From: eap Date: Thu, 16 Feb 2006 08:21:47 +0000 (+0000) Subject: PAL11200. Print diagnostics on failed hypothesis assignation and on hypo definition... X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=40921fe0ae112007239860d76f63a4c420c2dde8;p=modules%2Fsmesh.git PAL11200. Print diagnostics on failed hypothesis assignation and on hypo definition if computation fails. Add fineness parameter to "Automatic...lization" --- diff --git a/src/SMESH_SWIG/smesh.py b/src/SMESH_SWIG/smesh.py index fe237e511..17e4b8ac5 100644 --- a/src/SMESH_SWIG/smesh.py +++ b/src/SMESH_SWIG/smesh.py @@ -92,6 +92,36 @@ class Mesh_Algorithm: """ return self.algo + def TreatHypoStatus(self, status, hypName, geomName, isAlgo): + """ + Private method. Print error message if a hypothesis was not assigned + """ + if isAlgo: + hypType = "algorithm" + else: + hypType = "hypothesis" + if status == SMESH.HYP_UNKNOWN_FATAL : + reason = "for unknown reason" + elif status == SMESH.HYP_INCOMPATIBLE : + reason = "this hypothesis mismatches algorithm" + elif status == SMESH.HYP_NOTCONFORM : + reason = "not conform mesh would be built" + elif status == SMESH.HYP_ALREADY_EXIST : + reason = hypType + " of the same dimension already assigned to this shape" + elif status == SMESH.HYP_BAD_DIM : + reason = hypType + " mismatches shape" + elif status == SMESH.HYP_CONCURENT : + reason = "there are concurrent hypotheses on sub-shapes" + else: + return + hypName = '"' + hypName + '"' + geomName= '"' + geomName+ '"' + if status < SMESH.HYP_UNKNOWN_FATAL: + print hypName, "was assigned to", geomName,"but", reason + else: + print hypName, "was not assigned to",geomName,":", reason + pass + def Create(self, mesh, geom, hypo, so="libStdMeshersEngine.so"): """ Private method @@ -111,7 +141,8 @@ class Mesh_Algorithm: self.algo = smesh.CreateHypothesis(hypo, so) SetName(self.algo, name + "/" + hypo) - mesh.mesh.AddHypothesis(self.geom, self.algo) + status = mesh.mesh.AddHypothesis(self.geom, self.algo) + self.TreatHypoStatus( status, hypo, name, 1 ) def Hypothesis(self, hyp, args=[], so="libStdMeshersEngine.so"): """ @@ -126,8 +157,10 @@ class Mesh_Algorithm: a = a + s + str(args[i]) s = "," i = i + 1 - SetName(hypo, GetName(self.geom) + "/" + hyp + a) - self.mesh.mesh.AddHypothesis(self.geom, hypo) + name = GetName(self.geom) + SetName(hypo, name + "/" + hyp + a) + status = self.mesh.mesh.AddHypothesis(self.geom, hypo) + self.TreatHypoStatus( status, hyp, name, 0 ) return hypo # Public class: Mesh_Segment @@ -206,7 +239,7 @@ class Mesh_Segment(Mesh_Algorithm): """ return self.Hypothesis("Propagation") - def AutomaticLength(self, fineness): + def AutomaticLength(self, fineness=0): """ Define "AutomaticLength" hypothesis \param fineness for the fineness [0-1] @@ -452,24 +485,54 @@ class Mesh: def Compute(self): """ - Compute the mesh and return the status of the computation - """ - b = smesh.Compute(self.mesh, self.geom) + Compute the mesh and return the status of the computation + """ + ok = smesh.Compute(self.mesh, self.geom) + if not ok: + errors = smesh.GetAlgoState( self.mesh, self.geom ) + allReasons = "" + for err in errors: + if err.isGlobalAlgo: + glob = " global " + else: + glob = " local " + pass + dim = str(err.algoDim) + if err.name == SMESH.MISSING_ALGO: + reason = glob + dim + "D algorithm is missing" + elif err.name == SMESH.MISSING_HYPO: + name = '"' + err.algoName + '"' + reason = glob + dim + "D algorithm " + name + " misses " + dim + "D hypothesis" + else: + reason = "Global \"Not Conform mesh allowed\" hypothesis is missing" + pass + if allReasons != "": + allReasons += "\n" + pass + allReasons += reason + pass + if allReasons != "": + print '"' + GetName(self.mesh) + '"',"not computed:" + print allReasons + pass + pass if salome.sg.hasDesktop(): smeshgui = salome.ImportComponentGUI("SMESH") smeshgui.Init(salome.myStudyId) - smeshgui.SetMeshIcon( salome.ObjectToID( self.mesh ), b ) + smeshgui.SetMeshIcon( salome.ObjectToID( self.mesh ), ok ) salome.sg.updateObjBrowser(1) - return b + pass + return ok - def AutomaticTetrahedralization(self): + def AutomaticTetrahedralization(self, fineness=0): """ Compute tetrahedral mesh using AutomaticLength + MEFISTO + NETGEN + The parameter \a fineness [0.-1.] defines mesh fineness """ dim = self.MeshDimension() # assign hypotheses self.RemoveGlobalHypotheses() - self.Segment().AutomaticLength() + self.Segment().AutomaticLength(fineness) if dim > 1 : self.Triangle().LengthFromEdges() pass @@ -478,14 +541,15 @@ class Mesh: pass return self.Compute() - def AutomaticHexahedralization(self): + def AutomaticHexahedralization(self, fineness=0): """ Compute hexahedral mesh using AutomaticLength + Quadrangle + Hexahedron + The parameter \a fineness [0.-1.] defines mesh fineness """ dim = self.MeshDimension() # assign hypotheses self.RemoveGlobalHypotheses() - self.Segment().AutomaticLength() + self.Segment().AutomaticLength(fineness) if dim > 1 : self.Quadrangle() pass