public void Addition_addMinus3toInitializedAccumulator_returns1() { var uut = new CalculatorClass.Calculator(); uut.Add(4); // Accumulator = 3 - Given that Add works as proposed. Assert.That(uut.Add(-3), Is.EqualTo(1)); }
public void Accumulator_getPositiveAccumulator_returns2() { var uut = new CalculatorClass.Calculator(); uut.Add(1, 1); //Accumulator should now be 2, given that Add-function works properly. Assert.That(uut.Accumulator, Is.EqualTo(2)); }
public double DivisionWithTestCase_MultiplyWithInitializedAccumulator_ReturnsResult(double divisor) { var uut = new CalculatorClass.Calculator(); uut.Add(4); // Accumulator = 4 - Given that Add works as proposed. return(uut.Divide(divisor)); }
public void Subtraction_subtractMinus3fromInitializedAccumulator_returns1() { var uut = new CalculatorClass.Calculator(); uut.Add(4); // Accumulator = 4 - Given that Add works as proposed. Assert.That(uut.Subtract(-3), Is.EqualTo(7)); }
public double AddWithTestCase_Add2Numbers_ReturnsResult(double x, double y) { var uut = new CalculatorClass.Calculator(); return(uut.Add(x, y)); }
public void Addition_add2point5toDefaultAccumulator_returns2point5() { var uut = new CalculatorClass.Calculator(); Assert.That(uut.Add(2.5), Is.EqualTo(2.5)); }
public void Addition_addMinus3toDefaultAccumulator_returnsMinus3() { var uut = new CalculatorClass.Calculator(); Assert.That(uut.Add(-3), Is.EqualTo(-3)); }
public void Add_Add3And4_Returns7() { var uut = new CalculatorClass.Calculator(); Assert.That(uut.Add(3, 4), Is.EqualTo(7)); }