public void SquaringTest2(double firstValue, double expected) { IOneArgumentCalculate calculator = new Squaring(); double result = calculator.Calculate(firstValue); Assert.AreEqual(expected, result, 0.00001); }
public void TestSquaring(double firstArgument, double output) { var calculator = new Squaring(); var testResult = calculator.Calculate(firstArgument); Assert.AreEqual(output, testResult, 0.0000001); }
public void CalculateTest(double firstValue, double expected) { var calculator = new Squaring(); var actualResult = calculator.Calculate(firstValue); Assert.AreEqual(expected, actualResult); }
public void SquaringTest(double value, double expected) { var calculator = new Squaring(); var actualResult = calculator.Calculate(value); Assert.AreEqual(expected, actualResult, 0.001); }
public double Execute_WhenValueIsNotNegative_ThenReturnSquareRoot(double value) { //Arrange var squaring = new Squaring(); //Act var result = squaring.Execute(value); //Assert return(result); }
public void GetExecutableInfo_WhenValueIsAny_ThenCanExecute(double value) { //Arrange var squaring = new Squaring(); //Act var executableInfo = squaring.GetExecutableInfo(value); //Assert Assert.That(executableInfo.CanBeExecuted, Is.True); }
public void SquaringTest2() { IOneArgumentCalculate calculator = new Squaring(); Assert.Throws <Exception>(() => calculator.Calculate(12)); }
public void SquareDouble() { Assert.AreEqual(116.64000000000001, Squaring.Square(b)); }
public void SquareTest() { Assert.AreEqual(25, Squaring.Square(a)); }
public void SquareDoubletest() { Assert.AreEqual(174.23999999999998, Squaring.Square(b)); }
public dynamic Square(dynamic a) { result = Squaring.Square(a); return(result); }