def test_json_to_process_flight(self): process_flight_json = deepcopy(PROCESS_FLIGHT_JSON) self.assertEqual(json_to_process_flight(simplejson.dumps(process_flight_json)), PROCESS_FLIGHT) # incompatible or missing version does not load process_flight_json["version"] = "0.4" self.assertEqual(json_to_process_flight(simplejson.dumps(process_flight_json)), {}) del process_flight_json["version"] self.assertEqual(json_to_process_flight(simplejson.dumps(process_flight_json)), {})
def test_json_to_process_flight(self): process_flight_json = deepcopy(PROCESS_FLIGHT_JSON) self.assertEqual( json_to_process_flight(simplejson.dumps(process_flight_json)), PROCESS_FLIGHT) # incompatible or missing version does not load process_flight_json['version'] = '0.4' self.assertEqual( json_to_process_flight(simplejson.dumps(process_flight_json)), {}) del process_flight_json['version'] self.assertEqual( json_to_process_flight(simplejson.dumps(process_flight_json)), {})
def main(): print('FlightDataAnalyzer (c) Copyright 2013 Flight Data Services, Ltd.') print(' - Powered by POLARIS') print(' - http://www.flightdatacommunity.com') print() from analysis_engine.plot_flight import csv_flight_details, track_to_kml logger = logging.getLogger() logger.setLevel(logging.INFO) logger.addHandler(logging.StreamHandler(stream=sys.stdout)) parser = argparse.ArgumentParser(description="Process a flight.") parser.add_argument('file', type=str, help='Path of file to process.') help = 'Disable writing a CSV of the processing results.' parser.add_argument('-disable-csv', dest='disable_csv', action='store_true', help=help) help = 'Disable writing a KML of the flight track.' parser.add_argument('-disable-kml', dest='disable_kml', action='store_true', help=help) parser.add_argument('-r', '--requested', type=str, nargs='+', dest='requested', default=[], help='Requested nodes.') parser.add_argument('-R', '--required', type=str, nargs='+', dest='required', default=[], help='Required nodes.') parser.add_argument( '-tail', '--tail', dest='tail_number', default='G-FDSL', # as per flightdatacommunity file help='Aircraft tail number.') parser.add_argument( '-segment-type', dest='segment_type', default='START_AND_STOP', # as per flightdatacommunity file help='Type of segment.') parser.add_argument('--strip', default=False, action='store_true', help='Strip the HDF5 file to only the LFL parameters') parser.add_argument('-v', '--verbose', dest='verbose', action='store_true', help='Verbose logging') # Aircraft info parser.add_argument('-aircraft-family', dest='aircraft_family', type=str, help='Aircraft family.') parser.add_argument('-aircraft-series', dest='aircraft_series', type=str, help='Aircraft series.') parser.add_argument('-aircraft-model', dest='aircraft_model', type=str, help='Aircraft model.') parser.add_argument('-aircraft-manufacturer', dest='aircraft_manufacturer', type=str, help='Aircraft manufacturer.') help = 'Whether or not the aircraft records precise positioning ' \ 'parameters.' parser.add_argument('-precise-positioning', dest='precise_positioning', type=str, help=help) parser.add_argument('-frame', dest='frame', type=str, help='Data frame name.') parser.add_argument('-frame-qualifier', dest='frame_qualifier', type=str, help='Data frame qualifier.') parser.add_argument('-identifier', dest='identifier', type=str, help='Aircraft identifier.') parser.add_argument('-manufacturer-serial-number', dest='manufacturer_serial_number', type=str, help="Manufacturer's serial number of the aircraft.") parser.add_argument('-qar-serial-number', dest='qar_serial_number', type=str, help='QAR serial number.') help = 'Main gear to radio altimeter antenna in metres.' parser.add_argument('-main-gear-to-radio-altimeter-antenna', dest='main_gear_to_alt_rad', type=float, help=help) help = 'Main gear to lowest point of tail in metres.' parser.add_argument('-main-gear-to-lowest-point-of-tail', dest='main_gear_to_tail', type=float, help=help) help = 'Ground to lowest point of tail in metres.' parser.add_argument('-ground-to-lowest-point-of-tail', dest='ground_to_tail', type=float, help=help) parser.add_argument('-engine-count', dest='engine_count', type=int, help='Number of engines.') parser.add_argument('-engine-manufacturer', dest='engine_manufacturer', type=str, help='Engine manufacturer.') parser.add_argument('-engine-series', dest='engine_series', type=str, help='Engine series.') parser.add_argument('-engine-type', dest='engine_type', type=str, help='Engine type.') parser.add_argument('-initial', dest='initial', type=str, help='Path to initial nodes in json format.') args = parser.parse_args() if args.verbose: logger.setLevel(logging.DEBUG) aircraft_info = {} if args.aircraft_model: aircraft_info['Model'] = args.aircraft_model if args.aircraft_family: aircraft_info['Family'] = args.aircraft_family if args.aircraft_series: aircraft_info['Series'] = args.aircraft_series if args.aircraft_manufacturer: aircraft_info['Manufacturer'] = args.aircraft_manufacturer if args.precise_positioning: aircraft_info['Precise Positioning'] = args.precise_positioning if args.frame: aircraft_info['Frame'] = args.frame if args.frame_qualifier: aircraft_info['Frame Qualifier'] = args.frame_qualifier if args.identifier: aircraft_info['Identifier'] = args.identifier if args.manufacturer_serial_number: aircraft_info['Manufacturer Serial Number'] = \ args.manufacturer_serial_number if args.qar_serial_number: aircraft_info['QAR Serial Number'] = args.qar_serial_number if args.main_gear_to_alt_rad: aircraft_info['Main Gear To Radio Altimeter Antenna'] = \ args.main_gear_to_alt_rad if args.main_gear_to_tail: aircraft_info['Main Gear To Lowest Point Of Tail'] = \ args.main_gear_to_tail if args.ground_to_tail: aircraft_info['Ground To Lowest Point Of Tail'] = args.ground_to_tail if args.engine_count: aircraft_info['Engine Count'] = args.engine_count if args.engine_series: aircraft_info['Engine Series'] = args.engine_series if args.engine_manufacturer: aircraft_info['Engine Manufacturer'] = args.engine_manufacturer if args.engine_series: aircraft_info['Engine Series'] = args.engine_series if args.engine_type: aircraft_info['Engine Type'] = args.engine_type # Derive parameters to new HDF hdf_copy = copy_file(args.file, postfix='_process') if args.strip: with hdf_file(hdf_copy) as hdf: hdf.delete_params(hdf.derived_keys()) if args.initial: if not os.path.exists(args.initial): parser.error('Path for initial json data not found: %s' % args.initial) initial = json_to_process_flight(open(args.initial, 'rb').read()) else: initial = {} segment_info = { 'File': hdf_copy, 'Segment Type': args.segment_type, } res = process_flight( segment_info, args.tail_number, aircraft_info=aircraft_info, requested=args.requested, required=args.required, initial=initial, include_flight_attributes=False, ) # Flatten results. res = { k: list(itertools.chain.from_iterable(six.itervalues(v))) for k, v in six.iteritems(res) } logger.info("Derived parameters stored in hdf: %s", hdf_copy) # Write CSV file if not args.disable_csv: csv_dest = os.path.splitext(hdf_copy)[0] + '.csv' csv_flight_details(hdf_copy, res['kti'], res['kpv'], res['phases'], dest_path=csv_dest) logger.info("KPV, KTI and Phases writen to csv: %s", csv_dest) # Write KML file if not args.disable_kml: kml_dest = os.path.splitext(hdf_copy)[0] + '.kml' dest = track_to_kml(hdf_copy, res['kti'], res['kpv'], res['approach'], dest_path=kml_dest) if dest: logger.info("Flight Track with attributes writen to kml: %s", dest)
def main(): print 'FlightDataAnalyzer (c) Copyright 2013 Flight Data Services, Ltd.' print ' - Powered by POLARIS' print ' - http://www.flightdatacommunity.com' print '' from analysis_engine.plot_flight import csv_flight_details, track_to_kml logger = logging.getLogger() logger.setLevel(logging.INFO) logger.addHandler(logging.StreamHandler(stream=sys.stdout)) parser = argparse.ArgumentParser(description="Process a flight.") parser.add_argument('file', type=str, help='Path of file to process.') help = 'Disable writing a CSV of the processing results.' parser.add_argument('-disable-csv', dest='disable_csv', action='store_true', help=help) help = 'Disable writing a KML of the flight track.' parser.add_argument('-disable-kml', dest='disable_kml', action='store_true', help=help) parser.add_argument('-r', '--requested', type=str, nargs='+', dest='requested', default=[], help='Requested nodes.') parser.add_argument('-R', '--required', type=str, nargs='+', dest='required', default=[], help='Required nodes.') parser.add_argument('-tail', '--tail', dest='tail_number', default='G-FDSL', # as per flightdatacommunity file help='Aircraft tail number.') parser.add_argument('-segment-type', dest='segment_type', default='START_AND_STOP', # as per flightdatacommunity file help='Type of segment.') parser.add_argument('--strip', default=False, action='store_true', help='Strip the HDF5 file to only the LFL parameters') parser.add_argument('-v', '--verbose', dest='verbose', action='store_true', help='Verbose logging') # Aircraft info parser.add_argument('-aircraft-family', dest='aircraft_family', type=str, help='Aircraft family.') parser.add_argument('-aircraft-series', dest='aircraft_series', type=str, help='Aircraft series.') parser.add_argument('-aircraft-model', dest='aircraft_model', type=str, help='Aircraft model.') parser.add_argument('-aircraft-manufacturer', dest='aircraft_manufacturer', type=str, help='Aircraft manufacturer.') help = 'Whether or not the aircraft records precise positioning ' \ 'parameters.' parser.add_argument('-precise-positioning', dest='precise_positioning', type=str, help=help) parser.add_argument('-frame', dest='frame', type=str, help='Data frame name.') parser.add_argument('-frame-qualifier', dest='frame_qualifier', type=str, help='Data frame qualifier.') parser.add_argument('-identifier', dest='identifier', type=str, help='Aircraft identifier.') parser.add_argument('-manufacturer-serial-number', dest='manufacturer_serial_number', type=str, help="Manufacturer's serial number of the aircraft.") parser.add_argument('-qar-serial-number', dest='qar_serial_number', type=str, help='QAR serial number.') help = 'Main gear to radio altimeter antenna in metres.' parser.add_argument('-main-gear-to-radio-altimeter-antenna', dest='main_gear_to_alt_rad', type=float, help=help) help = 'Main gear to lowest point of tail in metres.' parser.add_argument('-main-gear-to-lowest-point-of-tail', dest='main_gear_to_tail', type=float, help=help) help = 'Ground to lowest point of tail in metres.' parser.add_argument('-ground-to-lowest-point-of-tail', dest='ground_to_tail', type=float, help=help) parser.add_argument('-engine-count', dest='engine_count', type=int, help='Number of engines.') parser.add_argument('-engine-manufacturer', dest='engine_manufacturer', type=str, help='Engine manufacturer.') parser.add_argument('-engine-series', dest='engine_series', type=str, help='Engine series.') parser.add_argument('-engine-type', dest='engine_type', type=str, help='Engine type.') parser.add_argument('-initial', dest='initial', type=str, help='Path to initial nodes in json format.') args = parser.parse_args() if args.verbose: logger.setLevel(logging.DEBUG) aircraft_info = {} if args.aircraft_model: aircraft_info['Model'] = args.aircraft_model if args.aircraft_family: aircraft_info['Family'] = args.aircraft_family if args.aircraft_series: aircraft_info['Series'] = args.aircraft_series if args.aircraft_manufacturer: aircraft_info['Manufacturer'] = args.aircraft_manufacturer if args.precise_positioning: aircraft_info['Precise Positioning'] = args.precise_positioning if args.frame: aircraft_info['Frame'] = args.frame if args.frame_qualifier: aircraft_info['Frame Qualifier'] = args.frame_qualifier if args.identifier: aircraft_info['Identifier'] = args.identifier if args.manufacturer_serial_number: aircraft_info['Manufacturer Serial Number'] = \ args.manufacturer_serial_number if args.qar_serial_number: aircraft_info['QAR Serial Number'] = args.qar_serial_number if args.main_gear_to_alt_rad: aircraft_info['Main Gear To Radio Altimeter Antenna'] = \ args.main_gear_to_alt_rad if args.main_gear_to_tail: aircraft_info['Main Gear To Lowest Point Of Tail'] = \ args.main_gear_to_tail if args.ground_to_tail: aircraft_info['Ground To Lowest Point Of Tail'] = args.ground_to_tail if args.engine_count: aircraft_info['Engine Count'] = args.engine_count if args.engine_series: aircraft_info['Engine Series'] = args.engine_series if args.engine_manufacturer: aircraft_info['Engine Manufacturer'] = args.engine_manufacturer if args.engine_series: aircraft_info['Engine Series'] = args.engine_series if args.engine_type: aircraft_info['Engine Type'] = args.engine_type # Derive parameters to new HDF hdf_copy = copy_file(args.file, postfix='_process') if args.strip: with hdf_file(hdf_copy) as hdf: hdf.delete_params(hdf.derived_keys()) if args.initial: if not os.path.exists(args.initial): parser.error('Path for initial json data not found: %s' % args.initial) initial = json_to_process_flight(open(args.initial, 'rb').read()) else: initial = {} segment_info = { 'File': hdf_copy, 'Segment Type': args.segment_type, } res = process_flight( segment_info, args.tail_number, aircraft_info=aircraft_info, requested=args.requested, required=args.required, additional_modules=['flightdataprofiles.fcp.kpvs'], initial=initial, ) # Flatten results. res = {k: list(itertools.chain.from_iterable(v.itervalues())) for k, v in res.iteritems()} logger.info("Derived parameters stored in hdf: %s", hdf_copy) # Write CSV file if not args.disable_csv: csv_dest = os.path.splitext(hdf_copy)[0] + '.csv' csv_flight_details(hdf_copy, res['kti'], res['kpv'], res['phases'], dest_path=csv_dest) logger.info("KPV, KTI and Phases writen to csv: %s", csv_dest) # Write KML file if not args.disable_kml: kml_dest = os.path.splitext(hdf_copy)[0] + '.kml' dest = track_to_kml( hdf_copy, res['kti'], res['kpv'], res['approach'], dest_path=kml_dest) if dest: logger.info("Flight Track with attributes writen to kml: %s", dest)