public void Add_AddNegativeNumberToPositiveNumber_Calculated() { var calc = new Kalkulator(); int sum = calc.Add(-2, 3); Assert.AreEqual(1, sum); }
public void DivideNumbers_DividePositiveNumberToNegativeNumber_Calculated() { var calc = new Kalkulator(); double div = calc.DivideNumbers(2, -2); Assert.AreEqual(-1, div); }
public void Add_AddsTwoNegativeNumbers_Calculated() { var calc = new Kalkulator(); int sum = calc.Add(-2, -2); Assert.AreEqual(-4, sum); }
public void DivideNumbers_DivideZeroToAnyNumber_Calculated() { var calc = new Kalkulator(); double div = calc.DivideNumbers(0, 2); Assert.AreEqual(0, div); }
public void DivideNumbers_DivideSmallerNumberToBiggerNumber_Calculated() { var calc = new Kalkulator(); double div = calc.DivideNumbers(2, 4); Assert.AreEqual(0.5, div); }
public ActionResult Kalkulator(KalkulatorViewModel model) { var list = new SelectList( new List <object>() { new { Text = "Sprzedaż lokalu mieszkalnego", Value = "2", Selected = false }, new { Text = "Czynnosc na przyszlosc", Value = "3", Selected = false } }, "Value", "Text"); var kalkulator = new Kalkulator(); if (string.IsNullOrEmpty(model.Cena)) { model.Result = new CalculateResult(); ViewBag.CalcItems = list; model.ChoosedValue = 1.ToString(); return(View(model)); } ViewBag.CalcItems = list; var result = kalkulator.Sprzedaz_lokalu_mieszkalnego(double.Parse(model.Cena)); model.Result = result; return(View(model)); }
public void Divide_IncorrectInputs_ShouldThrowException() // błędna wartość, dzielenie przez 0 { double number1 = 10; double number2 = 0; Assert.ThrowsException <InvalidOperationException>(() => Kalkulator.Divide(number1, number2)); }
public void StaticTests() { Assert.AreEqual(Kalkulator.BasicOp('+', 4, 7), 11); Assert.AreEqual(Kalkulator.BasicOp('-', 15, 18), -3); Assert.AreEqual(Kalkulator.BasicOp('*', 5, 5), 25); Assert.AreEqual(Kalkulator.BasicOp('/', 49, 7), 7); }
public void Test_SubstractMethod() { Kalkulator bm = new Kalkulator(); double res = bm.Odejmowanie(10, 10); Assert.AreEqual(res, 0); }
public void Test_AddMethod() { Kalkulator bm = new Kalkulator(); double res = bm.Dodawanie(10, 10); Assert.AreEqual(res, 20); }
public void Add_AddsTwoPositiveNumbers_Calculated() { var calc = new Kalkulator(); int sum = calc.Add(2, 2); Assert.AreEqual(4, sum); }
public void DivideNumbers_DivideTwoPossitiveNumbers_Calculated() { var calc = new Kalkulator(); double div = calc.DivideNumbers(2, 2); Assert.AreEqual(1, div); }
public void DivisionMethodTest() { int expected = 4; Kalkulator kalkulator = new Kalkulator(); int actual = kalkulator.Division(12, 3); Assert.AreEqual(expected, actual); }
public void SubstractionMethodTest() { int expected = 3; Kalkulator kalkulator = new Kalkulator(); int actual = kalkulator.Substraction(5, 2); Assert.AreEqual(expected, actual); }
public void AdditionMethodTest() { int expected = 4; Kalkulator kalkulator = new Kalkulator(); int actual = kalkulator.Addition(2, 2); Assert.AreEqual(expected, actual); }
public void MultiplicationMethodTest() { int expected = 25; Kalkulator kalkulator = new Kalkulator(); int actual = kalkulator.Multiplication(5, 5); Assert.AreEqual(expected, actual); }
public static void ObliczSygnalyWyjsciowe(ref List <double> sygnalyWyjsciowe, List <double> sygnalyPobudzenia, int iloscNeuronow) { foreach (var neuronIndex in Enumerable.Range(0, iloscNeuronow)) { sygnalyWyjsciowe.Add(Kalkulator.ObliczSygnalWyjsciowy(FunkcjaAktywacji.CiaglaUnipolarna, sygnalyPobudzenia[neuronIndex])); } }
public void Minus_CorrectInputs_ReturnsCorrectResult() // poprawne wartości dla odejmowania { double number1 = 10; double number2 = 5; double result = Kalkulator.Minus(number1, number2); Assert.AreEqual(5, result); }
public void Add_CorrectInputs_ReturnsCorrectResult() // poprawne wartości dla dodawania { double number1 = 10; double number2 = 5; double result = Kalkulator.Add(number1, number2); Assert.AreEqual(15, result); }
public void Add_CorrectInputs_ReturnsWrongResult() // złe wartości dla dodawania { double number1 = 10; double number2 = 10; double result = Kalkulator.Add(number1, number2); Assert.AreNotEqual(15, result); }
public void Divide_CorrectInputs_ReturnsCorrectResult() // poprawna wartość dla dzielenia { double number1 = 10; double number2 = 2; double result = Kalkulator.Divide(number1, number2); Assert.AreEqual(5, result); }
public void Multiply_CorrectInputs_ReturnsCorrectResult() // poprawna wartość dla mnożenia { double number1 = 5; double number2 = 3; double result = Kalkulator.Multiply(number1, number2); Assert.AreEqual(15, result); }
public void Multiply_CorrectInputs_ReturnsWrongResult() // zła wartość dla mnożenia { double number1 = 5; double number2 = 3; double result = Kalkulator.Multiply(number1, number2); Assert.AreNotEqual(30, result); }
protected void Button2_Click(object sender, EventArgs e) { Kalkulator k = new Kalkulator(); int wynik = k.odejmowanie(Int32.Parse(TextBox1.Text), Int32.Parse(TextBox2.Text)); Label2.Text = "" + wynik; }
protected void Button4_Click(object sender, EventArgs e) { Kalkulator k = new Kalkulator(); float wynik = k.dzielenie(Int32.Parse(TextBox1.Text), Int32.Parse(TextBox2.Text)); Label2.Text = "" + wynik; }
public void Minus_CorrectInputs_ReturnsWrongResult() // złe wartości dla odejmowania { double number1 = 10; double number2 = 10; double result = Kalkulator.Minus(number1, number2); Assert.AreNotEqual(15, result); }
public void Test1() { double a = 2; double b = 2; double oczekiwane = 4; var kal = new Kalkulator(); double wynik = kal.Dodaj(a, b); Assert.Equal(oczekiwane, wynik); }
public static void Main(string[] args) { Kalkulator mC = new Kalkulator(90); mC.displayResult(); mC.add(45); mC.displayResult(); mC.subtract(35); mC.displayResult(); mC.subtract(110); mC.displayResult(); }
private void CalcButton_Click(object sender, EventArgs e) { Kalkulator kalk = new Kalkulator(); if (jezyk_pol == false) { kalk.lang = 1; kalk.WzorBox.Text = "TRANSMITTER POWER + TRANSMITTER GAIN - TRANSMITTER ATTENUATION - FSL + RECEIVER GAIN - RECEIVER ATTENUATION"; kalk.textBox12.Text = "Calculation model with optical visibility. Autocomplete disabled.Enter the values for the calculated link budget manually."; kalk.label8.Text = "Link budget"; kalk.label7.Text = "Obstacles model"; kalk.label10.Text = "Distance [km]"; kalk.label11.Text = "Frequency [MHz]"; kalk.label12.Text = "Transmitter model"; kalk.label18.Text = "Receiver model"; kalk.label14.Text = "Antenna model"; kalk.label15.Text = "Cable name (transmitter)"; kalk.label16.Text = "Connector name (transmitter)"; kalk.label20.Text = "Antenna model"; kalk.label21.Text = "Cable name (reciver)"; kalk.label22.Text = "Connector name (reciver)"; kalk.label17.Text = "Cable length (transmitter) [m]"; kalk.label23.Text = "Cable length (receiver) [m]"; kalk.label1.Text = "Transmitter power"; kalk.label2.Text = "Transmitter gain [dBi]"; kalk.label3.Text = "Transmitter attenuation [db]"; kalk.label13.Text = "Cable attenuation [db]"; kalk.label19.Text = "Connector attenuation [db]"; kalk.label5.Text = "Receiver gain [db]"; kalk.label6.Text = "Receiver attenuation [db]"; kalk.label27.Text = "Cable attenuation [db]"; kalk.label26.Text = "Connector attenuation [db]"; kalk.label9.Text = "Obstacle attenuation [db]"; kalk.label24.Text = "Material name"; kalk.label25.Text = "Thickness [cm]"; kalk.addButton.Text = "Add an obstacle"; kalk.button1.Text = "Save data"; kalk.button2.Text = "Read data"; kalk.CountButton.Text = "Count"; kalk.ClearButton.Text = "Clear"; kalk.QuitButton.Text = "Quit"; kalk.label28.Text = "Autocomplete"; kalk.comboBox6.Text = "Choose"; } else { kalk.lang = 0; kalk.WzorBox.Text = "MOC NADAJNIKA + ZYSK NADAJNIKA - TŁUMIENNOŚĆ NADAJNIKA - FSL + ZYSK ODBIORNIKA - TŁUMIENNOŚĆ ODBIRONIKA"; kalk.textBox12.Text = "Model obliczeniowy z widocznością optyczną. Autouzupełnianie wyłączone. Wprowadź ręcznie wartości dla liczonego budżetu łącza."; } kalk.ShowDialog(); }
public void TestMethod1() { // Arange int expected = 10; //Act Kalkulator k = new Kalkulator(); int result = k.Dodaj(5, 5); //Assert Assert.Equal(expected, result); Assert.Equal(3, 3); }