public void AdditionAccumulator_NegativeAndPositiveInteger_Equal() { var calc = new calculator(); var calculated = calc.Add(-4); calculated = calc.Add(8); Assert.AreEqual(4, calculated); }
public void AdditionTest_PositiveAndNegativInteger_Equal() { var calc = new calculator(); var calculated = calc.Add(-4, 8); Assert.AreEqual(4, calculated); }
public void PowerAccumulator_NegativeAndPositiveDouble_EqualThrow() { var calc = new calculator(); calc.Add(-0.5); Assert.Catch <ArithmeticException>(() => calc.Power(0.5)); }
public void CalcAddMethod() { calculator add = new calculator(); result = add.Add(10, 20); Assert.AreEqual(30, result); }
public void AdditionTest_NegativeInteger_NotEqual() { var calc = new calculator(); var calculated = calc.Add(-4, -4); Assert.AreNotEqual(8, calculated); }
public void AdditionAccumulatorInit_PositiveInteger_Equal() { var calc = new calculator(); var calculated = calc.Add(4); Assert.AreEqual(4, calculated); }
public void AdditionTest_PositiveInteger_Equal() { var calc = new calculator(); var result = calc.Add(3, 5); Assert.AreEqual(8, result); }
public void calculatorAddMethod(int x, int y, int z) { calculator add = new calculator(); result = add.Add(x, y); Assert.AreEqual(z, result); }
static void Main(String[] args) { calculator calc = new calculator(); //calc.set(33,3); calc.Add(); }
public void DivisionAccumulator_ZeroInteger_EqualThrow() { var calc = new calculator(); calc.Add(6); Assert.Catch <DivideByZeroException>(() => calc.Divide(0)); }
public void ClearAccumulator_Equal() { var calc = new calculator(); calc.Add(420); calc.Clear(); Assert.AreEqual(0, calc.Accumulator); }
public void PowerAccumulator_NegativeAndPositiveInteger_Equal() { var calc = new calculator(); var calculated = calc.Add(-4); calculated = calc.Power(8); Assert.AreEqual(65536, calculated); }
public void DivisionAccumulator_NegativeAndPositiveInteger_Equal() { var calc = new calculator(); var calculated = calc.Add(-4); calculated = calc.Divide(4); Assert.AreEqual(-1, calculated); }
static void Main(string[] args) { calculator <int> c = new calculator <int>(); c.Add(2, 4); calculator <float> ca = new calculator <float>(); ca.Add(2.90f, 4f); c.Sub(2, 4); }
private void buttoneq_Click(object sender, EventArgs e) { double result = 0.0; double a = 0.0; double b = 0.0; if (sign != "") { stack1.Push(Convert.ToDouble(Display.Text)); if (stack1.Count > 1) { b = stack1.Pop(); a = stack1.Pop(); switch (sign) { case "+": { result = operation.Add(a, b); DisplayResult(result); stack1.Push(result); sign = ""; break; } case "-": { result = operation.Sub(a, b); DisplayResult(result); stack1.Push(result); sign = ""; break; } case "×": { result = operation.Mul(a, b); DisplayResult(result); stack1.Push(result); sign = ""; break; } case "÷": { if (b != 0) { result = operation.Div(a, b); DisplayResult(result); stack1.Push(result); sign = ""; } else { Display.Text = "ERROR"; } break; } case "%×": { result = operation.Percent(a, b); DisplayResult(result); stack1.Push(result); sign = ""; break; } case "^": { result = operation.Power(a, b); DisplayResult(result); stack1.Push(result); sign = ""; break; } case "√": { if (b != 0) { result = operation.Root(a, b); DisplayResult(result); stack1.Push(result); sign = ""; } else { Display.Text = "ERROR"; } break; } default: { break; } } } } }
static void Main(string[] args) { // CLASSES Person john = new Person(); john.FirstName = "John"; john.LastName = "Smith"; john.Introduce(); calculator calculator = new calculator(); var result = calculator.Add(1, 2); Console.WriteLine(result); // ARRAYS // Array of length 3. The length is fixed in C#. var numbers = new int[3] { 1, 2, 3 }; numbers[0] = 1; Console.WriteLine(numbers[0]); Console.WriteLine(numbers[1]); // Filled with default value based on array type. Console.WriteLine(numbers[2]); var flags = new bool[3]; flags[0] = true; Console.WriteLine(flags[0]); Console.WriteLine(flags[1]); Console.WriteLine(flags[2]); // Can define values at initialization var names = new string[3] { "Jack", "John", "Mary" }; // STRINGS //This is a standard string concatanation. // string name = firstName + " " + lastName; //STRING FORMAT //This is a format that makes strings easier to read. // string actucalName = string.Format("{0} {1}", firstName, lastName); // Strings are immutable var firstName = "Mosh"; var lastName = "Hamedani"; var fullName = string.Format("My name is {0} {1}", firstName, lastName); Console.WriteLine(fullName); var names = new string[3] { "Jack", "John", "Mary" }; var formattedNames = string.Join(",", names); Console.WriteLine(formattedNames); var text = "Hi John\nLook into the following paths\nc:\\folder1\\folder2"; Console.WriteLine(text); var text1 = @"Hi John Look into the following paths c:\folder1\folder2"; Console.WriteLine(text1); //ENUMS var method = ShippingMethod.Express; Console.WriteLine((int)method); var methodId = 3; Console.WriteLine((ShippingMethod)methodId); Console.WriteLine(method.ToString()); var methodName = "Express"; var shippingMethod = (ShippingMethod)Enum.Parse(typeof(ShippingMethod), methodName); }
public void Add2And1_Return3() { uut.a = 2; uut.b = 1; Assert.That(uut.Add(uut.a, uut.b), Is.EqualTo(3)); }