mirror of https://github.com/rusefi/rusefi.git
better error handling
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rusefi
parent
a0b0af5acc
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52ee60036a
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@ -146,7 +146,7 @@ float AccelEnrichmemnt::getEngineLoadEnrichment(DECLARE_ENGINE_PARAMETER_SIGNATU
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if (distance <= 0) // checking if indexes are out of order due to circular buffer nature
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distance += minI(cb.getCount(), cb.getSize());
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taper = interpolate2d(distance, engineConfiguration->mapAccelTaperBins, engineConfiguration->mapAccelTaperMult, MAP_ACCEL_TAPER);
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taper = interpolate2d("accel", distance, engineConfiguration->mapAccelTaperBins, engineConfiguration->mapAccelTaperMult, MAP_ACCEL_TAPER);
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result = taper * d * engineConfiguration->engineLoadAccelEnrichmentMultiplier;
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} else if (d < -engineConfiguration->engineLoadDecelEnleanmentThreshold) {
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@ -173,7 +173,7 @@ void EngineState::updateSlowSensors(DECLARE_ENGINE_PARAMETER_SIGNATURE) {
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engine->sensors.iat = getIntakeAirTemperature(PASS_ENGINE_PARAMETER_SIGNATURE);
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engine->sensors.clt = getCoolantTemperature(PASS_ENGINE_PARAMETER_SIGNATURE);
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warmupTargetAfr = interpolate2d(engine->sensors.clt, engineConfiguration->warmupTargetAfrBins,
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warmupTargetAfr = interpolate2d("warm", engine->sensors.clt, engineConfiguration->warmupTargetAfrBins,
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engineConfiguration->warmupTargetAfr, WARMUP_TARGET_AFR_SIZE);
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}
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@ -214,7 +214,7 @@ void EngineState::periodicFastCallback(DECLARE_ENGINE_PARAMETER_SIGNATURE) {
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cltTimingCorrection = getCltTimingCorrection(PASS_ENGINE_PARAMETER_SIGNATURE);
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engineNoiseHipLevel = interpolate2d(rpm, engineConfiguration->knockNoiseRpmBins,
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engineNoiseHipLevel = interpolate2d("knock", rpm, engineConfiguration->knockNoiseRpmBins,
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engineConfiguration->knockNoise, ENGINE_NOISE_CURVE_SIZE);
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baroCorrection = getBaroCorrection(PASS_ENGINE_PARAMETER_SIGNATURE);
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@ -254,7 +254,7 @@ void Engine::preCalculate() {
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*/
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for (int i = 0; i < MAF_DECODING_CACHE_SIZE; i++) {
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float volts = i / MAF_DECODING_CACHE_MULT;
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float maf = interpolate2d(volts, config->mafDecodingBins,
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float maf = interpolate2d("maf", volts, config->mafDecodingBins,
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config->mafDecoding, MAF_DECODING_COUNT);
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mafDecodingLookup[i] = maf;
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}
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@ -355,7 +355,7 @@ void Engine::periodicFastCallback(DECLARE_ENGINE_PARAMETER_SIGNATURE) {
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if (isValidRpm(rpm)) {
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MAP_sensor_config_s * c = &engineConfiguration->map;
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angle_t start = interpolate2d(rpm, c->samplingAngleBins, c->samplingAngle, MAP_ANGLE_SIZE);
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angle_t start = interpolate2d("mapa", rpm, c->samplingAngleBins, c->samplingAngle, MAP_ANGLE_SIZE);
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angle_t offsetAngle = TRIGGER_SHAPE(eventAngles[CONFIG(mapAveragingSchedulingAtIndex)]);
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@ -365,7 +365,7 @@ void Engine::periodicFastCallback(DECLARE_ENGINE_PARAMETER_SIGNATURE) {
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fixAngle(cylinderStart, "cylinderStart");
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engine->engineState.mapAveragingStart[i] = cylinderStart;
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}
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engine->engineState.mapAveragingDuration = interpolate2d(rpm, c->samplingWindowBins, c->samplingWindow, MAP_WINDOW_SIZE);
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engine->engineState.mapAveragingDuration = interpolate2d("samp", rpm, c->samplingWindowBins, c->samplingWindow, MAP_WINDOW_SIZE);
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} else {
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for (int i = 0; i < engineConfiguration->specs.cylindersCount; i++) {
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engine->engineState.mapAveragingStart[i] = NAN;
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@ -184,7 +184,7 @@ floatms_t getInjectorLag(float vBatt DECLARE_ENGINE_PARAMETER_SUFFIX) {
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warning(OBD_System_Voltage_Malfunction, "vBatt=%f", vBatt);
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return 0;
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}
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float vBattCorrection = interpolate2d(vBatt, engineConfiguration->injector.battLagCorrBins,
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float vBattCorrection = interpolate2d("lag", vBatt, engineConfiguration->injector.battLagCorrBins,
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engineConfiguration->injector.battLagCorr, VBAT_INJECTOR_CURVE_SIZE);
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return vBattCorrection;
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}
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@ -205,19 +205,19 @@ void prepareFuelMap(DECLARE_ENGINE_PARAMETER_SIGNATURE) {
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float getCltFuelCorrection(DECLARE_ENGINE_PARAMETER_SIGNATURE) {
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if (cisnan(engine->sensors.clt))
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return 1; // this error should be already reported somewhere else, let's just handle it
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return interpolate2d(engine->sensors.clt, config->cltFuelCorrBins, config->cltFuelCorr, CLT_CURVE_SIZE) / PERCENT_MULT;
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return interpolate2d("cltf", engine->sensors.clt, config->cltFuelCorrBins, config->cltFuelCorr, CLT_CURVE_SIZE) / PERCENT_MULT;
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}
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angle_t getCltTimingCorrection(DECLARE_ENGINE_PARAMETER_SIGNATURE) {
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if (cisnan(engine->sensors.clt))
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return 0; // this error should be already reported somewhere else, let's just handle it
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return interpolate2d(engine->sensors.clt, engineConfiguration->cltTimingBins, engineConfiguration->cltTimingExtra, CLT_TIMING_CURVE_SIZE);
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return interpolate2d("timc", engine->sensors.clt, engineConfiguration->cltTimingBins, engineConfiguration->cltTimingExtra, CLT_TIMING_CURVE_SIZE);
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}
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float getIatFuelCorrection(float iat DECLARE_ENGINE_PARAMETER_SUFFIX) {
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if (cisnan(iat))
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return 1; // this error should be already reported somewhere else, let's just handle it
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return interpolate2d(iat, config->iatFuelCorrBins, config->iatFuelCorr, IAT_CURVE_SIZE);
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return interpolate2d("iatc", iat, config->iatFuelCorrBins, config->iatFuelCorr, IAT_CURVE_SIZE);
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}
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/**
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@ -261,13 +261,13 @@ floatms_t getCrankingFuel3(float coolantTemperature,
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float baseCrankingFuel = engineConfiguration->cranking.baseFuel;
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if (cisnan(coolantTemperature)) // todo: move this check down, below duration correction?
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return baseCrankingFuel;
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float durationCoef = interpolate2d(revolutionCounterSinceStart, config->crankingCycleBins,
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float durationCoef = interpolate2d("crank", revolutionCounterSinceStart, config->crankingCycleBins,
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config->crankingCycleCoef, CRANKING_CURVE_SIZE);
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float coolantTempCoef = interpolate2d(coolantTemperature, config->crankingFuelBins,
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float coolantTempCoef = interpolate2d("crank", coolantTemperature, config->crankingFuelBins,
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config->crankingFuelCoef, CRANKING_CURVE_SIZE);
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float tpsCoef = interpolate2d(getTPS(PASS_ENGINE_PARAMETER_SIGNATURE), engineConfiguration->crankingTpsBins,
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float tpsCoef = interpolate2d("crank", getTPS(PASS_ENGINE_PARAMETER_SIGNATURE), engineConfiguration->crankingTpsBins,
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engineConfiguration->crankingTpsCoef, CRANKING_CURVE_SIZE);
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return baseCrankingFuel * durationCoef * coolantTempCoef * tpsCoef;
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@ -210,7 +210,11 @@ int findIndex(const float array[], int size, float value) {
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/**
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* @brief One-dimensional table lookup with linear interpolation
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*/
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float interpolate2d(float value, float bin[], float values[], int size) {
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float interpolate2d(const char *msg, float value, float bin[], float values[], int size) {
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if (isnan(value)) {
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firmwareError(CUSTOM_ERR_6533, "NaN in interpolate2d %s", msg);
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return NAN;
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}
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int index = findIndexMsg("value", bin, size, value);
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if (index == -1)
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@ -25,7 +25,7 @@ int findIndexMsg(const char *msg, const float array[], int size, float value);
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int findIndex2(const float array[], unsigned size, float value);
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float interpolate(float x1, float y1, float x2, float y2, float x);
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float interpolateMsg(const char *msg, float x1, float y1, float x2, float y2, float x);
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float interpolate2d(float value, float bin[], float values[], int size);
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float interpolate2d(const char *msg, float value, float bin[], float values[], int size);
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int needInterpolationLogging(void);
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@ -207,7 +207,7 @@ static msg_t ivThread(int param) {
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finishIdleTestIfNeeded();
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undoIdleBlipIfNeeded();
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float cltCorrection = interpolate2d(engine->sensors.clt, config->cltIdleCorrBins, config->cltIdleCorr,
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float cltCorrection = interpolate2d("cltT", engine->sensors.clt, config->cltIdleCorrBins, config->cltIdleCorr,
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CLT_CURVE_SIZE) / PERCENT_MULT;
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float iacPosition;
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@ -241,7 +241,7 @@ floatms_t getSparkDwell(int rpm DECLARE_ENGINE_PARAMETER_SUFFIX) {
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} else {
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efiAssert(!cisnan(rpm), "invalid rpm", NAN);
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dwellMs = interpolate2d(rpm, engineConfiguration->sparkDwellRpmBins, engineConfiguration->sparkDwellValues, DWELL_CURVE_SIZE);
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dwellMs = interpolate2d("dwell", rpm, engineConfiguration->sparkDwellRpmBins, engineConfiguration->sparkDwellValues, DWELL_CURVE_SIZE);
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}
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if (cisnan(dwellMs) || dwellMs <= 0) {
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@ -81,19 +81,19 @@ void testInterpolate2d(void) {
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int result;
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printf("Left size\r\n");
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result = interpolate2d(0, bins4, values4, size);
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result = interpolate2d("t", 0, bins4, values4, size);
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assertEquals(1, result);
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printf("Right size\r\n");
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result = interpolate2d(10, bins4, values4, size);
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result = interpolate2d("t", 10, bins4, values4, size);
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assertEquals(400, result);
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printf("Middle1\r\n");
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result = interpolate2d(3, bins4, values4, size);
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result = interpolate2d("t", 3, bins4, values4, size);
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assertEquals(30, result);
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printf("Middle1\r\n");
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result = interpolate2d(3.5, bins4, values4, size);
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result = interpolate2d("t", 3.5, bins4, values4, size);
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assertEquals(215, result);
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}
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