from astrodata import astro_data_tag, astro_data_descriptor, returns_list, TagSet
from ..gemini import AstroDataGemini
from .. import gmu
[docs]
class AstroDataGraces(AstroDataGemini):
__keyword_dict = dict(detector = 'DETECTOR',
)
@staticmethod
def _matches_data(source):
return source[0].header.get('INSTRUME', '').upper() == 'GRACES'
@astro_data_tag
def _tag_instrument(self):
return TagSet(['GRACES'])
@astro_data_tag
def _tag_spect(self):
return TagSet(['SPECT'])
@astro_data_tag
def _tag_arc(self):
if self.phu.get('OBSTYPE') == 'ARC':
return TagSet(['ARC', 'CAL'])
@astro_data_tag
def _tag_flat(self):
if self.phu.get('OBSTYPE') == 'FLAT':
return TagSet(['FLAT', 'CAL'])
@astro_data_tag
def _tag_bias(self):
if self.phu.get('OBSTYPE') == 'BIAS':
return TagSet(['BIAS', 'CAL'])
[docs]
@astro_data_descriptor
def central_wavelength(self, asMicrometers=False, asNanometers=False,
asAngstroms=False):
"""
Returns the central wavelength in meters or the specified units
Parameters
----------
asMicrometers : bool
If True, return the wavelength in microns
asNanometers : bool
If True, return the wavelength in nanometers
asAngstroms : bool
If True, return the wavelength in Angstroms
Returns
-------
float
The central wavelength setting
"""
unit_arg_list = [asMicrometers, asNanometers, asAngstroms]
if unit_arg_list.count(True) == 1:
# Just one of the unit arguments was set to True. Return the
# central wavelength in these units
if asMicrometers:
output_units = "micrometers"
if asNanometers:
output_units = "nanometers"
if asAngstroms:
output_units = "angstroms"
else:
# Either none of the unit arguments were set to True or more than
# one of the unit arguments was set to True. In either case,
# return the central wavelength in the default units of meters.
output_units = "meters"
return gmu.convert_units('micrometers', 0.7, output_units)
[docs]
@astro_data_descriptor
def dec(self):
"""
Returns the Declination of the center of field in degrees. Since a
fiber is used it coincides with the position of the target. For code
re-used, use target_dec() if you really want the position of the target
rather than the center of the field.
Returns
-------
float
declination in degrees
"""
return self.target_dec()
[docs]
@astro_data_descriptor
def detector(self):
return self.phu.get(self._keyword_for('detector'))
[docs]
@astro_data_descriptor
def disperser(self, stripID=False, pretty=False):
"""
Returns the name of the disperser. For GRACES, this is always
"GRACES".
Parameters
----------
stripID : bool
Does nothing.
pretty : bool
Also does nothing.
Returns
-------
str
The name of the disperser, "GRACES".
"""
return 'GRACES'
[docs]
@astro_data_descriptor
def ra(self):
"""
Returns the Right Ascension of the center of field in degrees. Since a
fiber is used it coincides with the position of the target. For code
re-used, use target_ra() if you really want the position of the target
rather than the center of the field.
Returns
-------
float
right ascension in degrees
"""
return self.target_ra()