# Substitute AxisStruct.__init__() to create SMESH.AxisStruct using notebook variables.
# Parameters are stored in AxisStruct.parameters attribute
def __initAxisStruct(ax,*args):
+ if len( args ) != 6:
+ raise RuntimeError,\
+ "Bad nb args (%s) passed in SMESH.AxisStruct(x,y,z,dx,dy,dz)"%(len( args ))
ax.x, ax.y, ax.z, ax.vx, ax.vy, ax.vz, ax.parameters,hasVars = ParseParameters(*args)
pass
SMESH.AxisStruct.__init__ = __initAxisStruct
#return self.IsEmbeddedMode()
return SMESH._objref_SMESH_Gen.IsEmbeddedMode(self)
- ## Sets the current study
+ ## Sets the current study. Calling SetCurrentStudy( None ) allows to
+ # switch OFF automatic pubilishing in the Study of mesh objects.
# @ingroup l1_auxiliary
def SetCurrentStudy( self, theStudy, geompyD = None ):
#self.SetCurrentStudy(theStudy)
if error.comment: print "*** CreateMeshesFromGMF() errors:\n", error.comment
return Mesh(self, self.geompyD, aSmeshMesh), error
- ## Concatenate the given meshes into one mesh.
- # @return an instance of Mesh class
- # @param meshes the meshes to combine into one mesh
+ ## Concatenate the given meshes into one mesh. All groups of input meshes will be
+ # present in the new mesh.
+ # @param meshes the meshes, sub-meshes and groups to combine into one mesh
# @param uniteIdenticalGroups if true, groups with same names are united, else they are renamed
- # @param mergeNodesAndElements if true, equal nodes and elements aremerged
+ # @param mergeNodesAndElements if true, equal nodes and elements are merged
# @param mergeTolerance tolerance for merging nodes
- # @param allGroups forces creation of groups of all elements
+ # @param allGroups forces creation of groups corresponding to every input mesh
# @param name name of a new mesh
+ # @return an instance of Mesh class
def Concatenate( self, meshes, uniteIdenticalGroups,
mergeNodesAndElements = False, mergeTolerance = 1e-5, allGroups = False,
name = ""):
if not name:
name = "%s_%s"%(aThreshold.GetShapeType(), id(aThreshold)%10000)
aCriterion.ThresholdID = self.geompyD.addToStudy( aThreshold, name )
- #raise RuntimeError, "Threshold shape must be published"
+ # or a name of GEOM object
+ elif isinstance( aThreshold, str ):
+ aCriterion.ThresholdStr = aThreshold
else:
print "Error: The Threshold should be a shape."
return None
for attrName in dir(self):
attr = getattr( self, attrName )
if isinstance( attr, algoCreator ):
- #print "algoCreator ", attrName
setattr( self, attrName, attr.copy( self ))
pass
pass
return self.mesh.SetMeshOrder(submeshes)
## Removes all nodes and elements
- # @refresh if @c True, Object browser is automatically updated (when running in GUI)
+ # @param refresh if @c True, Object browser is automatically updated (when running in GUI)
# @ingroup l2_construct
def Clear(self, refresh=False):
self.mesh.Clear()
if refresh: salome.sg.updateObjBrowser(1)
## Removes all nodes and elements of indicated shape
- # @refresh if @c True, Object browser is automatically updated (when running in GUI)
+ # @param refresh if @c True, Object browser is automatically updated (when running in GUI)
+ # @param geomId the ID of a sub-shape to remove elements on
# @ingroup l2_construct
def ClearSubMesh(self, geomId, refresh=False):
self.mesh.ClearSubMesh(geomId)
def RemoveGroupWithContents(self, group):
self.mesh.RemoveGroupWithContents(group)
- ## Gets the list of groups existing in the mesh in the order of creation (starting from the oldest one)
+ ## Gets the list of groups existing in the mesh in the order
+ # of creation (starting from the oldest one)
# @return a sequence of SMESH_GroupBase
# @ingroup l2_grps_create
def GetGroups(self):
names.append(group.GetName())
return names
- ## Produces a union of two groups
+ ## Produces a union of two groups.
# A new group is created. All mesh elements that are
# present in the initial groups are added to the new one
# @return an instance of SMESH_Group
def UnionGroups(self, group1, group2, name):
return self.mesh.UnionGroups(group1, group2, name)
- ## Produces a union list of groups
+ ## Produces a union list of groups.
# New group is created. All mesh elements that are present in
# initial groups are added to the new one
# @return an instance of SMESH_Group
def UnionListOfGroups(self, groups, name):
return self.mesh.UnionListOfGroups(groups, name)
- ## Prodices an intersection of two groups
+ ## Prodices an intersection of two groups.
# A new group is created. All mesh elements that are common
# for the two initial groups are added to the new one.
# @return an instance of SMESH_Group
def IntersectGroups(self, group1, group2, name):
return self.mesh.IntersectGroups(group1, group2, name)
- ## Produces an intersection of groups
+ ## Produces an intersection of groups.
# New group is created. All mesh elements that are present in all
# initial groups simultaneously are added to the new one
# @return an instance of SMESH_Group
def IntersectListOfGroups(self, groups, name):
return self.mesh.IntersectListOfGroups(groups, name)
- ## Produces a cut of two groups
+ ## Produces a cut of two groups.
# A new group is created. All mesh elements that are present in
# the main group but are not present in the tool group are added to the new one
# @return an instance of SMESH_Group
def CutGroups(self, main_group, tool_group, name):
return self.mesh.CutGroups(main_group, tool_group, name)
- ## Produces a cut of groups
+ ## Produces a cut of groups.
# A new group is created. All mesh elements that are present in main groups
# but do not present in tool groups are added to the new one
# @return an instance of SMESH_Group
# @ingroup l2_grps_operon
def CutListOfGroups(self, main_groups, tool_groups, name):
- return self.mesh.CutListOfGroups(main_groups, tool_groups, name)
+ return self.mesh.CutListOfGroups(main_groups, tool_groups, name)
- ## Produces a group of elements of specified type using list of existing groups
- # A new group is created. System
- # 1) extracts all nodes on which groups elements are built
- # 2) combines all elements of specified dimension laying on these nodes
+ ##
+ # Create a standalone group of entities basing on nodes of other groups.
+ # \param groups - list of groups, sub-meshes or filters, of any type.
+ # \param elemType - a type of elements to include to the new group.
+ # \param name - a name of the new group.
+ # \param nbCommonNodes - a criterion of inclusion of an element to the new group
+ # basing on number of element nodes common with reference \a groups.
+ # Meaning of possible values are:
+ # - SMESH.ALL_NODES - include if all nodes are common,
+ # - SMESH.MAIN - include if all corner nodes are common (meaningful for a quadratic mesh),
+ # - SMESH.AT_LEAST_ONE - include if one or more node is common,
+ # - SMEHS.MAJORITY - include if half of nodes or more are common.
+ # \param underlyingOnly - if \c True (default), an element is included to the
+ # new group provided that it is based on nodes of one element of \a groups.
# @return an instance of SMESH_Group
# @ingroup l2_grps_operon
- def CreateDimGroup(self, groups, elem_type, name):
- return self.mesh.CreateDimGroup(groups, elem_type, name)
+ def CreateDimGroup(self, groups, elemType, name,
+ nbCommonNodes = SMESH.ALL_NODES, underlyingOnly = True):
+ if isinstance( groups, SMESH._objref_SMESH_IDSource ):
+ groups = [groups]
+ return self.mesh.CreateDimGroup(groups, elemType, name, nbCommonNodes, underlyingOnly)
## Convert group on geom into standalone group
def RenumberElements(self):
self.editor.RenumberElements()
- ## Generates new elements by rotation of the elements around the axis
- # @param IDsOfElements the list of ids of elements to sweep
- # @param Axis the axis of rotation, AxisStruct or line(geom object)
- # @param AngleInRadians the angle of Rotation (in radians) or a name of variable which defines angle in degrees
+ ## Private method converting \a arg into a list of SMESH_IdSource's
+ def _getIdSourceList(self, arg, idType, unRegister):
+ if arg and isinstance( arg, list ):
+ if isinstance( arg[0], int ):
+ arg = self.GetIDSource( arg, idType )
+ unRegister.set( arg )
+ elif isinstance( arg[0], Mesh ):
+ arg[0] = arg[0].GetMesh()
+ elif isinstance( arg, Mesh ):
+ arg = arg.GetMesh()
+ if arg and isinstance( arg, SMESH._objref_SMESH_IDSource ):
+ arg = [arg]
+ return arg
+
+ ## Generates new elements by rotation of the given elements and nodes around the axis
+ # @param nodes - nodes to revolve: a list including ids, groups, sub-meshes or a mesh
+ # @param edges - edges to revolve: a list including ids, groups, sub-meshes or a mesh
+ # @param faces - faces to revolve: a list including ids, groups, sub-meshes or a mesh
+ # @param Axis the axis of rotation: AxisStruct, line (geom object) or [x,y,z,dx,dy,dz]
+ # @param AngleInRadians the angle of Rotation (in radians) or a name of variable
+ # which defines angle in degrees
# @param NbOfSteps the number of steps
# @param Tolerance tolerance
# @param MakeGroups forces the generation of new groups from existing ones
# of all steps, else - size of each step
# @return the list of created groups (SMESH_GroupBase) if MakeGroups=True, empty list otherwise
# @ingroup l2_modif_extrurev
- def RotationSweep(self, IDsOfElements, Axis, AngleInRadians, NbOfSteps, Tolerance,
- MakeGroups=False, TotalAngle=False):
- if IDsOfElements == []:
- IDsOfElements = self.GetElementsId()
- if ( isinstance( Axis, geomBuilder.GEOM._objref_GEOM_Object)):
- Axis = self.smeshpyD.GetAxisStruct(Axis)
+ def RotationSweepObjects(self, nodes, edges, faces, Axis, AngleInRadians, NbOfSteps, Tolerance,
+ MakeGroups=False, TotalAngle=False):
+ unRegister = genObjUnRegister()
+ nodes = self._getIdSourceList( nodes, SMESH.NODE, unRegister )
+ edges = self._getIdSourceList( edges, SMESH.EDGE, unRegister )
+ faces = self._getIdSourceList( faces, SMESH.FACE, unRegister )
+
+ if isinstance( Axis, geomBuilder.GEOM._objref_GEOM_Object):
+ Axis = self.smeshpyD.GetAxisStruct( Axis )
+ if isinstance( Axis, list ):
+ Axis = SMESH.AxisStruct( *Axis )
+
AngleInRadians,AngleParameters,hasVars = ParseAngles(AngleInRadians)
NbOfSteps,Tolerance,Parameters,hasVars = ParseParameters(NbOfSteps,Tolerance)
Parameters = Axis.parameters + var_separator + AngleParameters + var_separator + Parameters
self.mesh.SetParameters(Parameters)
if TotalAngle and NbOfSteps:
AngleInRadians /= NbOfSteps
- if MakeGroups:
- return self.editor.RotationSweepMakeGroups(IDsOfElements, Axis,
- AngleInRadians, NbOfSteps, Tolerance)
- self.editor.RotationSweep(IDsOfElements, Axis, AngleInRadians, NbOfSteps, Tolerance)
- return []
+ return self.editor.RotationSweepObjects( nodes, edges, faces,
+ Axis, AngleInRadians,
+ NbOfSteps, Tolerance, MakeGroups)
+
+ ## Generates new elements by rotation of the elements around the axis
+ # @param IDsOfElements the list of ids of elements to sweep
+ # @param Axis the axis of rotation, AxisStruct or line(geom object)
+ # @param AngleInRadians the angle of Rotation (in radians) or a name of variable which defines angle in degrees
+ # @param NbOfSteps the number of steps
+ # @param Tolerance tolerance
+ # @param MakeGroups forces the generation of new groups from existing ones
+ # @param TotalAngle gives meaning of AngleInRadians: if True then it is an angular size
+ # of all steps, else - size of each step
+ # @return the list of created groups (SMESH_GroupBase) if MakeGroups=True, empty list otherwise
+ # @ingroup l2_modif_extrurev
+ def RotationSweep(self, IDsOfElements, Axis, AngleInRadians, NbOfSteps, Tolerance,
+ MakeGroups=False, TotalAngle=False):
+ return self.RotationSweepObjects([], IDsOfElements, IDsOfElements, Axis,
+ AngleInRadians, NbOfSteps, Tolerance,
+ MakeGroups, TotalAngle)
## Generates new elements by rotation of the elements of object around the axis
# @param theObject object which elements should be sweeped.
# @ingroup l2_modif_extrurev
def RotationSweepObject(self, theObject, Axis, AngleInRadians, NbOfSteps, Tolerance,
MakeGroups=False, TotalAngle=False):
- if ( isinstance( theObject, Mesh )):
- theObject = theObject.GetMesh()
- if ( isinstance( Axis, geomBuilder.GEOM._objref_GEOM_Object)):
- Axis = self.smeshpyD.GetAxisStruct(Axis)
- AngleInRadians,AngleParameters,hasVars = ParseAngles(AngleInRadians)
- NbOfSteps,Tolerance,Parameters,hasVars = ParseParameters(NbOfSteps,Tolerance)
- Parameters = Axis.parameters + var_separator + AngleParameters + var_separator + Parameters
- self.mesh.SetParameters(Parameters)
- if TotalAngle and NbOfSteps:
- AngleInRadians /= NbOfSteps
- if MakeGroups:
- return self.editor.RotationSweepObjectMakeGroups(theObject, Axis, AngleInRadians,
- NbOfSteps, Tolerance)
- self.editor.RotationSweepObject(theObject, Axis, AngleInRadians, NbOfSteps, Tolerance)
- return []
+ return self.RotationSweepObjects( [], theObject, theObject, Axis,
+ AngleInRadians, NbOfSteps, Tolerance,
+ MakeGroups, TotalAngle )
## Generates new elements by rotation of the elements of object around the axis
# @param theObject object which elements should be sweeped.
# @ingroup l2_modif_extrurev
def RotationSweepObject1D(self, theObject, Axis, AngleInRadians, NbOfSteps, Tolerance,
MakeGroups=False, TotalAngle=False):
- if ( isinstance( theObject, Mesh )):
- theObject = theObject.GetMesh()
- if ( isinstance( Axis, geomBuilder.GEOM._objref_GEOM_Object)):
- Axis = self.smeshpyD.GetAxisStruct(Axis)
- AngleInRadians,AngleParameters,hasVars = ParseAngles(AngleInRadians)
- NbOfSteps,Tolerance,Parameters,hasVars = ParseParameters(NbOfSteps,Tolerance)
- Parameters = Axis.parameters + var_separator + AngleParameters + var_separator + Parameters
- self.mesh.SetParameters(Parameters)
- if TotalAngle and NbOfSteps:
- AngleInRadians /= NbOfSteps
- if MakeGroups:
- return self.editor.RotationSweepObject1DMakeGroups(theObject, Axis, AngleInRadians,
- NbOfSteps, Tolerance)
- self.editor.RotationSweepObject1D(theObject, Axis, AngleInRadians, NbOfSteps, Tolerance)
- return []
+ return self.RotationSweepObjects([],theObject,[], Axis,
+ AngleInRadians, NbOfSteps, Tolerance,
+ MakeGroups, TotalAngle)
## Generates new elements by rotation of the elements of object around the axis
# @param theObject object which elements should be sweeped.
# @ingroup l2_modif_extrurev
def RotationSweepObject2D(self, theObject, Axis, AngleInRadians, NbOfSteps, Tolerance,
MakeGroups=False, TotalAngle=False):
- if ( isinstance( theObject, Mesh )):
- theObject = theObject.GetMesh()
- if ( isinstance( Axis, geomBuilder.GEOM._objref_GEOM_Object)):
- Axis = self.smeshpyD.GetAxisStruct(Axis)
- AngleInRadians,AngleParameters,hasVars = ParseAngles(AngleInRadians)
- NbOfSteps,Tolerance,Parameters,hasVars = ParseParameters(NbOfSteps,Tolerance)
- Parameters = Axis.parameters + var_separator + AngleParameters + var_separator + Parameters
- self.mesh.SetParameters(Parameters)
- if TotalAngle and NbOfSteps:
- AngleInRadians /= NbOfSteps
- if MakeGroups:
- return self.editor.RotationSweepObject2DMakeGroups(theObject, Axis, AngleInRadians,
- NbOfSteps, Tolerance)
- self.editor.RotationSweepObject2D(theObject, Axis, AngleInRadians, NbOfSteps, Tolerance)
- return []
+ return self.RotationSweepObjects([],[],theObject, Axis, AngleInRadians,
+ NbOfSteps, Tolerance, MakeGroups, TotalAngle)
- ## Generates new elements by extrusion of the elements with given ids
- # @param IDsOfElements the list of elements ids for extrusion
+ ## Generates new elements by extrusion of the given elements and nodes
+ # @param nodes - nodes to extrude: a list including ids, groups, sub-meshes or a mesh
+ # @param edges - edges to extrude: a list including ids, groups, sub-meshes or a mesh
+ # @param faces - faces to extrude: a list including ids, groups, sub-meshes or a mesh
# @param StepVector vector or DirStruct or 3 vector components, defining
# the direction and value of extrusion for one step (the total extrusion
# length will be NbOfSteps * ||StepVector||)
# @param NbOfSteps the number of steps
# @param MakeGroups forces the generation of new groups from existing ones
- # @param IsNodes is True if elements with given ids are nodes
# @return the list of created groups (SMESH_GroupBase) if MakeGroups=True, empty list otherwise
# @ingroup l2_modif_extrurev
- def ExtrusionSweep(self, IDsOfElements, StepVector, NbOfSteps, MakeGroups=False, IsNodes = False):
- if IDsOfElements == []:
- IDsOfElements = self.GetElementsId()
+ def ExtrusionSweepObjects(self, nodes, edges, faces, StepVector, NbOfSteps, MakeGroups=False):
+ unRegister = genObjUnRegister()
+ nodes = self._getIdSourceList( nodes, SMESH.NODE, unRegister )
+ edges = self._getIdSourceList( edges, SMESH.EDGE, unRegister )
+ faces = self._getIdSourceList( faces, SMESH.FACE, unRegister )
+
if isinstance( StepVector, geomBuilder.GEOM._objref_GEOM_Object):
StepVector = self.smeshpyD.GetDirStruct(StepVector)
if isinstance( StepVector, list ):
StepVector = self.smeshpyD.MakeDirStruct(*StepVector)
+
NbOfSteps,Parameters,hasVars = ParseParameters(NbOfSteps)
Parameters = StepVector.PS.parameters + var_separator + Parameters
self.mesh.SetParameters(Parameters)
- if MakeGroups:
- if(IsNodes):
- return self.editor.ExtrusionSweepMakeGroups0D(IDsOfElements, StepVector, NbOfSteps)
- else:
- return self.editor.ExtrusionSweepMakeGroups(IDsOfElements, StepVector, NbOfSteps)
- if(IsNodes):
- self.editor.ExtrusionSweep0D(IDsOfElements, StepVector, NbOfSteps)
- else:
- self.editor.ExtrusionSweep(IDsOfElements, StepVector, NbOfSteps)
- return []
+
+ return self.editor.ExtrusionSweepObjects( nodes, edges, faces,
+ StepVector, NbOfSteps, MakeGroups)
+
## Generates new elements by extrusion of the elements with given ids
- # @param IDsOfElements is ids of elements
+ # @param IDsOfElements the list of elements ids for extrusion
# @param StepVector vector or DirStruct or 3 vector components, defining
# the direction and value of extrusion for one step (the total extrusion
# length will be NbOfSteps * ||StepVector||)
# @param NbOfSteps the number of steps
- # @param ExtrFlags sets flags for extrusion
- # @param SewTolerance uses for comparing locations of nodes if flag
- # EXTRUSION_FLAG_SEW is set
# @param MakeGroups forces the generation of new groups from existing ones
- # @return list of created groups (SMESH_GroupBase) if MakeGroups=True, empty list otherwise
+ # @param IsNodes is True if elements with given ids are nodes
+ # @return the list of created groups (SMESH_GroupBase) if MakeGroups=True, empty list otherwise
# @ingroup l2_modif_extrurev
- def AdvancedExtrusion(self, IDsOfElements, StepVector, NbOfSteps,
- ExtrFlags, SewTolerance, MakeGroups=False):
- if ( isinstance( StepVector, geomBuilder.GEOM._objref_GEOM_Object)):
- StepVector = self.smeshpyD.GetDirStruct(StepVector)
- if isinstance( StepVector, list ):
- StepVector = self.smeshpyD.MakeDirStruct(*StepVector)
- if MakeGroups:
- return self.editor.AdvancedExtrusionMakeGroups(IDsOfElements, StepVector, NbOfSteps,
- ExtrFlags, SewTolerance)
- self.editor.AdvancedExtrusion(IDsOfElements, StepVector, NbOfSteps,
- ExtrFlags, SewTolerance)
- return []
+ def ExtrusionSweep(self, IDsOfElements, StepVector, NbOfSteps, MakeGroups=False, IsNodes = False):
+ n,e,f = [],[],[]
+ if IsNodes: n = IDsOfElements
+ else : e,f, = IDsOfElements,IDsOfElements
+ return self.ExtrusionSweepObjects(n,e,f, StepVector, NbOfSteps, MakeGroups)
## Generates new elements by extrusion along the normal to a discretized surface or wire
- # @param Elements container of elements to extrude;
- # it can be Mesh, Group, Sub-mesh, Filter or list of IDs;
- # Only faces can be extruded so far. Sub-mesh sould be a sub-mesh on geom faces.
+ # @param Elements elements to extrude - a list including ids, groups, sub-meshes or a mesh
+ # Only faces can be extruded so far. Sub-mesh should be a sub-mesh on geom faces.
# @param StepSize length of one extrusion step (the total extrusion
# length will be \a NbOfSteps * \a StepSize ).
# @param NbOfSteps number of extrusion steps.
ByAverageNormal=False, UseInputElemsOnly=True, MakeGroups=False, Dim = 2):
unRegister = genObjUnRegister()
if isinstance( Elements, Mesh ):
- Elements = Elements.GetMesh()
+ Elements = [ Elements.GetMesh() ]
if isinstance( Elements, list ):
if not Elements:
- raise RuntimeError, "List of element IDs is empty!"
- if not isinstance( Elements[0], int ):
- raise RuntimeError, "List must contain element IDs and not %s"% Elements[0]
- Elements = self.GetIDSource( Elements, SMESH.ALL )
- unRegister.set( Elements )
+ raise RuntimeError, "Elements empty!"
+ if isinstance( Elements[0], int ):
+ Elements = self.GetIDSource( Elements, SMESH.ALL )
+ unRegister.set( Elements )
+ if not isinstance( Elements, list ):
+ Elements = [ Elements ]
StepSize,NbOfSteps,Parameters,hasVars = ParseParameters(StepSize,NbOfSteps)
self.mesh.SetParameters(Parameters)
return self.editor.ExtrusionByNormal(Elements, StepSize, NbOfSteps,
- UseInputElemsOnly, ByAverageNormal, MakeGroups, Dim)
+ ByAverageNormal, UseInputElemsOnly, MakeGroups, Dim)
## Generates new elements by extrusion of the elements which belong to the object
# @param theObject the object which elements should be processed.
# length will be NbOfSteps * ||StepVector||)
# @param NbOfSteps the number of steps
# @param MakeGroups forces the generation of new groups from existing ones
- # @param IsNodes is True if elements which belong to the object are nodes
+ # @param IsNodes is True if elements to extrude are nodes
# @return list of created groups (SMESH_GroupBase) if MakeGroups=True, empty list otherwise
# @ingroup l2_modif_extrurev
def ExtrusionSweepObject(self, theObject, StepVector, NbOfSteps, MakeGroups=False, IsNodes=False):
- if ( isinstance( theObject, Mesh )):
- theObject = theObject.GetMesh()
- if ( isinstance( StepVector, geomBuilder.GEOM._objref_GEOM_Object)):
- StepVector = self.smeshpyD.GetDirStruct(StepVector)
- if isinstance( StepVector, list ):
- StepVector = self.smeshpyD.MakeDirStruct(*StepVector)
- NbOfSteps,Parameters,hasVars = ParseParameters(NbOfSteps)
- Parameters = StepVector.PS.parameters + var_separator + Parameters
- self.mesh.SetParameters(Parameters)
- if MakeGroups:
- if(IsNodes):
- return self.editor.ExtrusionSweepObject0DMakeGroups(theObject, StepVector, NbOfSteps)
- else:
- return self.editor.ExtrusionSweepObjectMakeGroups(theObject, StepVector, NbOfSteps)
- if(IsNodes):
- self.editor.ExtrusionSweepObject0D(theObject, StepVector, NbOfSteps)
- else:
- self.editor.ExtrusionSweepObject(theObject, StepVector, NbOfSteps)
- return []
+ n,e,f = [],[],[]
+ if IsNodes: n = theObject
+ else : e,f, = theObject,theObject
+ return self.ExtrusionSweepObjects(n,e,f, StepVector, NbOfSteps, MakeGroups)
## Generates new elements by extrusion of the elements which belong to the object
# @param theObject object which elements should be processed.
# @return list of created groups (SMESH_GroupBase) if MakeGroups=True, empty list otherwise
# @ingroup l2_modif_extrurev
def ExtrusionSweepObject1D(self, theObject, StepVector, NbOfSteps, MakeGroups=False):
- if ( isinstance( theObject, Mesh )):
- theObject = theObject.GetMesh()
- if ( isinstance( StepVector, geomBuilder.GEOM._objref_GEOM_Object)):
- StepVector = self.smeshpyD.GetDirStruct(StepVector)
- if isinstance( StepVector, list ):
- StepVector = self.smeshpyD.MakeDirStruct(*StepVector)
- NbOfSteps,Parameters,hasVars = ParseParameters(NbOfSteps)
- Parameters = StepVector.PS.parameters + var_separator + Parameters
- self.mesh.SetParameters(Parameters)
- if MakeGroups:
- return self.editor.ExtrusionSweepObject1DMakeGroups(theObject, StepVector, NbOfSteps)
- self.editor.ExtrusionSweepObject1D(theObject, StepVector, NbOfSteps)
- return []
+ return self.ExtrusionSweepObjects([],theObject,[], StepVector, NbOfSteps, MakeGroups)
## Generates new elements by extrusion of the elements which belong to the object
# @param theObject object which elements should be processed.
# @return list of created groups (SMESH_GroupBase) if MakeGroups=True, empty list otherwise
# @ingroup l2_modif_extrurev
def ExtrusionSweepObject2D(self, theObject, StepVector, NbOfSteps, MakeGroups=False):
- if ( isinstance( theObject, Mesh )):
- theObject = theObject.GetMesh()
- if ( isinstance( StepVector, geomBuilder.GEOM._objref_GEOM_Object)):
+ return self.ExtrusionSweepObjects([],[],theObject, StepVector, NbOfSteps, MakeGroups)
+
+ ## Generates new elements by extrusion of the elements with given ids
+ # @param IDsOfElements is ids of elements
+ # @param StepVector vector or DirStruct or 3 vector components, defining
+ # the direction and value of extrusion for one step (the total extrusion
+ # length will be NbOfSteps * ||StepVector||)
+ # @param NbOfSteps the number of steps
+ # @param ExtrFlags sets flags for extrusion
+ # @param SewTolerance uses for comparing locations of nodes if flag
+ # EXTRUSION_FLAG_SEW is set
+ # @param MakeGroups forces the generation of new groups from existing ones
+ # @return list of created groups (SMESH_GroupBase) if MakeGroups=True, empty list otherwise
+ # @ingroup l2_modif_extrurev
+ def AdvancedExtrusion(self, IDsOfElements, StepVector, NbOfSteps,
+ ExtrFlags, SewTolerance, MakeGroups=False):
+ if isinstance( StepVector, geomBuilder.GEOM._objref_GEOM_Object):
StepVector = self.smeshpyD.GetDirStruct(StepVector)
if isinstance( StepVector, list ):
StepVector = self.smeshpyD.MakeDirStruct(*StepVector)
- NbOfSteps,Parameters,hasVars = ParseParameters(NbOfSteps)
- Parameters = StepVector.PS.parameters + var_separator + Parameters
- self.mesh.SetParameters(Parameters)
- if MakeGroups:
- return self.editor.ExtrusionSweepObject2DMakeGroups(theObject, StepVector, NbOfSteps)
- self.editor.ExtrusionSweepObject2D(theObject, StepVector, NbOfSteps)
- return []
+ return self.editor.AdvancedExtrusion(IDsOfElements, StepVector, NbOfSteps,
+ ExtrFlags, SewTolerance, MakeGroups)
+ ## Generates new elements by extrusion of the given elements and nodes along the path.
+ # The path of extrusion must be a meshed edge.
+ # @param Nodes nodes to extrude: a list including ids, groups, sub-meshes or a mesh
+ # @param Edges edges to extrude: a list including ids, groups, sub-meshes or a mesh
+ # @param Faces faces to extrude: a list including ids, groups, sub-meshes or a mesh
+ # @param PathMesh 1D mesh or 1D sub-mesh, along which proceeds the extrusion
+ # @param PathShape shape (edge) defines the sub-mesh of PathMesh if PathMesh
+ # contains not only path segments, else it can be None
+ # @param NodeStart the first or the last node on the path. Defines the direction of extrusion
+ # @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
+ # @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=[], 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 )
+ Faces = self._getIdSourceList( Faces, SMESH.FACE, unRegister )
+ if isinstance( RefPoint, geomBuilder.GEOM._objref_GEOM_Object):
+ RefPoint = self.smeshpyD.GetPointStruct(RefPoint)
+ if isinstance( RefPoint, list ):
+ RefPoint = SMESH.PointStruct( *RefPoint )
+ if isinstance( PathMesh, Mesh ):
+ PathMesh = PathMesh.GetMesh()
+ Angles,AnglesParameters,hasVars = ParseAngles(Angles)
+ Parameters = AnglesParameters + var_separator + RefPoint.parameters
+ self.mesh.SetParameters(Parameters)
+ return self.editor.ExtrusionAlongPathObjects(Nodes, Edges, Faces,
+ PathMesh, PathShape, NodeStart,
+ HasAngles, Angles, LinearVariation,
+ HasRefPoint, RefPoint, MakeGroups)
## Generates new elements by extrusion of the given elements
# The path of extrusion must be a meshed edge.
def ExtrusionAlongPathX(self, Base, Path, NodeStart,
HasAngles, Angles, LinearVariation,
HasRefPoint, RefPoint, MakeGroups, ElemType):
- if isinstance( RefPoint, geomBuilder.GEOM._objref_GEOM_Object):
- RefPoint = self.smeshpyD.GetPointStruct(RefPoint)
- pass
- elif isinstance( RefPoint, list ):
- RefPoint = PointStruct(*RefPoint)
- pass
- Angles,AnglesParameters,hasVars = ParseAngles(Angles)
- Parameters = AnglesParameters + var_separator + RefPoint.parameters
- self.mesh.SetParameters(Parameters)
-
- if (isinstance(Path, Mesh)): Path = Path.GetMesh()
-
- if isinstance(Base, list):
- IDsOfElements = []
- if Base == []: IDsOfElements = self.GetElementsId()
- else: IDsOfElements = Base
- return self.editor.ExtrusionAlongPathX(IDsOfElements, Path, NodeStart,
- HasAngles, Angles, LinearVariation,
- HasRefPoint, RefPoint, MakeGroups, ElemType)
- else:
- if isinstance(Base, Mesh): Base = Base.GetMesh()
- if isinstance(Base, SMESH._objref_SMESH_Mesh) or isinstance(Base, SMESH._objref_SMESH_Group) or isinstance(Base, SMESH._objref_SMESH_subMesh):
- return self.editor.ExtrusionAlongPathObjX(Base, Path, NodeStart,
- HasAngles, Angles, LinearVariation,
- HasRefPoint, RefPoint, MakeGroups, ElemType)
- else:
- raise RuntimeError, "Invalid Base for ExtrusionAlongPathX"
-
+ n,e,f = [],[],[]
+ if ElemType == SMESH.NODE: n = Base
+ if ElemType == SMESH.EDGE: e = Base
+ if ElemType == SMESH.FACE: f = Base
+ gr,er = self.ExtrusionAlongPathObjects(n,e,f, Path, None, NodeStart,
+ HasAngles, Angles, LinearVariation,
+ HasRefPoint, RefPoint, MakeGroups)
+ if MakeGroups: return gr,er
+ return er
## Generates new elements by extrusion of the given elements
# The path of extrusion must be a meshed edge.
def ExtrusionAlongPath(self, IDsOfElements, PathMesh, PathShape, NodeStart,
HasAngles, Angles, HasRefPoint, RefPoint,
MakeGroups=False, LinearVariation=False):
- if IDsOfElements == []:
- IDsOfElements = self.GetElementsId()
- if ( isinstance( RefPoint, geomBuilder.GEOM._objref_GEOM_Object)):
- RefPoint = self.smeshpyD.GetPointStruct(RefPoint)
- pass
- if ( isinstance( PathMesh, Mesh )):
- PathMesh = PathMesh.GetMesh()
- Angles,AnglesParameters,hasVars = ParseAngles(Angles)
- Parameters = AnglesParameters + var_separator + RefPoint.parameters
- self.mesh.SetParameters(Parameters)
- if HasAngles and Angles and LinearVariation:
- Angles = self.editor.LinearAnglesVariation( PathMesh, PathShape, Angles )
- pass
- if MakeGroups:
- return self.editor.ExtrusionAlongPathMakeGroups(IDsOfElements, PathMesh,
- PathShape, NodeStart, HasAngles,
- Angles, HasRefPoint, RefPoint)
- return self.editor.ExtrusionAlongPath(IDsOfElements, PathMesh, PathShape,
- NodeStart, HasAngles, Angles, HasRefPoint, RefPoint)
+ n,e,f = [],IDsOfElements,IDsOfElements
+ gr,er = self.ExtrusionAlongPathObjects(n,e,f, PathMesh, PathShape,
+ NodeStart, HasAngles, Angles,
+ LinearVariation,
+ HasRefPoint, RefPoint, MakeGroups)
+ if MakeGroups: return gr,er
+ return er
## Generates new elements by extrusion of the elements which belong to the object
# The path of extrusion must be a meshed edge.
# @param theObject the object which elements should be processed.
- # It can be a mesh, a sub mesh or a group.
+ # It can be a mesh, a sub-mesh or a group.
# @param PathMesh mesh containing a 1D sub-mesh on the edge, along which the extrusion proceeds
# @param PathShape shape(edge) defines the sub-mesh for the path
# @param NodeStart the first or the last node on the edge. Defines the direction of extrusion
def ExtrusionAlongPathObject(self, theObject, PathMesh, PathShape, NodeStart,
HasAngles, Angles, HasRefPoint, RefPoint,
MakeGroups=False, LinearVariation=False):
- if ( isinstance( theObject, Mesh )):
- theObject = theObject.GetMesh()
- if ( isinstance( RefPoint, geomBuilder.GEOM._objref_GEOM_Object)):
- RefPoint = self.smeshpyD.GetPointStruct(RefPoint)
- if ( isinstance( PathMesh, Mesh )):
- PathMesh = PathMesh.GetMesh()
- Angles,AnglesParameters,hasVars = ParseAngles(Angles)
- Parameters = AnglesParameters + var_separator + RefPoint.parameters
- self.mesh.SetParameters(Parameters)
- if HasAngles and Angles and LinearVariation:
- Angles = self.editor.LinearAnglesVariation( PathMesh, PathShape, Angles )
- pass
- if MakeGroups:
- return self.editor.ExtrusionAlongPathObjectMakeGroups(theObject, PathMesh,
- PathShape, NodeStart, HasAngles,
- Angles, HasRefPoint, RefPoint)
- return self.editor.ExtrusionAlongPathObject(theObject, PathMesh, PathShape,
- NodeStart, HasAngles, Angles, HasRefPoint,
- RefPoint)
+ n,e,f = [],theObject,theObject
+ gr,er = self.ExtrusionAlongPathObjects(n,e,f, PathMesh, PathShape, NodeStart,
+ HasAngles, Angles, LinearVariation,
+ HasRefPoint, RefPoint, MakeGroups)
+ if MakeGroups: return gr,er
+ return er
## Generates new elements by extrusion of the elements which belong to the object
# The path of extrusion must be a meshed edge.
def ExtrusionAlongPathObject1D(self, theObject, PathMesh, PathShape, NodeStart,
HasAngles, Angles, HasRefPoint, RefPoint,
MakeGroups=False, LinearVariation=False):
- if ( isinstance( theObject, Mesh )):
- theObject = theObject.GetMesh()
- if ( isinstance( RefPoint, geomBuilder.GEOM._objref_GEOM_Object)):
- RefPoint = self.smeshpyD.GetPointStruct(RefPoint)
- if ( isinstance( PathMesh, Mesh )):
- PathMesh = PathMesh.GetMesh()
- Angles,AnglesParameters,hasVars = ParseAngles(Angles)
- Parameters = AnglesParameters + var_separator + RefPoint.parameters
- self.mesh.SetParameters(Parameters)
- if HasAngles and Angles and LinearVariation:
- Angles = self.editor.LinearAnglesVariation( PathMesh, PathShape, Angles )
- pass
- if MakeGroups:
- return self.editor.ExtrusionAlongPathObject1DMakeGroups(theObject, PathMesh,
- PathShape, NodeStart, HasAngles,
- Angles, HasRefPoint, RefPoint)
- return self.editor.ExtrusionAlongPathObject1D(theObject, PathMesh, PathShape,
- NodeStart, HasAngles, Angles, HasRefPoint,
- RefPoint)
+ n,e,f = [],theObject,[]
+ gr,er = self.ExtrusionAlongPathObjects(n,e,f, PathMesh, PathShape, NodeStart,
+ HasAngles, Angles, LinearVariation,
+ HasRefPoint, RefPoint, MakeGroups)
+ if MakeGroups: return gr,er
+ return er
## Generates new elements by extrusion of the elements which belong to the object
# The path of extrusion must be a meshed edge.
def ExtrusionAlongPathObject2D(self, theObject, PathMesh, PathShape, NodeStart,
HasAngles, Angles, HasRefPoint, RefPoint,
MakeGroups=False, LinearVariation=False):
- if ( isinstance( theObject, Mesh )):
- theObject = theObject.GetMesh()
- if ( isinstance( RefPoint, geomBuilder.GEOM._objref_GEOM_Object)):
- RefPoint = self.smeshpyD.GetPointStruct(RefPoint)
- if ( isinstance( PathMesh, Mesh )):
- PathMesh = PathMesh.GetMesh()
- Angles,AnglesParameters,hasVars = ParseAngles(Angles)
- Parameters = AnglesParameters + var_separator + RefPoint.parameters
- self.mesh.SetParameters(Parameters)
- if HasAngles and Angles and LinearVariation:
- Angles = self.editor.LinearAnglesVariation( PathMesh, PathShape, Angles )
- pass
- if MakeGroups:
- return self.editor.ExtrusionAlongPathObject2DMakeGroups(theObject, PathMesh,
- PathShape, NodeStart, HasAngles,
- Angles, HasRefPoint, RefPoint)
- return self.editor.ExtrusionAlongPathObject2D(theObject, PathMesh, PathShape,
- NodeStart, HasAngles, Angles, HasRefPoint,
- RefPoint)
+ n,e,f = [],[],theObject
+ gr,er = self.ExtrusionAlongPathObjects(n,e,f, PathMesh, PathShape, NodeStart,
+ HasAngles, Angles, LinearVariation,
+ HasRefPoint, RefPoint, MakeGroups)
+ if MakeGroups: return gr,er
+ return er
## Creates a symmetrical copy of mesh elements
# @param IDsOfElements list of elements ids
return self.editor.FindCoincidentNodesOnPartBut(SubMeshOrGroup, Tolerance,exceptNodes)
## Merges nodes
- # @param GroupsOfNodes a list of pairs of nodes IDs for merging (e.g. [[1,12],[25,4]])
+ # @param GroupsOfNodes a list of pairs of nodes IDs for merging
+ # (e.g. [[1,12],[25,4]], then nodes 12 and 4 will be removed and replaced
+ # by nodes 1 and 25 correspondingly in all elements and groups
# @ingroup l2_modif_trsf
def MergeNodes (self, GroupsOfNodes):
self.editor.MergeNodes(GroupsOfNodes)
# @param MeshOrSubMeshOrGroup Mesh or SubMesh, or Group of elements for searching
# @return the list of pairs of equal elements IDs (e.g. [[1,12],[25,4]])
# @ingroup l2_modif_trsf
- def FindEqualElements (self, MeshOrSubMeshOrGroup):
- if ( isinstance( MeshOrSubMeshOrGroup, Mesh )):
+ def FindEqualElements (self, MeshOrSubMeshOrGroup=None):
+ if not MeshOrSubMeshOrGroup:
+ MeshOrSubMeshOrGroup=self.mesh
+ elif isinstance( MeshOrSubMeshOrGroup, Mesh ):
MeshOrSubMeshOrGroup = MeshOrSubMeshOrGroup.GetMesh()
- return self.editor.FindEqualElements(MeshOrSubMeshOrGroup)
+ return self.editor.FindEqualElements( MeshOrSubMeshOrGroup )
## Merges elements in each given group.
- # @param GroupsOfElementsID a list of pairs of elements IDs for merging (e.g. [[1,12],[25,4]])
+ # @param GroupsOfElementsID a list of pairs of elements IDs for merging
+ # (e.g. [[1,12],[25,4]], then elements 12 and 4 will be removed and
+ # replaced by elements 1 and 25 in all groups)
# @ingroup l2_modif_trsf
def MergeElements(self, GroupsOfElementsID):
self.editor.MergeElements(GroupsOfElementsID)
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
pass # end of Mesh class
+## class used to add to SMESH_MeshEditor methods removed from its CORBA API
+#
+class meshEditor(SMESH._objref_SMESH_MeshEditor):
+ def __init__(self):
+ SMESH._objref_SMESH_MeshEditor.__init__(self)
+ self.mesh = None
+ def __getattr__(self, name ): # method called if an attribute not found
+ if not self.mesh: # look for name() method in Mesh class
+ self.mesh = Mesh( None, None, SMESH._objref_SMESH_MeshEditor.GetMesh(self))
+ if hasattr( self.mesh, name ):
+ return getattr( self.mesh, name )
+ if name == "ExtrusionAlongPathObjX":
+ return getattr( self.mesh, "ExtrusionAlongPathX" )
+ print name, "NOT FOUND"
+ return None
+ pass
+omniORB.registerObjref(SMESH._objref_SMESH_MeshEditor._NP_RepositoryId, meshEditor)
+
## Helper class for wrapping of SMESH.SMESH_Pattern CORBA class
#
class Pattern(SMESH._objref_SMESH_Pattern):
