functor = aFilterMgr.CreateAspectRatio3D()
elif theCriterion == FT_Warping:
functor = aFilterMgr.CreateWarping()
+ elif theCriterion == FT_Warping3D:
+ functor = aFilterMgr.CreateWarping3D()
elif theCriterion == FT_MinimumAngle:
functor = aFilterMgr.CreateMinimumAngle()
elif theCriterion == FT_Taper:
return ok
+ def CheckCompute(self, isDone):
+ """
+ Check if the mesh was properly compute
+ """
+ if not isDone:
+ raise Exception("Could not compute {}".format(self.GetName()))
+
def GetComputeErrors(self, shape=0 ):
"""
Return a list of error messages (:class:`SMESH.ComputeError`) of the last :meth:`Compute`
return self.FunctorValue(SMESH.FT_Warping, elemId)
+ def GetWarping3D(self, elemId):
+ """
+ Get warping angle of faces element of 3D elements.
+
+ Parameters:
+ elemId: mesh element ID
+
+ Returns:
+ element's warping angle value
+ """
+
+ return self.FunctorValue(SMESH.FT_Warping3D, elemId)
+
def GetMinimumAngle(self, elemId):
"""
Get minimum angle of 2D element.
if not isinstance(geom, geomBuilder.GEOM._objref_GEOM_Object):
raise ValueError("geom argument must be a geometry")
- import SHAPERSTUDY
- import shaperBuilder
+ try:
+ import SHAPERSTUDY
+ shaper_object = SHAPERSTUDY.SHAPERSTUDY_ORB._objref_SHAPER_Object
+ has_shaper = True
+ except ImportError:
+ shaper_object = int
+ has_shaper = False
+
# If we have a shaper object converting it into geom (temporary solution)
- if isinstance(geom, SHAPERSTUDY.SHAPERSTUDY_ORB._objref_SHAPER_Object):
+ if isinstance(geom, shaper_object):
self._geom_obj = _shaperstudy2geom(geompyD, geom)
- else:
+ elif isinstance(geom, geomBuilder.GEOM._objref_GEOM_Object):
self._geom_obj = geom
+ else:
+ msg= ""
+ if not has_shaper:
+ msg = "\nShaper was not compiled"
+ raise Exception("Could not handle geom format {}.{} ".format(type(geom), msg))
# Splitting geometry into one geom containing 1D and 2D elements and a
# list of 3D elements