Ejemplo n.º 1
0
 /// <summary>
 /// Converts the String input to the correct string 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 string To <TInput>(this StringBase input)
     where TInput : TemperatureBase
 {
     return(typeof(TInput).Name switch
     {
         nameof(Celsius) when input is CelsiusString castInput => StringParser(castInput.Temperature, CelsiusConverter.CelsiusToCelsius),
         nameof(Celsius) when input is FahrenheitString castInput => StringParser(castInput.Temperature, FahrenheitConverter.FahrenheitToCelsius),
         nameof(Celsius) when input is KelvinString castInput => StringParser(castInput.Temperature, KelvinConverter.KelvinToCelsius),
         nameof(Celsius) when input is GasString castInput => StringParser(castInput.Temperature, GasConverter.GasToCelsius),
         nameof(Celsius) when input is RankineString castInput => StringParser(castInput.Temperature, RankineConverter.RankineToCelsius),
         nameof(Fahrenheit) when input is CelsiusString castInput => StringParser(castInput.Temperature, CelsiusConverter.CelsiusToFahrenheit),
         nameof(Fahrenheit) when input is FahrenheitString castInput => StringParser(castInput.Temperature, FahrenheitConverter.FahrenheitToFahrenheit),
         nameof(Fahrenheit) when input is KelvinString castInput => StringParser(castInput.Temperature, KelvinConverter.KelvinToFahrenheit),
         nameof(Fahrenheit) when input is GasString castInput => StringParser(castInput.Temperature, GasConverter.GasToFahrenheit),
         nameof(Fahrenheit) when input is RankineString castInput => StringParser(castInput.Temperature, RankineConverter.RankineToFahrenheit),
         nameof(Kelvin) when input is CelsiusString castInput => StringParser(castInput.Temperature, CelsiusConverter.CelsiusToKelvin),
         nameof(Kelvin) when input is FahrenheitString castInput => StringParser(castInput.Temperature, FahrenheitConverter.FahrenheitToKelvin),
         nameof(Kelvin) when input is KelvinString castInput => StringParser(castInput.Temperature, KelvinConverter.KelvinToKelvin),
         nameof(Kelvin) when input is GasString castInput => StringParser(castInput.Temperature, GasConverter.GasToKelvin),
         nameof(Kelvin) when input is RankineString castInput => StringParser(castInput.Temperature, RankineConverter.RankineToKelvin),
         nameof(Gas) when input is CelsiusString castInput => StringParser(castInput.Temperature, CelsiusConverter.CelsiusToGas),
         nameof(Gas) when input is FahrenheitString castInput => StringParser(castInput.Temperature, FahrenheitConverter.FahrenheitToGas),
         nameof(Gas) when input is KelvinString castInput => StringParser(castInput.Temperature, KelvinConverter.KelvinToGas),
         nameof(Gas) when input is GasString castInput => StringParser(castInput.Temperature, GasConverter.GasToGas),
         nameof(Gas) when input is RankineString castInput => StringParser(castInput.Temperature, RankineConverter.RankineToGas),
         nameof(Rankine) when input is CelsiusString castInput => StringParser(castInput.Temperature, CelsiusConverter.CelsiusToRankine),
         nameof(Rankine) when input is FahrenheitString castInput => StringParser(castInput.Temperature, FahrenheitConverter.FahrenheitToRankine),
         nameof(Rankine) when input is KelvinString castInput => StringParser(castInput.Temperature, KelvinConverter.KelvinToRankine),
         nameof(Rankine) when input is GasString castInput => StringParser(castInput.Temperature, GasConverter.GasToRankine),
         nameof(Rankine) when input is RankineString castInput => StringParser(castInput.Temperature, RankineConverter.RankineToRankine),
         _ => throw new ArgumentException($"Invalid type: {typeof(TInput).Name}")
     });
        public void Test_to_gas_generic_from_celsius_throws_out_of_range_exception_too_high()
        {
            // Arrange.
            var input = new CelsiusString("271");

            // Act.
            var result = Assert.Throws <ArgumentOutOfRangeException>(() => input.To <Gas>());

            // Assert.
            result.Message.Should().Contain("Temp too high for gas mark!");
        }
        public void Test_to_rankine_generic_from_celsius_with_invalid_parameter_throws_exception(double input)
        {
            // Arrange.
            var inputCelsius = new CelsiusString(input.ToString(CultureInfo.InvariantCulture));

            // Act.
            var result = Assert.Throws <ArgumentOutOfRangeException>(() => inputCelsius.To <Rankine>());

            // Assert.
            result.Message.Should().Contain("Value out of range for type.");
        }
        public void Test_to_celsius_generic_from_celsius_returns_same_value()
        {
            // Arrange.
            var input = new CelsiusString("42");

            // Act.
            var result = input.To <Celsius>();

            // Assert.
            result.Should().Be(input.Temperature);
        }
        public void Test_to_rankine_generic_from_celsius_returns_correct_value()
        {
            // Arrange.
            const string expected = "851.6699999999998";
            var          input    = new CelsiusString("200");

            // Act.
            var result = input.To <Rankine>();

            // Assert.
            result.Should().Be(expected);
        }
        public void Test_to_kelvin_generic_from_celsius_returns_correct_value()
        {
            // Arrange.
            const string expected = "473.15";
            var          input    = new CelsiusString("200");

            // Act.
            var result = input.To <Kelvin>();

            // Assert.
            result.Should().Be(expected);
        }
        public void Test_to_gas_from_celsius_returns_correct_value()
        {
            // Arrange.
            const string expected = "6";
            var          input    = new CelsiusString("200");

            // Act.
            var result = input.ToGas();

            // Assert.
            result.Should().Be(expected);
        }
        public void Test_to_fahrenheit_generic_from_celsius_returns_same_value()
        {
            // Arrange.
            const string expected = "53.6";
            var          input    = new CelsiusString("12");

            // Act.
            var result = input.To <Fahrenheit>();

            // Assert.
            result.Should().Be(expected);
        }
Ejemplo n.º 9
0
 /// <summary>
 /// Converts the Celsius <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 string result.
 /// </returns>
 public static string ToFahrenheit(this CelsiusString input)
 {
     return(StringParser(input.Temperature, CelsiusConverter.CelsiusToFahrenheit));
 }
Ejemplo n.º 10
0
 /// <summary>
 /// Converts the Celsius <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 string result.
 /// </returns>
 public static string ToRankine(this CelsiusString input)
 {
     return(StringParser(input.Temperature, CelsiusConverter.CelsiusToRankine));
 }