mirror of https://github.com/rusefi/rusefi.git
202 lines
6.2 KiB
C++
202 lines
6.2 KiB
C++
/*
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* @file test_fuelCut.cpp
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*
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* @date Mar 22, 2018
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* @author Andrey Belomutskiy, (c) 2012-2020
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*/
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#include "pch.h"
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#include "event_queue.h"
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using ::testing::_;
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// Define some helpers for not-cut and cut
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#define EXPECT_NORMAL() EXPECT_FLOAT_EQ(normalInjDuration, engine->engineState.injectionDuration)
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#define EXPECT_CUT() EXPECT_FLOAT_EQ(0, engine->engineState.injectionDuration)
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TEST(fuelCut, coasting) {
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EngineTestHelper eth(engine_type_e::TEST_ENGINE);
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EXPECT_CALL(*eth.mockAirmass, getAirmass(_, _))
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.WillRepeatedly(Return(AirmassResult{0.1008f, 50.0f}));
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// configure coastingFuelCut
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engineConfiguration->coastingFuelCutEnabled = true;
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engineConfiguration->coastingFuelCutRpmLow = 1300;
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engineConfiguration->coastingFuelCutRpmHigh = 1500;
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engineConfiguration->coastingFuelCutTps = 2;
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engineConfiguration->coastingFuelCutClt = 30;
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engineConfiguration->coastingFuelCutMap = 100;
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// set cranking threshold
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engineConfiguration->cranking.rpm = 999;
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// basic engine setup
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setupSimpleTestEngineWithMafAndTT_ONE_trigger(ð);
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Sensor::setMockValue(SensorType::Map, 0);
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// mock CLT - just above threshold ('hot engine')
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float hotClt = engineConfiguration->coastingFuelCutClt + 1;
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Sensor::setMockValue(SensorType::Clt, hotClt);
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// mock TPS - throttle is opened
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Sensor::setMockValue(SensorType::DriverThrottleIntent, 60);
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// set 'running' RPM - just above RpmHigh threshold
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Sensor::setMockValue(SensorType::Rpm, engineConfiguration->coastingFuelCutRpmHigh + 1);
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// 'advance' time (amount doesn't matter)
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eth.moveTimeForwardUs(1000);
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const float normalInjDuration = 1.5f;
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/*
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* We need to pass through all rpm changes (high-mid-low-mid-high) because of state-machine
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*/
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// process
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eth.engine.periodicFastCallback();
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// this is normal injection mode (the throttle is opened), no fuel cut-off
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EXPECT_NORMAL();
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// 'releasing' the throttle
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Sensor::setMockValue(SensorType::DriverThrottleIntent, 0);
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eth.engine.periodicFastCallback();
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// Fuel cut-off is enabled now
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EXPECT_CUT();
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// Now drop the CLT below threshold
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Sensor::setMockValue(SensorType::Clt, engineConfiguration->coastingFuelCutClt - 1);
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eth.engine.periodicFastCallback();
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// Fuel cut-off should be diactivated - the engine is 'cold'
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EXPECT_NORMAL();
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// restore CLT
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Sensor::setMockValue(SensorType::Clt, hotClt);
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// And set RPM - somewhere between RpmHigh and RpmLow threshold
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Sensor::setMockValue(SensorType::Rpm, (engineConfiguration->coastingFuelCutRpmHigh + engineConfiguration->coastingFuelCutRpmLow) / 2);
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eth.engine.periodicFastCallback();
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// Fuel cut-off is enabled - nothing should change
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EXPECT_NORMAL();
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// Now drop RPM just below RpmLow threshold
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Sensor::setMockValue(SensorType::Rpm, engineConfiguration->coastingFuelCutRpmLow - 1);
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eth.engine.periodicFastCallback();
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// Fuel cut-off is now disabled (the engine is idling)
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EXPECT_NORMAL();
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// Now change RPM just below RpmHigh threshold
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Sensor::setMockValue(SensorType::Rpm, engineConfiguration->coastingFuelCutRpmHigh - 1);
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eth.engine.periodicFastCallback();
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// Fuel cut-off is still disabled
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EXPECT_NORMAL();
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// Now set RPM just above RpmHigh threshold
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Sensor::setMockValue(SensorType::Rpm, engineConfiguration->coastingFuelCutRpmHigh + 1);
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eth.engine.periodicFastCallback();
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// Fuel cut-off is active again!
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EXPECT_CUT();
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// Configure vehicle speed thresholds
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engineConfiguration->coastingFuelCutVssHigh = 50;
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engineConfiguration->coastingFuelCutVssLow = 40;
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// High speed, should still be cut.
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Sensor::setMockValue(SensorType::VehicleSpeed, 55);
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eth.engine.periodicFastCallback();
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EXPECT_CUT();
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// Between thresholds, still cut.
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Sensor::setMockValue(SensorType::VehicleSpeed, 45);
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eth.engine.periodicFastCallback();
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EXPECT_CUT();
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// Below lower threshold, normal fuel resumes
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Sensor::setMockValue(SensorType::VehicleSpeed, 35);
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eth.engine.periodicFastCallback();
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EXPECT_NORMAL();
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// Between thresholds, still normal.
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Sensor::setMockValue(SensorType::VehicleSpeed, 45);
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eth.engine.periodicFastCallback();
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EXPECT_NORMAL();
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// Back above upper, cut again.
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Sensor::setMockValue(SensorType::VehicleSpeed, 55);
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eth.engine.periodicFastCallback();
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EXPECT_CUT();
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}
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TEST(fuelCut, delay) {
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EngineTestHelper eth(engine_type_e::TEST_ENGINE);
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EXPECT_CALL(*eth.mockAirmass, getAirmass(_, _))
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.WillRepeatedly(Return(AirmassResult{0.1008f, 50.0f}));
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// configure coastingFuelCut
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engineConfiguration->coastingFuelCutEnabled = true;
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engineConfiguration->coastingFuelCutRpmLow = 1300;
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engineConfiguration->coastingFuelCutRpmHigh = 1500;
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engineConfiguration->coastingFuelCutTps = 2;
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engineConfiguration->coastingFuelCutClt = 30;
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engineConfiguration->coastingFuelCutMap = 100;
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// set cranking threshold
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engineConfiguration->cranking.rpm = 999;
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// delay is 1 second
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engineConfiguration->dfcoDelay = 1.0f;
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// basic engine setup
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setupSimpleTestEngineWithMafAndTT_ONE_trigger(ð);
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Sensor::setMockValue(SensorType::Map, 0);
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// mock CLT - just above threshold ('hot engine')
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float hotClt = engineConfiguration->coastingFuelCutClt + 1;
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Sensor::setMockValue(SensorType::Clt, hotClt);
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// mock TPS - throttle is opened
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Sensor::setMockValue(SensorType::DriverThrottleIntent, 60);
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// set 'running' RPM - just above RpmHigh threshold
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Sensor::setMockValue(SensorType::Rpm, engineConfiguration->coastingFuelCutRpmHigh + 1);
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// 'advance' time (amount doesn't matter)
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eth.moveTimeForwardUs(1000);
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const float normalInjDuration = 1.5f;
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setTimeNowUs(1e6);
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// process
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eth.engine.periodicFastCallback();
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// this is normal injection mode (the throttle is opened), no fuel cut-off
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EXPECT_NORMAL();
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// 'releasing' the throttle
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Sensor::setMockValue(SensorType::DriverThrottleIntent, 0);
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eth.engine.periodicFastCallback();
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// Shouldn't cut yet, since not enough time has elapsed
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EXPECT_NORMAL();
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// Change nothing else, but advance time and update again
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advanceTimeUs(0.9e6);
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eth.engine.periodicFastCallback();
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// too soon, still no cut
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EXPECT_NORMAL();
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// Change nothing else, but advance time and update again
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advanceTimeUs(0.2e6);
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eth.engine.periodicFastCallback();
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// Should now be cut!
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EXPECT_CUT();
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// Put the throtle back, and it should come back instantly
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Sensor::setMockValue(SensorType::DriverThrottleIntent, 30);
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eth.engine.periodicFastCallback();
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EXPECT_NORMAL();
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}
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