diff --git a/UnitsNet.Tests/GeneratedCode/IQuantityTests.g.cs b/UnitsNet.Tests/GeneratedCode/IQuantityTests.g.cs index a135be39b0..c0fa4da173 100644 --- a/UnitsNet.Tests/GeneratedCode/IQuantityTests.g.cs +++ b/UnitsNet.Tests/GeneratedCode/IQuantityTests.g.cs @@ -34,116 +34,116 @@ void Assertion(int expectedValue, Enum expectedUnit, IQuantity quantity) Assert.Equal(expectedValue, quantity.Value); } - Assertion(3, AccelerationUnit.StandardGravity, Quantity.From(3, AccelerationUnit.StandardGravity)); + Assertion(3, SpecificEntropyUnit.MegajoulePerKilogramKelvin, Quantity.From(3, SpecificEntropyUnit.MegajoulePerKilogramKelvin)); + Assertion(3, MolarityUnit.PicomolesPerLiter, Quantity.From(3, MolarityUnit.PicomolesPerLiter)); Assertion(3, AmountOfSubstanceUnit.PoundMole, Quantity.From(3, AmountOfSubstanceUnit.PoundMole)); - Assertion(3, AmplitudeRatioUnit.DecibelVolt, Quantity.From(3, AmplitudeRatioUnit.DecibelVolt)); - Assertion(3, AngleUnit.Tilt, Quantity.From(3, AngleUnit.Tilt)); - Assertion(3, ApparentEnergyUnit.VoltampereHour, Quantity.From(3, ApparentEnergyUnit.VoltampereHour)); + Assertion(3, PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, Quantity.From(3, PressureChangeRateUnit.PoundForcePerSquareInchPerSecond)); + Assertion(3, CoefficientOfThermalExpansionUnit.InverseKelvin, Quantity.From(3, CoefficientOfThermalExpansionUnit.InverseKelvin)); + Assertion(3, PressureUnit.Torr, Quantity.From(3, PressureUnit.Torr)); + Assertion(3, IrradiationUnit.WattHourPerSquareMeter, Quantity.From(3, IrradiationUnit.WattHourPerSquareMeter)); + Assertion(3, ElectricConductanceUnit.Siemens, Quantity.From(3, ElectricConductanceUnit.Siemens)); + Assertion(3, AccelerationUnit.StandardGravity, Quantity.From(3, AccelerationUnit.StandardGravity)); + Assertion(3, RotationalAccelerationUnit.RevolutionPerSecondSquared, Quantity.From(3, RotationalAccelerationUnit.RevolutionPerSecondSquared)); + Assertion(3, VolumeUnit.UsTeaspoon, Quantity.From(3, VolumeUnit.UsTeaspoon)); + Assertion(3, FrequencyUnit.Terahertz, Quantity.From(3, FrequencyUnit.Terahertz)); + Assertion(3, DynamicViscosityUnit.Reyn, Quantity.From(3, DynamicViscosityUnit.Reyn)); + Assertion(3, VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, Quantity.From(3, VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin)); + Assertion(3, LevelUnit.Neper, Quantity.From(3, LevelUnit.Neper)); + Assertion(3, MolarEnergyUnit.MegajoulePerMole, Quantity.From(3, MolarEnergyUnit.MegajoulePerMole)); Assertion(3, ApparentPowerUnit.Voltampere, Quantity.From(3, ApparentPowerUnit.Voltampere)); - Assertion(3, AreaUnit.UsSurveySquareFoot, Quantity.From(3, AreaUnit.UsSurveySquareFoot)); + Assertion(3, ReactiveEnergyUnit.VoltampereReactiveHour, Quantity.From(3, ReactiveEnergyUnit.VoltampereReactiveHour)); + Assertion(3, LuminousFluxUnit.Lumen, Quantity.From(3, LuminousFluxUnit.Lumen)); + Assertion(3, SpecificEnergyUnit.WattHourPerKilogram, Quantity.From(3, SpecificEnergyUnit.WattHourPerKilogram)); + Assertion(3, PowerDensityUnit.WattPerLiter, Quantity.From(3, PowerDensityUnit.WattPerLiter)); + Assertion(3, ForcePerLengthUnit.TonneForcePerMillimeter, Quantity.From(3, ForcePerLengthUnit.TonneForcePerMillimeter)); + Assertion(3, LuminosityUnit.Watt, Quantity.From(3, LuminosityUnit.Watt)); + Assertion(3, ElectricFieldUnit.VoltPerMeter, Quantity.From(3, ElectricFieldUnit.VoltPerMeter)); + Assertion(3, StandardVolumeFlowUnit.StandardLiterPerMinute, Quantity.From(3, StandardVolumeFlowUnit.StandardLiterPerMinute)); + Assertion(3, PowerUnit.Watt, Quantity.From(3, PowerUnit.Watt)); + Assertion(3, AmplitudeRatioUnit.DecibelVolt, Quantity.From(3, AmplitudeRatioUnit.DecibelVolt)); + Assertion(3, ReciprocalAreaUnit.InverseUsSurveySquareFoot, Quantity.From(3, ReciprocalAreaUnit.InverseUsSurveySquareFoot)); + Assertion(3, ForceChangeRateUnit.PoundForcePerSecond, Quantity.From(3, ForceChangeRateUnit.PoundForcePerSecond)); + Assertion(3, SolidAngleUnit.Steradian, Quantity.From(3, SolidAngleUnit.Steradian)); + Assertion(3, RelativeHumidityUnit.Percent, Quantity.From(3, RelativeHumidityUnit.Percent)); + Assertion(3, RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot, Quantity.From(3, RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot)); + Assertion(3, VolumeFlowUnit.UsGallonPerSecond, Quantity.From(3, VolumeFlowUnit.UsGallonPerSecond)); + Assertion(3, LinearPowerDensityUnit.WattPerMillimeter, Quantity.From(3, LinearPowerDensityUnit.WattPerMillimeter)); + Assertion(3, ElectricPotentialChangeRateUnit.VoltPerSecond, Quantity.From(3, ElectricPotentialChangeRateUnit.VoltPerSecond)); + Assertion(3, CapacitanceUnit.Picofarad, Quantity.From(3, CapacitanceUnit.Picofarad)); + Assertion(3, LinearDensityUnit.PoundPerInch, Quantity.From(3, LinearDensityUnit.PoundPerInch)); + Assertion(3, ReciprocalLengthUnit.InverseYard, Quantity.From(3, ReciprocalLengthUnit.InverseYard)); Assertion(3, AreaDensityUnit.KilogramPerSquareMeter, Quantity.From(3, AreaDensityUnit.KilogramPerSquareMeter)); - Assertion(3, AreaMomentOfInertiaUnit.MillimeterToTheFourth, Quantity.From(3, AreaMomentOfInertiaUnit.MillimeterToTheFourth)); + Assertion(3, MassFluxUnit.KilogramPerSecondPerSquareMillimeter, Quantity.From(3, MassFluxUnit.KilogramPerSecondPerSquareMillimeter)); + Assertion(3, MagneticFluxUnit.Weber, Quantity.From(3, MagneticFluxUnit.Weber)); + Assertion(3, ApparentEnergyUnit.VoltampereHour, Quantity.From(3, ApparentEnergyUnit.VoltampereHour)); + Assertion(3, SpeedUnit.YardPerSecond, Quantity.From(3, SpeedUnit.YardPerSecond)); Assertion(3, BitRateUnit.TerabytePerSecond, Quantity.From(3, BitRateUnit.TerabytePerSecond)); - Assertion(3, BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, Quantity.From(3, BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour)); - Assertion(3, CapacitanceUnit.Picofarad, Quantity.From(3, CapacitanceUnit.Picofarad)); - Assertion(3, CoefficientOfThermalExpansionUnit.InverseKelvin, Quantity.From(3, CoefficientOfThermalExpansionUnit.InverseKelvin)); - Assertion(3, DensityUnit.TonnePerCubicMillimeter, Quantity.From(3, DensityUnit.TonnePerCubicMillimeter)); - Assertion(3, DurationUnit.Year365, Quantity.From(3, DurationUnit.Year365)); - Assertion(3, DynamicViscosityUnit.Reyn, Quantity.From(3, DynamicViscosityUnit.Reyn)); - Assertion(3, ElectricAdmittanceUnit.Siemens, Quantity.From(3, ElectricAdmittanceUnit.Siemens)); - Assertion(3, ElectricChargeUnit.MilliampereHour, Quantity.From(3, ElectricChargeUnit.MilliampereHour)); + Assertion(3, AreaUnit.UsSurveySquareFoot, Quantity.From(3, AreaUnit.UsSurveySquareFoot)); + Assertion(3, VolumeConcentrationUnit.PicolitersPerMililiter, Quantity.From(3, VolumeConcentrationUnit.PicolitersPerMililiter)); + Assertion(3, PermittivityUnit.FaradPerMeter, Quantity.From(3, PermittivityUnit.FaradPerMeter)); + Assertion(3, InformationUnit.Terabyte, Quantity.From(3, InformationUnit.Terabyte)); + Assertion(3, LapseRateUnit.DegreeCelsiusPerKilometer, Quantity.From(3, LapseRateUnit.DegreeCelsiusPerKilometer)); + Assertion(3, RotationalStiffnessUnit.PoundForceFootPerDegrees, Quantity.From(3, RotationalStiffnessUnit.PoundForceFootPerDegrees)); Assertion(3, ElectricChargeDensityUnit.CoulombPerCubicMeter, Quantity.From(3, ElectricChargeDensityUnit.CoulombPerCubicMeter)); - Assertion(3, ElectricConductanceUnit.Siemens, Quantity.From(3, ElectricConductanceUnit.Siemens)); - Assertion(3, ElectricConductivityUnit.SiemensPerMeter, Quantity.From(3, ElectricConductivityUnit.SiemensPerMeter)); - Assertion(3, ElectricCurrentUnit.Picoampere, Quantity.From(3, ElectricCurrentUnit.Picoampere)); - Assertion(3, ElectricCurrentDensityUnit.AmperePerSquareMeter, Quantity.From(3, ElectricCurrentDensityUnit.AmperePerSquareMeter)); - Assertion(3, ElectricCurrentGradientUnit.AmperePerSecond, Quantity.From(3, ElectricCurrentGradientUnit.AmperePerSecond)); - Assertion(3, ElectricFieldUnit.VoltPerMeter, Quantity.From(3, ElectricFieldUnit.VoltPerMeter)); - Assertion(3, ElectricInductanceUnit.Nanohenry, Quantity.From(3, ElectricInductanceUnit.Nanohenry)); + Assertion(3, FuelEfficiencyUnit.MilePerUsGallon, Quantity.From(3, FuelEfficiencyUnit.MilePerUsGallon)); Assertion(3, ElectricPotentialUnit.Volt, Quantity.From(3, ElectricPotentialUnit.Volt)); - Assertion(3, ElectricPotentialAcUnit.VoltAc, Quantity.From(3, ElectricPotentialAcUnit.VoltAc)); - Assertion(3, ElectricPotentialChangeRateUnit.VoltPerSecond, Quantity.From(3, ElectricPotentialChangeRateUnit.VoltPerSecond)); + Assertion(3, VolumePerLengthUnit.OilBarrelPerFoot, Quantity.From(3, VolumePerLengthUnit.OilBarrelPerFoot)); + Assertion(3, AreaMomentOfInertiaUnit.MillimeterToTheFourth, Quantity.From(3, AreaMomentOfInertiaUnit.MillimeterToTheFourth)); + Assertion(3, VitaminAUnit.InternationalUnit, Quantity.From(3, VitaminAUnit.InternationalUnit)); + Assertion(3, IlluminanceUnit.Millilux, Quantity.From(3, IlluminanceUnit.Millilux)); + Assertion(3, MassUnit.Tonne, Quantity.From(3, MassUnit.Tonne)); + Assertion(3, MolarEntropyUnit.MegajoulePerMoleKelvin, Quantity.From(3, MolarEntropyUnit.MegajoulePerMoleKelvin)); + Assertion(3, KinematicViscosityUnit.Stokes, Quantity.From(3, KinematicViscosityUnit.Stokes)); + Assertion(3, EnergyUnit.WattHour, Quantity.From(3, EnergyUnit.WattHour)); + Assertion(3, SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour, Quantity.From(3, SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour)); + Assertion(3, PowerRatioUnit.DecibelWatt, Quantity.From(3, PowerRatioUnit.DecibelWatt)); + Assertion(3, ElectricCurrentDensityUnit.AmperePerSquareMeter, Quantity.From(3, ElectricCurrentDensityUnit.AmperePerSquareMeter)); Assertion(3, ElectricPotentialDcUnit.VoltDc, Quantity.From(3, ElectricPotentialDcUnit.VoltDc)); - Assertion(3, ElectricResistanceUnit.Ohm, Quantity.From(3, ElectricResistanceUnit.Ohm)); + Assertion(3, LengthUnit.Yard, Quantity.From(3, LengthUnit.Yard)); + Assertion(3, MassMomentOfInertiaUnit.TonneSquareMilimeter, Quantity.From(3, MassMomentOfInertiaUnit.TonneSquareMilimeter)); + Assertion(3, WarpingMomentOfInertiaUnit.MillimeterToTheSixth, Quantity.From(3, WarpingMomentOfInertiaUnit.MillimeterToTheSixth)); + Assertion(3, TemperatureUnit.SolarTemperature, Quantity.From(3, TemperatureUnit.SolarTemperature)); + Assertion(3, MassConcentrationUnit.TonnePerCubicMillimeter, Quantity.From(3, MassConcentrationUnit.TonnePerCubicMillimeter)); Assertion(3, ElectricResistivityUnit.PicoohmMeter, Quantity.From(3, ElectricResistivityUnit.PicoohmMeter)); + Assertion(3, TurbidityUnit.NTU, Quantity.From(3, TurbidityUnit.NTU)); + Assertion(3, LuminousIntensityUnit.Candela, Quantity.From(3, LuminousIntensityUnit.Candela)); Assertion(3, ElectricSurfaceChargeDensityUnit.CoulombPerSquareMeter, Quantity.From(3, ElectricSurfaceChargeDensityUnit.CoulombPerSquareMeter)); - Assertion(3, EnergyUnit.WattHour, Quantity.From(3, EnergyUnit.WattHour)); - Assertion(3, EntropyUnit.MegajoulePerKelvin, Quantity.From(3, EntropyUnit.MegajoulePerKelvin)); Assertion(3, ForceUnit.TonneForce, Quantity.From(3, ForceUnit.TonneForce)); - Assertion(3, ForceChangeRateUnit.PoundForcePerSecond, Quantity.From(3, ForceChangeRateUnit.PoundForcePerSecond)); - Assertion(3, ForcePerLengthUnit.TonneForcePerMillimeter, Quantity.From(3, ForcePerLengthUnit.TonneForcePerMillimeter)); - Assertion(3, FrequencyUnit.Terahertz, Quantity.From(3, FrequencyUnit.Terahertz)); - Assertion(3, FuelEfficiencyUnit.MilePerUsGallon, Quantity.From(3, FuelEfficiencyUnit.MilePerUsGallon)); + Assertion(3, RotationalSpeedUnit.RevolutionPerSecond, Quantity.From(3, RotationalSpeedUnit.RevolutionPerSecond)); + Assertion(3, SpecificVolumeUnit.MillicubicMeterPerKilogram, Quantity.From(3, SpecificVolumeUnit.MillicubicMeterPerKilogram)); + Assertion(3, SpecificWeightUnit.TonneForcePerCubicMillimeter, Quantity.From(3, SpecificWeightUnit.TonneForcePerCubicMillimeter)); Assertion(3, HeatFluxUnit.WattPerSquareMeter, Quantity.From(3, HeatFluxUnit.WattPerSquareMeter)); - Assertion(3, HeatTransferCoefficientUnit.WattPerSquareMeterKelvin, Quantity.From(3, HeatTransferCoefficientUnit.WattPerSquareMeterKelvin)); - Assertion(3, IlluminanceUnit.Millilux, Quantity.From(3, IlluminanceUnit.Millilux)); - Assertion(3, InformationUnit.Terabyte, Quantity.From(3, InformationUnit.Terabyte)); - Assertion(3, IrradianceUnit.WattPerSquareMeter, Quantity.From(3, IrradianceUnit.WattPerSquareMeter)); - Assertion(3, IrradiationUnit.WattHourPerSquareMeter, Quantity.From(3, IrradiationUnit.WattHourPerSquareMeter)); - Assertion(3, KinematicViscosityUnit.Stokes, Quantity.From(3, KinematicViscosityUnit.Stokes)); - Assertion(3, LapseRateUnit.DegreeCelsiusPerKilometer, Quantity.From(3, LapseRateUnit.DegreeCelsiusPerKilometer)); - Assertion(3, LengthUnit.Yard, Quantity.From(3, LengthUnit.Yard)); - Assertion(3, LevelUnit.Neper, Quantity.From(3, LevelUnit.Neper)); - Assertion(3, LinearDensityUnit.PoundPerInch, Quantity.From(3, LinearDensityUnit.PoundPerInch)); - Assertion(3, LinearPowerDensityUnit.WattPerMillimeter, Quantity.From(3, LinearPowerDensityUnit.WattPerMillimeter)); - Assertion(3, LuminosityUnit.Watt, Quantity.From(3, LuminosityUnit.Watt)); - Assertion(3, LuminousFluxUnit.Lumen, Quantity.From(3, LuminousFluxUnit.Lumen)); - Assertion(3, LuminousIntensityUnit.Candela, Quantity.From(3, LuminousIntensityUnit.Candela)); - Assertion(3, MagneticFieldUnit.Tesla, Quantity.From(3, MagneticFieldUnit.Tesla)); - Assertion(3, MagneticFluxUnit.Weber, Quantity.From(3, MagneticFluxUnit.Weber)); - Assertion(3, MagnetizationUnit.AmperePerMeter, Quantity.From(3, MagnetizationUnit.AmperePerMeter)); - Assertion(3, MassUnit.Tonne, Quantity.From(3, MassUnit.Tonne)); - Assertion(3, MassConcentrationUnit.TonnePerCubicMillimeter, Quantity.From(3, MassConcentrationUnit.TonnePerCubicMillimeter)); - Assertion(3, MassFlowUnit.TonnePerHour, Quantity.From(3, MassFlowUnit.TonnePerHour)); - Assertion(3, MassFluxUnit.KilogramPerSecondPerSquareMillimeter, Quantity.From(3, MassFluxUnit.KilogramPerSecondPerSquareMillimeter)); - Assertion(3, MassFractionUnit.Percent, Quantity.From(3, MassFractionUnit.Percent)); - Assertion(3, MassMomentOfInertiaUnit.TonneSquareMilimeter, Quantity.From(3, MassMomentOfInertiaUnit.TonneSquareMilimeter)); - Assertion(3, MolarEnergyUnit.MegajoulePerMole, Quantity.From(3, MolarEnergyUnit.MegajoulePerMole)); - Assertion(3, MolarEntropyUnit.MegajoulePerMoleKelvin, Quantity.From(3, MolarEntropyUnit.MegajoulePerMoleKelvin)); - Assertion(3, MolarityUnit.PicomolesPerLiter, Quantity.From(3, MolarityUnit.PicomolesPerLiter)); + Assertion(3, TorqueUnit.TonneForceMillimeter, Quantity.From(3, TorqueUnit.TonneForceMillimeter)); + Assertion(3, EntropyUnit.MegajoulePerKelvin, Quantity.From(3, EntropyUnit.MegajoulePerKelvin)); + Assertion(3, TorquePerLengthUnit.TonneForceMillimeterPerMeter, Quantity.From(3, TorquePerLengthUnit.TonneForceMillimeterPerMeter)); + Assertion(3, AngleUnit.Tilt, Quantity.From(3, AngleUnit.Tilt)); + Assertion(3, ThermalConductivityUnit.WattPerMeterKelvin, Quantity.From(3, ThermalConductivityUnit.WattPerMeterKelvin)); + Assertion(3, BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, Quantity.From(3, BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour)); Assertion(3, MolarMassUnit.PoundPerMole, Quantity.From(3, MolarMassUnit.PoundPerMole)); - Assertion(3, PermeabilityUnit.HenryPerMeter, Quantity.From(3, PermeabilityUnit.HenryPerMeter)); - Assertion(3, PermittivityUnit.FaradPerMeter, Quantity.From(3, PermittivityUnit.FaradPerMeter)); - Assertion(3, PowerUnit.Watt, Quantity.From(3, PowerUnit.Watt)); - Assertion(3, PowerDensityUnit.WattPerLiter, Quantity.From(3, PowerDensityUnit.WattPerLiter)); - Assertion(3, PowerRatioUnit.DecibelWatt, Quantity.From(3, PowerRatioUnit.DecibelWatt)); - Assertion(3, PressureUnit.Torr, Quantity.From(3, PressureUnit.Torr)); - Assertion(3, PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, Quantity.From(3, PressureChangeRateUnit.PoundForcePerSquareInchPerSecond)); + Assertion(3, MassFlowUnit.TonnePerHour, Quantity.From(3, MassFlowUnit.TonnePerHour)); Assertion(3, RatioUnit.Percent, Quantity.From(3, RatioUnit.Percent)); + Assertion(3, DurationUnit.Year365, Quantity.From(3, DurationUnit.Year365)); + Assertion(3, ElectricResistanceUnit.Ohm, Quantity.From(3, ElectricResistanceUnit.Ohm)); + Assertion(3, ThermalResistanceUnit.SquareMeterKelvinPerKilowatt, Quantity.From(3, ThermalResistanceUnit.SquareMeterKelvinPerKilowatt)); + Assertion(3, MagnetizationUnit.AmperePerMeter, Quantity.From(3, MagnetizationUnit.AmperePerMeter)); + Assertion(3, TemperatureDeltaUnit.MillidegreeCelsius, Quantity.From(3, TemperatureDeltaUnit.MillidegreeCelsius)); + Assertion(3, ElectricAdmittanceUnit.Siemens, Quantity.From(3, ElectricAdmittanceUnit.Siemens)); + Assertion(3, ElectricCurrentUnit.Picoampere, Quantity.From(3, ElectricCurrentUnit.Picoampere)); + Assertion(3, DensityUnit.TonnePerCubicMillimeter, Quantity.From(3, DensityUnit.TonnePerCubicMillimeter)); + Assertion(3, ElectricCurrentGradientUnit.AmperePerSecond, Quantity.From(3, ElectricCurrentGradientUnit.AmperePerSecond)); + Assertion(3, TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, Quantity.From(3, TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond)); + Assertion(3, ElectricInductanceUnit.Nanohenry, Quantity.From(3, ElectricInductanceUnit.Nanohenry)); Assertion(3, RatioChangeRateUnit.PercentPerSecond, Quantity.From(3, RatioChangeRateUnit.PercentPerSecond)); - Assertion(3, ReactiveEnergyUnit.VoltampereReactiveHour, Quantity.From(3, ReactiveEnergyUnit.VoltampereReactiveHour)); + Assertion(3, HeatTransferCoefficientUnit.WattPerSquareMeterKelvin, Quantity.From(3, HeatTransferCoefficientUnit.WattPerSquareMeterKelvin)); + Assertion(3, MassFractionUnit.Percent, Quantity.From(3, MassFractionUnit.Percent)); + Assertion(3, MagneticFieldUnit.Tesla, Quantity.From(3, MagneticFieldUnit.Tesla)); + Assertion(3, PermeabilityUnit.HenryPerMeter, Quantity.From(3, PermeabilityUnit.HenryPerMeter)); + Assertion(3, ElectricChargeUnit.MilliampereHour, Quantity.From(3, ElectricChargeUnit.MilliampereHour)); + Assertion(3, ElectricConductivityUnit.SiemensPerMeter, Quantity.From(3, ElectricConductivityUnit.SiemensPerMeter)); Assertion(3, ReactivePowerUnit.VoltampereReactive, Quantity.From(3, ReactivePowerUnit.VoltampereReactive)); - Assertion(3, ReciprocalAreaUnit.InverseUsSurveySquareFoot, Quantity.From(3, ReciprocalAreaUnit.InverseUsSurveySquareFoot)); - Assertion(3, ReciprocalLengthUnit.InverseYard, Quantity.From(3, ReciprocalLengthUnit.InverseYard)); - Assertion(3, RelativeHumidityUnit.Percent, Quantity.From(3, RelativeHumidityUnit.Percent)); - Assertion(3, RotationalAccelerationUnit.RevolutionPerSecondSquared, Quantity.From(3, RotationalAccelerationUnit.RevolutionPerSecondSquared)); - Assertion(3, RotationalSpeedUnit.RevolutionPerSecond, Quantity.From(3, RotationalSpeedUnit.RevolutionPerSecond)); - Assertion(3, RotationalStiffnessUnit.PoundForceFootPerDegrees, Quantity.From(3, RotationalStiffnessUnit.PoundForceFootPerDegrees)); - Assertion(3, RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot, Quantity.From(3, RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot)); + Assertion(3, ElectricPotentialAcUnit.VoltAc, Quantity.From(3, ElectricPotentialAcUnit.VoltAc)); + Assertion(3, IrradianceUnit.WattPerSquareMeter, Quantity.From(3, IrradianceUnit.WattPerSquareMeter)); Assertion(3, ScalarUnit.Amount, Quantity.From(3, ScalarUnit.Amount)); - Assertion(3, SolidAngleUnit.Steradian, Quantity.From(3, SolidAngleUnit.Steradian)); - Assertion(3, SpecificEnergyUnit.WattHourPerKilogram, Quantity.From(3, SpecificEnergyUnit.WattHourPerKilogram)); - Assertion(3, SpecificEntropyUnit.MegajoulePerKilogramKelvin, Quantity.From(3, SpecificEntropyUnit.MegajoulePerKilogramKelvin)); - Assertion(3, SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour, Quantity.From(3, SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour)); - Assertion(3, SpecificVolumeUnit.MillicubicMeterPerKilogram, Quantity.From(3, SpecificVolumeUnit.MillicubicMeterPerKilogram)); - Assertion(3, SpecificWeightUnit.TonneForcePerCubicMillimeter, Quantity.From(3, SpecificWeightUnit.TonneForcePerCubicMillimeter)); - Assertion(3, SpeedUnit.YardPerSecond, Quantity.From(3, SpeedUnit.YardPerSecond)); - Assertion(3, StandardVolumeFlowUnit.StandardLiterPerMinute, Quantity.From(3, StandardVolumeFlowUnit.StandardLiterPerMinute)); - Assertion(3, TemperatureUnit.SolarTemperature, Quantity.From(3, TemperatureUnit.SolarTemperature)); - Assertion(3, TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, Quantity.From(3, TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond)); - Assertion(3, TemperatureDeltaUnit.MillidegreeCelsius, Quantity.From(3, TemperatureDeltaUnit.MillidegreeCelsius)); - Assertion(3, ThermalConductivityUnit.WattPerMeterKelvin, Quantity.From(3, ThermalConductivityUnit.WattPerMeterKelvin)); - Assertion(3, ThermalResistanceUnit.SquareMeterKelvinPerKilowatt, Quantity.From(3, ThermalResistanceUnit.SquareMeterKelvinPerKilowatt)); - Assertion(3, TorqueUnit.TonneForceMillimeter, Quantity.From(3, TorqueUnit.TonneForceMillimeter)); - Assertion(3, TorquePerLengthUnit.TonneForceMillimeterPerMeter, Quantity.From(3, TorquePerLengthUnit.TonneForceMillimeterPerMeter)); - Assertion(3, TurbidityUnit.NTU, Quantity.From(3, TurbidityUnit.NTU)); - Assertion(3, VitaminAUnit.InternationalUnit, Quantity.From(3, VitaminAUnit.InternationalUnit)); - Assertion(3, VolumeUnit.UsTeaspoon, Quantity.From(3, VolumeUnit.UsTeaspoon)); - Assertion(3, VolumeConcentrationUnit.PicolitersPerMililiter, Quantity.From(3, VolumeConcentrationUnit.PicolitersPerMililiter)); - Assertion(3, VolumeFlowUnit.UsGallonPerSecond, Quantity.From(3, VolumeFlowUnit.UsGallonPerSecond)); - Assertion(3, VolumePerLengthUnit.OilBarrelPerFoot, Quantity.From(3, VolumePerLengthUnit.OilBarrelPerFoot)); - Assertion(3, VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, Quantity.From(3, VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin)); - Assertion(3, WarpingMomentOfInertiaUnit.MillimeterToTheSixth, Quantity.From(3, WarpingMomentOfInertiaUnit.MillimeterToTheSixth)); } [Fact] @@ -151,116 +151,116 @@ public void QuantityInfo_IsSameAsStaticInfoProperty() { void Assertion(QuantityInfo expected, IQuantity quantity) => Assert.Same(expected, quantity.QuantityInfo); - Assertion(Acceleration.Info, Acceleration.Zero); + Assertion(SpecificEntropy.Info, SpecificEntropy.Zero); + Assertion(Molarity.Info, Molarity.Zero); Assertion(AmountOfSubstance.Info, AmountOfSubstance.Zero); - Assertion(AmplitudeRatio.Info, AmplitudeRatio.Zero); - Assertion(Angle.Info, Angle.Zero); - Assertion(ApparentEnergy.Info, ApparentEnergy.Zero); - Assertion(ApparentPower.Info, ApparentPower.Zero); - Assertion(Area.Info, Area.Zero); - Assertion(AreaDensity.Info, AreaDensity.Zero); - Assertion(AreaMomentOfInertia.Info, AreaMomentOfInertia.Zero); - Assertion(BitRate.Info, BitRate.Zero); - Assertion(BrakeSpecificFuelConsumption.Info, BrakeSpecificFuelConsumption.Zero); - Assertion(Capacitance.Info, Capacitance.Zero); + Assertion(PressureChangeRate.Info, PressureChangeRate.Zero); Assertion(CoefficientOfThermalExpansion.Info, CoefficientOfThermalExpansion.Zero); - Assertion(Density.Info, Density.Zero); - Assertion(Duration.Info, Duration.Zero); - Assertion(DynamicViscosity.Info, DynamicViscosity.Zero); - Assertion(ElectricAdmittance.Info, ElectricAdmittance.Zero); - Assertion(ElectricCharge.Info, ElectricCharge.Zero); - Assertion(ElectricChargeDensity.Info, ElectricChargeDensity.Zero); + Assertion(Pressure.Info, Pressure.Zero); + Assertion(Irradiation.Info, Irradiation.Zero); Assertion(ElectricConductance.Info, ElectricConductance.Zero); - Assertion(ElectricConductivity.Info, ElectricConductivity.Zero); - Assertion(ElectricCurrent.Info, ElectricCurrent.Zero); - Assertion(ElectricCurrentDensity.Info, ElectricCurrentDensity.Zero); - Assertion(ElectricCurrentGradient.Info, ElectricCurrentGradient.Zero); - Assertion(ElectricField.Info, ElectricField.Zero); - Assertion(ElectricInductance.Info, ElectricInductance.Zero); - Assertion(ElectricPotential.Info, ElectricPotential.Zero); - Assertion(ElectricPotentialAc.Info, ElectricPotentialAc.Zero); - Assertion(ElectricPotentialChangeRate.Info, ElectricPotentialChangeRate.Zero); - Assertion(ElectricPotentialDc.Info, ElectricPotentialDc.Zero); - Assertion(ElectricResistance.Info, ElectricResistance.Zero); - Assertion(ElectricResistivity.Info, ElectricResistivity.Zero); - Assertion(ElectricSurfaceChargeDensity.Info, ElectricSurfaceChargeDensity.Zero); - Assertion(Energy.Info, Energy.Zero); - Assertion(Entropy.Info, Entropy.Zero); - Assertion(Force.Info, Force.Zero); - Assertion(ForceChangeRate.Info, ForceChangeRate.Zero); - Assertion(ForcePerLength.Info, ForcePerLength.Zero); + Assertion(Acceleration.Info, Acceleration.Zero); + Assertion(RotationalAcceleration.Info, RotationalAcceleration.Zero); + Assertion(Volume.Info, Volume.Zero); Assertion(Frequency.Info, Frequency.Zero); - Assertion(FuelEfficiency.Info, FuelEfficiency.Zero); - Assertion(HeatFlux.Info, HeatFlux.Zero); - Assertion(HeatTransferCoefficient.Info, HeatTransferCoefficient.Zero); - Assertion(Illuminance.Info, Illuminance.Zero); - Assertion(Information.Info, Information.Zero); - Assertion(Irradiance.Info, Irradiance.Zero); - Assertion(Irradiation.Info, Irradiation.Zero); - Assertion(KinematicViscosity.Info, KinematicViscosity.Zero); - Assertion(LapseRate.Info, LapseRate.Zero); - Assertion(Length.Info, Length.Zero); + Assertion(DynamicViscosity.Info, DynamicViscosity.Zero); + Assertion(VolumetricHeatCapacity.Info, VolumetricHeatCapacity.Zero); Assertion(Level.Info, Level.Zero); - Assertion(LinearDensity.Info, LinearDensity.Zero); - Assertion(LinearPowerDensity.Info, LinearPowerDensity.Zero); - Assertion(Luminosity.Info, Luminosity.Zero); + Assertion(MolarEnergy.Info, MolarEnergy.Zero); + Assertion(ApparentPower.Info, ApparentPower.Zero); + Assertion(ReactiveEnergy.Info, ReactiveEnergy.Zero); Assertion(LuminousFlux.Info, LuminousFlux.Zero); - Assertion(LuminousIntensity.Info, LuminousIntensity.Zero); - Assertion(MagneticField.Info, MagneticField.Zero); - Assertion(MagneticFlux.Info, MagneticFlux.Zero); - Assertion(Magnetization.Info, Magnetization.Zero); - Assertion(Mass.Info, Mass.Zero); - Assertion(MassConcentration.Info, MassConcentration.Zero); - Assertion(MassFlow.Info, MassFlow.Zero); - Assertion(MassFlux.Info, MassFlux.Zero); - Assertion(MassFraction.Info, MassFraction.Zero); - Assertion(MassMomentOfInertia.Info, MassMomentOfInertia.Zero); - Assertion(MolarEnergy.Info, MolarEnergy.Zero); - Assertion(MolarEntropy.Info, MolarEntropy.Zero); - Assertion(Molarity.Info, Molarity.Zero); - Assertion(MolarMass.Info, MolarMass.Zero); - Assertion(Permeability.Info, Permeability.Zero); - Assertion(Permittivity.Info, Permittivity.Zero); - Assertion(Power.Info, Power.Zero); + Assertion(SpecificEnergy.Info, SpecificEnergy.Zero); Assertion(PowerDensity.Info, PowerDensity.Zero); - Assertion(PowerRatio.Info, PowerRatio.Zero); - Assertion(Pressure.Info, Pressure.Zero); - Assertion(PressureChangeRate.Info, PressureChangeRate.Zero); - Assertion(Ratio.Info, Ratio.Zero); - Assertion(RatioChangeRate.Info, RatioChangeRate.Zero); - Assertion(ReactiveEnergy.Info, ReactiveEnergy.Zero); - Assertion(ReactivePower.Info, ReactivePower.Zero); + Assertion(ForcePerLength.Info, ForcePerLength.Zero); + Assertion(Luminosity.Info, Luminosity.Zero); + Assertion(ElectricField.Info, ElectricField.Zero); + Assertion(StandardVolumeFlow.Info, StandardVolumeFlow.Zero); + Assertion(Power.Info, Power.Zero); + Assertion(AmplitudeRatio.Info, AmplitudeRatio.Zero); Assertion(ReciprocalArea.Info, ReciprocalArea.Zero); - Assertion(ReciprocalLength.Info, ReciprocalLength.Zero); + Assertion(ForceChangeRate.Info, ForceChangeRate.Zero); + Assertion(SolidAngle.Info, SolidAngle.Zero); Assertion(RelativeHumidity.Info, RelativeHumidity.Zero); - Assertion(RotationalAcceleration.Info, RotationalAcceleration.Zero); - Assertion(RotationalSpeed.Info, RotationalSpeed.Zero); - Assertion(RotationalStiffness.Info, RotationalStiffness.Zero); Assertion(RotationalStiffnessPerLength.Info, RotationalStiffnessPerLength.Zero); - Assertion(Scalar.Info, Scalar.Zero); - Assertion(SolidAngle.Info, SolidAngle.Zero); - Assertion(SpecificEnergy.Info, SpecificEnergy.Zero); - Assertion(SpecificEntropy.Info, SpecificEntropy.Zero); + Assertion(VolumeFlow.Info, VolumeFlow.Zero); + Assertion(LinearPowerDensity.Info, LinearPowerDensity.Zero); + Assertion(ElectricPotentialChangeRate.Info, ElectricPotentialChangeRate.Zero); + Assertion(Capacitance.Info, Capacitance.Zero); + Assertion(LinearDensity.Info, LinearDensity.Zero); + Assertion(ReciprocalLength.Info, ReciprocalLength.Zero); + Assertion(AreaDensity.Info, AreaDensity.Zero); + Assertion(MassFlux.Info, MassFlux.Zero); + Assertion(MagneticFlux.Info, MagneticFlux.Zero); + Assertion(ApparentEnergy.Info, ApparentEnergy.Zero); + Assertion(Speed.Info, Speed.Zero); + Assertion(BitRate.Info, BitRate.Zero); + Assertion(Area.Info, Area.Zero); + Assertion(VolumeConcentration.Info, VolumeConcentration.Zero); + Assertion(Permittivity.Info, Permittivity.Zero); + Assertion(Information.Info, Information.Zero); + Assertion(LapseRate.Info, LapseRate.Zero); + Assertion(RotationalStiffness.Info, RotationalStiffness.Zero); + Assertion(ElectricChargeDensity.Info, ElectricChargeDensity.Zero); + Assertion(FuelEfficiency.Info, FuelEfficiency.Zero); + Assertion(ElectricPotential.Info, ElectricPotential.Zero); + Assertion(VolumePerLength.Info, VolumePerLength.Zero); + Assertion(AreaMomentOfInertia.Info, AreaMomentOfInertia.Zero); + Assertion(VitaminA.Info, VitaminA.Zero); + Assertion(Illuminance.Info, Illuminance.Zero); + Assertion(Mass.Info, Mass.Zero); + Assertion(MolarEntropy.Info, MolarEntropy.Zero); + Assertion(KinematicViscosity.Info, KinematicViscosity.Zero); + Assertion(Energy.Info, Energy.Zero); Assertion(SpecificFuelConsumption.Info, SpecificFuelConsumption.Zero); + Assertion(PowerRatio.Info, PowerRatio.Zero); + Assertion(ElectricCurrentDensity.Info, ElectricCurrentDensity.Zero); + Assertion(ElectricPotentialDc.Info, ElectricPotentialDc.Zero); + Assertion(Length.Info, Length.Zero); + Assertion(MassMomentOfInertia.Info, MassMomentOfInertia.Zero); + Assertion(WarpingMomentOfInertia.Info, WarpingMomentOfInertia.Zero); + Assertion(Temperature.Info, Temperature.Zero); + Assertion(MassConcentration.Info, MassConcentration.Zero); + Assertion(ElectricResistivity.Info, ElectricResistivity.Zero); + Assertion(Turbidity.Info, Turbidity.Zero); + Assertion(LuminousIntensity.Info, LuminousIntensity.Zero); + Assertion(ElectricSurfaceChargeDensity.Info, ElectricSurfaceChargeDensity.Zero); + Assertion(Force.Info, Force.Zero); + Assertion(RotationalSpeed.Info, RotationalSpeed.Zero); Assertion(SpecificVolume.Info, SpecificVolume.Zero); Assertion(SpecificWeight.Info, SpecificWeight.Zero); - Assertion(Speed.Info, Speed.Zero); - Assertion(StandardVolumeFlow.Info, StandardVolumeFlow.Zero); - Assertion(Temperature.Info, Temperature.Zero); - Assertion(TemperatureChangeRate.Info, TemperatureChangeRate.Zero); - Assertion(TemperatureDelta.Info, TemperatureDelta.Zero); - Assertion(ThermalConductivity.Info, ThermalConductivity.Zero); - Assertion(ThermalResistance.Info, ThermalResistance.Zero); + Assertion(HeatFlux.Info, HeatFlux.Zero); Assertion(Torque.Info, Torque.Zero); + Assertion(Entropy.Info, Entropy.Zero); Assertion(TorquePerLength.Info, TorquePerLength.Zero); - Assertion(Turbidity.Info, Turbidity.Zero); - Assertion(VitaminA.Info, VitaminA.Zero); - Assertion(Volume.Info, Volume.Zero); - Assertion(VolumeConcentration.Info, VolumeConcentration.Zero); - Assertion(VolumeFlow.Info, VolumeFlow.Zero); - Assertion(VolumePerLength.Info, VolumePerLength.Zero); - Assertion(VolumetricHeatCapacity.Info, VolumetricHeatCapacity.Zero); - Assertion(WarpingMomentOfInertia.Info, WarpingMomentOfInertia.Zero); + Assertion(Angle.Info, Angle.Zero); + Assertion(ThermalConductivity.Info, ThermalConductivity.Zero); + Assertion(BrakeSpecificFuelConsumption.Info, BrakeSpecificFuelConsumption.Zero); + Assertion(MolarMass.Info, MolarMass.Zero); + Assertion(MassFlow.Info, MassFlow.Zero); + Assertion(Ratio.Info, Ratio.Zero); + Assertion(Duration.Info, Duration.Zero); + Assertion(ElectricResistance.Info, ElectricResistance.Zero); + Assertion(ThermalResistance.Info, ThermalResistance.Zero); + Assertion(Magnetization.Info, Magnetization.Zero); + Assertion(TemperatureDelta.Info, TemperatureDelta.Zero); + Assertion(ElectricAdmittance.Info, ElectricAdmittance.Zero); + Assertion(ElectricCurrent.Info, ElectricCurrent.Zero); + Assertion(Density.Info, Density.Zero); + Assertion(ElectricCurrentGradient.Info, ElectricCurrentGradient.Zero); + Assertion(TemperatureChangeRate.Info, TemperatureChangeRate.Zero); + Assertion(ElectricInductance.Info, ElectricInductance.Zero); + Assertion(RatioChangeRate.Info, RatioChangeRate.Zero); + Assertion(HeatTransferCoefficient.Info, HeatTransferCoefficient.Zero); + Assertion(MassFraction.Info, MassFraction.Zero); + Assertion(MagneticField.Info, MagneticField.Zero); + Assertion(Permeability.Info, Permeability.Zero); + Assertion(ElectricCharge.Info, ElectricCharge.Zero); + Assertion(ElectricConductivity.Info, ElectricConductivity.Zero); + Assertion(ReactivePower.Info, ReactivePower.Zero); + Assertion(ElectricPotentialAc.Info, ElectricPotentialAc.Zero); + Assertion(Irradiance.Info, Irradiance.Zero); + Assertion(Scalar.Info, Scalar.Zero); } [Fact] @@ -268,116 +268,116 @@ public void Type_EqualsStaticQuantityTypeProperty() { void Assertion(QuantityType expected, IQuantity quantity) => Assert.Equal(expected, quantity.Type); - Assertion(Acceleration.QuantityType, Acceleration.Zero); + Assertion(SpecificEntropy.QuantityType, SpecificEntropy.Zero); + Assertion(Molarity.QuantityType, Molarity.Zero); Assertion(AmountOfSubstance.QuantityType, AmountOfSubstance.Zero); - Assertion(AmplitudeRatio.QuantityType, AmplitudeRatio.Zero); - Assertion(Angle.QuantityType, Angle.Zero); - Assertion(ApparentEnergy.QuantityType, ApparentEnergy.Zero); + Assertion(PressureChangeRate.QuantityType, PressureChangeRate.Zero); + Assertion(CoefficientOfThermalExpansion.QuantityType, CoefficientOfThermalExpansion.Zero); + Assertion(Pressure.QuantityType, Pressure.Zero); + Assertion(Irradiation.QuantityType, Irradiation.Zero); + Assertion(ElectricConductance.QuantityType, ElectricConductance.Zero); + Assertion(Acceleration.QuantityType, Acceleration.Zero); + Assertion(RotationalAcceleration.QuantityType, RotationalAcceleration.Zero); + Assertion(Volume.QuantityType, Volume.Zero); + Assertion(Frequency.QuantityType, Frequency.Zero); + Assertion(DynamicViscosity.QuantityType, DynamicViscosity.Zero); + Assertion(VolumetricHeatCapacity.QuantityType, VolumetricHeatCapacity.Zero); + Assertion(Level.QuantityType, Level.Zero); + Assertion(MolarEnergy.QuantityType, MolarEnergy.Zero); Assertion(ApparentPower.QuantityType, ApparentPower.Zero); - Assertion(Area.QuantityType, Area.Zero); + Assertion(ReactiveEnergy.QuantityType, ReactiveEnergy.Zero); + Assertion(LuminousFlux.QuantityType, LuminousFlux.Zero); + Assertion(SpecificEnergy.QuantityType, SpecificEnergy.Zero); + Assertion(PowerDensity.QuantityType, PowerDensity.Zero); + Assertion(ForcePerLength.QuantityType, ForcePerLength.Zero); + Assertion(Luminosity.QuantityType, Luminosity.Zero); + Assertion(ElectricField.QuantityType, ElectricField.Zero); + Assertion(StandardVolumeFlow.QuantityType, StandardVolumeFlow.Zero); + Assertion(Power.QuantityType, Power.Zero); + Assertion(AmplitudeRatio.QuantityType, AmplitudeRatio.Zero); + Assertion(ReciprocalArea.QuantityType, ReciprocalArea.Zero); + Assertion(ForceChangeRate.QuantityType, ForceChangeRate.Zero); + Assertion(SolidAngle.QuantityType, SolidAngle.Zero); + Assertion(RelativeHumidity.QuantityType, RelativeHumidity.Zero); + Assertion(RotationalStiffnessPerLength.QuantityType, RotationalStiffnessPerLength.Zero); + Assertion(VolumeFlow.QuantityType, VolumeFlow.Zero); + Assertion(LinearPowerDensity.QuantityType, LinearPowerDensity.Zero); + Assertion(ElectricPotentialChangeRate.QuantityType, ElectricPotentialChangeRate.Zero); + Assertion(Capacitance.QuantityType, Capacitance.Zero); + Assertion(LinearDensity.QuantityType, LinearDensity.Zero); + Assertion(ReciprocalLength.QuantityType, ReciprocalLength.Zero); Assertion(AreaDensity.QuantityType, AreaDensity.Zero); - Assertion(AreaMomentOfInertia.QuantityType, AreaMomentOfInertia.Zero); + Assertion(MassFlux.QuantityType, MassFlux.Zero); + Assertion(MagneticFlux.QuantityType, MagneticFlux.Zero); + Assertion(ApparentEnergy.QuantityType, ApparentEnergy.Zero); + Assertion(Speed.QuantityType, Speed.Zero); Assertion(BitRate.QuantityType, BitRate.Zero); - Assertion(BrakeSpecificFuelConsumption.QuantityType, BrakeSpecificFuelConsumption.Zero); - Assertion(Capacitance.QuantityType, Capacitance.Zero); - Assertion(CoefficientOfThermalExpansion.QuantityType, CoefficientOfThermalExpansion.Zero); - Assertion(Density.QuantityType, Density.Zero); - Assertion(Duration.QuantityType, Duration.Zero); - Assertion(DynamicViscosity.QuantityType, DynamicViscosity.Zero); - Assertion(ElectricAdmittance.QuantityType, ElectricAdmittance.Zero); - Assertion(ElectricCharge.QuantityType, ElectricCharge.Zero); + Assertion(Area.QuantityType, Area.Zero); + Assertion(VolumeConcentration.QuantityType, VolumeConcentration.Zero); + Assertion(Permittivity.QuantityType, Permittivity.Zero); + Assertion(Information.QuantityType, Information.Zero); + Assertion(LapseRate.QuantityType, LapseRate.Zero); + Assertion(RotationalStiffness.QuantityType, RotationalStiffness.Zero); Assertion(ElectricChargeDensity.QuantityType, ElectricChargeDensity.Zero); - Assertion(ElectricConductance.QuantityType, ElectricConductance.Zero); - Assertion(ElectricConductivity.QuantityType, ElectricConductivity.Zero); - Assertion(ElectricCurrent.QuantityType, ElectricCurrent.Zero); - Assertion(ElectricCurrentDensity.QuantityType, ElectricCurrentDensity.Zero); - Assertion(ElectricCurrentGradient.QuantityType, ElectricCurrentGradient.Zero); - Assertion(ElectricField.QuantityType, ElectricField.Zero); - Assertion(ElectricInductance.QuantityType, ElectricInductance.Zero); + Assertion(FuelEfficiency.QuantityType, FuelEfficiency.Zero); Assertion(ElectricPotential.QuantityType, ElectricPotential.Zero); - Assertion(ElectricPotentialAc.QuantityType, ElectricPotentialAc.Zero); - Assertion(ElectricPotentialChangeRate.QuantityType, ElectricPotentialChangeRate.Zero); + Assertion(VolumePerLength.QuantityType, VolumePerLength.Zero); + Assertion(AreaMomentOfInertia.QuantityType, AreaMomentOfInertia.Zero); + Assertion(VitaminA.QuantityType, VitaminA.Zero); + Assertion(Illuminance.QuantityType, Illuminance.Zero); + Assertion(Mass.QuantityType, Mass.Zero); + Assertion(MolarEntropy.QuantityType, MolarEntropy.Zero); + Assertion(KinematicViscosity.QuantityType, KinematicViscosity.Zero); + Assertion(Energy.QuantityType, Energy.Zero); + Assertion(SpecificFuelConsumption.QuantityType, SpecificFuelConsumption.Zero); + Assertion(PowerRatio.QuantityType, PowerRatio.Zero); + Assertion(ElectricCurrentDensity.QuantityType, ElectricCurrentDensity.Zero); Assertion(ElectricPotentialDc.QuantityType, ElectricPotentialDc.Zero); - Assertion(ElectricResistance.QuantityType, ElectricResistance.Zero); + Assertion(Length.QuantityType, Length.Zero); + Assertion(MassMomentOfInertia.QuantityType, MassMomentOfInertia.Zero); + Assertion(WarpingMomentOfInertia.QuantityType, WarpingMomentOfInertia.Zero); + Assertion(Temperature.QuantityType, Temperature.Zero); + Assertion(MassConcentration.QuantityType, MassConcentration.Zero); Assertion(ElectricResistivity.QuantityType, ElectricResistivity.Zero); + Assertion(Turbidity.QuantityType, Turbidity.Zero); + Assertion(LuminousIntensity.QuantityType, LuminousIntensity.Zero); Assertion(ElectricSurfaceChargeDensity.QuantityType, ElectricSurfaceChargeDensity.Zero); - Assertion(Energy.QuantityType, Energy.Zero); - Assertion(Entropy.QuantityType, Entropy.Zero); Assertion(Force.QuantityType, Force.Zero); - Assertion(ForceChangeRate.QuantityType, ForceChangeRate.Zero); - Assertion(ForcePerLength.QuantityType, ForcePerLength.Zero); - Assertion(Frequency.QuantityType, Frequency.Zero); - Assertion(FuelEfficiency.QuantityType, FuelEfficiency.Zero); + Assertion(RotationalSpeed.QuantityType, RotationalSpeed.Zero); + Assertion(SpecificVolume.QuantityType, SpecificVolume.Zero); + Assertion(SpecificWeight.QuantityType, SpecificWeight.Zero); Assertion(HeatFlux.QuantityType, HeatFlux.Zero); - Assertion(HeatTransferCoefficient.QuantityType, HeatTransferCoefficient.Zero); - Assertion(Illuminance.QuantityType, Illuminance.Zero); - Assertion(Information.QuantityType, Information.Zero); - Assertion(Irradiance.QuantityType, Irradiance.Zero); - Assertion(Irradiation.QuantityType, Irradiation.Zero); - Assertion(KinematicViscosity.QuantityType, KinematicViscosity.Zero); - Assertion(LapseRate.QuantityType, LapseRate.Zero); - Assertion(Length.QuantityType, Length.Zero); - Assertion(Level.QuantityType, Level.Zero); - Assertion(LinearDensity.QuantityType, LinearDensity.Zero); - Assertion(LinearPowerDensity.QuantityType, LinearPowerDensity.Zero); - Assertion(Luminosity.QuantityType, Luminosity.Zero); - Assertion(LuminousFlux.QuantityType, LuminousFlux.Zero); - Assertion(LuminousIntensity.QuantityType, LuminousIntensity.Zero); - Assertion(MagneticField.QuantityType, MagneticField.Zero); - Assertion(MagneticFlux.QuantityType, MagneticFlux.Zero); - Assertion(Magnetization.QuantityType, Magnetization.Zero); - Assertion(Mass.QuantityType, Mass.Zero); - Assertion(MassConcentration.QuantityType, MassConcentration.Zero); - Assertion(MassFlow.QuantityType, MassFlow.Zero); - Assertion(MassFlux.QuantityType, MassFlux.Zero); - Assertion(MassFraction.QuantityType, MassFraction.Zero); - Assertion(MassMomentOfInertia.QuantityType, MassMomentOfInertia.Zero); - Assertion(MolarEnergy.QuantityType, MolarEnergy.Zero); - Assertion(MolarEntropy.QuantityType, MolarEntropy.Zero); - Assertion(Molarity.QuantityType, Molarity.Zero); + Assertion(Torque.QuantityType, Torque.Zero); + Assertion(Entropy.QuantityType, Entropy.Zero); + Assertion(TorquePerLength.QuantityType, TorquePerLength.Zero); + Assertion(Angle.QuantityType, Angle.Zero); + Assertion(ThermalConductivity.QuantityType, ThermalConductivity.Zero); + Assertion(BrakeSpecificFuelConsumption.QuantityType, BrakeSpecificFuelConsumption.Zero); Assertion(MolarMass.QuantityType, MolarMass.Zero); - Assertion(Permeability.QuantityType, Permeability.Zero); - Assertion(Permittivity.QuantityType, Permittivity.Zero); - Assertion(Power.QuantityType, Power.Zero); - Assertion(PowerDensity.QuantityType, PowerDensity.Zero); - Assertion(PowerRatio.QuantityType, PowerRatio.Zero); - Assertion(Pressure.QuantityType, Pressure.Zero); - Assertion(PressureChangeRate.QuantityType, PressureChangeRate.Zero); + Assertion(MassFlow.QuantityType, MassFlow.Zero); Assertion(Ratio.QuantityType, Ratio.Zero); + Assertion(Duration.QuantityType, Duration.Zero); + Assertion(ElectricResistance.QuantityType, ElectricResistance.Zero); + Assertion(ThermalResistance.QuantityType, ThermalResistance.Zero); + Assertion(Magnetization.QuantityType, Magnetization.Zero); + Assertion(TemperatureDelta.QuantityType, TemperatureDelta.Zero); + Assertion(ElectricAdmittance.QuantityType, ElectricAdmittance.Zero); + Assertion(ElectricCurrent.QuantityType, ElectricCurrent.Zero); + Assertion(Density.QuantityType, Density.Zero); + Assertion(ElectricCurrentGradient.QuantityType, ElectricCurrentGradient.Zero); + Assertion(TemperatureChangeRate.QuantityType, TemperatureChangeRate.Zero); + Assertion(ElectricInductance.QuantityType, ElectricInductance.Zero); Assertion(RatioChangeRate.QuantityType, RatioChangeRate.Zero); - Assertion(ReactiveEnergy.QuantityType, ReactiveEnergy.Zero); + Assertion(HeatTransferCoefficient.QuantityType, HeatTransferCoefficient.Zero); + Assertion(MassFraction.QuantityType, MassFraction.Zero); + Assertion(MagneticField.QuantityType, MagneticField.Zero); + Assertion(Permeability.QuantityType, Permeability.Zero); + Assertion(ElectricCharge.QuantityType, ElectricCharge.Zero); + Assertion(ElectricConductivity.QuantityType, ElectricConductivity.Zero); Assertion(ReactivePower.QuantityType, ReactivePower.Zero); - Assertion(ReciprocalArea.QuantityType, ReciprocalArea.Zero); - Assertion(ReciprocalLength.QuantityType, ReciprocalLength.Zero); - Assertion(RelativeHumidity.QuantityType, RelativeHumidity.Zero); - Assertion(RotationalAcceleration.QuantityType, RotationalAcceleration.Zero); - Assertion(RotationalSpeed.QuantityType, RotationalSpeed.Zero); - Assertion(RotationalStiffness.QuantityType, RotationalStiffness.Zero); - Assertion(RotationalStiffnessPerLength.QuantityType, RotationalStiffnessPerLength.Zero); + Assertion(ElectricPotentialAc.QuantityType, ElectricPotentialAc.Zero); + Assertion(Irradiance.QuantityType, Irradiance.Zero); Assertion(Scalar.QuantityType, Scalar.Zero); - Assertion(SolidAngle.QuantityType, SolidAngle.Zero); - Assertion(SpecificEnergy.QuantityType, SpecificEnergy.Zero); - Assertion(SpecificEntropy.QuantityType, SpecificEntropy.Zero); - Assertion(SpecificFuelConsumption.QuantityType, SpecificFuelConsumption.Zero); - Assertion(SpecificVolume.QuantityType, SpecificVolume.Zero); - Assertion(SpecificWeight.QuantityType, SpecificWeight.Zero); - Assertion(Speed.QuantityType, Speed.Zero); - Assertion(StandardVolumeFlow.QuantityType, StandardVolumeFlow.Zero); - Assertion(Temperature.QuantityType, Temperature.Zero); - Assertion(TemperatureChangeRate.QuantityType, TemperatureChangeRate.Zero); - Assertion(TemperatureDelta.QuantityType, TemperatureDelta.Zero); - Assertion(ThermalConductivity.QuantityType, ThermalConductivity.Zero); - Assertion(ThermalResistance.QuantityType, ThermalResistance.Zero); - Assertion(Torque.QuantityType, Torque.Zero); - Assertion(TorquePerLength.QuantityType, TorquePerLength.Zero); - Assertion(Turbidity.QuantityType, Turbidity.Zero); - Assertion(VitaminA.QuantityType, VitaminA.Zero); - Assertion(Volume.QuantityType, Volume.Zero); - Assertion(VolumeConcentration.QuantityType, VolumeConcentration.Zero); - Assertion(VolumeFlow.QuantityType, VolumeFlow.Zero); - Assertion(VolumePerLength.QuantityType, VolumePerLength.Zero); - Assertion(VolumetricHeatCapacity.QuantityType, VolumetricHeatCapacity.Zero); - Assertion(WarpingMomentOfInertia.QuantityType, WarpingMomentOfInertia.Zero); } [Fact] @@ -385,116 +385,116 @@ public void Dimensions_IsSameAsStaticBaseDimensions() { void Assertion(BaseDimensions expected, IQuantity quantity) => Assert.Equal(expected, quantity.Dimensions); - Assertion(Acceleration.BaseDimensions, Acceleration.Zero); + Assertion(SpecificEntropy.BaseDimensions, SpecificEntropy.Zero); + Assertion(Molarity.BaseDimensions, Molarity.Zero); Assertion(AmountOfSubstance.BaseDimensions, AmountOfSubstance.Zero); - Assertion(AmplitudeRatio.BaseDimensions, AmplitudeRatio.Zero); - Assertion(Angle.BaseDimensions, Angle.Zero); - Assertion(ApparentEnergy.BaseDimensions, ApparentEnergy.Zero); + Assertion(PressureChangeRate.BaseDimensions, PressureChangeRate.Zero); + Assertion(CoefficientOfThermalExpansion.BaseDimensions, CoefficientOfThermalExpansion.Zero); + Assertion(Pressure.BaseDimensions, Pressure.Zero); + Assertion(Irradiation.BaseDimensions, Irradiation.Zero); + Assertion(ElectricConductance.BaseDimensions, ElectricConductance.Zero); + Assertion(Acceleration.BaseDimensions, Acceleration.Zero); + Assertion(RotationalAcceleration.BaseDimensions, RotationalAcceleration.Zero); + Assertion(Volume.BaseDimensions, Volume.Zero); + Assertion(Frequency.BaseDimensions, Frequency.Zero); + Assertion(DynamicViscosity.BaseDimensions, DynamicViscosity.Zero); + Assertion(VolumetricHeatCapacity.BaseDimensions, VolumetricHeatCapacity.Zero); + Assertion(Level.BaseDimensions, Level.Zero); + Assertion(MolarEnergy.BaseDimensions, MolarEnergy.Zero); Assertion(ApparentPower.BaseDimensions, ApparentPower.Zero); - Assertion(Area.BaseDimensions, Area.Zero); + Assertion(ReactiveEnergy.BaseDimensions, ReactiveEnergy.Zero); + Assertion(LuminousFlux.BaseDimensions, LuminousFlux.Zero); + Assertion(SpecificEnergy.BaseDimensions, SpecificEnergy.Zero); + Assertion(PowerDensity.BaseDimensions, PowerDensity.Zero); + Assertion(ForcePerLength.BaseDimensions, ForcePerLength.Zero); + Assertion(Luminosity.BaseDimensions, Luminosity.Zero); + Assertion(ElectricField.BaseDimensions, ElectricField.Zero); + Assertion(StandardVolumeFlow.BaseDimensions, StandardVolumeFlow.Zero); + Assertion(Power.BaseDimensions, Power.Zero); + Assertion(AmplitudeRatio.BaseDimensions, AmplitudeRatio.Zero); + Assertion(ReciprocalArea.BaseDimensions, ReciprocalArea.Zero); + Assertion(ForceChangeRate.BaseDimensions, ForceChangeRate.Zero); + Assertion(SolidAngle.BaseDimensions, SolidAngle.Zero); + Assertion(RelativeHumidity.BaseDimensions, RelativeHumidity.Zero); + Assertion(RotationalStiffnessPerLength.BaseDimensions, RotationalStiffnessPerLength.Zero); + Assertion(VolumeFlow.BaseDimensions, VolumeFlow.Zero); + Assertion(LinearPowerDensity.BaseDimensions, LinearPowerDensity.Zero); + Assertion(ElectricPotentialChangeRate.BaseDimensions, ElectricPotentialChangeRate.Zero); + Assertion(Capacitance.BaseDimensions, Capacitance.Zero); + Assertion(LinearDensity.BaseDimensions, LinearDensity.Zero); + Assertion(ReciprocalLength.BaseDimensions, ReciprocalLength.Zero); Assertion(AreaDensity.BaseDimensions, AreaDensity.Zero); - Assertion(AreaMomentOfInertia.BaseDimensions, AreaMomentOfInertia.Zero); + Assertion(MassFlux.BaseDimensions, MassFlux.Zero); + Assertion(MagneticFlux.BaseDimensions, MagneticFlux.Zero); + Assertion(ApparentEnergy.BaseDimensions, ApparentEnergy.Zero); + Assertion(Speed.BaseDimensions, Speed.Zero); Assertion(BitRate.BaseDimensions, BitRate.Zero); - Assertion(BrakeSpecificFuelConsumption.BaseDimensions, BrakeSpecificFuelConsumption.Zero); - Assertion(Capacitance.BaseDimensions, Capacitance.Zero); - Assertion(CoefficientOfThermalExpansion.BaseDimensions, CoefficientOfThermalExpansion.Zero); - Assertion(Density.BaseDimensions, Density.Zero); - Assertion(Duration.BaseDimensions, Duration.Zero); - Assertion(DynamicViscosity.BaseDimensions, DynamicViscosity.Zero); - Assertion(ElectricAdmittance.BaseDimensions, ElectricAdmittance.Zero); - Assertion(ElectricCharge.BaseDimensions, ElectricCharge.Zero); + Assertion(Area.BaseDimensions, Area.Zero); + Assertion(VolumeConcentration.BaseDimensions, VolumeConcentration.Zero); + Assertion(Permittivity.BaseDimensions, Permittivity.Zero); + Assertion(Information.BaseDimensions, Information.Zero); + Assertion(LapseRate.BaseDimensions, LapseRate.Zero); + Assertion(RotationalStiffness.BaseDimensions, RotationalStiffness.Zero); Assertion(ElectricChargeDensity.BaseDimensions, ElectricChargeDensity.Zero); - Assertion(ElectricConductance.BaseDimensions, ElectricConductance.Zero); - Assertion(ElectricConductivity.BaseDimensions, ElectricConductivity.Zero); - Assertion(ElectricCurrent.BaseDimensions, ElectricCurrent.Zero); - Assertion(ElectricCurrentDensity.BaseDimensions, ElectricCurrentDensity.Zero); - Assertion(ElectricCurrentGradient.BaseDimensions, ElectricCurrentGradient.Zero); - Assertion(ElectricField.BaseDimensions, ElectricField.Zero); - Assertion(ElectricInductance.BaseDimensions, ElectricInductance.Zero); + Assertion(FuelEfficiency.BaseDimensions, FuelEfficiency.Zero); Assertion(ElectricPotential.BaseDimensions, ElectricPotential.Zero); - Assertion(ElectricPotentialAc.BaseDimensions, ElectricPotentialAc.Zero); - Assertion(ElectricPotentialChangeRate.BaseDimensions, ElectricPotentialChangeRate.Zero); + Assertion(VolumePerLength.BaseDimensions, VolumePerLength.Zero); + Assertion(AreaMomentOfInertia.BaseDimensions, AreaMomentOfInertia.Zero); + Assertion(VitaminA.BaseDimensions, VitaminA.Zero); + Assertion(Illuminance.BaseDimensions, Illuminance.Zero); + Assertion(Mass.BaseDimensions, Mass.Zero); + Assertion(MolarEntropy.BaseDimensions, MolarEntropy.Zero); + Assertion(KinematicViscosity.BaseDimensions, KinematicViscosity.Zero); + Assertion(Energy.BaseDimensions, Energy.Zero); + Assertion(SpecificFuelConsumption.BaseDimensions, SpecificFuelConsumption.Zero); + Assertion(PowerRatio.BaseDimensions, PowerRatio.Zero); + Assertion(ElectricCurrentDensity.BaseDimensions, ElectricCurrentDensity.Zero); Assertion(ElectricPotentialDc.BaseDimensions, ElectricPotentialDc.Zero); - Assertion(ElectricResistance.BaseDimensions, ElectricResistance.Zero); + Assertion(Length.BaseDimensions, Length.Zero); + Assertion(MassMomentOfInertia.BaseDimensions, MassMomentOfInertia.Zero); + Assertion(WarpingMomentOfInertia.BaseDimensions, WarpingMomentOfInertia.Zero); + Assertion(Temperature.BaseDimensions, Temperature.Zero); + Assertion(MassConcentration.BaseDimensions, MassConcentration.Zero); Assertion(ElectricResistivity.BaseDimensions, ElectricResistivity.Zero); + Assertion(Turbidity.BaseDimensions, Turbidity.Zero); + Assertion(LuminousIntensity.BaseDimensions, LuminousIntensity.Zero); Assertion(ElectricSurfaceChargeDensity.BaseDimensions, ElectricSurfaceChargeDensity.Zero); - Assertion(Energy.BaseDimensions, Energy.Zero); - Assertion(Entropy.BaseDimensions, Entropy.Zero); Assertion(Force.BaseDimensions, Force.Zero); - Assertion(ForceChangeRate.BaseDimensions, ForceChangeRate.Zero); - Assertion(ForcePerLength.BaseDimensions, ForcePerLength.Zero); - Assertion(Frequency.BaseDimensions, Frequency.Zero); - Assertion(FuelEfficiency.BaseDimensions, FuelEfficiency.Zero); + Assertion(RotationalSpeed.BaseDimensions, RotationalSpeed.Zero); + Assertion(SpecificVolume.BaseDimensions, SpecificVolume.Zero); + Assertion(SpecificWeight.BaseDimensions, SpecificWeight.Zero); Assertion(HeatFlux.BaseDimensions, HeatFlux.Zero); - Assertion(HeatTransferCoefficient.BaseDimensions, HeatTransferCoefficient.Zero); - Assertion(Illuminance.BaseDimensions, Illuminance.Zero); - Assertion(Information.BaseDimensions, Information.Zero); - Assertion(Irradiance.BaseDimensions, Irradiance.Zero); - Assertion(Irradiation.BaseDimensions, Irradiation.Zero); - Assertion(KinematicViscosity.BaseDimensions, KinematicViscosity.Zero); - Assertion(LapseRate.BaseDimensions, LapseRate.Zero); - Assertion(Length.BaseDimensions, Length.Zero); - Assertion(Level.BaseDimensions, Level.Zero); - Assertion(LinearDensity.BaseDimensions, LinearDensity.Zero); - Assertion(LinearPowerDensity.BaseDimensions, LinearPowerDensity.Zero); - Assertion(Luminosity.BaseDimensions, Luminosity.Zero); - Assertion(LuminousFlux.BaseDimensions, LuminousFlux.Zero); - Assertion(LuminousIntensity.BaseDimensions, LuminousIntensity.Zero); - Assertion(MagneticField.BaseDimensions, MagneticField.Zero); - Assertion(MagneticFlux.BaseDimensions, MagneticFlux.Zero); - Assertion(Magnetization.BaseDimensions, Magnetization.Zero); - Assertion(Mass.BaseDimensions, Mass.Zero); - Assertion(MassConcentration.BaseDimensions, MassConcentration.Zero); - Assertion(MassFlow.BaseDimensions, MassFlow.Zero); - Assertion(MassFlux.BaseDimensions, MassFlux.Zero); - Assertion(MassFraction.BaseDimensions, MassFraction.Zero); - Assertion(MassMomentOfInertia.BaseDimensions, MassMomentOfInertia.Zero); - Assertion(MolarEnergy.BaseDimensions, MolarEnergy.Zero); - Assertion(MolarEntropy.BaseDimensions, MolarEntropy.Zero); - Assertion(Molarity.BaseDimensions, Molarity.Zero); + Assertion(Torque.BaseDimensions, Torque.Zero); + Assertion(Entropy.BaseDimensions, Entropy.Zero); + Assertion(TorquePerLength.BaseDimensions, TorquePerLength.Zero); + Assertion(Angle.BaseDimensions, Angle.Zero); + Assertion(ThermalConductivity.BaseDimensions, ThermalConductivity.Zero); + Assertion(BrakeSpecificFuelConsumption.BaseDimensions, BrakeSpecificFuelConsumption.Zero); Assertion(MolarMass.BaseDimensions, MolarMass.Zero); - Assertion(Permeability.BaseDimensions, Permeability.Zero); - Assertion(Permittivity.BaseDimensions, Permittivity.Zero); - Assertion(Power.BaseDimensions, Power.Zero); - Assertion(PowerDensity.BaseDimensions, PowerDensity.Zero); - Assertion(PowerRatio.BaseDimensions, PowerRatio.Zero); - Assertion(Pressure.BaseDimensions, Pressure.Zero); - Assertion(PressureChangeRate.BaseDimensions, PressureChangeRate.Zero); + Assertion(MassFlow.BaseDimensions, MassFlow.Zero); Assertion(Ratio.BaseDimensions, Ratio.Zero); + Assertion(Duration.BaseDimensions, Duration.Zero); + Assertion(ElectricResistance.BaseDimensions, ElectricResistance.Zero); + Assertion(ThermalResistance.BaseDimensions, ThermalResistance.Zero); + Assertion(Magnetization.BaseDimensions, Magnetization.Zero); + Assertion(TemperatureDelta.BaseDimensions, TemperatureDelta.Zero); + Assertion(ElectricAdmittance.BaseDimensions, ElectricAdmittance.Zero); + Assertion(ElectricCurrent.BaseDimensions, ElectricCurrent.Zero); + Assertion(Density.BaseDimensions, Density.Zero); + Assertion(ElectricCurrentGradient.BaseDimensions, ElectricCurrentGradient.Zero); + Assertion(TemperatureChangeRate.BaseDimensions, TemperatureChangeRate.Zero); + Assertion(ElectricInductance.BaseDimensions, ElectricInductance.Zero); Assertion(RatioChangeRate.BaseDimensions, RatioChangeRate.Zero); - Assertion(ReactiveEnergy.BaseDimensions, ReactiveEnergy.Zero); + Assertion(HeatTransferCoefficient.BaseDimensions, HeatTransferCoefficient.Zero); + Assertion(MassFraction.BaseDimensions, MassFraction.Zero); + Assertion(MagneticField.BaseDimensions, MagneticField.Zero); + Assertion(Permeability.BaseDimensions, Permeability.Zero); + Assertion(ElectricCharge.BaseDimensions, ElectricCharge.Zero); + Assertion(ElectricConductivity.BaseDimensions, ElectricConductivity.Zero); Assertion(ReactivePower.BaseDimensions, ReactivePower.Zero); - Assertion(ReciprocalArea.BaseDimensions, ReciprocalArea.Zero); - Assertion(ReciprocalLength.BaseDimensions, ReciprocalLength.Zero); - Assertion(RelativeHumidity.BaseDimensions, RelativeHumidity.Zero); - Assertion(RotationalAcceleration.BaseDimensions, RotationalAcceleration.Zero); - Assertion(RotationalSpeed.BaseDimensions, RotationalSpeed.Zero); - Assertion(RotationalStiffness.BaseDimensions, RotationalStiffness.Zero); - Assertion(RotationalStiffnessPerLength.BaseDimensions, RotationalStiffnessPerLength.Zero); + Assertion(ElectricPotentialAc.BaseDimensions, ElectricPotentialAc.Zero); + Assertion(Irradiance.BaseDimensions, Irradiance.Zero); Assertion(Scalar.BaseDimensions, Scalar.Zero); - Assertion(SolidAngle.BaseDimensions, SolidAngle.Zero); - Assertion(SpecificEnergy.BaseDimensions, SpecificEnergy.Zero); - Assertion(SpecificEntropy.BaseDimensions, SpecificEntropy.Zero); - Assertion(SpecificFuelConsumption.BaseDimensions, SpecificFuelConsumption.Zero); - Assertion(SpecificVolume.BaseDimensions, SpecificVolume.Zero); - Assertion(SpecificWeight.BaseDimensions, SpecificWeight.Zero); - Assertion(Speed.BaseDimensions, Speed.Zero); - Assertion(StandardVolumeFlow.BaseDimensions, StandardVolumeFlow.Zero); - Assertion(Temperature.BaseDimensions, Temperature.Zero); - Assertion(TemperatureChangeRate.BaseDimensions, TemperatureChangeRate.Zero); - Assertion(TemperatureDelta.BaseDimensions, TemperatureDelta.Zero); - Assertion(ThermalConductivity.BaseDimensions, ThermalConductivity.Zero); - Assertion(ThermalResistance.BaseDimensions, ThermalResistance.Zero); - Assertion(Torque.BaseDimensions, Torque.Zero); - Assertion(TorquePerLength.BaseDimensions, TorquePerLength.Zero); - Assertion(Turbidity.BaseDimensions, Turbidity.Zero); - Assertion(VitaminA.BaseDimensions, VitaminA.Zero); - Assertion(Volume.BaseDimensions, Volume.Zero); - Assertion(VolumeConcentration.BaseDimensions, VolumeConcentration.Zero); - Assertion(VolumeFlow.BaseDimensions, VolumeFlow.Zero); - Assertion(VolumePerLength.BaseDimensions, VolumePerLength.Zero); - Assertion(VolumetricHeatCapacity.BaseDimensions, VolumetricHeatCapacity.Zero); - Assertion(WarpingMomentOfInertia.BaseDimensions, WarpingMomentOfInertia.Zero); } } } diff --git a/UnitsNet.WindowsRuntimeComponent/GeneratedCode/Quantity.g.cs b/UnitsNet.WindowsRuntimeComponent/GeneratedCode/Quantity.g.cs index 77af9b86c2..5f9afd4240 100644 --- a/UnitsNet.WindowsRuntimeComponent/GeneratedCode/Quantity.g.cs +++ b/UnitsNet.WindowsRuntimeComponent/GeneratedCode/Quantity.g.cs @@ -41,335 +41,335 @@ internal static bool TryFrom(double value, Enum unit, out IQuantity quantity) { switch (unit) { - case AccelerationUnit accelerationUnit: - quantity = Acceleration.From(value, accelerationUnit); + case SpecificEntropyUnit specificEntropyUnit: + quantity = SpecificEntropy.From(value, specificEntropyUnit); + return true; + case MolarityUnit molarityUnit: + quantity = Molarity.From(value, molarityUnit); return true; case AmountOfSubstanceUnit amountOfSubstanceUnit: quantity = AmountOfSubstance.From(value, amountOfSubstanceUnit); return true; - case AmplitudeRatioUnit amplitudeRatioUnit: - quantity = AmplitudeRatio.From(value, amplitudeRatioUnit); - return true; - case AngleUnit angleUnit: - quantity = Angle.From(value, angleUnit); - return true; - case ApparentEnergyUnit apparentEnergyUnit: - quantity = ApparentEnergy.From(value, apparentEnergyUnit); - return true; - case ApparentPowerUnit apparentPowerUnit: - quantity = ApparentPower.From(value, apparentPowerUnit); - return true; - case AreaUnit areaUnit: - quantity = Area.From(value, areaUnit); + case PressureChangeRateUnit pressureChangeRateUnit: + quantity = PressureChangeRate.From(value, pressureChangeRateUnit); return true; - case AreaDensityUnit areaDensityUnit: - quantity = AreaDensity.From(value, areaDensityUnit); + case CoefficientOfThermalExpansionUnit coefficientOfThermalExpansionUnit: + quantity = CoefficientOfThermalExpansion.From(value, coefficientOfThermalExpansionUnit); return true; - case AreaMomentOfInertiaUnit areaMomentOfInertiaUnit: - quantity = AreaMomentOfInertia.From(value, areaMomentOfInertiaUnit); + case PressureUnit pressureUnit: + quantity = Pressure.From(value, pressureUnit); return true; - case BitRateUnit bitRateUnit: - quantity = BitRate.From(value, bitRateUnit); + case IrradiationUnit irradiationUnit: + quantity = Irradiation.From(value, irradiationUnit); return true; - case BrakeSpecificFuelConsumptionUnit brakeSpecificFuelConsumptionUnit: - quantity = BrakeSpecificFuelConsumption.From(value, brakeSpecificFuelConsumptionUnit); + case ElectricConductanceUnit electricConductanceUnit: + quantity = ElectricConductance.From(value, electricConductanceUnit); return true; - case CapacitanceUnit capacitanceUnit: - quantity = Capacitance.From(value, capacitanceUnit); + case AccelerationUnit accelerationUnit: + quantity = Acceleration.From(value, accelerationUnit); return true; - case CoefficientOfThermalExpansionUnit coefficientOfThermalExpansionUnit: - quantity = CoefficientOfThermalExpansion.From(value, coefficientOfThermalExpansionUnit); + case RotationalAccelerationUnit rotationalAccelerationUnit: + quantity = RotationalAcceleration.From(value, rotationalAccelerationUnit); return true; - case DensityUnit densityUnit: - quantity = Density.From(value, densityUnit); + case VolumeUnit volumeUnit: + quantity = Volume.From(value, volumeUnit); return true; - case DurationUnit durationUnit: - quantity = Duration.From(value, durationUnit); + case FrequencyUnit frequencyUnit: + quantity = Frequency.From(value, frequencyUnit); return true; case DynamicViscosityUnit dynamicViscosityUnit: quantity = DynamicViscosity.From(value, dynamicViscosityUnit); return true; - case ElectricAdmittanceUnit electricAdmittanceUnit: - quantity = ElectricAdmittance.From(value, electricAdmittanceUnit); + case VolumetricHeatCapacityUnit volumetricHeatCapacityUnit: + quantity = VolumetricHeatCapacity.From(value, volumetricHeatCapacityUnit); return true; - case ElectricChargeUnit electricChargeUnit: - quantity = ElectricCharge.From(value, electricChargeUnit); + case LevelUnit levelUnit: + quantity = Level.From(value, levelUnit); return true; - case ElectricChargeDensityUnit electricChargeDensityUnit: - quantity = ElectricChargeDensity.From(value, electricChargeDensityUnit); + case MolarEnergyUnit molarEnergyUnit: + quantity = MolarEnergy.From(value, molarEnergyUnit); return true; - case ElectricConductanceUnit electricConductanceUnit: - quantity = ElectricConductance.From(value, electricConductanceUnit); + case ApparentPowerUnit apparentPowerUnit: + quantity = ApparentPower.From(value, apparentPowerUnit); return true; - case ElectricConductivityUnit electricConductivityUnit: - quantity = ElectricConductivity.From(value, electricConductivityUnit); + case ReactiveEnergyUnit reactiveEnergyUnit: + quantity = ReactiveEnergy.From(value, reactiveEnergyUnit); return true; - case ElectricCurrentUnit electricCurrentUnit: - quantity = ElectricCurrent.From(value, electricCurrentUnit); + case LuminousFluxUnit luminousFluxUnit: + quantity = LuminousFlux.From(value, luminousFluxUnit); return true; - case ElectricCurrentDensityUnit electricCurrentDensityUnit: - quantity = ElectricCurrentDensity.From(value, electricCurrentDensityUnit); + case SpecificEnergyUnit specificEnergyUnit: + quantity = SpecificEnergy.From(value, specificEnergyUnit); return true; - case ElectricCurrentGradientUnit electricCurrentGradientUnit: - quantity = ElectricCurrentGradient.From(value, electricCurrentGradientUnit); + case PowerDensityUnit powerDensityUnit: + quantity = PowerDensity.From(value, powerDensityUnit); + return true; + case ForcePerLengthUnit forcePerLengthUnit: + quantity = ForcePerLength.From(value, forcePerLengthUnit); + return true; + case LuminosityUnit luminosityUnit: + quantity = Luminosity.From(value, luminosityUnit); return true; case ElectricFieldUnit electricFieldUnit: quantity = ElectricField.From(value, electricFieldUnit); return true; - case ElectricInductanceUnit electricInductanceUnit: - quantity = ElectricInductance.From(value, electricInductanceUnit); + case StandardVolumeFlowUnit standardVolumeFlowUnit: + quantity = StandardVolumeFlow.From(value, standardVolumeFlowUnit); return true; - case ElectricPotentialUnit electricPotentialUnit: - quantity = ElectricPotential.From(value, electricPotentialUnit); + case PowerUnit powerUnit: + quantity = Power.From(value, powerUnit); return true; - case ElectricPotentialAcUnit electricPotentialAcUnit: - quantity = ElectricPotentialAc.From(value, electricPotentialAcUnit); + case AmplitudeRatioUnit amplitudeRatioUnit: + quantity = AmplitudeRatio.From(value, amplitudeRatioUnit); return true; - case ElectricPotentialChangeRateUnit electricPotentialChangeRateUnit: - quantity = ElectricPotentialChangeRate.From(value, electricPotentialChangeRateUnit); + case ReciprocalAreaUnit reciprocalAreaUnit: + quantity = ReciprocalArea.From(value, reciprocalAreaUnit); return true; - case ElectricPotentialDcUnit electricPotentialDcUnit: - quantity = ElectricPotentialDc.From(value, electricPotentialDcUnit); + case ForceChangeRateUnit forceChangeRateUnit: + quantity = ForceChangeRate.From(value, forceChangeRateUnit); return true; - case ElectricResistanceUnit electricResistanceUnit: - quantity = ElectricResistance.From(value, electricResistanceUnit); + case SolidAngleUnit solidAngleUnit: + quantity = SolidAngle.From(value, solidAngleUnit); return true; - case ElectricResistivityUnit electricResistivityUnit: - quantity = ElectricResistivity.From(value, electricResistivityUnit); + case RelativeHumidityUnit relativeHumidityUnit: + quantity = RelativeHumidity.From(value, relativeHumidityUnit); return true; - case ElectricSurfaceChargeDensityUnit electricSurfaceChargeDensityUnit: - quantity = ElectricSurfaceChargeDensity.From(value, electricSurfaceChargeDensityUnit); + case RotationalStiffnessPerLengthUnit rotationalStiffnessPerLengthUnit: + quantity = RotationalStiffnessPerLength.From(value, rotationalStiffnessPerLengthUnit); return true; - case EnergyUnit energyUnit: - quantity = Energy.From(value, energyUnit); + case VolumeFlowUnit volumeFlowUnit: + quantity = VolumeFlow.From(value, volumeFlowUnit); return true; - case EntropyUnit entropyUnit: - quantity = Entropy.From(value, entropyUnit); + case LinearPowerDensityUnit linearPowerDensityUnit: + quantity = LinearPowerDensity.From(value, linearPowerDensityUnit); return true; - case ForceUnit forceUnit: - quantity = Force.From(value, forceUnit); + case ElectricPotentialChangeRateUnit electricPotentialChangeRateUnit: + quantity = ElectricPotentialChangeRate.From(value, electricPotentialChangeRateUnit); return true; - case ForceChangeRateUnit forceChangeRateUnit: - quantity = ForceChangeRate.From(value, forceChangeRateUnit); + case CapacitanceUnit capacitanceUnit: + quantity = Capacitance.From(value, capacitanceUnit); return true; - case ForcePerLengthUnit forcePerLengthUnit: - quantity = ForcePerLength.From(value, forcePerLengthUnit); + case LinearDensityUnit linearDensityUnit: + quantity = LinearDensity.From(value, linearDensityUnit); return true; - case FrequencyUnit frequencyUnit: - quantity = Frequency.From(value, frequencyUnit); + case ReciprocalLengthUnit reciprocalLengthUnit: + quantity = ReciprocalLength.From(value, reciprocalLengthUnit); return true; - case FuelEfficiencyUnit fuelEfficiencyUnit: - quantity = FuelEfficiency.From(value, fuelEfficiencyUnit); + case AreaDensityUnit areaDensityUnit: + quantity = AreaDensity.From(value, areaDensityUnit); return true; - case HeatFluxUnit heatFluxUnit: - quantity = HeatFlux.From(value, heatFluxUnit); + case MassFluxUnit massFluxUnit: + quantity = MassFlux.From(value, massFluxUnit); return true; - case HeatTransferCoefficientUnit heatTransferCoefficientUnit: - quantity = HeatTransferCoefficient.From(value, heatTransferCoefficientUnit); + case MagneticFluxUnit magneticFluxUnit: + quantity = MagneticFlux.From(value, magneticFluxUnit); return true; - case IlluminanceUnit illuminanceUnit: - quantity = Illuminance.From(value, illuminanceUnit); + case ApparentEnergyUnit apparentEnergyUnit: + quantity = ApparentEnergy.From(value, apparentEnergyUnit); return true; - case InformationUnit informationUnit: - quantity = Information.From(value, informationUnit); + case SpeedUnit speedUnit: + quantity = Speed.From(value, speedUnit); return true; - case IrradianceUnit irradianceUnit: - quantity = Irradiance.From(value, irradianceUnit); + case BitRateUnit bitRateUnit: + quantity = BitRate.From(value, bitRateUnit); return true; - case IrradiationUnit irradiationUnit: - quantity = Irradiation.From(value, irradiationUnit); + case AreaUnit areaUnit: + quantity = Area.From(value, areaUnit); return true; - case KinematicViscosityUnit kinematicViscosityUnit: - quantity = KinematicViscosity.From(value, kinematicViscosityUnit); + case VolumeConcentrationUnit volumeConcentrationUnit: + quantity = VolumeConcentration.From(value, volumeConcentrationUnit); return true; - case LapseRateUnit lapseRateUnit: - quantity = LapseRate.From(value, lapseRateUnit); + case PermittivityUnit permittivityUnit: + quantity = Permittivity.From(value, permittivityUnit); return true; - case LengthUnit lengthUnit: - quantity = Length.From(value, lengthUnit); + case InformationUnit informationUnit: + quantity = Information.From(value, informationUnit); return true; - case LevelUnit levelUnit: - quantity = Level.From(value, levelUnit); + case LapseRateUnit lapseRateUnit: + quantity = LapseRate.From(value, lapseRateUnit); return true; - case LinearDensityUnit linearDensityUnit: - quantity = LinearDensity.From(value, linearDensityUnit); + case RotationalStiffnessUnit rotationalStiffnessUnit: + quantity = RotationalStiffness.From(value, rotationalStiffnessUnit); return true; - case LinearPowerDensityUnit linearPowerDensityUnit: - quantity = LinearPowerDensity.From(value, linearPowerDensityUnit); + case ElectricChargeDensityUnit electricChargeDensityUnit: + quantity = ElectricChargeDensity.From(value, electricChargeDensityUnit); return true; - case LuminosityUnit luminosityUnit: - quantity = Luminosity.From(value, luminosityUnit); + case FuelEfficiencyUnit fuelEfficiencyUnit: + quantity = FuelEfficiency.From(value, fuelEfficiencyUnit); return true; - case LuminousFluxUnit luminousFluxUnit: - quantity = LuminousFlux.From(value, luminousFluxUnit); + case ElectricPotentialUnit electricPotentialUnit: + quantity = ElectricPotential.From(value, electricPotentialUnit); return true; - case LuminousIntensityUnit luminousIntensityUnit: - quantity = LuminousIntensity.From(value, luminousIntensityUnit); + case VolumePerLengthUnit volumePerLengthUnit: + quantity = VolumePerLength.From(value, volumePerLengthUnit); return true; - case MagneticFieldUnit magneticFieldUnit: - quantity = MagneticField.From(value, magneticFieldUnit); + case AreaMomentOfInertiaUnit areaMomentOfInertiaUnit: + quantity = AreaMomentOfInertia.From(value, areaMomentOfInertiaUnit); return true; - case MagneticFluxUnit magneticFluxUnit: - quantity = MagneticFlux.From(value, magneticFluxUnit); + case VitaminAUnit vitaminAUnit: + quantity = VitaminA.From(value, vitaminAUnit); return true; - case MagnetizationUnit magnetizationUnit: - quantity = Magnetization.From(value, magnetizationUnit); + case IlluminanceUnit illuminanceUnit: + quantity = Illuminance.From(value, illuminanceUnit); return true; case MassUnit massUnit: quantity = Mass.From(value, massUnit); return true; - case MassConcentrationUnit massConcentrationUnit: - quantity = MassConcentration.From(value, massConcentrationUnit); + case MolarEntropyUnit molarEntropyUnit: + quantity = MolarEntropy.From(value, molarEntropyUnit); return true; - case MassFlowUnit massFlowUnit: - quantity = MassFlow.From(value, massFlowUnit); + case KinematicViscosityUnit kinematicViscosityUnit: + quantity = KinematicViscosity.From(value, kinematicViscosityUnit); return true; - case MassFluxUnit massFluxUnit: - quantity = MassFlux.From(value, massFluxUnit); + case EnergyUnit energyUnit: + quantity = Energy.From(value, energyUnit); return true; - case MassFractionUnit massFractionUnit: - quantity = MassFraction.From(value, massFractionUnit); + case SpecificFuelConsumptionUnit specificFuelConsumptionUnit: + quantity = SpecificFuelConsumption.From(value, specificFuelConsumptionUnit); return true; - case MassMomentOfInertiaUnit massMomentOfInertiaUnit: - quantity = MassMomentOfInertia.From(value, massMomentOfInertiaUnit); + case PowerRatioUnit powerRatioUnit: + quantity = PowerRatio.From(value, powerRatioUnit); return true; - case MolarEnergyUnit molarEnergyUnit: - quantity = MolarEnergy.From(value, molarEnergyUnit); + case ElectricCurrentDensityUnit electricCurrentDensityUnit: + quantity = ElectricCurrentDensity.From(value, electricCurrentDensityUnit); return true; - case MolarEntropyUnit molarEntropyUnit: - quantity = MolarEntropy.From(value, molarEntropyUnit); + case ElectricPotentialDcUnit electricPotentialDcUnit: + quantity = ElectricPotentialDc.From(value, electricPotentialDcUnit); return true; - case MolarityUnit molarityUnit: - quantity = Molarity.From(value, molarityUnit); + case LengthUnit lengthUnit: + quantity = Length.From(value, lengthUnit); return true; - case MolarMassUnit molarMassUnit: - quantity = MolarMass.From(value, molarMassUnit); + case MassMomentOfInertiaUnit massMomentOfInertiaUnit: + quantity = MassMomentOfInertia.From(value, massMomentOfInertiaUnit); return true; - case PermeabilityUnit permeabilityUnit: - quantity = Permeability.From(value, permeabilityUnit); + case WarpingMomentOfInertiaUnit warpingMomentOfInertiaUnit: + quantity = WarpingMomentOfInertia.From(value, warpingMomentOfInertiaUnit); return true; - case PermittivityUnit permittivityUnit: - quantity = Permittivity.From(value, permittivityUnit); + case TemperatureUnit temperatureUnit: + quantity = Temperature.From(value, temperatureUnit); return true; - case PowerUnit powerUnit: - quantity = Power.From(value, powerUnit); + case MassConcentrationUnit massConcentrationUnit: + quantity = MassConcentration.From(value, massConcentrationUnit); return true; - case PowerDensityUnit powerDensityUnit: - quantity = PowerDensity.From(value, powerDensityUnit); + case ElectricResistivityUnit electricResistivityUnit: + quantity = ElectricResistivity.From(value, electricResistivityUnit); return true; - case PowerRatioUnit powerRatioUnit: - quantity = PowerRatio.From(value, powerRatioUnit); + case TurbidityUnit turbidityUnit: + quantity = Turbidity.From(value, turbidityUnit); return true; - case PressureUnit pressureUnit: - quantity = Pressure.From(value, pressureUnit); + case LuminousIntensityUnit luminousIntensityUnit: + quantity = LuminousIntensity.From(value, luminousIntensityUnit); return true; - case PressureChangeRateUnit pressureChangeRateUnit: - quantity = PressureChangeRate.From(value, pressureChangeRateUnit); + case ElectricSurfaceChargeDensityUnit electricSurfaceChargeDensityUnit: + quantity = ElectricSurfaceChargeDensity.From(value, electricSurfaceChargeDensityUnit); return true; - case RatioUnit ratioUnit: - quantity = Ratio.From(value, ratioUnit); + case ForceUnit forceUnit: + quantity = Force.From(value, forceUnit); return true; - case RatioChangeRateUnit ratioChangeRateUnit: - quantity = RatioChangeRate.From(value, ratioChangeRateUnit); + case RotationalSpeedUnit rotationalSpeedUnit: + quantity = RotationalSpeed.From(value, rotationalSpeedUnit); return true; - case ReactiveEnergyUnit reactiveEnergyUnit: - quantity = ReactiveEnergy.From(value, reactiveEnergyUnit); + case SpecificVolumeUnit specificVolumeUnit: + quantity = SpecificVolume.From(value, specificVolumeUnit); return true; - case ReactivePowerUnit reactivePowerUnit: - quantity = ReactivePower.From(value, reactivePowerUnit); + case SpecificWeightUnit specificWeightUnit: + quantity = SpecificWeight.From(value, specificWeightUnit); return true; - case ReciprocalAreaUnit reciprocalAreaUnit: - quantity = ReciprocalArea.From(value, reciprocalAreaUnit); + case HeatFluxUnit heatFluxUnit: + quantity = HeatFlux.From(value, heatFluxUnit); return true; - case ReciprocalLengthUnit reciprocalLengthUnit: - quantity = ReciprocalLength.From(value, reciprocalLengthUnit); + case TorqueUnit torqueUnit: + quantity = Torque.From(value, torqueUnit); return true; - case RelativeHumidityUnit relativeHumidityUnit: - quantity = RelativeHumidity.From(value, relativeHumidityUnit); + case EntropyUnit entropyUnit: + quantity = Entropy.From(value, entropyUnit); return true; - case RotationalAccelerationUnit rotationalAccelerationUnit: - quantity = RotationalAcceleration.From(value, rotationalAccelerationUnit); + case TorquePerLengthUnit torquePerLengthUnit: + quantity = TorquePerLength.From(value, torquePerLengthUnit); return true; - case RotationalSpeedUnit rotationalSpeedUnit: - quantity = RotationalSpeed.From(value, rotationalSpeedUnit); + case AngleUnit angleUnit: + quantity = Angle.From(value, angleUnit); return true; - case RotationalStiffnessUnit rotationalStiffnessUnit: - quantity = RotationalStiffness.From(value, rotationalStiffnessUnit); + case ThermalConductivityUnit thermalConductivityUnit: + quantity = ThermalConductivity.From(value, thermalConductivityUnit); return true; - case RotationalStiffnessPerLengthUnit rotationalStiffnessPerLengthUnit: - quantity = RotationalStiffnessPerLength.From(value, rotationalStiffnessPerLengthUnit); + case BrakeSpecificFuelConsumptionUnit brakeSpecificFuelConsumptionUnit: + quantity = BrakeSpecificFuelConsumption.From(value, brakeSpecificFuelConsumptionUnit); return true; - case ScalarUnit scalarUnit: - quantity = Scalar.From(value, scalarUnit); + case MolarMassUnit molarMassUnit: + quantity = MolarMass.From(value, molarMassUnit); return true; - case SolidAngleUnit solidAngleUnit: - quantity = SolidAngle.From(value, solidAngleUnit); + case MassFlowUnit massFlowUnit: + quantity = MassFlow.From(value, massFlowUnit); return true; - case SpecificEnergyUnit specificEnergyUnit: - quantity = SpecificEnergy.From(value, specificEnergyUnit); + case RatioUnit ratioUnit: + quantity = Ratio.From(value, ratioUnit); + return true; + case DurationUnit durationUnit: + quantity = Duration.From(value, durationUnit); + return true; + case ElectricResistanceUnit electricResistanceUnit: + quantity = ElectricResistance.From(value, electricResistanceUnit); return true; - case SpecificEntropyUnit specificEntropyUnit: - quantity = SpecificEntropy.From(value, specificEntropyUnit); + case ThermalResistanceUnit thermalResistanceUnit: + quantity = ThermalResistance.From(value, thermalResistanceUnit); return true; - case SpecificFuelConsumptionUnit specificFuelConsumptionUnit: - quantity = SpecificFuelConsumption.From(value, specificFuelConsumptionUnit); + case MagnetizationUnit magnetizationUnit: + quantity = Magnetization.From(value, magnetizationUnit); return true; - case SpecificVolumeUnit specificVolumeUnit: - quantity = SpecificVolume.From(value, specificVolumeUnit); + case TemperatureDeltaUnit temperatureDeltaUnit: + quantity = TemperatureDelta.From(value, temperatureDeltaUnit); return true; - case SpecificWeightUnit specificWeightUnit: - quantity = SpecificWeight.From(value, specificWeightUnit); + case ElectricAdmittanceUnit electricAdmittanceUnit: + quantity = ElectricAdmittance.From(value, electricAdmittanceUnit); return true; - case SpeedUnit speedUnit: - quantity = Speed.From(value, speedUnit); + case ElectricCurrentUnit electricCurrentUnit: + quantity = ElectricCurrent.From(value, electricCurrentUnit); return true; - case StandardVolumeFlowUnit standardVolumeFlowUnit: - quantity = StandardVolumeFlow.From(value, standardVolumeFlowUnit); + case DensityUnit densityUnit: + quantity = Density.From(value, densityUnit); return true; - case TemperatureUnit temperatureUnit: - quantity = Temperature.From(value, temperatureUnit); + case ElectricCurrentGradientUnit electricCurrentGradientUnit: + quantity = ElectricCurrentGradient.From(value, electricCurrentGradientUnit); return true; case TemperatureChangeRateUnit temperatureChangeRateUnit: quantity = TemperatureChangeRate.From(value, temperatureChangeRateUnit); return true; - case TemperatureDeltaUnit temperatureDeltaUnit: - quantity = TemperatureDelta.From(value, temperatureDeltaUnit); - return true; - case ThermalConductivityUnit thermalConductivityUnit: - quantity = ThermalConductivity.From(value, thermalConductivityUnit); + case ElectricInductanceUnit electricInductanceUnit: + quantity = ElectricInductance.From(value, electricInductanceUnit); return true; - case ThermalResistanceUnit thermalResistanceUnit: - quantity = ThermalResistance.From(value, thermalResistanceUnit); + case RatioChangeRateUnit ratioChangeRateUnit: + quantity = RatioChangeRate.From(value, ratioChangeRateUnit); return true; - case TorqueUnit torqueUnit: - quantity = Torque.From(value, torqueUnit); + case HeatTransferCoefficientUnit heatTransferCoefficientUnit: + quantity = HeatTransferCoefficient.From(value, heatTransferCoefficientUnit); return true; - case TorquePerLengthUnit torquePerLengthUnit: - quantity = TorquePerLength.From(value, torquePerLengthUnit); + case MassFractionUnit massFractionUnit: + quantity = MassFraction.From(value, massFractionUnit); return true; - case TurbidityUnit turbidityUnit: - quantity = Turbidity.From(value, turbidityUnit); + case MagneticFieldUnit magneticFieldUnit: + quantity = MagneticField.From(value, magneticFieldUnit); return true; - case VitaminAUnit vitaminAUnit: - quantity = VitaminA.From(value, vitaminAUnit); + case PermeabilityUnit permeabilityUnit: + quantity = Permeability.From(value, permeabilityUnit); return true; - case VolumeUnit volumeUnit: - quantity = Volume.From(value, volumeUnit); + case ElectricChargeUnit electricChargeUnit: + quantity = ElectricCharge.From(value, electricChargeUnit); return true; - case VolumeConcentrationUnit volumeConcentrationUnit: - quantity = VolumeConcentration.From(value, volumeConcentrationUnit); + case ElectricConductivityUnit electricConductivityUnit: + quantity = ElectricConductivity.From(value, electricConductivityUnit); return true; - case VolumeFlowUnit volumeFlowUnit: - quantity = VolumeFlow.From(value, volumeFlowUnit); + case ReactivePowerUnit reactivePowerUnit: + quantity = ReactivePower.From(value, reactivePowerUnit); return true; - case VolumePerLengthUnit volumePerLengthUnit: - quantity = VolumePerLength.From(value, volumePerLengthUnit); + case ElectricPotentialAcUnit electricPotentialAcUnit: + quantity = ElectricPotentialAc.From(value, electricPotentialAcUnit); return true; - case VolumetricHeatCapacityUnit volumetricHeatCapacityUnit: - quantity = VolumetricHeatCapacity.From(value, volumetricHeatCapacityUnit); + case IrradianceUnit irradianceUnit: + quantity = Irradiance.From(value, irradianceUnit); return true; - case WarpingMomentOfInertiaUnit warpingMomentOfInertiaUnit: - quantity = WarpingMomentOfInertia.From(value, warpingMomentOfInertiaUnit); + case ScalarUnit scalarUnit: + quantity = Scalar.From(value, scalarUnit); return true; default: { @@ -421,335 +421,335 @@ internal static bool TryParse([CanBeNull] IFormatProvider formatProvider, Type q var parser = QuantityParser.Default; - if (quantityType == typeof(Acceleration)) - return parser.TryParse(quantityString, formatProvider, Acceleration.From, out quantity); + if (quantityType == typeof(SpecificEntropy)) + return parser.TryParse(quantityString, formatProvider, SpecificEntropy.From, out quantity); + + if (quantityType == typeof(Molarity)) + return parser.TryParse(quantityString, formatProvider, Molarity.From, out quantity); if (quantityType == typeof(AmountOfSubstance)) return parser.TryParse(quantityString, formatProvider, AmountOfSubstance.From, out quantity); - if (quantityType == typeof(AmplitudeRatio)) - return parser.TryParse(quantityString, formatProvider, AmplitudeRatio.From, out quantity); - - if (quantityType == typeof(Angle)) - return parser.TryParse(quantityString, formatProvider, Angle.From, out quantity); - - if (quantityType == typeof(ApparentEnergy)) - return parser.TryParse(quantityString, formatProvider, ApparentEnergy.From, out quantity); - - if (quantityType == typeof(ApparentPower)) - return parser.TryParse(quantityString, formatProvider, ApparentPower.From, out quantity); - - if (quantityType == typeof(Area)) - return parser.TryParse(quantityString, formatProvider, Area.From, out quantity); + if (quantityType == typeof(PressureChangeRate)) + return parser.TryParse(quantityString, formatProvider, PressureChangeRate.From, out quantity); - if (quantityType == typeof(AreaDensity)) - return parser.TryParse(quantityString, formatProvider, AreaDensity.From, out quantity); + if (quantityType == typeof(CoefficientOfThermalExpansion)) + return parser.TryParse(quantityString, formatProvider, CoefficientOfThermalExpansion.From, out quantity); - if (quantityType == typeof(AreaMomentOfInertia)) - return parser.TryParse(quantityString, formatProvider, AreaMomentOfInertia.From, out quantity); + if (quantityType == typeof(Pressure)) + return parser.TryParse(quantityString, formatProvider, Pressure.From, out quantity); - if (quantityType == typeof(BitRate)) - return parser.TryParse(quantityString, formatProvider, BitRate.From, out quantity); + if (quantityType == typeof(Irradiation)) + return parser.TryParse(quantityString, formatProvider, Irradiation.From, out quantity); - if (quantityType == typeof(BrakeSpecificFuelConsumption)) - return parser.TryParse(quantityString, formatProvider, BrakeSpecificFuelConsumption.From, out quantity); + if (quantityType == typeof(ElectricConductance)) + return parser.TryParse(quantityString, formatProvider, ElectricConductance.From, out quantity); - if (quantityType == typeof(Capacitance)) - return parser.TryParse(quantityString, formatProvider, Capacitance.From, out quantity); + if (quantityType == typeof(Acceleration)) + return parser.TryParse(quantityString, formatProvider, Acceleration.From, out quantity); - if (quantityType == typeof(CoefficientOfThermalExpansion)) - return parser.TryParse(quantityString, formatProvider, CoefficientOfThermalExpansion.From, out quantity); + if (quantityType == typeof(RotationalAcceleration)) + return parser.TryParse(quantityString, formatProvider, RotationalAcceleration.From, out quantity); - if (quantityType == typeof(Density)) - return parser.TryParse(quantityString, formatProvider, Density.From, out quantity); + if (quantityType == typeof(Volume)) + return parser.TryParse(quantityString, formatProvider, Volume.From, out quantity); - if (quantityType == typeof(Duration)) - return parser.TryParse(quantityString, formatProvider, Duration.From, out quantity); + if (quantityType == typeof(Frequency)) + return parser.TryParse(quantityString, formatProvider, Frequency.From, out quantity); if (quantityType == typeof(DynamicViscosity)) return parser.TryParse(quantityString, formatProvider, DynamicViscosity.From, out quantity); - if (quantityType == typeof(ElectricAdmittance)) - return parser.TryParse(quantityString, formatProvider, ElectricAdmittance.From, out quantity); + if (quantityType == typeof(VolumetricHeatCapacity)) + return parser.TryParse(quantityString, formatProvider, VolumetricHeatCapacity.From, out quantity); - if (quantityType == typeof(ElectricCharge)) - return parser.TryParse(quantityString, formatProvider, ElectricCharge.From, out quantity); + if (quantityType == typeof(Level)) + return parser.TryParse(quantityString, formatProvider, Level.From, out quantity); - if (quantityType == typeof(ElectricChargeDensity)) - return parser.TryParse(quantityString, formatProvider, ElectricChargeDensity.From, out quantity); + if (quantityType == typeof(MolarEnergy)) + return parser.TryParse(quantityString, formatProvider, MolarEnergy.From, out quantity); - if (quantityType == typeof(ElectricConductance)) - return parser.TryParse(quantityString, formatProvider, ElectricConductance.From, out quantity); + if (quantityType == typeof(ApparentPower)) + return parser.TryParse(quantityString, formatProvider, ApparentPower.From, out quantity); - if (quantityType == typeof(ElectricConductivity)) - return parser.TryParse(quantityString, formatProvider, ElectricConductivity.From, out quantity); + if (quantityType == typeof(ReactiveEnergy)) + return parser.TryParse(quantityString, formatProvider, ReactiveEnergy.From, out quantity); - if (quantityType == typeof(ElectricCurrent)) - return parser.TryParse(quantityString, formatProvider, ElectricCurrent.From, out quantity); + if (quantityType == typeof(LuminousFlux)) + return parser.TryParse(quantityString, formatProvider, LuminousFlux.From, out quantity); - if (quantityType == typeof(ElectricCurrentDensity)) - return parser.TryParse(quantityString, formatProvider, ElectricCurrentDensity.From, out quantity); + if (quantityType == typeof(SpecificEnergy)) + return parser.TryParse(quantityString, formatProvider, SpecificEnergy.From, out quantity); - if (quantityType == typeof(ElectricCurrentGradient)) - return parser.TryParse(quantityString, formatProvider, ElectricCurrentGradient.From, out quantity); + if (quantityType == typeof(PowerDensity)) + return parser.TryParse(quantityString, formatProvider, PowerDensity.From, out quantity); + + if (quantityType == typeof(ForcePerLength)) + return parser.TryParse(quantityString, formatProvider, ForcePerLength.From, out quantity); + + if (quantityType == typeof(Luminosity)) + return parser.TryParse(quantityString, formatProvider, Luminosity.From, out quantity); if (quantityType == typeof(ElectricField)) return parser.TryParse(quantityString, formatProvider, ElectricField.From, out quantity); - if (quantityType == typeof(ElectricInductance)) - return parser.TryParse(quantityString, formatProvider, ElectricInductance.From, out quantity); + if (quantityType == typeof(StandardVolumeFlow)) + return parser.TryParse(quantityString, formatProvider, StandardVolumeFlow.From, out quantity); - if (quantityType == typeof(ElectricPotential)) - return parser.TryParse(quantityString, formatProvider, ElectricPotential.From, out quantity); + if (quantityType == typeof(Power)) + return parser.TryParse(quantityString, formatProvider, Power.From, out quantity); - if (quantityType == typeof(ElectricPotentialAc)) - return parser.TryParse(quantityString, formatProvider, ElectricPotentialAc.From, out quantity); + if (quantityType == typeof(AmplitudeRatio)) + return parser.TryParse(quantityString, formatProvider, AmplitudeRatio.From, out quantity); - if (quantityType == typeof(ElectricPotentialChangeRate)) - return parser.TryParse(quantityString, formatProvider, ElectricPotentialChangeRate.From, out quantity); + if (quantityType == typeof(ReciprocalArea)) + return parser.TryParse(quantityString, formatProvider, ReciprocalArea.From, out quantity); - if (quantityType == typeof(ElectricPotentialDc)) - return parser.TryParse(quantityString, formatProvider, ElectricPotentialDc.From, out quantity); + if (quantityType == typeof(ForceChangeRate)) + return parser.TryParse(quantityString, formatProvider, ForceChangeRate.From, out quantity); - if (quantityType == typeof(ElectricResistance)) - return parser.TryParse(quantityString, formatProvider, ElectricResistance.From, out quantity); + if (quantityType == typeof(SolidAngle)) + return parser.TryParse(quantityString, formatProvider, SolidAngle.From, out quantity); - if (quantityType == typeof(ElectricResistivity)) - return parser.TryParse(quantityString, formatProvider, ElectricResistivity.From, out quantity); + if (quantityType == typeof(RelativeHumidity)) + return parser.TryParse(quantityString, formatProvider, RelativeHumidity.From, out quantity); - if (quantityType == typeof(ElectricSurfaceChargeDensity)) - return parser.TryParse(quantityString, formatProvider, ElectricSurfaceChargeDensity.From, out quantity); + if (quantityType == typeof(RotationalStiffnessPerLength)) + return parser.TryParse(quantityString, formatProvider, RotationalStiffnessPerLength.From, out quantity); - if (quantityType == typeof(Energy)) - return parser.TryParse(quantityString, formatProvider, Energy.From, out quantity); + if (quantityType == typeof(VolumeFlow)) + return parser.TryParse(quantityString, formatProvider, VolumeFlow.From, out quantity); - if (quantityType == typeof(Entropy)) - return parser.TryParse(quantityString, formatProvider, Entropy.From, out quantity); + if (quantityType == typeof(LinearPowerDensity)) + return parser.TryParse(quantityString, formatProvider, LinearPowerDensity.From, out quantity); - if (quantityType == typeof(Force)) - return parser.TryParse(quantityString, formatProvider, Force.From, out quantity); + if (quantityType == typeof(ElectricPotentialChangeRate)) + return parser.TryParse(quantityString, formatProvider, ElectricPotentialChangeRate.From, out quantity); - if (quantityType == typeof(ForceChangeRate)) - return parser.TryParse(quantityString, formatProvider, ForceChangeRate.From, out quantity); + if (quantityType == typeof(Capacitance)) + return parser.TryParse(quantityString, formatProvider, Capacitance.From, out quantity); - if (quantityType == typeof(ForcePerLength)) - return parser.TryParse(quantityString, formatProvider, ForcePerLength.From, out quantity); + if (quantityType == typeof(LinearDensity)) + return parser.TryParse(quantityString, formatProvider, LinearDensity.From, out quantity); - if (quantityType == typeof(Frequency)) - return parser.TryParse(quantityString, formatProvider, Frequency.From, out quantity); + if (quantityType == typeof(ReciprocalLength)) + return parser.TryParse(quantityString, formatProvider, ReciprocalLength.From, out quantity); - if (quantityType == typeof(FuelEfficiency)) - return parser.TryParse(quantityString, formatProvider, FuelEfficiency.From, out quantity); + if (quantityType == typeof(AreaDensity)) + return parser.TryParse(quantityString, formatProvider, AreaDensity.From, out quantity); - if (quantityType == typeof(HeatFlux)) - return parser.TryParse(quantityString, formatProvider, HeatFlux.From, out quantity); + if (quantityType == typeof(MassFlux)) + return parser.TryParse(quantityString, formatProvider, MassFlux.From, out quantity); - if (quantityType == typeof(HeatTransferCoefficient)) - return parser.TryParse(quantityString, formatProvider, HeatTransferCoefficient.From, out quantity); + if (quantityType == typeof(MagneticFlux)) + return parser.TryParse(quantityString, formatProvider, MagneticFlux.From, out quantity); + + if (quantityType == typeof(ApparentEnergy)) + return parser.TryParse(quantityString, formatProvider, ApparentEnergy.From, out quantity); + + if (quantityType == typeof(Speed)) + return parser.TryParse(quantityString, formatProvider, Speed.From, out quantity); + + if (quantityType == typeof(BitRate)) + return parser.TryParse(quantityString, formatProvider, BitRate.From, out quantity); + + if (quantityType == typeof(Area)) + return parser.TryParse(quantityString, formatProvider, Area.From, out quantity); + + if (quantityType == typeof(VolumeConcentration)) + return parser.TryParse(quantityString, formatProvider, VolumeConcentration.From, out quantity); - if (quantityType == typeof(Illuminance)) - return parser.TryParse(quantityString, formatProvider, Illuminance.From, out quantity); + if (quantityType == typeof(Permittivity)) + return parser.TryParse(quantityString, formatProvider, Permittivity.From, out quantity); if (quantityType == typeof(Information)) return parser.TryParse(quantityString, formatProvider, Information.From, out quantity); - if (quantityType == typeof(Irradiance)) - return parser.TryParse(quantityString, formatProvider, Irradiance.From, out quantity); - - if (quantityType == typeof(Irradiation)) - return parser.TryParse(quantityString, formatProvider, Irradiation.From, out quantity); - - if (quantityType == typeof(KinematicViscosity)) - return parser.TryParse(quantityString, formatProvider, KinematicViscosity.From, out quantity); - if (quantityType == typeof(LapseRate)) return parser.TryParse(quantityString, formatProvider, LapseRate.From, out quantity); - if (quantityType == typeof(Length)) - return parser.TryParse(quantityString, formatProvider, Length.From, out quantity); - - if (quantityType == typeof(Level)) - return parser.TryParse(quantityString, formatProvider, Level.From, out quantity); - - if (quantityType == typeof(LinearDensity)) - return parser.TryParse(quantityString, formatProvider, LinearDensity.From, out quantity); + if (quantityType == typeof(RotationalStiffness)) + return parser.TryParse(quantityString, formatProvider, RotationalStiffness.From, out quantity); - if (quantityType == typeof(LinearPowerDensity)) - return parser.TryParse(quantityString, formatProvider, LinearPowerDensity.From, out quantity); + if (quantityType == typeof(ElectricChargeDensity)) + return parser.TryParse(quantityString, formatProvider, ElectricChargeDensity.From, out quantity); - if (quantityType == typeof(Luminosity)) - return parser.TryParse(quantityString, formatProvider, Luminosity.From, out quantity); + if (quantityType == typeof(FuelEfficiency)) + return parser.TryParse(quantityString, formatProvider, FuelEfficiency.From, out quantity); - if (quantityType == typeof(LuminousFlux)) - return parser.TryParse(quantityString, formatProvider, LuminousFlux.From, out quantity); + if (quantityType == typeof(ElectricPotential)) + return parser.TryParse(quantityString, formatProvider, ElectricPotential.From, out quantity); - if (quantityType == typeof(LuminousIntensity)) - return parser.TryParse(quantityString, formatProvider, LuminousIntensity.From, out quantity); + if (quantityType == typeof(VolumePerLength)) + return parser.TryParse(quantityString, formatProvider, VolumePerLength.From, out quantity); - if (quantityType == typeof(MagneticField)) - return parser.TryParse(quantityString, formatProvider, MagneticField.From, out quantity); + if (quantityType == typeof(AreaMomentOfInertia)) + return parser.TryParse(quantityString, formatProvider, AreaMomentOfInertia.From, out quantity); - if (quantityType == typeof(MagneticFlux)) - return parser.TryParse(quantityString, formatProvider, MagneticFlux.From, out quantity); + if (quantityType == typeof(VitaminA)) + return parser.TryParse(quantityString, formatProvider, VitaminA.From, out quantity); - if (quantityType == typeof(Magnetization)) - return parser.TryParse(quantityString, formatProvider, Magnetization.From, out quantity); + if (quantityType == typeof(Illuminance)) + return parser.TryParse(quantityString, formatProvider, Illuminance.From, out quantity); if (quantityType == typeof(Mass)) return parser.TryParse(quantityString, formatProvider, Mass.From, out quantity); - if (quantityType == typeof(MassConcentration)) - return parser.TryParse(quantityString, formatProvider, MassConcentration.From, out quantity); + if (quantityType == typeof(MolarEntropy)) + return parser.TryParse(quantityString, formatProvider, MolarEntropy.From, out quantity); - if (quantityType == typeof(MassFlow)) - return parser.TryParse(quantityString, formatProvider, MassFlow.From, out quantity); + if (quantityType == typeof(KinematicViscosity)) + return parser.TryParse(quantityString, formatProvider, KinematicViscosity.From, out quantity); - if (quantityType == typeof(MassFlux)) - return parser.TryParse(quantityString, formatProvider, MassFlux.From, out quantity); + if (quantityType == typeof(Energy)) + return parser.TryParse(quantityString, formatProvider, Energy.From, out quantity); - if (quantityType == typeof(MassFraction)) - return parser.TryParse(quantityString, formatProvider, MassFraction.From, out quantity); + if (quantityType == typeof(SpecificFuelConsumption)) + return parser.TryParse(quantityString, formatProvider, SpecificFuelConsumption.From, out quantity); - if (quantityType == typeof(MassMomentOfInertia)) - return parser.TryParse(quantityString, formatProvider, MassMomentOfInertia.From, out quantity); + if (quantityType == typeof(PowerRatio)) + return parser.TryParse(quantityString, formatProvider, PowerRatio.From, out quantity); - if (quantityType == typeof(MolarEnergy)) - return parser.TryParse(quantityString, formatProvider, MolarEnergy.From, out quantity); + if (quantityType == typeof(ElectricCurrentDensity)) + return parser.TryParse(quantityString, formatProvider, ElectricCurrentDensity.From, out quantity); - if (quantityType == typeof(MolarEntropy)) - return parser.TryParse(quantityString, formatProvider, MolarEntropy.From, out quantity); + if (quantityType == typeof(ElectricPotentialDc)) + return parser.TryParse(quantityString, formatProvider, ElectricPotentialDc.From, out quantity); - if (quantityType == typeof(Molarity)) - return parser.TryParse(quantityString, formatProvider, Molarity.From, out quantity); + if (quantityType == typeof(Length)) + return parser.TryParse(quantityString, formatProvider, Length.From, out quantity); - if (quantityType == typeof(MolarMass)) - return parser.TryParse(quantityString, formatProvider, MolarMass.From, out quantity); + if (quantityType == typeof(MassMomentOfInertia)) + return parser.TryParse(quantityString, formatProvider, MassMomentOfInertia.From, out quantity); - if (quantityType == typeof(Permeability)) - return parser.TryParse(quantityString, formatProvider, Permeability.From, out quantity); + if (quantityType == typeof(WarpingMomentOfInertia)) + return parser.TryParse(quantityString, formatProvider, WarpingMomentOfInertia.From, out quantity); - if (quantityType == typeof(Permittivity)) - return parser.TryParse(quantityString, formatProvider, Permittivity.From, out quantity); + if (quantityType == typeof(Temperature)) + return parser.TryParse(quantityString, formatProvider, Temperature.From, out quantity); - if (quantityType == typeof(Power)) - return parser.TryParse(quantityString, formatProvider, Power.From, out quantity); + if (quantityType == typeof(MassConcentration)) + return parser.TryParse(quantityString, formatProvider, MassConcentration.From, out quantity); - if (quantityType == typeof(PowerDensity)) - return parser.TryParse(quantityString, formatProvider, PowerDensity.From, out quantity); + if (quantityType == typeof(ElectricResistivity)) + return parser.TryParse(quantityString, formatProvider, ElectricResistivity.From, out quantity); - if (quantityType == typeof(PowerRatio)) - return parser.TryParse(quantityString, formatProvider, PowerRatio.From, out quantity); + if (quantityType == typeof(Turbidity)) + return parser.TryParse(quantityString, formatProvider, Turbidity.From, out quantity); - if (quantityType == typeof(Pressure)) - return parser.TryParse(quantityString, formatProvider, Pressure.From, out quantity); + if (quantityType == typeof(LuminousIntensity)) + return parser.TryParse(quantityString, formatProvider, LuminousIntensity.From, out quantity); - if (quantityType == typeof(PressureChangeRate)) - return parser.TryParse(quantityString, formatProvider, PressureChangeRate.From, out quantity); + if (quantityType == typeof(ElectricSurfaceChargeDensity)) + return parser.TryParse(quantityString, formatProvider, ElectricSurfaceChargeDensity.From, out quantity); - if (quantityType == typeof(Ratio)) - return parser.TryParse(quantityString, formatProvider, Ratio.From, out quantity); + if (quantityType == typeof(Force)) + return parser.TryParse(quantityString, formatProvider, Force.From, out quantity); - if (quantityType == typeof(RatioChangeRate)) - return parser.TryParse(quantityString, formatProvider, RatioChangeRate.From, out quantity); + if (quantityType == typeof(RotationalSpeed)) + return parser.TryParse(quantityString, formatProvider, RotationalSpeed.From, out quantity); - if (quantityType == typeof(ReactiveEnergy)) - return parser.TryParse(quantityString, formatProvider, ReactiveEnergy.From, out quantity); + if (quantityType == typeof(SpecificVolume)) + return parser.TryParse(quantityString, formatProvider, SpecificVolume.From, out quantity); - if (quantityType == typeof(ReactivePower)) - return parser.TryParse(quantityString, formatProvider, ReactivePower.From, out quantity); + if (quantityType == typeof(SpecificWeight)) + return parser.TryParse(quantityString, formatProvider, SpecificWeight.From, out quantity); - if (quantityType == typeof(ReciprocalArea)) - return parser.TryParse(quantityString, formatProvider, ReciprocalArea.From, out quantity); + if (quantityType == typeof(HeatFlux)) + return parser.TryParse(quantityString, formatProvider, HeatFlux.From, out quantity); - if (quantityType == typeof(ReciprocalLength)) - return parser.TryParse(quantityString, formatProvider, ReciprocalLength.From, out quantity); + if (quantityType == typeof(Torque)) + return parser.TryParse(quantityString, formatProvider, Torque.From, out quantity); - if (quantityType == typeof(RelativeHumidity)) - return parser.TryParse(quantityString, formatProvider, RelativeHumidity.From, out quantity); + if (quantityType == typeof(Entropy)) + return parser.TryParse(quantityString, formatProvider, Entropy.From, out quantity); - if (quantityType == typeof(RotationalAcceleration)) - return parser.TryParse(quantityString, formatProvider, RotationalAcceleration.From, out quantity); + if (quantityType == typeof(TorquePerLength)) + return parser.TryParse(quantityString, formatProvider, TorquePerLength.From, out quantity); - if (quantityType == typeof(RotationalSpeed)) - return parser.TryParse(quantityString, formatProvider, RotationalSpeed.From, out quantity); + if (quantityType == typeof(Angle)) + return parser.TryParse(quantityString, formatProvider, Angle.From, out quantity); - if (quantityType == typeof(RotationalStiffness)) - return parser.TryParse(quantityString, formatProvider, RotationalStiffness.From, out quantity); + if (quantityType == typeof(ThermalConductivity)) + return parser.TryParse(quantityString, formatProvider, ThermalConductivity.From, out quantity); - if (quantityType == typeof(RotationalStiffnessPerLength)) - return parser.TryParse(quantityString, formatProvider, RotationalStiffnessPerLength.From, out quantity); + if (quantityType == typeof(BrakeSpecificFuelConsumption)) + return parser.TryParse(quantityString, formatProvider, BrakeSpecificFuelConsumption.From, out quantity); - if (quantityType == typeof(Scalar)) - return parser.TryParse(quantityString, formatProvider, Scalar.From, out quantity); + if (quantityType == typeof(MolarMass)) + return parser.TryParse(quantityString, formatProvider, MolarMass.From, out quantity); - if (quantityType == typeof(SolidAngle)) - return parser.TryParse(quantityString, formatProvider, SolidAngle.From, out quantity); + if (quantityType == typeof(MassFlow)) + return parser.TryParse(quantityString, formatProvider, MassFlow.From, out quantity); - if (quantityType == typeof(SpecificEnergy)) - return parser.TryParse(quantityString, formatProvider, SpecificEnergy.From, out quantity); + if (quantityType == typeof(Ratio)) + return parser.TryParse(quantityString, formatProvider, Ratio.From, out quantity); - if (quantityType == typeof(SpecificEntropy)) - return parser.TryParse(quantityString, formatProvider, SpecificEntropy.From, out quantity); + if (quantityType == typeof(Duration)) + return parser.TryParse(quantityString, formatProvider, Duration.From, out quantity); - if (quantityType == typeof(SpecificFuelConsumption)) - return parser.TryParse(quantityString, formatProvider, SpecificFuelConsumption.From, out quantity); + if (quantityType == typeof(ElectricResistance)) + return parser.TryParse(quantityString, formatProvider, ElectricResistance.From, out quantity); - if (quantityType == typeof(SpecificVolume)) - return parser.TryParse(quantityString, formatProvider, SpecificVolume.From, out quantity); + if (quantityType == typeof(ThermalResistance)) + return parser.TryParse(quantityString, formatProvider, ThermalResistance.From, out quantity); - if (quantityType == typeof(SpecificWeight)) - return parser.TryParse(quantityString, formatProvider, SpecificWeight.From, out quantity); + if (quantityType == typeof(Magnetization)) + return parser.TryParse(quantityString, formatProvider, Magnetization.From, out quantity); - if (quantityType == typeof(Speed)) - return parser.TryParse(quantityString, formatProvider, Speed.From, out quantity); + if (quantityType == typeof(TemperatureDelta)) + return parser.TryParse(quantityString, formatProvider, TemperatureDelta.From, out quantity); - if (quantityType == typeof(StandardVolumeFlow)) - return parser.TryParse(quantityString, formatProvider, StandardVolumeFlow.From, out quantity); + if (quantityType == typeof(ElectricAdmittance)) + return parser.TryParse(quantityString, formatProvider, ElectricAdmittance.From, out quantity); - if (quantityType == typeof(Temperature)) - return parser.TryParse(quantityString, formatProvider, Temperature.From, out quantity); + if (quantityType == typeof(ElectricCurrent)) + return parser.TryParse(quantityString, formatProvider, ElectricCurrent.From, out quantity); + + if (quantityType == typeof(Density)) + return parser.TryParse(quantityString, formatProvider, Density.From, out quantity); + + if (quantityType == typeof(ElectricCurrentGradient)) + return parser.TryParse(quantityString, formatProvider, ElectricCurrentGradient.From, out quantity); if (quantityType == typeof(TemperatureChangeRate)) return parser.TryParse(quantityString, formatProvider, TemperatureChangeRate.From, out quantity); - if (quantityType == typeof(TemperatureDelta)) - return parser.TryParse(quantityString, formatProvider, TemperatureDelta.From, out quantity); - - if (quantityType == typeof(ThermalConductivity)) - return parser.TryParse(quantityString, formatProvider, ThermalConductivity.From, out quantity); + if (quantityType == typeof(ElectricInductance)) + return parser.TryParse(quantityString, formatProvider, ElectricInductance.From, out quantity); - if (quantityType == typeof(ThermalResistance)) - return parser.TryParse(quantityString, formatProvider, ThermalResistance.From, out quantity); + if (quantityType == typeof(RatioChangeRate)) + return parser.TryParse(quantityString, formatProvider, RatioChangeRate.From, out quantity); - if (quantityType == typeof(Torque)) - return parser.TryParse(quantityString, formatProvider, Torque.From, out quantity); + if (quantityType == typeof(HeatTransferCoefficient)) + return parser.TryParse(quantityString, formatProvider, HeatTransferCoefficient.From, out quantity); - if (quantityType == typeof(TorquePerLength)) - return parser.TryParse(quantityString, formatProvider, TorquePerLength.From, out quantity); + if (quantityType == typeof(MassFraction)) + return parser.TryParse(quantityString, formatProvider, MassFraction.From, out quantity); - if (quantityType == typeof(Turbidity)) - return parser.TryParse(quantityString, formatProvider, Turbidity.From, out quantity); + if (quantityType == typeof(MagneticField)) + return parser.TryParse(quantityString, formatProvider, MagneticField.From, out quantity); - if (quantityType == typeof(VitaminA)) - return parser.TryParse(quantityString, formatProvider, VitaminA.From, out quantity); + if (quantityType == typeof(Permeability)) + return parser.TryParse(quantityString, formatProvider, Permeability.From, out quantity); - if (quantityType == typeof(Volume)) - return parser.TryParse(quantityString, formatProvider, Volume.From, out quantity); + if (quantityType == typeof(ElectricCharge)) + return parser.TryParse(quantityString, formatProvider, ElectricCharge.From, out quantity); - if (quantityType == typeof(VolumeConcentration)) - return parser.TryParse(quantityString, formatProvider, VolumeConcentration.From, out quantity); + if (quantityType == typeof(ElectricConductivity)) + return parser.TryParse(quantityString, formatProvider, ElectricConductivity.From, out quantity); - if (quantityType == typeof(VolumeFlow)) - return parser.TryParse(quantityString, formatProvider, VolumeFlow.From, out quantity); + if (quantityType == typeof(ReactivePower)) + return parser.TryParse(quantityString, formatProvider, ReactivePower.From, out quantity); - if (quantityType == typeof(VolumePerLength)) - return parser.TryParse(quantityString, formatProvider, VolumePerLength.From, out quantity); + if (quantityType == typeof(ElectricPotentialAc)) + return parser.TryParse(quantityString, formatProvider, ElectricPotentialAc.From, out quantity); - if (quantityType == typeof(VolumetricHeatCapacity)) - return parser.TryParse(quantityString, formatProvider, VolumetricHeatCapacity.From, out quantity); + if (quantityType == typeof(Irradiance)) + return parser.TryParse(quantityString, formatProvider, Irradiance.From, out quantity); - if (quantityType == typeof(WarpingMomentOfInertia)) - return parser.TryParse(quantityString, formatProvider, WarpingMomentOfInertia.From, out quantity); + if (quantityType == typeof(Scalar)) + return parser.TryParse(quantityString, formatProvider, Scalar.From, out quantity); throw new ArgumentException( $"Type {quantityType} is not a known quantity type. Did you pass in a third-party quantity type defined outside UnitsNet library?"); diff --git a/UnitsNet.WindowsRuntimeComponent/GeneratedCode/QuantityType.g.cs b/UnitsNet.WindowsRuntimeComponent/GeneratedCode/QuantityType.g.cs index 1ec94a2e45..54c7d099c3 100644 --- a/UnitsNet.WindowsRuntimeComponent/GeneratedCode/QuantityType.g.cs +++ b/UnitsNet.WindowsRuntimeComponent/GeneratedCode/QuantityType.g.cs @@ -29,115 +29,115 @@ namespace UnitsNet public enum QuantityType { Undefined = 0, - Acceleration, + SpecificEntropy, + Molarity, AmountOfSubstance, - AmplitudeRatio, - Angle, - ApparentEnergy, + PressureChangeRate, + CoefficientOfThermalExpansion, + Pressure, + Irradiation, + ElectricConductance, + Acceleration, + RotationalAcceleration, + Volume, + Frequency, + DynamicViscosity, + VolumetricHeatCapacity, + Level, + MolarEnergy, ApparentPower, - Area, + ReactiveEnergy, + LuminousFlux, + SpecificEnergy, + PowerDensity, + ForcePerLength, + Luminosity, + ElectricField, + StandardVolumeFlow, + Power, + AmplitudeRatio, + ReciprocalArea, + ForceChangeRate, + SolidAngle, + RelativeHumidity, + RotationalStiffnessPerLength, + VolumeFlow, + LinearPowerDensity, + ElectricPotentialChangeRate, + Capacitance, + LinearDensity, + ReciprocalLength, AreaDensity, - AreaMomentOfInertia, + MassFlux, + MagneticFlux, + ApparentEnergy, + Speed, BitRate, - BrakeSpecificFuelConsumption, - Capacitance, - CoefficientOfThermalExpansion, - Density, - Duration, - DynamicViscosity, - ElectricAdmittance, - ElectricCharge, + Area, + VolumeConcentration, + Permittivity, + Information, + LapseRate, + RotationalStiffness, ElectricChargeDensity, - ElectricConductance, - ElectricConductivity, - ElectricCurrent, - ElectricCurrentDensity, - ElectricCurrentGradient, - ElectricField, - ElectricInductance, + FuelEfficiency, ElectricPotential, - ElectricPotentialAc, - ElectricPotentialChangeRate, + VolumePerLength, + AreaMomentOfInertia, + VitaminA, + Illuminance, + Mass, + MolarEntropy, + KinematicViscosity, + Energy, + SpecificFuelConsumption, + PowerRatio, + ElectricCurrentDensity, ElectricPotentialDc, - ElectricResistance, + Length, + MassMomentOfInertia, + WarpingMomentOfInertia, + Temperature, + MassConcentration, ElectricResistivity, + Turbidity, + LuminousIntensity, ElectricSurfaceChargeDensity, - Energy, - Entropy, Force, - ForceChangeRate, - ForcePerLength, - Frequency, - FuelEfficiency, + RotationalSpeed, + SpecificVolume, + SpecificWeight, HeatFlux, - HeatTransferCoefficient, - Illuminance, - Information, - Irradiance, - Irradiation, - KinematicViscosity, - LapseRate, - Length, - Level, - LinearDensity, - LinearPowerDensity, - Luminosity, - LuminousFlux, - LuminousIntensity, - MagneticField, - MagneticFlux, - Magnetization, - Mass, - MassConcentration, - MassFlow, - MassFlux, - MassFraction, - MassMomentOfInertia, - MolarEnergy, - MolarEntropy, - Molarity, + Torque, + Entropy, + TorquePerLength, + Angle, + ThermalConductivity, + BrakeSpecificFuelConsumption, MolarMass, - Permeability, - Permittivity, - Power, - PowerDensity, - PowerRatio, - Pressure, - PressureChangeRate, + MassFlow, Ratio, + Duration, + ElectricResistance, + ThermalResistance, + Magnetization, + TemperatureDelta, + ElectricAdmittance, + ElectricCurrent, + Density, + ElectricCurrentGradient, + TemperatureChangeRate, + ElectricInductance, RatioChangeRate, - ReactiveEnergy, + HeatTransferCoefficient, + MassFraction, + MagneticField, + Permeability, + ElectricCharge, + ElectricConductivity, ReactivePower, - ReciprocalArea, - ReciprocalLength, - RelativeHumidity, - RotationalAcceleration, - RotationalSpeed, - RotationalStiffness, - RotationalStiffnessPerLength, + ElectricPotentialAc, + Irradiance, Scalar, - SolidAngle, - SpecificEnergy, - SpecificEntropy, - SpecificFuelConsumption, - SpecificVolume, - SpecificWeight, - Speed, - StandardVolumeFlow, - Temperature, - TemperatureChangeRate, - TemperatureDelta, - ThermalConductivity, - ThermalResistance, - Torque, - TorquePerLength, - Turbidity, - VitaminA, - Volume, - VolumeConcentration, - VolumeFlow, - VolumePerLength, - VolumetricHeatCapacity, - WarpingMomentOfInertia, } } diff --git a/UnitsNet.WindowsRuntimeComponent/GeneratedCode/UnitAbbreviationsCache.g.cs b/UnitsNet.WindowsRuntimeComponent/GeneratedCode/UnitAbbreviationsCache.g.cs index dde9ff522c..954ebf07e1 100644 --- a/UnitsNet.WindowsRuntimeComponent/GeneratedCode/UnitAbbreviationsCache.g.cs +++ b/UnitsNet.WindowsRuntimeComponent/GeneratedCode/UnitAbbreviationsCache.g.cs @@ -29,6 +29,152 @@ public sealed partial class UnitAbbreviationsCache private static readonly (string CultureName, Type UnitType, int UnitValue, string[] UnitAbbreviations)[] GeneratedLocalizations = new [] { + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.BtuPerPoundFahrenheit, new string[]{"BTU/lb·°F", "BTU/lbm·°F"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.CaloriePerGramKelvin, new string[]{"cal/g.K"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.JoulePerKilogramDegreeCelsius, new string[]{"J/kg.C"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.JoulePerKilogramKelvin, new string[]{"J/kg.K"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilocaloriePerGramKelvin, new string[]{"kcal/g.K"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius, new string[]{"kJ/kg.C"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilojoulePerKilogramKelvin, new string[]{"kJ/kg.K"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius, new string[]{"MJ/kg.C"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.MegajoulePerKilogramKelvin, new string[]{"MJ/kg.K"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.CentimolesPerLiter, new string[]{"cmol/L", "cM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.DecimolesPerLiter, new string[]{"dmol/L", "dM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MicromolesPerLiter, new string[]{"µmol/L", "µM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MillimolesPerLiter, new string[]{"mmol/L", "mM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MolesPerCubicMeter, new string[]{"mol/m³"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MolesPerLiter, new string[]{"mol/L", "M"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.NanomolesPerLiter, new string[]{"nmol/L", "nM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.PicomolesPerLiter, new string[]{"pmol/L", "pM"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Centimole, new string[]{"cmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.CentipoundMole, new string[]{"clbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Decimole, new string[]{"dmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.DecipoundMole, new string[]{"dlbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Kilomole, new string[]{"kmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.KilopoundMole, new string[]{"klbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Megamole, new string[]{"Mmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Micromole, new string[]{"µmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.MicropoundMole, new string[]{"µlbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Millimole, new string[]{"mmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.MillipoundMole, new string[]{"mlbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Mole, new string[]{"mol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Nanomole, new string[]{"nmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.NanopoundMole, new string[]{"nlbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.PoundMole, new string[]{"lbmol"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.AtmospherePerSecond, new string[]{"atm/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.AtmospherePerSecond, new string[]{"атм/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerMinute, new string[]{"kPa/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerMinute, new string[]{"кПа/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerSecond, new string[]{"kPa/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerSecond, new string[]{"кПа/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, new string[]{"ksi/min", "kipf/in²/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, new string[]{"ksi/мин", "kipf/in²/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, new string[]{"ksi/s", "kipf/in²/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, new string[]{"ksi/с", "kipf/in²/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerMinute, new string[]{"MPa/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerMinute, new string[]{"МПа/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerSecond, new string[]{"MPa/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerSecond, new string[]{"МПа/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, new string[]{"Mpsi/min", "Mlb/in²/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, new string[]{"Мpsi/мин", "Мlb/in²/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, new string[]{"Mpsi/s", "Mlb/in²/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, new string[]{"Мpsi/с", "Мlb/in²/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerMinute, new string[]{"Pa/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerMinute, new string[]{"Па/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerSecond, new string[]{"Pa/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerSecond, new string[]{"Па/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, new string[]{"psi/min", "lb/in²/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, new string[]{"psi/мин", "lb/in²/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, new string[]{"psi/s", "lb/in²/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, new string[]{"psi/с", "lb/in²/с"}), + ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseDegreeCelsius, new string[]{"°C⁻¹", "1/°C"}), + ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseDegreeFahrenheit, new string[]{"°F⁻¹", "1/°F"}), + ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseKelvin, new string[]{"K⁻¹", "1/K"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Atmosphere, new string[]{"atm"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Atmosphere, new string[]{"атм"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Bar, new string[]{"bar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Bar, new string[]{"бар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Centibar, new string[]{"cbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Centibar, new string[]{"сбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Decapascal, new string[]{"daPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Decapascal, new string[]{"даПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Decibar, new string[]{"dbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Decibar, new string[]{"дбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.DynePerSquareCentimeter, new string[]{"dyn/cm²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.FootOfElevation, new string[]{"ft of elevation"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.FootOfHead, new string[]{"ft of head"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Gigapascal, new string[]{"GPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Gigapascal, new string[]{"ГПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Hectopascal, new string[]{"hPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Hectopascal, new string[]{"гПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.InchOfMercury, new string[]{"inHg"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.InchOfWaterColumn, new string[]{"wc"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Kilobar, new string[]{"kbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Kilobar, new string[]{"кбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareCentimeter, new string[]{"kgf/cm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareCentimeter, new string[]{"кгс/см²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMeter, new string[]{"kgf/m²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMeter, new string[]{"кгс/м²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMillimeter, new string[]{"kgf/mm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMillimeter, new string[]{"кгс/мм²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareCentimeter, new string[]{"kN/cm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareCentimeter, new string[]{"кН/см²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMeter, new string[]{"kN/m²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMeter, new string[]{"кН/м²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMillimeter, new string[]{"kN/mm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMillimeter, new string[]{"кН/мм²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Kilopascal, new string[]{"kPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Kilopascal, new string[]{"кПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareFoot, new string[]{"kipf/ft²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareInch, new string[]{"ksi", "kipf/in²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareInch, new string[]{"ksi", "kipf/in²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Megabar, new string[]{"Mbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Megabar, new string[]{"Мбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.MeganewtonPerSquareMeter, new string[]{"MN/m²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.MeganewtonPerSquareMeter, new string[]{"МН/м²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Megapascal, new string[]{"MPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Megapascal, new string[]{"МПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.MeterOfElevation, new string[]{"m of elevation"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.MeterOfHead, new string[]{"m of head"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Microbar, new string[]{"µbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Microbar, new string[]{"мкбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Micropascal, new string[]{"µPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Micropascal, new string[]{"мкПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Millibar, new string[]{"mbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Millibar, new string[]{"мбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.MillimeterOfMercury, new string[]{"mmHg"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.MillimeterOfMercury, new string[]{"мм рт.ст."}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Millipascal, new string[]{"mPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Millipascal, new string[]{"мПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareCentimeter, new string[]{"N/cm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareCentimeter, new string[]{"Н/см²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMeter, new string[]{"N/m²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMeter, new string[]{"Н/м²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMillimeter, new string[]{"N/mm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMillimeter, new string[]{"Н/мм²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Pascal, new string[]{"Pa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Pascal, new string[]{"Па"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareFoot, new string[]{"lb/ft²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareInch, new string[]{"psi", "lb/in²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareInch, new string[]{"psi", "lb/in²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundPerInchSecondSquared, new string[]{"lbm/(in·s²)", "lb/(in·s²)"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.TechnicalAtmosphere, new string[]{"at"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.TechnicalAtmosphere, new string[]{"ат"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareCentimeter, new string[]{"tf/cm²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareMeter, new string[]{"tf/m²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareMillimeter, new string[]{"tf/mm²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Torr, new string[]{"torr"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Torr, new string[]{"торр"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareCentimeter, new string[]{"J/cm²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareMeter, new string[]{"J/m²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareMillimeter, new string[]{"J/mm²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.KilojoulePerSquareMeter, new string[]{"kJ/m²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.KilowattHourPerSquareMeter, new string[]{"kWh/m²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.MillijoulePerSquareCentimeter, new string[]{"mJ/cm²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.WattHourPerSquareMeter, new string[]{"Wh/m²"}), + ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Microsiemens, new string[]{"µS"}), + ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Millisiemens, new string[]{"mS"}), + ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Siemens, new string[]{"S"}), ("en-US", typeof(AccelerationUnit), (int)AccelerationUnit.CentimeterPerSecondSquared, new string[]{"cm/s²"}), ("ru-RU", typeof(AccelerationUnit), (int)AccelerationUnit.CentimeterPerSecondSquared, new string[]{"см/с²"}), ("en-US", typeof(AccelerationUnit), (int)AccelerationUnit.DecimeterPerSecondSquared, new string[]{"dm/s²"}), @@ -57,212 +203,125 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("ru-RU", typeof(AccelerationUnit), (int)AccelerationUnit.NanometerPerSecondSquared, new string[]{"нм/с²"}), ("en-US", typeof(AccelerationUnit), (int)AccelerationUnit.StandardGravity, new string[]{"g"}), ("ru-RU", typeof(AccelerationUnit), (int)AccelerationUnit.StandardGravity, new string[]{"g"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Centimole, new string[]{"cmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.CentipoundMole, new string[]{"clbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Decimole, new string[]{"dmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.DecipoundMole, new string[]{"dlbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Kilomole, new string[]{"kmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.KilopoundMole, new string[]{"klbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Megamole, new string[]{"Mmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Micromole, new string[]{"µmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.MicropoundMole, new string[]{"µlbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Millimole, new string[]{"mmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.MillipoundMole, new string[]{"mlbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Mole, new string[]{"mol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Nanomole, new string[]{"nmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.NanopoundMole, new string[]{"nlbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.PoundMole, new string[]{"lbmol"}), - ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelMicrovolt, new string[]{"dBµV"}), - ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelMillivolt, new string[]{"dBmV"}), - ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelUnloaded, new string[]{"dBu"}), - ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelVolt, new string[]{"dBV"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Arcminute, new string[]{"'", "arcmin", "amin", "min"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Arcsecond, new string[]{"″", "arcsec", "asec", "sec"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Centiradian, new string[]{"crad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Centiradian, new string[]{"срад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Deciradian, new string[]{"drad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Deciradian, new string[]{"драд"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Degree, new string[]{"°", "deg"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Degree, new string[]{"°"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Gradian, new string[]{"g"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Gradian, new string[]{"g"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Microdegree, new string[]{"µ°", "µdeg"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Microdegree, new string[]{"мк°"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Microradian, new string[]{"µrad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Microradian, new string[]{"мкрад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Millidegree, new string[]{"m°", "mdeg"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Millidegree, new string[]{"м°"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Milliradian, new string[]{"mrad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Milliradian, new string[]{"мрад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Nanodegree, new string[]{"n°", "ndeg"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Nanodegree, new string[]{"н°"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Nanoradian, new string[]{"nrad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Nanoradian, new string[]{"нрад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.NatoMil, new string[]{"mil"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Radian, new string[]{"rad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Radian, new string[]{"рад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Revolution, new string[]{"r"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Revolution, new string[]{"r"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Tilt, new string[]{"sin(θ)"}), - ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.KilovoltampereHour, new string[]{"kVAh"}), - ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.MegavoltampereHour, new string[]{"MVAh"}), - ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.VoltampereHour, new string[]{"VAh"}), - ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Gigavoltampere, new string[]{"GVA"}), - ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Kilovoltampere, new string[]{"kVA"}), - ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Megavoltampere, new string[]{"MVA"}), - ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Voltampere, new string[]{"VA"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"ac"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"акр"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"英亩"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"ha"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"га"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"英亩"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"cm²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"см²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"平方厘米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"dm²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"дм²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"平方分米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"ft²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"фут²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"平方英尺"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"in²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"дюйм²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"平方英寸"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"km²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"км²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"平方公里"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"m²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"м²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"平方米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"µm²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"мкм²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"平方微米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"mi²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"миля²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"平方英里"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"mm²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"мм²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"平方毫米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"nmi²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"морск.миля²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"平方海里"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"yd²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"ярд²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"平方码"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.UsSurveySquareFoot, new string[]{"ft² (US)"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.UsSurveySquareFoot, new string[]{"фут² (US)"}), - ("en-US", typeof(AreaDensityUnit), (int)AreaDensityUnit.KilogramPerSquareMeter, new string[]{"kg/m²"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.CentimeterToTheFourth, new string[]{"cm⁴", "cm^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.DecimeterToTheFourth, new string[]{"dm⁴", "dm^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.FootToTheFourth, new string[]{"ft⁴", "ft^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.InchToTheFourth, new string[]{"in⁴", "in^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.MeterToTheFourth, new string[]{"m⁴", "m^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.MillimeterToTheFourth, new string[]{"mm⁴", "mm^4"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.BitPerSecond, new string[]{"bit/s", "bps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.BytePerSecond, new string[]{"B/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExabitPerSecond, new string[]{"Ebit/s", "Ebps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExabytePerSecond, new string[]{"EB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExbibitPerSecond, new string[]{"Eibit/s", "Eibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExbibytePerSecond, new string[]{"EiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GibibitPerSecond, new string[]{"Gibit/s", "Gibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GibibytePerSecond, new string[]{"GiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GigabitPerSecond, new string[]{"Gbit/s", "Gbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GigabytePerSecond, new string[]{"GB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KibibitPerSecond, new string[]{"Kibit/s", "Kibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KibibytePerSecond, new string[]{"KiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KilobitPerSecond, new string[]{"kbit/s", "kbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KilobytePerSecond, new string[]{"kB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MebibitPerSecond, new string[]{"Mibit/s", "Mibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MebibytePerSecond, new string[]{"MiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MegabitPerSecond, new string[]{"Mbit/s", "Mbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MegabytePerSecond, new string[]{"MB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PebibitPerSecond, new string[]{"Pibit/s", "Pibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PebibytePerSecond, new string[]{"PiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PetabitPerSecond, new string[]{"Pbit/s", "Pbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PetabytePerSecond, new string[]{"PB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TebibitPerSecond, new string[]{"Tibit/s", "Tibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TebibytePerSecond, new string[]{"TiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TerabitPerSecond, new string[]{"Tbit/s", "Tbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TerabytePerSecond, new string[]{"TB/s"}), - ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour, new string[]{"g/kWh"}), - ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.KilogramPerJoule, new string[]{"kg/J"}), - ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, new string[]{"lb/hph"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Farad, new string[]{"F"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Kilofarad, new string[]{"kF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Megafarad, new string[]{"MF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Microfarad, new string[]{"µF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Millifarad, new string[]{"mF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Nanofarad, new string[]{"nF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Picofarad, new string[]{"pF"}), - ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseDegreeCelsius, new string[]{"°C⁻¹", "1/°C"}), - ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseDegreeFahrenheit, new string[]{"°F⁻¹", "1/°F"}), - ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseKelvin, new string[]{"K⁻¹", "1/K"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerDeciliter, new string[]{"cg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerLiter, new string[]{"cg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerMilliliter, new string[]{"cg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerDeciliter, new string[]{"dg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerLiter, new string[]{"dg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerMilliliter, new string[]{"dg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicCentimeter, new string[]{"g/cm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMeter, new string[]{"g/m³"}), - ("ru-RU", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMeter, new string[]{"г/м³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMillimeter, new string[]{"g/mm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerDeciliter, new string[]{"g/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerLiter, new string[]{"g/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerMilliliter, new string[]{"g/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicCentimeter, new string[]{"kg/cm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMeter, new string[]{"kg/m³"}), - ("ru-RU", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMeter, new string[]{"кг/м³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMillimeter, new string[]{"kg/mm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerLiter, new string[]{"kg/l"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilopoundPerCubicFoot, new string[]{"kip/ft³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilopoundPerCubicInch, new string[]{"kip/in³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerCubicMeter, new string[]{"µg/m³"}), - ("ru-RU", typeof(DensityUnit), (int)DensityUnit.MicrogramPerCubicMeter, new string[]{"мкг/м³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerDeciliter, new string[]{"µg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerLiter, new string[]{"µg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerMilliliter, new string[]{"µg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerCubicMeter, new string[]{"mg/m³"}), - ("ru-RU", typeof(DensityUnit), (int)DensityUnit.MilligramPerCubicMeter, new string[]{"мг/м³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerDeciliter, new string[]{"mg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerLiter, new string[]{"mg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerMilliliter, new string[]{"mg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerDeciliter, new string[]{"ng/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerLiter, new string[]{"ng/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerMilliliter, new string[]{"ng/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerDeciliter, new string[]{"pg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerLiter, new string[]{"pg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerMilliliter, new string[]{"pg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerCubicFoot, new string[]{"lb/ft³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerCubicInch, new string[]{"lb/in³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerImperialGallon, new string[]{"ppg (imp.)"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerUSGallon, new string[]{"ppg (U.S.)"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.SlugPerCubicFoot, new string[]{"slug/ft³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicCentimeter, new string[]{"t/cm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicMeter, new string[]{"t/m³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicMillimeter, new string[]{"t/mm³"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Day, new string[]{"d", "day", "days"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Day, new string[]{"сут", "д"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Hour, new string[]{"h", "hr", "hrs", "hour", "hours"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Hour, new string[]{"ч", "час"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.JulianYear, new string[]{"jyr", "jyear", "jyears"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Microsecond, new string[]{"µs", "µsec", "µsecs", "µsecond", "µseconds"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Microsecond, new string[]{"мксек", "мкс"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Millisecond, new string[]{"ms", "msec", "msecs", "msecond", "mseconds"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Millisecond, new string[]{"мсек", "мс"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Minute, new string[]{"m", "min", "minute", "minutes"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Minute, new string[]{"мин"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Month30, new string[]{"mo", "month", "months"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Month30, new string[]{"месяц"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Nanosecond, new string[]{"ns", "nsec", "nsecs", "nsecond", "nseconds"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Nanosecond, new string[]{"нсек", "нс"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Second, new string[]{"s", "sec", "secs", "second", "seconds"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Second, new string[]{"сек", "с"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Week, new string[]{"wk", "week", "weeks"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Week, new string[]{"нед"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Year365, new string[]{"yr", "year", "years"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Year365, new string[]{"год"}), + ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.DegreePerSecondSquared, new string[]{"°/s²", "deg/s²"}), + ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RadianPerSecondSquared, new string[]{"rad/s²"}), + ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RevolutionPerMinutePerSecond, new string[]{"rpm/s"}), + ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RevolutionPerSecondSquared, new string[]{"r/s²"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.AcreFoot, new string[]{"ac-ft", "acre-foot", "acre-feet"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.BoardFoot, new string[]{"bf", "board foot", "board feet"}), + ("fr-CA", typeof(VolumeUnit), (int)VolumeUnit.BoardFoot, new string[]{"pmp", "pied-planche", "pied de planche"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Centiliter, new string[]{"cl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Centiliter, new string[]{"сл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicCentimeter, new string[]{"cm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicCentimeter, new string[]{"см³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicDecimeter, new string[]{"dm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicDecimeter, new string[]{"дм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicFoot, new string[]{"ft³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicFoot, new string[]{"фут³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicHectometer, new string[]{"hm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicHectometer, new string[]{"гм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicInch, new string[]{"in³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicInch, new string[]{"дюйм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicKilometer, new string[]{"km³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicKilometer, new string[]{"км³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMeter, new string[]{"m³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMeter, new string[]{"м³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMicrometer, new string[]{"µm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMicrometer, new string[]{"мкм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMile, new string[]{"mi³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMile, new string[]{"миля³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMillimeter, new string[]{"mm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMillimeter, new string[]{"мм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicYard, new string[]{"yd³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicYard, new string[]{"ярд³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.DecausGallon, new string[]{"dagal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.DecausGallon, new string[]{"даАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Deciliter, new string[]{"dl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Deciliter, new string[]{"дл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.DeciusGallon, new string[]{"dgal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.DeciusGallon, new string[]{"дАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectocubicFoot, new string[]{"hft³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectocubicFoot, new string[]{"гфут³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectocubicMeter, new string[]{"hm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectocubicMeter, new string[]{"гм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Hectoliter, new string[]{"hl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Hectoliter, new string[]{"гл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectousGallon, new string[]{"hgal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectousGallon, new string[]{"гАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialBeerBarrel, new string[]{"bl (imp.)"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialGallon, new string[]{"gal (imp.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.ImperialGallon, new string[]{"Английский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialOunce, new string[]{"oz (imp.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.ImperialOunce, new string[]{"Английская унция"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialPint, new string[]{"pt (imp.)", "UK pt", "pt", "p"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilocubicFoot, new string[]{"kft³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilocubicFoot, new string[]{"кфут³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilocubicMeter, new string[]{"km³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilocubicMeter, new string[]{"км³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KiloimperialGallon, new string[]{"kgal (imp.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KiloimperialGallon, new string[]{"кАнглийский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Kiloliter, new string[]{"kl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Kiloliter, new string[]{"кл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilousGallon, new string[]{"kgal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilousGallon, new string[]{"кАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Liter, new string[]{"l"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Liter, new string[]{"л"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegacubicFoot, new string[]{"Mft³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegacubicFoot, new string[]{"Мфут³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegaimperialGallon, new string[]{"Mgal (imp.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegaimperialGallon, new string[]{"МАнглийский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Megaliter, new string[]{"Ml"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Megaliter, new string[]{"Мл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegausGallon, new string[]{"Mgal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegausGallon, new string[]{"МАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MetricCup, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{"tsp", "t", "ts", "tspn", "t.", "ts.", "tsp.", "tspn.", "teaspoon"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Microliter, new string[]{"µl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Microliter, new string[]{"мкл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Milliliter, new string[]{"ml"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Milliliter, new string[]{"мл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.OilBarrel, new string[]{"bbl"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsBeerBarrel, new string[]{"bl (U.S.)"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsCustomaryCup, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsGallon, new string[]{"gal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsGallon, new string[]{"Американский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsLegalCup, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsOunce, new string[]{"oz (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsOunce, new string[]{"Американская унция"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsPint, new string[]{"pt (U.S.)"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsQuart, new string[]{"qt (U.S.)"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.BeatPerMinute, new string[]{"bpm"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.BUnit, new string[]{"B Units"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.CyclePerHour, new string[]{"cph"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.CyclePerMinute, new string[]{"cpm"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Gigahertz, new string[]{"GHz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Gigahertz, new string[]{"ГГц"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Hertz, new string[]{"Hz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Hertz, new string[]{"Гц"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Kilohertz, new string[]{"kHz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Kilohertz, new string[]{"кГц"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Megahertz, new string[]{"MHz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Megahertz, new string[]{"МГц"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.PerSecond, new string[]{"s⁻¹"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.PerSecond, new string[]{"с⁻¹"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.RadianPerSecond, new string[]{"rad/s"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.RadianPerSecond, new string[]{"рад/с"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Terahertz, new string[]{"THz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Terahertz, new string[]{"ТГц"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.Centipoise, new string[]{"cP"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.MicropascalSecond, new string[]{"µPa·s", "µPaS"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.MillipascalSecond, new string[]{"mPa·s", "mPaS"}), @@ -273,212 +332,97 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.PoundForceSecondPerSquareInch, new string[]{"lbf·s/in²"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.PoundPerFootSecond, new string[]{"lb/ft·s"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.Reyn, new string[]{"reyn"}), - ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Microsiemens, new string[]{"µS"}), - ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Millisiemens, new string[]{"mS"}), - ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Nanosiemens, new string[]{"nS"}), - ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Siemens, new string[]{"S"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.AmpereHour, new string[]{"A-h", "Ah"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.Coulomb, new string[]{"C"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.KiloampereHour, new string[]{"kA-h", "kAh"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.MegaampereHour, new string[]{"MA-h", "MAh"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.MilliampereHour, new string[]{"mA-h", "mAh"}), - ("en-US", typeof(ElectricChargeDensityUnit), (int)ElectricChargeDensityUnit.CoulombPerCubicMeter, new string[]{"C/m³"}), - ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Microsiemens, new string[]{"µS"}), - ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Millisiemens, new string[]{"mS"}), - ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Siemens, new string[]{"S"}), - ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerFoot, new string[]{"S/ft"}), - ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerInch, new string[]{"S/in"}), - ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerMeter, new string[]{"S/m"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Ampere, new string[]{"A"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Centiampere, new string[]{"cA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Kiloampere, new string[]{"kA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Megaampere, new string[]{"MA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Microampere, new string[]{"µA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Milliampere, new string[]{"mA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Nanoampere, new string[]{"nA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Picoampere, new string[]{"pA"}), - ("en-US", typeof(ElectricCurrentDensityUnit), (int)ElectricCurrentDensityUnit.AmperePerSquareFoot, new string[]{"A/ft²"}), - ("en-US", typeof(ElectricCurrentDensityUnit), (int)ElectricCurrentDensityUnit.AmperePerSquareInch, new string[]{"A/in²"}), - ("en-US", typeof(ElectricCurrentDensityUnit), (int)ElectricCurrentDensityUnit.AmperePerSquareMeter, new string[]{"A/m²"}), - ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerMicrosecond, new string[]{"A/μs"}), - ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerMillisecond, new string[]{"A/ms"}), - ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerNanosecond, new string[]{"A/ns"}), - ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerSecond, new string[]{"A/s"}), - ("en-US", typeof(ElectricFieldUnit), (int)ElectricFieldUnit.VoltPerMeter, new string[]{"V/m"}), - ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Henry, new string[]{"H"}), - ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Microhenry, new string[]{"µH"}), - ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Millihenry, new string[]{"mH"}), - ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Nanohenry, new string[]{"nH"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Kilovolt, new string[]{"kV"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Kilovolt, new string[]{"кВ"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Megavolt, new string[]{"MV"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Megavolt, new string[]{"МВ"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Microvolt, new string[]{"µV"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Microvolt, new string[]{"мкВ"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Millivolt, new string[]{"mV"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Millivolt, new string[]{"мВ"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Volt, new string[]{"V"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Volt, new string[]{"В"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.KilovoltAc, new string[]{"kVac"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MegavoltAc, new string[]{"MVac"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MicrovoltAc, new string[]{"µVac"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MillivoltAc, new string[]{"mVac"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.VoltAc, new string[]{"Vac"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerHour, new string[]{"kV/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond, new string[]{"kV/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerMinute, new string[]{"kV/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerSecond, new string[]{"kV/s"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerHour, new string[]{"MV/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond, new string[]{"MV/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerMinute, new string[]{"MV/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerSecond, new string[]{"MV/s"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerHour, new string[]{"µV/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond, new string[]{"µV/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerMinute, new string[]{"µV/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerSecond, new string[]{"µV/s"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerHour, new string[]{"mV/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond, new string[]{"mV/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerMinute, new string[]{"mV/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerSecond, new string[]{"mV/s"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerHour, new string[]{"V/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerMicrosecond, new string[]{"V/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerMinute, new string[]{"V/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerSecond, new string[]{"V/s"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.KilovoltDc, new string[]{"kVdc"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.MegavoltDc, new string[]{"MVdc"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.MicrovoltDc, new string[]{"µVdc"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.MillivoltDc, new string[]{"mVdc"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.VoltDc, new string[]{"Vdc"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Gigaohm, new string[]{"GΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Kiloohm, new string[]{"kΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Megaohm, new string[]{"MΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Microohm, new string[]{"µΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Milliohm, new string[]{"mΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Ohm, new string[]{"Ω"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.KiloohmCentimeter, new string[]{"kΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.KiloohmMeter, new string[]{"kΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MegaohmCentimeter, new string[]{"MΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MegaohmMeter, new string[]{"MΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MicroohmCentimeter, new string[]{"µΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MicroohmMeter, new string[]{"µΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MilliohmCentimeter, new string[]{"mΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MilliohmMeter, new string[]{"mΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.NanoohmCentimeter, new string[]{"nΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.NanoohmMeter, new string[]{"nΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.OhmCentimeter, new string[]{"Ω·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.OhmMeter, new string[]{"Ω·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.PicoohmCentimeter, new string[]{"pΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.PicoohmMeter, new string[]{"pΩ·m"}), - ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter, new string[]{"C/cm²"}), - ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch, new string[]{"C/in²"}), - ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareMeter, new string[]{"C/m²"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.BritishThermalUnit, new string[]{"BTU"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Calorie, new string[]{"cal"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.DecathermEc, new string[]{"Dth (E.C.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.DecathermEc, new string[]{"Европейский декатерм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.DecathermImperial, new string[]{"Dth (imp.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.DecathermImperial, new string[]{"Английский декатерм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.DecathermUs, new string[]{"Dth (U.S.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.DecathermUs, new string[]{"Американский декатерм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.ElectronVolt, new string[]{"eV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.ElectronVolt, new string[]{"эВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Erg, new string[]{"erg"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.FootPound, new string[]{"ft·lb"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.GigabritishThermalUnit, new string[]{"GBTU"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.GigaelectronVolt, new string[]{"GeV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.GigaelectronVolt, new string[]{"ГэВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Gigajoule, new string[]{"GJ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.GigawattDay, new string[]{"GWd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.GigawattDay, new string[]{"ГВт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.GigawattHour, new string[]{"GWh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.GigawattHour, new string[]{"ГВт/ч"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.HorsepowerHour, new string[]{"hp·h"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Joule, new string[]{"J"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KilobritishThermalUnit, new string[]{"kBTU"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Kilocalorie, new string[]{"kcal"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KiloelectronVolt, new string[]{"keV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.KiloelectronVolt, new string[]{"кэВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Kilojoule, new string[]{"kJ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KilowattDay, new string[]{"kWd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.KilowattDay, new string[]{"кВт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KilowattHour, new string[]{"kWh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.KilowattHour, new string[]{"кВт/ч"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegabritishThermalUnit, new string[]{"MBTU"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Megacalorie, new string[]{"Mcal"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegaelectronVolt, new string[]{"MeV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.MegaelectronVolt, new string[]{"МэВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Megajoule, new string[]{"MJ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegawattDay, new string[]{"MWd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.MegawattDay, new string[]{"МВт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegawattHour, new string[]{"MWh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.MegawattHour, new string[]{"МВт/ч"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Millijoule, new string[]{"mJ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.TeraelectronVolt, new string[]{"TeV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.TeraelectronVolt, new string[]{"ТэВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.TerawattDay, new string[]{"TWd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.TerawattDay, new string[]{"ТВт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.TerawattHour, new string[]{"TWh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.TerawattHour, new string[]{"ТВт/ч"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.ThermEc, new string[]{"th (E.C.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.ThermEc, new string[]{"Европейский терм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.ThermImperial, new string[]{"th (imp.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.ThermImperial, new string[]{"Английский терм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.ThermUs, new string[]{"th (U.S.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.ThermUs, new string[]{"Американский терм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.WattDay, new string[]{"Wd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.WattDay, new string[]{"Вт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.WattHour, new string[]{"Wh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.WattHour, new string[]{"Вт/ч"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.CaloriePerKelvin, new string[]{"cal/K"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.JoulePerDegreeCelsius, new string[]{"J/C"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.JoulePerKelvin, new string[]{"J/K"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilocaloriePerKelvin, new string[]{"kcal/K"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilojoulePerDegreeCelsius, new string[]{"kJ/C"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilojoulePerKelvin, new string[]{"kJ/K"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.MegajoulePerKelvin, new string[]{"MJ/K"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Decanewton, new string[]{"daN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Decanewton, new string[]{"даН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Dyn, new string[]{"dyn"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Dyn, new string[]{"дин"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.KilogramForce, new string[]{"kgf"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KilogramForce, new string[]{"кгс"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Kilonewton, new string[]{"kN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Kilonewton, new string[]{"кН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.KiloPond, new string[]{"kp"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KiloPond, new string[]{"кгс"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.KilopoundForce, new string[]{"kipf", "kip", "k"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KilopoundForce, new string[]{"кипф", "койка", "К"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Meganewton, new string[]{"MN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Meganewton, new string[]{"МН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Micronewton, new string[]{"µN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Micronewton, new string[]{"мкН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Millinewton, new string[]{"mN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Millinewton, new string[]{"мН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Newton, new string[]{"N"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Newton, new string[]{"Н"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.OunceForce, new string[]{"ozf"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Poundal, new string[]{"pdl"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Poundal, new string[]{"паундаль"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.PoundForce, new string[]{"lbf"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.PoundForce, new string[]{"фунт-сила"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.ShortTonForce, new string[]{"tf (short)", "t (US)f", "short tons-force"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.TonneForce, new string[]{"tf", "Ton"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.TonneForce, new string[]{"тс"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.CentinewtonPerSecond, new string[]{"cN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecanewtonPerMinute, new string[]{"daN/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecanewtonPerSecond, new string[]{"daN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecinewtonPerSecond, new string[]{"dN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilonewtonPerMinute, new string[]{"kN/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilonewtonPerSecond, new string[]{"kN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilopoundForcePerMinute, new string[]{"kipf/min", "kip/min", "k/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilopoundForcePerSecond, new string[]{"kipf/s", "kip/s", "k/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.MicronewtonPerSecond, new string[]{"µN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.MillinewtonPerSecond, new string[]{"mN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NanonewtonPerSecond, new string[]{"nN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NewtonPerMinute, new string[]{"N/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NewtonPerSecond, new string[]{"N/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.PoundForcePerMinute, new string[]{"lbf/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.PoundForcePerSecond, new string[]{"lbf/s"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit, new string[]{"BTU/ft³·°F"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius, new string[]{"cal/cm³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius, new string[]{"J/m³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.JoulePerCubicMeterKelvin, new string[]{"J/m³·K"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius, new string[]{"kcal/cm³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius, new string[]{"kJ/m³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin, new string[]{"kJ/m³·K"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius, new string[]{"MJ/m³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, new string[]{"MJ/m³·K"}), + ("en-US", typeof(LevelUnit), (int)LevelUnit.Decibel, new string[]{"dB"}), + ("en-US", typeof(LevelUnit), (int)LevelUnit.Neper, new string[]{"Np"}), + ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.JoulePerMole, new string[]{"J/mol"}), + ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.KilojoulePerMole, new string[]{"kJ/mol"}), + ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.MegajoulePerMole, new string[]{"MJ/mol"}), + ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Gigavoltampere, new string[]{"GVA"}), + ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Kilovoltampere, new string[]{"kVA"}), + ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Megavoltampere, new string[]{"MVA"}), + ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Voltampere, new string[]{"VA"}), + ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.KilovoltampereReactiveHour, new string[]{"kvarh"}), + ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.MegavoltampereReactiveHour, new string[]{"Mvarh"}), + ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.VoltampereReactiveHour, new string[]{"varh"}), + ("en-US", typeof(LuminousFluxUnit), (int)LuminousFluxUnit.Lumen, new string[]{"lm"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.BtuPerPound, new string[]{"btu/lb"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.CaloriePerGram, new string[]{"cal/g"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerKilogram, new string[]{"GWd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerShortTon, new string[]{"GWd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerTonne, new string[]{"GWd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattHourPerKilogram, new string[]{"GWh/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.JoulePerKilogram, new string[]{"J/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilocaloriePerGram, new string[]{"kcal/g"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilojoulePerKilogram, new string[]{"kJ/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerKilogram, new string[]{"kWd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerShortTon, new string[]{"kWd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerTonne, new string[]{"kWd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattHourPerKilogram, new string[]{"kWh/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegajoulePerKilogram, new string[]{"MJ/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerKilogram, new string[]{"MWd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerShortTon, new string[]{"MWd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerTonne, new string[]{"MWd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattHourPerKilogram, new string[]{"MWh/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerKilogram, new string[]{"TWd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerShortTon, new string[]{"TWd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerTonne, new string[]{"TWd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerKilogram, new string[]{"Wd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerShortTon, new string[]{"Wd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerTonne, new string[]{"Wd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattHourPerKilogram, new string[]{"Wh/kg"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicFoot, new string[]{"daW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicInch, new string[]{"daW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicMeter, new string[]{"daW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerLiter, new string[]{"daW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicFoot, new string[]{"dW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicInch, new string[]{"dW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicMeter, new string[]{"dW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerLiter, new string[]{"dW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicFoot, new string[]{"GW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicInch, new string[]{"GW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicMeter, new string[]{"GW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerLiter, new string[]{"GW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicFoot, new string[]{"kW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicInch, new string[]{"kW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicMeter, new string[]{"kW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerLiter, new string[]{"kW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicFoot, new string[]{"MW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicInch, new string[]{"MW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicMeter, new string[]{"MW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerLiter, new string[]{"MW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicFoot, new string[]{"µW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicInch, new string[]{"µW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicMeter, new string[]{"µW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerLiter, new string[]{"µW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicFoot, new string[]{"mW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicInch, new string[]{"mW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicMeter, new string[]{"mW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerLiter, new string[]{"mW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicFoot, new string[]{"nW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicInch, new string[]{"nW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicMeter, new string[]{"nW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerLiter, new string[]{"nW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicFoot, new string[]{"pW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicInch, new string[]{"pW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicMeter, new string[]{"pW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerLiter, new string[]{"pW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicFoot, new string[]{"TW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicInch, new string[]{"TW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicMeter, new string[]{"TW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerLiter, new string[]{"TW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicFoot, new string[]{"W/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicInch, new string[]{"W/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicMeter, new string[]{"W/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerLiter, new string[]{"W/l"}), ("en-US", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.CentinewtonPerCentimeter, new string[]{"cN/cm"}), ("en-US", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.CentinewtonPerMeter, new string[]{"cN/m"}), ("en-US", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.CentinewtonPerMillimeter, new string[]{"cN/mm"}), @@ -523,222 +467,6 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("ru-RU", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.TonneForcePerMeter, new string[]{"тс/м"}), ("en-US", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.TonneForcePerMillimeter, new string[]{"tf/mm"}), ("ru-RU", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.TonneForcePerMillimeter, new string[]{"тс/мм"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.BeatPerMinute, new string[]{"bpm"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.BUnit, new string[]{"B Units"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.CyclePerHour, new string[]{"cph"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.CyclePerMinute, new string[]{"cpm"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Gigahertz, new string[]{"GHz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Gigahertz, new string[]{"ГГц"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Hertz, new string[]{"Hz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Hertz, new string[]{"Гц"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Kilohertz, new string[]{"kHz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Kilohertz, new string[]{"кГц"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Megahertz, new string[]{"MHz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Megahertz, new string[]{"МГц"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.PerSecond, new string[]{"s⁻¹"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.PerSecond, new string[]{"с⁻¹"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.RadianPerSecond, new string[]{"rad/s"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.RadianPerSecond, new string[]{"рад/с"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Terahertz, new string[]{"THz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Terahertz, new string[]{"ТГц"}), - ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.KilometerPerLiter, new string[]{"km/L"}), - ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.LiterPer100Kilometers, new string[]{"L/100km"}), - ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.MilePerUkGallon, new string[]{"mpg (imp.)"}), - ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.MilePerUsGallon, new string[]{"mpg (U.S.)"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerHourSquareFoot, new string[]{"BTU/h·ft²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerMinuteSquareFoot, new string[]{"BTU/min·ft²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerSecondSquareFoot, new string[]{"BTU/s·ft²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerSecondSquareInch, new string[]{"BTU/s·in²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.CaloriePerSecondSquareCentimeter, new string[]{"cal/s·cm²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.CentiwattPerSquareMeter, new string[]{"cW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.DeciwattPerSquareMeter, new string[]{"dW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilocaloriePerHourSquareMeter, new string[]{"kcal/h·m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilocaloriePerSecondSquareCentimeter, new string[]{"kcal/s·cm²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilowattPerSquareMeter, new string[]{"kW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.MicrowattPerSquareMeter, new string[]{"µW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.MilliwattPerSquareMeter, new string[]{"mW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.NanowattPerSquareMeter, new string[]{"nW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.PoundForcePerFootSecond, new string[]{"lbf/(ft·s)"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.PoundPerSecondCubed, new string[]{"lb/s³", "lbm/s³"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareFoot, new string[]{"W/ft²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareInch, new string[]{"W/in²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareMeter, new string[]{"W/m²"}), - ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit, new string[]{"Btu/ft²·hr·°F"}), - ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.WattPerSquareMeterCelsius, new string[]{"W/m²·°C"}), - ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.WattPerSquareMeterKelvin, new string[]{"W/m²·K"}), - ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Kilolux, new string[]{"klx"}), - ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Lux, new string[]{"lx"}), - ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Megalux, new string[]{"Mlx"}), - ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Millilux, new string[]{"mlx"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Bit, new string[]{"b"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Byte, new string[]{"B"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Exabit, new string[]{"Eb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Exabyte, new string[]{"EB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Exbibit, new string[]{"Eib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Exbibyte, new string[]{"EiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Gibibit, new string[]{"Gib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Gibibyte, new string[]{"GiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Gigabit, new string[]{"Gb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Gigabyte, new string[]{"GB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Kibibit, new string[]{"Kib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Kibibyte, new string[]{"KiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Kilobit, new string[]{"kb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Kilobyte, new string[]{"kB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Mebibit, new string[]{"Mib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Mebibyte, new string[]{"MiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Megabit, new string[]{"Mb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Megabyte, new string[]{"MB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Pebibit, new string[]{"Pib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Pebibyte, new string[]{"PiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Petabit, new string[]{"Pb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Petabyte, new string[]{"PB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Tebibit, new string[]{"Tib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Tebibyte, new string[]{"TiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Terabit, new string[]{"Tb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Terabyte, new string[]{"TB"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.KilowattPerSquareCentimeter, new string[]{"kW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.KilowattPerSquareMeter, new string[]{"kW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MegawattPerSquareCentimeter, new string[]{"MW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MegawattPerSquareMeter, new string[]{"MW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MicrowattPerSquareCentimeter, new string[]{"µW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MicrowattPerSquareMeter, new string[]{"µW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MilliwattPerSquareCentimeter, new string[]{"mW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MilliwattPerSquareMeter, new string[]{"mW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.NanowattPerSquareCentimeter, new string[]{"nW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.NanowattPerSquareMeter, new string[]{"nW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.PicowattPerSquareCentimeter, new string[]{"pW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.PicowattPerSquareMeter, new string[]{"pW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.WattPerSquareCentimeter, new string[]{"W/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.WattPerSquareMeter, new string[]{"W/m²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareCentimeter, new string[]{"J/cm²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareMeter, new string[]{"J/m²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareMillimeter, new string[]{"J/mm²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.KilojoulePerSquareMeter, new string[]{"kJ/m²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.KilowattHourPerSquareMeter, new string[]{"kWh/m²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.MillijoulePerSquareCentimeter, new string[]{"mJ/cm²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.WattHourPerSquareMeter, new string[]{"Wh/m²"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Centistokes, new string[]{"cSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Centistokes, new string[]{"сСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Decistokes, new string[]{"dSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Decistokes, new string[]{"дСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Kilostokes, new string[]{"kSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Kilostokes, new string[]{"кСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Microstokes, new string[]{"µSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Microstokes, new string[]{"мкСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Millistokes, new string[]{"mSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Millistokes, new string[]{"мСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Nanostokes, new string[]{"nSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Nanostokes, new string[]{"нСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.SquareFootPerSecond, new string[]{"ft²/s"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.SquareMeterPerSecond, new string[]{"m²/s"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.SquareMeterPerSecond, new string[]{"м²/с"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Stokes, new string[]{"St"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Stokes, new string[]{"Ст"}), - ("en-US", typeof(LapseRateUnit), (int)LapseRateUnit.DegreeCelsiusPerKilometer, new string[]{"∆°C/km"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.AstronomicalUnit, new string[]{"au", "ua"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Centimeter, new string[]{"cm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Centimeter, new string[]{"см"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Centimeter, new string[]{"厘米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Chain, new string[]{"ch"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Decimeter, new string[]{"dm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Decimeter, new string[]{"дм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Decimeter, new string[]{"分米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.DtpPica, new string[]{"pica"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.DtpPoint, new string[]{"pt"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Fathom, new string[]{"fathom"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Foot, new string[]{"ft", "'", "′"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Foot, new string[]{"фут"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Foot, new string[]{"英尺"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Hand, new string[]{"h", "hh"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Hectometer, new string[]{"hm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Hectometer, new string[]{"гм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Hectometer, new string[]{"百米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Inch, new string[]{"in", "\"", "″"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Inch, new string[]{"дюйм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Inch, new string[]{"英寸"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.KilolightYear, new string[]{"kly"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Kilometer, new string[]{"km"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Kilometer, new string[]{"км"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Kilometer, new string[]{"千米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Kiloparsec, new string[]{"kpc"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.LightYear, new string[]{"ly"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.MegalightYear, new string[]{"Mly"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Megaparsec, new string[]{"Mpc"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Meter, new string[]{"m"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Meter, new string[]{"м"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Meter, new string[]{"米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Microinch, new string[]{"µin"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Microinch, new string[]{"микродюйм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Microinch, new string[]{"微英寸"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Micrometer, new string[]{"µm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Micrometer, new string[]{"мкм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Micrometer, new string[]{"微米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Mil, new string[]{"mil"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Mil, new string[]{"мил"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Mil, new string[]{"密耳"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Mile, new string[]{"mi"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Mile, new string[]{"миля"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Mile, new string[]{"英里"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Millimeter, new string[]{"mm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Millimeter, new string[]{"мм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Millimeter, new string[]{"毫米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Nanometer, new string[]{"nm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Nanometer, new string[]{"нм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Nanometer, new string[]{"纳米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.NauticalMile, new string[]{"NM"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.NauticalMile, new string[]{"мил"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.NauticalMile, new string[]{"纳米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Parsec, new string[]{"pc"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.PrinterPica, new string[]{"pica"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.PrinterPoint, new string[]{"pt"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Shackle, new string[]{"shackle"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.SolarRadius, new string[]{"R⊙"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Twip, new string[]{"twip"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.UsSurveyFoot, new string[]{"ftUS"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Yard, new string[]{"yd"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Yard, new string[]{"ярд"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Yard, new string[]{"码"}), - ("en-US", typeof(LevelUnit), (int)LevelUnit.Decibel, new string[]{"dB"}), - ("en-US", typeof(LevelUnit), (int)LevelUnit.Neper, new string[]{"Np"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerCentimeter, new string[]{"g/cm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerMeter, new string[]{"g/m"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerMillimeter, new string[]{"g/mm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerCentimeter, new string[]{"kg/cm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerMeter, new string[]{"kg/m"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerMillimeter, new string[]{"kg/mm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerCentimeter, new string[]{"µg/cm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerMeter, new string[]{"µg/m"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerMillimeter, new string[]{"µg/mm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerCentimeter, new string[]{"mg/cm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerMeter, new string[]{"mg/m"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerMillimeter, new string[]{"mg/mm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.PoundPerFoot, new string[]{"lb/ft"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.PoundPerInch, new string[]{"lb/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerCentimeter, new string[]{"GW/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerFoot, new string[]{"GW/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerInch, new string[]{"GW/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerMeter, new string[]{"GW/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerMillimeter, new string[]{"GW/mm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerCentimeter, new string[]{"kW/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerFoot, new string[]{"kW/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerInch, new string[]{"kW/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerMeter, new string[]{"kW/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerMillimeter, new string[]{"kW/mm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerCentimeter, new string[]{"MW/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerFoot, new string[]{"MW/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerInch, new string[]{"MW/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerMeter, new string[]{"MW/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerMillimeter, new string[]{"MW/mm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerCentimeter, new string[]{"mW/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerFoot, new string[]{"mW/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerInch, new string[]{"mW/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerMeter, new string[]{"mW/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerMillimeter, new string[]{"mW/mm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerCentimeter, new string[]{"W/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerFoot, new string[]{"W/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerInch, new string[]{"W/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerMeter, new string[]{"W/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerMillimeter, new string[]{"W/mm"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Decawatt, new string[]{"daW"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Deciwatt, new string[]{"dW"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Femtowatt, new string[]{"fW"}), @@ -753,268 +481,16 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.SolarLuminosity, new string[]{"L⊙"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Terawatt, new string[]{"TW"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Watt, new string[]{"W"}), - ("en-US", typeof(LuminousFluxUnit), (int)LuminousFluxUnit.Lumen, new string[]{"lm"}), - ("en-US", typeof(LuminousIntensityUnit), (int)LuminousIntensityUnit.Candela, new string[]{"cd"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Gauss, new string[]{"G"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Microtesla, new string[]{"µT"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Milligauss, new string[]{"mG"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Millitesla, new string[]{"mT"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Nanotesla, new string[]{"nT"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Tesla, new string[]{"T"}), - ("en-US", typeof(MagneticFluxUnit), (int)MagneticFluxUnit.Weber, new string[]{"Wb"}), - ("en-US", typeof(MagnetizationUnit), (int)MagnetizationUnit.AmperePerMeter, new string[]{"A/m"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"cg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"сг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"厘克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"dag"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"даг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"十克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"dg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"дг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"分克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.EarthMass, new string[]{"em"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Grain, new string[]{"gr"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"g"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"г"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"hg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"гг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"百克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"kg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"кг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"千克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"klb", "klbs", "klbm"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"кфунт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"千磅"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"kt"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"кт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"千吨"}), - ("en-US", typeof(MassUnit), (int)MassUnit.LongHundredweight, new string[]{"cwt"}), - ("en-US", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"long tn"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"тонна большая"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"长吨"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"Mlb", "Mlbs", "Mlbm"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"Мфунт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"兆磅"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"Mt"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"Мт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"兆吨"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"µg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"мкг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"微克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Milligram, new string[]{"mg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Milligram, new string[]{"мг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Milligram, new string[]{"毫克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Nanogram, new string[]{"ng"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Nanogram, new string[]{"нг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Nanogram, new string[]{"纳克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Ounce, new string[]{"oz"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Ounce, new string[]{"盎司"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Pound, new string[]{"lb", "lbs", "lbm"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Pound, new string[]{"фунт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Pound, new string[]{"磅"}), - ("en-US", typeof(MassUnit), (int)MassUnit.ShortHundredweight, new string[]{"cwt"}), - ("en-US", typeof(MassUnit), (int)MassUnit.ShortTon, new string[]{"t (short)", "short tn", "ST"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.ShortTon, new string[]{"тонна малая"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.ShortTon, new string[]{"短吨"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Slug, new string[]{"slug"}), - ("en-US", typeof(MassUnit), (int)MassUnit.SolarMass, new string[]{"M⊙"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Stone, new string[]{"st"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Tonne, new string[]{"t"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Tonne, new string[]{"т"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Tonne, new string[]{"吨"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerDeciliter, new string[]{"cg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerLiter, new string[]{"cg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerMicroliter, new string[]{"cg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerMilliliter, new string[]{"cg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerDeciliter, new string[]{"dg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerLiter, new string[]{"dg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerMicroliter, new string[]{"dg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerMilliliter, new string[]{"dg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicCentimeter, new string[]{"g/cm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicMeter, new string[]{"g/m³"}), - ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicMeter, new string[]{"г/м³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicMillimeter, new string[]{"g/mm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerDeciliter, new string[]{"g/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerLiter, new string[]{"g/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerMicroliter, new string[]{"g/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerMilliliter, new string[]{"g/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicCentimeter, new string[]{"kg/cm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicMeter, new string[]{"kg/m³"}), - ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicMeter, new string[]{"кг/м³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicMillimeter, new string[]{"kg/mm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerLiter, new string[]{"kg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilopoundPerCubicFoot, new string[]{"kip/ft³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilopoundPerCubicInch, new string[]{"kip/in³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerCubicMeter, new string[]{"µg/m³"}), - ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerCubicMeter, new string[]{"мкг/м³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerDeciliter, new string[]{"µg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerLiter, new string[]{"µg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerMicroliter, new string[]{"µg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerMilliliter, new string[]{"µg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerCubicMeter, new string[]{"mg/m³"}), - ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerCubicMeter, new string[]{"мг/м³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerDeciliter, new string[]{"mg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerLiter, new string[]{"mg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerMicroliter, new string[]{"mg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerMilliliter, new string[]{"mg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerDeciliter, new string[]{"ng/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerLiter, new string[]{"ng/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerMicroliter, new string[]{"ng/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerMilliliter, new string[]{"ng/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.OuncePerImperialGallon, new string[]{"oz/gal (imp.)"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.OuncePerUSGallon, new string[]{"oz/gal (U.S.)"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerDeciliter, new string[]{"pg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerLiter, new string[]{"pg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerMicroliter, new string[]{"pg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerMilliliter, new string[]{"pg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerCubicFoot, new string[]{"lb/ft³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerCubicInch, new string[]{"lb/in³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerImperialGallon, new string[]{"ppg (imp.)"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerUSGallon, new string[]{"ppg (U.S.)"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.SlugPerCubicFoot, new string[]{"slug/ft³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicCentimeter, new string[]{"t/cm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicMeter, new string[]{"t/m³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicMillimeter, new string[]{"t/mm³"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.CentigramPerDay, new string[]{"cg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.CentigramPerSecond, new string[]{"cg/s", "cg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecagramPerDay, new string[]{"dag/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecagramPerSecond, new string[]{"dag/s", "dag/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecigramPerDay, new string[]{"dg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecigramPerSecond, new string[]{"dg/s", "dg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerDay, new string[]{"g/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerHour, new string[]{"g/h"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerSecond, new string[]{"g/s", "g/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.HectogramPerDay, new string[]{"hg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.HectogramPerSecond, new string[]{"hg/s", "hg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerDay, new string[]{"kg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerHour, new string[]{"kg/h"}), - ("ru-RU", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerHour, new string[]{"кг/ч"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerMinute, new string[]{"kg/min"}), - ("ru-RU", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerMinute, new string[]{"кг/мин"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerSecond, new string[]{"kg/s", "kg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegagramPerDay, new string[]{"Mg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerDay, new string[]{"Mlb/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerHour, new string[]{"Mlb/h"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerMinute, new string[]{"Mlb/min"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerSecond, new string[]{"Mlb/s"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MicrogramPerDay, new string[]{"µg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MicrogramPerSecond, new string[]{"µg/s", "µg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MilligramPerDay, new string[]{"mg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MilligramPerSecond, new string[]{"mg/s", "mg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.NanogramPerDay, new string[]{"ng/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.NanogramPerSecond, new string[]{"ng/s", "ng/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerDay, new string[]{"lb/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerHour, new string[]{"lb/h"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerMinute, new string[]{"lb/min"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerSecond, new string[]{"lb/s"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.ShortTonPerHour, new string[]{"short tn/h"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.TonnePerDay, new string[]{"t/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.TonnePerHour, new string[]{"t/h"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareCentimeter, new string[]{"g·h⁻¹·cm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareMeter, new string[]{"g·h⁻¹·m⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareMillimeter, new string[]{"g·h⁻¹·mm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareCentimeter, new string[]{"g·s⁻¹·cm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareMeter, new string[]{"g·s⁻¹·m⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareMillimeter, new string[]{"g·s⁻¹·mm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareCentimeter, new string[]{"kg·h⁻¹·cm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareMeter, new string[]{"kg·h⁻¹·m⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareMillimeter, new string[]{"kg·h⁻¹·mm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareCentimeter, new string[]{"kg·s⁻¹·cm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareMeter, new string[]{"kg·s⁻¹·m⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareMillimeter, new string[]{"kg·s⁻¹·mm⁻²"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.CentigramPerGram, new string[]{"cg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.CentigramPerKilogram, new string[]{"cg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecagramPerGram, new string[]{"dag/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecagramPerKilogram, new string[]{"dag/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecigramPerGram, new string[]{"dg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecigramPerKilogram, new string[]{"dg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecimalFraction, new string[]{""}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.GramPerGram, new string[]{"g/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.GramPerKilogram, new string[]{"g/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.HectogramPerGram, new string[]{"hg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.HectogramPerKilogram, new string[]{"hg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.KilogramPerGram, new string[]{"kg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.KilogramPerKilogram, new string[]{"kg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MicrogramPerGram, new string[]{"µg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MicrogramPerKilogram, new string[]{"µg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MilligramPerGram, new string[]{"mg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MilligramPerKilogram, new string[]{"mg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.NanogramPerGram, new string[]{"ng/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.NanogramPerKilogram, new string[]{"ng/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerBillion, new string[]{"ppb"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerMillion, new string[]{"ppm"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerThousand, new string[]{"‰"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerTrillion, new string[]{"ppt"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.Percent, new string[]{"%", "% (w/w)"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.GramSquareCentimeter, new string[]{"g·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.GramSquareDecimeter, new string[]{"g·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.GramSquareMeter, new string[]{"g·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.GramSquareMillimeter, new string[]{"g·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareCentimeter, new string[]{"kg·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareDecimeter, new string[]{"kg·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareMeter, new string[]{"kg·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareMillimeter, new string[]{"kg·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareCentimeter, new string[]{"kt·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareDecimeter, new string[]{"kt·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareMeter, new string[]{"kt·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareMilimeter, new string[]{"kt·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareCentimeter, new string[]{"Mt·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareDecimeter, new string[]{"Mt·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareMeter, new string[]{"Mt·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareMilimeter, new string[]{"Mt·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareCentimeter, new string[]{"mg·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareDecimeter, new string[]{"mg·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareMeter, new string[]{"mg·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareMillimeter, new string[]{"mg·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.PoundSquareFoot, new string[]{"lb·ft²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.PoundSquareInch, new string[]{"lb·in²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.SlugSquareFoot, new string[]{"slug·ft²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.SlugSquareInch, new string[]{"slug·in²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareCentimeter, new string[]{"t·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareDecimeter, new string[]{"t·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareMeter, new string[]{"t·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareMilimeter, new string[]{"t·mm²"}), - ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.JoulePerMole, new string[]{"J/mol"}), - ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.KilojoulePerMole, new string[]{"kJ/mol"}), - ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.MegajoulePerMole, new string[]{"MJ/mol"}), - ("en-US", typeof(MolarEntropyUnit), (int)MolarEntropyUnit.JoulePerMoleKelvin, new string[]{"J/(mol*K)"}), - ("en-US", typeof(MolarEntropyUnit), (int)MolarEntropyUnit.KilojoulePerMoleKelvin, new string[]{"kJ/(mol*K)"}), - ("en-US", typeof(MolarEntropyUnit), (int)MolarEntropyUnit.MegajoulePerMoleKelvin, new string[]{"MJ/(mol*K)"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.CentimolesPerLiter, new string[]{"cmol/L", "cM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.DecimolesPerLiter, new string[]{"dmol/L", "dM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MicromolesPerLiter, new string[]{"µmol/L", "µM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MillimolesPerLiter, new string[]{"mmol/L", "mM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MolesPerCubicMeter, new string[]{"mol/m³"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MolesPerLiter, new string[]{"mol/L", "M"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.NanomolesPerLiter, new string[]{"nmol/L", "nM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.PicomolesPerLiter, new string[]{"pmol/L", "pM"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.CentigramPerMole, new string[]{"cg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.CentigramPerMole, new string[]{"сг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.DecagramPerMole, new string[]{"dag/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.DecagramPerMole, new string[]{"даг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.DecigramPerMole, new string[]{"dg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.DecigramPerMole, new string[]{"дг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.GramPerMole, new string[]{"g/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.GramPerMole, new string[]{"г/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.HectogramPerMole, new string[]{"hg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.HectogramPerMole, new string[]{"гг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.KilogramPerMole, new string[]{"kg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.KilogramPerMole, new string[]{"кг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.KilopoundPerMole, new string[]{"klb/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.KilopoundPerMole, new string[]{"кфунт/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MegapoundPerMole, new string[]{"Mlb/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MegapoundPerMole, new string[]{"Мфунт/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MicrogramPerMole, new string[]{"µg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MicrogramPerMole, new string[]{"мкг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MilligramPerMole, new string[]{"mg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MilligramPerMole, new string[]{"мг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.NanogramPerMole, new string[]{"ng/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.NanogramPerMole, new string[]{"нг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.PoundPerMole, new string[]{"lb/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.PoundPerMole, new string[]{"фунт/моль"}), - ("en-US", typeof(PermeabilityUnit), (int)PermeabilityUnit.HenryPerMeter, new string[]{"H/m"}), - ("en-US", typeof(PermittivityUnit), (int)PermittivityUnit.FaradPerMeter, new string[]{"F/m"}), + ("en-US", typeof(ElectricFieldUnit), (int)ElectricFieldUnit.VoltPerMeter, new string[]{"V/m"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute, new string[]{"sccm"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerHour, new string[]{"scfh"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerMinute, new string[]{"scfm"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerSecond, new string[]{"Sft³/s"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerDay, new string[]{"Sm³/d"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerHour, new string[]{"Sm³/h"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerMinute, new string[]{"Sm³/min"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerSecond, new string[]{"Sm³/s"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardLiterPerMinute, new string[]{"slm"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.BoilerHorsepower, new string[]{"hp(S)"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.BritishThermalUnitPerHour, new string[]{"Btu/h", "Btu/hr"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.Decawatt, new string[]{"daW"}), @@ -1040,168 +516,10 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(PowerUnit), (int)PowerUnit.Picowatt, new string[]{"pW"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.Terawatt, new string[]{"TW"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.Watt, new string[]{"W"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicFoot, new string[]{"daW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicInch, new string[]{"daW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicMeter, new string[]{"daW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerLiter, new string[]{"daW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicFoot, new string[]{"dW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicInch, new string[]{"dW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicMeter, new string[]{"dW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerLiter, new string[]{"dW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicFoot, new string[]{"GW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicInch, new string[]{"GW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicMeter, new string[]{"GW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerLiter, new string[]{"GW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicFoot, new string[]{"kW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicInch, new string[]{"kW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicMeter, new string[]{"kW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerLiter, new string[]{"kW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicFoot, new string[]{"MW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicInch, new string[]{"MW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicMeter, new string[]{"MW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerLiter, new string[]{"MW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicFoot, new string[]{"µW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicInch, new string[]{"µW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicMeter, new string[]{"µW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerLiter, new string[]{"µW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicFoot, new string[]{"mW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicInch, new string[]{"mW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicMeter, new string[]{"mW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerLiter, new string[]{"mW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicFoot, new string[]{"nW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicInch, new string[]{"nW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicMeter, new string[]{"nW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerLiter, new string[]{"nW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicFoot, new string[]{"pW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicInch, new string[]{"pW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicMeter, new string[]{"pW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerLiter, new string[]{"pW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicFoot, new string[]{"TW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicInch, new string[]{"TW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicMeter, new string[]{"TW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerLiter, new string[]{"TW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicFoot, new string[]{"W/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicInch, new string[]{"W/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicMeter, new string[]{"W/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerLiter, new string[]{"W/l"}), - ("en-US", typeof(PowerRatioUnit), (int)PowerRatioUnit.DecibelMilliwatt, new string[]{"dBmW", "dBm"}), - ("en-US", typeof(PowerRatioUnit), (int)PowerRatioUnit.DecibelWatt, new string[]{"dBW"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Atmosphere, new string[]{"atm"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Atmosphere, new string[]{"атм"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Bar, new string[]{"bar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Bar, new string[]{"бар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Centibar, new string[]{"cbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Centibar, new string[]{"сбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Decapascal, new string[]{"daPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Decapascal, new string[]{"даПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Decibar, new string[]{"dbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Decibar, new string[]{"дбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.DynePerSquareCentimeter, new string[]{"dyn/cm²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.FootOfElevation, new string[]{"ft of elevation"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.FootOfHead, new string[]{"ft of head"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Gigapascal, new string[]{"GPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Gigapascal, new string[]{"ГПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Hectopascal, new string[]{"hPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Hectopascal, new string[]{"гПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.InchOfMercury, new string[]{"inHg"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.InchOfWaterColumn, new string[]{"wc"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Kilobar, new string[]{"kbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Kilobar, new string[]{"кбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareCentimeter, new string[]{"kgf/cm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareCentimeter, new string[]{"кгс/см²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMeter, new string[]{"kgf/m²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMeter, new string[]{"кгс/м²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMillimeter, new string[]{"kgf/mm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMillimeter, new string[]{"кгс/мм²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareCentimeter, new string[]{"kN/cm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareCentimeter, new string[]{"кН/см²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMeter, new string[]{"kN/m²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMeter, new string[]{"кН/м²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMillimeter, new string[]{"kN/mm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMillimeter, new string[]{"кН/мм²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Kilopascal, new string[]{"kPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Kilopascal, new string[]{"кПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareFoot, new string[]{"kipf/ft²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareInch, new string[]{"ksi", "kipf/in²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareInch, new string[]{"ksi", "kipf/in²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Megabar, new string[]{"Mbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Megabar, new string[]{"Мбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.MeganewtonPerSquareMeter, new string[]{"MN/m²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.MeganewtonPerSquareMeter, new string[]{"МН/м²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Megapascal, new string[]{"MPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Megapascal, new string[]{"МПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.MeterOfElevation, new string[]{"m of elevation"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.MeterOfHead, new string[]{"m of head"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Microbar, new string[]{"µbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Microbar, new string[]{"мкбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Micropascal, new string[]{"µPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Micropascal, new string[]{"мкПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Millibar, new string[]{"mbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Millibar, new string[]{"мбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.MillimeterOfMercury, new string[]{"mmHg"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.MillimeterOfMercury, new string[]{"мм рт.ст."}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Millipascal, new string[]{"mPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Millipascal, new string[]{"мПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareCentimeter, new string[]{"N/cm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareCentimeter, new string[]{"Н/см²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMeter, new string[]{"N/m²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMeter, new string[]{"Н/м²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMillimeter, new string[]{"N/mm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMillimeter, new string[]{"Н/мм²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Pascal, new string[]{"Pa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Pascal, new string[]{"Па"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareFoot, new string[]{"lb/ft²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareInch, new string[]{"psi", "lb/in²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareInch, new string[]{"psi", "lb/in²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundPerInchSecondSquared, new string[]{"lbm/(in·s²)", "lb/(in·s²)"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.TechnicalAtmosphere, new string[]{"at"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.TechnicalAtmosphere, new string[]{"ат"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareCentimeter, new string[]{"tf/cm²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareMeter, new string[]{"tf/m²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareMillimeter, new string[]{"tf/mm²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Torr, new string[]{"torr"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Torr, new string[]{"торр"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.AtmospherePerSecond, new string[]{"atm/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.AtmospherePerSecond, new string[]{"атм/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerMinute, new string[]{"kPa/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerMinute, new string[]{"кПа/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerSecond, new string[]{"kPa/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerSecond, new string[]{"кПа/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, new string[]{"ksi/min", "kipf/in²/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, new string[]{"ksi/мин", "kipf/in²/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, new string[]{"ksi/s", "kipf/in²/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, new string[]{"ksi/с", "kipf/in²/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerMinute, new string[]{"MPa/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerMinute, new string[]{"МПа/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerSecond, new string[]{"MPa/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerSecond, new string[]{"МПа/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, new string[]{"Mpsi/min", "Mlb/in²/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, new string[]{"Мpsi/мин", "Мlb/in²/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, new string[]{"Mpsi/s", "Mlb/in²/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, new string[]{"Мpsi/с", "Мlb/in²/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerMinute, new string[]{"Pa/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerMinute, new string[]{"Па/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerSecond, new string[]{"Pa/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerSecond, new string[]{"Па/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, new string[]{"psi/min", "lb/in²/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, new string[]{"psi/мин", "lb/in²/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, new string[]{"psi/s", "lb/in²/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, new string[]{"psi/с", "lb/in²/с"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.DecimalFraction, new string[]{""}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerBillion, new string[]{"ppb"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerMillion, new string[]{"ppm"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerThousand, new string[]{"‰"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerTrillion, new string[]{"ppt"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.Percent, new string[]{"%"}), - ("en-US", typeof(RatioChangeRateUnit), (int)RatioChangeRateUnit.DecimalFractionPerSecond, new string[]{"/s"}), - ("en-US", typeof(RatioChangeRateUnit), (int)RatioChangeRateUnit.PercentPerSecond, new string[]{"%/s"}), - ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.KilovoltampereReactiveHour, new string[]{"kvarh"}), - ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.MegavoltampereReactiveHour, new string[]{"Mvarh"}), - ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.VoltampereReactiveHour, new string[]{"varh"}), - ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.GigavoltampereReactive, new string[]{"Gvar"}), - ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.KilovoltampereReactive, new string[]{"kvar"}), - ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.MegavoltampereReactive, new string[]{"Mvar"}), - ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.VoltampereReactive, new string[]{"var"}), + ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelMicrovolt, new string[]{"dBµV"}), + ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelMillivolt, new string[]{"dBmV"}), + ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelUnloaded, new string[]{"dBu"}), + ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelVolt, new string[]{"dBV"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareCentimeter, new string[]{"cm⁻²"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareDecimeter, new string[]{"dm⁻²"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareFoot, new string[]{"ft⁻²"}), @@ -1213,144 +531,198 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareMillimeter, new string[]{"mm⁻²"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareYard, new string[]{"yd⁻²"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseUsSurveySquareFoot, new string[]{"ft⁻² (US)"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseCentimeter, new string[]{"cm⁻¹", "1/cm"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseFoot, new string[]{"ft⁻¹", "1/ft"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseInch, new string[]{"in⁻¹", "1/in"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMeter, new string[]{"m⁻¹", "1/m"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMicroinch, new string[]{"µin⁻¹", "1/µin"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMil, new string[]{"mil⁻¹", "1/mil"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMile, new string[]{"mi⁻¹", "1/mi"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMillimeter, new string[]{"mm⁻¹", "1/mm"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseUsSurveyFoot, new string[]{"ftUS⁻¹", "1/ftUS"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseYard, new string[]{"yd⁻¹", "1/yd"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.CentinewtonPerSecond, new string[]{"cN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecanewtonPerMinute, new string[]{"daN/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecanewtonPerSecond, new string[]{"daN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecinewtonPerSecond, new string[]{"dN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilonewtonPerMinute, new string[]{"kN/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilonewtonPerSecond, new string[]{"kN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilopoundForcePerMinute, new string[]{"kipf/min", "kip/min", "k/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilopoundForcePerSecond, new string[]{"kipf/s", "kip/s", "k/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.MicronewtonPerSecond, new string[]{"µN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.MillinewtonPerSecond, new string[]{"mN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NanonewtonPerSecond, new string[]{"nN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NewtonPerMinute, new string[]{"N/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NewtonPerSecond, new string[]{"N/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.PoundForcePerMinute, new string[]{"lbf/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.PoundForcePerSecond, new string[]{"lbf/s"}), + ("en-US", typeof(SolidAngleUnit), (int)SolidAngleUnit.Steradian, new string[]{"sr"}), ("en-US", typeof(RelativeHumidityUnit), (int)RelativeHumidityUnit.Percent, new string[]{"%RH"}), - ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.DegreePerSecondSquared, new string[]{"°/s²", "deg/s²"}), - ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RadianPerSecondSquared, new string[]{"rad/s²"}), - ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RevolutionPerMinutePerSecond, new string[]{"rpm/s"}), - ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RevolutionPerSecondSquared, new string[]{"r/s²"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.CentiradianPerSecond, new string[]{"crad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.CentiradianPerSecond, new string[]{"срад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DeciradianPerSecond, new string[]{"drad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DeciradianPerSecond, new string[]{"драд/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerMinute, new string[]{"°/min", "deg/min"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerSecond, new string[]{"°/s", "deg/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerSecond, new string[]{"°/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicrodegreePerSecond, new string[]{"µ°/s", "µdeg/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicrodegreePerSecond, new string[]{"мк°/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicroradianPerSecond, new string[]{"µrad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicroradianPerSecond, new string[]{"мкрад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MillidegreePerSecond, new string[]{"m°/s", "mdeg/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MillidegreePerSecond, new string[]{"м°/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MilliradianPerSecond, new string[]{"mrad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MilliradianPerSecond, new string[]{"мрад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanodegreePerSecond, new string[]{"n°/s", "ndeg/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanodegreePerSecond, new string[]{"н°/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanoradianPerSecond, new string[]{"nrad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanoradianPerSecond, new string[]{"нрад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RadianPerSecond, new string[]{"rad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RadianPerSecond, new string[]{"рад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerMinute, new string[]{"rpm", "r/min"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerMinute, new string[]{"об/мин"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerSecond, new string[]{"r/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerSecond, new string[]{"об/с"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMeterPerDegree, new string[]{"cN·m/deg", "cNm/deg", "cN·m/°", "cNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMillimeterPerDegree, new string[]{"cN·mm/deg", "cNmm/deg", "cN·mm/°", "cNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMillimeterPerRadian, new string[]{"cN·mm/rad", "cNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMeterPerDegree, new string[]{"daN·m/deg", "daNm/deg", "daN·m/°", "daNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMillimeterPerDegree, new string[]{"daN·mm/deg", "daNmm/deg", "daN·mm/°", "daNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMillimeterPerRadian, new string[]{"daN·mm/rad", "daNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMeterPerDegree, new string[]{"dN·m/deg", "dNm/deg", "dN·m/°", "dNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMillimeterPerDegree, new string[]{"dN·mm/deg", "dNmm/deg", "dN·mm/°", "dNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMillimeterPerRadian, new string[]{"dN·mm/rad", "dNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMeterPerDegree, new string[]{"kN·m/deg", "kNm/deg", "kN·m/°", "kNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMeterPerRadian, new string[]{"kN·m/rad", "kNm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMillimeterPerDegree, new string[]{"kN·mm/deg", "kNmm/deg", "kN·mm/°", "kNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMillimeterPerRadian, new string[]{"kN·mm/rad", "kNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilopoundForceFootPerDegrees, new string[]{"kipf·ft/°", "kip·ft/°g", "k·ft/°", "kipf·ft/deg", "kip·ft/deg", "k·ft/deg"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMeterPerDegree, new string[]{"MN·m/deg", "MNm/deg", "MN·m/°", "MNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMeterPerRadian, new string[]{"MN·m/rad", "MNm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMillimeterPerDegree, new string[]{"MN·mm/deg", "MNmm/deg", "MN·mm/°", "MNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMillimeterPerRadian, new string[]{"MN·mm/rad", "MNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMeterPerDegree, new string[]{"µN·m/deg", "µNm/deg", "µN·m/°", "µNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMillimeterPerDegree, new string[]{"µN·mm/deg", "µNmm/deg", "µN·mm/°", "µNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMillimeterPerRadian, new string[]{"µN·mm/rad", "µNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMeterPerDegree, new string[]{"mN·m/deg", "mNm/deg", "mN·m/°", "mNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMillimeterPerDegree, new string[]{"mN·mm/deg", "mNmm/deg", "mN·mm/°", "mNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMillimeterPerRadian, new string[]{"mN·mm/rad", "mNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMeterPerDegree, new string[]{"nN·m/deg", "nNm/deg", "nN·m/°", "nNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMillimeterPerDegree, new string[]{"nN·mm/deg", "nNmm/deg", "nN·mm/°", "nNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMillimeterPerRadian, new string[]{"nN·mm/rad", "nNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMeterPerDegree, new string[]{"N·m/deg", "Nm/deg", "N·m/°", "Nm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMeterPerRadian, new string[]{"N·m/rad", "Nm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMillimeterPerDegree, new string[]{"N·mm/deg", "Nmm/deg", "N·mm/°", "Nmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMillimeterPerRadian, new string[]{"N·mm/rad", "Nmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.PoundForceFeetPerRadian, new string[]{"lbf·ft/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.PoundForceFootPerDegrees, new string[]{"lbf·ft/deg"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.KilonewtonMeterPerRadianPerMeter, new string[]{"kN·m/rad/m", "kNm/rad/m"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.KilopoundForceFootPerDegreesPerFoot, new string[]{"kipf·ft/°/ft", "kip·ft/°/ft", "k·ft/°/ft", "kipf·ft/deg/ft", "kip·ft/deg/ft", "k·ft/deg/ft"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.MeganewtonMeterPerRadianPerMeter, new string[]{"MN·m/rad/m", "MNm/rad/m"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.NewtonMeterPerRadianPerMeter, new string[]{"N·m/rad/m", "Nm/rad/m"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot, new string[]{"lbf·ft/deg/ft"}), - ("en-US", typeof(ScalarUnit), (int)ScalarUnit.Amount, new string[]{""}), - ("en-US", typeof(SolidAngleUnit), (int)SolidAngleUnit.Steradian, new string[]{"sr"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.BtuPerPound, new string[]{"btu/lb"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.CaloriePerGram, new string[]{"cal/g"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerKilogram, new string[]{"GWd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerShortTon, new string[]{"GWd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerTonne, new string[]{"GWd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattHourPerKilogram, new string[]{"GWh/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.JoulePerKilogram, new string[]{"J/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilocaloriePerGram, new string[]{"kcal/g"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilojoulePerKilogram, new string[]{"kJ/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerKilogram, new string[]{"kWd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerShortTon, new string[]{"kWd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerTonne, new string[]{"kWd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattHourPerKilogram, new string[]{"kWh/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegajoulePerKilogram, new string[]{"MJ/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerKilogram, new string[]{"MWd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerShortTon, new string[]{"MWd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerTonne, new string[]{"MWd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattHourPerKilogram, new string[]{"MWh/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerKilogram, new string[]{"TWd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerShortTon, new string[]{"TWd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerTonne, new string[]{"TWd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerKilogram, new string[]{"Wd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerShortTon, new string[]{"Wd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerTonne, new string[]{"Wd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattHourPerKilogram, new string[]{"Wh/kg"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.BtuPerPoundFahrenheit, new string[]{"BTU/lb·°F", "BTU/lbm·°F"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.CaloriePerGramKelvin, new string[]{"cal/g.K"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.JoulePerKilogramDegreeCelsius, new string[]{"J/kg.C"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.JoulePerKilogramKelvin, new string[]{"J/kg.K"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilocaloriePerGramKelvin, new string[]{"kcal/g.K"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius, new string[]{"kJ/kg.C"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilojoulePerKilogramKelvin, new string[]{"kJ/kg.K"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius, new string[]{"MJ/kg.C"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.MegajoulePerKilogramKelvin, new string[]{"MJ/kg.K"}), - ("en-US", typeof(SpecificFuelConsumptionUnit), (int)SpecificFuelConsumptionUnit.GramPerKiloNewtonSecond, new string[]{"g/(kN�s)"}), - ("en-US", typeof(SpecificFuelConsumptionUnit), (int)SpecificFuelConsumptionUnit.KilogramPerKilogramForceHour, new string[]{"kg/(kgf�h)"}), - ("en-US", typeof(SpecificFuelConsumptionUnit), (int)SpecificFuelConsumptionUnit.KilogramPerKiloNewtonSecond, new string[]{"kg/(kN�s)"}), - ("en-US", typeof(SpecificFuelConsumptionUnit), (int)SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour, new string[]{"lb/(lbf�h)"}), - ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.CubicFootPerPound, new string[]{"ft³/lb"}), - ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.CubicMeterPerKilogram, new string[]{"m³/kg"}), - ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.MillicubicMeterPerKilogram, new string[]{"mm³/kg"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicCentimeter, new string[]{"kgf/cm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicMeter, new string[]{"kgf/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicMillimeter, new string[]{"kgf/mm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicCentimeter, new string[]{"kN/cm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicMeter, new string[]{"kN/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicMillimeter, new string[]{"kN/mm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilopoundForcePerCubicFoot, new string[]{"kipf/ft³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilopoundForcePerCubicInch, new string[]{"kipf/in³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.MeganewtonPerCubicMeter, new string[]{"MN/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicCentimeter, new string[]{"N/cm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicMeter, new string[]{"N/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicMillimeter, new string[]{"N/mm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.PoundForcePerCubicFoot, new string[]{"lbf/ft³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.PoundForcePerCubicInch, new string[]{"lbf/in³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicCentimeter, new string[]{"tf/cm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicMeter, new string[]{"tf/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicMillimeter, new string[]{"tf/mm³"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerDay, new string[]{"af/d"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerHour, new string[]{"af/h"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerMinute, new string[]{"af/m"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerSecond, new string[]{"af/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerDay, new string[]{"cl/day", "cL/d", "cLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerMinute, new string[]{"cL/min", "cLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerMinute, new string[]{"сл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerSecond, new string[]{"cL/s", "cLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerSecond, new string[]{"сл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicCentimeterPerMinute, new string[]{"cm³/min"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicCentimeterPerMinute, new string[]{"см³/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicDecimeterPerMinute, new string[]{"dm³/min"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicDecimeterPerMinute, new string[]{"дм³/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerHour, new string[]{"ft³/h", "cf/hr"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerMinute, new string[]{"ft³/min"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerSecond, new string[]{"ft³/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerDay, new string[]{"m³/d"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerHour, new string[]{"m³/h"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerHour, new string[]{"м³/ч"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerMinute, new string[]{"m³/min"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerMinute, new string[]{"м³/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerSecond, new string[]{"m³/s"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerSecond, new string[]{"м³/с"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMillimeterPerSecond, new string[]{"mm³/s"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMillimeterPerSecond, new string[]{"мм³/с"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerDay, new string[]{"cy/day"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerHour, new string[]{"yd³/h"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerMinute, new string[]{"yd³/min"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerSecond, new string[]{"yd³/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerDay, new string[]{"dl/day", "dL/d", "dLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerMinute, new string[]{"dL/min", "dLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerMinute, new string[]{"дл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerSecond, new string[]{"dL/s", "dLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerSecond, new string[]{"дл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerDay, new string[]{"kl/day", "kL/d", "kLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerMinute, new string[]{"kL/min", "kLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerMinute, new string[]{"кл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerSecond, new string[]{"kL/s", "kLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerSecond, new string[]{"кл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KilousGallonPerMinute, new string[]{"kgal (U.S.)/min", "KGPM"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerDay, new string[]{"l/day", "L/d", "LPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerHour, new string[]{"L/h", "LPH"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerHour, new string[]{"л/ч"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerMinute, new string[]{"L/min", "LPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerMinute, new string[]{"л/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerSecond, new string[]{"L/s", "LPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerSecond, new string[]{"л/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MegaliterPerDay, new string[]{"Ml/day", "ML/d", "MLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MegaukGallonPerSecond, new string[]{"Mgal (imp.)/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerDay, new string[]{"µl/day", "µL/d", "µLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerMinute, new string[]{"µL/min", "µLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerMinute, new string[]{"мкл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerSecond, new string[]{"µL/s", "µLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerSecond, new string[]{"мкл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerDay, new string[]{"ml/day", "mL/d", "mLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerMinute, new string[]{"mL/min", "mLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerMinute, new string[]{"мл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerSecond, new string[]{"mL/s", "mLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerSecond, new string[]{"мл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MillionUsGallonsPerDay, new string[]{"MGD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerDay, new string[]{"nl/day", "nL/d", "nLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerMinute, new string[]{"nL/min", "nLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerMinute, new string[]{"нл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerSecond, new string[]{"nL/s", "nLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerSecond, new string[]{"нл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerDay, new string[]{"bbl/d", "BOPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerHour, new string[]{"bbl/hr", "bph"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerMinute, new string[]{"bbl/min", "bpm"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerSecond, new string[]{"bbl/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerDay, new string[]{"gal (U. K.)/d"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerHour, new string[]{"gal (imp.)/h"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerMinute, new string[]{"gal (imp.)/min"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerSecond, new string[]{"gal (imp.)/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerDay, new string[]{"gpd", "gal/d"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerHour, new string[]{"gal (U.S.)/h"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerMinute, new string[]{"gal (U.S.)/min", "GPM"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerSecond, new string[]{"gal (U.S.)/s"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerCentimeter, new string[]{"GW/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerFoot, new string[]{"GW/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerInch, new string[]{"GW/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerMeter, new string[]{"GW/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerMillimeter, new string[]{"GW/mm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerCentimeter, new string[]{"kW/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerFoot, new string[]{"kW/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerInch, new string[]{"kW/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerMeter, new string[]{"kW/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerMillimeter, new string[]{"kW/mm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerCentimeter, new string[]{"MW/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerFoot, new string[]{"MW/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerInch, new string[]{"MW/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerMeter, new string[]{"MW/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerMillimeter, new string[]{"MW/mm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerCentimeter, new string[]{"mW/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerFoot, new string[]{"mW/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerInch, new string[]{"mW/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerMeter, new string[]{"mW/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerMillimeter, new string[]{"mW/mm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerCentimeter, new string[]{"W/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerFoot, new string[]{"W/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerInch, new string[]{"W/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerMeter, new string[]{"W/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerMillimeter, new string[]{"W/mm"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerHour, new string[]{"kV/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond, new string[]{"kV/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerMinute, new string[]{"kV/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerSecond, new string[]{"kV/s"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerHour, new string[]{"MV/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond, new string[]{"MV/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerMinute, new string[]{"MV/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerSecond, new string[]{"MV/s"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerHour, new string[]{"µV/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond, new string[]{"µV/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerMinute, new string[]{"µV/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerSecond, new string[]{"µV/s"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerHour, new string[]{"mV/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond, new string[]{"mV/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerMinute, new string[]{"mV/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerSecond, new string[]{"mV/s"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerHour, new string[]{"V/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerMicrosecond, new string[]{"V/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerMinute, new string[]{"V/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerSecond, new string[]{"V/s"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Farad, new string[]{"F"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Kilofarad, new string[]{"kF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Megafarad, new string[]{"MF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Microfarad, new string[]{"µF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Millifarad, new string[]{"mF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Nanofarad, new string[]{"nF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Picofarad, new string[]{"pF"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerCentimeter, new string[]{"g/cm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerMeter, new string[]{"g/m"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerMillimeter, new string[]{"g/mm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerCentimeter, new string[]{"kg/cm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerMeter, new string[]{"kg/m"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerMillimeter, new string[]{"kg/mm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerCentimeter, new string[]{"µg/cm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerMeter, new string[]{"µg/m"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerMillimeter, new string[]{"µg/mm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerCentimeter, new string[]{"mg/cm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerMeter, new string[]{"mg/m"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerMillimeter, new string[]{"mg/mm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.PoundPerFoot, new string[]{"lb/ft"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.PoundPerInch, new string[]{"lb/in"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseCentimeter, new string[]{"cm⁻¹", "1/cm"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseFoot, new string[]{"ft⁻¹", "1/ft"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseInch, new string[]{"in⁻¹", "1/in"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMeter, new string[]{"m⁻¹", "1/m"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMicroinch, new string[]{"µin⁻¹", "1/µin"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMil, new string[]{"mil⁻¹", "1/mil"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMile, new string[]{"mi⁻¹", "1/mi"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMillimeter, new string[]{"mm⁻¹", "1/mm"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseUsSurveyFoot, new string[]{"ftUS⁻¹", "1/ftUS"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseYard, new string[]{"yd⁻¹", "1/yd"}), + ("en-US", typeof(AreaDensityUnit), (int)AreaDensityUnit.KilogramPerSquareMeter, new string[]{"kg/m²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareCentimeter, new string[]{"g·h⁻¹·cm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareMeter, new string[]{"g·h⁻¹·m⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareMillimeter, new string[]{"g·h⁻¹·mm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareCentimeter, new string[]{"g·s⁻¹·cm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareMeter, new string[]{"g·s⁻¹·m⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareMillimeter, new string[]{"g·s⁻¹·mm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareCentimeter, new string[]{"kg·h⁻¹·cm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareMeter, new string[]{"kg·h⁻¹·m⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareMillimeter, new string[]{"kg·h⁻¹·mm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareCentimeter, new string[]{"kg·s⁻¹·cm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareMeter, new string[]{"kg·s⁻¹·m⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareMillimeter, new string[]{"kg·s⁻¹·mm⁻²"}), + ("en-US", typeof(MagneticFluxUnit), (int)MagneticFluxUnit.Weber, new string[]{"Wb"}), + ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.KilovoltampereHour, new string[]{"kVAh"}), + ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.MegavoltampereHour, new string[]{"MVAh"}), + ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.VoltampereHour, new string[]{"VAh"}), ("en-US", typeof(SpeedUnit), (int)SpeedUnit.CentimeterPerHour, new string[]{"cm/h"}), ("ru-RU", typeof(SpeedUnit), (int)SpeedUnit.CentimeterPerHour, new string[]{"см/ч"}), ("en-US", typeof(SpeedUnit), (int)SpeedUnit.CentimeterPerMinute, new string[]{"cm/min"}), @@ -1406,199 +778,73 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(SpeedUnit), (int)SpeedUnit.YardPerHour, new string[]{"yd/h"}), ("en-US", typeof(SpeedUnit), (int)SpeedUnit.YardPerMinute, new string[]{"yd/min"}), ("en-US", typeof(SpeedUnit), (int)SpeedUnit.YardPerSecond, new string[]{"yd/s"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute, new string[]{"sccm"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerHour, new string[]{"scfh"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerMinute, new string[]{"scfm"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerSecond, new string[]{"Sft³/s"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerDay, new string[]{"Sm³/d"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerHour, new string[]{"Sm³/h"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerMinute, new string[]{"Sm³/min"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerSecond, new string[]{"Sm³/s"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardLiterPerMinute, new string[]{"slm"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeCelsius, new string[]{"°C"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeDelisle, new string[]{"°De"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeFahrenheit, new string[]{"°F"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeNewton, new string[]{"°N"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeRankine, new string[]{"°R"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeReaumur, new string[]{"°Ré"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeRoemer, new string[]{"°Rø"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.Kelvin, new string[]{"K"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.MillidegreeCelsius, new string[]{"m°C"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.SolarTemperature, new string[]{"T⊙"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond, new string[]{"c°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond, new string[]{"da°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond, new string[]{"d°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DegreeCelsiusPerMinute, new string[]{"°C/min"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DegreeCelsiusPerSecond, new string[]{"°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond, new string[]{"h°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond, new string[]{"k°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond, new string[]{"µ°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond, new string[]{"m°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, new string[]{"n°C/s"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeCelsius, new string[]{"∆°C"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeDelisle, new string[]{"∆°De"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeFahrenheit, new string[]{"∆°F"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeNewton, new string[]{"∆°N"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeRankine, new string[]{"∆°R"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeReaumur, new string[]{"∆°Ré"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeRoemer, new string[]{"∆°Rø"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.Kelvin, new string[]{"∆K"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.MillidegreeCelsius, new string[]{"∆m°C"}), - ("en-US", typeof(ThermalConductivityUnit), (int)ThermalConductivityUnit.BtuPerHourFootFahrenheit, new string[]{"BTU/h·ft·°F"}), - ("en-US", typeof(ThermalConductivityUnit), (int)ThermalConductivityUnit.WattPerMeterKelvin, new string[]{"W/m·K"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu, new string[]{"Hrft²°F/Btu"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie, new string[]{"cm²Hr°C/kcal"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareCentimeterKelvinPerWatt, new string[]{"cm²K/W"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt, new string[]{"m²°C/W"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareMeterKelvinPerKilowatt, new string[]{"m²K/kW"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceCentimeter, new string[]{"kgf·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceMeter, new string[]{"kgf·m"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceMillimeter, new string[]{"kgf·mm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonCentimeter, new string[]{"kN·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMeter, new string[]{"kN·m"}), - ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMeter, new string[]{"кН·м"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMillimeter, new string[]{"kN·mm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilopoundForceFoot, new string[]{"kipf·ft"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilopoundForceInch, new string[]{"kipf·in"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonCentimeter, new string[]{"MN·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMeter, new string[]{"MN·m"}), - ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMeter, new string[]{"МН·м"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMillimeter, new string[]{"MN·mm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MegapoundForceFoot, new string[]{"Mlbf·ft"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MegapoundForceInch, new string[]{"Mlbf·in"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonCentimeter, new string[]{"N·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonMeter, new string[]{"N·m"}), - ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.NewtonMeter, new string[]{"Н·м"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonMillimeter, new string[]{"N·mm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundalFoot, new string[]{"pdl·ft"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundForceFoot, new string[]{"lbf·ft"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundForceInch, new string[]{"lbf·in"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceCentimeter, new string[]{"tf·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceMeter, new string[]{"tf·m"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceMillimeter, new string[]{"tf·mm"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceCentimeterPerMeter, new string[]{"kgf·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceMeterPerMeter, new string[]{"kgf·m/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceMillimeterPerMeter, new string[]{"kgf·mm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonCentimeterPerMeter, new string[]{"kN·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMeterPerMeter, new string[]{"kN·m/m"}), - ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMeterPerMeter, new string[]{"кН·м/м"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMillimeterPerMeter, new string[]{"kN·mm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilopoundForceFootPerFoot, new string[]{"kipf·ft/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilopoundForceInchPerFoot, new string[]{"kipf·in/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonCentimeterPerMeter, new string[]{"MN·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMeterPerMeter, new string[]{"MN·m/m"}), - ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMeterPerMeter, new string[]{"МН·м/м"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMillimeterPerMeter, new string[]{"MN·mm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MegapoundForceFootPerFoot, new string[]{"Mlbf·ft/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MegapoundForceInchPerFoot, new string[]{"Mlbf·in/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonCentimeterPerMeter, new string[]{"N·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMeterPerMeter, new string[]{"N·m/m"}), - ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMeterPerMeter, new string[]{"Н·м/м"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMillimeterPerMeter, new string[]{"N·mm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.PoundForceFootPerFoot, new string[]{"lbf·ft/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.PoundForceInchPerFoot, new string[]{"lbf·in/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceCentimeterPerMeter, new string[]{"tf·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceMeterPerMeter, new string[]{"tf·m/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceMillimeterPerMeter, new string[]{"tf·mm/m"}), - ("en-US", typeof(TurbidityUnit), (int)TurbidityUnit.NTU, new string[]{"NTU"}), - ("en-US", typeof(VitaminAUnit), (int)VitaminAUnit.InternationalUnit, new string[]{"IU"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.AcreFoot, new string[]{"ac-ft", "acre-foot", "acre-feet"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.BoardFoot, new string[]{"bf", "board foot", "board feet"}), - ("fr-CA", typeof(VolumeUnit), (int)VolumeUnit.BoardFoot, new string[]{"pmp", "pied-planche", "pied de planche"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Centiliter, new string[]{"cl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Centiliter, new string[]{"сл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicCentimeter, new string[]{"cm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicCentimeter, new string[]{"см³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicDecimeter, new string[]{"dm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicDecimeter, new string[]{"дм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicFoot, new string[]{"ft³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicFoot, new string[]{"фут³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicHectometer, new string[]{"hm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicHectometer, new string[]{"гм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicInch, new string[]{"in³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicInch, new string[]{"дюйм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicKilometer, new string[]{"km³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicKilometer, new string[]{"км³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMeter, new string[]{"m³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMeter, new string[]{"м³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMicrometer, new string[]{"µm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMicrometer, new string[]{"мкм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMile, new string[]{"mi³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMile, new string[]{"миля³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMillimeter, new string[]{"mm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMillimeter, new string[]{"мм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicYard, new string[]{"yd³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicYard, new string[]{"ярд³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.DecausGallon, new string[]{"dagal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.DecausGallon, new string[]{"даАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Deciliter, new string[]{"dl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Deciliter, new string[]{"дл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.DeciusGallon, new string[]{"dgal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.DeciusGallon, new string[]{"дАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectocubicFoot, new string[]{"hft³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectocubicFoot, new string[]{"гфут³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectocubicMeter, new string[]{"hm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectocubicMeter, new string[]{"гм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Hectoliter, new string[]{"hl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Hectoliter, new string[]{"гл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectousGallon, new string[]{"hgal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectousGallon, new string[]{"гАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialBeerBarrel, new string[]{"bl (imp.)"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialGallon, new string[]{"gal (imp.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.ImperialGallon, new string[]{"Английский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialOunce, new string[]{"oz (imp.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.ImperialOunce, new string[]{"Английская унция"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialPint, new string[]{"pt (imp.)", "UK pt", "pt", "p"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilocubicFoot, new string[]{"kft³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilocubicFoot, new string[]{"кфут³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilocubicMeter, new string[]{"km³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilocubicMeter, new string[]{"км³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KiloimperialGallon, new string[]{"kgal (imp.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KiloimperialGallon, new string[]{"кАнглийский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Kiloliter, new string[]{"kl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Kiloliter, new string[]{"кл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilousGallon, new string[]{"kgal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilousGallon, new string[]{"кАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Liter, new string[]{"l"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Liter, new string[]{"л"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegacubicFoot, new string[]{"Mft³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegacubicFoot, new string[]{"Мфут³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegaimperialGallon, new string[]{"Mgal (imp.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegaimperialGallon, new string[]{"МАнглийский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Megaliter, new string[]{"Ml"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Megaliter, new string[]{"Мл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegausGallon, new string[]{"Mgal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegausGallon, new string[]{"МАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MetricCup, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{"tsp", "t", "ts", "tspn", "t.", "ts.", "tsp.", "tspn.", "teaspoon"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Microliter, new string[]{"µl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Microliter, new string[]{"мкл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Milliliter, new string[]{"ml"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Milliliter, new string[]{"мл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.OilBarrel, new string[]{"bbl"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsBeerBarrel, new string[]{"bl (U.S.)"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsCustomaryCup, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsGallon, new string[]{"gal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsGallon, new string[]{"Американский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsLegalCup, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsOunce, new string[]{"oz (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsOunce, new string[]{"Американская унция"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsPint, new string[]{"pt (U.S.)"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsQuart, new string[]{"qt (U.S.)"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.BitPerSecond, new string[]{"bit/s", "bps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.BytePerSecond, new string[]{"B/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExabitPerSecond, new string[]{"Ebit/s", "Ebps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExabytePerSecond, new string[]{"EB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExbibitPerSecond, new string[]{"Eibit/s", "Eibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExbibytePerSecond, new string[]{"EiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GibibitPerSecond, new string[]{"Gibit/s", "Gibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GibibytePerSecond, new string[]{"GiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GigabitPerSecond, new string[]{"Gbit/s", "Gbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GigabytePerSecond, new string[]{"GB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KibibitPerSecond, new string[]{"Kibit/s", "Kibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KibibytePerSecond, new string[]{"KiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KilobitPerSecond, new string[]{"kbit/s", "kbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KilobytePerSecond, new string[]{"kB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MebibitPerSecond, new string[]{"Mibit/s", "Mibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MebibytePerSecond, new string[]{"MiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MegabitPerSecond, new string[]{"Mbit/s", "Mbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MegabytePerSecond, new string[]{"MB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PebibitPerSecond, new string[]{"Pibit/s", "Pibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PebibytePerSecond, new string[]{"PiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PetabitPerSecond, new string[]{"Pbit/s", "Pbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PetabytePerSecond, new string[]{"PB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TebibitPerSecond, new string[]{"Tibit/s", "Tibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TebibytePerSecond, new string[]{"TiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TerabitPerSecond, new string[]{"Tbit/s", "Tbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TerabytePerSecond, new string[]{"TB/s"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"ac"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"акр"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"英亩"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"ha"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"га"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"英亩"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"cm²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"см²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"平方厘米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"dm²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"дм²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"平方分米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"ft²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"фут²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"平方英尺"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"in²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"дюйм²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"平方英寸"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"km²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"км²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"平方公里"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"m²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"м²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"平方米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"µm²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"мкм²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"平方微米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"mi²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"миля²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"平方英里"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"mm²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"мм²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"平方毫米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"nmi²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"морск.миля²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"平方海里"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"yd²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"ярд²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"平方码"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.UsSurveySquareFoot, new string[]{"ft² (US)"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.UsSurveySquareFoot, new string[]{"фут² (US)"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.CentilitersPerLiter, new string[]{"cL/L"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.CentilitersPerMililiter, new string[]{"cL/mL"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.DecilitersPerLiter, new string[]{"dL/L"}), @@ -1619,83 +865,82 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.Percent, new string[]{"%", "% (v/v)"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.PicolitersPerLiter, new string[]{"pL/L"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.PicolitersPerMililiter, new string[]{"pL/mL"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerDay, new string[]{"af/d"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerHour, new string[]{"af/h"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerMinute, new string[]{"af/m"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerSecond, new string[]{"af/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerDay, new string[]{"cl/day", "cL/d", "cLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerMinute, new string[]{"cL/min", "cLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerMinute, new string[]{"сл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerSecond, new string[]{"cL/s", "cLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerSecond, new string[]{"сл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicCentimeterPerMinute, new string[]{"cm³/min"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicCentimeterPerMinute, new string[]{"см³/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicDecimeterPerMinute, new string[]{"dm³/min"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicDecimeterPerMinute, new string[]{"дм³/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerHour, new string[]{"ft³/h", "cf/hr"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerMinute, new string[]{"ft³/min"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerSecond, new string[]{"ft³/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerDay, new string[]{"m³/d"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerHour, new string[]{"m³/h"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerHour, new string[]{"м³/ч"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerMinute, new string[]{"m³/min"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerMinute, new string[]{"м³/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerSecond, new string[]{"m³/s"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerSecond, new string[]{"м³/с"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMillimeterPerSecond, new string[]{"mm³/s"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMillimeterPerSecond, new string[]{"мм³/с"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerDay, new string[]{"cy/day"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerHour, new string[]{"yd³/h"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerMinute, new string[]{"yd³/min"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerSecond, new string[]{"yd³/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerDay, new string[]{"dl/day", "dL/d", "dLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerMinute, new string[]{"dL/min", "dLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerMinute, new string[]{"дл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerSecond, new string[]{"dL/s", "dLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerSecond, new string[]{"дл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerDay, new string[]{"kl/day", "kL/d", "kLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerMinute, new string[]{"kL/min", "kLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerMinute, new string[]{"кл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerSecond, new string[]{"kL/s", "kLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerSecond, new string[]{"кл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KilousGallonPerMinute, new string[]{"kgal (U.S.)/min", "KGPM"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerDay, new string[]{"l/day", "L/d", "LPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerHour, new string[]{"L/h", "LPH"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerHour, new string[]{"л/ч"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerMinute, new string[]{"L/min", "LPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerMinute, new string[]{"л/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerSecond, new string[]{"L/s", "LPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerSecond, new string[]{"л/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MegaliterPerDay, new string[]{"Ml/day", "ML/d", "MLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MegaukGallonPerSecond, new string[]{"Mgal (imp.)/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerDay, new string[]{"µl/day", "µL/d", "µLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerMinute, new string[]{"µL/min", "µLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerMinute, new string[]{"мкл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerSecond, new string[]{"µL/s", "µLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerSecond, new string[]{"мкл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerDay, new string[]{"ml/day", "mL/d", "mLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerMinute, new string[]{"mL/min", "mLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerMinute, new string[]{"мл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerSecond, new string[]{"mL/s", "mLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerSecond, new string[]{"мл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MillionUsGallonsPerDay, new string[]{"MGD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerDay, new string[]{"nl/day", "nL/d", "nLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerMinute, new string[]{"nL/min", "nLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerMinute, new string[]{"нл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerSecond, new string[]{"nL/s", "nLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerSecond, new string[]{"нл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerDay, new string[]{"bbl/d", "BOPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerHour, new string[]{"bbl/hr", "bph"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerMinute, new string[]{"bbl/min", "bpm"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerSecond, new string[]{"bbl/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerDay, new string[]{"gal (U. K.)/d"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerHour, new string[]{"gal (imp.)/h"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerMinute, new string[]{"gal (imp.)/min"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerSecond, new string[]{"gal (imp.)/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerDay, new string[]{"gpd", "gal/d"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerHour, new string[]{"gal (U.S.)/h"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerMinute, new string[]{"gal (U.S.)/min", "GPM"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerSecond, new string[]{"gal (U.S.)/s"}), + ("en-US", typeof(PermittivityUnit), (int)PermittivityUnit.FaradPerMeter, new string[]{"F/m"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Bit, new string[]{"b"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Byte, new string[]{"B"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Exabit, new string[]{"Eb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Exabyte, new string[]{"EB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Exbibit, new string[]{"Eib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Exbibyte, new string[]{"EiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Gibibit, new string[]{"Gib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Gibibyte, new string[]{"GiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Gigabit, new string[]{"Gb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Gigabyte, new string[]{"GB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Kibibit, new string[]{"Kib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Kibibyte, new string[]{"KiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Kilobit, new string[]{"kb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Kilobyte, new string[]{"kB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Mebibit, new string[]{"Mib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Mebibyte, new string[]{"MiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Megabit, new string[]{"Mb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Megabyte, new string[]{"MB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Pebibit, new string[]{"Pib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Pebibyte, new string[]{"PiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Petabit, new string[]{"Pb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Petabyte, new string[]{"PB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Tebibit, new string[]{"Tib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Tebibyte, new string[]{"TiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Terabit, new string[]{"Tb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Terabyte, new string[]{"TB"}), + ("en-US", typeof(LapseRateUnit), (int)LapseRateUnit.DegreeCelsiusPerKilometer, new string[]{"∆°C/km"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMeterPerDegree, new string[]{"cN·m/deg", "cNm/deg", "cN·m/°", "cNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMillimeterPerDegree, new string[]{"cN·mm/deg", "cNmm/deg", "cN·mm/°", "cNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMillimeterPerRadian, new string[]{"cN·mm/rad", "cNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMeterPerDegree, new string[]{"daN·m/deg", "daNm/deg", "daN·m/°", "daNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMillimeterPerDegree, new string[]{"daN·mm/deg", "daNmm/deg", "daN·mm/°", "daNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMillimeterPerRadian, new string[]{"daN·mm/rad", "daNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMeterPerDegree, new string[]{"dN·m/deg", "dNm/deg", "dN·m/°", "dNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMillimeterPerDegree, new string[]{"dN·mm/deg", "dNmm/deg", "dN·mm/°", "dNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMillimeterPerRadian, new string[]{"dN·mm/rad", "dNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMeterPerDegree, new string[]{"kN·m/deg", "kNm/deg", "kN·m/°", "kNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMeterPerRadian, new string[]{"kN·m/rad", "kNm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMillimeterPerDegree, new string[]{"kN·mm/deg", "kNmm/deg", "kN·mm/°", "kNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMillimeterPerRadian, new string[]{"kN·mm/rad", "kNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilopoundForceFootPerDegrees, new string[]{"kipf·ft/°", "kip·ft/°g", "k·ft/°", "kipf·ft/deg", "kip·ft/deg", "k·ft/deg"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMeterPerDegree, new string[]{"MN·m/deg", "MNm/deg", "MN·m/°", "MNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMeterPerRadian, new string[]{"MN·m/rad", "MNm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMillimeterPerDegree, new string[]{"MN·mm/deg", "MNmm/deg", "MN·mm/°", "MNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMillimeterPerRadian, new string[]{"MN·mm/rad", "MNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMeterPerDegree, new string[]{"µN·m/deg", "µNm/deg", "µN·m/°", "µNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMillimeterPerDegree, new string[]{"µN·mm/deg", "µNmm/deg", "µN·mm/°", "µNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMillimeterPerRadian, new string[]{"µN·mm/rad", "µNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMeterPerDegree, new string[]{"mN·m/deg", "mNm/deg", "mN·m/°", "mNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMillimeterPerDegree, new string[]{"mN·mm/deg", "mNmm/deg", "mN·mm/°", "mNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMillimeterPerRadian, new string[]{"mN·mm/rad", "mNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMeterPerDegree, new string[]{"nN·m/deg", "nNm/deg", "nN·m/°", "nNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMillimeterPerDegree, new string[]{"nN·mm/deg", "nNmm/deg", "nN·mm/°", "nNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMillimeterPerRadian, new string[]{"nN·mm/rad", "nNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMeterPerDegree, new string[]{"N·m/deg", "Nm/deg", "N·m/°", "Nm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMeterPerRadian, new string[]{"N·m/rad", "Nm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMillimeterPerDegree, new string[]{"N·mm/deg", "Nmm/deg", "N·mm/°", "Nmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMillimeterPerRadian, new string[]{"N·mm/rad", "Nmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.PoundForceFeetPerRadian, new string[]{"lbf·ft/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.PoundForceFootPerDegrees, new string[]{"lbf·ft/deg"}), + ("en-US", typeof(ElectricChargeDensityUnit), (int)ElectricChargeDensityUnit.CoulombPerCubicMeter, new string[]{"C/m³"}), + ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.KilometerPerLiter, new string[]{"km/L"}), + ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.LiterPer100Kilometers, new string[]{"L/100km"}), + ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.MilePerUkGallon, new string[]{"mpg (imp.)"}), + ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.MilePerUsGallon, new string[]{"mpg (U.S.)"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Kilovolt, new string[]{"kV"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Kilovolt, new string[]{"кВ"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Megavolt, new string[]{"MV"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Megavolt, new string[]{"МВ"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Microvolt, new string[]{"µV"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Microvolt, new string[]{"мкВ"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Millivolt, new string[]{"mV"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Millivolt, new string[]{"мВ"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Volt, new string[]{"V"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Volt, new string[]{"В"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.CubicMeterPerMeter, new string[]{"m³/m"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.CubicYardPerFoot, new string[]{"yd³/ft"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.CubicYardPerUsSurveyFoot, new string[]{"yd³/ftUS"}), @@ -1703,21 +948,776 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.LiterPerMeter, new string[]{"l/m"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.LiterPerMillimeter, new string[]{"l/mm"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.OilBarrelPerFoot, new string[]{"bbl/ft"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit, new string[]{"BTU/ft³·°F"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius, new string[]{"cal/cm³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius, new string[]{"J/m³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.JoulePerCubicMeterKelvin, new string[]{"J/m³·K"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius, new string[]{"kcal/cm³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius, new string[]{"kJ/m³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin, new string[]{"kJ/m³·K"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius, new string[]{"MJ/m³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, new string[]{"MJ/m³·K"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.CentimeterToTheSixth, new string[]{"cm⁶", "cm^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.DecimeterToTheSixth, new string[]{"dm⁶", "dm^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.FootToTheSixth, new string[]{"ft⁶", "ft^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.InchToTheSixth, new string[]{"in⁶", "in^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.MeterToTheSixth, new string[]{"m⁶", "m^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.MillimeterToTheSixth, new string[]{"mm⁶", "mm^6"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.CentimeterToTheFourth, new string[]{"cm⁴", "cm^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.DecimeterToTheFourth, new string[]{"dm⁴", "dm^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.FootToTheFourth, new string[]{"ft⁴", "ft^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.InchToTheFourth, new string[]{"in⁴", "in^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.MeterToTheFourth, new string[]{"m⁴", "m^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.MillimeterToTheFourth, new string[]{"mm⁴", "mm^4"}), + ("en-US", typeof(VitaminAUnit), (int)VitaminAUnit.InternationalUnit, new string[]{"IU"}), + ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Kilolux, new string[]{"klx"}), + ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Lux, new string[]{"lx"}), + ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Megalux, new string[]{"Mlx"}), + ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Millilux, new string[]{"mlx"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"cg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"сг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"厘克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"dag"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"даг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"十克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"dg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"дг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"分克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.EarthMass, new string[]{"em"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Grain, new string[]{"gr"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"g"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"г"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"hg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"гг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"百克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"kg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"кг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"千克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"klb", "klbs", "klbm"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"кфунт"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"千磅"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"kt"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"кт"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"千吨"}), + ("en-US", typeof(MassUnit), (int)MassUnit.LongHundredweight, new string[]{"cwt"}), + ("en-US", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"long tn"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"тонна большая"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"长吨"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"Mlb", "Mlbs", "Mlbm"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"Мфунт"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"兆磅"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"Mt"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"Мт"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"兆吨"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"µg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"мкг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"微克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Milligram, new string[]{"mg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Milligram, new string[]{"мг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Milligram, new string[]{"毫克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Nanogram, new string[]{"ng"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Nanogram, new string[]{"нг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Nanogram, new string[]{"纳克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Ounce, new string[]{"oz"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Ounce, new string[]{"盎司"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Pound, new string[]{"lb", "lbs", "lbm"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Pound, new string[]{"фунт"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Pound, new string[]{"磅"}), + ("en-US", typeof(MassUnit), (int)MassUnit.ShortHundredweight, new string[]{"cwt"}), + ("en-US", typeof(MassUnit), (int)MassUnit.ShortTon, new string[]{"t (short)", "short tn", "ST"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.ShortTon, new string[]{"тонна малая"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.ShortTon, new string[]{"短吨"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Slug, new string[]{"slug"}), + ("en-US", typeof(MassUnit), (int)MassUnit.SolarMass, new string[]{"M⊙"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Stone, new string[]{"st"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Tonne, new string[]{"t"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Tonne, new string[]{"т"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Tonne, new string[]{"吨"}), + ("en-US", typeof(MolarEntropyUnit), (int)MolarEntropyUnit.JoulePerMoleKelvin, new string[]{"J/(mol*K)"}), + ("en-US", typeof(MolarEntropyUnit), (int)MolarEntropyUnit.KilojoulePerMoleKelvin, new string[]{"kJ/(mol*K)"}), + ("en-US", typeof(MolarEntropyUnit), (int)MolarEntropyUnit.MegajoulePerMoleKelvin, new string[]{"MJ/(mol*K)"}), + ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Centistokes, new string[]{"cSt"}), + ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Centistokes, new string[]{"сСт"}), + ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Decistokes, new string[]{"dSt"}), + ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Decistokes, new string[]{"дСт"}), + ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Kilostokes, new string[]{"kSt"}), + ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Kilostokes, new string[]{"кСт"}), + ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Microstokes, new string[]{"µSt"}), + ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Microstokes, new string[]{"мкСт"}), + ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Millistokes, new string[]{"mSt"}), + ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Millistokes, new string[]{"мСт"}), + ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Nanostokes, new string[]{"nSt"}), + ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Nanostokes, new string[]{"нСт"}), + ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.SquareFootPerSecond, new string[]{"ft²/s"}), + ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.SquareMeterPerSecond, new string[]{"m²/s"}), + ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.SquareMeterPerSecond, new string[]{"м²/с"}), + ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Stokes, new string[]{"St"}), + ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Stokes, new string[]{"Ст"}), + ("en-US", typeof(EnergyUnit), (int)EnergyUnit.BritishThermalUnit, new string[]{"BTU"}), + ("en-US", typeof(EnergyUnit), 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string[]{"ng/dL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerLiter, new string[]{"ng/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerMicroliter, new string[]{"ng/μL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerMilliliter, new string[]{"ng/mL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.OuncePerImperialGallon, new string[]{"oz/gal (imp.)"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.OuncePerUSGallon, new string[]{"oz/gal (U.S.)"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerDeciliter, new string[]{"pg/dL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerLiter, new string[]{"pg/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerMicroliter, new string[]{"pg/μL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerMilliliter, new string[]{"pg/mL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerCubicFoot, new string[]{"lb/ft³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerCubicInch, new string[]{"lb/in³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerImperialGallon, new string[]{"ppg (imp.)"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerUSGallon, new string[]{"ppg (U.S.)"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.SlugPerCubicFoot, new string[]{"slug/ft³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicCentimeter, new string[]{"t/cm³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicMeter, new string[]{"t/m³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicMillimeter, new string[]{"t/mm³"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.KiloohmCentimeter, new string[]{"kΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.KiloohmMeter, new string[]{"kΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MegaohmCentimeter, new string[]{"MΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MegaohmMeter, new string[]{"MΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MicroohmCentimeter, new string[]{"µΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MicroohmMeter, new string[]{"µΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MilliohmCentimeter, new string[]{"mΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MilliohmMeter, new string[]{"mΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.NanoohmCentimeter, new string[]{"nΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.NanoohmMeter, new string[]{"nΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.OhmCentimeter, new string[]{"Ω·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.OhmMeter, new string[]{"Ω·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.PicoohmCentimeter, new string[]{"pΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.PicoohmMeter, new string[]{"pΩ·m"}), + ("en-US", typeof(TurbidityUnit), (int)TurbidityUnit.NTU, new string[]{"NTU"}), + ("en-US", typeof(LuminousIntensityUnit), (int)LuminousIntensityUnit.Candela, new string[]{"cd"}), + ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter, new string[]{"C/cm²"}), + ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch, new string[]{"C/in²"}), + ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareMeter, new string[]{"C/m²"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Decanewton, new string[]{"daN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Decanewton, new string[]{"даН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Dyn, new string[]{"dyn"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Dyn, new string[]{"дин"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.KilogramForce, new string[]{"kgf"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KilogramForce, new string[]{"кгс"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Kilonewton, new string[]{"kN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Kilonewton, new string[]{"кН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.KiloPond, new string[]{"kp"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KiloPond, new string[]{"кгс"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.KilopoundForce, new string[]{"kipf", "kip", "k"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KilopoundForce, new string[]{"кипф", "койка", "К"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Meganewton, new string[]{"MN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Meganewton, new string[]{"МН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Micronewton, new string[]{"µN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Micronewton, new string[]{"мкН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Millinewton, new string[]{"mN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Millinewton, new string[]{"мН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Newton, new string[]{"N"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Newton, new string[]{"Н"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.OunceForce, new string[]{"ozf"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Poundal, new string[]{"pdl"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Poundal, new string[]{"паундаль"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.PoundForce, new string[]{"lbf"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.PoundForce, new string[]{"фунт-сила"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.ShortTonForce, new string[]{"tf (short)", "t (US)f", "short tons-force"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.TonneForce, new string[]{"tf", "Ton"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.TonneForce, new string[]{"тс"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.CentiradianPerSecond, new string[]{"crad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.CentiradianPerSecond, new string[]{"срад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DeciradianPerSecond, new string[]{"drad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DeciradianPerSecond, new string[]{"драд/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerMinute, new string[]{"°/min", "deg/min"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerSecond, new string[]{"°/s", "deg/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerSecond, new string[]{"°/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicrodegreePerSecond, new string[]{"µ°/s", "µdeg/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicrodegreePerSecond, new string[]{"мк°/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicroradianPerSecond, new string[]{"µrad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicroradianPerSecond, new string[]{"мкрад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MillidegreePerSecond, new string[]{"m°/s", "mdeg/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MillidegreePerSecond, new string[]{"м°/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MilliradianPerSecond, new string[]{"mrad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MilliradianPerSecond, new string[]{"мрад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanodegreePerSecond, new string[]{"n°/s", "ndeg/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanodegreePerSecond, new string[]{"н°/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanoradianPerSecond, new string[]{"nrad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanoradianPerSecond, new string[]{"нрад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RadianPerSecond, new string[]{"rad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RadianPerSecond, new string[]{"рад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerMinute, new string[]{"rpm", "r/min"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerMinute, new string[]{"об/мин"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerSecond, new string[]{"r/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerSecond, new string[]{"об/с"}), + ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.CubicFootPerPound, new string[]{"ft³/lb"}), + ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.CubicMeterPerKilogram, new string[]{"m³/kg"}), + ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.MillicubicMeterPerKilogram, new string[]{"mm³/kg"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicCentimeter, new string[]{"kgf/cm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicMeter, new string[]{"kgf/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicMillimeter, new string[]{"kgf/mm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicCentimeter, new string[]{"kN/cm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicMeter, new string[]{"kN/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicMillimeter, new string[]{"kN/mm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilopoundForcePerCubicFoot, new string[]{"kipf/ft³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilopoundForcePerCubicInch, new string[]{"kipf/in³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.MeganewtonPerCubicMeter, new string[]{"MN/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicCentimeter, new string[]{"N/cm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicMeter, new string[]{"N/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicMillimeter, new string[]{"N/mm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.PoundForcePerCubicFoot, new string[]{"lbf/ft³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.PoundForcePerCubicInch, new string[]{"lbf/in³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicCentimeter, new string[]{"tf/cm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicMeter, new string[]{"tf/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicMillimeter, new string[]{"tf/mm³"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerHourSquareFoot, new string[]{"BTU/h·ft²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerMinuteSquareFoot, new string[]{"BTU/min·ft²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerSecondSquareFoot, new string[]{"BTU/s·ft²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerSecondSquareInch, new string[]{"BTU/s·in²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.CaloriePerSecondSquareCentimeter, new string[]{"cal/s·cm²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.CentiwattPerSquareMeter, new string[]{"cW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.DeciwattPerSquareMeter, new string[]{"dW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilocaloriePerHourSquareMeter, new string[]{"kcal/h·m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilocaloriePerSecondSquareCentimeter, new string[]{"kcal/s·cm²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilowattPerSquareMeter, new string[]{"kW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.MicrowattPerSquareMeter, new string[]{"µW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.MilliwattPerSquareMeter, new string[]{"mW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.NanowattPerSquareMeter, new string[]{"nW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.PoundForcePerFootSecond, new string[]{"lbf/(ft·s)"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.PoundPerSecondCubed, new string[]{"lb/s³", "lbm/s³"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareFoot, new string[]{"W/ft²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareInch, new string[]{"W/in²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareMeter, new string[]{"W/m²"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceCentimeter, new string[]{"kgf·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceMeter, new string[]{"kgf·m"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceMillimeter, new string[]{"kgf·mm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonCentimeter, new string[]{"kN·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMeter, new string[]{"kN·m"}), + ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMeter, new string[]{"кН·м"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMillimeter, new string[]{"kN·mm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilopoundForceFoot, new string[]{"kipf·ft"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilopoundForceInch, new string[]{"kipf·in"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonCentimeter, new string[]{"MN·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMeter, new string[]{"MN·m"}), + ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMeter, new string[]{"МН·м"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMillimeter, new string[]{"MN·mm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MegapoundForceFoot, new string[]{"Mlbf·ft"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MegapoundForceInch, new string[]{"Mlbf·in"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonCentimeter, new string[]{"N·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonMeter, new string[]{"N·m"}), + ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.NewtonMeter, new string[]{"Н·м"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonMillimeter, new string[]{"N·mm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundalFoot, new string[]{"pdl·ft"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundForceFoot, new string[]{"lbf·ft"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundForceInch, new string[]{"lbf·in"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceCentimeter, new string[]{"tf·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceMeter, new string[]{"tf·m"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceMillimeter, new string[]{"tf·mm"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.CaloriePerKelvin, new string[]{"cal/K"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.JoulePerDegreeCelsius, new string[]{"J/C"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.JoulePerKelvin, new string[]{"J/K"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilocaloriePerKelvin, new string[]{"kcal/K"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilojoulePerDegreeCelsius, new string[]{"kJ/C"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilojoulePerKelvin, new string[]{"kJ/K"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.MegajoulePerKelvin, new string[]{"MJ/K"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceCentimeterPerMeter, new string[]{"kgf·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceMeterPerMeter, new string[]{"kgf·m/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceMillimeterPerMeter, new string[]{"kgf·mm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonCentimeterPerMeter, new string[]{"kN·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMeterPerMeter, new string[]{"kN·m/m"}), + ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMeterPerMeter, new string[]{"кН·м/м"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMillimeterPerMeter, new string[]{"kN·mm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilopoundForceFootPerFoot, new string[]{"kipf·ft/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilopoundForceInchPerFoot, new string[]{"kipf·in/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonCentimeterPerMeter, new string[]{"MN·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMeterPerMeter, new string[]{"MN·m/m"}), + ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMeterPerMeter, new string[]{"МН·м/м"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMillimeterPerMeter, new string[]{"MN·mm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MegapoundForceFootPerFoot, new string[]{"Mlbf·ft/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MegapoundForceInchPerFoot, new string[]{"Mlbf·in/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonCentimeterPerMeter, new string[]{"N·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMeterPerMeter, new string[]{"N·m/m"}), + ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMeterPerMeter, new string[]{"Н·м/м"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMillimeterPerMeter, new string[]{"N·mm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.PoundForceFootPerFoot, new string[]{"lbf·ft/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.PoundForceInchPerFoot, new string[]{"lbf·in/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceCentimeterPerMeter, new string[]{"tf·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceMeterPerMeter, new string[]{"tf·m/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceMillimeterPerMeter, new string[]{"tf·mm/m"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Arcminute, new string[]{"'", "arcmin", "amin", "min"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Arcsecond, new string[]{"″", "arcsec", "asec", "sec"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Centiradian, new string[]{"crad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Centiradian, new string[]{"срад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Deciradian, new string[]{"drad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Deciradian, new string[]{"драд"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Degree, new string[]{"°", "deg"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Degree, new string[]{"°"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Gradian, new string[]{"g"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Gradian, new string[]{"g"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Microdegree, new string[]{"µ°", "µdeg"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Microdegree, new string[]{"мк°"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Microradian, new string[]{"µrad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Microradian, new string[]{"мкрад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Millidegree, new string[]{"m°", "mdeg"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Millidegree, new string[]{"м°"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Milliradian, new string[]{"mrad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Milliradian, new string[]{"мрад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Nanodegree, new string[]{"n°", "ndeg"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Nanodegree, new string[]{"н°"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Nanoradian, new string[]{"nrad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Nanoradian, new string[]{"нрад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.NatoMil, new string[]{"mil"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Radian, new string[]{"rad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Radian, new string[]{"рад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Revolution, new string[]{"r"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Revolution, new string[]{"r"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Tilt, new string[]{"sin(θ)"}), + ("en-US", typeof(ThermalConductivityUnit), (int)ThermalConductivityUnit.BtuPerHourFootFahrenheit, new string[]{"BTU/h·ft·°F"}), + ("en-US", typeof(ThermalConductivityUnit), (int)ThermalConductivityUnit.WattPerMeterKelvin, new string[]{"W/m·K"}), + ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour, new string[]{"g/kWh"}), + ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.KilogramPerJoule, new string[]{"kg/J"}), + ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, new string[]{"lb/hph"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.CentigramPerMole, new string[]{"cg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.CentigramPerMole, new string[]{"сг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.DecagramPerMole, new string[]{"dag/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.DecagramPerMole, new string[]{"даг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.DecigramPerMole, new string[]{"dg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.DecigramPerMole, new string[]{"дг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.GramPerMole, new string[]{"g/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.GramPerMole, new string[]{"г/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.HectogramPerMole, new string[]{"hg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.HectogramPerMole, new string[]{"гг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.KilogramPerMole, new string[]{"kg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.KilogramPerMole, new string[]{"кг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.KilopoundPerMole, new string[]{"klb/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.KilopoundPerMole, new string[]{"кфунт/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MegapoundPerMole, new string[]{"Mlb/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MegapoundPerMole, new string[]{"Мфунт/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MicrogramPerMole, new string[]{"µg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MicrogramPerMole, new string[]{"мкг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MilligramPerMole, new string[]{"mg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MilligramPerMole, new string[]{"мг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.NanogramPerMole, new string[]{"ng/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.NanogramPerMole, new string[]{"нг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.PoundPerMole, new string[]{"lb/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.PoundPerMole, new string[]{"фунт/моль"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.CentigramPerDay, new string[]{"cg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.CentigramPerSecond, new string[]{"cg/s", "cg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecagramPerDay, new string[]{"dag/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecagramPerSecond, new string[]{"dag/s", "dag/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecigramPerDay, new string[]{"dg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecigramPerSecond, new string[]{"dg/s", "dg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerDay, new string[]{"g/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerHour, new string[]{"g/h"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerSecond, new string[]{"g/s", "g/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.HectogramPerDay, new string[]{"hg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.HectogramPerSecond, new string[]{"hg/s", "hg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerDay, new string[]{"kg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerHour, new string[]{"kg/h"}), + ("ru-RU", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerHour, new string[]{"кг/ч"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerMinute, new string[]{"kg/min"}), + ("ru-RU", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerMinute, new string[]{"кг/мин"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerSecond, new string[]{"kg/s", "kg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegagramPerDay, new string[]{"Mg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerDay, new string[]{"Mlb/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerHour, new string[]{"Mlb/h"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerMinute, new string[]{"Mlb/min"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerSecond, new string[]{"Mlb/s"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MicrogramPerDay, new string[]{"µg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MicrogramPerSecond, new string[]{"µg/s", "µg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MilligramPerDay, new string[]{"mg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MilligramPerSecond, new string[]{"mg/s", "mg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.NanogramPerDay, new string[]{"ng/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.NanogramPerSecond, new string[]{"ng/s", "ng/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerDay, new string[]{"lb/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerHour, new string[]{"lb/h"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerMinute, new string[]{"lb/min"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerSecond, new string[]{"lb/s"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.ShortTonPerHour, new string[]{"short tn/h"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.TonnePerDay, new string[]{"t/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.TonnePerHour, new string[]{"t/h"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.DecimalFraction, new string[]{""}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerBillion, new string[]{"ppb"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerMillion, new string[]{"ppm"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerThousand, new string[]{"‰"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerTrillion, new string[]{"ppt"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.Percent, new string[]{"%"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Day, new string[]{"d", "day", "days"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Day, new string[]{"сут", "д"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Hour, new string[]{"h", "hr", "hrs", "hour", "hours"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Hour, new string[]{"ч", "час"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.JulianYear, new string[]{"jyr", "jyear", "jyears"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Microsecond, new string[]{"µs", "µsec", "µsecs", "µsecond", "µseconds"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Microsecond, new string[]{"мксек", "мкс"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Millisecond, new string[]{"ms", "msec", "msecs", "msecond", "mseconds"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Millisecond, new string[]{"мсек", "мс"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Minute, new string[]{"m", "min", "minute", "minutes"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Minute, new string[]{"мин"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Month30, new string[]{"mo", "month", "months"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Month30, new string[]{"месяц"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Nanosecond, new string[]{"ns", "nsec", "nsecs", "nsecond", "nseconds"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Nanosecond, new string[]{"нсек", "нс"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Second, new string[]{"s", "sec", "secs", "second", "seconds"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Second, new string[]{"сек", "с"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Week, new string[]{"wk", "week", "weeks"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Week, new string[]{"нед"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Year365, new string[]{"yr", "year", "years"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Year365, new string[]{"год"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Gigaohm, new string[]{"GΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Kiloohm, new string[]{"kΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Megaohm, new string[]{"MΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Microohm, new string[]{"µΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Milliohm, new string[]{"mΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Ohm, new string[]{"Ω"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu, new string[]{"Hrft²°F/Btu"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie, new string[]{"cm²Hr°C/kcal"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareCentimeterKelvinPerWatt, new string[]{"cm²K/W"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt, new string[]{"m²°C/W"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareMeterKelvinPerKilowatt, new string[]{"m²K/kW"}), + ("en-US", typeof(MagnetizationUnit), (int)MagnetizationUnit.AmperePerMeter, new string[]{"A/m"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeCelsius, new string[]{"∆°C"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeDelisle, new string[]{"∆°De"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeFahrenheit, new string[]{"∆°F"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeNewton, new string[]{"∆°N"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeRankine, new string[]{"∆°R"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeReaumur, new string[]{"∆°Ré"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeRoemer, new string[]{"∆°Rø"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.Kelvin, new string[]{"∆K"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.MillidegreeCelsius, new string[]{"∆m°C"}), + ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Microsiemens, new string[]{"µS"}), + ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Millisiemens, new string[]{"mS"}), + ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Nanosiemens, new string[]{"nS"}), + ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Siemens, new string[]{"S"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Ampere, new string[]{"A"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Centiampere, new string[]{"cA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Kiloampere, new string[]{"kA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Megaampere, new string[]{"MA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Microampere, new string[]{"µA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Milliampere, new string[]{"mA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Nanoampere, new string[]{"nA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Picoampere, new string[]{"pA"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerDeciliter, new string[]{"cg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerLiter, new string[]{"cg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerMilliliter, new string[]{"cg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerDeciliter, new string[]{"dg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerLiter, new string[]{"dg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerMilliliter, new string[]{"dg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicCentimeter, new string[]{"g/cm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMeter, new string[]{"g/m³"}), + ("ru-RU", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMeter, new string[]{"г/м³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMillimeter, new string[]{"g/mm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerDeciliter, new string[]{"g/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerLiter, new string[]{"g/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerMilliliter, new string[]{"g/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicCentimeter, new string[]{"kg/cm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMeter, new string[]{"kg/m³"}), + ("ru-RU", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMeter, new string[]{"кг/м³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMillimeter, new string[]{"kg/mm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerLiter, new string[]{"kg/l"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilopoundPerCubicFoot, new string[]{"kip/ft³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilopoundPerCubicInch, new string[]{"kip/in³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerCubicMeter, new string[]{"µg/m³"}), + ("ru-RU", typeof(DensityUnit), (int)DensityUnit.MicrogramPerCubicMeter, new string[]{"мкг/м³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerDeciliter, new string[]{"µg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerLiter, new string[]{"µg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerMilliliter, new string[]{"µg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerCubicMeter, new string[]{"mg/m³"}), + ("ru-RU", typeof(DensityUnit), (int)DensityUnit.MilligramPerCubicMeter, new string[]{"мг/м³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerDeciliter, new string[]{"mg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerLiter, new string[]{"mg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerMilliliter, new string[]{"mg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerDeciliter, new string[]{"ng/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerLiter, new string[]{"ng/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerMilliliter, new string[]{"ng/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerDeciliter, new string[]{"pg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerLiter, new string[]{"pg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerMilliliter, new string[]{"pg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerCubicFoot, new string[]{"lb/ft³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerCubicInch, new string[]{"lb/in³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerImperialGallon, new string[]{"ppg (imp.)"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerUSGallon, new string[]{"ppg (U.S.)"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.SlugPerCubicFoot, new string[]{"slug/ft³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicCentimeter, new string[]{"t/cm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicMeter, new string[]{"t/m³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicMillimeter, new string[]{"t/mm³"}), + ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerMicrosecond, new string[]{"A/μs"}), + ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerMillisecond, new string[]{"A/ms"}), + ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerNanosecond, new string[]{"A/ns"}), + ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerSecond, new string[]{"A/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond, new string[]{"c°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond, new string[]{"da°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond, new string[]{"d°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DegreeCelsiusPerMinute, new string[]{"°C/min"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DegreeCelsiusPerSecond, new string[]{"°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond, new string[]{"h°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond, new string[]{"k°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond, new string[]{"µ°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond, new string[]{"m°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, new string[]{"n°C/s"}), + ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Henry, new string[]{"H"}), + ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Microhenry, new string[]{"µH"}), + ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Millihenry, new string[]{"mH"}), + ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Nanohenry, new string[]{"nH"}), + ("en-US", typeof(RatioChangeRateUnit), (int)RatioChangeRateUnit.DecimalFractionPerSecond, new string[]{"/s"}), + ("en-US", typeof(RatioChangeRateUnit), (int)RatioChangeRateUnit.PercentPerSecond, new string[]{"%/s"}), + ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit, new string[]{"Btu/ft²·hr·°F"}), + ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.WattPerSquareMeterCelsius, new string[]{"W/m²·°C"}), + ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.WattPerSquareMeterKelvin, new string[]{"W/m²·K"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.CentigramPerGram, new string[]{"cg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.CentigramPerKilogram, new string[]{"cg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecagramPerGram, new string[]{"dag/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecagramPerKilogram, new string[]{"dag/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecigramPerGram, new string[]{"dg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecigramPerKilogram, new string[]{"dg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecimalFraction, new string[]{""}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.GramPerGram, new string[]{"g/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.GramPerKilogram, new string[]{"g/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.HectogramPerGram, new string[]{"hg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.HectogramPerKilogram, new string[]{"hg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.KilogramPerGram, new string[]{"kg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.KilogramPerKilogram, new string[]{"kg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MicrogramPerGram, new string[]{"µg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MicrogramPerKilogram, new string[]{"µg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MilligramPerGram, new string[]{"mg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MilligramPerKilogram, new string[]{"mg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.NanogramPerGram, new string[]{"ng/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.NanogramPerKilogram, new string[]{"ng/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerBillion, new string[]{"ppb"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerMillion, new string[]{"ppm"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerThousand, new string[]{"‰"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerTrillion, new string[]{"ppt"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.Percent, new string[]{"%", "% (w/w)"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Gauss, new string[]{"G"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Microtesla, new string[]{"µT"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Milligauss, new string[]{"mG"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Millitesla, new string[]{"mT"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Nanotesla, new string[]{"nT"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Tesla, new string[]{"T"}), + ("en-US", typeof(PermeabilityUnit), (int)PermeabilityUnit.HenryPerMeter, new string[]{"H/m"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.AmpereHour, new string[]{"A-h", "Ah"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.Coulomb, new string[]{"C"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.KiloampereHour, new string[]{"kA-h", "kAh"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.MegaampereHour, new string[]{"MA-h", "MAh"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.MilliampereHour, new string[]{"mA-h", "mAh"}), + ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerFoot, new string[]{"S/ft"}), + ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerInch, new string[]{"S/in"}), + ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerMeter, new string[]{"S/m"}), + ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.GigavoltampereReactive, new string[]{"Gvar"}), + ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.KilovoltampereReactive, new string[]{"kvar"}), + ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.MegavoltampereReactive, new string[]{"Mvar"}), + ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.VoltampereReactive, new string[]{"var"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.KilovoltAc, new string[]{"kVac"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MegavoltAc, new string[]{"MVac"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MicrovoltAc, new string[]{"µVac"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MillivoltAc, new string[]{"mVac"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.VoltAc, new string[]{"Vac"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.KilowattPerSquareCentimeter, new string[]{"kW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.KilowattPerSquareMeter, new string[]{"kW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MegawattPerSquareCentimeter, new string[]{"MW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MegawattPerSquareMeter, new string[]{"MW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MicrowattPerSquareCentimeter, new string[]{"µW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MicrowattPerSquareMeter, new string[]{"µW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MilliwattPerSquareCentimeter, new string[]{"mW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MilliwattPerSquareMeter, new string[]{"mW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.NanowattPerSquareCentimeter, new string[]{"nW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.NanowattPerSquareMeter, new string[]{"nW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.PicowattPerSquareCentimeter, new string[]{"pW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.PicowattPerSquareMeter, new string[]{"pW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.WattPerSquareCentimeter, new string[]{"W/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.WattPerSquareMeter, new string[]{"W/m²"}), + ("en-US", typeof(ScalarUnit), (int)ScalarUnit.Amount, new string[]{""}), }; } } diff --git a/UnitsNet/GeneratedCode/Quantity.g.cs b/UnitsNet/GeneratedCode/Quantity.g.cs index 44f07e2aa5..2aac7c141d 100644 --- a/UnitsNet/GeneratedCode/Quantity.g.cs +++ b/UnitsNet/GeneratedCode/Quantity.g.cs @@ -38,232 +38,232 @@ public static partial class Quantity /// public static readonly IDictionary ByName = new Dictionary { - { "Acceleration", Acceleration.Info }, + { "SpecificEntropy", SpecificEntropy.Info }, + { "Molarity", Molarity.Info }, { "AmountOfSubstance", AmountOfSubstance.Info }, - { "AmplitudeRatio", AmplitudeRatio.Info }, - { "Angle", Angle.Info }, - { "ApparentEnergy", ApparentEnergy.Info }, + { "PressureChangeRate", PressureChangeRate.Info }, + { "CoefficientOfThermalExpansion", CoefficientOfThermalExpansion.Info }, + { "Pressure", Pressure.Info }, + { "Irradiation", Irradiation.Info }, + { "ElectricConductance", ElectricConductance.Info }, + { "Acceleration", Acceleration.Info }, + { "RotationalAcceleration", RotationalAcceleration.Info }, + { "Volume", Volume.Info }, + { "Frequency", Frequency.Info }, + { "DynamicViscosity", DynamicViscosity.Info }, + { "VolumetricHeatCapacity", VolumetricHeatCapacity.Info }, + { "Level", Level.Info }, + { "MolarEnergy", MolarEnergy.Info }, { "ApparentPower", ApparentPower.Info }, - { "Area", Area.Info }, + { "ReactiveEnergy", ReactiveEnergy.Info }, + { "LuminousFlux", LuminousFlux.Info }, + { "SpecificEnergy", SpecificEnergy.Info }, + { "PowerDensity", PowerDensity.Info }, + { "ForcePerLength", ForcePerLength.Info }, + { "Luminosity", Luminosity.Info }, + { "ElectricField", ElectricField.Info }, + { "StandardVolumeFlow", StandardVolumeFlow.Info }, + { "Power", Power.Info }, + { "AmplitudeRatio", AmplitudeRatio.Info }, + { "ReciprocalArea", ReciprocalArea.Info }, + { "ForceChangeRate", ForceChangeRate.Info }, + { "SolidAngle", SolidAngle.Info }, + { "RelativeHumidity", RelativeHumidity.Info }, + { "RotationalStiffnessPerLength", RotationalStiffnessPerLength.Info }, + { "VolumeFlow", VolumeFlow.Info }, + { "LinearPowerDensity", LinearPowerDensity.Info }, + { "ElectricPotentialChangeRate", ElectricPotentialChangeRate.Info }, + { "Capacitance", Capacitance.Info }, + { "LinearDensity", LinearDensity.Info }, + { "ReciprocalLength", ReciprocalLength.Info }, { "AreaDensity", AreaDensity.Info }, - { "AreaMomentOfInertia", AreaMomentOfInertia.Info }, + { "MassFlux", MassFlux.Info }, + { "MagneticFlux", MagneticFlux.Info }, + { "ApparentEnergy", ApparentEnergy.Info }, + { "Speed", Speed.Info }, { "BitRate", BitRate.Info }, - { "BrakeSpecificFuelConsumption", BrakeSpecificFuelConsumption.Info }, - { "Capacitance", Capacitance.Info }, - { "CoefficientOfThermalExpansion", CoefficientOfThermalExpansion.Info }, - { "Density", Density.Info }, - { "Duration", Duration.Info }, - { "DynamicViscosity", DynamicViscosity.Info }, - { "ElectricAdmittance", ElectricAdmittance.Info }, - { "ElectricCharge", ElectricCharge.Info }, + { "Area", Area.Info }, + { "VolumeConcentration", VolumeConcentration.Info }, + { "Permittivity", Permittivity.Info }, + { "Information", Information.Info }, + { "LapseRate", LapseRate.Info }, + { "RotationalStiffness", RotationalStiffness.Info }, { "ElectricChargeDensity", ElectricChargeDensity.Info }, - { "ElectricConductance", ElectricConductance.Info }, - { "ElectricConductivity", ElectricConductivity.Info }, - { "ElectricCurrent", ElectricCurrent.Info }, - { "ElectricCurrentDensity", ElectricCurrentDensity.Info }, - { "ElectricCurrentGradient", ElectricCurrentGradient.Info }, - { "ElectricField", ElectricField.Info }, - { "ElectricInductance", ElectricInductance.Info }, + { "FuelEfficiency", FuelEfficiency.Info }, { "ElectricPotential", ElectricPotential.Info }, - { "ElectricPotentialAc", ElectricPotentialAc.Info }, - { "ElectricPotentialChangeRate", ElectricPotentialChangeRate.Info }, + { "VolumePerLength", VolumePerLength.Info }, + { "AreaMomentOfInertia", AreaMomentOfInertia.Info }, + { "VitaminA", VitaminA.Info }, + { "Illuminance", Illuminance.Info }, + { "Mass", Mass.Info }, + { "MolarEntropy", MolarEntropy.Info }, + { "KinematicViscosity", KinematicViscosity.Info }, + { "Energy", Energy.Info }, + { "SpecificFuelConsumption", SpecificFuelConsumption.Info }, + { "PowerRatio", PowerRatio.Info }, + { "ElectricCurrentDensity", ElectricCurrentDensity.Info }, { "ElectricPotentialDc", ElectricPotentialDc.Info }, - { "ElectricResistance", ElectricResistance.Info }, + { "Length", Length.Info }, + { "MassMomentOfInertia", MassMomentOfInertia.Info }, + { "WarpingMomentOfInertia", WarpingMomentOfInertia.Info }, + { "Temperature", Temperature.Info }, + { "MassConcentration", MassConcentration.Info }, { "ElectricResistivity", ElectricResistivity.Info }, + { "Turbidity", Turbidity.Info }, + { "LuminousIntensity", LuminousIntensity.Info }, { "ElectricSurfaceChargeDensity", ElectricSurfaceChargeDensity.Info }, - { "Energy", Energy.Info }, - { "Entropy", Entropy.Info }, { "Force", Force.Info }, - { "ForceChangeRate", ForceChangeRate.Info }, - { "ForcePerLength", ForcePerLength.Info }, - { "Frequency", Frequency.Info }, - { "FuelEfficiency", FuelEfficiency.Info }, + { "RotationalSpeed", RotationalSpeed.Info }, + { "SpecificVolume", SpecificVolume.Info }, + { "SpecificWeight", SpecificWeight.Info }, { "HeatFlux", HeatFlux.Info }, - { "HeatTransferCoefficient", HeatTransferCoefficient.Info }, - { "Illuminance", Illuminance.Info }, - { "Information", Information.Info }, - { "Irradiance", Irradiance.Info }, - { "Irradiation", Irradiation.Info }, - { "KinematicViscosity", KinematicViscosity.Info }, - { "LapseRate", LapseRate.Info }, - { "Length", Length.Info }, - { "Level", Level.Info }, - { "LinearDensity", LinearDensity.Info }, - { "LinearPowerDensity", LinearPowerDensity.Info }, - { "Luminosity", Luminosity.Info }, - { "LuminousFlux", LuminousFlux.Info }, - { "LuminousIntensity", LuminousIntensity.Info }, - { "MagneticField", MagneticField.Info }, - { "MagneticFlux", MagneticFlux.Info }, - { "Magnetization", Magnetization.Info }, - { "Mass", Mass.Info }, - { "MassConcentration", MassConcentration.Info }, - { "MassFlow", MassFlow.Info }, - { "MassFlux", MassFlux.Info }, - { "MassFraction", MassFraction.Info }, - { "MassMomentOfInertia", MassMomentOfInertia.Info }, - { "MolarEnergy", MolarEnergy.Info }, - { "MolarEntropy", MolarEntropy.Info }, - { "Molarity", Molarity.Info }, + { "Torque", Torque.Info }, + { "Entropy", Entropy.Info }, + { "TorquePerLength", TorquePerLength.Info }, + { "Angle", Angle.Info }, + { "ThermalConductivity", ThermalConductivity.Info }, + { "BrakeSpecificFuelConsumption", BrakeSpecificFuelConsumption.Info }, { "MolarMass", MolarMass.Info }, - { "Permeability", Permeability.Info }, - { "Permittivity", Permittivity.Info }, - { "Power", Power.Info }, - { "PowerDensity", PowerDensity.Info }, - { "PowerRatio", PowerRatio.Info }, - { "Pressure", Pressure.Info }, - { "PressureChangeRate", PressureChangeRate.Info }, + { "MassFlow", MassFlow.Info }, { "Ratio", Ratio.Info }, + { "Duration", Duration.Info }, + { "ElectricResistance", ElectricResistance.Info }, + { "ThermalResistance", ThermalResistance.Info }, + { "Magnetization", Magnetization.Info }, + { "TemperatureDelta", TemperatureDelta.Info }, + { "ElectricAdmittance", ElectricAdmittance.Info }, + { "ElectricCurrent", ElectricCurrent.Info }, + { "Density", Density.Info }, + { "ElectricCurrentGradient", ElectricCurrentGradient.Info }, + { "TemperatureChangeRate", TemperatureChangeRate.Info }, + { "ElectricInductance", ElectricInductance.Info }, { "RatioChangeRate", RatioChangeRate.Info }, - { "ReactiveEnergy", ReactiveEnergy.Info }, + { "HeatTransferCoefficient", HeatTransferCoefficient.Info }, + { "MassFraction", MassFraction.Info }, + { "MagneticField", MagneticField.Info }, + { "Permeability", Permeability.Info }, + { "ElectricCharge", ElectricCharge.Info }, + { "ElectricConductivity", ElectricConductivity.Info }, { "ReactivePower", ReactivePower.Info }, - { "ReciprocalArea", ReciprocalArea.Info }, - { "ReciprocalLength", ReciprocalLength.Info }, - { "RelativeHumidity", RelativeHumidity.Info }, - { "RotationalAcceleration", RotationalAcceleration.Info }, - { "RotationalSpeed", RotationalSpeed.Info }, - { "RotationalStiffness", RotationalStiffness.Info }, - { "RotationalStiffnessPerLength", RotationalStiffnessPerLength.Info }, + { "ElectricPotentialAc", ElectricPotentialAc.Info }, + { "Irradiance", Irradiance.Info }, { "Scalar", Scalar.Info }, - { "SolidAngle", SolidAngle.Info }, - { "SpecificEnergy", SpecificEnergy.Info }, - { "SpecificEntropy", SpecificEntropy.Info }, - { "SpecificFuelConsumption", SpecificFuelConsumption.Info }, - { "SpecificVolume", SpecificVolume.Info }, - { "SpecificWeight", SpecificWeight.Info }, - { "Speed", Speed.Info }, - { "StandardVolumeFlow", StandardVolumeFlow.Info }, - { "Temperature", Temperature.Info }, - { "TemperatureChangeRate", TemperatureChangeRate.Info }, - { "TemperatureDelta", TemperatureDelta.Info }, - { "ThermalConductivity", ThermalConductivity.Info }, - { "ThermalResistance", ThermalResistance.Info }, - { "Torque", Torque.Info }, - { "TorquePerLength", TorquePerLength.Info }, - { "Turbidity", Turbidity.Info }, - { "VitaminA", VitaminA.Info }, - { "Volume", Volume.Info }, - { "VolumeConcentration", VolumeConcentration.Info }, - { "VolumeFlow", VolumeFlow.Info }, - { "VolumePerLength", VolumePerLength.Info }, - { "VolumetricHeatCapacity", VolumetricHeatCapacity.Info }, - { "WarpingMomentOfInertia", WarpingMomentOfInertia.Info }, }; // Used by the QuantityInfo .ctor to map a name to a QuantityType. Will be removed when QuantityType // will be removed. internal static readonly IDictionary QuantityTypeByName = new Dictionary { - { "Acceleration", QuantityType.Acceleration }, + { "SpecificEntropy", QuantityType.SpecificEntropy }, + { "Molarity", QuantityType.Molarity }, { "AmountOfSubstance", QuantityType.AmountOfSubstance }, - { "AmplitudeRatio", QuantityType.AmplitudeRatio }, - { "Angle", QuantityType.Angle }, - { "ApparentEnergy", QuantityType.ApparentEnergy }, - { "ApparentPower", QuantityType.ApparentPower }, - { "Area", QuantityType.Area }, - { "AreaDensity", QuantityType.AreaDensity }, - { "AreaMomentOfInertia", QuantityType.AreaMomentOfInertia }, - { "BitRate", QuantityType.BitRate }, - { "BrakeSpecificFuelConsumption", QuantityType.BrakeSpecificFuelConsumption }, - { "Capacitance", QuantityType.Capacitance }, + { "PressureChangeRate", QuantityType.PressureChangeRate }, { "CoefficientOfThermalExpansion", QuantityType.CoefficientOfThermalExpansion }, - { "Density", QuantityType.Density }, - { "Duration", QuantityType.Duration }, - { "DynamicViscosity", QuantityType.DynamicViscosity }, - { "ElectricAdmittance", QuantityType.ElectricAdmittance }, - { "ElectricCharge", QuantityType.ElectricCharge }, - { "ElectricChargeDensity", QuantityType.ElectricChargeDensity }, + { "Pressure", QuantityType.Pressure }, + { "Irradiation", QuantityType.Irradiation }, { "ElectricConductance", QuantityType.ElectricConductance }, - { "ElectricConductivity", QuantityType.ElectricConductivity }, - { "ElectricCurrent", QuantityType.ElectricCurrent }, - { "ElectricCurrentDensity", QuantityType.ElectricCurrentDensity }, - { "ElectricCurrentGradient", QuantityType.ElectricCurrentGradient }, - { "ElectricField", QuantityType.ElectricField }, - { "ElectricInductance", QuantityType.ElectricInductance }, - { "ElectricPotential", QuantityType.ElectricPotential }, - { "ElectricPotentialAc", QuantityType.ElectricPotentialAc }, - { "ElectricPotentialChangeRate", QuantityType.ElectricPotentialChangeRate }, - { "ElectricPotentialDc", QuantityType.ElectricPotentialDc }, - { "ElectricResistance", QuantityType.ElectricResistance }, - { "ElectricResistivity", QuantityType.ElectricResistivity }, - { "ElectricSurfaceChargeDensity", QuantityType.ElectricSurfaceChargeDensity }, - { "Energy", QuantityType.Energy }, - { "Entropy", QuantityType.Entropy }, - { "Force", QuantityType.Force }, - { "ForceChangeRate", QuantityType.ForceChangeRate }, - { "ForcePerLength", QuantityType.ForcePerLength }, + { "Acceleration", QuantityType.Acceleration }, + { "RotationalAcceleration", QuantityType.RotationalAcceleration }, + { "Volume", QuantityType.Volume }, { "Frequency", QuantityType.Frequency }, - { "FuelEfficiency", QuantityType.FuelEfficiency }, - { "HeatFlux", QuantityType.HeatFlux }, - { "HeatTransferCoefficient", QuantityType.HeatTransferCoefficient }, - { "Illuminance", QuantityType.Illuminance }, - { "Information", QuantityType.Information }, - { "Irradiance", QuantityType.Irradiance }, - { "Irradiation", QuantityType.Irradiation }, - { "KinematicViscosity", QuantityType.KinematicViscosity }, - { "LapseRate", QuantityType.LapseRate }, - { "Length", QuantityType.Length }, + { "DynamicViscosity", QuantityType.DynamicViscosity }, + { "VolumetricHeatCapacity", QuantityType.VolumetricHeatCapacity }, { "Level", QuantityType.Level }, - { "LinearDensity", QuantityType.LinearDensity }, - { "LinearPowerDensity", QuantityType.LinearPowerDensity }, - { "Luminosity", QuantityType.Luminosity }, + { "MolarEnergy", QuantityType.MolarEnergy }, + { "ApparentPower", QuantityType.ApparentPower }, + { "ReactiveEnergy", QuantityType.ReactiveEnergy }, { "LuminousFlux", QuantityType.LuminousFlux }, - { "LuminousIntensity", QuantityType.LuminousIntensity }, - { "MagneticField", QuantityType.MagneticField }, - { "MagneticFlux", QuantityType.MagneticFlux }, - { "Magnetization", QuantityType.Magnetization }, - { "Mass", QuantityType.Mass }, - { "MassConcentration", QuantityType.MassConcentration }, - { "MassFlow", QuantityType.MassFlow }, - { "MassFlux", QuantityType.MassFlux }, - { "MassFraction", QuantityType.MassFraction }, - { "MassMomentOfInertia", QuantityType.MassMomentOfInertia }, - { "MolarEnergy", QuantityType.MolarEnergy }, - { "MolarEntropy", QuantityType.MolarEntropy }, - { "Molarity", QuantityType.Molarity }, - { "MolarMass", QuantityType.MolarMass }, - { "Permeability", QuantityType.Permeability }, - { "Permittivity", QuantityType.Permittivity }, - { "Power", QuantityType.Power }, + { "SpecificEnergy", QuantityType.SpecificEnergy }, { "PowerDensity", QuantityType.PowerDensity }, - { "PowerRatio", QuantityType.PowerRatio }, - { "Pressure", QuantityType.Pressure }, - { "PressureChangeRate", QuantityType.PressureChangeRate }, - { "Ratio", QuantityType.Ratio }, - { "RatioChangeRate", QuantityType.RatioChangeRate }, - { "ReactiveEnergy", QuantityType.ReactiveEnergy }, - { "ReactivePower", QuantityType.ReactivePower }, + { "ForcePerLength", QuantityType.ForcePerLength }, + { "Luminosity", QuantityType.Luminosity }, + { "ElectricField", QuantityType.ElectricField }, + { "StandardVolumeFlow", QuantityType.StandardVolumeFlow }, + { "Power", QuantityType.Power }, + { "AmplitudeRatio", QuantityType.AmplitudeRatio }, { "ReciprocalArea", QuantityType.ReciprocalArea }, - { "ReciprocalLength", QuantityType.ReciprocalLength }, + { "ForceChangeRate", QuantityType.ForceChangeRate }, + { "SolidAngle", QuantityType.SolidAngle }, { "RelativeHumidity", QuantityType.RelativeHumidity }, - { "RotationalAcceleration", QuantityType.RotationalAcceleration }, - { "RotationalSpeed", QuantityType.RotationalSpeed }, - { "RotationalStiffness", QuantityType.RotationalStiffness }, { "RotationalStiffnessPerLength", QuantityType.RotationalStiffnessPerLength }, - { "Scalar", QuantityType.Scalar }, - { "SolidAngle", QuantityType.SolidAngle }, - { "SpecificEnergy", QuantityType.SpecificEnergy }, - { "SpecificEntropy", QuantityType.SpecificEntropy }, + { "VolumeFlow", QuantityType.VolumeFlow }, + { "LinearPowerDensity", QuantityType.LinearPowerDensity }, + { "ElectricPotentialChangeRate", QuantityType.ElectricPotentialChangeRate }, + { "Capacitance", QuantityType.Capacitance }, + { "LinearDensity", QuantityType.LinearDensity }, + { "ReciprocalLength", QuantityType.ReciprocalLength }, + { "AreaDensity", QuantityType.AreaDensity }, + { "MassFlux", QuantityType.MassFlux }, + { "MagneticFlux", QuantityType.MagneticFlux }, + { "ApparentEnergy", QuantityType.ApparentEnergy }, + { "Speed", QuantityType.Speed }, + { "BitRate", QuantityType.BitRate }, + { "Area", QuantityType.Area }, + { "VolumeConcentration", QuantityType.VolumeConcentration }, + { "Permittivity", QuantityType.Permittivity }, + { "Information", QuantityType.Information }, + { "LapseRate", QuantityType.LapseRate }, + { "RotationalStiffness", QuantityType.RotationalStiffness }, + { "ElectricChargeDensity", QuantityType.ElectricChargeDensity }, + { "FuelEfficiency", QuantityType.FuelEfficiency }, + { "ElectricPotential", QuantityType.ElectricPotential }, + { "VolumePerLength", QuantityType.VolumePerLength }, + { "AreaMomentOfInertia", QuantityType.AreaMomentOfInertia }, + { "VitaminA", QuantityType.VitaminA }, + { "Illuminance", QuantityType.Illuminance }, + { "Mass", QuantityType.Mass }, + { "MolarEntropy", QuantityType.MolarEntropy }, + { "KinematicViscosity", QuantityType.KinematicViscosity }, + { "Energy", QuantityType.Energy }, { "SpecificFuelConsumption", QuantityType.SpecificFuelConsumption }, + { "PowerRatio", QuantityType.PowerRatio }, + { "ElectricCurrentDensity", QuantityType.ElectricCurrentDensity }, + { "ElectricPotentialDc", QuantityType.ElectricPotentialDc }, + { "Length", QuantityType.Length }, + { "MassMomentOfInertia", QuantityType.MassMomentOfInertia }, + { "WarpingMomentOfInertia", QuantityType.WarpingMomentOfInertia }, + { "Temperature", QuantityType.Temperature }, + { "MassConcentration", QuantityType.MassConcentration }, + { "ElectricResistivity", QuantityType.ElectricResistivity }, + { "Turbidity", QuantityType.Turbidity }, + { "LuminousIntensity", QuantityType.LuminousIntensity }, + { "ElectricSurfaceChargeDensity", QuantityType.ElectricSurfaceChargeDensity }, + { "Force", QuantityType.Force }, + { "RotationalSpeed", QuantityType.RotationalSpeed }, { "SpecificVolume", QuantityType.SpecificVolume }, { "SpecificWeight", QuantityType.SpecificWeight }, - { "Speed", QuantityType.Speed }, - { "StandardVolumeFlow", QuantityType.StandardVolumeFlow }, - { "Temperature", QuantityType.Temperature }, - { "TemperatureChangeRate", QuantityType.TemperatureChangeRate }, - { "TemperatureDelta", QuantityType.TemperatureDelta }, - { "ThermalConductivity", QuantityType.ThermalConductivity }, - { "ThermalResistance", QuantityType.ThermalResistance }, + { "HeatFlux", QuantityType.HeatFlux }, { "Torque", QuantityType.Torque }, + { "Entropy", QuantityType.Entropy }, { "TorquePerLength", QuantityType.TorquePerLength }, - { "Turbidity", QuantityType.Turbidity }, - { "VitaminA", QuantityType.VitaminA }, - { "Volume", QuantityType.Volume }, - { "VolumeConcentration", QuantityType.VolumeConcentration }, - { "VolumeFlow", QuantityType.VolumeFlow }, - { "VolumePerLength", QuantityType.VolumePerLength }, - { "VolumetricHeatCapacity", QuantityType.VolumetricHeatCapacity }, - { "WarpingMomentOfInertia", QuantityType.WarpingMomentOfInertia }, + { "Angle", QuantityType.Angle }, + { "ThermalConductivity", QuantityType.ThermalConductivity }, + { "BrakeSpecificFuelConsumption", QuantityType.BrakeSpecificFuelConsumption }, + { "MolarMass", QuantityType.MolarMass }, + { "MassFlow", QuantityType.MassFlow }, + { "Ratio", QuantityType.Ratio }, + { "Duration", QuantityType.Duration }, + { "ElectricResistance", QuantityType.ElectricResistance }, + { "ThermalResistance", QuantityType.ThermalResistance }, + { "Magnetization", QuantityType.Magnetization }, + { "TemperatureDelta", QuantityType.TemperatureDelta }, + { "ElectricAdmittance", QuantityType.ElectricAdmittance }, + { "ElectricCurrent", QuantityType.ElectricCurrent }, + { "Density", QuantityType.Density }, + { "ElectricCurrentGradient", QuantityType.ElectricCurrentGradient }, + { "TemperatureChangeRate", QuantityType.TemperatureChangeRate }, + { "ElectricInductance", QuantityType.ElectricInductance }, + { "RatioChangeRate", QuantityType.RatioChangeRate }, + { "HeatTransferCoefficient", QuantityType.HeatTransferCoefficient }, + { "MassFraction", QuantityType.MassFraction }, + { "MagneticField", QuantityType.MagneticField }, + { "Permeability", QuantityType.Permeability }, + { "ElectricCharge", QuantityType.ElectricCharge }, + { "ElectricConductivity", QuantityType.ElectricConductivity }, + { "ReactivePower", QuantityType.ReactivePower }, + { "ElectricPotentialAc", QuantityType.ElectricPotentialAc }, + { "Irradiance", QuantityType.Irradiance }, + { "Scalar", QuantityType.Scalar }, }; /// @@ -277,226 +277,226 @@ public static IQuantity FromQuantityType(QuantityType quantityType, QuantityValu { switch(quantityType) { - case QuantityType.Acceleration: - return Acceleration.From(value, Acceleration.BaseUnit); + case QuantityType.SpecificEntropy: + return SpecificEntropy.From(value, SpecificEntropy.BaseUnit); + case QuantityType.Molarity: + return Molarity.From(value, Molarity.BaseUnit); case QuantityType.AmountOfSubstance: return AmountOfSubstance.From(value, AmountOfSubstance.BaseUnit); - case QuantityType.AmplitudeRatio: - return AmplitudeRatio.From(value, AmplitudeRatio.BaseUnit); - case QuantityType.Angle: - return Angle.From(value, Angle.BaseUnit); - case QuantityType.ApparentEnergy: - return ApparentEnergy.From(value, ApparentEnergy.BaseUnit); - case QuantityType.ApparentPower: - return ApparentPower.From(value, ApparentPower.BaseUnit); - case QuantityType.Area: - return Area.From(value, Area.BaseUnit); - case QuantityType.AreaDensity: - return AreaDensity.From(value, AreaDensity.BaseUnit); - case QuantityType.AreaMomentOfInertia: - return AreaMomentOfInertia.From(value, AreaMomentOfInertia.BaseUnit); - case QuantityType.BitRate: - return BitRate.From(value, BitRate.BaseUnit); - case QuantityType.BrakeSpecificFuelConsumption: - return BrakeSpecificFuelConsumption.From(value, BrakeSpecificFuelConsumption.BaseUnit); - case QuantityType.Capacitance: - return Capacitance.From(value, Capacitance.BaseUnit); + case QuantityType.PressureChangeRate: + return PressureChangeRate.From(value, PressureChangeRate.BaseUnit); case QuantityType.CoefficientOfThermalExpansion: return CoefficientOfThermalExpansion.From(value, CoefficientOfThermalExpansion.BaseUnit); - case QuantityType.Density: - return Density.From(value, Density.BaseUnit); - case QuantityType.Duration: - return Duration.From(value, Duration.BaseUnit); - case QuantityType.DynamicViscosity: - return DynamicViscosity.From(value, DynamicViscosity.BaseUnit); - case QuantityType.ElectricAdmittance: - return ElectricAdmittance.From(value, ElectricAdmittance.BaseUnit); - case QuantityType.ElectricCharge: - return ElectricCharge.From(value, ElectricCharge.BaseUnit); - case QuantityType.ElectricChargeDensity: - return ElectricChargeDensity.From(value, ElectricChargeDensity.BaseUnit); + case QuantityType.Pressure: + return Pressure.From(value, Pressure.BaseUnit); + case QuantityType.Irradiation: + return Irradiation.From(value, Irradiation.BaseUnit); case QuantityType.ElectricConductance: return ElectricConductance.From(value, ElectricConductance.BaseUnit); - case QuantityType.ElectricConductivity: - return ElectricConductivity.From(value, ElectricConductivity.BaseUnit); - case QuantityType.ElectricCurrent: - return ElectricCurrent.From(value, ElectricCurrent.BaseUnit); - case QuantityType.ElectricCurrentDensity: - return ElectricCurrentDensity.From(value, ElectricCurrentDensity.BaseUnit); - case QuantityType.ElectricCurrentGradient: - return ElectricCurrentGradient.From(value, ElectricCurrentGradient.BaseUnit); - case QuantityType.ElectricField: - return ElectricField.From(value, ElectricField.BaseUnit); - case QuantityType.ElectricInductance: - return ElectricInductance.From(value, ElectricInductance.BaseUnit); - case QuantityType.ElectricPotential: - return ElectricPotential.From(value, ElectricPotential.BaseUnit); - case QuantityType.ElectricPotentialAc: - return ElectricPotentialAc.From(value, ElectricPotentialAc.BaseUnit); - case QuantityType.ElectricPotentialChangeRate: - return ElectricPotentialChangeRate.From(value, ElectricPotentialChangeRate.BaseUnit); - case QuantityType.ElectricPotentialDc: - return ElectricPotentialDc.From(value, ElectricPotentialDc.BaseUnit); - case QuantityType.ElectricResistance: - return ElectricResistance.From(value, ElectricResistance.BaseUnit); - case QuantityType.ElectricResistivity: - return ElectricResistivity.From(value, ElectricResistivity.BaseUnit); - case QuantityType.ElectricSurfaceChargeDensity: - return ElectricSurfaceChargeDensity.From(value, ElectricSurfaceChargeDensity.BaseUnit); - case QuantityType.Energy: - return Energy.From(value, Energy.BaseUnit); - case QuantityType.Entropy: - return Entropy.From(value, Entropy.BaseUnit); - case QuantityType.Force: - return Force.From(value, Force.BaseUnit); - case QuantityType.ForceChangeRate: - return ForceChangeRate.From(value, ForceChangeRate.BaseUnit); - case QuantityType.ForcePerLength: - return ForcePerLength.From(value, ForcePerLength.BaseUnit); + case QuantityType.Acceleration: + return Acceleration.From(value, Acceleration.BaseUnit); + case QuantityType.RotationalAcceleration: + return RotationalAcceleration.From(value, RotationalAcceleration.BaseUnit); + case QuantityType.Volume: + return Volume.From(value, Volume.BaseUnit); case QuantityType.Frequency: return Frequency.From(value, Frequency.BaseUnit); - case QuantityType.FuelEfficiency: - return FuelEfficiency.From(value, FuelEfficiency.BaseUnit); - case QuantityType.HeatFlux: - return HeatFlux.From(value, HeatFlux.BaseUnit); - case QuantityType.HeatTransferCoefficient: - return HeatTransferCoefficient.From(value, HeatTransferCoefficient.BaseUnit); - case QuantityType.Illuminance: - return Illuminance.From(value, Illuminance.BaseUnit); - case QuantityType.Information: - return Information.From(value, Information.BaseUnit); - case QuantityType.Irradiance: - return Irradiance.From(value, Irradiance.BaseUnit); - case QuantityType.Irradiation: - return Irradiation.From(value, Irradiation.BaseUnit); - case QuantityType.KinematicViscosity: - return KinematicViscosity.From(value, KinematicViscosity.BaseUnit); - case QuantityType.LapseRate: - return LapseRate.From(value, LapseRate.BaseUnit); - case QuantityType.Length: - return Length.From(value, Length.BaseUnit); + case QuantityType.DynamicViscosity: + return DynamicViscosity.From(value, DynamicViscosity.BaseUnit); + case QuantityType.VolumetricHeatCapacity: + return VolumetricHeatCapacity.From(value, VolumetricHeatCapacity.BaseUnit); case QuantityType.Level: return Level.From(value, Level.BaseUnit); - case QuantityType.LinearDensity: - return LinearDensity.From(value, LinearDensity.BaseUnit); - case QuantityType.LinearPowerDensity: - return LinearPowerDensity.From(value, LinearPowerDensity.BaseUnit); - case QuantityType.Luminosity: - return Luminosity.From(value, Luminosity.BaseUnit); + case QuantityType.MolarEnergy: + return MolarEnergy.From(value, MolarEnergy.BaseUnit); + case QuantityType.ApparentPower: + return ApparentPower.From(value, ApparentPower.BaseUnit); + case QuantityType.ReactiveEnergy: + return ReactiveEnergy.From(value, ReactiveEnergy.BaseUnit); case QuantityType.LuminousFlux: return LuminousFlux.From(value, LuminousFlux.BaseUnit); - case QuantityType.LuminousIntensity: - return LuminousIntensity.From(value, LuminousIntensity.BaseUnit); - case QuantityType.MagneticField: - return MagneticField.From(value, MagneticField.BaseUnit); - case QuantityType.MagneticFlux: - return MagneticFlux.From(value, MagneticFlux.BaseUnit); - case QuantityType.Magnetization: - return Magnetization.From(value, Magnetization.BaseUnit); - case QuantityType.Mass: - return Mass.From(value, Mass.BaseUnit); - case QuantityType.MassConcentration: - return MassConcentration.From(value, MassConcentration.BaseUnit); - case QuantityType.MassFlow: - return MassFlow.From(value, MassFlow.BaseUnit); - case QuantityType.MassFlux: - return MassFlux.From(value, MassFlux.BaseUnit); - case QuantityType.MassFraction: - return MassFraction.From(value, MassFraction.BaseUnit); - case QuantityType.MassMomentOfInertia: - return MassMomentOfInertia.From(value, MassMomentOfInertia.BaseUnit); - case QuantityType.MolarEnergy: - return MolarEnergy.From(value, MolarEnergy.BaseUnit); - case QuantityType.MolarEntropy: - return MolarEntropy.From(value, MolarEntropy.BaseUnit); - case QuantityType.Molarity: - return Molarity.From(value, Molarity.BaseUnit); - case QuantityType.MolarMass: - return MolarMass.From(value, MolarMass.BaseUnit); - case QuantityType.Permeability: - return Permeability.From(value, Permeability.BaseUnit); - case QuantityType.Permittivity: - return Permittivity.From(value, Permittivity.BaseUnit); - case QuantityType.Power: - return Power.From(value, Power.BaseUnit); + case QuantityType.SpecificEnergy: + return SpecificEnergy.From(value, SpecificEnergy.BaseUnit); case QuantityType.PowerDensity: return PowerDensity.From(value, PowerDensity.BaseUnit); - case QuantityType.PowerRatio: - return PowerRatio.From(value, PowerRatio.BaseUnit); - case QuantityType.Pressure: - return Pressure.From(value, Pressure.BaseUnit); - case QuantityType.PressureChangeRate: - return PressureChangeRate.From(value, PressureChangeRate.BaseUnit); - case QuantityType.Ratio: - return Ratio.From(value, Ratio.BaseUnit); - case QuantityType.RatioChangeRate: - return RatioChangeRate.From(value, RatioChangeRate.BaseUnit); - case QuantityType.ReactiveEnergy: - return ReactiveEnergy.From(value, ReactiveEnergy.BaseUnit); - case QuantityType.ReactivePower: - return ReactivePower.From(value, ReactivePower.BaseUnit); + case QuantityType.ForcePerLength: + return ForcePerLength.From(value, ForcePerLength.BaseUnit); + case QuantityType.Luminosity: + return Luminosity.From(value, Luminosity.BaseUnit); + case QuantityType.ElectricField: + return ElectricField.From(value, ElectricField.BaseUnit); + case QuantityType.StandardVolumeFlow: + return StandardVolumeFlow.From(value, StandardVolumeFlow.BaseUnit); + case QuantityType.Power: + return Power.From(value, Power.BaseUnit); + case QuantityType.AmplitudeRatio: + return AmplitudeRatio.From(value, AmplitudeRatio.BaseUnit); case QuantityType.ReciprocalArea: return ReciprocalArea.From(value, ReciprocalArea.BaseUnit); - case QuantityType.ReciprocalLength: - return ReciprocalLength.From(value, ReciprocalLength.BaseUnit); + case QuantityType.ForceChangeRate: + return ForceChangeRate.From(value, ForceChangeRate.BaseUnit); + case QuantityType.SolidAngle: + return SolidAngle.From(value, SolidAngle.BaseUnit); case QuantityType.RelativeHumidity: return RelativeHumidity.From(value, RelativeHumidity.BaseUnit); - case QuantityType.RotationalAcceleration: - return RotationalAcceleration.From(value, RotationalAcceleration.BaseUnit); - case QuantityType.RotationalSpeed: - return RotationalSpeed.From(value, RotationalSpeed.BaseUnit); - case QuantityType.RotationalStiffness: - return RotationalStiffness.From(value, RotationalStiffness.BaseUnit); case QuantityType.RotationalStiffnessPerLength: return RotationalStiffnessPerLength.From(value, RotationalStiffnessPerLength.BaseUnit); - case QuantityType.Scalar: - return Scalar.From(value, Scalar.BaseUnit); - case QuantityType.SolidAngle: - return SolidAngle.From(value, SolidAngle.BaseUnit); - case QuantityType.SpecificEnergy: - return SpecificEnergy.From(value, SpecificEnergy.BaseUnit); - case QuantityType.SpecificEntropy: - return SpecificEntropy.From(value, SpecificEntropy.BaseUnit); + case QuantityType.VolumeFlow: + return VolumeFlow.From(value, VolumeFlow.BaseUnit); + case QuantityType.LinearPowerDensity: + return LinearPowerDensity.From(value, LinearPowerDensity.BaseUnit); + case QuantityType.ElectricPotentialChangeRate: + return ElectricPotentialChangeRate.From(value, ElectricPotentialChangeRate.BaseUnit); + case QuantityType.Capacitance: + return Capacitance.From(value, Capacitance.BaseUnit); + case QuantityType.LinearDensity: + return LinearDensity.From(value, LinearDensity.BaseUnit); + case QuantityType.ReciprocalLength: + return ReciprocalLength.From(value, ReciprocalLength.BaseUnit); + case QuantityType.AreaDensity: + return AreaDensity.From(value, AreaDensity.BaseUnit); + case QuantityType.MassFlux: + return MassFlux.From(value, MassFlux.BaseUnit); + case QuantityType.MagneticFlux: + return MagneticFlux.From(value, MagneticFlux.BaseUnit); + case QuantityType.ApparentEnergy: + return ApparentEnergy.From(value, ApparentEnergy.BaseUnit); + case QuantityType.Speed: + return Speed.From(value, Speed.BaseUnit); + case QuantityType.BitRate: + return BitRate.From(value, BitRate.BaseUnit); + case QuantityType.Area: + return Area.From(value, Area.BaseUnit); + case QuantityType.VolumeConcentration: + return VolumeConcentration.From(value, VolumeConcentration.BaseUnit); + case QuantityType.Permittivity: + return Permittivity.From(value, Permittivity.BaseUnit); + case QuantityType.Information: + return Information.From(value, Information.BaseUnit); + case QuantityType.LapseRate: + return LapseRate.From(value, LapseRate.BaseUnit); + case QuantityType.RotationalStiffness: + return RotationalStiffness.From(value, RotationalStiffness.BaseUnit); + case QuantityType.ElectricChargeDensity: + return ElectricChargeDensity.From(value, ElectricChargeDensity.BaseUnit); + case QuantityType.FuelEfficiency: + return FuelEfficiency.From(value, FuelEfficiency.BaseUnit); + case QuantityType.ElectricPotential: + return ElectricPotential.From(value, ElectricPotential.BaseUnit); + case QuantityType.VolumePerLength: + return VolumePerLength.From(value, VolumePerLength.BaseUnit); + case QuantityType.AreaMomentOfInertia: + return AreaMomentOfInertia.From(value, AreaMomentOfInertia.BaseUnit); + case QuantityType.VitaminA: + return VitaminA.From(value, VitaminA.BaseUnit); + case QuantityType.Illuminance: + return Illuminance.From(value, Illuminance.BaseUnit); + case QuantityType.Mass: + return Mass.From(value, Mass.BaseUnit); + case QuantityType.MolarEntropy: + return MolarEntropy.From(value, MolarEntropy.BaseUnit); + case QuantityType.KinematicViscosity: + return KinematicViscosity.From(value, KinematicViscosity.BaseUnit); + case QuantityType.Energy: + return Energy.From(value, Energy.BaseUnit); case QuantityType.SpecificFuelConsumption: return SpecificFuelConsumption.From(value, SpecificFuelConsumption.BaseUnit); + case QuantityType.PowerRatio: + return PowerRatio.From(value, PowerRatio.BaseUnit); + case QuantityType.ElectricCurrentDensity: + return ElectricCurrentDensity.From(value, ElectricCurrentDensity.BaseUnit); + case QuantityType.ElectricPotentialDc: + return ElectricPotentialDc.From(value, ElectricPotentialDc.BaseUnit); + case QuantityType.Length: + return Length.From(value, Length.BaseUnit); + case QuantityType.MassMomentOfInertia: + return MassMomentOfInertia.From(value, MassMomentOfInertia.BaseUnit); + case QuantityType.WarpingMomentOfInertia: + return WarpingMomentOfInertia.From(value, WarpingMomentOfInertia.BaseUnit); + case QuantityType.Temperature: + return Temperature.From(value, Temperature.BaseUnit); + case QuantityType.MassConcentration: + return MassConcentration.From(value, MassConcentration.BaseUnit); + case QuantityType.ElectricResistivity: + return ElectricResistivity.From(value, ElectricResistivity.BaseUnit); + case QuantityType.Turbidity: + return Turbidity.From(value, Turbidity.BaseUnit); + case QuantityType.LuminousIntensity: + return LuminousIntensity.From(value, LuminousIntensity.BaseUnit); + case QuantityType.ElectricSurfaceChargeDensity: + return ElectricSurfaceChargeDensity.From(value, ElectricSurfaceChargeDensity.BaseUnit); + case QuantityType.Force: + return Force.From(value, Force.BaseUnit); + case QuantityType.RotationalSpeed: + return RotationalSpeed.From(value, RotationalSpeed.BaseUnit); case QuantityType.SpecificVolume: return SpecificVolume.From(value, SpecificVolume.BaseUnit); case QuantityType.SpecificWeight: return SpecificWeight.From(value, SpecificWeight.BaseUnit); - case QuantityType.Speed: - return Speed.From(value, Speed.BaseUnit); - case QuantityType.StandardVolumeFlow: - return StandardVolumeFlow.From(value, StandardVolumeFlow.BaseUnit); - case QuantityType.Temperature: - return Temperature.From(value, Temperature.BaseUnit); - case QuantityType.TemperatureChangeRate: - return TemperatureChangeRate.From(value, TemperatureChangeRate.BaseUnit); - case QuantityType.TemperatureDelta: - return TemperatureDelta.From(value, TemperatureDelta.BaseUnit); - case QuantityType.ThermalConductivity: - return ThermalConductivity.From(value, ThermalConductivity.BaseUnit); - case QuantityType.ThermalResistance: - return ThermalResistance.From(value, ThermalResistance.BaseUnit); + case QuantityType.HeatFlux: + return HeatFlux.From(value, HeatFlux.BaseUnit); case QuantityType.Torque: return Torque.From(value, Torque.BaseUnit); + case QuantityType.Entropy: + return Entropy.From(value, Entropy.BaseUnit); case QuantityType.TorquePerLength: return TorquePerLength.From(value, TorquePerLength.BaseUnit); - case QuantityType.Turbidity: - return Turbidity.From(value, Turbidity.BaseUnit); - case QuantityType.VitaminA: - return VitaminA.From(value, VitaminA.BaseUnit); - case QuantityType.Volume: - return Volume.From(value, Volume.BaseUnit); - case QuantityType.VolumeConcentration: - return VolumeConcentration.From(value, VolumeConcentration.BaseUnit); - case QuantityType.VolumeFlow: - return VolumeFlow.From(value, VolumeFlow.BaseUnit); - case QuantityType.VolumePerLength: - return VolumePerLength.From(value, VolumePerLength.BaseUnit); - case QuantityType.VolumetricHeatCapacity: - return VolumetricHeatCapacity.From(value, VolumetricHeatCapacity.BaseUnit); - case QuantityType.WarpingMomentOfInertia: - return WarpingMomentOfInertia.From(value, WarpingMomentOfInertia.BaseUnit); + case QuantityType.Angle: + return Angle.From(value, Angle.BaseUnit); + case QuantityType.ThermalConductivity: + return ThermalConductivity.From(value, ThermalConductivity.BaseUnit); + case QuantityType.BrakeSpecificFuelConsumption: + return BrakeSpecificFuelConsumption.From(value, BrakeSpecificFuelConsumption.BaseUnit); + case QuantityType.MolarMass: + return MolarMass.From(value, MolarMass.BaseUnit); + case QuantityType.MassFlow: + return MassFlow.From(value, MassFlow.BaseUnit); + case QuantityType.Ratio: + return Ratio.From(value, Ratio.BaseUnit); + case QuantityType.Duration: + return Duration.From(value, Duration.BaseUnit); + case QuantityType.ElectricResistance: + return ElectricResistance.From(value, ElectricResistance.BaseUnit); + case QuantityType.ThermalResistance: + return ThermalResistance.From(value, ThermalResistance.BaseUnit); + case QuantityType.Magnetization: + return Magnetization.From(value, Magnetization.BaseUnit); + case QuantityType.TemperatureDelta: + return TemperatureDelta.From(value, TemperatureDelta.BaseUnit); + case QuantityType.ElectricAdmittance: + return ElectricAdmittance.From(value, ElectricAdmittance.BaseUnit); + case QuantityType.ElectricCurrent: + return ElectricCurrent.From(value, ElectricCurrent.BaseUnit); + case QuantityType.Density: + return Density.From(value, Density.BaseUnit); + case QuantityType.ElectricCurrentGradient: + return ElectricCurrentGradient.From(value, ElectricCurrentGradient.BaseUnit); + case QuantityType.TemperatureChangeRate: + return TemperatureChangeRate.From(value, TemperatureChangeRate.BaseUnit); + case QuantityType.ElectricInductance: + return ElectricInductance.From(value, ElectricInductance.BaseUnit); + case QuantityType.RatioChangeRate: + return RatioChangeRate.From(value, RatioChangeRate.BaseUnit); + case QuantityType.HeatTransferCoefficient: + return HeatTransferCoefficient.From(value, HeatTransferCoefficient.BaseUnit); + case QuantityType.MassFraction: + return MassFraction.From(value, MassFraction.BaseUnit); + case QuantityType.MagneticField: + return MagneticField.From(value, MagneticField.BaseUnit); + case QuantityType.Permeability: + return Permeability.From(value, Permeability.BaseUnit); + case QuantityType.ElectricCharge: + return ElectricCharge.From(value, ElectricCharge.BaseUnit); + case QuantityType.ElectricConductivity: + return ElectricConductivity.From(value, ElectricConductivity.BaseUnit); + case QuantityType.ReactivePower: + return ReactivePower.From(value, ReactivePower.BaseUnit); + case QuantityType.ElectricPotentialAc: + return ElectricPotentialAc.From(value, ElectricPotentialAc.BaseUnit); + case QuantityType.Irradiance: + return Irradiance.From(value, Irradiance.BaseUnit); + case QuantityType.Scalar: + return Scalar.From(value, Scalar.BaseUnit); default: throw new ArgumentException($"{quantityType} is not a supported quantity type."); } @@ -512,226 +512,226 @@ public static IQuantity FromQuantityInfo(QuantityInfo quantityInfo, QuantityValu { switch(quantityInfo.Name) { - case "Acceleration": - return Acceleration.From(value, Acceleration.BaseUnit); + case "SpecificEntropy": + return SpecificEntropy.From(value, SpecificEntropy.BaseUnit); + case "Molarity": + return Molarity.From(value, Molarity.BaseUnit); case "AmountOfSubstance": return AmountOfSubstance.From(value, AmountOfSubstance.BaseUnit); - case "AmplitudeRatio": - return AmplitudeRatio.From(value, AmplitudeRatio.BaseUnit); - case "Angle": - return Angle.From(value, Angle.BaseUnit); - case "ApparentEnergy": - return ApparentEnergy.From(value, ApparentEnergy.BaseUnit); + case "PressureChangeRate": + return PressureChangeRate.From(value, PressureChangeRate.BaseUnit); + case "CoefficientOfThermalExpansion": + return CoefficientOfThermalExpansion.From(value, CoefficientOfThermalExpansion.BaseUnit); + case "Pressure": + return Pressure.From(value, Pressure.BaseUnit); + case "Irradiation": + return Irradiation.From(value, Irradiation.BaseUnit); + case "ElectricConductance": + return ElectricConductance.From(value, ElectricConductance.BaseUnit); + case "Acceleration": + return Acceleration.From(value, Acceleration.BaseUnit); + case "RotationalAcceleration": + return RotationalAcceleration.From(value, RotationalAcceleration.BaseUnit); + case "Volume": + return Volume.From(value, Volume.BaseUnit); + case "Frequency": + return Frequency.From(value, Frequency.BaseUnit); + case "DynamicViscosity": + return DynamicViscosity.From(value, DynamicViscosity.BaseUnit); + case "VolumetricHeatCapacity": + return VolumetricHeatCapacity.From(value, VolumetricHeatCapacity.BaseUnit); + case "Level": + return Level.From(value, Level.BaseUnit); + case "MolarEnergy": + return MolarEnergy.From(value, MolarEnergy.BaseUnit); case "ApparentPower": return ApparentPower.From(value, ApparentPower.BaseUnit); - case "Area": - return Area.From(value, Area.BaseUnit); + case "ReactiveEnergy": + return ReactiveEnergy.From(value, ReactiveEnergy.BaseUnit); + case "LuminousFlux": + return LuminousFlux.From(value, LuminousFlux.BaseUnit); + case "SpecificEnergy": + return SpecificEnergy.From(value, SpecificEnergy.BaseUnit); + case "PowerDensity": + return PowerDensity.From(value, PowerDensity.BaseUnit); + case "ForcePerLength": + return ForcePerLength.From(value, ForcePerLength.BaseUnit); + case "Luminosity": + return Luminosity.From(value, Luminosity.BaseUnit); + case "ElectricField": + return ElectricField.From(value, ElectricField.BaseUnit); + case "StandardVolumeFlow": + return StandardVolumeFlow.From(value, StandardVolumeFlow.BaseUnit); + case "Power": + return Power.From(value, Power.BaseUnit); + case "AmplitudeRatio": + return AmplitudeRatio.From(value, AmplitudeRatio.BaseUnit); + case "ReciprocalArea": + return ReciprocalArea.From(value, ReciprocalArea.BaseUnit); + case "ForceChangeRate": + return ForceChangeRate.From(value, ForceChangeRate.BaseUnit); + case "SolidAngle": + return SolidAngle.From(value, SolidAngle.BaseUnit); + case "RelativeHumidity": + return RelativeHumidity.From(value, RelativeHumidity.BaseUnit); + case "RotationalStiffnessPerLength": + return RotationalStiffnessPerLength.From(value, RotationalStiffnessPerLength.BaseUnit); + case "VolumeFlow": + return VolumeFlow.From(value, VolumeFlow.BaseUnit); + case "LinearPowerDensity": + return LinearPowerDensity.From(value, LinearPowerDensity.BaseUnit); + case "ElectricPotentialChangeRate": + return ElectricPotentialChangeRate.From(value, ElectricPotentialChangeRate.BaseUnit); + case "Capacitance": + return Capacitance.From(value, Capacitance.BaseUnit); + case "LinearDensity": + return LinearDensity.From(value, LinearDensity.BaseUnit); + case "ReciprocalLength": + return ReciprocalLength.From(value, ReciprocalLength.BaseUnit); case "AreaDensity": return AreaDensity.From(value, AreaDensity.BaseUnit); - case "AreaMomentOfInertia": - return AreaMomentOfInertia.From(value, AreaMomentOfInertia.BaseUnit); + case "MassFlux": + return MassFlux.From(value, MassFlux.BaseUnit); + case "MagneticFlux": + return MagneticFlux.From(value, MagneticFlux.BaseUnit); + case "ApparentEnergy": + return ApparentEnergy.From(value, ApparentEnergy.BaseUnit); + case "Speed": + return Speed.From(value, Speed.BaseUnit); case "BitRate": return BitRate.From(value, BitRate.BaseUnit); - case "BrakeSpecificFuelConsumption": - return BrakeSpecificFuelConsumption.From(value, BrakeSpecificFuelConsumption.BaseUnit); - case "Capacitance": - return Capacitance.From(value, Capacitance.BaseUnit); - case "CoefficientOfThermalExpansion": - return CoefficientOfThermalExpansion.From(value, CoefficientOfThermalExpansion.BaseUnit); - case "Density": - return Density.From(value, Density.BaseUnit); - case "Duration": - return Duration.From(value, Duration.BaseUnit); - case "DynamicViscosity": - return DynamicViscosity.From(value, DynamicViscosity.BaseUnit); - case "ElectricAdmittance": - return ElectricAdmittance.From(value, ElectricAdmittance.BaseUnit); - case "ElectricCharge": - return ElectricCharge.From(value, ElectricCharge.BaseUnit); + case "Area": + return Area.From(value, Area.BaseUnit); + case "VolumeConcentration": + return VolumeConcentration.From(value, VolumeConcentration.BaseUnit); + case "Permittivity": + return Permittivity.From(value, Permittivity.BaseUnit); + case "Information": + return Information.From(value, Information.BaseUnit); + case "LapseRate": + return LapseRate.From(value, LapseRate.BaseUnit); + case "RotationalStiffness": + return RotationalStiffness.From(value, RotationalStiffness.BaseUnit); case "ElectricChargeDensity": return ElectricChargeDensity.From(value, ElectricChargeDensity.BaseUnit); - case "ElectricConductance": - return ElectricConductance.From(value, ElectricConductance.BaseUnit); - case "ElectricConductivity": - return ElectricConductivity.From(value, ElectricConductivity.BaseUnit); - case "ElectricCurrent": - return ElectricCurrent.From(value, ElectricCurrent.BaseUnit); - case "ElectricCurrentDensity": - return ElectricCurrentDensity.From(value, ElectricCurrentDensity.BaseUnit); - case "ElectricCurrentGradient": - return ElectricCurrentGradient.From(value, ElectricCurrentGradient.BaseUnit); - case "ElectricField": - return ElectricField.From(value, ElectricField.BaseUnit); - case "ElectricInductance": - return ElectricInductance.From(value, ElectricInductance.BaseUnit); + case "FuelEfficiency": + return FuelEfficiency.From(value, FuelEfficiency.BaseUnit); case "ElectricPotential": return ElectricPotential.From(value, ElectricPotential.BaseUnit); - case "ElectricPotentialAc": - return ElectricPotentialAc.From(value, ElectricPotentialAc.BaseUnit); - case "ElectricPotentialChangeRate": - return ElectricPotentialChangeRate.From(value, ElectricPotentialChangeRate.BaseUnit); + case "VolumePerLength": + return VolumePerLength.From(value, VolumePerLength.BaseUnit); + case "AreaMomentOfInertia": + return AreaMomentOfInertia.From(value, AreaMomentOfInertia.BaseUnit); + case "VitaminA": + return VitaminA.From(value, VitaminA.BaseUnit); + case "Illuminance": + return Illuminance.From(value, Illuminance.BaseUnit); + case "Mass": + return Mass.From(value, Mass.BaseUnit); + case "MolarEntropy": + return MolarEntropy.From(value, MolarEntropy.BaseUnit); + case "KinematicViscosity": + return KinematicViscosity.From(value, KinematicViscosity.BaseUnit); + case "Energy": + return Energy.From(value, Energy.BaseUnit); + case "SpecificFuelConsumption": + return SpecificFuelConsumption.From(value, SpecificFuelConsumption.BaseUnit); + case "PowerRatio": + return PowerRatio.From(value, PowerRatio.BaseUnit); + case "ElectricCurrentDensity": + return ElectricCurrentDensity.From(value, ElectricCurrentDensity.BaseUnit); case "ElectricPotentialDc": return ElectricPotentialDc.From(value, ElectricPotentialDc.BaseUnit); - case "ElectricResistance": - return ElectricResistance.From(value, ElectricResistance.BaseUnit); + case "Length": + return Length.From(value, Length.BaseUnit); + case "MassMomentOfInertia": + return MassMomentOfInertia.From(value, MassMomentOfInertia.BaseUnit); + case "WarpingMomentOfInertia": + return WarpingMomentOfInertia.From(value, WarpingMomentOfInertia.BaseUnit); + case "Temperature": + return Temperature.From(value, Temperature.BaseUnit); + case "MassConcentration": + return MassConcentration.From(value, MassConcentration.BaseUnit); case "ElectricResistivity": return ElectricResistivity.From(value, ElectricResistivity.BaseUnit); + case "Turbidity": + return Turbidity.From(value, Turbidity.BaseUnit); + case "LuminousIntensity": + return LuminousIntensity.From(value, LuminousIntensity.BaseUnit); case "ElectricSurfaceChargeDensity": return ElectricSurfaceChargeDensity.From(value, ElectricSurfaceChargeDensity.BaseUnit); - case "Energy": - return Energy.From(value, Energy.BaseUnit); - case "Entropy": - return Entropy.From(value, Entropy.BaseUnit); case "Force": return Force.From(value, Force.BaseUnit); - case "ForceChangeRate": - return ForceChangeRate.From(value, ForceChangeRate.BaseUnit); - case "ForcePerLength": - return ForcePerLength.From(value, ForcePerLength.BaseUnit); - case "Frequency": - return Frequency.From(value, Frequency.BaseUnit); - case "FuelEfficiency": - return FuelEfficiency.From(value, FuelEfficiency.BaseUnit); + case "RotationalSpeed": + return RotationalSpeed.From(value, RotationalSpeed.BaseUnit); + case "SpecificVolume": + return SpecificVolume.From(value, SpecificVolume.BaseUnit); + case "SpecificWeight": + return SpecificWeight.From(value, SpecificWeight.BaseUnit); case "HeatFlux": return HeatFlux.From(value, HeatFlux.BaseUnit); - case "HeatTransferCoefficient": - return HeatTransferCoefficient.From(value, HeatTransferCoefficient.BaseUnit); - case "Illuminance": - return Illuminance.From(value, Illuminance.BaseUnit); - case "Information": - return Information.From(value, Information.BaseUnit); - case "Irradiance": - return Irradiance.From(value, Irradiance.BaseUnit); - case "Irradiation": - return Irradiation.From(value, Irradiation.BaseUnit); - case "KinematicViscosity": - return KinematicViscosity.From(value, KinematicViscosity.BaseUnit); - case "LapseRate": - return LapseRate.From(value, LapseRate.BaseUnit); - case "Length": - return Length.From(value, Length.BaseUnit); - case "Level": - return Level.From(value, Level.BaseUnit); - case "LinearDensity": - return LinearDensity.From(value, LinearDensity.BaseUnit); - case "LinearPowerDensity": - return LinearPowerDensity.From(value, LinearPowerDensity.BaseUnit); - case "Luminosity": - return Luminosity.From(value, Luminosity.BaseUnit); - case "LuminousFlux": - return LuminousFlux.From(value, LuminousFlux.BaseUnit); - case "LuminousIntensity": - return LuminousIntensity.From(value, LuminousIntensity.BaseUnit); - case "MagneticField": - return MagneticField.From(value, MagneticField.BaseUnit); - case "MagneticFlux": - return MagneticFlux.From(value, MagneticFlux.BaseUnit); - case "Magnetization": - return Magnetization.From(value, Magnetization.BaseUnit); - case "Mass": - return Mass.From(value, Mass.BaseUnit); - case "MassConcentration": - return MassConcentration.From(value, MassConcentration.BaseUnit); - case "MassFlow": - return MassFlow.From(value, MassFlow.BaseUnit); - case "MassFlux": - return MassFlux.From(value, MassFlux.BaseUnit); - case "MassFraction": - return MassFraction.From(value, MassFraction.BaseUnit); - case "MassMomentOfInertia": - return MassMomentOfInertia.From(value, MassMomentOfInertia.BaseUnit); - case "MolarEnergy": - return MolarEnergy.From(value, MolarEnergy.BaseUnit); - case "MolarEntropy": - return MolarEntropy.From(value, MolarEntropy.BaseUnit); - case "Molarity": - return Molarity.From(value, Molarity.BaseUnit); + case "Torque": + return Torque.From(value, Torque.BaseUnit); + case "Entropy": + return Entropy.From(value, Entropy.BaseUnit); + case "TorquePerLength": + return TorquePerLength.From(value, TorquePerLength.BaseUnit); + case "Angle": + return Angle.From(value, Angle.BaseUnit); + case "ThermalConductivity": + return ThermalConductivity.From(value, ThermalConductivity.BaseUnit); + case "BrakeSpecificFuelConsumption": + return BrakeSpecificFuelConsumption.From(value, BrakeSpecificFuelConsumption.BaseUnit); case "MolarMass": return MolarMass.From(value, MolarMass.BaseUnit); - case "Permeability": - return Permeability.From(value, Permeability.BaseUnit); - case "Permittivity": - return Permittivity.From(value, Permittivity.BaseUnit); - case "Power": - return Power.From(value, Power.BaseUnit); - case "PowerDensity": - return PowerDensity.From(value, PowerDensity.BaseUnit); - case "PowerRatio": - return PowerRatio.From(value, PowerRatio.BaseUnit); - case "Pressure": - return Pressure.From(value, Pressure.BaseUnit); - case "PressureChangeRate": - return PressureChangeRate.From(value, PressureChangeRate.BaseUnit); + case "MassFlow": + return MassFlow.From(value, MassFlow.BaseUnit); case "Ratio": return Ratio.From(value, Ratio.BaseUnit); + case "Duration": + return Duration.From(value, Duration.BaseUnit); + case "ElectricResistance": + return ElectricResistance.From(value, ElectricResistance.BaseUnit); + case "ThermalResistance": + return ThermalResistance.From(value, ThermalResistance.BaseUnit); + case "Magnetization": + return Magnetization.From(value, Magnetization.BaseUnit); + case "TemperatureDelta": + return TemperatureDelta.From(value, TemperatureDelta.BaseUnit); + case "ElectricAdmittance": + return ElectricAdmittance.From(value, ElectricAdmittance.BaseUnit); + case "ElectricCurrent": + return ElectricCurrent.From(value, ElectricCurrent.BaseUnit); + case "Density": + return Density.From(value, Density.BaseUnit); + case "ElectricCurrentGradient": + return ElectricCurrentGradient.From(value, ElectricCurrentGradient.BaseUnit); + case "TemperatureChangeRate": + return TemperatureChangeRate.From(value, TemperatureChangeRate.BaseUnit); + case "ElectricInductance": + return ElectricInductance.From(value, ElectricInductance.BaseUnit); case "RatioChangeRate": return RatioChangeRate.From(value, RatioChangeRate.BaseUnit); - case "ReactiveEnergy": - return ReactiveEnergy.From(value, ReactiveEnergy.BaseUnit); + case "HeatTransferCoefficient": + return HeatTransferCoefficient.From(value, HeatTransferCoefficient.BaseUnit); + case "MassFraction": + return MassFraction.From(value, MassFraction.BaseUnit); + case "MagneticField": + return MagneticField.From(value, MagneticField.BaseUnit); + case "Permeability": + return Permeability.From(value, Permeability.BaseUnit); + case "ElectricCharge": + return ElectricCharge.From(value, ElectricCharge.BaseUnit); + case "ElectricConductivity": + return ElectricConductivity.From(value, ElectricConductivity.BaseUnit); case "ReactivePower": return ReactivePower.From(value, ReactivePower.BaseUnit); - case "ReciprocalArea": - return ReciprocalArea.From(value, ReciprocalArea.BaseUnit); - case "ReciprocalLength": - return ReciprocalLength.From(value, ReciprocalLength.BaseUnit); - case "RelativeHumidity": - return RelativeHumidity.From(value, RelativeHumidity.BaseUnit); - case "RotationalAcceleration": - return RotationalAcceleration.From(value, RotationalAcceleration.BaseUnit); - case "RotationalSpeed": - return RotationalSpeed.From(value, RotationalSpeed.BaseUnit); - case "RotationalStiffness": - return RotationalStiffness.From(value, RotationalStiffness.BaseUnit); - case "RotationalStiffnessPerLength": - return RotationalStiffnessPerLength.From(value, RotationalStiffnessPerLength.BaseUnit); + case "ElectricPotentialAc": + return ElectricPotentialAc.From(value, ElectricPotentialAc.BaseUnit); + case "Irradiance": + return Irradiance.From(value, Irradiance.BaseUnit); case "Scalar": return Scalar.From(value, Scalar.BaseUnit); - case "SolidAngle": - return SolidAngle.From(value, SolidAngle.BaseUnit); - case "SpecificEnergy": - return SpecificEnergy.From(value, SpecificEnergy.BaseUnit); - case "SpecificEntropy": - return SpecificEntropy.From(value, SpecificEntropy.BaseUnit); - case "SpecificFuelConsumption": - return SpecificFuelConsumption.From(value, SpecificFuelConsumption.BaseUnit); - case "SpecificVolume": - return SpecificVolume.From(value, SpecificVolume.BaseUnit); - case "SpecificWeight": - return SpecificWeight.From(value, SpecificWeight.BaseUnit); - case "Speed": - return Speed.From(value, Speed.BaseUnit); - case "StandardVolumeFlow": - return StandardVolumeFlow.From(value, StandardVolumeFlow.BaseUnit); - case "Temperature": - return Temperature.From(value, Temperature.BaseUnit); - case "TemperatureChangeRate": - return TemperatureChangeRate.From(value, TemperatureChangeRate.BaseUnit); - case "TemperatureDelta": - return TemperatureDelta.From(value, TemperatureDelta.BaseUnit); - case "ThermalConductivity": - return ThermalConductivity.From(value, ThermalConductivity.BaseUnit); - case "ThermalResistance": - return ThermalResistance.From(value, ThermalResistance.BaseUnit); - case "Torque": - return Torque.From(value, Torque.BaseUnit); - case "TorquePerLength": - return TorquePerLength.From(value, TorquePerLength.BaseUnit); - case "Turbidity": - return Turbidity.From(value, Turbidity.BaseUnit); - case "VitaminA": - return VitaminA.From(value, VitaminA.BaseUnit); - case "Volume": - return Volume.From(value, Volume.BaseUnit); - case "VolumeConcentration": - return VolumeConcentration.From(value, VolumeConcentration.BaseUnit); - case "VolumeFlow": - return VolumeFlow.From(value, VolumeFlow.BaseUnit); - case "VolumePerLength": - return VolumePerLength.From(value, VolumePerLength.BaseUnit); - case "VolumetricHeatCapacity": - return VolumetricHeatCapacity.From(value, VolumetricHeatCapacity.BaseUnit); - case "WarpingMomentOfInertia": - return WarpingMomentOfInertia.From(value, WarpingMomentOfInertia.BaseUnit); default: throw new ArgumentException($"{quantityInfo.Name} is not a supported quantity."); } @@ -748,335 +748,335 @@ public static bool TryFrom(QuantityValue value, Enum unit, out IQuantity? quanti { switch (unit) { - case AccelerationUnit accelerationUnit: - quantity = Acceleration.From(value, accelerationUnit); + case SpecificEntropyUnit specificEntropyUnit: + quantity = SpecificEntropy.From(value, specificEntropyUnit); + return true; + case MolarityUnit molarityUnit: + quantity = Molarity.From(value, molarityUnit); return true; case AmountOfSubstanceUnit amountOfSubstanceUnit: quantity = AmountOfSubstance.From(value, amountOfSubstanceUnit); return true; - case AmplitudeRatioUnit amplitudeRatioUnit: - quantity = AmplitudeRatio.From(value, amplitudeRatioUnit); - return true; - case AngleUnit angleUnit: - quantity = Angle.From(value, angleUnit); - return true; - case ApparentEnergyUnit apparentEnergyUnit: - quantity = ApparentEnergy.From(value, apparentEnergyUnit); - return true; - case ApparentPowerUnit apparentPowerUnit: - quantity = ApparentPower.From(value, apparentPowerUnit); - return true; - case AreaUnit areaUnit: - quantity = Area.From(value, areaUnit); + case PressureChangeRateUnit pressureChangeRateUnit: + quantity = PressureChangeRate.From(value, pressureChangeRateUnit); return true; - case AreaDensityUnit areaDensityUnit: - quantity = AreaDensity.From(value, areaDensityUnit); + case CoefficientOfThermalExpansionUnit coefficientOfThermalExpansionUnit: + quantity = CoefficientOfThermalExpansion.From(value, coefficientOfThermalExpansionUnit); return true; - case AreaMomentOfInertiaUnit areaMomentOfInertiaUnit: - quantity = AreaMomentOfInertia.From(value, areaMomentOfInertiaUnit); + case PressureUnit pressureUnit: + quantity = Pressure.From(value, pressureUnit); return true; - case BitRateUnit bitRateUnit: - quantity = BitRate.From(value, bitRateUnit); + case IrradiationUnit irradiationUnit: + quantity = Irradiation.From(value, irradiationUnit); return true; - case BrakeSpecificFuelConsumptionUnit brakeSpecificFuelConsumptionUnit: - quantity = BrakeSpecificFuelConsumption.From(value, brakeSpecificFuelConsumptionUnit); + case ElectricConductanceUnit electricConductanceUnit: + quantity = ElectricConductance.From(value, electricConductanceUnit); return true; - case CapacitanceUnit capacitanceUnit: - quantity = Capacitance.From(value, capacitanceUnit); + case AccelerationUnit accelerationUnit: + quantity = Acceleration.From(value, accelerationUnit); return true; - case CoefficientOfThermalExpansionUnit coefficientOfThermalExpansionUnit: - quantity = CoefficientOfThermalExpansion.From(value, coefficientOfThermalExpansionUnit); + case RotationalAccelerationUnit rotationalAccelerationUnit: + quantity = RotationalAcceleration.From(value, rotationalAccelerationUnit); return true; - case DensityUnit densityUnit: - quantity = Density.From(value, densityUnit); + case VolumeUnit volumeUnit: + quantity = Volume.From(value, volumeUnit); return true; - case DurationUnit durationUnit: - quantity = Duration.From(value, durationUnit); + case FrequencyUnit frequencyUnit: + quantity = Frequency.From(value, frequencyUnit); return true; case DynamicViscosityUnit dynamicViscosityUnit: quantity = DynamicViscosity.From(value, dynamicViscosityUnit); return true; - case ElectricAdmittanceUnit electricAdmittanceUnit: - quantity = ElectricAdmittance.From(value, electricAdmittanceUnit); + case VolumetricHeatCapacityUnit volumetricHeatCapacityUnit: + quantity = VolumetricHeatCapacity.From(value, volumetricHeatCapacityUnit); return true; - case ElectricChargeUnit electricChargeUnit: - quantity = ElectricCharge.From(value, electricChargeUnit); + case LevelUnit levelUnit: + quantity = Level.From(value, levelUnit); return true; - case ElectricChargeDensityUnit electricChargeDensityUnit: - quantity = ElectricChargeDensity.From(value, electricChargeDensityUnit); + case MolarEnergyUnit molarEnergyUnit: + quantity = MolarEnergy.From(value, molarEnergyUnit); return true; - case ElectricConductanceUnit electricConductanceUnit: - quantity = ElectricConductance.From(value, electricConductanceUnit); + case ApparentPowerUnit apparentPowerUnit: + quantity = ApparentPower.From(value, apparentPowerUnit); return true; - case ElectricConductivityUnit electricConductivityUnit: - quantity = ElectricConductivity.From(value, electricConductivityUnit); + case ReactiveEnergyUnit reactiveEnergyUnit: + quantity = ReactiveEnergy.From(value, reactiveEnergyUnit); return true; - case ElectricCurrentUnit electricCurrentUnit: - quantity = ElectricCurrent.From(value, electricCurrentUnit); + case LuminousFluxUnit luminousFluxUnit: + quantity = LuminousFlux.From(value, luminousFluxUnit); return true; - case ElectricCurrentDensityUnit electricCurrentDensityUnit: - quantity = ElectricCurrentDensity.From(value, electricCurrentDensityUnit); + case SpecificEnergyUnit specificEnergyUnit: + quantity = SpecificEnergy.From(value, specificEnergyUnit); return true; - case ElectricCurrentGradientUnit electricCurrentGradientUnit: - quantity = ElectricCurrentGradient.From(value, electricCurrentGradientUnit); + case PowerDensityUnit powerDensityUnit: + quantity = PowerDensity.From(value, powerDensityUnit); + return true; + case ForcePerLengthUnit forcePerLengthUnit: + quantity = ForcePerLength.From(value, forcePerLengthUnit); + return true; + case LuminosityUnit luminosityUnit: + quantity = Luminosity.From(value, luminosityUnit); return true; case ElectricFieldUnit electricFieldUnit: quantity = ElectricField.From(value, electricFieldUnit); return true; - case ElectricInductanceUnit electricInductanceUnit: - quantity = ElectricInductance.From(value, electricInductanceUnit); + case StandardVolumeFlowUnit standardVolumeFlowUnit: + quantity = StandardVolumeFlow.From(value, standardVolumeFlowUnit); return true; - case ElectricPotentialUnit electricPotentialUnit: - quantity = ElectricPotential.From(value, electricPotentialUnit); + case PowerUnit powerUnit: + quantity = Power.From(value, powerUnit); return true; - case ElectricPotentialAcUnit electricPotentialAcUnit: - quantity = ElectricPotentialAc.From(value, electricPotentialAcUnit); + case AmplitudeRatioUnit amplitudeRatioUnit: + quantity = AmplitudeRatio.From(value, amplitudeRatioUnit); return true; - case ElectricPotentialChangeRateUnit electricPotentialChangeRateUnit: - quantity = ElectricPotentialChangeRate.From(value, electricPotentialChangeRateUnit); + case ReciprocalAreaUnit reciprocalAreaUnit: + quantity = ReciprocalArea.From(value, reciprocalAreaUnit); return true; - case ElectricPotentialDcUnit electricPotentialDcUnit: - quantity = ElectricPotentialDc.From(value, electricPotentialDcUnit); + case ForceChangeRateUnit forceChangeRateUnit: + quantity = ForceChangeRate.From(value, forceChangeRateUnit); return true; - case ElectricResistanceUnit electricResistanceUnit: - quantity = ElectricResistance.From(value, electricResistanceUnit); + case SolidAngleUnit solidAngleUnit: + quantity = SolidAngle.From(value, solidAngleUnit); return true; - case ElectricResistivityUnit electricResistivityUnit: - quantity = ElectricResistivity.From(value, electricResistivityUnit); + case RelativeHumidityUnit relativeHumidityUnit: + quantity = RelativeHumidity.From(value, relativeHumidityUnit); return true; - case ElectricSurfaceChargeDensityUnit electricSurfaceChargeDensityUnit: - quantity = ElectricSurfaceChargeDensity.From(value, electricSurfaceChargeDensityUnit); + case RotationalStiffnessPerLengthUnit rotationalStiffnessPerLengthUnit: + quantity = RotationalStiffnessPerLength.From(value, rotationalStiffnessPerLengthUnit); return true; - case EnergyUnit energyUnit: - quantity = Energy.From(value, energyUnit); + case VolumeFlowUnit volumeFlowUnit: + quantity = VolumeFlow.From(value, volumeFlowUnit); return true; - case EntropyUnit entropyUnit: - quantity = Entropy.From(value, entropyUnit); + case LinearPowerDensityUnit linearPowerDensityUnit: + quantity = LinearPowerDensity.From(value, linearPowerDensityUnit); return true; - case ForceUnit forceUnit: - quantity = Force.From(value, forceUnit); + case ElectricPotentialChangeRateUnit electricPotentialChangeRateUnit: + quantity = ElectricPotentialChangeRate.From(value, electricPotentialChangeRateUnit); return true; - case ForceChangeRateUnit forceChangeRateUnit: - quantity = ForceChangeRate.From(value, forceChangeRateUnit); + case CapacitanceUnit capacitanceUnit: + quantity = Capacitance.From(value, capacitanceUnit); return true; - case ForcePerLengthUnit forcePerLengthUnit: - quantity = ForcePerLength.From(value, forcePerLengthUnit); + case LinearDensityUnit linearDensityUnit: + quantity = LinearDensity.From(value, linearDensityUnit); return true; - case FrequencyUnit frequencyUnit: - quantity = Frequency.From(value, frequencyUnit); + case ReciprocalLengthUnit reciprocalLengthUnit: + quantity = ReciprocalLength.From(value, reciprocalLengthUnit); return true; - case FuelEfficiencyUnit fuelEfficiencyUnit: - quantity = FuelEfficiency.From(value, fuelEfficiencyUnit); + case AreaDensityUnit areaDensityUnit: + quantity = AreaDensity.From(value, areaDensityUnit); return true; - case HeatFluxUnit heatFluxUnit: - quantity = HeatFlux.From(value, heatFluxUnit); + case MassFluxUnit massFluxUnit: + quantity = MassFlux.From(value, massFluxUnit); return true; - case HeatTransferCoefficientUnit heatTransferCoefficientUnit: - quantity = HeatTransferCoefficient.From(value, heatTransferCoefficientUnit); + case MagneticFluxUnit magneticFluxUnit: + quantity = MagneticFlux.From(value, magneticFluxUnit); return true; - case IlluminanceUnit illuminanceUnit: - quantity = Illuminance.From(value, illuminanceUnit); + case ApparentEnergyUnit apparentEnergyUnit: + quantity = ApparentEnergy.From(value, apparentEnergyUnit); return true; - case InformationUnit informationUnit: - quantity = Information.From(value, informationUnit); + case SpeedUnit speedUnit: + quantity = Speed.From(value, speedUnit); return true; - case IrradianceUnit irradianceUnit: - quantity = Irradiance.From(value, irradianceUnit); + case BitRateUnit bitRateUnit: + quantity = BitRate.From(value, bitRateUnit); return true; - case IrradiationUnit irradiationUnit: - quantity = Irradiation.From(value, irradiationUnit); + case AreaUnit areaUnit: + quantity = Area.From(value, areaUnit); return true; - case KinematicViscosityUnit kinematicViscosityUnit: - quantity = KinematicViscosity.From(value, kinematicViscosityUnit); + case VolumeConcentrationUnit volumeConcentrationUnit: + quantity = VolumeConcentration.From(value, volumeConcentrationUnit); return true; - case LapseRateUnit lapseRateUnit: - quantity = LapseRate.From(value, lapseRateUnit); + case PermittivityUnit permittivityUnit: + quantity = Permittivity.From(value, permittivityUnit); return true; - case LengthUnit lengthUnit: - quantity = Length.From(value, lengthUnit); + case InformationUnit informationUnit: + quantity = Information.From(value, informationUnit); return true; - case LevelUnit levelUnit: - quantity = Level.From(value, levelUnit); + case LapseRateUnit lapseRateUnit: + quantity = LapseRate.From(value, lapseRateUnit); return true; - case LinearDensityUnit linearDensityUnit: - quantity = LinearDensity.From(value, linearDensityUnit); + case RotationalStiffnessUnit rotationalStiffnessUnit: + quantity = RotationalStiffness.From(value, rotationalStiffnessUnit); return true; - case LinearPowerDensityUnit linearPowerDensityUnit: - quantity = LinearPowerDensity.From(value, linearPowerDensityUnit); + case ElectricChargeDensityUnit electricChargeDensityUnit: + quantity = ElectricChargeDensity.From(value, electricChargeDensityUnit); return true; - case LuminosityUnit luminosityUnit: - quantity = Luminosity.From(value, luminosityUnit); + case FuelEfficiencyUnit fuelEfficiencyUnit: + quantity = FuelEfficiency.From(value, fuelEfficiencyUnit); return true; - case LuminousFluxUnit luminousFluxUnit: - quantity = LuminousFlux.From(value, luminousFluxUnit); + case ElectricPotentialUnit electricPotentialUnit: + quantity = ElectricPotential.From(value, electricPotentialUnit); return true; - case LuminousIntensityUnit luminousIntensityUnit: - quantity = LuminousIntensity.From(value, luminousIntensityUnit); + case VolumePerLengthUnit volumePerLengthUnit: + quantity = VolumePerLength.From(value, volumePerLengthUnit); return true; - case MagneticFieldUnit magneticFieldUnit: - quantity = MagneticField.From(value, magneticFieldUnit); + case AreaMomentOfInertiaUnit areaMomentOfInertiaUnit: + quantity = AreaMomentOfInertia.From(value, areaMomentOfInertiaUnit); return true; - case MagneticFluxUnit magneticFluxUnit: - quantity = MagneticFlux.From(value, magneticFluxUnit); + case VitaminAUnit vitaminAUnit: + quantity = VitaminA.From(value, vitaminAUnit); return true; - case MagnetizationUnit magnetizationUnit: - quantity = Magnetization.From(value, magnetizationUnit); + case IlluminanceUnit illuminanceUnit: + quantity = Illuminance.From(value, illuminanceUnit); return true; case MassUnit massUnit: quantity = Mass.From(value, massUnit); return true; - case MassConcentrationUnit massConcentrationUnit: - quantity = MassConcentration.From(value, massConcentrationUnit); + case MolarEntropyUnit molarEntropyUnit: + quantity = MolarEntropy.From(value, molarEntropyUnit); return true; - case MassFlowUnit massFlowUnit: - quantity = MassFlow.From(value, massFlowUnit); + case KinematicViscosityUnit kinematicViscosityUnit: + quantity = KinematicViscosity.From(value, kinematicViscosityUnit); return true; - case MassFluxUnit massFluxUnit: - quantity = MassFlux.From(value, massFluxUnit); + case EnergyUnit energyUnit: + quantity = Energy.From(value, energyUnit); return true; - case MassFractionUnit massFractionUnit: - quantity = MassFraction.From(value, massFractionUnit); + case SpecificFuelConsumptionUnit specificFuelConsumptionUnit: + quantity = SpecificFuelConsumption.From(value, specificFuelConsumptionUnit); return true; - case MassMomentOfInertiaUnit massMomentOfInertiaUnit: - quantity = MassMomentOfInertia.From(value, massMomentOfInertiaUnit); + case PowerRatioUnit powerRatioUnit: + quantity = PowerRatio.From(value, powerRatioUnit); return true; - case MolarEnergyUnit molarEnergyUnit: - quantity = MolarEnergy.From(value, molarEnergyUnit); + case ElectricCurrentDensityUnit electricCurrentDensityUnit: + quantity = ElectricCurrentDensity.From(value, electricCurrentDensityUnit); return true; - case MolarEntropyUnit molarEntropyUnit: - quantity = MolarEntropy.From(value, molarEntropyUnit); + case ElectricPotentialDcUnit electricPotentialDcUnit: + quantity = ElectricPotentialDc.From(value, electricPotentialDcUnit); return true; - case MolarityUnit molarityUnit: - quantity = Molarity.From(value, molarityUnit); + case LengthUnit lengthUnit: + quantity = Length.From(value, lengthUnit); return true; - case MolarMassUnit molarMassUnit: - quantity = MolarMass.From(value, molarMassUnit); + case MassMomentOfInertiaUnit massMomentOfInertiaUnit: + quantity = MassMomentOfInertia.From(value, massMomentOfInertiaUnit); return true; - case PermeabilityUnit permeabilityUnit: - quantity = Permeability.From(value, permeabilityUnit); + case WarpingMomentOfInertiaUnit warpingMomentOfInertiaUnit: + quantity = WarpingMomentOfInertia.From(value, warpingMomentOfInertiaUnit); return true; - case PermittivityUnit permittivityUnit: - quantity = Permittivity.From(value, permittivityUnit); + case TemperatureUnit temperatureUnit: + quantity = Temperature.From(value, temperatureUnit); return true; - case PowerUnit powerUnit: - quantity = Power.From(value, powerUnit); + case MassConcentrationUnit massConcentrationUnit: + quantity = MassConcentration.From(value, massConcentrationUnit); return true; - case PowerDensityUnit powerDensityUnit: - quantity = PowerDensity.From(value, powerDensityUnit); + case ElectricResistivityUnit electricResistivityUnit: + quantity = ElectricResistivity.From(value, electricResistivityUnit); return true; - case PowerRatioUnit powerRatioUnit: - quantity = PowerRatio.From(value, powerRatioUnit); + case TurbidityUnit turbidityUnit: + quantity = Turbidity.From(value, turbidityUnit); return true; - case PressureUnit pressureUnit: - quantity = Pressure.From(value, pressureUnit); + case LuminousIntensityUnit luminousIntensityUnit: + quantity = LuminousIntensity.From(value, luminousIntensityUnit); return true; - case PressureChangeRateUnit pressureChangeRateUnit: - quantity = PressureChangeRate.From(value, pressureChangeRateUnit); + case ElectricSurfaceChargeDensityUnit electricSurfaceChargeDensityUnit: + quantity = ElectricSurfaceChargeDensity.From(value, electricSurfaceChargeDensityUnit); + return true; + case ForceUnit forceUnit: + quantity = Force.From(value, forceUnit); + return true; + case RotationalSpeedUnit rotationalSpeedUnit: + quantity = RotationalSpeed.From(value, rotationalSpeedUnit); return true; - case RatioUnit ratioUnit: - quantity = Ratio.From(value, ratioUnit); + case SpecificVolumeUnit specificVolumeUnit: + quantity = SpecificVolume.From(value, specificVolumeUnit); return true; - case RatioChangeRateUnit ratioChangeRateUnit: - quantity = RatioChangeRate.From(value, ratioChangeRateUnit); + case SpecificWeightUnit specificWeightUnit: + quantity = SpecificWeight.From(value, specificWeightUnit); return true; - case ReactiveEnergyUnit reactiveEnergyUnit: - quantity = ReactiveEnergy.From(value, reactiveEnergyUnit); + case HeatFluxUnit heatFluxUnit: + quantity = HeatFlux.From(value, heatFluxUnit); return true; - case ReactivePowerUnit reactivePowerUnit: - quantity = ReactivePower.From(value, reactivePowerUnit); + case TorqueUnit torqueUnit: + quantity = Torque.From(value, torqueUnit); return true; - case ReciprocalAreaUnit reciprocalAreaUnit: - quantity = ReciprocalArea.From(value, reciprocalAreaUnit); + case EntropyUnit entropyUnit: + quantity = Entropy.From(value, entropyUnit); return true; - case ReciprocalLengthUnit reciprocalLengthUnit: - quantity = ReciprocalLength.From(value, reciprocalLengthUnit); + case TorquePerLengthUnit torquePerLengthUnit: + quantity = TorquePerLength.From(value, torquePerLengthUnit); return true; - case RelativeHumidityUnit relativeHumidityUnit: - quantity = RelativeHumidity.From(value, relativeHumidityUnit); + case AngleUnit angleUnit: + quantity = Angle.From(value, angleUnit); return true; - case RotationalAccelerationUnit rotationalAccelerationUnit: - quantity = RotationalAcceleration.From(value, rotationalAccelerationUnit); + case ThermalConductivityUnit thermalConductivityUnit: + quantity = ThermalConductivity.From(value, thermalConductivityUnit); return true; - case RotationalSpeedUnit rotationalSpeedUnit: - quantity = RotationalSpeed.From(value, rotationalSpeedUnit); + case BrakeSpecificFuelConsumptionUnit brakeSpecificFuelConsumptionUnit: + quantity = BrakeSpecificFuelConsumption.From(value, brakeSpecificFuelConsumptionUnit); return true; - case RotationalStiffnessUnit rotationalStiffnessUnit: - quantity = RotationalStiffness.From(value, rotationalStiffnessUnit); + case MolarMassUnit molarMassUnit: + quantity = MolarMass.From(value, molarMassUnit); return true; - case RotationalStiffnessPerLengthUnit rotationalStiffnessPerLengthUnit: - quantity = RotationalStiffnessPerLength.From(value, rotationalStiffnessPerLengthUnit); + case MassFlowUnit massFlowUnit: + quantity = MassFlow.From(value, massFlowUnit); return true; - case ScalarUnit scalarUnit: - quantity = Scalar.From(value, scalarUnit); + case RatioUnit ratioUnit: + quantity = Ratio.From(value, ratioUnit); return true; - case SolidAngleUnit solidAngleUnit: - quantity = SolidAngle.From(value, solidAngleUnit); + case DurationUnit durationUnit: + quantity = Duration.From(value, durationUnit); return true; - case SpecificEnergyUnit specificEnergyUnit: - quantity = SpecificEnergy.From(value, specificEnergyUnit); + case ElectricResistanceUnit electricResistanceUnit: + quantity = ElectricResistance.From(value, electricResistanceUnit); return true; - case SpecificEntropyUnit specificEntropyUnit: - quantity = SpecificEntropy.From(value, specificEntropyUnit); + case ThermalResistanceUnit thermalResistanceUnit: + quantity = ThermalResistance.From(value, thermalResistanceUnit); return true; - case SpecificFuelConsumptionUnit specificFuelConsumptionUnit: - quantity = SpecificFuelConsumption.From(value, specificFuelConsumptionUnit); + case MagnetizationUnit magnetizationUnit: + quantity = Magnetization.From(value, magnetizationUnit); return true; - case SpecificVolumeUnit specificVolumeUnit: - quantity = SpecificVolume.From(value, specificVolumeUnit); + case TemperatureDeltaUnit temperatureDeltaUnit: + quantity = TemperatureDelta.From(value, temperatureDeltaUnit); return true; - case SpecificWeightUnit specificWeightUnit: - quantity = SpecificWeight.From(value, specificWeightUnit); + case ElectricAdmittanceUnit electricAdmittanceUnit: + quantity = ElectricAdmittance.From(value, electricAdmittanceUnit); return true; - case SpeedUnit speedUnit: - quantity = Speed.From(value, speedUnit); + case ElectricCurrentUnit electricCurrentUnit: + quantity = ElectricCurrent.From(value, electricCurrentUnit); return true; - case StandardVolumeFlowUnit standardVolumeFlowUnit: - quantity = StandardVolumeFlow.From(value, standardVolumeFlowUnit); + case DensityUnit densityUnit: + quantity = Density.From(value, densityUnit); return true; - case TemperatureUnit temperatureUnit: - quantity = Temperature.From(value, temperatureUnit); + case ElectricCurrentGradientUnit electricCurrentGradientUnit: + quantity = ElectricCurrentGradient.From(value, electricCurrentGradientUnit); return true; case TemperatureChangeRateUnit temperatureChangeRateUnit: quantity = TemperatureChangeRate.From(value, temperatureChangeRateUnit); return true; - case TemperatureDeltaUnit temperatureDeltaUnit: - quantity = TemperatureDelta.From(value, temperatureDeltaUnit); - return true; - case ThermalConductivityUnit thermalConductivityUnit: - quantity = ThermalConductivity.From(value, thermalConductivityUnit); + case ElectricInductanceUnit electricInductanceUnit: + quantity = ElectricInductance.From(value, electricInductanceUnit); return true; - case ThermalResistanceUnit thermalResistanceUnit: - quantity = ThermalResistance.From(value, thermalResistanceUnit); + case RatioChangeRateUnit ratioChangeRateUnit: + quantity = RatioChangeRate.From(value, ratioChangeRateUnit); return true; - case TorqueUnit torqueUnit: - quantity = Torque.From(value, torqueUnit); + case HeatTransferCoefficientUnit heatTransferCoefficientUnit: + quantity = HeatTransferCoefficient.From(value, heatTransferCoefficientUnit); return true; - case TorquePerLengthUnit torquePerLengthUnit: - quantity = TorquePerLength.From(value, torquePerLengthUnit); + case MassFractionUnit massFractionUnit: + quantity = MassFraction.From(value, massFractionUnit); return true; - case TurbidityUnit turbidityUnit: - quantity = Turbidity.From(value, turbidityUnit); + case MagneticFieldUnit magneticFieldUnit: + quantity = MagneticField.From(value, magneticFieldUnit); return true; - case VitaminAUnit vitaminAUnit: - quantity = VitaminA.From(value, vitaminAUnit); + case PermeabilityUnit permeabilityUnit: + quantity = Permeability.From(value, permeabilityUnit); return true; - case VolumeUnit volumeUnit: - quantity = Volume.From(value, volumeUnit); + case ElectricChargeUnit electricChargeUnit: + quantity = ElectricCharge.From(value, electricChargeUnit); return true; - case VolumeConcentrationUnit volumeConcentrationUnit: - quantity = VolumeConcentration.From(value, volumeConcentrationUnit); + case ElectricConductivityUnit electricConductivityUnit: + quantity = ElectricConductivity.From(value, electricConductivityUnit); return true; - case VolumeFlowUnit volumeFlowUnit: - quantity = VolumeFlow.From(value, volumeFlowUnit); + case ReactivePowerUnit reactivePowerUnit: + quantity = ReactivePower.From(value, reactivePowerUnit); return true; - case VolumePerLengthUnit volumePerLengthUnit: - quantity = VolumePerLength.From(value, volumePerLengthUnit); + case ElectricPotentialAcUnit electricPotentialAcUnit: + quantity = ElectricPotentialAc.From(value, electricPotentialAcUnit); return true; - case VolumetricHeatCapacityUnit volumetricHeatCapacityUnit: - quantity = VolumetricHeatCapacity.From(value, volumetricHeatCapacityUnit); + case IrradianceUnit irradianceUnit: + quantity = Irradiance.From(value, irradianceUnit); return true; - case WarpingMomentOfInertiaUnit warpingMomentOfInertiaUnit: - quantity = WarpingMomentOfInertia.From(value, warpingMomentOfInertiaUnit); + case ScalarUnit scalarUnit: + quantity = Scalar.From(value, scalarUnit); return true; default: { @@ -1105,226 +1105,226 @@ public static bool TryParse(IFormatProvider? formatProvider, Type quantityType, switch(quantityType) { - case Type _ when quantityType == typeof(Acceleration): - return parser.TryParse(quantityString, formatProvider, Acceleration.From, out quantity); + case Type _ when quantityType == typeof(SpecificEntropy): + return parser.TryParse(quantityString, formatProvider, SpecificEntropy.From, out quantity); + case Type _ when quantityType == typeof(Molarity): + return parser.TryParse(quantityString, formatProvider, Molarity.From, out quantity); case Type _ when quantityType == typeof(AmountOfSubstance): return parser.TryParse(quantityString, formatProvider, AmountOfSubstance.From, out quantity); - case Type _ when quantityType == typeof(AmplitudeRatio): - return parser.TryParse(quantityString, formatProvider, AmplitudeRatio.From, out quantity); - case Type _ when quantityType == typeof(Angle): - return parser.TryParse(quantityString, formatProvider, Angle.From, out quantity); - case Type _ when quantityType == typeof(ApparentEnergy): - return parser.TryParse(quantityString, formatProvider, ApparentEnergy.From, out quantity); + case Type _ when quantityType == typeof(PressureChangeRate): + return parser.TryParse(quantityString, formatProvider, PressureChangeRate.From, out quantity); + case Type _ when quantityType == typeof(CoefficientOfThermalExpansion): + return parser.TryParse(quantityString, formatProvider, CoefficientOfThermalExpansion.From, out quantity); + case Type _ when quantityType == typeof(Pressure): + return parser.TryParse(quantityString, formatProvider, Pressure.From, out quantity); + case Type _ when quantityType == typeof(Irradiation): + return parser.TryParse(quantityString, formatProvider, Irradiation.From, out quantity); + case Type _ when quantityType == typeof(ElectricConductance): + return parser.TryParse(quantityString, formatProvider, ElectricConductance.From, out quantity); + case Type _ when quantityType == typeof(Acceleration): + return parser.TryParse(quantityString, formatProvider, Acceleration.From, out quantity); + case Type _ when quantityType == typeof(RotationalAcceleration): + return parser.TryParse(quantityString, formatProvider, RotationalAcceleration.From, out quantity); + case Type _ when quantityType == typeof(Volume): + return parser.TryParse(quantityString, formatProvider, Volume.From, out quantity); + case Type _ when quantityType == typeof(Frequency): + return parser.TryParse(quantityString, formatProvider, Frequency.From, out quantity); + case Type _ when quantityType == typeof(DynamicViscosity): + return parser.TryParse(quantityString, formatProvider, DynamicViscosity.From, out quantity); + case Type _ when quantityType == typeof(VolumetricHeatCapacity): + return parser.TryParse(quantityString, formatProvider, VolumetricHeatCapacity.From, out quantity); + case Type _ when quantityType == typeof(Level): + return parser.TryParse(quantityString, formatProvider, Level.From, out quantity); + case Type _ when quantityType == typeof(MolarEnergy): + return parser.TryParse(quantityString, formatProvider, MolarEnergy.From, out quantity); case Type _ when quantityType == typeof(ApparentPower): return parser.TryParse(quantityString, formatProvider, ApparentPower.From, out quantity); - case Type _ when quantityType == typeof(Area): - return parser.TryParse(quantityString, formatProvider, Area.From, out quantity); + case Type _ when quantityType == typeof(ReactiveEnergy): + return parser.TryParse(quantityString, formatProvider, ReactiveEnergy.From, out quantity); + case Type _ when quantityType == typeof(LuminousFlux): + return parser.TryParse(quantityString, formatProvider, LuminousFlux.From, out quantity); + case Type _ when quantityType == typeof(SpecificEnergy): + return parser.TryParse(quantityString, formatProvider, SpecificEnergy.From, out quantity); + case Type _ when quantityType == typeof(PowerDensity): + return parser.TryParse(quantityString, formatProvider, PowerDensity.From, out quantity); + case Type _ when quantityType == typeof(ForcePerLength): + return parser.TryParse(quantityString, formatProvider, ForcePerLength.From, out quantity); + case Type _ when quantityType == typeof(Luminosity): + return parser.TryParse(quantityString, formatProvider, Luminosity.From, out quantity); + case Type _ when quantityType == typeof(ElectricField): + return parser.TryParse(quantityString, formatProvider, ElectricField.From, out quantity); + case Type _ when quantityType == typeof(StandardVolumeFlow): + return parser.TryParse(quantityString, formatProvider, StandardVolumeFlow.From, out quantity); + case Type _ when quantityType == typeof(Power): + return parser.TryParse(quantityString, formatProvider, Power.From, out quantity); + case Type _ when quantityType == typeof(AmplitudeRatio): + return parser.TryParse(quantityString, formatProvider, AmplitudeRatio.From, out quantity); + case Type _ when quantityType == typeof(ReciprocalArea): + return parser.TryParse(quantityString, formatProvider, ReciprocalArea.From, out quantity); + case Type _ when quantityType == typeof(ForceChangeRate): + return parser.TryParse(quantityString, formatProvider, ForceChangeRate.From, out quantity); + case Type _ when quantityType == typeof(SolidAngle): + return parser.TryParse(quantityString, formatProvider, SolidAngle.From, out quantity); + case Type _ when quantityType == typeof(RelativeHumidity): + return parser.TryParse(quantityString, formatProvider, RelativeHumidity.From, out quantity); + case Type _ when quantityType == typeof(RotationalStiffnessPerLength): + return parser.TryParse(quantityString, formatProvider, RotationalStiffnessPerLength.From, out quantity); + case Type _ when quantityType == typeof(VolumeFlow): + return parser.TryParse(quantityString, formatProvider, VolumeFlow.From, out quantity); + case Type _ when quantityType == typeof(LinearPowerDensity): + return parser.TryParse(quantityString, formatProvider, LinearPowerDensity.From, out quantity); + case Type _ when quantityType == typeof(ElectricPotentialChangeRate): + return parser.TryParse(quantityString, formatProvider, ElectricPotentialChangeRate.From, out quantity); + case Type _ when quantityType == typeof(Capacitance): + return parser.TryParse(quantityString, formatProvider, Capacitance.From, out quantity); + case Type _ when quantityType == typeof(LinearDensity): + return parser.TryParse(quantityString, formatProvider, LinearDensity.From, out quantity); + case Type _ when quantityType == typeof(ReciprocalLength): + return parser.TryParse(quantityString, formatProvider, ReciprocalLength.From, out quantity); case Type _ when quantityType == typeof(AreaDensity): return parser.TryParse(quantityString, formatProvider, AreaDensity.From, out quantity); - case Type _ when quantityType == typeof(AreaMomentOfInertia): - return parser.TryParse(quantityString, formatProvider, AreaMomentOfInertia.From, out quantity); + case Type _ when quantityType == typeof(MassFlux): + return parser.TryParse(quantityString, formatProvider, MassFlux.From, out quantity); + case Type _ when quantityType == typeof(MagneticFlux): + return parser.TryParse(quantityString, formatProvider, MagneticFlux.From, out quantity); + case Type _ when quantityType == typeof(ApparentEnergy): + return parser.TryParse(quantityString, formatProvider, ApparentEnergy.From, out quantity); + case Type _ when quantityType == typeof(Speed): + return parser.TryParse(quantityString, formatProvider, Speed.From, out quantity); case Type _ when quantityType == typeof(BitRate): return parser.TryParse(quantityString, formatProvider, BitRate.From, out quantity); - case Type _ when quantityType == typeof(BrakeSpecificFuelConsumption): - return parser.TryParse(quantityString, formatProvider, BrakeSpecificFuelConsumption.From, out quantity); - case Type _ when quantityType == typeof(Capacitance): - return parser.TryParse(quantityString, formatProvider, Capacitance.From, out quantity); - case Type _ when quantityType == typeof(CoefficientOfThermalExpansion): - return parser.TryParse(quantityString, formatProvider, CoefficientOfThermalExpansion.From, out quantity); - case Type _ when quantityType == typeof(Density): - return parser.TryParse(quantityString, formatProvider, Density.From, out quantity); - case Type _ when quantityType == typeof(Duration): - return parser.TryParse(quantityString, formatProvider, Duration.From, out quantity); - case Type _ when quantityType == typeof(DynamicViscosity): - return parser.TryParse(quantityString, formatProvider, DynamicViscosity.From, out quantity); - case Type _ when quantityType == typeof(ElectricAdmittance): - return parser.TryParse(quantityString, formatProvider, ElectricAdmittance.From, out quantity); - case Type _ when quantityType == typeof(ElectricCharge): - return parser.TryParse(quantityString, formatProvider, ElectricCharge.From, out quantity); + case Type _ when quantityType == typeof(Area): + return parser.TryParse(quantityString, formatProvider, Area.From, out quantity); + case Type _ when quantityType == typeof(VolumeConcentration): + return parser.TryParse(quantityString, formatProvider, VolumeConcentration.From, out quantity); + case Type _ when quantityType == typeof(Permittivity): + return parser.TryParse(quantityString, formatProvider, Permittivity.From, out quantity); + case Type _ when quantityType == typeof(Information): + return parser.TryParse(quantityString, formatProvider, Information.From, out quantity); + case Type _ when quantityType == typeof(LapseRate): + return parser.TryParse(quantityString, formatProvider, LapseRate.From, out quantity); + case Type _ when quantityType == typeof(RotationalStiffness): + return parser.TryParse(quantityString, formatProvider, RotationalStiffness.From, out quantity); case Type _ when quantityType == typeof(ElectricChargeDensity): return parser.TryParse(quantityString, formatProvider, ElectricChargeDensity.From, out quantity); - case Type _ when quantityType == typeof(ElectricConductance): - return parser.TryParse(quantityString, formatProvider, ElectricConductance.From, out quantity); - case Type _ when quantityType == typeof(ElectricConductivity): - return parser.TryParse(quantityString, formatProvider, ElectricConductivity.From, out quantity); - case Type _ when quantityType == typeof(ElectricCurrent): - return parser.TryParse(quantityString, formatProvider, ElectricCurrent.From, out quantity); - case Type _ when quantityType == typeof(ElectricCurrentDensity): - return parser.TryParse(quantityString, formatProvider, ElectricCurrentDensity.From, out quantity); - case Type _ when quantityType == typeof(ElectricCurrentGradient): - return parser.TryParse(quantityString, formatProvider, ElectricCurrentGradient.From, out quantity); - case Type _ when quantityType == typeof(ElectricField): - return parser.TryParse(quantityString, formatProvider, ElectricField.From, out quantity); - case Type _ when quantityType == typeof(ElectricInductance): - return parser.TryParse(quantityString, formatProvider, ElectricInductance.From, out quantity); + case Type _ when quantityType == typeof(FuelEfficiency): + return parser.TryParse(quantityString, formatProvider, FuelEfficiency.From, out quantity); case Type _ when quantityType == typeof(ElectricPotential): return parser.TryParse(quantityString, formatProvider, ElectricPotential.From, out quantity); - case Type _ when quantityType == typeof(ElectricPotentialAc): - return parser.TryParse(quantityString, formatProvider, ElectricPotentialAc.From, out quantity); - case Type _ when quantityType == typeof(ElectricPotentialChangeRate): - return parser.TryParse(quantityString, formatProvider, ElectricPotentialChangeRate.From, out quantity); + case Type _ when quantityType == typeof(VolumePerLength): + return parser.TryParse(quantityString, formatProvider, VolumePerLength.From, out quantity); + case Type _ when quantityType == typeof(AreaMomentOfInertia): + return parser.TryParse(quantityString, formatProvider, AreaMomentOfInertia.From, out quantity); + case Type _ when quantityType == typeof(VitaminA): + return parser.TryParse(quantityString, formatProvider, VitaminA.From, out quantity); + case Type _ when quantityType == typeof(Illuminance): + return parser.TryParse(quantityString, formatProvider, Illuminance.From, out quantity); + case Type _ when quantityType == typeof(Mass): + return parser.TryParse(quantityString, formatProvider, Mass.From, out quantity); + case Type _ when quantityType == typeof(MolarEntropy): + return parser.TryParse(quantityString, formatProvider, MolarEntropy.From, out quantity); + case Type _ when quantityType == typeof(KinematicViscosity): + return parser.TryParse(quantityString, formatProvider, KinematicViscosity.From, out quantity); + case Type _ when quantityType == typeof(Energy): + return parser.TryParse(quantityString, formatProvider, Energy.From, out quantity); + case Type _ when quantityType == typeof(SpecificFuelConsumption): + return parser.TryParse(quantityString, formatProvider, SpecificFuelConsumption.From, out quantity); + case Type _ when quantityType == typeof(PowerRatio): + return parser.TryParse(quantityString, formatProvider, PowerRatio.From, out quantity); + case Type _ when quantityType == typeof(ElectricCurrentDensity): + return parser.TryParse(quantityString, formatProvider, ElectricCurrentDensity.From, out quantity); case Type _ when quantityType == typeof(ElectricPotentialDc): return parser.TryParse(quantityString, formatProvider, ElectricPotentialDc.From, out quantity); - case Type _ when quantityType == typeof(ElectricResistance): - return parser.TryParse(quantityString, formatProvider, ElectricResistance.From, out quantity); + case Type _ when quantityType == typeof(Length): + return parser.TryParse(quantityString, formatProvider, Length.From, out quantity); + case Type _ when quantityType == typeof(MassMomentOfInertia): + return parser.TryParse(quantityString, formatProvider, MassMomentOfInertia.From, out quantity); + case Type _ when quantityType == typeof(WarpingMomentOfInertia): + return parser.TryParse(quantityString, formatProvider, WarpingMomentOfInertia.From, out quantity); + case Type _ when quantityType == typeof(Temperature): + return parser.TryParse(quantityString, formatProvider, Temperature.From, out quantity); + case Type _ when quantityType == typeof(MassConcentration): + return parser.TryParse(quantityString, formatProvider, MassConcentration.From, out quantity); case Type _ when quantityType == typeof(ElectricResistivity): return parser.TryParse(quantityString, formatProvider, ElectricResistivity.From, out quantity); + case Type _ when quantityType == typeof(Turbidity): + return parser.TryParse(quantityString, formatProvider, Turbidity.From, out quantity); + case Type _ when quantityType == typeof(LuminousIntensity): + return parser.TryParse(quantityString, formatProvider, LuminousIntensity.From, out quantity); case Type _ when quantityType == typeof(ElectricSurfaceChargeDensity): return parser.TryParse(quantityString, formatProvider, ElectricSurfaceChargeDensity.From, out quantity); - case Type _ when quantityType == typeof(Energy): - return parser.TryParse(quantityString, formatProvider, Energy.From, out quantity); - case Type _ when quantityType == typeof(Entropy): - return parser.TryParse(quantityString, formatProvider, Entropy.From, out quantity); case Type _ when quantityType == typeof(Force): return parser.TryParse(quantityString, formatProvider, Force.From, out quantity); - case Type _ when quantityType == typeof(ForceChangeRate): - return parser.TryParse(quantityString, formatProvider, ForceChangeRate.From, out quantity); - case Type _ when quantityType == typeof(ForcePerLength): - return parser.TryParse(quantityString, formatProvider, ForcePerLength.From, out quantity); - case Type _ when quantityType == typeof(Frequency): - return parser.TryParse(quantityString, formatProvider, Frequency.From, out quantity); - case Type _ when quantityType == typeof(FuelEfficiency): - return parser.TryParse(quantityString, formatProvider, FuelEfficiency.From, out quantity); + case Type _ when quantityType == typeof(RotationalSpeed): + return parser.TryParse(quantityString, formatProvider, RotationalSpeed.From, out quantity); + case Type _ when quantityType == typeof(SpecificVolume): + return parser.TryParse(quantityString, formatProvider, SpecificVolume.From, out quantity); + case Type _ when quantityType == typeof(SpecificWeight): + return parser.TryParse(quantityString, formatProvider, SpecificWeight.From, out quantity); case Type _ when quantityType == typeof(HeatFlux): return parser.TryParse(quantityString, formatProvider, HeatFlux.From, out quantity); - case Type _ when quantityType == typeof(HeatTransferCoefficient): - return parser.TryParse(quantityString, formatProvider, HeatTransferCoefficient.From, out quantity); - case Type _ when quantityType == typeof(Illuminance): - return parser.TryParse(quantityString, formatProvider, Illuminance.From, out quantity); - case Type _ when quantityType == typeof(Information): - return parser.TryParse(quantityString, formatProvider, Information.From, out quantity); - case Type _ when quantityType == typeof(Irradiance): - return parser.TryParse(quantityString, formatProvider, Irradiance.From, out quantity); - case Type _ when quantityType == typeof(Irradiation): - return parser.TryParse(quantityString, formatProvider, Irradiation.From, out quantity); - case Type _ when quantityType == typeof(KinematicViscosity): - return parser.TryParse(quantityString, formatProvider, KinematicViscosity.From, out quantity); - case Type _ when quantityType == typeof(LapseRate): - return parser.TryParse(quantityString, formatProvider, LapseRate.From, out quantity); - case Type _ when quantityType == typeof(Length): - return parser.TryParse(quantityString, formatProvider, Length.From, out quantity); - case Type _ when quantityType == typeof(Level): - return parser.TryParse(quantityString, formatProvider, Level.From, out quantity); - case Type _ when quantityType == typeof(LinearDensity): - return parser.TryParse(quantityString, formatProvider, LinearDensity.From, out quantity); - case Type _ when quantityType == typeof(LinearPowerDensity): - return parser.TryParse(quantityString, formatProvider, LinearPowerDensity.From, out quantity); - case Type _ when quantityType == typeof(Luminosity): - return parser.TryParse(quantityString, formatProvider, Luminosity.From, out quantity); - case Type _ when quantityType == typeof(LuminousFlux): - return parser.TryParse(quantityString, formatProvider, LuminousFlux.From, out quantity); - case Type _ when quantityType == typeof(LuminousIntensity): - return parser.TryParse(quantityString, formatProvider, LuminousIntensity.From, out quantity); - case Type _ when quantityType == typeof(MagneticField): - return parser.TryParse(quantityString, formatProvider, MagneticField.From, out quantity); - case Type _ when quantityType == typeof(MagneticFlux): - return parser.TryParse(quantityString, formatProvider, MagneticFlux.From, out quantity); - case Type _ when quantityType == typeof(Magnetization): - return parser.TryParse(quantityString, formatProvider, Magnetization.From, out quantity); - case Type _ when quantityType == typeof(Mass): - return parser.TryParse(quantityString, formatProvider, Mass.From, out quantity); - case Type _ when quantityType == typeof(MassConcentration): - return parser.TryParse(quantityString, formatProvider, MassConcentration.From, out quantity); - case Type _ when quantityType == typeof(MassFlow): - return parser.TryParse(quantityString, formatProvider, MassFlow.From, out quantity); - case Type _ when quantityType == typeof(MassFlux): - return parser.TryParse(quantityString, formatProvider, MassFlux.From, out quantity); - case Type _ when quantityType == typeof(MassFraction): - return parser.TryParse(quantityString, formatProvider, MassFraction.From, out quantity); - case Type _ when quantityType == typeof(MassMomentOfInertia): - return parser.TryParse(quantityString, formatProvider, MassMomentOfInertia.From, out quantity); - case Type _ when quantityType == typeof(MolarEnergy): - return parser.TryParse(quantityString, formatProvider, MolarEnergy.From, out quantity); - case Type _ when quantityType == typeof(MolarEntropy): - return parser.TryParse(quantityString, formatProvider, MolarEntropy.From, out quantity); - case Type _ when quantityType == typeof(Molarity): - return parser.TryParse(quantityString, formatProvider, Molarity.From, out quantity); + case Type _ when quantityType == typeof(Torque): + return parser.TryParse(quantityString, formatProvider, Torque.From, out quantity); + case Type _ when quantityType == typeof(Entropy): + return parser.TryParse(quantityString, formatProvider, Entropy.From, out quantity); + case Type _ when quantityType == typeof(TorquePerLength): + return parser.TryParse(quantityString, formatProvider, TorquePerLength.From, out quantity); + case Type _ when quantityType == typeof(Angle): + return parser.TryParse(quantityString, formatProvider, Angle.From, out quantity); + case Type _ when quantityType == typeof(ThermalConductivity): + return parser.TryParse(quantityString, formatProvider, ThermalConductivity.From, out quantity); + case Type _ when quantityType == typeof(BrakeSpecificFuelConsumption): + return parser.TryParse(quantityString, formatProvider, BrakeSpecificFuelConsumption.From, out quantity); case Type _ when quantityType == typeof(MolarMass): return parser.TryParse(quantityString, formatProvider, MolarMass.From, out quantity); - case Type _ when quantityType == typeof(Permeability): - return parser.TryParse(quantityString, formatProvider, Permeability.From, out quantity); - case Type _ when quantityType == typeof(Permittivity): - return parser.TryParse(quantityString, formatProvider, Permittivity.From, out quantity); - case Type _ when quantityType == typeof(Power): - return parser.TryParse(quantityString, formatProvider, Power.From, out quantity); - case Type _ when quantityType == typeof(PowerDensity): - return parser.TryParse(quantityString, formatProvider, PowerDensity.From, out quantity); - case Type _ when quantityType == typeof(PowerRatio): - return parser.TryParse(quantityString, formatProvider, PowerRatio.From, out quantity); - case Type _ when quantityType == typeof(Pressure): - return parser.TryParse(quantityString, formatProvider, Pressure.From, out quantity); - case Type _ when quantityType == typeof(PressureChangeRate): - return parser.TryParse(quantityString, formatProvider, PressureChangeRate.From, out quantity); + case Type _ when quantityType == typeof(MassFlow): + return parser.TryParse(quantityString, formatProvider, MassFlow.From, out quantity); case Type _ when quantityType == typeof(Ratio): return parser.TryParse(quantityString, formatProvider, Ratio.From, out quantity); + case Type _ when quantityType == typeof(Duration): + return parser.TryParse(quantityString, formatProvider, Duration.From, out quantity); + case Type _ when quantityType == typeof(ElectricResistance): + return parser.TryParse(quantityString, formatProvider, ElectricResistance.From, out quantity); + case Type _ when quantityType == typeof(ThermalResistance): + return parser.TryParse(quantityString, formatProvider, ThermalResistance.From, out quantity); + case Type _ when quantityType == typeof(Magnetization): + return parser.TryParse(quantityString, formatProvider, Magnetization.From, out quantity); + case Type _ when quantityType == typeof(TemperatureDelta): + return parser.TryParse(quantityString, formatProvider, TemperatureDelta.From, out quantity); + case Type _ when quantityType == typeof(ElectricAdmittance): + return parser.TryParse(quantityString, formatProvider, ElectricAdmittance.From, out quantity); + case Type _ when quantityType == typeof(ElectricCurrent): + return parser.TryParse(quantityString, formatProvider, ElectricCurrent.From, out quantity); + case Type _ when quantityType == typeof(Density): + return parser.TryParse(quantityString, formatProvider, Density.From, out quantity); + case Type _ when quantityType == typeof(ElectricCurrentGradient): + return parser.TryParse(quantityString, formatProvider, ElectricCurrentGradient.From, out quantity); + case Type _ when quantityType == typeof(TemperatureChangeRate): + return parser.TryParse(quantityString, formatProvider, TemperatureChangeRate.From, out quantity); + case Type _ when quantityType == typeof(ElectricInductance): + return parser.TryParse(quantityString, formatProvider, ElectricInductance.From, out quantity); case Type _ when quantityType == typeof(RatioChangeRate): return parser.TryParse(quantityString, formatProvider, RatioChangeRate.From, out quantity); - case Type _ when quantityType == typeof(ReactiveEnergy): - return parser.TryParse(quantityString, formatProvider, ReactiveEnergy.From, out quantity); + case Type _ when quantityType == typeof(HeatTransferCoefficient): + return parser.TryParse(quantityString, formatProvider, HeatTransferCoefficient.From, out quantity); + case Type _ when quantityType == typeof(MassFraction): + return parser.TryParse(quantityString, formatProvider, MassFraction.From, out quantity); + case Type _ when quantityType == typeof(MagneticField): + return parser.TryParse(quantityString, formatProvider, MagneticField.From, out quantity); + case Type _ when quantityType == typeof(Permeability): + return parser.TryParse(quantityString, formatProvider, Permeability.From, out quantity); + case Type _ when quantityType == typeof(ElectricCharge): + return parser.TryParse(quantityString, formatProvider, ElectricCharge.From, out quantity); + case Type _ when quantityType == typeof(ElectricConductivity): + return parser.TryParse(quantityString, formatProvider, ElectricConductivity.From, out quantity); case Type _ when quantityType == typeof(ReactivePower): return parser.TryParse(quantityString, formatProvider, ReactivePower.From, out quantity); - case Type _ when quantityType == typeof(ReciprocalArea): - return parser.TryParse(quantityString, formatProvider, ReciprocalArea.From, out quantity); - case Type _ when quantityType == typeof(ReciprocalLength): - return parser.TryParse(quantityString, formatProvider, ReciprocalLength.From, out quantity); - case Type _ when quantityType == typeof(RelativeHumidity): - return parser.TryParse(quantityString, formatProvider, RelativeHumidity.From, out quantity); - case Type _ when quantityType == typeof(RotationalAcceleration): - return parser.TryParse(quantityString, formatProvider, RotationalAcceleration.From, out quantity); - case Type _ when quantityType == typeof(RotationalSpeed): - return parser.TryParse(quantityString, formatProvider, RotationalSpeed.From, out quantity); - case Type _ when quantityType == typeof(RotationalStiffness): - return parser.TryParse(quantityString, formatProvider, RotationalStiffness.From, out quantity); - case Type _ when quantityType == typeof(RotationalStiffnessPerLength): - return parser.TryParse(quantityString, formatProvider, RotationalStiffnessPerLength.From, out quantity); + case Type _ when quantityType == typeof(ElectricPotentialAc): + return parser.TryParse(quantityString, formatProvider, ElectricPotentialAc.From, out quantity); + case Type _ when quantityType == typeof(Irradiance): + return parser.TryParse(quantityString, formatProvider, Irradiance.From, out quantity); case Type _ when quantityType == typeof(Scalar): return parser.TryParse(quantityString, formatProvider, Scalar.From, out quantity); - case Type _ when quantityType == typeof(SolidAngle): - return parser.TryParse(quantityString, formatProvider, SolidAngle.From, out quantity); - case Type _ when quantityType == typeof(SpecificEnergy): - return parser.TryParse(quantityString, formatProvider, SpecificEnergy.From, out quantity); - case Type _ when quantityType == typeof(SpecificEntropy): - return parser.TryParse(quantityString, formatProvider, SpecificEntropy.From, out quantity); - case Type _ when quantityType == typeof(SpecificFuelConsumption): - return parser.TryParse(quantityString, formatProvider, SpecificFuelConsumption.From, out quantity); - case Type _ when quantityType == typeof(SpecificVolume): - return parser.TryParse(quantityString, formatProvider, SpecificVolume.From, out quantity); - case Type _ when quantityType == typeof(SpecificWeight): - return parser.TryParse(quantityString, formatProvider, SpecificWeight.From, out quantity); - case Type _ when quantityType == typeof(Speed): - return parser.TryParse(quantityString, formatProvider, Speed.From, out quantity); - case Type _ when quantityType == typeof(StandardVolumeFlow): - return parser.TryParse(quantityString, formatProvider, StandardVolumeFlow.From, out quantity); - case Type _ when quantityType == typeof(Temperature): - return parser.TryParse(quantityString, formatProvider, Temperature.From, out quantity); - case Type _ when quantityType == typeof(TemperatureChangeRate): - return parser.TryParse(quantityString, formatProvider, TemperatureChangeRate.From, out quantity); - case Type _ when quantityType == typeof(TemperatureDelta): - return parser.TryParse(quantityString, formatProvider, TemperatureDelta.From, out quantity); - case Type _ when quantityType == typeof(ThermalConductivity): - return parser.TryParse(quantityString, formatProvider, ThermalConductivity.From, out quantity); - case Type _ when quantityType == typeof(ThermalResistance): - return parser.TryParse(quantityString, formatProvider, ThermalResistance.From, out quantity); - case Type _ when quantityType == typeof(Torque): - return parser.TryParse(quantityString, formatProvider, Torque.From, out quantity); - case Type _ when quantityType == typeof(TorquePerLength): - return parser.TryParse(quantityString, formatProvider, TorquePerLength.From, out quantity); - case Type _ when quantityType == typeof(Turbidity): - return parser.TryParse(quantityString, formatProvider, Turbidity.From, out quantity); - case Type _ when quantityType == typeof(VitaminA): - return parser.TryParse(quantityString, formatProvider, VitaminA.From, out quantity); - case Type _ when quantityType == typeof(Volume): - return parser.TryParse(quantityString, formatProvider, Volume.From, out quantity); - case Type _ when quantityType == typeof(VolumeConcentration): - return parser.TryParse(quantityString, formatProvider, VolumeConcentration.From, out quantity); - case Type _ when quantityType == typeof(VolumeFlow): - return parser.TryParse(quantityString, formatProvider, VolumeFlow.From, out quantity); - case Type _ when quantityType == typeof(VolumePerLength): - return parser.TryParse(quantityString, formatProvider, VolumePerLength.From, out quantity); - case Type _ when quantityType == typeof(VolumetricHeatCapacity): - return parser.TryParse(quantityString, formatProvider, VolumetricHeatCapacity.From, out quantity); - case Type _ when quantityType == typeof(WarpingMomentOfInertia): - return parser.TryParse(quantityString, formatProvider, WarpingMomentOfInertia.From, out quantity); default: return false; } diff --git a/UnitsNet/GeneratedCode/QuantityType.g.cs b/UnitsNet/GeneratedCode/QuantityType.g.cs index f9f36fdc40..bdbc1cf3a7 100644 --- a/UnitsNet/GeneratedCode/QuantityType.g.cs +++ b/UnitsNet/GeneratedCode/QuantityType.g.cs @@ -31,116 +31,116 @@ public enum QuantityType // Missing XML comment for public type or member #pragma warning disable CS1591 Undefined = 0, - Acceleration, + SpecificEntropy, + Molarity, AmountOfSubstance, - AmplitudeRatio, - Angle, - ApparentEnergy, + PressureChangeRate, + CoefficientOfThermalExpansion, + Pressure, + Irradiation, + ElectricConductance, + Acceleration, + RotationalAcceleration, + Volume, + Frequency, + DynamicViscosity, + VolumetricHeatCapacity, + Level, + MolarEnergy, ApparentPower, - Area, + ReactiveEnergy, + LuminousFlux, + SpecificEnergy, + PowerDensity, + ForcePerLength, + Luminosity, + ElectricField, + StandardVolumeFlow, + Power, + AmplitudeRatio, + ReciprocalArea, + ForceChangeRate, + SolidAngle, + RelativeHumidity, + RotationalStiffnessPerLength, + VolumeFlow, + LinearPowerDensity, + ElectricPotentialChangeRate, + Capacitance, + LinearDensity, + ReciprocalLength, AreaDensity, - AreaMomentOfInertia, + MassFlux, + MagneticFlux, + ApparentEnergy, + Speed, BitRate, - BrakeSpecificFuelConsumption, - Capacitance, - CoefficientOfThermalExpansion, - Density, - Duration, - DynamicViscosity, - ElectricAdmittance, - ElectricCharge, + Area, + VolumeConcentration, + Permittivity, + Information, + LapseRate, + RotationalStiffness, ElectricChargeDensity, - ElectricConductance, - ElectricConductivity, - ElectricCurrent, - ElectricCurrentDensity, - ElectricCurrentGradient, - ElectricField, - ElectricInductance, + FuelEfficiency, ElectricPotential, - ElectricPotentialAc, - ElectricPotentialChangeRate, + VolumePerLength, + AreaMomentOfInertia, + VitaminA, + Illuminance, + Mass, + MolarEntropy, + KinematicViscosity, + Energy, + SpecificFuelConsumption, + PowerRatio, + ElectricCurrentDensity, ElectricPotentialDc, - ElectricResistance, + Length, + MassMomentOfInertia, + WarpingMomentOfInertia, + Temperature, + MassConcentration, ElectricResistivity, + Turbidity, + LuminousIntensity, ElectricSurfaceChargeDensity, - Energy, - Entropy, Force, - ForceChangeRate, - ForcePerLength, - Frequency, - FuelEfficiency, + RotationalSpeed, + SpecificVolume, + SpecificWeight, HeatFlux, - HeatTransferCoefficient, - Illuminance, - Information, - Irradiance, - Irradiation, - KinematicViscosity, - LapseRate, - Length, - Level, - LinearDensity, - LinearPowerDensity, - Luminosity, - LuminousFlux, - LuminousIntensity, - MagneticField, - MagneticFlux, - Magnetization, - Mass, - MassConcentration, - MassFlow, - MassFlux, - MassFraction, - MassMomentOfInertia, - MolarEnergy, - MolarEntropy, - Molarity, + Torque, + Entropy, + TorquePerLength, + Angle, + ThermalConductivity, + BrakeSpecificFuelConsumption, MolarMass, - Permeability, - Permittivity, - Power, - PowerDensity, - PowerRatio, - Pressure, - PressureChangeRate, + MassFlow, Ratio, + Duration, + ElectricResistance, + ThermalResistance, + Magnetization, + TemperatureDelta, + ElectricAdmittance, + ElectricCurrent, + Density, + ElectricCurrentGradient, + TemperatureChangeRate, + ElectricInductance, RatioChangeRate, - ReactiveEnergy, + HeatTransferCoefficient, + MassFraction, + MagneticField, + Permeability, + ElectricCharge, + ElectricConductivity, ReactivePower, - ReciprocalArea, - ReciprocalLength, - RelativeHumidity, - RotationalAcceleration, - RotationalSpeed, - RotationalStiffness, - RotationalStiffnessPerLength, + ElectricPotentialAc, + Irradiance, Scalar, - SolidAngle, - SpecificEnergy, - SpecificEntropy, - SpecificFuelConsumption, - SpecificVolume, - SpecificWeight, - Speed, - StandardVolumeFlow, - Temperature, - TemperatureChangeRate, - TemperatureDelta, - ThermalConductivity, - ThermalResistance, - Torque, - TorquePerLength, - Turbidity, - VitaminA, - Volume, - VolumeConcentration, - VolumeFlow, - VolumePerLength, - VolumetricHeatCapacity, - WarpingMomentOfInertia, // Missing XML comment for public type or member #pragma warning restore CS1591 } diff --git a/UnitsNet/GeneratedCode/UnitAbbreviationsCache.g.cs b/UnitsNet/GeneratedCode/UnitAbbreviationsCache.g.cs index 0b76e8daf3..f5fd5de32b 100644 --- a/UnitsNet/GeneratedCode/UnitAbbreviationsCache.g.cs +++ b/UnitsNet/GeneratedCode/UnitAbbreviationsCache.g.cs @@ -29,6 +29,152 @@ public partial class UnitAbbreviationsCache private static readonly (string CultureName, Type UnitType, int UnitValue, string[] UnitAbbreviations)[] GeneratedLocalizations = new [] { + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.BtuPerPoundFahrenheit, new string[]{"BTU/lb·°F", "BTU/lbm·°F"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.CaloriePerGramKelvin, new string[]{"cal/g.K"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.JoulePerKilogramDegreeCelsius, new string[]{"J/kg.C"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.JoulePerKilogramKelvin, new string[]{"J/kg.K"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilocaloriePerGramKelvin, new string[]{"kcal/g.K"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius, new string[]{"kJ/kg.C"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilojoulePerKilogramKelvin, new string[]{"kJ/kg.K"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius, new string[]{"MJ/kg.C"}), + ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.MegajoulePerKilogramKelvin, new string[]{"MJ/kg.K"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.CentimolesPerLiter, new string[]{"cmol/L", "cM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.DecimolesPerLiter, new string[]{"dmol/L", "dM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MicromolesPerLiter, new string[]{"µmol/L", "µM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MillimolesPerLiter, new string[]{"mmol/L", "mM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MolesPerCubicMeter, new string[]{"mol/m³"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MolesPerLiter, new string[]{"mol/L", "M"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.NanomolesPerLiter, new string[]{"nmol/L", "nM"}), + ("en-US", typeof(MolarityUnit), (int)MolarityUnit.PicomolesPerLiter, new string[]{"pmol/L", "pM"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Centimole, new string[]{"cmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.CentipoundMole, new string[]{"clbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Decimole, new string[]{"dmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.DecipoundMole, new string[]{"dlbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Kilomole, new string[]{"kmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.KilopoundMole, new string[]{"klbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Megamole, new string[]{"Mmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Micromole, new string[]{"µmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.MicropoundMole, new string[]{"µlbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Millimole, new string[]{"mmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.MillipoundMole, new string[]{"mlbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Mole, new string[]{"mol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Nanomole, new string[]{"nmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.NanopoundMole, new string[]{"nlbmol"}), + ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.PoundMole, new string[]{"lbmol"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.AtmospherePerSecond, new string[]{"atm/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.AtmospherePerSecond, new string[]{"атм/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerMinute, new string[]{"kPa/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerMinute, new string[]{"кПа/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerSecond, new string[]{"kPa/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerSecond, new string[]{"кПа/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, new string[]{"ksi/min", "kipf/in²/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, new string[]{"ksi/мин", "kipf/in²/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, new string[]{"ksi/s", "kipf/in²/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, new string[]{"ksi/с", "kipf/in²/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerMinute, new string[]{"MPa/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerMinute, new string[]{"МПа/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerSecond, new string[]{"MPa/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerSecond, new string[]{"МПа/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, new string[]{"Mpsi/min", "Mlb/in²/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, new string[]{"Мpsi/мин", "Мlb/in²/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, new string[]{"Mpsi/s", "Mlb/in²/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, new string[]{"Мpsi/с", "Мlb/in²/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerMinute, new string[]{"Pa/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerMinute, new string[]{"Па/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerSecond, new string[]{"Pa/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerSecond, new string[]{"Па/с"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, new string[]{"psi/min", "lb/in²/min"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, new string[]{"psi/мин", "lb/in²/мин"}), + ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, new string[]{"psi/s", "lb/in²/s"}), + ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, new string[]{"psi/с", "lb/in²/с"}), + ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseDegreeCelsius, new string[]{"°C⁻¹", "1/°C"}), + ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseDegreeFahrenheit, new string[]{"°F⁻¹", "1/°F"}), + ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseKelvin, new string[]{"K⁻¹", "1/K"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Atmosphere, new string[]{"atm"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Atmosphere, new string[]{"атм"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Bar, new string[]{"bar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Bar, new string[]{"бар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Centibar, new string[]{"cbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Centibar, new string[]{"сбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Decapascal, new string[]{"daPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Decapascal, new string[]{"даПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Decibar, new string[]{"dbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Decibar, new string[]{"дбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.DynePerSquareCentimeter, new string[]{"dyn/cm²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.FootOfElevation, new string[]{"ft of elevation"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.FootOfHead, new string[]{"ft of head"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Gigapascal, new string[]{"GPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Gigapascal, new string[]{"ГПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Hectopascal, new string[]{"hPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Hectopascal, new string[]{"гПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.InchOfMercury, new string[]{"inHg"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.InchOfWaterColumn, new string[]{"wc"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Kilobar, new string[]{"kbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Kilobar, new string[]{"кбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareCentimeter, new string[]{"kgf/cm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareCentimeter, new string[]{"кгс/см²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMeter, new string[]{"kgf/m²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMeter, new string[]{"кгс/м²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMillimeter, new string[]{"kgf/mm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMillimeter, new string[]{"кгс/мм²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareCentimeter, new string[]{"kN/cm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareCentimeter, new string[]{"кН/см²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMeter, new string[]{"kN/m²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMeter, new string[]{"кН/м²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMillimeter, new string[]{"kN/mm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMillimeter, new string[]{"кН/мм²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Kilopascal, new string[]{"kPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Kilopascal, new string[]{"кПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareFoot, new string[]{"kipf/ft²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareInch, new string[]{"ksi", "kipf/in²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareInch, new string[]{"ksi", "kipf/in²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Megabar, new string[]{"Mbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Megabar, new string[]{"Мбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.MeganewtonPerSquareMeter, new string[]{"MN/m²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.MeganewtonPerSquareMeter, new string[]{"МН/м²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Megapascal, new string[]{"MPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Megapascal, new string[]{"МПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.MeterOfElevation, new string[]{"m of elevation"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.MeterOfHead, new string[]{"m of head"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Microbar, new string[]{"µbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Microbar, new string[]{"мкбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Micropascal, new string[]{"µPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Micropascal, new string[]{"мкПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Millibar, new string[]{"mbar"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Millibar, new string[]{"мбар"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.MillimeterOfMercury, new string[]{"mmHg"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.MillimeterOfMercury, new string[]{"мм рт.ст."}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Millipascal, new string[]{"mPa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Millipascal, new string[]{"мПа"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareCentimeter, new string[]{"N/cm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareCentimeter, new string[]{"Н/см²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMeter, new string[]{"N/m²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMeter, new string[]{"Н/м²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMillimeter, new string[]{"N/mm²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMillimeter, new string[]{"Н/мм²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Pascal, new string[]{"Pa"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Pascal, new string[]{"Па"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareFoot, new string[]{"lb/ft²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareInch, new string[]{"psi", "lb/in²"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareInch, new string[]{"psi", "lb/in²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundPerInchSecondSquared, new string[]{"lbm/(in·s²)", "lb/(in·s²)"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.TechnicalAtmosphere, new string[]{"at"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.TechnicalAtmosphere, new string[]{"ат"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareCentimeter, new string[]{"tf/cm²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareMeter, new string[]{"tf/m²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareMillimeter, new string[]{"tf/mm²"}), + ("en-US", typeof(PressureUnit), (int)PressureUnit.Torr, new string[]{"torr"}), + ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Torr, new string[]{"торр"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareCentimeter, new string[]{"J/cm²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareMeter, new string[]{"J/m²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareMillimeter, new string[]{"J/mm²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.KilojoulePerSquareMeter, new string[]{"kJ/m²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.KilowattHourPerSquareMeter, new string[]{"kWh/m²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.MillijoulePerSquareCentimeter, new string[]{"mJ/cm²"}), + ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.WattHourPerSquareMeter, new string[]{"Wh/m²"}), + ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Microsiemens, new string[]{"µS"}), + ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Millisiemens, new string[]{"mS"}), + ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Siemens, new string[]{"S"}), ("en-US", typeof(AccelerationUnit), (int)AccelerationUnit.CentimeterPerSecondSquared, new string[]{"cm/s²"}), ("ru-RU", typeof(AccelerationUnit), (int)AccelerationUnit.CentimeterPerSecondSquared, new string[]{"см/с²"}), ("en-US", typeof(AccelerationUnit), (int)AccelerationUnit.DecimeterPerSecondSquared, new string[]{"dm/s²"}), @@ -57,212 +203,125 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("ru-RU", typeof(AccelerationUnit), (int)AccelerationUnit.NanometerPerSecondSquared, new string[]{"нм/с²"}), ("en-US", typeof(AccelerationUnit), (int)AccelerationUnit.StandardGravity, new string[]{"g"}), ("ru-RU", typeof(AccelerationUnit), (int)AccelerationUnit.StandardGravity, new string[]{"g"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Centimole, new string[]{"cmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.CentipoundMole, new string[]{"clbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Decimole, new string[]{"dmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.DecipoundMole, new string[]{"dlbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Kilomole, new string[]{"kmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.KilopoundMole, new string[]{"klbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Megamole, new string[]{"Mmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Micromole, new string[]{"µmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.MicropoundMole, new string[]{"µlbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Millimole, new string[]{"mmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.MillipoundMole, new string[]{"mlbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Mole, new string[]{"mol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.Nanomole, new string[]{"nmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.NanopoundMole, new string[]{"nlbmol"}), - ("en-US", typeof(AmountOfSubstanceUnit), (int)AmountOfSubstanceUnit.PoundMole, new string[]{"lbmol"}), - ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelMicrovolt, new string[]{"dBµV"}), - ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelMillivolt, new string[]{"dBmV"}), - ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelUnloaded, new string[]{"dBu"}), - ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelVolt, new string[]{"dBV"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Arcminute, new string[]{"'", "arcmin", "amin", "min"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Arcsecond, new string[]{"″", "arcsec", "asec", "sec"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Centiradian, new string[]{"crad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Centiradian, new string[]{"срад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Deciradian, new string[]{"drad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Deciradian, new string[]{"драд"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Degree, new string[]{"°", "deg"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Degree, new string[]{"°"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Gradian, new string[]{"g"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Gradian, new string[]{"g"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Microdegree, new string[]{"µ°", "µdeg"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Microdegree, new string[]{"мк°"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Microradian, new string[]{"µrad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Microradian, new string[]{"мкрад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Millidegree, new string[]{"m°", "mdeg"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Millidegree, new string[]{"м°"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Milliradian, new string[]{"mrad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Milliradian, new string[]{"мрад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Nanodegree, new string[]{"n°", "ndeg"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Nanodegree, new string[]{"н°"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Nanoradian, new string[]{"nrad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Nanoradian, new string[]{"нрад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.NatoMil, new string[]{"mil"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Radian, new string[]{"rad"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Radian, new string[]{"рад"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Revolution, new string[]{"r"}), - ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Revolution, new string[]{"r"}), - ("en-US", typeof(AngleUnit), (int)AngleUnit.Tilt, new string[]{"sin(θ)"}), - ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.KilovoltampereHour, new string[]{"kVAh"}), - ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.MegavoltampereHour, new string[]{"MVAh"}), - ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.VoltampereHour, new string[]{"VAh"}), - ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Gigavoltampere, new string[]{"GVA"}), - ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Kilovoltampere, new string[]{"kVA"}), - ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Megavoltampere, new string[]{"MVA"}), - ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Voltampere, new string[]{"VA"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"ac"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"акр"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"英亩"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"ha"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"га"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"英亩"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"cm²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"см²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"平方厘米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"dm²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"дм²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"平方分米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"ft²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"фут²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"平方英尺"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"in²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"дюйм²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"平方英寸"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"km²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"км²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"平方公里"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"m²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"м²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"平方米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"µm²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"мкм²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"平方微米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"mi²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"миля²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"平方英里"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"mm²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"мм²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"平方毫米"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"nmi²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"морск.миля²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"平方海里"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"yd²"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"ярд²"}), - ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"平方码"}), - ("en-US", typeof(AreaUnit), (int)AreaUnit.UsSurveySquareFoot, new string[]{"ft² (US)"}), - ("ru-RU", typeof(AreaUnit), (int)AreaUnit.UsSurveySquareFoot, new string[]{"фут² (US)"}), - ("en-US", typeof(AreaDensityUnit), (int)AreaDensityUnit.KilogramPerSquareMeter, new string[]{"kg/m²"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.CentimeterToTheFourth, new string[]{"cm⁴", "cm^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.DecimeterToTheFourth, new string[]{"dm⁴", "dm^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.FootToTheFourth, new string[]{"ft⁴", "ft^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.InchToTheFourth, new string[]{"in⁴", "in^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.MeterToTheFourth, new string[]{"m⁴", "m^4"}), - ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.MillimeterToTheFourth, new string[]{"mm⁴", "mm^4"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.BitPerSecond, new string[]{"bit/s", "bps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.BytePerSecond, new string[]{"B/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExabitPerSecond, new string[]{"Ebit/s", "Ebps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExabytePerSecond, new string[]{"EB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExbibitPerSecond, new string[]{"Eibit/s", "Eibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExbibytePerSecond, new string[]{"EiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GibibitPerSecond, new string[]{"Gibit/s", "Gibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GibibytePerSecond, new string[]{"GiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GigabitPerSecond, new string[]{"Gbit/s", "Gbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GigabytePerSecond, new string[]{"GB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KibibitPerSecond, new string[]{"Kibit/s", "Kibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KibibytePerSecond, new string[]{"KiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KilobitPerSecond, new string[]{"kbit/s", "kbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KilobytePerSecond, new string[]{"kB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MebibitPerSecond, new string[]{"Mibit/s", "Mibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MebibytePerSecond, new string[]{"MiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MegabitPerSecond, new string[]{"Mbit/s", "Mbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MegabytePerSecond, new string[]{"MB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PebibitPerSecond, new string[]{"Pibit/s", "Pibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PebibytePerSecond, new string[]{"PiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PetabitPerSecond, new string[]{"Pbit/s", "Pbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PetabytePerSecond, new string[]{"PB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TebibitPerSecond, new string[]{"Tibit/s", "Tibps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TebibytePerSecond, new string[]{"TiB/s"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TerabitPerSecond, new string[]{"Tbit/s", "Tbps"}), - ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TerabytePerSecond, new string[]{"TB/s"}), - ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour, new string[]{"g/kWh"}), - ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.KilogramPerJoule, new string[]{"kg/J"}), - ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, new string[]{"lb/hph"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Farad, new string[]{"F"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Kilofarad, new string[]{"kF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Megafarad, new string[]{"MF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Microfarad, new string[]{"µF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Millifarad, new string[]{"mF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Nanofarad, new string[]{"nF"}), - ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Picofarad, new string[]{"pF"}), - ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseDegreeCelsius, new string[]{"°C⁻¹", "1/°C"}), - ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseDegreeFahrenheit, new string[]{"°F⁻¹", "1/°F"}), - ("en-US", typeof(CoefficientOfThermalExpansionUnit), (int)CoefficientOfThermalExpansionUnit.InverseKelvin, new string[]{"K⁻¹", "1/K"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerDeciliter, new string[]{"cg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerLiter, new string[]{"cg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerMilliliter, new string[]{"cg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerDeciliter, new string[]{"dg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerLiter, new string[]{"dg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerMilliliter, new string[]{"dg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicCentimeter, new string[]{"g/cm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMeter, new string[]{"g/m³"}), - ("ru-RU", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMeter, new string[]{"г/м³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMillimeter, new string[]{"g/mm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerDeciliter, new string[]{"g/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerLiter, new string[]{"g/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerMilliliter, new string[]{"g/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicCentimeter, new string[]{"kg/cm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMeter, new string[]{"kg/m³"}), - ("ru-RU", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMeter, new string[]{"кг/м³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMillimeter, new string[]{"kg/mm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerLiter, new string[]{"kg/l"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilopoundPerCubicFoot, new string[]{"kip/ft³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.KilopoundPerCubicInch, new string[]{"kip/in³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerCubicMeter, new string[]{"µg/m³"}), - ("ru-RU", typeof(DensityUnit), (int)DensityUnit.MicrogramPerCubicMeter, new string[]{"мкг/м³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerDeciliter, new string[]{"µg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerLiter, new string[]{"µg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerMilliliter, new string[]{"µg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerCubicMeter, new string[]{"mg/m³"}), - ("ru-RU", typeof(DensityUnit), (int)DensityUnit.MilligramPerCubicMeter, new string[]{"мг/м³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerDeciliter, new string[]{"mg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerLiter, new string[]{"mg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerMilliliter, new string[]{"mg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerDeciliter, new string[]{"ng/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerLiter, new string[]{"ng/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerMilliliter, new string[]{"ng/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerDeciliter, new string[]{"pg/dl"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerLiter, new string[]{"pg/L"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerMilliliter, new string[]{"pg/ml"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerCubicFoot, new string[]{"lb/ft³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerCubicInch, new string[]{"lb/in³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerImperialGallon, new string[]{"ppg (imp.)"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerUSGallon, new string[]{"ppg (U.S.)"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.SlugPerCubicFoot, new string[]{"slug/ft³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicCentimeter, new string[]{"t/cm³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicMeter, new string[]{"t/m³"}), - ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicMillimeter, new string[]{"t/mm³"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Day, new string[]{"d", "day", "days"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Day, new string[]{"сут", "д"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Hour, new string[]{"h", "hr", "hrs", "hour", "hours"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Hour, new string[]{"ч", "час"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.JulianYear, new string[]{"jyr", "jyear", "jyears"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Microsecond, new string[]{"µs", "µsec", "µsecs", "µsecond", "µseconds"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Microsecond, new string[]{"мксек", "мкс"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Millisecond, new string[]{"ms", "msec", "msecs", "msecond", "mseconds"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Millisecond, new string[]{"мсек", "мс"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Minute, new string[]{"m", "min", "minute", "minutes"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Minute, new string[]{"мин"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Month30, new string[]{"mo", "month", "months"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Month30, new string[]{"месяц"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Nanosecond, new string[]{"ns", "nsec", "nsecs", "nsecond", "nseconds"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Nanosecond, new string[]{"нсек", "нс"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Second, new string[]{"s", "sec", "secs", "second", "seconds"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Second, new string[]{"сек", "с"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Week, new string[]{"wk", "week", "weeks"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Week, new string[]{"нед"}), - ("en-US", typeof(DurationUnit), (int)DurationUnit.Year365, new string[]{"yr", "year", "years"}), - ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Year365, new string[]{"год"}), + ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.DegreePerSecondSquared, new string[]{"°/s²", "deg/s²"}), + ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RadianPerSecondSquared, new string[]{"rad/s²"}), + ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RevolutionPerMinutePerSecond, new string[]{"rpm/s"}), + ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RevolutionPerSecondSquared, new string[]{"r/s²"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.AcreFoot, new string[]{"ac-ft", "acre-foot", "acre-feet"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.BoardFoot, new string[]{"bf", "board foot", "board feet"}), + ("fr-CA", typeof(VolumeUnit), (int)VolumeUnit.BoardFoot, new string[]{"pmp", "pied-planche", "pied de planche"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Centiliter, new string[]{"cl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Centiliter, new string[]{"сл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicCentimeter, new string[]{"cm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicCentimeter, new string[]{"см³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicDecimeter, new string[]{"dm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicDecimeter, new string[]{"дм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicFoot, new string[]{"ft³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicFoot, new string[]{"фут³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicHectometer, new string[]{"hm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicHectometer, new string[]{"гм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicInch, new string[]{"in³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicInch, new string[]{"дюйм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicKilometer, new string[]{"km³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicKilometer, new string[]{"км³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMeter, new string[]{"m³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMeter, new string[]{"м³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMicrometer, new string[]{"µm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMicrometer, new string[]{"мкм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMile, new string[]{"mi³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMile, new string[]{"миля³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMillimeter, new string[]{"mm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMillimeter, new string[]{"мм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicYard, new string[]{"yd³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicYard, new string[]{"ярд³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.DecausGallon, new string[]{"dagal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.DecausGallon, new string[]{"даАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Deciliter, new string[]{"dl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Deciliter, new string[]{"дл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.DeciusGallon, new string[]{"dgal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.DeciusGallon, new string[]{"дАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectocubicFoot, new string[]{"hft³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectocubicFoot, new string[]{"гфут³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectocubicMeter, new string[]{"hm³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectocubicMeter, new string[]{"гм³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Hectoliter, new string[]{"hl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Hectoliter, new string[]{"гл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectousGallon, new string[]{"hgal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectousGallon, new string[]{"гАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialBeerBarrel, new string[]{"bl (imp.)"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialGallon, new string[]{"gal (imp.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.ImperialGallon, new string[]{"Английский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialOunce, new string[]{"oz (imp.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.ImperialOunce, new string[]{"Английская унция"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialPint, new string[]{"pt (imp.)", "UK pt", "pt", "p"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilocubicFoot, new string[]{"kft³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilocubicFoot, new string[]{"кфут³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilocubicMeter, new string[]{"km³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilocubicMeter, new string[]{"км³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KiloimperialGallon, new string[]{"kgal (imp.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KiloimperialGallon, new string[]{"кАнглийский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Kiloliter, new string[]{"kl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Kiloliter, new string[]{"кл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilousGallon, new string[]{"kgal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilousGallon, new string[]{"кАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Liter, new string[]{"l"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Liter, new string[]{"л"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegacubicFoot, new string[]{"Mft³"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegacubicFoot, new string[]{"Мфут³"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegaimperialGallon, new string[]{"Mgal (imp.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegaimperialGallon, new string[]{"МАнглийский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Megaliter, new string[]{"Ml"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Megaliter, new string[]{"Мл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegausGallon, new string[]{"Mgal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegausGallon, new string[]{"МАмериканский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MetricCup, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{"tsp", "t", "ts", "tspn", "t.", "ts.", "tsp.", "tspn.", "teaspoon"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Microliter, new string[]{"µl"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Microliter, new string[]{"мкл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Milliliter, new string[]{"ml"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Milliliter, new string[]{"мл"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.OilBarrel, new string[]{"bbl"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsBeerBarrel, new string[]{"bl (U.S.)"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsCustomaryCup, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsGallon, new string[]{"gal (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsGallon, new string[]{"Американский галлон"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsLegalCup, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsOunce, new string[]{"oz (U.S.)"}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsOunce, new string[]{"Американская унция"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsPint, new string[]{"pt (U.S.)"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsQuart, new string[]{"qt (U.S.)"}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), + ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), + ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), + ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.BeatPerMinute, new string[]{"bpm"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.BUnit, new string[]{"B Units"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.CyclePerHour, new string[]{"cph"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.CyclePerMinute, new string[]{"cpm"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Gigahertz, new string[]{"GHz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Gigahertz, new string[]{"ГГц"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Hertz, new string[]{"Hz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Hertz, new string[]{"Гц"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Kilohertz, new string[]{"kHz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Kilohertz, new string[]{"кГц"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Megahertz, new string[]{"MHz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Megahertz, new string[]{"МГц"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.PerSecond, new string[]{"s⁻¹"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.PerSecond, new string[]{"с⁻¹"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.RadianPerSecond, new string[]{"rad/s"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.RadianPerSecond, new string[]{"рад/с"}), + ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Terahertz, new string[]{"THz"}), + ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Terahertz, new string[]{"ТГц"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.Centipoise, new string[]{"cP"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.MicropascalSecond, new string[]{"µPa·s", "µPaS"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.MillipascalSecond, new string[]{"mPa·s", "mPaS"}), @@ -273,212 +332,97 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.PoundForceSecondPerSquareInch, new string[]{"lbf·s/in²"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.PoundPerFootSecond, new string[]{"lb/ft·s"}), ("en-US", typeof(DynamicViscosityUnit), (int)DynamicViscosityUnit.Reyn, new string[]{"reyn"}), - ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Microsiemens, new string[]{"µS"}), - ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Millisiemens, new string[]{"mS"}), - ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Nanosiemens, new string[]{"nS"}), - ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Siemens, new string[]{"S"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.AmpereHour, new string[]{"A-h", "Ah"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.Coulomb, new string[]{"C"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.KiloampereHour, new string[]{"kA-h", "kAh"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.MegaampereHour, new string[]{"MA-h", "MAh"}), - ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.MilliampereHour, new string[]{"mA-h", "mAh"}), - ("en-US", typeof(ElectricChargeDensityUnit), (int)ElectricChargeDensityUnit.CoulombPerCubicMeter, new string[]{"C/m³"}), - ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Microsiemens, new string[]{"µS"}), - ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Millisiemens, new string[]{"mS"}), - ("en-US", typeof(ElectricConductanceUnit), (int)ElectricConductanceUnit.Siemens, new string[]{"S"}), - ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerFoot, new string[]{"S/ft"}), - ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerInch, new string[]{"S/in"}), - ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerMeter, new string[]{"S/m"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Ampere, new string[]{"A"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Centiampere, new string[]{"cA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Kiloampere, new string[]{"kA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Megaampere, new string[]{"MA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Microampere, new string[]{"µA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Milliampere, new string[]{"mA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Nanoampere, new string[]{"nA"}), - ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Picoampere, new string[]{"pA"}), - ("en-US", typeof(ElectricCurrentDensityUnit), (int)ElectricCurrentDensityUnit.AmperePerSquareFoot, new string[]{"A/ft²"}), - ("en-US", typeof(ElectricCurrentDensityUnit), (int)ElectricCurrentDensityUnit.AmperePerSquareInch, new string[]{"A/in²"}), - ("en-US", typeof(ElectricCurrentDensityUnit), (int)ElectricCurrentDensityUnit.AmperePerSquareMeter, new string[]{"A/m²"}), - ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerMicrosecond, new string[]{"A/μs"}), - ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerMillisecond, new string[]{"A/ms"}), - ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerNanosecond, new string[]{"A/ns"}), - ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerSecond, new string[]{"A/s"}), - ("en-US", typeof(ElectricFieldUnit), (int)ElectricFieldUnit.VoltPerMeter, new string[]{"V/m"}), - ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Henry, new string[]{"H"}), - ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Microhenry, new string[]{"µH"}), - ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Millihenry, new string[]{"mH"}), - ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Nanohenry, new string[]{"nH"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Kilovolt, new string[]{"kV"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Kilovolt, new string[]{"кВ"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Megavolt, new string[]{"MV"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Megavolt, new string[]{"МВ"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Microvolt, new string[]{"µV"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Microvolt, new string[]{"мкВ"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Millivolt, new string[]{"mV"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Millivolt, new string[]{"мВ"}), - ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Volt, new string[]{"V"}), - ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Volt, new string[]{"В"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.KilovoltAc, new string[]{"kVac"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MegavoltAc, new string[]{"MVac"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MicrovoltAc, new string[]{"µVac"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MillivoltAc, new string[]{"mVac"}), - ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.VoltAc, new string[]{"Vac"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerHour, new string[]{"kV/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond, new string[]{"kV/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerMinute, new string[]{"kV/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerSecond, new string[]{"kV/s"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerHour, new string[]{"MV/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond, new string[]{"MV/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerMinute, new string[]{"MV/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerSecond, new string[]{"MV/s"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerHour, new string[]{"µV/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond, new string[]{"µV/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerMinute, new string[]{"µV/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerSecond, new string[]{"µV/s"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerHour, new string[]{"mV/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond, new string[]{"mV/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerMinute, new string[]{"mV/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerSecond, new string[]{"mV/s"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerHour, new string[]{"V/h"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerMicrosecond, new string[]{"V/μs"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerMinute, new string[]{"V/min"}), - ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerSecond, new string[]{"V/s"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.KilovoltDc, new string[]{"kVdc"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.MegavoltDc, new string[]{"MVdc"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.MicrovoltDc, new string[]{"µVdc"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.MillivoltDc, new string[]{"mVdc"}), - ("en-US", typeof(ElectricPotentialDcUnit), (int)ElectricPotentialDcUnit.VoltDc, new string[]{"Vdc"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Gigaohm, new string[]{"GΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Kiloohm, new string[]{"kΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Megaohm, new string[]{"MΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Microohm, new string[]{"µΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Milliohm, new string[]{"mΩ"}), - ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Ohm, new string[]{"Ω"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.KiloohmCentimeter, new string[]{"kΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.KiloohmMeter, new string[]{"kΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MegaohmCentimeter, new string[]{"MΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MegaohmMeter, new string[]{"MΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MicroohmCentimeter, new string[]{"µΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MicroohmMeter, new string[]{"µΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MilliohmCentimeter, new string[]{"mΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MilliohmMeter, new string[]{"mΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.NanoohmCentimeter, new string[]{"nΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.NanoohmMeter, new string[]{"nΩ·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.OhmCentimeter, new string[]{"Ω·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.OhmMeter, new string[]{"Ω·m"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.PicoohmCentimeter, new string[]{"pΩ·cm"}), - ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.PicoohmMeter, new string[]{"pΩ·m"}), - ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter, new string[]{"C/cm²"}), - ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch, new string[]{"C/in²"}), - ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareMeter, new string[]{"C/m²"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.BritishThermalUnit, new string[]{"BTU"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Calorie, new string[]{"cal"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.DecathermEc, new string[]{"Dth (E.C.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.DecathermEc, new string[]{"Европейский декатерм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.DecathermImperial, new string[]{"Dth (imp.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.DecathermImperial, new string[]{"Английский декатерм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.DecathermUs, new string[]{"Dth (U.S.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.DecathermUs, new string[]{"Американский декатерм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.ElectronVolt, new string[]{"eV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.ElectronVolt, new string[]{"эВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Erg, new string[]{"erg"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.FootPound, new string[]{"ft·lb"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.GigabritishThermalUnit, new string[]{"GBTU"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.GigaelectronVolt, new string[]{"GeV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.GigaelectronVolt, new string[]{"ГэВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Gigajoule, new string[]{"GJ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.GigawattDay, new string[]{"GWd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.GigawattDay, new string[]{"ГВт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.GigawattHour, new string[]{"GWh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.GigawattHour, new string[]{"ГВт/ч"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.HorsepowerHour, new string[]{"hp·h"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Joule, new string[]{"J"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KilobritishThermalUnit, new string[]{"kBTU"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Kilocalorie, new string[]{"kcal"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KiloelectronVolt, new string[]{"keV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.KiloelectronVolt, new string[]{"кэВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Kilojoule, new string[]{"kJ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KilowattDay, new string[]{"kWd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.KilowattDay, new string[]{"кВт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KilowattHour, new string[]{"kWh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.KilowattHour, new string[]{"кВт/ч"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegabritishThermalUnit, new string[]{"MBTU"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Megacalorie, new string[]{"Mcal"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegaelectronVolt, new string[]{"MeV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.MegaelectronVolt, new string[]{"МэВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Megajoule, new string[]{"MJ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegawattDay, new string[]{"MWd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.MegawattDay, new string[]{"МВт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegawattHour, new string[]{"MWh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.MegawattHour, new string[]{"МВт/ч"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Millijoule, new string[]{"mJ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.TeraelectronVolt, new string[]{"TeV"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.TeraelectronVolt, new string[]{"ТэВ"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.TerawattDay, new string[]{"TWd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.TerawattDay, new string[]{"ТВт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.TerawattHour, new string[]{"TWh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.TerawattHour, new string[]{"ТВт/ч"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.ThermEc, new string[]{"th (E.C.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.ThermEc, new string[]{"Европейский терм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.ThermImperial, new string[]{"th (imp.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.ThermImperial, new string[]{"Английский терм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.ThermUs, new string[]{"th (U.S.)"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.ThermUs, new string[]{"Американский терм"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.WattDay, new string[]{"Wd"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.WattDay, new string[]{"Вт/д"}), - ("en-US", typeof(EnergyUnit), (int)EnergyUnit.WattHour, new string[]{"Wh"}), - ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.WattHour, new string[]{"Вт/ч"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.CaloriePerKelvin, new string[]{"cal/K"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.JoulePerDegreeCelsius, new string[]{"J/C"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.JoulePerKelvin, new string[]{"J/K"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilocaloriePerKelvin, new string[]{"kcal/K"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilojoulePerDegreeCelsius, new string[]{"kJ/C"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilojoulePerKelvin, new string[]{"kJ/K"}), - ("en-US", typeof(EntropyUnit), (int)EntropyUnit.MegajoulePerKelvin, new string[]{"MJ/K"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Decanewton, new string[]{"daN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Decanewton, new string[]{"даН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Dyn, new string[]{"dyn"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Dyn, new string[]{"дин"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.KilogramForce, new string[]{"kgf"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KilogramForce, new string[]{"кгс"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Kilonewton, new string[]{"kN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Kilonewton, new string[]{"кН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.KiloPond, new string[]{"kp"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KiloPond, new string[]{"кгс"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.KilopoundForce, new string[]{"kipf", "kip", "k"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KilopoundForce, new string[]{"кипф", "койка", "К"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Meganewton, new string[]{"MN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Meganewton, new string[]{"МН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Micronewton, new string[]{"µN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Micronewton, new string[]{"мкН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Millinewton, new string[]{"mN"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Millinewton, new string[]{"мН"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Newton, new string[]{"N"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Newton, new string[]{"Н"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.OunceForce, new string[]{"ozf"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.Poundal, new string[]{"pdl"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Poundal, new string[]{"паундаль"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.PoundForce, new string[]{"lbf"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.PoundForce, new string[]{"фунт-сила"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.ShortTonForce, new string[]{"tf (short)", "t (US)f", "short tons-force"}), - ("en-US", typeof(ForceUnit), (int)ForceUnit.TonneForce, new string[]{"tf", "Ton"}), - ("ru-RU", typeof(ForceUnit), (int)ForceUnit.TonneForce, new string[]{"тс"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.CentinewtonPerSecond, new string[]{"cN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecanewtonPerMinute, new string[]{"daN/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecanewtonPerSecond, new string[]{"daN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecinewtonPerSecond, new string[]{"dN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilonewtonPerMinute, new string[]{"kN/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilonewtonPerSecond, new string[]{"kN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilopoundForcePerMinute, new string[]{"kipf/min", "kip/min", "k/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilopoundForcePerSecond, new string[]{"kipf/s", "kip/s", "k/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.MicronewtonPerSecond, new string[]{"µN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.MillinewtonPerSecond, new string[]{"mN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NanonewtonPerSecond, new string[]{"nN/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NewtonPerMinute, new string[]{"N/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NewtonPerSecond, new string[]{"N/s"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.PoundForcePerMinute, new string[]{"lbf/min"}), - ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.PoundForcePerSecond, new string[]{"lbf/s"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit, new string[]{"BTU/ft³·°F"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius, new string[]{"cal/cm³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius, new string[]{"J/m³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.JoulePerCubicMeterKelvin, new string[]{"J/m³·K"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius, new string[]{"kcal/cm³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius, new string[]{"kJ/m³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin, new string[]{"kJ/m³·K"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius, new string[]{"MJ/m³·°C"}), + ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, new string[]{"MJ/m³·K"}), + ("en-US", typeof(LevelUnit), (int)LevelUnit.Decibel, new string[]{"dB"}), + ("en-US", typeof(LevelUnit), (int)LevelUnit.Neper, new string[]{"Np"}), + ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.JoulePerMole, new string[]{"J/mol"}), + ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.KilojoulePerMole, new string[]{"kJ/mol"}), + ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.MegajoulePerMole, new string[]{"MJ/mol"}), + ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Gigavoltampere, new string[]{"GVA"}), + ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Kilovoltampere, new string[]{"kVA"}), + ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Megavoltampere, new string[]{"MVA"}), + ("en-US", typeof(ApparentPowerUnit), (int)ApparentPowerUnit.Voltampere, new string[]{"VA"}), + ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.KilovoltampereReactiveHour, new string[]{"kvarh"}), + ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.MegavoltampereReactiveHour, new string[]{"Mvarh"}), + ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.VoltampereReactiveHour, new string[]{"varh"}), + ("en-US", typeof(LuminousFluxUnit), (int)LuminousFluxUnit.Lumen, new string[]{"lm"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.BtuPerPound, new string[]{"btu/lb"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.CaloriePerGram, new string[]{"cal/g"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerKilogram, new string[]{"GWd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerShortTon, new string[]{"GWd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerTonne, new string[]{"GWd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattHourPerKilogram, new string[]{"GWh/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.JoulePerKilogram, new string[]{"J/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilocaloriePerGram, new string[]{"kcal/g"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilojoulePerKilogram, new string[]{"kJ/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerKilogram, new string[]{"kWd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerShortTon, new string[]{"kWd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerTonne, new string[]{"kWd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattHourPerKilogram, new string[]{"kWh/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegajoulePerKilogram, new string[]{"MJ/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerKilogram, new string[]{"MWd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerShortTon, new string[]{"MWd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerTonne, new string[]{"MWd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattHourPerKilogram, new string[]{"MWh/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerKilogram, new string[]{"TWd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerShortTon, new string[]{"TWd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerTonne, new string[]{"TWd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerKilogram, new string[]{"Wd/kg"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerShortTon, new string[]{"Wd/ST"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerTonne, new string[]{"Wd/t"}), + ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattHourPerKilogram, new string[]{"Wh/kg"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicFoot, new string[]{"daW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicInch, new string[]{"daW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicMeter, new string[]{"daW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerLiter, new string[]{"daW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicFoot, new string[]{"dW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicInch, new string[]{"dW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicMeter, new string[]{"dW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerLiter, new string[]{"dW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicFoot, new string[]{"GW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicInch, new string[]{"GW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicMeter, new string[]{"GW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerLiter, new string[]{"GW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicFoot, new string[]{"kW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicInch, new string[]{"kW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicMeter, new string[]{"kW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerLiter, new string[]{"kW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicFoot, new string[]{"MW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicInch, new string[]{"MW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicMeter, new string[]{"MW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerLiter, new string[]{"MW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicFoot, new string[]{"µW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicInch, new string[]{"µW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicMeter, new string[]{"µW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerLiter, new string[]{"µW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicFoot, new string[]{"mW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicInch, new string[]{"mW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicMeter, new string[]{"mW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerLiter, new string[]{"mW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicFoot, new string[]{"nW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicInch, new string[]{"nW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicMeter, new string[]{"nW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerLiter, new string[]{"nW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicFoot, new string[]{"pW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicInch, new string[]{"pW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicMeter, new string[]{"pW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerLiter, new string[]{"pW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicFoot, new string[]{"TW/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicInch, new string[]{"TW/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicMeter, new string[]{"TW/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerLiter, new string[]{"TW/l"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicFoot, new string[]{"W/ft³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicInch, new string[]{"W/in³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicMeter, new string[]{"W/m³"}), + ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerLiter, new string[]{"W/l"}), ("en-US", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.CentinewtonPerCentimeter, new string[]{"cN/cm"}), ("en-US", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.CentinewtonPerMeter, new string[]{"cN/m"}), ("en-US", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.CentinewtonPerMillimeter, new string[]{"cN/mm"}), @@ -523,222 +467,6 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("ru-RU", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.TonneForcePerMeter, new string[]{"тс/м"}), ("en-US", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.TonneForcePerMillimeter, new string[]{"tf/mm"}), ("ru-RU", typeof(ForcePerLengthUnit), (int)ForcePerLengthUnit.TonneForcePerMillimeter, new string[]{"тс/мм"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.BeatPerMinute, new string[]{"bpm"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.BUnit, new string[]{"B Units"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.CyclePerHour, new string[]{"cph"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.CyclePerMinute, new string[]{"cpm"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Gigahertz, new string[]{"GHz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Gigahertz, new string[]{"ГГц"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Hertz, new string[]{"Hz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Hertz, new string[]{"Гц"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Kilohertz, new string[]{"kHz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Kilohertz, new string[]{"кГц"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Megahertz, new string[]{"MHz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Megahertz, new string[]{"МГц"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.PerSecond, new string[]{"s⁻¹"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.PerSecond, new string[]{"с⁻¹"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.RadianPerSecond, new string[]{"rad/s"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.RadianPerSecond, new string[]{"рад/с"}), - ("en-US", typeof(FrequencyUnit), (int)FrequencyUnit.Terahertz, new string[]{"THz"}), - ("ru-RU", typeof(FrequencyUnit), (int)FrequencyUnit.Terahertz, new string[]{"ТГц"}), - ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.KilometerPerLiter, new string[]{"km/L"}), - ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.LiterPer100Kilometers, new string[]{"L/100km"}), - ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.MilePerUkGallon, new string[]{"mpg (imp.)"}), - ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.MilePerUsGallon, new string[]{"mpg (U.S.)"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerHourSquareFoot, new string[]{"BTU/h·ft²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerMinuteSquareFoot, new string[]{"BTU/min·ft²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerSecondSquareFoot, new string[]{"BTU/s·ft²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerSecondSquareInch, new string[]{"BTU/s·in²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.CaloriePerSecondSquareCentimeter, new string[]{"cal/s·cm²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.CentiwattPerSquareMeter, new string[]{"cW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.DeciwattPerSquareMeter, new string[]{"dW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilocaloriePerHourSquareMeter, new string[]{"kcal/h·m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilocaloriePerSecondSquareCentimeter, new string[]{"kcal/s·cm²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilowattPerSquareMeter, new string[]{"kW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.MicrowattPerSquareMeter, new string[]{"µW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.MilliwattPerSquareMeter, new string[]{"mW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.NanowattPerSquareMeter, new string[]{"nW/m²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.PoundForcePerFootSecond, new string[]{"lbf/(ft·s)"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.PoundPerSecondCubed, new string[]{"lb/s³", "lbm/s³"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareFoot, new string[]{"W/ft²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareInch, new string[]{"W/in²"}), - ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareMeter, new string[]{"W/m²"}), - ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit, new string[]{"Btu/ft²·hr·°F"}), - ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.WattPerSquareMeterCelsius, new string[]{"W/m²·°C"}), - ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.WattPerSquareMeterKelvin, new string[]{"W/m²·K"}), - ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Kilolux, new string[]{"klx"}), - ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Lux, new string[]{"lx"}), - ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Megalux, new string[]{"Mlx"}), - ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Millilux, new string[]{"mlx"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Bit, new string[]{"b"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Byte, new string[]{"B"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Exabit, new string[]{"Eb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Exabyte, new string[]{"EB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Exbibit, new string[]{"Eib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Exbibyte, new string[]{"EiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Gibibit, new string[]{"Gib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Gibibyte, new string[]{"GiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Gigabit, new string[]{"Gb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Gigabyte, new string[]{"GB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Kibibit, new string[]{"Kib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Kibibyte, new string[]{"KiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Kilobit, new string[]{"kb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Kilobyte, new string[]{"kB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Mebibit, new string[]{"Mib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Mebibyte, new string[]{"MiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Megabit, new string[]{"Mb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Megabyte, new string[]{"MB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Pebibit, new string[]{"Pib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Pebibyte, new string[]{"PiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Petabit, new string[]{"Pb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Petabyte, new string[]{"PB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Tebibit, new string[]{"Tib"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Tebibyte, new string[]{"TiB"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Terabit, new string[]{"Tb"}), - ("en-US", typeof(InformationUnit), (int)InformationUnit.Terabyte, new string[]{"TB"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.KilowattPerSquareCentimeter, new string[]{"kW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.KilowattPerSquareMeter, new string[]{"kW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MegawattPerSquareCentimeter, new string[]{"MW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MegawattPerSquareMeter, new string[]{"MW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MicrowattPerSquareCentimeter, new string[]{"µW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MicrowattPerSquareMeter, new string[]{"µW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MilliwattPerSquareCentimeter, new string[]{"mW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MilliwattPerSquareMeter, new string[]{"mW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.NanowattPerSquareCentimeter, new string[]{"nW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.NanowattPerSquareMeter, new string[]{"nW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.PicowattPerSquareCentimeter, new string[]{"pW/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.PicowattPerSquareMeter, new string[]{"pW/m²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.WattPerSquareCentimeter, new string[]{"W/cm²"}), - ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.WattPerSquareMeter, new string[]{"W/m²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareCentimeter, new string[]{"J/cm²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareMeter, new string[]{"J/m²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.JoulePerSquareMillimeter, new string[]{"J/mm²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.KilojoulePerSquareMeter, new string[]{"kJ/m²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.KilowattHourPerSquareMeter, new string[]{"kWh/m²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.MillijoulePerSquareCentimeter, new string[]{"mJ/cm²"}), - ("en-US", typeof(IrradiationUnit), (int)IrradiationUnit.WattHourPerSquareMeter, new string[]{"Wh/m²"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Centistokes, new string[]{"cSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Centistokes, new string[]{"сСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Decistokes, new string[]{"dSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Decistokes, new string[]{"дСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Kilostokes, new string[]{"kSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Kilostokes, new string[]{"кСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Microstokes, new string[]{"µSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Microstokes, new string[]{"мкСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Millistokes, new string[]{"mSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Millistokes, new string[]{"мСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Nanostokes, new string[]{"nSt"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Nanostokes, new string[]{"нСт"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.SquareFootPerSecond, new string[]{"ft²/s"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.SquareMeterPerSecond, new string[]{"m²/s"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.SquareMeterPerSecond, new string[]{"м²/с"}), - ("en-US", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Stokes, new string[]{"St"}), - ("ru-RU", typeof(KinematicViscosityUnit), (int)KinematicViscosityUnit.Stokes, new string[]{"Ст"}), - ("en-US", typeof(LapseRateUnit), (int)LapseRateUnit.DegreeCelsiusPerKilometer, new string[]{"∆°C/km"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.AstronomicalUnit, new string[]{"au", "ua"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Centimeter, new string[]{"cm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Centimeter, new string[]{"см"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Centimeter, new string[]{"厘米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Chain, new string[]{"ch"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Decimeter, new string[]{"dm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Decimeter, new string[]{"дм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Decimeter, new string[]{"分米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.DtpPica, new string[]{"pica"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.DtpPoint, new string[]{"pt"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Fathom, new string[]{"fathom"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Foot, new string[]{"ft", "'", "′"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Foot, new string[]{"фут"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Foot, new string[]{"英尺"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Hand, new string[]{"h", "hh"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Hectometer, new string[]{"hm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Hectometer, new string[]{"гм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Hectometer, new string[]{"百米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Inch, new string[]{"in", "\"", "″"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Inch, new string[]{"дюйм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Inch, new string[]{"英寸"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.KilolightYear, new string[]{"kly"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Kilometer, new string[]{"km"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Kilometer, new string[]{"км"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Kilometer, new string[]{"千米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Kiloparsec, new string[]{"kpc"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.LightYear, new string[]{"ly"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.MegalightYear, new string[]{"Mly"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Megaparsec, new string[]{"Mpc"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Meter, new string[]{"m"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Meter, new string[]{"м"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Meter, new string[]{"米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Microinch, new string[]{"µin"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Microinch, new string[]{"микродюйм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Microinch, new string[]{"微英寸"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Micrometer, new string[]{"µm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Micrometer, new string[]{"мкм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Micrometer, new string[]{"微米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Mil, new string[]{"mil"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Mil, new string[]{"мил"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Mil, new string[]{"密耳"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Mile, new string[]{"mi"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Mile, new string[]{"миля"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Mile, new string[]{"英里"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Millimeter, new string[]{"mm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Millimeter, new string[]{"мм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Millimeter, new string[]{"毫米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Nanometer, new string[]{"nm"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Nanometer, new string[]{"нм"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Nanometer, new string[]{"纳米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.NauticalMile, new string[]{"NM"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.NauticalMile, new string[]{"мил"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.NauticalMile, new string[]{"纳米"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Parsec, new string[]{"pc"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.PrinterPica, new string[]{"pica"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.PrinterPoint, new string[]{"pt"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Shackle, new string[]{"shackle"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.SolarRadius, new string[]{"R⊙"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Twip, new string[]{"twip"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.UsSurveyFoot, new string[]{"ftUS"}), - ("en-US", typeof(LengthUnit), (int)LengthUnit.Yard, new string[]{"yd"}), - ("ru-RU", typeof(LengthUnit), (int)LengthUnit.Yard, new string[]{"ярд"}), - ("zh-CN", typeof(LengthUnit), (int)LengthUnit.Yard, new string[]{"码"}), - ("en-US", typeof(LevelUnit), (int)LevelUnit.Decibel, new string[]{"dB"}), - ("en-US", typeof(LevelUnit), (int)LevelUnit.Neper, new string[]{"Np"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerCentimeter, new string[]{"g/cm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerMeter, new string[]{"g/m"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerMillimeter, new string[]{"g/mm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerCentimeter, new string[]{"kg/cm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerMeter, new string[]{"kg/m"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerMillimeter, new string[]{"kg/mm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerCentimeter, new string[]{"µg/cm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerMeter, new string[]{"µg/m"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerMillimeter, new string[]{"µg/mm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerCentimeter, new string[]{"mg/cm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerMeter, new string[]{"mg/m"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerMillimeter, new string[]{"mg/mm"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.PoundPerFoot, new string[]{"lb/ft"}), - ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.PoundPerInch, new string[]{"lb/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerCentimeter, new string[]{"GW/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerFoot, new string[]{"GW/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerInch, new string[]{"GW/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerMeter, new string[]{"GW/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerMillimeter, new string[]{"GW/mm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerCentimeter, new string[]{"kW/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerFoot, new string[]{"kW/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerInch, new string[]{"kW/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerMeter, new string[]{"kW/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerMillimeter, new string[]{"kW/mm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerCentimeter, new string[]{"MW/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerFoot, new string[]{"MW/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerInch, new string[]{"MW/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerMeter, new string[]{"MW/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerMillimeter, new string[]{"MW/mm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerCentimeter, new string[]{"mW/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerFoot, new string[]{"mW/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerInch, new string[]{"mW/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerMeter, new string[]{"mW/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerMillimeter, new string[]{"mW/mm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerCentimeter, new string[]{"W/cm"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerFoot, new string[]{"W/ft"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerInch, new string[]{"W/in"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerMeter, new string[]{"W/m"}), - ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerMillimeter, new string[]{"W/mm"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Decawatt, new string[]{"daW"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Deciwatt, new string[]{"dW"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Femtowatt, new string[]{"fW"}), @@ -753,268 +481,16 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.SolarLuminosity, new string[]{"L⊙"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Terawatt, new string[]{"TW"}), ("en-US", typeof(LuminosityUnit), (int)LuminosityUnit.Watt, new string[]{"W"}), - ("en-US", typeof(LuminousFluxUnit), (int)LuminousFluxUnit.Lumen, new string[]{"lm"}), - ("en-US", typeof(LuminousIntensityUnit), (int)LuminousIntensityUnit.Candela, new string[]{"cd"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Gauss, new string[]{"G"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Microtesla, new string[]{"µT"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Milligauss, new string[]{"mG"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Millitesla, new string[]{"mT"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Nanotesla, new string[]{"nT"}), - ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Tesla, new string[]{"T"}), - ("en-US", typeof(MagneticFluxUnit), (int)MagneticFluxUnit.Weber, new string[]{"Wb"}), - ("en-US", typeof(MagnetizationUnit), (int)MagnetizationUnit.AmperePerMeter, new string[]{"A/m"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"cg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"сг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"厘克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"dag"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"даг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"十克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"dg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"дг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"分克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.EarthMass, new string[]{"em"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Grain, new string[]{"gr"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"g"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"г"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"hg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"гг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"百克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"kg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"кг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"千克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"klb", "klbs", "klbm"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"кфунт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"千磅"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"kt"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"кт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"千吨"}), - ("en-US", typeof(MassUnit), (int)MassUnit.LongHundredweight, new string[]{"cwt"}), - ("en-US", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"long tn"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"тонна большая"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"长吨"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"Mlb", "Mlbs", "Mlbm"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"Мфунт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"兆磅"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"Mt"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"Мт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"兆吨"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"µg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"мкг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"微克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Milligram, new string[]{"mg"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Milligram, new string[]{"мг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Milligram, new string[]{"毫克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Nanogram, new string[]{"ng"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Nanogram, new string[]{"нг"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Nanogram, new string[]{"纳克"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Ounce, new string[]{"oz"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Ounce, new string[]{"盎司"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Pound, new string[]{"lb", "lbs", "lbm"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Pound, new string[]{"фунт"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Pound, new string[]{"磅"}), - ("en-US", typeof(MassUnit), (int)MassUnit.ShortHundredweight, new string[]{"cwt"}), - ("en-US", typeof(MassUnit), (int)MassUnit.ShortTon, new string[]{"t (short)", "short tn", "ST"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.ShortTon, new string[]{"тонна малая"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.ShortTon, new string[]{"短吨"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Slug, new string[]{"slug"}), - ("en-US", typeof(MassUnit), (int)MassUnit.SolarMass, new string[]{"M⊙"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Stone, new string[]{"st"}), - ("en-US", typeof(MassUnit), (int)MassUnit.Tonne, new string[]{"t"}), - ("ru-RU", typeof(MassUnit), (int)MassUnit.Tonne, new string[]{"т"}), - ("zh-CN", typeof(MassUnit), (int)MassUnit.Tonne, new string[]{"吨"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerDeciliter, new string[]{"cg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerLiter, new string[]{"cg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerMicroliter, new string[]{"cg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerMilliliter, new string[]{"cg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerDeciliter, new string[]{"dg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerLiter, new string[]{"dg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerMicroliter, new string[]{"dg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerMilliliter, new string[]{"dg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicCentimeter, new string[]{"g/cm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicMeter, new string[]{"g/m³"}), - ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicMeter, new string[]{"г/м³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicMillimeter, new string[]{"g/mm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerDeciliter, new string[]{"g/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerLiter, new string[]{"g/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerMicroliter, new string[]{"g/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerMilliliter, new string[]{"g/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicCentimeter, new string[]{"kg/cm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicMeter, new string[]{"kg/m³"}), - ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicMeter, new string[]{"кг/м³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicMillimeter, new string[]{"kg/mm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerLiter, new string[]{"kg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilopoundPerCubicFoot, new string[]{"kip/ft³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilopoundPerCubicInch, new string[]{"kip/in³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerCubicMeter, new string[]{"µg/m³"}), - ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerCubicMeter, new string[]{"мкг/м³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerDeciliter, new string[]{"µg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerLiter, new string[]{"µg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerMicroliter, new string[]{"µg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerMilliliter, new string[]{"µg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerCubicMeter, new string[]{"mg/m³"}), - ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerCubicMeter, new string[]{"мг/м³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerDeciliter, new string[]{"mg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerLiter, new string[]{"mg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerMicroliter, new string[]{"mg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerMilliliter, new string[]{"mg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerDeciliter, new string[]{"ng/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerLiter, new string[]{"ng/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerMicroliter, new string[]{"ng/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerMilliliter, new string[]{"ng/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.OuncePerImperialGallon, new string[]{"oz/gal (imp.)"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.OuncePerUSGallon, new string[]{"oz/gal (U.S.)"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerDeciliter, new string[]{"pg/dL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerLiter, new string[]{"pg/L"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerMicroliter, new string[]{"pg/μL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerMilliliter, new string[]{"pg/mL"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerCubicFoot, new string[]{"lb/ft³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerCubicInch, new string[]{"lb/in³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerImperialGallon, new string[]{"ppg (imp.)"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerUSGallon, new string[]{"ppg (U.S.)"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.SlugPerCubicFoot, new string[]{"slug/ft³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicCentimeter, new string[]{"t/cm³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicMeter, new string[]{"t/m³"}), - ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicMillimeter, new string[]{"t/mm³"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.CentigramPerDay, new string[]{"cg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.CentigramPerSecond, new string[]{"cg/s", "cg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecagramPerDay, new string[]{"dag/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecagramPerSecond, new string[]{"dag/s", "dag/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecigramPerDay, new string[]{"dg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecigramPerSecond, new string[]{"dg/s", "dg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerDay, new string[]{"g/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerHour, new string[]{"g/h"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerSecond, new string[]{"g/s", "g/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.HectogramPerDay, new string[]{"hg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.HectogramPerSecond, new string[]{"hg/s", "hg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerDay, new string[]{"kg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerHour, new string[]{"kg/h"}), - ("ru-RU", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerHour, new string[]{"кг/ч"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerMinute, new string[]{"kg/min"}), - ("ru-RU", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerMinute, new string[]{"кг/мин"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerSecond, new string[]{"kg/s", "kg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegagramPerDay, new string[]{"Mg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerDay, new string[]{"Mlb/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerHour, new string[]{"Mlb/h"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerMinute, new string[]{"Mlb/min"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerSecond, new string[]{"Mlb/s"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MicrogramPerDay, new string[]{"µg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MicrogramPerSecond, new string[]{"µg/s", "µg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MilligramPerDay, new string[]{"mg/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MilligramPerSecond, new string[]{"mg/s", "mg/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.NanogramPerDay, new string[]{"ng/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.NanogramPerSecond, new string[]{"ng/s", "ng/S"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerDay, new string[]{"lb/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerHour, new string[]{"lb/h"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerMinute, new string[]{"lb/min"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerSecond, new string[]{"lb/s"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.ShortTonPerHour, new string[]{"short tn/h"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.TonnePerDay, new string[]{"t/d"}), - ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.TonnePerHour, new string[]{"t/h"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareCentimeter, new string[]{"g·h⁻¹·cm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareMeter, new string[]{"g·h⁻¹·m⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareMillimeter, new string[]{"g·h⁻¹·mm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareCentimeter, new string[]{"g·s⁻¹·cm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareMeter, new string[]{"g·s⁻¹·m⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareMillimeter, new string[]{"g·s⁻¹·mm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareCentimeter, new string[]{"kg·h⁻¹·cm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareMeter, new string[]{"kg·h⁻¹·m⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareMillimeter, new string[]{"kg·h⁻¹·mm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareCentimeter, new string[]{"kg·s⁻¹·cm⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareMeter, new string[]{"kg·s⁻¹·m⁻²"}), - ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareMillimeter, new string[]{"kg·s⁻¹·mm⁻²"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.CentigramPerGram, new string[]{"cg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.CentigramPerKilogram, new string[]{"cg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecagramPerGram, new string[]{"dag/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecagramPerKilogram, new string[]{"dag/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecigramPerGram, new string[]{"dg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecigramPerKilogram, new string[]{"dg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecimalFraction, new string[]{""}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.GramPerGram, new string[]{"g/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.GramPerKilogram, new string[]{"g/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.HectogramPerGram, new string[]{"hg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.HectogramPerKilogram, new string[]{"hg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.KilogramPerGram, new string[]{"kg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.KilogramPerKilogram, new string[]{"kg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MicrogramPerGram, new string[]{"µg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MicrogramPerKilogram, new string[]{"µg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MilligramPerGram, new string[]{"mg/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MilligramPerKilogram, new string[]{"mg/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.NanogramPerGram, new string[]{"ng/g"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.NanogramPerKilogram, new string[]{"ng/kg"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerBillion, new string[]{"ppb"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerMillion, new string[]{"ppm"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerThousand, new string[]{"‰"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerTrillion, new string[]{"ppt"}), - ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.Percent, new string[]{"%", "% (w/w)"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.GramSquareCentimeter, new string[]{"g·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.GramSquareDecimeter, new string[]{"g·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.GramSquareMeter, new string[]{"g·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.GramSquareMillimeter, new string[]{"g·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareCentimeter, new string[]{"kg·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareDecimeter, new string[]{"kg·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareMeter, new string[]{"kg·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareMillimeter, new string[]{"kg·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareCentimeter, new string[]{"kt·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareDecimeter, new string[]{"kt·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareMeter, new string[]{"kt·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareMilimeter, new string[]{"kt·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareCentimeter, new string[]{"Mt·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareDecimeter, new string[]{"Mt·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareMeter, new string[]{"Mt·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareMilimeter, new string[]{"Mt·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareCentimeter, new string[]{"mg·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareDecimeter, new string[]{"mg·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareMeter, new string[]{"mg·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareMillimeter, new string[]{"mg·mm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.PoundSquareFoot, new string[]{"lb·ft²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.PoundSquareInch, new string[]{"lb·in²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.SlugSquareFoot, new string[]{"slug·ft²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.SlugSquareInch, new string[]{"slug·in²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareCentimeter, new string[]{"t·cm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareDecimeter, new string[]{"t·dm²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareMeter, new string[]{"t·m²"}), - ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareMilimeter, new string[]{"t·mm²"}), - ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.JoulePerMole, new string[]{"J/mol"}), - ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.KilojoulePerMole, new string[]{"kJ/mol"}), - ("en-US", typeof(MolarEnergyUnit), (int)MolarEnergyUnit.MegajoulePerMole, new string[]{"MJ/mol"}), - ("en-US", typeof(MolarEntropyUnit), (int)MolarEntropyUnit.JoulePerMoleKelvin, new string[]{"J/(mol*K)"}), - ("en-US", typeof(MolarEntropyUnit), (int)MolarEntropyUnit.KilojoulePerMoleKelvin, new string[]{"kJ/(mol*K)"}), - ("en-US", typeof(MolarEntropyUnit), (int)MolarEntropyUnit.MegajoulePerMoleKelvin, new string[]{"MJ/(mol*K)"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.CentimolesPerLiter, new string[]{"cmol/L", "cM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.DecimolesPerLiter, new string[]{"dmol/L", "dM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MicromolesPerLiter, new string[]{"µmol/L", "µM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MillimolesPerLiter, new string[]{"mmol/L", "mM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MolesPerCubicMeter, new string[]{"mol/m³"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.MolesPerLiter, new string[]{"mol/L", "M"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.NanomolesPerLiter, new string[]{"nmol/L", "nM"}), - ("en-US", typeof(MolarityUnit), (int)MolarityUnit.PicomolesPerLiter, new string[]{"pmol/L", "pM"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.CentigramPerMole, new string[]{"cg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.CentigramPerMole, new string[]{"сг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.DecagramPerMole, new string[]{"dag/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.DecagramPerMole, new string[]{"даг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.DecigramPerMole, new string[]{"dg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.DecigramPerMole, new string[]{"дг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.GramPerMole, new string[]{"g/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.GramPerMole, new string[]{"г/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.HectogramPerMole, new string[]{"hg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.HectogramPerMole, new string[]{"гг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.KilogramPerMole, new string[]{"kg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.KilogramPerMole, new string[]{"кг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.KilopoundPerMole, new string[]{"klb/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.KilopoundPerMole, new string[]{"кфунт/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MegapoundPerMole, new string[]{"Mlb/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MegapoundPerMole, new string[]{"Мфунт/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MicrogramPerMole, new string[]{"µg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MicrogramPerMole, new string[]{"мкг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MilligramPerMole, new string[]{"mg/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MilligramPerMole, new string[]{"мг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.NanogramPerMole, new string[]{"ng/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.NanogramPerMole, new string[]{"нг/моль"}), - ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.PoundPerMole, new string[]{"lb/mol"}), - ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.PoundPerMole, new string[]{"фунт/моль"}), - ("en-US", typeof(PermeabilityUnit), (int)PermeabilityUnit.HenryPerMeter, new string[]{"H/m"}), - ("en-US", typeof(PermittivityUnit), (int)PermittivityUnit.FaradPerMeter, new string[]{"F/m"}), + ("en-US", typeof(ElectricFieldUnit), (int)ElectricFieldUnit.VoltPerMeter, new string[]{"V/m"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute, new string[]{"sccm"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerHour, new string[]{"scfh"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerMinute, new string[]{"scfm"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerSecond, new string[]{"Sft³/s"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerDay, new string[]{"Sm³/d"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerHour, new string[]{"Sm³/h"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerMinute, new string[]{"Sm³/min"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerSecond, new string[]{"Sm³/s"}), + ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardLiterPerMinute, new string[]{"slm"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.BoilerHorsepower, new string[]{"hp(S)"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.BritishThermalUnitPerHour, new string[]{"Btu/h", "Btu/hr"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.Decawatt, new string[]{"daW"}), @@ -1040,168 +516,10 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(PowerUnit), (int)PowerUnit.Picowatt, new string[]{"pW"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.Terawatt, new string[]{"TW"}), ("en-US", typeof(PowerUnit), (int)PowerUnit.Watt, new string[]{"W"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicFoot, new string[]{"daW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicInch, new string[]{"daW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerCubicMeter, new string[]{"daW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DecawattPerLiter, new string[]{"daW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicFoot, new string[]{"dW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicInch, new string[]{"dW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerCubicMeter, new string[]{"dW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.DeciwattPerLiter, new string[]{"dW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicFoot, new string[]{"GW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicInch, new string[]{"GW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerCubicMeter, new string[]{"GW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.GigawattPerLiter, new string[]{"GW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicFoot, new string[]{"kW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicInch, new string[]{"kW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerCubicMeter, new string[]{"kW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.KilowattPerLiter, new string[]{"kW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicFoot, new string[]{"MW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicInch, new string[]{"MW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerCubicMeter, new string[]{"MW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MegawattPerLiter, new string[]{"MW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicFoot, new string[]{"µW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicInch, new string[]{"µW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerCubicMeter, new string[]{"µW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MicrowattPerLiter, new string[]{"µW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicFoot, new string[]{"mW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicInch, new string[]{"mW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerCubicMeter, new string[]{"mW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.MilliwattPerLiter, new string[]{"mW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicFoot, new string[]{"nW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicInch, new string[]{"nW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerCubicMeter, new string[]{"nW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.NanowattPerLiter, new string[]{"nW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicFoot, new string[]{"pW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicInch, new string[]{"pW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerCubicMeter, new string[]{"pW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.PicowattPerLiter, new string[]{"pW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicFoot, new string[]{"TW/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicInch, new string[]{"TW/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerCubicMeter, new string[]{"TW/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.TerawattPerLiter, new string[]{"TW/l"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicFoot, new string[]{"W/ft³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicInch, new string[]{"W/in³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerCubicMeter, new string[]{"W/m³"}), - ("en-US", typeof(PowerDensityUnit), (int)PowerDensityUnit.WattPerLiter, new string[]{"W/l"}), - ("en-US", typeof(PowerRatioUnit), (int)PowerRatioUnit.DecibelMilliwatt, new string[]{"dBmW", "dBm"}), - ("en-US", typeof(PowerRatioUnit), (int)PowerRatioUnit.DecibelWatt, new string[]{"dBW"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Atmosphere, new string[]{"atm"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Atmosphere, new string[]{"атм"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Bar, new string[]{"bar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Bar, new string[]{"бар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Centibar, new string[]{"cbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Centibar, new string[]{"сбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Decapascal, new string[]{"daPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Decapascal, new string[]{"даПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Decibar, new string[]{"dbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Decibar, new string[]{"дбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.DynePerSquareCentimeter, new string[]{"dyn/cm²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.FootOfElevation, new string[]{"ft of elevation"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.FootOfHead, new string[]{"ft of head"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Gigapascal, new string[]{"GPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Gigapascal, new string[]{"ГПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Hectopascal, new string[]{"hPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Hectopascal, new string[]{"гПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.InchOfMercury, new string[]{"inHg"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.InchOfWaterColumn, new string[]{"wc"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Kilobar, new string[]{"kbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Kilobar, new string[]{"кбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareCentimeter, new string[]{"kgf/cm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareCentimeter, new string[]{"кгс/см²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMeter, new string[]{"kgf/m²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMeter, new string[]{"кгс/м²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMillimeter, new string[]{"kgf/mm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilogramForcePerSquareMillimeter, new string[]{"кгс/мм²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareCentimeter, new string[]{"kN/cm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareCentimeter, new string[]{"кН/см²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMeter, new string[]{"kN/m²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMeter, new string[]{"кН/м²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMillimeter, new string[]{"kN/mm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilonewtonPerSquareMillimeter, new string[]{"кН/мм²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Kilopascal, new string[]{"kPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Kilopascal, new string[]{"кПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareFoot, new string[]{"kipf/ft²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareInch, new string[]{"ksi", "kipf/in²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.KilopoundForcePerSquareInch, new string[]{"ksi", "kipf/in²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Megabar, new string[]{"Mbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Megabar, new string[]{"Мбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.MeganewtonPerSquareMeter, new string[]{"MN/m²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.MeganewtonPerSquareMeter, new string[]{"МН/м²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Megapascal, new string[]{"MPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Megapascal, new string[]{"МПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.MeterOfElevation, new string[]{"m of elevation"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.MeterOfHead, new string[]{"m of head"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Microbar, new string[]{"µbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Microbar, new string[]{"мкбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Micropascal, new string[]{"µPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Micropascal, new string[]{"мкПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Millibar, new string[]{"mbar"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Millibar, new string[]{"мбар"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.MillimeterOfMercury, new string[]{"mmHg"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.MillimeterOfMercury, new string[]{"мм рт.ст."}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Millipascal, new string[]{"mPa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Millipascal, new string[]{"мПа"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareCentimeter, new string[]{"N/cm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareCentimeter, new string[]{"Н/см²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMeter, new string[]{"N/m²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMeter, new string[]{"Н/м²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMillimeter, new string[]{"N/mm²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.NewtonPerSquareMillimeter, new string[]{"Н/мм²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Pascal, new string[]{"Pa"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Pascal, new string[]{"Па"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareFoot, new string[]{"lb/ft²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareInch, new string[]{"psi", "lb/in²"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.PoundForcePerSquareInch, new string[]{"psi", "lb/in²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.PoundPerInchSecondSquared, new string[]{"lbm/(in·s²)", "lb/(in·s²)"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.TechnicalAtmosphere, new string[]{"at"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.TechnicalAtmosphere, new string[]{"ат"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareCentimeter, new string[]{"tf/cm²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareMeter, new string[]{"tf/m²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.TonneForcePerSquareMillimeter, new string[]{"tf/mm²"}), - ("en-US", typeof(PressureUnit), (int)PressureUnit.Torr, new string[]{"torr"}), - ("ru-RU", typeof(PressureUnit), (int)PressureUnit.Torr, new string[]{"торр"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.AtmospherePerSecond, new string[]{"atm/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.AtmospherePerSecond, new string[]{"атм/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerMinute, new string[]{"kPa/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerMinute, new string[]{"кПа/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerSecond, new string[]{"kPa/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopascalPerSecond, new string[]{"кПа/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, new string[]{"ksi/min", "kipf/in²/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, new string[]{"ksi/мин", "kipf/in²/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, new string[]{"ksi/s", "kipf/in²/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, new string[]{"ksi/с", "kipf/in²/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerMinute, new string[]{"MPa/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerMinute, new string[]{"МПа/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerSecond, new string[]{"MPa/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapascalPerSecond, new string[]{"МПа/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, new string[]{"Mpsi/min", "Mlb/in²/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, new string[]{"Мpsi/мин", "Мlb/in²/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, new string[]{"Mpsi/s", "Mlb/in²/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, new string[]{"Мpsi/с", "Мlb/in²/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerMinute, new string[]{"Pa/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerMinute, new string[]{"Па/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerSecond, new string[]{"Pa/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PascalPerSecond, new string[]{"Па/с"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, new string[]{"psi/min", "lb/in²/min"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, new string[]{"psi/мин", "lb/in²/мин"}), - ("en-US", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, new string[]{"psi/s", "lb/in²/s"}), - ("ru-RU", typeof(PressureChangeRateUnit), (int)PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, new string[]{"psi/с", "lb/in²/с"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.DecimalFraction, new string[]{""}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerBillion, new string[]{"ppb"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerMillion, new string[]{"ppm"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerThousand, new string[]{"‰"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerTrillion, new string[]{"ppt"}), - ("en-US", typeof(RatioUnit), (int)RatioUnit.Percent, new string[]{"%"}), - ("en-US", typeof(RatioChangeRateUnit), (int)RatioChangeRateUnit.DecimalFractionPerSecond, new string[]{"/s"}), - ("en-US", typeof(RatioChangeRateUnit), (int)RatioChangeRateUnit.PercentPerSecond, new string[]{"%/s"}), - ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.KilovoltampereReactiveHour, new string[]{"kvarh"}), - ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.MegavoltampereReactiveHour, new string[]{"Mvarh"}), - ("en-US", typeof(ReactiveEnergyUnit), (int)ReactiveEnergyUnit.VoltampereReactiveHour, new string[]{"varh"}), - ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.GigavoltampereReactive, new string[]{"Gvar"}), - ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.KilovoltampereReactive, new string[]{"kvar"}), - ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.MegavoltampereReactive, new string[]{"Mvar"}), - ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.VoltampereReactive, new string[]{"var"}), + ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelMicrovolt, new string[]{"dBµV"}), + ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelMillivolt, new string[]{"dBmV"}), + ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelUnloaded, new string[]{"dBu"}), + ("en-US", typeof(AmplitudeRatioUnit), (int)AmplitudeRatioUnit.DecibelVolt, new string[]{"dBV"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareCentimeter, new string[]{"cm⁻²"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareDecimeter, new string[]{"dm⁻²"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareFoot, new string[]{"ft⁻²"}), @@ -1213,144 +531,198 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareMillimeter, new string[]{"mm⁻²"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseSquareYard, new string[]{"yd⁻²"}), ("en-US", typeof(ReciprocalAreaUnit), (int)ReciprocalAreaUnit.InverseUsSurveySquareFoot, new string[]{"ft⁻² (US)"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseCentimeter, new string[]{"cm⁻¹", "1/cm"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseFoot, new string[]{"ft⁻¹", "1/ft"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseInch, new string[]{"in⁻¹", "1/in"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMeter, new string[]{"m⁻¹", "1/m"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMicroinch, new string[]{"µin⁻¹", "1/µin"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMil, new string[]{"mil⁻¹", "1/mil"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMile, new string[]{"mi⁻¹", "1/mi"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMillimeter, new string[]{"mm⁻¹", "1/mm"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseUsSurveyFoot, new string[]{"ftUS⁻¹", "1/ftUS"}), - ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseYard, new string[]{"yd⁻¹", "1/yd"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.CentinewtonPerSecond, new string[]{"cN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecanewtonPerMinute, new string[]{"daN/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecanewtonPerSecond, new string[]{"daN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.DecinewtonPerSecond, new string[]{"dN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilonewtonPerMinute, new string[]{"kN/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilonewtonPerSecond, new string[]{"kN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilopoundForcePerMinute, new string[]{"kipf/min", "kip/min", "k/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.KilopoundForcePerSecond, new string[]{"kipf/s", "kip/s", "k/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.MicronewtonPerSecond, new string[]{"µN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.MillinewtonPerSecond, new string[]{"mN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NanonewtonPerSecond, new string[]{"nN/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NewtonPerMinute, new string[]{"N/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.NewtonPerSecond, new string[]{"N/s"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.PoundForcePerMinute, new string[]{"lbf/min"}), + ("en-US", typeof(ForceChangeRateUnit), (int)ForceChangeRateUnit.PoundForcePerSecond, new string[]{"lbf/s"}), + ("en-US", typeof(SolidAngleUnit), (int)SolidAngleUnit.Steradian, new string[]{"sr"}), ("en-US", typeof(RelativeHumidityUnit), (int)RelativeHumidityUnit.Percent, new string[]{"%RH"}), - ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.DegreePerSecondSquared, new string[]{"°/s²", "deg/s²"}), - ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RadianPerSecondSquared, new string[]{"rad/s²"}), - ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RevolutionPerMinutePerSecond, new string[]{"rpm/s"}), - ("en-US", typeof(RotationalAccelerationUnit), (int)RotationalAccelerationUnit.RevolutionPerSecondSquared, new string[]{"r/s²"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.CentiradianPerSecond, new string[]{"crad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.CentiradianPerSecond, new string[]{"срад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DeciradianPerSecond, new string[]{"drad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DeciradianPerSecond, new string[]{"драд/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerMinute, new string[]{"°/min", "deg/min"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerSecond, new string[]{"°/s", "deg/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerSecond, new string[]{"°/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicrodegreePerSecond, new string[]{"µ°/s", "µdeg/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicrodegreePerSecond, new string[]{"мк°/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicroradianPerSecond, new string[]{"µrad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicroradianPerSecond, new string[]{"мкрад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MillidegreePerSecond, new string[]{"m°/s", "mdeg/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MillidegreePerSecond, new string[]{"м°/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MilliradianPerSecond, new string[]{"mrad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MilliradianPerSecond, new string[]{"мрад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanodegreePerSecond, new string[]{"n°/s", "ndeg/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanodegreePerSecond, new string[]{"н°/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanoradianPerSecond, new string[]{"nrad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanoradianPerSecond, new string[]{"нрад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RadianPerSecond, new string[]{"rad/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RadianPerSecond, new string[]{"рад/с"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerMinute, new string[]{"rpm", "r/min"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerMinute, new string[]{"об/мин"}), - ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerSecond, new string[]{"r/s"}), - ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerSecond, new string[]{"об/с"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMeterPerDegree, new string[]{"cN·m/deg", "cNm/deg", "cN·m/°", "cNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMillimeterPerDegree, new string[]{"cN·mm/deg", "cNmm/deg", "cN·mm/°", "cNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMillimeterPerRadian, new string[]{"cN·mm/rad", "cNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMeterPerDegree, new string[]{"daN·m/deg", "daNm/deg", "daN·m/°", "daNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMillimeterPerDegree, new string[]{"daN·mm/deg", "daNmm/deg", "daN·mm/°", "daNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMillimeterPerRadian, new string[]{"daN·mm/rad", "daNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMeterPerDegree, new string[]{"dN·m/deg", "dNm/deg", "dN·m/°", "dNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMillimeterPerDegree, new string[]{"dN·mm/deg", "dNmm/deg", "dN·mm/°", "dNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMillimeterPerRadian, new string[]{"dN·mm/rad", "dNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMeterPerDegree, new string[]{"kN·m/deg", "kNm/deg", "kN·m/°", "kNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMeterPerRadian, new string[]{"kN·m/rad", "kNm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMillimeterPerDegree, new string[]{"kN·mm/deg", "kNmm/deg", "kN·mm/°", "kNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMillimeterPerRadian, new string[]{"kN·mm/rad", "kNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilopoundForceFootPerDegrees, new string[]{"kipf·ft/°", "kip·ft/°g", "k·ft/°", "kipf·ft/deg", "kip·ft/deg", "k·ft/deg"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMeterPerDegree, new string[]{"MN·m/deg", "MNm/deg", "MN·m/°", "MNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMeterPerRadian, new string[]{"MN·m/rad", "MNm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMillimeterPerDegree, new string[]{"MN·mm/deg", "MNmm/deg", "MN·mm/°", "MNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMillimeterPerRadian, new string[]{"MN·mm/rad", "MNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMeterPerDegree, new string[]{"µN·m/deg", "µNm/deg", "µN·m/°", "µNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMillimeterPerDegree, new string[]{"µN·mm/deg", "µNmm/deg", "µN·mm/°", "µNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMillimeterPerRadian, new string[]{"µN·mm/rad", "µNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMeterPerDegree, new string[]{"mN·m/deg", "mNm/deg", "mN·m/°", "mNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMillimeterPerDegree, new string[]{"mN·mm/deg", "mNmm/deg", "mN·mm/°", "mNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMillimeterPerRadian, new string[]{"mN·mm/rad", "mNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMeterPerDegree, new string[]{"nN·m/deg", "nNm/deg", "nN·m/°", "nNm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMillimeterPerDegree, new string[]{"nN·mm/deg", "nNmm/deg", "nN·mm/°", "nNmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMillimeterPerRadian, new string[]{"nN·mm/rad", "nNmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMeterPerDegree, new string[]{"N·m/deg", "Nm/deg", "N·m/°", "Nm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMeterPerRadian, new string[]{"N·m/rad", "Nm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMillimeterPerDegree, new string[]{"N·mm/deg", "Nmm/deg", "N·mm/°", "Nmm/°"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMillimeterPerRadian, new string[]{"N·mm/rad", "Nmm/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.PoundForceFeetPerRadian, new string[]{"lbf·ft/rad"}), - ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.PoundForceFootPerDegrees, new string[]{"lbf·ft/deg"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.KilonewtonMeterPerRadianPerMeter, new string[]{"kN·m/rad/m", "kNm/rad/m"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.KilopoundForceFootPerDegreesPerFoot, new string[]{"kipf·ft/°/ft", "kip·ft/°/ft", "k·ft/°/ft", "kipf·ft/deg/ft", "kip·ft/deg/ft", "k·ft/deg/ft"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.MeganewtonMeterPerRadianPerMeter, new string[]{"MN·m/rad/m", "MNm/rad/m"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.NewtonMeterPerRadianPerMeter, new string[]{"N·m/rad/m", "Nm/rad/m"}), ("en-US", typeof(RotationalStiffnessPerLengthUnit), (int)RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot, new string[]{"lbf·ft/deg/ft"}), - ("en-US", typeof(ScalarUnit), (int)ScalarUnit.Amount, new string[]{""}), - ("en-US", typeof(SolidAngleUnit), (int)SolidAngleUnit.Steradian, new string[]{"sr"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.BtuPerPound, new string[]{"btu/lb"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.CaloriePerGram, new string[]{"cal/g"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerKilogram, new string[]{"GWd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerShortTon, new string[]{"GWd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattDayPerTonne, new string[]{"GWd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.GigawattHourPerKilogram, new string[]{"GWh/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.JoulePerKilogram, new string[]{"J/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilocaloriePerGram, new string[]{"kcal/g"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilojoulePerKilogram, new string[]{"kJ/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerKilogram, new string[]{"kWd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerShortTon, new string[]{"kWd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattDayPerTonne, new string[]{"kWd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.KilowattHourPerKilogram, new string[]{"kWh/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegajoulePerKilogram, new string[]{"MJ/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerKilogram, new string[]{"MWd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerShortTon, new string[]{"MWd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattDayPerTonne, new string[]{"MWd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.MegawattHourPerKilogram, new string[]{"MWh/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerKilogram, new string[]{"TWd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerShortTon, new string[]{"TWd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.TerawattDayPerTonne, new string[]{"TWd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerKilogram, new string[]{"Wd/kg"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerShortTon, new string[]{"Wd/ST"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattDayPerTonne, new string[]{"Wd/t"}), - ("en-US", typeof(SpecificEnergyUnit), (int)SpecificEnergyUnit.WattHourPerKilogram, new string[]{"Wh/kg"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.BtuPerPoundFahrenheit, new string[]{"BTU/lb·°F", "BTU/lbm·°F"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.CaloriePerGramKelvin, new string[]{"cal/g.K"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.JoulePerKilogramDegreeCelsius, new string[]{"J/kg.C"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.JoulePerKilogramKelvin, new string[]{"J/kg.K"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilocaloriePerGramKelvin, new string[]{"kcal/g.K"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius, new string[]{"kJ/kg.C"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.KilojoulePerKilogramKelvin, new string[]{"kJ/kg.K"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius, new string[]{"MJ/kg.C"}), - ("en-US", typeof(SpecificEntropyUnit), (int)SpecificEntropyUnit.MegajoulePerKilogramKelvin, new string[]{"MJ/kg.K"}), - ("en-US", typeof(SpecificFuelConsumptionUnit), (int)SpecificFuelConsumptionUnit.GramPerKiloNewtonSecond, new string[]{"g/(kN�s)"}), - ("en-US", typeof(SpecificFuelConsumptionUnit), (int)SpecificFuelConsumptionUnit.KilogramPerKilogramForceHour, new string[]{"kg/(kgf�h)"}), - ("en-US", typeof(SpecificFuelConsumptionUnit), (int)SpecificFuelConsumptionUnit.KilogramPerKiloNewtonSecond, new string[]{"kg/(kN�s)"}), - ("en-US", typeof(SpecificFuelConsumptionUnit), (int)SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour, new string[]{"lb/(lbf�h)"}), - ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.CubicFootPerPound, new string[]{"ft³/lb"}), - ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.CubicMeterPerKilogram, new string[]{"m³/kg"}), - ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.MillicubicMeterPerKilogram, new string[]{"mm³/kg"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicCentimeter, new string[]{"kgf/cm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicMeter, new string[]{"kgf/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicMillimeter, new string[]{"kgf/mm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicCentimeter, new string[]{"kN/cm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicMeter, new string[]{"kN/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicMillimeter, new string[]{"kN/mm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilopoundForcePerCubicFoot, new string[]{"kipf/ft³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilopoundForcePerCubicInch, new string[]{"kipf/in³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.MeganewtonPerCubicMeter, new string[]{"MN/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicCentimeter, new string[]{"N/cm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicMeter, new string[]{"N/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicMillimeter, new string[]{"N/mm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.PoundForcePerCubicFoot, new string[]{"lbf/ft³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.PoundForcePerCubicInch, new string[]{"lbf/in³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicCentimeter, new string[]{"tf/cm³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicMeter, new string[]{"tf/m³"}), - ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicMillimeter, new string[]{"tf/mm³"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerDay, new string[]{"af/d"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerHour, new string[]{"af/h"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerMinute, new string[]{"af/m"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerSecond, new string[]{"af/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerDay, new string[]{"cl/day", "cL/d", "cLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerMinute, new string[]{"cL/min", "cLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerMinute, new string[]{"сл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerSecond, new string[]{"cL/s", "cLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerSecond, new string[]{"сл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicCentimeterPerMinute, new string[]{"cm³/min"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicCentimeterPerMinute, new string[]{"см³/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicDecimeterPerMinute, new string[]{"dm³/min"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicDecimeterPerMinute, new string[]{"дм³/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerHour, new string[]{"ft³/h", "cf/hr"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerMinute, new string[]{"ft³/min"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerSecond, new string[]{"ft³/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerDay, new string[]{"m³/d"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerHour, new string[]{"m³/h"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerHour, new string[]{"м³/ч"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerMinute, new string[]{"m³/min"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerMinute, new string[]{"м³/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerSecond, new string[]{"m³/s"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerSecond, new string[]{"м³/с"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMillimeterPerSecond, new string[]{"mm³/s"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMillimeterPerSecond, new string[]{"мм³/с"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerDay, new string[]{"cy/day"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerHour, new string[]{"yd³/h"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerMinute, new string[]{"yd³/min"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerSecond, new string[]{"yd³/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerDay, new string[]{"dl/day", "dL/d", "dLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerMinute, new string[]{"dL/min", "dLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerMinute, new string[]{"дл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerSecond, new string[]{"dL/s", "dLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerSecond, new string[]{"дл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerDay, new string[]{"kl/day", "kL/d", "kLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerMinute, new string[]{"kL/min", "kLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerMinute, new string[]{"кл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerSecond, new string[]{"kL/s", "kLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerSecond, new string[]{"кл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KilousGallonPerMinute, new string[]{"kgal (U.S.)/min", "KGPM"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerDay, new string[]{"l/day", "L/d", "LPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerHour, new string[]{"L/h", "LPH"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerHour, new string[]{"л/ч"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerMinute, new string[]{"L/min", "LPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerMinute, new string[]{"л/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerSecond, new string[]{"L/s", "LPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerSecond, new string[]{"л/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MegaliterPerDay, new string[]{"Ml/day", "ML/d", "MLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MegaukGallonPerSecond, new string[]{"Mgal (imp.)/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerDay, new string[]{"µl/day", "µL/d", "µLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerMinute, new string[]{"µL/min", "µLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerMinute, new string[]{"мкл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerSecond, new string[]{"µL/s", "µLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerSecond, new string[]{"мкл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerDay, new string[]{"ml/day", "mL/d", "mLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerMinute, new string[]{"mL/min", "mLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerMinute, new string[]{"мл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerSecond, new string[]{"mL/s", "mLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerSecond, new string[]{"мл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MillionUsGallonsPerDay, new string[]{"MGD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerDay, new string[]{"nl/day", "nL/d", "nLPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerMinute, new string[]{"nL/min", "nLPM"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerMinute, new string[]{"нл/мин"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerSecond, new string[]{"nL/s", "nLPS"}), + ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerSecond, new string[]{"нл/c"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerDay, new string[]{"bbl/d", "BOPD"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerHour, new string[]{"bbl/hr", "bph"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerMinute, new string[]{"bbl/min", "bpm"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerSecond, new string[]{"bbl/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerDay, new string[]{"gal (U. K.)/d"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerHour, new string[]{"gal (imp.)/h"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerMinute, new string[]{"gal (imp.)/min"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerSecond, new string[]{"gal (imp.)/s"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerDay, new string[]{"gpd", "gal/d"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerHour, new string[]{"gal (U.S.)/h"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerMinute, new string[]{"gal (U.S.)/min", "GPM"}), + ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerSecond, new string[]{"gal (U.S.)/s"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerCentimeter, new string[]{"GW/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerFoot, new string[]{"GW/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerInch, new string[]{"GW/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerMeter, new string[]{"GW/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.GigawattPerMillimeter, new string[]{"GW/mm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerCentimeter, new string[]{"kW/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerFoot, new string[]{"kW/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerInch, new string[]{"kW/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerMeter, new string[]{"kW/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.KilowattPerMillimeter, new string[]{"kW/mm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerCentimeter, new string[]{"MW/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerFoot, new string[]{"MW/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerInch, new string[]{"MW/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerMeter, new string[]{"MW/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MegawattPerMillimeter, new string[]{"MW/mm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerCentimeter, new string[]{"mW/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerFoot, new string[]{"mW/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerInch, new string[]{"mW/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerMeter, new string[]{"mW/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.MilliwattPerMillimeter, new string[]{"mW/mm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerCentimeter, new string[]{"W/cm"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerFoot, new string[]{"W/ft"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerInch, new string[]{"W/in"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerMeter, new string[]{"W/m"}), + ("en-US", typeof(LinearPowerDensityUnit), (int)LinearPowerDensityUnit.WattPerMillimeter, new string[]{"W/mm"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerHour, new string[]{"kV/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond, new string[]{"kV/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerMinute, new string[]{"kV/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.KilovoltPerSecond, new string[]{"kV/s"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerHour, new string[]{"MV/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond, new string[]{"MV/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerMinute, new string[]{"MV/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MegavoltPerSecond, new string[]{"MV/s"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerHour, new string[]{"µV/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond, new string[]{"µV/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerMinute, new string[]{"µV/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MicrovoltPerSecond, new string[]{"µV/s"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerHour, new string[]{"mV/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond, new string[]{"mV/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerMinute, new string[]{"mV/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.MillivoltPerSecond, new string[]{"mV/s"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerHour, new string[]{"V/h"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerMicrosecond, new string[]{"V/μs"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerMinute, new string[]{"V/min"}), + ("en-US", typeof(ElectricPotentialChangeRateUnit), (int)ElectricPotentialChangeRateUnit.VoltPerSecond, new string[]{"V/s"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Farad, new string[]{"F"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Kilofarad, new string[]{"kF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Megafarad, new string[]{"MF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Microfarad, new string[]{"µF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Millifarad, new string[]{"mF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Nanofarad, new string[]{"nF"}), + ("en-US", typeof(CapacitanceUnit), (int)CapacitanceUnit.Picofarad, new string[]{"pF"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerCentimeter, new string[]{"g/cm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerMeter, new string[]{"g/m"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.GramPerMillimeter, new string[]{"g/mm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerCentimeter, new string[]{"kg/cm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerMeter, new string[]{"kg/m"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.KilogramPerMillimeter, new string[]{"kg/mm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerCentimeter, new string[]{"µg/cm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerMeter, new string[]{"µg/m"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MicrogramPerMillimeter, new string[]{"µg/mm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerCentimeter, new string[]{"mg/cm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerMeter, new string[]{"mg/m"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.MilligramPerMillimeter, new string[]{"mg/mm"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.PoundPerFoot, new string[]{"lb/ft"}), + ("en-US", typeof(LinearDensityUnit), (int)LinearDensityUnit.PoundPerInch, new string[]{"lb/in"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseCentimeter, new string[]{"cm⁻¹", "1/cm"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseFoot, new string[]{"ft⁻¹", "1/ft"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseInch, new string[]{"in⁻¹", "1/in"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMeter, new string[]{"m⁻¹", "1/m"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMicroinch, new string[]{"µin⁻¹", "1/µin"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMil, new string[]{"mil⁻¹", "1/mil"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMile, new string[]{"mi⁻¹", "1/mi"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseMillimeter, new string[]{"mm⁻¹", "1/mm"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseUsSurveyFoot, new string[]{"ftUS⁻¹", "1/ftUS"}), + ("en-US", typeof(ReciprocalLengthUnit), (int)ReciprocalLengthUnit.InverseYard, new string[]{"yd⁻¹", "1/yd"}), + ("en-US", typeof(AreaDensityUnit), (int)AreaDensityUnit.KilogramPerSquareMeter, new string[]{"kg/m²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareCentimeter, new string[]{"g·h⁻¹·cm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareMeter, new string[]{"g·h⁻¹·m⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerHourPerSquareMillimeter, new string[]{"g·h⁻¹·mm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareCentimeter, new string[]{"g·s⁻¹·cm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareMeter, new string[]{"g·s⁻¹·m⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.GramPerSecondPerSquareMillimeter, new string[]{"g·s⁻¹·mm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareCentimeter, new string[]{"kg·h⁻¹·cm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareMeter, new string[]{"kg·h⁻¹·m⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerHourPerSquareMillimeter, new string[]{"kg·h⁻¹·mm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareCentimeter, new string[]{"kg·s⁻¹·cm⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareMeter, new string[]{"kg·s⁻¹·m⁻²"}), + ("en-US", typeof(MassFluxUnit), (int)MassFluxUnit.KilogramPerSecondPerSquareMillimeter, new string[]{"kg·s⁻¹·mm⁻²"}), + ("en-US", typeof(MagneticFluxUnit), (int)MagneticFluxUnit.Weber, new string[]{"Wb"}), + ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.KilovoltampereHour, new string[]{"kVAh"}), + ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.MegavoltampereHour, new string[]{"MVAh"}), + ("en-US", typeof(ApparentEnergyUnit), (int)ApparentEnergyUnit.VoltampereHour, new string[]{"VAh"}), ("en-US", typeof(SpeedUnit), (int)SpeedUnit.CentimeterPerHour, new string[]{"cm/h"}), ("ru-RU", typeof(SpeedUnit), (int)SpeedUnit.CentimeterPerHour, new string[]{"см/ч"}), ("en-US", typeof(SpeedUnit), (int)SpeedUnit.CentimeterPerMinute, new string[]{"cm/min"}), @@ -1406,199 +778,73 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(SpeedUnit), (int)SpeedUnit.YardPerHour, new string[]{"yd/h"}), ("en-US", typeof(SpeedUnit), (int)SpeedUnit.YardPerMinute, new string[]{"yd/min"}), ("en-US", typeof(SpeedUnit), (int)SpeedUnit.YardPerSecond, new string[]{"yd/s"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute, new string[]{"sccm"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerHour, new string[]{"scfh"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerMinute, new string[]{"scfm"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicFootPerSecond, new string[]{"Sft³/s"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerDay, new string[]{"Sm³/d"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerHour, new string[]{"Sm³/h"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerMinute, new string[]{"Sm³/min"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardCubicMeterPerSecond, new string[]{"Sm³/s"}), - ("en-US", typeof(StandardVolumeFlowUnit), (int)StandardVolumeFlowUnit.StandardLiterPerMinute, new string[]{"slm"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeCelsius, new string[]{"°C"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeDelisle, new string[]{"°De"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeFahrenheit, new string[]{"°F"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeNewton, new string[]{"°N"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeRankine, new string[]{"°R"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeReaumur, new string[]{"°Ré"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeRoemer, new string[]{"°Rø"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.Kelvin, new string[]{"K"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.MillidegreeCelsius, new string[]{"m°C"}), - ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.SolarTemperature, new string[]{"T⊙"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond, new string[]{"c°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond, new string[]{"da°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond, new string[]{"d°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DegreeCelsiusPerMinute, new string[]{"°C/min"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DegreeCelsiusPerSecond, new string[]{"°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond, new string[]{"h°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond, new string[]{"k°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond, new string[]{"µ°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond, new string[]{"m°C/s"}), - ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, new string[]{"n°C/s"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeCelsius, new string[]{"∆°C"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeDelisle, new string[]{"∆°De"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeFahrenheit, new string[]{"∆°F"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeNewton, new string[]{"∆°N"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeRankine, new string[]{"∆°R"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeReaumur, new string[]{"∆°Ré"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeRoemer, new string[]{"∆°Rø"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.Kelvin, new string[]{"∆K"}), - ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.MillidegreeCelsius, new string[]{"∆m°C"}), - ("en-US", typeof(ThermalConductivityUnit), (int)ThermalConductivityUnit.BtuPerHourFootFahrenheit, new string[]{"BTU/h·ft·°F"}), - ("en-US", typeof(ThermalConductivityUnit), (int)ThermalConductivityUnit.WattPerMeterKelvin, new string[]{"W/m·K"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu, new string[]{"Hrft²°F/Btu"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie, new string[]{"cm²Hr°C/kcal"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareCentimeterKelvinPerWatt, new string[]{"cm²K/W"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt, new string[]{"m²°C/W"}), - ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareMeterKelvinPerKilowatt, new string[]{"m²K/kW"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceCentimeter, new string[]{"kgf·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceMeter, new string[]{"kgf·m"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceMillimeter, new string[]{"kgf·mm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonCentimeter, new string[]{"kN·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMeter, new string[]{"kN·m"}), - ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMeter, new string[]{"кН·м"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMillimeter, new string[]{"kN·mm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilopoundForceFoot, new string[]{"kipf·ft"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilopoundForceInch, new string[]{"kipf·in"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonCentimeter, new string[]{"MN·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMeter, new string[]{"MN·m"}), - ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMeter, new string[]{"МН·м"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMillimeter, new string[]{"MN·mm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MegapoundForceFoot, new string[]{"Mlbf·ft"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MegapoundForceInch, new string[]{"Mlbf·in"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonCentimeter, new string[]{"N·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonMeter, new string[]{"N·m"}), - ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.NewtonMeter, new string[]{"Н·м"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonMillimeter, new string[]{"N·mm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundalFoot, new string[]{"pdl·ft"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundForceFoot, new string[]{"lbf·ft"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundForceInch, new string[]{"lbf·in"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceCentimeter, new string[]{"tf·cm"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceMeter, new string[]{"tf·m"}), - ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceMillimeter, new string[]{"tf·mm"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceCentimeterPerMeter, new string[]{"kgf·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceMeterPerMeter, new string[]{"kgf·m/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceMillimeterPerMeter, new string[]{"kgf·mm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonCentimeterPerMeter, new string[]{"kN·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMeterPerMeter, new string[]{"kN·m/m"}), - ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMeterPerMeter, new string[]{"кН·м/м"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMillimeterPerMeter, new string[]{"kN·mm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilopoundForceFootPerFoot, new string[]{"kipf·ft/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilopoundForceInchPerFoot, new string[]{"kipf·in/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonCentimeterPerMeter, new string[]{"MN·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMeterPerMeter, new string[]{"MN·m/m"}), - ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMeterPerMeter, new string[]{"МН·м/м"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMillimeterPerMeter, new string[]{"MN·mm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MegapoundForceFootPerFoot, new string[]{"Mlbf·ft/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MegapoundForceInchPerFoot, new string[]{"Mlbf·in/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonCentimeterPerMeter, new string[]{"N·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMeterPerMeter, new string[]{"N·m/m"}), - ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMeterPerMeter, new string[]{"Н·м/м"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMillimeterPerMeter, new string[]{"N·mm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.PoundForceFootPerFoot, new string[]{"lbf·ft/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.PoundForceInchPerFoot, new string[]{"lbf·in/ft"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceCentimeterPerMeter, new string[]{"tf·cm/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceMeterPerMeter, new string[]{"tf·m/m"}), - ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceMillimeterPerMeter, new string[]{"tf·mm/m"}), - ("en-US", typeof(TurbidityUnit), (int)TurbidityUnit.NTU, new string[]{"NTU"}), - ("en-US", typeof(VitaminAUnit), (int)VitaminAUnit.InternationalUnit, new string[]{"IU"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.AcreFoot, new string[]{"ac-ft", "acre-foot", "acre-feet"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.AuTablespoon, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.BoardFoot, new string[]{"bf", "board foot", "board feet"}), - ("fr-CA", typeof(VolumeUnit), (int)VolumeUnit.BoardFoot, new string[]{"pmp", "pied-planche", "pied de planche"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Centiliter, new string[]{"cl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Centiliter, new string[]{"сл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicCentimeter, new string[]{"cm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicCentimeter, new string[]{"см³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicDecimeter, new string[]{"dm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicDecimeter, new string[]{"дм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicFoot, new string[]{"ft³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicFoot, new string[]{"фут³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicHectometer, new string[]{"hm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicHectometer, new string[]{"гм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicInch, new string[]{"in³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicInch, new string[]{"дюйм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicKilometer, new string[]{"km³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicKilometer, new string[]{"км³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMeter, new string[]{"m³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMeter, new string[]{"м³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMicrometer, new string[]{"µm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMicrometer, new string[]{"мкм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMile, new string[]{"mi³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMile, new string[]{"миля³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicMillimeter, new string[]{"mm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicMillimeter, new string[]{"мм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.CubicYard, new string[]{"yd³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.CubicYard, new string[]{"ярд³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.DecausGallon, new string[]{"dagal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.DecausGallon, new string[]{"даАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Deciliter, new string[]{"dl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Deciliter, new string[]{"дл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.DeciusGallon, new string[]{"dgal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.DeciusGallon, new string[]{"дАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectocubicFoot, new string[]{"hft³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectocubicFoot, new string[]{"гфут³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectocubicMeter, new string[]{"hm³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectocubicMeter, new string[]{"гм³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Hectoliter, new string[]{"hl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Hectoliter, new string[]{"гл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.HectousGallon, new string[]{"hgal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.HectousGallon, new string[]{"гАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialBeerBarrel, new string[]{"bl (imp.)"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialGallon, new string[]{"gal (imp.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.ImperialGallon, new string[]{"Английский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialOunce, new string[]{"oz (imp.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.ImperialOunce, new string[]{"Английская унция"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.ImperialPint, new string[]{"pt (imp.)", "UK pt", "pt", "p"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilocubicFoot, new string[]{"kft³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilocubicFoot, new string[]{"кфут³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilocubicMeter, new string[]{"km³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilocubicMeter, new string[]{"км³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KiloimperialGallon, new string[]{"kgal (imp.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KiloimperialGallon, new string[]{"кАнглийский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Kiloliter, new string[]{"kl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Kiloliter, new string[]{"кл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.KilousGallon, new string[]{"kgal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.KilousGallon, new string[]{"кАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Liter, new string[]{"l"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Liter, new string[]{"л"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegacubicFoot, new string[]{"Mft³"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegacubicFoot, new string[]{"Мфут³"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegaimperialGallon, new string[]{"Mgal (imp.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegaimperialGallon, new string[]{"МАнглийский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Megaliter, new string[]{"Ml"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Megaliter, new string[]{"Мл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MegausGallon, new string[]{"Mgal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MegausGallon, new string[]{"МАмериканский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MetricCup, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{"tsp", "t", "ts", "tspn", "t.", "ts.", "tsp.", "tspn.", "teaspoon"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.MetricTeaspoon, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Microliter, new string[]{"µl"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Microliter, new string[]{"мкл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.Milliliter, new string[]{"ml"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.Milliliter, new string[]{"мл"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.OilBarrel, new string[]{"bbl"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UkTablespoon, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsBeerBarrel, new string[]{"bl (U.S.)"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsCustomaryCup, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsGallon, new string[]{"gal (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsGallon, new string[]{"Американский галлон"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsLegalCup, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsOunce, new string[]{"oz (U.S.)"}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsOunce, new string[]{"Американская унция"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsPint, new string[]{"pt (U.S.)"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsQuart, new string[]{"qt (U.S.)"}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UsTablespoon, new string[]{""}), - ("en-US", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), - ("ru-RU", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), - ("nb-NO", typeof(VolumeUnit), (int)VolumeUnit.UsTeaspoon, new string[]{""}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.BitPerSecond, new string[]{"bit/s", "bps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.BytePerSecond, new string[]{"B/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExabitPerSecond, new string[]{"Ebit/s", "Ebps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExabytePerSecond, new string[]{"EB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExbibitPerSecond, new string[]{"Eibit/s", "Eibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.ExbibytePerSecond, new string[]{"EiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GibibitPerSecond, new string[]{"Gibit/s", "Gibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GibibytePerSecond, new string[]{"GiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GigabitPerSecond, new string[]{"Gbit/s", "Gbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.GigabytePerSecond, new string[]{"GB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KibibitPerSecond, new string[]{"Kibit/s", "Kibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KibibytePerSecond, new string[]{"KiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KilobitPerSecond, new string[]{"kbit/s", "kbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.KilobytePerSecond, new string[]{"kB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MebibitPerSecond, new string[]{"Mibit/s", "Mibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MebibytePerSecond, new string[]{"MiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MegabitPerSecond, new string[]{"Mbit/s", "Mbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.MegabytePerSecond, new string[]{"MB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PebibitPerSecond, new string[]{"Pibit/s", "Pibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PebibytePerSecond, new string[]{"PiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PetabitPerSecond, new string[]{"Pbit/s", "Pbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.PetabytePerSecond, new string[]{"PB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TebibitPerSecond, new string[]{"Tibit/s", "Tibps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TebibytePerSecond, new string[]{"TiB/s"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TerabitPerSecond, new string[]{"Tbit/s", "Tbps"}), + ("en-US", typeof(BitRateUnit), (int)BitRateUnit.TerabytePerSecond, new string[]{"TB/s"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"ac"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"акр"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.Acre, new string[]{"英亩"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"ha"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"га"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.Hectare, new string[]{"英亩"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"cm²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"см²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareCentimeter, new string[]{"平方厘米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"dm²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"дм²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareDecimeter, new string[]{"平方分米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"ft²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"фут²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareFoot, new string[]{"平方英尺"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"in²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"дюйм²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareInch, new string[]{"平方英寸"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"km²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"км²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareKilometer, new string[]{"平方公里"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"m²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"м²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMeter, new string[]{"平方米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"µm²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"мкм²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMicrometer, new string[]{"平方微米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"mi²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"миля²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMile, new string[]{"平方英里"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"mm²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"мм²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareMillimeter, new string[]{"平方毫米"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"nmi²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"морск.миля²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareNauticalMile, new string[]{"平方海里"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"yd²"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"ярд²"}), + ("zh-CN", typeof(AreaUnit), (int)AreaUnit.SquareYard, new string[]{"平方码"}), + ("en-US", typeof(AreaUnit), (int)AreaUnit.UsSurveySquareFoot, new string[]{"ft² (US)"}), + ("ru-RU", typeof(AreaUnit), (int)AreaUnit.UsSurveySquareFoot, new string[]{"фут² (US)"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.CentilitersPerLiter, new string[]{"cL/L"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.CentilitersPerMililiter, new string[]{"cL/mL"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.DecilitersPerLiter, new string[]{"dL/L"}), @@ -1619,83 +865,82 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.Percent, new string[]{"%", "% (v/v)"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.PicolitersPerLiter, new string[]{"pL/L"}), ("en-US", typeof(VolumeConcentrationUnit), (int)VolumeConcentrationUnit.PicolitersPerMililiter, new string[]{"pL/mL"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerDay, new string[]{"af/d"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerHour, new string[]{"af/h"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerMinute, new string[]{"af/m"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.AcreFootPerSecond, new string[]{"af/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerDay, new string[]{"cl/day", "cL/d", "cLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerMinute, new string[]{"cL/min", "cLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerMinute, new string[]{"сл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerSecond, new string[]{"cL/s", "cLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CentiliterPerSecond, new string[]{"сл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicCentimeterPerMinute, new string[]{"cm³/min"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicCentimeterPerMinute, new string[]{"см³/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicDecimeterPerMinute, new string[]{"dm³/min"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicDecimeterPerMinute, new string[]{"дм³/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerHour, new string[]{"ft³/h", "cf/hr"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerMinute, new string[]{"ft³/min"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicFootPerSecond, new string[]{"ft³/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerDay, new string[]{"m³/d"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerHour, new string[]{"m³/h"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerHour, new string[]{"м³/ч"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerMinute, new string[]{"m³/min"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerMinute, new string[]{"м³/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerSecond, new string[]{"m³/s"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMeterPerSecond, new string[]{"м³/с"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMillimeterPerSecond, new string[]{"mm³/s"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicMillimeterPerSecond, new string[]{"мм³/с"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerDay, new string[]{"cy/day"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerHour, new string[]{"yd³/h"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerMinute, new string[]{"yd³/min"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.CubicYardPerSecond, new string[]{"yd³/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerDay, new string[]{"dl/day", "dL/d", "dLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerMinute, new string[]{"dL/min", "dLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerMinute, new string[]{"дл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerSecond, new string[]{"dL/s", "dLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.DeciliterPerSecond, new string[]{"дл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerDay, new string[]{"kl/day", "kL/d", "kLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerMinute, new string[]{"kL/min", "kLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerMinute, new string[]{"кл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerSecond, new string[]{"kL/s", "kLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KiloliterPerSecond, new string[]{"кл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.KilousGallonPerMinute, new string[]{"kgal (U.S.)/min", "KGPM"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerDay, new string[]{"l/day", "L/d", "LPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerHour, new string[]{"L/h", "LPH"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerHour, new string[]{"л/ч"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerMinute, new string[]{"L/min", "LPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerMinute, new string[]{"л/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerSecond, new string[]{"L/s", "LPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.LiterPerSecond, new string[]{"л/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MegaliterPerDay, new string[]{"Ml/day", "ML/d", "MLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MegaukGallonPerSecond, new string[]{"Mgal (imp.)/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerDay, new string[]{"µl/day", "µL/d", "µLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerMinute, new string[]{"µL/min", "µLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerMinute, new string[]{"мкл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerSecond, new string[]{"µL/s", "µLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MicroliterPerSecond, new string[]{"мкл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerDay, new string[]{"ml/day", "mL/d", "mLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerMinute, new string[]{"mL/min", "mLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerMinute, new string[]{"мл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerSecond, new string[]{"mL/s", "mLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MilliliterPerSecond, new string[]{"мл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.MillionUsGallonsPerDay, new string[]{"MGD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerDay, new string[]{"nl/day", "nL/d", "nLPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerMinute, new string[]{"nL/min", "nLPM"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerMinute, new string[]{"нл/мин"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerSecond, new string[]{"nL/s", "nLPS"}), - ("ru-RU", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.NanoliterPerSecond, new string[]{"нл/c"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerDay, new string[]{"bbl/d", "BOPD"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerHour, new string[]{"bbl/hr", "bph"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerMinute, new string[]{"bbl/min", "bpm"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.OilBarrelPerSecond, new string[]{"bbl/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerDay, new string[]{"gal (U. K.)/d"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerHour, new string[]{"gal (imp.)/h"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerMinute, new string[]{"gal (imp.)/min"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UkGallonPerSecond, new string[]{"gal (imp.)/s"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerDay, new string[]{"gpd", "gal/d"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerHour, new string[]{"gal (U.S.)/h"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerMinute, new string[]{"gal (U.S.)/min", "GPM"}), - ("en-US", typeof(VolumeFlowUnit), (int)VolumeFlowUnit.UsGallonPerSecond, new string[]{"gal (U.S.)/s"}), + ("en-US", typeof(PermittivityUnit), (int)PermittivityUnit.FaradPerMeter, new string[]{"F/m"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Bit, new string[]{"b"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Byte, new string[]{"B"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Exabit, new string[]{"Eb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Exabyte, new string[]{"EB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Exbibit, new string[]{"Eib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Exbibyte, new string[]{"EiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Gibibit, new string[]{"Gib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Gibibyte, new string[]{"GiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Gigabit, new string[]{"Gb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Gigabyte, new string[]{"GB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Kibibit, new string[]{"Kib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Kibibyte, new string[]{"KiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Kilobit, new string[]{"kb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Kilobyte, new string[]{"kB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Mebibit, new string[]{"Mib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Mebibyte, new string[]{"MiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Megabit, new string[]{"Mb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Megabyte, new string[]{"MB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Pebibit, new string[]{"Pib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Pebibyte, new string[]{"PiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Petabit, new string[]{"Pb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Petabyte, new string[]{"PB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Tebibit, new string[]{"Tib"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Tebibyte, new string[]{"TiB"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Terabit, new string[]{"Tb"}), + ("en-US", typeof(InformationUnit), (int)InformationUnit.Terabyte, new string[]{"TB"}), + ("en-US", typeof(LapseRateUnit), (int)LapseRateUnit.DegreeCelsiusPerKilometer, new string[]{"∆°C/km"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMeterPerDegree, new string[]{"cN·m/deg", "cNm/deg", "cN·m/°", "cNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMillimeterPerDegree, new string[]{"cN·mm/deg", "cNmm/deg", "cN·mm/°", "cNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.CentinewtonMillimeterPerRadian, new string[]{"cN·mm/rad", "cNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMeterPerDegree, new string[]{"daN·m/deg", "daNm/deg", "daN·m/°", "daNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMillimeterPerDegree, new string[]{"daN·mm/deg", "daNmm/deg", "daN·mm/°", "daNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecanewtonMillimeterPerRadian, new string[]{"daN·mm/rad", "daNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMeterPerDegree, new string[]{"dN·m/deg", "dNm/deg", "dN·m/°", "dNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMillimeterPerDegree, new string[]{"dN·mm/deg", "dNmm/deg", "dN·mm/°", "dNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.DecinewtonMillimeterPerRadian, new string[]{"dN·mm/rad", "dNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMeterPerDegree, new string[]{"kN·m/deg", "kNm/deg", "kN·m/°", "kNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMeterPerRadian, new string[]{"kN·m/rad", "kNm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMillimeterPerDegree, new string[]{"kN·mm/deg", "kNmm/deg", "kN·mm/°", "kNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilonewtonMillimeterPerRadian, new string[]{"kN·mm/rad", "kNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.KilopoundForceFootPerDegrees, new string[]{"kipf·ft/°", "kip·ft/°g", "k·ft/°", "kipf·ft/deg", "kip·ft/deg", "k·ft/deg"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMeterPerDegree, new string[]{"MN·m/deg", "MNm/deg", "MN·m/°", "MNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMeterPerRadian, new string[]{"MN·m/rad", "MNm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMillimeterPerDegree, new string[]{"MN·mm/deg", "MNmm/deg", "MN·mm/°", "MNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MeganewtonMillimeterPerRadian, new string[]{"MN·mm/rad", "MNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMeterPerDegree, new string[]{"µN·m/deg", "µNm/deg", "µN·m/°", "µNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMillimeterPerDegree, new string[]{"µN·mm/deg", "µNmm/deg", "µN·mm/°", "µNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MicronewtonMillimeterPerRadian, new string[]{"µN·mm/rad", "µNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMeterPerDegree, new string[]{"mN·m/deg", "mNm/deg", "mN·m/°", "mNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMillimeterPerDegree, new string[]{"mN·mm/deg", "mNmm/deg", "mN·mm/°", "mNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.MillinewtonMillimeterPerRadian, new string[]{"mN·mm/rad", "mNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMeterPerDegree, new string[]{"nN·m/deg", "nNm/deg", "nN·m/°", "nNm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMillimeterPerDegree, new string[]{"nN·mm/deg", "nNmm/deg", "nN·mm/°", "nNmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NanonewtonMillimeterPerRadian, new string[]{"nN·mm/rad", "nNmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMeterPerDegree, new string[]{"N·m/deg", "Nm/deg", "N·m/°", "Nm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMeterPerRadian, new string[]{"N·m/rad", "Nm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMillimeterPerDegree, new string[]{"N·mm/deg", "Nmm/deg", "N·mm/°", "Nmm/°"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.NewtonMillimeterPerRadian, new string[]{"N·mm/rad", "Nmm/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.PoundForceFeetPerRadian, new string[]{"lbf·ft/rad"}), + ("en-US", typeof(RotationalStiffnessUnit), (int)RotationalStiffnessUnit.PoundForceFootPerDegrees, new string[]{"lbf·ft/deg"}), + ("en-US", typeof(ElectricChargeDensityUnit), (int)ElectricChargeDensityUnit.CoulombPerCubicMeter, new string[]{"C/m³"}), + ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.KilometerPerLiter, new string[]{"km/L"}), + ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.LiterPer100Kilometers, new string[]{"L/100km"}), + ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.MilePerUkGallon, new string[]{"mpg (imp.)"}), + ("en-US", typeof(FuelEfficiencyUnit), (int)FuelEfficiencyUnit.MilePerUsGallon, new string[]{"mpg (U.S.)"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Kilovolt, new string[]{"kV"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Kilovolt, new string[]{"кВ"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Megavolt, new string[]{"MV"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Megavolt, new string[]{"МВ"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Microvolt, new string[]{"µV"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Microvolt, new string[]{"мкВ"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Millivolt, new string[]{"mV"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Millivolt, new string[]{"мВ"}), + ("en-US", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Volt, new string[]{"V"}), + ("ru-RU", typeof(ElectricPotentialUnit), (int)ElectricPotentialUnit.Volt, new string[]{"В"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.CubicMeterPerMeter, new string[]{"m³/m"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.CubicYardPerFoot, new string[]{"yd³/ft"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.CubicYardPerUsSurveyFoot, new string[]{"yd³/ftUS"}), @@ -1703,21 +948,776 @@ private static readonly (string CultureName, Type UnitType, int UnitValue, strin ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.LiterPerMeter, new string[]{"l/m"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.LiterPerMillimeter, new string[]{"l/mm"}), ("en-US", typeof(VolumePerLengthUnit), (int)VolumePerLengthUnit.OilBarrelPerFoot, new string[]{"bbl/ft"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit, new string[]{"BTU/ft³·°F"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius, new string[]{"cal/cm³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius, new string[]{"J/m³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.JoulePerCubicMeterKelvin, new string[]{"J/m³·K"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius, new string[]{"kcal/cm³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius, new string[]{"kJ/m³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin, new string[]{"kJ/m³·K"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius, new string[]{"MJ/m³·°C"}), - ("en-US", typeof(VolumetricHeatCapacityUnit), (int)VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, new string[]{"MJ/m³·K"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.CentimeterToTheSixth, new string[]{"cm⁶", "cm^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.DecimeterToTheSixth, new string[]{"dm⁶", "dm^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.FootToTheSixth, new string[]{"ft⁶", "ft^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.InchToTheSixth, new string[]{"in⁶", "in^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.MeterToTheSixth, new string[]{"m⁶", "m^6"}), - ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.MillimeterToTheSixth, new string[]{"mm⁶", "mm^6"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.CentimeterToTheFourth, new string[]{"cm⁴", "cm^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.DecimeterToTheFourth, new string[]{"dm⁴", "dm^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.FootToTheFourth, new string[]{"ft⁴", "ft^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.InchToTheFourth, new string[]{"in⁴", "in^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.MeterToTheFourth, new string[]{"m⁴", "m^4"}), + ("en-US", typeof(AreaMomentOfInertiaUnit), (int)AreaMomentOfInertiaUnit.MillimeterToTheFourth, new string[]{"mm⁴", "mm^4"}), + ("en-US", typeof(VitaminAUnit), (int)VitaminAUnit.InternationalUnit, new string[]{"IU"}), + ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Kilolux, new string[]{"klx"}), + ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Lux, new string[]{"lx"}), + ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Megalux, new string[]{"Mlx"}), + ("en-US", typeof(IlluminanceUnit), (int)IlluminanceUnit.Millilux, new string[]{"mlx"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"cg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"сг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Centigram, new string[]{"厘克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"dag"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"даг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Decagram, new string[]{"十克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"dg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"дг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Decigram, new string[]{"分克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.EarthMass, new string[]{"em"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Grain, new string[]{"gr"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"g"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"г"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Gram, new string[]{"克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"hg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"гг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Hectogram, new string[]{"百克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"kg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"кг"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilogram, new string[]{"千克"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"klb", "klbs", "klbm"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"кфунт"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilopound, new string[]{"千磅"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"kt"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"кт"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Kilotonne, new string[]{"千吨"}), + ("en-US", typeof(MassUnit), (int)MassUnit.LongHundredweight, new string[]{"cwt"}), + ("en-US", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"long tn"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"тонна большая"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.LongTon, new string[]{"长吨"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"Mlb", "Mlbs", "Mlbm"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"Мфунт"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Megapound, new string[]{"兆磅"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"Mt"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"Мт"}), + ("zh-CN", typeof(MassUnit), (int)MassUnit.Megatonne, new string[]{"兆吨"}), + ("en-US", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"µg"}), + ("ru-RU", typeof(MassUnit), (int)MassUnit.Microgram, new string[]{"мкг"}), + ("zh-CN", 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("en-US", typeof(EnergyUnit), (int)EnergyUnit.KiloelectronVolt, new string[]{"keV"}), + ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.KiloelectronVolt, new string[]{"кэВ"}), + ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Kilojoule, new string[]{"kJ"}), + ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KilowattDay, new string[]{"kWd"}), + ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.KilowattDay, new string[]{"кВт/д"}), + ("en-US", typeof(EnergyUnit), (int)EnergyUnit.KilowattHour, new string[]{"kWh"}), + ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.KilowattHour, new string[]{"кВт/ч"}), + ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegabritishThermalUnit, new string[]{"MBTU"}), + ("en-US", typeof(EnergyUnit), (int)EnergyUnit.Megacalorie, new string[]{"Mcal"}), + ("en-US", typeof(EnergyUnit), (int)EnergyUnit.MegaelectronVolt, new string[]{"MeV"}), + ("ru-RU", typeof(EnergyUnit), (int)EnergyUnit.MegaelectronVolt, new string[]{"МэВ"}), + ("en-US", typeof(EnergyUnit), 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(int)MassMomentOfInertiaUnit.GramSquareMillimeter, new string[]{"g·mm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareCentimeter, new string[]{"kg·cm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareDecimeter, new string[]{"kg·dm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareMeter, new string[]{"kg·m²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilogramSquareMillimeter, new string[]{"kg·mm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareCentimeter, new string[]{"kt·cm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareDecimeter, new string[]{"kt·dm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareMeter, new string[]{"kt·m²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.KilotonneSquareMilimeter, new string[]{"kt·mm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareCentimeter, new string[]{"Mt·cm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareDecimeter, new string[]{"Mt·dm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareMeter, new string[]{"Mt·m²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MegatonneSquareMilimeter, new string[]{"Mt·mm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareCentimeter, new string[]{"mg·cm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareDecimeter, new string[]{"mg·dm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareMeter, new string[]{"mg·m²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.MilligramSquareMillimeter, new string[]{"mg·mm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.PoundSquareFoot, new string[]{"lb·ft²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.PoundSquareInch, new string[]{"lb·in²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.SlugSquareFoot, new string[]{"slug·ft²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.SlugSquareInch, new string[]{"slug·in²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareCentimeter, new string[]{"t·cm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareDecimeter, new string[]{"t·dm²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareMeter, new string[]{"t·m²"}), + ("en-US", typeof(MassMomentOfInertiaUnit), (int)MassMomentOfInertiaUnit.TonneSquareMilimeter, new string[]{"t·mm²"}), + ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.CentimeterToTheSixth, new string[]{"cm⁶", "cm^6"}), + ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.DecimeterToTheSixth, new string[]{"dm⁶", "dm^6"}), + ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.FootToTheSixth, new string[]{"ft⁶", "ft^6"}), + ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.InchToTheSixth, new string[]{"in⁶", "in^6"}), + ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.MeterToTheSixth, new string[]{"m⁶", "m^6"}), + ("en-US", typeof(WarpingMomentOfInertiaUnit), (int)WarpingMomentOfInertiaUnit.MillimeterToTheSixth, new string[]{"mm⁶", "mm^6"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeCelsius, new string[]{"°C"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeDelisle, new string[]{"°De"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeFahrenheit, new string[]{"°F"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeNewton, new string[]{"°N"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeRankine, new string[]{"°R"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeReaumur, new string[]{"°Ré"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.DegreeRoemer, new string[]{"°Rø"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.Kelvin, new string[]{"K"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.MillidegreeCelsius, new string[]{"m°C"}), + ("en-US", typeof(TemperatureUnit), (int)TemperatureUnit.SolarTemperature, new string[]{"T⊙"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerDeciliter, new string[]{"cg/dL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerLiter, new string[]{"cg/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerMicroliter, new string[]{"cg/μL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.CentigramPerMilliliter, new string[]{"cg/mL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerDeciliter, new string[]{"dg/dL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerLiter, new string[]{"dg/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerMicroliter, new string[]{"dg/μL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.DecigramPerMilliliter, new string[]{"dg/mL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicCentimeter, new string[]{"g/cm³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicMeter, new string[]{"g/m³"}), + ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicMeter, new string[]{"г/м³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerCubicMillimeter, new string[]{"g/mm³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerDeciliter, new string[]{"g/dL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerLiter, new string[]{"g/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerMicroliter, new string[]{"g/μL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.GramPerMilliliter, new string[]{"g/mL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicCentimeter, new string[]{"kg/cm³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicMeter, new string[]{"kg/m³"}), + ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicMeter, new string[]{"кг/м³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerCubicMillimeter, new string[]{"kg/mm³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilogramPerLiter, new string[]{"kg/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilopoundPerCubicFoot, new string[]{"kip/ft³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.KilopoundPerCubicInch, new string[]{"kip/in³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerCubicMeter, new string[]{"µg/m³"}), + ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerCubicMeter, new string[]{"мкг/м³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerDeciliter, new string[]{"µg/dL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerLiter, new string[]{"µg/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerMicroliter, new string[]{"µg/μL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MicrogramPerMilliliter, new string[]{"µg/mL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerCubicMeter, new string[]{"mg/m³"}), + ("ru-RU", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerCubicMeter, new string[]{"мг/м³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerDeciliter, new string[]{"mg/dL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerLiter, new string[]{"mg/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerMicroliter, new string[]{"mg/μL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.MilligramPerMilliliter, new string[]{"mg/mL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerDeciliter, new string[]{"ng/dL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerLiter, new string[]{"ng/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerMicroliter, new string[]{"ng/μL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.NanogramPerMilliliter, new string[]{"ng/mL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.OuncePerImperialGallon, new string[]{"oz/gal (imp.)"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.OuncePerUSGallon, new string[]{"oz/gal (U.S.)"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerDeciliter, new string[]{"pg/dL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerLiter, new string[]{"pg/L"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerMicroliter, new string[]{"pg/μL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PicogramPerMilliliter, new string[]{"pg/mL"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerCubicFoot, new string[]{"lb/ft³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerCubicInch, new string[]{"lb/in³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerImperialGallon, new string[]{"ppg (imp.)"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.PoundPerUSGallon, new string[]{"ppg (U.S.)"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.SlugPerCubicFoot, new string[]{"slug/ft³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicCentimeter, new string[]{"t/cm³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicMeter, new string[]{"t/m³"}), + ("en-US", typeof(MassConcentrationUnit), (int)MassConcentrationUnit.TonnePerCubicMillimeter, new string[]{"t/mm³"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.KiloohmCentimeter, new string[]{"kΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.KiloohmMeter, new string[]{"kΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MegaohmCentimeter, new string[]{"MΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MegaohmMeter, new string[]{"MΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MicroohmCentimeter, new string[]{"µΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MicroohmMeter, new string[]{"µΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MilliohmCentimeter, new string[]{"mΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.MilliohmMeter, new string[]{"mΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.NanoohmCentimeter, new string[]{"nΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.NanoohmMeter, new string[]{"nΩ·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.OhmCentimeter, new string[]{"Ω·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.OhmMeter, new string[]{"Ω·m"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.PicoohmCentimeter, new string[]{"pΩ·cm"}), + ("en-US", typeof(ElectricResistivityUnit), (int)ElectricResistivityUnit.PicoohmMeter, new string[]{"pΩ·m"}), + ("en-US", typeof(TurbidityUnit), (int)TurbidityUnit.NTU, new string[]{"NTU"}), + ("en-US", typeof(LuminousIntensityUnit), (int)LuminousIntensityUnit.Candela, new string[]{"cd"}), + ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter, new string[]{"C/cm²"}), + ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch, new string[]{"C/in²"}), + ("en-US", typeof(ElectricSurfaceChargeDensityUnit), (int)ElectricSurfaceChargeDensityUnit.CoulombPerSquareMeter, new string[]{"C/m²"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Decanewton, new string[]{"daN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Decanewton, new string[]{"даН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Dyn, new string[]{"dyn"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Dyn, new string[]{"дин"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.KilogramForce, new string[]{"kgf"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KilogramForce, new string[]{"кгс"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Kilonewton, new string[]{"kN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Kilonewton, new string[]{"кН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.KiloPond, new string[]{"kp"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KiloPond, new string[]{"кгс"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.KilopoundForce, new string[]{"kipf", "kip", "k"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.KilopoundForce, new string[]{"кипф", "койка", "К"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Meganewton, new string[]{"MN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Meganewton, new string[]{"МН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Micronewton, new string[]{"µN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Micronewton, new string[]{"мкН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Millinewton, new string[]{"mN"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Millinewton, new string[]{"мН"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Newton, new string[]{"N"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Newton, new string[]{"Н"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.OunceForce, new string[]{"ozf"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.Poundal, new string[]{"pdl"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.Poundal, new string[]{"паундаль"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.PoundForce, new string[]{"lbf"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.PoundForce, new string[]{"фунт-сила"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.ShortTonForce, new string[]{"tf (short)", "t (US)f", "short tons-force"}), + ("en-US", typeof(ForceUnit), (int)ForceUnit.TonneForce, new string[]{"tf", "Ton"}), + ("ru-RU", typeof(ForceUnit), (int)ForceUnit.TonneForce, new string[]{"тс"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.CentiradianPerSecond, new string[]{"crad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.CentiradianPerSecond, new string[]{"срад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DeciradianPerSecond, new string[]{"drad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DeciradianPerSecond, new string[]{"драд/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerMinute, new string[]{"°/min", "deg/min"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerSecond, new string[]{"°/s", "deg/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.DegreePerSecond, new string[]{"°/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicrodegreePerSecond, new string[]{"µ°/s", "µdeg/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicrodegreePerSecond, new string[]{"мк°/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicroradianPerSecond, new string[]{"µrad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MicroradianPerSecond, new string[]{"мкрад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MillidegreePerSecond, new string[]{"m°/s", "mdeg/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MillidegreePerSecond, new string[]{"м°/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MilliradianPerSecond, new string[]{"mrad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.MilliradianPerSecond, new string[]{"мрад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanodegreePerSecond, new string[]{"n°/s", "ndeg/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanodegreePerSecond, new string[]{"н°/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanoradianPerSecond, new string[]{"nrad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.NanoradianPerSecond, new string[]{"нрад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RadianPerSecond, new string[]{"rad/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RadianPerSecond, new string[]{"рад/с"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerMinute, new string[]{"rpm", "r/min"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerMinute, new string[]{"об/мин"}), + ("en-US", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerSecond, new string[]{"r/s"}), + ("ru-RU", typeof(RotationalSpeedUnit), (int)RotationalSpeedUnit.RevolutionPerSecond, new string[]{"об/с"}), + ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.CubicFootPerPound, new string[]{"ft³/lb"}), + ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.CubicMeterPerKilogram, new string[]{"m³/kg"}), + ("en-US", typeof(SpecificVolumeUnit), (int)SpecificVolumeUnit.MillicubicMeterPerKilogram, new string[]{"mm³/kg"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicCentimeter, new string[]{"kgf/cm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicMeter, new string[]{"kgf/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilogramForcePerCubicMillimeter, new string[]{"kgf/mm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicCentimeter, new string[]{"kN/cm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicMeter, new string[]{"kN/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilonewtonPerCubicMillimeter, new string[]{"kN/mm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilopoundForcePerCubicFoot, new string[]{"kipf/ft³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.KilopoundForcePerCubicInch, new string[]{"kipf/in³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.MeganewtonPerCubicMeter, new string[]{"MN/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicCentimeter, new string[]{"N/cm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicMeter, new string[]{"N/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.NewtonPerCubicMillimeter, new string[]{"N/mm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.PoundForcePerCubicFoot, new string[]{"lbf/ft³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.PoundForcePerCubicInch, new string[]{"lbf/in³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicCentimeter, new string[]{"tf/cm³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicMeter, new string[]{"tf/m³"}), + ("en-US", typeof(SpecificWeightUnit), (int)SpecificWeightUnit.TonneForcePerCubicMillimeter, new string[]{"tf/mm³"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerHourSquareFoot, new string[]{"BTU/h·ft²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerMinuteSquareFoot, new string[]{"BTU/min·ft²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerSecondSquareFoot, new string[]{"BTU/s·ft²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.BtuPerSecondSquareInch, new string[]{"BTU/s·in²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.CaloriePerSecondSquareCentimeter, new string[]{"cal/s·cm²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.CentiwattPerSquareMeter, new string[]{"cW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.DeciwattPerSquareMeter, new string[]{"dW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilocaloriePerHourSquareMeter, new string[]{"kcal/h·m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilocaloriePerSecondSquareCentimeter, new string[]{"kcal/s·cm²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.KilowattPerSquareMeter, new string[]{"kW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.MicrowattPerSquareMeter, new string[]{"µW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.MilliwattPerSquareMeter, new string[]{"mW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.NanowattPerSquareMeter, new string[]{"nW/m²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.PoundForcePerFootSecond, new string[]{"lbf/(ft·s)"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.PoundPerSecondCubed, new string[]{"lb/s³", "lbm/s³"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareFoot, new string[]{"W/ft²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareInch, new string[]{"W/in²"}), + ("en-US", typeof(HeatFluxUnit), (int)HeatFluxUnit.WattPerSquareMeter, new string[]{"W/m²"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceCentimeter, new string[]{"kgf·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceMeter, new string[]{"kgf·m"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilogramForceMillimeter, new string[]{"kgf·mm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonCentimeter, new string[]{"kN·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMeter, new string[]{"kN·m"}), + ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMeter, new string[]{"кН·м"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilonewtonMillimeter, new string[]{"kN·mm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilopoundForceFoot, new string[]{"kipf·ft"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.KilopoundForceInch, new string[]{"kipf·in"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonCentimeter, new string[]{"MN·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMeter, new string[]{"MN·m"}), + ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMeter, new string[]{"МН·м"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MeganewtonMillimeter, new string[]{"MN·mm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MegapoundForceFoot, new string[]{"Mlbf·ft"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.MegapoundForceInch, new string[]{"Mlbf·in"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonCentimeter, new string[]{"N·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonMeter, new string[]{"N·m"}), + ("ru-RU", typeof(TorqueUnit), (int)TorqueUnit.NewtonMeter, new string[]{"Н·м"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.NewtonMillimeter, new string[]{"N·mm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundalFoot, new string[]{"pdl·ft"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundForceFoot, new string[]{"lbf·ft"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.PoundForceInch, new string[]{"lbf·in"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceCentimeter, new string[]{"tf·cm"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceMeter, new string[]{"tf·m"}), + ("en-US", typeof(TorqueUnit), (int)TorqueUnit.TonneForceMillimeter, new string[]{"tf·mm"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.CaloriePerKelvin, new string[]{"cal/K"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.JoulePerDegreeCelsius, new string[]{"J/C"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.JoulePerKelvin, new string[]{"J/K"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilocaloriePerKelvin, new string[]{"kcal/K"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilojoulePerDegreeCelsius, new string[]{"kJ/C"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.KilojoulePerKelvin, new string[]{"kJ/K"}), + ("en-US", typeof(EntropyUnit), (int)EntropyUnit.MegajoulePerKelvin, new string[]{"MJ/K"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceCentimeterPerMeter, new string[]{"kgf·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceMeterPerMeter, new string[]{"kgf·m/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilogramForceMillimeterPerMeter, new string[]{"kgf·mm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonCentimeterPerMeter, new string[]{"kN·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMeterPerMeter, new string[]{"kN·m/m"}), + ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMeterPerMeter, new string[]{"кН·м/м"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilonewtonMillimeterPerMeter, new string[]{"kN·mm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilopoundForceFootPerFoot, new string[]{"kipf·ft/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.KilopoundForceInchPerFoot, new string[]{"kipf·in/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonCentimeterPerMeter, new string[]{"MN·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMeterPerMeter, new string[]{"MN·m/m"}), + ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMeterPerMeter, new string[]{"МН·м/м"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MeganewtonMillimeterPerMeter, new string[]{"MN·mm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MegapoundForceFootPerFoot, new string[]{"Mlbf·ft/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.MegapoundForceInchPerFoot, new string[]{"Mlbf·in/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonCentimeterPerMeter, new string[]{"N·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMeterPerMeter, new string[]{"N·m/m"}), + ("ru-RU", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMeterPerMeter, new string[]{"Н·м/м"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.NewtonMillimeterPerMeter, new string[]{"N·mm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.PoundForceFootPerFoot, new string[]{"lbf·ft/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.PoundForceInchPerFoot, new string[]{"lbf·in/ft"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceCentimeterPerMeter, new string[]{"tf·cm/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceMeterPerMeter, new string[]{"tf·m/m"}), + ("en-US", typeof(TorquePerLengthUnit), (int)TorquePerLengthUnit.TonneForceMillimeterPerMeter, new string[]{"tf·mm/m"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Arcminute, new string[]{"'", "arcmin", "amin", "min"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Arcsecond, new string[]{"″", "arcsec", "asec", "sec"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Centiradian, new string[]{"crad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Centiradian, new string[]{"срад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Deciradian, new string[]{"drad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Deciradian, new string[]{"драд"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Degree, new string[]{"°", "deg"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Degree, new string[]{"°"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Gradian, new string[]{"g"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Gradian, new string[]{"g"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Microdegree, new string[]{"µ°", "µdeg"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Microdegree, new string[]{"мк°"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Microradian, new string[]{"µrad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Microradian, new string[]{"мкрад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Millidegree, new string[]{"m°", "mdeg"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Millidegree, new string[]{"м°"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Milliradian, new string[]{"mrad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Milliradian, new string[]{"мрад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Nanodegree, new string[]{"n°", "ndeg"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Nanodegree, new string[]{"н°"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Nanoradian, new string[]{"nrad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Nanoradian, new string[]{"нрад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.NatoMil, new string[]{"mil"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Radian, new string[]{"rad"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Radian, new string[]{"рад"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Revolution, new string[]{"r"}), + ("ru-RU", typeof(AngleUnit), (int)AngleUnit.Revolution, new string[]{"r"}), + ("en-US", typeof(AngleUnit), (int)AngleUnit.Tilt, new string[]{"sin(θ)"}), + ("en-US", typeof(ThermalConductivityUnit), (int)ThermalConductivityUnit.BtuPerHourFootFahrenheit, new string[]{"BTU/h·ft·°F"}), + ("en-US", typeof(ThermalConductivityUnit), (int)ThermalConductivityUnit.WattPerMeterKelvin, new string[]{"W/m·K"}), + ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour, new string[]{"g/kWh"}), + ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.KilogramPerJoule, new string[]{"kg/J"}), + ("en-US", typeof(BrakeSpecificFuelConsumptionUnit), (int)BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, new string[]{"lb/hph"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.CentigramPerMole, new string[]{"cg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.CentigramPerMole, new string[]{"сг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.DecagramPerMole, new string[]{"dag/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.DecagramPerMole, new string[]{"даг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.DecigramPerMole, new string[]{"dg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.DecigramPerMole, new string[]{"дг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.GramPerMole, new string[]{"g/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.GramPerMole, new string[]{"г/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.HectogramPerMole, new string[]{"hg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.HectogramPerMole, new string[]{"гг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.KilogramPerMole, new string[]{"kg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.KilogramPerMole, new string[]{"кг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.KilopoundPerMole, new string[]{"klb/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.KilopoundPerMole, new string[]{"кфунт/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MegapoundPerMole, new string[]{"Mlb/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MegapoundPerMole, new string[]{"Мфунт/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MicrogramPerMole, new string[]{"µg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MicrogramPerMole, new string[]{"мкг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.MilligramPerMole, new string[]{"mg/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.MilligramPerMole, new string[]{"мг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.NanogramPerMole, new string[]{"ng/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.NanogramPerMole, new string[]{"нг/моль"}), + ("en-US", typeof(MolarMassUnit), (int)MolarMassUnit.PoundPerMole, new string[]{"lb/mol"}), + ("ru-RU", typeof(MolarMassUnit), (int)MolarMassUnit.PoundPerMole, new string[]{"фунт/моль"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.CentigramPerDay, new string[]{"cg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.CentigramPerSecond, new string[]{"cg/s", "cg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecagramPerDay, new string[]{"dag/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecagramPerSecond, new string[]{"dag/s", "dag/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecigramPerDay, new string[]{"dg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.DecigramPerSecond, new string[]{"dg/s", "dg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerDay, new string[]{"g/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerHour, new string[]{"g/h"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.GramPerSecond, new string[]{"g/s", "g/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.HectogramPerDay, new string[]{"hg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.HectogramPerSecond, new string[]{"hg/s", "hg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerDay, new string[]{"kg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerHour, new string[]{"kg/h"}), + ("ru-RU", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerHour, new string[]{"кг/ч"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerMinute, new string[]{"kg/min"}), + ("ru-RU", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerMinute, new string[]{"кг/мин"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.KilogramPerSecond, new string[]{"kg/s", "kg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegagramPerDay, new string[]{"Mg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerDay, new string[]{"Mlb/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerHour, new string[]{"Mlb/h"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerMinute, new string[]{"Mlb/min"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MegapoundPerSecond, new string[]{"Mlb/s"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MicrogramPerDay, new string[]{"µg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MicrogramPerSecond, new string[]{"µg/s", "µg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MilligramPerDay, new string[]{"mg/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.MilligramPerSecond, new string[]{"mg/s", "mg/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.NanogramPerDay, new string[]{"ng/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.NanogramPerSecond, new string[]{"ng/s", "ng/S"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerDay, new string[]{"lb/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerHour, new string[]{"lb/h"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerMinute, new string[]{"lb/min"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.PoundPerSecond, new string[]{"lb/s"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.ShortTonPerHour, new string[]{"short tn/h"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.TonnePerDay, new string[]{"t/d"}), + ("en-US", typeof(MassFlowUnit), (int)MassFlowUnit.TonnePerHour, new string[]{"t/h"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.DecimalFraction, new string[]{""}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerBillion, new string[]{"ppb"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerMillion, new string[]{"ppm"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerThousand, new string[]{"‰"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.PartPerTrillion, new string[]{"ppt"}), + ("en-US", typeof(RatioUnit), (int)RatioUnit.Percent, new string[]{"%"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Day, new string[]{"d", "day", "days"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Day, new string[]{"сут", "д"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Hour, new string[]{"h", "hr", "hrs", "hour", "hours"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Hour, new string[]{"ч", "час"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.JulianYear, new string[]{"jyr", "jyear", "jyears"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Microsecond, new string[]{"µs", "µsec", "µsecs", "µsecond", "µseconds"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Microsecond, new string[]{"мксек", "мкс"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Millisecond, new string[]{"ms", "msec", "msecs", "msecond", "mseconds"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Millisecond, new string[]{"мсек", "мс"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Minute, new string[]{"m", "min", "minute", "minutes"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Minute, new string[]{"мин"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Month30, new string[]{"mo", "month", "months"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Month30, new string[]{"месяц"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Nanosecond, new string[]{"ns", "nsec", "nsecs", "nsecond", "nseconds"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Nanosecond, new string[]{"нсек", "нс"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Second, new string[]{"s", "sec", "secs", "second", "seconds"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Second, new string[]{"сек", "с"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Week, new string[]{"wk", "week", "weeks"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Week, new string[]{"нед"}), + ("en-US", typeof(DurationUnit), (int)DurationUnit.Year365, new string[]{"yr", "year", "years"}), + ("ru-RU", typeof(DurationUnit), (int)DurationUnit.Year365, new string[]{"год"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Gigaohm, new string[]{"GΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Kiloohm, new string[]{"kΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Megaohm, new string[]{"MΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Microohm, new string[]{"µΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Milliohm, new string[]{"mΩ"}), + ("en-US", typeof(ElectricResistanceUnit), (int)ElectricResistanceUnit.Ohm, new string[]{"Ω"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu, new string[]{"Hrft²°F/Btu"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie, new string[]{"cm²Hr°C/kcal"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareCentimeterKelvinPerWatt, new string[]{"cm²K/W"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt, new string[]{"m²°C/W"}), + ("en-US", typeof(ThermalResistanceUnit), (int)ThermalResistanceUnit.SquareMeterKelvinPerKilowatt, new string[]{"m²K/kW"}), + ("en-US", typeof(MagnetizationUnit), (int)MagnetizationUnit.AmperePerMeter, new string[]{"A/m"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeCelsius, new string[]{"∆°C"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeDelisle, new string[]{"∆°De"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeFahrenheit, new string[]{"∆°F"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeNewton, new string[]{"∆°N"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeRankine, new string[]{"∆°R"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeReaumur, new string[]{"∆°Ré"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.DegreeRoemer, new string[]{"∆°Rø"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.Kelvin, new string[]{"∆K"}), + ("en-US", typeof(TemperatureDeltaUnit), (int)TemperatureDeltaUnit.MillidegreeCelsius, new string[]{"∆m°C"}), + ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Microsiemens, new string[]{"µS"}), + ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Millisiemens, new string[]{"mS"}), + ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Nanosiemens, new string[]{"nS"}), + ("en-US", typeof(ElectricAdmittanceUnit), (int)ElectricAdmittanceUnit.Siemens, new string[]{"S"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Ampere, new string[]{"A"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Centiampere, new string[]{"cA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Kiloampere, new string[]{"kA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Megaampere, new string[]{"MA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Microampere, new string[]{"µA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Milliampere, new string[]{"mA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Nanoampere, new string[]{"nA"}), + ("en-US", typeof(ElectricCurrentUnit), (int)ElectricCurrentUnit.Picoampere, new string[]{"pA"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerDeciliter, new string[]{"cg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerLiter, new string[]{"cg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.CentigramPerMilliliter, new string[]{"cg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerDeciliter, new string[]{"dg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerLiter, new string[]{"dg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.DecigramPerMilliliter, new string[]{"dg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicCentimeter, new string[]{"g/cm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMeter, new string[]{"g/m³"}), + ("ru-RU", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMeter, new string[]{"г/м³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerCubicMillimeter, new string[]{"g/mm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerDeciliter, new string[]{"g/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerLiter, new string[]{"g/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.GramPerMilliliter, new string[]{"g/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicCentimeter, new string[]{"kg/cm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMeter, new string[]{"kg/m³"}), + ("ru-RU", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMeter, new string[]{"кг/м³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerCubicMillimeter, new string[]{"kg/mm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilogramPerLiter, new string[]{"kg/l"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilopoundPerCubicFoot, new string[]{"kip/ft³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.KilopoundPerCubicInch, new string[]{"kip/in³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerCubicMeter, new string[]{"µg/m³"}), + ("ru-RU", typeof(DensityUnit), (int)DensityUnit.MicrogramPerCubicMeter, new string[]{"мкг/м³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerDeciliter, new string[]{"µg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerLiter, new string[]{"µg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MicrogramPerMilliliter, new string[]{"µg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerCubicMeter, new string[]{"mg/m³"}), + ("ru-RU", typeof(DensityUnit), (int)DensityUnit.MilligramPerCubicMeter, new string[]{"мг/м³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerDeciliter, new string[]{"mg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerLiter, new string[]{"mg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.MilligramPerMilliliter, new string[]{"mg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerDeciliter, new string[]{"ng/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerLiter, new string[]{"ng/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.NanogramPerMilliliter, new string[]{"ng/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerDeciliter, new string[]{"pg/dl"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerLiter, new string[]{"pg/L"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PicogramPerMilliliter, new string[]{"pg/ml"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerCubicFoot, new string[]{"lb/ft³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerCubicInch, new string[]{"lb/in³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerImperialGallon, new string[]{"ppg (imp.)"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.PoundPerUSGallon, new string[]{"ppg (U.S.)"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.SlugPerCubicFoot, new string[]{"slug/ft³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicCentimeter, new string[]{"t/cm³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicMeter, new string[]{"t/m³"}), + ("en-US", typeof(DensityUnit), (int)DensityUnit.TonnePerCubicMillimeter, new string[]{"t/mm³"}), + ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerMicrosecond, new string[]{"A/μs"}), + ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerMillisecond, new string[]{"A/ms"}), + ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerNanosecond, new string[]{"A/ns"}), + ("en-US", typeof(ElectricCurrentGradientUnit), (int)ElectricCurrentGradientUnit.AmperePerSecond, new string[]{"A/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond, new string[]{"c°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond, new string[]{"da°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond, new string[]{"d°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DegreeCelsiusPerMinute, new string[]{"°C/min"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.DegreeCelsiusPerSecond, new string[]{"°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond, new string[]{"h°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond, new string[]{"k°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond, new string[]{"µ°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond, new string[]{"m°C/s"}), + ("en-US", typeof(TemperatureChangeRateUnit), (int)TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, new string[]{"n°C/s"}), + ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Henry, new string[]{"H"}), + ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Microhenry, new string[]{"µH"}), + ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Millihenry, new string[]{"mH"}), + ("en-US", typeof(ElectricInductanceUnit), (int)ElectricInductanceUnit.Nanohenry, new string[]{"nH"}), + ("en-US", typeof(RatioChangeRateUnit), (int)RatioChangeRateUnit.DecimalFractionPerSecond, new string[]{"/s"}), + ("en-US", typeof(RatioChangeRateUnit), (int)RatioChangeRateUnit.PercentPerSecond, new string[]{"%/s"}), + ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit, new string[]{"Btu/ft²·hr·°F"}), + ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.WattPerSquareMeterCelsius, new string[]{"W/m²·°C"}), + ("en-US", typeof(HeatTransferCoefficientUnit), (int)HeatTransferCoefficientUnit.WattPerSquareMeterKelvin, new string[]{"W/m²·K"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.CentigramPerGram, new string[]{"cg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.CentigramPerKilogram, new string[]{"cg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecagramPerGram, new string[]{"dag/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecagramPerKilogram, new string[]{"dag/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecigramPerGram, new string[]{"dg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecigramPerKilogram, new string[]{"dg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.DecimalFraction, new string[]{""}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.GramPerGram, new string[]{"g/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.GramPerKilogram, new string[]{"g/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.HectogramPerGram, new string[]{"hg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.HectogramPerKilogram, new string[]{"hg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.KilogramPerGram, new string[]{"kg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.KilogramPerKilogram, new string[]{"kg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MicrogramPerGram, new string[]{"µg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MicrogramPerKilogram, new string[]{"µg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MilligramPerGram, new string[]{"mg/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.MilligramPerKilogram, new string[]{"mg/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.NanogramPerGram, new string[]{"ng/g"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.NanogramPerKilogram, new string[]{"ng/kg"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerBillion, new string[]{"ppb"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerMillion, new string[]{"ppm"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerThousand, new string[]{"‰"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.PartPerTrillion, new string[]{"ppt"}), + ("en-US", typeof(MassFractionUnit), (int)MassFractionUnit.Percent, new string[]{"%", "% (w/w)"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Gauss, new string[]{"G"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Microtesla, new string[]{"µT"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Milligauss, new string[]{"mG"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Millitesla, new string[]{"mT"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Nanotesla, new string[]{"nT"}), + ("en-US", typeof(MagneticFieldUnit), (int)MagneticFieldUnit.Tesla, new string[]{"T"}), + ("en-US", typeof(PermeabilityUnit), (int)PermeabilityUnit.HenryPerMeter, new string[]{"H/m"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.AmpereHour, new string[]{"A-h", "Ah"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.Coulomb, new string[]{"C"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.KiloampereHour, new string[]{"kA-h", "kAh"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.MegaampereHour, new string[]{"MA-h", "MAh"}), + ("en-US", typeof(ElectricChargeUnit), (int)ElectricChargeUnit.MilliampereHour, new string[]{"mA-h", "mAh"}), + ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerFoot, new string[]{"S/ft"}), + ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerInch, new string[]{"S/in"}), + ("en-US", typeof(ElectricConductivityUnit), (int)ElectricConductivityUnit.SiemensPerMeter, new string[]{"S/m"}), + ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.GigavoltampereReactive, new string[]{"Gvar"}), + ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.KilovoltampereReactive, new string[]{"kvar"}), + ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.MegavoltampereReactive, new string[]{"Mvar"}), + ("en-US", typeof(ReactivePowerUnit), (int)ReactivePowerUnit.VoltampereReactive, new string[]{"var"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.KilovoltAc, new string[]{"kVac"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MegavoltAc, new string[]{"MVac"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MicrovoltAc, new string[]{"µVac"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.MillivoltAc, new string[]{"mVac"}), + ("en-US", typeof(ElectricPotentialAcUnit), (int)ElectricPotentialAcUnit.VoltAc, new string[]{"Vac"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.KilowattPerSquareCentimeter, new string[]{"kW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.KilowattPerSquareMeter, new string[]{"kW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MegawattPerSquareCentimeter, new string[]{"MW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MegawattPerSquareMeter, new string[]{"MW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MicrowattPerSquareCentimeter, new string[]{"µW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MicrowattPerSquareMeter, new string[]{"µW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MilliwattPerSquareCentimeter, new string[]{"mW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.MilliwattPerSquareMeter, new string[]{"mW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.NanowattPerSquareCentimeter, new string[]{"nW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.NanowattPerSquareMeter, new string[]{"nW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.PicowattPerSquareCentimeter, new string[]{"pW/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.PicowattPerSquareMeter, new string[]{"pW/m²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.WattPerSquareCentimeter, new string[]{"W/cm²"}), + ("en-US", typeof(IrradianceUnit), (int)IrradianceUnit.WattPerSquareMeter, new string[]{"W/m²"}), + ("en-US", typeof(ScalarUnit), (int)ScalarUnit.Amount, new string[]{""}), }; } } diff --git a/UnitsNet/GeneratedCode/UnitConverter.g.cs b/UnitsNet/GeneratedCode/UnitConverter.g.cs index ce923e6ffd..c37f6ef45e 100644 --- a/UnitsNet/GeneratedCode/UnitConverter.g.cs +++ b/UnitsNet/GeneratedCode/UnitConverter.g.cs @@ -32,33 +32,38 @@ public sealed partial class UnitConverter /// The to register the default conversion functions in. public static void RegisterDefaultConversions(UnitConverter unitConverter) { - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.CentimeterPerSecondSquared, q => q.ToUnit(AccelerationUnit.CentimeterPerSecondSquared)); - unitConverter.SetConversionFunction(AccelerationUnit.CentimeterPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.DecimeterPerSecondSquared, q => q.ToUnit(AccelerationUnit.DecimeterPerSecondSquared)); - unitConverter.SetConversionFunction(AccelerationUnit.DecimeterPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.FootPerSecondSquared, q => q.ToUnit(AccelerationUnit.FootPerSecondSquared)); - unitConverter.SetConversionFunction(AccelerationUnit.FootPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.InchPerSecondSquared, q => q.ToUnit(AccelerationUnit.InchPerSecondSquared)); - unitConverter.SetConversionFunction(AccelerationUnit.InchPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.KilometerPerSecondSquared, q => q.ToUnit(AccelerationUnit.KilometerPerSecondSquared)); - unitConverter.SetConversionFunction(AccelerationUnit.KilometerPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.KnotPerHour, q => q.ToUnit(AccelerationUnit.KnotPerHour)); - unitConverter.SetConversionFunction(AccelerationUnit.KnotPerHour, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.KnotPerMinute, q => q.ToUnit(AccelerationUnit.KnotPerMinute)); - unitConverter.SetConversionFunction(AccelerationUnit.KnotPerMinute, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.KnotPerSecond, q => q.ToUnit(AccelerationUnit.KnotPerSecond)); - unitConverter.SetConversionFunction(AccelerationUnit.KnotPerSecond, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, Acceleration.BaseUnit, q => q); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.MicrometerPerSecondSquared, q => q.ToUnit(AccelerationUnit.MicrometerPerSecondSquared)); - unitConverter.SetConversionFunction(AccelerationUnit.MicrometerPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.MillimeterPerSecondSquared, q => q.ToUnit(AccelerationUnit.MillimeterPerSecondSquared)); - unitConverter.SetConversionFunction(AccelerationUnit.MillimeterPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.MillistandardGravity, q => q.ToUnit(AccelerationUnit.MillistandardGravity)); - unitConverter.SetConversionFunction(AccelerationUnit.MillistandardGravity, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.NanometerPerSecondSquared, q => q.ToUnit(AccelerationUnit.NanometerPerSecondSquared)); - unitConverter.SetConversionFunction(AccelerationUnit.NanometerPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.StandardGravity, q => q.ToUnit(AccelerationUnit.StandardGravity)); - unitConverter.SetConversionFunction(AccelerationUnit.StandardGravity, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.BtuPerPoundFahrenheit, q => q.ToUnit(SpecificEntropyUnit.BtuPerPoundFahrenheit)); + unitConverter.SetConversionFunction(SpecificEntropyUnit.BtuPerPoundFahrenheit, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.CaloriePerGramKelvin, q => q.ToUnit(SpecificEntropyUnit.CaloriePerGramKelvin)); + unitConverter.SetConversionFunction(SpecificEntropyUnit.CaloriePerGramKelvin, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.JoulePerKilogramDegreeCelsius, q => q.ToUnit(SpecificEntropyUnit.JoulePerKilogramDegreeCelsius)); + unitConverter.SetConversionFunction(SpecificEntropyUnit.JoulePerKilogramDegreeCelsius, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropy.BaseUnit, q => q); + unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.KilocaloriePerGramKelvin, q => q.ToUnit(SpecificEntropyUnit.KilocaloriePerGramKelvin)); + unitConverter.SetConversionFunction(SpecificEntropyUnit.KilocaloriePerGramKelvin, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius, q => q.ToUnit(SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius)); + unitConverter.SetConversionFunction(SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.KilojoulePerKilogramKelvin, q => q.ToUnit(SpecificEntropyUnit.KilojoulePerKilogramKelvin)); + unitConverter.SetConversionFunction(SpecificEntropyUnit.KilojoulePerKilogramKelvin, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius, q => q.ToUnit(SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius)); + unitConverter.SetConversionFunction(SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.MegajoulePerKilogramKelvin, q => q.ToUnit(SpecificEntropyUnit.MegajoulePerKilogramKelvin)); + unitConverter.SetConversionFunction(SpecificEntropyUnit.MegajoulePerKilogramKelvin, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.CentimolesPerLiter, q => q.ToUnit(MolarityUnit.CentimolesPerLiter)); + unitConverter.SetConversionFunction(MolarityUnit.CentimolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.DecimolesPerLiter, q => q.ToUnit(MolarityUnit.DecimolesPerLiter)); + unitConverter.SetConversionFunction(MolarityUnit.DecimolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.MicromolesPerLiter, q => q.ToUnit(MolarityUnit.MicromolesPerLiter)); + unitConverter.SetConversionFunction(MolarityUnit.MicromolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.MillimolesPerLiter, q => q.ToUnit(MolarityUnit.MillimolesPerLiter)); + unitConverter.SetConversionFunction(MolarityUnit.MillimolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Molarity.BaseUnit, Molarity.BaseUnit, q => q); + unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.MolesPerLiter, q => q.ToUnit(MolarityUnit.MolesPerLiter)); + unitConverter.SetConversionFunction(MolarityUnit.MolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.NanomolesPerLiter, q => q.ToUnit(MolarityUnit.NanomolesPerLiter)); + unitConverter.SetConversionFunction(MolarityUnit.NanomolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.PicomolesPerLiter, q => q.ToUnit(MolarityUnit.PicomolesPerLiter)); + unitConverter.SetConversionFunction(MolarityUnit.PicomolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(AmountOfSubstance.BaseUnit, AmountOfSubstanceUnit.Centimole, q => q.ToUnit(AmountOfSubstanceUnit.Centimole)); unitConverter.SetConversionFunction(AmountOfSubstanceUnit.Centimole, AmountOfSubstance.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(AmountOfSubstance.BaseUnit, AmountOfSubstanceUnit.CentipoundMole, q => q.ToUnit(AmountOfSubstanceUnit.CentipoundMole)); @@ -88,2202 +93,175 @@ public static void RegisterDefaultConversions(UnitConverter unitConverter) unitConverter.SetConversionFunction(AmountOfSubstanceUnit.NanopoundMole, AmountOfSubstance.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(AmountOfSubstance.BaseUnit, AmountOfSubstanceUnit.PoundMole, q => q.ToUnit(AmountOfSubstanceUnit.PoundMole)); unitConverter.SetConversionFunction(AmountOfSubstanceUnit.PoundMole, AmountOfSubstance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(AmplitudeRatio.BaseUnit, AmplitudeRatioUnit.DecibelMicrovolt, q => q.ToUnit(AmplitudeRatioUnit.DecibelMicrovolt)); - unitConverter.SetConversionFunction(AmplitudeRatioUnit.DecibelMicrovolt, AmplitudeRatio.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(AmplitudeRatio.BaseUnit, AmplitudeRatioUnit.DecibelMillivolt, q => q.ToUnit(AmplitudeRatioUnit.DecibelMillivolt)); - unitConverter.SetConversionFunction(AmplitudeRatioUnit.DecibelMillivolt, AmplitudeRatio.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(AmplitudeRatio.BaseUnit, AmplitudeRatioUnit.DecibelUnloaded, q => q.ToUnit(AmplitudeRatioUnit.DecibelUnloaded)); - unitConverter.SetConversionFunction(AmplitudeRatioUnit.DecibelUnloaded, AmplitudeRatio.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(AmplitudeRatio.BaseUnit, AmplitudeRatio.BaseUnit, q => q); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Arcminute, q => q.ToUnit(AngleUnit.Arcminute)); - unitConverter.SetConversionFunction(AngleUnit.Arcminute, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Arcsecond, q => q.ToUnit(AngleUnit.Arcsecond)); - unitConverter.SetConversionFunction(AngleUnit.Arcsecond, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Centiradian, q => q.ToUnit(AngleUnit.Centiradian)); - unitConverter.SetConversionFunction(AngleUnit.Centiradian, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Deciradian, q => q.ToUnit(AngleUnit.Deciradian)); - unitConverter.SetConversionFunction(AngleUnit.Deciradian, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, Angle.BaseUnit, q => q); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Gradian, q => q.ToUnit(AngleUnit.Gradian)); - unitConverter.SetConversionFunction(AngleUnit.Gradian, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Microdegree, q => q.ToUnit(AngleUnit.Microdegree)); - unitConverter.SetConversionFunction(AngleUnit.Microdegree, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Microradian, q => q.ToUnit(AngleUnit.Microradian)); - unitConverter.SetConversionFunction(AngleUnit.Microradian, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Millidegree, q => q.ToUnit(AngleUnit.Millidegree)); - unitConverter.SetConversionFunction(AngleUnit.Millidegree, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Milliradian, q => q.ToUnit(AngleUnit.Milliradian)); - unitConverter.SetConversionFunction(AngleUnit.Milliradian, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Nanodegree, q => q.ToUnit(AngleUnit.Nanodegree)); - unitConverter.SetConversionFunction(AngleUnit.Nanodegree, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Nanoradian, q => q.ToUnit(AngleUnit.Nanoradian)); - unitConverter.SetConversionFunction(AngleUnit.Nanoradian, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.NatoMil, q => q.ToUnit(AngleUnit.NatoMil)); - unitConverter.SetConversionFunction(AngleUnit.NatoMil, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Radian, q => q.ToUnit(AngleUnit.Radian)); - unitConverter.SetConversionFunction(AngleUnit.Radian, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Revolution, q => q.ToUnit(AngleUnit.Revolution)); - unitConverter.SetConversionFunction(AngleUnit.Revolution, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Tilt, q => q.ToUnit(AngleUnit.Tilt)); - unitConverter.SetConversionFunction(AngleUnit.Tilt, Angle.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ApparentEnergy.BaseUnit, ApparentEnergyUnit.KilovoltampereHour, q => q.ToUnit(ApparentEnergyUnit.KilovoltampereHour)); - unitConverter.SetConversionFunction(ApparentEnergyUnit.KilovoltampereHour, ApparentEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ApparentEnergy.BaseUnit, ApparentEnergyUnit.MegavoltampereHour, q => q.ToUnit(ApparentEnergyUnit.MegavoltampereHour)); - unitConverter.SetConversionFunction(ApparentEnergyUnit.MegavoltampereHour, ApparentEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ApparentEnergy.BaseUnit, ApparentEnergy.BaseUnit, q => q); - unitConverter.SetConversionFunction(ApparentPower.BaseUnit, ApparentPowerUnit.Gigavoltampere, q => q.ToUnit(ApparentPowerUnit.Gigavoltampere)); - unitConverter.SetConversionFunction(ApparentPowerUnit.Gigavoltampere, ApparentPower.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ApparentPower.BaseUnit, ApparentPowerUnit.Kilovoltampere, q => q.ToUnit(ApparentPowerUnit.Kilovoltampere)); - unitConverter.SetConversionFunction(ApparentPowerUnit.Kilovoltampere, ApparentPower.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ApparentPower.BaseUnit, ApparentPowerUnit.Megavoltampere, q => q.ToUnit(ApparentPowerUnit.Megavoltampere)); - unitConverter.SetConversionFunction(ApparentPowerUnit.Megavoltampere, ApparentPower.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ApparentPower.BaseUnit, ApparentPower.BaseUnit, q => q); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.Acre, q => q.ToUnit(AreaUnit.Acre)); - unitConverter.SetConversionFunction(AreaUnit.Acre, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.Hectare, q => q.ToUnit(AreaUnit.Hectare)); - unitConverter.SetConversionFunction(AreaUnit.Hectare, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareCentimeter, q => q.ToUnit(AreaUnit.SquareCentimeter)); - unitConverter.SetConversionFunction(AreaUnit.SquareCentimeter, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareDecimeter, q => q.ToUnit(AreaUnit.SquareDecimeter)); - unitConverter.SetConversionFunction(AreaUnit.SquareDecimeter, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareFoot, q => q.ToUnit(AreaUnit.SquareFoot)); - unitConverter.SetConversionFunction(AreaUnit.SquareFoot, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareInch, q => q.ToUnit(AreaUnit.SquareInch)); - unitConverter.SetConversionFunction(AreaUnit.SquareInch, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareKilometer, q => q.ToUnit(AreaUnit.SquareKilometer)); - unitConverter.SetConversionFunction(AreaUnit.SquareKilometer, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, Area.BaseUnit, q => q); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareMicrometer, q => q.ToUnit(AreaUnit.SquareMicrometer)); - unitConverter.SetConversionFunction(AreaUnit.SquareMicrometer, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareMile, q => q.ToUnit(AreaUnit.SquareMile)); - unitConverter.SetConversionFunction(AreaUnit.SquareMile, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareMillimeter, q => q.ToUnit(AreaUnit.SquareMillimeter)); - unitConverter.SetConversionFunction(AreaUnit.SquareMillimeter, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareNauticalMile, q => q.ToUnit(AreaUnit.SquareNauticalMile)); - unitConverter.SetConversionFunction(AreaUnit.SquareNauticalMile, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareYard, q => q.ToUnit(AreaUnit.SquareYard)); - unitConverter.SetConversionFunction(AreaUnit.SquareYard, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.UsSurveySquareFoot, q => q.ToUnit(AreaUnit.UsSurveySquareFoot)); - unitConverter.SetConversionFunction(AreaUnit.UsSurveySquareFoot, Area.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(AreaDensity.BaseUnit, AreaDensity.BaseUnit, q => q); - unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.CentimeterToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.CentimeterToTheFourth)); - unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.CentimeterToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.DecimeterToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.DecimeterToTheFourth)); - unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.DecimeterToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.FootToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.FootToTheFourth)); - unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.FootToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.InchToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.InchToTheFourth)); - unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.InchToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertia.BaseUnit, q => q); - unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.MillimeterToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.MillimeterToTheFourth)); - unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.MillimeterToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRate.BaseUnit, q => q); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.BytePerSecond, q => q.ToUnit(BitRateUnit.BytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.BytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.ExabitPerSecond, q => q.ToUnit(BitRateUnit.ExabitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.ExabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.ExabytePerSecond, q => q.ToUnit(BitRateUnit.ExabytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.ExabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.ExbibitPerSecond, q => q.ToUnit(BitRateUnit.ExbibitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.ExbibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.ExbibytePerSecond, q => q.ToUnit(BitRateUnit.ExbibytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.ExbibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.GibibitPerSecond, q => q.ToUnit(BitRateUnit.GibibitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.GibibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.GibibytePerSecond, q => q.ToUnit(BitRateUnit.GibibytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.GibibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.GigabitPerSecond, q => q.ToUnit(BitRateUnit.GigabitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.GigabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.GigabytePerSecond, q => q.ToUnit(BitRateUnit.GigabytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.GigabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.KibibitPerSecond, q => q.ToUnit(BitRateUnit.KibibitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.KibibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.KibibytePerSecond, q => q.ToUnit(BitRateUnit.KibibytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.KibibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.KilobitPerSecond, q => q.ToUnit(BitRateUnit.KilobitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.KilobitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.KilobytePerSecond, q => q.ToUnit(BitRateUnit.KilobytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.KilobytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.MebibitPerSecond, q => q.ToUnit(BitRateUnit.MebibitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.MebibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.MebibytePerSecond, q => q.ToUnit(BitRateUnit.MebibytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.MebibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.MegabitPerSecond, q => q.ToUnit(BitRateUnit.MegabitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.MegabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.MegabytePerSecond, q => q.ToUnit(BitRateUnit.MegabytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.MegabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.PebibitPerSecond, q => q.ToUnit(BitRateUnit.PebibitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.PebibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.PebibytePerSecond, q => q.ToUnit(BitRateUnit.PebibytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.PebibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.PetabitPerSecond, q => q.ToUnit(BitRateUnit.PetabitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.PetabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.PetabytePerSecond, q => q.ToUnit(BitRateUnit.PetabytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.PetabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.TebibitPerSecond, q => q.ToUnit(BitRateUnit.TebibitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.TebibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.TebibytePerSecond, q => q.ToUnit(BitRateUnit.TebibytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.TebibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.TerabitPerSecond, q => q.ToUnit(BitRateUnit.TerabitPerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.TerabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.TerabytePerSecond, q => q.ToUnit(BitRateUnit.TerabytePerSecond)); - unitConverter.SetConversionFunction(BitRateUnit.TerabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BrakeSpecificFuelConsumption.BaseUnit, BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour, q => q.ToUnit(BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour)); - unitConverter.SetConversionFunction(BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour, BrakeSpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(BrakeSpecificFuelConsumption.BaseUnit, BrakeSpecificFuelConsumption.BaseUnit, q => q); - unitConverter.SetConversionFunction(BrakeSpecificFuelConsumption.BaseUnit, BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, q => q.ToUnit(BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour)); - unitConverter.SetConversionFunction(BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, BrakeSpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Capacitance.BaseUnit, Capacitance.BaseUnit, q => q); - unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Kilofarad, q => q.ToUnit(CapacitanceUnit.Kilofarad)); - unitConverter.SetConversionFunction(CapacitanceUnit.Kilofarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Megafarad, q => q.ToUnit(CapacitanceUnit.Megafarad)); - unitConverter.SetConversionFunction(CapacitanceUnit.Megafarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Microfarad, q => q.ToUnit(CapacitanceUnit.Microfarad)); - unitConverter.SetConversionFunction(CapacitanceUnit.Microfarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Millifarad, q => q.ToUnit(CapacitanceUnit.Millifarad)); - unitConverter.SetConversionFunction(CapacitanceUnit.Millifarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Nanofarad, q => q.ToUnit(CapacitanceUnit.Nanofarad)); - unitConverter.SetConversionFunction(CapacitanceUnit.Nanofarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Picofarad, q => q.ToUnit(CapacitanceUnit.Picofarad)); - unitConverter.SetConversionFunction(CapacitanceUnit.Picofarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.AtmospherePerSecond, q => q.ToUnit(PressureChangeRateUnit.AtmospherePerSecond)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.AtmospherePerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.KilopascalPerMinute, q => q.ToUnit(PressureChangeRateUnit.KilopascalPerMinute)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.KilopascalPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.KilopascalPerSecond, q => q.ToUnit(PressureChangeRateUnit.KilopascalPerSecond)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.KilopascalPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, q => q.ToUnit(PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, q => q.ToUnit(PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.MegapascalPerMinute, q => q.ToUnit(PressureChangeRateUnit.MegapascalPerMinute)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.MegapascalPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.MegapascalPerSecond, q => q.ToUnit(PressureChangeRateUnit.MegapascalPerSecond)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.MegapascalPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, q => q.ToUnit(PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, q => q.ToUnit(PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.PascalPerMinute, q => q.ToUnit(PressureChangeRateUnit.PascalPerMinute)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.PascalPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRate.BaseUnit, q => q); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, q => q.ToUnit(PressureChangeRateUnit.PoundForcePerSquareInchPerMinute)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, q => q.ToUnit(PressureChangeRateUnit.PoundForcePerSquareInchPerSecond)); + unitConverter.SetConversionFunction(PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(CoefficientOfThermalExpansion.BaseUnit, CoefficientOfThermalExpansionUnit.InverseDegreeCelsius, q => q.ToUnit(CoefficientOfThermalExpansionUnit.InverseDegreeCelsius)); unitConverter.SetConversionFunction(CoefficientOfThermalExpansionUnit.InverseDegreeCelsius, CoefficientOfThermalExpansion.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(CoefficientOfThermalExpansion.BaseUnit, CoefficientOfThermalExpansionUnit.InverseDegreeFahrenheit, q => q.ToUnit(CoefficientOfThermalExpansionUnit.InverseDegreeFahrenheit)); unitConverter.SetConversionFunction(CoefficientOfThermalExpansionUnit.InverseDegreeFahrenheit, CoefficientOfThermalExpansion.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(CoefficientOfThermalExpansion.BaseUnit, CoefficientOfThermalExpansion.BaseUnit, q => q); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.CentigramPerDeciliter, q => q.ToUnit(DensityUnit.CentigramPerDeciliter)); - unitConverter.SetConversionFunction(DensityUnit.CentigramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.CentigramPerLiter, q => q.ToUnit(DensityUnit.CentigramPerLiter)); - unitConverter.SetConversionFunction(DensityUnit.CentigramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.CentigramPerMilliliter, q => q.ToUnit(DensityUnit.CentigramPerMilliliter)); - unitConverter.SetConversionFunction(DensityUnit.CentigramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.DecigramPerDeciliter, q => q.ToUnit(DensityUnit.DecigramPerDeciliter)); - unitConverter.SetConversionFunction(DensityUnit.DecigramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.DecigramPerLiter, q => q.ToUnit(DensityUnit.DecigramPerLiter)); - unitConverter.SetConversionFunction(DensityUnit.DecigramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.DecigramPerMilliliter, q => q.ToUnit(DensityUnit.DecigramPerMilliliter)); - unitConverter.SetConversionFunction(DensityUnit.DecigramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerCubicCentimeter, q => q.ToUnit(DensityUnit.GramPerCubicCentimeter)); - unitConverter.SetConversionFunction(DensityUnit.GramPerCubicCentimeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerCubicMeter, q => q.ToUnit(DensityUnit.GramPerCubicMeter)); - unitConverter.SetConversionFunction(DensityUnit.GramPerCubicMeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerCubicMillimeter, q => q.ToUnit(DensityUnit.GramPerCubicMillimeter)); - unitConverter.SetConversionFunction(DensityUnit.GramPerCubicMillimeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerDeciliter, q => q.ToUnit(DensityUnit.GramPerDeciliter)); - unitConverter.SetConversionFunction(DensityUnit.GramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerLiter, q => q.ToUnit(DensityUnit.GramPerLiter)); - unitConverter.SetConversionFunction(DensityUnit.GramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerMilliliter, q => q.ToUnit(DensityUnit.GramPerMilliliter)); - unitConverter.SetConversionFunction(DensityUnit.GramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilogramPerCubicCentimeter, q => q.ToUnit(DensityUnit.KilogramPerCubicCentimeter)); - unitConverter.SetConversionFunction(DensityUnit.KilogramPerCubicCentimeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, Density.BaseUnit, q => q); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilogramPerCubicMillimeter, q => q.ToUnit(DensityUnit.KilogramPerCubicMillimeter)); - unitConverter.SetConversionFunction(DensityUnit.KilogramPerCubicMillimeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilogramPerLiter, q => q.ToUnit(DensityUnit.KilogramPerLiter)); - unitConverter.SetConversionFunction(DensityUnit.KilogramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilopoundPerCubicFoot, q => q.ToUnit(DensityUnit.KilopoundPerCubicFoot)); - unitConverter.SetConversionFunction(DensityUnit.KilopoundPerCubicFoot, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilopoundPerCubicInch, q => q.ToUnit(DensityUnit.KilopoundPerCubicInch)); - unitConverter.SetConversionFunction(DensityUnit.KilopoundPerCubicInch, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MicrogramPerCubicMeter, q => q.ToUnit(DensityUnit.MicrogramPerCubicMeter)); - unitConverter.SetConversionFunction(DensityUnit.MicrogramPerCubicMeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MicrogramPerDeciliter, q => q.ToUnit(DensityUnit.MicrogramPerDeciliter)); - unitConverter.SetConversionFunction(DensityUnit.MicrogramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MicrogramPerLiter, q => q.ToUnit(DensityUnit.MicrogramPerLiter)); - unitConverter.SetConversionFunction(DensityUnit.MicrogramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MicrogramPerMilliliter, q => q.ToUnit(DensityUnit.MicrogramPerMilliliter)); - unitConverter.SetConversionFunction(DensityUnit.MicrogramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MilligramPerCubicMeter, q => q.ToUnit(DensityUnit.MilligramPerCubicMeter)); - unitConverter.SetConversionFunction(DensityUnit.MilligramPerCubicMeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MilligramPerDeciliter, q => q.ToUnit(DensityUnit.MilligramPerDeciliter)); - unitConverter.SetConversionFunction(DensityUnit.MilligramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MilligramPerLiter, q => q.ToUnit(DensityUnit.MilligramPerLiter)); - unitConverter.SetConversionFunction(DensityUnit.MilligramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MilligramPerMilliliter, q => q.ToUnit(DensityUnit.MilligramPerMilliliter)); - unitConverter.SetConversionFunction(DensityUnit.MilligramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.NanogramPerDeciliter, q => q.ToUnit(DensityUnit.NanogramPerDeciliter)); - unitConverter.SetConversionFunction(DensityUnit.NanogramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.NanogramPerLiter, q => q.ToUnit(DensityUnit.NanogramPerLiter)); - unitConverter.SetConversionFunction(DensityUnit.NanogramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.NanogramPerMilliliter, q => q.ToUnit(DensityUnit.NanogramPerMilliliter)); - unitConverter.SetConversionFunction(DensityUnit.NanogramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PicogramPerDeciliter, q => q.ToUnit(DensityUnit.PicogramPerDeciliter)); - unitConverter.SetConversionFunction(DensityUnit.PicogramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PicogramPerLiter, q => q.ToUnit(DensityUnit.PicogramPerLiter)); - unitConverter.SetConversionFunction(DensityUnit.PicogramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PicogramPerMilliliter, q => q.ToUnit(DensityUnit.PicogramPerMilliliter)); - unitConverter.SetConversionFunction(DensityUnit.PicogramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PoundPerCubicFoot, q => q.ToUnit(DensityUnit.PoundPerCubicFoot)); - unitConverter.SetConversionFunction(DensityUnit.PoundPerCubicFoot, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PoundPerCubicInch, q => q.ToUnit(DensityUnit.PoundPerCubicInch)); - unitConverter.SetConversionFunction(DensityUnit.PoundPerCubicInch, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PoundPerImperialGallon, q => q.ToUnit(DensityUnit.PoundPerImperialGallon)); - unitConverter.SetConversionFunction(DensityUnit.PoundPerImperialGallon, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PoundPerUSGallon, q => q.ToUnit(DensityUnit.PoundPerUSGallon)); - unitConverter.SetConversionFunction(DensityUnit.PoundPerUSGallon, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.SlugPerCubicFoot, q => q.ToUnit(DensityUnit.SlugPerCubicFoot)); - unitConverter.SetConversionFunction(DensityUnit.SlugPerCubicFoot, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.TonnePerCubicCentimeter, q => q.ToUnit(DensityUnit.TonnePerCubicCentimeter)); - unitConverter.SetConversionFunction(DensityUnit.TonnePerCubicCentimeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.TonnePerCubicMeter, q => q.ToUnit(DensityUnit.TonnePerCubicMeter)); - unitConverter.SetConversionFunction(DensityUnit.TonnePerCubicMeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.TonnePerCubicMillimeter, q => q.ToUnit(DensityUnit.TonnePerCubicMillimeter)); - unitConverter.SetConversionFunction(DensityUnit.TonnePerCubicMillimeter, Density.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Day, q => q.ToUnit(DurationUnit.Day)); - unitConverter.SetConversionFunction(DurationUnit.Day, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Hour, q => q.ToUnit(DurationUnit.Hour)); - unitConverter.SetConversionFunction(DurationUnit.Hour, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.JulianYear, q => q.ToUnit(DurationUnit.JulianYear)); - unitConverter.SetConversionFunction(DurationUnit.JulianYear, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Microsecond, q => q.ToUnit(DurationUnit.Microsecond)); - unitConverter.SetConversionFunction(DurationUnit.Microsecond, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Millisecond, q => q.ToUnit(DurationUnit.Millisecond)); - unitConverter.SetConversionFunction(DurationUnit.Millisecond, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Minute, q => q.ToUnit(DurationUnit.Minute)); - unitConverter.SetConversionFunction(DurationUnit.Minute, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Month30, q => q.ToUnit(DurationUnit.Month30)); - unitConverter.SetConversionFunction(DurationUnit.Month30, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Nanosecond, q => q.ToUnit(DurationUnit.Nanosecond)); - unitConverter.SetConversionFunction(DurationUnit.Nanosecond, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, Duration.BaseUnit, q => q); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Week, q => q.ToUnit(DurationUnit.Week)); - unitConverter.SetConversionFunction(DurationUnit.Week, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Year365, q => q.ToUnit(DurationUnit.Year365)); - unitConverter.SetConversionFunction(DurationUnit.Year365, Duration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.Centipoise, q => q.ToUnit(DynamicViscosityUnit.Centipoise)); - unitConverter.SetConversionFunction(DynamicViscosityUnit.Centipoise, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.MicropascalSecond, q => q.ToUnit(DynamicViscosityUnit.MicropascalSecond)); - unitConverter.SetConversionFunction(DynamicViscosityUnit.MicropascalSecond, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.MillipascalSecond, q => q.ToUnit(DynamicViscosityUnit.MillipascalSecond)); - unitConverter.SetConversionFunction(DynamicViscosityUnit.MillipascalSecond, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosity.BaseUnit, q => q); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.PascalSecond, q => q.ToUnit(DynamicViscosityUnit.PascalSecond)); - unitConverter.SetConversionFunction(DynamicViscosityUnit.PascalSecond, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.Poise, q => q.ToUnit(DynamicViscosityUnit.Poise)); - unitConverter.SetConversionFunction(DynamicViscosityUnit.Poise, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.PoundForceSecondPerSquareFoot, q => q.ToUnit(DynamicViscosityUnit.PoundForceSecondPerSquareFoot)); - unitConverter.SetConversionFunction(DynamicViscosityUnit.PoundForceSecondPerSquareFoot, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.PoundForceSecondPerSquareInch, q => q.ToUnit(DynamicViscosityUnit.PoundForceSecondPerSquareInch)); - unitConverter.SetConversionFunction(DynamicViscosityUnit.PoundForceSecondPerSquareInch, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.PoundPerFootSecond, q => q.ToUnit(DynamicViscosityUnit.PoundPerFootSecond)); - unitConverter.SetConversionFunction(DynamicViscosityUnit.PoundPerFootSecond, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.Reyn, q => q.ToUnit(DynamicViscosityUnit.Reyn)); - unitConverter.SetConversionFunction(DynamicViscosityUnit.Reyn, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricAdmittance.BaseUnit, ElectricAdmittanceUnit.Microsiemens, q => q.ToUnit(ElectricAdmittanceUnit.Microsiemens)); - unitConverter.SetConversionFunction(ElectricAdmittanceUnit.Microsiemens, ElectricAdmittance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricAdmittance.BaseUnit, ElectricAdmittanceUnit.Millisiemens, q => q.ToUnit(ElectricAdmittanceUnit.Millisiemens)); - unitConverter.SetConversionFunction(ElectricAdmittanceUnit.Millisiemens, ElectricAdmittance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricAdmittance.BaseUnit, ElectricAdmittanceUnit.Nanosiemens, q => q.ToUnit(ElectricAdmittanceUnit.Nanosiemens)); - unitConverter.SetConversionFunction(ElectricAdmittanceUnit.Nanosiemens, ElectricAdmittance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricAdmittance.BaseUnit, ElectricAdmittance.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricChargeUnit.AmpereHour, q => q.ToUnit(ElectricChargeUnit.AmpereHour)); - unitConverter.SetConversionFunction(ElectricChargeUnit.AmpereHour, ElectricCharge.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricCharge.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricChargeUnit.KiloampereHour, q => q.ToUnit(ElectricChargeUnit.KiloampereHour)); - unitConverter.SetConversionFunction(ElectricChargeUnit.KiloampereHour, ElectricCharge.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricChargeUnit.MegaampereHour, q => q.ToUnit(ElectricChargeUnit.MegaampereHour)); - unitConverter.SetConversionFunction(ElectricChargeUnit.MegaampereHour, ElectricCharge.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricChargeUnit.MilliampereHour, q => q.ToUnit(ElectricChargeUnit.MilliampereHour)); - unitConverter.SetConversionFunction(ElectricChargeUnit.MilliampereHour, ElectricCharge.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricChargeDensity.BaseUnit, ElectricChargeDensity.BaseUnit, q => q); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Atmosphere, q => q.ToUnit(PressureUnit.Atmosphere)); + unitConverter.SetConversionFunction(PressureUnit.Atmosphere, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Bar, q => q.ToUnit(PressureUnit.Bar)); + unitConverter.SetConversionFunction(PressureUnit.Bar, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Centibar, q => q.ToUnit(PressureUnit.Centibar)); + unitConverter.SetConversionFunction(PressureUnit.Centibar, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Decapascal, q => q.ToUnit(PressureUnit.Decapascal)); + unitConverter.SetConversionFunction(PressureUnit.Decapascal, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Decibar, q => q.ToUnit(PressureUnit.Decibar)); + unitConverter.SetConversionFunction(PressureUnit.Decibar, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.DynePerSquareCentimeter, q => q.ToUnit(PressureUnit.DynePerSquareCentimeter)); + unitConverter.SetConversionFunction(PressureUnit.DynePerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.FootOfElevation, q => q.ToUnit(PressureUnit.FootOfElevation)); + unitConverter.SetConversionFunction(PressureUnit.FootOfElevation, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.FootOfHead, q => q.ToUnit(PressureUnit.FootOfHead)); + unitConverter.SetConversionFunction(PressureUnit.FootOfHead, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Gigapascal, q => q.ToUnit(PressureUnit.Gigapascal)); + unitConverter.SetConversionFunction(PressureUnit.Gigapascal, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Hectopascal, q => q.ToUnit(PressureUnit.Hectopascal)); + unitConverter.SetConversionFunction(PressureUnit.Hectopascal, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.InchOfMercury, q => q.ToUnit(PressureUnit.InchOfMercury)); + unitConverter.SetConversionFunction(PressureUnit.InchOfMercury, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.InchOfWaterColumn, q => q.ToUnit(PressureUnit.InchOfWaterColumn)); + unitConverter.SetConversionFunction(PressureUnit.InchOfWaterColumn, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Kilobar, q => q.ToUnit(PressureUnit.Kilobar)); + unitConverter.SetConversionFunction(PressureUnit.Kilobar, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilogramForcePerSquareCentimeter, q => q.ToUnit(PressureUnit.KilogramForcePerSquareCentimeter)); + unitConverter.SetConversionFunction(PressureUnit.KilogramForcePerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilogramForcePerSquareMeter, q => q.ToUnit(PressureUnit.KilogramForcePerSquareMeter)); + unitConverter.SetConversionFunction(PressureUnit.KilogramForcePerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilogramForcePerSquareMillimeter, q => q.ToUnit(PressureUnit.KilogramForcePerSquareMillimeter)); + unitConverter.SetConversionFunction(PressureUnit.KilogramForcePerSquareMillimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilonewtonPerSquareCentimeter, q => q.ToUnit(PressureUnit.KilonewtonPerSquareCentimeter)); + unitConverter.SetConversionFunction(PressureUnit.KilonewtonPerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilonewtonPerSquareMeter, q => q.ToUnit(PressureUnit.KilonewtonPerSquareMeter)); + unitConverter.SetConversionFunction(PressureUnit.KilonewtonPerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilonewtonPerSquareMillimeter, q => q.ToUnit(PressureUnit.KilonewtonPerSquareMillimeter)); + unitConverter.SetConversionFunction(PressureUnit.KilonewtonPerSquareMillimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Kilopascal, q => q.ToUnit(PressureUnit.Kilopascal)); + unitConverter.SetConversionFunction(PressureUnit.Kilopascal, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilopoundForcePerSquareFoot, q => q.ToUnit(PressureUnit.KilopoundForcePerSquareFoot)); + unitConverter.SetConversionFunction(PressureUnit.KilopoundForcePerSquareFoot, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilopoundForcePerSquareInch, q => q.ToUnit(PressureUnit.KilopoundForcePerSquareInch)); + unitConverter.SetConversionFunction(PressureUnit.KilopoundForcePerSquareInch, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Megabar, q => q.ToUnit(PressureUnit.Megabar)); + unitConverter.SetConversionFunction(PressureUnit.Megabar, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.MeganewtonPerSquareMeter, q => q.ToUnit(PressureUnit.MeganewtonPerSquareMeter)); + unitConverter.SetConversionFunction(PressureUnit.MeganewtonPerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Megapascal, q => q.ToUnit(PressureUnit.Megapascal)); + unitConverter.SetConversionFunction(PressureUnit.Megapascal, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.MeterOfElevation, q => q.ToUnit(PressureUnit.MeterOfElevation)); + unitConverter.SetConversionFunction(PressureUnit.MeterOfElevation, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.MeterOfHead, q => q.ToUnit(PressureUnit.MeterOfHead)); + unitConverter.SetConversionFunction(PressureUnit.MeterOfHead, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Microbar, q => q.ToUnit(PressureUnit.Microbar)); + unitConverter.SetConversionFunction(PressureUnit.Microbar, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Micropascal, q => q.ToUnit(PressureUnit.Micropascal)); + unitConverter.SetConversionFunction(PressureUnit.Micropascal, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Millibar, q => q.ToUnit(PressureUnit.Millibar)); + unitConverter.SetConversionFunction(PressureUnit.Millibar, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.MillimeterOfMercury, q => q.ToUnit(PressureUnit.MillimeterOfMercury)); + unitConverter.SetConversionFunction(PressureUnit.MillimeterOfMercury, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Millipascal, q => q.ToUnit(PressureUnit.Millipascal)); + unitConverter.SetConversionFunction(PressureUnit.Millipascal, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.NewtonPerSquareCentimeter, q => q.ToUnit(PressureUnit.NewtonPerSquareCentimeter)); + unitConverter.SetConversionFunction(PressureUnit.NewtonPerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.NewtonPerSquareMeter, q => q.ToUnit(PressureUnit.NewtonPerSquareMeter)); + unitConverter.SetConversionFunction(PressureUnit.NewtonPerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.NewtonPerSquareMillimeter, q => q.ToUnit(PressureUnit.NewtonPerSquareMillimeter)); + unitConverter.SetConversionFunction(PressureUnit.NewtonPerSquareMillimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, Pressure.BaseUnit, q => q); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.PoundForcePerSquareFoot, q => q.ToUnit(PressureUnit.PoundForcePerSquareFoot)); + unitConverter.SetConversionFunction(PressureUnit.PoundForcePerSquareFoot, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.PoundForcePerSquareInch, q => q.ToUnit(PressureUnit.PoundForcePerSquareInch)); + unitConverter.SetConversionFunction(PressureUnit.PoundForcePerSquareInch, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.PoundPerInchSecondSquared, q => q.ToUnit(PressureUnit.PoundPerInchSecondSquared)); + unitConverter.SetConversionFunction(PressureUnit.PoundPerInchSecondSquared, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.TechnicalAtmosphere, q => q.ToUnit(PressureUnit.TechnicalAtmosphere)); + unitConverter.SetConversionFunction(PressureUnit.TechnicalAtmosphere, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.TonneForcePerSquareCentimeter, q => q.ToUnit(PressureUnit.TonneForcePerSquareCentimeter)); + unitConverter.SetConversionFunction(PressureUnit.TonneForcePerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.TonneForcePerSquareMeter, q => q.ToUnit(PressureUnit.TonneForcePerSquareMeter)); + unitConverter.SetConversionFunction(PressureUnit.TonneForcePerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.TonneForcePerSquareMillimeter, q => q.ToUnit(PressureUnit.TonneForcePerSquareMillimeter)); + unitConverter.SetConversionFunction(PressureUnit.TonneForcePerSquareMillimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Torr, q => q.ToUnit(PressureUnit.Torr)); + unitConverter.SetConversionFunction(PressureUnit.Torr, Pressure.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.JoulePerSquareCentimeter, q => q.ToUnit(IrradiationUnit.JoulePerSquareCentimeter)); + unitConverter.SetConversionFunction(IrradiationUnit.JoulePerSquareCentimeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiation.BaseUnit, Irradiation.BaseUnit, q => q); + unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.JoulePerSquareMillimeter, q => q.ToUnit(IrradiationUnit.JoulePerSquareMillimeter)); + unitConverter.SetConversionFunction(IrradiationUnit.JoulePerSquareMillimeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.KilojoulePerSquareMeter, q => q.ToUnit(IrradiationUnit.KilojoulePerSquareMeter)); + unitConverter.SetConversionFunction(IrradiationUnit.KilojoulePerSquareMeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.KilowattHourPerSquareMeter, q => q.ToUnit(IrradiationUnit.KilowattHourPerSquareMeter)); + unitConverter.SetConversionFunction(IrradiationUnit.KilowattHourPerSquareMeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.MillijoulePerSquareCentimeter, q => q.ToUnit(IrradiationUnit.MillijoulePerSquareCentimeter)); + unitConverter.SetConversionFunction(IrradiationUnit.MillijoulePerSquareCentimeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.WattHourPerSquareMeter, q => q.ToUnit(IrradiationUnit.WattHourPerSquareMeter)); + unitConverter.SetConversionFunction(IrradiationUnit.WattHourPerSquareMeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(ElectricConductance.BaseUnit, ElectricConductanceUnit.Microsiemens, q => q.ToUnit(ElectricConductanceUnit.Microsiemens)); unitConverter.SetConversionFunction(ElectricConductanceUnit.Microsiemens, ElectricConductance.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(ElectricConductance.BaseUnit, ElectricConductanceUnit.Millisiemens, q => q.ToUnit(ElectricConductanceUnit.Millisiemens)); unitConverter.SetConversionFunction(ElectricConductanceUnit.Millisiemens, ElectricConductance.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(ElectricConductance.BaseUnit, ElectricConductance.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricConductivity.BaseUnit, ElectricConductivityUnit.SiemensPerFoot, q => q.ToUnit(ElectricConductivityUnit.SiemensPerFoot)); - unitConverter.SetConversionFunction(ElectricConductivityUnit.SiemensPerFoot, ElectricConductivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricConductivity.BaseUnit, ElectricConductivityUnit.SiemensPerInch, q => q.ToUnit(ElectricConductivityUnit.SiemensPerInch)); - unitConverter.SetConversionFunction(ElectricConductivityUnit.SiemensPerInch, ElectricConductivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricConductivity.BaseUnit, ElectricConductivity.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrent.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Centiampere, q => q.ToUnit(ElectricCurrentUnit.Centiampere)); - unitConverter.SetConversionFunction(ElectricCurrentUnit.Centiampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Kiloampere, q => q.ToUnit(ElectricCurrentUnit.Kiloampere)); - unitConverter.SetConversionFunction(ElectricCurrentUnit.Kiloampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Megaampere, q => q.ToUnit(ElectricCurrentUnit.Megaampere)); - unitConverter.SetConversionFunction(ElectricCurrentUnit.Megaampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Microampere, q => q.ToUnit(ElectricCurrentUnit.Microampere)); - unitConverter.SetConversionFunction(ElectricCurrentUnit.Microampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Milliampere, q => q.ToUnit(ElectricCurrentUnit.Milliampere)); - unitConverter.SetConversionFunction(ElectricCurrentUnit.Milliampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Nanoampere, q => q.ToUnit(ElectricCurrentUnit.Nanoampere)); - unitConverter.SetConversionFunction(ElectricCurrentUnit.Nanoampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Picoampere, q => q.ToUnit(ElectricCurrentUnit.Picoampere)); - unitConverter.SetConversionFunction(ElectricCurrentUnit.Picoampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrentDensity.BaseUnit, ElectricCurrentDensityUnit.AmperePerSquareFoot, q => q.ToUnit(ElectricCurrentDensityUnit.AmperePerSquareFoot)); - unitConverter.SetConversionFunction(ElectricCurrentDensityUnit.AmperePerSquareFoot, ElectricCurrentDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrentDensity.BaseUnit, ElectricCurrentDensityUnit.AmperePerSquareInch, q => q.ToUnit(ElectricCurrentDensityUnit.AmperePerSquareInch)); - unitConverter.SetConversionFunction(ElectricCurrentDensityUnit.AmperePerSquareInch, ElectricCurrentDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrentDensity.BaseUnit, ElectricCurrentDensity.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricCurrentGradient.BaseUnit, ElectricCurrentGradientUnit.AmperePerMicrosecond, q => q.ToUnit(ElectricCurrentGradientUnit.AmperePerMicrosecond)); - unitConverter.SetConversionFunction(ElectricCurrentGradientUnit.AmperePerMicrosecond, ElectricCurrentGradient.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrentGradient.BaseUnit, ElectricCurrentGradientUnit.AmperePerMillisecond, q => q.ToUnit(ElectricCurrentGradientUnit.AmperePerMillisecond)); - unitConverter.SetConversionFunction(ElectricCurrentGradientUnit.AmperePerMillisecond, ElectricCurrentGradient.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrentGradient.BaseUnit, ElectricCurrentGradientUnit.AmperePerNanosecond, q => q.ToUnit(ElectricCurrentGradientUnit.AmperePerNanosecond)); - unitConverter.SetConversionFunction(ElectricCurrentGradientUnit.AmperePerNanosecond, ElectricCurrentGradient.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricCurrentGradient.BaseUnit, ElectricCurrentGradient.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricField.BaseUnit, ElectricField.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricInductance.BaseUnit, ElectricInductance.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricInductance.BaseUnit, ElectricInductanceUnit.Microhenry, q => q.ToUnit(ElectricInductanceUnit.Microhenry)); - unitConverter.SetConversionFunction(ElectricInductanceUnit.Microhenry, ElectricInductance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricInductance.BaseUnit, ElectricInductanceUnit.Millihenry, q => q.ToUnit(ElectricInductanceUnit.Millihenry)); - unitConverter.SetConversionFunction(ElectricInductanceUnit.Millihenry, ElectricInductance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricInductance.BaseUnit, ElectricInductanceUnit.Nanohenry, q => q.ToUnit(ElectricInductanceUnit.Nanohenry)); - unitConverter.SetConversionFunction(ElectricInductanceUnit.Nanohenry, ElectricInductance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotentialUnit.Kilovolt, q => q.ToUnit(ElectricPotentialUnit.Kilovolt)); - unitConverter.SetConversionFunction(ElectricPotentialUnit.Kilovolt, ElectricPotential.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotentialUnit.Megavolt, q => q.ToUnit(ElectricPotentialUnit.Megavolt)); - unitConverter.SetConversionFunction(ElectricPotentialUnit.Megavolt, ElectricPotential.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotentialUnit.Microvolt, q => q.ToUnit(ElectricPotentialUnit.Microvolt)); - unitConverter.SetConversionFunction(ElectricPotentialUnit.Microvolt, ElectricPotential.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotentialUnit.Millivolt, q => q.ToUnit(ElectricPotentialUnit.Millivolt)); - unitConverter.SetConversionFunction(ElectricPotentialUnit.Millivolt, ElectricPotential.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotential.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAcUnit.KilovoltAc, q => q.ToUnit(ElectricPotentialAcUnit.KilovoltAc)); - unitConverter.SetConversionFunction(ElectricPotentialAcUnit.KilovoltAc, ElectricPotentialAc.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAcUnit.MegavoltAc, q => q.ToUnit(ElectricPotentialAcUnit.MegavoltAc)); - unitConverter.SetConversionFunction(ElectricPotentialAcUnit.MegavoltAc, ElectricPotentialAc.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAcUnit.MicrovoltAc, q => q.ToUnit(ElectricPotentialAcUnit.MicrovoltAc)); - unitConverter.SetConversionFunction(ElectricPotentialAcUnit.MicrovoltAc, ElectricPotentialAc.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAcUnit.MillivoltAc, q => q.ToUnit(ElectricPotentialAcUnit.MillivoltAc)); - unitConverter.SetConversionFunction(ElectricPotentialAcUnit.MillivoltAc, ElectricPotentialAc.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAc.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.KilovoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.KilovoltPerHour)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.KilovoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.KilovoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.KilovoltPerMinute)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.KilovoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.KilovoltPerSecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.KilovoltPerSecond)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.KilovoltPerSecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MegavoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.MegavoltPerHour)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MegavoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MegavoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.MegavoltPerMinute)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MegavoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MegavoltPerSecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MegavoltPerSecond)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MegavoltPerSecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MicrovoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.MicrovoltPerHour)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MicrovoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MicrovoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.MicrovoltPerMinute)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MicrovoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MicrovoltPerSecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MicrovoltPerSecond)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MicrovoltPerSecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MillivoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.MillivoltPerHour)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MillivoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MillivoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.MillivoltPerMinute)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MillivoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MillivoltPerSecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MillivoltPerSecond)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MillivoltPerSecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.VoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.VoltPerHour)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.VoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.VoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.VoltPerMicrosecond)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.VoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.VoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.VoltPerMinute)); - unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.VoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRate.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDcUnit.KilovoltDc, q => q.ToUnit(ElectricPotentialDcUnit.KilovoltDc)); - unitConverter.SetConversionFunction(ElectricPotentialDcUnit.KilovoltDc, ElectricPotentialDc.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDcUnit.MegavoltDc, q => q.ToUnit(ElectricPotentialDcUnit.MegavoltDc)); - unitConverter.SetConversionFunction(ElectricPotentialDcUnit.MegavoltDc, ElectricPotentialDc.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDcUnit.MicrovoltDc, q => q.ToUnit(ElectricPotentialDcUnit.MicrovoltDc)); - unitConverter.SetConversionFunction(ElectricPotentialDcUnit.MicrovoltDc, ElectricPotentialDc.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDcUnit.MillivoltDc, q => q.ToUnit(ElectricPotentialDcUnit.MillivoltDc)); - unitConverter.SetConversionFunction(ElectricPotentialDcUnit.MillivoltDc, ElectricPotentialDc.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDc.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Gigaohm, q => q.ToUnit(ElectricResistanceUnit.Gigaohm)); - unitConverter.SetConversionFunction(ElectricResistanceUnit.Gigaohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Kiloohm, q => q.ToUnit(ElectricResistanceUnit.Kiloohm)); - unitConverter.SetConversionFunction(ElectricResistanceUnit.Kiloohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Megaohm, q => q.ToUnit(ElectricResistanceUnit.Megaohm)); - unitConverter.SetConversionFunction(ElectricResistanceUnit.Megaohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Microohm, q => q.ToUnit(ElectricResistanceUnit.Microohm)); - unitConverter.SetConversionFunction(ElectricResistanceUnit.Microohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Milliohm, q => q.ToUnit(ElectricResistanceUnit.Milliohm)); - unitConverter.SetConversionFunction(ElectricResistanceUnit.Milliohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistance.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.KiloohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.KiloohmCentimeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.KiloohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.KiloohmMeter, q => q.ToUnit(ElectricResistivityUnit.KiloohmMeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.KiloohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MegaohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.MegaohmCentimeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.MegaohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MegaohmMeter, q => q.ToUnit(ElectricResistivityUnit.MegaohmMeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.MegaohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MicroohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.MicroohmCentimeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.MicroohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MicroohmMeter, q => q.ToUnit(ElectricResistivityUnit.MicroohmMeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.MicroohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MilliohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.MilliohmCentimeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.MilliohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MilliohmMeter, q => q.ToUnit(ElectricResistivityUnit.MilliohmMeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.MilliohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.NanoohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.NanoohmCentimeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.NanoohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.NanoohmMeter, q => q.ToUnit(ElectricResistivityUnit.NanoohmMeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.NanoohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.OhmCentimeter, q => q.ToUnit(ElectricResistivityUnit.OhmCentimeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.OhmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivity.BaseUnit, q => q); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.PicoohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.PicoohmCentimeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.PicoohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.PicoohmMeter, q => q.ToUnit(ElectricResistivityUnit.PicoohmMeter)); - unitConverter.SetConversionFunction(ElectricResistivityUnit.PicoohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricSurfaceChargeDensity.BaseUnit, ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter, q => q.ToUnit(ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter)); - unitConverter.SetConversionFunction(ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter, ElectricSurfaceChargeDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricSurfaceChargeDensity.BaseUnit, ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch, q => q.ToUnit(ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch)); - unitConverter.SetConversionFunction(ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch, ElectricSurfaceChargeDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ElectricSurfaceChargeDensity.BaseUnit, ElectricSurfaceChargeDensity.BaseUnit, q => q); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.BritishThermalUnit, q => q.ToUnit(EnergyUnit.BritishThermalUnit)); - unitConverter.SetConversionFunction(EnergyUnit.BritishThermalUnit, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Calorie, q => q.ToUnit(EnergyUnit.Calorie)); - unitConverter.SetConversionFunction(EnergyUnit.Calorie, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.DecathermEc, q => q.ToUnit(EnergyUnit.DecathermEc)); - unitConverter.SetConversionFunction(EnergyUnit.DecathermEc, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.DecathermImperial, q => q.ToUnit(EnergyUnit.DecathermImperial)); - unitConverter.SetConversionFunction(EnergyUnit.DecathermImperial, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.DecathermUs, q => q.ToUnit(EnergyUnit.DecathermUs)); - unitConverter.SetConversionFunction(EnergyUnit.DecathermUs, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.ElectronVolt, q => q.ToUnit(EnergyUnit.ElectronVolt)); - unitConverter.SetConversionFunction(EnergyUnit.ElectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Erg, q => q.ToUnit(EnergyUnit.Erg)); - unitConverter.SetConversionFunction(EnergyUnit.Erg, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.FootPound, q => q.ToUnit(EnergyUnit.FootPound)); - unitConverter.SetConversionFunction(EnergyUnit.FootPound, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.GigabritishThermalUnit, q => q.ToUnit(EnergyUnit.GigabritishThermalUnit)); - unitConverter.SetConversionFunction(EnergyUnit.GigabritishThermalUnit, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.GigaelectronVolt, q => q.ToUnit(EnergyUnit.GigaelectronVolt)); - unitConverter.SetConversionFunction(EnergyUnit.GigaelectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Gigajoule, q => q.ToUnit(EnergyUnit.Gigajoule)); - unitConverter.SetConversionFunction(EnergyUnit.Gigajoule, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.GigawattDay, q => q.ToUnit(EnergyUnit.GigawattDay)); - unitConverter.SetConversionFunction(EnergyUnit.GigawattDay, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.GigawattHour, q => q.ToUnit(EnergyUnit.GigawattHour)); - unitConverter.SetConversionFunction(EnergyUnit.GigawattHour, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.HorsepowerHour, q => q.ToUnit(EnergyUnit.HorsepowerHour)); - unitConverter.SetConversionFunction(EnergyUnit.HorsepowerHour, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, Energy.BaseUnit, q => q); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.KilobritishThermalUnit, q => q.ToUnit(EnergyUnit.KilobritishThermalUnit)); - unitConverter.SetConversionFunction(EnergyUnit.KilobritishThermalUnit, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Kilocalorie, q => q.ToUnit(EnergyUnit.Kilocalorie)); - unitConverter.SetConversionFunction(EnergyUnit.Kilocalorie, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.KiloelectronVolt, q => q.ToUnit(EnergyUnit.KiloelectronVolt)); - unitConverter.SetConversionFunction(EnergyUnit.KiloelectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Kilojoule, q => q.ToUnit(EnergyUnit.Kilojoule)); - unitConverter.SetConversionFunction(EnergyUnit.Kilojoule, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.KilowattDay, q => q.ToUnit(EnergyUnit.KilowattDay)); - unitConverter.SetConversionFunction(EnergyUnit.KilowattDay, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.KilowattHour, q => q.ToUnit(EnergyUnit.KilowattHour)); - unitConverter.SetConversionFunction(EnergyUnit.KilowattHour, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.MegabritishThermalUnit, q => q.ToUnit(EnergyUnit.MegabritishThermalUnit)); - unitConverter.SetConversionFunction(EnergyUnit.MegabritishThermalUnit, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Megacalorie, q => q.ToUnit(EnergyUnit.Megacalorie)); - unitConverter.SetConversionFunction(EnergyUnit.Megacalorie, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.MegaelectronVolt, q => q.ToUnit(EnergyUnit.MegaelectronVolt)); - unitConverter.SetConversionFunction(EnergyUnit.MegaelectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Megajoule, q => q.ToUnit(EnergyUnit.Megajoule)); - unitConverter.SetConversionFunction(EnergyUnit.Megajoule, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.MegawattDay, q => q.ToUnit(EnergyUnit.MegawattDay)); - unitConverter.SetConversionFunction(EnergyUnit.MegawattDay, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.MegawattHour, q => q.ToUnit(EnergyUnit.MegawattHour)); - unitConverter.SetConversionFunction(EnergyUnit.MegawattHour, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Millijoule, q => q.ToUnit(EnergyUnit.Millijoule)); - unitConverter.SetConversionFunction(EnergyUnit.Millijoule, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.TeraelectronVolt, q => q.ToUnit(EnergyUnit.TeraelectronVolt)); - unitConverter.SetConversionFunction(EnergyUnit.TeraelectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.TerawattDay, q => q.ToUnit(EnergyUnit.TerawattDay)); - unitConverter.SetConversionFunction(EnergyUnit.TerawattDay, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.TerawattHour, q => q.ToUnit(EnergyUnit.TerawattHour)); - unitConverter.SetConversionFunction(EnergyUnit.TerawattHour, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.ThermEc, q => q.ToUnit(EnergyUnit.ThermEc)); - unitConverter.SetConversionFunction(EnergyUnit.ThermEc, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.ThermImperial, q => q.ToUnit(EnergyUnit.ThermImperial)); - unitConverter.SetConversionFunction(EnergyUnit.ThermImperial, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.ThermUs, q => q.ToUnit(EnergyUnit.ThermUs)); - unitConverter.SetConversionFunction(EnergyUnit.ThermUs, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.WattDay, q => q.ToUnit(EnergyUnit.WattDay)); - unitConverter.SetConversionFunction(EnergyUnit.WattDay, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.WattHour, q => q.ToUnit(EnergyUnit.WattHour)); - unitConverter.SetConversionFunction(EnergyUnit.WattHour, Energy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.CaloriePerKelvin, q => q.ToUnit(EntropyUnit.CaloriePerKelvin)); - unitConverter.SetConversionFunction(EntropyUnit.CaloriePerKelvin, Entropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.JoulePerDegreeCelsius, q => q.ToUnit(EntropyUnit.JoulePerDegreeCelsius)); - unitConverter.SetConversionFunction(EntropyUnit.JoulePerDegreeCelsius, Entropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Entropy.BaseUnit, Entropy.BaseUnit, q => q); - unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.KilocaloriePerKelvin, q => q.ToUnit(EntropyUnit.KilocaloriePerKelvin)); - unitConverter.SetConversionFunction(EntropyUnit.KilocaloriePerKelvin, Entropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.KilojoulePerDegreeCelsius, q => q.ToUnit(EntropyUnit.KilojoulePerDegreeCelsius)); - unitConverter.SetConversionFunction(EntropyUnit.KilojoulePerDegreeCelsius, Entropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.KilojoulePerKelvin, q => q.ToUnit(EntropyUnit.KilojoulePerKelvin)); - unitConverter.SetConversionFunction(EntropyUnit.KilojoulePerKelvin, Entropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.MegajoulePerKelvin, q => q.ToUnit(EntropyUnit.MegajoulePerKelvin)); - unitConverter.SetConversionFunction(EntropyUnit.MegajoulePerKelvin, Entropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Decanewton, q => q.ToUnit(ForceUnit.Decanewton)); - unitConverter.SetConversionFunction(ForceUnit.Decanewton, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Dyn, q => q.ToUnit(ForceUnit.Dyn)); - unitConverter.SetConversionFunction(ForceUnit.Dyn, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.KilogramForce, q => q.ToUnit(ForceUnit.KilogramForce)); - unitConverter.SetConversionFunction(ForceUnit.KilogramForce, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Kilonewton, q => q.ToUnit(ForceUnit.Kilonewton)); - unitConverter.SetConversionFunction(ForceUnit.Kilonewton, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.KiloPond, q => q.ToUnit(ForceUnit.KiloPond)); - unitConverter.SetConversionFunction(ForceUnit.KiloPond, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.KilopoundForce, q => q.ToUnit(ForceUnit.KilopoundForce)); - unitConverter.SetConversionFunction(ForceUnit.KilopoundForce, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Meganewton, q => q.ToUnit(ForceUnit.Meganewton)); - unitConverter.SetConversionFunction(ForceUnit.Meganewton, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Micronewton, q => q.ToUnit(ForceUnit.Micronewton)); - unitConverter.SetConversionFunction(ForceUnit.Micronewton, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Millinewton, q => q.ToUnit(ForceUnit.Millinewton)); - unitConverter.SetConversionFunction(ForceUnit.Millinewton, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, Force.BaseUnit, q => q); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.OunceForce, q => q.ToUnit(ForceUnit.OunceForce)); - unitConverter.SetConversionFunction(ForceUnit.OunceForce, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Poundal, q => q.ToUnit(ForceUnit.Poundal)); - unitConverter.SetConversionFunction(ForceUnit.Poundal, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.PoundForce, q => q.ToUnit(ForceUnit.PoundForce)); - unitConverter.SetConversionFunction(ForceUnit.PoundForce, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.ShortTonForce, q => q.ToUnit(ForceUnit.ShortTonForce)); - unitConverter.SetConversionFunction(ForceUnit.ShortTonForce, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.TonneForce, q => q.ToUnit(ForceUnit.TonneForce)); - unitConverter.SetConversionFunction(ForceUnit.TonneForce, Force.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.CentinewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.CentinewtonPerSecond)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.CentinewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.DecanewtonPerMinute, q => q.ToUnit(ForceChangeRateUnit.DecanewtonPerMinute)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.DecanewtonPerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.DecanewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.DecanewtonPerSecond)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.DecanewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.DecinewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.DecinewtonPerSecond)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.DecinewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.KilonewtonPerMinute, q => q.ToUnit(ForceChangeRateUnit.KilonewtonPerMinute)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.KilonewtonPerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.KilonewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.KilonewtonPerSecond)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.KilonewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.KilopoundForcePerMinute, q => q.ToUnit(ForceChangeRateUnit.KilopoundForcePerMinute)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.KilopoundForcePerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.KilopoundForcePerSecond, q => q.ToUnit(ForceChangeRateUnit.KilopoundForcePerSecond)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.KilopoundForcePerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.MicronewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.MicronewtonPerSecond)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.MicronewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.MillinewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.MillinewtonPerSecond)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.MillinewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.NanonewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.NanonewtonPerSecond)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.NanonewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.NewtonPerMinute, q => q.ToUnit(ForceChangeRateUnit.NewtonPerMinute)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.NewtonPerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRate.BaseUnit, q => q); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.PoundForcePerMinute, q => q.ToUnit(ForceChangeRateUnit.PoundForcePerMinute)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.PoundForcePerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.PoundForcePerSecond, q => q.ToUnit(ForceChangeRateUnit.PoundForcePerSecond)); - unitConverter.SetConversionFunction(ForceChangeRateUnit.PoundForcePerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.CentinewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.CentinewtonPerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.CentinewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.CentinewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.CentinewtonPerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.CentinewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.CentinewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.CentinewtonPerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.CentinewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecanewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.DecanewtonPerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.DecanewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecanewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.DecanewtonPerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.DecanewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecanewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.DecanewtonPerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.DecanewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecinewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.DecinewtonPerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.DecinewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecinewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.DecinewtonPerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.DecinewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecinewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.DecinewtonPerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.DecinewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilogramForcePerCentimeter, q => q.ToUnit(ForcePerLengthUnit.KilogramForcePerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.KilogramForcePerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilogramForcePerMeter, q => q.ToUnit(ForcePerLengthUnit.KilogramForcePerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.KilogramForcePerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilogramForcePerMillimeter, q => q.ToUnit(ForcePerLengthUnit.KilogramForcePerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.KilogramForcePerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilonewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.KilonewtonPerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.KilonewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilonewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.KilonewtonPerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.KilonewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilonewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.KilonewtonPerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.KilonewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilopoundForcePerFoot, q => q.ToUnit(ForcePerLengthUnit.KilopoundForcePerFoot)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.KilopoundForcePerFoot, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilopoundForcePerInch, q => q.ToUnit(ForcePerLengthUnit.KilopoundForcePerInch)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.KilopoundForcePerInch, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MeganewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.MeganewtonPerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.MeganewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MeganewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.MeganewtonPerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.MeganewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MeganewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.MeganewtonPerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.MeganewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MicronewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.MicronewtonPerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.MicronewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MicronewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.MicronewtonPerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.MicronewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MicronewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.MicronewtonPerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.MicronewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MillinewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.MillinewtonPerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.MillinewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MillinewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.MillinewtonPerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.MillinewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MillinewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.MillinewtonPerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.MillinewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NanonewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.NanonewtonPerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.NanonewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NanonewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.NanonewtonPerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.NanonewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NanonewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.NanonewtonPerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.NanonewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.NewtonPerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.NewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLength.BaseUnit, q => q); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.NewtonPerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.NewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.PoundForcePerFoot, q => q.ToUnit(ForcePerLengthUnit.PoundForcePerFoot)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.PoundForcePerFoot, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.PoundForcePerInch, q => q.ToUnit(ForcePerLengthUnit.PoundForcePerInch)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.PoundForcePerInch, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.PoundForcePerYard, q => q.ToUnit(ForcePerLengthUnit.PoundForcePerYard)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.PoundForcePerYard, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.TonneForcePerCentimeter, q => q.ToUnit(ForcePerLengthUnit.TonneForcePerCentimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.TonneForcePerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.TonneForcePerMeter, q => q.ToUnit(ForcePerLengthUnit.TonneForcePerMeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.TonneForcePerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.TonneForcePerMillimeter, q => q.ToUnit(ForcePerLengthUnit.TonneForcePerMillimeter)); - unitConverter.SetConversionFunction(ForcePerLengthUnit.TonneForcePerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.BeatPerMinute, q => q.ToUnit(FrequencyUnit.BeatPerMinute)); - unitConverter.SetConversionFunction(FrequencyUnit.BeatPerMinute, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.BUnit, q => q.ToUnit(FrequencyUnit.BUnit)); - unitConverter.SetConversionFunction(FrequencyUnit.BUnit, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.CyclePerHour, q => q.ToUnit(FrequencyUnit.CyclePerHour)); - unitConverter.SetConversionFunction(FrequencyUnit.CyclePerHour, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.CyclePerMinute, q => q.ToUnit(FrequencyUnit.CyclePerMinute)); - unitConverter.SetConversionFunction(FrequencyUnit.CyclePerMinute, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.Gigahertz, q => q.ToUnit(FrequencyUnit.Gigahertz)); - unitConverter.SetConversionFunction(FrequencyUnit.Gigahertz, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, Frequency.BaseUnit, q => q); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.Kilohertz, q => q.ToUnit(FrequencyUnit.Kilohertz)); - unitConverter.SetConversionFunction(FrequencyUnit.Kilohertz, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.Megahertz, q => q.ToUnit(FrequencyUnit.Megahertz)); - unitConverter.SetConversionFunction(FrequencyUnit.Megahertz, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.PerSecond, q => q.ToUnit(FrequencyUnit.PerSecond)); - unitConverter.SetConversionFunction(FrequencyUnit.PerSecond, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.RadianPerSecond, q => q.ToUnit(FrequencyUnit.RadianPerSecond)); - unitConverter.SetConversionFunction(FrequencyUnit.RadianPerSecond, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.Terahertz, q => q.ToUnit(FrequencyUnit.Terahertz)); - unitConverter.SetConversionFunction(FrequencyUnit.Terahertz, Frequency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(FuelEfficiency.BaseUnit, FuelEfficiencyUnit.KilometerPerLiter, q => q.ToUnit(FuelEfficiencyUnit.KilometerPerLiter)); - unitConverter.SetConversionFunction(FuelEfficiencyUnit.KilometerPerLiter, FuelEfficiency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(FuelEfficiency.BaseUnit, FuelEfficiency.BaseUnit, q => q); - unitConverter.SetConversionFunction(FuelEfficiency.BaseUnit, FuelEfficiencyUnit.MilePerUkGallon, q => q.ToUnit(FuelEfficiencyUnit.MilePerUkGallon)); - unitConverter.SetConversionFunction(FuelEfficiencyUnit.MilePerUkGallon, FuelEfficiency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(FuelEfficiency.BaseUnit, FuelEfficiencyUnit.MilePerUsGallon, q => q.ToUnit(FuelEfficiencyUnit.MilePerUsGallon)); - unitConverter.SetConversionFunction(FuelEfficiencyUnit.MilePerUsGallon, FuelEfficiency.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.BtuPerHourSquareFoot, q => q.ToUnit(HeatFluxUnit.BtuPerHourSquareFoot)); - unitConverter.SetConversionFunction(HeatFluxUnit.BtuPerHourSquareFoot, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.BtuPerMinuteSquareFoot, q => q.ToUnit(HeatFluxUnit.BtuPerMinuteSquareFoot)); - unitConverter.SetConversionFunction(HeatFluxUnit.BtuPerMinuteSquareFoot, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.BtuPerSecondSquareFoot, q => q.ToUnit(HeatFluxUnit.BtuPerSecondSquareFoot)); - unitConverter.SetConversionFunction(HeatFluxUnit.BtuPerSecondSquareFoot, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.BtuPerSecondSquareInch, q => q.ToUnit(HeatFluxUnit.BtuPerSecondSquareInch)); - unitConverter.SetConversionFunction(HeatFluxUnit.BtuPerSecondSquareInch, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.CaloriePerSecondSquareCentimeter, q => q.ToUnit(HeatFluxUnit.CaloriePerSecondSquareCentimeter)); - unitConverter.SetConversionFunction(HeatFluxUnit.CaloriePerSecondSquareCentimeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.CentiwattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.CentiwattPerSquareMeter)); - unitConverter.SetConversionFunction(HeatFluxUnit.CentiwattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.DeciwattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.DeciwattPerSquareMeter)); - unitConverter.SetConversionFunction(HeatFluxUnit.DeciwattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.KilocaloriePerHourSquareMeter, q => q.ToUnit(HeatFluxUnit.KilocaloriePerHourSquareMeter)); - unitConverter.SetConversionFunction(HeatFluxUnit.KilocaloriePerHourSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.KilocaloriePerSecondSquareCentimeter, q => q.ToUnit(HeatFluxUnit.KilocaloriePerSecondSquareCentimeter)); - unitConverter.SetConversionFunction(HeatFluxUnit.KilocaloriePerSecondSquareCentimeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.KilowattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.KilowattPerSquareMeter)); - unitConverter.SetConversionFunction(HeatFluxUnit.KilowattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.MicrowattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.MicrowattPerSquareMeter)); - unitConverter.SetConversionFunction(HeatFluxUnit.MicrowattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.MilliwattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.MilliwattPerSquareMeter)); - unitConverter.SetConversionFunction(HeatFluxUnit.MilliwattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.NanowattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.NanowattPerSquareMeter)); - unitConverter.SetConversionFunction(HeatFluxUnit.NanowattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.PoundForcePerFootSecond, q => q.ToUnit(HeatFluxUnit.PoundForcePerFootSecond)); - unitConverter.SetConversionFunction(HeatFluxUnit.PoundForcePerFootSecond, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.PoundPerSecondCubed, q => q.ToUnit(HeatFluxUnit.PoundPerSecondCubed)); - unitConverter.SetConversionFunction(HeatFluxUnit.PoundPerSecondCubed, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.WattPerSquareFoot, q => q.ToUnit(HeatFluxUnit.WattPerSquareFoot)); - unitConverter.SetConversionFunction(HeatFluxUnit.WattPerSquareFoot, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.WattPerSquareInch, q => q.ToUnit(HeatFluxUnit.WattPerSquareInch)); - unitConverter.SetConversionFunction(HeatFluxUnit.WattPerSquareInch, HeatFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFlux.BaseUnit, q => q); - unitConverter.SetConversionFunction(HeatTransferCoefficient.BaseUnit, HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit, q => q.ToUnit(HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit)); - unitConverter.SetConversionFunction(HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit, HeatTransferCoefficient.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatTransferCoefficient.BaseUnit, HeatTransferCoefficientUnit.WattPerSquareMeterCelsius, q => q.ToUnit(HeatTransferCoefficientUnit.WattPerSquareMeterCelsius)); - unitConverter.SetConversionFunction(HeatTransferCoefficientUnit.WattPerSquareMeterCelsius, HeatTransferCoefficient.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(HeatTransferCoefficient.BaseUnit, HeatTransferCoefficient.BaseUnit, q => q); - unitConverter.SetConversionFunction(Illuminance.BaseUnit, IlluminanceUnit.Kilolux, q => q.ToUnit(IlluminanceUnit.Kilolux)); - unitConverter.SetConversionFunction(IlluminanceUnit.Kilolux, Illuminance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Illuminance.BaseUnit, Illuminance.BaseUnit, q => q); - unitConverter.SetConversionFunction(Illuminance.BaseUnit, IlluminanceUnit.Megalux, q => q.ToUnit(IlluminanceUnit.Megalux)); - unitConverter.SetConversionFunction(IlluminanceUnit.Megalux, Illuminance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Illuminance.BaseUnit, IlluminanceUnit.Millilux, q => q.ToUnit(IlluminanceUnit.Millilux)); - unitConverter.SetConversionFunction(IlluminanceUnit.Millilux, Illuminance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, Information.BaseUnit, q => q); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Byte, q => q.ToUnit(InformationUnit.Byte)); - unitConverter.SetConversionFunction(InformationUnit.Byte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Exabit, q => q.ToUnit(InformationUnit.Exabit)); - unitConverter.SetConversionFunction(InformationUnit.Exabit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Exabyte, q => q.ToUnit(InformationUnit.Exabyte)); - unitConverter.SetConversionFunction(InformationUnit.Exabyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Exbibit, q => q.ToUnit(InformationUnit.Exbibit)); - unitConverter.SetConversionFunction(InformationUnit.Exbibit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Exbibyte, q => q.ToUnit(InformationUnit.Exbibyte)); - unitConverter.SetConversionFunction(InformationUnit.Exbibyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Gibibit, q => q.ToUnit(InformationUnit.Gibibit)); - unitConverter.SetConversionFunction(InformationUnit.Gibibit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Gibibyte, q => q.ToUnit(InformationUnit.Gibibyte)); - unitConverter.SetConversionFunction(InformationUnit.Gibibyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Gigabit, q => q.ToUnit(InformationUnit.Gigabit)); - unitConverter.SetConversionFunction(InformationUnit.Gigabit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Gigabyte, q => q.ToUnit(InformationUnit.Gigabyte)); - unitConverter.SetConversionFunction(InformationUnit.Gigabyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Kibibit, q => q.ToUnit(InformationUnit.Kibibit)); - unitConverter.SetConversionFunction(InformationUnit.Kibibit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Kibibyte, q => q.ToUnit(InformationUnit.Kibibyte)); - unitConverter.SetConversionFunction(InformationUnit.Kibibyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Kilobit, q => q.ToUnit(InformationUnit.Kilobit)); - unitConverter.SetConversionFunction(InformationUnit.Kilobit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Kilobyte, q => q.ToUnit(InformationUnit.Kilobyte)); - unitConverter.SetConversionFunction(InformationUnit.Kilobyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Mebibit, q => q.ToUnit(InformationUnit.Mebibit)); - unitConverter.SetConversionFunction(InformationUnit.Mebibit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Mebibyte, q => q.ToUnit(InformationUnit.Mebibyte)); - unitConverter.SetConversionFunction(InformationUnit.Mebibyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Megabit, q => q.ToUnit(InformationUnit.Megabit)); - unitConverter.SetConversionFunction(InformationUnit.Megabit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Megabyte, q => q.ToUnit(InformationUnit.Megabyte)); - unitConverter.SetConversionFunction(InformationUnit.Megabyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Pebibit, q => q.ToUnit(InformationUnit.Pebibit)); - unitConverter.SetConversionFunction(InformationUnit.Pebibit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Pebibyte, q => q.ToUnit(InformationUnit.Pebibyte)); - unitConverter.SetConversionFunction(InformationUnit.Pebibyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Petabit, q => q.ToUnit(InformationUnit.Petabit)); - unitConverter.SetConversionFunction(InformationUnit.Petabit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Petabyte, q => q.ToUnit(InformationUnit.Petabyte)); - unitConverter.SetConversionFunction(InformationUnit.Petabyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Tebibit, q => q.ToUnit(InformationUnit.Tebibit)); - unitConverter.SetConversionFunction(InformationUnit.Tebibit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Tebibyte, q => q.ToUnit(InformationUnit.Tebibyte)); - unitConverter.SetConversionFunction(InformationUnit.Tebibyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Terabit, q => q.ToUnit(InformationUnit.Terabit)); - unitConverter.SetConversionFunction(InformationUnit.Terabit, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Terabyte, q => q.ToUnit(InformationUnit.Terabyte)); - unitConverter.SetConversionFunction(InformationUnit.Terabyte, Information.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.KilowattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.KilowattPerSquareCentimeter)); - unitConverter.SetConversionFunction(IrradianceUnit.KilowattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.KilowattPerSquareMeter, q => q.ToUnit(IrradianceUnit.KilowattPerSquareMeter)); - unitConverter.SetConversionFunction(IrradianceUnit.KilowattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MegawattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.MegawattPerSquareCentimeter)); - unitConverter.SetConversionFunction(IrradianceUnit.MegawattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MegawattPerSquareMeter, q => q.ToUnit(IrradianceUnit.MegawattPerSquareMeter)); - unitConverter.SetConversionFunction(IrradianceUnit.MegawattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MicrowattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.MicrowattPerSquareCentimeter)); - unitConverter.SetConversionFunction(IrradianceUnit.MicrowattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MicrowattPerSquareMeter, q => q.ToUnit(IrradianceUnit.MicrowattPerSquareMeter)); - unitConverter.SetConversionFunction(IrradianceUnit.MicrowattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MilliwattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.MilliwattPerSquareCentimeter)); - unitConverter.SetConversionFunction(IrradianceUnit.MilliwattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MilliwattPerSquareMeter, q => q.ToUnit(IrradianceUnit.MilliwattPerSquareMeter)); - unitConverter.SetConversionFunction(IrradianceUnit.MilliwattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.NanowattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.NanowattPerSquareCentimeter)); - unitConverter.SetConversionFunction(IrradianceUnit.NanowattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.NanowattPerSquareMeter, q => q.ToUnit(IrradianceUnit.NanowattPerSquareMeter)); - unitConverter.SetConversionFunction(IrradianceUnit.NanowattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.PicowattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.PicowattPerSquareCentimeter)); - unitConverter.SetConversionFunction(IrradianceUnit.PicowattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.PicowattPerSquareMeter, q => q.ToUnit(IrradianceUnit.PicowattPerSquareMeter)); - unitConverter.SetConversionFunction(IrradianceUnit.PicowattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.WattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.WattPerSquareCentimeter)); - unitConverter.SetConversionFunction(IrradianceUnit.WattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiance.BaseUnit, Irradiance.BaseUnit, q => q); - unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.JoulePerSquareCentimeter, q => q.ToUnit(IrradiationUnit.JoulePerSquareCentimeter)); - unitConverter.SetConversionFunction(IrradiationUnit.JoulePerSquareCentimeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiation.BaseUnit, Irradiation.BaseUnit, q => q); - unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.JoulePerSquareMillimeter, q => q.ToUnit(IrradiationUnit.JoulePerSquareMillimeter)); - unitConverter.SetConversionFunction(IrradiationUnit.JoulePerSquareMillimeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.KilojoulePerSquareMeter, q => q.ToUnit(IrradiationUnit.KilojoulePerSquareMeter)); - unitConverter.SetConversionFunction(IrradiationUnit.KilojoulePerSquareMeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.KilowattHourPerSquareMeter, q => q.ToUnit(IrradiationUnit.KilowattHourPerSquareMeter)); - unitConverter.SetConversionFunction(IrradiationUnit.KilowattHourPerSquareMeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.MillijoulePerSquareCentimeter, q => q.ToUnit(IrradiationUnit.MillijoulePerSquareCentimeter)); - unitConverter.SetConversionFunction(IrradiationUnit.MillijoulePerSquareCentimeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Irradiation.BaseUnit, IrradiationUnit.WattHourPerSquareMeter, q => q.ToUnit(IrradiationUnit.WattHourPerSquareMeter)); - unitConverter.SetConversionFunction(IrradiationUnit.WattHourPerSquareMeter, Irradiation.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Centistokes, q => q.ToUnit(KinematicViscosityUnit.Centistokes)); - unitConverter.SetConversionFunction(KinematicViscosityUnit.Centistokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Decistokes, q => q.ToUnit(KinematicViscosityUnit.Decistokes)); - unitConverter.SetConversionFunction(KinematicViscosityUnit.Decistokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Kilostokes, q => q.ToUnit(KinematicViscosityUnit.Kilostokes)); - unitConverter.SetConversionFunction(KinematicViscosityUnit.Kilostokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Microstokes, q => q.ToUnit(KinematicViscosityUnit.Microstokes)); - unitConverter.SetConversionFunction(KinematicViscosityUnit.Microstokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Millistokes, q => q.ToUnit(KinematicViscosityUnit.Millistokes)); - unitConverter.SetConversionFunction(KinematicViscosityUnit.Millistokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Nanostokes, q => q.ToUnit(KinematicViscosityUnit.Nanostokes)); - unitConverter.SetConversionFunction(KinematicViscosityUnit.Nanostokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.SquareFootPerSecond, q => q.ToUnit(KinematicViscosityUnit.SquareFootPerSecond)); - unitConverter.SetConversionFunction(KinematicViscosityUnit.SquareFootPerSecond, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosity.BaseUnit, q => q); - unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Stokes, q => q.ToUnit(KinematicViscosityUnit.Stokes)); - unitConverter.SetConversionFunction(KinematicViscosityUnit.Stokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LapseRate.BaseUnit, LapseRate.BaseUnit, q => q); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.AstronomicalUnit, q => q.ToUnit(LengthUnit.AstronomicalUnit)); - unitConverter.SetConversionFunction(LengthUnit.AstronomicalUnit, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Centimeter, q => q.ToUnit(LengthUnit.Centimeter)); - unitConverter.SetConversionFunction(LengthUnit.Centimeter, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Chain, q => q.ToUnit(LengthUnit.Chain)); - unitConverter.SetConversionFunction(LengthUnit.Chain, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Decimeter, q => q.ToUnit(LengthUnit.Decimeter)); - unitConverter.SetConversionFunction(LengthUnit.Decimeter, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.DtpPica, q => q.ToUnit(LengthUnit.DtpPica)); - unitConverter.SetConversionFunction(LengthUnit.DtpPica, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.DtpPoint, q => q.ToUnit(LengthUnit.DtpPoint)); - unitConverter.SetConversionFunction(LengthUnit.DtpPoint, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Fathom, q => q.ToUnit(LengthUnit.Fathom)); - unitConverter.SetConversionFunction(LengthUnit.Fathom, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Foot, q => q.ToUnit(LengthUnit.Foot)); - unitConverter.SetConversionFunction(LengthUnit.Foot, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Hand, q => q.ToUnit(LengthUnit.Hand)); - unitConverter.SetConversionFunction(LengthUnit.Hand, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Hectometer, q => q.ToUnit(LengthUnit.Hectometer)); - unitConverter.SetConversionFunction(LengthUnit.Hectometer, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Inch, q => q.ToUnit(LengthUnit.Inch)); - unitConverter.SetConversionFunction(LengthUnit.Inch, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.KilolightYear, q => q.ToUnit(LengthUnit.KilolightYear)); - unitConverter.SetConversionFunction(LengthUnit.KilolightYear, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Kilometer, q => q.ToUnit(LengthUnit.Kilometer)); - unitConverter.SetConversionFunction(LengthUnit.Kilometer, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Kiloparsec, q => q.ToUnit(LengthUnit.Kiloparsec)); - unitConverter.SetConversionFunction(LengthUnit.Kiloparsec, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.LightYear, q => q.ToUnit(LengthUnit.LightYear)); - unitConverter.SetConversionFunction(LengthUnit.LightYear, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.MegalightYear, q => q.ToUnit(LengthUnit.MegalightYear)); - unitConverter.SetConversionFunction(LengthUnit.MegalightYear, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Megaparsec, q => q.ToUnit(LengthUnit.Megaparsec)); - unitConverter.SetConversionFunction(LengthUnit.Megaparsec, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, Length.BaseUnit, q => q); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Microinch, q => q.ToUnit(LengthUnit.Microinch)); - unitConverter.SetConversionFunction(LengthUnit.Microinch, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Micrometer, q => q.ToUnit(LengthUnit.Micrometer)); - unitConverter.SetConversionFunction(LengthUnit.Micrometer, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Mil, q => q.ToUnit(LengthUnit.Mil)); - unitConverter.SetConversionFunction(LengthUnit.Mil, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Mile, q => q.ToUnit(LengthUnit.Mile)); - unitConverter.SetConversionFunction(LengthUnit.Mile, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Millimeter, q => q.ToUnit(LengthUnit.Millimeter)); - unitConverter.SetConversionFunction(LengthUnit.Millimeter, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Nanometer, q => q.ToUnit(LengthUnit.Nanometer)); - unitConverter.SetConversionFunction(LengthUnit.Nanometer, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.NauticalMile, q => q.ToUnit(LengthUnit.NauticalMile)); - unitConverter.SetConversionFunction(LengthUnit.NauticalMile, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Parsec, q => q.ToUnit(LengthUnit.Parsec)); - unitConverter.SetConversionFunction(LengthUnit.Parsec, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.PrinterPica, q => q.ToUnit(LengthUnit.PrinterPica)); - unitConverter.SetConversionFunction(LengthUnit.PrinterPica, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.PrinterPoint, q => q.ToUnit(LengthUnit.PrinterPoint)); - unitConverter.SetConversionFunction(LengthUnit.PrinterPoint, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Shackle, q => q.ToUnit(LengthUnit.Shackle)); - unitConverter.SetConversionFunction(LengthUnit.Shackle, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.SolarRadius, q => q.ToUnit(LengthUnit.SolarRadius)); - unitConverter.SetConversionFunction(LengthUnit.SolarRadius, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Twip, q => q.ToUnit(LengthUnit.Twip)); - unitConverter.SetConversionFunction(LengthUnit.Twip, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.UsSurveyFoot, q => q.ToUnit(LengthUnit.UsSurveyFoot)); - unitConverter.SetConversionFunction(LengthUnit.UsSurveyFoot, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Yard, q => q.ToUnit(LengthUnit.Yard)); - unitConverter.SetConversionFunction(LengthUnit.Yard, Length.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Level.BaseUnit, Level.BaseUnit, q => q); - unitConverter.SetConversionFunction(Level.BaseUnit, LevelUnit.Neper, q => q.ToUnit(LevelUnit.Neper)); - unitConverter.SetConversionFunction(LevelUnit.Neper, Level.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.GramPerCentimeter, q => q.ToUnit(LinearDensityUnit.GramPerCentimeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.GramPerCentimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.GramPerMeter, q => q.ToUnit(LinearDensityUnit.GramPerMeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.GramPerMeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.GramPerMillimeter, q => q.ToUnit(LinearDensityUnit.GramPerMillimeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.GramPerMillimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.KilogramPerCentimeter, q => q.ToUnit(LinearDensityUnit.KilogramPerCentimeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.KilogramPerCentimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensity.BaseUnit, q => q); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.KilogramPerMillimeter, q => q.ToUnit(LinearDensityUnit.KilogramPerMillimeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.KilogramPerMillimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MicrogramPerCentimeter, q => q.ToUnit(LinearDensityUnit.MicrogramPerCentimeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.MicrogramPerCentimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MicrogramPerMeter, q => q.ToUnit(LinearDensityUnit.MicrogramPerMeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.MicrogramPerMeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MicrogramPerMillimeter, q => q.ToUnit(LinearDensityUnit.MicrogramPerMillimeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.MicrogramPerMillimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MilligramPerCentimeter, q => q.ToUnit(LinearDensityUnit.MilligramPerCentimeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.MilligramPerCentimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MilligramPerMeter, q => q.ToUnit(LinearDensityUnit.MilligramPerMeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.MilligramPerMeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MilligramPerMillimeter, q => q.ToUnit(LinearDensityUnit.MilligramPerMillimeter)); - unitConverter.SetConversionFunction(LinearDensityUnit.MilligramPerMillimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.PoundPerFoot, q => q.ToUnit(LinearDensityUnit.PoundPerFoot)); - unitConverter.SetConversionFunction(LinearDensityUnit.PoundPerFoot, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.PoundPerInch, q => q.ToUnit(LinearDensityUnit.PoundPerInch)); - unitConverter.SetConversionFunction(LinearDensityUnit.PoundPerInch, LinearDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerCentimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerFoot)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerInch, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerInch)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerMeter, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerMeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerMeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerMillimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerCentimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerFoot)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerInch, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerInch)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerMeter, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerMeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerMeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerMillimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerCentimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerFoot)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerInch, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerInch)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerMeter, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerMeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerMeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerMillimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerCentimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerFoot)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerInch, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerInch)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerMeter, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerMeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerMeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerMillimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.WattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.WattPerCentimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.WattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.WattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.WattPerFoot)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.WattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.WattPerInch, q => q.ToUnit(LinearPowerDensityUnit.WattPerInch)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.WattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensity.BaseUnit, q => q); - unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.WattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.WattPerMillimeter)); - unitConverter.SetConversionFunction(LinearPowerDensityUnit.WattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Decawatt, q => q.ToUnit(LuminosityUnit.Decawatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Decawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Deciwatt, q => q.ToUnit(LuminosityUnit.Deciwatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Deciwatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Femtowatt, q => q.ToUnit(LuminosityUnit.Femtowatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Femtowatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Gigawatt, q => q.ToUnit(LuminosityUnit.Gigawatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Gigawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Kilowatt, q => q.ToUnit(LuminosityUnit.Kilowatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Kilowatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Megawatt, q => q.ToUnit(LuminosityUnit.Megawatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Megawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Microwatt, q => q.ToUnit(LuminosityUnit.Microwatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Microwatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Milliwatt, q => q.ToUnit(LuminosityUnit.Milliwatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Milliwatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Nanowatt, q => q.ToUnit(LuminosityUnit.Nanowatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Nanowatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Petawatt, q => q.ToUnit(LuminosityUnit.Petawatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Petawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Picowatt, q => q.ToUnit(LuminosityUnit.Picowatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Picowatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.SolarLuminosity, q => q.ToUnit(LuminosityUnit.SolarLuminosity)); - unitConverter.SetConversionFunction(LuminosityUnit.SolarLuminosity, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Terawatt, q => q.ToUnit(LuminosityUnit.Terawatt)); - unitConverter.SetConversionFunction(LuminosityUnit.Terawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Luminosity.BaseUnit, Luminosity.BaseUnit, q => q); - unitConverter.SetConversionFunction(LuminousFlux.BaseUnit, LuminousFlux.BaseUnit, q => q); - unitConverter.SetConversionFunction(LuminousIntensity.BaseUnit, LuminousIntensity.BaseUnit, q => q); - unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Gauss, q => q.ToUnit(MagneticFieldUnit.Gauss)); - unitConverter.SetConversionFunction(MagneticFieldUnit.Gauss, MagneticField.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Microtesla, q => q.ToUnit(MagneticFieldUnit.Microtesla)); - unitConverter.SetConversionFunction(MagneticFieldUnit.Microtesla, MagneticField.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Milligauss, q => q.ToUnit(MagneticFieldUnit.Milligauss)); - unitConverter.SetConversionFunction(MagneticFieldUnit.Milligauss, MagneticField.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Millitesla, q => q.ToUnit(MagneticFieldUnit.Millitesla)); - unitConverter.SetConversionFunction(MagneticFieldUnit.Millitesla, MagneticField.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Nanotesla, q => q.ToUnit(MagneticFieldUnit.Nanotesla)); - unitConverter.SetConversionFunction(MagneticFieldUnit.Nanotesla, MagneticField.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticField.BaseUnit, q => q); - unitConverter.SetConversionFunction(MagneticFlux.BaseUnit, MagneticFlux.BaseUnit, q => q); - unitConverter.SetConversionFunction(Magnetization.BaseUnit, Magnetization.BaseUnit, q => q); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Centigram, q => q.ToUnit(MassUnit.Centigram)); - unitConverter.SetConversionFunction(MassUnit.Centigram, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Decagram, q => q.ToUnit(MassUnit.Decagram)); - unitConverter.SetConversionFunction(MassUnit.Decagram, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Decigram, q => q.ToUnit(MassUnit.Decigram)); - unitConverter.SetConversionFunction(MassUnit.Decigram, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.EarthMass, q => q.ToUnit(MassUnit.EarthMass)); - unitConverter.SetConversionFunction(MassUnit.EarthMass, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Grain, q => q.ToUnit(MassUnit.Grain)); - unitConverter.SetConversionFunction(MassUnit.Grain, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Gram, q => q.ToUnit(MassUnit.Gram)); - unitConverter.SetConversionFunction(MassUnit.Gram, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Hectogram, q => q.ToUnit(MassUnit.Hectogram)); - unitConverter.SetConversionFunction(MassUnit.Hectogram, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, Mass.BaseUnit, q => q); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Kilopound, q => q.ToUnit(MassUnit.Kilopound)); - unitConverter.SetConversionFunction(MassUnit.Kilopound, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Kilotonne, q => q.ToUnit(MassUnit.Kilotonne)); - unitConverter.SetConversionFunction(MassUnit.Kilotonne, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.LongHundredweight, q => q.ToUnit(MassUnit.LongHundredweight)); - unitConverter.SetConversionFunction(MassUnit.LongHundredweight, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.LongTon, q => q.ToUnit(MassUnit.LongTon)); - unitConverter.SetConversionFunction(MassUnit.LongTon, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Megapound, q => q.ToUnit(MassUnit.Megapound)); - unitConverter.SetConversionFunction(MassUnit.Megapound, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Megatonne, q => q.ToUnit(MassUnit.Megatonne)); - unitConverter.SetConversionFunction(MassUnit.Megatonne, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Microgram, q => q.ToUnit(MassUnit.Microgram)); - unitConverter.SetConversionFunction(MassUnit.Microgram, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Milligram, q => q.ToUnit(MassUnit.Milligram)); - unitConverter.SetConversionFunction(MassUnit.Milligram, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Nanogram, q => q.ToUnit(MassUnit.Nanogram)); - unitConverter.SetConversionFunction(MassUnit.Nanogram, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Ounce, q => q.ToUnit(MassUnit.Ounce)); - unitConverter.SetConversionFunction(MassUnit.Ounce, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Pound, q => q.ToUnit(MassUnit.Pound)); - unitConverter.SetConversionFunction(MassUnit.Pound, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.ShortHundredweight, q => q.ToUnit(MassUnit.ShortHundredweight)); - unitConverter.SetConversionFunction(MassUnit.ShortHundredweight, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.ShortTon, q => q.ToUnit(MassUnit.ShortTon)); - unitConverter.SetConversionFunction(MassUnit.ShortTon, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Slug, q => q.ToUnit(MassUnit.Slug)); - unitConverter.SetConversionFunction(MassUnit.Slug, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.SolarMass, q => q.ToUnit(MassUnit.SolarMass)); - unitConverter.SetConversionFunction(MassUnit.SolarMass, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Stone, q => q.ToUnit(MassUnit.Stone)); - unitConverter.SetConversionFunction(MassUnit.Stone, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Tonne, q => q.ToUnit(MassUnit.Tonne)); - unitConverter.SetConversionFunction(MassUnit.Tonne, Mass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.CentigramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.CentigramPerDeciliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.CentigramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.CentigramPerLiter, q => q.ToUnit(MassConcentrationUnit.CentigramPerLiter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.CentigramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.CentigramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.CentigramPerMicroliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.CentigramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.CentigramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.CentigramPerMilliliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.CentigramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.DecigramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.DecigramPerDeciliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.DecigramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.DecigramPerLiter, q => q.ToUnit(MassConcentrationUnit.DecigramPerLiter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.DecigramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.DecigramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.DecigramPerMicroliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.DecigramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.DecigramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.DecigramPerMilliliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.DecigramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerCubicCentimeter, q => q.ToUnit(MassConcentrationUnit.GramPerCubicCentimeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerCubicCentimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerCubicMeter, q => q.ToUnit(MassConcentrationUnit.GramPerCubicMeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerCubicMeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerCubicMillimeter, q => q.ToUnit(MassConcentrationUnit.GramPerCubicMillimeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerCubicMillimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.GramPerDeciliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerLiter, q => q.ToUnit(MassConcentrationUnit.GramPerLiter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.GramPerMicroliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.GramPerMilliliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilogramPerCubicCentimeter, q => q.ToUnit(MassConcentrationUnit.KilogramPerCubicCentimeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.KilogramPerCubicCentimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentration.BaseUnit, q => q); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilogramPerCubicMillimeter, q => q.ToUnit(MassConcentrationUnit.KilogramPerCubicMillimeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.KilogramPerCubicMillimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilogramPerLiter, q => q.ToUnit(MassConcentrationUnit.KilogramPerLiter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.KilogramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilopoundPerCubicFoot, q => q.ToUnit(MassConcentrationUnit.KilopoundPerCubicFoot)); - unitConverter.SetConversionFunction(MassConcentrationUnit.KilopoundPerCubicFoot, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilopoundPerCubicInch, q => q.ToUnit(MassConcentrationUnit.KilopoundPerCubicInch)); - unitConverter.SetConversionFunction(MassConcentrationUnit.KilopoundPerCubicInch, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerCubicMeter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerCubicMeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerCubicMeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerDeciliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerLiter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerLiter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerMicroliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerMilliliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerCubicMeter, q => q.ToUnit(MassConcentrationUnit.MilligramPerCubicMeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerCubicMeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.MilligramPerDeciliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerLiter, q => q.ToUnit(MassConcentrationUnit.MilligramPerLiter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.MilligramPerMicroliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.MilligramPerMilliliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.NanogramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.NanogramPerDeciliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.NanogramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.NanogramPerLiter, q => q.ToUnit(MassConcentrationUnit.NanogramPerLiter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.NanogramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.NanogramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.NanogramPerMicroliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.NanogramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.NanogramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.NanogramPerMilliliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.NanogramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.OuncePerImperialGallon, q => q.ToUnit(MassConcentrationUnit.OuncePerImperialGallon)); - unitConverter.SetConversionFunction(MassConcentrationUnit.OuncePerImperialGallon, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.OuncePerUSGallon, q => q.ToUnit(MassConcentrationUnit.OuncePerUSGallon)); - unitConverter.SetConversionFunction(MassConcentrationUnit.OuncePerUSGallon, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PicogramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.PicogramPerDeciliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.PicogramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PicogramPerLiter, q => q.ToUnit(MassConcentrationUnit.PicogramPerLiter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.PicogramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PicogramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.PicogramPerMicroliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.PicogramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PicogramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.PicogramPerMilliliter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.PicogramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PoundPerCubicFoot, q => q.ToUnit(MassConcentrationUnit.PoundPerCubicFoot)); - unitConverter.SetConversionFunction(MassConcentrationUnit.PoundPerCubicFoot, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PoundPerCubicInch, q => q.ToUnit(MassConcentrationUnit.PoundPerCubicInch)); - unitConverter.SetConversionFunction(MassConcentrationUnit.PoundPerCubicInch, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PoundPerImperialGallon, q => q.ToUnit(MassConcentrationUnit.PoundPerImperialGallon)); - unitConverter.SetConversionFunction(MassConcentrationUnit.PoundPerImperialGallon, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PoundPerUSGallon, q => q.ToUnit(MassConcentrationUnit.PoundPerUSGallon)); - unitConverter.SetConversionFunction(MassConcentrationUnit.PoundPerUSGallon, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.SlugPerCubicFoot, q => q.ToUnit(MassConcentrationUnit.SlugPerCubicFoot)); - unitConverter.SetConversionFunction(MassConcentrationUnit.SlugPerCubicFoot, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.TonnePerCubicCentimeter, q => q.ToUnit(MassConcentrationUnit.TonnePerCubicCentimeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.TonnePerCubicCentimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.TonnePerCubicMeter, q => q.ToUnit(MassConcentrationUnit.TonnePerCubicMeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.TonnePerCubicMeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.TonnePerCubicMillimeter, q => q.ToUnit(MassConcentrationUnit.TonnePerCubicMillimeter)); - unitConverter.SetConversionFunction(MassConcentrationUnit.TonnePerCubicMillimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.CentigramPerDay, q => q.ToUnit(MassFlowUnit.CentigramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.CentigramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.CentigramPerSecond, q => q.ToUnit(MassFlowUnit.CentigramPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.CentigramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.DecagramPerDay, q => q.ToUnit(MassFlowUnit.DecagramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.DecagramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.DecagramPerSecond, q => q.ToUnit(MassFlowUnit.DecagramPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.DecagramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.DecigramPerDay, q => q.ToUnit(MassFlowUnit.DecigramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.DecigramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.DecigramPerSecond, q => q.ToUnit(MassFlowUnit.DecigramPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.DecigramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.GramPerDay, q => q.ToUnit(MassFlowUnit.GramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.GramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.GramPerHour, q => q.ToUnit(MassFlowUnit.GramPerHour)); - unitConverter.SetConversionFunction(MassFlowUnit.GramPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlow.BaseUnit, q => q); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.HectogramPerDay, q => q.ToUnit(MassFlowUnit.HectogramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.HectogramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.HectogramPerSecond, q => q.ToUnit(MassFlowUnit.HectogramPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.HectogramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.KilogramPerDay, q => q.ToUnit(MassFlowUnit.KilogramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.KilogramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.KilogramPerHour, q => q.ToUnit(MassFlowUnit.KilogramPerHour)); - unitConverter.SetConversionFunction(MassFlowUnit.KilogramPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.KilogramPerMinute, q => q.ToUnit(MassFlowUnit.KilogramPerMinute)); - unitConverter.SetConversionFunction(MassFlowUnit.KilogramPerMinute, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.KilogramPerSecond, q => q.ToUnit(MassFlowUnit.KilogramPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.KilogramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegagramPerDay, q => q.ToUnit(MassFlowUnit.MegagramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.MegagramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegapoundPerDay, q => q.ToUnit(MassFlowUnit.MegapoundPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.MegapoundPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegapoundPerHour, q => q.ToUnit(MassFlowUnit.MegapoundPerHour)); - unitConverter.SetConversionFunction(MassFlowUnit.MegapoundPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegapoundPerMinute, q => q.ToUnit(MassFlowUnit.MegapoundPerMinute)); - unitConverter.SetConversionFunction(MassFlowUnit.MegapoundPerMinute, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegapoundPerSecond, q => q.ToUnit(MassFlowUnit.MegapoundPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.MegapoundPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MicrogramPerDay, q => q.ToUnit(MassFlowUnit.MicrogramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.MicrogramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MicrogramPerSecond, q => q.ToUnit(MassFlowUnit.MicrogramPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.MicrogramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MilligramPerDay, q => q.ToUnit(MassFlowUnit.MilligramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.MilligramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MilligramPerSecond, q => q.ToUnit(MassFlowUnit.MilligramPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.MilligramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.NanogramPerDay, q => q.ToUnit(MassFlowUnit.NanogramPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.NanogramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.NanogramPerSecond, q => q.ToUnit(MassFlowUnit.NanogramPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.NanogramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.PoundPerDay, q => q.ToUnit(MassFlowUnit.PoundPerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.PoundPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.PoundPerHour, q => q.ToUnit(MassFlowUnit.PoundPerHour)); - unitConverter.SetConversionFunction(MassFlowUnit.PoundPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.PoundPerMinute, q => q.ToUnit(MassFlowUnit.PoundPerMinute)); - unitConverter.SetConversionFunction(MassFlowUnit.PoundPerMinute, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.PoundPerSecond, q => q.ToUnit(MassFlowUnit.PoundPerSecond)); - unitConverter.SetConversionFunction(MassFlowUnit.PoundPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.ShortTonPerHour, q => q.ToUnit(MassFlowUnit.ShortTonPerHour)); - unitConverter.SetConversionFunction(MassFlowUnit.ShortTonPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.TonnePerDay, q => q.ToUnit(MassFlowUnit.TonnePerDay)); - unitConverter.SetConversionFunction(MassFlowUnit.TonnePerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.TonnePerHour, q => q.ToUnit(MassFlowUnit.TonnePerHour)); - unitConverter.SetConversionFunction(MassFlowUnit.TonnePerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerHourPerSquareCentimeter, q => q.ToUnit(MassFluxUnit.GramPerHourPerSquareCentimeter)); - unitConverter.SetConversionFunction(MassFluxUnit.GramPerHourPerSquareCentimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerHourPerSquareMeter, q => q.ToUnit(MassFluxUnit.GramPerHourPerSquareMeter)); - unitConverter.SetConversionFunction(MassFluxUnit.GramPerHourPerSquareMeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerHourPerSquareMillimeter, q => q.ToUnit(MassFluxUnit.GramPerHourPerSquareMillimeter)); - unitConverter.SetConversionFunction(MassFluxUnit.GramPerHourPerSquareMillimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerSecondPerSquareCentimeter, q => q.ToUnit(MassFluxUnit.GramPerSecondPerSquareCentimeter)); - unitConverter.SetConversionFunction(MassFluxUnit.GramPerSecondPerSquareCentimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerSecondPerSquareMeter, q => q.ToUnit(MassFluxUnit.GramPerSecondPerSquareMeter)); - unitConverter.SetConversionFunction(MassFluxUnit.GramPerSecondPerSquareMeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerSecondPerSquareMillimeter, q => q.ToUnit(MassFluxUnit.GramPerSecondPerSquareMillimeter)); - unitConverter.SetConversionFunction(MassFluxUnit.GramPerSecondPerSquareMillimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerHourPerSquareCentimeter, q => q.ToUnit(MassFluxUnit.KilogramPerHourPerSquareCentimeter)); - unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerHourPerSquareCentimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerHourPerSquareMeter, q => q.ToUnit(MassFluxUnit.KilogramPerHourPerSquareMeter)); - unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerHourPerSquareMeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerHourPerSquareMillimeter, q => q.ToUnit(MassFluxUnit.KilogramPerHourPerSquareMillimeter)); - unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerHourPerSquareMillimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerSecondPerSquareCentimeter, q => q.ToUnit(MassFluxUnit.KilogramPerSecondPerSquareCentimeter)); - unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerSecondPerSquareCentimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFlux.BaseUnit, q => q); - unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerSecondPerSquareMillimeter, q => q.ToUnit(MassFluxUnit.KilogramPerSecondPerSquareMillimeter)); - unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerSecondPerSquareMillimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.CentigramPerGram, q => q.ToUnit(MassFractionUnit.CentigramPerGram)); - unitConverter.SetConversionFunction(MassFractionUnit.CentigramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.CentigramPerKilogram, q => q.ToUnit(MassFractionUnit.CentigramPerKilogram)); - unitConverter.SetConversionFunction(MassFractionUnit.CentigramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.DecagramPerGram, q => q.ToUnit(MassFractionUnit.DecagramPerGram)); - unitConverter.SetConversionFunction(MassFractionUnit.DecagramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.DecagramPerKilogram, q => q.ToUnit(MassFractionUnit.DecagramPerKilogram)); - unitConverter.SetConversionFunction(MassFractionUnit.DecagramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.DecigramPerGram, q => q.ToUnit(MassFractionUnit.DecigramPerGram)); - unitConverter.SetConversionFunction(MassFractionUnit.DecigramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.DecigramPerKilogram, q => q.ToUnit(MassFractionUnit.DecigramPerKilogram)); - unitConverter.SetConversionFunction(MassFractionUnit.DecigramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFraction.BaseUnit, q => q); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.GramPerGram, q => q.ToUnit(MassFractionUnit.GramPerGram)); - unitConverter.SetConversionFunction(MassFractionUnit.GramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.GramPerKilogram, q => q.ToUnit(MassFractionUnit.GramPerKilogram)); - unitConverter.SetConversionFunction(MassFractionUnit.GramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.HectogramPerGram, q => q.ToUnit(MassFractionUnit.HectogramPerGram)); - unitConverter.SetConversionFunction(MassFractionUnit.HectogramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.HectogramPerKilogram, q => q.ToUnit(MassFractionUnit.HectogramPerKilogram)); - unitConverter.SetConversionFunction(MassFractionUnit.HectogramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.KilogramPerGram, q => q.ToUnit(MassFractionUnit.KilogramPerGram)); - unitConverter.SetConversionFunction(MassFractionUnit.KilogramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.KilogramPerKilogram, q => q.ToUnit(MassFractionUnit.KilogramPerKilogram)); - unitConverter.SetConversionFunction(MassFractionUnit.KilogramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.MicrogramPerGram, q => q.ToUnit(MassFractionUnit.MicrogramPerGram)); - unitConverter.SetConversionFunction(MassFractionUnit.MicrogramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.MicrogramPerKilogram, q => q.ToUnit(MassFractionUnit.MicrogramPerKilogram)); - unitConverter.SetConversionFunction(MassFractionUnit.MicrogramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.MilligramPerGram, q => q.ToUnit(MassFractionUnit.MilligramPerGram)); - unitConverter.SetConversionFunction(MassFractionUnit.MilligramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.MilligramPerKilogram, q => q.ToUnit(MassFractionUnit.MilligramPerKilogram)); - unitConverter.SetConversionFunction(MassFractionUnit.MilligramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.NanogramPerGram, q => q.ToUnit(MassFractionUnit.NanogramPerGram)); - unitConverter.SetConversionFunction(MassFractionUnit.NanogramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.NanogramPerKilogram, q => q.ToUnit(MassFractionUnit.NanogramPerKilogram)); - unitConverter.SetConversionFunction(MassFractionUnit.NanogramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.PartPerBillion, q => q.ToUnit(MassFractionUnit.PartPerBillion)); - unitConverter.SetConversionFunction(MassFractionUnit.PartPerBillion, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.PartPerMillion, q => q.ToUnit(MassFractionUnit.PartPerMillion)); - unitConverter.SetConversionFunction(MassFractionUnit.PartPerMillion, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.PartPerThousand, q => q.ToUnit(MassFractionUnit.PartPerThousand)); - unitConverter.SetConversionFunction(MassFractionUnit.PartPerThousand, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.PartPerTrillion, q => q.ToUnit(MassFractionUnit.PartPerTrillion)); - unitConverter.SetConversionFunction(MassFractionUnit.PartPerTrillion, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.Percent, q => q.ToUnit(MassFractionUnit.Percent)); - unitConverter.SetConversionFunction(MassFractionUnit.Percent, MassFraction.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.GramSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.GramSquareCentimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.GramSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.GramSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.GramSquareDecimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.GramSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.GramSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.GramSquareMeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.GramSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.GramSquareMillimeter, q => q.ToUnit(MassMomentOfInertiaUnit.GramSquareMillimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.GramSquareMillimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilogramSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilogramSquareCentimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilogramSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilogramSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilogramSquareDecimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilogramSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertia.BaseUnit, q => q); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilogramSquareMillimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilogramSquareMillimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilogramSquareMillimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilotonneSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilotonneSquareCentimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilotonneSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilotonneSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilotonneSquareDecimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilotonneSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilotonneSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilotonneSquareMeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilotonneSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilotonneSquareMilimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilotonneSquareMilimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilotonneSquareMilimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MegatonneSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MegatonneSquareCentimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MegatonneSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MegatonneSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MegatonneSquareDecimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MegatonneSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MegatonneSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.MegatonneSquareMeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MegatonneSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MegatonneSquareMilimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MegatonneSquareMilimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MegatonneSquareMilimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MilligramSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MilligramSquareCentimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MilligramSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MilligramSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MilligramSquareDecimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MilligramSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MilligramSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.MilligramSquareMeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MilligramSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MilligramSquareMillimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MilligramSquareMillimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MilligramSquareMillimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.PoundSquareFoot, q => q.ToUnit(MassMomentOfInertiaUnit.PoundSquareFoot)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.PoundSquareFoot, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.PoundSquareInch, q => q.ToUnit(MassMomentOfInertiaUnit.PoundSquareInch)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.PoundSquareInch, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.SlugSquareFoot, q => q.ToUnit(MassMomentOfInertiaUnit.SlugSquareFoot)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.SlugSquareFoot, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.SlugSquareInch, q => q.ToUnit(MassMomentOfInertiaUnit.SlugSquareInch)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.SlugSquareInch, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.TonneSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.TonneSquareCentimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.TonneSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.TonneSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.TonneSquareDecimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.TonneSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.TonneSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.TonneSquareMeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.TonneSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.TonneSquareMilimeter, q => q.ToUnit(MassMomentOfInertiaUnit.TonneSquareMilimeter)); - unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.TonneSquareMilimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarEnergy.BaseUnit, MolarEnergy.BaseUnit, q => q); - unitConverter.SetConversionFunction(MolarEnergy.BaseUnit, MolarEnergyUnit.KilojoulePerMole, q => q.ToUnit(MolarEnergyUnit.KilojoulePerMole)); - unitConverter.SetConversionFunction(MolarEnergyUnit.KilojoulePerMole, MolarEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarEnergy.BaseUnit, MolarEnergyUnit.MegajoulePerMole, q => q.ToUnit(MolarEnergyUnit.MegajoulePerMole)); - unitConverter.SetConversionFunction(MolarEnergyUnit.MegajoulePerMole, MolarEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarEntropy.BaseUnit, MolarEntropy.BaseUnit, q => q); - unitConverter.SetConversionFunction(MolarEntropy.BaseUnit, MolarEntropyUnit.KilojoulePerMoleKelvin, q => q.ToUnit(MolarEntropyUnit.KilojoulePerMoleKelvin)); - unitConverter.SetConversionFunction(MolarEntropyUnit.KilojoulePerMoleKelvin, MolarEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarEntropy.BaseUnit, MolarEntropyUnit.MegajoulePerMoleKelvin, q => q.ToUnit(MolarEntropyUnit.MegajoulePerMoleKelvin)); - unitConverter.SetConversionFunction(MolarEntropyUnit.MegajoulePerMoleKelvin, MolarEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.CentimolesPerLiter, q => q.ToUnit(MolarityUnit.CentimolesPerLiter)); - unitConverter.SetConversionFunction(MolarityUnit.CentimolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.DecimolesPerLiter, q => q.ToUnit(MolarityUnit.DecimolesPerLiter)); - unitConverter.SetConversionFunction(MolarityUnit.DecimolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.MicromolesPerLiter, q => q.ToUnit(MolarityUnit.MicromolesPerLiter)); - unitConverter.SetConversionFunction(MolarityUnit.MicromolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.MillimolesPerLiter, q => q.ToUnit(MolarityUnit.MillimolesPerLiter)); - unitConverter.SetConversionFunction(MolarityUnit.MillimolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Molarity.BaseUnit, Molarity.BaseUnit, q => q); - unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.MolesPerLiter, q => q.ToUnit(MolarityUnit.MolesPerLiter)); - unitConverter.SetConversionFunction(MolarityUnit.MolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.NanomolesPerLiter, q => q.ToUnit(MolarityUnit.NanomolesPerLiter)); - unitConverter.SetConversionFunction(MolarityUnit.NanomolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Molarity.BaseUnit, MolarityUnit.PicomolesPerLiter, q => q.ToUnit(MolarityUnit.PicomolesPerLiter)); - unitConverter.SetConversionFunction(MolarityUnit.PicomolesPerLiter, Molarity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.CentigramPerMole, q => q.ToUnit(MolarMassUnit.CentigramPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.CentigramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.DecagramPerMole, q => q.ToUnit(MolarMassUnit.DecagramPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.DecagramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.DecigramPerMole, q => q.ToUnit(MolarMassUnit.DecigramPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.DecigramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.GramPerMole, q => q.ToUnit(MolarMassUnit.GramPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.GramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.HectogramPerMole, q => q.ToUnit(MolarMassUnit.HectogramPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.HectogramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMass.BaseUnit, q => q); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.KilopoundPerMole, q => q.ToUnit(MolarMassUnit.KilopoundPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.KilopoundPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.MegapoundPerMole, q => q.ToUnit(MolarMassUnit.MegapoundPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.MegapoundPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.MicrogramPerMole, q => q.ToUnit(MolarMassUnit.MicrogramPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.MicrogramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.MilligramPerMole, q => q.ToUnit(MolarMassUnit.MilligramPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.MilligramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.NanogramPerMole, q => q.ToUnit(MolarMassUnit.NanogramPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.NanogramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.PoundPerMole, q => q.ToUnit(MolarMassUnit.PoundPerMole)); - unitConverter.SetConversionFunction(MolarMassUnit.PoundPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Permeability.BaseUnit, Permeability.BaseUnit, q => q); - unitConverter.SetConversionFunction(Permittivity.BaseUnit, Permittivity.BaseUnit, q => q); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.BoilerHorsepower, q => q.ToUnit(PowerUnit.BoilerHorsepower)); - unitConverter.SetConversionFunction(PowerUnit.BoilerHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.BritishThermalUnitPerHour, q => q.ToUnit(PowerUnit.BritishThermalUnitPerHour)); - unitConverter.SetConversionFunction(PowerUnit.BritishThermalUnitPerHour, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Decawatt, q => q.ToUnit(PowerUnit.Decawatt)); - unitConverter.SetConversionFunction(PowerUnit.Decawatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Deciwatt, q => q.ToUnit(PowerUnit.Deciwatt)); - unitConverter.SetConversionFunction(PowerUnit.Deciwatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.ElectricalHorsepower, q => q.ToUnit(PowerUnit.ElectricalHorsepower)); - unitConverter.SetConversionFunction(PowerUnit.ElectricalHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Femtowatt, q => q.ToUnit(PowerUnit.Femtowatt)); - unitConverter.SetConversionFunction(PowerUnit.Femtowatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.GigajoulePerHour, q => q.ToUnit(PowerUnit.GigajoulePerHour)); - unitConverter.SetConversionFunction(PowerUnit.GigajoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Gigawatt, q => q.ToUnit(PowerUnit.Gigawatt)); - unitConverter.SetConversionFunction(PowerUnit.Gigawatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.HydraulicHorsepower, q => q.ToUnit(PowerUnit.HydraulicHorsepower)); - unitConverter.SetConversionFunction(PowerUnit.HydraulicHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.JoulePerHour, q => q.ToUnit(PowerUnit.JoulePerHour)); - unitConverter.SetConversionFunction(PowerUnit.JoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.KilobritishThermalUnitPerHour, q => q.ToUnit(PowerUnit.KilobritishThermalUnitPerHour)); - unitConverter.SetConversionFunction(PowerUnit.KilobritishThermalUnitPerHour, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.KilojoulePerHour, q => q.ToUnit(PowerUnit.KilojoulePerHour)); - unitConverter.SetConversionFunction(PowerUnit.KilojoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Kilowatt, q => q.ToUnit(PowerUnit.Kilowatt)); - unitConverter.SetConversionFunction(PowerUnit.Kilowatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.MechanicalHorsepower, q => q.ToUnit(PowerUnit.MechanicalHorsepower)); - unitConverter.SetConversionFunction(PowerUnit.MechanicalHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.MegajoulePerHour, q => q.ToUnit(PowerUnit.MegajoulePerHour)); - unitConverter.SetConversionFunction(PowerUnit.MegajoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Megawatt, q => q.ToUnit(PowerUnit.Megawatt)); - unitConverter.SetConversionFunction(PowerUnit.Megawatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.MetricHorsepower, q => q.ToUnit(PowerUnit.MetricHorsepower)); - unitConverter.SetConversionFunction(PowerUnit.MetricHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Microwatt, q => q.ToUnit(PowerUnit.Microwatt)); - unitConverter.SetConversionFunction(PowerUnit.Microwatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.MillijoulePerHour, q => q.ToUnit(PowerUnit.MillijoulePerHour)); - unitConverter.SetConversionFunction(PowerUnit.MillijoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Milliwatt, q => q.ToUnit(PowerUnit.Milliwatt)); - unitConverter.SetConversionFunction(PowerUnit.Milliwatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Nanowatt, q => q.ToUnit(PowerUnit.Nanowatt)); - unitConverter.SetConversionFunction(PowerUnit.Nanowatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Petawatt, q => q.ToUnit(PowerUnit.Petawatt)); - unitConverter.SetConversionFunction(PowerUnit.Petawatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Picowatt, q => q.ToUnit(PowerUnit.Picowatt)); - unitConverter.SetConversionFunction(PowerUnit.Picowatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Terawatt, q => q.ToUnit(PowerUnit.Terawatt)); - unitConverter.SetConversionFunction(PowerUnit.Terawatt, Power.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Power.BaseUnit, Power.BaseUnit, q => q); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DecawattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.DecawattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.DecawattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DecawattPerCubicInch, q => q.ToUnit(PowerDensityUnit.DecawattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.DecawattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DecawattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.DecawattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.DecawattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DecawattPerLiter, q => q.ToUnit(PowerDensityUnit.DecawattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.DecawattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DeciwattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.DeciwattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.DeciwattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DeciwattPerCubicInch, q => q.ToUnit(PowerDensityUnit.DeciwattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.DeciwattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DeciwattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.DeciwattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.DeciwattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DeciwattPerLiter, q => q.ToUnit(PowerDensityUnit.DeciwattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.DeciwattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.GigawattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.GigawattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.GigawattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.GigawattPerCubicInch, q => q.ToUnit(PowerDensityUnit.GigawattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.GigawattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.GigawattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.GigawattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.GigawattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.GigawattPerLiter, q => q.ToUnit(PowerDensityUnit.GigawattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.GigawattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.KilowattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.KilowattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.KilowattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.KilowattPerCubicInch, q => q.ToUnit(PowerDensityUnit.KilowattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.KilowattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.KilowattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.KilowattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.KilowattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.KilowattPerLiter, q => q.ToUnit(PowerDensityUnit.KilowattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.KilowattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MegawattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.MegawattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.MegawattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MegawattPerCubicInch, q => q.ToUnit(PowerDensityUnit.MegawattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.MegawattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MegawattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.MegawattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.MegawattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MegawattPerLiter, q => q.ToUnit(PowerDensityUnit.MegawattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.MegawattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MicrowattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.MicrowattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.MicrowattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MicrowattPerCubicInch, q => q.ToUnit(PowerDensityUnit.MicrowattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.MicrowattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MicrowattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.MicrowattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.MicrowattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MicrowattPerLiter, q => q.ToUnit(PowerDensityUnit.MicrowattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.MicrowattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MilliwattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.MilliwattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.MilliwattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MilliwattPerCubicInch, q => q.ToUnit(PowerDensityUnit.MilliwattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.MilliwattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MilliwattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.MilliwattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.MilliwattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MilliwattPerLiter, q => q.ToUnit(PowerDensityUnit.MilliwattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.MilliwattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.NanowattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.NanowattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.NanowattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.NanowattPerCubicInch, q => q.ToUnit(PowerDensityUnit.NanowattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.NanowattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.NanowattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.NanowattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.NanowattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.NanowattPerLiter, q => q.ToUnit(PowerDensityUnit.NanowattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.NanowattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.PicowattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.PicowattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.PicowattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.PicowattPerCubicInch, q => q.ToUnit(PowerDensityUnit.PicowattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.PicowattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.PicowattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.PicowattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.PicowattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.PicowattPerLiter, q => q.ToUnit(PowerDensityUnit.PicowattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.PicowattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.TerawattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.TerawattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.TerawattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.TerawattPerCubicInch, q => q.ToUnit(PowerDensityUnit.TerawattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.TerawattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.TerawattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.TerawattPerCubicMeter)); - unitConverter.SetConversionFunction(PowerDensityUnit.TerawattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.TerawattPerLiter, q => q.ToUnit(PowerDensityUnit.TerawattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.TerawattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.WattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.WattPerCubicFoot)); - unitConverter.SetConversionFunction(PowerDensityUnit.WattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.WattPerCubicInch, q => q.ToUnit(PowerDensityUnit.WattPerCubicInch)); - unitConverter.SetConversionFunction(PowerDensityUnit.WattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensity.BaseUnit, q => q); - unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.WattPerLiter, q => q.ToUnit(PowerDensityUnit.WattPerLiter)); - unitConverter.SetConversionFunction(PowerDensityUnit.WattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerRatio.BaseUnit, PowerRatioUnit.DecibelMilliwatt, q => q.ToUnit(PowerRatioUnit.DecibelMilliwatt)); - unitConverter.SetConversionFunction(PowerRatioUnit.DecibelMilliwatt, PowerRatio.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PowerRatio.BaseUnit, PowerRatio.BaseUnit, q => q); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Atmosphere, q => q.ToUnit(PressureUnit.Atmosphere)); - unitConverter.SetConversionFunction(PressureUnit.Atmosphere, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Bar, q => q.ToUnit(PressureUnit.Bar)); - unitConverter.SetConversionFunction(PressureUnit.Bar, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Centibar, q => q.ToUnit(PressureUnit.Centibar)); - unitConverter.SetConversionFunction(PressureUnit.Centibar, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Decapascal, q => q.ToUnit(PressureUnit.Decapascal)); - unitConverter.SetConversionFunction(PressureUnit.Decapascal, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Decibar, q => q.ToUnit(PressureUnit.Decibar)); - unitConverter.SetConversionFunction(PressureUnit.Decibar, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.DynePerSquareCentimeter, q => q.ToUnit(PressureUnit.DynePerSquareCentimeter)); - unitConverter.SetConversionFunction(PressureUnit.DynePerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.FootOfElevation, q => q.ToUnit(PressureUnit.FootOfElevation)); - unitConverter.SetConversionFunction(PressureUnit.FootOfElevation, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.FootOfHead, q => q.ToUnit(PressureUnit.FootOfHead)); - unitConverter.SetConversionFunction(PressureUnit.FootOfHead, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Gigapascal, q => q.ToUnit(PressureUnit.Gigapascal)); - unitConverter.SetConversionFunction(PressureUnit.Gigapascal, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Hectopascal, q => q.ToUnit(PressureUnit.Hectopascal)); - unitConverter.SetConversionFunction(PressureUnit.Hectopascal, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.InchOfMercury, q => q.ToUnit(PressureUnit.InchOfMercury)); - unitConverter.SetConversionFunction(PressureUnit.InchOfMercury, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.InchOfWaterColumn, q => q.ToUnit(PressureUnit.InchOfWaterColumn)); - unitConverter.SetConversionFunction(PressureUnit.InchOfWaterColumn, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Kilobar, q => q.ToUnit(PressureUnit.Kilobar)); - unitConverter.SetConversionFunction(PressureUnit.Kilobar, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilogramForcePerSquareCentimeter, q => q.ToUnit(PressureUnit.KilogramForcePerSquareCentimeter)); - unitConverter.SetConversionFunction(PressureUnit.KilogramForcePerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilogramForcePerSquareMeter, q => q.ToUnit(PressureUnit.KilogramForcePerSquareMeter)); - unitConverter.SetConversionFunction(PressureUnit.KilogramForcePerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilogramForcePerSquareMillimeter, q => q.ToUnit(PressureUnit.KilogramForcePerSquareMillimeter)); - unitConverter.SetConversionFunction(PressureUnit.KilogramForcePerSquareMillimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilonewtonPerSquareCentimeter, q => q.ToUnit(PressureUnit.KilonewtonPerSquareCentimeter)); - unitConverter.SetConversionFunction(PressureUnit.KilonewtonPerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilonewtonPerSquareMeter, q => q.ToUnit(PressureUnit.KilonewtonPerSquareMeter)); - unitConverter.SetConversionFunction(PressureUnit.KilonewtonPerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilonewtonPerSquareMillimeter, q => q.ToUnit(PressureUnit.KilonewtonPerSquareMillimeter)); - unitConverter.SetConversionFunction(PressureUnit.KilonewtonPerSquareMillimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Kilopascal, q => q.ToUnit(PressureUnit.Kilopascal)); - unitConverter.SetConversionFunction(PressureUnit.Kilopascal, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilopoundForcePerSquareFoot, q => q.ToUnit(PressureUnit.KilopoundForcePerSquareFoot)); - unitConverter.SetConversionFunction(PressureUnit.KilopoundForcePerSquareFoot, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.KilopoundForcePerSquareInch, q => q.ToUnit(PressureUnit.KilopoundForcePerSquareInch)); - unitConverter.SetConversionFunction(PressureUnit.KilopoundForcePerSquareInch, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Megabar, q => q.ToUnit(PressureUnit.Megabar)); - unitConverter.SetConversionFunction(PressureUnit.Megabar, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.MeganewtonPerSquareMeter, q => q.ToUnit(PressureUnit.MeganewtonPerSquareMeter)); - unitConverter.SetConversionFunction(PressureUnit.MeganewtonPerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Megapascal, q => q.ToUnit(PressureUnit.Megapascal)); - unitConverter.SetConversionFunction(PressureUnit.Megapascal, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.MeterOfElevation, q => q.ToUnit(PressureUnit.MeterOfElevation)); - unitConverter.SetConversionFunction(PressureUnit.MeterOfElevation, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.MeterOfHead, q => q.ToUnit(PressureUnit.MeterOfHead)); - unitConverter.SetConversionFunction(PressureUnit.MeterOfHead, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Microbar, q => q.ToUnit(PressureUnit.Microbar)); - unitConverter.SetConversionFunction(PressureUnit.Microbar, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Micropascal, q => q.ToUnit(PressureUnit.Micropascal)); - unitConverter.SetConversionFunction(PressureUnit.Micropascal, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Millibar, q => q.ToUnit(PressureUnit.Millibar)); - unitConverter.SetConversionFunction(PressureUnit.Millibar, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.MillimeterOfMercury, q => q.ToUnit(PressureUnit.MillimeterOfMercury)); - unitConverter.SetConversionFunction(PressureUnit.MillimeterOfMercury, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Millipascal, q => q.ToUnit(PressureUnit.Millipascal)); - unitConverter.SetConversionFunction(PressureUnit.Millipascal, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.NewtonPerSquareCentimeter, q => q.ToUnit(PressureUnit.NewtonPerSquareCentimeter)); - unitConverter.SetConversionFunction(PressureUnit.NewtonPerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.NewtonPerSquareMeter, q => q.ToUnit(PressureUnit.NewtonPerSquareMeter)); - unitConverter.SetConversionFunction(PressureUnit.NewtonPerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.NewtonPerSquareMillimeter, q => q.ToUnit(PressureUnit.NewtonPerSquareMillimeter)); - unitConverter.SetConversionFunction(PressureUnit.NewtonPerSquareMillimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, Pressure.BaseUnit, q => q); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.PoundForcePerSquareFoot, q => q.ToUnit(PressureUnit.PoundForcePerSquareFoot)); - unitConverter.SetConversionFunction(PressureUnit.PoundForcePerSquareFoot, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.PoundForcePerSquareInch, q => q.ToUnit(PressureUnit.PoundForcePerSquareInch)); - unitConverter.SetConversionFunction(PressureUnit.PoundForcePerSquareInch, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.PoundPerInchSecondSquared, q => q.ToUnit(PressureUnit.PoundPerInchSecondSquared)); - unitConverter.SetConversionFunction(PressureUnit.PoundPerInchSecondSquared, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.TechnicalAtmosphere, q => q.ToUnit(PressureUnit.TechnicalAtmosphere)); - unitConverter.SetConversionFunction(PressureUnit.TechnicalAtmosphere, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.TonneForcePerSquareCentimeter, q => q.ToUnit(PressureUnit.TonneForcePerSquareCentimeter)); - unitConverter.SetConversionFunction(PressureUnit.TonneForcePerSquareCentimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.TonneForcePerSquareMeter, q => q.ToUnit(PressureUnit.TonneForcePerSquareMeter)); - unitConverter.SetConversionFunction(PressureUnit.TonneForcePerSquareMeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.TonneForcePerSquareMillimeter, q => q.ToUnit(PressureUnit.TonneForcePerSquareMillimeter)); - unitConverter.SetConversionFunction(PressureUnit.TonneForcePerSquareMillimeter, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Pressure.BaseUnit, PressureUnit.Torr, q => q.ToUnit(PressureUnit.Torr)); - unitConverter.SetConversionFunction(PressureUnit.Torr, Pressure.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.AtmospherePerSecond, q => q.ToUnit(PressureChangeRateUnit.AtmospherePerSecond)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.AtmospherePerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.KilopascalPerMinute, q => q.ToUnit(PressureChangeRateUnit.KilopascalPerMinute)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.KilopascalPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.KilopascalPerSecond, q => q.ToUnit(PressureChangeRateUnit.KilopascalPerSecond)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.KilopascalPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, q => q.ToUnit(PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.KilopoundForcePerSquareInchPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, q => q.ToUnit(PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.KilopoundForcePerSquareInchPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.MegapascalPerMinute, q => q.ToUnit(PressureChangeRateUnit.MegapascalPerMinute)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.MegapascalPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.MegapascalPerSecond, q => q.ToUnit(PressureChangeRateUnit.MegapascalPerSecond)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.MegapascalPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, q => q.ToUnit(PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.MegapoundForcePerSquareInchPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, q => q.ToUnit(PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.MegapoundForcePerSquareInchPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.PascalPerMinute, q => q.ToUnit(PressureChangeRateUnit.PascalPerMinute)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.PascalPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRate.BaseUnit, q => q); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, q => q.ToUnit(PressureChangeRateUnit.PoundForcePerSquareInchPerMinute)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.PoundForcePerSquareInchPerMinute, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(PressureChangeRate.BaseUnit, PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, q => q.ToUnit(PressureChangeRateUnit.PoundForcePerSquareInchPerSecond)); - unitConverter.SetConversionFunction(PressureChangeRateUnit.PoundForcePerSquareInchPerSecond, PressureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Ratio.BaseUnit, Ratio.BaseUnit, q => q); - unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.PartPerBillion, q => q.ToUnit(RatioUnit.PartPerBillion)); - unitConverter.SetConversionFunction(RatioUnit.PartPerBillion, Ratio.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.PartPerMillion, q => q.ToUnit(RatioUnit.PartPerMillion)); - unitConverter.SetConversionFunction(RatioUnit.PartPerMillion, Ratio.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.PartPerThousand, q => q.ToUnit(RatioUnit.PartPerThousand)); - unitConverter.SetConversionFunction(RatioUnit.PartPerThousand, Ratio.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.PartPerTrillion, q => q.ToUnit(RatioUnit.PartPerTrillion)); - unitConverter.SetConversionFunction(RatioUnit.PartPerTrillion, Ratio.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.Percent, q => q.ToUnit(RatioUnit.Percent)); - unitConverter.SetConversionFunction(RatioUnit.Percent, Ratio.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RatioChangeRate.BaseUnit, RatioChangeRate.BaseUnit, q => q); - unitConverter.SetConversionFunction(RatioChangeRate.BaseUnit, RatioChangeRateUnit.PercentPerSecond, q => q.ToUnit(RatioChangeRateUnit.PercentPerSecond)); - unitConverter.SetConversionFunction(RatioChangeRateUnit.PercentPerSecond, RatioChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReactiveEnergy.BaseUnit, ReactiveEnergyUnit.KilovoltampereReactiveHour, q => q.ToUnit(ReactiveEnergyUnit.KilovoltampereReactiveHour)); - unitConverter.SetConversionFunction(ReactiveEnergyUnit.KilovoltampereReactiveHour, ReactiveEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReactiveEnergy.BaseUnit, ReactiveEnergyUnit.MegavoltampereReactiveHour, q => q.ToUnit(ReactiveEnergyUnit.MegavoltampereReactiveHour)); - unitConverter.SetConversionFunction(ReactiveEnergyUnit.MegavoltampereReactiveHour, ReactiveEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReactiveEnergy.BaseUnit, ReactiveEnergy.BaseUnit, q => q); - unitConverter.SetConversionFunction(ReactivePower.BaseUnit, ReactivePowerUnit.GigavoltampereReactive, q => q.ToUnit(ReactivePowerUnit.GigavoltampereReactive)); - unitConverter.SetConversionFunction(ReactivePowerUnit.GigavoltampereReactive, ReactivePower.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReactivePower.BaseUnit, ReactivePowerUnit.KilovoltampereReactive, q => q.ToUnit(ReactivePowerUnit.KilovoltampereReactive)); - unitConverter.SetConversionFunction(ReactivePowerUnit.KilovoltampereReactive, ReactivePower.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReactivePower.BaseUnit, ReactivePowerUnit.MegavoltampereReactive, q => q.ToUnit(ReactivePowerUnit.MegavoltampereReactive)); - unitConverter.SetConversionFunction(ReactivePowerUnit.MegavoltampereReactive, ReactivePower.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReactivePower.BaseUnit, ReactivePower.BaseUnit, q => q); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareCentimeter, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareCentimeter)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareCentimeter, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareDecimeter, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareDecimeter)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareDecimeter, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareFoot, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareFoot)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareFoot, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareInch, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareInch)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareInch, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareKilometer, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareKilometer)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareKilometer, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalArea.BaseUnit, q => q); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareMicrometer, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareMicrometer)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareMicrometer, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareMile, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareMile)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareMile, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareMillimeter, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareMillimeter)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareMillimeter, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareYard, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareYard)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareYard, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseUsSurveySquareFoot, q => q.ToUnit(ReciprocalAreaUnit.InverseUsSurveySquareFoot)); - unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseUsSurveySquareFoot, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseCentimeter, q => q.ToUnit(ReciprocalLengthUnit.InverseCentimeter)); - unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseCentimeter, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseFoot, q => q.ToUnit(ReciprocalLengthUnit.InverseFoot)); - unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseFoot, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseInch, q => q.ToUnit(ReciprocalLengthUnit.InverseInch)); - unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseInch, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLength.BaseUnit, q => q); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseMicroinch, q => q.ToUnit(ReciprocalLengthUnit.InverseMicroinch)); - unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseMicroinch, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseMil, q => q.ToUnit(ReciprocalLengthUnit.InverseMil)); - unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseMil, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseMile, q => q.ToUnit(ReciprocalLengthUnit.InverseMile)); - unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseMile, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseMillimeter, q => q.ToUnit(ReciprocalLengthUnit.InverseMillimeter)); - unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseMillimeter, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseUsSurveyFoot, q => q.ToUnit(ReciprocalLengthUnit.InverseUsSurveyFoot)); - unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseUsSurveyFoot, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseYard, q => q.ToUnit(ReciprocalLengthUnit.InverseYard)); - unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseYard, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RelativeHumidity.BaseUnit, RelativeHumidity.BaseUnit, q => q); - unitConverter.SetConversionFunction(RotationalAcceleration.BaseUnit, RotationalAccelerationUnit.DegreePerSecondSquared, q => q.ToUnit(RotationalAccelerationUnit.DegreePerSecondSquared)); - unitConverter.SetConversionFunction(RotationalAccelerationUnit.DegreePerSecondSquared, RotationalAcceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalAcceleration.BaseUnit, RotationalAcceleration.BaseUnit, q => q); - unitConverter.SetConversionFunction(RotationalAcceleration.BaseUnit, RotationalAccelerationUnit.RevolutionPerMinutePerSecond, q => q.ToUnit(RotationalAccelerationUnit.RevolutionPerMinutePerSecond)); - unitConverter.SetConversionFunction(RotationalAccelerationUnit.RevolutionPerMinutePerSecond, RotationalAcceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalAcceleration.BaseUnit, RotationalAccelerationUnit.RevolutionPerSecondSquared, q => q.ToUnit(RotationalAccelerationUnit.RevolutionPerSecondSquared)); - unitConverter.SetConversionFunction(RotationalAccelerationUnit.RevolutionPerSecondSquared, RotationalAcceleration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.CentiradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.CentiradianPerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.CentiradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.DeciradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.DeciradianPerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.DeciradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.DegreePerMinute, q => q.ToUnit(RotationalSpeedUnit.DegreePerMinute)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.DegreePerMinute, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.DegreePerSecond, q => q.ToUnit(RotationalSpeedUnit.DegreePerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.DegreePerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.MicrodegreePerSecond, q => q.ToUnit(RotationalSpeedUnit.MicrodegreePerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.MicrodegreePerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.MicroradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.MicroradianPerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.MicroradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.MillidegreePerSecond, q => q.ToUnit(RotationalSpeedUnit.MillidegreePerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.MillidegreePerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.MilliradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.MilliradianPerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.MilliradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.NanodegreePerSecond, q => q.ToUnit(RotationalSpeedUnit.NanodegreePerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.NanodegreePerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.NanoradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.NanoradianPerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.NanoradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeed.BaseUnit, q => q); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.RevolutionPerMinute, q => q.ToUnit(RotationalSpeedUnit.RevolutionPerMinute)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.RevolutionPerMinute, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.RevolutionPerSecond, q => q.ToUnit(RotationalSpeedUnit.RevolutionPerSecond)); - unitConverter.SetConversionFunction(RotationalSpeedUnit.RevolutionPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.CentinewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.CentinewtonMeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.CentinewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.CentinewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.CentinewtonMillimeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.CentinewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.CentinewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.CentinewtonMillimeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.CentinewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecanewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.DecanewtonMeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecanewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecanewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.DecanewtonMillimeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecanewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecanewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.DecanewtonMillimeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecanewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecinewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.DecinewtonMeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecinewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecinewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.DecinewtonMillimeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecinewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecinewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.DecinewtonMillimeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecinewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilonewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.KilonewtonMeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilonewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilonewtonMeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.KilonewtonMeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilonewtonMeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilonewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.KilonewtonMillimeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilonewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilonewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.KilonewtonMillimeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilonewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilopoundForceFootPerDegrees, q => q.ToUnit(RotationalStiffnessUnit.KilopoundForceFootPerDegrees)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilopoundForceFootPerDegrees, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MeganewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MeganewtonMeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MeganewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MeganewtonMeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.MeganewtonMeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MeganewtonMeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MeganewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MeganewtonMillimeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MeganewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MeganewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.MeganewtonMillimeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MeganewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MicronewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MicronewtonMeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MicronewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MicronewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MicronewtonMillimeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MicronewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MicronewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.MicronewtonMillimeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MicronewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MillinewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MillinewtonMeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MillinewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MillinewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MillinewtonMillimeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MillinewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MillinewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.MillinewtonMillimeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.MillinewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NanonewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.NanonewtonMeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.NanonewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NanonewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.NanonewtonMillimeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.NanonewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NanonewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.NanonewtonMillimeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.NanonewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.NewtonMeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.NewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffness.BaseUnit, q => q); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.NewtonMillimeterPerDegree)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.NewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.NewtonMillimeterPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.NewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.PoundForceFeetPerRadian, q => q.ToUnit(RotationalStiffnessUnit.PoundForceFeetPerRadian)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.PoundForceFeetPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.PoundForceFootPerDegrees, q => q.ToUnit(RotationalStiffnessUnit.PoundForceFootPerDegrees)); - unitConverter.SetConversionFunction(RotationalStiffnessUnit.PoundForceFootPerDegrees, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLengthUnit.KilonewtonMeterPerRadianPerMeter, q => q.ToUnit(RotationalStiffnessPerLengthUnit.KilonewtonMeterPerRadianPerMeter)); - unitConverter.SetConversionFunction(RotationalStiffnessPerLengthUnit.KilonewtonMeterPerRadianPerMeter, RotationalStiffnessPerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLengthUnit.KilopoundForceFootPerDegreesPerFoot, q => q.ToUnit(RotationalStiffnessPerLengthUnit.KilopoundForceFootPerDegreesPerFoot)); - unitConverter.SetConversionFunction(RotationalStiffnessPerLengthUnit.KilopoundForceFootPerDegreesPerFoot, RotationalStiffnessPerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLengthUnit.MeganewtonMeterPerRadianPerMeter, q => q.ToUnit(RotationalStiffnessPerLengthUnit.MeganewtonMeterPerRadianPerMeter)); - unitConverter.SetConversionFunction(RotationalStiffnessPerLengthUnit.MeganewtonMeterPerRadianPerMeter, RotationalStiffnessPerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLength.BaseUnit, q => q); - unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot, q => q.ToUnit(RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot)); - unitConverter.SetConversionFunction(RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot, RotationalStiffnessPerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Scalar.BaseUnit, Scalar.BaseUnit, q => q); - unitConverter.SetConversionFunction(SolidAngle.BaseUnit, SolidAngle.BaseUnit, q => q); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.BtuPerPound, q => q.ToUnit(SpecificEnergyUnit.BtuPerPound)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.BtuPerPound, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.CaloriePerGram, q => q.ToUnit(SpecificEnergyUnit.CaloriePerGram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.CaloriePerGram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.GigawattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.GigawattDayPerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.GigawattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.GigawattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.GigawattDayPerShortTon)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.GigawattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.GigawattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.GigawattDayPerTonne)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.GigawattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.GigawattHourPerKilogram, q => q.ToUnit(SpecificEnergyUnit.GigawattHourPerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.GigawattHourPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergy.BaseUnit, q => q); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilocaloriePerGram, q => q.ToUnit(SpecificEnergyUnit.KilocaloriePerGram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.KilocaloriePerGram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilojoulePerKilogram, q => q.ToUnit(SpecificEnergyUnit.KilojoulePerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.KilojoulePerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilowattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.KilowattDayPerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.KilowattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilowattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.KilowattDayPerShortTon)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.KilowattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilowattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.KilowattDayPerTonne)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.KilowattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilowattHourPerKilogram, q => q.ToUnit(SpecificEnergyUnit.KilowattHourPerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.KilowattHourPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegajoulePerKilogram, q => q.ToUnit(SpecificEnergyUnit.MegajoulePerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.MegajoulePerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegawattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.MegawattDayPerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.MegawattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegawattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.MegawattDayPerShortTon)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.MegawattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegawattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.MegawattDayPerTonne)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.MegawattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegawattHourPerKilogram, q => q.ToUnit(SpecificEnergyUnit.MegawattHourPerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.MegawattHourPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.TerawattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.TerawattDayPerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.TerawattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.TerawattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.TerawattDayPerShortTon)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.TerawattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.TerawattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.TerawattDayPerTonne)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.TerawattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.WattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.WattDayPerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.WattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.WattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.WattDayPerShortTon)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.WattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.WattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.WattDayPerTonne)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.WattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.WattHourPerKilogram, q => q.ToUnit(SpecificEnergyUnit.WattHourPerKilogram)); - unitConverter.SetConversionFunction(SpecificEnergyUnit.WattHourPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.BtuPerPoundFahrenheit, q => q.ToUnit(SpecificEntropyUnit.BtuPerPoundFahrenheit)); - unitConverter.SetConversionFunction(SpecificEntropyUnit.BtuPerPoundFahrenheit, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.CaloriePerGramKelvin, q => q.ToUnit(SpecificEntropyUnit.CaloriePerGramKelvin)); - unitConverter.SetConversionFunction(SpecificEntropyUnit.CaloriePerGramKelvin, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.JoulePerKilogramDegreeCelsius, q => q.ToUnit(SpecificEntropyUnit.JoulePerKilogramDegreeCelsius)); - unitConverter.SetConversionFunction(SpecificEntropyUnit.JoulePerKilogramDegreeCelsius, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropy.BaseUnit, q => q); - unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.KilocaloriePerGramKelvin, q => q.ToUnit(SpecificEntropyUnit.KilocaloriePerGramKelvin)); - unitConverter.SetConversionFunction(SpecificEntropyUnit.KilocaloriePerGramKelvin, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius, q => q.ToUnit(SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius)); - unitConverter.SetConversionFunction(SpecificEntropyUnit.KilojoulePerKilogramDegreeCelsius, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.KilojoulePerKilogramKelvin, q => q.ToUnit(SpecificEntropyUnit.KilojoulePerKilogramKelvin)); - unitConverter.SetConversionFunction(SpecificEntropyUnit.KilojoulePerKilogramKelvin, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius, q => q.ToUnit(SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius)); - unitConverter.SetConversionFunction(SpecificEntropyUnit.MegajoulePerKilogramDegreeCelsius, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificEntropy.BaseUnit, SpecificEntropyUnit.MegajoulePerKilogramKelvin, q => q.ToUnit(SpecificEntropyUnit.MegajoulePerKilogramKelvin)); - unitConverter.SetConversionFunction(SpecificEntropyUnit.MegajoulePerKilogramKelvin, SpecificEntropy.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificFuelConsumption.BaseUnit, SpecificFuelConsumption.BaseUnit, q => q); - unitConverter.SetConversionFunction(SpecificFuelConsumption.BaseUnit, SpecificFuelConsumptionUnit.KilogramPerKilogramForceHour, q => q.ToUnit(SpecificFuelConsumptionUnit.KilogramPerKilogramForceHour)); - unitConverter.SetConversionFunction(SpecificFuelConsumptionUnit.KilogramPerKilogramForceHour, SpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificFuelConsumption.BaseUnit, SpecificFuelConsumptionUnit.KilogramPerKiloNewtonSecond, q => q.ToUnit(SpecificFuelConsumptionUnit.KilogramPerKiloNewtonSecond)); - unitConverter.SetConversionFunction(SpecificFuelConsumptionUnit.KilogramPerKiloNewtonSecond, SpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificFuelConsumption.BaseUnit, SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour, q => q.ToUnit(SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour)); - unitConverter.SetConversionFunction(SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour, SpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificVolume.BaseUnit, SpecificVolumeUnit.CubicFootPerPound, q => q.ToUnit(SpecificVolumeUnit.CubicFootPerPound)); - unitConverter.SetConversionFunction(SpecificVolumeUnit.CubicFootPerPound, SpecificVolume.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificVolume.BaseUnit, SpecificVolume.BaseUnit, q => q); - unitConverter.SetConversionFunction(SpecificVolume.BaseUnit, SpecificVolumeUnit.MillicubicMeterPerKilogram, q => q.ToUnit(SpecificVolumeUnit.MillicubicMeterPerKilogram)); - unitConverter.SetConversionFunction(SpecificVolumeUnit.MillicubicMeterPerKilogram, SpecificVolume.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilogramForcePerCubicCentimeter, q => q.ToUnit(SpecificWeightUnit.KilogramForcePerCubicCentimeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.KilogramForcePerCubicCentimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilogramForcePerCubicMeter, q => q.ToUnit(SpecificWeightUnit.KilogramForcePerCubicMeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.KilogramForcePerCubicMeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilogramForcePerCubicMillimeter, q => q.ToUnit(SpecificWeightUnit.KilogramForcePerCubicMillimeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.KilogramForcePerCubicMillimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilonewtonPerCubicCentimeter, q => q.ToUnit(SpecificWeightUnit.KilonewtonPerCubicCentimeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.KilonewtonPerCubicCentimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilonewtonPerCubicMeter, q => q.ToUnit(SpecificWeightUnit.KilonewtonPerCubicMeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.KilonewtonPerCubicMeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilonewtonPerCubicMillimeter, q => q.ToUnit(SpecificWeightUnit.KilonewtonPerCubicMillimeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.KilonewtonPerCubicMillimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilopoundForcePerCubicFoot, q => q.ToUnit(SpecificWeightUnit.KilopoundForcePerCubicFoot)); - unitConverter.SetConversionFunction(SpecificWeightUnit.KilopoundForcePerCubicFoot, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilopoundForcePerCubicInch, q => q.ToUnit(SpecificWeightUnit.KilopoundForcePerCubicInch)); - unitConverter.SetConversionFunction(SpecificWeightUnit.KilopoundForcePerCubicInch, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.MeganewtonPerCubicMeter, q => q.ToUnit(SpecificWeightUnit.MeganewtonPerCubicMeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.MeganewtonPerCubicMeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.NewtonPerCubicCentimeter, q => q.ToUnit(SpecificWeightUnit.NewtonPerCubicCentimeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.NewtonPerCubicCentimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeight.BaseUnit, q => q); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.NewtonPerCubicMillimeter, q => q.ToUnit(SpecificWeightUnit.NewtonPerCubicMillimeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.NewtonPerCubicMillimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.PoundForcePerCubicFoot, q => q.ToUnit(SpecificWeightUnit.PoundForcePerCubicFoot)); - unitConverter.SetConversionFunction(SpecificWeightUnit.PoundForcePerCubicFoot, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.PoundForcePerCubicInch, q => q.ToUnit(SpecificWeightUnit.PoundForcePerCubicInch)); - unitConverter.SetConversionFunction(SpecificWeightUnit.PoundForcePerCubicInch, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.TonneForcePerCubicCentimeter, q => q.ToUnit(SpecificWeightUnit.TonneForcePerCubicCentimeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.TonneForcePerCubicCentimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.TonneForcePerCubicMeter, q => q.ToUnit(SpecificWeightUnit.TonneForcePerCubicMeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.TonneForcePerCubicMeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.TonneForcePerCubicMillimeter, q => q.ToUnit(SpecificWeightUnit.TonneForcePerCubicMillimeter)); - unitConverter.SetConversionFunction(SpecificWeightUnit.TonneForcePerCubicMillimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.CentimeterPerHour, q => q.ToUnit(SpeedUnit.CentimeterPerHour)); - unitConverter.SetConversionFunction(SpeedUnit.CentimeterPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.CentimeterPerMinute, q => q.ToUnit(SpeedUnit.CentimeterPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.CentimeterPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.CentimeterPerSecond, q => q.ToUnit(SpeedUnit.CentimeterPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.CentimeterPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.DecimeterPerMinute, q => q.ToUnit(SpeedUnit.DecimeterPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.DecimeterPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.DecimeterPerSecond, q => q.ToUnit(SpeedUnit.DecimeterPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.DecimeterPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.FootPerHour, q => q.ToUnit(SpeedUnit.FootPerHour)); - unitConverter.SetConversionFunction(SpeedUnit.FootPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.FootPerMinute, q => q.ToUnit(SpeedUnit.FootPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.FootPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.FootPerSecond, q => q.ToUnit(SpeedUnit.FootPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.FootPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.InchPerHour, q => q.ToUnit(SpeedUnit.InchPerHour)); - unitConverter.SetConversionFunction(SpeedUnit.InchPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.InchPerMinute, q => q.ToUnit(SpeedUnit.InchPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.InchPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.InchPerSecond, q => q.ToUnit(SpeedUnit.InchPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.InchPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.KilometerPerHour, q => q.ToUnit(SpeedUnit.KilometerPerHour)); - unitConverter.SetConversionFunction(SpeedUnit.KilometerPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.KilometerPerMinute, q => q.ToUnit(SpeedUnit.KilometerPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.KilometerPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.KilometerPerSecond, q => q.ToUnit(SpeedUnit.KilometerPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.KilometerPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.Knot, q => q.ToUnit(SpeedUnit.Knot)); - unitConverter.SetConversionFunction(SpeedUnit.Knot, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MeterPerHour, q => q.ToUnit(SpeedUnit.MeterPerHour)); - unitConverter.SetConversionFunction(SpeedUnit.MeterPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MeterPerMinute, q => q.ToUnit(SpeedUnit.MeterPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.MeterPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, Speed.BaseUnit, q => q); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MicrometerPerMinute, q => q.ToUnit(SpeedUnit.MicrometerPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.MicrometerPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MicrometerPerSecond, q => q.ToUnit(SpeedUnit.MicrometerPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.MicrometerPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MilePerHour, q => q.ToUnit(SpeedUnit.MilePerHour)); - unitConverter.SetConversionFunction(SpeedUnit.MilePerHour, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MillimeterPerHour, q => q.ToUnit(SpeedUnit.MillimeterPerHour)); - unitConverter.SetConversionFunction(SpeedUnit.MillimeterPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MillimeterPerMinute, q => q.ToUnit(SpeedUnit.MillimeterPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.MillimeterPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MillimeterPerSecond, q => q.ToUnit(SpeedUnit.MillimeterPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.MillimeterPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.NanometerPerMinute, q => q.ToUnit(SpeedUnit.NanometerPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.NanometerPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.NanometerPerSecond, q => q.ToUnit(SpeedUnit.NanometerPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.NanometerPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.UsSurveyFootPerHour, q => q.ToUnit(SpeedUnit.UsSurveyFootPerHour)); - unitConverter.SetConversionFunction(SpeedUnit.UsSurveyFootPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.UsSurveyFootPerMinute, q => q.ToUnit(SpeedUnit.UsSurveyFootPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.UsSurveyFootPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.UsSurveyFootPerSecond, q => q.ToUnit(SpeedUnit.UsSurveyFootPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.UsSurveyFootPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.YardPerHour, q => q.ToUnit(SpeedUnit.YardPerHour)); - unitConverter.SetConversionFunction(SpeedUnit.YardPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.YardPerMinute, q => q.ToUnit(SpeedUnit.YardPerMinute)); - unitConverter.SetConversionFunction(SpeedUnit.YardPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.YardPerSecond, q => q.ToUnit(SpeedUnit.YardPerSecond)); - unitConverter.SetConversionFunction(SpeedUnit.YardPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute)); - unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicFootPerHour, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicFootPerHour)); - unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicFootPerHour, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicFootPerMinute, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicFootPerMinute)); - unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicFootPerMinute, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicFootPerSecond, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicFootPerSecond)); - unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicFootPerSecond, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicMeterPerDay, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicMeterPerDay)); - unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicMeterPerDay, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicMeterPerHour, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicMeterPerHour)); - unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicMeterPerHour, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicMeterPerMinute, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicMeterPerMinute)); - unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicMeterPerMinute, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlow.BaseUnit, q => q); - unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardLiterPerMinute, q => q.ToUnit(StandardVolumeFlowUnit.StandardLiterPerMinute)); - unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardLiterPerMinute, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeCelsius, q => q.ToUnit(TemperatureUnit.DegreeCelsius)); - unitConverter.SetConversionFunction(TemperatureUnit.DegreeCelsius, Temperature.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeDelisle, q => q.ToUnit(TemperatureUnit.DegreeDelisle)); - unitConverter.SetConversionFunction(TemperatureUnit.DegreeDelisle, Temperature.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeFahrenheit, q => q.ToUnit(TemperatureUnit.DegreeFahrenheit)); - unitConverter.SetConversionFunction(TemperatureUnit.DegreeFahrenheit, Temperature.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeNewton, q => q.ToUnit(TemperatureUnit.DegreeNewton)); - unitConverter.SetConversionFunction(TemperatureUnit.DegreeNewton, Temperature.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeRankine, q => q.ToUnit(TemperatureUnit.DegreeRankine)); - unitConverter.SetConversionFunction(TemperatureUnit.DegreeRankine, Temperature.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeReaumur, q => q.ToUnit(TemperatureUnit.DegreeReaumur)); - unitConverter.SetConversionFunction(TemperatureUnit.DegreeReaumur, Temperature.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeRoemer, q => q.ToUnit(TemperatureUnit.DegreeRoemer)); - unitConverter.SetConversionFunction(TemperatureUnit.DegreeRoemer, Temperature.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Temperature.BaseUnit, Temperature.BaseUnit, q => q); - unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.MillidegreeCelsius, q => q.ToUnit(TemperatureUnit.MillidegreeCelsius)); - unitConverter.SetConversionFunction(TemperatureUnit.MillidegreeCelsius, Temperature.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.SolarTemperature, q => q.ToUnit(TemperatureUnit.SolarTemperature)); - unitConverter.SetConversionFunction(TemperatureUnit.SolarTemperature, Temperature.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond)); - unitConverter.SetConversionFunction(TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond)); - unitConverter.SetConversionFunction(TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond)); - unitConverter.SetConversionFunction(TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.DegreeCelsiusPerMinute, q => q.ToUnit(TemperatureChangeRateUnit.DegreeCelsiusPerMinute)); - unitConverter.SetConversionFunction(TemperatureChangeRateUnit.DegreeCelsiusPerMinute, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRate.BaseUnit, q => q); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond)); - unitConverter.SetConversionFunction(TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond)); - unitConverter.SetConversionFunction(TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond)); - unitConverter.SetConversionFunction(TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond)); - unitConverter.SetConversionFunction(TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond)); - unitConverter.SetConversionFunction(TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeCelsius, q => q.ToUnit(TemperatureDeltaUnit.DegreeCelsius)); - unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeCelsius, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeDelisle, q => q.ToUnit(TemperatureDeltaUnit.DegreeDelisle)); - unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeDelisle, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeFahrenheit, q => q.ToUnit(TemperatureDeltaUnit.DegreeFahrenheit)); - unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeFahrenheit, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeNewton, q => q.ToUnit(TemperatureDeltaUnit.DegreeNewton)); - unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeNewton, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeRankine, q => q.ToUnit(TemperatureDeltaUnit.DegreeRankine)); - unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeRankine, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeReaumur, q => q.ToUnit(TemperatureDeltaUnit.DegreeReaumur)); - unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeReaumur, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeRoemer, q => q.ToUnit(TemperatureDeltaUnit.DegreeRoemer)); - unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeRoemer, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDelta.BaseUnit, q => q); - unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.MillidegreeCelsius, q => q.ToUnit(TemperatureDeltaUnit.MillidegreeCelsius)); - unitConverter.SetConversionFunction(TemperatureDeltaUnit.MillidegreeCelsius, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ThermalConductivity.BaseUnit, ThermalConductivityUnit.BtuPerHourFootFahrenheit, q => q.ToUnit(ThermalConductivityUnit.BtuPerHourFootFahrenheit)); - unitConverter.SetConversionFunction(ThermalConductivityUnit.BtuPerHourFootFahrenheit, ThermalConductivity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ThermalConductivity.BaseUnit, ThermalConductivity.BaseUnit, q => q); - unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu, q => q.ToUnit(ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu)); - unitConverter.SetConversionFunction(ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu, ThermalResistance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie, q => q.ToUnit(ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie)); - unitConverter.SetConversionFunction(ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie, ThermalResistance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistanceUnit.SquareCentimeterKelvinPerWatt, q => q.ToUnit(ThermalResistanceUnit.SquareCentimeterKelvinPerWatt)); - unitConverter.SetConversionFunction(ThermalResistanceUnit.SquareCentimeterKelvinPerWatt, ThermalResistance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt, q => q.ToUnit(ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt)); - unitConverter.SetConversionFunction(ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt, ThermalResistance.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistance.BaseUnit, q => q); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilogramForceCentimeter, q => q.ToUnit(TorqueUnit.KilogramForceCentimeter)); - unitConverter.SetConversionFunction(TorqueUnit.KilogramForceCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilogramForceMeter, q => q.ToUnit(TorqueUnit.KilogramForceMeter)); - unitConverter.SetConversionFunction(TorqueUnit.KilogramForceMeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilogramForceMillimeter, q => q.ToUnit(TorqueUnit.KilogramForceMillimeter)); - unitConverter.SetConversionFunction(TorqueUnit.KilogramForceMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilonewtonCentimeter, q => q.ToUnit(TorqueUnit.KilonewtonCentimeter)); - unitConverter.SetConversionFunction(TorqueUnit.KilonewtonCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilonewtonMeter, q => q.ToUnit(TorqueUnit.KilonewtonMeter)); - unitConverter.SetConversionFunction(TorqueUnit.KilonewtonMeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilonewtonMillimeter, q => q.ToUnit(TorqueUnit.KilonewtonMillimeter)); - unitConverter.SetConversionFunction(TorqueUnit.KilonewtonMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilopoundForceFoot, q => q.ToUnit(TorqueUnit.KilopoundForceFoot)); - unitConverter.SetConversionFunction(TorqueUnit.KilopoundForceFoot, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilopoundForceInch, q => q.ToUnit(TorqueUnit.KilopoundForceInch)); - unitConverter.SetConversionFunction(TorqueUnit.KilopoundForceInch, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MeganewtonCentimeter, q => q.ToUnit(TorqueUnit.MeganewtonCentimeter)); - unitConverter.SetConversionFunction(TorqueUnit.MeganewtonCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MeganewtonMeter, q => q.ToUnit(TorqueUnit.MeganewtonMeter)); - unitConverter.SetConversionFunction(TorqueUnit.MeganewtonMeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MeganewtonMillimeter, q => q.ToUnit(TorqueUnit.MeganewtonMillimeter)); - unitConverter.SetConversionFunction(TorqueUnit.MeganewtonMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MegapoundForceFoot, q => q.ToUnit(TorqueUnit.MegapoundForceFoot)); - unitConverter.SetConversionFunction(TorqueUnit.MegapoundForceFoot, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MegapoundForceInch, q => q.ToUnit(TorqueUnit.MegapoundForceInch)); - unitConverter.SetConversionFunction(TorqueUnit.MegapoundForceInch, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.NewtonCentimeter, q => q.ToUnit(TorqueUnit.NewtonCentimeter)); - unitConverter.SetConversionFunction(TorqueUnit.NewtonCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, Torque.BaseUnit, q => q); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.NewtonMillimeter, q => q.ToUnit(TorqueUnit.NewtonMillimeter)); - unitConverter.SetConversionFunction(TorqueUnit.NewtonMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.PoundalFoot, q => q.ToUnit(TorqueUnit.PoundalFoot)); - unitConverter.SetConversionFunction(TorqueUnit.PoundalFoot, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.PoundForceFoot, q => q.ToUnit(TorqueUnit.PoundForceFoot)); - unitConverter.SetConversionFunction(TorqueUnit.PoundForceFoot, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.PoundForceInch, q => q.ToUnit(TorqueUnit.PoundForceInch)); - unitConverter.SetConversionFunction(TorqueUnit.PoundForceInch, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.TonneForceCentimeter, q => q.ToUnit(TorqueUnit.TonneForceCentimeter)); - unitConverter.SetConversionFunction(TorqueUnit.TonneForceCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.TonneForceMeter, q => q.ToUnit(TorqueUnit.TonneForceMeter)); - unitConverter.SetConversionFunction(TorqueUnit.TonneForceMeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.TonneForceMillimeter, q => q.ToUnit(TorqueUnit.TonneForceMillimeter)); - unitConverter.SetConversionFunction(TorqueUnit.TonneForceMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilogramForceCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilogramForceCentimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.KilogramForceCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilogramForceMeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilogramForceMeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.KilogramForceMeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilogramForceMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilogramForceMillimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.KilogramForceMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilonewtonCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilonewtonCentimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.KilonewtonCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilonewtonMeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilonewtonMeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.KilonewtonMeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilonewtonMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilonewtonMillimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.KilonewtonMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilopoundForceFootPerFoot, q => q.ToUnit(TorquePerLengthUnit.KilopoundForceFootPerFoot)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.KilopoundForceFootPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilopoundForceInchPerFoot, q => q.ToUnit(TorquePerLengthUnit.KilopoundForceInchPerFoot)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.KilopoundForceInchPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MeganewtonCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.MeganewtonCentimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.MeganewtonCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MeganewtonMeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.MeganewtonMeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.MeganewtonMeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MeganewtonMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.MeganewtonMillimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.MeganewtonMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MegapoundForceFootPerFoot, q => q.ToUnit(TorquePerLengthUnit.MegapoundForceFootPerFoot)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.MegapoundForceFootPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MegapoundForceInchPerFoot, q => q.ToUnit(TorquePerLengthUnit.MegapoundForceInchPerFoot)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.MegapoundForceInchPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.NewtonCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.NewtonCentimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.NewtonCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLength.BaseUnit, q => q); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.NewtonMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.NewtonMillimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.NewtonMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.PoundForceFootPerFoot, q => q.ToUnit(TorquePerLengthUnit.PoundForceFootPerFoot)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.PoundForceFootPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.PoundForceInchPerFoot, q => q.ToUnit(TorquePerLengthUnit.PoundForceInchPerFoot)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.PoundForceInchPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.TonneForceCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.TonneForceCentimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.TonneForceCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.TonneForceMeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.TonneForceMeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.TonneForceMeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.TonneForceMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.TonneForceMillimeterPerMeter)); - unitConverter.SetConversionFunction(TorquePerLengthUnit.TonneForceMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(Turbidity.BaseUnit, Turbidity.BaseUnit, q => q); - unitConverter.SetConversionFunction(VitaminA.BaseUnit, VitaminA.BaseUnit, q => q); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.CentimeterPerSecondSquared, q => q.ToUnit(AccelerationUnit.CentimeterPerSecondSquared)); + unitConverter.SetConversionFunction(AccelerationUnit.CentimeterPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.DecimeterPerSecondSquared, q => q.ToUnit(AccelerationUnit.DecimeterPerSecondSquared)); + unitConverter.SetConversionFunction(AccelerationUnit.DecimeterPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.FootPerSecondSquared, q => q.ToUnit(AccelerationUnit.FootPerSecondSquared)); + unitConverter.SetConversionFunction(AccelerationUnit.FootPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.InchPerSecondSquared, q => q.ToUnit(AccelerationUnit.InchPerSecondSquared)); + unitConverter.SetConversionFunction(AccelerationUnit.InchPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.KilometerPerSecondSquared, q => q.ToUnit(AccelerationUnit.KilometerPerSecondSquared)); + unitConverter.SetConversionFunction(AccelerationUnit.KilometerPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.KnotPerHour, q => q.ToUnit(AccelerationUnit.KnotPerHour)); + unitConverter.SetConversionFunction(AccelerationUnit.KnotPerHour, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.KnotPerMinute, q => q.ToUnit(AccelerationUnit.KnotPerMinute)); + unitConverter.SetConversionFunction(AccelerationUnit.KnotPerMinute, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.KnotPerSecond, q => q.ToUnit(AccelerationUnit.KnotPerSecond)); + unitConverter.SetConversionFunction(AccelerationUnit.KnotPerSecond, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, Acceleration.BaseUnit, q => q); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.MicrometerPerSecondSquared, q => q.ToUnit(AccelerationUnit.MicrometerPerSecondSquared)); + unitConverter.SetConversionFunction(AccelerationUnit.MicrometerPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.MillimeterPerSecondSquared, q => q.ToUnit(AccelerationUnit.MillimeterPerSecondSquared)); + unitConverter.SetConversionFunction(AccelerationUnit.MillimeterPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.MillistandardGravity, q => q.ToUnit(AccelerationUnit.MillistandardGravity)); + unitConverter.SetConversionFunction(AccelerationUnit.MillistandardGravity, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.NanometerPerSecondSquared, q => q.ToUnit(AccelerationUnit.NanometerPerSecondSquared)); + unitConverter.SetConversionFunction(AccelerationUnit.NanometerPerSecondSquared, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Acceleration.BaseUnit, AccelerationUnit.StandardGravity, q => q.ToUnit(AccelerationUnit.StandardGravity)); + unitConverter.SetConversionFunction(AccelerationUnit.StandardGravity, Acceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalAcceleration.BaseUnit, RotationalAccelerationUnit.DegreePerSecondSquared, q => q.ToUnit(RotationalAccelerationUnit.DegreePerSecondSquared)); + unitConverter.SetConversionFunction(RotationalAccelerationUnit.DegreePerSecondSquared, RotationalAcceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalAcceleration.BaseUnit, RotationalAcceleration.BaseUnit, q => q); + unitConverter.SetConversionFunction(RotationalAcceleration.BaseUnit, RotationalAccelerationUnit.RevolutionPerMinutePerSecond, q => q.ToUnit(RotationalAccelerationUnit.RevolutionPerMinutePerSecond)); + unitConverter.SetConversionFunction(RotationalAccelerationUnit.RevolutionPerMinutePerSecond, RotationalAcceleration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalAcceleration.BaseUnit, RotationalAccelerationUnit.RevolutionPerSecondSquared, q => q.ToUnit(RotationalAccelerationUnit.RevolutionPerSecondSquared)); + unitConverter.SetConversionFunction(RotationalAccelerationUnit.RevolutionPerSecondSquared, RotationalAcceleration.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(Volume.BaseUnit, VolumeUnit.AcreFoot, q => q.ToUnit(VolumeUnit.AcreFoot)); unitConverter.SetConversionFunction(VolumeUnit.AcreFoot, Volume.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(Volume.BaseUnit, VolumeUnit.AuTablespoon, q => q.ToUnit(VolumeUnit.AuTablespoon)); @@ -2385,6 +363,886 @@ public static void RegisterDefaultConversions(UnitConverter unitConverter) unitConverter.SetConversionFunction(VolumeUnit.UsTablespoon, Volume.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(Volume.BaseUnit, VolumeUnit.UsTeaspoon, q => q.ToUnit(VolumeUnit.UsTeaspoon)); unitConverter.SetConversionFunction(VolumeUnit.UsTeaspoon, Volume.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.BeatPerMinute, q => q.ToUnit(FrequencyUnit.BeatPerMinute)); + unitConverter.SetConversionFunction(FrequencyUnit.BeatPerMinute, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.BUnit, q => q.ToUnit(FrequencyUnit.BUnit)); + unitConverter.SetConversionFunction(FrequencyUnit.BUnit, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.CyclePerHour, q => q.ToUnit(FrequencyUnit.CyclePerHour)); + unitConverter.SetConversionFunction(FrequencyUnit.CyclePerHour, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.CyclePerMinute, q => q.ToUnit(FrequencyUnit.CyclePerMinute)); + unitConverter.SetConversionFunction(FrequencyUnit.CyclePerMinute, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.Gigahertz, q => q.ToUnit(FrequencyUnit.Gigahertz)); + unitConverter.SetConversionFunction(FrequencyUnit.Gigahertz, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, Frequency.BaseUnit, q => q); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.Kilohertz, q => q.ToUnit(FrequencyUnit.Kilohertz)); + unitConverter.SetConversionFunction(FrequencyUnit.Kilohertz, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.Megahertz, q => q.ToUnit(FrequencyUnit.Megahertz)); + unitConverter.SetConversionFunction(FrequencyUnit.Megahertz, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.PerSecond, q => q.ToUnit(FrequencyUnit.PerSecond)); + unitConverter.SetConversionFunction(FrequencyUnit.PerSecond, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.RadianPerSecond, q => q.ToUnit(FrequencyUnit.RadianPerSecond)); + unitConverter.SetConversionFunction(FrequencyUnit.RadianPerSecond, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Frequency.BaseUnit, FrequencyUnit.Terahertz, q => q.ToUnit(FrequencyUnit.Terahertz)); + unitConverter.SetConversionFunction(FrequencyUnit.Terahertz, Frequency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.Centipoise, q => q.ToUnit(DynamicViscosityUnit.Centipoise)); + unitConverter.SetConversionFunction(DynamicViscosityUnit.Centipoise, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.MicropascalSecond, q => q.ToUnit(DynamicViscosityUnit.MicropascalSecond)); + unitConverter.SetConversionFunction(DynamicViscosityUnit.MicropascalSecond, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.MillipascalSecond, q => q.ToUnit(DynamicViscosityUnit.MillipascalSecond)); + unitConverter.SetConversionFunction(DynamicViscosityUnit.MillipascalSecond, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosity.BaseUnit, q => q); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.PascalSecond, q => q.ToUnit(DynamicViscosityUnit.PascalSecond)); + unitConverter.SetConversionFunction(DynamicViscosityUnit.PascalSecond, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.Poise, q => q.ToUnit(DynamicViscosityUnit.Poise)); + unitConverter.SetConversionFunction(DynamicViscosityUnit.Poise, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.PoundForceSecondPerSquareFoot, q => q.ToUnit(DynamicViscosityUnit.PoundForceSecondPerSquareFoot)); + unitConverter.SetConversionFunction(DynamicViscosityUnit.PoundForceSecondPerSquareFoot, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.PoundForceSecondPerSquareInch, q => q.ToUnit(DynamicViscosityUnit.PoundForceSecondPerSquareInch)); + unitConverter.SetConversionFunction(DynamicViscosityUnit.PoundForceSecondPerSquareInch, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.PoundPerFootSecond, q => q.ToUnit(DynamicViscosityUnit.PoundPerFootSecond)); + unitConverter.SetConversionFunction(DynamicViscosityUnit.PoundPerFootSecond, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(DynamicViscosity.BaseUnit, DynamicViscosityUnit.Reyn, q => q.ToUnit(DynamicViscosityUnit.Reyn)); + unitConverter.SetConversionFunction(DynamicViscosityUnit.Reyn, DynamicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit, q => q.ToUnit(VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit)); + unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius)); + unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius)); + unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacity.BaseUnit, q => q); + unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius)); + unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius)); + unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin, q => q.ToUnit(VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin)); + unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius)); + unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, q => q.ToUnit(VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin)); + unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Level.BaseUnit, Level.BaseUnit, q => q); + unitConverter.SetConversionFunction(Level.BaseUnit, LevelUnit.Neper, q => q.ToUnit(LevelUnit.Neper)); + unitConverter.SetConversionFunction(LevelUnit.Neper, Level.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarEnergy.BaseUnit, MolarEnergy.BaseUnit, q => q); + unitConverter.SetConversionFunction(MolarEnergy.BaseUnit, MolarEnergyUnit.KilojoulePerMole, q => q.ToUnit(MolarEnergyUnit.KilojoulePerMole)); + unitConverter.SetConversionFunction(MolarEnergyUnit.KilojoulePerMole, MolarEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarEnergy.BaseUnit, MolarEnergyUnit.MegajoulePerMole, q => q.ToUnit(MolarEnergyUnit.MegajoulePerMole)); + unitConverter.SetConversionFunction(MolarEnergyUnit.MegajoulePerMole, MolarEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ApparentPower.BaseUnit, ApparentPowerUnit.Gigavoltampere, q => q.ToUnit(ApparentPowerUnit.Gigavoltampere)); + unitConverter.SetConversionFunction(ApparentPowerUnit.Gigavoltampere, ApparentPower.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ApparentPower.BaseUnit, ApparentPowerUnit.Kilovoltampere, q => q.ToUnit(ApparentPowerUnit.Kilovoltampere)); + unitConverter.SetConversionFunction(ApparentPowerUnit.Kilovoltampere, ApparentPower.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ApparentPower.BaseUnit, ApparentPowerUnit.Megavoltampere, q => q.ToUnit(ApparentPowerUnit.Megavoltampere)); + unitConverter.SetConversionFunction(ApparentPowerUnit.Megavoltampere, ApparentPower.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ApparentPower.BaseUnit, ApparentPower.BaseUnit, q => q); + unitConverter.SetConversionFunction(ReactiveEnergy.BaseUnit, ReactiveEnergyUnit.KilovoltampereReactiveHour, q => q.ToUnit(ReactiveEnergyUnit.KilovoltampereReactiveHour)); + unitConverter.SetConversionFunction(ReactiveEnergyUnit.KilovoltampereReactiveHour, ReactiveEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReactiveEnergy.BaseUnit, ReactiveEnergyUnit.MegavoltampereReactiveHour, q => q.ToUnit(ReactiveEnergyUnit.MegavoltampereReactiveHour)); + unitConverter.SetConversionFunction(ReactiveEnergyUnit.MegavoltampereReactiveHour, ReactiveEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReactiveEnergy.BaseUnit, ReactiveEnergy.BaseUnit, q => q); + unitConverter.SetConversionFunction(LuminousFlux.BaseUnit, LuminousFlux.BaseUnit, q => q); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.BtuPerPound, q => q.ToUnit(SpecificEnergyUnit.BtuPerPound)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.BtuPerPound, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.CaloriePerGram, q => q.ToUnit(SpecificEnergyUnit.CaloriePerGram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.CaloriePerGram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.GigawattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.GigawattDayPerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.GigawattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.GigawattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.GigawattDayPerShortTon)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.GigawattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.GigawattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.GigawattDayPerTonne)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.GigawattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.GigawattHourPerKilogram, q => q.ToUnit(SpecificEnergyUnit.GigawattHourPerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.GigawattHourPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergy.BaseUnit, q => q); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilocaloriePerGram, q => q.ToUnit(SpecificEnergyUnit.KilocaloriePerGram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.KilocaloriePerGram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilojoulePerKilogram, q => q.ToUnit(SpecificEnergyUnit.KilojoulePerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.KilojoulePerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilowattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.KilowattDayPerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.KilowattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilowattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.KilowattDayPerShortTon)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.KilowattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilowattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.KilowattDayPerTonne)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.KilowattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.KilowattHourPerKilogram, q => q.ToUnit(SpecificEnergyUnit.KilowattHourPerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.KilowattHourPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegajoulePerKilogram, q => q.ToUnit(SpecificEnergyUnit.MegajoulePerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.MegajoulePerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegawattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.MegawattDayPerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.MegawattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegawattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.MegawattDayPerShortTon)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.MegawattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegawattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.MegawattDayPerTonne)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.MegawattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.MegawattHourPerKilogram, q => q.ToUnit(SpecificEnergyUnit.MegawattHourPerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.MegawattHourPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.TerawattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.TerawattDayPerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.TerawattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.TerawattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.TerawattDayPerShortTon)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.TerawattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.TerawattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.TerawattDayPerTonne)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.TerawattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.WattDayPerKilogram, q => q.ToUnit(SpecificEnergyUnit.WattDayPerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.WattDayPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.WattDayPerShortTon, q => q.ToUnit(SpecificEnergyUnit.WattDayPerShortTon)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.WattDayPerShortTon, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.WattDayPerTonne, q => q.ToUnit(SpecificEnergyUnit.WattDayPerTonne)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.WattDayPerTonne, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificEnergy.BaseUnit, SpecificEnergyUnit.WattHourPerKilogram, q => q.ToUnit(SpecificEnergyUnit.WattHourPerKilogram)); + unitConverter.SetConversionFunction(SpecificEnergyUnit.WattHourPerKilogram, SpecificEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DecawattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.DecawattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.DecawattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DecawattPerCubicInch, q => q.ToUnit(PowerDensityUnit.DecawattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.DecawattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DecawattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.DecawattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.DecawattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DecawattPerLiter, q => q.ToUnit(PowerDensityUnit.DecawattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.DecawattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DeciwattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.DeciwattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.DeciwattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DeciwattPerCubicInch, q => q.ToUnit(PowerDensityUnit.DeciwattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.DeciwattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DeciwattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.DeciwattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.DeciwattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.DeciwattPerLiter, q => q.ToUnit(PowerDensityUnit.DeciwattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.DeciwattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.GigawattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.GigawattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.GigawattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.GigawattPerCubicInch, q => q.ToUnit(PowerDensityUnit.GigawattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.GigawattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.GigawattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.GigawattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.GigawattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.GigawattPerLiter, q => q.ToUnit(PowerDensityUnit.GigawattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.GigawattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.KilowattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.KilowattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.KilowattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.KilowattPerCubicInch, q => q.ToUnit(PowerDensityUnit.KilowattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.KilowattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.KilowattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.KilowattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.KilowattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.KilowattPerLiter, q => q.ToUnit(PowerDensityUnit.KilowattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.KilowattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MegawattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.MegawattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.MegawattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MegawattPerCubicInch, q => q.ToUnit(PowerDensityUnit.MegawattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.MegawattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MegawattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.MegawattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.MegawattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MegawattPerLiter, q => q.ToUnit(PowerDensityUnit.MegawattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.MegawattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MicrowattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.MicrowattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.MicrowattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MicrowattPerCubicInch, q => q.ToUnit(PowerDensityUnit.MicrowattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.MicrowattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MicrowattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.MicrowattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.MicrowattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MicrowattPerLiter, q => q.ToUnit(PowerDensityUnit.MicrowattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.MicrowattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MilliwattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.MilliwattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.MilliwattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MilliwattPerCubicInch, q => q.ToUnit(PowerDensityUnit.MilliwattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.MilliwattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MilliwattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.MilliwattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.MilliwattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.MilliwattPerLiter, q => q.ToUnit(PowerDensityUnit.MilliwattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.MilliwattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.NanowattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.NanowattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.NanowattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.NanowattPerCubicInch, q => q.ToUnit(PowerDensityUnit.NanowattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.NanowattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.NanowattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.NanowattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.NanowattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.NanowattPerLiter, q => q.ToUnit(PowerDensityUnit.NanowattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.NanowattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.PicowattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.PicowattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.PicowattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.PicowattPerCubicInch, q => q.ToUnit(PowerDensityUnit.PicowattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.PicowattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.PicowattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.PicowattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.PicowattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.PicowattPerLiter, q => q.ToUnit(PowerDensityUnit.PicowattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.PicowattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.TerawattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.TerawattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.TerawattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.TerawattPerCubicInch, q => q.ToUnit(PowerDensityUnit.TerawattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.TerawattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.TerawattPerCubicMeter, q => q.ToUnit(PowerDensityUnit.TerawattPerCubicMeter)); + unitConverter.SetConversionFunction(PowerDensityUnit.TerawattPerCubicMeter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.TerawattPerLiter, q => q.ToUnit(PowerDensityUnit.TerawattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.TerawattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.WattPerCubicFoot, q => q.ToUnit(PowerDensityUnit.WattPerCubicFoot)); + unitConverter.SetConversionFunction(PowerDensityUnit.WattPerCubicFoot, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.WattPerCubicInch, q => q.ToUnit(PowerDensityUnit.WattPerCubicInch)); + unitConverter.SetConversionFunction(PowerDensityUnit.WattPerCubicInch, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensity.BaseUnit, q => q); + unitConverter.SetConversionFunction(PowerDensity.BaseUnit, PowerDensityUnit.WattPerLiter, q => q.ToUnit(PowerDensityUnit.WattPerLiter)); + unitConverter.SetConversionFunction(PowerDensityUnit.WattPerLiter, PowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.CentinewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.CentinewtonPerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.CentinewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.CentinewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.CentinewtonPerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.CentinewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.CentinewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.CentinewtonPerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.CentinewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecanewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.DecanewtonPerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.DecanewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecanewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.DecanewtonPerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.DecanewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecanewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.DecanewtonPerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.DecanewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecinewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.DecinewtonPerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.DecinewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecinewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.DecinewtonPerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.DecinewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.DecinewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.DecinewtonPerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.DecinewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilogramForcePerCentimeter, q => q.ToUnit(ForcePerLengthUnit.KilogramForcePerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.KilogramForcePerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilogramForcePerMeter, q => q.ToUnit(ForcePerLengthUnit.KilogramForcePerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.KilogramForcePerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilogramForcePerMillimeter, q => q.ToUnit(ForcePerLengthUnit.KilogramForcePerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.KilogramForcePerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilonewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.KilonewtonPerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.KilonewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilonewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.KilonewtonPerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.KilonewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilonewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.KilonewtonPerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.KilonewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilopoundForcePerFoot, q => q.ToUnit(ForcePerLengthUnit.KilopoundForcePerFoot)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.KilopoundForcePerFoot, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.KilopoundForcePerInch, q => q.ToUnit(ForcePerLengthUnit.KilopoundForcePerInch)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.KilopoundForcePerInch, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MeganewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.MeganewtonPerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.MeganewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MeganewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.MeganewtonPerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.MeganewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MeganewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.MeganewtonPerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.MeganewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MicronewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.MicronewtonPerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.MicronewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MicronewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.MicronewtonPerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.MicronewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MicronewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.MicronewtonPerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.MicronewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MillinewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.MillinewtonPerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.MillinewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MillinewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.MillinewtonPerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.MillinewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.MillinewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.MillinewtonPerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.MillinewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NanonewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.NanonewtonPerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.NanonewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NanonewtonPerMeter, q => q.ToUnit(ForcePerLengthUnit.NanonewtonPerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.NanonewtonPerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NanonewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.NanonewtonPerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.NanonewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NewtonPerCentimeter, q => q.ToUnit(ForcePerLengthUnit.NewtonPerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.NewtonPerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLength.BaseUnit, q => q); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.NewtonPerMillimeter, q => q.ToUnit(ForcePerLengthUnit.NewtonPerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.NewtonPerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.PoundForcePerFoot, q => q.ToUnit(ForcePerLengthUnit.PoundForcePerFoot)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.PoundForcePerFoot, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.PoundForcePerInch, q => q.ToUnit(ForcePerLengthUnit.PoundForcePerInch)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.PoundForcePerInch, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.PoundForcePerYard, q => q.ToUnit(ForcePerLengthUnit.PoundForcePerYard)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.PoundForcePerYard, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.TonneForcePerCentimeter, q => q.ToUnit(ForcePerLengthUnit.TonneForcePerCentimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.TonneForcePerCentimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.TonneForcePerMeter, q => q.ToUnit(ForcePerLengthUnit.TonneForcePerMeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.TonneForcePerMeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForcePerLength.BaseUnit, ForcePerLengthUnit.TonneForcePerMillimeter, q => q.ToUnit(ForcePerLengthUnit.TonneForcePerMillimeter)); + unitConverter.SetConversionFunction(ForcePerLengthUnit.TonneForcePerMillimeter, ForcePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Decawatt, q => q.ToUnit(LuminosityUnit.Decawatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Decawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Deciwatt, q => q.ToUnit(LuminosityUnit.Deciwatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Deciwatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Femtowatt, q => q.ToUnit(LuminosityUnit.Femtowatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Femtowatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Gigawatt, q => q.ToUnit(LuminosityUnit.Gigawatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Gigawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Kilowatt, q => q.ToUnit(LuminosityUnit.Kilowatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Kilowatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Megawatt, q => q.ToUnit(LuminosityUnit.Megawatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Megawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Microwatt, q => q.ToUnit(LuminosityUnit.Microwatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Microwatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Milliwatt, q => q.ToUnit(LuminosityUnit.Milliwatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Milliwatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Nanowatt, q => q.ToUnit(LuminosityUnit.Nanowatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Nanowatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Petawatt, q => q.ToUnit(LuminosityUnit.Petawatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Petawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Picowatt, q => q.ToUnit(LuminosityUnit.Picowatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Picowatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.SolarLuminosity, q => q.ToUnit(LuminosityUnit.SolarLuminosity)); + unitConverter.SetConversionFunction(LuminosityUnit.SolarLuminosity, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, LuminosityUnit.Terawatt, q => q.ToUnit(LuminosityUnit.Terawatt)); + unitConverter.SetConversionFunction(LuminosityUnit.Terawatt, Luminosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Luminosity.BaseUnit, Luminosity.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricField.BaseUnit, ElectricField.BaseUnit, q => q); + unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute)); + unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicCentimeterPerMinute, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicFootPerHour, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicFootPerHour)); + unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicFootPerHour, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicFootPerMinute, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicFootPerMinute)); + unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicFootPerMinute, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicFootPerSecond, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicFootPerSecond)); + unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicFootPerSecond, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicMeterPerDay, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicMeterPerDay)); + unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicMeterPerDay, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicMeterPerHour, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicMeterPerHour)); + unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicMeterPerHour, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardCubicMeterPerMinute, q => q.ToUnit(StandardVolumeFlowUnit.StandardCubicMeterPerMinute)); + unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardCubicMeterPerMinute, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlow.BaseUnit, q => q); + unitConverter.SetConversionFunction(StandardVolumeFlow.BaseUnit, StandardVolumeFlowUnit.StandardLiterPerMinute, q => q.ToUnit(StandardVolumeFlowUnit.StandardLiterPerMinute)); + unitConverter.SetConversionFunction(StandardVolumeFlowUnit.StandardLiterPerMinute, StandardVolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.BoilerHorsepower, q => q.ToUnit(PowerUnit.BoilerHorsepower)); + unitConverter.SetConversionFunction(PowerUnit.BoilerHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.BritishThermalUnitPerHour, q => q.ToUnit(PowerUnit.BritishThermalUnitPerHour)); + unitConverter.SetConversionFunction(PowerUnit.BritishThermalUnitPerHour, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Decawatt, q => q.ToUnit(PowerUnit.Decawatt)); + unitConverter.SetConversionFunction(PowerUnit.Decawatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Deciwatt, q => q.ToUnit(PowerUnit.Deciwatt)); + unitConverter.SetConversionFunction(PowerUnit.Deciwatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.ElectricalHorsepower, q => q.ToUnit(PowerUnit.ElectricalHorsepower)); + unitConverter.SetConversionFunction(PowerUnit.ElectricalHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Femtowatt, q => q.ToUnit(PowerUnit.Femtowatt)); + unitConverter.SetConversionFunction(PowerUnit.Femtowatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.GigajoulePerHour, q => q.ToUnit(PowerUnit.GigajoulePerHour)); + unitConverter.SetConversionFunction(PowerUnit.GigajoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Gigawatt, q => q.ToUnit(PowerUnit.Gigawatt)); + unitConverter.SetConversionFunction(PowerUnit.Gigawatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.HydraulicHorsepower, q => q.ToUnit(PowerUnit.HydraulicHorsepower)); + unitConverter.SetConversionFunction(PowerUnit.HydraulicHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.JoulePerHour, q => q.ToUnit(PowerUnit.JoulePerHour)); + unitConverter.SetConversionFunction(PowerUnit.JoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.KilobritishThermalUnitPerHour, q => q.ToUnit(PowerUnit.KilobritishThermalUnitPerHour)); + unitConverter.SetConversionFunction(PowerUnit.KilobritishThermalUnitPerHour, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.KilojoulePerHour, q => q.ToUnit(PowerUnit.KilojoulePerHour)); + unitConverter.SetConversionFunction(PowerUnit.KilojoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Kilowatt, q => q.ToUnit(PowerUnit.Kilowatt)); + unitConverter.SetConversionFunction(PowerUnit.Kilowatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.MechanicalHorsepower, q => q.ToUnit(PowerUnit.MechanicalHorsepower)); + unitConverter.SetConversionFunction(PowerUnit.MechanicalHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.MegajoulePerHour, q => q.ToUnit(PowerUnit.MegajoulePerHour)); + unitConverter.SetConversionFunction(PowerUnit.MegajoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Megawatt, q => q.ToUnit(PowerUnit.Megawatt)); + unitConverter.SetConversionFunction(PowerUnit.Megawatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.MetricHorsepower, q => q.ToUnit(PowerUnit.MetricHorsepower)); + unitConverter.SetConversionFunction(PowerUnit.MetricHorsepower, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Microwatt, q => q.ToUnit(PowerUnit.Microwatt)); + unitConverter.SetConversionFunction(PowerUnit.Microwatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.MillijoulePerHour, q => q.ToUnit(PowerUnit.MillijoulePerHour)); + unitConverter.SetConversionFunction(PowerUnit.MillijoulePerHour, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Milliwatt, q => q.ToUnit(PowerUnit.Milliwatt)); + unitConverter.SetConversionFunction(PowerUnit.Milliwatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Nanowatt, q => q.ToUnit(PowerUnit.Nanowatt)); + unitConverter.SetConversionFunction(PowerUnit.Nanowatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Petawatt, q => q.ToUnit(PowerUnit.Petawatt)); + unitConverter.SetConversionFunction(PowerUnit.Petawatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Picowatt, q => q.ToUnit(PowerUnit.Picowatt)); + unitConverter.SetConversionFunction(PowerUnit.Picowatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, PowerUnit.Terawatt, q => q.ToUnit(PowerUnit.Terawatt)); + unitConverter.SetConversionFunction(PowerUnit.Terawatt, Power.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Power.BaseUnit, Power.BaseUnit, q => q); + unitConverter.SetConversionFunction(AmplitudeRatio.BaseUnit, AmplitudeRatioUnit.DecibelMicrovolt, q => q.ToUnit(AmplitudeRatioUnit.DecibelMicrovolt)); + unitConverter.SetConversionFunction(AmplitudeRatioUnit.DecibelMicrovolt, AmplitudeRatio.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(AmplitudeRatio.BaseUnit, AmplitudeRatioUnit.DecibelMillivolt, q => q.ToUnit(AmplitudeRatioUnit.DecibelMillivolt)); + unitConverter.SetConversionFunction(AmplitudeRatioUnit.DecibelMillivolt, AmplitudeRatio.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(AmplitudeRatio.BaseUnit, AmplitudeRatioUnit.DecibelUnloaded, q => q.ToUnit(AmplitudeRatioUnit.DecibelUnloaded)); + unitConverter.SetConversionFunction(AmplitudeRatioUnit.DecibelUnloaded, AmplitudeRatio.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(AmplitudeRatio.BaseUnit, AmplitudeRatio.BaseUnit, q => q); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareCentimeter, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareCentimeter)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareCentimeter, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareDecimeter, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareDecimeter)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareDecimeter, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareFoot, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareFoot)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareFoot, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareInch, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareInch)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareInch, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareKilometer, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareKilometer)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareKilometer, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalArea.BaseUnit, q => q); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareMicrometer, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareMicrometer)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareMicrometer, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareMile, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareMile)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareMile, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareMillimeter, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareMillimeter)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareMillimeter, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseSquareYard, q => q.ToUnit(ReciprocalAreaUnit.InverseSquareYard)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseSquareYard, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalArea.BaseUnit, ReciprocalAreaUnit.InverseUsSurveySquareFoot, q => q.ToUnit(ReciprocalAreaUnit.InverseUsSurveySquareFoot)); + unitConverter.SetConversionFunction(ReciprocalAreaUnit.InverseUsSurveySquareFoot, ReciprocalArea.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.CentinewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.CentinewtonPerSecond)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.CentinewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.DecanewtonPerMinute, q => q.ToUnit(ForceChangeRateUnit.DecanewtonPerMinute)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.DecanewtonPerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.DecanewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.DecanewtonPerSecond)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.DecanewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.DecinewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.DecinewtonPerSecond)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.DecinewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.KilonewtonPerMinute, q => q.ToUnit(ForceChangeRateUnit.KilonewtonPerMinute)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.KilonewtonPerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.KilonewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.KilonewtonPerSecond)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.KilonewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.KilopoundForcePerMinute, q => q.ToUnit(ForceChangeRateUnit.KilopoundForcePerMinute)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.KilopoundForcePerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.KilopoundForcePerSecond, q => q.ToUnit(ForceChangeRateUnit.KilopoundForcePerSecond)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.KilopoundForcePerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.MicronewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.MicronewtonPerSecond)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.MicronewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.MillinewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.MillinewtonPerSecond)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.MillinewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.NanonewtonPerSecond, q => q.ToUnit(ForceChangeRateUnit.NanonewtonPerSecond)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.NanonewtonPerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.NewtonPerMinute, q => q.ToUnit(ForceChangeRateUnit.NewtonPerMinute)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.NewtonPerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRate.BaseUnit, q => q); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.PoundForcePerMinute, q => q.ToUnit(ForceChangeRateUnit.PoundForcePerMinute)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.PoundForcePerMinute, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ForceChangeRate.BaseUnit, ForceChangeRateUnit.PoundForcePerSecond, q => q.ToUnit(ForceChangeRateUnit.PoundForcePerSecond)); + unitConverter.SetConversionFunction(ForceChangeRateUnit.PoundForcePerSecond, ForceChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SolidAngle.BaseUnit, SolidAngle.BaseUnit, q => q); + unitConverter.SetConversionFunction(RelativeHumidity.BaseUnit, RelativeHumidity.BaseUnit, q => q); + unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLengthUnit.KilonewtonMeterPerRadianPerMeter, q => q.ToUnit(RotationalStiffnessPerLengthUnit.KilonewtonMeterPerRadianPerMeter)); + unitConverter.SetConversionFunction(RotationalStiffnessPerLengthUnit.KilonewtonMeterPerRadianPerMeter, RotationalStiffnessPerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLengthUnit.KilopoundForceFootPerDegreesPerFoot, q => q.ToUnit(RotationalStiffnessPerLengthUnit.KilopoundForceFootPerDegreesPerFoot)); + unitConverter.SetConversionFunction(RotationalStiffnessPerLengthUnit.KilopoundForceFootPerDegreesPerFoot, RotationalStiffnessPerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLengthUnit.MeganewtonMeterPerRadianPerMeter, q => q.ToUnit(RotationalStiffnessPerLengthUnit.MeganewtonMeterPerRadianPerMeter)); + unitConverter.SetConversionFunction(RotationalStiffnessPerLengthUnit.MeganewtonMeterPerRadianPerMeter, RotationalStiffnessPerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLength.BaseUnit, q => q); + unitConverter.SetConversionFunction(RotationalStiffnessPerLength.BaseUnit, RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot, q => q.ToUnit(RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot)); + unitConverter.SetConversionFunction(RotationalStiffnessPerLengthUnit.PoundForceFootPerDegreesPerFoot, RotationalStiffnessPerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.AcreFootPerDay, q => q.ToUnit(VolumeFlowUnit.AcreFootPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.AcreFootPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.AcreFootPerHour, q => q.ToUnit(VolumeFlowUnit.AcreFootPerHour)); + unitConverter.SetConversionFunction(VolumeFlowUnit.AcreFootPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.AcreFootPerMinute, q => q.ToUnit(VolumeFlowUnit.AcreFootPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.AcreFootPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.AcreFootPerSecond, q => q.ToUnit(VolumeFlowUnit.AcreFootPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.AcreFootPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CentiliterPerDay, q => q.ToUnit(VolumeFlowUnit.CentiliterPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CentiliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CentiliterPerMinute, q => q.ToUnit(VolumeFlowUnit.CentiliterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CentiliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CentiliterPerSecond, q => q.ToUnit(VolumeFlowUnit.CentiliterPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CentiliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicCentimeterPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicCentimeterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicCentimeterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicDecimeterPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicDecimeterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicDecimeterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicFootPerHour, q => q.ToUnit(VolumeFlowUnit.CubicFootPerHour)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicFootPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicFootPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicFootPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicFootPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicFootPerSecond, q => q.ToUnit(VolumeFlowUnit.CubicFootPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicFootPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicMeterPerDay, q => q.ToUnit(VolumeFlowUnit.CubicMeterPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicMeterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicMeterPerHour, q => q.ToUnit(VolumeFlowUnit.CubicMeterPerHour)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicMeterPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicMeterPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicMeterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicMeterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlow.BaseUnit, q => q); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicMillimeterPerSecond, q => q.ToUnit(VolumeFlowUnit.CubicMillimeterPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicMillimeterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicYardPerDay, q => q.ToUnit(VolumeFlowUnit.CubicYardPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicYardPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicYardPerHour, q => q.ToUnit(VolumeFlowUnit.CubicYardPerHour)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicYardPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicYardPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicYardPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicYardPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicYardPerSecond, q => q.ToUnit(VolumeFlowUnit.CubicYardPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.CubicYardPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.DeciliterPerDay, q => q.ToUnit(VolumeFlowUnit.DeciliterPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.DeciliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.DeciliterPerMinute, q => q.ToUnit(VolumeFlowUnit.DeciliterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.DeciliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.DeciliterPerSecond, q => q.ToUnit(VolumeFlowUnit.DeciliterPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.DeciliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.KiloliterPerDay, q => q.ToUnit(VolumeFlowUnit.KiloliterPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.KiloliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.KiloliterPerMinute, q => q.ToUnit(VolumeFlowUnit.KiloliterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.KiloliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.KiloliterPerSecond, q => q.ToUnit(VolumeFlowUnit.KiloliterPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.KiloliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.KilousGallonPerMinute, q => q.ToUnit(VolumeFlowUnit.KilousGallonPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.KilousGallonPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.LiterPerDay, q => q.ToUnit(VolumeFlowUnit.LiterPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.LiterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.LiterPerHour, q => q.ToUnit(VolumeFlowUnit.LiterPerHour)); + unitConverter.SetConversionFunction(VolumeFlowUnit.LiterPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.LiterPerMinute, q => q.ToUnit(VolumeFlowUnit.LiterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.LiterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.LiterPerSecond, q => q.ToUnit(VolumeFlowUnit.LiterPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.LiterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MegaliterPerDay, q => q.ToUnit(VolumeFlowUnit.MegaliterPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.MegaliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MegaukGallonPerSecond, q => q.ToUnit(VolumeFlowUnit.MegaukGallonPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.MegaukGallonPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MicroliterPerDay, q => q.ToUnit(VolumeFlowUnit.MicroliterPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.MicroliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MicroliterPerMinute, q => q.ToUnit(VolumeFlowUnit.MicroliterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.MicroliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MicroliterPerSecond, q => q.ToUnit(VolumeFlowUnit.MicroliterPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.MicroliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MilliliterPerDay, q => q.ToUnit(VolumeFlowUnit.MilliliterPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.MilliliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MilliliterPerMinute, q => q.ToUnit(VolumeFlowUnit.MilliliterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.MilliliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MilliliterPerSecond, q => q.ToUnit(VolumeFlowUnit.MilliliterPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.MilliliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MillionUsGallonsPerDay, q => q.ToUnit(VolumeFlowUnit.MillionUsGallonsPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.MillionUsGallonsPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.NanoliterPerDay, q => q.ToUnit(VolumeFlowUnit.NanoliterPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.NanoliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.NanoliterPerMinute, q => q.ToUnit(VolumeFlowUnit.NanoliterPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.NanoliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.NanoliterPerSecond, q => q.ToUnit(VolumeFlowUnit.NanoliterPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.NanoliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.OilBarrelPerDay, q => q.ToUnit(VolumeFlowUnit.OilBarrelPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.OilBarrelPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.OilBarrelPerHour, q => q.ToUnit(VolumeFlowUnit.OilBarrelPerHour)); + unitConverter.SetConversionFunction(VolumeFlowUnit.OilBarrelPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.OilBarrelPerMinute, q => q.ToUnit(VolumeFlowUnit.OilBarrelPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.OilBarrelPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.OilBarrelPerSecond, q => q.ToUnit(VolumeFlowUnit.OilBarrelPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.OilBarrelPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UkGallonPerDay, q => q.ToUnit(VolumeFlowUnit.UkGallonPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.UkGallonPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UkGallonPerHour, q => q.ToUnit(VolumeFlowUnit.UkGallonPerHour)); + unitConverter.SetConversionFunction(VolumeFlowUnit.UkGallonPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UkGallonPerMinute, q => q.ToUnit(VolumeFlowUnit.UkGallonPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.UkGallonPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UkGallonPerSecond, q => q.ToUnit(VolumeFlowUnit.UkGallonPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.UkGallonPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UsGallonPerDay, q => q.ToUnit(VolumeFlowUnit.UsGallonPerDay)); + unitConverter.SetConversionFunction(VolumeFlowUnit.UsGallonPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UsGallonPerHour, q => q.ToUnit(VolumeFlowUnit.UsGallonPerHour)); + unitConverter.SetConversionFunction(VolumeFlowUnit.UsGallonPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UsGallonPerMinute, q => q.ToUnit(VolumeFlowUnit.UsGallonPerMinute)); + unitConverter.SetConversionFunction(VolumeFlowUnit.UsGallonPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UsGallonPerSecond, q => q.ToUnit(VolumeFlowUnit.UsGallonPerSecond)); + unitConverter.SetConversionFunction(VolumeFlowUnit.UsGallonPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerCentimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerFoot)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerInch, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerInch)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerMeter, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerMeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerMeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.GigawattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.GigawattPerMillimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.GigawattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerCentimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerFoot)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerInch, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerInch)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerMeter, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerMeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerMeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.KilowattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.KilowattPerMillimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.KilowattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerCentimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerFoot)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerInch, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerInch)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerMeter, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerMeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerMeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MegawattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.MegawattPerMillimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MegawattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerCentimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerFoot)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerInch, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerInch)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerMeter, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerMeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerMeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.MilliwattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.MilliwattPerMillimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.MilliwattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.WattPerCentimeter, q => q.ToUnit(LinearPowerDensityUnit.WattPerCentimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.WattPerCentimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.WattPerFoot, q => q.ToUnit(LinearPowerDensityUnit.WattPerFoot)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.WattPerFoot, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.WattPerInch, q => q.ToUnit(LinearPowerDensityUnit.WattPerInch)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.WattPerInch, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensity.BaseUnit, q => q); + unitConverter.SetConversionFunction(LinearPowerDensity.BaseUnit, LinearPowerDensityUnit.WattPerMillimeter, q => q.ToUnit(LinearPowerDensityUnit.WattPerMillimeter)); + unitConverter.SetConversionFunction(LinearPowerDensityUnit.WattPerMillimeter, LinearPowerDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.KilovoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.KilovoltPerHour)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.KilovoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.KilovoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.KilovoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.KilovoltPerMinute)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.KilovoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.KilovoltPerSecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.KilovoltPerSecond)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.KilovoltPerSecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MegavoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.MegavoltPerHour)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MegavoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MegavoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MegavoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.MegavoltPerMinute)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MegavoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MegavoltPerSecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MegavoltPerSecond)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MegavoltPerSecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MicrovoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.MicrovoltPerHour)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MicrovoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MicrovoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MicrovoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.MicrovoltPerMinute)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MicrovoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MicrovoltPerSecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MicrovoltPerSecond)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MicrovoltPerSecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MillivoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.MillivoltPerHour)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MillivoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MillivoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MillivoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.MillivoltPerMinute)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MillivoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.MillivoltPerSecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.MillivoltPerSecond)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.MillivoltPerSecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.VoltPerHour, q => q.ToUnit(ElectricPotentialChangeRateUnit.VoltPerHour)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.VoltPerHour, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.VoltPerMicrosecond, q => q.ToUnit(ElectricPotentialChangeRateUnit.VoltPerMicrosecond)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.VoltPerMicrosecond, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRateUnit.VoltPerMinute, q => q.ToUnit(ElectricPotentialChangeRateUnit.VoltPerMinute)); + unitConverter.SetConversionFunction(ElectricPotentialChangeRateUnit.VoltPerMinute, ElectricPotentialChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialChangeRate.BaseUnit, ElectricPotentialChangeRate.BaseUnit, q => q); + unitConverter.SetConversionFunction(Capacitance.BaseUnit, Capacitance.BaseUnit, q => q); + unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Kilofarad, q => q.ToUnit(CapacitanceUnit.Kilofarad)); + unitConverter.SetConversionFunction(CapacitanceUnit.Kilofarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Megafarad, q => q.ToUnit(CapacitanceUnit.Megafarad)); + unitConverter.SetConversionFunction(CapacitanceUnit.Megafarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Microfarad, q => q.ToUnit(CapacitanceUnit.Microfarad)); + unitConverter.SetConversionFunction(CapacitanceUnit.Microfarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Millifarad, q => q.ToUnit(CapacitanceUnit.Millifarad)); + unitConverter.SetConversionFunction(CapacitanceUnit.Millifarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Nanofarad, q => q.ToUnit(CapacitanceUnit.Nanofarad)); + unitConverter.SetConversionFunction(CapacitanceUnit.Nanofarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Capacitance.BaseUnit, CapacitanceUnit.Picofarad, q => q.ToUnit(CapacitanceUnit.Picofarad)); + unitConverter.SetConversionFunction(CapacitanceUnit.Picofarad, Capacitance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.GramPerCentimeter, q => q.ToUnit(LinearDensityUnit.GramPerCentimeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.GramPerCentimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.GramPerMeter, q => q.ToUnit(LinearDensityUnit.GramPerMeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.GramPerMeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.GramPerMillimeter, q => q.ToUnit(LinearDensityUnit.GramPerMillimeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.GramPerMillimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.KilogramPerCentimeter, q => q.ToUnit(LinearDensityUnit.KilogramPerCentimeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.KilogramPerCentimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensity.BaseUnit, q => q); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.KilogramPerMillimeter, q => q.ToUnit(LinearDensityUnit.KilogramPerMillimeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.KilogramPerMillimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MicrogramPerCentimeter, q => q.ToUnit(LinearDensityUnit.MicrogramPerCentimeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.MicrogramPerCentimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MicrogramPerMeter, q => q.ToUnit(LinearDensityUnit.MicrogramPerMeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.MicrogramPerMeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MicrogramPerMillimeter, q => q.ToUnit(LinearDensityUnit.MicrogramPerMillimeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.MicrogramPerMillimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MilligramPerCentimeter, q => q.ToUnit(LinearDensityUnit.MilligramPerCentimeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.MilligramPerCentimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MilligramPerMeter, q => q.ToUnit(LinearDensityUnit.MilligramPerMeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.MilligramPerMeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.MilligramPerMillimeter, q => q.ToUnit(LinearDensityUnit.MilligramPerMillimeter)); + unitConverter.SetConversionFunction(LinearDensityUnit.MilligramPerMillimeter, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.PoundPerFoot, q => q.ToUnit(LinearDensityUnit.PoundPerFoot)); + unitConverter.SetConversionFunction(LinearDensityUnit.PoundPerFoot, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LinearDensity.BaseUnit, LinearDensityUnit.PoundPerInch, q => q.ToUnit(LinearDensityUnit.PoundPerInch)); + unitConverter.SetConversionFunction(LinearDensityUnit.PoundPerInch, LinearDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseCentimeter, q => q.ToUnit(ReciprocalLengthUnit.InverseCentimeter)); + unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseCentimeter, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseFoot, q => q.ToUnit(ReciprocalLengthUnit.InverseFoot)); + unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseFoot, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseInch, q => q.ToUnit(ReciprocalLengthUnit.InverseInch)); + unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseInch, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLength.BaseUnit, q => q); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseMicroinch, q => q.ToUnit(ReciprocalLengthUnit.InverseMicroinch)); + unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseMicroinch, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseMil, q => q.ToUnit(ReciprocalLengthUnit.InverseMil)); + unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseMil, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseMile, q => q.ToUnit(ReciprocalLengthUnit.InverseMile)); + unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseMile, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseMillimeter, q => q.ToUnit(ReciprocalLengthUnit.InverseMillimeter)); + unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseMillimeter, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseUsSurveyFoot, q => q.ToUnit(ReciprocalLengthUnit.InverseUsSurveyFoot)); + unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseUsSurveyFoot, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReciprocalLength.BaseUnit, ReciprocalLengthUnit.InverseYard, q => q.ToUnit(ReciprocalLengthUnit.InverseYard)); + unitConverter.SetConversionFunction(ReciprocalLengthUnit.InverseYard, ReciprocalLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(AreaDensity.BaseUnit, AreaDensity.BaseUnit, q => q); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerHourPerSquareCentimeter, q => q.ToUnit(MassFluxUnit.GramPerHourPerSquareCentimeter)); + unitConverter.SetConversionFunction(MassFluxUnit.GramPerHourPerSquareCentimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerHourPerSquareMeter, q => q.ToUnit(MassFluxUnit.GramPerHourPerSquareMeter)); + unitConverter.SetConversionFunction(MassFluxUnit.GramPerHourPerSquareMeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerHourPerSquareMillimeter, q => q.ToUnit(MassFluxUnit.GramPerHourPerSquareMillimeter)); + unitConverter.SetConversionFunction(MassFluxUnit.GramPerHourPerSquareMillimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerSecondPerSquareCentimeter, q => q.ToUnit(MassFluxUnit.GramPerSecondPerSquareCentimeter)); + unitConverter.SetConversionFunction(MassFluxUnit.GramPerSecondPerSquareCentimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerSecondPerSquareMeter, q => q.ToUnit(MassFluxUnit.GramPerSecondPerSquareMeter)); + unitConverter.SetConversionFunction(MassFluxUnit.GramPerSecondPerSquareMeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.GramPerSecondPerSquareMillimeter, q => q.ToUnit(MassFluxUnit.GramPerSecondPerSquareMillimeter)); + unitConverter.SetConversionFunction(MassFluxUnit.GramPerSecondPerSquareMillimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerHourPerSquareCentimeter, q => q.ToUnit(MassFluxUnit.KilogramPerHourPerSquareCentimeter)); + unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerHourPerSquareCentimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerHourPerSquareMeter, q => q.ToUnit(MassFluxUnit.KilogramPerHourPerSquareMeter)); + unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerHourPerSquareMeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerHourPerSquareMillimeter, q => q.ToUnit(MassFluxUnit.KilogramPerHourPerSquareMillimeter)); + unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerHourPerSquareMillimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerSecondPerSquareCentimeter, q => q.ToUnit(MassFluxUnit.KilogramPerSecondPerSquareCentimeter)); + unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerSecondPerSquareCentimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFlux.BaseUnit, q => q); + unitConverter.SetConversionFunction(MassFlux.BaseUnit, MassFluxUnit.KilogramPerSecondPerSquareMillimeter, q => q.ToUnit(MassFluxUnit.KilogramPerSecondPerSquareMillimeter)); + unitConverter.SetConversionFunction(MassFluxUnit.KilogramPerSecondPerSquareMillimeter, MassFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MagneticFlux.BaseUnit, MagneticFlux.BaseUnit, q => q); + unitConverter.SetConversionFunction(ApparentEnergy.BaseUnit, ApparentEnergyUnit.KilovoltampereHour, q => q.ToUnit(ApparentEnergyUnit.KilovoltampereHour)); + unitConverter.SetConversionFunction(ApparentEnergyUnit.KilovoltampereHour, ApparentEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ApparentEnergy.BaseUnit, ApparentEnergyUnit.MegavoltampereHour, q => q.ToUnit(ApparentEnergyUnit.MegavoltampereHour)); + unitConverter.SetConversionFunction(ApparentEnergyUnit.MegavoltampereHour, ApparentEnergy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ApparentEnergy.BaseUnit, ApparentEnergy.BaseUnit, q => q); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.CentimeterPerHour, q => q.ToUnit(SpeedUnit.CentimeterPerHour)); + unitConverter.SetConversionFunction(SpeedUnit.CentimeterPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.CentimeterPerMinute, q => q.ToUnit(SpeedUnit.CentimeterPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.CentimeterPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.CentimeterPerSecond, q => q.ToUnit(SpeedUnit.CentimeterPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.CentimeterPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.DecimeterPerMinute, q => q.ToUnit(SpeedUnit.DecimeterPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.DecimeterPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.DecimeterPerSecond, q => q.ToUnit(SpeedUnit.DecimeterPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.DecimeterPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.FootPerHour, q => q.ToUnit(SpeedUnit.FootPerHour)); + unitConverter.SetConversionFunction(SpeedUnit.FootPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.FootPerMinute, q => q.ToUnit(SpeedUnit.FootPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.FootPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.FootPerSecond, q => q.ToUnit(SpeedUnit.FootPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.FootPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.InchPerHour, q => q.ToUnit(SpeedUnit.InchPerHour)); + unitConverter.SetConversionFunction(SpeedUnit.InchPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.InchPerMinute, q => q.ToUnit(SpeedUnit.InchPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.InchPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.InchPerSecond, q => q.ToUnit(SpeedUnit.InchPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.InchPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.KilometerPerHour, q => q.ToUnit(SpeedUnit.KilometerPerHour)); + unitConverter.SetConversionFunction(SpeedUnit.KilometerPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.KilometerPerMinute, q => q.ToUnit(SpeedUnit.KilometerPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.KilometerPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.KilometerPerSecond, q => q.ToUnit(SpeedUnit.KilometerPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.KilometerPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.Knot, q => q.ToUnit(SpeedUnit.Knot)); + unitConverter.SetConversionFunction(SpeedUnit.Knot, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MeterPerHour, q => q.ToUnit(SpeedUnit.MeterPerHour)); + unitConverter.SetConversionFunction(SpeedUnit.MeterPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MeterPerMinute, q => q.ToUnit(SpeedUnit.MeterPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.MeterPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, Speed.BaseUnit, q => q); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MicrometerPerMinute, q => q.ToUnit(SpeedUnit.MicrometerPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.MicrometerPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MicrometerPerSecond, q => q.ToUnit(SpeedUnit.MicrometerPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.MicrometerPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MilePerHour, q => q.ToUnit(SpeedUnit.MilePerHour)); + unitConverter.SetConversionFunction(SpeedUnit.MilePerHour, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MillimeterPerHour, q => q.ToUnit(SpeedUnit.MillimeterPerHour)); + unitConverter.SetConversionFunction(SpeedUnit.MillimeterPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MillimeterPerMinute, q => q.ToUnit(SpeedUnit.MillimeterPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.MillimeterPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.MillimeterPerSecond, q => q.ToUnit(SpeedUnit.MillimeterPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.MillimeterPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.NanometerPerMinute, q => q.ToUnit(SpeedUnit.NanometerPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.NanometerPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.NanometerPerSecond, q => q.ToUnit(SpeedUnit.NanometerPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.NanometerPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.UsSurveyFootPerHour, q => q.ToUnit(SpeedUnit.UsSurveyFootPerHour)); + unitConverter.SetConversionFunction(SpeedUnit.UsSurveyFootPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.UsSurveyFootPerMinute, q => q.ToUnit(SpeedUnit.UsSurveyFootPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.UsSurveyFootPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.UsSurveyFootPerSecond, q => q.ToUnit(SpeedUnit.UsSurveyFootPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.UsSurveyFootPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.YardPerHour, q => q.ToUnit(SpeedUnit.YardPerHour)); + unitConverter.SetConversionFunction(SpeedUnit.YardPerHour, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.YardPerMinute, q => q.ToUnit(SpeedUnit.YardPerMinute)); + unitConverter.SetConversionFunction(SpeedUnit.YardPerMinute, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Speed.BaseUnit, SpeedUnit.YardPerSecond, q => q.ToUnit(SpeedUnit.YardPerSecond)); + unitConverter.SetConversionFunction(SpeedUnit.YardPerSecond, Speed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRate.BaseUnit, q => q); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.BytePerSecond, q => q.ToUnit(BitRateUnit.BytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.BytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.ExabitPerSecond, q => q.ToUnit(BitRateUnit.ExabitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.ExabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.ExabytePerSecond, q => q.ToUnit(BitRateUnit.ExabytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.ExabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.ExbibitPerSecond, q => q.ToUnit(BitRateUnit.ExbibitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.ExbibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.ExbibytePerSecond, q => q.ToUnit(BitRateUnit.ExbibytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.ExbibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.GibibitPerSecond, q => q.ToUnit(BitRateUnit.GibibitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.GibibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.GibibytePerSecond, q => q.ToUnit(BitRateUnit.GibibytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.GibibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.GigabitPerSecond, q => q.ToUnit(BitRateUnit.GigabitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.GigabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.GigabytePerSecond, q => q.ToUnit(BitRateUnit.GigabytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.GigabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.KibibitPerSecond, q => q.ToUnit(BitRateUnit.KibibitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.KibibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.KibibytePerSecond, q => q.ToUnit(BitRateUnit.KibibytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.KibibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.KilobitPerSecond, q => q.ToUnit(BitRateUnit.KilobitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.KilobitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.KilobytePerSecond, q => q.ToUnit(BitRateUnit.KilobytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.KilobytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.MebibitPerSecond, q => q.ToUnit(BitRateUnit.MebibitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.MebibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.MebibytePerSecond, q => q.ToUnit(BitRateUnit.MebibytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.MebibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.MegabitPerSecond, q => q.ToUnit(BitRateUnit.MegabitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.MegabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.MegabytePerSecond, q => q.ToUnit(BitRateUnit.MegabytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.MegabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.PebibitPerSecond, q => q.ToUnit(BitRateUnit.PebibitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.PebibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.PebibytePerSecond, q => q.ToUnit(BitRateUnit.PebibytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.PebibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.PetabitPerSecond, q => q.ToUnit(BitRateUnit.PetabitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.PetabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.PetabytePerSecond, q => q.ToUnit(BitRateUnit.PetabytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.PetabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.TebibitPerSecond, q => q.ToUnit(BitRateUnit.TebibitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.TebibitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.TebibytePerSecond, q => q.ToUnit(BitRateUnit.TebibytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.TebibytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.TerabitPerSecond, q => q.ToUnit(BitRateUnit.TerabitPerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.TerabitPerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BitRate.BaseUnit, BitRateUnit.TerabytePerSecond, q => q.ToUnit(BitRateUnit.TerabytePerSecond)); + unitConverter.SetConversionFunction(BitRateUnit.TerabytePerSecond, BitRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.Acre, q => q.ToUnit(AreaUnit.Acre)); + unitConverter.SetConversionFunction(AreaUnit.Acre, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.Hectare, q => q.ToUnit(AreaUnit.Hectare)); + unitConverter.SetConversionFunction(AreaUnit.Hectare, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareCentimeter, q => q.ToUnit(AreaUnit.SquareCentimeter)); + unitConverter.SetConversionFunction(AreaUnit.SquareCentimeter, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareDecimeter, q => q.ToUnit(AreaUnit.SquareDecimeter)); + unitConverter.SetConversionFunction(AreaUnit.SquareDecimeter, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareFoot, q => q.ToUnit(AreaUnit.SquareFoot)); + unitConverter.SetConversionFunction(AreaUnit.SquareFoot, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareInch, q => q.ToUnit(AreaUnit.SquareInch)); + unitConverter.SetConversionFunction(AreaUnit.SquareInch, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareKilometer, q => q.ToUnit(AreaUnit.SquareKilometer)); + unitConverter.SetConversionFunction(AreaUnit.SquareKilometer, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, Area.BaseUnit, q => q); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareMicrometer, q => q.ToUnit(AreaUnit.SquareMicrometer)); + unitConverter.SetConversionFunction(AreaUnit.SquareMicrometer, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareMile, q => q.ToUnit(AreaUnit.SquareMile)); + unitConverter.SetConversionFunction(AreaUnit.SquareMile, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareMillimeter, q => q.ToUnit(AreaUnit.SquareMillimeter)); + unitConverter.SetConversionFunction(AreaUnit.SquareMillimeter, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareNauticalMile, q => q.ToUnit(AreaUnit.SquareNauticalMile)); + unitConverter.SetConversionFunction(AreaUnit.SquareNauticalMile, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.SquareYard, q => q.ToUnit(AreaUnit.SquareYard)); + unitConverter.SetConversionFunction(AreaUnit.SquareYard, Area.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Area.BaseUnit, AreaUnit.UsSurveySquareFoot, q => q.ToUnit(AreaUnit.UsSurveySquareFoot)); + unitConverter.SetConversionFunction(AreaUnit.UsSurveySquareFoot, Area.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(VolumeConcentration.BaseUnit, VolumeConcentrationUnit.CentilitersPerLiter, q => q.ToUnit(VolumeConcentrationUnit.CentilitersPerLiter)); unitConverter.SetConversionFunction(VolumeConcentrationUnit.CentilitersPerLiter, VolumeConcentration.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(VolumeConcentration.BaseUnit, VolumeConcentrationUnit.CentilitersPerMililiter, q => q.ToUnit(VolumeConcentrationUnit.CentilitersPerMililiter)); @@ -2424,117 +1282,141 @@ public static void RegisterDefaultConversions(UnitConverter unitConverter) unitConverter.SetConversionFunction(VolumeConcentrationUnit.PicolitersPerLiter, VolumeConcentration.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(VolumeConcentration.BaseUnit, VolumeConcentrationUnit.PicolitersPerMililiter, q => q.ToUnit(VolumeConcentrationUnit.PicolitersPerMililiter)); unitConverter.SetConversionFunction(VolumeConcentrationUnit.PicolitersPerMililiter, VolumeConcentration.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.AcreFootPerDay, q => q.ToUnit(VolumeFlowUnit.AcreFootPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.AcreFootPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.AcreFootPerHour, q => q.ToUnit(VolumeFlowUnit.AcreFootPerHour)); - unitConverter.SetConversionFunction(VolumeFlowUnit.AcreFootPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.AcreFootPerMinute, q => q.ToUnit(VolumeFlowUnit.AcreFootPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.AcreFootPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.AcreFootPerSecond, q => q.ToUnit(VolumeFlowUnit.AcreFootPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.AcreFootPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CentiliterPerDay, q => q.ToUnit(VolumeFlowUnit.CentiliterPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CentiliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CentiliterPerMinute, q => q.ToUnit(VolumeFlowUnit.CentiliterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CentiliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CentiliterPerSecond, q => q.ToUnit(VolumeFlowUnit.CentiliterPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CentiliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicCentimeterPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicCentimeterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicCentimeterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicDecimeterPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicDecimeterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicDecimeterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicFootPerHour, q => q.ToUnit(VolumeFlowUnit.CubicFootPerHour)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicFootPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicFootPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicFootPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicFootPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicFootPerSecond, q => q.ToUnit(VolumeFlowUnit.CubicFootPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicFootPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicMeterPerDay, q => q.ToUnit(VolumeFlowUnit.CubicMeterPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicMeterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicMeterPerHour, q => q.ToUnit(VolumeFlowUnit.CubicMeterPerHour)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicMeterPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicMeterPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicMeterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicMeterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlow.BaseUnit, q => q); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicMillimeterPerSecond, q => q.ToUnit(VolumeFlowUnit.CubicMillimeterPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicMillimeterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicYardPerDay, q => q.ToUnit(VolumeFlowUnit.CubicYardPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicYardPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicYardPerHour, q => q.ToUnit(VolumeFlowUnit.CubicYardPerHour)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicYardPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicYardPerMinute, q => q.ToUnit(VolumeFlowUnit.CubicYardPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicYardPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.CubicYardPerSecond, q => q.ToUnit(VolumeFlowUnit.CubicYardPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.CubicYardPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.DeciliterPerDay, q => q.ToUnit(VolumeFlowUnit.DeciliterPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.DeciliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.DeciliterPerMinute, q => q.ToUnit(VolumeFlowUnit.DeciliterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.DeciliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.DeciliterPerSecond, q => q.ToUnit(VolumeFlowUnit.DeciliterPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.DeciliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.KiloliterPerDay, q => q.ToUnit(VolumeFlowUnit.KiloliterPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.KiloliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.KiloliterPerMinute, q => q.ToUnit(VolumeFlowUnit.KiloliterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.KiloliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.KiloliterPerSecond, q => q.ToUnit(VolumeFlowUnit.KiloliterPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.KiloliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.KilousGallonPerMinute, q => q.ToUnit(VolumeFlowUnit.KilousGallonPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.KilousGallonPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.LiterPerDay, q => q.ToUnit(VolumeFlowUnit.LiterPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.LiterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.LiterPerHour, q => q.ToUnit(VolumeFlowUnit.LiterPerHour)); - unitConverter.SetConversionFunction(VolumeFlowUnit.LiterPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.LiterPerMinute, q => q.ToUnit(VolumeFlowUnit.LiterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.LiterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.LiterPerSecond, q => q.ToUnit(VolumeFlowUnit.LiterPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.LiterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MegaliterPerDay, q => q.ToUnit(VolumeFlowUnit.MegaliterPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.MegaliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MegaukGallonPerSecond, q => q.ToUnit(VolumeFlowUnit.MegaukGallonPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.MegaukGallonPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MicroliterPerDay, q => q.ToUnit(VolumeFlowUnit.MicroliterPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.MicroliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MicroliterPerMinute, q => q.ToUnit(VolumeFlowUnit.MicroliterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.MicroliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MicroliterPerSecond, q => q.ToUnit(VolumeFlowUnit.MicroliterPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.MicroliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MilliliterPerDay, q => q.ToUnit(VolumeFlowUnit.MilliliterPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.MilliliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MilliliterPerMinute, q => q.ToUnit(VolumeFlowUnit.MilliliterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.MilliliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MilliliterPerSecond, q => q.ToUnit(VolumeFlowUnit.MilliliterPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.MilliliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.MillionUsGallonsPerDay, q => q.ToUnit(VolumeFlowUnit.MillionUsGallonsPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.MillionUsGallonsPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.NanoliterPerDay, q => q.ToUnit(VolumeFlowUnit.NanoliterPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.NanoliterPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.NanoliterPerMinute, q => q.ToUnit(VolumeFlowUnit.NanoliterPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.NanoliterPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.NanoliterPerSecond, q => q.ToUnit(VolumeFlowUnit.NanoliterPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.NanoliterPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.OilBarrelPerDay, q => q.ToUnit(VolumeFlowUnit.OilBarrelPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.OilBarrelPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.OilBarrelPerHour, q => q.ToUnit(VolumeFlowUnit.OilBarrelPerHour)); - unitConverter.SetConversionFunction(VolumeFlowUnit.OilBarrelPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.OilBarrelPerMinute, q => q.ToUnit(VolumeFlowUnit.OilBarrelPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.OilBarrelPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.OilBarrelPerSecond, q => q.ToUnit(VolumeFlowUnit.OilBarrelPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.OilBarrelPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UkGallonPerDay, q => q.ToUnit(VolumeFlowUnit.UkGallonPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.UkGallonPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UkGallonPerHour, q => q.ToUnit(VolumeFlowUnit.UkGallonPerHour)); - unitConverter.SetConversionFunction(VolumeFlowUnit.UkGallonPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UkGallonPerMinute, q => q.ToUnit(VolumeFlowUnit.UkGallonPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.UkGallonPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UkGallonPerSecond, q => q.ToUnit(VolumeFlowUnit.UkGallonPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.UkGallonPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UsGallonPerDay, q => q.ToUnit(VolumeFlowUnit.UsGallonPerDay)); - unitConverter.SetConversionFunction(VolumeFlowUnit.UsGallonPerDay, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UsGallonPerHour, q => q.ToUnit(VolumeFlowUnit.UsGallonPerHour)); - unitConverter.SetConversionFunction(VolumeFlowUnit.UsGallonPerHour, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UsGallonPerMinute, q => q.ToUnit(VolumeFlowUnit.UsGallonPerMinute)); - unitConverter.SetConversionFunction(VolumeFlowUnit.UsGallonPerMinute, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumeFlow.BaseUnit, VolumeFlowUnit.UsGallonPerSecond, q => q.ToUnit(VolumeFlowUnit.UsGallonPerSecond)); - unitConverter.SetConversionFunction(VolumeFlowUnit.UsGallonPerSecond, VolumeFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Permittivity.BaseUnit, Permittivity.BaseUnit, q => q); + unitConverter.SetConversionFunction(Information.BaseUnit, Information.BaseUnit, q => q); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Byte, q => q.ToUnit(InformationUnit.Byte)); + unitConverter.SetConversionFunction(InformationUnit.Byte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Exabit, q => q.ToUnit(InformationUnit.Exabit)); + unitConverter.SetConversionFunction(InformationUnit.Exabit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Exabyte, q => q.ToUnit(InformationUnit.Exabyte)); + unitConverter.SetConversionFunction(InformationUnit.Exabyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Exbibit, q => q.ToUnit(InformationUnit.Exbibit)); + unitConverter.SetConversionFunction(InformationUnit.Exbibit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Exbibyte, q => q.ToUnit(InformationUnit.Exbibyte)); + unitConverter.SetConversionFunction(InformationUnit.Exbibyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Gibibit, q => q.ToUnit(InformationUnit.Gibibit)); + unitConverter.SetConversionFunction(InformationUnit.Gibibit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Gibibyte, q => q.ToUnit(InformationUnit.Gibibyte)); + unitConverter.SetConversionFunction(InformationUnit.Gibibyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Gigabit, q => q.ToUnit(InformationUnit.Gigabit)); + unitConverter.SetConversionFunction(InformationUnit.Gigabit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Gigabyte, q => q.ToUnit(InformationUnit.Gigabyte)); + unitConverter.SetConversionFunction(InformationUnit.Gigabyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Kibibit, q => q.ToUnit(InformationUnit.Kibibit)); + unitConverter.SetConversionFunction(InformationUnit.Kibibit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Kibibyte, q => q.ToUnit(InformationUnit.Kibibyte)); + unitConverter.SetConversionFunction(InformationUnit.Kibibyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Kilobit, q => q.ToUnit(InformationUnit.Kilobit)); + unitConverter.SetConversionFunction(InformationUnit.Kilobit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Kilobyte, q => q.ToUnit(InformationUnit.Kilobyte)); + unitConverter.SetConversionFunction(InformationUnit.Kilobyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Mebibit, q => q.ToUnit(InformationUnit.Mebibit)); + unitConverter.SetConversionFunction(InformationUnit.Mebibit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Mebibyte, q => q.ToUnit(InformationUnit.Mebibyte)); + unitConverter.SetConversionFunction(InformationUnit.Mebibyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Megabit, q => q.ToUnit(InformationUnit.Megabit)); + unitConverter.SetConversionFunction(InformationUnit.Megabit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Megabyte, q => q.ToUnit(InformationUnit.Megabyte)); + unitConverter.SetConversionFunction(InformationUnit.Megabyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Pebibit, q => q.ToUnit(InformationUnit.Pebibit)); + unitConverter.SetConversionFunction(InformationUnit.Pebibit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Pebibyte, q => q.ToUnit(InformationUnit.Pebibyte)); + unitConverter.SetConversionFunction(InformationUnit.Pebibyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Petabit, q => q.ToUnit(InformationUnit.Petabit)); + unitConverter.SetConversionFunction(InformationUnit.Petabit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Petabyte, q => q.ToUnit(InformationUnit.Petabyte)); + unitConverter.SetConversionFunction(InformationUnit.Petabyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Tebibit, q => q.ToUnit(InformationUnit.Tebibit)); + unitConverter.SetConversionFunction(InformationUnit.Tebibit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Tebibyte, q => q.ToUnit(InformationUnit.Tebibyte)); + unitConverter.SetConversionFunction(InformationUnit.Tebibyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Terabit, q => q.ToUnit(InformationUnit.Terabit)); + unitConverter.SetConversionFunction(InformationUnit.Terabit, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Information.BaseUnit, InformationUnit.Terabyte, q => q.ToUnit(InformationUnit.Terabyte)); + unitConverter.SetConversionFunction(InformationUnit.Terabyte, Information.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(LapseRate.BaseUnit, LapseRate.BaseUnit, q => q); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.CentinewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.CentinewtonMeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.CentinewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.CentinewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.CentinewtonMillimeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.CentinewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.CentinewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.CentinewtonMillimeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.CentinewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecanewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.DecanewtonMeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecanewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecanewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.DecanewtonMillimeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecanewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecanewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.DecanewtonMillimeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecanewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecinewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.DecinewtonMeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecinewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecinewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.DecinewtonMillimeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecinewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.DecinewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.DecinewtonMillimeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.DecinewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilonewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.KilonewtonMeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilonewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilonewtonMeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.KilonewtonMeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilonewtonMeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilonewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.KilonewtonMillimeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilonewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilonewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.KilonewtonMillimeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilonewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.KilopoundForceFootPerDegrees, q => q.ToUnit(RotationalStiffnessUnit.KilopoundForceFootPerDegrees)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.KilopoundForceFootPerDegrees, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MeganewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MeganewtonMeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MeganewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MeganewtonMeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.MeganewtonMeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MeganewtonMeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MeganewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MeganewtonMillimeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MeganewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MeganewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.MeganewtonMillimeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MeganewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MicronewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MicronewtonMeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MicronewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MicronewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MicronewtonMillimeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MicronewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MicronewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.MicronewtonMillimeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MicronewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MillinewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MillinewtonMeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MillinewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MillinewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.MillinewtonMillimeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MillinewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.MillinewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.MillinewtonMillimeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.MillinewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NanonewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.NanonewtonMeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.NanonewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NanonewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.NanonewtonMillimeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.NanonewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NanonewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.NanonewtonMillimeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.NanonewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NewtonMeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.NewtonMeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.NewtonMeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffness.BaseUnit, q => q); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NewtonMillimeterPerDegree, q => q.ToUnit(RotationalStiffnessUnit.NewtonMillimeterPerDegree)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.NewtonMillimeterPerDegree, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.NewtonMillimeterPerRadian, q => q.ToUnit(RotationalStiffnessUnit.NewtonMillimeterPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.NewtonMillimeterPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.PoundForceFeetPerRadian, q => q.ToUnit(RotationalStiffnessUnit.PoundForceFeetPerRadian)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.PoundForceFeetPerRadian, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalStiffness.BaseUnit, RotationalStiffnessUnit.PoundForceFootPerDegrees, q => q.ToUnit(RotationalStiffnessUnit.PoundForceFootPerDegrees)); + unitConverter.SetConversionFunction(RotationalStiffnessUnit.PoundForceFootPerDegrees, RotationalStiffness.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricChargeDensity.BaseUnit, ElectricChargeDensity.BaseUnit, q => q); + unitConverter.SetConversionFunction(FuelEfficiency.BaseUnit, FuelEfficiencyUnit.KilometerPerLiter, q => q.ToUnit(FuelEfficiencyUnit.KilometerPerLiter)); + unitConverter.SetConversionFunction(FuelEfficiencyUnit.KilometerPerLiter, FuelEfficiency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(FuelEfficiency.BaseUnit, FuelEfficiency.BaseUnit, q => q); + unitConverter.SetConversionFunction(FuelEfficiency.BaseUnit, FuelEfficiencyUnit.MilePerUkGallon, q => q.ToUnit(FuelEfficiencyUnit.MilePerUkGallon)); + unitConverter.SetConversionFunction(FuelEfficiencyUnit.MilePerUkGallon, FuelEfficiency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(FuelEfficiency.BaseUnit, FuelEfficiencyUnit.MilePerUsGallon, q => q.ToUnit(FuelEfficiencyUnit.MilePerUsGallon)); + unitConverter.SetConversionFunction(FuelEfficiencyUnit.MilePerUsGallon, FuelEfficiency.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotentialUnit.Kilovolt, q => q.ToUnit(ElectricPotentialUnit.Kilovolt)); + unitConverter.SetConversionFunction(ElectricPotentialUnit.Kilovolt, ElectricPotential.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotentialUnit.Megavolt, q => q.ToUnit(ElectricPotentialUnit.Megavolt)); + unitConverter.SetConversionFunction(ElectricPotentialUnit.Megavolt, ElectricPotential.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotentialUnit.Microvolt, q => q.ToUnit(ElectricPotentialUnit.Microvolt)); + unitConverter.SetConversionFunction(ElectricPotentialUnit.Microvolt, ElectricPotential.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotentialUnit.Millivolt, q => q.ToUnit(ElectricPotentialUnit.Millivolt)); + unitConverter.SetConversionFunction(ElectricPotentialUnit.Millivolt, ElectricPotential.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotential.BaseUnit, ElectricPotential.BaseUnit, q => q); unitConverter.SetConversionFunction(VolumePerLength.BaseUnit, VolumePerLength.BaseUnit, q => q); unitConverter.SetConversionFunction(VolumePerLength.BaseUnit, VolumePerLengthUnit.CubicYardPerFoot, q => q.ToUnit(VolumePerLengthUnit.CubicYardPerFoot)); unitConverter.SetConversionFunction(VolumePerLengthUnit.CubicYardPerFoot, VolumePerLength.BaseUnit, q => q.ToBaseUnit()); @@ -2548,23 +1430,311 @@ public static void RegisterDefaultConversions(UnitConverter unitConverter) unitConverter.SetConversionFunction(VolumePerLengthUnit.LiterPerMillimeter, VolumePerLength.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(VolumePerLength.BaseUnit, VolumePerLengthUnit.OilBarrelPerFoot, q => q.ToUnit(VolumePerLengthUnit.OilBarrelPerFoot)); unitConverter.SetConversionFunction(VolumePerLengthUnit.OilBarrelPerFoot, VolumePerLength.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit, q => q.ToUnit(VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit)); - unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.BtuPerCubicFootDegreeFahrenheit, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius)); - unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.CaloriePerCubicCentimeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius)); - unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.JoulePerCubicMeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacity.BaseUnit, q => q); - unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius)); - unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.KilocaloriePerCubicCentimeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius)); - unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.KilojoulePerCubicMeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin, q => q.ToUnit(VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin)); - unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.KilojoulePerCubicMeterKelvin, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius, q => q.ToUnit(VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius)); - unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.MegajoulePerCubicMeterDegreeCelsius, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); - unitConverter.SetConversionFunction(VolumetricHeatCapacity.BaseUnit, VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, q => q.ToUnit(VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin)); - unitConverter.SetConversionFunction(VolumetricHeatCapacityUnit.MegajoulePerCubicMeterKelvin, VolumetricHeatCapacity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.CentimeterToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.CentimeterToTheFourth)); + unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.CentimeterToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.DecimeterToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.DecimeterToTheFourth)); + unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.DecimeterToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.FootToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.FootToTheFourth)); + unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.FootToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.InchToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.InchToTheFourth)); + unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.InchToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertia.BaseUnit, q => q); + unitConverter.SetConversionFunction(AreaMomentOfInertia.BaseUnit, AreaMomentOfInertiaUnit.MillimeterToTheFourth, q => q.ToUnit(AreaMomentOfInertiaUnit.MillimeterToTheFourth)); + unitConverter.SetConversionFunction(AreaMomentOfInertiaUnit.MillimeterToTheFourth, AreaMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(VitaminA.BaseUnit, VitaminA.BaseUnit, q => q); + unitConverter.SetConversionFunction(Illuminance.BaseUnit, IlluminanceUnit.Kilolux, q => q.ToUnit(IlluminanceUnit.Kilolux)); + unitConverter.SetConversionFunction(IlluminanceUnit.Kilolux, Illuminance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Illuminance.BaseUnit, Illuminance.BaseUnit, q => q); + unitConverter.SetConversionFunction(Illuminance.BaseUnit, IlluminanceUnit.Megalux, q => q.ToUnit(IlluminanceUnit.Megalux)); + unitConverter.SetConversionFunction(IlluminanceUnit.Megalux, Illuminance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Illuminance.BaseUnit, IlluminanceUnit.Millilux, q => q.ToUnit(IlluminanceUnit.Millilux)); + unitConverter.SetConversionFunction(IlluminanceUnit.Millilux, Illuminance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Centigram, q => q.ToUnit(MassUnit.Centigram)); + unitConverter.SetConversionFunction(MassUnit.Centigram, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Decagram, q => q.ToUnit(MassUnit.Decagram)); + unitConverter.SetConversionFunction(MassUnit.Decagram, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Decigram, q => q.ToUnit(MassUnit.Decigram)); + unitConverter.SetConversionFunction(MassUnit.Decigram, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.EarthMass, q => q.ToUnit(MassUnit.EarthMass)); + unitConverter.SetConversionFunction(MassUnit.EarthMass, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Grain, q => q.ToUnit(MassUnit.Grain)); + unitConverter.SetConversionFunction(MassUnit.Grain, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Gram, q => q.ToUnit(MassUnit.Gram)); + unitConverter.SetConversionFunction(MassUnit.Gram, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Hectogram, q => q.ToUnit(MassUnit.Hectogram)); + unitConverter.SetConversionFunction(MassUnit.Hectogram, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, Mass.BaseUnit, q => q); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Kilopound, q => q.ToUnit(MassUnit.Kilopound)); + unitConverter.SetConversionFunction(MassUnit.Kilopound, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Kilotonne, q => q.ToUnit(MassUnit.Kilotonne)); + unitConverter.SetConversionFunction(MassUnit.Kilotonne, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.LongHundredweight, q => q.ToUnit(MassUnit.LongHundredweight)); + unitConverter.SetConversionFunction(MassUnit.LongHundredweight, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.LongTon, q => q.ToUnit(MassUnit.LongTon)); + unitConverter.SetConversionFunction(MassUnit.LongTon, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Megapound, q => q.ToUnit(MassUnit.Megapound)); + unitConverter.SetConversionFunction(MassUnit.Megapound, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Megatonne, q => q.ToUnit(MassUnit.Megatonne)); + unitConverter.SetConversionFunction(MassUnit.Megatonne, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Microgram, q => q.ToUnit(MassUnit.Microgram)); + unitConverter.SetConversionFunction(MassUnit.Microgram, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Milligram, q => q.ToUnit(MassUnit.Milligram)); + unitConverter.SetConversionFunction(MassUnit.Milligram, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Nanogram, q => q.ToUnit(MassUnit.Nanogram)); + unitConverter.SetConversionFunction(MassUnit.Nanogram, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Ounce, q => q.ToUnit(MassUnit.Ounce)); + unitConverter.SetConversionFunction(MassUnit.Ounce, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Pound, q => q.ToUnit(MassUnit.Pound)); + unitConverter.SetConversionFunction(MassUnit.Pound, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.ShortHundredweight, q => q.ToUnit(MassUnit.ShortHundredweight)); + unitConverter.SetConversionFunction(MassUnit.ShortHundredweight, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.ShortTon, q => q.ToUnit(MassUnit.ShortTon)); + unitConverter.SetConversionFunction(MassUnit.ShortTon, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Slug, q => q.ToUnit(MassUnit.Slug)); + unitConverter.SetConversionFunction(MassUnit.Slug, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.SolarMass, q => q.ToUnit(MassUnit.SolarMass)); + unitConverter.SetConversionFunction(MassUnit.SolarMass, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Stone, q => q.ToUnit(MassUnit.Stone)); + unitConverter.SetConversionFunction(MassUnit.Stone, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Mass.BaseUnit, MassUnit.Tonne, q => q.ToUnit(MassUnit.Tonne)); + unitConverter.SetConversionFunction(MassUnit.Tonne, Mass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarEntropy.BaseUnit, MolarEntropy.BaseUnit, q => q); + unitConverter.SetConversionFunction(MolarEntropy.BaseUnit, MolarEntropyUnit.KilojoulePerMoleKelvin, q => q.ToUnit(MolarEntropyUnit.KilojoulePerMoleKelvin)); + unitConverter.SetConversionFunction(MolarEntropyUnit.KilojoulePerMoleKelvin, MolarEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarEntropy.BaseUnit, MolarEntropyUnit.MegajoulePerMoleKelvin, q => q.ToUnit(MolarEntropyUnit.MegajoulePerMoleKelvin)); + unitConverter.SetConversionFunction(MolarEntropyUnit.MegajoulePerMoleKelvin, MolarEntropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Centistokes, q => q.ToUnit(KinematicViscosityUnit.Centistokes)); + unitConverter.SetConversionFunction(KinematicViscosityUnit.Centistokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Decistokes, q => q.ToUnit(KinematicViscosityUnit.Decistokes)); + unitConverter.SetConversionFunction(KinematicViscosityUnit.Decistokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Kilostokes, q => q.ToUnit(KinematicViscosityUnit.Kilostokes)); + unitConverter.SetConversionFunction(KinematicViscosityUnit.Kilostokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Microstokes, q => q.ToUnit(KinematicViscosityUnit.Microstokes)); + unitConverter.SetConversionFunction(KinematicViscosityUnit.Microstokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Millistokes, q => q.ToUnit(KinematicViscosityUnit.Millistokes)); + unitConverter.SetConversionFunction(KinematicViscosityUnit.Millistokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Nanostokes, q => q.ToUnit(KinematicViscosityUnit.Nanostokes)); + unitConverter.SetConversionFunction(KinematicViscosityUnit.Nanostokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.SquareFootPerSecond, q => q.ToUnit(KinematicViscosityUnit.SquareFootPerSecond)); + unitConverter.SetConversionFunction(KinematicViscosityUnit.SquareFootPerSecond, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosity.BaseUnit, q => q); + unitConverter.SetConversionFunction(KinematicViscosity.BaseUnit, KinematicViscosityUnit.Stokes, q => q.ToUnit(KinematicViscosityUnit.Stokes)); + unitConverter.SetConversionFunction(KinematicViscosityUnit.Stokes, KinematicViscosity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.BritishThermalUnit, q => q.ToUnit(EnergyUnit.BritishThermalUnit)); + unitConverter.SetConversionFunction(EnergyUnit.BritishThermalUnit, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Calorie, q => q.ToUnit(EnergyUnit.Calorie)); + unitConverter.SetConversionFunction(EnergyUnit.Calorie, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.DecathermEc, q => q.ToUnit(EnergyUnit.DecathermEc)); + unitConverter.SetConversionFunction(EnergyUnit.DecathermEc, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.DecathermImperial, q => q.ToUnit(EnergyUnit.DecathermImperial)); + unitConverter.SetConversionFunction(EnergyUnit.DecathermImperial, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.DecathermUs, q => q.ToUnit(EnergyUnit.DecathermUs)); + unitConverter.SetConversionFunction(EnergyUnit.DecathermUs, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.ElectronVolt, q => q.ToUnit(EnergyUnit.ElectronVolt)); + unitConverter.SetConversionFunction(EnergyUnit.ElectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Erg, q => q.ToUnit(EnergyUnit.Erg)); + unitConverter.SetConversionFunction(EnergyUnit.Erg, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.FootPound, q => q.ToUnit(EnergyUnit.FootPound)); + unitConverter.SetConversionFunction(EnergyUnit.FootPound, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.GigabritishThermalUnit, q => q.ToUnit(EnergyUnit.GigabritishThermalUnit)); + unitConverter.SetConversionFunction(EnergyUnit.GigabritishThermalUnit, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.GigaelectronVolt, q => q.ToUnit(EnergyUnit.GigaelectronVolt)); + unitConverter.SetConversionFunction(EnergyUnit.GigaelectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Gigajoule, q => q.ToUnit(EnergyUnit.Gigajoule)); + unitConverter.SetConversionFunction(EnergyUnit.Gigajoule, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.GigawattDay, q => q.ToUnit(EnergyUnit.GigawattDay)); + unitConverter.SetConversionFunction(EnergyUnit.GigawattDay, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.GigawattHour, q => q.ToUnit(EnergyUnit.GigawattHour)); + unitConverter.SetConversionFunction(EnergyUnit.GigawattHour, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.HorsepowerHour, q => q.ToUnit(EnergyUnit.HorsepowerHour)); + unitConverter.SetConversionFunction(EnergyUnit.HorsepowerHour, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, Energy.BaseUnit, q => q); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.KilobritishThermalUnit, q => q.ToUnit(EnergyUnit.KilobritishThermalUnit)); + unitConverter.SetConversionFunction(EnergyUnit.KilobritishThermalUnit, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Kilocalorie, q => q.ToUnit(EnergyUnit.Kilocalorie)); + unitConverter.SetConversionFunction(EnergyUnit.Kilocalorie, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.KiloelectronVolt, q => q.ToUnit(EnergyUnit.KiloelectronVolt)); + unitConverter.SetConversionFunction(EnergyUnit.KiloelectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Kilojoule, q => q.ToUnit(EnergyUnit.Kilojoule)); + unitConverter.SetConversionFunction(EnergyUnit.Kilojoule, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.KilowattDay, q => q.ToUnit(EnergyUnit.KilowattDay)); + unitConverter.SetConversionFunction(EnergyUnit.KilowattDay, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.KilowattHour, q => q.ToUnit(EnergyUnit.KilowattHour)); + unitConverter.SetConversionFunction(EnergyUnit.KilowattHour, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.MegabritishThermalUnit, q => q.ToUnit(EnergyUnit.MegabritishThermalUnit)); + unitConverter.SetConversionFunction(EnergyUnit.MegabritishThermalUnit, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Megacalorie, q => q.ToUnit(EnergyUnit.Megacalorie)); + unitConverter.SetConversionFunction(EnergyUnit.Megacalorie, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.MegaelectronVolt, q => q.ToUnit(EnergyUnit.MegaelectronVolt)); + unitConverter.SetConversionFunction(EnergyUnit.MegaelectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Megajoule, q => q.ToUnit(EnergyUnit.Megajoule)); + unitConverter.SetConversionFunction(EnergyUnit.Megajoule, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.MegawattDay, q => q.ToUnit(EnergyUnit.MegawattDay)); + unitConverter.SetConversionFunction(EnergyUnit.MegawattDay, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.MegawattHour, q => q.ToUnit(EnergyUnit.MegawattHour)); + unitConverter.SetConversionFunction(EnergyUnit.MegawattHour, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.Millijoule, q => q.ToUnit(EnergyUnit.Millijoule)); + unitConverter.SetConversionFunction(EnergyUnit.Millijoule, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.TeraelectronVolt, q => q.ToUnit(EnergyUnit.TeraelectronVolt)); + unitConverter.SetConversionFunction(EnergyUnit.TeraelectronVolt, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.TerawattDay, q => q.ToUnit(EnergyUnit.TerawattDay)); + unitConverter.SetConversionFunction(EnergyUnit.TerawattDay, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.TerawattHour, q => q.ToUnit(EnergyUnit.TerawattHour)); + unitConverter.SetConversionFunction(EnergyUnit.TerawattHour, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.ThermEc, q => q.ToUnit(EnergyUnit.ThermEc)); + unitConverter.SetConversionFunction(EnergyUnit.ThermEc, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.ThermImperial, q => q.ToUnit(EnergyUnit.ThermImperial)); + unitConverter.SetConversionFunction(EnergyUnit.ThermImperial, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.ThermUs, q => q.ToUnit(EnergyUnit.ThermUs)); + unitConverter.SetConversionFunction(EnergyUnit.ThermUs, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.WattDay, q => q.ToUnit(EnergyUnit.WattDay)); + unitConverter.SetConversionFunction(EnergyUnit.WattDay, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Energy.BaseUnit, EnergyUnit.WattHour, q => q.ToUnit(EnergyUnit.WattHour)); + unitConverter.SetConversionFunction(EnergyUnit.WattHour, Energy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificFuelConsumption.BaseUnit, SpecificFuelConsumption.BaseUnit, q => q); + unitConverter.SetConversionFunction(SpecificFuelConsumption.BaseUnit, SpecificFuelConsumptionUnit.KilogramPerKilogramForceHour, q => q.ToUnit(SpecificFuelConsumptionUnit.KilogramPerKilogramForceHour)); + unitConverter.SetConversionFunction(SpecificFuelConsumptionUnit.KilogramPerKilogramForceHour, SpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificFuelConsumption.BaseUnit, SpecificFuelConsumptionUnit.KilogramPerKiloNewtonSecond, q => q.ToUnit(SpecificFuelConsumptionUnit.KilogramPerKiloNewtonSecond)); + unitConverter.SetConversionFunction(SpecificFuelConsumptionUnit.KilogramPerKiloNewtonSecond, SpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificFuelConsumption.BaseUnit, SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour, q => q.ToUnit(SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour)); + unitConverter.SetConversionFunction(SpecificFuelConsumptionUnit.PoundMassPerPoundForceHour, SpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerRatio.BaseUnit, PowerRatioUnit.DecibelMilliwatt, q => q.ToUnit(PowerRatioUnit.DecibelMilliwatt)); + unitConverter.SetConversionFunction(PowerRatioUnit.DecibelMilliwatt, PowerRatio.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(PowerRatio.BaseUnit, PowerRatio.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricCurrentDensity.BaseUnit, ElectricCurrentDensityUnit.AmperePerSquareFoot, q => q.ToUnit(ElectricCurrentDensityUnit.AmperePerSquareFoot)); + unitConverter.SetConversionFunction(ElectricCurrentDensityUnit.AmperePerSquareFoot, ElectricCurrentDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrentDensity.BaseUnit, ElectricCurrentDensityUnit.AmperePerSquareInch, q => q.ToUnit(ElectricCurrentDensityUnit.AmperePerSquareInch)); + unitConverter.SetConversionFunction(ElectricCurrentDensityUnit.AmperePerSquareInch, ElectricCurrentDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrentDensity.BaseUnit, ElectricCurrentDensity.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDcUnit.KilovoltDc, q => q.ToUnit(ElectricPotentialDcUnit.KilovoltDc)); + unitConverter.SetConversionFunction(ElectricPotentialDcUnit.KilovoltDc, ElectricPotentialDc.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDcUnit.MegavoltDc, q => q.ToUnit(ElectricPotentialDcUnit.MegavoltDc)); + unitConverter.SetConversionFunction(ElectricPotentialDcUnit.MegavoltDc, ElectricPotentialDc.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDcUnit.MicrovoltDc, q => q.ToUnit(ElectricPotentialDcUnit.MicrovoltDc)); + unitConverter.SetConversionFunction(ElectricPotentialDcUnit.MicrovoltDc, ElectricPotentialDc.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDcUnit.MillivoltDc, q => q.ToUnit(ElectricPotentialDcUnit.MillivoltDc)); + unitConverter.SetConversionFunction(ElectricPotentialDcUnit.MillivoltDc, ElectricPotentialDc.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialDc.BaseUnit, ElectricPotentialDc.BaseUnit, q => q); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.AstronomicalUnit, q => q.ToUnit(LengthUnit.AstronomicalUnit)); + unitConverter.SetConversionFunction(LengthUnit.AstronomicalUnit, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Centimeter, q => q.ToUnit(LengthUnit.Centimeter)); + unitConverter.SetConversionFunction(LengthUnit.Centimeter, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Chain, q => q.ToUnit(LengthUnit.Chain)); + unitConverter.SetConversionFunction(LengthUnit.Chain, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Decimeter, q => q.ToUnit(LengthUnit.Decimeter)); + unitConverter.SetConversionFunction(LengthUnit.Decimeter, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.DtpPica, q => q.ToUnit(LengthUnit.DtpPica)); + unitConverter.SetConversionFunction(LengthUnit.DtpPica, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.DtpPoint, q => q.ToUnit(LengthUnit.DtpPoint)); + unitConverter.SetConversionFunction(LengthUnit.DtpPoint, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Fathom, q => q.ToUnit(LengthUnit.Fathom)); + unitConverter.SetConversionFunction(LengthUnit.Fathom, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Foot, q => q.ToUnit(LengthUnit.Foot)); + unitConverter.SetConversionFunction(LengthUnit.Foot, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Hand, q => q.ToUnit(LengthUnit.Hand)); + unitConverter.SetConversionFunction(LengthUnit.Hand, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Hectometer, q => q.ToUnit(LengthUnit.Hectometer)); + unitConverter.SetConversionFunction(LengthUnit.Hectometer, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Inch, q => q.ToUnit(LengthUnit.Inch)); + unitConverter.SetConversionFunction(LengthUnit.Inch, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.KilolightYear, q => q.ToUnit(LengthUnit.KilolightYear)); + unitConverter.SetConversionFunction(LengthUnit.KilolightYear, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Kilometer, q => q.ToUnit(LengthUnit.Kilometer)); + unitConverter.SetConversionFunction(LengthUnit.Kilometer, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Kiloparsec, q => q.ToUnit(LengthUnit.Kiloparsec)); + unitConverter.SetConversionFunction(LengthUnit.Kiloparsec, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.LightYear, q => q.ToUnit(LengthUnit.LightYear)); + unitConverter.SetConversionFunction(LengthUnit.LightYear, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.MegalightYear, q => q.ToUnit(LengthUnit.MegalightYear)); + unitConverter.SetConversionFunction(LengthUnit.MegalightYear, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Megaparsec, q => q.ToUnit(LengthUnit.Megaparsec)); + unitConverter.SetConversionFunction(LengthUnit.Megaparsec, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, Length.BaseUnit, q => q); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Microinch, q => q.ToUnit(LengthUnit.Microinch)); + unitConverter.SetConversionFunction(LengthUnit.Microinch, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Micrometer, q => q.ToUnit(LengthUnit.Micrometer)); + unitConverter.SetConversionFunction(LengthUnit.Micrometer, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Mil, q => q.ToUnit(LengthUnit.Mil)); + unitConverter.SetConversionFunction(LengthUnit.Mil, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Mile, q => q.ToUnit(LengthUnit.Mile)); + unitConverter.SetConversionFunction(LengthUnit.Mile, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Millimeter, q => q.ToUnit(LengthUnit.Millimeter)); + unitConverter.SetConversionFunction(LengthUnit.Millimeter, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Nanometer, q => q.ToUnit(LengthUnit.Nanometer)); + unitConverter.SetConversionFunction(LengthUnit.Nanometer, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.NauticalMile, q => q.ToUnit(LengthUnit.NauticalMile)); + unitConverter.SetConversionFunction(LengthUnit.NauticalMile, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Parsec, q => q.ToUnit(LengthUnit.Parsec)); + unitConverter.SetConversionFunction(LengthUnit.Parsec, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.PrinterPica, q => q.ToUnit(LengthUnit.PrinterPica)); + unitConverter.SetConversionFunction(LengthUnit.PrinterPica, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.PrinterPoint, q => q.ToUnit(LengthUnit.PrinterPoint)); + unitConverter.SetConversionFunction(LengthUnit.PrinterPoint, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Shackle, q => q.ToUnit(LengthUnit.Shackle)); + unitConverter.SetConversionFunction(LengthUnit.Shackle, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.SolarRadius, q => q.ToUnit(LengthUnit.SolarRadius)); + unitConverter.SetConversionFunction(LengthUnit.SolarRadius, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Twip, q => q.ToUnit(LengthUnit.Twip)); + unitConverter.SetConversionFunction(LengthUnit.Twip, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.UsSurveyFoot, q => q.ToUnit(LengthUnit.UsSurveyFoot)); + unitConverter.SetConversionFunction(LengthUnit.UsSurveyFoot, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Length.BaseUnit, LengthUnit.Yard, q => q.ToUnit(LengthUnit.Yard)); + unitConverter.SetConversionFunction(LengthUnit.Yard, Length.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.GramSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.GramSquareCentimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.GramSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.GramSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.GramSquareDecimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.GramSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.GramSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.GramSquareMeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.GramSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.GramSquareMillimeter, q => q.ToUnit(MassMomentOfInertiaUnit.GramSquareMillimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.GramSquareMillimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilogramSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilogramSquareCentimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilogramSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilogramSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilogramSquareDecimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilogramSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertia.BaseUnit, q => q); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilogramSquareMillimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilogramSquareMillimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilogramSquareMillimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilotonneSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilotonneSquareCentimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilotonneSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilotonneSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilotonneSquareDecimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilotonneSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilotonneSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilotonneSquareMeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilotonneSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.KilotonneSquareMilimeter, q => q.ToUnit(MassMomentOfInertiaUnit.KilotonneSquareMilimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.KilotonneSquareMilimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MegatonneSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MegatonneSquareCentimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MegatonneSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MegatonneSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MegatonneSquareDecimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MegatonneSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MegatonneSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.MegatonneSquareMeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MegatonneSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MegatonneSquareMilimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MegatonneSquareMilimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MegatonneSquareMilimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MilligramSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MilligramSquareCentimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MilligramSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MilligramSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MilligramSquareDecimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MilligramSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MilligramSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.MilligramSquareMeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MilligramSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.MilligramSquareMillimeter, q => q.ToUnit(MassMomentOfInertiaUnit.MilligramSquareMillimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.MilligramSquareMillimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.PoundSquareFoot, q => q.ToUnit(MassMomentOfInertiaUnit.PoundSquareFoot)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.PoundSquareFoot, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.PoundSquareInch, q => q.ToUnit(MassMomentOfInertiaUnit.PoundSquareInch)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.PoundSquareInch, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.SlugSquareFoot, q => q.ToUnit(MassMomentOfInertiaUnit.SlugSquareFoot)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.SlugSquareFoot, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.SlugSquareInch, q => q.ToUnit(MassMomentOfInertiaUnit.SlugSquareInch)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.SlugSquareInch, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.TonneSquareCentimeter, q => q.ToUnit(MassMomentOfInertiaUnit.TonneSquareCentimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.TonneSquareCentimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.TonneSquareDecimeter, q => q.ToUnit(MassMomentOfInertiaUnit.TonneSquareDecimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.TonneSquareDecimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.TonneSquareMeter, q => q.ToUnit(MassMomentOfInertiaUnit.TonneSquareMeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.TonneSquareMeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassMomentOfInertia.BaseUnit, MassMomentOfInertiaUnit.TonneSquareMilimeter, q => q.ToUnit(MassMomentOfInertiaUnit.TonneSquareMilimeter)); + unitConverter.SetConversionFunction(MassMomentOfInertiaUnit.TonneSquareMilimeter, MassMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(WarpingMomentOfInertia.BaseUnit, WarpingMomentOfInertiaUnit.CentimeterToTheSixth, q => q.ToUnit(WarpingMomentOfInertiaUnit.CentimeterToTheSixth)); unitConverter.SetConversionFunction(WarpingMomentOfInertiaUnit.CentimeterToTheSixth, WarpingMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); unitConverter.SetConversionFunction(WarpingMomentOfInertia.BaseUnit, WarpingMomentOfInertiaUnit.DecimeterToTheSixth, q => q.ToUnit(WarpingMomentOfInertiaUnit.DecimeterToTheSixth)); @@ -2576,6 +1746,836 @@ public static void RegisterDefaultConversions(UnitConverter unitConverter) unitConverter.SetConversionFunction(WarpingMomentOfInertia.BaseUnit, WarpingMomentOfInertia.BaseUnit, q => q); unitConverter.SetConversionFunction(WarpingMomentOfInertia.BaseUnit, WarpingMomentOfInertiaUnit.MillimeterToTheSixth, q => q.ToUnit(WarpingMomentOfInertiaUnit.MillimeterToTheSixth)); unitConverter.SetConversionFunction(WarpingMomentOfInertiaUnit.MillimeterToTheSixth, WarpingMomentOfInertia.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeCelsius, q => q.ToUnit(TemperatureUnit.DegreeCelsius)); + unitConverter.SetConversionFunction(TemperatureUnit.DegreeCelsius, Temperature.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeDelisle, q => q.ToUnit(TemperatureUnit.DegreeDelisle)); + unitConverter.SetConversionFunction(TemperatureUnit.DegreeDelisle, Temperature.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeFahrenheit, q => q.ToUnit(TemperatureUnit.DegreeFahrenheit)); + unitConverter.SetConversionFunction(TemperatureUnit.DegreeFahrenheit, Temperature.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeNewton, q => q.ToUnit(TemperatureUnit.DegreeNewton)); + unitConverter.SetConversionFunction(TemperatureUnit.DegreeNewton, Temperature.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeRankine, q => q.ToUnit(TemperatureUnit.DegreeRankine)); + unitConverter.SetConversionFunction(TemperatureUnit.DegreeRankine, Temperature.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeReaumur, q => q.ToUnit(TemperatureUnit.DegreeReaumur)); + unitConverter.SetConversionFunction(TemperatureUnit.DegreeReaumur, Temperature.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.DegreeRoemer, q => q.ToUnit(TemperatureUnit.DegreeRoemer)); + unitConverter.SetConversionFunction(TemperatureUnit.DegreeRoemer, Temperature.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Temperature.BaseUnit, Temperature.BaseUnit, q => q); + unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.MillidegreeCelsius, q => q.ToUnit(TemperatureUnit.MillidegreeCelsius)); + unitConverter.SetConversionFunction(TemperatureUnit.MillidegreeCelsius, Temperature.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Temperature.BaseUnit, TemperatureUnit.SolarTemperature, q => q.ToUnit(TemperatureUnit.SolarTemperature)); + unitConverter.SetConversionFunction(TemperatureUnit.SolarTemperature, Temperature.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.CentigramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.CentigramPerDeciliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.CentigramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.CentigramPerLiter, q => q.ToUnit(MassConcentrationUnit.CentigramPerLiter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.CentigramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.CentigramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.CentigramPerMicroliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.CentigramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.CentigramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.CentigramPerMilliliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.CentigramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.DecigramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.DecigramPerDeciliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.DecigramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.DecigramPerLiter, q => q.ToUnit(MassConcentrationUnit.DecigramPerLiter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.DecigramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.DecigramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.DecigramPerMicroliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.DecigramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.DecigramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.DecigramPerMilliliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.DecigramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerCubicCentimeter, q => q.ToUnit(MassConcentrationUnit.GramPerCubicCentimeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerCubicCentimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerCubicMeter, q => q.ToUnit(MassConcentrationUnit.GramPerCubicMeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerCubicMeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerCubicMillimeter, q => q.ToUnit(MassConcentrationUnit.GramPerCubicMillimeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerCubicMillimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.GramPerDeciliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerLiter, q => q.ToUnit(MassConcentrationUnit.GramPerLiter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.GramPerMicroliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.GramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.GramPerMilliliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.GramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilogramPerCubicCentimeter, q => q.ToUnit(MassConcentrationUnit.KilogramPerCubicCentimeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.KilogramPerCubicCentimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentration.BaseUnit, q => q); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilogramPerCubicMillimeter, q => q.ToUnit(MassConcentrationUnit.KilogramPerCubicMillimeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.KilogramPerCubicMillimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilogramPerLiter, q => q.ToUnit(MassConcentrationUnit.KilogramPerLiter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.KilogramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilopoundPerCubicFoot, q => q.ToUnit(MassConcentrationUnit.KilopoundPerCubicFoot)); + unitConverter.SetConversionFunction(MassConcentrationUnit.KilopoundPerCubicFoot, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.KilopoundPerCubicInch, q => q.ToUnit(MassConcentrationUnit.KilopoundPerCubicInch)); + unitConverter.SetConversionFunction(MassConcentrationUnit.KilopoundPerCubicInch, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerCubicMeter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerCubicMeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerCubicMeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerDeciliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerLiter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerLiter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerMicroliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MicrogramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.MicrogramPerMilliliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MicrogramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerCubicMeter, q => q.ToUnit(MassConcentrationUnit.MilligramPerCubicMeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerCubicMeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.MilligramPerDeciliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerLiter, q => q.ToUnit(MassConcentrationUnit.MilligramPerLiter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.MilligramPerMicroliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.MilligramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.MilligramPerMilliliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.MilligramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.NanogramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.NanogramPerDeciliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.NanogramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.NanogramPerLiter, q => q.ToUnit(MassConcentrationUnit.NanogramPerLiter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.NanogramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.NanogramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.NanogramPerMicroliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.NanogramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.NanogramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.NanogramPerMilliliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.NanogramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.OuncePerImperialGallon, q => q.ToUnit(MassConcentrationUnit.OuncePerImperialGallon)); + unitConverter.SetConversionFunction(MassConcentrationUnit.OuncePerImperialGallon, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.OuncePerUSGallon, q => q.ToUnit(MassConcentrationUnit.OuncePerUSGallon)); + unitConverter.SetConversionFunction(MassConcentrationUnit.OuncePerUSGallon, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PicogramPerDeciliter, q => q.ToUnit(MassConcentrationUnit.PicogramPerDeciliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.PicogramPerDeciliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PicogramPerLiter, q => q.ToUnit(MassConcentrationUnit.PicogramPerLiter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.PicogramPerLiter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PicogramPerMicroliter, q => q.ToUnit(MassConcentrationUnit.PicogramPerMicroliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.PicogramPerMicroliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PicogramPerMilliliter, q => q.ToUnit(MassConcentrationUnit.PicogramPerMilliliter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.PicogramPerMilliliter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PoundPerCubicFoot, q => q.ToUnit(MassConcentrationUnit.PoundPerCubicFoot)); + unitConverter.SetConversionFunction(MassConcentrationUnit.PoundPerCubicFoot, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PoundPerCubicInch, q => q.ToUnit(MassConcentrationUnit.PoundPerCubicInch)); + unitConverter.SetConversionFunction(MassConcentrationUnit.PoundPerCubicInch, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PoundPerImperialGallon, q => q.ToUnit(MassConcentrationUnit.PoundPerImperialGallon)); + unitConverter.SetConversionFunction(MassConcentrationUnit.PoundPerImperialGallon, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.PoundPerUSGallon, q => q.ToUnit(MassConcentrationUnit.PoundPerUSGallon)); + unitConverter.SetConversionFunction(MassConcentrationUnit.PoundPerUSGallon, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.SlugPerCubicFoot, q => q.ToUnit(MassConcentrationUnit.SlugPerCubicFoot)); + unitConverter.SetConversionFunction(MassConcentrationUnit.SlugPerCubicFoot, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.TonnePerCubicCentimeter, q => q.ToUnit(MassConcentrationUnit.TonnePerCubicCentimeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.TonnePerCubicCentimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.TonnePerCubicMeter, q => q.ToUnit(MassConcentrationUnit.TonnePerCubicMeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.TonnePerCubicMeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassConcentration.BaseUnit, MassConcentrationUnit.TonnePerCubicMillimeter, q => q.ToUnit(MassConcentrationUnit.TonnePerCubicMillimeter)); + unitConverter.SetConversionFunction(MassConcentrationUnit.TonnePerCubicMillimeter, MassConcentration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.KiloohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.KiloohmCentimeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.KiloohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.KiloohmMeter, q => q.ToUnit(ElectricResistivityUnit.KiloohmMeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.KiloohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MegaohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.MegaohmCentimeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.MegaohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MegaohmMeter, q => q.ToUnit(ElectricResistivityUnit.MegaohmMeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.MegaohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MicroohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.MicroohmCentimeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.MicroohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MicroohmMeter, q => q.ToUnit(ElectricResistivityUnit.MicroohmMeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.MicroohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MilliohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.MilliohmCentimeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.MilliohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.MilliohmMeter, q => q.ToUnit(ElectricResistivityUnit.MilliohmMeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.MilliohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.NanoohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.NanoohmCentimeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.NanoohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.NanoohmMeter, q => q.ToUnit(ElectricResistivityUnit.NanoohmMeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.NanoohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.OhmCentimeter, q => q.ToUnit(ElectricResistivityUnit.OhmCentimeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.OhmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivity.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.PicoohmCentimeter, q => q.ToUnit(ElectricResistivityUnit.PicoohmCentimeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.PicoohmCentimeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistivity.BaseUnit, ElectricResistivityUnit.PicoohmMeter, q => q.ToUnit(ElectricResistivityUnit.PicoohmMeter)); + unitConverter.SetConversionFunction(ElectricResistivityUnit.PicoohmMeter, ElectricResistivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Turbidity.BaseUnit, Turbidity.BaseUnit, q => q); + unitConverter.SetConversionFunction(LuminousIntensity.BaseUnit, LuminousIntensity.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricSurfaceChargeDensity.BaseUnit, ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter, q => q.ToUnit(ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter)); + unitConverter.SetConversionFunction(ElectricSurfaceChargeDensityUnit.CoulombPerSquareCentimeter, ElectricSurfaceChargeDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricSurfaceChargeDensity.BaseUnit, ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch, q => q.ToUnit(ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch)); + unitConverter.SetConversionFunction(ElectricSurfaceChargeDensityUnit.CoulombPerSquareInch, ElectricSurfaceChargeDensity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricSurfaceChargeDensity.BaseUnit, ElectricSurfaceChargeDensity.BaseUnit, q => q); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Decanewton, q => q.ToUnit(ForceUnit.Decanewton)); + unitConverter.SetConversionFunction(ForceUnit.Decanewton, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Dyn, q => q.ToUnit(ForceUnit.Dyn)); + unitConverter.SetConversionFunction(ForceUnit.Dyn, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.KilogramForce, q => q.ToUnit(ForceUnit.KilogramForce)); + unitConverter.SetConversionFunction(ForceUnit.KilogramForce, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Kilonewton, q => q.ToUnit(ForceUnit.Kilonewton)); + unitConverter.SetConversionFunction(ForceUnit.Kilonewton, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.KiloPond, q => q.ToUnit(ForceUnit.KiloPond)); + unitConverter.SetConversionFunction(ForceUnit.KiloPond, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.KilopoundForce, q => q.ToUnit(ForceUnit.KilopoundForce)); + unitConverter.SetConversionFunction(ForceUnit.KilopoundForce, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Meganewton, q => q.ToUnit(ForceUnit.Meganewton)); + unitConverter.SetConversionFunction(ForceUnit.Meganewton, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Micronewton, q => q.ToUnit(ForceUnit.Micronewton)); + unitConverter.SetConversionFunction(ForceUnit.Micronewton, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Millinewton, q => q.ToUnit(ForceUnit.Millinewton)); + unitConverter.SetConversionFunction(ForceUnit.Millinewton, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, Force.BaseUnit, q => q); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.OunceForce, q => q.ToUnit(ForceUnit.OunceForce)); + unitConverter.SetConversionFunction(ForceUnit.OunceForce, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.Poundal, q => q.ToUnit(ForceUnit.Poundal)); + unitConverter.SetConversionFunction(ForceUnit.Poundal, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.PoundForce, q => q.ToUnit(ForceUnit.PoundForce)); + unitConverter.SetConversionFunction(ForceUnit.PoundForce, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.ShortTonForce, q => q.ToUnit(ForceUnit.ShortTonForce)); + unitConverter.SetConversionFunction(ForceUnit.ShortTonForce, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Force.BaseUnit, ForceUnit.TonneForce, q => q.ToUnit(ForceUnit.TonneForce)); + unitConverter.SetConversionFunction(ForceUnit.TonneForce, Force.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.CentiradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.CentiradianPerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.CentiradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.DeciradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.DeciradianPerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.DeciradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.DegreePerMinute, q => q.ToUnit(RotationalSpeedUnit.DegreePerMinute)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.DegreePerMinute, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.DegreePerSecond, q => q.ToUnit(RotationalSpeedUnit.DegreePerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.DegreePerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.MicrodegreePerSecond, q => q.ToUnit(RotationalSpeedUnit.MicrodegreePerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.MicrodegreePerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.MicroradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.MicroradianPerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.MicroradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.MillidegreePerSecond, q => q.ToUnit(RotationalSpeedUnit.MillidegreePerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.MillidegreePerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.MilliradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.MilliradianPerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.MilliradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.NanodegreePerSecond, q => q.ToUnit(RotationalSpeedUnit.NanodegreePerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.NanodegreePerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.NanoradianPerSecond, q => q.ToUnit(RotationalSpeedUnit.NanoradianPerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.NanoradianPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeed.BaseUnit, q => q); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.RevolutionPerMinute, q => q.ToUnit(RotationalSpeedUnit.RevolutionPerMinute)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.RevolutionPerMinute, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RotationalSpeed.BaseUnit, RotationalSpeedUnit.RevolutionPerSecond, q => q.ToUnit(RotationalSpeedUnit.RevolutionPerSecond)); + unitConverter.SetConversionFunction(RotationalSpeedUnit.RevolutionPerSecond, RotationalSpeed.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificVolume.BaseUnit, SpecificVolumeUnit.CubicFootPerPound, q => q.ToUnit(SpecificVolumeUnit.CubicFootPerPound)); + unitConverter.SetConversionFunction(SpecificVolumeUnit.CubicFootPerPound, SpecificVolume.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificVolume.BaseUnit, SpecificVolume.BaseUnit, q => q); + unitConverter.SetConversionFunction(SpecificVolume.BaseUnit, SpecificVolumeUnit.MillicubicMeterPerKilogram, q => q.ToUnit(SpecificVolumeUnit.MillicubicMeterPerKilogram)); + unitConverter.SetConversionFunction(SpecificVolumeUnit.MillicubicMeterPerKilogram, SpecificVolume.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilogramForcePerCubicCentimeter, q => q.ToUnit(SpecificWeightUnit.KilogramForcePerCubicCentimeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.KilogramForcePerCubicCentimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilogramForcePerCubicMeter, q => q.ToUnit(SpecificWeightUnit.KilogramForcePerCubicMeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.KilogramForcePerCubicMeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilogramForcePerCubicMillimeter, q => q.ToUnit(SpecificWeightUnit.KilogramForcePerCubicMillimeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.KilogramForcePerCubicMillimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilonewtonPerCubicCentimeter, q => q.ToUnit(SpecificWeightUnit.KilonewtonPerCubicCentimeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.KilonewtonPerCubicCentimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilonewtonPerCubicMeter, q => q.ToUnit(SpecificWeightUnit.KilonewtonPerCubicMeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.KilonewtonPerCubicMeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilonewtonPerCubicMillimeter, q => q.ToUnit(SpecificWeightUnit.KilonewtonPerCubicMillimeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.KilonewtonPerCubicMillimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilopoundForcePerCubicFoot, q => q.ToUnit(SpecificWeightUnit.KilopoundForcePerCubicFoot)); + unitConverter.SetConversionFunction(SpecificWeightUnit.KilopoundForcePerCubicFoot, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.KilopoundForcePerCubicInch, q => q.ToUnit(SpecificWeightUnit.KilopoundForcePerCubicInch)); + unitConverter.SetConversionFunction(SpecificWeightUnit.KilopoundForcePerCubicInch, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.MeganewtonPerCubicMeter, q => q.ToUnit(SpecificWeightUnit.MeganewtonPerCubicMeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.MeganewtonPerCubicMeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.NewtonPerCubicCentimeter, q => q.ToUnit(SpecificWeightUnit.NewtonPerCubicCentimeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.NewtonPerCubicCentimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeight.BaseUnit, q => q); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.NewtonPerCubicMillimeter, q => q.ToUnit(SpecificWeightUnit.NewtonPerCubicMillimeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.NewtonPerCubicMillimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.PoundForcePerCubicFoot, q => q.ToUnit(SpecificWeightUnit.PoundForcePerCubicFoot)); + unitConverter.SetConversionFunction(SpecificWeightUnit.PoundForcePerCubicFoot, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.PoundForcePerCubicInch, q => q.ToUnit(SpecificWeightUnit.PoundForcePerCubicInch)); + unitConverter.SetConversionFunction(SpecificWeightUnit.PoundForcePerCubicInch, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.TonneForcePerCubicCentimeter, q => q.ToUnit(SpecificWeightUnit.TonneForcePerCubicCentimeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.TonneForcePerCubicCentimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.TonneForcePerCubicMeter, q => q.ToUnit(SpecificWeightUnit.TonneForcePerCubicMeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.TonneForcePerCubicMeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(SpecificWeight.BaseUnit, SpecificWeightUnit.TonneForcePerCubicMillimeter, q => q.ToUnit(SpecificWeightUnit.TonneForcePerCubicMillimeter)); + unitConverter.SetConversionFunction(SpecificWeightUnit.TonneForcePerCubicMillimeter, SpecificWeight.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.BtuPerHourSquareFoot, q => q.ToUnit(HeatFluxUnit.BtuPerHourSquareFoot)); + unitConverter.SetConversionFunction(HeatFluxUnit.BtuPerHourSquareFoot, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.BtuPerMinuteSquareFoot, q => q.ToUnit(HeatFluxUnit.BtuPerMinuteSquareFoot)); + unitConverter.SetConversionFunction(HeatFluxUnit.BtuPerMinuteSquareFoot, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.BtuPerSecondSquareFoot, q => q.ToUnit(HeatFluxUnit.BtuPerSecondSquareFoot)); + unitConverter.SetConversionFunction(HeatFluxUnit.BtuPerSecondSquareFoot, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.BtuPerSecondSquareInch, q => q.ToUnit(HeatFluxUnit.BtuPerSecondSquareInch)); + unitConverter.SetConversionFunction(HeatFluxUnit.BtuPerSecondSquareInch, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.CaloriePerSecondSquareCentimeter, q => q.ToUnit(HeatFluxUnit.CaloriePerSecondSquareCentimeter)); + unitConverter.SetConversionFunction(HeatFluxUnit.CaloriePerSecondSquareCentimeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.CentiwattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.CentiwattPerSquareMeter)); + unitConverter.SetConversionFunction(HeatFluxUnit.CentiwattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.DeciwattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.DeciwattPerSquareMeter)); + unitConverter.SetConversionFunction(HeatFluxUnit.DeciwattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.KilocaloriePerHourSquareMeter, q => q.ToUnit(HeatFluxUnit.KilocaloriePerHourSquareMeter)); + unitConverter.SetConversionFunction(HeatFluxUnit.KilocaloriePerHourSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.KilocaloriePerSecondSquareCentimeter, q => q.ToUnit(HeatFluxUnit.KilocaloriePerSecondSquareCentimeter)); + unitConverter.SetConversionFunction(HeatFluxUnit.KilocaloriePerSecondSquareCentimeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.KilowattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.KilowattPerSquareMeter)); + unitConverter.SetConversionFunction(HeatFluxUnit.KilowattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.MicrowattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.MicrowattPerSquareMeter)); + unitConverter.SetConversionFunction(HeatFluxUnit.MicrowattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.MilliwattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.MilliwattPerSquareMeter)); + unitConverter.SetConversionFunction(HeatFluxUnit.MilliwattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.NanowattPerSquareMeter, q => q.ToUnit(HeatFluxUnit.NanowattPerSquareMeter)); + unitConverter.SetConversionFunction(HeatFluxUnit.NanowattPerSquareMeter, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.PoundForcePerFootSecond, q => q.ToUnit(HeatFluxUnit.PoundForcePerFootSecond)); + unitConverter.SetConversionFunction(HeatFluxUnit.PoundForcePerFootSecond, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.PoundPerSecondCubed, q => q.ToUnit(HeatFluxUnit.PoundPerSecondCubed)); + unitConverter.SetConversionFunction(HeatFluxUnit.PoundPerSecondCubed, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.WattPerSquareFoot, q => q.ToUnit(HeatFluxUnit.WattPerSquareFoot)); + unitConverter.SetConversionFunction(HeatFluxUnit.WattPerSquareFoot, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFluxUnit.WattPerSquareInch, q => q.ToUnit(HeatFluxUnit.WattPerSquareInch)); + unitConverter.SetConversionFunction(HeatFluxUnit.WattPerSquareInch, HeatFlux.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatFlux.BaseUnit, HeatFlux.BaseUnit, q => q); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilogramForceCentimeter, q => q.ToUnit(TorqueUnit.KilogramForceCentimeter)); + unitConverter.SetConversionFunction(TorqueUnit.KilogramForceCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilogramForceMeter, q => q.ToUnit(TorqueUnit.KilogramForceMeter)); + unitConverter.SetConversionFunction(TorqueUnit.KilogramForceMeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilogramForceMillimeter, q => q.ToUnit(TorqueUnit.KilogramForceMillimeter)); + unitConverter.SetConversionFunction(TorqueUnit.KilogramForceMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilonewtonCentimeter, q => q.ToUnit(TorqueUnit.KilonewtonCentimeter)); + unitConverter.SetConversionFunction(TorqueUnit.KilonewtonCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilonewtonMeter, q => q.ToUnit(TorqueUnit.KilonewtonMeter)); + unitConverter.SetConversionFunction(TorqueUnit.KilonewtonMeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilonewtonMillimeter, q => q.ToUnit(TorqueUnit.KilonewtonMillimeter)); + unitConverter.SetConversionFunction(TorqueUnit.KilonewtonMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilopoundForceFoot, q => q.ToUnit(TorqueUnit.KilopoundForceFoot)); + unitConverter.SetConversionFunction(TorqueUnit.KilopoundForceFoot, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.KilopoundForceInch, q => q.ToUnit(TorqueUnit.KilopoundForceInch)); + unitConverter.SetConversionFunction(TorqueUnit.KilopoundForceInch, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MeganewtonCentimeter, q => q.ToUnit(TorqueUnit.MeganewtonCentimeter)); + unitConverter.SetConversionFunction(TorqueUnit.MeganewtonCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MeganewtonMeter, q => q.ToUnit(TorqueUnit.MeganewtonMeter)); + unitConverter.SetConversionFunction(TorqueUnit.MeganewtonMeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MeganewtonMillimeter, q => q.ToUnit(TorqueUnit.MeganewtonMillimeter)); + unitConverter.SetConversionFunction(TorqueUnit.MeganewtonMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MegapoundForceFoot, q => q.ToUnit(TorqueUnit.MegapoundForceFoot)); + unitConverter.SetConversionFunction(TorqueUnit.MegapoundForceFoot, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.MegapoundForceInch, q => q.ToUnit(TorqueUnit.MegapoundForceInch)); + unitConverter.SetConversionFunction(TorqueUnit.MegapoundForceInch, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.NewtonCentimeter, q => q.ToUnit(TorqueUnit.NewtonCentimeter)); + unitConverter.SetConversionFunction(TorqueUnit.NewtonCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, Torque.BaseUnit, q => q); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.NewtonMillimeter, q => q.ToUnit(TorqueUnit.NewtonMillimeter)); + unitConverter.SetConversionFunction(TorqueUnit.NewtonMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.PoundalFoot, q => q.ToUnit(TorqueUnit.PoundalFoot)); + unitConverter.SetConversionFunction(TorqueUnit.PoundalFoot, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.PoundForceFoot, q => q.ToUnit(TorqueUnit.PoundForceFoot)); + unitConverter.SetConversionFunction(TorqueUnit.PoundForceFoot, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.PoundForceInch, q => q.ToUnit(TorqueUnit.PoundForceInch)); + unitConverter.SetConversionFunction(TorqueUnit.PoundForceInch, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.TonneForceCentimeter, q => q.ToUnit(TorqueUnit.TonneForceCentimeter)); + unitConverter.SetConversionFunction(TorqueUnit.TonneForceCentimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.TonneForceMeter, q => q.ToUnit(TorqueUnit.TonneForceMeter)); + unitConverter.SetConversionFunction(TorqueUnit.TonneForceMeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Torque.BaseUnit, TorqueUnit.TonneForceMillimeter, q => q.ToUnit(TorqueUnit.TonneForceMillimeter)); + unitConverter.SetConversionFunction(TorqueUnit.TonneForceMillimeter, Torque.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.CaloriePerKelvin, q => q.ToUnit(EntropyUnit.CaloriePerKelvin)); + unitConverter.SetConversionFunction(EntropyUnit.CaloriePerKelvin, Entropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.JoulePerDegreeCelsius, q => q.ToUnit(EntropyUnit.JoulePerDegreeCelsius)); + unitConverter.SetConversionFunction(EntropyUnit.JoulePerDegreeCelsius, Entropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Entropy.BaseUnit, Entropy.BaseUnit, q => q); + unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.KilocaloriePerKelvin, q => q.ToUnit(EntropyUnit.KilocaloriePerKelvin)); + unitConverter.SetConversionFunction(EntropyUnit.KilocaloriePerKelvin, Entropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.KilojoulePerDegreeCelsius, q => q.ToUnit(EntropyUnit.KilojoulePerDegreeCelsius)); + unitConverter.SetConversionFunction(EntropyUnit.KilojoulePerDegreeCelsius, Entropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.KilojoulePerKelvin, q => q.ToUnit(EntropyUnit.KilojoulePerKelvin)); + unitConverter.SetConversionFunction(EntropyUnit.KilojoulePerKelvin, Entropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Entropy.BaseUnit, EntropyUnit.MegajoulePerKelvin, q => q.ToUnit(EntropyUnit.MegajoulePerKelvin)); + unitConverter.SetConversionFunction(EntropyUnit.MegajoulePerKelvin, Entropy.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilogramForceCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilogramForceCentimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.KilogramForceCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilogramForceMeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilogramForceMeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.KilogramForceMeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilogramForceMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilogramForceMillimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.KilogramForceMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilonewtonCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilonewtonCentimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.KilonewtonCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilonewtonMeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilonewtonMeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.KilonewtonMeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilonewtonMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.KilonewtonMillimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.KilonewtonMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilopoundForceFootPerFoot, q => q.ToUnit(TorquePerLengthUnit.KilopoundForceFootPerFoot)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.KilopoundForceFootPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.KilopoundForceInchPerFoot, q => q.ToUnit(TorquePerLengthUnit.KilopoundForceInchPerFoot)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.KilopoundForceInchPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MeganewtonCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.MeganewtonCentimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.MeganewtonCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MeganewtonMeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.MeganewtonMeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.MeganewtonMeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MeganewtonMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.MeganewtonMillimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.MeganewtonMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MegapoundForceFootPerFoot, q => q.ToUnit(TorquePerLengthUnit.MegapoundForceFootPerFoot)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.MegapoundForceFootPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.MegapoundForceInchPerFoot, q => q.ToUnit(TorquePerLengthUnit.MegapoundForceInchPerFoot)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.MegapoundForceInchPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.NewtonCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.NewtonCentimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.NewtonCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLength.BaseUnit, q => q); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.NewtonMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.NewtonMillimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.NewtonMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.PoundForceFootPerFoot, q => q.ToUnit(TorquePerLengthUnit.PoundForceFootPerFoot)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.PoundForceFootPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.PoundForceInchPerFoot, q => q.ToUnit(TorquePerLengthUnit.PoundForceInchPerFoot)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.PoundForceInchPerFoot, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.TonneForceCentimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.TonneForceCentimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.TonneForceCentimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.TonneForceMeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.TonneForceMeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.TonneForceMeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TorquePerLength.BaseUnit, TorquePerLengthUnit.TonneForceMillimeterPerMeter, q => q.ToUnit(TorquePerLengthUnit.TonneForceMillimeterPerMeter)); + unitConverter.SetConversionFunction(TorquePerLengthUnit.TonneForceMillimeterPerMeter, TorquePerLength.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Arcminute, q => q.ToUnit(AngleUnit.Arcminute)); + unitConverter.SetConversionFunction(AngleUnit.Arcminute, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Arcsecond, q => q.ToUnit(AngleUnit.Arcsecond)); + unitConverter.SetConversionFunction(AngleUnit.Arcsecond, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Centiradian, q => q.ToUnit(AngleUnit.Centiradian)); + unitConverter.SetConversionFunction(AngleUnit.Centiradian, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Deciradian, q => q.ToUnit(AngleUnit.Deciradian)); + unitConverter.SetConversionFunction(AngleUnit.Deciradian, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, Angle.BaseUnit, q => q); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Gradian, q => q.ToUnit(AngleUnit.Gradian)); + unitConverter.SetConversionFunction(AngleUnit.Gradian, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Microdegree, q => q.ToUnit(AngleUnit.Microdegree)); + unitConverter.SetConversionFunction(AngleUnit.Microdegree, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Microradian, q => q.ToUnit(AngleUnit.Microradian)); + unitConverter.SetConversionFunction(AngleUnit.Microradian, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Millidegree, q => q.ToUnit(AngleUnit.Millidegree)); + unitConverter.SetConversionFunction(AngleUnit.Millidegree, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Milliradian, q => q.ToUnit(AngleUnit.Milliradian)); + unitConverter.SetConversionFunction(AngleUnit.Milliradian, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Nanodegree, q => q.ToUnit(AngleUnit.Nanodegree)); + unitConverter.SetConversionFunction(AngleUnit.Nanodegree, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Nanoradian, q => q.ToUnit(AngleUnit.Nanoradian)); + unitConverter.SetConversionFunction(AngleUnit.Nanoradian, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.NatoMil, q => q.ToUnit(AngleUnit.NatoMil)); + unitConverter.SetConversionFunction(AngleUnit.NatoMil, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Radian, q => q.ToUnit(AngleUnit.Radian)); + unitConverter.SetConversionFunction(AngleUnit.Radian, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Revolution, q => q.ToUnit(AngleUnit.Revolution)); + unitConverter.SetConversionFunction(AngleUnit.Revolution, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Angle.BaseUnit, AngleUnit.Tilt, q => q.ToUnit(AngleUnit.Tilt)); + unitConverter.SetConversionFunction(AngleUnit.Tilt, Angle.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ThermalConductivity.BaseUnit, ThermalConductivityUnit.BtuPerHourFootFahrenheit, q => q.ToUnit(ThermalConductivityUnit.BtuPerHourFootFahrenheit)); + unitConverter.SetConversionFunction(ThermalConductivityUnit.BtuPerHourFootFahrenheit, ThermalConductivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ThermalConductivity.BaseUnit, ThermalConductivity.BaseUnit, q => q); + unitConverter.SetConversionFunction(BrakeSpecificFuelConsumption.BaseUnit, BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour, q => q.ToUnit(BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour)); + unitConverter.SetConversionFunction(BrakeSpecificFuelConsumptionUnit.GramPerKiloWattHour, BrakeSpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(BrakeSpecificFuelConsumption.BaseUnit, BrakeSpecificFuelConsumption.BaseUnit, q => q); + unitConverter.SetConversionFunction(BrakeSpecificFuelConsumption.BaseUnit, BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, q => q.ToUnit(BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour)); + unitConverter.SetConversionFunction(BrakeSpecificFuelConsumptionUnit.PoundPerMechanicalHorsepowerHour, BrakeSpecificFuelConsumption.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.CentigramPerMole, q => q.ToUnit(MolarMassUnit.CentigramPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.CentigramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.DecagramPerMole, q => q.ToUnit(MolarMassUnit.DecagramPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.DecagramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.DecigramPerMole, q => q.ToUnit(MolarMassUnit.DecigramPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.DecigramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.GramPerMole, q => q.ToUnit(MolarMassUnit.GramPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.GramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.HectogramPerMole, q => q.ToUnit(MolarMassUnit.HectogramPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.HectogramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMass.BaseUnit, q => q); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.KilopoundPerMole, q => q.ToUnit(MolarMassUnit.KilopoundPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.KilopoundPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.MegapoundPerMole, q => q.ToUnit(MolarMassUnit.MegapoundPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.MegapoundPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.MicrogramPerMole, q => q.ToUnit(MolarMassUnit.MicrogramPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.MicrogramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.MilligramPerMole, q => q.ToUnit(MolarMassUnit.MilligramPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.MilligramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.NanogramPerMole, q => q.ToUnit(MolarMassUnit.NanogramPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.NanogramPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MolarMass.BaseUnit, MolarMassUnit.PoundPerMole, q => q.ToUnit(MolarMassUnit.PoundPerMole)); + unitConverter.SetConversionFunction(MolarMassUnit.PoundPerMole, MolarMass.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.CentigramPerDay, q => q.ToUnit(MassFlowUnit.CentigramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.CentigramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.CentigramPerSecond, q => q.ToUnit(MassFlowUnit.CentigramPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.CentigramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.DecagramPerDay, q => q.ToUnit(MassFlowUnit.DecagramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.DecagramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.DecagramPerSecond, q => q.ToUnit(MassFlowUnit.DecagramPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.DecagramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.DecigramPerDay, q => q.ToUnit(MassFlowUnit.DecigramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.DecigramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.DecigramPerSecond, q => q.ToUnit(MassFlowUnit.DecigramPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.DecigramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.GramPerDay, q => q.ToUnit(MassFlowUnit.GramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.GramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.GramPerHour, q => q.ToUnit(MassFlowUnit.GramPerHour)); + unitConverter.SetConversionFunction(MassFlowUnit.GramPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlow.BaseUnit, q => q); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.HectogramPerDay, q => q.ToUnit(MassFlowUnit.HectogramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.HectogramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.HectogramPerSecond, q => q.ToUnit(MassFlowUnit.HectogramPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.HectogramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.KilogramPerDay, q => q.ToUnit(MassFlowUnit.KilogramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.KilogramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.KilogramPerHour, q => q.ToUnit(MassFlowUnit.KilogramPerHour)); + unitConverter.SetConversionFunction(MassFlowUnit.KilogramPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.KilogramPerMinute, q => q.ToUnit(MassFlowUnit.KilogramPerMinute)); + unitConverter.SetConversionFunction(MassFlowUnit.KilogramPerMinute, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.KilogramPerSecond, q => q.ToUnit(MassFlowUnit.KilogramPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.KilogramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegagramPerDay, q => q.ToUnit(MassFlowUnit.MegagramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.MegagramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegapoundPerDay, q => q.ToUnit(MassFlowUnit.MegapoundPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.MegapoundPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegapoundPerHour, q => q.ToUnit(MassFlowUnit.MegapoundPerHour)); + unitConverter.SetConversionFunction(MassFlowUnit.MegapoundPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegapoundPerMinute, q => q.ToUnit(MassFlowUnit.MegapoundPerMinute)); + unitConverter.SetConversionFunction(MassFlowUnit.MegapoundPerMinute, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MegapoundPerSecond, q => q.ToUnit(MassFlowUnit.MegapoundPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.MegapoundPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MicrogramPerDay, q => q.ToUnit(MassFlowUnit.MicrogramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.MicrogramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MicrogramPerSecond, q => q.ToUnit(MassFlowUnit.MicrogramPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.MicrogramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MilligramPerDay, q => q.ToUnit(MassFlowUnit.MilligramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.MilligramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.MilligramPerSecond, q => q.ToUnit(MassFlowUnit.MilligramPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.MilligramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.NanogramPerDay, q => q.ToUnit(MassFlowUnit.NanogramPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.NanogramPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.NanogramPerSecond, q => q.ToUnit(MassFlowUnit.NanogramPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.NanogramPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.PoundPerDay, q => q.ToUnit(MassFlowUnit.PoundPerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.PoundPerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.PoundPerHour, q => q.ToUnit(MassFlowUnit.PoundPerHour)); + unitConverter.SetConversionFunction(MassFlowUnit.PoundPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.PoundPerMinute, q => q.ToUnit(MassFlowUnit.PoundPerMinute)); + unitConverter.SetConversionFunction(MassFlowUnit.PoundPerMinute, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.PoundPerSecond, q => q.ToUnit(MassFlowUnit.PoundPerSecond)); + unitConverter.SetConversionFunction(MassFlowUnit.PoundPerSecond, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.ShortTonPerHour, q => q.ToUnit(MassFlowUnit.ShortTonPerHour)); + unitConverter.SetConversionFunction(MassFlowUnit.ShortTonPerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.TonnePerDay, q => q.ToUnit(MassFlowUnit.TonnePerDay)); + unitConverter.SetConversionFunction(MassFlowUnit.TonnePerDay, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFlow.BaseUnit, MassFlowUnit.TonnePerHour, q => q.ToUnit(MassFlowUnit.TonnePerHour)); + unitConverter.SetConversionFunction(MassFlowUnit.TonnePerHour, MassFlow.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Ratio.BaseUnit, Ratio.BaseUnit, q => q); + unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.PartPerBillion, q => q.ToUnit(RatioUnit.PartPerBillion)); + unitConverter.SetConversionFunction(RatioUnit.PartPerBillion, Ratio.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.PartPerMillion, q => q.ToUnit(RatioUnit.PartPerMillion)); + unitConverter.SetConversionFunction(RatioUnit.PartPerMillion, Ratio.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.PartPerThousand, q => q.ToUnit(RatioUnit.PartPerThousand)); + unitConverter.SetConversionFunction(RatioUnit.PartPerThousand, Ratio.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.PartPerTrillion, q => q.ToUnit(RatioUnit.PartPerTrillion)); + unitConverter.SetConversionFunction(RatioUnit.PartPerTrillion, Ratio.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Ratio.BaseUnit, RatioUnit.Percent, q => q.ToUnit(RatioUnit.Percent)); + unitConverter.SetConversionFunction(RatioUnit.Percent, Ratio.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Day, q => q.ToUnit(DurationUnit.Day)); + unitConverter.SetConversionFunction(DurationUnit.Day, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Hour, q => q.ToUnit(DurationUnit.Hour)); + unitConverter.SetConversionFunction(DurationUnit.Hour, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.JulianYear, q => q.ToUnit(DurationUnit.JulianYear)); + unitConverter.SetConversionFunction(DurationUnit.JulianYear, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Microsecond, q => q.ToUnit(DurationUnit.Microsecond)); + unitConverter.SetConversionFunction(DurationUnit.Microsecond, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Millisecond, q => q.ToUnit(DurationUnit.Millisecond)); + unitConverter.SetConversionFunction(DurationUnit.Millisecond, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Minute, q => q.ToUnit(DurationUnit.Minute)); + unitConverter.SetConversionFunction(DurationUnit.Minute, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Month30, q => q.ToUnit(DurationUnit.Month30)); + unitConverter.SetConversionFunction(DurationUnit.Month30, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Nanosecond, q => q.ToUnit(DurationUnit.Nanosecond)); + unitConverter.SetConversionFunction(DurationUnit.Nanosecond, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, Duration.BaseUnit, q => q); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Week, q => q.ToUnit(DurationUnit.Week)); + unitConverter.SetConversionFunction(DurationUnit.Week, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Duration.BaseUnit, DurationUnit.Year365, q => q.ToUnit(DurationUnit.Year365)); + unitConverter.SetConversionFunction(DurationUnit.Year365, Duration.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Gigaohm, q => q.ToUnit(ElectricResistanceUnit.Gigaohm)); + unitConverter.SetConversionFunction(ElectricResistanceUnit.Gigaohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Kiloohm, q => q.ToUnit(ElectricResistanceUnit.Kiloohm)); + unitConverter.SetConversionFunction(ElectricResistanceUnit.Kiloohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Megaohm, q => q.ToUnit(ElectricResistanceUnit.Megaohm)); + unitConverter.SetConversionFunction(ElectricResistanceUnit.Megaohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Microohm, q => q.ToUnit(ElectricResistanceUnit.Microohm)); + unitConverter.SetConversionFunction(ElectricResistanceUnit.Microohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistanceUnit.Milliohm, q => q.ToUnit(ElectricResistanceUnit.Milliohm)); + unitConverter.SetConversionFunction(ElectricResistanceUnit.Milliohm, ElectricResistance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricResistance.BaseUnit, ElectricResistance.BaseUnit, q => q); + unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu, q => q.ToUnit(ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu)); + unitConverter.SetConversionFunction(ThermalResistanceUnit.HourSquareFeetDegreeFahrenheitPerBtu, ThermalResistance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie, q => q.ToUnit(ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie)); + unitConverter.SetConversionFunction(ThermalResistanceUnit.SquareCentimeterHourDegreeCelsiusPerKilocalorie, ThermalResistance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistanceUnit.SquareCentimeterKelvinPerWatt, q => q.ToUnit(ThermalResistanceUnit.SquareCentimeterKelvinPerWatt)); + unitConverter.SetConversionFunction(ThermalResistanceUnit.SquareCentimeterKelvinPerWatt, ThermalResistance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt, q => q.ToUnit(ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt)); + unitConverter.SetConversionFunction(ThermalResistanceUnit.SquareMeterDegreeCelsiusPerWatt, ThermalResistance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ThermalResistance.BaseUnit, ThermalResistance.BaseUnit, q => q); + unitConverter.SetConversionFunction(Magnetization.BaseUnit, Magnetization.BaseUnit, q => q); + unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeCelsius, q => q.ToUnit(TemperatureDeltaUnit.DegreeCelsius)); + unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeCelsius, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeDelisle, q => q.ToUnit(TemperatureDeltaUnit.DegreeDelisle)); + unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeDelisle, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeFahrenheit, q => q.ToUnit(TemperatureDeltaUnit.DegreeFahrenheit)); + unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeFahrenheit, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeNewton, q => q.ToUnit(TemperatureDeltaUnit.DegreeNewton)); + unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeNewton, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeRankine, q => q.ToUnit(TemperatureDeltaUnit.DegreeRankine)); + unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeRankine, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeReaumur, q => q.ToUnit(TemperatureDeltaUnit.DegreeReaumur)); + unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeReaumur, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.DegreeRoemer, q => q.ToUnit(TemperatureDeltaUnit.DegreeRoemer)); + unitConverter.SetConversionFunction(TemperatureDeltaUnit.DegreeRoemer, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDelta.BaseUnit, q => q); + unitConverter.SetConversionFunction(TemperatureDelta.BaseUnit, TemperatureDeltaUnit.MillidegreeCelsius, q => q.ToUnit(TemperatureDeltaUnit.MillidegreeCelsius)); + unitConverter.SetConversionFunction(TemperatureDeltaUnit.MillidegreeCelsius, TemperatureDelta.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricAdmittance.BaseUnit, ElectricAdmittanceUnit.Microsiemens, q => q.ToUnit(ElectricAdmittanceUnit.Microsiemens)); + unitConverter.SetConversionFunction(ElectricAdmittanceUnit.Microsiemens, ElectricAdmittance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricAdmittance.BaseUnit, ElectricAdmittanceUnit.Millisiemens, q => q.ToUnit(ElectricAdmittanceUnit.Millisiemens)); + unitConverter.SetConversionFunction(ElectricAdmittanceUnit.Millisiemens, ElectricAdmittance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricAdmittance.BaseUnit, ElectricAdmittanceUnit.Nanosiemens, q => q.ToUnit(ElectricAdmittanceUnit.Nanosiemens)); + unitConverter.SetConversionFunction(ElectricAdmittanceUnit.Nanosiemens, ElectricAdmittance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricAdmittance.BaseUnit, ElectricAdmittance.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrent.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Centiampere, q => q.ToUnit(ElectricCurrentUnit.Centiampere)); + unitConverter.SetConversionFunction(ElectricCurrentUnit.Centiampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Kiloampere, q => q.ToUnit(ElectricCurrentUnit.Kiloampere)); + unitConverter.SetConversionFunction(ElectricCurrentUnit.Kiloampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Megaampere, q => q.ToUnit(ElectricCurrentUnit.Megaampere)); + unitConverter.SetConversionFunction(ElectricCurrentUnit.Megaampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Microampere, q => q.ToUnit(ElectricCurrentUnit.Microampere)); + unitConverter.SetConversionFunction(ElectricCurrentUnit.Microampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Milliampere, q => q.ToUnit(ElectricCurrentUnit.Milliampere)); + unitConverter.SetConversionFunction(ElectricCurrentUnit.Milliampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Nanoampere, q => q.ToUnit(ElectricCurrentUnit.Nanoampere)); + unitConverter.SetConversionFunction(ElectricCurrentUnit.Nanoampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrent.BaseUnit, ElectricCurrentUnit.Picoampere, q => q.ToUnit(ElectricCurrentUnit.Picoampere)); + unitConverter.SetConversionFunction(ElectricCurrentUnit.Picoampere, ElectricCurrent.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.CentigramPerDeciliter, q => q.ToUnit(DensityUnit.CentigramPerDeciliter)); + unitConverter.SetConversionFunction(DensityUnit.CentigramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.CentigramPerLiter, q => q.ToUnit(DensityUnit.CentigramPerLiter)); + unitConverter.SetConversionFunction(DensityUnit.CentigramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.CentigramPerMilliliter, q => q.ToUnit(DensityUnit.CentigramPerMilliliter)); + unitConverter.SetConversionFunction(DensityUnit.CentigramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.DecigramPerDeciliter, q => q.ToUnit(DensityUnit.DecigramPerDeciliter)); + unitConverter.SetConversionFunction(DensityUnit.DecigramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.DecigramPerLiter, q => q.ToUnit(DensityUnit.DecigramPerLiter)); + unitConverter.SetConversionFunction(DensityUnit.DecigramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.DecigramPerMilliliter, q => q.ToUnit(DensityUnit.DecigramPerMilliliter)); + unitConverter.SetConversionFunction(DensityUnit.DecigramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerCubicCentimeter, q => q.ToUnit(DensityUnit.GramPerCubicCentimeter)); + unitConverter.SetConversionFunction(DensityUnit.GramPerCubicCentimeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerCubicMeter, q => q.ToUnit(DensityUnit.GramPerCubicMeter)); + unitConverter.SetConversionFunction(DensityUnit.GramPerCubicMeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerCubicMillimeter, q => q.ToUnit(DensityUnit.GramPerCubicMillimeter)); + unitConverter.SetConversionFunction(DensityUnit.GramPerCubicMillimeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerDeciliter, q => q.ToUnit(DensityUnit.GramPerDeciliter)); + unitConverter.SetConversionFunction(DensityUnit.GramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerLiter, q => q.ToUnit(DensityUnit.GramPerLiter)); + unitConverter.SetConversionFunction(DensityUnit.GramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.GramPerMilliliter, q => q.ToUnit(DensityUnit.GramPerMilliliter)); + unitConverter.SetConversionFunction(DensityUnit.GramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilogramPerCubicCentimeter, q => q.ToUnit(DensityUnit.KilogramPerCubicCentimeter)); + unitConverter.SetConversionFunction(DensityUnit.KilogramPerCubicCentimeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, Density.BaseUnit, q => q); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilogramPerCubicMillimeter, q => q.ToUnit(DensityUnit.KilogramPerCubicMillimeter)); + unitConverter.SetConversionFunction(DensityUnit.KilogramPerCubicMillimeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilogramPerLiter, q => q.ToUnit(DensityUnit.KilogramPerLiter)); + unitConverter.SetConversionFunction(DensityUnit.KilogramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilopoundPerCubicFoot, q => q.ToUnit(DensityUnit.KilopoundPerCubicFoot)); + unitConverter.SetConversionFunction(DensityUnit.KilopoundPerCubicFoot, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.KilopoundPerCubicInch, q => q.ToUnit(DensityUnit.KilopoundPerCubicInch)); + unitConverter.SetConversionFunction(DensityUnit.KilopoundPerCubicInch, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MicrogramPerCubicMeter, q => q.ToUnit(DensityUnit.MicrogramPerCubicMeter)); + unitConverter.SetConversionFunction(DensityUnit.MicrogramPerCubicMeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MicrogramPerDeciliter, q => q.ToUnit(DensityUnit.MicrogramPerDeciliter)); + unitConverter.SetConversionFunction(DensityUnit.MicrogramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MicrogramPerLiter, q => q.ToUnit(DensityUnit.MicrogramPerLiter)); + unitConverter.SetConversionFunction(DensityUnit.MicrogramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MicrogramPerMilliliter, q => q.ToUnit(DensityUnit.MicrogramPerMilliliter)); + unitConverter.SetConversionFunction(DensityUnit.MicrogramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MilligramPerCubicMeter, q => q.ToUnit(DensityUnit.MilligramPerCubicMeter)); + unitConverter.SetConversionFunction(DensityUnit.MilligramPerCubicMeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MilligramPerDeciliter, q => q.ToUnit(DensityUnit.MilligramPerDeciliter)); + unitConverter.SetConversionFunction(DensityUnit.MilligramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MilligramPerLiter, q => q.ToUnit(DensityUnit.MilligramPerLiter)); + unitConverter.SetConversionFunction(DensityUnit.MilligramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.MilligramPerMilliliter, q => q.ToUnit(DensityUnit.MilligramPerMilliliter)); + unitConverter.SetConversionFunction(DensityUnit.MilligramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.NanogramPerDeciliter, q => q.ToUnit(DensityUnit.NanogramPerDeciliter)); + unitConverter.SetConversionFunction(DensityUnit.NanogramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.NanogramPerLiter, q => q.ToUnit(DensityUnit.NanogramPerLiter)); + unitConverter.SetConversionFunction(DensityUnit.NanogramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.NanogramPerMilliliter, q => q.ToUnit(DensityUnit.NanogramPerMilliliter)); + unitConverter.SetConversionFunction(DensityUnit.NanogramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PicogramPerDeciliter, q => q.ToUnit(DensityUnit.PicogramPerDeciliter)); + unitConverter.SetConversionFunction(DensityUnit.PicogramPerDeciliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PicogramPerLiter, q => q.ToUnit(DensityUnit.PicogramPerLiter)); + unitConverter.SetConversionFunction(DensityUnit.PicogramPerLiter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PicogramPerMilliliter, q => q.ToUnit(DensityUnit.PicogramPerMilliliter)); + unitConverter.SetConversionFunction(DensityUnit.PicogramPerMilliliter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PoundPerCubicFoot, q => q.ToUnit(DensityUnit.PoundPerCubicFoot)); + unitConverter.SetConversionFunction(DensityUnit.PoundPerCubicFoot, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PoundPerCubicInch, q => q.ToUnit(DensityUnit.PoundPerCubicInch)); + unitConverter.SetConversionFunction(DensityUnit.PoundPerCubicInch, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PoundPerImperialGallon, q => q.ToUnit(DensityUnit.PoundPerImperialGallon)); + unitConverter.SetConversionFunction(DensityUnit.PoundPerImperialGallon, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.PoundPerUSGallon, q => q.ToUnit(DensityUnit.PoundPerUSGallon)); + unitConverter.SetConversionFunction(DensityUnit.PoundPerUSGallon, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.SlugPerCubicFoot, q => q.ToUnit(DensityUnit.SlugPerCubicFoot)); + unitConverter.SetConversionFunction(DensityUnit.SlugPerCubicFoot, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.TonnePerCubicCentimeter, q => q.ToUnit(DensityUnit.TonnePerCubicCentimeter)); + unitConverter.SetConversionFunction(DensityUnit.TonnePerCubicCentimeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.TonnePerCubicMeter, q => q.ToUnit(DensityUnit.TonnePerCubicMeter)); + unitConverter.SetConversionFunction(DensityUnit.TonnePerCubicMeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Density.BaseUnit, DensityUnit.TonnePerCubicMillimeter, q => q.ToUnit(DensityUnit.TonnePerCubicMillimeter)); + unitConverter.SetConversionFunction(DensityUnit.TonnePerCubicMillimeter, Density.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrentGradient.BaseUnit, ElectricCurrentGradientUnit.AmperePerMicrosecond, q => q.ToUnit(ElectricCurrentGradientUnit.AmperePerMicrosecond)); + unitConverter.SetConversionFunction(ElectricCurrentGradientUnit.AmperePerMicrosecond, ElectricCurrentGradient.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrentGradient.BaseUnit, ElectricCurrentGradientUnit.AmperePerMillisecond, q => q.ToUnit(ElectricCurrentGradientUnit.AmperePerMillisecond)); + unitConverter.SetConversionFunction(ElectricCurrentGradientUnit.AmperePerMillisecond, ElectricCurrentGradient.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrentGradient.BaseUnit, ElectricCurrentGradientUnit.AmperePerNanosecond, q => q.ToUnit(ElectricCurrentGradientUnit.AmperePerNanosecond)); + unitConverter.SetConversionFunction(ElectricCurrentGradientUnit.AmperePerNanosecond, ElectricCurrentGradient.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCurrentGradient.BaseUnit, ElectricCurrentGradient.BaseUnit, q => q); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond)); + unitConverter.SetConversionFunction(TemperatureChangeRateUnit.CentidegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond)); + unitConverter.SetConversionFunction(TemperatureChangeRateUnit.DecadegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond)); + unitConverter.SetConversionFunction(TemperatureChangeRateUnit.DecidegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.DegreeCelsiusPerMinute, q => q.ToUnit(TemperatureChangeRateUnit.DegreeCelsiusPerMinute)); + unitConverter.SetConversionFunction(TemperatureChangeRateUnit.DegreeCelsiusPerMinute, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRate.BaseUnit, q => q); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond)); + unitConverter.SetConversionFunction(TemperatureChangeRateUnit.HectodegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond)); + unitConverter.SetConversionFunction(TemperatureChangeRateUnit.KilodegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond)); + unitConverter.SetConversionFunction(TemperatureChangeRateUnit.MicrodegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond)); + unitConverter.SetConversionFunction(TemperatureChangeRateUnit.MillidegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(TemperatureChangeRate.BaseUnit, TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, q => q.ToUnit(TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond)); + unitConverter.SetConversionFunction(TemperatureChangeRateUnit.NanodegreeCelsiusPerSecond, TemperatureChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricInductance.BaseUnit, ElectricInductance.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricInductance.BaseUnit, ElectricInductanceUnit.Microhenry, q => q.ToUnit(ElectricInductanceUnit.Microhenry)); + unitConverter.SetConversionFunction(ElectricInductanceUnit.Microhenry, ElectricInductance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricInductance.BaseUnit, ElectricInductanceUnit.Millihenry, q => q.ToUnit(ElectricInductanceUnit.Millihenry)); + unitConverter.SetConversionFunction(ElectricInductanceUnit.Millihenry, ElectricInductance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricInductance.BaseUnit, ElectricInductanceUnit.Nanohenry, q => q.ToUnit(ElectricInductanceUnit.Nanohenry)); + unitConverter.SetConversionFunction(ElectricInductanceUnit.Nanohenry, ElectricInductance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(RatioChangeRate.BaseUnit, RatioChangeRate.BaseUnit, q => q); + unitConverter.SetConversionFunction(RatioChangeRate.BaseUnit, RatioChangeRateUnit.PercentPerSecond, q => q.ToUnit(RatioChangeRateUnit.PercentPerSecond)); + unitConverter.SetConversionFunction(RatioChangeRateUnit.PercentPerSecond, RatioChangeRate.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatTransferCoefficient.BaseUnit, HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit, q => q.ToUnit(HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit)); + unitConverter.SetConversionFunction(HeatTransferCoefficientUnit.BtuPerSquareFootDegreeFahrenheit, HeatTransferCoefficient.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatTransferCoefficient.BaseUnit, HeatTransferCoefficientUnit.WattPerSquareMeterCelsius, q => q.ToUnit(HeatTransferCoefficientUnit.WattPerSquareMeterCelsius)); + unitConverter.SetConversionFunction(HeatTransferCoefficientUnit.WattPerSquareMeterCelsius, HeatTransferCoefficient.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(HeatTransferCoefficient.BaseUnit, HeatTransferCoefficient.BaseUnit, q => q); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.CentigramPerGram, q => q.ToUnit(MassFractionUnit.CentigramPerGram)); + unitConverter.SetConversionFunction(MassFractionUnit.CentigramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.CentigramPerKilogram, q => q.ToUnit(MassFractionUnit.CentigramPerKilogram)); + unitConverter.SetConversionFunction(MassFractionUnit.CentigramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.DecagramPerGram, q => q.ToUnit(MassFractionUnit.DecagramPerGram)); + unitConverter.SetConversionFunction(MassFractionUnit.DecagramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.DecagramPerKilogram, q => q.ToUnit(MassFractionUnit.DecagramPerKilogram)); + unitConverter.SetConversionFunction(MassFractionUnit.DecagramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.DecigramPerGram, q => q.ToUnit(MassFractionUnit.DecigramPerGram)); + unitConverter.SetConversionFunction(MassFractionUnit.DecigramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.DecigramPerKilogram, q => q.ToUnit(MassFractionUnit.DecigramPerKilogram)); + unitConverter.SetConversionFunction(MassFractionUnit.DecigramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFraction.BaseUnit, q => q); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.GramPerGram, q => q.ToUnit(MassFractionUnit.GramPerGram)); + unitConverter.SetConversionFunction(MassFractionUnit.GramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.GramPerKilogram, q => q.ToUnit(MassFractionUnit.GramPerKilogram)); + unitConverter.SetConversionFunction(MassFractionUnit.GramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.HectogramPerGram, q => q.ToUnit(MassFractionUnit.HectogramPerGram)); + unitConverter.SetConversionFunction(MassFractionUnit.HectogramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.HectogramPerKilogram, q => q.ToUnit(MassFractionUnit.HectogramPerKilogram)); + unitConverter.SetConversionFunction(MassFractionUnit.HectogramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.KilogramPerGram, q => q.ToUnit(MassFractionUnit.KilogramPerGram)); + unitConverter.SetConversionFunction(MassFractionUnit.KilogramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.KilogramPerKilogram, q => q.ToUnit(MassFractionUnit.KilogramPerKilogram)); + unitConverter.SetConversionFunction(MassFractionUnit.KilogramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.MicrogramPerGram, q => q.ToUnit(MassFractionUnit.MicrogramPerGram)); + unitConverter.SetConversionFunction(MassFractionUnit.MicrogramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.MicrogramPerKilogram, q => q.ToUnit(MassFractionUnit.MicrogramPerKilogram)); + unitConverter.SetConversionFunction(MassFractionUnit.MicrogramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.MilligramPerGram, q => q.ToUnit(MassFractionUnit.MilligramPerGram)); + unitConverter.SetConversionFunction(MassFractionUnit.MilligramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.MilligramPerKilogram, q => q.ToUnit(MassFractionUnit.MilligramPerKilogram)); + unitConverter.SetConversionFunction(MassFractionUnit.MilligramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.NanogramPerGram, q => q.ToUnit(MassFractionUnit.NanogramPerGram)); + unitConverter.SetConversionFunction(MassFractionUnit.NanogramPerGram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.NanogramPerKilogram, q => q.ToUnit(MassFractionUnit.NanogramPerKilogram)); + unitConverter.SetConversionFunction(MassFractionUnit.NanogramPerKilogram, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.PartPerBillion, q => q.ToUnit(MassFractionUnit.PartPerBillion)); + unitConverter.SetConversionFunction(MassFractionUnit.PartPerBillion, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.PartPerMillion, q => q.ToUnit(MassFractionUnit.PartPerMillion)); + unitConverter.SetConversionFunction(MassFractionUnit.PartPerMillion, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.PartPerThousand, q => q.ToUnit(MassFractionUnit.PartPerThousand)); + unitConverter.SetConversionFunction(MassFractionUnit.PartPerThousand, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.PartPerTrillion, q => q.ToUnit(MassFractionUnit.PartPerTrillion)); + unitConverter.SetConversionFunction(MassFractionUnit.PartPerTrillion, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MassFraction.BaseUnit, MassFractionUnit.Percent, q => q.ToUnit(MassFractionUnit.Percent)); + unitConverter.SetConversionFunction(MassFractionUnit.Percent, MassFraction.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Gauss, q => q.ToUnit(MagneticFieldUnit.Gauss)); + unitConverter.SetConversionFunction(MagneticFieldUnit.Gauss, MagneticField.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Microtesla, q => q.ToUnit(MagneticFieldUnit.Microtesla)); + unitConverter.SetConversionFunction(MagneticFieldUnit.Microtesla, MagneticField.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Milligauss, q => q.ToUnit(MagneticFieldUnit.Milligauss)); + unitConverter.SetConversionFunction(MagneticFieldUnit.Milligauss, MagneticField.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Millitesla, q => q.ToUnit(MagneticFieldUnit.Millitesla)); + unitConverter.SetConversionFunction(MagneticFieldUnit.Millitesla, MagneticField.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticFieldUnit.Nanotesla, q => q.ToUnit(MagneticFieldUnit.Nanotesla)); + unitConverter.SetConversionFunction(MagneticFieldUnit.Nanotesla, MagneticField.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(MagneticField.BaseUnit, MagneticField.BaseUnit, q => q); + unitConverter.SetConversionFunction(Permeability.BaseUnit, Permeability.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricChargeUnit.AmpereHour, q => q.ToUnit(ElectricChargeUnit.AmpereHour)); + unitConverter.SetConversionFunction(ElectricChargeUnit.AmpereHour, ElectricCharge.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricCharge.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricChargeUnit.KiloampereHour, q => q.ToUnit(ElectricChargeUnit.KiloampereHour)); + unitConverter.SetConversionFunction(ElectricChargeUnit.KiloampereHour, ElectricCharge.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricChargeUnit.MegaampereHour, q => q.ToUnit(ElectricChargeUnit.MegaampereHour)); + unitConverter.SetConversionFunction(ElectricChargeUnit.MegaampereHour, ElectricCharge.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricCharge.BaseUnit, ElectricChargeUnit.MilliampereHour, q => q.ToUnit(ElectricChargeUnit.MilliampereHour)); + unitConverter.SetConversionFunction(ElectricChargeUnit.MilliampereHour, ElectricCharge.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricConductivity.BaseUnit, ElectricConductivityUnit.SiemensPerFoot, q => q.ToUnit(ElectricConductivityUnit.SiemensPerFoot)); + unitConverter.SetConversionFunction(ElectricConductivityUnit.SiemensPerFoot, ElectricConductivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricConductivity.BaseUnit, ElectricConductivityUnit.SiemensPerInch, q => q.ToUnit(ElectricConductivityUnit.SiemensPerInch)); + unitConverter.SetConversionFunction(ElectricConductivityUnit.SiemensPerInch, ElectricConductivity.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricConductivity.BaseUnit, ElectricConductivity.BaseUnit, q => q); + unitConverter.SetConversionFunction(ReactivePower.BaseUnit, ReactivePowerUnit.GigavoltampereReactive, q => q.ToUnit(ReactivePowerUnit.GigavoltampereReactive)); + unitConverter.SetConversionFunction(ReactivePowerUnit.GigavoltampereReactive, ReactivePower.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReactivePower.BaseUnit, ReactivePowerUnit.KilovoltampereReactive, q => q.ToUnit(ReactivePowerUnit.KilovoltampereReactive)); + unitConverter.SetConversionFunction(ReactivePowerUnit.KilovoltampereReactive, ReactivePower.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReactivePower.BaseUnit, ReactivePowerUnit.MegavoltampereReactive, q => q.ToUnit(ReactivePowerUnit.MegavoltampereReactive)); + unitConverter.SetConversionFunction(ReactivePowerUnit.MegavoltampereReactive, ReactivePower.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ReactivePower.BaseUnit, ReactivePower.BaseUnit, q => q); + unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAcUnit.KilovoltAc, q => q.ToUnit(ElectricPotentialAcUnit.KilovoltAc)); + unitConverter.SetConversionFunction(ElectricPotentialAcUnit.KilovoltAc, ElectricPotentialAc.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAcUnit.MegavoltAc, q => q.ToUnit(ElectricPotentialAcUnit.MegavoltAc)); + unitConverter.SetConversionFunction(ElectricPotentialAcUnit.MegavoltAc, ElectricPotentialAc.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAcUnit.MicrovoltAc, q => q.ToUnit(ElectricPotentialAcUnit.MicrovoltAc)); + unitConverter.SetConversionFunction(ElectricPotentialAcUnit.MicrovoltAc, ElectricPotentialAc.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAcUnit.MillivoltAc, q => q.ToUnit(ElectricPotentialAcUnit.MillivoltAc)); + unitConverter.SetConversionFunction(ElectricPotentialAcUnit.MillivoltAc, ElectricPotentialAc.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(ElectricPotentialAc.BaseUnit, ElectricPotentialAc.BaseUnit, q => q); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.KilowattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.KilowattPerSquareCentimeter)); + unitConverter.SetConversionFunction(IrradianceUnit.KilowattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.KilowattPerSquareMeter, q => q.ToUnit(IrradianceUnit.KilowattPerSquareMeter)); + unitConverter.SetConversionFunction(IrradianceUnit.KilowattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MegawattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.MegawattPerSquareCentimeter)); + unitConverter.SetConversionFunction(IrradianceUnit.MegawattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MegawattPerSquareMeter, q => q.ToUnit(IrradianceUnit.MegawattPerSquareMeter)); + unitConverter.SetConversionFunction(IrradianceUnit.MegawattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MicrowattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.MicrowattPerSquareCentimeter)); + unitConverter.SetConversionFunction(IrradianceUnit.MicrowattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MicrowattPerSquareMeter, q => q.ToUnit(IrradianceUnit.MicrowattPerSquareMeter)); + unitConverter.SetConversionFunction(IrradianceUnit.MicrowattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MilliwattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.MilliwattPerSquareCentimeter)); + unitConverter.SetConversionFunction(IrradianceUnit.MilliwattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.MilliwattPerSquareMeter, q => q.ToUnit(IrradianceUnit.MilliwattPerSquareMeter)); + unitConverter.SetConversionFunction(IrradianceUnit.MilliwattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.NanowattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.NanowattPerSquareCentimeter)); + unitConverter.SetConversionFunction(IrradianceUnit.NanowattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.NanowattPerSquareMeter, q => q.ToUnit(IrradianceUnit.NanowattPerSquareMeter)); + unitConverter.SetConversionFunction(IrradianceUnit.NanowattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.PicowattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.PicowattPerSquareCentimeter)); + unitConverter.SetConversionFunction(IrradianceUnit.PicowattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.PicowattPerSquareMeter, q => q.ToUnit(IrradianceUnit.PicowattPerSquareMeter)); + unitConverter.SetConversionFunction(IrradianceUnit.PicowattPerSquareMeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, IrradianceUnit.WattPerSquareCentimeter, q => q.ToUnit(IrradianceUnit.WattPerSquareCentimeter)); + unitConverter.SetConversionFunction(IrradianceUnit.WattPerSquareCentimeter, Irradiance.BaseUnit, q => q.ToBaseUnit()); + unitConverter.SetConversionFunction(Irradiance.BaseUnit, Irradiance.BaseUnit, q => q); + unitConverter.SetConversionFunction(Scalar.BaseUnit, Scalar.BaseUnit, q => q); } } }