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test_gear_detector.cpp
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#include "pch.h"
float GetGearRatioFor(float revPerKm, float axle, float kph, float rpm) {
EngineTestHelper eth(TEST_ENGINE);
engineConfiguration->driveWheelRevPerKm = revPerKm;
engineConfiguration->finalGearRatio = axle;
Sensor::setMockValue(SensorType::VehicleSpeed, kph);
Sensor::setMockValue(SensorType::Rpm, rpm);
GearDetector dut;
dut.onSlowCallback();
return dut.getGearboxRatio();
}
TEST(GearDetector, ComputeGearRatio) {
// real gears from Volvo racecar
EXPECT_NEAR_M3(3.35f, GetGearRatioFor(507, 4.1, 29.45f / 0.6214f, 5500));
EXPECT_NEAR_M3(1.99f, GetGearRatioFor(507, 4.1, 49.57f / 0.6214f, 5500));
EXPECT_NEAR_M3(1.33f, GetGearRatioFor(507, 4.1, 74.18f / 0.6214f, 5500));
EXPECT_NEAR_M3(1.00f, GetGearRatioFor(507, 4.1, 98.65f / 0.6214f, 5500));
EXPECT_NEAR_M3(0.72f, GetGearRatioFor(507, 4.1, 137.02f / 0.6214f, 5500));
// Idling, car stopped, check no div/0
EXPECT_EQ(0, GetGearRatioFor(507, 4.1, 0, 800));
}
TEST(GearDetector, GetRpmInGear) {
EngineTestHelper eth(TEST_ENGINE);
engineConfiguration->driveWheelRevPerKm = 507;
engineConfiguration->finalGearRatio = 4.10f;
// real gears from Volvo racecar
engineConfiguration->totalGearsCount = 5;
engineConfiguration->gearRatio[0] = 3.35f;
engineConfiguration->gearRatio[1] = 1.99f;
engineConfiguration->gearRatio[2] = 1.33f;
engineConfiguration->gearRatio[3] = 1.00f;
engineConfiguration->gearRatio[4] = 0.72f;
GearDetector dut;
Sensor::setMockValue(SensorType::VehicleSpeed, 29.45f / 0.6214f);
EXPECT_NEAR(5500, dut.getRpmInGear(1), 1);
Sensor::setMockValue(SensorType::VehicleSpeed, 49.57f / 0.6214f);
EXPECT_NEAR(5500, dut.getRpmInGear(2), 1);
Sensor::setMockValue(SensorType::VehicleSpeed, 74.18f / 0.6214f);
EXPECT_NEAR(5500, dut.getRpmInGear(3), 1);
Sensor::setMockValue(SensorType::VehicleSpeed, 98.65f / 0.6214f);
EXPECT_NEAR(5500, dut.getRpmInGear(4), 1);
Sensor::setMockValue(SensorType::VehicleSpeed, 137.02f / 0.6214f);
EXPECT_NEAR(5500, dut.getRpmInGear(5), 1);
// Test some invalid cases
EXPECT_FLOAT_EQ(0, dut.getRpmInGear(0));
EXPECT_FLOAT_EQ(0, dut.getRpmInGear(10));
// Zero vehicle speed shouldn't cause a problem
Sensor::setMockValue(SensorType::VehicleSpeed, 0);
EXPECT_FLOAT_EQ(0, dut.getRpmInGear(0));
EXPECT_FLOAT_EQ(0, dut.getRpmInGear(1));
EXPECT_FLOAT_EQ(0, dut.getRpmInGear(5));
EXPECT_FLOAT_EQ(0, dut.getRpmInGear(10));
}
TEST(GearDetector, DetermineGearSingleSpeed) {
EngineTestHelper eth(TEST_ENGINE);
GearDetector dut;
engineConfiguration->totalGearsCount = 1;
engineConfiguration->gearRatio[0] = 2;
dut.onConfigurationChange(nullptr);
// Super high ratios indicate clutch slip or idling in neutral or something
EXPECT_EQ(0, dut.determineGearFromRatio(100));
EXPECT_EQ(0, dut.determineGearFromRatio(4));
// Check exactly on the gear
EXPECT_EQ(1, dut.determineGearFromRatio(2));
// Check near the gear
EXPECT_EQ(1, dut.determineGearFromRatio(2.1));
EXPECT_EQ(1, dut.determineGearFromRatio(1.9));
// Extremely low ratio suggests stopped engine at speed?
EXPECT_EQ(0, dut.determineGearFromRatio(1.0));
}
TEST(GearDetector, DetermineGear5Speed) {
EngineTestHelper eth(TEST_ENGINE);
GearDetector dut;
engineConfiguration->totalGearsCount = 5;
engineConfiguration->gearRatio[0] = 3.35;
engineConfiguration->gearRatio[1] = 1.99;
engineConfiguration->gearRatio[2] = 1.33;
engineConfiguration->gearRatio[3] = 1.00;
engineConfiguration->gearRatio[4] = 0.72;
dut.onConfigurationChange(nullptr);
// Super high ratios indicate clutch slip or idling in neutral or something
EXPECT_EQ(0, dut.determineGearFromRatio(100));
EXPECT_EQ(0, dut.determineGearFromRatio(6));
// Check exactly on gears
EXPECT_EQ(1, dut.determineGearFromRatio(3.35));
EXPECT_EQ(2, dut.determineGearFromRatio(1.99));
EXPECT_EQ(3, dut.determineGearFromRatio(1.33));
EXPECT_EQ(4, dut.determineGearFromRatio(1.00));
EXPECT_EQ(5, dut.determineGearFromRatio(0.72));
// Check near each gear
EXPECT_EQ(1, dut.determineGearFromRatio(3.45));
EXPECT_EQ(1, dut.determineGearFromRatio(3.25));
EXPECT_EQ(2, dut.determineGearFromRatio(2.2));
EXPECT_EQ(2, dut.determineGearFromRatio(1.8));
EXPECT_EQ(3, dut.determineGearFromRatio(1.45));
EXPECT_EQ(3, dut.determineGearFromRatio(1.25));
EXPECT_EQ(4, dut.determineGearFromRatio(1.1));
EXPECT_EQ(4, dut.determineGearFromRatio(0.9));
EXPECT_EQ(5, dut.determineGearFromRatio(0.8));
EXPECT_EQ(5, dut.determineGearFromRatio(0.6));
// Extremely low ratio suggests stopped engine at speed?
EXPECT_EQ(0, dut.determineGearFromRatio(0.1));
}
TEST(GearDetector, DetermineGear8Speed) {
EngineTestHelper eth(TEST_ENGINE);
GearDetector dut;
// ZF 8HP 70
engineConfiguration->totalGearsCount = 8;
engineConfiguration->gearRatio[0] = 4.69;
engineConfiguration->gearRatio[1] = 3.13;
engineConfiguration->gearRatio[2] = 2.10;
engineConfiguration->gearRatio[3] = 1.67;
engineConfiguration->gearRatio[4] = 1.28;
engineConfiguration->gearRatio[5] = 1;
engineConfiguration->gearRatio[6] = 0.84;
engineConfiguration->gearRatio[7] = 0.67;
dut.onConfigurationChange(nullptr);
// Super high ratios indicate clutch slip or idling in neutral or something
EXPECT_EQ(0, dut.determineGearFromRatio(100));
EXPECT_EQ(0, dut.determineGearFromRatio(8));
// Check exactly on gears - only test the ends, the middle works
EXPECT_EQ(1, dut.determineGearFromRatio(4.69));
EXPECT_EQ(2, dut.determineGearFromRatio(3.13));
EXPECT_EQ(7, dut.determineGearFromRatio(0.84));
EXPECT_EQ(8, dut.determineGearFromRatio(0.67));
// Check near each gear - only test the ends, the middle works
EXPECT_EQ(1, dut.determineGearFromRatio(4.75));
EXPECT_EQ(1, dut.determineGearFromRatio(4.3));
EXPECT_EQ(8, dut.determineGearFromRatio(0.71));
EXPECT_EQ(8, dut.determineGearFromRatio(0.6));
// Extremely low ratio suggests stopped engine at speed?
EXPECT_EQ(0, dut.determineGearFromRatio(0.1));
}
TEST(GearDetector, ParameterValidation) {
EngineTestHelper eth(TEST_ENGINE);
GearDetector dut;
// Defaults should work
EXPECT_NO_FATAL_ERROR(dut.onConfigurationChange(nullptr));
// Invalid gear count
engineConfiguration->totalGearsCount = 25;
EXPECT_FATAL_ERROR(dut.onConfigurationChange(nullptr));
// Valid gears
engineConfiguration->totalGearsCount = 2;
engineConfiguration->gearRatio[0] = 3;
engineConfiguration->gearRatio[1] = 2;
EXPECT_NO_FATAL_ERROR(dut.onConfigurationChange(nullptr));
// Invalid gear ratio
engineConfiguration->gearRatio[1] = 0;
EXPECT_FATAL_ERROR(dut.onConfigurationChange(nullptr));
// Out of order gear ratios
engineConfiguration->gearRatio[0] = 2;
engineConfiguration->gearRatio[1] = 3;
EXPECT_FATAL_ERROR(dut.onConfigurationChange(nullptr));
// No gears at all is a valid configuration
engineConfiguration->totalGearsCount = 0;
EXPECT_NO_FATAL_ERROR(dut.onConfigurationChange(nullptr));
}