public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Artanh(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Atanh(complex), result); Assert.Equal(0.2290726829685388, result.Real, 15); Assert.Equal(1.4099210495965755, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Cot(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Cot(complex), result); Assert.Equal(-0.010604783470337083, result.Real, 14); Assert.Equal(-1.0357466377649953, result.Imaginary, 14); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Csc(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Csc(complex), result); Assert.Equal(0.040300578856891527, result.Real, 15); Assert.Equal(0.27254866146294021, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Arcsch(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Acsch(complex), result); Assert.Equal(0.23133469857397318, result.Real, 15); Assert.Equal(-0.15038560432786197, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Coth(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Coth(complex), result); Assert.Equal(0.99675779656935837, result.Real, 15); Assert.Equal(0.0037397103763368955, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Arsinh(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Asinh(complex), result); Assert.Equal(1.983387029916535432347076, result.Real, 15); Assert.Equal(0.5706527843210994007, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Arccot(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Acot(complex), result); Assert.Equal(0.23182380450040308, result.Real, 15); Assert.Equal(-0.14694666622552988, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Sech(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Sech(complex), result); Assert.Equal(-0.0416749644111442700483, result.Real, 15); Assert.Equal(-0.090611137196237596, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Csch(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Csch(complex), result); Assert.Equal(-0.041200986288574125, result.Real, 15); Assert.Equal(-0.090473209753207426, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Arcosh(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Acosh(complex), result); Assert.Equal(1.9686379257930964, result.Real, 15); Assert.Equal(0.606137822387294, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Sec(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Sec(complex), result); Assert.Equal(-0.26351297515838928, result.Real, 15); Assert.Equal(0.036211636558768523, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Arccsc(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Acsc(complex), result); Assert.Equal(0.22996290237720782, result.Real, 15); Assert.Equal(-0.15735549884498545, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Arsech(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Asech(complex), result); Assert.Equal(0.15735549884498526, result.Real, 15); Assert.Equal(-1.3408334244176887, result.Imaginary, 15); }
public void ExecuteComplexNumberTest() { var complex = new Complex(3, 2); var exp = new Arcoth(new ComplexNumber(complex)); var result = (Complex)exp.Execute(); Assert.Equal(ComplexExtensions.Acoth(complex), result); Assert.Equal(0.2290726829685388, result.Real, 15); Assert.Equal(-0.16087527719832109, result.Imaginary, 15); }
/// <summary> /// Executes this expression. /// </summary> /// <param name="complex">The calculation result of argument.</param> /// <returns> /// A result of the execution. /// </returns> /// <seealso cref="ExpressionParameters" /> protected override Complex ExecuteComplex(Complex complex) { return(ComplexExtensions.Acoth(complex)); }
/// <summary> /// Executes this expression. /// </summary> /// <param name="parameters">An object that contains all parameters and functions for expressions.</param> /// <returns> /// A result of the execution. /// </returns> /// <seealso cref="ExpressionParameters" /> protected override Complex ExecuteComplex(ExpressionParameters parameters) { return(ComplexExtensions.Acoth((Complex)m_argument.Execute(parameters))); }