def parse_in_line(line: str, units: Units) -> {str: str}: """ Parser for the International TAF forcast variant """ wxdata = _core.dedupe(line.split()) wxdata = _core.sanitize_report_list(wxdata) retwx = {"sanitized": " ".join(wxdata)} ( wxdata, retwx["type"], retwx["start_time"], retwx["end_time"], ) = _core.get_type_and_times(wxdata) wxdata, retwx["wind_shear"] = _core.get_wind_shear(wxdata) ( wxdata, retwx["wind_direction"], retwx["wind_speed"], retwx["wind_gust"], _, ) = _core.get_wind(wxdata, units) if "CAVOK" in wxdata: retwx["visibility"] = _core.make_number("CAVOK") retwx["clouds"] = [] wxdata.pop(wxdata.index("CAVOK")) else: wxdata, retwx["visibility"] = _core.get_visibility(wxdata, units) wxdata, retwx["clouds"] = _core.get_clouds(wxdata) ( retwx["other"], retwx["altimeter"], retwx["icing"], retwx["turbulence"], ) = _core.get_taf_alt_ice_turb(wxdata) return retwx
def parse_na_line(line: str, units: Units) -> {str: str}: """ Parser for the North American TAF forcast variant """ wxdata = _core.dedupe(line.split()) wxdata = _core.sanitize_report_list(wxdata) retwx = {"sanitized": " ".join(wxdata)} ( wxdata, retwx["type"], retwx["start_time"], retwx["end_time"], ) = _core.get_type_and_times(wxdata) wxdata, retwx["wind_shear"] = _core.get_wind_shear(wxdata) ( wxdata, retwx["wind_direction"], retwx["wind_speed"], retwx["wind_gust"], _, ) = _core.get_wind(wxdata, units) wxdata, retwx["visibility"] = _core.get_visibility(wxdata, units) wxdata, retwx["clouds"] = _core.get_clouds(wxdata) ( retwx["other"], retwx["altimeter"], retwx["icing"], retwx["turbulence"], ) = _core.get_taf_alt_ice_turb(wxdata) return retwx
def parse_in(report: str) -> (MetarData, Units): """ Parser for the International METAR variant """ units = Units(**IN_UNITS) wxresp = {"raw": report} clean = _core.sanitize_report_string(report) wxdata, wxresp["remarks"] = _core.get_remarks(clean) wxdata = _core.dedupe(wxdata) wxdata = _core.sanitize_report_list(wxdata) wxresp["sanitized"] = " ".join(wxdata + [wxresp["remarks"]]) wxdata, wxresp["station"], wxresp["time"] = _core.get_station_and_time(wxdata) wxdata, wxresp["runway_visibility"] = _core.get_runway_visibility(wxdata) if "CAVOK" not in wxdata: wxdata, wxresp["clouds"] = _core.get_clouds(wxdata) wxdata, wxresp["wind_direction"], wxresp["wind_speed"], wxresp["wind_gust"], wxresp[ "wind_variable_direction" ] = _core.get_wind(wxdata, units) wxdata, wxresp["altimeter"] = _core.get_altimeter(wxdata, units, "IN") if "CAVOK" in wxdata: wxresp["visibility"] = _core.make_number("CAVOK") wxresp["clouds"] = [] wxdata.remove("CAVOK") else: wxdata, wxresp["visibility"] = _core.get_visibility(wxdata, units) wxresp["other"], wxresp["temperature"], wxresp["dewpoint"] = _core.get_temp_and_dew( wxdata ) condition = _core.get_flight_rules( wxresp["visibility"], _core.get_ceiling(wxresp["clouds"]) ) wxresp["flight_rules"] = FLIGHT_RULES[condition] wxresp["remarks_info"] = remarks.parse(wxresp["remarks"]) wxresp["time"] = _core.make_timestamp(wxresp["time"]) return MetarData(**wxresp), units
def test_get_clouds(self): """ Tests that clouds are removed, fixed, and split correctly """ for wx, clouds in ( (['1'], []), (['SCT060', '1'], [['SCT', 60, None]]), (['OVC100', '1', 'VV010', 'SCTO50C'], [['VV', 10, None], ['SCT', 50, 'C'], ['OVC', 100, None]]), (['1', 'BKN020', 'SCT050'], [['BKN', 20, None], ['SCT', 50, None]]), ): wx, ret_clouds = _core.get_clouds(wx) self.assertEqual(wx, ['1']) for i, cloud in enumerate(ret_clouds): self.assertIsInstance(cloud, structs.Cloud) for j, key in enumerate(('type', 'base', 'modifier')): self.assertEqual(getattr(cloud, key), clouds[i][j])
def test_get_clouds(self): """ Tests that clouds are removed, fixed, and split correctly """ for wx, clouds in ( (["1"], []), (["SCT060", "1"], [["SCT", 60, None]]), ( ["OVC100", "1", "VV010", "SCTO50C"], [["VV", 10, None], ["SCT", 50, "C"], ["OVC", 100, None]], ), (["1", "BKN020", "SCT050"], [["BKN", 20, None], ["SCT", 50, None]]), ): wx, ret_clouds = _core.get_clouds(wx) self.assertEqual(wx, ["1"]) for i, cloud in enumerate(ret_clouds): self.assertIsInstance(cloud, structs.Cloud) for j, key in enumerate(("type", "base", "modifier")): self.assertEqual(getattr(cloud, key), clouds[i][j])