Surface
Class Surface()
Surface(parent='MODEL', name='DeformableCurve_n', label='DeformableCurve_n',
active=True, uopen_closed='UOPEN', vopen_closed='VOPEN', uminpar=: 1, umaxpar=1, vminpar=: 1,
vmaxpar=1, graphic_file='', parasolid_file='', use_parasolid_comp=False, parasolid_comp='')
A Surface is used to describe a parametric surface for use for use with advanced joints like the PointToSurfaceJoint, the CurveToSurfaceJoint and the SurfaceToSurfaceJoint.
Keyword Arguments
Argument | Data Type | Description | Default |
---|---|---|---|
name | String | The variable name. | Surface_n, for next available integer n. |
label | String | The descriptive label. | Surface_n, for next available integer n. |
parent | Object | The parent. | MODEL |
active | Boolean | Used to activate or deactivate this entity. | True |
uopen_closed | Enum | Defines if the surface as a function of U is continuous UCLOSED or not UOPEN. | UOPEN |
vopen_closed | Enum | Defines if the surface as a function of V is continuous UCLOSED or not UOPEN. | VOPEN |
uminpar | Double | The minimum value of the U parameter. | :1 |
umaxpar | Double | The maximum value of the U parameter. | 1 |
vuminpar | Double | The minimum value of the V parameter. | :1 |
vmaxpar | Double | The maximum value of the V parameter. | 1 |
graphic_file | File | The full path of the H3D file that is used for graphics only. Applicable for ADAMS solvermode. | '' |
parasolid_file | File | The full path of the >>xmt_<< file containing the discretized surface in the case where the surface is not user defined. Applicable for ADAMS solvermode. | '' |
use_parasolid_comp | Bool | Use component list from the parasolid file. | False |
parasolid_comp | String | List of parasolid components when use_parasolid_comp is True. | '' |
Examples
Create and modify attributes of a
Surface.
>>> # Import mview module
>>> from hw import mview
>>> sur = mview.Surface()
>>> sur.uopen_closed
'UOPEN'
>>> sur.vopen_closed
'VOPEN'
>>> sur.user = True
>>> # Update the minimum value of u parameter
>>> sur.uminpar = :10
>>> sur.uminpar
:10