bdf/utils Package¶
This is the pyNastran.bdf.rst file.
utils
Module¶
- Defines various utilities including:
parse_patran_syntax
parse_patran_syntax_dict
Position
PositionWRT
transform_load
-
pyNastran.bdf.utils.
Position
(xyz: NDArray3float, cid: int, model: BDF) → np.ndarray[source]¶ Gets the point in the global XYZ coordinate system.
- Parameters
- xyz(3,) ndarray
the position of the GRID in an arbitrary coordinate system
- cidint
the coordinate ID for xyz
- modelBDF()
the BDF model object
- Returns
- xyz2(3,) ndarray
the position of the GRID in an arbitrary coordinate system
-
pyNastran.bdf.utils.
PositionWRT
(xyz: NDArray3float, cid: int, cid_new: int, model: BDF) → NDArray3float[source]¶ Gets the location of the GRID which started in some arbitrary system and returns it in the desired coordinate system
- Parameters
- xyz(3, ) float ndarray
the position of the GRID in an arbitrary coordinate system
- cidint
the coordinate ID for xyz
- cid_newint
the desired coordinate ID
- modelBDF()
the BDF model object
- Returns
- xyz_local(3, ) float ndarray
the position of the GRID in an arbitrary coordinate system
-
pyNastran.bdf.utils.
get_xyz_cid0_dict
(model: BDF, xyz_cid0: Dict[int, NDArray3float] = None) → Dict[int, NDArray3float][source]¶ helper method
- Parameters
- modelBDF()
a BDF object
- xyz_cid0None / Dict[int] = (3, ) ndarray
the nodes in the global coordinate system
- Returns
- xyz_cid0_dict
-
pyNastran.bdf.utils.
split_eids_along_nids
(model: BDF, eids: List[int], nids: List[int]) → None[source]¶ Disassociate a list of elements along a list of nodes.
The expected use of this function is that you have two bodies that are incorrectly equivalenced and you would like to create duplicate nodes at the same location and associate the new nodes with one half of the elements.
Pick the nodes along the line and the elements along one side of the line.
- Parameters
- modelBDF()
the BDF model
- eidslist/tuple
element ids to disassociate
- nidslist/tuple
node ids to disassociate
- Implicitly returns model with additional nodes.
Notes
xref should be set to False for this function.
-
pyNastran.bdf.utils.
transform_load
(F, M, cid: int, cid_new: int, model: BDF) → Tuple[np.ndarray, np.ndarray][source]¶ Transforms a force/moment from an arbitrary coordinate system to another coordinate system.
- Parameters
- Fxyz(3, ) float ndarray
the force in an arbitrary coordinate system
- Mxyz(3, ) float ndarray
the moment in an arbitrary coordinate system
- cidint
the coordinate ID for xyz
- cid_newint
the desired coordinate ID
- modelBDF()
the BDF model object
- Returns
- Fxyz_local(3, ) float ndarray
the force in an arbitrary coordinate system
- Mxyz_local(3, ) float ndarray
the force in an arbitrary coordinate system
write_path
Module¶
- Defines following useful methods:
write_include(filename, is_windows=True)
-
pyNastran.bdf.write_path.
_split_path
(abspath: str, is_windows: bool) → Tuple[str, ...][source]¶ Takes a path and splits it into the various components.
This is a helper method for
write_include
-
pyNastran.bdf.write_path.
write_include
(filename: str, is_windows: bool = None) → str[source]¶ Writes a bdf INCLUDE file line given an imported filename.
- Parameters
- filenamestr
the filename to write
- is_windowsbool; default=None
- True/FalseWindows has a special format for writing INCLUDE
files, so the format for a BDF that will run on Linux and Windows is different.
None : Check the platform
- For a model that will run on Linux:
- ..code-block:: python
fname = r’/opt/NASA/test1/test2/test3/ test4/formats/pynastran_v0.6/pyNastran/bdf/model.inc’ write_include(fname, is_windows=False)
- We want:
- ..code-block:: python
- INCLUDE /opt/NASA/test1/test2/test3/test4/formats/pynastran_v0.6/
pyNastran/bdf/model.inc