def test_vso_attribute_parse():
"""Make sure that Parsing of VSO attributes from HEK queries is accurate"""
h = hek.HEKClient()
hek_query = h.search(hekTime, hekEvent)
vso_query = hek2vso.vso_attribute_parse(hek_query[0])
# Checking Time
# TODO
# Checking Observatory
assert vso_query[1].value == hek_query[0]['obs_observatory']
# Checking Instrument
assert vso_query[2].value == hek_query[0]['obs_instrument']
# Checking Wavelength
assert vso_query[3].min == hek_query[0]['obs_meanwavel'] * u.Unit(hek_query[0]['obs_wavelunit'])
assert vso_query[3].max == hek_query[0]['obs_meanwavel'] * u.Unit( hek_query[0]['obs_wavelunit'])
assert vso_query[3].unit == u.Unit('Angstrom')
def test_vso_attribute_parse():
"""Make sure that Parsing of VSO attributes from HEK queries is accurate"""
h = hek.HEKClient()
hek_query = h.query(hekTime, hekEvent)
vso_query = hek2vso.vso_attribute_parse(hek_query[0])
# Cheking Time
# TODO
# Checking Observatory
assert vso_query[1].value == hek_query[0]['obs_observatory']
# Checking Instrument
assert vso_query[2].value == hek_query[0]['obs_instrument']
# Checking Wavelength
assert vso_query[3].min == hek_query[0]['obs_meanwavel'] * u.Unit(
hek_query[0]['obs_wavelunit'])
assert vso_query[3].max == hek_query[0]['obs_meanwavel'] * u.Unit(
hek_query[0]['obs_wavelunit'])
assert vso_query[3].unit == u.Unit('Angstrom')
def test_vso_attribute_parse(hek_client):
"""Make sure that Parsing of VSO attributes from HEK queries is accurate"""
h = hek_client
hek_query = h.search(hekTime, hekEvent)
vso_query = hek2vso.vso_attribute_parse(hek_query[0])
# Checking Time
assert vso_query[0].start == parse_time(hek_query[0]["event_starttime"])
assert vso_query[0].end == parse_time(hek_query[0]["event_endtime"])
# Checking Observatory
assert vso_query[1].value == hek_query[0]["obs_observatory"]
# Checking Instrument
assert vso_query[2].value == hek_query[0]["obs_instrument"]
# Checking Wavelength
assert vso_query[3].min == hek_query[0]["obs_meanwavel"] * u.Unit(
hek_query[0]["obs_wavelunit"])
assert vso_query[3].max == hek_query[0]["obs_meanwavel"] * u.Unit(
hek_query[0]["obs_wavelunit"])
assert vso_query[3].unit == u.Unit("Angstrom")
def test_vso_attribute_parse(hek_client):
"""Make sure that Parsing of VSO attributes from HEK queries is accurate"""
h = hek_client
hek_query = h.search(hekTime, hekEvent)
vso_query = hek2vso.vso_attribute_parse(hek_query[0])
# Checking Time
assert vso_query[0].start == parse_time(hek_query[0]["event_starttime"])
assert vso_query[0].end == parse_time(hek_query[0]["event_endtime"])
# Checking Observatory
assert vso_query[1].value == hek_query[0]["obs_observatory"]
# Checking Instrument
assert vso_query[2].value == hek_query[0]["obs_instrument"]
# Checking Wavelength
assert vso_query[3].min == hek_query[0]["obs_meanwavel"] * u.Unit(
hek_query[0]["obs_wavelunit"]
)
assert vso_query[3].max == hek_query[0]["obs_meanwavel"] * u.Unit(
hek_query[0]["obs_wavelunit"]
)
assert vso_query[3].unit == u.Unit("Angstrom")
