# @param HasAngles allows the shape to be rotated around the path
# to get the resulting mesh in a helical fashion
# @param Angles list of angles
+ # @param LinearVariation forces the computation of rotation angles as linear
+ # variation of the given Angles along path steps
# @param HasRefPoint allows using the reference point
# @param RefPoint the point around which the shape is rotated (the mass center of the
# shape by default). The User can specify any point as the Reference Point.
# @param MakeGroups forces the generation of new groups from existing ones
- # @param LinearVariation forces the computation of rotation angles as linear
- # variation of the given Angles along path steps
# @return list of created groups (SMESH_GroupBase) and SMESH::Extrusion_Error
# @ingroup l2_modif_extrurev
def ExtrusionAlongPathObjects(self, Nodes, Edges, Faces, PathMesh, PathShape=None,
- NodeStart=1, HasAngles=False, Angles=[],
- HasRefPoint=False, RefPoint=[0,0,0],
- MakeGroups=False, LinearVariation=False):
+ NodeStart=1, HasAngles=False, Angles=[], LinearVariation=False,
+ HasRefPoint=False, RefPoint=[0,0,0], MakeGroups=False):
unRegister = genObjUnRegister()
Nodes = self._getIdSourceList( Nodes, SMESH.NODE, unRegister )
Edges = self._getIdSourceList( Edges, SMESH.EDGE, unRegister )
self.functors[ funcType._v ] = fn
return fn
- def _valueFromFunctor(self, funcType, elemId):
+ ## Returns value of a functor for a given element
+ # @param funcType an item of SMESH.FunctorType enum
+ # @param elemId element or node ID
+ # @param isElem @a elemId is ID of element or node
+ # @return the functor value or zero in case of invalid arguments
+ def FunctorValue(self, funcType, elemId, isElem=True):
fn = self._getFunctor( funcType )
- if fn.GetElementType() == self.GetElementType(elemId, True):
+ if fn.GetElementType() == self.GetElementType(elemId, isElem):
val = fn.GetValue(elemId)
else:
val = 0
if elemId == None:
length = self.smeshpyD.GetLength(self)
else:
- length = self._valueFromFunctor(SMESH.FT_Length, elemId)
+ length = self.FunctorValue(SMESH.FT_Length, elemId)
return length
## Get area of 2D element or sum of areas of all 2D mesh elements
if elemId == None:
area = self.smeshpyD.GetArea(self)
else:
- area = self._valueFromFunctor(SMESH.FT_Area, elemId)
+ area = self.FunctorValue(SMESH.FT_Area, elemId)
return area
## Get volume of 3D element or sum of volumes of all 3D mesh elements
if elemId == None:
volume = self.smeshpyD.GetVolume(self)
else:
- volume = self._valueFromFunctor(SMESH.FT_Volume3D, elemId)
+ volume = self.FunctorValue(SMESH.FT_Volume3D, elemId)
return volume
## Get maximum element length.
ftype = SMESH.FT_MaxElementLength3D
else:
ftype = SMESH.FT_MaxElementLength2D
- return self._valueFromFunctor(ftype, elemId)
+ return self.FunctorValue(ftype, elemId)
## Get aspect ratio of 2D or 3D element.
# @param elemId mesh element ID
ftype = SMESH.FT_AspectRatio3D
else:
ftype = SMESH.FT_AspectRatio
- return self._valueFromFunctor(ftype, elemId)
+ return self.FunctorValue(ftype, elemId)
## Get warping angle of 2D element.
# @param elemId mesh element ID
# @return element's warping angle value
# @ingroup l1_measurements
def GetWarping(self, elemId):
- return self._valueFromFunctor(SMESH.FT_Warping, elemId)
+ return self.FunctorValue(SMESH.FT_Warping, elemId)
## Get minimum angle of 2D element.
# @param elemId mesh element ID
# @return element's minimum angle value
# @ingroup l1_measurements
def GetMinimumAngle(self, elemId):
- return self._valueFromFunctor(SMESH.FT_MinimumAngle, elemId)
+ return self.FunctorValue(SMESH.FT_MinimumAngle, elemId)
## Get taper of 2D element.
# @param elemId mesh element ID
# @return element's taper value
# @ingroup l1_measurements
def GetTaper(self, elemId):
- return self._valueFromFunctor(SMESH.FT_Taper, elemId)
+ return self.FunctorValue(SMESH.FT_Taper, elemId)
## Get skew of 2D element.
# @param elemId mesh element ID
# @return element's skew value
# @ingroup l1_measurements
def GetSkew(self, elemId):
- return self._valueFromFunctor(SMESH.FT_Skew, elemId)
+ return self.FunctorValue(SMESH.FT_Skew, elemId)
## Return minimal and maximal value of a given functor.
# @param funType a functor type, an item of SMESH.FunctorType enum
