/// <summary>
/// Converts the float input to the correct float value.
/// </summary>
/// <typeparam name="TInput"> The temperature type to be converted to. </typeparam>
/// <param name="input"> The value to be converted. </param>
/// <exception cref="ArgumentException"> The TInput type is not a valid type for this method. </exception>
/// <returns>
/// The result of the conversion.
/// </returns>
public static float To <TInput>(this FloatBase input)
where TInput : TemperatureBase
{
return(typeof(TInput).Name switch
{
nameof(Celsius) when input is CelsiusFloat castInput => FloatParser(CelsiusConverter.CelsiusToCelsius(castInput.Temperature)),
nameof(Celsius) when input is FahrenheitFloat castInput => FloatParser(FahrenheitConverter.FahrenheitToCelsius(castInput.Temperature)),
nameof(Celsius) when input is KelvinFloat castInput => (float)Math.Round(FloatParser(KelvinConverter.KelvinToCelsius(castInput.Temperature)), 2),
nameof(Celsius) when input is GasFloat castInput => FloatParser(GasConverter.GasToCelsius(castInput.Temperature)),
nameof(Celsius) when input is RankineFloat castInput => (float)Math.Round(FloatParser(RankineConverter.RankineToCelsius(castInput.Temperature)), 2),
nameof(Fahrenheit) when input is CelsiusFloat castInput => FloatParser(CelsiusConverter.CelsiusToFahrenheit(castInput.Temperature)),
nameof(Fahrenheit) when input is FahrenheitFloat castInput => FloatParser(FahrenheitConverter.FahrenheitToFahrenheit(castInput.Temperature)),
nameof(Fahrenheit) when input is KelvinFloat castInput => (float)Math.Round(FloatParser(KelvinConverter.KelvinToFahrenheit(castInput.Temperature)), 2),
nameof(Fahrenheit) when input is GasFloat castInput => FloatParser(GasConverter.GasToFahrenheit(castInput.Temperature)),
nameof(Fahrenheit) when input is RankineFloat castInput => FloatParser(RankineConverter.RankineToFahrenheit(castInput.Temperature)),
nameof(Kelvin) when input is CelsiusFloat castInput => FloatParser(CelsiusConverter.CelsiusToKelvin(castInput.Temperature)),
nameof(Kelvin) when input is FahrenheitFloat castInput => FloatParser(FahrenheitConverter.FahrenheitToKelvin(castInput.Temperature)),
nameof(Kelvin) when input is KelvinFloat castInput => FloatParser(KelvinConverter.KelvinToKelvin(castInput.Temperature)),
nameof(Kelvin) when input is GasFloat castInput => FloatParser(GasConverter.GasToKelvin(castInput.Temperature)),
nameof(Kelvin) when input is RankineFloat castInput => FloatParser(RankineConverter.RankineToKelvin(castInput.Temperature)),
nameof(Gas) when input is CelsiusFloat castInput => FloatParser(CelsiusConverter.CelsiusToGas(castInput.Temperature)),
nameof(Gas) when input is FahrenheitFloat castInput => FloatParser(FahrenheitConverter.FahrenheitToGas(castInput.Temperature)),
nameof(Gas) when input is KelvinFloat castInput => FloatParser(KelvinConverter.KelvinToGas(castInput.Temperature)),
nameof(Gas) when input is GasFloat castInput => FloatParser(GasConverter.GasToGas(castInput.Temperature)),
nameof(Gas) when input is RankineFloat castInput => FloatParser(RankineConverter.RankineToGas(castInput.Temperature)),
nameof(Rankine) when input is CelsiusFloat castInput => FloatParser(CelsiusConverter.CelsiusToRankine(castInput.Temperature)),
nameof(Rankine) when input is FahrenheitFloat castInput => FloatParser(FahrenheitConverter.FahrenheitToRankine(castInput.Temperature)),
nameof(Rankine) when input is KelvinFloat castInput => FloatParser(KelvinConverter.KelvinToRankine(castInput.Temperature)),
nameof(Rankine) when input is GasFloat castInput => FloatParser(GasConverter.GasToRankine(castInput.Temperature)),
nameof(Rankine) when input is RankineFloat castInput => FloatParser(RankineConverter.RankineToRankine(castInput.Temperature)),
_ => throw new ArgumentException($"Invalid type: {typeof(TInput).Name}")
});
/// <summary>
/// Converts the Double input to the correct double value.
/// </summary>
/// <typeparam name="TInput"> The temperature type to be converted to. </typeparam>
/// <param name="input"> The value to be converted. </param>
/// <exception cref="ArgumentException"> The TInput type is not a valid type for this method. </exception>
/// <returns>
/// The result of the conversion.
/// </returns>
public static double To <TInput>(this DoubleBase input)
where TInput : TemperatureBase
{
return(typeof(TInput).Name switch
{
nameof(Celsius) when input is CelsiusDouble castInput => CelsiusConverter.CelsiusToCelsius(castInput.Temperature),
nameof(Celsius) when input is FahrenheitDouble castInput => FahrenheitConverter.FahrenheitToCelsius(castInput.Temperature),
nameof(Celsius) when input is KelvinDouble castInput => KelvinConverter.KelvinToCelsius(castInput.Temperature),
nameof(Celsius) when input is GasDouble castInput => GasConverter.GasToCelsius(castInput.Temperature),
nameof(Celsius) when input is RankineDouble castInput => RankineConverter.RankineToCelsius(castInput.Temperature),
nameof(Fahrenheit) when input is CelsiusDouble castInput => CelsiusConverter.CelsiusToFahrenheit(castInput.Temperature),
nameof(Fahrenheit) when input is FahrenheitDouble castInput => FahrenheitConverter.FahrenheitToFahrenheit(castInput.Temperature),
nameof(Fahrenheit) when input is KelvinDouble castInput => KelvinConverter.KelvinToFahrenheit(castInput.Temperature),
nameof(Fahrenheit) when input is GasDouble castInput => GasConverter.GasToFahrenheit(castInput.Temperature),
nameof(Fahrenheit) when input is RankineDouble castInput => RankineConverter.RankineToFahrenheit(castInput.Temperature),
nameof(Kelvin) when input is CelsiusDouble castInput => CelsiusConverter.CelsiusToKelvin(castInput.Temperature),
nameof(Kelvin) when input is FahrenheitDouble castInput => FahrenheitConverter.FahrenheitToKelvin(castInput.Temperature),
nameof(Kelvin) when input is KelvinDouble castInput => KelvinConverter.KelvinToKelvin(castInput.Temperature),
nameof(Kelvin) when input is GasDouble castInput => GasConverter.GasToKelvin(castInput.Temperature),
nameof(Kelvin) when input is RankineDouble castInput => RankineConverter.RankineToKelvin(castInput.Temperature),
nameof(Gas) when input is CelsiusDouble castInput => CelsiusConverter.CelsiusToGas(castInput.Temperature),
nameof(Gas) when input is FahrenheitDouble castInput => FahrenheitConverter.FahrenheitToGas(castInput.Temperature),
nameof(Gas) when input is KelvinDouble castInput => KelvinConverter.KelvinToGas(castInput.Temperature),
nameof(Gas) when input is GasDouble castInput => GasConverter.GasToGas(castInput.Temperature),
nameof(Gas) when input is RankineDouble castInput => RankineConverter.RankineToGas(castInput.Temperature),
nameof(Rankine) when input is CelsiusDouble castInput => CelsiusConverter.CelsiusToRankine(castInput.Temperature),
nameof(Rankine) when input is FahrenheitDouble castInput => FahrenheitConverter.FahrenheitToRankine(castInput.Temperature),
nameof(Rankine) when input is KelvinDouble castInput => KelvinConverter.KelvinToRankine(castInput.Temperature),
nameof(Rankine) when input is GasDouble castInput => GasConverter.GasToRankine(castInput.Temperature),
nameof(Rankine) when input is RankineDouble castInput => RankineConverter.RankineToRankine(castInput.Temperature),
_ => throw new ArgumentException($"Invalid type: {typeof(TInput).Name}")
});
public void FromCelsiusToKelvin(
double input,
double expectedOutput
)
{
ITemperatureConverter converter = new KelvinConverter();
Assert.AreEqual(expectedOutput, converter.FromCelsiusToUnit(input), Tolerance);
}
public void FromC_Returns_Expected(double celsius, double expectedKelvin)
{
var converter = new KelvinConverter();
var temperature = new Temperature(celsius, TemperatureUnit.C);
var expectedTemperature = new Temperature(expectedKelvin, TemperatureUnit.K);
var kelvinTemperature = converter.FromC(temperature);
Assert.AreEqual(expectedTemperature, kelvinTemperature);
}
public void ToC_Returns_Expected(double kelvin, double expectedCelsius)
{
var converter = new KelvinConverter();
var temperature = new Temperature(kelvin, TemperatureUnit.K);
var expectedTemperature = new Temperature(expectedCelsius, TemperatureUnit.C);
var celsiusTemperature = converter.ToC(temperature);
Assert.AreEqual(expectedTemperature, celsiusTemperature);
}
/// <summary>
/// Converts the KelvinConverter <paramref name="input"/> to Celsius
/// </summary>
/// <param name="input"> The value to be converted. </param>
/// <returns>
/// The Celsius <see langword="float"/> result.
/// </returns>
public static float ToCelsius(this KelvinFloat input)
{
return((float)Math.Round(FloatParser(KelvinConverter.KelvinToCelsius(input.Temperature)), 2));
}
/// <summary>
/// Converts the KelvinConverter <paramref name="input"/> to RankineConverter
/// </summary>
/// <param name="input"> The value to be converted. </param>
/// <exception cref="T:System.ArgumentOutOfRangeException">If calculated value is beyond the limits of the type.</exception>
/// <returns>
/// The RankineConverter <see langword="float"/> result.
/// </returns>
public static float ToRankine(this KelvinFloat input)
{
return(FloatParser(KelvinConverter.KelvinToRankine(input.Temperature)));
}
/// <summary>
/// Converts the KelvinConverter <paramref name="input"/> to Celsius
/// </summary>
/// <param name="input"> The value to be converted. </param>
/// <exception cref="T:System.ArgumentOutOfRangeException"> If calculated value is beyond the limits of the type. </exception>
/// <returns>
/// The Celsius <see langword="int"/> result.
/// </returns>
public static int ToCelsius(this KelvinInt input)
{
return(IntParser(KelvinConverter.KelvinToCelsius(input.Temperature)));
}
/// <summary>
/// Converts the KelvinConverter <paramref name="input"/> to FahrenheitConverter
/// </summary>
/// <param name="input"> The value to be converted. </param>
/// <exception cref="T:System.ArgumentOutOfRangeException">If calculated value is beyond the limits of the type.</exception>
/// <returns>
/// The FahrenheitConverter <see langword="int"/> result.
/// </returns>
public static int ToFahrenheit(this KelvinInt input)
{
return(IntParser(KelvinConverter.KelvinToFahrenheit(input.Temperature)));
}
/// <summary>
/// Converts the KelvinConverter <paramref name="input"/> to Celsius
/// </summary>
/// <param name="input"> The value to be converted. </param>
/// <returns>
/// The Celsius <see langword="double"/> result.
/// </returns>
public static double ToCelsius(this KelvinDouble input)
{
return(KelvinConverter.KelvinToCelsius(input.Temperature));
}
/// <summary>
/// Converts the KelvinConverter <paramref name="input"/> to Ranking
/// </summary>
/// <param name="input"> The value to be converted. </param>
/// <returns>
/// The RankineConverter <see langword="double"/> result.
/// </returns>
public static double ToRankine(this KelvinDouble input)
{
return(KelvinConverter.KelvinToRankine(input.Temperature));
}
/// <summary>
/// Converts the KelvinConverter <paramref name="input"/> to FahrenheitConverter
/// </summary>
/// <param name="input"> The value to be converted. </param>
/// <exception cref="T:System.ArgumentOutOfRangeException">If calculated value is beyond the limits of the type.</exception>
/// <returns>
/// The FahrenheitConverter <see langword="double"/> result.
/// </returns>
public static double ToFahrenheit(this KelvinDouble input)
{
return(KelvinConverter.KelvinToFahrenheit(input.Temperature));
}
