public void modDiv_ShouldCorrectValue() { var simpleCalc = new SimpleCalc(); var modDiv = simpleCalc.modDiv(1, 2); Assert.Equal(1, modDiv); }
public void Sum_ShouldCorrectValue() { var simpleCalc = new SimpleCalc(); var sum = simpleCalc.Sum(1, 2); Assert.Equal(3, sum); }
public void Div_ShouldCorrectValue() { var simpleCalc = new SimpleCalc(); var div = simpleCalc.Div(1, 2); Assert.Equal(0, div); }
public IActionResult Index(Calculator cal, string op) { SimpleCalc calc = new SimpleCalc(); cal.result = calc.OperatorSwitch(cal.firstNum, cal.secondNum, op); return(View(cal)); }
public void Sub_ShouldCorrectValue() { var simpleCalc = new SimpleCalc(); var sub = simpleCalc.Sub(2, 1); Assert.Equal(1, sub); }
public void Mul_ShouldCorrectValue() { var simpleCalc = new SimpleCalc(); var mul = simpleCalc.Mul(1, 2); Assert.Equal(2, mul); }
public string Get([FromQuery] decimal leftNumber, [FromQuery] decimal rightNumber) { SimpleCalc calc = new SimpleCalc(); decimal result; result = calc.multiplicationFunc(leftNumber, rightNumber); return(result.ToString()); }
public string Post([FromForm] decimal leftNumber, [FromForm] decimal rightNumber) { SimpleCalc calc = new SimpleCalc(); decimal result; result = calc.subtractionFunc(leftNumber, rightNumber); return(result.ToString()); }
public void DivideOneNgeativeOnePositive() { SimpleCalc simpleCalc = new SimpleCalc(); double a = -10.0; double b = 14.0; double ans = a / b; double result = simpleCalc.divideNumbers(a, b); Assert.AreEqual(result, ans); }
public void DivideTwoNegatives() { SimpleCalc simpleCalc = new SimpleCalc(); double a = -10.0; double b = -10.0; double ans = a / b; double result = simpleCalc.divideNumbers(a, b); Assert.AreEqual(result, ans); }
public void MultilpyDecimalAndNegative() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.120; double b = -2.0; double ans = a * b; double result = simpleCalc.mulitplyNumbers(a, b); Assert.AreEqual(result, ans); }
public void MultilpyWholeNumberAndDecimal() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 12.0; double b = 0.1230; double ans = a * b; double result = simpleCalc.mulitplyNumbers(a, b); Assert.AreEqual(result, ans); }
public void SubstractTwoPositives() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 10.0; double b = 10.0; double ans = a - b; double result = simpleCalc.substractNumbers(a, b); Assert.AreEqual(result, ans); }
public void MultilpyTwoPositives() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 10.0; double b = 10.0; double ans = a * b; double result = simpleCalc.mulitplyNumbers(a, b); Assert.AreEqual(result, ans); }
public void DivideWholeNumberAndDecimal() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 12.0; double b = 0.1230; double ans = a / b; double result = simpleCalc.divideNumbers(a, b); Assert.AreEqual(result, ans); }
public void SubstractWholeNumberAndDecimal() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 12.0; double b = 0.1230; double ans = a - b; double result = simpleCalc.substractNumbers(a, b); Assert.AreEqual(result, ans); }
public void SubstractDecimalAndNegative() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.120; double b = -2.0; double ans = a - b; double result = simpleCalc.substractNumbers(a, b); Assert.AreEqual(result, ans); }
public void SubstractTwoDecimals() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.123342130; double b = 0.123342130; double ans = a - b; double result = simpleCalc.substractNumbers(a, b); Assert.AreEqual(result, ans); }
public void SubstractTwoLargeNumbers() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 1973820.0; double b = 1256890.0; double ans = a - b; double result = simpleCalc.substractNumbers(a, b); Assert.AreEqual(result, ans); }
public void SubstractOneZeroOneNegative() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.0; double b = -10.0; double ans = a - b; double result = simpleCalc.substractNumbers(a, b); Assert.AreEqual(result, ans); }
public void DivideZeroAndPositive() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.0; double b = 10.0; double ans = a / b; double result = simpleCalc.divideNumbers(a, b); Assert.AreEqual(result, ans); }
public void AddTwoZeros() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.0; double b = 0.0; double ans = a + b; double result = simpleCalc.addNumbers(a, b); Assert.AreEqual(result, ans); }
public void DivideTwoDecimals() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.123342130; double b = 0.13342130; double ans = a / b; double result = simpleCalc.divideNumbers(a, b); Assert.AreEqual(result, ans); }
public void AddTwoLargeNumbers() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 1973820.0; double b = 1256890.0; double ans = a + b; double result = simpleCalc.addNumbers(a, b); Assert.AreEqual(result, ans); }
public void DivideDecimalAndNegative() { SimpleCalc simpleCalc = new SimpleCalc(); double a = -2.0; double b = 0.120; double ans = a / b; double result = simpleCalc.divideNumbers(a, b); Assert.AreEqual(result, ans); }
public void AddDecimalAndNegative() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.120; double b = -2.0; double ans = a + b; double result = simpleCalc.addNumbers(a, b); Assert.AreEqual(result, ans); }
public void AddOneZeroOneNegative() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.0; double b = -10.0; double ans = a + b; double result = simpleCalc.addNumbers(a, b); Assert.AreEqual(result, ans); }
public void MultilpyTwoLargeNumbers() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 1973820.0; double b = 1256890.0; double ans = a * b; double result = simpleCalc.mulitplyNumbers(a, b); Assert.AreEqual(result, ans); }
public void MultilpyOneZeroOneNegative() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.0; double b = -10.0; double ans = a * b; double result = simpleCalc.mulitplyNumbers(a, b); Assert.AreEqual(result, ans); }
public void MultilpyTwoDecimals() { SimpleCalc simpleCalc = new SimpleCalc(); double a = 0.123342130; double b = 0.123342130; double ans = a * b; double result = simpleCalc.mulitplyNumbers(a, b); Assert.AreEqual(result, ans); }