# Copyright (c) 2024 Radio Astronomy Software Group
# Licensed under the 2-clause BSD License
"""pytest fixtures for utils tests."""
import numpy as np
import pytest
from astropy.coordinates import SkyCoord
import pyuvdata.utils.phasing as phs_utils
from pyuvdata import utils
from .test_coordinates import frame_selenoid, selenoids
@pytest.fixture(scope="session")
def astrometry_args():
default_args = {
"time_array": 2456789.0 + np.array([0.0, 1.25, 10.5, 100.75]),
"icrs_ra": 2.468,
"icrs_dec": 1.234,
"epoch": 2000.0,
"telescope_loc": (0.123, -0.456, 4321.0),
"telescope_frame": "itrs",
"pm_ra": 12.3,
"pm_dec": 45.6,
"vrad": 31.4,
"dist": 73.31,
"library": "erfa",
}
default_args["lst_array"] = utils.get_lst_for_time(
jd_array=default_args["time_array"],
latitude=default_args["telescope_loc"][0] * (180.0 / np.pi),
longitude=default_args["telescope_loc"][1] * (180.0 / np.pi),
altitude=default_args["telescope_loc"][2],
frame="itrs",
)
default_args["drift_coord"] = SkyCoord(
default_args["lst_array"],
[default_args["telescope_loc"][0]] * len(default_args["lst_array"]),
unit="rad",
)
if len(frame_selenoid) > 1:
default_args["moon_telescope_loc"] = (
0.6875 * np.pi / 180.0,
24.433 * np.pi / 180.0,
0.3,
)
default_args["moon_lst_array"] = {}
default_args["moon_drift_coord"] = {}
for selenoid in selenoids:
default_args["moon_lst_array"][selenoid] = utils.get_lst_for_time(
jd_array=default_args["time_array"],
latitude=default_args["moon_telescope_loc"][0] * (180.0 / np.pi),
longitude=default_args["moon_telescope_loc"][1] * (180.0 / np.pi),
altitude=default_args["moon_telescope_loc"][2],
frame="mcmf",
ellipsoid=selenoid,
)
default_args["moon_drift_coord"][selenoid] = SkyCoord(
default_args["moon_lst_array"][selenoid],
[default_args["moon_telescope_loc"][0]]
* len(default_args["moon_lst_array"][selenoid]),
unit="rad",
)
default_args["icrs_coord"] = SkyCoord(
default_args["icrs_ra"], default_args["icrs_dec"], unit="rad"
)
default_args["fk5_ra"], default_args["fk5_dec"] = (
phs_utils.transform_sidereal_coords(
longitude=default_args["icrs_ra"],
latitude=default_args["icrs_dec"],
in_coord_frame="icrs",
out_coord_frame="fk5",
in_coord_epoch="J2000.0",
out_coord_epoch="J2000.0",
)
)
# These are values calculated w/o the optional arguments, e.g. pm, vrad, dist
default_args["app_ra"], default_args["app_dec"] = phs_utils.transform_icrs_to_app(
time_array=default_args["time_array"],
ra=default_args["icrs_ra"],
dec=default_args["icrs_dec"],
telescope_loc=default_args["telescope_loc"],
)
default_args["app_coord"] = SkyCoord(
default_args["app_ra"], default_args["app_dec"], unit="rad"
)
if len(frame_selenoid) > 1:
default_args["moon_app_ra"] = {}
default_args["moon_app_dec"] = {}
default_args["moon_app_coord"] = {}
for selenoid in selenoids:
(
default_args["moon_app_ra"][selenoid],
default_args["moon_app_dec"][selenoid],
) = phs_utils.transform_icrs_to_app(
time_array=default_args["time_array"],
ra=default_args["icrs_ra"],
dec=default_args["icrs_dec"],
telescope_loc=default_args["moon_telescope_loc"],
telescope_frame="mcmf",
ellipsoid=selenoid,
)
default_args["moon_app_coord"][selenoid] = SkyCoord(
default_args["moon_app_ra"][selenoid],
default_args["moon_app_dec"][selenoid],
unit="rad",
)
yield default_args
