public void AddmetodeVerificationNonSybole()
{
int number1 = 1;
int number2 = 2;
double result = _calculatorEngine.Calculate("add", number1, number2);
}
public void AddTwoNumbersAndReturnValidResultForNonSymbol()
{
int number1 = 2;
int number2 = 4;
double result = _calculatorEngine.Calculate("Add", number1, number2);
Assert.AreEqual(6, result);
}
public void AddsTwoNumbersAndReturnsValidResultForNonSymbolOperations()
{
int number1 = 1;
int number2 = 2;
double result = _calculatorEngine.Calculate("add", number1, number2);
Assert.AreEqual(3, result);
}
public void AddsTwoNumbersAndReturnsValidResultForNonSymbolOperation()
{
double number1 = 1;
double number2 = 5;
double result = _calculatorEngine.Calculate(number1, number2, "add");
Assert.AreEqual(6, result);
}
public void AddsTwoNumbersAndReturnsValidResultForNonSymbolOperation()
{
int n_number1 = 1;
int n_number2 = 2;
double d_result = ce_calculatorEngine.Calculate("add", n_number1, n_number2);
// Assert is another way to check if the result matches the outcome it's meant to be
Assert.AreEqual(3, d_result);
}
public void AddsTwoNumbersAndReturnsValindResultForNonSymbolOperation()
{
int number1 = 1;
int number2 = 2;
double result = _calculatorengine.Calculate(number1, number2, "add");
Assert.AreEqual(result, 3);
}
public void AddsTwoNumbersAndReturnsValidResultForNonSymbolOperation()
{
//1. setting up the data:
int number1 = 1;
int number2 = 2;
//2. processing the data through the method that you want to test:
double result = _calculatorEngine.Calculate("add", number1, number2);
//3. comparing the result against our assumption:
Assert.AreEqual(3, result);
}
public void AddsTwoNumbersAndReturnsValidResultForNonSymbolOperation()
{
//Setting up the data
int number1 = 1;
int number2 = 2;
//Processing data
double result = _calculatorEngine.Calculate(number1, number2, "add");
//Comparision
Assert.AreEqual(3, result);
}
public void AddTwoNumbersUsingNonSymbolOperator()
{
int intNum1 = 1;
int intNum2 = 2;
double dblResult = _calculatorEngine.Calculate("add", intNum1, intNum2);
Assert.AreEqual(3, dblResult);
}
public void Can_Add_Two_Numbers_For_Non_Symbol_Operation()
{
int number1 = 5;
int number2 = 10;
double result = calculatorEngine.Calculate("add", number1, number2);
Assert.AreEqual(15, result);
}
public void AddsTwoNumbersAndReturnsValidResultForNonSymbolOperation()
{
// setting up the test data
int number1 = 1;
int number2 = 2;
// processing data
double result = _calculatorEngine.Calculate("add", number1, number2);
// compare result against our assumption
Assert.AreEqual(3, result); // takes expected and actual result
}
public void AddsTwoNumbersAndReturnsValidResultForNonSymbolOperation()
{
//First step is setting up the data for your unit tests.
//Second step is processing that data through the method that you want to test.
int number1 = 1;
int number2 = 2;
double result = _calculatorEngine.Calculate("add", number1, number2);
Assert.AreEqual(3, result); //Third step is comparing the result that you got from the processing against your assumption.
}
public void AddsTwoNumbersAndReturnsValidResultsForNonSymbolOperation()
{
// Arrange
int number1 = 1;
int number2 = 2;
// Act
double result = _calculatorEngine.Calculate("add", number1, number2);
// Assert
Assert.AreEqual(3, result);
}
public void AddsTwoNumbersAndReturnsValidResultForNonSymbolOperation()
{
//setting up data for unit tests
//processing the data through the method that is to be tested
//comparing the result gotten from processing against original assumption.
int number1 = 1;
int number2 = 2;
double result = _calculatorEngine.Calculate("add", number1, number2);
Assert.AreEqual(3, result);
}
static void Main(string[] args)
{
try {
InputConverter inputConverter = new InputConverter();
CalculatorEngine calculatorEngine = new CalculatorEngine();
System.Console.WriteLine("Enter operation");
// Read the first number and converts it
double firstNumber = inputConverter.ConvertInputToNumeric(Console.ReadLine());
// Read the second number and converts it
double secondNumber = inputConverter.ConvertInputToNumeric(Console.ReadLine());
// Read the operator
string operation = Console.ReadLine();
// Do the calculation that returns a result
double result = calculatorEngine.Calculate(operation, firstNumber, secondNumber);
// Print the result
System.Console.WriteLine("{0} + {1} = {2}", firstNumber, secondNumber, result);
} catch (Exception ex) {
System.Console.WriteLine(ex.Message);
}
}
public void AddsTwoNumbersAndReturnsValidResult()
{
double actual = calculatorEngine.Calculate("add", 1, 2);
double expected = 3;
Assert.AreEqual(expected, actual);
}
public CalculatorViewModel(CalculatorEngine calculatorEngine)
{
_calculatorEngine = calculatorEngine;
Result = _calculatorEngine.Calculate('=').ToString();
INotifyPropertyChanged("Result");
KeyCommand = new RelayCommand(o => CalculatorKeyClicked(o));
CloseCommand = new RelayCommand(o => Close(o));
}
public void AddsTwoNumbersAndReturnsValidResultForNonSymbolOpeartion()
/* 3 steps to a unit test
* 1) Setting up data for unit test
* 2) Process data through the method that you want to test
* 3) compare result of the unit test to your assumption */
{
//This is step 1
int num1 = 1;
int num2 = 2;
//*** & step 2
double result = _calculatorEngine.Calculate("add", num1, num2);
//Step 3
Assert.AreEqual(3, result);
}
private async void EvalAndAddVariable()
{
Calculating = true;
var result = await _engine.Calculate(Formula.Trim());
Formula = string.Empty;
Calculating = false;
switch (result.Status)
{
case Status.ResultOk:
Engine.SetVariable(GenerateName(), result.RawObject);
break;
default:
await _app.ShowMessageBox("Error", "Can't add variable, because operation didn't had a result", DialogButtons.Ok);
break;
}
Variables.UpdateWith(Engine.GetMemory());
}
public void Calculator_Multiplies_Three_With_Five_And_Returns_Fifteen()
{
// 1. Arrange
var first = 3;
var second = 5;
var op = "*";
var expected = 15;
// 2. Act
var actual = engine.Calculate(first, second, op);
// 3. Assert
Assert.AreEqual(expected, actual);
}
public void AddsTwoNumbersAndReturnValidResultForNonSymbolOperation()
{
//ARRANGE
int number1 = 1;
int number2 = 2;
//ACT
double result = calculator.Calculate(EnumApp.CalcOperations.Add, number1, number2);
//ASSERT
Assert.AreEqual(expected: 3, actual: result);
}
public void CalculatorKeyClicked(object parameter)
{
try
{
Result = _calculatorEngine.Calculate((Char.Parse((string)parameter))).ToString();
}
catch (Exception ex)
{
Result = ex.Message;
}
INotifyPropertyChanged("Result");
}
public void Calculuate_WhenCalled_ReturnCalculatedResult(string argOperation, double argFirstNumber, double argSecondNumber, double expectedResult)
{
var result = _calculator.Calculate(argOperation, argFirstNumber, argSecondNumber);
Assert.That(result, Is.EqualTo(expectedResult));
}
