//[Ignore] // Allows us to skip UT
public void DivideSimple()
{
var calculator = new MyCalculator.Calculator();
double quotient = calculator.Divide(10, 2);
Assert.AreEqual(5, quotient);
}
public void Divide_ByZero()
{
var target = new Calculator();
var ret = target.Divide(20, 0);
Assert.AreEqual(0, ret);
}
public void TestMultiply()
{
Calculator calculator = new Calculator();
calculator.Operand1 = 10;
calculator.Operand2 = 20;
Assert.AreEqual(calculator.Multiply(), 200);
}
public void SubtractSimple()
{
var calculator = new MyCalculator.Calculator();
int sum = calculator.Subtract(5, 15);
Assert.AreEqual(-10, sum);
}
public void TestSubtract()
{
Calculator calculator = new Calculator();
calculator.Operand1 = 10;
calculator.Operand2 = 20;
Assert.AreEqual(calculator.Subtract(), -10);
}
public void TestAdd()
{
Calculator calculator = new Calculator();
calculator.Operand1 = 10;
calculator.Operand2 = 20;
Assert.AreEqual(calculator.Add(), 30);
}
public void TestDevide()
{
Calculator calculator = new Calculator();
calculator.Operand1 = 10;
calculator.Operand2 = 20;
Assert.AreEqual(calculator.Divide(), 0);
}
public void Subtract_ValidNumbers()
{
var target = new Calculator();
var ret = target.Subtract(2, 1);
Assert.AreEqual(1, ret);
}
public void Multiply_ValidNumbers()
{
var target = new Calculator();
var ret = target.Multiply(2, 4);
Assert.AreEqual(8, ret);
}
public void GetHypo()
{
var target = new Calculator();
var ret = target.Pythagorus(3, 4);
Assert.AreEqual(5, ret);
}
public void Divide_ValidNumbers()
{
var target = new Calculator();
var ret = target.Divide(20, 2);
Assert.AreEqual(10, ret);
}
public void Add_ValidNumbers()
{
var target = new Calculator();
var ret = target.Add(1, 2);
Assert.AreEqual(3, ret);
}
public void AddSimple()
{
//ARRANGE: (set up environment to run test)
var calculator = new MyCalculator.Calculator();
//ACT: (run code we are trying to test)
int sum = calculator.Add(1, 2);
//ASSERT: (validate expected results)
Assert.AreEqual(3, sum);
}
[Priority(0)] // Another 'Attribute' for catagorizing
public void AddSimple()
{
//ARRANGE: (set up environment to run test)
var calculator = new MyCalculator.Calculator();
//ACT: (run code we are trying to test)
int sum = calculator.Add(1, 2);
//ASSERT: (validate expected results)
Assert.AreEqual(3, sum);
}
public static void Main()
{
Calculator caclulator = new Calculator();
caclulator.Operand1 = 100;
caclulator.Operand2 = 200;
Console.WriteLine(caclulator.Add());
Console.WriteLine(caclulator.Subtract());
Console.WriteLine(caclulator.Multiply());
Console.WriteLine(caclulator.Divide());
}
public void Divide_WithTenAndZero_ShouldBeThrowArgumentException()
{
// Arrange
int value1 = 10;
int value2 = 0;
decimal actualValue;
// Act
Calculator calc = new Calculator();
actualValue = calc.Divide(value1, value2);
}
public void testAdd()
{
// Arrange
Calculator calculator = new Calculator();
int augend = 1,
addend = 2,
expected = 3,
actual;
// Act
actual = calculator.Add(augend, addend);
// Assert
Assert.AreEqual(expected, actual);
}
public void Divide_WithTenAndFive_ShouldBeReturnTwo()
{
// Arrange
int value1 = 10;
int value2 = 5;
decimal actualValue;
decimal expectedValue = 2M;
// Act
Calculator calc = new Calculator();
actualValue = calc.Divide(value1, value2);
// Assert
Assert.AreEqual(expectedValue, actualValue);
}
public void TestSubstract()
{
// Arrange
Calculator calculator = new Calculator();
int minuend = 3,
subtrahend = 2,
expected = 1,
actual;
// Act
actual = calculator.Substract(minuend, subtrahend);
// Assert
Assert.AreEqual(expected, actual);
}
public void Multiply_WithTenAndFive_ShouldReturnFiveTen()
{
// Arrange
int value1 = 10;
int value2 = 5;
int expectedValue = 15;
int actualValue;
// Act
Calculator calc = new Calculator();
actualValue = calc.Multiply(value1, value2);
// Assert
Assert.AreEqual(expectedValue, actualValue);
}
// Example of Front End Code
public int Test(int dividend, int divisor)
{
var calculator = new Calculator();
int result = 0;
try
{
result = calculator.Divide(dividend, divisor);
}
catch (DivideByZeroException)
{
return int.MaxValue;
}
catch (Exception)
{
result = int.MinValue;
}
return result;
}
public void DivideByZero()
{
var calculator = new MyCalculator.Calculator();
calculator.Divide(10, 0);
}
static void Main(string[] args)
{
Calculator calc = new Calculator();
calc.Run();
}
public void TestCreateACalculator()
{
Calculator eenCalculator = new Calculator();
double bigInt = 1;
Assert.AreEqual(bigInt, eenCalculator.Add(0, 1), "0 + 1 is in decimale Stelsel 1 ");
///Invariant introduceren...
for (int i = 0; i < 1000; i++)///int.MaxValue=> te lang?
{
Assert.AreEqual((double)i + 1, eenCalculator.Add(i, 1));
}
#region simple calculator
bigInt = 10;
Assert.AreEqual(bigInt, eenCalculator.TelOp(new double[] { 1, 2, 3, 4 }));
bigInt = 10;
Assert.AreEqual(bigInt, eenCalculator.PersistResults());
#endregion
var eenComputer = new Computer<TertaireStelsel>();
IMathFunctions andereCalculator = eenComputer.MathFunctions;
IOutput anderUItvoer = eenComputer.Output;
bigInt = 2;
Assert.AreEqual(bigInt, andereCalculator.Add(1, 1), "1+1=2 ook in tertaire Stelsel.");
Assert.AreEqual(bigInt, anderUItvoer.PersistResults());
///eenCalculator.GaInTertaireStelselModus();///???
/// ///eenCalculator.GaInTertaireStelselModus();///???
/// ///eenCalculator.GaInXStelselModus();///???
/// ///eenCalculator.GaInTertaireStelselModus(X);///???
/// ///eenCalculator.GaInStelselModus(Y);///???
#region uitbreiding stelsel (functionaliteit) naar ander uitvoer.
//var andereModus = new Computer<TertaireStelsel>();
//IMathFunctions andereCalculator = andereModus.MathFunctions;
//IOutput anderUItvoer = andereModus.Output;
//bigInt = 1;
//Assert.AreEqual(bigInt, andereCalculator.Add(1, 2), "review tertaire Stelsel.");
//Assert.AreEqual(bigInt, anderUItvoer.PersistResults());
//MathFunctions<TCalculator> calc = new MathFunctions<TCalculator>();
//Assert.AreEqual(bigInt, andereCalculator.Add(353, 445), "(1242) review quartaire Stelsel.");
//Assert.AreEqual("", eenCalculator.Add(0, 1), "review kwintaire Stelsel.");
//Assert.AreEqual("", eenCalculator.Add(0, 1), "review sextaire Stelsel.");
#endregion
#region Uitbreiding onbekende functionaliteit
Log.ConsoleWriteline(ulong.MaxValue.ToString());
Log.ConsoleWriteline(double.MaxValue.ToString());
Log.ConsoleWriteline(long.MaxValue.ToString());
double getal = 18446744073709551615 - 1;
Log.ConsoleWriteline(getal.ToString());
#endregion
}
private void FixBotton_Click(object sender, EventArgs e)
{
this.OutPutBox.Text = Calculator.FixExpression(Convert.ToString(this.InPutBox.Text.Trim()));
}
public void SubtractSimple()
{
var calculator = new MyCalculator.Calculator();
int sum = calculator.Subtract(5, 15);
Assert.AreEqual(-10, sum);
}
public void DivideSimple()
{
var calculator = new MyCalculator.Calculator();
double quotient = calculator.Divide(10, 2);
Assert.AreEqual(5, quotient);
}
public void DivideByZero()
{
var calculator = new MyCalculator.Calculator();
calculator.Divide(10, 0);
}
