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

655 lines
20 KiB
C++
Raw Permalink Normal View History

2024-10-29 10:49:46 +01:00
/******************************************************************************
The MIT License(MIT)
Embedded Template Library.
https://github.com/ETLCPP/etl
https://www.etlcpp.com
Copyright(c) 2015 John Wellbelove, 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 "unit_test_framework.h"
#include <queue>
#include "etl/priority_queue.h"
#include "etl/math.h"
#include <functional>
#include <string>
#include "data.h"
namespace
{
using ItemM = TestDataM<std::string>;
struct Item
{
Item()
: c('a')
, i(1)
, d(1.2)
{
}
Item(char c_, int i_, double d_)
: c(c_)
, i(i_)
, d(d_)
{
}
char c;
int i;
double d;
};
bool operator == (const Item& lhs, const Item& rhs)
{
#include "etl/private/diagnostic_float_equal_push.h"
return (lhs.c == rhs.c) && (lhs.i == rhs.i) && (lhs.d == rhs.d);
#include "etl/private/diagnostic_pop.h"
}
bool operator < (const Item& lhs, const Item& rhs)
{
return (lhs.c < rhs.c);
}
std::ostream& operator << (std::ostream& os, const Item& item)
{
os << item.c << "," << item.i << "," << item.d;
return os;
}
SUITE(test_priority_queue)
{
static const size_t SIZE = 4UL;
//*************************************************************************
TEST(test_default_constructor)
{
etl::priority_queue<int, SIZE> priority_queue;
CHECK_EQUAL(priority_queue.size(), 0UL);
CHECK_EQUAL(priority_queue.available(), SIZE);
CHECK_EQUAL(priority_queue.max_size(), SIZE);
}
//*************************************************************************
TEST(test_delete_via_ipriority_queue)
{
typedef etl::priority_queue<int, 4> priority_queue_t;
priority_queue_t* ppriority_queue = new etl::priority_queue<int, 4>;
etl::ipriority_queue<int, priority_queue_t::container_type, priority_queue_t::compare_type>* pipriority_queue = ppriority_queue;
pipriority_queue->push(1);
pipriority_queue->push(2);
pipriority_queue->push(3);
pipriority_queue->push(4);
delete pipriority_queue;
}
//*************************************************************************
TEST(test_copy_constructor)
{
etl::priority_queue<int, SIZE> priority_queue;
priority_queue.push(3);
priority_queue.push(1);
priority_queue.push(4);
priority_queue.push(2);
etl::priority_queue<int, SIZE> priority_queue2(priority_queue);
CHECK(priority_queue.size() == priority_queue2.size());
while (!priority_queue.empty())
{
CHECK_EQUAL(priority_queue.top(), priority_queue2.top());
priority_queue.pop();
priority_queue2.pop();
}
}
//*************************************************************************
TEST(test_move_constructor)
{
ItemM a("A"), b("B"), c("C"), d("D");
etl::priority_queue<ItemM, SIZE> priority_queue;
priority_queue.push(std::move(c));
priority_queue.push(std::move(d));
priority_queue.push(std::move(a));
priority_queue.push(std::move(b));
etl::priority_queue<ItemM, SIZE> priority_queue2(std::move(priority_queue));
CHECK_EQUAL(0U, priority_queue.size());
CHECK_EQUAL(SIZE, priority_queue2.size());
CHECK_EQUAL(priority_queue2.top().value, "D");
priority_queue2.pop();
CHECK_EQUAL(priority_queue2.top().value, "C");
priority_queue2.pop();
CHECK_EQUAL(priority_queue2.top().value, "B");
priority_queue2.pop();
CHECK_EQUAL(priority_queue2.top().value, "A");
}
//*************************************************************************
TEST(test_constructor_range)
{
int n[] = { 3, 4, 1, 2 };
etl::priority_queue<int, SIZE> priority_queue(std::begin(n), std::end(n));
std::priority_queue<int> compare_priority_queue(std::begin(n), std::end(n));
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK(!priority_queue.empty());
while (!priority_queue.empty())
{
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
compare_priority_queue.pop();
priority_queue.pop();
}
}
//*************************************************************************
TEST(test_size)
{
etl::priority_queue<int, SIZE> priority_queue;
priority_queue.push(1);
priority_queue.push(2);
priority_queue.push(3);
CHECK_EQUAL(3U, priority_queue.size());
}
//*************************************************************************
TEST(test_clear)
{
etl::priority_queue<int, SIZE> priority_queue;
priority_queue.push(1);
priority_queue.push(2);
priority_queue.clear();
CHECK_EQUAL(0U, priority_queue.size());
}
//*************************************************************************
TEST(test_assign_range)
{
int n[] = { 3, 4, 1, 2 };
etl::priority_queue<int, SIZE> priority_queue;
std::priority_queue<int> compare_priority_queue(std::begin(n), std::end(n));
priority_queue.assign(std::begin(n), std::end(n));
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK(!priority_queue.empty());
while (!priority_queue.empty())
{
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
compare_priority_queue.pop();
priority_queue.pop();
}
}
//*************************************************************************
TEST(test_empty)
{
etl::priority_queue<int, SIZE> priority_queue;
CHECK(priority_queue.empty());
priority_queue.push(1);
CHECK(!priority_queue.empty());
}
//*************************************************************************
TEST(test_full)
{
etl::priority_queue<int, SIZE> priority_queue;
CHECK(!priority_queue.full());
priority_queue.push(1);
priority_queue.push(2);
priority_queue.push(3);
priority_queue.push(4);
CHECK(priority_queue.full());
}
//*************************************************************************
TEST(test_top)
{
etl::priority_queue<int, SIZE> priority_queue;
std::priority_queue<int> compare_priority_queue;
priority_queue.push(1);
compare_priority_queue.push(1);
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.push(3);
compare_priority_queue.push(3);
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.push(2);
compare_priority_queue.push(2);
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.push(4);
compare_priority_queue.push(4);
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
}
//*************************************************************************
TEST(test_top_const)
{
etl::priority_queue<int, SIZE> priority_queue;
const etl::priority_queue<int, SIZE>& constQueue = priority_queue;
priority_queue.push(1);
CHECK_EQUAL(1, constQueue.top());
priority_queue.push(3);
CHECK_EQUAL(3, constQueue.top());
priority_queue.push(2);
CHECK_EQUAL(3, constQueue.top());
priority_queue.push(4);
CHECK_EQUAL(4, constQueue.top());
}
//*************************************************************************
TEST(test_push)
{
etl::priority_queue<int, SIZE> priority_queue;
std::priority_queue<int> compare_priority_queue;
priority_queue.push(1);
compare_priority_queue.push(1);
priority_queue.push(2);
compare_priority_queue.push(2);
priority_queue.push(3);
compare_priority_queue.push(3);
priority_queue.push(4);
compare_priority_queue.push(4);
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
}
//*************************************************************************
TEST(test_push_movable)
{
ItemM a("A"), b("B"), c("C"), d("D");
etl::priority_queue<ItemM, SIZE> priority_queue;
std::priority_queue<ItemM> compare_priority_queue;
priority_queue.push(std::move(c));
priority_queue.push(std::move(d));
priority_queue.push(std::move(a));
priority_queue.push(std::move(b));
compare_priority_queue.push(ItemM("C"));
compare_priority_queue.push(ItemM("D"));
compare_priority_queue.push(ItemM("A"));
compare_priority_queue.push(ItemM("B"));
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK(!priority_queue.empty());
while (!priority_queue.empty())
{
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
compare_priority_queue.pop();
priority_queue.pop();
}
}
//*************************************************************************
TEST(test_emplace)
{
etl::priority_queue<Item, 5> priority_queue;
std::priority_queue<Item> compare_priority_queue;
priority_queue.emplace();
compare_priority_queue.emplace();
priority_queue.emplace('d', 4, 7.8);
compare_priority_queue.emplace('d', 4, 7.8);
priority_queue.emplace('b', 2, 3.4);
compare_priority_queue.emplace('b', 2, 3.4);
priority_queue.emplace('a', 1, 1.2);
compare_priority_queue.emplace('a', 1, 1.2);
priority_queue.emplace('c', 3, 5.6);
compare_priority_queue.emplace('c', 3, 5.6);
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
}
//*************************************************************************
TEST(test_push_excess)
{
etl::priority_queue<int, SIZE> priority_queue;
for (size_t i = 0UL; i < priority_queue.max_size(); ++i)
{
priority_queue.push(1);
}
CHECK_THROW(priority_queue.push(1), etl::priority_queue_full);
}
//*************************************************************************
TEST(test_pop)
{
etl::priority_queue<int, SIZE> priority_queue;
std::priority_queue<int> compare_priority_queue;
priority_queue.push(1);
compare_priority_queue.push(1);
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
priority_queue.push(3);
compare_priority_queue.push(3);
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.push(1);
compare_priority_queue.push(1);
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.push(1);
compare_priority_queue.push(1);
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.push(2);
compare_priority_queue.push(2);
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.push(1);
compare_priority_queue.push(1);
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), priority_queue.top());
priority_queue.pop();
compare_priority_queue.pop();
CHECK_EQUAL(compare_priority_queue.size(), priority_queue.size());
}
//*************************************************************************
TEST(test_pop_into)
{
etl::priority_queue<int, SIZE> priority_queue;
priority_queue.push(1);
priority_queue.push(3);
priority_queue.push(4);
priority_queue.push(2);
int i;
priority_queue.pop_into(i);
CHECK_EQUAL(4, i);
priority_queue.pop_into(i);
CHECK_EQUAL(3, i);
priority_queue.pop_into(i);
CHECK_EQUAL(2, i);
priority_queue.pop_into(i);
CHECK_EQUAL(1, i);
}
//*************************************************************************
TEST(test_assignment)
{
etl::priority_queue<int, SIZE> priority_queue;
priority_queue.push(1);
priority_queue.push(4);
priority_queue.push(3);
priority_queue.push(2);
etl::priority_queue<int, SIZE> priority_queue2;
priority_queue2 = priority_queue;
CHECK(priority_queue.size() == priority_queue2.size());
while (!priority_queue.empty())
{
CHECK_EQUAL(priority_queue.top(), priority_queue2.top());
priority_queue.pop();
priority_queue2.pop();
}
}
//*************************************************************************
TEST(test_move_assignment)
{
ItemM a("A"), b("B"), c("C"), d("D");
etl::priority_queue<ItemM, SIZE> priority_queue;
priority_queue.push(std::move(c));
priority_queue.push(std::move(d));
priority_queue.push(std::move(a));
priority_queue.push(std::move(b));
etl::priority_queue<ItemM, SIZE> priority_queue2;
priority_queue2.push(ItemM("E"));
priority_queue2 = std::move(priority_queue);
CHECK_EQUAL(0U, priority_queue.size());
CHECK_EQUAL(SIZE, priority_queue2.size());
CHECK_EQUAL(priority_queue2.top().value, "D");
priority_queue2.pop();
CHECK_EQUAL(priority_queue2.top().value, "C");
priority_queue2.pop();
CHECK_EQUAL(priority_queue2.top().value, "B");
priority_queue2.pop();
CHECK_EQUAL(priority_queue2.top().value, "A");
}
//*************************************************************************
TEST(test_assignment_interface)
{
etl::priority_queue<int, SIZE> priority_queue1;
priority_queue1.push(1);
priority_queue1.push(4);
priority_queue1.push(3);
priority_queue1.push(2);
etl::priority_queue<int, SIZE> priority_queue2;
etl::ipriority_queue<int, etl::vector<int, SIZE>>& ipriority_queue1 = priority_queue1;
etl::ipriority_queue<int, etl::vector<int, SIZE>>& ipriority_queue2 = priority_queue2;
ipriority_queue2 = ipriority_queue1;
CHECK(priority_queue1.size() == priority_queue2.size());
while (!priority_queue1.empty())
{
CHECK_EQUAL(priority_queue1.top(), priority_queue2.top());
priority_queue1.pop();
priority_queue2.pop();
}
}
//*************************************************************************
TEST(test_self_assignment)
{
etl::priority_queue<int, SIZE> priority_queue1;
priority_queue1.push(1);
priority_queue1.push(4);
priority_queue1.push(3);
priority_queue1.push(2);
etl::priority_queue<int, SIZE> priority_queue2 = priority_queue1;
#include "etl/private/diagnostic_self_assign_overloaded_push.h"
priority_queue1 = priority_queue1;
#include "etl/private/diagnostic_pop.h"
CHECK(priority_queue1.size() == priority_queue2.size());
while (!priority_queue1.empty())
{
CHECK_EQUAL(priority_queue1.top(), priority_queue2.top());
priority_queue1.pop();
priority_queue2.pop();
}
}
//*************************************************************************
TEST(test_interface)
{
typedef etl::priority_queue<int, SIZE> priority_queue_t;
priority_queue_t priority_queue;
etl::ipriority_queue<int, priority_queue_t::container_type, priority_queue_t::compare_type>& ipriority_queue = priority_queue;
std::priority_queue<int> compare_priority_queue;
ipriority_queue.push(1);
compare_priority_queue.push(1);
ipriority_queue.push(2);
compare_priority_queue.push(2);
ipriority_queue.push(3);
compare_priority_queue.push(3);
ipriority_queue.push(4);
compare_priority_queue.push(4);
CHECK_EQUAL(compare_priority_queue.size(), ipriority_queue.size());
CHECK_EQUAL(compare_priority_queue.top(), ipriority_queue.top());
}
//*************************************************************************
TEST(test_using_custom_compare)
{
etl::priority_queue<int, SIZE, etl::vector<int, SIZE>, std::less<int> > priority_queue1;
priority_queue1.push(1);
priority_queue1.push(4);
priority_queue1.push(3);
priority_queue1.push(2);
etl::priority_queue<int, SIZE, etl::vector<int, SIZE>, std::less<int> > priority_queue2;
etl::ipriority_queue<int, etl::vector<int, SIZE>, std::less<int>>& ipriority_queue1 = priority_queue1;
etl::ipriority_queue<int, etl::vector<int, SIZE>, std::less<int>>& ipriority_queue2 = priority_queue2;
ipriority_queue2 = ipriority_queue1;
CHECK(priority_queue1.size() == priority_queue2.size());
while (!priority_queue1.empty())
{
CHECK_EQUAL(priority_queue1.top(), priority_queue2.top());
priority_queue1.pop();
priority_queue2.pop();
}
}
};
}