Exemplo n.º 1
0
 def test_metar(self):
     """
     Tests end-to-end METAR translation
     """
     units = structs.Units(**static.NA_UNITS)
     data = {
         "altimeter":
         _core.make_number("29.92", "2992"),
         "clouds": [_core.make_cloud("BKN015CB")],
         "dewpoint":
         _core.make_number("M01"),
         "other": ["+RA"],
         "temperature":
         _core.make_number("03"),
         "visibility":
         _core.make_number("3"),
         "wind_direction":
         _core.make_number("360"),
         "wind_gust":
         _core.make_number("20"),
         "wind_speed":
         _core.make_number("12"),
         "wind_variable_direction": [
             _core.make_number("340"),
             _core.make_number("020"),
         ],
     }
     data.update({
         k: ""
         for k in (
             "raw",
             "remarks",
             "station",
             "time",
             "flight_rules",
             "remarks_info",
             "runway_visibility",
             "sanitized",
         )
     })
     data = structs.MetarData(**data)
     trans = structs.MetarTrans(
         altimeter="29.92 inHg (1013 hPa)",
         clouds="Broken layer at 1500ft (Cumulonimbus) - Reported AGL",
         dewpoint="-1°C (30°F)",
         other="Heavy Rain",
         remarks={},
         temperature="3°C (37°F)",
         visibility="3sm (4.8km)",
         wind="N-360 (variable 340 to 020) at 12kt gusting to 20kt",
     )
     translated = translate.metar(data, units)
     self.assertIsInstance(translated, structs.MetarTrans)
     self.assertEqual(translated, trans)
Exemplo n.º 2
0
    def update(self, report: str = None) -> bool:
        """Updates raw, data, and translations by fetching and parsing the METAR report

        Returns True is a new report is available, else False
        """
        if report is not None:
            self.raw = report
        else:
            raw = self.service.fetch(self.station)
            if raw == self.raw:
                return False
            self.raw = raw
        self.data, self.units = metar.parse(self.station, self.raw)
        self.translations = translate.metar(self.data, self.units)
        self.last_updated = datetime.utcnow()
        return True
Exemplo n.º 3
0
 def test_metar(self):
     """
     Tests end-to-end METAR translation
     """
     units = structs.Units(**static.NA_UNITS)
     data = {
         'altimeter':
         core.make_number('2992'),
         'clouds': [core.make_cloud('BKN015CB')],
         'dewpoint':
         core.make_number('M01'),
         'other': ['+RA'],
         'temperature':
         core.make_number('03'),
         'visibility':
         core.make_number('3'),
         'wind_direction':
         core.make_number('360'),
         'wind_gust':
         core.make_number('20'),
         'wind_speed':
         core.make_number('12'),
         'wind_variable_direction':
         [core.make_number('340'),
          core.make_number('020')]
     }
     data.update({
         k: ''
         for k in ('raw', 'remarks', 'station', 'time', 'flight_rules',
                   'remarks_info', 'runway_visibility', 'sanitized')
     })
     data = structs.MetarData(**data)
     trans = structs.MetarTrans(
         altimeter='29.92 inHg (1013 hPa)',
         clouds='Broken layer at 1500ft (Cumulonimbus) - Reported AGL',
         dewpoint='-1°C (30°F)',
         other='Heavy Rain',
         remarks={},
         temperature='3°C (37°F)',
         visibility='3sm (4.8km)',
         wind='N-360 (variable 340 to 020) at 12kt gusting to 20kt')
     translated = translate.metar(data, units)
     self.assertIsInstance(translated, structs.MetarTrans)
     self.assertEqual(translated, trans)
Exemplo n.º 4
0
 def test_metar(self):
     """
     Tests end-to-end METAR translation
     """
     units = structs.Units(**static.NA_UNITS)
     data = {
         'altimeter': core.make_number('2992'),
         'clouds': [core.make_cloud('BKN015CB')],
         'dewpoint': core.make_number('M01'),
         'other': ['+RA'],
         'temperature': core.make_number('03'),
         'visibility': core.make_number('3'),
         'wind_direction': core.make_number('360'),
         'wind_gust': core.make_number('20'),
         'wind_speed': core.make_number('12'),
         'wind_variable_direction': [
             core.make_number('340'),
             core.make_number('020')
         ]
     }
     data.update({k: '' for k in (
         'raw', 'remarks', 'station', 'time', 'flight_rules',
         'remarks_info', 'runway_visibility', 'sanitized'
     )})
     data = structs.MetarData(**data)
     trans = structs.MetarTrans(
         altimeter='29.92 inHg (1013 hPa)',
         clouds='Broken layer at 1500ft (Cumulonimbus) - Reported AGL',
         dewpoint='-1°C (30°F)',
         other='Heavy Rain',
         remarks={},
         temperature='3°C (37°F)',
         visibility='3sm (4.8km)',
         wind='N-360 (variable 340 to 020) at 12kt gusting to 20kt'
     )
     translated = translate.metar(data, units)
     self.assertIsInstance(translated, structs.MetarTrans)
     self.assertEqual(translated, trans)
Exemplo n.º 5
0
 def _post_update(self):
     self.data, self.units = metar.parse(self.station, self.raw)
     self.translations = translate.metar(self.data, self.units)
     self.last_updated = datetime.utcnow()
Exemplo n.º 6
0
 def _post_update(self):
     self.data, self.units = metar.parse(self.station, self.raw)
     self.translations = translate.metar(self.data, self.units)
Exemplo n.º 7
0
 def _post_update(self):
     self.data, self.units = metar.parse(self.station, self.raw)
     self.translations = translate.metar(self.data, self.units)
     self.last_updated = datetime.utcnow()