Ejemplo n.º 1
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def test_convert_datetime_date():
    lat_1, lon_1, alt_1 = aacgmv2.convert(60, 0, 300, dt.date(2013, 12, 1))
    lat_2, lon_2, alt_2 = aacgmv2.convert(60, 0, 300,
                                          dt.datetime(2013, 12, 1, 0, 0, 0))
    assert lat_1 == lat_2
    assert lon_1 == lon_2
    assert alt_1 == alt_2
Ejemplo n.º 2
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def test_exception_maxalt():
    with pytest.raises(ValueError):
        aacgmv2.convert(60, 0, 2001, dtObj)
    with pytest.raises(ValueError):
        aacgmv2.convert(60, 0, [300, 2001], dtObj)

    # the following should not raise exceptions
    aacgmv2.convert(60, 0, 2001, dtObj, trace=True)
    aacgmv2.convert(60, 0, 2001, dtObj, allowtrace=True)
    aacgmv2.convert(60, 0, 2001, dtObj, badidea=True)
Ejemplo n.º 3
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def test_convert_result_values_geocentric():
    lat_p, lon_p, alt_p = aacgmv2.convert(60, 0, 300, dtObj, geocentric=True)
    aacgmv2._aacgmv2.setDateTime(*date)
    lat_c, lon_c, alt_c = aacgmv2._aacgmv2.aacgmConvert(60, 0, 300, GEOCENTRIC)
    assert lat_p == lat_c
    assert lon_p == lon_c
    assert alt_p == alt_c
Ejemplo n.º 4
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def test_convert_result_values_A2G_coeff():
    lat_p, lon_p, alt_p = aacgmv2.convert(60, 0, 300, dtObj, a2g=True)
    aacgmv2._aacgmv2.setDateTime(*date)
    lat_c, lon_c, alt_c = aacgmv2._aacgmv2.aacgmConvert(60, 0, 300, A2G)
    assert lat_p == lat_c
    assert lon_p == lon_c
    assert alt_p == alt_c
Ejemplo n.º 5
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def test_convert_result_values_G2A_trace():
    lat_p, lon_p, alt_p = aacgmv2.convert(60, 0, 300, dtObj, trace=True)
    aacgmv2._aacgmv2.setDateTime(*date)
    lat_c, lon_c, alt_c = aacgmv2._aacgmv2.aacgmConvert(
        60, 0, 300, G2A | TRACE)
    assert lat_p == lat_c
    assert lon_p == lon_c
    assert alt_p == alt_c
Ejemplo n.º 6
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def test_convert_result_values_badidea():
    lat, lon, alt = aacgmv2.convert(60, 0, [300, 5000], dtObj, badidea=True)
    aacgmv2._aacgmv2.setDateTime(*date)
    np.testing.assert_allclose(
        (lat[0], lon[0], alt[0]),
        aacgmv2._aacgmv2.aacgmConvert(60, 0, 300, BADIDEA),
        rtol=1e-5)
    np.testing.assert_allclose(
        (lat[1], lon[1], alt[1]),
        aacgmv2._aacgmv2.aacgmConvert(60, 0, 5000, BADIDEA),
        rtol=1e-5)
Ejemplo n.º 7
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def test_convert_result_values_allowtrace():
    lat, lon, alt = aacgmv2.convert(60, 0, [300, 5000], dtObj, allowtrace=True)
    aacgmv2._aacgmv2.setDateTime(*date)
    np.testing.assert_allclose(
        (lat[0], lon[0], alt[0]),
        aacgmv2._aacgmv2.aacgmConvert(60, 0, 300, ALLOWTRACE),
        rtol=1e-5)
    np.testing.assert_allclose(
        (lat[1], lon[1], alt[1]),
        aacgmv2._aacgmv2.aacgmConvert(60, 0, 5000, ALLOWTRACE),
        rtol=1e-5)
Ejemplo n.º 8
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def test_output_type():
    lat, lon, alt = aacgmv2.convert(60, 0, 300, dtObj)
    print(type(lat))
    print(lat.shape)
    print(lat.size)
    assert isinstance(lat, np.ndarray)
    assert isinstance(lon, np.ndarray)
    assert isinstance(alt, np.ndarray)

    lat, lon, alt = aacgmv2.convert([60], [0], [300], dtObj)
    assert isinstance(lat, np.ndarray)
    assert isinstance(lon, np.ndarray)
    assert isinstance(alt, np.ndarray)

    lat, lon, alt = aacgmv2.convert([60, 61], [0, 0], [300, 300], dtObj)
    assert isinstance(lat, np.ndarray)
    assert isinstance(lon, np.ndarray)
    assert isinstance(alt, np.ndarray)

    lat, lon, alt = aacgmv2.convert([60, 61, 62], 0, 300, dtObj)
    assert isinstance(lat, np.ndarray)
    assert isinstance(lon, np.ndarray)
    assert isinstance(alt, np.ndarray)

    lat, lon, alt = aacgmv2.convert(np.array([60, 61, 62]), 0, 300, dtObj)
    assert isinstance(lat, np.ndarray)
    assert isinstance(lon, np.ndarray)
    assert isinstance(alt, np.ndarray)

    lat, lon, alt = aacgmv2.convert(np.array([[60, 61, 62], [63, 64, 65]]), 0,
                                    300, dtObj)
    assert isinstance(lat, np.ndarray)
    assert isinstance(lon, np.ndarray)
    assert isinstance(alt, np.ndarray)
Ejemplo n.º 9
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def main():
    '''Entry point for the script'''

    parser = argparse.ArgumentParser(description='Converts between geographical coordinates, AACGM-v2, and MLT')

    subparsers = parser.add_subparsers(title='Subcommands', prog='aacgmv2', dest='subcommand',
                                       description='for help, run %(prog)s SUBCOMMAND -h')
    subparsers.required = True
    parser_convert = subparsers.add_parser('convert', help=('convert to/from geomagnetic coordinates. Input file must '
                                                            'have lines of the form "LAT LON ALT".'))
    parser_convert_mlt = subparsers.add_parser('convert_mlt', help=('convert between magnetic local time (MLT) and '
                                                                    'AACGM-v2 longitude. Input file must have a single '
                                                                    'number on each line.'))

    for p in [parser_convert, parser_convert_mlt]:
        p.add_argument('-i', '--input', dest='file_in', metavar='FILE_IN', type=argparse.FileType('r'),
                       default=STDIN, help='input file (stdin if none specified)')
        p.add_argument('-o', '--output', dest='file_out', metavar='FILE_OUT', type=argparse.FileType('wb'),
                       default=STDOUT, help='output file (stdout if none specified)')

    parser_convert.add_argument('-d', '--date', dest='date', metavar='YYYYMMDD',
                                help='date for magnetic field model (1900-2020, default: today)')
    parser_convert.add_argument('-v', '--a2g', dest='a2g', action='store_true', default=False,
                                help='invert - convert AACGM to geographic instead of geographic to AACGM')
    parser_convert.add_argument('-t', '--trace', dest='trace', action='store_true', default=False,
                                help='use field-line tracing instead of coefficients')
    parser_convert.add_argument('-a', '--allowtrace', dest='allowtrace', action='store_true', default=False,
                                help='automatically use field-line tracing above 2000 km')
    parser_convert.add_argument('-b', '--badidea', dest='badidea', action='store_true', default=False,
                                help='allow use of coefficients above 2000 km (bad idea!)')
    parser_convert.add_argument('-g', '--geocentric', dest='geocentric', action='store_true', default=False,
                                help='assume inputs are geocentric with Earth radius 6371.2 km')

    parser_convert_mlt.add_argument('datetime', metavar='YYYYMMDDHHMMSS', help='date and time for conversion')
    parser_convert_mlt.add_argument('-v', '--m2a', dest='m2a', action='store_true', default=False,
                                    help='invert - convert MLT to AACGM longitude instead of AACGM longitude to MLT')

    args = parser.parse_args()

    array = np.loadtxt(args.file_in, ndmin=2)

    if args.subcommand == 'convert':
        date = dt.date.today() if args.date is None else dt.datetime.strptime(args.date, '%Y%m%d')
        lats, lons, alts = aacgmv2.convert(array[:, 0], array[:, 1], array[:, 2], date=date, a2g=args.a2g, trace=args.trace,
                                           allowtrace=args.allowtrace, badidea=args.badidea, geocentric=args.geocentric)
        with args.file_out as f:
            np.savetxt(f, np.column_stack((lats, lons, alts)), fmt='%.8f')
    elif args.subcommand == 'convert_mlt':
        datetime = dt.datetime.strptime(args.datetime, '%Y%m%d%H%M%S')
        out = aacgmv2.convert_mlt(array, datetime, m2a=args.m2a)
        with args.file_out as f:
            np.savetxt(f, out, fmt='%.8f')
Ejemplo n.º 10
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def test_output_shape_size():
    lat, lon, alt = aacgmv2.convert(60, 0, 300, dtObj)
    assert lat.shape == tuple()
    assert lon.shape == tuple()
    assert alt.shape == tuple()
    assert lat.size == 1
    assert lon.size == 1
    assert alt.size == 1

    lat, lon, alt = aacgmv2.convert([60], [0], [300], dtObj)
    assert lat.shape == (1, )
    assert lon.shape == (1, )
    assert alt.shape == (1, )
    assert lat.size == 1
    assert lon.size == 1
    assert alt.size == 1

    lat, lon, alt = aacgmv2.convert([60, 61], [0, 0], [300, 300], dtObj)
    assert lat.shape == (2, )
    assert lon.shape == (2, )
    assert alt.shape == (2, )
    assert lat.size == 2
    assert lon.size == 2
    assert alt.size == 2

    lat, lon, alt = aacgmv2.convert([60, 61, 62], 0, 300, dtObj)
    assert lat.shape == (3, )
    assert lon.shape == (3, )
    assert alt.shape == (3, )
    assert lat.size == 3
    assert lon.size == 3
    assert alt.size == 3

    lat, lon, alt = aacgmv2.convert(np.array([60, 61, 62]), 0, 300, dtObj)
    assert lat.shape == (3, )
    assert lon.shape == (3, )
    assert alt.shape == (3, )
    assert lat.size == 3
    assert lon.size == 3
    assert alt.size == 3

    lat, lon, alt = aacgmv2.convert(np.array([[60, 61, 62], [63, 64, 65]]), 0,
                                    300, dtObj)
    assert lat.shape == (2, 3)
    assert lon.shape == (2, 3)
    assert alt.shape == (2, 3)
    assert lat.size == 6
    assert lon.size == 6
    assert alt.size == 6
Ejemplo n.º 11
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def test_convert_result_values_shape():
    lat, lon, alt = aacgmv2.convert(np.array([[60, 61, 62], [63, 64, 65]]), 0,
                                    300, dtObj)
    aacgmv2._aacgmv2.setDateTime(*date)
    np.testing.assert_allclose((lat[0, 0], lon[0, 0], alt[0, 0]),
                               aacgmv2._aacgmv2.aacgmConvert(60, 0, 300, G2A),
                               rtol=1e-5)
    np.testing.assert_allclose((lat[0, 1], lon[0, 1], alt[0, 1]),
                               aacgmv2._aacgmv2.aacgmConvert(61, 0, 300, G2A),
                               rtol=1e-5)
    np.testing.assert_allclose((lat[0, 2], lon[0, 2], alt[0, 2]),
                               aacgmv2._aacgmv2.aacgmConvert(62, 0, 300, G2A),
                               rtol=1e-5)
    np.testing.assert_allclose((lat[1, 0], lon[1, 0], alt[1, 0]),
                               aacgmv2._aacgmv2.aacgmConvert(63, 0, 300, G2A),
                               rtol=1e-5)
    np.testing.assert_allclose((lat[1, 1], lon[1, 1], alt[1, 1]),
                               aacgmv2._aacgmv2.aacgmConvert(64, 0, 300, G2A),
                               rtol=1e-5)
    np.testing.assert_allclose((lat[1, 2], lon[1, 2], alt[1, 2]),
                               aacgmv2._aacgmv2.aacgmConvert(65, 0, 300, G2A),
                               rtol=1e-5)
Ejemplo n.º 12
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def test_forbidden():
    np.testing.assert_equal(aacgmv2.convert(7, 0, 0), (np.nan, np.nan, np.nan))
Ejemplo n.º 13
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def test_exception_lat90():
    with pytest.raises(ValueError):
        aacgmv2.convert(91, 0, 300, dtObj)
    with pytest.raises(ValueError):
        aacgmv2.convert(-91, 0, 300, dtObj)
    with pytest.raises(ValueError):
        aacgmv2.convert([60, 91], 0, 300, dtObj)
    with pytest.raises(ValueError):
        aacgmv2.convert([60, -91], 0, 300, dtObj)

    # the following should not raise exceptions
    aacgmv2.convert(90, 0, 300, dtObj)
    aacgmv2.convert(-90, 0, 300, dtObj)
Ejemplo n.º 14
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def test_warning_below_ground():
    with pytest.warns(UserWarning):
        aacgmv2.convert(60, 0, -1, dtObj)
    with pytest.warns(UserWarning):
        aacgmv2.convert(60, 0, [300, -1], dtObj)