public void SetUp() { _fakeTrackCalculator = Substitute.For <ITrackCalculator>(); _uut = new TrackCalculator(_fakeTrackCalculator); _testTracksOld = new List <Track>(); _testTracksNew = new List <Track>(); _testTracks = new List <Track>(); _testTracksOld.Add(new Track { Tag = "JYG338", X = 5258, Y = 57189, Z = 5000, Timestamp = DateTime.ParseExact("20191024155401709", "yyyyMMddHHmmssfff", null), CompassCourse = 0, Velocity = 0 }); _testTracksOld.Add(new Track { Tag = "GVC241", X = 38594, Y = 77966, Z = 10900, Timestamp = DateTime.ParseExact("20191024155401709", "yyyyMMddHHmmssfff", null), CompassCourse = 0, Velocity = 0 }); _testTracksOld.Add(new Track { Tag = "WIA512", X = 17357, Y = 24364, Z = 2100, Timestamp = DateTime.ParseExact("20191024155401709", "yyyyMMddHHmmssfff", null), CompassCourse = 0, Velocity = 0 }); _testTracksNew.Add(new Track { Tag = "JYG338", X = 5387, Y = 57076, Z = 5000, Timestamp = DateTime.ParseExact("20191024155402397", "yyyyMMddHHmmssfff", null), CompassCourse = 0, Velocity = 0 }); _testTracksNew.Add(new Track { Tag = "GVC241", X = 38794, Y = 78066, Z = 10800, Timestamp = DateTime.ParseExact("20191024155402397", "yyyyMMddHHmmssfff", null), CompassCourse = 0, Velocity = 0 }); _testTracksNew.Add(new Track { Tag = "WIA512", X = 18357, Y = 25364, Z = 2000, Timestamp = DateTime.ParseExact("20191024155402397", "yyyyMMddHHmmssfff", null), CompassCourse = 0, Velocity = 0 }); }
public IPrintCalculation PrintCalculationResult(ITrackCalculator calculator) { if (_calculators.Contains(calculator)) { calculator.PrintResult(); } return(this); }
public AirTrafficManagementSystem(MonitoredAirspace monair, ITransponderReceiverClient transclient, ITrackCalculator calc) { this._monitoredAirspace = monair; this._transPondRecClient = transclient; this._trackCalculator = calc; _transPondRecClient.DataReceivedEvent += OnReceiverClientEvent; _airCraftsInAirspaceList = new List <Track>(); }
public IPrintCalculation CalculateTrack(ITrackCalculator calculator) { _calculators.Add(calculator); foreach (var trackPoint in _track.TrackPoints) { calculator.Calculate(trackPoint); } return(this); }
public void Setup() { // Create fakes fakeReceiver = Substitute.For <ITransponderReceiver>(); fakeCalculator = Substitute.For <ITrackCalculator>(); // Create unit under test uut = new TransponderReceiverClient(fakeReceiver, fakeCalculator); int numberOfEventsReceived = 0; }
// Using constructor injection for dependency/ies public TransponderReceiverClient(ITransponderReceiver receiver, ITrackCalculator calculator) { // This will store the real or the fake transponder data receiver this.receiver = receiver; this.calculator = calculator; // Attach to the event of the real or the fake TDR this.receiver.TransponderDataReady += ReceiverOnTransponderDataReady; }
public void Setup() { // Mocks, stubs and UUT stubTransRecClient = Substitute.For <ITransponderReceiverClient>(); stubTrackCalculator = Substitute.For <ITrackCalculator>(); airspace = new MonitoredAirspace(90000, 80000, 90000, 80000, 20000, 10000); uut = new AirTrafficManagementSystem(airspace, stubTransRecClient, stubTrackCalculator); // Data sent from stubTransRecClient trackToSend = new Track("123456", 90000, 80000, 15000, DateTime.Now, 0, 0); List <Track> listToSend = new List <Track>(); listToSend.Add(trackToSend); ATMSEventArgs CorrectArgs = new ATMSEventArgs(); CorrectArgs.Tracks = listToSend; }
public bool runner = true; //Kan sætte til false fra resten af programmet, for at standse koden. public AirTrafficController() { // TransponderReceiverClient var transponderDataReceiver = TransponderReceiverFactory.CreateTransponderDataReceiver(); var transponderReceiverClient = new TransponderReceiverClient(transponderDataReceiver); // Condition _fileWriter = new SeparationConditionLogger("AirplaneSeperations.txt"); _condition = new Condition(_fileWriter); // Airspace _trackCalculator = new TrackCalculator(); _airspace = new Airspace(_trackCalculator); transponderReceiverClient.DataReadyEvent += _airspace.HandleDataReadyEvent; _airspace.AirspaceChangedEvent += air_ThresholdReached; // Screen _screen = new Screen(); }
public AirspaceUpdater(ITrackCalculator <double> speedCalculator, ITrackCalculator <double> courseCalculator) { _speedCalculator = speedCalculator; _trajectoryCalculator = courseCalculator; }
public TrackCalculator(ITrackCalculator calculator) { this._calculator = calculator; _oldTrack = new List <Track>(); }
public void TestSetup() { _fakeTrackHorizontalDistanceCalculator = Substitute.For <ITrackCalculator <double> >(); _uutTrackSpeedCalculator = new TrackSpeedCalculator(_fakeTrackHorizontalDistanceCalculator); }
public TrackSpeedCalculator(ITrackCalculator <double> trackHorizontalDistanceCalculator) { _trackHorizontalDistanceCalculator = trackHorizontalDistanceCalculator; }
public Airspace(ITrackCalculator trackCalculator) { tracks = new List <Track>(); _trackCalculator = trackCalculator; }
public CalculatorService AddCalculator(ITrackCalculator calculator) { this._calculators.Add(calculator); return(this); }
public void TestSetup() { _courseCalculator = Substitute.For <ITrackCalculator <double> >(); _speedCalculator = Substitute.For <ITrackCalculator <double> >(); _uutAirspaceUpdater = new AirspaceUpdater(_speedCalculator, _courseCalculator); }
public double Span(ITrackCalculator track1, ITrackCalculator track2) { double difference1 = Math.Sqrt(Math.Pow((track1.X_coor - track2.X_coor), 2) + Math.Pow((track1.Y_coor - track2.Y_coor), 2)); return(Math.Abs(difference1)); }