Ejemplos de getInjection_mode_e en C++ (Cpp)

Lenguaje de programación: C++ (Cpp)

Método / Función: getInjection_mode_e

Ejemplos en hotexamples.com: 2

C++ (Cpp) getInjection_mode_e - 2 ejemplos encontrados. Estos son los ejemplos en C++ (Cpp) del mundo real mejor valorados de getInjection_mode_e extraídos de proyectos de código abierto. Puedes valorar ejemplos para ayudarnos a mejorar la calidad de los ejemplos.

Ejemplo n.º 1

Mostrar archivo

Archivo: settings.cpp Proyecto: jon-weisz/rusefi

/**
 * @brief	Prints current engine configuration to human-readable console.
 */
void printConfiguration(engine_configuration_s *engineConfiguration) {

	scheduleMsg(&logger, "Template %s/%d trigger %s/%s/%d", getConfigurationName(engineConfiguration->engineType),
			engineConfiguration->engineType, getTrigger_type_e(engineConfiguration->trigger.type),
			getEngine_load_mode_e(engineConfiguration->algorithm), engineConfiguration->algorithm);


	scheduleMsg(&logger, "configurationVersion=%d", getGlobalConfigurationVersion());

	for (int k = 0; k < FUEL_LOAD_COUNT; k++) {
//		print("line %d (%f): ", k, engineConfiguration->fuelKeyBins[k]);
//		for (int r = 0; r < FUEL_RPM_COUNT; r++) {
//			print("%f ", engineConfiguration->fuelTable[k][r]);
//		}
//		print("\r\n");
	}

//	printFloatArray("RPM bin: ", config->fuelRpmBins, FUEL_RPM_COUNT);
//
//	printFloatArray("Y bin: ", config->fuelLoadBins, FUEL_LOAD_COUNT);
//
//	printFloatArray("CLT: ", config->cltFuelCorr, CLT_CURVE_SIZE);
//	printFloatArray("CLT bins: ", config->cltFuelCorrBins, CLT_CURVE_SIZE);
//
//	printFloatArray("IAT: ", config->iatFuelCorr, IAT_CURVE_SIZE);
//	printFloatArray("IAT bins: ", config->iatFuelCorrBins, IAT_CURVE_SIZE);
//
//	printFloatArray("vBatt: ", engineConfiguration->injector.battLagCorr, VBAT_INJECTOR_CURVE_SIZE);
//	printFloatArray("vBatt bins: ", engineConfiguration->injector.battLagCorrBins, VBAT_INJECTOR_CURVE_SIZE);

	scheduleMsg(&logger, "rpmHardLimit: %d/operationMode=%d", engineConfiguration->rpmHardLimit,
			engineConfiguration->operationMode);

	scheduleMsg(&logger, "globalTriggerAngleOffset=%f", engineConfiguration->globalTriggerAngleOffset);

	scheduleMsg(&logger, "=== cranking ===");
	scheduleMsg(&logger, "crankingRpm: %d", engineConfiguration->cranking.rpm);
	scheduleMsg(&logger, "cranking injection %s", getInjection_mode_e(engineConfiguration->crankingInjectionMode));

	if (engineConfiguration->useConstantDwellDuringCranking) {
		scheduleMsg(&logger, "ignitionDwellForCrankingMs=%f", engineConfiguration->ignitionDwellForCrankingMs);
	} else {
		scheduleMsg(&logger, "cranking charge charge angle=%f fire at %f", engineConfiguration->crankingChargeAngle,
				engineConfiguration->crankingTimingAngle);
	}

	scheduleMsg(&logger, "=== ignition ===");

	scheduleMsg(&logger, "ignitionMode: %s/enabled=%s", getIgnition_mode_e(engineConfiguration->ignitionMode),
			boolToString(engineConfiguration->isIgnitionEnabled));
	scheduleMsg(&logger, "timingMode: %s", getTiming_mode_e(engineConfiguration->timingMode));
	if (engineConfiguration->timingMode == TM_FIXED) {
		scheduleMsg(&logger, "fixedModeTiming: %d", (int) engineConfiguration->fixedModeTiming);
	}
	scheduleMsg(&logger, "ignitionOffset=%f", engineConfiguration->ignitionOffset);

	scheduleMsg(&logger, "=== injection ===");
	scheduleMsg(&logger, "injection %s offset=%f/enabled=%s", getInjection_mode_e(engineConfiguration->injectionMode),
			(double) engineConfiguration->injectionOffset, boolToString(engineConfiguration->isInjectionEnabled));

	printOutputs(engineConfiguration);

	scheduleMsg(&logger, "map_avg=%s/mil=%s/fp=%s/ts=%s/wa=%s/it=%s/fastAdc=%s",
			boolToString(engineConfiguration->isMapAveragingEnabled), boolToString(engineConfiguration->isMilEnabled),
			boolToString(engineConfiguration->isFuelPumpEnabled),
			boolToString(engineConfiguration->isTunerStudioEnabled),
			boolToString(engineConfiguration->isWaveAnalyzerEnabled),
			boolToString(engineConfiguration->isIdleThreadEnabled), boolToString(boardConfiguration->isFastAdcEnabled));

	scheduleMsg(&logger, "isManualSpinningMode=%s/isCylinderCleanupEnabled=%s",
			boolToString(engineConfiguration->isManualSpinningMode),
			boolToString(engineConfiguration->isCylinderCleanupEnabled));

	scheduleMsg(&logger, "clutchUp@%s: %s", hwPortname(boardConfiguration->clutchUpPin),
			boolToString(engine->clutchUpState));
	scheduleMsg(&logger, "clutchDown@%s: %s", hwPortname(boardConfiguration->clutchDownPin),
			boolToString(engine->clutchDownState));

	scheduleMsg(&logger, "boardTestModeJumperPin: %s/nesting=%d",
			hwPortname(boardConfiguration->boardTestModeJumperPin), maxNesting);

	scheduleMsg(&logger, "digitalPotentiometerSpiDevice %d", boardConfiguration->digitalPotentiometerSpiDevice);

	for (int i = 0; i < DIGIPOT_COUNT; i++) {
		scheduleMsg(&logger, "digitalPotentiometer CS%d %s", i,
				hwPortname(boardConfiguration->digitalPotentiometerChipSelect[i]));
	}
#if EFI_PROD_CODE

	printSpiState(&logger, boardConfiguration);

#endif /* EFI_PROD_CODE */
}

Ejemplo n.º 2

Mostrar archivo

Archivo: lcd_controller.cpp Proyecto: owenanthonyj/rusefi

static void showLine(lcd_line_e line, int screenY) {
	static char buffer[10];

	switch (line) {
	case LL_VERSION:
		lcdPrintf("version %s", VCS_VERSION);
		return;
	case LL_CONFIG:
		lcdPrintf("config %s", getConfigurationName(engineConfiguration->engineType));
		return;
	case LL_RPM:
		lcdPrintf("RPM %d", getRpmE(engine));
		{
			char sdState;
			if (boardConfiguration->isSdCardEnabled) {
				sdState = isSdCardAlive() ? 'L' : 'n';
			} else {
				sdState = 'D';
			}
			int seconds = getTimeNowSeconds();
			if (seconds < 10000) {
				lcdPrintf("  %d%c", seconds, sdState);
			}
		}
		return;
	case LL_CLT_TEMPERATURE:
		lcdPrintf("Coolant %f", getCoolantTemperature(PASS_ENGINE_PARAMETER_F));
		return;
	case LL_IAT_TEMPERATURE:
		lcdPrintf("Intake Air %f", getIntakeAirTemperature(PASS_ENGINE_PARAMETER_F));
		return;
	case LL_ALGORITHM:
		lcdPrintf(getEngine_load_mode_e(engineConfiguration->algorithm));
		return;
	case LL_INJECTION:
		lcdPrintf(getInjection_mode_e(engineConfiguration->injectionMode));
		return;
	case LL_ING_FLOW:
		lcdPrintf("Inj %fcc", engineConfiguration->injector.flow);
		return;
	case LL_IGNITION:
		lcdPrintf(getIgnition_mode_e(engineConfiguration->ignitionMode));
		return;
	case LL_TPS:
		getPinNameByAdcChannel(engineConfiguration->tpsAdcChannel, buffer);

		lcdPrintf("Throttle %s %f%%", buffer, getTPS());
		return;
	case LL_VBATT:
		lcdPrintf("Battery %fv", getVBatt(PASS_ENGINE_PARAMETER_F));
		return;
	case LL_KNOCK:
		getPinNameByAdcChannel(engineConfiguration->hipOutputChannel, buffer);
		lcdPrintf("Knock %s %fv", buffer, engine->knockVolts);
		return;

#if	EFI_ANALOG_SENSORS || defined(__DOXYGEN__)
	case LL_BARO:
		if (hasBaroSensor()) {
			lcdPrintf("Baro: %f", getBaroPressure());
		} else {
			lcdPrintf("Baro: none");
		}
		return;
#endif
	case LL_AFR:
		if (engineConfiguration->hasAfrSensor) {
			lcdPrintf("AFR: %f", getAfr());
		} else {
			lcdPrintf("AFR: none");
		}
		return;
	case LL_MAP:
		if (engineConfiguration->hasMapSensor) {
			lcdPrintf("MAP %f", getMap());
		} else {
			lcdPrintf("MAP: none");
		}
		return;
	case LL_MAF_V:
		if (hasMafSensor()) {
			lcdPrintf("MAF: %fv", getMaf());
		} else {
			lcdPrintf("MAF: none");
		}
		return;
	case LL_MAF_KG_HR:
		if (hasMafSensor()) {
			lcdPrintf("MAF: %f kg/hr", getRealMaf());
		} else {
			lcdPrintf("MAF: none");
		}
		return;
	case LL_TRIGGER_ERRORS:
		lcdPrintf("Errors");
		return;
	case LL_TRIGGER_DUTY:
		lcdPrintf("Duty");
		return;
	default:
		lcdPrintf("()");
	}
}