public void ChargeShouldNotAddToPercentageWhenPositiveNumberIsGivenAndCurrentPercentageIsHundered() { var battery = new LaptopBattery(); battery.Percentage = LaptopBattery.MaxBatteryPercentage; battery.Charge(10); Assert.AreEqual(LaptopBattery.MaxBatteryPercentage, battery.Percentage); }
public void ChargeShouldNotSubstractFromPercentageWhenNegativeNumberIsGivenAndCurrentPercentageIsZero() { var battery = new LaptopBattery(); battery.Percentage = LaptopBattery.MinBatteryPercentage; battery.Charge(-10); Assert.AreEqual(LaptopBattery.MinBatteryPercentage, battery.Percentage); }
public void ChargeShouldAddToPercentageWhenPositiveNumberIsGiven() { var battery = new LaptopBattery(); battery.Percentage = LaptopBattery.DefaultBatteryPercentage; battery.Charge(10); Assert.AreEqual(60, battery.Percentage); }
public void ChargeShouldSubstractFromPercentageWhenNegativeNumberIsGiven() { var battery = new LaptopBattery(); battery.Percentage = LaptopBattery.DefaultBatteryPercentage; battery.Charge(-10); Assert.AreEqual(40, battery.Percentage); }
public void Method4() { LaptopBattery b = new LaptopBattery(); b.Charge(0); Assert.AreEqual(50, b.Percentage); }
public void Method3() { LaptopBattery b = new LaptopBattery(); b.Charge(-2000); Assert.AreEqual(00, b.Percentage); }
public void Charging50PercentBatteryWithMinus60ShouldChargeTHeBatteryTo0Percent() { var battery = new LaptopBattery(); battery.Charge(-60); Assert.AreEqual(0, battery.Percentage); }
public void ChargeShouldNotAddToPercentageOrSubstractFromItWhenZeroIsGiven() { var battery = new LaptopBattery(); battery.Percentage = LaptopBattery.DefaultBatteryPercentage; battery.Charge(0); Assert.AreEqual(LaptopBattery.DefaultBatteryPercentage, battery.Percentage); }
public void Charging50PercentBatteryWith10ShouldChargeTHeBatteryTo60Percent() { var battery = new LaptopBattery(); battery.Charge(10); Assert.AreEqual(60, battery.Percentage); }
public void ChargeShouldNotAddToPercentageWhenGivenPositiveNumberAndCurrentPercentageIs100() { var battery = new LaptopBattery(); battery.Percentage = LaptopBattery.MaxBatteryPercentage; battery.Charge(10); Assert.AreEqual(LaptopBattery.MaxBatteryPercentage, battery.Percentage); }
public void ChargeShouldNotChargeWhenNumberIsZero() { var battery = new LaptopBattery(); battery.Percentage = 50; battery.Charge(0); Assert.AreEqual(50, battery.Percentage); }
public void ChargeShouldNotSubstractFromPercentageWhenGivenNegativeNumberAndCurrentPercentageIsZero() { var battery = new LaptopBattery(); battery.Percentage = LaptopBattery.MinBatteryPercentage; battery.Charge(-10); Assert.AreEqual(LaptopBattery.MinBatteryPercentage, battery.Percentage); }
public void ChargeShouldNotGoAboveOneHundred() { var battery = new LaptopBattery(); battery.Percentage = 50; battery.Charge(80); Assert.AreEqual(100, battery.Percentage); }
public void ChargeShouldNotGoBelowZero() { var battery = new LaptopBattery(); battery.Percentage = 50; battery.Charge(-80); Assert.AreEqual(0, battery.Percentage); }
public void ChargeShouldAddToPercentageWhenGivenPositiveNumber() { var battery = new LaptopBattery(); battery.Percentage = 50; battery.Charge(10); Assert.AreEqual(60, battery.Percentage); }
public void ChargeShouldNotSubstractFromPercentageWhenGivenZero() { var battery = new LaptopBattery(); battery.Percentage = 50; battery.Charge(0); Assert.AreEqual(50, battery.Percentage); }
public void TestCharge_PassHigherValues_ShouldSetBatteryPercentageHundred(int higherPercentage) { var battery = new LaptopBattery(); battery.Charge(higherPercentage); Assert.AreEqual(battery.PercentagePowerLeft, 100); }
public void TestCharge_PassLowerValues_ShouldSetBatteryPercentageZero(int lowerPercentage) { var battery = new LaptopBattery(); battery.Charge(lowerPercentage); Assert.AreEqual(battery.PercentagePowerLeft, 0); }
public void ChargeShouldSubstractFromPercentageWhenGivenNegativeNumber() { var battery = new LaptopBattery(); battery.Percentage = 50; battery.Charge(-10); Assert.AreEqual(40, battery.Percentage); }
public void TestOnNegativeInputValueShouldReturnZero() { var laptopBattery = new LaptopBattery(); laptopBattery.Charge(-1000); var exceptedPercentage = 0; Assert.AreEqual(exceptedPercentage, laptopBattery.Percentage); }
public void TestOnInputValueGreaterThanMaximalValueShouldReturn100() { var laptopBattery = new LaptopBattery(); laptopBattery.Charge(10000); var exceptedPercentage = 100; Assert.AreEqual(exceptedPercentage, laptopBattery.Percentage); }
public void Add50PercentsShouldReturn100() { var laptopBattery = new LaptopBattery(); laptopBattery.Charge(50); var exceptedPercentage = 100; Assert.AreEqual(exceptedPercentage, laptopBattery.Percentage); }
public void Subtract50PercentsShouldReturnZero() { var laptopBattery = new LaptopBattery(); laptopBattery.Charge(-50); var exceptedPercentage = 0; Assert.AreEqual(exceptedPercentage, laptopBattery.Percentage); }
public void ChargeBattary_WhenValidPossitiveIntegerIsPassed(int chargePercentage, int expected) { var battary = new LaptopBattery(); battary.Charge(chargePercentage); var actual = battary.Percentage; Assert.AreEqual(expected, actual); }
public void TestCharge_PassValuesInRange_ShouldSetBatteryPercentageCorrectly(int percentage) { var battery = new LaptopBattery(); var currentPercentage = battery.PercentagePowerLeft; battery.Charge(percentage); var expected = percentage + currentPercentage; Assert.AreEqual(battery.PercentagePowerLeft, expected); }
public void ChargeBattary_WhenValidPossitiveIntegerIsPassed() { var battary = new LaptopBattery(); battary.Charge(10); var actual = battary.Percentage; var expected = 60; NUnit.Framework.Assert.AreEqual(expected, actual); }
public void Should_DischargeBatteryWithSpecifiedPowerCharge() { // Arrange LaptopBattery battery = new LaptopBattery(); int initialCharge = battery.Percentage; int newChargeAmount = -10; // Act battery.Charge(newChargeAmount); // Assert Assert.AreEqual(initialCharge + newChargeAmount, battery.Percentage); }
public void Should_NotChargeMoreThan100() { // Arrange LaptopBattery battery = new LaptopBattery(); int initialCharge = battery.Percentage; int newChargeAmount = 150; int maximumCharge = 100; // Act battery.Charge(newChargeAmount); // Assert Assert.AreEqual(maximumCharge, battery.Percentage); }
public void Should_NotDischargeLessThanZero() { // Arrange LaptopBattery battery = new LaptopBattery(); int initialCharge = battery.Percentage; int newChargeAmount = -150; int minimumCharge = 0; // Act battery.Charge(newChargeAmount); // Assert Assert.AreEqual(minimumCharge, battery.Percentage); }
public void TestForMaxCharge() { LaptopBattery battery = new LaptopBattery(); battery.Charge(50); Assert.AreEqual(100, battery.Percentage); }
public void TestFullUnload() { LaptopBattery battery = new LaptopBattery(); battery.Charge(-50); Assert.AreEqual(0, battery.Percentage); }
public void TestForNegativValue() { LaptopBattery battery = new LaptopBattery(); battery.Charge(-51); Assert.AreEqual(0, battery.Percentage); }
public void TestForUpLimitValue() { LaptopBattery battery = new LaptopBattery(); battery.Charge(51); Assert.AreEqual(100, battery.Percentage); }
public void TestWithZe0rCharge() { LaptopBattery battery = new LaptopBattery(); battery.Charge(0); Assert.AreEqual(50, battery.Percentage); }
internal void ChargeBattery(int percentage) { battery.Charge(percentage); VideoCard.Draw(string.Format("Battery status: {0}", battery.Percentage)); }