public void AskFlightMereTime() { FlightCalculator calculator = new FlightCalculator(); // Positions at the flight plan. DateTime launchTime = new DateTime(2020, 5, 24, 20, 4, 30); InitialLocation launch = new InitialLocation(100, 100, launchTime); FlightStatus middle = new FlightStatus(120, 200, 300); FlightStatus end = new FlightStatus(140, 250, 200); // Generate the flight plan based on those positions. FlightPlan flightPlan = new FlightPlan(256, "TestCompany", launch, new FlightStatus[2] { middle, end }); DateTime mereTime = launchTime.AddSeconds(150); // The test asks for a point at mere time. var res = calculator.CreateFlightFromPlan(flightPlan, mereTime, false); // Check that expected values are retrieved. Assert.AreEqual(110, res.Longitude); Assert.AreEqual(150, res.Latitude); }
private Double CalculateFlightDistanceCommandExecute(Object parameter) { Double distance = FlightCalculator.FlightDistance( DepartureAirport.Latitude.Value, DepartureAirport.Longitude.Value, ArrivalAirport.Latitude.Value, ArrivalAirport.Longitude.Value); return(distance); }
public override FlightInformation Fly(Airport destinationAirport) { var flightInformation = new FlightInformation(); flightInformation.DistanceInKilometers = FlightCalculator.CalculateDistance(CurrentAirport.Longitude, CurrentAirport.Latitude, destinationAirport.Longitude, destinationAirport.Latitude); flightInformation.EstimatedTimeInHours = FlightCalculator.CalculateEstimatedTime(flightInformation.DistanceInKilometers, AirspeedInKilometersPerHour); flightInformation.FuelUseInLitres = FlightCalculator.CalculateFuelUse(flightInformation.DistanceInKilometers, FuelConsumptionInKilometerPerLitre); return(flightInformation); }
public void GetAirSpeed_NotNailed_NorwegianBlueParrot_should_return_expectedSpeed(int voltage, int expectedSpeed) { // Arrange var sut = new BirdProperties() { Type = "NorwegianBlueParrot", Voltage = voltage, IsNailed = false }; // Act var outcome = new FlightCalculator().GetAirSpeed(sut); // Assert outcome.Should().Be(expectedSpeed); }
public void GetAirSpeed_AfricanSwallow_should_return_expectedSpeed(int numberOfCoconuts, int expectedSpeed) { // Arrange var sut = new BirdProperties() { Type = "AfricanSwallow", NumberOfCoconuts = numberOfCoconuts }; // Act var outcome = new FlightCalculator().GetAirSpeed(sut); // Assert outcome.Should().Be(expectedSpeed); }
public void GetAirSpeed_EuropeanSwallow_should_return_35() { // Arrange const int expected = 35; var sut = new BirdProperties() { Type = "EuropeanSwallow" }; // Act var outcome = new FlightCalculator().GetAirSpeed(sut); // Assert outcome.Should().Be(expected); }
public void GetAirSpeed_Unknown_type_should_return_0(string type) { // Arrange const int expected = 0; var sut = new BirdProperties() { Type = type }; // Act var outcome = new FlightCalculator().GetAirSpeed(sut); // Assert outcome.Should().Be(expected); }
public void GetAirSpeed_Nailed_NorwegianBlueParrot_should_return_0() { // Arrange const int expected = 0; var sut = new BirdProperties() { Type = "NorwegianBlueParrot", IsNailed = true }; // Act var outcome = new FlightCalculator().GetAirSpeed(sut); // Assert outcome.Should().Be(expected); }
public void AskFlightAfterLand() { FlightCalculator calculator = new FlightCalculator(); // Positions at the flight plan. DateTime launchTime = new DateTime(2020, 5, 24, 20, 4, 30); InitialLocation launch = new InitialLocation(100, 100, launchTime); FlightStatus middle = new FlightStatus(100, 200, 300); FlightStatus end = new FlightStatus(100, 250, 200); // Generate the flight plan based on those positions. FlightPlan flightPlan = new FlightPlan(256, "TestCompany", launch, new FlightStatus[2] { middle, end }); // The test asks for a point after land time. DateTime afterLand = new DateTime(2021, 6, 27, 22, 41, 35); // The expected value is null. Assert.IsNull(calculator.CreateFlightFromPlan(flightPlan, afterLand, false)); }
public FlightModule(IFlightRepository flightRepo) { _flightRepo = flightRepo; _calculator = new FlightCalculator(); }
private void RefreshAvailableDistanceIndicator() { if (_baseViewModel.PlaneIndicator != null) { doubleToHour displayHourConverter = new doubleToHour(); Int32 departureAndArrivalDelay = 2; //Generate 2h to 48h with 15m steps DistanceAvailable = Enumerable.Range(0, (48 - departureAndArrivalDelay) * 4 + 1) .Select(i => i / 4.0 + departureAndArrivalDelay) .ToDictionary(hour => Convert.ToInt32(Math.Ceiling(FlightCalculator.DistanceFromFlightTime(hour, _baseViewModel.PlaneIndicator))), hour => (String)displayHourConverter.Convert(hour, typeof(String), null, CultureInfo.InvariantCulture)); } else { DistanceAvailable = new Dictionary <Int32, String>(); } }
private Double CalculateFlightTimeCommandExecute(Object parameter) { Double time = FlightCalculator.FlightTimeFromDistance(FlightDistance, PlaneIndicator); return(time); }
public void setUp() { //arrange uut = new FlightCalculator(); }