public void DistanceTwoDim_PositionXCoor_ReceivedCorrect() { _newTracks.Add(Substitute.For <ITrackObject>()); _listHandler.Renew(_newTracks); _listHandler.Update(_newTracks); _uut.DistanceTwoDim(_newTracks[0].Position, _listHandler.CurrentTracks[0].Position); var temp = _newTracks[0].Position.Received().XCoor; }
public bool IsConflicting(ITrackObject trackOne, ITrackObject trackTwo, IDistance distance) { trackOne.Position.SetPosition(trackOne.Position.XCoor, trackOne.Position.YCoor, trackOne.Position.Altitude); trackTwo.Position.SetPosition(trackTwo.Position.XCoor, trackTwo.Position.YCoor, trackTwo.Position.Altitude); double horizontalDistance = distance.DistanceTwoDim(trackTwo.Position, trackOne.Position); int verticalDistance = distance.DistanceOneDim(trackTwo.Position.Altitude, trackOne.Position.Altitude); return(horizontalDistance <= horizontalConflict && verticalDistance <= verticalConflict); }
public void Distance_DistanceTwoDim_ReturnsResult(int t1X, int t1Y, int t2X, int t2Y, double result) { _oldPos.XCoor.Returns(t1X); _oldPos.YCoor.Returns(t1Y); _oldPos.Altitude.Returns(3000); _newPos.XCoor.Returns(t2X); _newPos.YCoor.Returns(t2Y); _newPos.Altitude.Returns(3000); Assert.AreEqual(result, _uut.DistanceTwoDim(_newPos, _oldPos)); }
public int CurrentVelocity(ITrackObject newTrack, ITrackObject oldTrack, IDistance dist) { TimeSpan diff = newTrack.InDateTime - oldTrack.InDateTime; if ((int)diff.TotalMilliseconds == 0) { return(0); } return((int)(dist.DistanceTwoDim(newTrack.Position, oldTrack.Position) / diff.TotalMilliseconds * 1000)); }