public SpecificHeatCapacity(decimal value,
EnergyUnit energy,
MassUnit mass,
KelvinTemperatureUnit temperature)
: this(value, new EnergyMassDensityUnit(energy, mass), temperature)
{
}
/// <summary>
/// creates instance of InversedKelvinTemperatureUnit
/// </summary>
/// <param name="baseUnit">base unit</param>
/// <param name="unitName">name of unit</param>
public InversedKelvinTemperatureUnit(KelvinTemperatureUnit baseUnit, string unitName = null)
{
if (baseUnit is null)
{
throw new NullReferenceException(nameof(baseUnit));
}
BaseUnit = baseUnit;
unitName = unitName?.Trim();
UnitName = string.IsNullOrEmpty(unitName) ? "1/" + baseUnit.UnitName : unitName;
}
public static InversedKelvinTemperatureUnit GetInversedKelvinTemperatureUnit(KelvinTemperatureUnit unit)
{
// generator : InversedUnitContainerGenerator.Add_GetInversedUnit
for (var index = All.Count - 1; index >= 0; index--)
{
var tmp = All[index].Unit;
if (unit.Equals(tmp.BaseUnit))
{
return(tmp);
}
}
throw new NotImplementedException("Not implemented yet");
}
public SpecificHeatCapacity WithDenominatorUnit(KelvinTemperatureUnit newUnit)
{
// generator : FractionValuesGenerator.Add_WithDenominatorUnit
var oldUnit = Unit.DenominatorUnit;
if (oldUnit == newUnit)
{
return(this);
}
var oldFactor = GlobalUnitRegistry.Factors.GetThrow(oldUnit);
var newFactor = GlobalUnitRegistry.Factors.GetThrow(newUnit);
var resultUnit = Unit.WithDenominatorUnit(newUnit);
return(new SpecificHeatCapacity(newFactor / oldFactor * Value, resultUnit));
}
public MassDetlaKelvin WithRightUnit(KelvinTemperatureUnit newUnit)
{
// generator : ProductValuesGenerator.Add_WithDenominatorUnit
var oldUnit = Unit.RightUnit;
if (oldUnit == newUnit)
{
return(this);
}
var oldFactor = GlobalUnitRegistry.Factors.GetThrow(oldUnit);
var newFactor = GlobalUnitRegistry.Factors.GetThrow(newUnit);
var resultUnit = Unit.WithRightUnit(newUnit);
return(new MassDetlaKelvin(newFactor / oldFactor * Value, resultUnit));
}
public static MassDetlaKelvin Parse(string value)
{
// generator : ProductValuesGenerator.Add_Parse
if (string.IsNullOrEmpty(value))
{
throw new ArgumentNullException(nameof(value));
}
var r = CommonParse.Parse(value, typeof(MassDetlaKelvin));
var units = Common.SplitUnitNameByTimesSign(r.UnitName);
if (units.Length != 2)
{
throw new Exception($"{r.UnitName} is not valid MassDetlaKelvin unit");
}
var counterUnit = new MassUnit(units[0]);
var denominatorUnit = new KelvinTemperatureUnit(units[1]);
return(new MassDetlaKelvin(r.Value, counterUnit, denominatorUnit));
}
public SpecificHeatCapacity(decimal value, EnergyMassDensityUnit counterUnit, KelvinTemperatureUnit denominatorUnit)
{
Value = value;
Unit = new SpecificHeatCapacityUnit(counterUnit, denominatorUnit);
}
public MassDetlaKelvin(decimal value, MassUnit leftUnit, KelvinTemperatureUnit rightUnit)
{
Value = value;
Unit = new MassDetlaKelvinUnit(leftUnit, rightUnit);
}
