public void Arrange() { _calcRepoTest = new CalculatorRepository(); a = 10m; b = 2m; c = 9m; }
public void CalculatorRepository_DivideTwoNumbers_ShouldBeCorrectInt() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.DivideTwoNumbers(1, 1); Assert.AreEqual(1, actual); }
public void CalculatorRepository_RemainderOfTwoNumbers_ShouldBeCorrectInt() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.RemainderOfTwoNumbers(10, 3); Assert.AreEqual(1, actual); }
public void TestMethod3() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.MultiplyTwoNumbers(4, 2); int expected = 8; Assert.AreEqual(expected, actual); }
public void TestMethod4() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.DivideTwoNumbers(4, 2); int expected = 2; Assert.AreEqual(expected, actual); }
public void Arrange() { _calcRepo = new CalculatorRepository(); a = 1; b = 5; x = 2; y = 6; }
public void TestMethod1() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.AddTwoNumbers(5, 5); int expected = 10; Assert.AreEqual(expected, actual); }
public void TestMethod5() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.RemainderOfTwoNumbers(4, 2); int expected = 0; Assert.AreEqual(expected, actual); }
public void Subtraction() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.SubtractTwoNumbers(6, 4); int expected = 2; Assert.AreEqual(expected, actual); }
public void Calculator_DivideTwoNumbers_ShouldBeCorrectValue() { CalculatorRepository calcRepo = new CalculatorRepository(); decimal actualValue = calcRepo.DivideTwoNumbers(12, 3); decimal expected = 4; Assert.AreEqual(expected, actualValue); }
public void Calculator_MultiplyTwoNumbers_ShouldBeCorrectValue() { CalculatorRepository calcRepo = new CalculatorRepository(); float actualValue = calcRepo.MultiplyTwoNumbers(4, 3); float expected = 12; Assert.AreEqual(expected, actualValue); }
public void Multiplication() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.MultiplyTwoNumbers(6, 4); int expected = 24; Assert.AreEqual(expected, actual); }
public void Modulo() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.ModuloTwoNumbers(16, 4); int expected = 0; Assert.AreEqual(expected, actual); }
public void Division() { CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.DivideTwoNumbers(16, 4); int expected = 4; Assert.AreEqual(expected, actual); }
public CalculatorViewModel(CalculatorRepository calculatorRepository, RoomsService roomsService) { _strings = new Strings(); _roomsService = roomsService; _calculatorRepository = calculatorRepository; _calculatorModel = calculatorRepository.GetModelFromXml(); SaveCommand = new DelegateCommand(executeAction => this.Save(), canExecute => true); CalculateCommand = new DelegateCommand(executeAction => this.Calculate(), canExecute => true); Change = new DelegateCommand(executeAction => this.ChangeLanguage(), canExecute => true); }
public void CalculatorRepository_RemainderTwoNumbers_ShouldReturnCorrectInt() { // Arrange CalculatorRepository calculatorRepo = new CalculatorRepository(); // Act int actual = calculatorRepo.RemainderOperator(2, 2); // Assert Assert.AreEqual(0, actual); }
public void CalculatorRepository_DivideTwoNumbers_ShouldReturnCorrectInt() { // Arrange CalculatorRepository calculatorRepo = new CalculatorRepository(); // Act int actual = calculatorRepo.DivideTwoNumbers(2, 2); // Assert Assert.AreEqual(1, actual); }
public void CalculatorRepository_SubtractTwoNumbers_ShouldBeCorrectInt() { // Arrange CalculatorRepository calculatorRepo = new CalculatorRepository(); // Act int actual = calculatorRepo.SubtractTwoNumbers(2, 2); // Assert Assert.AreEqual(0, actual); }
private ICalculator CreateArithmeticController(IInputRepository inputRepositoryObjectStub, IPrintRepository printRepositoryObjectStub) { ISeparationEquation separationEquation = new ArithmeticSeparationEquation(); ICalculationEquation calculationEquation = new ArithmeticCalculationEquation(); ICalculatorRepository calculatorRepository = new CalculatorRepository(separationEquation, calculationEquation); CalculatorController calculator = new CalculatorController(inputRepositoryObjectStub, printRepositoryObjectStub, calculatorRepository); return(calculator); }
public void TestMethod1() { Console.WriteLine("Please enter two numbers"); int a = int.Parse(Console.ReadLine()); int b = int.Parse(Console.ReadLine()); CalculatorRepository calcRepo = new CalculatorRepository(); int actual = calcRepo.AddTwoNumbers(a, b); int expected = 10; Assert.AreEqual(expected, actual); }
public void CalculatorRepository_AddTwoNumbers_ShouldBeCorrectInt() { // Arrange CalculatorRepository calcRepo = new CalculatorRepository(); // Act int actual = calcRepo.AddTwoNumbers(1, 1); // Assert Assert.AreEqual(2, actual); }
public void CalcRepo_MultiplyTwoNumbers_ShouldReturnCorrectDouble() { // Arrange CalculatorRepository repo = new CalculatorRepository(); // Act double expected = repo.Multiply(7, 5); double actual = 35; // Assert Assert.AreEqual(expected, actual); }
public void DivideByZero() { int firstValue = 4; int secondValue = 0; CalculatorRepository op = new CalculatorRepository(); Assert.Throws<DivideByZeroException>(() => op.Divide(firstValue, secondValue)); }
public void Calculator_SubtractTwoNumbers_ShouldBeCorrectValue() { // because the below code is in a new bracket thing, // I can reuse variable names (calcRepo, actualValue, expected, etc) CalculatorRepository calcRepo = new CalculatorRepository(); float actualValue = calcRepo.SubtractTwoNumbers(4, 3); float expected = 1; Assert.AreEqual(expected, actualValue); }
public void CalcRepo_DivideTwoNumbers_ShouldReturnCorrectDouble() { // Arrange CalculatorRepository repo = new CalculatorRepository(); // Act double expected = repo.Divide(12.5, 5); double actual = 2.5; // Assert Assert.AreEqual(expected, actual); }
public void Calculator_SubtractTwoNumbers_ShouldBeCorrectValue() { //Arrange CalculatorRepository calcRepo = new CalculatorRepository(); //Act int actualValue = calcRepo.SubtractTwoNumbers(4, 3); int expected = 1; //Assert Assert.AreEqual(expected, actualValue); }
public void Calculator_MultiplyTwoNumbers_ShouldBeCorrectValue() { //Arrange CalculatorRepository calcRepo = new CalculatorRepository(); //Act int actualValue = calcRepo.MultiplyTwoNumbers(9, 3); int expected = 27; //Assert Assert.AreEqual(expected, actualValue); }
public void Minus() { int firstValue = 5; int secondValue = 5; CalculatorRepository op = new CalculatorRepository(); var result = op.Times(firstValue, secondValue); Assert.Equal(25, result); }
public void Divide() { int firstValue = 4; int secondValue = 2; CalculatorRepository op = new CalculatorRepository(); var result = op.Divide(firstValue, secondValue); Assert.Equal(2, result); }
public void Addition() { int firstValue = 10; int secondValue = 5; CalculatorRepository op = new CalculatorRepository(); var result = op.Addition(firstValue, secondValue); Assert.Equal(15, result); }