UnitSphericalDifferential¶
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class
astropy.coordinates.
UnitSphericalDifferential
(d_lon, d_lat, copy=True)[source] [edit on github]¶ Bases:
astropy.coordinates.BaseSphericalDifferential
Differential(s) of points on a unit sphere.
Parameters: d_lon, d_lat :
Quantity
The longitude and latitude of the differentials.
copy : bool, optional
If
True
(default), arrays will be copied rather than referenced.Attributes Summary
attr_classes
d_lat
Component ‘d_lat’ of the Differential. d_lon
Component ‘d_lon’ of the Differential. Methods Summary
from_representation
(representation[, base])represent_as
(other_class[, base])Convert coordinates to another representation. to_cartesian
(base)Convert the differential to 3D rectangular cartesian coordinates. Attributes Documentation
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attr_classes
= OrderedDict([('d_lon', <class 'astropy.units.quantity.Quantity'>), ('d_lat', <class 'astropy.units.quantity.Quantity'>)])¶
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d_lat
¶ Component ‘d_lat’ of the Differential.
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d_lon
¶ Component ‘d_lon’ of the Differential.
Methods Documentation
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classmethod
from_representation
(representation, base=None)[source] [edit on github]¶
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represent_as
(other_class, base=None)[source] [edit on github]¶ Convert coordinates to another representation.
If the instance is of the requested class, it is returned unmodified. By default, conversion is done via cartesian coordinates.
Parameters: other_class :
BaseRepresentation
subclassThe type of representation to turn the coordinates into.
base : instance of
self.base_representation
, optionalBase relative to which the differentials are defined. If the other class is a differential representation, the base will be converted to its
base_representation
.
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to_cartesian
(base)[source] [edit on github]¶ Convert the differential to 3D rectangular cartesian coordinates.
Parameters: base : instance of
self.base_representation
The points for which the differentials are to be converted: each of the components is multiplied by its unit vectors and scale factors.
Returns: This object as a
CartesianDifferential
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