class AwcRestTest(unittest.TestCase): def setUp(self): self.c = AwcRest() def test_nwc_stations(self): stations = self.c.stations assert stations[0] == "AGGH" assert stations[-1] == "ZYTX" def test_bbox_filter_raw(self): self.c.filter(bbox=(-80, 30, -60, 50)) response = self.c.raw() assert ( '<response xmlns:xsd="http://www.w3.org/2001/XMLSchema" xmlns:xsi="http://www.w3.org/2001/XML-Schema-instance" version="1.2" xsi:noNamespaceSchemaLocation="http://aviationweather.gov/adds/schema/metar1_2.xsd">' in response[0] ) def test_bigbbox_filter_paegan(self): self.c.filter(bbox=(-80, 30, -60, 50)) response = self.c.collect() assert type(response) == StationCollection def test_smallbbox_filter_paegan(self): self.c.filter(bbox=(-74, 41, -73, 43)) response = self.c.collect() assert type(response) == StationCollection
class AwcRestTest(unittest.TestCase): def setUp(self): self.c = AwcRest() def test_nwc_stations(self): stations = self.c.stations assert stations[0] == "AAAD" assert stations[-1] == "ZYYY" def test_bbox_filter_raw(self): self.c.filter(bbox=(-80, 30, -60, 50)) response = self.c.raw() assert ( '<response xmlns:xsd="http://www.w3.org/2001/XMLSchema" xmlns:xsi="http://www.w3.org/2001/XML-Schema-instance" version="1.2" xsi:noNamespaceSchemaLocation="http://aviationweather.gov/adds/schema/metar1_2.xsd">' # noqa in response[0]) def test_bigbbox_filter_paegan(self): self.c.filter(bbox=(-80, 30, -60, 50)) response = self.c.collect() assert type(response) == StationCollection def test_smallbbox_filter_paegan(self): self.c.filter(bbox=(-74, 41, -73, 43)) response = self.c.collect() assert type(response) == StationCollection
def setUp(self): self.c = AwcRest()
def get_nws_data(self, site, observations, begin_date, units_coverter, db_obj): start_time = time.time() logger = logging.getLogger(self.__class__.__name__) logger.debug("Starting get_nws_data") row_entry_date = datetime.now() utc_tz = timezone('UTC') eastern_tz = timezone('US/Eastern') header = ["raw_text","station_id","observation_time","latitude","longitude","temp_c","dewpoint_c","wind_dir_degrees","wind_speed_kt","wind_gust_kt","visibility_statute_mi","altim_in_hg","sea_level_pressure_mb","corrected","auto","auto_station","maintenance_indicator_on","no_signal","lightning_sensor_off","freezing_rain_sensor_off","present_weather_sensor_off","wx_string","sky_cover","cloud_base_ft_agl","sky_cover","cloud_base_ft_agl","sky_cover","cloud_base_ft_agl","sky_cover","cloud_base_ft_agl","flight_category","three_hr_pressure_tendency_mb","maxT_c","minT_c","maxT24hr_c","minT24hr_c","precip_in","pcp3hr_in","pcp6hr_in","pcp24hr_in","snow_in","vert_vis_ft","metar_type","elevation_m"] platform_handle = 'nws.%s.met' % (site) if db_obj.platformExists(platform_handle) is None: obs_list = [] for obs_setup in observations: if site in obs_setup['sites']: for xenia_obs in obs_setup['xenia_obs']: obs_list.append({'obs_name': xenia_obs['xenia_name'], 'uom_name': xenia_obs['xenia_units'], 's_order': 1}) db_obj.buildMinimalPlatform(platform_handle, obs_list) # Build sensor_id and m_type_id list. for obs_setup in observations: if site in obs_setup['sites']: for xenia_obs in obs_setup['xenia_obs']: m_type_id = db_obj.mTypeExists(xenia_obs['xenia_name'], xenia_obs['xenia_units']) sensor_id = db_obj.sensorExists(xenia_obs['xenia_name'], xenia_obs['xenia_units'], platform_handle, 1) xenia_obs['m_type_id'] = m_type_id xenia_obs['sensor_id'] = sensor_id awc_query = AwcRest() # dates.sort(reverse=True) logger.debug("Query site: %s for date: %s" % (site, begin_date)) awc_query.clear() # utc_end_date = begin_date.astimezone(utc_tz) + timedelta(hours=24) utc_end_date = begin_date.astimezone(utc_tz) start_date = begin_date.astimezone(utc_tz) - timedelta(hours=24) awc_query.filter(station=site, start=start_date, end=utc_end_date) try: # response = awc_query.collect() temp_file = os.path.join(self.temp_directory, "nws_data.csv") with open(temp_file, "w") as nws_file_obj: nws_file_obj.write(awc_query.raw(responseFormat="csv")[0]) except Exception as e: logger.exception(e) else: with open(temp_file, "rU") as nws_data_file: line_cnt = 0 header_row = 5 nws_csv_rdr = csv.DictReader(nws_data_file, header) for row_ndx, row in enumerate(nws_csv_rdr): if row_ndx > header_row: try: obs_date = utc_tz.localize(datetime.strptime(row['observation_time'], "%Y-%m-%dT%H:%M:%SZ")) except (ValueError, Exception) as e: logger.exception(e) else: for obs in nws_obs: try: for xenia_obs in obs["xenia_obs"]: src_obs_name = xenia_obs['obs_name'] src_obs_uom = xenia_obs['units'] xenia_obs_name = xenia_obs['xenia_name'] xenia_uom = xenia_obs['xenia_units'] sensor_id = xenia_obs['sensor_id'] m_type_id = xenia_obs['m_type_id'] try: obs_value = float(row[src_obs_name]) except ValueError as e: obs_value = 0.0 try: latitude = float(row["latitude"]) longitude = float(row["longitude"]) except ValueError as e: latitude = 0.0 longitude = 0.0 try: elevation = float(row['elevation_m']) except ValueError as e: elevation = 0 obs_val = units_coverter.measurementConvert(obs_value, src_obs_uom, xenia_uom) if obs_val is not None: obs_rec = multi_obs(row_entry_date=row_entry_date, platform_handle=platform_handle, sensor_id=sensor_id, m_type_id=m_type_id, m_date=obs_date.strftime('%Y-%m-%dT%H:%M:%S'), m_lon=longitude, m_lat=latitude, m_z=elevation, m_value=obs_val ) rec_id = db_obj.addRec(obs_rec, True) if rec_id is not None: logger.debug("Adding obs: %s(%s) Date: %s Value: %s S_Order: 1" % \ (xenia_obs_name, xenia_uom, obs_date, obs_val)) else: logger.error("Failed adding obs: %s(%s) Date: %s Value: %s S_Order: 1" % \ (xenia_obs_name, xenia_uom, obs_date, obs_val)) except (Exception,ValueError) as e: logger.exception(e) logger.debug("Finished get_nws_data in %f seconds" % (time.time() - start_time)) return