Пример #1
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 def test_find_image_station(self):
     """ Test find closest agrimet station to Landsat image centroid.
     :return: 
     """
     l8 = Landsat8(self.dirname_image)
     agrimet = Agrimet(sat_image=l8)
     self.assertEqual(agrimet.station, self.fetch_site)
Пример #2
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 def test_fetch_data_many_stations(self):
     """ Test download nultiple agrimet station data download.
     This runs through a list of stations, reformats data, checks unit conversion,
     and Pandas.DataFrame
     :return:
     """
     for site in self.outside_PnGp_sites:
         agrimet = Agrimet(station=site,
                           start_date='2015-05-15',
                           end_date='2015-05-15',
                           interval='daily')
         raw = agrimet.fetch_met_data(return_raw=True)
         formed = agrimet.fetch_met_data()
         params = ['et', 'mm', 'pc', 'sr', 'wr']
         for param in params:
             key = '{}_{}'.format(site, param)
             converted = formed[param.upper()].values.flatten()[0]
             unconverted = raw[key].values.flatten()[0]
             if param in ['et', 'pc']:
                 unconverted *= 25.4
             if param == 'mm':
                 unconverted = (unconverted - 32) * 5 / 9
             if param == 'sr':
                 unconverted *= 41868.
             if param == 'wr':
                 unconverted *= 1609.34
             if isnan(converted):
                 pass
             elif agrimet.empty_df:
                 pass
             else:
                 self.assertAlmostEqual(converted, unconverted, delta=0.01)
Пример #3
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    def test_fetch_data(self):
        """ Test download agrimet data within time slice.
        Test refomatting of data, test unit converstion to std units.
        Checked data is in a Pandas.DataFrame object.
        :return: 
        """
        agrimet = Agrimet(station=self.fetch_site,
                          start_date='2015-01-01',
                          end_date='2015-12-31',
                          interval='daily')

        raw = agrimet.fetch_met_data(return_raw=True)
        formed = agrimet.fetch_met_data()

        a = raw.iloc[1, :].tolist()
        b = formed.iloc[1, :].tolist()

        # dates equality
        self.assertEqual(a[0], b[0])
        self.assertEqual(a[0], '2015-01-02')
        # in to mm
        self.assertEqual(a[2], b[2] / 25.4)
        # deg F to deg C
        self.assertAlmostEqual(a[4], b[4] * 1.8 + 32, delta=0.01)
        # in to mm
        self.assertEqual(a[7], b[7] / 25.4)
        # Langleys to J m-2
        self.assertEqual(a[9], b[9] / 41868.)
        # mph to m sec-1
        self.assertEqual(a[12], b[12] / 0.44704)
Пример #4
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    def test_agrimet_mesonet_gridmet_etr(self):
        agrimet = Agrimet(station=self.fetch_site,
                          start_date=self.start,
                          end_date=self.end,
                          interval='daily')

        formed = agrimet.fetch_met_data()
        agri_etr = formed['ETRS'].values

        s, e = datetime.strptime(self.start, '%Y-%m-%d'), \
               datetime.strptime(self.end, '%Y-%m-%d')
        gridmet = GridMet('etr', start=s, end=e, lat=self.lat, lon=self.lon)
        gridmet_etr = gridmet.get_point_timeseries()
        gridmet_etr = gridmet_etr.values

        mco = Mesonet(self.covm_mco, start=self.start, end=self.end)
        mesonet_daily = mco.mesonet_etr(lat=46.3, elevation=1000.0)
        mesonet_etr = mesonet_daily['ETR'].values

        plt.plot(gridmet_etr[121:273], label='gridmet')
        plt.plot(mesonet_etr[121:273], label='mesonet')
        plt.plot(agri_etr[121:273], label='agrimet')
        plt.xlabel('GROWING SEASON DAY (MAY 01 - SEP 30)')
        plt.ylabel('Tall Crop Reference ET (mm) daily')
        plt.legend()
        # plt.show()
        saved = os.path.join(os.path.dirname(__file__),
                             'grid_agri_meso_fig.png')
        print('saved to {}'.format(saved))
        plt.savefig(saved)
        ga_ratio = gridmet_etr[121:273].sum() / agri_etr[121:273].sum()
        print('gridmet - agrimet ratio: {}'.format(ga_ratio))
        ma_ratio = mesonet_etr[121:273].sum() / agri_etr[121:273].sum()
        print('mesonet - agrimet ratio: {}'.format(ma_ratio))
Пример #5
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 def get_agrimet_crop(self, yr):
     agrimet = Agrimet(station=self.station, start_date=START.format(yr),
                       end_date=END.format(yr), interval='daily')
     data = agrimet.fetch_crop_data()
     alfalfa = data['ALFM']
     m_alfalfa = alfalfa.groupby(lambda x: x.month).sum().values
     m_alfalfa = m_alfalfa.reshape((m_alfalfa.shape[0], 1))
     return m_alfalfa
Пример #6
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 def test_instantiate_Agrimet(self):
     """ Test object instantiation.
     :return: 
     """
     ag = Agrimet(start_date='2000-01-01',
                  end_date='2000-12-31',
                  station=self.fetch_site,
                  sat_image=Landsat8(self.dirname_image))
     self.assertIsInstance(ag, Agrimet)
Пример #7
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    def test_pacific_nw_crop(self):

        a = Agrimet(station=self.pn_site,
                    start_date=self.start,
                    end_date=self.end,
                    interval='daily')
        df = a.fetch_crop_data()

        self.assertIsInstance(a, Agrimet)
Пример #8
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    def test_great_plains_crop(self):

        a = Agrimet(station=self.gp_site,
                    start_date=self.start,
                    end_date=self.end,
                    interval='daily')
        df = a.fetch_crop_data()

        self.assertIsInstance(a, Agrimet)
Пример #9
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    def test_web_retrieval_all_stations_crop(self):

        for s in self.all_stations:
            a = Agrimet(station=s,
                        start_date=self.start_season,
                        end_date=self.end_season,
                        interval='daily')
            # try:
            a.fetch_crop_data()
            print('{} appears valid'.format(a.station))
Пример #10
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    def test_find_closest_station(self):
        """ Test find closest agrimet station to any point.
        :return: 
        """
        coords = []
        with fopen(self.point_file, 'r') as src:
            for feature in src:
                coords.append(feature['geometry']['coordinates'])

        for coord in coords:
            agrimet = Agrimet(lon=coord[0], lat=coord[1])
            self.assertTrue(agrimet.station in self.site_ids)
Пример #11
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 def test_find_sites(self):
     with fopen(self.test_locations, 'r') as src:
         for feat in src:
             lat, lon = feat['geometry']['coordinates'][1], feat[
                 'geometry']['coordinates'][0]
             expected_site = feat['properties']['siteid']
             #  don't test on neighboring sites
             if expected_site not in self.excepted_sites:
                 agrimet = Agrimet(lat=lat,
                                   lon=lon,
                                   start_date=self.start,
                                   end_date=self.end)
                 found_site = agrimet.station
                 self.assertEqual(expected_site, found_site)
Пример #12
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 def test_web_retrieval_all_stations_crop(self):
     fails = []
     for s in self.all_stations:
         a = Agrimet(station=s,
                     start_date=self.start_season,
                     end_date=self.end_season,
                     interval='daily')
         try:
             a.fetch_crop_data()
             print('{} appears valid'.format(a.station))
         except Exception as e:
             print('{} appears invalid: {}'.format(a.station, e))
             fails.append(a.station)
     print(fails)
Пример #13
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    def test_write_agrimet_shapefile(self):

        agrimet = Agrimet(write_stations=True)
        station_data = agrimet.load_stations()
        epsg = '4326'
        outfile = self.out_shape
        agrimet.write_agrimet_sation_shp(station_data, epsg, outfile)
        with fopen(outfile, 'r') as shp:
            count = 0
            for _ in shp:
                count += 1
        self.assertEqual(186, count)
        file_list = os.listdir(self.points_dir)
        for f in file_list:
            if 'write_test' in f:
                os.remove(os.path.join(self.points_dir, f))
Пример #14
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    def test_agrimet_gridmet_precip(self):
        agrimet = Agrimet(station=self.fetch_site,
                          start_date=self.start,
                          end_date=self.end,
                          interval='daily')

        formed = agrimet.fetch_met_data()
        agri_ppt = formed['PP'].values

        s, e = datetime.strptime(self.start, '%Y-%m-%d'), \
               datetime.strptime(self.end, '%Y-%m-%d')
        gridmet = GridMet('pr', start=s, end=e, lat=self.lat, lon=self.lon)
        gridmet_ppt = gridmet.get_point_timeseries()
        gridmet_ppt = gridmet_ppt.values

        difference = abs(gridmet_ppt - agri_ppt)
        self.assertLess(nanmean(difference), -100000)
Пример #15
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    def get_agrimet_etr(self, yr, first=False):

        agrimet = Agrimet(station=self.station, start_date=START.format(yr),
                          end_date=END.format(yr), interval='daily')

        formed = agrimet.fetch_met_data()
        if isnull(formed['ETRS']).values.sum() == formed['ETRS'].shape[0]:
            agri_etr = formed['ETRS'].groupby(lambda x: x.month).sum().values
        else:
            agri_etr = formed['ETRS'].groupby(lambda x: x.month).sum().values

        if first:
            self.elev = get_elevation(agrimet.station_coords[0], agrimet.station_coords[1])
            print('Station {}'.format(self.station))

        if formed['YM'].values.mean() != nan:
            t_dew = formed['YM'].values
            ea = calcs._sat_vapor_pressure(t_dew)[0]
            tmin, tmax = formed['MN'].values, formed['MX'].values

            try:
                doy = formed.index.strftime('%j').astype(int).values
            except AttributeError:
                doy = formed.index.strftime('%j').astype(int)

            doy = doy.reshape((len(doy), 1))[0]
            lat = agrimet.station_coords[0]
            rs = formed['SR'].values
            uz = formed['UA'].values
            zw = 2.0
            formed['calc_etr'] = Daily(tmin=tmin, tmax=tmax, ea=ea, rs=rs, uz=uz, zw=zw, elev=self.elev,
                                       lat=lat, doy=doy).etr()
            calc_etr = formed['calc_etr'].groupby(lambda x: x.month).sum().values

        else:
            calc_etr = empty(agri_etr.shape)
            calc_etr[:] = 0.0

        return agri_etr, calc_etr
Пример #16
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    def test_agrimet_gridmet_etr(self):
        agrimet = Agrimet(station=self.fetch_site,
                          start_date=self.start,
                          end_date=self.end,
                          interval='daily')

        formed = agrimet.fetch_met_data()
        agri_etr = formed['ETRS'].values

        s, e = datetime.strptime(self.start, '%Y-%m-%d'), \
               datetime.strptime(self.end, '%Y-%m-%d')
        gridmet = GridMet('etr', start=s, end=e, lat=self.lat, lon=self.lon)
        gridmet_etr = gridmet.get_point_timeseries()
        gridmet_etr = gridmet_etr.values

        # plt.plot(gridmet_etr, label='gridmet')
        # plt.plot(agri_etr, label='agrimet')
        # plt.legend()
        # plt.show()
        # plt.close()
        ratio = agri_etr.sum() / gridmet_etr.sum()
        print('ratio: {}'.format(ratio))