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openvehicle-api/tests/component_tests/task_timer/task_simulation_timer_test.cpp
tompzf 6ed4b1534e Precommit (#1)
* first commit

* cleanup
2025-11-04 13:28:06 +01:00

404 lines
13 KiB
C++

#include "gtest/gtest.h"
#include <support/timer.h>
#include <chrono>
#include <thread>
#include <support/app_control.h>
#include "../../../global/process_watchdog.h"
#if defined(_WIN32) && defined(_UNICODE)
extern "C" int wmain(int argc, wchar_t* argv[])
#else
extern "C" int main(int argc, char* argv[])
#endif
{
CProcessWatchdog watchdog;
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
//test object which counts how many times the cb has been called
class CTestTask : public sdv::core::ITaskExecute, public sdv::IInterfaceAccess
{
public:
BEGIN_SDV_INTERFACE_MAP()
SDV_INTERFACE_ENTRY(sdv::IInterfaceAccess)
SDV_INTERFACE_ENTRY(sdv::core::ITaskExecute)
END_SDV_INTERFACE_MAP()
std::atomic_bool m_bEnabled = true;
void Enable(bool bEnable) { m_bEnabled = bEnable; }
virtual void Execute() override
{
if (!m_bEnabled) return;
counter++;
}
uint32_t counter = 0;
};
TEST(TaskSimulationTimerTest, Initialization)
{
sdv::app::CAppControl appcontrol;
bool bResult = appcontrol.Startup("");
EXPECT_TRUE(bResult);
appcontrol.SetConfigMode();
sdv::core::EConfigProcessResult eResult = appcontrol.LoadConfig("test_simulation_tt_config.toml");
EXPECT_EQ(eResult, sdv::core::EConfigProcessResult::successful);
appcontrol.SetRunningMode();
sdv::TInterfaceAccessPtr ptrDispatchService = sdv::core::GetObject("SimulationTaskTimerService");
sdv::core::ITaskTimer* pTimerSvc = ptrDispatchService.GetInterface<sdv::core::ITaskTimer>();
EXPECT_NE(pTimerSvc, nullptr);
appcontrol.Shutdown();
}
TEST(TaskSimulationTimerTest, BasicCounterTestInterface)
{
sdv::app::CAppControl appcontrol;
bool bResult = appcontrol.Startup("");
EXPECT_TRUE(bResult);
appcontrol.SetConfigMode();
sdv::core::EConfigProcessResult eResult = appcontrol.LoadConfig("test_simulation_tt_config.toml");
EXPECT_EQ(eResult, sdv::core::EConfigProcessResult::successful);
CTestTask task;
sdv::core::CTaskTimer timer(3, &task);
EXPECT_TRUE(timer);
appcontrol.SetRunningMode();
// Get the simulation task timer service.
sdv::core::ITimerSimulationStep* pTimerSimulationStep = sdv::core::GetObject<sdv::core::ITimerSimulationStep>("SimulationTaskTimerService");
EXPECT_TRUE(pTimerSimulationStep);
uint32_t expected = 5;
uint32_t expectedAdditional = 11;
uint32_t loop = expected;
while (loop > 0) // 5 x 3 steps = 15 steps ==> 5 executions
{
loop--;
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
}
EXPECT_EQ(expected, task.counter);
loop = expected;
while (loop > 0) // 5 * 7 steps = 35 steps ==> 11 executions, 2 rest
{
loop--;
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
}
EXPECT_EQ(expected + expectedAdditional, task.counter);
pTimerSimulationStep->SimulationStep(1000); // one more step, one more execution
EXPECT_EQ(expected + expectedAdditional + 1, task.counter);
timer.Reset();
appcontrol.Shutdown();
}
TEST(TaskSimulationTimerTest, LargerTaskPeriodTest)
{
sdv::app::CAppControl appcontrol;
bool bResult = appcontrol.Startup("");
EXPECT_TRUE(bResult);
appcontrol.SetConfigMode();
sdv::core::EConfigProcessResult eResult = appcontrol.LoadConfig("test_simulation_tt_config.toml");
EXPECT_EQ(eResult, sdv::core::EConfigProcessResult::successful);
CTestTask task150;
CTestTask task1150;
CTestTask task3100;
sdv::core::CTaskTimer timer150(150, &task150);
sdv::core::CTaskTimer timer1150(1150, &task1150);
sdv::core::CTaskTimer timer3100(3100, &task3100);
EXPECT_TRUE(timer150);
EXPECT_TRUE(timer1150);
EXPECT_TRUE(timer3100);
appcontrol.SetRunningMode();
// Get the simulation task timer service.
sdv::core::ITimerSimulationStep* pTimerSimulationStep = sdv::core::GetObject<sdv::core::ITimerSimulationStep>("SimulationTaskTimerService");
EXPECT_TRUE(pTimerSimulationStep);
uint32_t expected150 = 33;
uint32_t expected1150 = 4;
uint32_t expected3100 = 1;
uint32_t loop = 5000;
while (loop > 0) // 5 x 3 steps = 15 steps ==> 5 executions
{
loop--;
pTimerSimulationStep->SimulationStep(1000);
}
EXPECT_EQ(expected150, task150.counter);
EXPECT_EQ(expected1150, task1150.counter);
EXPECT_EQ(expected3100, task3100.counter);
loop = 7000;
while (loop > 0)
{
loop--;
pTimerSimulationStep->SimulationStep(1000);
}
EXPECT_EQ(expected150 + 47, task150.counter);
EXPECT_EQ(expected1150 + 6, task1150.counter);
EXPECT_EQ(expected3100 + 2, task3100.counter);
timer150.Reset();
timer1150.Reset();
timer3100.Reset();
appcontrol.Shutdown();
}
TEST(TaskSimulationTimerTest, MultipleTimerIdenticalTaskPeriodTest)
{
sdv::app::CAppControl appcontrol;
bool bResult = appcontrol.Startup("");
EXPECT_TRUE(bResult);
appcontrol.SetConfigMode();
sdv::core::EConfigProcessResult eResult = appcontrol.LoadConfig("test_simulation_tt_config.toml");
EXPECT_EQ(eResult, sdv::core::EConfigProcessResult::successful);
CTestTask task1;
CTestTask task2;
CTestTask task3;
sdv::core::CTaskTimer timer1(3, &task1);
sdv::core::CTaskTimer timer2(3, &task2);
sdv::core::CTaskTimer timer3(3, &task3);
EXPECT_TRUE(timer1);
EXPECT_TRUE(timer2);
EXPECT_TRUE(timer3);
appcontrol.SetRunningMode();
// Get the simulation task timer service.
sdv::core::ITimerSimulationStep* pTimerSimulationStep = sdv::core::GetObject<sdv::core::ITimerSimulationStep>("SimulationTaskTimerService");
EXPECT_TRUE(pTimerSimulationStep);
uint32_t expected = 5;
uint32_t expectedAdditional = 11;
uint32_t loop = expected;
while (loop > 0) // 5 x 3 steps = 15 steps ==> 5 executions
{
loop--;
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
}
EXPECT_EQ(expected, task1.counter);
EXPECT_EQ(expected, task2.counter);
EXPECT_EQ(expected, task3.counter);
loop = expected;
while (loop > 0) // 5 * 7 steps = 35 steps ==> 11 executions, 2 rest
{
loop--;
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
}
EXPECT_EQ(expected + expectedAdditional, task1.counter);
EXPECT_EQ(expected + expectedAdditional, task2.counter);
EXPECT_EQ(expected + expectedAdditional, task3.counter);
pTimerSimulationStep->SimulationStep(1000); // one more step, one more execution
EXPECT_EQ(expected + expectedAdditional + 1, task1.counter);
EXPECT_EQ(expected + expectedAdditional + 1, task2.counter);
EXPECT_EQ(expected + expectedAdditional + 1, task3.counter);
timer1.Reset();
timer2.Reset();
timer3.Reset();
appcontrol.Shutdown();
}
TEST(TaskSimulationTimerTest, MultipleTimerDifferentTaskPeriodTest)
{
sdv::app::CAppControl appcontrol;
bool bResult = appcontrol.Startup("");
EXPECT_TRUE(bResult);
appcontrol.SetConfigMode();
sdv::core::EConfigProcessResult eResult = appcontrol.LoadConfig("test_simulation_tt_config.toml");
EXPECT_EQ(eResult, sdv::core::EConfigProcessResult::successful);
CTestTask task2;
CTestTask task3;
CTestTask task4;
sdv::core::CTaskTimer timer2(2, &task2);
sdv::core::CTaskTimer timer3(3, &task3);
sdv::core::CTaskTimer timer4(4, &task4);
EXPECT_TRUE(timer2);
EXPECT_TRUE(timer3);
EXPECT_TRUE(timer4);
appcontrol.SetRunningMode();
// Get the simulation task timer service.
sdv::core::ITimerSimulationStep* pTimerSimulationStep = sdv::core::GetObject<sdv::core::ITimerSimulationStep>("SimulationTaskTimerService");
EXPECT_TRUE(pTimerSimulationStep);
uint32_t expected2 = 7;
uint32_t expected3 = 5;
uint32_t expected4 = 3;
uint32_t expectedAdditional2 = 18;
uint32_t expectedAdditional3 = 11;
uint32_t expectedAdditional4 = 9;
uint32_t loop = 5;
while (loop > 0) // 5 x 3 steps = 15 steps ==> 5 executions
{
loop--;
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
}
EXPECT_EQ(expected2, task2.counter);
EXPECT_EQ(expected3, task3.counter);
EXPECT_EQ(expected4, task4.counter);
loop = 5;
while (loop > 0)
{
loop--;
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
pTimerSimulationStep->SimulationStep(1000);
}
EXPECT_EQ(expected2 + expectedAdditional2, task2.counter);
EXPECT_EQ(expected3 + expectedAdditional3, task3.counter);
EXPECT_EQ(expected4 + expectedAdditional4, task4.counter);
pTimerSimulationStep->SimulationStep(1000);
EXPECT_EQ(expected2 + expectedAdditional2 + 0, task2.counter);
EXPECT_EQ(expected3 + expectedAdditional3 + 1, task3.counter);
EXPECT_EQ(expected4 + expectedAdditional4 + 0, task4.counter);
timer2.Reset();
timer3.Reset();
timer4.Reset();
appcontrol.Shutdown();
}
TEST(TaskSimulationTimerTest, MultipleTimerLargeSimulationStepTest)
{
sdv::app::CAppControl appcontrol;
bool bResult = appcontrol.Startup("");
EXPECT_TRUE(bResult);
appcontrol.SetConfigMode();
sdv::core::EConfigProcessResult eResult = appcontrol.LoadConfig("test_simulation_tt_config.toml");
EXPECT_EQ(eResult, sdv::core::EConfigProcessResult::successful);
CTestTask task1;
CTestTask task150;
CTestTask task450;
sdv::core::CTaskTimer timer1(1, &task1);
sdv::core::CTaskTimer timer150(150, &task150);
sdv::core::CTaskTimer timer450(450, &task450);
EXPECT_TRUE(timer1);
EXPECT_TRUE(timer150);
EXPECT_TRUE(timer450);
appcontrol.SetRunningMode();
// Get the simulation task timer service.
sdv::core::ITimerSimulationStep* pTimerSimulationStep = sdv::core::GetObject<sdv::core::ITimerSimulationStep>("SimulationTaskTimerService");
EXPECT_TRUE(pTimerSimulationStep);
uint32_t expected1 = 480;
uint32_t expected150 = 3;
uint32_t expected450 = 1;
pTimerSimulationStep->SimulationStep(80000);
pTimerSimulationStep->SimulationStep(80000);
pTimerSimulationStep->SimulationStep(80000);
pTimerSimulationStep->SimulationStep(80000);
pTimerSimulationStep->SimulationStep(80000);
pTimerSimulationStep->SimulationStep(80000);
EXPECT_EQ(expected1, task1.counter);
EXPECT_EQ(expected150, task150.counter);
EXPECT_EQ(expected450, task450.counter);
timer1.Reset();
timer150.Reset();
timer450.Reset();
appcontrol.Shutdown();
}
TEST(TaskSimulationTimerTest, MultipleTimerLargeAndDifferentSimulationStepTest)
{
sdv::app::CAppControl appcontrol;
bool bResult = appcontrol.Startup("");
EXPECT_TRUE(bResult);
appcontrol.SetConfigMode();
sdv::core::EConfigProcessResult eResult = appcontrol.LoadConfig("test_simulation_tt_config.toml");
EXPECT_EQ(eResult, sdv::core::EConfigProcessResult::successful);
CTestTask task1;
CTestTask task150;
CTestTask task450;
sdv::core::CTaskTimer timer1(1, &task1);
sdv::core::CTaskTimer timer150(150, &task150);
sdv::core::CTaskTimer timer450(450, &task450);
EXPECT_TRUE(timer1);
EXPECT_TRUE(timer150);
EXPECT_TRUE(timer450);
appcontrol.SetRunningMode();
// Get the simulation task timer service.
sdv::core::ITimerSimulationStep* pTimerSimulationStep = sdv::core::GetObject<sdv::core::ITimerSimulationStep>("SimulationTaskTimerService");
EXPECT_TRUE(pTimerSimulationStep);
uint32_t expected1 = 480;
uint32_t expected150 = 3;
uint32_t expected450 = 1;
pTimerSimulationStep->SimulationStep(67000);
pTimerSimulationStep->SimulationStep(99000);
pTimerSimulationStep->SimulationStep(72000);
pTimerSimulationStep->SimulationStep(64000);
pTimerSimulationStep->SimulationStep(85000);
pTimerSimulationStep->SimulationStep(93000);
EXPECT_EQ(expected1, task1.counter);
EXPECT_EQ(expected150, task150.counter);
EXPECT_EQ(expected450, task450.counter);
timer1.Reset();
timer150.Reset();
timer450.Reset();
appcontrol.Shutdown();
}