Ejemplo n.º 1
0
TemperatureStatus DomainTemperature_002::getTemperatureStatus(UIntN participantIndex, UIntN domainIndex)
{
    try
    {
        Temperature temperature = getParticipantServices()->primitiveExecuteGetAsTemperatureTenthK(
            esif_primitive_type::GET_TEMPERATURE, domainIndex);

        if (!temperature.isValid())
        {
            getParticipantServices()->writeMessageWarning(
                ParticipantMessage(FLF, "Last set temperature for virtual sensor is invalid."));
            return TemperatureStatus(Temperature::minValidTemperature);
        }

        return TemperatureStatus(temperature);
    }
    catch (primitive_destination_unavailable)
    {
        return TemperatureStatus(Temperature::minValidTemperature);
    }
    catch (dptf_exception& ex)
    {
        getParticipantServices()->writeMessageWarning(ParticipantMessage(FLF, ex.what()));
        return TemperatureStatus(Temperature::minValidTemperature);
    }
}
Ejemplo n.º 2
0
void Temperature::throwIfInvalid(const Temperature& temperature) const
{
    if (temperature.isValid() == false)
    {
        throw temperature_out_of_range("Temperature is not valid.");
    }
}
Ejemplo n.º 3
0
Bool Temperature::operator==(const Temperature& rhs) const
{
    // Do not throw an exception if temperature is not valid.

    if (this->isValid() == true && rhs.isValid() == true)
    {
        return (this->m_temperature == rhs.m_temperature);
    }
    else if (this->isValid() == false && rhs.isValid() == false)
    {
        return true;
    }
    else
    {
        return false;
    }
}
Ejemplo n.º 4
0
Temperature Temperature::snapWithinAllowableTripPointRange(Temperature aux)
{
    if ((UInt32)aux != Constants::MaxUInt32)
    {
        Temperature minAux = fromCelsius(ESIF_SDK_MIN_AUX_TRIP);
        if (aux.isValid() && aux < minAux)
        {
            aux = minAux;
        }

        Temperature maxAux = fromCelsius(ESIF_SDK_MAX_AUX_TRIP);
        if (aux.isValid() && aux > maxAux)
        {
            aux = maxAux;
        }
    }

    return aux;
}
Ejemplo n.º 5
0
int main(void)
{
	sei();
	Clock::start();

	TWI::init();
	TWI::write(0x40, 255);

	max6675::SPI::start();

	SerialPort<9600> com;

	Led::SetDirWrite();

	com << "Starting on 9600" << endl;

	RadiatorCascade radiatorCascade;
	BoilerCascade boilerCascade;
	const uint8_t MaxAddrs = 16;
	OneWire::Addr addrs[MaxAddrs];
	uint16_t fails = 0;
	for(;;)
	{

		Clock::clock_t startTime = Clock::millis();

		com << "Search ";
		uint8_t count = 0;
		OneWire::Search<Wire> search;
		{
			LedOn<Led> l;
			do {
				addrs[count++] = search();
			} while (!search.isDone() && count < MaxAddrs);
		}
		if (search.isFail())
		{
			com << "failed on " << int(count) << ": " << search.error();
			search.errorDetail(com) <<  endl;
			fails++;
		} else {
			com << int(count) << endl;
			fails = 0;
		}

		if (!Wire::reset())
		{
			com << "Reset failed" << endl;
			fails++;
			continue;
		}

		{
			LedOn<Led> l;
			Wire::skip();
			DS1820::convert();
			com << "Radiator " << radiatorCascade << endl;
			com << "Boiler   " << boilerCascade << endl;
			DS1820::wait();
		}

		for (int i = 0; i < count; ++i)
		{
			Led::Set();
			Temperature t = DS1820::read(addrs[i]);
			Led::Clear();

			if (t.isValid()) {
				radiatorCascade.processSensor(addrs[i], t.get());
				boilerCascade.processSensor(addrs[i], t.get());

				com << "Temp: " << addrs[i] << '=' << t << endl;
			} else {
				com << "Fail  " << addrs[i] << endl;
				fails++;
			}
		}

		{
			Temperature t = max6675::temperature();
			if (t.isValid()) {
				boilerCascade.processTC(t.get());
				com << "Temp: TC=" << t << endl;
			} else {
				com << "Fail  TC" << endl;
				fails++;
			}
		}
		com << "Temp: fails=" << fails << endl;

		if (!radiatorCascade.step())
			com << "Radiator Cascade fail" << endl;
		if (!boilerCascade.step())
			com << "Boiler Cascade fail" << endl;

		//Clock::clock_t regStart = Clock::millis();
		int16_t rDelay = radiatorCascade.getAbsOutput();
		int16_t bDelay = boilerCascade.getAbsOutput();

		TWI::write(0x40, ~Data::data);
		if (rDelay > 0 || bDelay > 0) {
			if (rDelay < bDelay) {
				delay_ms(rDelay);
				RadiatorCascade::action_t::stop();
				TWI::write(0x40, ~Data::data);
				delay_ms(bDelay - rDelay);
				BoilerCascade::action_t::stop();
				TWI::write(0x40, ~Data::data);
			} else {
				delay_ms(bDelay);
				BoilerCascade::action_t::stop();
				TWI::write(0x40, ~Data::data);
				delay_ms(rDelay - bDelay);
				RadiatorCascade::action_t::stop();
				TWI::write(0x40, ~Data::data);
			}
		}
		Clock::clock_t regStop = Clock::millis();
		com << "cycle time " << regStop - startTime << endl;
		if (cycleTime > (regStop - startTime))
			delay_ms(cycleTime - (regStop - startTime));
	}
}