Spherical

class kgpy.vector.Spherical(radius=0, azimuth=<Quantity 0. deg>, inclination=<Quantity 0. deg>)

Bases: Polar[RadiusT, AzimuthT], Generic[RadiusT, AzimuthT, InclinationT]

__init__(radius=0, azimuth=<Quantity 0. deg>, inclination=<Quantity 0. deg>)
Parameters

  • radius (RadiusT) –

  • azimuth (AzimuthT) –

  • inclination (InclinationT) –

Return type

None

Attributes

azimuth

cartesian

components

coordinates

cylindrical

inclination

length

radius

type_coordinates

Methods

__init__([radius, azimuth, inclination])

copy()

rtype

typing.TypeVar(CopyableT, bound= Copyable)

copy_shallow()

rtype

typing.TypeVar(CopyableT, bound= Copyable)

Inheritance Diagram

Inheritance diagram of kgpy.vector.Spherical

copy()
Return type

typing.TypeVar(CopyableT, bound= Copyable)

Parameters

self (CopyableT) –

copy_shallow()
Return type

typing.TypeVar(CopyableT, bound= Copyable)

Parameters

self (CopyableT) –

azimuth: typing.TypeVar(AzimuthT, bound= typing.Union[typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[typing.Any]]]]], numpy.typing._array_like._SupportsArray[numpy.dtype], typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]], typing.Sequence[typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]]], typing.Sequence[typing.Sequence[typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]]]], typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]]]]], bool, int, float, complex, str, bytes, typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]], typing.Sequence[typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]]], typing.Sequence[typing.Sequence[typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]]]], typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]]]]], astropy.units.Quantity, kgpy.labeled.AbstractArray, kgpy.uncertainty.AbstractArray]) = <Quantity 0. deg>
property cartesian: Cartesian3DT
property components: Tuple[str, ...]
property coordinates: Dict[str, Union[Sequence[Sequence[Sequence[Sequence[Sequence[Any]]]]], _SupportsArray[dtype], Sequence[_SupportsArray[dtype]], Sequence[Sequence[_SupportsArray[dtype]]], Sequence[Sequence[Sequence[_SupportsArray[dtype]]]], Sequence[Sequence[Sequence[Sequence[_SupportsArray[dtype]]]]], bool, int, float, complex, str, bytes, Sequence[Union[bool, int, float, complex, str, bytes]], Sequence[Sequence[Union[bool, int, float, complex, str, bytes]]], Sequence[Sequence[Sequence[Union[bool, int, float, complex, str, bytes]]]], Sequence[Sequence[Sequence[Sequence[Union[bool, int, float, complex, str, bytes]]]]], Quantity, AbstractArray, AbstractArray, AbstractVector]]
property cylindrical: CylindricalT
inclination: typing.TypeVar(InclinationT, bound= typing.Union[typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[typing.Any]]]]], numpy.typing._array_like._SupportsArray[numpy.dtype], typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]], typing.Sequence[typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]]], typing.Sequence[typing.Sequence[typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]]]], typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]]]]], bool, int, float, complex, str, bytes, typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]], typing.Sequence[typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]]], typing.Sequence[typing.Sequence[typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]]]], typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]]]]], astropy.units.Quantity, kgpy.labeled.AbstractArray, kgpy.uncertainty.AbstractArray]) = <Quantity 0. deg>
property length: Union[Sequence[Sequence[Sequence[Sequence[Sequence[Any]]]]], _SupportsArray[dtype], Sequence[_SupportsArray[dtype]], Sequence[Sequence[_SupportsArray[dtype]]], Sequence[Sequence[Sequence[_SupportsArray[dtype]]]], Sequence[Sequence[Sequence[Sequence[_SupportsArray[dtype]]]]], bool, int, float, complex, str, bytes, Sequence[Union[bool, int, float, complex, str, bytes]], Sequence[Sequence[Union[bool, int, float, complex, str, bytes]]], Sequence[Sequence[Sequence[Union[bool, int, float, complex, str, bytes]]]], Sequence[Sequence[Sequence[Sequence[Union[bool, int, float, complex, str, bytes]]]]], Quantity, AbstractArray, AbstractArray]
radius: typing.TypeVar(RadiusT, bound= typing.Union[typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[typing.Any]]]]], numpy.typing._array_like._SupportsArray[numpy.dtype], typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]], typing.Sequence[typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]]], typing.Sequence[typing.Sequence[typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]]]], typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[numpy.typing._array_like._SupportsArray[numpy.dtype]]]]], bool, int, float, complex, str, bytes, typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]], typing.Sequence[typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]]], typing.Sequence[typing.Sequence[typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]]]], typing.Sequence[typing.Sequence[typing.Sequence[typing.Sequence[typing.Union[bool, int, float, complex, str, bytes]]]]], astropy.units.Quantity, kgpy.labeled.AbstractArray, kgpy.uncertainty.AbstractArray]) = 0
type_coordinates = (<class 'bool'>, <class 'int'>, <class 'float'>, <class 'complex'>, <class 'numpy.generic'>, <class 'numpy.ndarray'>, <class 'kgpy.labeled.AbstractArray'>, <class 'kgpy.uncertainty.AbstractArray'>)