astropy.coordinates.builtin_frames.baseradec 源代码
# Licensed under a 3-clause BSD style license - see LICENSE.rst
from astropy.coordinates import representation as r
from astropy.coordinates.baseframe import (
BaseCoordinateFrame,
RepresentationMapping,
base_doc,
)
from astropy.utils.decorators import format_doc
__all__ = ["BaseRADecFrame"]
doc_components = """
ra : `~astropy.coordinates.Angle`, optional, keyword-only
The RA for this object (``dec`` must also be given and ``representation``
must be None).
dec : `~astropy.coordinates.Angle`, optional, keyword-only
The Declination for this object (``ra`` must also be given and
``representation`` must be None).
distance : `~astropy.units.Quantity` ['length'], optional, keyword-only
The Distance for this object along the line-of-sight.
(``representation`` must be None).
pm_ra_cosdec : `~astropy.units.Quantity` ['angular speed'], optional, keyword-only
The proper motion in Right Ascension (including the ``cos(dec)`` factor)
for this object (``pm_dec`` must also be given).
pm_dec : `~astropy.units.Quantity` ['angular speed'], optional, keyword-only
The proper motion in Declination for this object (``pm_ra_cosdec`` must
also be given).
radial_velocity : `~astropy.units.Quantity` ['speed'], optional, keyword-only
The radial velocity of this object.
"""
[文档]
@format_doc(base_doc, components=doc_components, footer="")
class BaseRADecFrame(BaseCoordinateFrame):
"""
A base class that defines default representation info for frames that
represent longitude and latitude as Right Ascension and Declination
following typical "equatorial" conventions.
"""
frame_specific_representation_info = {
r.SphericalRepresentation: [
RepresentationMapping("lon", "ra"),
RepresentationMapping("lat", "dec"),
]
}
default_representation = r.SphericalRepresentation
default_differential = r.SphericalCosLatDifferential
