コード例 #1
0
ファイル: aps.py プロジェクト: ilearnProgramme/PyRate
def get_incidence_angle(date_pair, params):
    # incidence angle exists in unw header files, not in dem
    SLC_DIR = params[cf.SLC_DIR] if params[cf.SLC_DIR] else \
        params[cf.OBS_DIR]
    header_path = glob2.glob(
        os.path.join(SLC_DIR, '**/*%s*slc.par' % date_pair[0]))[0]
    header = gamma.parse_epoch_header(header_path)
    incidence_angle = header[ifc.INCIDENCE_ANGLE]
    return incidence_angle
コード例 #2
0
    def setUpClass(cls):
        # create common combined header obj so the headers are only read once
        # tricker: needs both ifg headers, and DEM one for the extents
        filenames = ['r20090713_VV.slc.par', 'r20090817_VV.slc.par']
        hdr_paths = [join(GAMMA_TEST_DIR, f) for f in filenames]
        hdrs = [gamma.parse_epoch_header(p) for p in hdr_paths]
        dem_hdr_path = join(GAMMA_TEST_DIR, 'dem16x20raw.dem.par')

        cls.DEM_HDR = gamma.parse_dem_header(dem_hdr_path)
        cls.COMBINED = gamma.combine_headers(*hdrs, dem_hdr=cls.DEM_HDR)
コード例 #3
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    def test_parse_gamma_epoch_header(self):
        # minimal required headers are:
        # date:      2009  7 13
        # radar_frequency:        5.3310040e+09   Hz
        path = join(GAMMA_TEST_DIR, 'r20090713_VV.slc.par')
        hdrs = gamma.parse_epoch_header(path)

        exp_date = date(2009, 7, 13)
        self.assertEqual(hdrs[ifc.MASTER_DATE], exp_date)

        exp_wavelen = LIGHTSPEED / 5.3310040e+09
        self.assertEqual(hdrs[ifc.PYRATE_WAVELENGTH_METRES], exp_wavelen)

        incidence_angle = 22.9671
        self.assertEqual(hdrs[ifc.PYRATE_INCIDENCE_DEGREES], incidence_angle)
コード例 #4
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    def test_combine_headers(self):
        filenames = ['r20090713_VV.slc.par', 'r20090817_VV.slc.par']
        paths = [join(GAMMA_TEST_DIR, p) for p in filenames]
        hdr0, hdr1 = [gamma.parse_epoch_header(p) for p in paths]

        chdr = gamma.combine_headers(hdr0, hdr1, self.dh)

        exp_timespan = (18 + 17) / ifc.DAYS_PER_YEAR
        self.assertEqual(chdr[ifc.PYRATE_TIME_SPAN], exp_timespan)

        exp_date = date(2009, 7, 13)
        self.assertEqual(chdr[ifc.MASTER_DATE], exp_date)
        exp_date2 = date(2009, 8, 17)
        self.assertEqual(chdr[ifc.SLAVE_DATE], exp_date2)

        exp_wavelen = LIGHTSPEED / 5.3310040e+09
        self.assertEqual(chdr[ifc.PYRATE_WAVELENGTH_METRES], exp_wavelen)
コード例 #5
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    def test_unw_contains_same_data_as_numpy_array(self):
        from datetime import time
        temp_unw = tempfile.mktemp(suffix='.unw')
        temp_tif = tempfile.mktemp(suffix='.tif')

        # setup some header files for use in write_geotif
        dem_header_file = common.SML_TEST_DEM_HDR_GAMMA
        dem_header = gamma.parse_dem_header(dem_header_file)

        header = gamma.parse_epoch_header(
            os.path.join(common.SML_TEST_GAMMA, '20060828_slc.par'))
        header.update(dem_header)

        # insert some dummy data so we are the dem in write_geotiff is not
        # not activated and ifg write_geotiff operation works
        header[ifc.PYRATE_TIME_SPAN] = 0
        header[ifc.SLAVE_DATE] = 0
        header[ifc.DATA_UNITS] = 'degrees'
        header[ifc.DATA_TYPE] = ifc.ORIG
        header[ifc.SLAVE_TIME] = time(10)

        # now create aritrary data
        data = np.random.rand(dem_header[ifc.PYRATE_NROWS],
                              dem_header[ifc.PYRATE_NCOLS])

        # convert numpy array to .unw
        shared.write_unw_from_data_or_geotiff(geotif_or_data=data,
                                              dest_unw=temp_unw,
                                              ifg_proc=1)
        # convert the .unw to geotif
        shared.write_geotiff(header=header,
                             data_path=temp_unw,
                             dest=temp_tif,
                             nodata=np.nan)

        # now compare geotiff with original numpy array
        ds = gdal.Open(temp_tif, gdal.GA_ReadOnly)
        data_lv_theta = ds.ReadAsArray()
        ds = None
        np.testing.assert_array_almost_equal(data, data_lv_theta)
        os.remove(temp_tif)
        os.remove(temp_unw)