def test_get_tle_lines(self, get_tle_file, *mocks): """Test identification of closest TLE lines""" tle_data = ['1 38771U 12049A 18363.63219793 -.00000013 00000-0 14176-4 0 9991\r\n', '2 38771 98.7297 60.1350 0002062 95.9284 25.0713 14.21477560325906\r\n', '1 38771U 12049A 18364.62426010 -.00000015 00000-0 13136-4 0 9990\r\n', # 2018-12-30 14:58 '2 38771 98.7295 61.1159 0002062 94.5796 60.2561 14.21477636326047\r\n', '1 38771U 12049A 18364.94649306 -.00000018 00000-0 12040-4 0 9996\r\n', # 2018-12-30 22:42 '2 38771 98.7295 61.4345 0002060 94.1226 268.7521 14.21477633326092\r\n', '1 38771U 12049A 18365.81382142 -.00000015 00000-0 13273-4 0 9991\r\n', '2 38771 98.7294 62.2921 0002057 92.7653 26.0030 14.21477711326215\r\n'] expected = { datetime.datetime(2018, 12, 20, 12, 0): None, datetime.datetime(2018, 12, 28, 12, 0): 0, datetime.datetime(2018, 12, 30, 16, 0): 2, datetime.datetime(2018, 12, 30, 20, 0): 4, datetime.datetime(2019, 1, 1, 12, 0): 6, datetime.datetime(2019, 1, 8, 12, 0): None } get_tle_file.return_value = tle_data reader = GACReader() for time, tle_idx in expected.items(): reader.times = [time] reader.tle_lines = None if tle_idx is None: self.assertRaises(IndexError, reader.get_tle_lines, threshold=7) else: tle1, tle2 = reader.get_tle_lines(threshold=7) self.assertEqual(tle1, tle_data[tle_idx]) self.assertEqual(tle2, tle_data[tle_idx + 1])
def test_get_tle_lines(self, get_tle_file, *mocks): """Test identification of closest TLE lines""" tle_data = [ '1 38771U 12049A 18363.63219793 -.00000013 00000-0 14176-4 0 9991\r\n', '2 38771 98.7297 60.1350 0002062 95.9284 25.0713 14.21477560325906\r\n', '1 38771U 12049A 18364.62426010 -.00000015 00000-0 13136-4 0 9990\r\n', # 2018-12-30 14:58 '2 38771 98.7295 61.1159 0002062 94.5796 60.2561 14.21477636326047\r\n', '1 38771U 12049A 18364.94649306 -.00000018 00000-0 12040-4 0 9996\r\n', # 2018-12-30 22:42 '2 38771 98.7295 61.4345 0002060 94.1226 268.7521 14.21477633326092\r\n', '1 38771U 12049A 18365.81382142 -.00000015 00000-0 13273-4 0 9991\r\n', '2 38771 98.7294 62.2921 0002057 92.7653 26.0030 14.21477711326215\r\n' ] expected = { datetime.datetime(2018, 12, 20, 12, 0): None, datetime.datetime(2018, 12, 28, 12, 0): 0, datetime.datetime(2018, 12, 30, 16, 0): 2, datetime.datetime(2018, 12, 30, 20, 0): 4, datetime.datetime(2019, 1, 1, 12, 0): 6, datetime.datetime(2019, 1, 8, 12, 0): None } get_tle_file.return_value = tle_data reader = GACReader(tle_thresh=7) for time, tle_idx in expected.items(): reader.times = [time] reader.tle_lines = None if tle_idx is None: self.assertRaises(IndexError, reader.get_tle_lines) else: tle1, tle2 = reader.get_tle_lines() self.assertEqual(tle1, tle_data[tle_idx]) self.assertEqual(tle2, tle_data[tle_idx + 1])
class TestGacReader(unittest.TestCase): """Test the common GAC Reader.""" longMessage = True @mock.patch.multiple('pygac.gac_reader.GACReader', __abstractmethods__=set()) @mock.patch('pygac.gac_reader.gtp.gac_lat_lon_interpolator') def setUp(self, interpolator, *mocks): """Set up the tests.""" self.interpolator = interpolator self.reader = GACReader() # python 2 compatibility if sys.version_info.major < 3: self.assertRaisesRegex = self.assertRaisesRegexp def test_filename(self): """Test the setter of the filename property.""" # test path with .gz extension filename = 'NSS.GHRR.TN.D80001.S0332.E0526.B0627173.WI' filepath = '/path/to/' + filename + '.gz' self.reader.filename = filepath self.assertEqual(self.reader.filename, filename) @unittest.skipIf(sys.version_info.major < 3, "Skipped in python2!") def test__read_scanlines(self): """Test the scanline extraction.""" self.reader.scanline_type = np.dtype([('a', 'S2'), ('b', '<i4')]) # request more scan lines than available with self.assertWarnsRegex(RuntimeWarning, "Unexpected number of scanlines!"): buffer = (b'a\x00\x01\x00\x00\x00' b'b\x00\x02\x00\x00\x00' b'c\x00\x03\x00\x00\x00') count = 4 self.reader._read_scanlines(buffer, count) # check the output first_line = self.reader.scans[0] self.assertEqual(first_line['a'], b'a') self.assertEqual(first_line['b'], 1) def test__validate_header(self): """Test the header validation.""" # wrong name pattern with self.assertRaisesRegex(ReaderError, 'Data set name .* does not match!'): head = {'data_set_name': b'abc.txt'} self.reader._validate_header(head) # Unicode errors are now caught with the same exception. with self.assertRaisesRegex(ReaderError, 'Data set name .* does not match!'): head = {'data_set_name': b'\xea\xf8'} self.reader._validate_header(head) def test__correct_data_set_name(self): """Test the data_set_name correction in file header.""" val_filename = 'NSS.GHRR.TN.D80001.S0332.E0526.B0627173.WI' val_filepath = 'path/to/' + val_filename val_head = { 'data_set_name': b'NSS.GHRR.TN.D80001.S0332.E0526.B0627173.WI' } inv_filename = 'InvalidFileName' inv_filepath = 'path/to/' + inv_filename inv_head = {'data_set_name': b'InvalidDataSetName'} # Note: always pass a copy to _correct_data_set_name, because # the input header is modified in place. # enter a valid data_set_name and filepath head = self.reader._correct_data_set_name(val_head.copy(), val_filepath) # enter an invalid data_set_name, but valid filepath head = self.reader._correct_data_set_name(inv_head.copy(), val_filepath) self.assertEqual(head['data_set_name'], val_filename.encode()) # enter an invalid data_set_name, and invalid filepath with self.assertRaisesRegex(ReaderError, 'Cannot determine data_set_name!'): head = self.reader._correct_data_set_name(inv_head.copy(), inv_filepath) # enter a valid data_set_name, and an invalid filepath # should be fine, because the data_set_name is the pefered source head = self.reader._correct_data_set_name(val_head.copy(), inv_filepath) self.assertEqual(head['data_set_name'], val_head['data_set_name']) @mock.patch('pygac.reader.Reader.get_calibrated_channels') def test__get_calibrated_channels_uniform_shape(self, get_channels): """Test the uniform shape as required by gac_io.save_gac.""" # check if it raises the assertion error channels = np.arange(2 * 2 * 5, dtype=float).reshape((2, 2, 5)) get_channels.return_value = channels with self.assertRaises(AssertionError): self.reader._get_calibrated_channels_uniform_shape() def test_to_datetime64(self): """Test conversion from (year, jday, msec) to datetime64.""" t0 = GACReader.to_datetime64(year=np.array(1970), jday=np.array(1), msec=np.array(0)) self.assertEqual(t0.astype('i8'), 0, msg='Conversion (year, jday, msec) to datetime64 ' 'is not correct') def test_to_datetime(self): """Test conversion from datetime64 to datetime.""" dt = datetime.datetime(2019, 10, 1, 12, 15, 18, 12345) dt64 = np.datetime64(dt) self.assertEqual(self.reader.to_datetime(dt64), dt) def test_lineno2msec(self): """Test scanline timestamp estimation.""" self.assertEqual(self.reader.lineno2msec(12345), 6172000) @mock.patch('pygac.reader.Reader.update_meta_data') @mock.patch('pygac.gac_reader.GACReader._get_lonlat') @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') @mock.patch('pygac.gac_reader.GACReader._adjust_clock_drift') def test_get_lonlat(self, adjust_clockdrift, get_corrupt_mask, get_lonlat, update_meta_data): """Test common lon/lat computation.""" lon_i = np.array([np.nan, 1, 2, 3, -180.1, 180.1]) lat_i = np.array([1, 2, 3, np.nan, -90.1, 90.1]) get_lonlat.return_value = lon_i, lat_i self.interpolator.return_value = lon_i, lat_i get_corrupt_mask.return_value = np.array([0, 0, 1, 0, 0, 0], dtype=bool) lons_exp = np.array([np.nan, 1, np.nan, 3., np.nan, np.nan]) lats_exp = np.array([1, 2, np.nan, np.nan, np.nan, np.nan]) # Default lons, lats = self.reader.get_lonlat() get_lonlat.assert_called() update_meta_data.assert_called() adjust_clockdrift.assert_called() numpy.testing.assert_array_equal(lons, lons_exp) numpy.testing.assert_array_equal(lats, lats_exp) # Interpolation disabled self.interpolator.reset_mock() adjust_clockdrift.reset_mock() self.reader.interpolate_coords = False self.reader.adjust_clock_drift = True self.reader.lons = self.reader.lats = None self.reader.get_lonlat() numpy.testing.assert_array_equal(lons, lons_exp) numpy.testing.assert_array_equal(lats, lats_exp) self.interpolator.assert_not_called() adjust_clockdrift.assert_called() # Clock drift adjustment disabled self.interpolator.reset_mock() adjust_clockdrift.reset_mock() self.reader.interpolate_coords = True self.reader.adjust_clock_drift = False self.reader.lons = self.reader.lats = None self.reader.get_lonlat() numpy.testing.assert_array_equal(lons, lons_exp) numpy.testing.assert_array_equal(lats, lats_exp) self.interpolator.assert_called() adjust_clockdrift.assert_not_called() # Test caching methods = [ get_lonlat, self.interpolator, adjust_clockdrift, get_corrupt_mask ] for method in methods: method.reset_mock() self.reader.get_lonlat() for method in methods: method.asser_not_called() @mock.patch('pygac.reader.Reader.update_meta_data') @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') @mock.patch('pygac.gac_reader.GACReader._adjust_clock_drift') @mock.patch('pygac.gac_reader.GACReader._get_lonlat') def test_interpolate(self, _get_lonlat, _adjust_clock_drift, _get_corrupt_mask, update_meta_data): """Test interpolate method in get_lonlat.""" self.lons = None self.lats = None lr_lons = 90 * np.random.rand(17, 51) lr_lats = 90 * np.random.rand(17, 51) _get_lonlat.return_value = lr_lons, lr_lats self.interpolate_coors = True self.interpolator.reset_mock() self.interpolator.return_value = (90 * np.random.rand(17, 409), 90 * np.random.rand(17, 409)) lons, lats = self.reader.get_lonlat() self.assertEqual(lons.shape[1], 409) self.interpolator.assert_called_once_with(lr_lons, lr_lats) @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') def test_get_corrupt_mask(self, get_corrupt_mask): """Test common computation of corrupt scanline mask.""" get_corrupt_mask.return_value = [1, 2, 3] self.assertEqual(self.reader.mask, [1, 2, 3]) # Test caching get_corrupt_mask.reset_mock() self.reader.mask get_corrupt_mask.assert_not_called() def test_midnight_scanline(self): """Test midnight scanline computation.""" # Define test cases... # ... midnight scanline exists utcs1 = np.array([-3, -2, -1, 0, 1, 2, 3]).astype('datetime64[ms]') scanline1 = 2 # ... midnight scanline does not exist utcs2 = np.array([1, 2, 3]).astype('datetime64[ms]') scanline2 = None for utcs, scanline in zip((utcs1, utcs2), (scanline1, scanline2)): self.reader.utcs = utcs self.assertEqual(self.reader.get_midnight_scanline(), scanline, msg='Incorrect midnight scanline') def test_miss_lines(self): """Test detection of missing scanlines.""" lines = [2, 4, 5, 6, 10, 11, 12] miss_lines_ref = [1, 3, 7, 8, 9] self.reader.scans = np.zeros(len(lines), dtype=[('scan_line_number', 'i2')]) self.reader.scans['scan_line_number'] = lines miss_lines = self.reader.get_miss_lines() self.assertTrue((miss_lines == miss_lines_ref).all(), msg='Missing scanlines not detected correctly') self.assertEqual(miss_lines.dtype, int) def test_tle2datetime64(self, *mocks): """Test conversion from TLE timestamps to datetime64.""" dates = np.array([70365.1234, 18001.25]) dates64_exp = [ np.datetime64(datetime.datetime(1970, 12, 31, 2, 57, 41, 760000), '[ms]'), np.datetime64(datetime.datetime(2018, 1, 1, 6, 0), '[ms]') ] dates64 = GACReader.tle2datetime64(dates) self.assertTrue(np.all(dates64 == dates64_exp)) @mock.patch('pygac.gac_reader.GACReader.get_times') @mock.patch('pygac.gac_reader.GACReader.get_tle_file') @mock.patch('pygac.gac_reader.GACReader.read_tle_file') def test_get_tle_lines(self, read_tle_file, *mocks): """Test identification of closest TLE lines.""" tle_data = [ '1 38771U 12049A 18363.63219793 -.00000013 00000-0 14176-4 0 9991\r\n', '2 38771 98.7297 60.1350 0002062 95.9284 25.0713 14.21477560325906\r\n', '1 38771U 12049A 18364.62426010 -.00000015 00000-0 13136-4 0 9990\r\n', # 2018-12-30 14:58 '2 38771 98.7295 61.1159 0002062 94.5796 60.2561 14.21477636326047\r\n', '1 38771U 12049A 18364.94649306 -.00000018 00000-0 12040-4 0 9996\r\n', # 2018-12-30 22:42 '2 38771 98.7295 61.4345 0002060 94.1226 268.7521 14.21477633326092\r\n', '1 38771U 12049A 18365.81382142 -.00000015 00000-0 13273-4 0 9991\r\n', '2 38771 98.7294 62.2921 0002057 92.7653 26.0030 14.21477711326215\r\n' ] expected = { datetime.datetime(2018, 12, 20, 12, 0): None, datetime.datetime(2018, 12, 28, 12, 0): 0, datetime.datetime(2018, 12, 30, 16, 0): 2, datetime.datetime(2018, 12, 30, 20, 0): 4, datetime.datetime(2019, 1, 1, 12, 0): 6, datetime.datetime(2019, 1, 8, 12, 0): None } read_tle_file.return_value = tle_data for time, tle_idx in expected.items(): self.reader.utcs = np.array([time], dtype='datetime64[ms]') self.reader.tle_lines = None if tle_idx is None: self.assertRaises(IndexError, self.reader.get_tle_lines) else: tle1, tle2 = self.reader.get_tle_lines() self.assertEqual(tle1, tle_data[tle_idx]) self.assertEqual(tle2, tle_data[tle_idx + 1]) @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') def test_get_angles(self, get_corrupt_mask): """Test get_angles function of the reader.""" # Line: 1, 649, 6198 and 12658 from Tiros-N file (1980-01-03 11:47) lon_i = np.array([69.41555, 152.10587, 164.3131, 67.23855, np.nan])[:, np.newaxis] lat_i = np.array([71.6283, 85.24265, -62.076958, 82.72296, np.nan])[:, np.newaxis] get_corrupt_mask.return_value = np.isnan(lon_i) self.reader.lons = lon_i self.reader.lats = lat_i self.reader.tle_lines = [ '1 11060U 78096A 80003.54792075 .00000937 00000-0 52481-3 0 2588\r\n', # noqa '2 11060 98.9783 332.1605 0012789 88.8047 271.4583 14.11682873 63073\r\n' ] # noqa self.reader.utcs = np.array([ 315748035469, 315748359969, 315751135469, 315754371969, 315754371969 ]).astype('datetime64[ms]') self.reader.spacecrafts_orbital = {25: 'tiros n'} self.reader.spacecraft_id = 25 expected_sat_azi = np.array([-76.90, 11.08, 145.33, -50.01, np.nan])[:, np.newaxis] expected_sun_azi = np.array([-120.36, -31.94, -173.51, -93.67, np.nan])[:, np.newaxis] expected_sat_zenith = np.array([69.05, 69.04, 69.55, 69.07, np.nan])[:, np.newaxis] expected_sun_zenith = np.array([104.30, 116.94, 94.86, 112.60, np.nan])[:, np.newaxis] expected_rel_azi = np.array([43.45, 43.01, 41.16, 43.65, np.nan])[:, np.newaxis] retv = self.reader.get_angles() (sat_azi, sat_zenith, sun_azi, sun_zenith, rel_azi) = retv np.testing.assert_allclose(sat_azi, expected_sat_azi, atol=0.01) np.testing.assert_allclose(sun_azi, expected_sun_azi, atol=0.01) np.testing.assert_allclose(sat_zenith, expected_sat_zenith, atol=0.01) np.testing.assert_allclose(sun_zenith, expected_sun_zenith, atol=0.01) np.testing.assert_allclose(rel_azi, expected_rel_azi, atol=0.01) def test_get_tle_file(self): """Test get_tle_file.""" self.reader.tle_dir = '/tle/dir' self.reader.tle_name = 'tle_%(satname)s.txt' self.reader.spacecraft_name = 'ISS' tle_file = self.reader.get_tle_file() self.assertEqual(tle_file, '/tle/dir/tle_ISS.txt') @mock.patch('pygac.gac_reader.GACReader.get_tsm_pixels') def test_mask_tsm_pixels(self, get_tsm_pixels): """Test masking of pixels affected by the scan motor issue.""" get_tsm_pixels.return_value = ([0, 1], [0, 1]) channels = np.array([[[1., 2., 3.], [1., 2., 3.]], [[1., 2., 3.], [1., 2., 3.]]]) # (lines, pixels, channels) masked_exp = np.array([[[np.nan, np.nan, np.nan], [1., 2., 3.]], [[1., 2., 3.], [np.nan, np.nan, np.nan]]]) self.reader.mask_tsm_pixels(channels) # masks in-place numpy.testing.assert_array_equal(channels, masked_exp) def _get_scanline_numbers(self): """Create artificial scanline numbers with some corruptions. Returns: Corrupted and corrected scanline numbers. """ along_track = 12000 scans = np.zeros(12000, dtype=[("scan_line_number", ">u2")]) scans["scan_line_number"] = np.arange(1, along_track + 1) # ... with 500 missing scanlines at scanline 8000 scans["scan_line_number"][8000:] += 500 corrected = scans["scan_line_number"].copy() # ... and some spikes here and there scans["scan_line_number"][3000] += 1E4 scans["scan_line_number"][9000] -= 1E4 corrected = np.delete(corrected, [3000, 9000]) return scans, corrected def test_correct_scan_line_numbers(self): """Test scanline number correction.""" scans, expected = self._get_scanline_numbers() self.reader.scans = scans self.reader.correct_scan_line_numbers() numpy.testing.assert_array_equal(self.reader.scans['scan_line_number'], expected) @mock.patch('pygac.gac_reader.GACReader.get_header_timestamp') def test_correct_times_thresh(self, get_header_timestamp): """Test correction of scanline timestamps.""" header_time = datetime.datetime(2016, 8, 16, 16, 7, 36) # Create artificial timestamps _, scan_line_numbers = self._get_scanline_numbers() t0 = np.array([header_time], dtype="datetime64[ms]").astype("i8")[0] shift = 1000 msecs = t0 + shift + scan_line_numbers / GACReader.scan_freq utcs_expected = msecs.copy().astype(">M8[ms]") # Add some corruptions msecs[3000:] += 1800 * 1000 msecs[1000] += 24 * 3600 * 1000 msecs[2000] -= 24 * 3600 * 1000 # Mock reader get_header_timestamp.return_value = header_time self.reader.utcs = msecs.astype(">M8[ms]") self.reader.scans = np.array(scan_line_numbers, dtype=[("scan_line_number", ">u2")]) # Test correction self.reader.correct_times_thresh() numpy.testing.assert_array_equal(self.reader.utcs, utcs_expected) def test_calculate_sun_earth_distance_correction(self): """Test the calculate sun earth distance correction method.""" self.reader.utcs = np.array([ 315748035469, 315748359969, 315751135469, 315754371969, 315754371969 ]).astype('datetime64[ms]') corr = self.reader.get_sun_earth_distance_correction() numpy.testing.assert_almost_equal(corr, 0.96660494, decimal=7) @mock.patch('pygac.reader.Reader.get_sun_earth_distance_correction') @mock.patch('pygac.reader.Reader.get_midnight_scanline') @mock.patch('pygac.reader.Reader.get_miss_lines') @mock.patch('pygac.reader.Reader.calibration', new_callable=mock.PropertyMock) def test_update_metadata(self, calibration, get_miss_lines, get_midnight_scanline, get_sun_earth_distance_correction): get_miss_lines.return_value = 'miss_lines' get_midnight_scanline.return_value = 'midn_line' get_sun_earth_distance_correction.return_value = 'factor' self.reader.head = {'foo': 'bar'} calibration.return_value = mock.MagicMock(version='version') self.reader.update_meta_data() mda_exp = { 'midnight_scanline': 'midn_line', 'missing_scanlines': 'miss_lines', 'sun_earth_distance_correction_factor': 'factor', 'gac_header': { 'foo': 'bar' }, 'calib_coeffs_version': 'version' } self.assertDictEqual(self.reader.meta_data, mda_exp)
class TestGacReader(unittest.TestCase): """Test the common GAC Reader.""" longMessage = True @mock.patch.multiple('pygac.gac_reader.GACReader', __abstractmethods__=set()) def setUp(self, *mocks): """Set up the tests.""" self.reader = GACReader() def test_to_datetime64(self): """Test conversion from (year, jday, msec) to datetime64.""" t0 = GACReader.to_datetime64(year=np.array(1970), jday=np.array(1), msec=np.array(0)) self.assertEqual(t0.astype('i8'), 0, msg='Conversion (year, jday, msec) to datetime64 ' 'is not correct') def test_to_datetime(self): """Test conversion from datetime64 to datetime.""" dt = datetime.datetime(2019, 10, 1, 12, 15, 18, 12345) dt64 = np.datetime64(dt) self.assertEqual(self.reader.to_datetime(dt64), dt) def test_lineno2msec(self): """Test scanline timestamp estimation.""" self.assertEqual(self.reader.lineno2msec(12345), 6172000) @mock.patch('pygac.gac_reader.GACReader._get_lonlat') @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') @mock.patch('pygac.gac_reader.GACReader._adjust_clock_drift') @mock.patch('pygac.gac_reader.gtp.Gac_Lat_Lon_Interpolator') def test_get_lonlat(self, interpolator, adjust_clockdrift, get_corrupt_mask, get_lonlat): """Test common lon/lat computation.""" lon_i = np.array([np.nan, 1, 2, 3, -180.1, 180.1]) lat_i = np.array([1, 2, 3, np.nan, -90.1, 90.1]) get_lonlat.return_value = lon_i, lat_i interpolator.return_value = lon_i, lat_i get_corrupt_mask.return_value = np.array( [0, 0, 1, 0, 0, 0], dtype=bool) lons_exp = np.array([np.nan, 1, np.nan, 3., np.nan, np.nan]) lats_exp = np.array([1, 2, np.nan, np.nan, np.nan, np.nan]) # Default lons, lats = self.reader.get_lonlat() get_lonlat.assert_called() adjust_clockdrift.assert_called() numpy.testing.assert_array_equal(lons, lons_exp) numpy.testing.assert_array_equal(lats, lats_exp) # Interpolation disabled interpolator.reset_mock() adjust_clockdrift.reset_mock() self.reader.interpolate_coords = False self.reader.adjust_clock_drift = True self.reader.lons = self.reader.lats = None self.reader.get_lonlat() numpy.testing.assert_array_equal(lons, lons_exp) numpy.testing.assert_array_equal(lats, lats_exp) interpolator.assert_not_called() adjust_clockdrift.assert_called() # Clock drift adjustment disabled interpolator.reset_mock() adjust_clockdrift.reset_mock() self.reader.interpolate_coords = True self.reader.adjust_clock_drift = False self.reader.lons = self.reader.lats = None self.reader.get_lonlat() numpy.testing.assert_array_equal(lons, lons_exp) numpy.testing.assert_array_equal(lats, lats_exp) interpolator.assert_called() adjust_clockdrift.assert_not_called() # Test caching methods = [get_lonlat, interpolator, adjust_clockdrift, get_corrupt_mask] for method in methods: method.reset_mock() self.reader.get_lonlat() for method in methods: method.asser_not_called() @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') @mock.patch('pygac.gac_reader.GACReader._adjust_clock_drift') @mock.patch('pygac.gac_reader.GACReader._get_lonlat') def test_interpolate(self, _get_lonlat, _adjust_clock_drift, _get_corrupt_mask): """Test interpolate method in get_lonlat.""" self.lons = None self.lats = None lons = 90 * np.random.rand(17, 51) lats = 90 * np.random.rand(17, 51) _get_lonlat.return_value = lons, lats self.interpolate_coors = True lons, lats = self.reader.get_lonlat() self.assertEqual(lons.shape[1], 409) @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') def test_get_corrupt_mask(self, get_corrupt_mask): """Test common computation of corrupt scanline mask.""" get_corrupt_mask.return_value = [1, 2, 3] self.assertEqual(self.reader.mask, [1, 2, 3]) # Test caching get_corrupt_mask.reset_mock() self.reader.mask get_corrupt_mask.assert_not_called() def test_midnight_scanline(self): """Test midnight scanline computation.""" # Define test cases... # ... midnight scanline exists utcs1 = np.array([-3, -2, -1, 0, 1, 2, 3]).astype('datetime64[ms]') scanline1 = 2 # ... midnight scanline does not exist utcs2 = np.array([1, 2, 3]).astype('datetime64[ms]') scanline2 = None for utcs, scanline in zip((utcs1, utcs2), (scanline1, scanline2)): self.reader.utcs = utcs self.reader.times = utcs.astype(datetime.datetime) self.assertEqual(self.reader.get_midnight_scanline(), scanline, msg='Incorrect midnight scanline') def test_miss_lines(self): """Test detection of missing scanlines.""" lines = [2, 4, 5, 6, 10, 11, 12] miss_lines_ref = [1, 3, 7, 8, 9] self.reader.scans = np.zeros( len(lines), dtype=[('scan_line_number', 'i2')]) self.reader.scans['scan_line_number'] = lines miss_lines = self.reader.get_miss_lines() self.assertTrue((miss_lines == miss_lines_ref).all(), msg='Missing scanlines not detected correctly') self.assertEqual(miss_lines.dtype, int) def test_tle2datetime64(self, *mocks): """Test conversion from TLE timestamps to datetime64.""" dates = np.array([70365.1234, 18001.25]) dates64_exp = [np.datetime64(datetime.datetime(1970, 12, 31, 2, 57, 41, 760000), '[ms]'), np.datetime64(datetime.datetime(2018, 1, 1, 6, 0), '[ms]')] dates64 = GACReader.tle2datetime64(dates) self.assertTrue(np.all(dates64 == dates64_exp)) @mock.patch('pygac.gac_reader.GACReader.get_times') @mock.patch('pygac.gac_reader.GACReader.get_tle_file') @mock.patch('pygac.gac_reader.GACReader.read_tle_file') def test_get_tle_lines(self, read_tle_file, *mocks): """Test identification of closest TLE lines.""" tle_data = ['1 38771U 12049A 18363.63219793 -.00000013 00000-0 14176-4 0 9991\r\n', '2 38771 98.7297 60.1350 0002062 95.9284 25.0713 14.21477560325906\r\n', '1 38771U 12049A 18364.62426010 -.00000015 00000-0 13136-4 0 9990\r\n', # 2018-12-30 14:58 '2 38771 98.7295 61.1159 0002062 94.5796 60.2561 14.21477636326047\r\n', '1 38771U 12049A 18364.94649306 -.00000018 00000-0 12040-4 0 9996\r\n', # 2018-12-30 22:42 '2 38771 98.7295 61.4345 0002060 94.1226 268.7521 14.21477633326092\r\n', '1 38771U 12049A 18365.81382142 -.00000015 00000-0 13273-4 0 9991\r\n', '2 38771 98.7294 62.2921 0002057 92.7653 26.0030 14.21477711326215\r\n'] expected = { datetime.datetime(2018, 12, 20, 12, 0): None, datetime.datetime(2018, 12, 28, 12, 0): 0, datetime.datetime(2018, 12, 30, 16, 0): 2, datetime.datetime(2018, 12, 30, 20, 0): 4, datetime.datetime(2019, 1, 1, 12, 0): 6, datetime.datetime(2019, 1, 8, 12, 0): None } read_tle_file.return_value = tle_data for time, tle_idx in expected.items(): self.reader.times = [time] self.reader.tle_lines = None if tle_idx is None: self.assertRaises(IndexError, self.reader.get_tle_lines) else: tle1, tle2 = self.reader.get_tle_lines() self.assertEqual(tle1, tle_data[tle_idx]) self.assertEqual(tle2, tle_data[tle_idx + 1]) @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') def test_get_angles(self, get_corrupt_mask): """Test get_angles function of the reader.""" # Line: 1, 649, 6198 and 12658 from Tiros-N file (1980-01-03 11:47) lon_i = np.array( [69.41555, 152.10587, 164.3131, 67.23855, np.nan])[:, np.newaxis] lat_i = np.array( [71.6283, 85.24265, -62.076958, 82.72296, np.nan])[:, np.newaxis] get_corrupt_mask.return_value = np.isnan(lon_i) self.reader.lons = lon_i self.reader.lats = lat_i self.reader.tle_lines = [ '1 11060U 78096A 80003.54792075 .00000937 00000-0 52481-3 0 2588\r\n', # noqa '2 11060 98.9783 332.1605 0012789 88.8047 271.4583 14.11682873 63073\r\n'] # noqa self.reader.utcs = np.array( [315748035469, 315748359969, 315751135469, 315754371969, 315754371969]).astype('datetime64[ms]') self.reader.spacecrafts_orbital = {25: 'tiros n'} self.reader.spacecraft_id = 25 self.reader.times = self.reader.to_datetime(self.reader.utcs) expected_sat_azi = np.array( [-76.90, 11.08, 145.33, -50.01, np.nan])[:, np.newaxis] expected_sun_azi = np.array( [-120.36, -31.94, -173.51, -93.67, np.nan])[:, np.newaxis] expected_sat_zenith = np.array( [69.05, 69.04, 69.55, 69.07, np.nan])[:, np.newaxis] expected_sun_zenith = np.array( [104.30, 116.94, 94.86, 112.60, np.nan])[:, np.newaxis] expected_rel_azi = np.array( [43.45, 43.01, 41.16, 43.65, np.nan])[:, np.newaxis] retv = self.reader.get_angles() (sat_azi, sat_zenith, sun_azi, sun_zenith, rel_azi) = retv np.testing.assert_allclose(sat_azi, expected_sat_azi, atol=0.01) np.testing.assert_allclose(sun_azi, expected_sun_azi, atol=0.01) np.testing.assert_allclose(sat_zenith, expected_sat_zenith, atol=0.01) np.testing.assert_allclose(sun_zenith, expected_sun_zenith, atol=0.01) np.testing.assert_allclose(rel_azi, expected_rel_azi, atol=0.01) @mock.patch('pygac.gac_reader.ConfigParser.ConfigParser.read') @mock.patch('pygac.gac_reader.ConfigParser.ConfigParser.items') def test_get_tle_file(self, items, *mocks): """Test get_tle_file.""" # Use TLE name/dir from config file items.return_value = [('tledir', 'a'), ('tlename', 'b')] tle_file = self.reader.get_tle_file() self.assertEqual(tle_file, 'a/b') # Use TLE name/dir from reader instanciation self.reader.tle_dir = '/tle/dir' self.reader.tle_name = 'tle_%(satname)s.txt' self.reader.spacecraft_name = 'ISS' tle_file = self.reader.get_tle_file() self.assertEqual(tle_file, '/tle/dir/tle_ISS.txt') @mock.patch('pygac.gac_reader.GACReader.get_tsm_pixels') def test_mask_tsm_pixels(self, get_tsm_pixels): """Test masking of pixels affected by the scan motor issue.""" get_tsm_pixels.return_value = ([0, 1], [0, 1]) channels = np.array([[[1., 2., 3.], [1., 2., 3.]], [[1., 2., 3.], [1., 2., 3.]]]) # (lines, pixels, channels) masked_exp = np.array([[[np.nan, np.nan, np.nan], [1., 2., 3.]], [[1., 2., 3.], [np.nan, np.nan, np.nan]]]) self.reader.mask_tsm_pixels(channels) # masks in-place numpy.testing.assert_array_equal(channels, masked_exp) def _get_scanline_numbers(self): """Create artificial scanline numbers with some corruptions. Returns: Corrupted and corrected scanline numbers. """ along_track = 12000 scans = np.zeros(12000, dtype=[("scan_line_number", ">u2")]) scans["scan_line_number"] = np.arange(1, along_track+1) # ... with 500 missing scanlines at scanline 8000 scans["scan_line_number"][8000:] += 500 corrected = scans["scan_line_number"].copy() # ... and some spikes here and there scans["scan_line_number"][3000] += 1E4 scans["scan_line_number"][9000] -= 1E4 corrected = np.delete(corrected, [3000, 9000]) return scans, corrected def test_correct_scan_line_numbers(self): """Test scanline number correction.""" scans, expected = self._get_scanline_numbers() self.reader.scans = scans self.reader.correct_scan_line_numbers() numpy.testing.assert_array_equal(self.reader.scans['scan_line_number'], expected) @mock.patch('pygac.gac_reader.GACReader.get_header_timestamp') def test_correct_times_thresh(self, get_header_timestamp): """Test correction of scanline timestamps.""" header_time = datetime.datetime(2016, 8, 16, 16, 7, 36) # Create artificial timestamps _, scan_line_numbers = self._get_scanline_numbers() t0 = np.array([header_time], dtype="datetime64[ms]").astype("i8")[0] shift = 1000 msecs = t0 + shift + scan_line_numbers / GACReader.scan_freq utcs_expected = msecs.copy().astype(">M8[ms]") # Add some corruptions msecs[3000:] += 1800 * 1000 msecs[1000] += 24*3600*1000 msecs[2000] -= 24*3600*1000 # Mock reader get_header_timestamp.return_value = header_time self.reader.utcs = msecs.astype(">M8[ms]") self.reader.scans = np.array(scan_line_numbers, dtype=[("scan_line_number", ">u2")]) # Test correction self.reader.correct_times_thresh() numpy.testing.assert_array_equal(self.reader.utcs, utcs_expected)
class TestGacReader(unittest.TestCase): """Test the common GAC Reader.""" longMessage = True @mock.patch.multiple('pygac.gac_reader.GACReader', __abstractmethods__=set()) @mock.patch('pygac.gac_reader.gtp.gac_lat_lon_interpolator') def setUp(self, interpolator, *mocks): """Set up the tests.""" self.interpolator = interpolator self.reader = GACReader() # python 2 compatibility if sys.version_info.major < 3: self.assertRaisesRegex = self.assertRaisesRegexp def test_filename(self): """Test the setter of the filename property.""" # test path with .gz extension filename = 'NSS.GHRR.TN.D80001.S0332.E0526.B0627173.WI' filepath = '/path/to/' + filename + '.gz' self.reader.filename = filepath self.assertEqual(self.reader.filename, filename) self.reader.filename = None self.assertIsNone(self.reader.filename) self.reader.filename = TestPath(filepath) self.assertEqual(self.reader.filename, filename) @unittest.skipIf(sys.version_info.major < 3, "Skipped in python2!") def test__read_scanlines(self): """Test the scanline extraction.""" self.reader.scanline_type = np.dtype([('a', 'S2'), ('b', '<i4')]) # request more scan lines than available with self.assertWarnsRegex(RuntimeWarning, "Unexpected number of scanlines!"): buffer = (b'a\x00\x01\x00\x00\x00' b'b\x00\x02\x00\x00\x00' b'c\x00\x03\x00\x00\x00') count = 4 self.reader._read_scanlines(buffer, count) # check the output first_line = self.reader.scans[0] self.assertEqual(first_line['a'], b'a') self.assertEqual(first_line['b'], 1) def test__validate_header(self): """Test the header validation.""" # wrong name pattern with self.assertRaisesRegex(ReaderError, 'Data set name .* does not match!'): head = {'data_set_name': b'abc.txt'} self.reader._validate_header(head) # Unicode errors are now caught with the same exception. with self.assertRaisesRegex(ReaderError, 'Data set name .* does not match!'): head = {'data_set_name': b'\xea\xf8'} self.reader._validate_header(head) def test__correct_data_set_name(self): """Test the data_set_name correction in file header.""" val_filename = 'NSS.GHRR.TN.D80001.S0332.E0526.B0627173.WI' val_filepath = 'path/to/' + val_filename val_head = { 'data_set_name': b'NSS.GHRR.TN.D80001.S0332.E0526.B0627173.WI' } inv_filename = 'InvalidFileName' inv_filepath = 'path/to/' + inv_filename inv_head = {'data_set_name': b'InvalidDataSetName'} # Note: always pass a copy to _correct_data_set_name, because # the input header is modified in place. # enter a valid data_set_name and filepath head = self.reader._correct_data_set_name(val_head.copy(), val_filepath) # enter an invalid data_set_name, but valid filepath head = self.reader._correct_data_set_name(inv_head.copy(), val_filepath) self.assertEqual(head['data_set_name'], val_filename.encode()) # enter an invalid data_set_name, and invalid filepath with self.assertRaisesRegex(ReaderError, 'Cannot determine data_set_name!'): head = self.reader._correct_data_set_name(inv_head.copy(), inv_filepath) # enter a valid data_set_name, and an invalid filepath # should be fine, because the data_set_name is the pefered source head = self.reader._correct_data_set_name(val_head.copy(), inv_filepath) self.assertEqual(head['data_set_name'], val_head['data_set_name']) # enter a valid data_set_name, and an FSFile/pathlib object as filepath fs_filepath = TestPath(val_filepath) head = self.reader._correct_data_set_name(val_head.copy(), fs_filepath) self.assertEqual(head['data_set_name'], val_filename.encode()) @mock.patch('pygac.reader.Reader.get_calibrated_channels') def test__get_calibrated_channels_uniform_shape(self, get_channels): """Test the uniform shape as required by gac_io.save_gac.""" # check if it raises the assertion error channels = np.arange(2 * 2 * 5, dtype=float).reshape((2, 2, 5)) get_channels.return_value = channels with self.assertRaises(AssertionError): self.reader._get_calibrated_channels_uniform_shape() def test_get_calibrated_channels(self): reader = FakeGACReader() res = reader.get_calibrated_channels() expected = np.full( ( FakeGACReader.along_track, FakeGACReader.across_track, 5 # number of channels ), np.nan) expected[:, 1, 0] = 8.84714652 expected[:, 2, 1] = 10.23511303 np.testing.assert_allclose(res, expected) def test_to_datetime64(self): """Test conversion from (year, jday, msec) to datetime64.""" t0 = GACReader.to_datetime64(year=np.array(1970), jday=np.array(1), msec=np.array(0)) self.assertEqual(t0.astype('i8'), 0, msg='Conversion (year, jday, msec) to datetime64 ' 'is not correct') def test_to_datetime(self): """Test conversion from datetime64 to datetime.""" dt = datetime.datetime(2019, 10, 1, 12, 15, 18, 12345) dt64 = np.datetime64(dt) self.assertEqual(self.reader.to_datetime(dt64), dt) def test_lineno2msec(self): """Test scanline timestamp estimation.""" self.assertEqual(self.reader.lineno2msec(12345), 6172000) @mock.patch('pygac.reader.Reader.update_meta_data') @mock.patch('pygac.gac_reader.GACReader._get_lonlat') @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') @mock.patch('pygac.gac_reader.GACReader._adjust_clock_drift') def test_get_lonlat(self, adjust_clockdrift, get_corrupt_mask, get_lonlat, update_meta_data): """Test common lon/lat computation.""" lon_i = np.array([np.nan, 1, 2, 3, -180.1, 180.1]) lat_i = np.array([1, 2, 3, np.nan, -90.1, 90.1]) get_lonlat.return_value = lon_i, lat_i self.interpolator.return_value = lon_i, lat_i get_corrupt_mask.return_value = np.array([0, 0, 1, 0, 0, 0], dtype=bool) lons_exp = np.array([np.nan, 1, np.nan, 3., np.nan, np.nan]) lats_exp = np.array([1, 2, np.nan, np.nan, np.nan, np.nan]) # Default lons, lats = self.reader.get_lonlat() get_lonlat.assert_called() update_meta_data.assert_called() adjust_clockdrift.assert_called() numpy.testing.assert_array_equal(lons, lons_exp) numpy.testing.assert_array_equal(lats, lats_exp) # Interpolation disabled self.interpolator.reset_mock() adjust_clockdrift.reset_mock() self.reader.interpolate_coords = False self.reader.adjust_clock_drift = True self.reader.lons = self.reader.lats = None self.reader.get_lonlat() numpy.testing.assert_array_equal(lons, lons_exp) numpy.testing.assert_array_equal(lats, lats_exp) self.interpolator.assert_not_called() adjust_clockdrift.assert_called() # Clock drift adjustment disabled self.interpolator.reset_mock() adjust_clockdrift.reset_mock() self.reader.interpolate_coords = True self.reader.adjust_clock_drift = False self.reader.lons = self.reader.lats = None self.reader.get_lonlat() numpy.testing.assert_array_equal(lons, lons_exp) numpy.testing.assert_array_equal(lats, lats_exp) self.interpolator.assert_called() adjust_clockdrift.assert_not_called() # Test caching methods = [ get_lonlat, self.interpolator, adjust_clockdrift, get_corrupt_mask ] for method in methods: method.reset_mock() self.reader.get_lonlat() for method in methods: method.asser_not_called() @mock.patch('pygac.reader.Reader.update_meta_data') @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') @mock.patch('pygac.gac_reader.GACReader._adjust_clock_drift') @mock.patch('pygac.gac_reader.GACReader._get_lonlat') def test_interpolate(self, _get_lonlat, _adjust_clock_drift, _get_corrupt_mask, update_meta_data): """Test interpolate method in get_lonlat.""" self.lons = None self.lats = None lr_lons = 90 * np.random.rand(17, 51) lr_lats = 90 * np.random.rand(17, 51) _get_lonlat.return_value = lr_lons, lr_lats self.interpolate_coors = True self.interpolator.reset_mock() self.interpolator.return_value = (90 * np.random.rand(17, 409), 90 * np.random.rand(17, 409)) lons, lats = self.reader.get_lonlat() self.assertEqual(lons.shape[1], 409) self.interpolator.assert_called_once_with(lr_lons, lr_lats) @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') def test_get_corrupt_mask(self, get_corrupt_mask): """Test common computation of corrupt scanline mask.""" get_corrupt_mask.return_value = [1, 2, 3] self.assertEqual(self.reader.mask, [1, 2, 3]) # Test caching get_corrupt_mask.reset_mock() self.reader.mask get_corrupt_mask.assert_not_called() def test_midnight_scanline(self): """Test midnight scanline computation.""" # Define test cases... # ... midnight scanline exists utcs1 = np.array([-3, -2, -1, 0, 1, 2, 3]).astype('datetime64[ms]') scanline1 = 2 # ... midnight scanline does not exist utcs2 = np.array([1, 2, 3]).astype('datetime64[ms]') scanline2 = None for utcs, scanline in zip((utcs1, utcs2), (scanline1, scanline2)): self.reader.utcs = utcs self.assertEqual(self.reader.get_midnight_scanline(), scanline, msg='Incorrect midnight scanline') def test_miss_lines(self): """Test detection of missing scanlines.""" lines = [2, 4, 5, 6, 10, 11, 12] miss_lines_ref = [1, 3, 7, 8, 9] self.reader.scans = np.zeros(len(lines), dtype=[('scan_line_number', 'i2')]) self.reader.scans['scan_line_number'] = lines miss_lines = self.reader.get_miss_lines() self.assertTrue((miss_lines == miss_lines_ref).all(), msg='Missing scanlines not detected correctly') self.assertEqual(miss_lines.dtype, int) def test_tle2datetime64(self, *mocks): """Test conversion from TLE timestamps to datetime64.""" dates = np.array([70365.1234, 18001.25]) dates64_exp = [ np.datetime64(datetime.datetime(1970, 12, 31, 2, 57, 41, 760000), '[ms]'), np.datetime64(datetime.datetime(2018, 1, 1, 6, 0), '[ms]') ] dates64 = GACReader.tle2datetime64(dates) self.assertTrue(np.all(dates64 == dates64_exp)) @mock.patch('pygac.gac_reader.GACReader.get_times') @mock.patch('pygac.gac_reader.GACReader.get_tle_file') @mock.patch('pygac.gac_reader.GACReader.read_tle_file') def test_get_tle_lines(self, read_tle_file, *mocks): """Test identification of closest TLE lines.""" tle_data = [ '1 38771U 12049A 18363.63219793 -.00000013 00000-0 14176-4 0 9991\r\n', '2 38771 98.7297 60.1350 0002062 95.9284 25.0713 14.21477560325906\r\n', '1 38771U 12049A 18364.62426010 -.00000015 00000-0 13136-4 0 9990\r\n', # 2018-12-30 14:58 '2 38771 98.7295 61.1159 0002062 94.5796 60.2561 14.21477636326047\r\n', '1 38771U 12049A 18364.94649306 -.00000018 00000-0 12040-4 0 9996\r\n', # 2018-12-30 22:42 '2 38771 98.7295 61.4345 0002060 94.1226 268.7521 14.21477633326092\r\n', '1 38771U 12049A 18365.81382142 -.00000015 00000-0 13273-4 0 9991\r\n', '2 38771 98.7294 62.2921 0002057 92.7653 26.0030 14.21477711326215\r\n' ] expected = { datetime.datetime(2018, 12, 20, 12, 0): None, datetime.datetime(2018, 12, 28, 12, 0): 0, datetime.datetime(2018, 12, 30, 16, 0): 2, datetime.datetime(2018, 12, 30, 20, 0): 4, datetime.datetime(2019, 1, 1, 12, 0): 6, datetime.datetime(2019, 1, 8, 12, 0): None } read_tle_file.return_value = tle_data for time, tle_idx in expected.items(): self.reader.utcs = np.array([time], dtype='datetime64[ms]') self.reader.tle_lines = None if tle_idx is None: self.assertRaises(NoTLEData, self.reader.get_tle_lines) else: tle1, tle2 = self.reader.get_tle_lines() self.assertEqual(tle1, tle_data[tle_idx]) self.assertEqual(tle2, tle_data[tle_idx + 1]) @mock.patch('pygac.reader.Reader.get_tle_lines') def test_get_sat_angles_without_tle_at_nadir(self, get_tle_lines): """Test that the get satellite angles without tle at nadir.""" get_tle_lines.side_effect = NoTLEData('No TLE data available') rng = np.random.RandomState(125) self.reader.lons = rng.rand(100, 409) * 90 self.reader.lats = rng.rand(100, 409) * 90 self.reader.utcs = np.array([ numpy.datetime64(datetime.datetime(1980, 1, 3, 11, 47, 15, 469000)) for date in range(100) ]) sat_azi, sat_elev = self.reader.get_sat_angles() self.assertEqual(np.sum(np.isnan(sat_elev)), 0) np.testing.assert_allclose(sat_elev[:, 204], 90., atol=0.01) @mock.patch('pygac.reader.Reader.get_tle_lines') def test_get_sat_angles_without_tle(self, get_tle_lines): """Test the get satellite angles without tle.""" get_tle_lines.side_effect = NoTLEData('No TLE data available') # Test data correspond to columns 0:2, 201:208 and 407:409. Extracted like this: # self.lons[0:5, [0, 1, 201, 202, 203, 204, 205, 206, 207, -2, -1]] self.reader.lons = np.array( [[ 69.41555135, 68.76815744, 28.04133742, 27.94671757, 27.85220562, 27.7578125, 27.66354783, 27.5694182, 27.47542957, 2.66416611, 2.39739436 ], [ 69.41409536, 68.76979616, 28.00228658, 27.9076628, 27.8131467, 27.71875, 27.62448295, 27.53035209, 27.43636312, 2.61727408, 2.35049275 ], [ 69.42987929, 68.78543423, 27.96407251, 27.86936406, 27.77457923, 27.6796875, 27.58467527, 27.48959853, 27.39453053, 2.5704025, 2.30362323 ], [ 69.44430772, 68.80064104, 27.91910034, 27.82340242, 27.72794715, 27.6328125, 27.53805662, 27.44366144, 27.34959008, 2.53088093, 2.26729486 ], [ 69.47408815, 68.8259859, 27.87666513, 27.78224611, 27.68795045, 27.59375, 27.49962326, 27.40557682, 27.31162435, 2.48359319, 2.21976689 ]]) self.reader.lats = np.array( [[ 71.62830288, 71.67081539, 69.90976034, 69.89297223, 69.87616536, 69.859375, 69.84262997, 69.82593315, 69.80928089, 61.61334632, 61.466097 ], [ 71.65222644, 71.69455292, 69.9331981, 69.91640991, 69.89960295, 69.8828125, 69.86606741, 69.84937054, 69.83271828, 61.62903602, 61.48182119 ], [ 71.68324681, 71.7256586, 69.96444365, 69.94765637, 69.93085095, 69.9140625, 69.89731955, 69.8806245, 69.86397337, 61.65247459, 61.50526043 ], [ 71.71489701, 71.75715746, 69.98789144, 69.97110185, 69.9542928, 69.9375, 69.92075278, 69.90405431, 69.88740114, 61.66489162, 61.51597801 ], [ 71.7390608, 71.78108857, 70.01126173, 69.99449392, 69.97770882, 69.9609375, 69.9442054, 69.92751555, 69.91086544, 61.67769951, 61.52802445 ]]) self.reader.utcs = np.array([ numpy.datetime64(datetime.datetime(1980, 1, 3, 11, 47, 15, 469000)), numpy.datetime64(datetime.datetime(1980, 1, 3, 11, 47, 15, 969000)), numpy.datetime64(datetime.datetime(1980, 1, 3, 11, 47, 16, 469000)), numpy.datetime64(datetime.datetime(1980, 1, 3, 11, 47, 16, 969000)), numpy.datetime64(datetime.datetime(1980, 1, 3, 11, 47, 17, 469000)) ]) expected_sat_azi_0 = np.array([ 283.09872924, 283.12775589, 283.13951497, 283.14786413, 283.19638805 ]) expected_sat_azi_201 = np.array([ 272.85051989, 273.79847634, 272.04794616, 273.01363377, 274.00055397 ]) expected_sat_azi_408 = np.array( [39.77021472, 39.71516966, 39.68104134, 39.60503726, 39.5403431]) expected_sat_elev_0 = np.array( [20.94889204, 20.96041284, 20.96368521, 20.96826309, 20.95849212]) expected_sat_elev_204 = np.array( [89.24533884, 89.22663677, 89.25079817, 89.24938043, 89.23004118]) sat_azi, sat_elev = self.reader.get_sat_angles() np.testing.assert_allclose(sat_azi[:, 0], expected_sat_azi_0, atol=1.0) np.testing.assert_allclose(sat_azi[:, 2], expected_sat_azi_201, atol=35.0) # Azi bad close to center! np.testing.assert_allclose(sat_azi[:, -1], expected_sat_azi_408, atol=1.0) np.testing.assert_allclose(sat_elev[:, 0], expected_sat_elev_0, atol=1.0) np.testing.assert_allclose(sat_elev[:, 5], expected_sat_elev_204, atol=1.0) @mock.patch('pygac.gac_reader.GACReader._get_corrupt_mask') def test_get_angles(self, get_corrupt_mask): """Test get_angles function of the reader.""" # Line: 1, 649, 6198 and 12658 from Tiros-N file (1980-01-03 11:47) lon_i = np.array([69.41555, 152.10587, 164.3131, 67.23855, np.nan])[:, np.newaxis] lat_i = np.array([71.6283, 85.24265, -62.076958, 82.72296, np.nan])[:, np.newaxis] get_corrupt_mask.return_value = np.isnan(lon_i) self.reader.lons = lon_i self.reader.lats = lat_i self.reader.tle_lines = [ '1 11060U 78096A 80003.54792075 .00000937 00000-0 52481-3 0 2588\r\n', # noqa '2 11060 98.9783 332.1605 0012789 88.8047 271.4583 14.11682873 63073\r\n' ] # noqa self.reader.utcs = np.array([ 315748035469, 315748359969, 315751135469, 315754371969, 315754371969 ]).astype('datetime64[ms]') self.reader.spacecrafts_orbital = {25: 'tiros n'} self.reader.spacecraft_id = 25 expected_sat_azi = np.array([-76.90, 11.08, 145.33, -50.01, np.nan])[:, np.newaxis] expected_sun_azi = np.array([-120.36, -31.94, -173.51, -93.67, np.nan])[:, np.newaxis] expected_sat_zenith = np.array([69.05, 69.04, 69.55, 69.07, np.nan])[:, np.newaxis] expected_sun_zenith = np.array([104.30, 116.94, 94.86, 112.60, np.nan])[:, np.newaxis] expected_rel_azi = np.array([43.45, 43.01, 41.16, 43.65, np.nan])[:, np.newaxis] retv = self.reader.get_angles() (sat_azi, sat_zenith, sun_azi, sun_zenith, rel_azi) = retv np.testing.assert_allclose(sat_azi, expected_sat_azi, atol=0.01) np.testing.assert_allclose(sun_azi, expected_sun_azi, atol=0.01) np.testing.assert_allclose(sat_zenith, expected_sat_zenith, atol=0.01) np.testing.assert_allclose(sun_zenith, expected_sun_zenith, atol=0.01) np.testing.assert_allclose(rel_azi, expected_rel_azi, atol=0.01) def test_get_tle_file(self): """Test get_tle_file.""" self.reader.tle_dir = '/tle/dir' self.reader.tle_name = 'tle_%(satname)s.txt' self.reader.spacecraft_name = 'ISS' tle_file = self.reader.get_tle_file() self.assertEqual(tle_file, '/tle/dir/tle_ISS.txt') @mock.patch('pygac.gac_reader.GACReader.get_tsm_pixels') def test_mask_tsm_pixels(self, get_tsm_pixels): """Test masking of pixels affected by the scan motor issue.""" get_tsm_pixels.return_value = ([0, 1], [0, 1]) channels = np.array([[[1., 2., 3.], [1., 2., 3.]], [[1., 2., 3.], [1., 2., 3.]]]) # (lines, pixels, channels) masked_exp = np.array([[[np.nan, np.nan, np.nan], [1., 2., 3.]], [[1., 2., 3.], [np.nan, np.nan, np.nan]]]) self.reader.mask_tsm_pixels(channels) # masks in-place numpy.testing.assert_array_equal(channels, masked_exp) def _get_scanline_numbers(self): """Create artificial scanline numbers with some corruptions. Returns: Corrupted and corrected scanline numbers. """ along_track = 12000 scans = np.zeros(12000, dtype=[("scan_line_number", ">u2")]) scans["scan_line_number"] = np.arange(1, along_track + 1) # ... with 500 missing scanlines at scanline 8000 scans["scan_line_number"][8000:] += 500 corrected = scans["scan_line_number"].copy() # ... and some spikes here and there scans["scan_line_number"][3000] += 1E4 scans["scan_line_number"][9000] -= 1E4 corrected = np.delete(corrected, [3000, 9000]) return scans, corrected def test_correct_scan_line_numbers(self): """Test scanline number correction.""" scans, expected = self._get_scanline_numbers() self.reader.scans = scans self.reader.correct_scan_line_numbers() numpy.testing.assert_array_equal(self.reader.scans['scan_line_number'], expected) @mock.patch('pygac.gac_reader.GACReader.get_header_timestamp') def test_correct_times_thresh(self, get_header_timestamp): """Test correction of scanline timestamps.""" header_time = datetime.datetime(2016, 8, 16, 16, 7, 36) # Create artificial timestamps _, scan_line_numbers = self._get_scanline_numbers() t0 = np.array([header_time], dtype="datetime64[ms]").astype("i8")[0] shift = 1000 msecs = t0 + shift + scan_line_numbers / GACReader.scan_freq utcs_expected = msecs.copy().astype(">M8[ms]") # Add some corruptions msecs[3000:] += 1800 * 1000 msecs[1000] += 24 * 3600 * 1000 msecs[2000] -= 24 * 3600 * 1000 # Mock reader get_header_timestamp.return_value = header_time self.reader.utcs = msecs.astype(">M8[ms]") self.reader.scans = np.array(scan_line_numbers, dtype=[("scan_line_number", ">u2")]) # Test correction self.reader.correct_times_thresh() numpy.testing.assert_array_equal(self.reader.utcs, utcs_expected) def test_calculate_sun_earth_distance_correction(self): """Test the calculate sun earth distance correction method.""" self.reader.utcs = np.array([ 315748035469, 315748359969, 315751135469, 315754371969, 315754371969 ]).astype('datetime64[ms]') corr = self.reader.get_sun_earth_distance_correction() numpy.testing.assert_almost_equal(corr, 0.96660494, decimal=7) @mock.patch('pygac.reader.Reader.get_sun_earth_distance_correction') @mock.patch('pygac.reader.Reader.get_midnight_scanline') @mock.patch('pygac.reader.Reader.get_miss_lines') @mock.patch('pygac.reader.Reader.calibration', new_callable=mock.PropertyMock) def test_update_metadata(self, calibration, get_miss_lines, get_midnight_scanline, get_sun_earth_distance_correction): get_miss_lines.return_value = 'miss_lines' get_midnight_scanline.return_value = 'midn_line' get_sun_earth_distance_correction.return_value = 'factor' self.reader.head = {'foo': 'bar'} calibration.return_value = mock.MagicMock(version='version') self.reader.update_meta_data() mda_exp = { 'midnight_scanline': 'midn_line', 'missing_scanlines': 'miss_lines', 'sun_earth_distance_correction_factor': 'factor', 'gac_header': { 'foo': 'bar' }, 'calib_coeffs_version': 'version' } self.assertDictEqual(self.reader.meta_data, mda_exp)