X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=src%2FSMESH_SWIG%2FsmeshDC.py;h=f79bd99e8ac2ce342bd6ae6bf3bb86ecd60ba10b;hb=4ec1bfaca14d51dc1c0a166381947bff76aff278;hp=3c36b1be6721ceb0c135ebd36e2219e706a58b91;hpb=d44f22428b2b8255f0481f9ff5c1c459b7d395b7;p=modules%2Fsmesh.git diff --git a/src/SMESH_SWIG/smeshDC.py b/src/SMESH_SWIG/smeshDC.py index 3c36b1be6..f79bd99e8 100644 --- a/src/SMESH_SWIG/smeshDC.py +++ b/src/SMESH_SWIG/smeshDC.py @@ -1,4 +1,4 @@ -# Copyright (C) 2007-2011 CEA/DEN, EDF R&D, OPEN CASCADE +# Copyright (C) 2007-2012 CEA/DEN, EDF R&D, OPEN CASCADE # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public @@ -256,7 +256,9 @@ def TreatHypoStatus(status, hypName, geomName, isAlgo): def AssureGeomPublished(mesh, geom, name=''): if not isinstance( geom, geompyDC.GEOM._objref_GEOM_Object ): return - if not geom.IsSame( mesh.geom ) and not geom.GetStudyEntry(): + if not geom.IsSame( mesh.geom ) and \ + not geom.GetStudyEntry() and \ + mesh.smeshpyD.GetCurrentStudy(): ## set the study studyID = mesh.smeshpyD.GetCurrentStudy()._get_StudyId() if studyID != mesh.geompyD.myStudyId: @@ -443,6 +445,11 @@ class smeshDC(SMESH._objref_SMESH_Gen): self.geompyD=geompyD self.SetGeomEngine(geompyD) SMESH._objref_SMESH_Gen.SetCurrentStudy(self,theStudy) + global notebook + if theStudy: + notebook = salome_notebook.NoteBook( theStudy ) + else: + notebook = salome_notebook.NoteBook( salome_notebook.PseudoStudyForNoteBook() ) ## Gets the current study # @ingroup l1_auxiliary @@ -957,15 +964,17 @@ class Mesh: if obj is None: obj = 0 if obj != 0: + objHasName = True if isinstance(obj, geompyDC.GEOM._objref_GEOM_Object): self.geom = obj # publish geom of mesh (issue 0021122) - if not self.geom.GetStudyEntry(): + if not self.geom.GetStudyEntry() and smeshpyD.GetCurrentStudy(): + objHasName = False studyID = smeshpyD.GetCurrentStudy()._get_StudyId() if studyID != geompyD.myStudyId: geompyD.init_geom( smeshpyD.GetCurrentStudy()) pass - geo_name = "%s_%s"%(self.geom.GetShapeType(), id(self.geom)%100) + geo_name = "%s_%s_for_meshing"%(self.geom.GetShapeType(), id(self.geom)%100) geompyD.addToStudy( self.geom, geo_name ) self.mesh = self.smeshpyD.CreateMesh(self.geom) @@ -975,7 +984,7 @@ class Mesh: self.mesh = self.smeshpyD.CreateEmptyMesh() if name != 0: self.smeshpyD.SetName(self.mesh, name) - elif obj != 0: + elif obj != 0 and objHasName: self.smeshpyD.SetName(self.mesh, GetName(obj)) if not self.geom: @@ -1174,7 +1183,7 @@ class Mesh: if errText: errText += ". " errText += err.comment if allReasons != "":allReasons += "\n" - allReasons += '"%s" failed%s. Error: %s' %(err.algoName, shapeText, errText) + allReasons += '- "%s" failed%s. Error: %s' %(err.algoName, shapeText, errText) pass # Treat hyp errors @@ -1205,17 +1214,18 @@ class Mesh: " Revise Mesh.Compute() implementation in smeshDC.py!" pass if allReasons != "":allReasons += "\n" - allReasons += reason + allReasons += "- " + reason pass - if allReasons != "": - print '"' + GetName(self.mesh) + '"',"has not been computed:" + if not ok or allReasons != "": + msg = '"' + GetName(self.mesh) + '"' + if ok: msg += " has been computed with warnings" + else: msg += " has not been computed" + if allReasons != "": msg += ":" + else: msg += "." + print msg print allReasons - ok = False - elif not ok: - print '"' + GetName(self.mesh) + '"',"has not been computed." - pass pass - if salome.sg.hasDesktop(): + if salome.sg.hasDesktop() and self.mesh.GetStudyId() >= 0: smeshgui = salome.ImportComponentGUI("SMESH") smeshgui.Init(self.mesh.GetStudyId()) smeshgui.SetMeshIcon( salome.ObjectToID( self.mesh ), ok, (self.NbNodes()==0) ) @@ -1304,6 +1314,7 @@ class Mesh: if not geom: geom = self.mesh.GetShapeToMesh() pass + AssureGeomPublished( self, geom, "shape for %s" % hyp.GetName()) status = self.mesh.AddHypothesis(geom, hyp) isAlgo = hyp._narrow( SMESH_Algo ) hyp_name = GetName( hyp ) @@ -3844,12 +3855,20 @@ class Mesh: # @param theAffectedElems - group of elements to which the replicated nodes # should be associated to. # @param theMakeGroup forces the generation of a group containing new elements. - # @return TRUE or a created group if operation has been completed successfully, + # @param theMakeNodeGroup forces the generation of a group containing new nodes. + # @return TRUE or created groups (one or two) if operation has been completed successfully, # FALSE or None otherwise # @ingroup l2_modif_edit - def DoubleNodeElemGroup(self, theElems, theNodesNot, theAffectedElems, theMakeGroup=False): - if theMakeGroup: - return self.editor.DoubleNodeElemGroupNew(theElems, theNodesNot, theAffectedElems) + def DoubleNodeElemGroup(self, theElems, theNodesNot, theAffectedElems, + theMakeGroup=False, theMakeNodeGroup=False): + if theMakeGroup or theMakeNodeGroup: + twoGroups = self.editor.DoubleNodeElemGroup2New(theElems, theNodesNot, + theAffectedElems, + theMakeGroup, theMakeNodeGroup) + if theMakeGroup and theMakeNodeGroup: + return twoGroups + else: + return twoGroups[ int(theMakeNodeGroup) ] return self.editor.DoubleNodeElemGroup(theElems, theNodesNot, theAffectedElems) ## Creates a hole in a mesh by doubling the nodes of some particular elements @@ -3870,12 +3889,20 @@ class Mesh: # @param theAffectedElems - group of elements to which the replicated nodes # should be associated to. # @param theMakeGroup forces the generation of a group containing new elements. - # @return TRUE or a created group if operation has been completed successfully, + # @param theMakeNodeGroup forces the generation of a group containing new nodes. + # @return TRUE or created groups (one or two) if operation has been completed successfully, # FALSE or None otherwise # @ingroup l2_modif_edit - def DoubleNodeElemGroups(self, theElems, theNodesNot, theAffectedElems, theMakeGroup=False): - if theMakeGroup: - return self.editor.DoubleNodeElemGroupsNew(theElems, theNodesNot, theAffectedElems) + def DoubleNodeElemGroups(self, theElems, theNodesNot, theAffectedElems, + theMakeGroup=False, theMakeNodeGroup=False): + if theMakeGroup or theMakeNodeGroup: + twoGroups = self.editor.DoubleNodeElemGroups2New(theElems, theNodesNot, + theAffectedElems, + theMakeGroup, theMakeNodeGroup) + if theMakeGroup and theMakeNodeGroup: + return twoGroups + else: + return twoGroups[ int(theMakeNodeGroup) ] return self.editor.DoubleNodeElemGroups(theElems, theNodesNot, theAffectedElems) ## Creates a hole in a mesh by doubling the nodes of some particular elements @@ -4064,6 +4091,7 @@ class Mesh_Algorithm: # @return SMESH.SMESH_Algo def FindAlgorithm (self, algoname, smeshpyD): study = smeshpyD.GetCurrentStudy() + if not study: return None #to do: find component by smeshpyD object, not by its data type scomp = study.FindComponent(smeshpyD.ComponentDataType()) if scomp is not None: @@ -4202,15 +4230,10 @@ class Mesh_Algorithm: ## Returns entry of the shape to mesh in the study def MainShapeEntry(self): - entry = "" - if not self.mesh or not self.mesh.GetMesh(): return entry - if not self.mesh.GetMesh().HasShapeToMesh(): return entry - study = self.mesh.smeshpyD.GetCurrentStudy() - ior = salome.orb.object_to_string( self.mesh.GetShape() ) - sobj = study.FindObjectIOR(ior) - if sobj: entry = sobj.GetID() - if not entry: return "" - return entry + if not self.mesh or not self.mesh.GetMesh(): return "" + if not self.mesh.GetMesh().HasShapeToMesh(): return "" + shape = self.mesh.GetShape() + return shape.GetStudyEntry() ## Defines "ViscousLayers" hypothesis to give parameters of layers of prisms to build # near mesh boundary. This hypothesis can be used by several 3D algorithms: