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[Core] add missing velocity property

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- fixes compilation because declared in header but no code
- also sort the properties to keep the overview
This commit is contained in:
Uwe
2023-02-26 16:09:31 +01:00
parent a16073c91d
commit eb24cf2638
2 changed files with 84 additions and 73 deletions
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145
src/Base/Unit.cpp
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@@ -426,38 +426,58 @@ QString Unit::getString() const
QString Unit::getTypeString() const
{
if (*this == Unit::Length)
return QString::fromLatin1("Length");
if (*this == Unit::Area)
return QString::fromLatin1("Area");
if (*this == Unit::Volume)
return QString::fromLatin1("Volume");
if (*this == Unit::Mass)
return QString::fromLatin1("Mass");
if (*this == Unit::Angle)
return QString::fromLatin1("Angle");
if(*this == Unit::AngleOfFriction )
return QString::fromLatin1("AngleOfFriction");
if(*this == Unit::Density)
return QString::fromLatin1("Density");
if (*this == Unit::TimeSpan)
return QString::fromLatin1("TimeSpan");
if (*this == Unit::Frequency)
return QString::fromLatin1("Frequency");
if (*this == Unit::Velocity)
return QString::fromLatin1("Velocity");
if (*this == Unit::Acceleration)
return QString::fromLatin1("Acceleration");
if (*this == Unit::Temperature)
return QString::fromLatin1("Temperature");
if (*this == Unit::AmountOfSubstance)
return QString::fromLatin1("AmountOfSubstance");
if (*this == Unit::Angle)
return QString::fromLatin1("Angle");
if (*this == Unit::AngleOfFriction)
return QString::fromLatin1("AngleOfFriction");
if (*this == Unit::Area)
return QString::fromLatin1("Area");
if (*this == Unit::CurrentDensity)
return QString::fromLatin1("CurrentDensity");
if (*this == Unit::Density)
return QString::fromLatin1("Density");
if (*this == Unit::DissipationRate)
return QString::fromLatin1("DissipationRate");
if (*this == Unit::DynamicViscosity)
return QString::fromLatin1("DynamicViscosity");
if (*this == Unit::ElectricalCapacitance)
return QString::fromLatin1("ElectricalCapacitance");
if (*this == Unit::ElectricalConductance)
return QString::fromLatin1("ElectricalConductance");
if (*this == Unit::ElectricalConductivity)
return QString::fromLatin1("ElectricalConductivity");
if (*this == Unit::ElectricalInductance)
return QString::fromLatin1("ElectricalInductance");
if (*this == Unit::ElectricalResistance)
return QString::fromLatin1("ElectricalResistance");
if (*this == Unit::ElectricCharge)
return QString::fromLatin1("ElectricCharge");
if (*this == Unit::ElectricCurrent)
return QString::fromLatin1("ElectricCurrent");
if (*this == Unit::ElectricPotential)
return QString::fromLatin1("ElectricPotential");
if (*this == Unit::ElectricCharge)
return QString::fromLatin1("ElectricCharge");
if (*this == Unit::Frequency)
return QString::fromLatin1("Frequency");
if (*this == Unit::Force)
return QString::fromLatin1("Force");
if (*this == Unit::HeatFlux)
return QString::fromLatin1("HeatFlux");
if (*this == Unit::InverseArea)
return QString::fromLatin1("InverseArea");
if (*this == Unit::InverseLength)
return QString::fromLatin1("InverseLength");
if (*this == Unit::InverseVolume)
return QString::fromLatin1("InverseVolume");
if (*this == Unit::KinematicViscosity)
return QString::fromLatin1("KinematicViscosity");
if (*this == Unit::Length)
return QString::fromLatin1("Length");
if (*this == Unit::LuminousIntensity)
return QString::fromLatin1("LuminousIntensity");
if (*this == Unit::MagneticFieldStrength)
return QString::fromLatin1("MagneticFieldStrength");
if (*this == Unit::MagneticFlux)
@@ -466,73 +486,52 @@ QString Unit::getTypeString() const
return QString::fromLatin1("MagneticFluxDensity");
if (*this == Unit::Magnetization)
return QString::fromLatin1("Magnetization");
if (*this == Unit::ElectricalCapacitance)
return QString::fromLatin1("ElectricalCapacitance");
if (*this == Unit::ElectricalInductance)
return QString::fromLatin1("ElectricalInductance");
if (*this == Unit::ElectricalConductance)
return QString::fromLatin1("ElectricalConductance");
if (*this == Unit::ElectricalResistance)
return QString::fromLatin1("ElectricalResistance");
if (*this == Unit::ElectricalConductivity)
return QString::fromLatin1("ElectricalConductivity");
if (*this == Unit::AmountOfSubstance)
return QString::fromLatin1("AmountOfSubstance");
if (*this == Unit::LuminousIntensity)
return QString::fromLatin1("LuminousIntensity");
if (*this == Unit::Mass)
return QString::fromLatin1("Mass");
if (*this == Unit::Pressure)
return QString::fromLatin1("Pressure");
if(*this == Unit::ShearModulus)
return QString::fromLatin1("ShearModulus");
if(*this == Unit::Stress)
return QString::fromLatin1("Stress");
if(*this == Unit::UltimateTensileStrength )
return QString::fromLatin1("UltimateTensileStrength");
if(*this == Unit::YieldStrength)
return QString::fromLatin1("YieldStrength");
if(*this == Unit::YoungsModulus)
return QString::fromLatin1("YoungsModulus");
if(*this == Unit::Force)
return QString::fromLatin1("Force");
if (*this == Unit::Work)
return QString::fromLatin1("Work");
if (*this == Unit::Power)
return QString::fromLatin1("Power");
if (*this == Unit::Stiffness)
return QString::fromLatin1("Stiffness");
if (*this == Unit::ShearModulus)
return QString::fromLatin1("ShearModulus");
if (*this == Unit::SpecificEnergy)
return QString::fromLatin1("SpecificEnergy");
if (*this == Unit::SpecificHeat)
return QString::fromLatin1("SpecificHeat");
if (*this == Unit::Stiffness)
return QString::fromLatin1("Stiffness");
if (*this == Unit::Stress)
return QString::fromLatin1("Stress");
if (*this == Unit::Temperature)
return QString::fromLatin1("Temperature");
if (*this == Unit::ThermalConductivity)
return QString::fromLatin1("ThermalConductivity");
if (*this == Unit::ThermalExpansionCoefficient)
return QString::fromLatin1("ThermalExpansionCoefficient");
if (*this == Unit::VolumetricThermalExpansionCoefficient)
return QString::fromLatin1("VolumetricThermalExpansionCoefficient");
if (*this == Unit::SpecificHeat)
return QString::fromLatin1("SpecificHeat");
if (*this == Unit::ThermalTransferCoefficient)
return QString::fromLatin1("ThermalTransferCoefficient");
if (*this == Unit::HeatFlux)
return QString::fromLatin1("HeatFlux");
if (*this == Unit::DynamicViscosity)
return QString::fromLatin1("DynamicViscosity");
if (*this == Unit::KinematicViscosity)
return QString::fromLatin1("KinematicViscosity");
if (*this == Unit::TimeSpan)
return QString::fromLatin1("TimeSpan");
if (*this == Unit::UltimateTensileStrength)
return QString::fromLatin1("UltimateTensileStrength");
if (*this == Unit::VacuumPermittivity)
return QString::fromLatin1("VacuumPermittivity");
if (*this == Unit::Velocity)
return QString::fromLatin1("Velocity");
if (*this == Unit::Volume)
return QString::fromLatin1("Volume");
if (*this == Unit::VolumeFlowRate)
return QString::fromLatin1("VolumeFlowRate");
if (*this == Unit::DissipationRate)
return QString::fromLatin1("DissipationRate");
if (*this == Unit::InverseLength)
return QString::fromLatin1("InverseLength");
if (*this == Unit::InverseArea)
return QString::fromLatin1("InverseArea");
if (*this == Unit::InverseVolume)
return QString::fromLatin1("InverseVolume");
if (*this == Unit::VolumetricThermalExpansionCoefficient)
return QString::fromLatin1("VolumetricThermalExpansionCoefficient");
if (*this == Unit::Work)
return QString::fromLatin1("Work");
if (*this == Unit::YieldStrength)
return QString::fromLatin1("YieldStrength");
if (*this == Unit::YoungsModulus)
return QString::fromLatin1("YoungsModulus");
return QString();
}
Unit Unit::Length(1);