data.begin(), sorted_data.end());
compare_data.reverse();
data.reverse();
CHECK_EQUAL(compare_data.size(), data.size());
CHECK_EQUAL(data.size(), size_t(std::distance(data.begin(), data.end())));
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_sort)
{
CompareData compare_data(unsorted_data.begin(), unsorted_data.end());
DataNDC data(unsorted_data.begin(), unsorted_data.end());
compare_data.sort();
data.sort();
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_sort_is_stable)
{
CompareData compare_data(stable_sort_data.begin(), stable_sort_data.end());
DataNDC data(stable_sort_data.begin(), stable_sort_data.end());
compare_data.sort();
data.sort();
CompareData::const_iterator citr = compare_data.begin();
DataNDC::const_iterator ditr = data.begin();
while (ditr != data.end())
{
CHECK_EQUAL(citr->index, ditr->index);
++citr;
++ditr;
}
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_sort_trivial)
{
CompareData compare_data;
DataNDC data;
compare_data.sort();
data.sort();
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_splice_same)
{
CompareData compare_data(unsorted_data.begin(), unsorted_data.end());
DataNDC data(unsorted_data.begin(), unsorted_data.end());
CompareData::iterator compare_from;
CompareData::iterator compare_to;
DataNDC::iterator from;
DataNDC::iterator to;
// Move to the beginning.
compare_from = compare_data.begin();
std::advance(compare_from, 4);
compare_to = compare_data.begin();
compare_data.splice(compare_to, compare_data, compare_from);
from = data.begin();
std::advance(from, 4);
to = data.begin();
data.splice(to, data, from);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
// Move to the end.
compare_from = compare_data.begin();
std::advance(compare_from, 4);
compare_to = compare_data.end();
compare_data.splice(compare_to, compare_data, compare_from);
from = data.begin();
std::advance(from, 4);
to = data.end();
data.splice(to, data, from);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
// Move nearby.
compare_from = compare_data.begin();
std::advance(compare_from, 4);
compare_to = compare_data.begin();
std::advance(compare_to, 6);
compare_data.splice(compare_to, compare_data, compare_from);
from = data.begin();
std::advance(from, 4);
to = data.begin();
std::advance(to, 6);
data.splice(to, data, from);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
// Move to same place.
compare_from = compare_data.begin();
std::advance(compare_from, 4);
compare_to = compare_data.begin();
std::advance(compare_to, 4);
compare_data.splice(compare_to, compare_data, compare_from);
from = data.begin();
std::advance(from, 4);
to = data.begin();
std::advance(to, 4);
data.splice(to, data, from);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_splice_different)
{
CompareData compare_data(unsorted_data.begin(), unsorted_data.end());
CompareData compare_data2(unsorted_data.begin(), unsorted_data.end());
DataNDC2 data(unsorted_data.begin(), unsorted_data.end());
DataNDC2 data2(unsorted_data.begin(), unsorted_data.end());
CompareData::iterator compare_from;
CompareData::iterator compare_to;
DataNDC2::iterator from;
DataNDC2::iterator to;
// Move to the beginning.
compare_from = compare_data2.begin();
std::advance(compare_from, 4);
compare_to = compare_data.begin();
compare_data.splice(compare_to, compare_data2, compare_from);
from = data2.begin();
std::advance(from, 4);
to = data.begin();
data.splice(to, data2, from);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
// Move to the end.
compare_data.assign(unsorted_data.begin(), unsorted_data.end());
compare_data2.assign(unsorted_data.begin(), unsorted_data.end());
data.assign(unsorted_data.begin(), unsorted_data.end());
data2.assign(unsorted_data.begin(), unsorted_data.end());
compare_from = compare_data2.begin();
std::advance(compare_from, 4);
compare_to = compare_data.end();
compare_data.splice(compare_to, compare_data2, compare_from);
from = data2.begin();
std::advance(from, 4);
to = data.end();
data.splice(to, data2, from);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
// Move nearby.
compare_data.assign(unsorted_data.begin(), unsorted_data.end());
compare_data2.assign(unsorted_data.begin(), unsorted_data.end());
data.assign(unsorted_data.begin(), unsorted_data.end());
data2.assign(unsorted_data.begin(), unsorted_data.end());
compare_from = compare_data2.begin();
std::advance(compare_from, 4);
compare_to = compare_data.begin();
std::advance(compare_to, 6);
compare_data.splice(compare_to, compare_data2, compare_from);
from = data2.begin();
std::advance(from, 4);
to = data.begin();
std::advance(to, 6);
data.splice(to, data2, from);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
// Move to same place.
compare_data.assign(unsorted_data.begin(), unsorted_data.end());
compare_data2.assign(unsorted_data.begin(), unsorted_data.end());
data.assign(unsorted_data.begin(), unsorted_data.end());
data2.assign(unsorted_data.begin(), unsorted_data.end());
compare_from = compare_data2.begin();
std::advance(compare_from, 4);
compare_to = compare_data.begin();
std::advance(compare_to, 4);
compare_data.splice(compare_to, compare_data2, compare_from);
from = data2.begin();
std::advance(from, 4);
to = data.begin();
std::advance(to, 4);
data.splice(to, data2, from);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_splice_range_same)
{
CompareData compare_data(unsorted_data.begin(), unsorted_data.end());
DataNDC data(unsorted_data.begin(), unsorted_data.end());
CompareData::iterator compare_begin;
CompareData::iterator compare_end;
CompareData::iterator compare_to;
DataNDC::iterator begin;
DataNDC::iterator end;
DataNDC::iterator to;
// Move to the beginning.
compare_begin = compare_data.begin();
std::advance(compare_begin, 3);
compare_end = compare_begin;
std::advance(compare_end, 3);
compare_to = compare_data.begin();
compare_data.splice(compare_to, compare_data, compare_begin, compare_end);
begin = data.begin();
std::advance(begin, 3);
end = begin;
std::advance(end, 3);
to = data.begin();
data.splice(to, data, begin, end);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
// Move to the end.
compare_begin = compare_data.begin();
std::advance(compare_begin, 3);
compare_end = compare_begin;
std::advance(compare_end, 3);
compare_to = compare_data.end();
compare_data.splice(compare_to, compare_data, compare_begin, compare_end);
begin = data.begin();
std::advance(begin, 3);
end = begin;
std::advance(end, 3);
to = data.end();
data.splice(to, data, begin, end);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
// Move nearby.
compare_begin = compare_data.begin();
std::advance(compare_begin, 2);
compare_end = compare_begin;
std::advance(compare_end, 3);
compare_to = compare_data.begin();
std::advance(compare_to, 7);
compare_data.splice(compare_to, compare_data, compare_begin, compare_end);
begin = data.begin();
std::advance(begin, 2);
end = begin;
std::advance(end, 3);
to = data.begin();
std::advance(to, 7);
data.splice(to, data, begin, end);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
// Move to same place.
begin = data.begin();
std::advance(begin, 2);
end = begin;
std::advance(end, 3);
to = data.begin();
std::advance(to, 2);
DataNDC data2(data);
data.splice(to, data, begin, end);
CHECK_EQUAL(data.size(), data2.size());
are_equal = std::equal(data.begin(), data.end(), data2.begin());
CHECK(are_equal);
// Move to illegal place.
begin = data.begin();
std::advance(begin, 2);
end = begin;
std::advance(end, 3);
to = data.begin();
std::advance(to, 4);
CHECK_THROW(data.splice(to, data, begin, end), etl::list_iterator);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_splice_range_different)
{
CompareData compare_data(unsorted_data.begin(), unsorted_data.end());
CompareData compare_data2(unsorted_data.begin(), unsorted_data.end());
DataNDC2 data(unsorted_data.begin(), unsorted_data.end());
DataNDC2 data2(unsorted_data.begin(), unsorted_data.end());
CompareData::iterator compare_begin;
CompareData::iterator compare_end;
CompareData::iterator compare_to;
DataNDC2::iterator begin;
DataNDC2::iterator end;
DataNDC2::iterator to;
// Move to the beginning.
compare_begin = compare_data2.begin();
std::advance(compare_begin, 3);
compare_end = compare_begin;
std::advance(compare_end, 3);
compare_to = compare_data.begin();
compare_data.splice(compare_to, compare_data2, compare_begin, compare_end);
begin = data2.begin();
std::advance(begin, 3);
end = begin;
std::advance(end, 3);
to = data.begin();
data.splice(to, data2, begin, end);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
// Move to the end.
compare_data.assign(unsorted_data.begin(), unsorted_data.end());
compare_data2.assign(unsorted_data.begin(), unsorted_data.end());
data.assign(unsorted_data.begin(), unsorted_data.end());
data2.assign(unsorted_data.begin(), unsorted_data.end());
compare_begin = compare_data2.begin();
std::advance(compare_begin, 3);
compare_end = compare_begin;
std::advance(compare_end, 3);
compare_to = compare_data.end();
compare_data.splice(compare_to, compare_data2, compare_begin, compare_end);
begin = data2.begin();
std::advance(begin, 3);
end = begin;
std::advance(end, 3);
to = data.end();
data.splice(to, data2, begin, end);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
// Move nearby.
compare_data.assign(unsorted_data.begin(), unsorted_data.end());
compare_data2.assign(unsorted_data.begin(), unsorted_data.end());
data.assign(unsorted_data.begin(), unsorted_data.end());
data2.assign(unsorted_data.begin(), unsorted_data.end());
compare_begin = compare_data2.begin();
std::advance(compare_begin, 2);
compare_end = compare_begin;
std::advance(compare_end, 3);
compare_to = compare_data.begin();
std::advance(compare_to, 7);
compare_data.splice(compare_to, compare_data2, compare_begin, compare_end);
begin = data2.begin();
std::advance(begin, 2);
end = begin;
std::advance(end, 3);
to = data.begin();
std::advance(to, 7);
data.splice(to, data2, begin, end);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_splice_list_different)
{
CompareData compare_data(unsorted_data.begin(), unsorted_data.end());
CompareData compare_data2(unsorted_data.begin(), unsorted_data.end());
DataNDC2 data(unsorted_data.begin(), unsorted_data.end());
DataNDC2 data2(unsorted_data.begin(), unsorted_data.end());
CompareData::iterator compare_to;
DataNDC2::iterator to;
// Move to the beginning.
compare_to = compare_data.begin();
compare_data.splice(compare_to, compare_data2);
to = data.begin();
data.splice(to, data2);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
// Move to the end.
compare_data.assign(unsorted_data.begin(), unsorted_data.end());
compare_data2.assign(unsorted_data.begin(), unsorted_data.end());
data.assign(unsorted_data.begin(), unsorted_data.end());
data2.assign(unsorted_data.begin(), unsorted_data.end());
compare_to = compare_data.end();
compare_data.splice(compare_to, compare_data2);
to = data.end();
data.splice(to, data2);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
// Move nearby.
compare_data.assign(unsorted_data.begin(), unsorted_data.end());
compare_data2.assign(unsorted_data.begin(), unsorted_data.end());
data.assign(unsorted_data.begin(), unsorted_data.end());
data2.assign(unsorted_data.begin(), unsorted_data.end());
compare_to = compare_data.begin();
std::advance(compare_to, 7);
compare_data.splice(compare_to, compare_data2);
to = data.begin();
std::advance(to, 7);
data.splice(to, data2);
CHECK_EQUAL(compare_data.size(), data.size());
are_equal = std::equal(data.begin(), data.end(), compare_data.begin());
CHECK(are_equal);
CHECK_EQUAL(compare_data2.size(), data2.size());
are_equal = std::equal(data2.begin(), data2.end(), compare_data2.begin());
CHECK(are_equal);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_merge_0_1)
{
DataNDC2 data0(merge_data0.begin(), merge_data0.end());
DataNDC2 data1(merge_data1.begin(), merge_data1.end());
CompareData compare0(merge_data0.begin(), merge_data0.end());
CompareData compare1(merge_data1.begin(), merge_data1.end());
data0.merge(data1);
compare0.merge(compare1);
are_equal = std::equal(data0.begin(), data0.end(), compare0.begin());
CHECK(are_equal);
CHECK_EQUAL(compare0.size(), data0.size());
CHECK_EQUAL(compare1.size(), data1.size());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_merge_0_2)
{
DataNDC2 data0(merge_data0.begin(), merge_data0.end());
DataNDC2 data2(merge_data2.begin(), merge_data2.end());
CompareData compare0(merge_data0.begin(), merge_data0.end());
CompareData compare2(merge_data2.begin(), merge_data2.end());
data0.merge(data2);
compare0.merge(compare2);
are_equal = std::equal(data0.begin(), data0.end(), compare0.begin());
CHECK(are_equal);
CHECK_EQUAL(compare0.size(), data0.size());
CHECK_EQUAL(compare2.size(), data2.size());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_merge_0_3)
{
DataNDC2 data0(merge_data0.begin(), merge_data0.end());
DataNDC2 data3(merge_data3.begin(), merge_data3.end());
CompareData compare0(merge_data0.begin(), merge_data0.end());
CompareData compare3(merge_data3.begin(), merge_data3.end());
data0.merge(data3);
compare0.merge(compare3);
are_equal = std::equal(data0.begin(), data0.end(), compare0.begin());
CHECK(are_equal);
CHECK_EQUAL(compare0.size(), data0.size());
CHECK_EQUAL(compare3.size(), data3.size());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_merge_0_4)
{
DataNDC2 data0(merge_data0.begin(), merge_data0.end());
DataNDC2 data4(merge_data4.begin(), merge_data4.end());
CompareData compare0(merge_data0.begin(), merge_data0.end());
CompareData compare4(merge_data4.begin(), merge_data4.end());
data0.merge(data4);
compare0.merge(compare4);
are_equal = std::equal(data0.begin(), data0.end(), compare0.begin());
CHECK(are_equal);
CHECK_EQUAL(compare0.size(), data0.size());
CHECK_EQUAL(compare4.size(), data4.size());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_merge_0_1_reverse_order)
{
DataNDC2 data0(merge_data0.begin(), merge_data0.end());
DataNDC2 data1(merge_data1.begin(), merge_data1.end());
data0.reverse();
data1.reverse();
CompareData compare0(merge_data0.begin(), merge_data0.end());
CompareData compare1(merge_data1.begin(), merge_data1.end());
compare0.reverse();
compare1.reverse();
data0.merge(data1, std::greater<ItemNDC>());
compare0.merge(compare1, std::greater<ItemNDC>());
are_equal = std::equal(data0.begin(), data0.end(), compare0.begin());
CHECK(are_equal);
CHECK_EQUAL(compare0.size(), data0.size());
CHECK_EQUAL(compare1.size(), data1.size());
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_merge_exception)
{
DataNDC2 data0(unsorted_data.begin(), unsorted_data.end());
DataNDC2 data1(unsorted_data.begin(), unsorted_data.end());
CHECK_THROW(data0.merge(data1), etl::list_unsorted);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_merge_move)
{
ItemM p1(1U);
ItemM p2(2U);
ItemM p3(3U);
ItemM p4(4U);
ItemM p5(5U);
ItemM p6(6U);
ItemM p7(7U);
ItemM p8(8U);
DataM data1;
data1.push_back(std::move(p1));
data1.push_back(std::move(p2));
data1.push_back(std::move(p3));
data1.push_back(std::move(p4));
DataM data2;
data2.push_back(std::move(p5));
data2.push_back(std::move(p6));
data2.push_back(std::move(p7));
data2.push_back(std::move(p8));
data1.merge(std::move(data2));
CHECK_EQUAL(8U, data1.size());
CHECK_EQUAL(0U, data2.size());
DataM::const_iterator itr = data1.begin();
CHECK_EQUAL(1U, (*itr++).value);
CHECK_EQUAL(2U, (*itr++).value);
CHECK_EQUAL(3U, (*itr++).value);
CHECK_EQUAL(4U, (*itr++).value);
CHECK_EQUAL(5U, (*itr++).value);
CHECK_EQUAL(6U, (*itr++).value);
CHECK_EQUAL(7U, (*itr++).value);
CHECK_EQUAL(8U, (*itr++).value);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_splice_move_range_same)
{
ItemM p1(1U);
ItemM p2(2U);
ItemM p3(3U);
ItemM p4(4U);
ItemM p5(5U);
ItemM p6(6U);
ItemM p7(7U);
ItemM p8(8U);
DataM data;
data.push_back(std::move(p1));
data.push_back(std::move(p2));
data.push_back(std::move(p3));
data.push_back(std::move(p4));
data.push_back(std::move(p5));
data.push_back(std::move(p6));
data.push_back(std::move(p7));
data.push_back(std::move(p8));
DataM::iterator begin;
DataM::iterator end;
DataM::iterator to;
// Move nearby.
begin = data.begin();
std::advance(begin, 4);
end = begin;
std::advance(end, 2);
to = data.begin();
std::advance(to, 2);
data.splice(to, std::move(data), begin, end);
CHECK_EQUAL(8U, data.size());
DataM::const_iterator itr = data.begin();
CHECK_EQUAL(1U, (*itr++).value);
CHECK_EQUAL(2U, (*itr++).value);
CHECK_EQUAL(5U, (*itr++).value);
CHECK_EQUAL(6U, (*itr++).value);
CHECK_EQUAL(3U, (*itr++).value);
CHECK_EQUAL(4U, (*itr++).value);
CHECK_EQUAL(7U, (*itr++).value);
CHECK_EQUAL(8U, (*itr++).value);
}
//*************************************************************************
TEST_FIXTURE(SetupFixture, test_splice_move_range_different)
{
ItemM p1(1U);
ItemM p2(2U);
ItemM p3(3U);
ItemM p4(4U);
ItemM p5(5U);
ItemM p6(6U);
ItemM p7(7U);
ItemM p8(8U);
DataM data1;
data1.push_back(std::move(p1));
data1.push_back(std::move(p2));
data1.push_back(std::move(p3));
data1.push_back(std::move(p4));
DataM data2;
data2.push_back(std::move(p5));
data2.push_back(std::move(p6));
data2.push_back(std::move(p7));
data2.push_back(std::move(p8));
DataM::iterator begin;
DataM::iterator end;
DataM::iterator to;
// Move.
begin = data2.begin();
std::advance(begin, 1);
end = begin;
std::advance(end, 2);
to = data1.begin();
std::advance(to, 2);
data1.splice(to, std::move(data2), begin, end);
CHECK_EQUAL(6U, data1.size());
CHECK_EQUAL(2U, data2.size());
DataM::const_iterator itr = data1.begin();
CHECK_EQUAL(1U, (*itr++).value); // 1
CHECK_EQUAL(2U, (*itr++).value); // 2
CHECK_EQUAL(6U, (*itr++).value); // 7
CHECK_EQUAL(7U, (*itr++).value); // 6
CHECK_EQUAL(3U, (*itr++).value); // 3
CHECK_EQUAL(4U, (*itr++).value); // 4
}
//*************************************************************************
TEST(test_same_type_non_iterator)
{
etl::list<int, 10> l(10, 1);
CHECK(l.size() == 10);
l.assign(5, 2);
CHECK(l.size() == 5);
l.insert(l.begin(), 5, 3);
CHECK(l.size() == l.max_size());
}
//*************************************************************************
#if ETL_USING_CPP17 && ETL_HAS_INITIALIZER_LIST && !defined(ETL_TEMPLATE_DEDUCTION_GUIDE_TESTS_DISABLED)
TEST(test_forward_list_template_deduction)
{
etl::list data{ ItemNDC("A"), ItemNDC("B"), ItemNDC("C"), ItemNDC("D"), ItemNDC("E"), ItemNDC("F") };
auto v = *data.begin();
using Type = decltype(v);
CHECK((std::is_same_v<ItemNDC, Type>));
decltype(data)::const_iterator itr = data.begin();
CHECK_EQUAL(ItemNDC("A"), *itr++);
CHECK_EQUAL(ItemNDC("B"), *itr++);
CHECK_EQUAL(ItemNDC("C"), *itr++);
CHECK_EQUAL(ItemNDC("D"), *itr++);
CHECK_EQUAL(ItemNDC("E"), *itr++);
CHECK_EQUAL(ItemNDC("F"), *itr++);
}
#endif
//*************************************************************************
#if ETL_HAS_INITIALIZER_LIST
TEST(test_make_list)
{
auto data = etl::make_list<ItemNDC>(ItemNDC("A"), ItemNDC("B"), ItemNDC("C"), ItemNDC("D"), ItemNDC("E"), ItemNDC("F"));
auto v = *data.begin();
using Type = decltype(v);
CHECK((std::is_same<ItemNDC, Type>::value));
decltype(data)::const_iterator itr = data.begin();
CHECK_EQUAL(ItemNDC("A"), *itr++);
CHECK_EQUAL(ItemNDC("B"), *itr++);
CHECK_EQUAL(ItemNDC("C"), *itr++);
CHECK_EQUAL(ItemNDC("D"), *itr++);
CHECK_EQUAL(ItemNDC("E"), *itr++);
CHECK_EQUAL(ItemNDC("F"), *itr++);
}
#endif
};
}