From: jfa Date: Wed, 28 Mar 2007 07:47:45 +0000 (+0000) Subject: Modifications, sent by Stephane LIAUZU for new SMESH plugins (Hexotic, BLSURF). X-Git-Tag: V4_0~19 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=79137f31260441992bc65d65e2c0dee5f3c8ed2a;p=modules%2Fsmesh.git Modifications, sent by Stephane LIAUZU for new SMESH plugins (Hexotic, BLSURF). --- diff --git a/src/SMESH_SWIG/smesh.py b/src/SMESH_SWIG/smesh.py index a0b09b3da..3bf840eb9 100644 --- a/src/SMESH_SWIG/smesh.py +++ b/src/SMESH_SWIG/smesh.py @@ -50,6 +50,9 @@ MEFISTO = 3 NETGEN = 4 GHS3D = 5 FULL_NETGEN = 6 +Hexa = 7 +Hexotic = 8 +BLSURF = 9 # MirrorType enumeration POINT = SMESH_MeshEditor.POINT @@ -568,11 +571,16 @@ class Mesh_Triangle(Mesh_Algorithm): algoType = 0 params = 0 - + _angleMeshS = 8 + _gradation = 1.1 + ## Private constructor. def __init__(self, mesh, algoType, geom=0): if algoType == MEFISTO: self.Create(mesh, geom, "MEFISTO_2D") + elif algoType == BLSURF: + import BLSURFPlugin + self.Create(mesh, geom, "BLSURF", "libBLSURFEngine.so") elif algoType == NETGEN: if noNETGENPlugin: print "Warning: NETGENPlugin module has not been imported." @@ -607,6 +615,9 @@ class Mesh_Triangle(Mesh_Algorithm): elif self.algoType == MEFISTO: print "Mefisto algo doesn't support this hypothesis" return None + elif self.algoType == BLSURF: + self.params = self.Hypothesis("BLSURF_Parameters", [], "libBLSURFEngine.so") + return self.params ## Set MaxSize def SetMaxSize(self, theSize): @@ -652,13 +663,55 @@ class Mesh_Triangle(Mesh_Algorithm): self.Parameters() self.params.SetNbSegPerRadius(theVal) + ## Set PhysicalMesh + # @param thePhysicalMesh is: + # DefaultSize or Custom + def SetPhysicalMesh(self, thePhysicalMesh=1): + if self.params == 0: + self.Parameters() + self.params.SetPhysicalMesh(thePhysicalMesh) + + ## Set PhySize flag + def SetPhySize(self, theVal): + if self.params == 0: + self.Parameters() + self.params.SetPhySize(theVal) + + ## Set GeometricMesh + # @param theGeometricMesh is: + # DefaultGeom or Custom + def SetGeometricMesh(self, theGeometricMesh=0): + if self.params == 0: + self.Parameters() + if self.params.GetPhysicalMesh() == 0: theGeometricMesh = 1 + self.params.SetGeometricMesh(theGeometricMesh) + + ## Set AngleMeshS flag + def SetAngleMeshS(self, theVal=_angleMeshS): + if self.params == 0: + self.Parameters() + if self.params.GetGeometricMesh() == 0: theVal = self._angleMeshS + self.params.SetAngleMeshS(theVal) + + ## Set Gradation flag + def SetGradation(self, theVal=_gradation): + if self.params == 0: + self.Parameters() + if self.params.GetGeometricMesh() == 0: theVal = self._gradation + self.params.SetGradation(theVal) + ## Set QuadAllowed flag - def SetQuadAllowed(self, toAllow): + def SetQuadAllowed(self, toAllow=False): if self.params == 0: self.Parameters() self.params.SetQuadAllowed(toAllow) - - + + ## Set Decimesh flag + def SetDecimesh(self, toAllow=False): + if self.params == 0: + self.Parameters() + self.params.SetDecimesh(toAllow) + # Public class: Mesh_Quadrangle # ----------------------------- @@ -771,8 +824,22 @@ class Mesh_Tetrahedron(Mesh_Algorithm): class Mesh_Hexahedron(Mesh_Algorithm): ## Private constructor. - def __init__(self, mesh, geom=0): - self.Create(mesh, geom, "Hexa_3D") + ## def __init__(self, mesh, geom=0): + ## self.Create(mesh, geom, "Hexa_3D") + def __init__(self, mesh, algo, geom): + if algo == Hexa: + self.Create(mesh, geom, "Hexa_3D") + elif algo == Hexotic: + import HexoticPlugin + self.Create(mesh, geom, "Hexotic_3D" , "libHexoticEngine.so") + + ## Define "MinMaxQuad" hypothesis to give the three hexotic parameters + def MinMaxQuad(self, min=3, max=8, quad=True): + hyp = self.Hypothesis("Hexotic_Parameters", [], "libHexoticEngine.so") + hyp.SetHexesMinLevel(min) + hyp.SetHexesMaxLevel(max) + hyp.SetHexoticQuadrangles(quad) + return hyp # Deprecated, only for compatibility! # Public class: Mesh_Netgen @@ -1174,8 +1241,14 @@ class Mesh: # If the optional \a geom parameter is not sets, this algorithm is global. # \n Otherwise, this algorithm define a submesh based on \a geom subshape. # @param geom If defined, subshape to be meshed - def Hexahedron(self, geom=0): - return Mesh_Hexahedron(self, geom) + ## def Hexahedron(self, geom=0): + ## return Mesh_Hexahedron(self, geom) + def Hexahedron(self, algo=Hexa, geom=0): + ## if Hexahedron(geom, algo) or Hexahedron(geom) is called by mistake + if ( isinstance(algo, geompy.GEOM._objref_GEOM_Object) ): + if geom in [Hexa, Hexotic]: algo, geom = geom, algo + elif geom == 0: algo, geom = Hexa, algo + return Mesh_Hexahedron(self, algo, geom) ## Deprecated, only for compatibility! def Netgen(self, is3D, geom=0):