From: eap Date: Fri, 22 Jan 2010 11:36:02 +0000 (+0000) Subject: 0020431: EDF 1020 SMESH : Radial Mesh of a cylinder X-Git-Tag: PARAVIS_29012010~9 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=9a6c1bd34d45e38869069675ab23fc3f958703dd;p=modules%2Fsmesh.git 0020431: EDF 1020 SMESH : Radial Mesh of a cylinder * Learn Quadrangle() create Mesh_RadialQuadrangle1D2D algo +QUARDANGLE = 0 +RADIAL_QUAD = 1 --- diff --git a/src/SMESH_SWIG/smeshDC.py b/src/SMESH_SWIG/smeshDC.py index 1510a126f..dafa111b0 100644 --- a/src/SMESH_SWIG/smeshDC.py +++ b/src/SMESH_SWIG/smeshDC.py @@ -162,6 +162,8 @@ Hexa = 8 Hexotic = 9 BLSURF = 10 GHS3DPRL = 11 +QUARDANGLE = 0 +RADIAL_QUAD = 1 # MirrorType enumeration POINT = SMESH_MeshEditor.POINT @@ -1031,17 +1033,20 @@ class Mesh: if (isinstance(algo, geompyDC.GEOM._objref_GEOM_Object)): geom = algo algo = MEFISTO - return Mesh_Triangle(self, algo, geom) ## Creates a quadrangle 2D algorithm for faces. # If the optional \a geom parameter is not set, this algorithm is global. # \n Otherwise, this algorithm defines a submesh based on \a geom subshape. # @param geom If defined, the subshape to be meshed (GEOM_Object) + # @param algo values are: smesh.QUARDANGLE || smesh.RADIAL_QUAD # @return an instance of Mesh_Quadrangle algorithm # @ingroup l3_algos_basic - def Quadrangle(self, geom=0): - return Mesh_Quadrangle(self, geom) + def Quadrangle(self, geom=0, algo=QUARDANGLE): + if algo==RADIAL_QUAD: + return Mesh_RadialQuadrangle1D2D(self,geom) + else: + return Mesh_Quadrangle(self, geom) ## Creates a tetrahedron 3D algorithm for solids. # The parameter \a algo permits to choose the algorithm: NETGEN or GHS3D @@ -1328,29 +1333,25 @@ class Mesh: def Group(self, grp, name=""): return self.GroupOnGeom(grp, name) - ## Deprecated, used only for compatibility! Please, use ExportToMEDX() method instead. + ## Deprecated, used only for compatibility! Please, use ExportMED() method instead. # Exports the mesh in a file in MED format and chooses the \a version of MED format - ## allowing to overwrite the file if it exists or add the exported data to its contents # @param f the file name # @param version values are SMESH.MED_V2_1, SMESH.MED_V2_2 # @param opt boolean parameter for creating/not creating # the groups Group_On_All_Nodes, Group_On_All_Faces, ... - # @param overwrite boolean parameter for overwriting/not overwriting the file # @ingroup l2_impexp - def ExportToMED(self, f, version, opt=0, overwrite=1): - self.mesh.ExportToMEDX(f, opt, version, overwrite) + def ExportToMED(self, f, version, opt=0): + self.mesh.ExportToMED(f, opt, version) - ## Exports the mesh in a file in MED format and chooses the \a version of MED format - ## allowing to overwrite the file if it exists or add the exported data to its contents + ## Exports the mesh in a file in MED format # @param f is the file name # @param auto_groups boolean parameter for creating/not creating # the groups Group_On_All_Nodes, Group_On_All_Faces, ... ; # the typical use is auto_groups=false. # @param version MED format version(MED_V2_1 or MED_V2_2) - # @param overwrite boolean parameter for overwriting/not overwriting the file # @ingroup l2_impexp - def ExportMED(self, f, auto_groups=0, version=MED_V2_2, overwrite=1): - self.mesh.ExportToMEDX(f, auto_groups, version, overwrite) + def ExportMED(self, f, auto_groups=0, version=MED_V2_2): + self.mesh.ExportToMED(f, auto_groups, version) ## Exports the mesh in a file in DAT format # @param f the file name @@ -4928,6 +4929,7 @@ class Mesh_RadialPrism3D(Mesh_Algorithm): self.mesh.GetMesh().RemoveHypothesis( self.geom, self.nbLayers ) self.mesh.GetMesh().AddHypothesis( self.geom, self.distribHyp ) study = self.mesh.smeshpyD.GetCurrentStudy() # prevents publishing own 1D hypothesis + self.mesh.smeshpyD.SetCurrentStudy( None ) hyp = self.mesh.smeshpyD.CreateHypothesis(hypType, so) self.mesh.smeshpyD.SetCurrentStudy( study ) # enables publishing self.distribHyp.SetLayerDistribution( hyp ) @@ -5014,7 +5016,7 @@ class Mesh_RadialQuadrangle1D2D(Mesh_Algorithm): Mesh_Algorithm.__init__(self) self.Create(mesh, geom, "RadialQuadrangle_1D2D") - self.distribHyp = self.Hypothesis("LayerDistribution2D", UseExisting=0) + self.distribHyp = None #self.Hypothesis("LayerDistribution2D", UseExisting=0) self.nbLayers = None ## Return 2D hypothesis holding the 1D one @@ -5025,21 +5027,26 @@ class Mesh_RadialQuadrangle1D2D(Mesh_Algorithm): # hypothesis. Returns the created hypothesis def OwnHypothesis(self, hypType, args=[], so="libStdMeshersEngine.so"): #print "OwnHypothesis",hypType - if not self.nbLayers is None: + if self.nbLayers: self.mesh.GetMesh().RemoveHypothesis( self.geom, self.nbLayers ) + if self.distribHyp is None: + self.distribHyp = self.Hypothesis("LayerDistribution2D", UseExisting=0) + else: self.mesh.GetMesh().AddHypothesis( self.geom, self.distribHyp ) study = self.mesh.smeshpyD.GetCurrentStudy() # prevents publishing own 1D hypothesis + self.mesh.smeshpyD.SetCurrentStudy( None ) hyp = self.mesh.smeshpyD.CreateHypothesis(hypType, so) self.mesh.smeshpyD.SetCurrentStudy( study ) # enables publishing self.distribHyp.SetLayerDistribution( hyp ) return hyp - ## Defines "NumberOfLayers2D" hypothesis, specifying the number of layers + ## Defines "NumberOfLayers" hypothesis, specifying the number of layers # @param n number of layers # @param UseExisting if ==true - searches for the existing hypothesis created with # the same parameters, else (default) - creates a new one - def NumberOfLayers2D(self, n, UseExisting=0): - self.mesh.GetMesh().RemoveHypothesis( self.geom, self.distribHyp ) + def NumberOfLayers(self, n, UseExisting=0): + if self.distribHyp: + self.mesh.GetMesh().RemoveHypothesis( self.geom, self.distribHyp ) self.nbLayers = self.Hypothesis("NumberOfLayers2D", [n], UseExisting=UseExisting, CompareMethod=self.CompareNumberOfLayers) self.nbLayers.SetNumberOfLayers( n )