public string Post([FromBody] string value) { DegreeConverter convert = new DegreeConverter(); Log.Information("Post received. Celsius value: {0}", value); return(convert.ToFahrenheit(Convert.ToDecimal(value)).ToString()); }
public void ToFahrenheit_ZeroCelsius_Returns32() { var converter = new DegreeConverter(); double result = converter.ToFahrenheit(0); Assert.That(result, Is.EqualTo(32)); }
public void GradianToDegree() { Gradian gradian = new Gradian(100); double degree = new DegreeConverter().Convert(gradian); Assert.IsTrue(degree == 90); }
public void ToCelsius_1Fahrenheit_Resturns0() { var converter = new DegreeConverter(); double result = converter.ToCelsius(1); Assert.That(result, Is.EqualTo(0)); }
public void ToCelsius_105Fahrenheit_Returns4056() { var converter = new DegreeConverter(); decimal result = converter.ToCelsius(105); Assert.That(result, Is.EqualTo(40.56)); }
public void ToFahrenheit_zero_Return32() { //Arrange //Act double result = DegreeConverter.ToFahrenheit(0); //Assert Assert.That(result, Is.EqualTo(32)); }
public void FizzBuzz_ReturnCorrectValue(int n, string s) { //Arrange //Act string result = DegreeConverter.FizzBuzz(n); //Assert Assert.That(result, Is.EqualTo(s)); }
public void ToCelsius_1Fahrenheit_Returns0() { //Arrange DegreeConverter converter = new DegreeConverter(); //is SUT //Act double result = converter.ToCelsius(1); //Assert Assert.That(result, Is.EqualTo(0)); //Contraints assertions model //Assert.AreEqual(result, 0);// of Klassieke assertions model }
public void TestRadiantToDegree() { Angle radiant = new Radiant(1.5); double degree = new DegreeConverter().Convert(radiant); Assert.IsTrue(degree > 85 && degree < 86); //TestRadiantToDegreeByCasting Radiant radiant1 = new Radiant(1.5); Degree degree1 = radiant1; Assert.IsTrue(degree1.Value > 85 && degree1.Value < 86); }
public override string ToString() { var parameters = new List <string>(); const string PropertySeparator = ": "; const string ParameterSeparator = ", "; if (Delay.HasValue) { parameters.Add(nameof(Delay) + PropertySeparator + Delay.Value); } if (Duration.HasValue) { parameters.Add(nameof(Duration) + PropertySeparator + Duration.Value); } if (Diameter.HasValue) { parameters.Add(nameof(Diameter) + PropertySeparator + Diameter.Value); } if (X.HasValue) { parameters.Add(nameof(X) + PropertySeparator + X.Value); } if (Y.HasValue) { parameters.Add(nameof(Y) + PropertySeparator + Y.Value); } if (Contrast.HasValue) { parameters.Add(nameof(Contrast) + PropertySeparator + Contrast.Value); } if (SpatialFrequency.HasValue) { parameters.Add(nameof(SpatialFrequency) + PropertySeparator + SpatialFrequency.Value); } if (TemporalFrequency.HasValue) { parameters.Add(nameof(TemporalFrequency) + PropertySeparator + TemporalFrequency.Value); } if (Orientation.HasValue) { parameters.Add(nameof(Orientation) + PropertySeparator + DegreeConverter.RadianToDegree(Orientation.Value) + "°"); } return(parameters.Count > 0 ? string.Join(ParameterSeparator, parameters) : nameof(GratingParameters)); }
public void TestRadiantToDegree() { Radiant radiant = new Radiant(1.5); double degree = new DegreeConverter().Convert(radiant); Assert.IsTrue(degree > 85 && degree < 86); //TestRadiantToDegreeByCasting Radiant radiant1 = new Radiant(1.5); Degree degree1 = radiant1; Assert.IsTrue(degree1.Value > 85 && degree1.Value < 86); //By using base radiant Angles.Radiant bRadiant = new Angles.Radiant(1.5); Degree bDegree = bRadiant; Assert.IsTrue(bDegree.Value > 85 && bDegree.Value < 86); }
public Cos(DegreeConverter converter) { this._converter = converter; }
public void ToCelcius_32Fahrenheit_Equals0() { double result = DegreeConverter.ToCelcius(32); Assert.That(result, Is.EqualTo(0)); }
public void ToFahrenheit_ZeroCelcius_Equals32() { double result = DegreeConverter.ToFahrenheit(0); Assert.That(result, Is.EqualTo(32)); }
public void ToCelsius_ThirtytwoFahrenheit_Returns0() { var result = new DegreeConverter().ToCelsius(32); Assert.That(result, Is.EqualTo(0)); }
public Arccos(DegreeConverter converter) { _converter = converter; }
public Tan(DegreeConverter converter) { _converter = converter; }
public Arctan(DegreeConverter converter) { _converter = converter; }
private void Default() { AngleConverter = new DegreeConverter(); }