import unittest
import os
import sys
from astropy.time import Time
from datetime import datetime

from ObservationSim.Astrometry.Astrometry_util import on_orbit_obs_position


class TestAstrometry(unittest.TestCase):
    def __init__(self, methodName='runTest'):
        super(TestAstrometry, self).__init__(methodName)
        # self.dataPath = os.path.join(
        #     os.getenv('UNIT_TEST_DATA_ROOT'), 'csst_msc_sim/csst_fz_msc')

    def test_astrometry_method(self):
        ra_list = [300.061827]
        dec_list = [-60.132741]
        pmra_list = [0.]
        pmdec_list = [0.]
        rv_list = [0.]
        parallax_list = [1e-9]
        sat_x = 5227.7501
        sat_y = -1521.2218
        sat_z = -4007.7662
        sat_vx = 0.13581745522969868
        sat_vy = 7.233066646238058
        sat_vz = -2.5770060087052116
        dt = datetime.utcfromtimestamp(
            Time(2461865.75468577, format='jd').unix)
        date_str = dt.date().isoformat()
        time_str = dt.time().isoformat()
        ra_arr, dec_arr = on_orbit_obs_position(
            input_ra_list=ra_list,
            input_dec_list=dec_list,
            input_pmra_list=pmra_list,
            input_pmdec_list=pmdec_list,
            input_rv_list=rv_list,
            input_parallax_list=parallax_list,
            input_nstars=len(ra_list),
            input_x=sat_x,
            input_y=sat_y,
            input_z=sat_z,
            input_vx=sat_vx,
            input_vy=sat_vy,
            input_vz=sat_vz,
            input_epoch="J2000",
            input_date_str=date_str,
            input_time_str=time_str
        )
        print(ra_arr[0], dec_arr[0])
        self.assertTrue(ra_arr[0] != ra_list[0])
        self.assertTrue(dec_arr[0] != dec_list[0])


if __name__ == '__main_':
    unittest.main()