-# Copyright (C) 2007-2014 CEA/DEN, EDF R&D, OPEN CASCADE
+# Copyright (C) 2007-2015 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
import salome
from salome.geom import geomBuilder
-import SMESH
+import SMESH, StdMeshers
## The base class to define meshing algorithms
#
# @code
# meshMethod = "MyAlgorithm"
# @endcode
-# then an instance of @c MyPlugin_Algorithm can be created by the direct invokation of the function
+# then an instance of @c MyPlugin_Algorithm can be created by the direct invocation of the function
# of smesh.Mesh class:
# @code
# my_algo = mesh.MyAlgorithm()
attr = hypo_so_i.FindAttribute("AttributeIOR")[1]
if attr is not None:
anIOR = attr.Value()
+ if not anIOR: continue # prevent exception in orb.string_to_object()
hypo_o_i = salome.orb.string_to_object(anIOR)
if hypo_o_i is not None:
# Check if this is a hypothesis
attr = algo_so_i.FindAttribute("AttributeIOR")[1]
if attr is not None:
anIOR = attr.Value()
+ if not anIOR: continue # prevent exception in orb.string_to_object()
algo_o_i = salome.orb.string_to_object(anIOR)
if algo_o_i is not None:
# Check if this is an algorithm
## Defines "ViscousLayers" hypothesis to give parameters of layers of prisms to build
# near mesh boundary. This hypothesis can be used by several 3D algorithms:
- # NETGEN 3D, GHS3D, Hexahedron(i,j,k)
+ # NETGEN 3D, MG-Tetra, Hexahedron(i,j,k)
# @param thickness total thickness of layers of prisms
# @param numberOfLayers number of layers of prisms
# @param stretchFactor factor (>1.0) of growth of layer thickness towards inside of mesh
# the value of \a isFacesToIgnore parameter.
# @param isFacesToIgnore if \c True, the Viscous layers are not generated on the
# faces specified by the previous parameter (\a faces).
+ # @param extrMethod extrusion method defines how position of new nodes are found during
+ # prism construction and how creation of distorted and intersecting prisms is
+ # prevented. Possible values are:
+ # - StdMeshers.SURF_OFFSET_SMOOTH (default) method extrudes nodes along normal
+ # to underlying geometrical surface. Smoothing of internal surface of
+ # element layers can be used to avoid creation of invalid prisms.
+ # - StdMeshers.FACE_OFFSET method extrudes nodes along average normal of
+ # surrounding mesh faces till intersection with a neighbor mesh face
+ # translated along its own normal by the layers thickness. Thickness
+ # of layers can be limited to avoid creation of invalid prisms.
+ # - StdMeshers.NODE_OFFSET method extrudes nodes along average normal of
+ # surrounding mesh faces by the layers thickness. Thickness of
+ # layers can be limited to avoid creation of invalid prisms.
# @ingroup l3_hypos_additi
def ViscousLayers(self, thickness, numberOfLayers, stretchFactor,
- faces=[], isFacesToIgnore=True ):
+ faces=[], isFacesToIgnore=True, extrMethod=StdMeshers.SURF_OFFSET_SMOOTH ):
if not isinstance(self.algo, SMESH._objref_SMESH_3D_Algo):
raise TypeError, "ViscousLayers are supported by 3D algorithms only"
if not "ViscousLayers" in self.GetCompatibleHypothesis():
raise TypeError, "ViscousLayers are not supported by %s"%self.algo.GetName()
if faces and isinstance( faces[0], geomBuilder.GEOM._objref_GEOM_Object ):
- faces = [ self.mesh.geompyD.GetSubShapeID(self.mesh.geom, f) for f in faces ]
+ faceIDs = []
+ for shape in faces:
+ ff = self.mesh.geompyD.SubShapeAll( shape, self.mesh.geompyD.ShapeType["FACE"] )
+ for f in ff:
+ faceIDs.append( self.mesh.geompyD.GetSubShapeID(self.mesh.geom, f))
+ faces = faceIDs
hyp = self.Hypothesis("ViscousLayers",
[thickness, numberOfLayers, stretchFactor, faces, isFacesToIgnore],
toAdd=False)
- hyp.SetTotalThickness(thickness)
- hyp.SetNumberLayers(numberOfLayers)
- hyp.SetStretchFactor(stretchFactor)
- hyp.SetFaces(faces, isFacesToIgnore)
+ hyp.SetTotalThickness( thickness )
+ hyp.SetNumberLayers( numberOfLayers )
+ hyp.SetStretchFactor( stretchFactor )
+ hyp.SetFaces( faces, isFacesToIgnore )
+ hyp.SetMethod( extrMethod )
self.mesh.AddHypothesis( hyp, self.geom )
return hyp
## Defines "ViscousLayers2D" hypothesis to give parameters of layers of quadrilateral
# elements to build near mesh boundary. This hypothesis can be used by several 2D algorithms:
- # NETGEN 2D, NETGEN 1D-2D, Quadrangle (mapping), MEFISTO, BLSURF
+ # NETGEN 2D, NETGEN 1D-2D, Quadrangle (mapping), MEFISTO, MG-CADSurf
# @param thickness total thickness of layers of quadrilaterals
# @param numberOfLayers number of layers
# @param stretchFactor factor (>1.0) of growth of layer thickness towards inside of mesh
if not "ViscousLayers2D" in self.GetCompatibleHypothesis():
raise TypeError, "ViscousLayers2D are not supported by %s"%self.algo.GetName()
if edges and isinstance( edges[0], geomBuilder.GEOM._objref_GEOM_Object ):
- edges = [ self.mesh.geompyD.GetSubShapeID(self.mesh.geom, f) for f in edges ]
+ edgeIDs = []
+ for shape in edges:
+ ee = self.mesh.geompyD.SubShapeAll( shape, self.mesh.geompyD.ShapeType["EDGE"])
+ for e in ee:
+ edgeIDs.append( self.mesh.geompyD.GetSubShapeID( self.mesh.geom, e ))
+ edges = edgeIDs
hyp = self.Hypothesis("ViscousLayers2D",
[thickness, numberOfLayers, stretchFactor, edges, isEdgesToIgnore],
toAdd=False)