Quantity MasslessOpaqueMaterial_Impl::getSpecificHeat(bool returnIP) const { OptionalDouble value = specificHeat(); OSOptionalQuantity result = getQuantityFromDouble(OS_MaterialFields::SpecificHeat, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
OSOptionalQuantity AirGap_Impl::getThermalResistance(bool returnIP) const { double value = thermalResistance(); return getQuantityFromDouble(OS_Material_AirGapFields::ThermalResistance, value, returnIP); }
Quantity AvailabilityManagerNightCycle_Impl::getThermostatTolerance(bool returnIP) const { OptionalDouble value = thermostatTolerance(); OSOptionalQuantity result = getQuantityFromDouble(OS_AvailabilityManager_NightCycleFields::ThermostatTolerance, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity DesignSpecificationZoneAirDistribution_Impl::getZoneAirDistributionEffectivenessinCoolingMode(bool returnIP) const { OptionalDouble value = zoneAirDistributionEffectivenessinCoolingMode(); OSOptionalQuantity result = getQuantityFromDouble(OS_DesignSpecification_ZoneAirDistributionFields::ZoneAirDistributionEffectivenessinCoolingMode, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity SizingPlant_Impl::getDesignLoopExitTemperature(bool returnIP) const { OptionalDouble value = designLoopExitTemperature(); OSOptionalQuantity result = getQuantityFromDouble(OS_Sizing_PlantFields::DesignLoopExitTemperature, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity DistrictCooling_Impl::getNominalCapacity(bool returnIP) const { OptionalDouble value = nominalCapacity(); OSOptionalQuantity result = getQuantityFromDouble(OS_DistrictCoolingFields::NominalCapacity, value, returnIP); BOOST_ASSERT(result.isSet()); return result.get(); }
Quantity HeatBalanceAlgorithm_Impl::getMaximumSurfaceConvectionHeatTransferCoefficientValue(bool returnIP) const { OptionalDouble value = maximumSurfaceConvectionHeatTransferCoefficientValue(); OSOptionalQuantity result = getQuantityFromDouble(OS_HeatBalanceAlgorithmFields::MaximumSurfaceConvectionHeatTransferCoefficientValue, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity RefractionExtinctionGlazing_Impl::getSolarIndexofRefraction(bool returnIP) const { OptionalDouble value = solarIndexofRefraction(); OSOptionalQuantity result = getQuantityFromDouble(OS_WindowMaterial_Glazing_RefractionExtinctionMethodFields::SolarIndexofRefraction, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity ZoneHVACBaseboardConvectiveElectric_Impl::getEfficiency(bool returnIP) const { OptionalDouble value = efficiency(); OSOptionalQuantity result = getQuantityFromDouble(OS_ZoneHVAC_Baseboard_Convective_ElectricFields::Efficiency, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity RefractionExtinctionGlazing_Impl::getDirtCorrectionFactorforSolarandVisibleTransmittance(bool returnIP) const { OptionalDouble value = dirtCorrectionFactorforSolarandVisibleTransmittance(); OSOptionalQuantity result = getQuantityFromDouble(OS_WindowMaterial_Glazing_RefractionExtinctionMethodFields::DirtCorrectionFactorforSolarandVisibleTransmittance, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity RefractionExtinctionGlazing_Impl::getThickness(bool returnIP) const { OptionalDouble value = thickness(); OSOptionalQuantity result = getQuantityFromDouble(OS_WindowMaterial_Glazing_RefractionExtinctionMethodFields::Thickness, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity RefractionExtinctionGlazing_Impl::getInfraredHemisphericalEmissivity(bool returnIP) const { OptionalDouble value = infraredHemisphericalEmissivity(); OSOptionalQuantity result = getQuantityFromDouble(OS_WindowMaterial_Glazing_RefractionExtinctionMethodFields::InfraredHemisphericalEmissivity, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity RefractionExtinctionGlazing_Impl::getInfraredTransmittanceatNormalIncidence(bool returnIP) const { OptionalDouble value = infraredTransmittanceatNormalIncidence(); OSOptionalQuantity result = getQuantityFromDouble(OS_WindowMaterial_Glazing_RefractionExtinctionMethodFields::InfraredTransmittanceatNormalIncidence, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity RefractionExtinctionGlazing_Impl::getVisibleExtinctionCoefficient(bool returnIP) const { OptionalDouble value = visibleExtinctionCoefficient(); OSOptionalQuantity result = getQuantityFromDouble(OS_WindowMaterial_Glazing_RefractionExtinctionMethodFields::VisibleExtinctionCoefficient, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
OSOptionalQuantity BoilerSteam_Impl::getTheoreticalEfficiency(bool returnIP) const { OptionalDouble value = theoreticalEfficiency(); return getQuantityFromDouble(OS_Boiler_SteamFields::TheoreticalEfficiency, value, returnIP); }
OSOptionalQuantity ZoneHVACBaseboardConvectiveElectric_Impl::getNominalCapacity(bool returnIP) const { OptionalDouble value = nominalCapacity(); return getQuantityFromDouble(OS_ZoneHVAC_Baseboard_Convective_ElectricFields::NominalCapacity, value, returnIP); }
OSOptionalQuantity BoilerSteam_Impl::getDesignOutletSteamTemperature(bool returnIP) const { OptionalDouble value = designOutletSteamTemperature(); return getQuantityFromDouble(OS_Boiler_SteamFields::DesignOutletSteamTemperature, value, returnIP); }
Quantity OutputControlReportingTolerances_Impl::getToleranceforTimeHeatingSetpointNotMet(bool returnIP) const { OptionalDouble value = toleranceforTimeHeatingSetpointNotMet(); OSOptionalQuantity result = getQuantityFromDouble(OS_OutputControl_ReportingTolerancesFields::ToleranceforTimeHeatingSetpointNotMet, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity HeatBalanceAlgorithm_Impl::getSurfaceTemperatureUpperLimit(bool returnIP) const { OptionalDouble value = surfaceTemperatureUpperLimit(); OSOptionalQuantity result = getQuantityFromDouble(OS_HeatBalanceAlgorithmFields::SurfaceTemperatureUpperLimit, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
OSOptionalQuantity BoilerSteam_Impl::getNominalCapacity(bool returnIP) const { OptionalDouble value = nominalCapacity(); return getQuantityFromDouble(OS_Boiler_SteamFields::NominalCapacity, value, returnIP); }
Quantity DesignSpecificationZoneAirDistribution_Impl::getZoneSecondaryRecirculationFraction(bool returnIP) const { OptionalDouble value = zoneSecondaryRecirculationFraction(); OSOptionalQuantity result = getQuantityFromDouble(OS_DesignSpecification_ZoneAirDistributionFields::ZoneSecondaryRecirculationFraction, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
OSOptionalQuantity BoilerSteam_Impl::getOptimumPartLoadRatio(bool returnIP) const { OptionalDouble value = optimumPartLoadRatio(); return getQuantityFromDouble(OS_Boiler_SteamFields::OptimumPartLoadRatio, value, returnIP); }
Quantity SizingPlant_Impl::getLoopDesignTemperatureDifference(bool returnIP) const { OptionalDouble value = loopDesignTemperatureDifference(); OSOptionalQuantity result = getQuantityFromDouble(OS_Sizing_PlantFields::LoopDesignTemperatureDifference, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
OSOptionalQuantity BoilerSteam_Impl::getCoefficient3ofFuelUseFunctionofPartLoadRatioCurve(bool returnIP) const { OptionalDouble value = coefficient3ofFuelUseFunctionofPartLoadRatioCurve(); return getQuantityFromDouble(OS_Boiler_SteamFields::Coefficient3ofFuelUseFunctionofPartLoadRatioCurve, value, returnIP); }
OSOptionalQuantity FanConstantVolume_Impl::getMaximumFlowRate(bool returnIP) const { OptionalDouble value = maximumFlowRate(); return getQuantityFromDouble(OS_Fan_ConstantVolumeFields::MaximumFlowRate, value, returnIP); }
Quantity BoilerSteam_Impl::getSizingFactor(bool returnIP) const { OptionalDouble value = sizingFactor(); OSOptionalQuantity result = getQuantityFromDouble(OS_Boiler_SteamFields::SizingFactor, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity AvailabilityManagerNightCycle_Impl::getCyclingRunTime(bool returnIP) const { OptionalDouble value = cyclingRunTime(); OSOptionalQuantity result = getQuantityFromDouble(OS_AvailabilityManager_NightCycleFields::CyclingRunTime, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
OSOptionalQuantity BoilerSteam_Impl::getMaximumOperatingPressure(bool returnIP) const { OptionalDouble value = maximumOperatingPressure(); return getQuantityFromDouble(OS_Boiler_SteamFields::MaximumOperatingPressure, value, returnIP); }
Quantity ZoneCapacitanceMultiplierResearchSpecial_Impl::getTemperatureCapacityMultiplier(bool returnIP) const { OptionalDouble value = temperatureCapacityMultiplier(); OSOptionalQuantity result = getQuantityFromDouble(OS_ZoneCapacitanceMultiplier_ResearchSpecialFields::TemperatureCapacityMultiplier, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }
Quantity MasslessOpaqueMaterial_Impl::getDensity(bool returnIP) const { OptionalDouble value = density(); OSOptionalQuantity result = getQuantityFromDouble(OS_MaterialFields::Density, value, returnIP); OS_ASSERT(result.isSet()); return result.get(); }