propagation_matrix_scattering_agendaOperator
- class pyarts3.arts.propagation_matrix_scattering_agendaOperator(*args, **kwargs)
This is the operator for free customization of the agenda:
propagation_matrix_scattering_agenda.The python meta-code to make use of this operator class instead of the standard agenda in a workspace reads like this:
import pyarts3 as pyarts ws = pyarts.Workspace() def my_propagation_matrix_scattering_agenda_operator(frequency_grid, atmospheric_point): ... # custom code that creates or modifies propagation_matrix_scattering ... return propagation_matrix_scattering ws.propagation_matrix_scattering_agendaSetOperator(f=my_propagation_matrix_scattering_agenda_operator)
You are free to put whatever custom code you want in the operator. The types returned must be convertible to the types of the workspace variables being returned. The input to the operator from the workspace will be the types of the workspace variables that are passed to the agenda. Failure to follow these rules will result in a runtime error.
Note
There might be constraints on the input and output passed to the operator. Check the documentation of the agenda for more details.
Warning
Accessing global variables in the operator is not thread safe. It is very likely ARTS will access your operator in parallel. You need to make sure that the operator is thread safe.
Overview
Method
Read variable from file
Method
Saves variable to file
Static Method
Create variable from file
Operator
Execute the method directly in python
Operator
Return self==value.
Operator
__format__(self, arg: str, /) -> str
Operator
Return self>=value.
Operator
Helper for pickle.
Operator
Return self>value.
Operator
Return hash(self).
Operator
__init__(self, arg: pyarts3.arts.propagation_matrix_scattering_agendaOperator) -> None
Operator
Return self<=value.
Operator
Return self<value.
Operator
Return self!=value.
Operator
__repr__(self) -> str
Operator
__str__(self) -> str
Constructors
- __init__(self, arg: collections.abc.Callable[[pyarts3.arts.AscendingGrid, pyarts3.arts.AtmPoint], tuple[pyarts3.arts.PropmatVector]], /) None
- __init__(self) None
- __init__(self, arg: pyarts3.arts.propagation_matrix_scattering_agendaOperator) None
Methods
- readxml(self, file: str) str
Read variable from file
- Parameters:
file (str) – A file that can be read
- On Error:
Throws RuntimeError for any failure to read
- savexml(self, file: str, type: str = 'ascii', clobber: bool = True) str
Saves variable to file
- Parameters:
- On Error:
Throws RuntimeError for any failure to save
Static Methods
- fromxml(file: str) pyarts3.arts.propagation_matrix_scattering_agendaOperator
Create variable from file
- Parameters:
file (str) – A file that can be read
- On Error:
Throws RuntimeError for any failure to read
Operators
- __call__(self, frequency_grid: pyarts3.arts.AscendingGrid, atmospheric_point: pyarts3.arts.AtmPoint) tuple[pyarts3.arts.PropmatVector]
Execute the method directly in python
- Parameters:
frequency_grid (
AscendingGrid) – A single frequency grid. See alsofrequency_grid.atmospheric_point (
AtmPoint) – An atmospheric point in ARTS. See alsoatmospheric_point.
- Returns:
propagation_matrix_scattering – The propgation matrix of totally random orientation particles at a single point along a path using spectral representation. See also
propagation_matrix_scattering.- Return type:
- __eq__(value, /)
Return self==value.
- __ge__(value, /)
Return self>=value.
- __getstate__()
Helper for pickle.
- __gt__(value, /)
Return self>value.
- __hash__()
Return hash(self).
- __init__(self, arg: collections.abc.Callable[[pyarts3.arts.AscendingGrid, pyarts3.arts.AtmPoint], tuple[pyarts3.arts.PropmatVector]], /) None
- __init__(self) None
- __init__(self, arg: pyarts3.arts.propagation_matrix_scattering_agendaOperator) None
- __le__(value, /)
Return self<=value.
- __lt__(value, /)
Return self<value.
- __ne__(value, /)
Return self!=value.