def create_moving_obstacle(self, waypoints): """Create a new MovingObstacle model. Args: waypoints: List of (lat, lon, alt) tuples Returns: Saved MovingObstacle """ obstacle = MovingObstacle(speed_avg=40, sphere_radius=100) obstacle.save() for num, waypoint in enumerate(waypoints): (lat, lon, alt) = waypoint gps = GpsPosition(latitude=lat, longitude=lon) gps.save() pos = AerialPosition(gps_position=gps, altitude_msl=alt) pos.save() waypoint = Waypoint(order=num, position=pos) waypoint.save() obstacle.waypoints.add(waypoint) obstacle.save() return obstacle
def create_logs(self, user, num=10, start=None, delta=None, altitude=100, heading=90): if start is None: start = timezone.now() if delta is None: delta = datetime.timedelta(seconds=1) logs = [] for i in xrange(num): gps = GpsPosition(latitude=38 + 0.001 * i, longitude=-78 + 0.001 * i) gps.save() pos = AerialPosition(gps_position=gps, altitude_msl=altitude) pos.save() log = UasTelemetry(user=user, uas_position=pos, uas_heading=heading) log.save() log.timestamp = start + i * delta log.save() logs.append(log) return logs
def test_get_waypoint_travel_time(self): """Tests travel time calc.""" test_spds = [1, 10, 100, 500] for (lon2, lat2, lon1, lat1, dist_km) in TESTDATA_COMPETITION_DIST: dist_ft = units.kilometers_to_feet(dist_km) for speed in test_spds: speed_fps = units.knots_to_feet_per_second(speed) time = dist_ft / speed_fps gpos1 = GpsPosition() gpos1.latitude = lat1 gpos1.longitude = lon1 gpos1.save() apos1 = AerialPosition() apos1.gps_position = gpos1 apos1.altitude_msl = 0 apos1.save() wpt1 = Waypoint() wpt1.position = apos1 gpos2 = GpsPosition() gpos2.latitude = lat2 gpos2.longitude = lon2 gpos2.save() apos2 = AerialPosition() apos2.gps_position = gpos2 apos2.altitude_msl = 0 apos2.save() wpt2 = Waypoint() wpt2.position = apos2 waypoints = [wpt1, wpt2] obstacle = MovingObstacle() obstacle.speed_avg = speed self.assertTrue(self.eval_travel_time( obstacle.get_waypoint_travel_time(waypoints, 0, 1), time))
def test_satisfied_waypoints(self): """Tests the evaluation of waypoints method.""" data = TESTDATA_MISSIONCONFIG_EVALWAYPOINTS (waypoint_details, uas_log_details, exp_satisfied) = data # Create mission config gpos = GpsPosition() gpos.latitude = 10 gpos.longitude = 10 gpos.save() config = MissionConfig() config.home_pos = gpos config.emergent_last_known_pos = gpos config.off_axis_target_pos = gpos config.sric_pos = gpos config.air_drop_pos = gpos config.server_info = self.info config.save() # Create waypoints for config for wpt_id in xrange(len(waypoint_details)): (lat, lon, alt) = waypoint_details[wpt_id] pos = GpsPosition() pos.latitude = lat pos.longitude = lon pos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = pos apos.save() wpt = Waypoint() wpt.position = apos wpt.order = wpt_id wpt.save() config.mission_waypoints.add(wpt) config.save() # Create UAS telemetry logs uas_logs = [] user = User.objects.create_user('testuser', '*****@*****.**', 'testpass') for (lat, lon, alt) in uas_log_details: pos = GpsPosition() pos.latitude = lat pos.longitude = lon pos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = pos apos.save() log = UasTelemetry() log.user = user log.uas_position = apos log.uas_heading = 0 log.save() uas_logs.append(log) # Assert correct satisfied waypoints wpts_satisfied = config.satisfied_waypoints(uas_logs) self.assertEqual(wpts_satisfied, exp_satisfied)
def test_unicode(self): """Tests the unicode method executes.""" pos = GpsPosition() pos.latitude = 10 pos.longitude = 100 pos.save() apos = AerialPosition() apos.altitude_msl = 1000 apos.gps_position = pos apos.save() wpt = Waypoint() wpt.position = apos wpt.order = 10 wpt.save() config = MissionConfig() config.home_pos = pos config.emergent_last_known_pos = pos config.off_axis_target_pos = pos config.sric_pos = pos config.air_drop_pos = pos config.server_info = self.info config.save() config.mission_waypoints.add(wpt) config.search_grid_points.add(wpt) config.save() self.assertTrue(config.__unicode__())
def setUp(self): """Creates test data.""" # Form test set for contains position self.testdata_containspos = [] for test_data in TESTDATA_FLYZONE_CONTAINSPOS: # Create the FlyZone zone = FlyZone() zone.altitude_msl_min = test_data['min_alt'] zone.altitude_msl_max = test_data['max_alt'] zone.save() for waypoint_id in range(len(test_data['waypoints'])): (lat, lon) = test_data['waypoints'][waypoint_id] gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.gps_position = gpos apos.altitude_msl = 0 apos.save() wpt = Waypoint() wpt.order = waypoint_id wpt.position = apos wpt.save() zone.boundary_pts.add(wpt) # Form test set test_pos = [] for pos in test_data['inside_pos']: test_pos.append((pos, True)) for pos in test_data['outside_pos']: test_pos.append((pos, False)) # Store self.testdata_containspos.append((zone, test_pos))
def create_data(self): """Create a basic sample dataset.""" self.user1 = User.objects.create_user('user1', '*****@*****.**', 'testpass') self.user1.save() self.user2 = User.objects.create_user('user2', '*****@*****.**', 'testpass') self.user2.save() # user1 is flying event = TakeoffOrLandingEvent(user=self.user1, uas_in_air=True) event.save() # user2 has landed event = TakeoffOrLandingEvent(user=self.user2, uas_in_air=True) event.save() event = TakeoffOrLandingEvent(user=self.user2, uas_in_air=False) event.save() # user2 is active self.timestamp = timezone.now() gps = GpsPosition(latitude=38.6462, longitude=-76.2452) gps.save() pos = AerialPosition(gps_position=gps, altitude_msl=0) pos.save() telem = UasTelemetry(user=self.user2, uas_position=pos, uas_heading=90) telem.save() telem.timestamp = self.timestamp telem.save()
def create_uas_logs(self, user, entries): """Create a list of uas telemetry logs. Args: user: User to create logs for. entries: List of (lat, lon, alt) tuples for each entry. Returns: List of UasTelemetry objects """ ret = [] for (lat, lon, alt) in entries: pos = GpsPosition() pos.latitude = lat pos.longitude = lon pos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = pos apos.save() log = UasTelemetry() log.user = user log.uas_position = apos log.uas_heading = 0 log.save() ret.append(log) return ret
def setUp(self): """Create the obstacles for testing.""" # Obstacle with no waypoints obst_no_wpt = MovingObstacle() obst_no_wpt.speed_avg = 1 obst_no_wpt.sphere_radius = 1 obst_no_wpt.save() self.obst_no_wpt = obst_no_wpt # Obstacle with single waypoint self.single_wpt_lat = 40 self.single_wpt_lon = 76 self.single_wpt_alt = 100 obst_single_wpt = MovingObstacle() obst_single_wpt.speed_avg = 1 obst_single_wpt.sphere_radius = 1 obst_single_wpt.save() single_gpos = GpsPosition() single_gpos.latitude = self.single_wpt_lat single_gpos.longitude = self.single_wpt_lon single_gpos.save() single_apos = AerialPosition() single_apos.gps_position = single_gpos single_apos.altitude_msl = self.single_wpt_alt single_apos.save() single_wpt = Waypoint() single_wpt.position = single_apos single_wpt.name = 'Waypoint' single_wpt.order = 1 single_wpt.save() obst_single_wpt.waypoints.add(single_wpt) self.obst_single_wpt = obst_single_wpt # Obstacles with predefined path self.obstacles = list() for path in TESTDATA_MOVOBST_PATHS: cur_obst = MovingObstacle() cur_obst.name = 'MovingObstacle' cur_obst.speed_avg = 68 cur_obst.sphere_radius = 10 cur_obst.save() for pt_id in range(len(path)): (lat, lon, alt) = path[pt_id] cur_gpos = GpsPosition() cur_gpos.latitude = lat cur_gpos.longitude = lon cur_gpos.save() cur_apos = AerialPosition() cur_apos.gps_position = cur_gpos cur_apos.altitude_msl = alt cur_apos.save() cur_wpt = Waypoint() cur_wpt.position = cur_apos cur_wpt.name = 'Waypoint' cur_wpt.order = pt_id cur_wpt.save() cur_obst.waypoints.add(cur_wpt) cur_obst.save() self.obstacles.append(cur_obst)
def test_unicode(self): """Tests the unicode method executes.""" gps = GpsPosition(latitude=10, longitude=100) gps.save() pos = AerialPosition(gps_position=gps, altitude_msl=100) pos.save() pos.__unicode__()
def create_log_element(self, lat, lon, alt, user, log_time): pos = GpsPosition(latitude=lat, longitude=lon) pos.save() apos = AerialPosition(gps_position=pos, altitude_msl=alt) apos.save() log = UasTelemetry(user=user, uas_position=apos, uas_heading=100, ) log.save() log.timestamp = log_time log.save() return log
def create_log_element(self, timestamp, user, lat, lon, alt, heading): pos = GpsPosition(latitude=lat, longitude=lon) pos.save() apos = AerialPosition(gps_position=pos, altitude_msl=alt) apos.save() log = UasTelemetry(timestamp=timezone.now(), user=user, uas_position=apos, uas_heading=heading) log.save() return log
def test_unicode(self): """Tests the unicode method executes.""" gps = GpsPosition(latitude=10, longitude=100) gps.save() pos = AerialPosition(gps_position=gps, altitude_msl=100) pos.save() wpt = Waypoint(position=pos, order=10) wpt.save() wpt.__unicode__()
def test_contains_pos(self): """Tests the contains_pos method.""" for (zone, test_pos) in self.testdata_containspos: for ((lat, lon, alt), inside) in test_pos: gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = gpos self.assertEqual(zone.contains_pos(apos), inside)
def evaluate_distance_inputs(self, io_list): """Evaluates the distance_to calc with the given input list.""" for (lon1, lat1, alt1, lon2, lat2, alt2, dist_actual) in io_list: gps1 = GpsPosition(latitude=lat1, longitude=lon1) gps1.save() gps2 = GpsPosition(latitude=lat2, longitude=lon2) gps2.save() pos1 = AerialPosition(gps_position=gps1, altitude_msl=alt1) pos2 = AerialPosition(gps_position=gps2, altitude_msl=alt2) self.assertDistanceEqual(pos1, pos2, dist_actual)
def test_duplicate_equal(self): """Tests the duplicate function with unequal positions.""" gps1 = GpsPosition(latitude=0, longitude=0) gps1.save() gps2 = GpsPosition(latitude=0, longitude=0) gps2.save() pos1 = AerialPosition(gps_position=gps1, altitude_msl=0) pos2 = AerialPosition(gps_position=gps2, altitude_msl=0) pos3 = AerialPosition(gps_position=gps1, altitude_msl=0) self.assertTrue(pos1.duplicate(pos2)) self.assertTrue(pos1.duplicate(pos3))
def test_getWaypointTravelTime(self): """Tests travel time calc.""" test_spds = [1, 10, 100, 500] for (lon2, lat2, lon1, lat1, dist_km) in TESTDATA_COMPETITION_DIST: dist_ft = kilometersToFeet(dist_km) for speed in test_spds: speed_fps = knotsToFeetPerSecond(speed) time = dist_ft / speed_fps wpt1 = Waypoint() apos1 = AerialPosition() gpos1 = GpsPosition() gpos1.latitude = lat1 gpos1.longitude = lon1 apos1.gps_position = gpos1 apos1.altitude_msl = 0 wpt1.position = apos1 wpt2 = Waypoint() apos2 = AerialPosition() gpos2 = GpsPosition() gpos2.latitude = lat2 gpos2.longitude = lon2 apos2.gps_position = gpos2 apos2.altitude_msl = 0 wpt2.position = apos2 waypoints = [wpt1, wpt2] obstacle = MovingObstacle() obstacle.speed_avg = speed self.assertTrue( self.eval_travel_time( obstacle.getWaypointTravelTime(waypoints, 0, 1), time))
def create_log_element(self, lat, lon, alt, user, log_time): pos = GpsPosition(latitude=lat, longitude=lon) pos.save() apos = AerialPosition(gps_position=pos, altitude_msl=alt) apos.save() log = UasTelemetry( user=user, uas_position=apos, uas_heading=100, ) log.save() log.timestamp = log_time log.save() return log
def test_contains_many_pos(self): """Tests the contains_many_pos method.""" for (zone, test_pos) in self.testdata_containspos: aerial_pos_list = [] expected_results = [] for ((lat, lon, alt), inside) in test_pos: gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = gpos aerial_pos_list.append(apos) expected_results.append(inside) self.assertEqual(zone.contains_many_pos(aerial_pos_list), expected_results)
def test_contains_many_pos(self): """Tests the contains_many_pos method.""" for (zone, test_pos) in self.testdata_containspos: aerial_pos_list = [] expected_results = [] for ((lat, lon, alt), inside) in test_pos: gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = gpos aerial_pos_list.append(apos) expected_results.append(inside) self.assertEqual( zone.contains_many_pos(aerial_pos_list), expected_results)
def setUp(self): """Sets up the client, obstacle URL, obstacles, and user.""" # Setup user self.user = User.objects.create_user( 'testuser', '*****@*****.**', 'testpass') self.user.save() # Setup the obstacles for path in TESTDATA_MOVOBST_PATHS: # Stationary obstacle (stat_lat, stat_lon, _) = path[0] stat_gps = GpsPosition() stat_gps.latitude = stat_lat stat_gps.longitude = stat_lon stat_gps.save() stat_obst = StationaryObstacle() stat_obst.gps_position = stat_gps stat_obst.cylinder_radius = 100 stat_obst.cylinder_height = 200 stat_obst.save() # Moving obstacle mov_obst = MovingObstacle() mov_obst.speed_avg = 40 mov_obst.sphere_radius = 100 mov_obst.save() for pt_id in range(len(path)): # Obstacle waypoints (wpt_lat, wpt_lon, wpt_alt) = path[pt_id] gpos = GpsPosition() gpos.latitude = wpt_lat gpos.longitude = wpt_lon gpos.save() apos = AerialPosition() apos.altitude_msl = wpt_alt apos.gps_position = gpos apos.save() wpt = Waypoint() wpt.name = 'test waypoint' wpt.order = pt_id wpt.position = apos wpt.save() mov_obst.waypoints.add(wpt) mov_obst.save() # Setup test objs self.client = Client() self.loginUrl = reverse('auvsi_suas:login') self.obstUrl = reverse('auvsi_suas:obstacles')
def test_evaluate_collision_with_uas(self): """Tests the collision with UAS method.""" # Create testing data user = User.objects.create_user('testuser', '*****@*****.**', 'testpass') user.save() (cyl_details, inside_pos, outside_pos) = TESTDATA_STATOBST_EVALCOLLISION (cyl_lat, cyl_lon, cyl_height, cyl_rad) = cyl_details gpos = GpsPosition(latitude=cyl_lat, longitude=cyl_lon) gpos.save() obst = StationaryObstacle(gps_position=gpos, cylinder_radius=cyl_rad, cylinder_height=cyl_height) obst.save() inside_logs = [] outside_logs = [] logs_to_create = [ (inside_pos, inside_logs), (outside_pos, outside_logs) ] for (positions, log_list) in logs_to_create: for (lat, lon, alt) in positions: gpos = GpsPosition(latitude=lat, longitude=lon) gpos.save() apos = AerialPosition(gps_position=gpos, altitude_msl=alt) apos.save() log = UasTelemetry(user=user, uas_position=apos, uas_heading=0) log.save() log_list.append(log) # Assert collisions correctly evaluated collisions = [(inside_logs, True), (outside_logs, False)] for (log_list, inside) in collisions: self.assertEqual( obst.evaluate_collision_with_uas(log_list), inside) for log in log_list: self.assertEqual( obst.evaluate_collision_with_uas([log]), inside)
def eval_distanceTo_input(self, lon1, lat1, alt1, lon2, lat2, alt2, dist_actual): """Evaluates the distanceTo calc with the given inputs.""" pos1 = AerialPosition() pos1.gps_position = GpsPosition() pos1.gps_position.latitude = lat1 pos1.gps_position.longitude = lon1 pos1.altitude_msl = alt1 pos2 = AerialPosition() pos2.gps_position = GpsPosition() pos2.gps_position.latitude = lat2 pos2.gps_position.longitude = lon2 pos2.altitude_msl = alt2 dist12 = pos1.distanceTo(pos2) dist21 = pos2.distanceTo(pos1) dist_actual_ft = kilometersToFeet(dist_actual) diffdist12 = abs(dist12 - dist_actual_ft) diffdist21 = abs(dist21 - dist_actual_ft) dist_thresh = 10.0 return diffdist12 <= dist_thresh and diffdist21 <= dist_thresh
def test_evaluate_collision_with_uas(self): """Tests the collision with UAS method.""" # Create testing data user = User.objects.create_user('testuser', '*****@*****.**', 'testpass') user.save() (cyl_details, inside_pos, outside_pos) = TESTDATA_STATOBST_EVALCOLLISION (cyl_lat, cyl_lon, cyl_height, cyl_rad) = cyl_details gpos = GpsPosition(latitude=cyl_lat, longitude=cyl_lon) gpos.save() obst = StationaryObstacle(gps_position=gpos, cylinder_radius=cyl_rad, cylinder_height=cyl_height) obst.save() inside_logs = [] outside_logs = [] logs_to_create = [(inside_pos, inside_logs), (outside_pos, outside_logs)] for (positions, log_list) in logs_to_create: for (lat, lon, alt) in positions: gpos = GpsPosition(latitude=lat, longitude=lon) gpos.save() apos = AerialPosition(gps_position=gpos, altitude_msl=alt) apos.save() log = UasTelemetry(user=user, uas_position=apos, uas_heading=0) log.save() log_list.append(log) # Assert collisions correctly evaluated collisions = [(inside_logs, True), (outside_logs, False)] for (log_list, inside) in collisions: self.assertEqual(obst.evaluate_collision_with_uas(log_list), inside) for log in log_list: self.assertEqual(obst.evaluate_collision_with_uas([log]), inside)
def test_unicode(self): """Tests the unicode method executes.""" zone = FlyZone() zone.altitude_msl_min = 1 zone.altitude_msl_max = 2 zone.save() for _ in range(3): pos = GpsPosition() pos.latitude = 10 pos.longitude = 100 pos.save() apos = AerialPosition() apos.altitude_msl = 1000 apos.gps_position = pos apos.save() wpt = Waypoint() wpt.position = apos wpt.order = 10 wpt.save() zone.boundary_pts.add(wpt) self.assertTrue(zone.__unicode__())
def test_unicode(self): """Tests the unicode method executes.""" obst = MovingObstacle() obst.speed_avg = 10 obst.sphere_radius = 100 obst.save() for _ in range(3): pos = GpsPosition() pos.latitude = 10 pos.longitude = 100 pos.save() apos = AerialPosition() apos.altitude_msl = 1000 apos.gps_position = pos apos.save() wpt = Waypoint() wpt.position = apos wpt.order = 10 wpt.save() obst.waypoints.add(wpt) self.assertTrue(obst.__unicode__())
def test_contains_pos(self): """Tests the inside obstacle method.""" # Form the test obstacle obst = MovingObstacle() obst.sphere_radius = TESTDATA_MOVOBST_CONTAINSPOS_OBJ[2] # Run test points against obstacle test_data = [(TESTDATA_MOVOBST_CONTAINSPOS_INSIDE, True), (TESTDATA_MOVOBST_CONTAINSPOS_OUTSIDE, False)] for (cur_data, cur_contains) in test_data: for (lat, lon, alt) in cur_data: gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.gps_position = gpos apos.altitude_msl = alt self.assertEqual( obst.contains_pos(TESTDATA_MOVOBST_CONTAINSPOS_OBJ[0], TESTDATA_MOVOBST_CONTAINSPOS_OBJ[1], TESTDATA_MOVOBST_CONTAINSPOS_OBJ[3], apos), cur_contains)
def postUasPosition(request): """Posts the UAS position with a POST request. User must send a POST request with the following paramters: latitude: A latitude in decimal degrees. longitude: A logitude in decimal degrees. altitude_msl: An MSL altitude in decimal feet. uas_heading: The UAS heading in decimal degrees. (0=north, 90=east) """ # Validate user is logged in to make request if not request.user.is_authenticated(): return HttpResponseBadRequest('User not logged in. Login required.') # Validate user made a POST request if request.method != 'POST': return HttpResponseBadRequest('Request must be POST request.') try: # Get the parameters latitude = float(request.POST['latitude']) longitude = float(request.POST['longitude']) altitude_msl = float(request.POST['altitude_msl']) uas_heading = float(request.POST['uas_heading']) except KeyError: # Failed to get POST parameters return HttpResponseBadRequest( 'Posting UAS position must contain POST parameters "latitude", ' '"longitude", "altitude_msl", and "uas_heading".') except ValueError: # Failed to convert parameters return HttpResponseBadRequest( 'Failed to convert provided POST parameters to correct form.') else: # Check the values make sense if latitude < -90 or latitude > 90: return HttpResponseBadRequest( 'Must provide latitude between -90 and 90 degrees.') if longitude < -180 or longitude > 180: return HttpResponseBadRequest( 'Must provide longitude between -180 and 180 degrees.') if uas_heading < 0 or uas_heading > 360: return HttpResponseBadRequest( 'Must provide heading between 0 and 360 degrees.') # Store telemetry gps_position = GpsPosition() gps_position.latitude = latitude gps_position.longitude = longitude gps_position.save() aerial_position = AerialPosition() aerial_position.gps_position = gps_position aerial_position.altitude_msl = altitude_msl aerial_position.save() uas_telemetry = UasTelemetry() uas_telemetry.user = request.user uas_telemetry.uas_position = aerial_position uas_telemetry.uas_heading = uas_heading uas_telemetry.save() return HttpResponse('UAS Telemetry Successfully Posted.')
def create_logs(self, user, num=10, start=None, delta=None): if start is None: start = timezone.now() if delta is None: delta = datetime.timedelta(seconds=1) logs = [] for i in xrange(num): gps_position = GpsPosition(latitude=0, longitude=0) gps_position.save() uas_position = AerialPosition(gps_position=gps_position, altitude_msl=0) uas_position.save() log = UasTelemetry(user=user, uas_position=uas_position, uas_heading=0) log.save() log.timestamp = start + i * delta log.save() logs.append(log) return logs
def test_contains_pos(self): """Tests the inside obstacle method.""" # Form the test obstacle obst = MovingObstacle() obst.sphere_radius = TESTDATA_MOVOBST_CONTAINSPOS_OBJ[2] # Run test points against obstacle test_data = [ (TESTDATA_MOVOBST_CONTAINSPOS_INSIDE, True), (TESTDATA_MOVOBST_CONTAINSPOS_OUTSIDE, False) ] for (cur_data, cur_contains) in test_data: for (lat, lon, alt) in cur_data: gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.gps_position = gpos apos.altitude_msl = alt self.assertEqual(obst.contains_pos( TESTDATA_MOVOBST_CONTAINSPOS_OBJ[0], TESTDATA_MOVOBST_CONTAINSPOS_OBJ[1], TESTDATA_MOVOBST_CONTAINSPOS_OBJ[3], apos), cur_contains)
def evaluate_inputs(self, io_list): for (lon1, lat1, alt1, lon2, lat2, alt2, dist) in io_list: gps1 = GpsPosition(latitude=lat1, longitude=lon1) gps1.save() gps2 = GpsPosition(latitude=lat2, longitude=lon2) gps2.save() pos1 = AerialPosition(gps_position=gps1, altitude_msl=alt1) pos1.save() pos2 = AerialPosition(gps_position=gps2, altitude_msl=alt2) pos2.save() wpt1 = Waypoint(position=pos1) wpt2 = Waypoint(position=pos2) self.assertDistanceEqual(wpt1, wpt2, dist)
def test_contains_pos(self): """Tests the inside obstacle method.""" # Form the test obstacle pos = GpsPosition(latitude=TESTDATA_STATOBST_CONTAINSPOS_OBJ[0], longitude=TESTDATA_STATOBST_CONTAINSPOS_OBJ[1]) pos.save() obst = StationaryObstacle( gps_position=pos, cylinder_radius=TESTDATA_STATOBST_CONTAINSPOS_OBJ[2], cylinder_height=TESTDATA_STATOBST_CONTAINSPOS_OBJ[3]) # Run test points against obstacle test_data = [(TESTDATA_STATOBST_CONTAINSPOS_INSIDE, True), (TESTDATA_STATOBST_CONTAINSPOS_OUTSIDE, False)] for (cur_data, cur_contains) in test_data: for (lat, lon, alt) in cur_data: pos = GpsPosition(latitude=lat, longitude=lon) pos.save() apos = AerialPosition(gps_position=pos, altitude_msl=alt) self.assertEqual(obst.contains_pos(apos), cur_contains)
def setUp(self): """Sets up the client, obstacle URL, obstacles, and user.""" # Setup user self.user = User.objects.create_user('testuser', '*****@*****.**', 'testpass') self.user.save() # Setup the obstacles for path in TESTDATA_MOVOBST_PATHS: # Stationary obstacle (stat_lat, stat_lon, _) = path[0] stat_gps = GpsPosition() stat_gps.latitude = stat_lat stat_gps.longitude = stat_lon stat_gps.save() stat_obst = StationaryObstacle() stat_obst.gps_position = stat_gps stat_obst.cylinder_radius = 100 stat_obst.cylinder_height = 200 stat_obst.save() # Moving obstacle mov_obst = MovingObstacle() mov_obst.speed_avg = 40 mov_obst.sphere_radius = 100 mov_obst.save() for pt_id in range(len(path)): # Obstacle waypoints (wpt_lat, wpt_lon, wpt_alt) = path[pt_id] gpos = GpsPosition() gpos.latitude = wpt_lat gpos.longitude = wpt_lon gpos.save() apos = AerialPosition() apos.altitude_msl = wpt_alt apos.gps_position = gpos apos.save() wpt = Waypoint() wpt.name = 'test waypoint' wpt.order = pt_id wpt.position = apos wpt.save() mov_obst.waypoints.add(wpt) mov_obst.save() # Setup test objs self.client = Client() self.loginUrl = reverse('auvsi_suas:login') self.obstUrl = reverse('auvsi_suas:obstacles')
def test_satisfied_waypoints(self): """Tests the evaluation of waypoints method.""" # Create mission config gpos = GpsPosition() gpos.latitude = 10 gpos.longitude = 10 gpos.save() config = MissionConfig() config.home_pos = gpos config.emergent_last_known_pos = gpos config.off_axis_target_pos = gpos config.sric_pos = gpos config.air_drop_pos = gpos config.server_info = self.info config.save() # Create waypoints for config waypoints = [(38, -76, 100), (39, -77, 200), (40, -78, 0)] for i, waypoint in enumerate(waypoints): (lat, lon, alt) = waypoint pos = GpsPosition() pos.latitude = lat pos.longitude = lon pos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = pos apos.save() wpt = Waypoint() wpt.position = apos wpt.order = i wpt.save() config.mission_waypoints.add(wpt) config.save() # Create UAS telemetry logs user = User.objects.create_user('testuser', '*****@*****.**', 'testpass') # Only first is valid. entries = [(38, -76, 140), (40, -78, 600), (37, -75, 40)] expect = (1, 1) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # First and last are valid, but missed second, so third doesn't count. entries = [(38, -76, 140), (40, -78, 600), (40, -78, 40)] expect = (1, 1) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Hit all. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 40)] expect = (3, 3) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Hit all, but don't stay within waypoint track. entries = [(38, -76, 140), (39, -77, 180), (41, -78, 40), (40, -78, 40)] expect = (3, 2) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Only hit the first waypoint on run one, hit all on run two. entries = [(38, -76, 140), (40, -78, 600), (37, -75, 40), # Run two: (38, -76, 140), (39, -77, 180), (40, -78, 40)] expect = (3, 3) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Hit all on run one, only hit the first waypoint on run two. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 40), # Run two: (38, -76, 140), (40, -78, 600), (37, -75, 40)] expect = (3, 3) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Remain on the waypoint track only on the second run. entries = [(38, -76, 140), (39, -77, 180), (41, -78, 40), (40, -78, 40), # Run two: (38, -76, 140), (39, -77, 180), (40, -78, 40)] expect = (3, 3) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs))
def test_evaluate_collision_with_uas(self): """Tests the collision with UAS method.""" # Get test data user = User.objects.create_user('testuser', '*****@*****.**', 'testpass') user.save() testdata = TESTDATA_MOVOBST_EVALCOLLISION (obst_rad, obst_speed, obst_pos, log_details) = testdata # Create the obstacle obst = MovingObstacle() obst.speed_avg = obst_speed obst.sphere_radius = obst_rad obst.save() for pos_id in xrange(len(obst_pos)): (lat, lon, alt) = obst_pos[pos_id] gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.gps_position = gpos apos.altitude_msl = alt apos.save() wpt = Waypoint() wpt.order = pos_id wpt.position = apos wpt.save() obst.waypoints.add(wpt) obst.save() # Create sets of logs epoch = timezone.now().replace(year=1970, month=1, day=1, hour=0, minute=0, second=0, microsecond=0) inside_logs = [] outside_logs = [] for (time_sec, inside_pos, outside_pos) in log_details: log_time = epoch + datetime.timedelta(seconds=time_sec) logs_pos = [(inside_pos, inside_logs), (outside_pos, outside_logs)] for (positions, log_list) in logs_pos: for (lat, lon, alt) in positions: gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.gps_position = gpos apos.altitude_msl = alt apos.save() log = UasTelemetry() log.user = user log.uas_position = apos log.uas_heading = 0 log.save() log.timestamp = log_time log.save() log_list.append(log) # Assert the obstacle correctly computes collisions log_collisions = [(True, inside_logs), (False, outside_logs)] for (inside, logs) in log_collisions: self.assertEqual(obst.evaluate_collision_with_uas(logs), inside) for log in logs: self.assertEqual(obst.evaluate_collision_with_uas([log]), inside)
def test_satisfied_waypoints(self): """Tests the evaluation of waypoints method.""" # Create mission config gpos = GpsPosition() gpos.latitude = 10 gpos.longitude = 10 gpos.save() config = MissionConfig() config.home_pos = gpos config.emergent_last_known_pos = gpos config.off_axis_target_pos = gpos config.sric_pos = gpos config.air_drop_pos = gpos config.server_info = self.info config.save() # Create waypoints for config waypoints = [(38, -76, 100), (39, -77, 200), (40, -78, 0)] for i, waypoint in enumerate(waypoints): (lat, lon, alt) = waypoint pos = GpsPosition() pos.latitude = lat pos.longitude = lon pos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = pos apos.save() wpt = Waypoint() wpt.position = apos wpt.order = i wpt.save() config.mission_waypoints.add(wpt) config.save() # Create UAS telemetry logs user = User.objects.create_user('testuser', '*****@*****.**', 'testpass') def assertSatisfiedWaypoints(expect, got): """Assert two satisfied_waypoints return values are equal.""" self.assertEqual(expect[0], got[0]) self.assertEqual(expect[1], got[1]) for k in expect[2].keys(): self.assertIn(k, got[2]) self.assertAlmostEqual(expect[2][k], got[2][k], delta=0.1) for k in got[2].keys(): self.assertIn(k, expect[2]) # Only first is valid. entries = [(38, -76, 140), (40, -78, 600), (37, -75, 40)] expect = (1, 1, {0: 40, 1: 460785.17}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # First and last are valid, but missed second, so third doesn't count. entries = [(38, -76, 140), (40, -78, 600), (40, -78, 40)] expect = (1, 1, {0: 40, 1: 460785.03}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Hit all. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 40)] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Hit all, but don't stay within waypoint track. entries = [(38, -76, 140), (39, -77, 180), (41, -78, 40), (40, -78, 40)] expect = (3, 2, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Only hit the first waypoint on run one, hit all on run two. entries = [(38, -76, 140), (40, -78, 600), (37, -75, 40), # Run two: (38, -76, 140), (39, -77, 180), (40, -78, 40)] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Hit all on run one, only hit the first waypoint on run two. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 40), # Run two: (38, -76, 140), (40, -78, 600), (37, -75, 40)] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Remain on the waypoint track only on the second run. entries = [(38, -76, 140), (39, -77, 180), (41, -78, 40), (40, -78, 40), # Run two: (38, -76, 140), (39, -77, 180), (40, -78, 40)] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Keep flying after hitting all waypoints. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 40), (30.1, -78.1, 100)] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Miss last target by a sane distance. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 60)] expect = (2, 2, {0: 40, 1: 20, 2: 60}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs))
def test_out_of_bounds(self): """Tests the UAS out of bounds method.""" (zone_details, uas_details) = TESTDATA_FLYZONE_EVALBOUNDS # Create FlyZone objects zones = [] for (alt_min, alt_max, wpts) in zone_details: zone = FlyZone() zone.altitude_msl_min = alt_min zone.altitude_msl_max = alt_max zone.save() for wpt_id in xrange(len(wpts)): (lat, lon) = wpts[wpt_id] gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.gps_position = gpos apos.altitude_msl = 0 apos.save() wpt = Waypoint() wpt.order = wpt_id wpt.position = apos wpt.save() zone.boundary_pts.add(wpt) zone.save() zones.append(zone) # For each user, validate time out of bounds user_id = 0 epoch = timezone.now().replace( year=1970, month=1, day=1, hour=0, minute=0, second=0, microsecond=0) for exp_out_of_bounds_time, uas_log_details in uas_details: # Create the logs user = User.objects.create_user('testuser%d' % user_id, '*****@*****.**', 'testpass') user_id += 1 uas_logs = [] for (lat, lon, alt, timestamp) in uas_log_details: gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.gps_position = gpos apos.altitude_msl = alt apos.save() log = UasTelemetry() log.user = user log.uas_position = apos log.uas_heading = 0 log.save() log.timestamp = epoch + datetime.timedelta(seconds=timestamp) log.save() uas_logs.append(log) # Assert out of bounds time matches expected out_of_bounds_time = FlyZone.out_of_bounds(zones, uas_logs) self.assertAlmostEqual(out_of_bounds_time, exp_out_of_bounds_time)
def test_satisfied_waypoints(self): """Tests the evaluation of waypoints method.""" # Create mission config gpos = GpsPosition() gpos.latitude = 10 gpos.longitude = 10 gpos.save() config = MissionConfig() config.home_pos = gpos config.emergent_last_known_pos = gpos config.off_axis_target_pos = gpos config.sric_pos = gpos config.air_drop_pos = gpos config.server_info = self.info config.save() # Create waypoints for config waypoints = [(38, -76, 100), (39, -77, 200), (40, -78, 0)] for i, waypoint in enumerate(waypoints): (lat, lon, alt) = waypoint pos = GpsPosition() pos.latitude = lat pos.longitude = lon pos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = pos apos.save() wpt = Waypoint() wpt.position = apos wpt.order = i wpt.save() config.mission_waypoints.add(wpt) config.save() # Create UAS telemetry logs user = User.objects.create_user('testuser', '*****@*****.**', 'testpass') # Only first is valid. entries = [(38, -76, 140), (40, -78, 600), (37, -75, 40)] expect = (1, 1) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # First and last are valid, but missed second, so third doesn't count. entries = [(38, -76, 140), (40, -78, 600), (40, -78, 40)] expect = (1, 1) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Hit all. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 40)] expect = (3, 3) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Hit all, but don't stay within waypoint track. entries = [(38, -76, 140), (39, -77, 180), (41, -78, 40), (40, -78, 40)] expect = (3, 2) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Only hit the first waypoint on run one, hit all on run two. entries = [ (38, -76, 140), (40, -78, 600), (37, -75, 40), # Run two: (38, -76, 140), (39, -77, 180), (40, -78, 40) ] expect = (3, 3) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Hit all on run one, only hit the first waypoint on run two. entries = [ (38, -76, 140), (39, -77, 180), (40, -78, 40), # Run two: (38, -76, 140), (40, -78, 600), (37, -75, 40) ] expect = (3, 3) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs)) # Remain on the waypoint track only on the second run. entries = [ (38, -76, 140), (39, -77, 180), (41, -78, 40), (40, -78, 40), # Run two: (38, -76, 140), (39, -77, 180), (40, -78, 40) ] expect = (3, 3) logs = self.create_uas_logs(user, entries) self.assertEqual(expect, config.satisfied_waypoints(logs))
def post(self, request): """Posts the UAS position with a POST request. User must send a POST request with the following paramters: latitude: A latitude in decimal degrees. longitude: A logitude in decimal degrees. altitude_msl: An MSL altitude in decimal feet. uas_heading: The UAS (true north) heading in decimal degrees. """ try: # Get the parameters latitude = float(request.POST['latitude']) longitude = float(request.POST['longitude']) altitude_msl = float(request.POST['altitude_msl']) uas_heading = float(request.POST['uas_heading']) except KeyError: # Failed to get POST parameters logger.warning( 'User did not specify all params for uas telemetry request.') logger.debug(request) return HttpResponseBadRequest( 'Posting UAS position must contain POST parameters "latitude", ' '"longitude", "altitude_msl", and "uas_heading".') except ValueError: # Failed to convert parameters logger.warning( 'User specified a param which could not converted to an ' + 'appropriate type.') logger.debug(request) return HttpResponseBadRequest( 'Failed to convert provided POST parameters to correct form.') else: # Check the values make sense if latitude < -90 or latitude > 90: logger.warning('User specified latitude out of valid range.') logger.debug(request) return HttpResponseBadRequest( 'Must provide latitude between -90 and 90 degrees.') if longitude < -180 or longitude > 180: logger.warning('User specified longitude out of valid range.') logger.debug(request) return HttpResponseBadRequest( 'Must provide longitude between -180 and 180 degrees.') if uas_heading < 0 or uas_heading > 360: logger.warning('User specified altitude out of valid range.') logger.debug(request) return HttpResponseBadRequest( 'Must provide heading between 0 and 360 degrees.') # Store telemetry logger.info('User uploaded telemetry: %s' % request.user.username) gpos = GpsPosition(latitude=latitude, longitude=longitude) gpos.save() apos = AerialPosition(gps_position=gpos, altitude_msl=altitude_msl) apos.save() telemetry = UasTelemetry(user=request.user, uas_position=apos, uas_heading=uas_heading) telemetry.save() return HttpResponse('UAS Telemetry Successfully Posted.')
def test_satisfied_waypoints(self): """Tests the evaluation of waypoints method.""" # Create mission config gpos = GpsPosition() gpos.latitude = 10 gpos.longitude = 10 gpos.save() config = MissionConfig() config.home_pos = gpos config.emergent_last_known_pos = gpos config.off_axis_target_pos = gpos config.sric_pos = gpos config.air_drop_pos = gpos config.server_info = self.info config.save() # Create waypoints for config waypoints = [(38, -76, 100), (39, -77, 200), (40, -78, 0)] for i, waypoint in enumerate(waypoints): (lat, lon, alt) = waypoint pos = GpsPosition() pos.latitude = lat pos.longitude = lon pos.save() apos = AerialPosition() apos.altitude_msl = alt apos.gps_position = pos apos.save() wpt = Waypoint() wpt.position = apos wpt.order = i wpt.save() config.mission_waypoints.add(wpt) config.save() # Create UAS telemetry logs user = User.objects.create_user('testuser', '*****@*****.**', 'testpass') def assertSatisfiedWaypoints(expect, got): """Assert two satisfied_waypoints return values are equal.""" self.assertEqual(expect[0], got[0]) self.assertEqual(expect[1], got[1]) for k in expect[2].keys(): self.assertIn(k, got[2]) self.assertAlmostEqual(expect[2][k], got[2][k], delta=0.1) for k in got[2].keys(): self.assertIn(k, expect[2]) # Only first is valid. entries = [(38, -76, 140), (40, -78, 600), (37, -75, 40)] expect = (1, 1, {0: 40, 1: 460785.17}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # First and last are valid, but missed second, so third doesn't count. entries = [(38, -76, 140), (40, -78, 600), (40, -78, 40)] expect = (1, 1, {0: 40, 1: 460785.03}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Hit all. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 40)] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Hit all, but don't stay within waypoint track. entries = [(38, -76, 140), (39, -77, 180), (41, -78, 40), (40, -78, 40)] expect = (3, 2, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Only hit the first waypoint on run one, hit all on run two. entries = [ (38, -76, 140), (40, -78, 600), (37, -75, 40), # Run two: (38, -76, 140), (39, -77, 180), (40, -78, 40) ] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Hit all on run one, only hit the first waypoint on run two. entries = [ (38, -76, 140), (39, -77, 180), (40, -78, 40), # Run two: (38, -76, 140), (40, -78, 600), (37, -75, 40) ] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Remain on the waypoint track only on the second run. entries = [ (38, -76, 140), (39, -77, 180), (41, -78, 40), (40, -78, 40), # Run two: (38, -76, 140), (39, -77, 180), (40, -78, 40) ] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Keep flying after hitting all waypoints. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 40), (30.1, -78.1, 100)] expect = (3, 3, {0: 40, 1: 20, 2: 40}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs)) # Miss last target by a sane distance. entries = [(38, -76, 140), (39, -77, 180), (40, -78, 60)] expect = (2, 2, {0: 40, 1: 20, 2: 60}) logs = self.create_uas_logs(user, entries) assertSatisfiedWaypoints(expect, config.satisfied_waypoints(logs))
def test_out_of_bounds(self): """Tests the UAS out of bounds method.""" (zone_details, uas_details) = TESTDATA_FLYZONE_EVALBOUNDS # Create FlyZone objects zones = [] for (alt_min, alt_max, wpts) in zone_details: zone = FlyZone() zone.altitude_msl_min = alt_min zone.altitude_msl_max = alt_max zone.save() for wpt_id in xrange(len(wpts)): (lat, lon) = wpts[wpt_id] gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.gps_position = gpos apos.altitude_msl = 0 apos.save() wpt = Waypoint() wpt.order = wpt_id wpt.position = apos wpt.save() zone.boundary_pts.add(wpt) zone.save() zones.append(zone) # For each user, validate time out of bounds user_id = 0 epoch = timezone.now().replace(year=1970, month=1, day=1, hour=0, minute=0, second=0, microsecond=0) for exp_out_of_bounds_time, uas_log_details in uas_details: # Create the logs user = User.objects.create_user('testuser%d' % user_id, '*****@*****.**', 'testpass') user_id += 1 uas_logs = [] for (lat, lon, alt, timestamp) in uas_log_details: gpos = GpsPosition() gpos.latitude = lat gpos.longitude = lon gpos.save() apos = AerialPosition() apos.gps_position = gpos apos.altitude_msl = alt apos.save() log = UasTelemetry() log.user = user log.uas_position = apos log.uas_heading = 0 log.save() log.timestamp = epoch + datetime.timedelta(seconds=timestamp) log.save() uas_logs.append(log) # Assert out of bounds time matches expected out_of_bounds_time = FlyZone.out_of_bounds(zones, uas_logs) self.assertAlmostEqual(out_of_bounds_time, exp_out_of_bounds_time)