Ejemplo n.º 1
0
        public IActionResult Index(FractionCalculator model)
        {
            SetViewBagValues();
            if (!ModelState.IsValid)
            {
                return(View());
            }

            String selectedValue = model.SelectedOperation;

            switch (selectedValue)
            {
            case "Add":
                break;

            case "Subtract":
                break;

            case "Multiply":
                break;

            case "Divide":
                break;
            }

            return(View(model));
        }
Ejemplo n.º 2
0
        public void DevideFractionsThrowDevideByZeroExceptionTest()
        {
            var left = new Fraction(1, 2);

            var right = new Fraction(0, 3);

            Assert.Throws <DivideByZeroException>(() => FractionCalculator.Devide(left, right));
        }
Ejemplo n.º 3
0
        public void DevideFractionsTest(int leftNum, int leftDen, int rightNum, int rightDen, int resNum, int resDen)
        {
            var left = new Fraction(leftNum, leftDen);

            var right = new Fraction(rightNum, rightDen);

            var result = FractionCalculator.Devide(left, right);

            Assert.Equal(resNum, result.Numerator);
            Assert.Equal(resDen, result.Denominator);
        }
Ejemplo n.º 4
0
 public void Should_add_zero_fractions()
 {
     Assert.That(FractionCalculator.Add(new Fraction(0, 0), new Fraction(0, 0)),
                 Is.EqualTo(new Fraction(0, 0)));
 }
Ejemplo n.º 5
0
 public void Should_add_negative_fractions(int addendNumerator, int addendDenominator, int augendNumerator, int augendDenominator, int expectedNumerator, int expectedDenominator)
 {
     Assert.That(FractionCalculator.Add(new Fraction(addendNumerator, addendDenominator), new Fraction(augendNumerator, augendDenominator)),
                 Is.EqualTo(new Fraction(expectedNumerator, expectedDenominator)));
 }
Ejemplo n.º 6
0
 public void Should_divide_negative_fractions(int dividendNumerator, int dividendDenominator, int divisorNumerator, int divisorDenominator, int expectedNumerator, int expectedDenominator)
 {
     Assert.That(FractionCalculator.Divide(new Fraction(dividendNumerator, dividendDenominator), new Fraction(divisorNumerator, divisorDenominator)),
                 Is.EqualTo(new Fraction(expectedNumerator, expectedDenominator)));
 }
Ejemplo n.º 7
0
 public void Should_divide_fractions_with_different_denominator()
 {
     Assert.That(FractionCalculator.Divide(new Fraction(3, 4), new Fraction(2, 5)),
                 Is.EqualTo(new Fraction(15, 8)));
 }
Ejemplo n.º 8
0
 public void Should_subtract_zero_fractions()
 {
     Assert.That(FractionCalculator.Subtract(new Fraction(0, 0), new Fraction(0, 0)),
                 Is.EqualTo(new Fraction(0, 0)));
 }
Ejemplo n.º 9
0
 public void Should_subtract_fractions_with_different_denominator()
 {
     Assert.That(FractionCalculator.Subtract(new Fraction(3, 4), new Fraction(2, 5)),
                 Is.EqualTo(new Fraction(7, 20)));
 }
Ejemplo n.º 10
0
 public void Should_multiply_negative_fractions(int multiplicandNumerator, int multiplicandDenominator, int multiplierNumerator, int multiplierDenominator, int expectedNumerator, int expectedDenominator)
 {
     Assert.That(FractionCalculator.Multiply(new Fraction(multiplicandNumerator, multiplicandDenominator), new Fraction(multiplierNumerator, multiplierDenominator)),
                 Is.EqualTo(new Fraction(expectedNumerator, expectedDenominator)));
 }
Ejemplo n.º 11
0
 public void Should_return_a_zero_fraction_when_one_factor_is_zero(int multiplicandNumerator, int multiplicandDenominator, int multiplierNumerator, int multiplierDenominator, int expectedNumerator, int expectedDenominator)
 {
     Assert.That(FractionCalculator.Multiply(new Fraction(multiplicandNumerator, multiplicandDenominator), new Fraction(multiplierNumerator, multiplierDenominator)),
                 Is.EqualTo(new Fraction(expectedNumerator, expectedDenominator)));
 }
Ejemplo n.º 12
0
 public void Should_multiply_fractions_with_different_denominator()
 {
     Assert.That(FractionCalculator.Multiply(new Fraction(1, 4), new Fraction(2, 5)),
                 Is.EqualTo(new Fraction(1, 10)));
 }
Ejemplo n.º 13
0
 public void Should_multiply_fractions_with_same_denominator()
 {
     Assert.That(FractionCalculator.Multiply(new Fraction(1, 4), new Fraction(2, 4)),
                 Is.EqualTo(new Fraction(1, 8)));
 }
Ejemplo n.º 14
0
 public void Should_multiply_negative_whole_numbers(int multiplicandNumerator, int multiplierNumerator, int expectedNumerator)
 {
     Assert.That(FractionCalculator.Multiply(new Fraction(multiplicandNumerator), new Fraction(multiplierNumerator)),
                 Is.EqualTo(new Fraction(expectedNumerator)));
 }
Ejemplo n.º 15
0
 public void Should_subtract_negative_whole_numbers(int minuendNumerator, int subtrahendNumerator, int expectedNumerator)
 {
     Assert.That(FractionCalculator.Subtract(new Fraction(minuendNumerator), new Fraction(subtrahendNumerator)),
                 Is.EqualTo(new Fraction(expectedNumerator)));
 }
Ejemplo n.º 16
0
 public void Should_subtract_fractions_with_same_denominator()
 {
     Assert.That(FractionCalculator.Subtract(new Fraction(4, 5), new Fraction(1, 5)),
                 Is.EqualTo(new Fraction(3, 5)));
 }
Ejemplo n.º 17
0
 public void Should_multiply_zero_fractions()
 {
     Assert.That(FractionCalculator.Multiply(new Fraction(0, 0), new Fraction(0, 0)),
                 Is.EqualTo(new Fraction(0, 0)));
 }
Ejemplo n.º 18
0
 public void Should_subtract_negative_fractions(int minuendNumerator, int minuendDenominator, int subtrahendNumerator, int subtrahendDenominator, int expectedNumerator, int expectedDenominator)
 {
     Assert.That(FractionCalculator.Subtract(new Fraction(minuendNumerator, minuendDenominator), new Fraction(subtrahendNumerator, subtrahendDenominator)),
                 Is.EqualTo(new Fraction(expectedNumerator, expectedDenominator)));
 }
Ejemplo n.º 19
0
 public void Should_add_fractions_with_same_denominator()
 {
     Assert.That(FractionCalculator.Add(new Fraction(1, 4), new Fraction(2, 4)),
                 Is.EqualTo(new Fraction(3, 4)));
 }
Ejemplo n.º 20
0
 public void Should_divide_fractions_with_same_denominator()
 {
     Assert.That(FractionCalculator.Divide(new Fraction(4, 5), new Fraction(1, 5)),
                 Is.EqualTo(new Fraction(4)));
 }
Ejemplo n.º 21
0
 public void Should_add_fractions_with_different_denominator()
 {
     Assert.That(FractionCalculator.Add(new Fraction(1, 4), new Fraction(2, 5)),
                 Is.EqualTo(new Fraction(13, 20)));
 }
Ejemplo n.º 22
0
 public void Should_return_a_zero_fraction_when_one_fraction_is_zero(int dividendNumerator, int dividendDenominator, int divisorNumerator, int divisorDenominator, int expectedNumerator, int expectedDenominator)
 {
     Assert.That(FractionCalculator.Divide(new Fraction(dividendNumerator, dividendDenominator), new Fraction(divisorNumerator, divisorDenominator)),
                 Is.EqualTo(new Fraction(expectedNumerator, expectedDenominator)));
 }
Ejemplo n.º 23
0
 public void Should_add_fractions_when_one_addend_is_zero(int addendNumerator, int addendDenominator, int augendNumerator, int augendDenominator, int expectedNumerator, int expectedDenominator)
 {
     Assert.That(FractionCalculator.Add(new Fraction(addendNumerator, addendDenominator), new Fraction(augendNumerator, augendDenominator)),
                 Is.EqualTo(new Fraction(expectedNumerator, expectedDenominator)));
 }
Ejemplo n.º 24
0
 public void Should_divide_zero_fractions()
 {
     Assert.That(FractionCalculator.Divide(new Fraction(0, 0), new Fraction(0, 0)),
                 Is.EqualTo(new Fraction(0, 0)));
 }
Ejemplo n.º 25
0
 public void Should_add_negative_whole_numbers(int addendNumerator, int augendNumerator, int expectedNumerator)
 {
     Assert.That(FractionCalculator.Add(new Fraction(addendNumerator), new Fraction(augendNumerator)),
                 Is.EqualTo(new Fraction(expectedNumerator)));
 }