-# Copyright (C) 2007-2015 CEA/DEN, EDF R&D, OPEN CASCADE
+# Copyright (C) 2007-2016 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
# @ingroup l2_algorithms
class Mesh_Algorithm:
- ## Private constuctor
+ ## Private constructor
def __init__(self):
self.mesh = None
self.geom = None
# Finds only the hypotheses created in smeshpyD engine.
# @return SMESH.SMESH_Hypothesis
def FindHypothesis (self, hypname, args, CompareMethod, smeshpyD):
- study = smeshpyD.GetCurrentStudy()
+ study = salome.myStudy
if not study: return None
#to do: find component by smeshpyD object, not by its data type
scomp = study.FindComponent(smeshpyD.ComponentDataType())
# Finds only the algorithms, which have been created in smeshpyD engine.
# @return SMESH.SMESH_Algo
def FindAlgorithm (self, algoname, smeshpyD):
- study = smeshpyD.GetCurrentStudy()
+ study = salome.myStudy
if not study: return None
#to do: find component by smeshpyD object, not by its data type
scomp = study.FindComponent(smeshpyD.ComponentDataType())
## Private method.
def Create(self, mesh, geom, hypo, so="libStdMeshersEngine.so"):
if geom is None and mesh.mesh.HasShapeToMesh():
- raise RuntimeError, "Attemp to create " + hypo + " algoritm on None shape"
+ raise RuntimeError("Attempt to create " + hypo + " algorithm on None shape")
algo = self.FindAlgorithm(hypo, mesh.smeshpyD)
if algo is None:
algo = mesh.smeshpyD.CreateHypothesis(hypo, so)
def Assign(self, algo, mesh, geom):
from salome.smesh.smeshBuilder import AssureGeomPublished, TreatHypoStatus, GetName
if geom is None and mesh.mesh.HasShapeToMesh():
- raise RuntimeError, "Attemp to create " + algo + " algoritm on None shape"
+ raise RuntimeError("Attempt to create " + algo + " algorithm on None shape")
self.mesh = mesh
if not geom or geom.IsSame( mesh.geom ):
self.geom = mesh.geom
return
def CompareHyp (self, hyp, args):
- print "CompareHyp is not implemented for ", self.__class__.__name__, ":", hyp.GetName()
+ print("CompareHyp is not implemented for ", self.__class__.__name__, ":", hyp.GetName())
return False
def CompareEqualHyp (self, hyp, args):
def ViscousLayers(self, thickness, numberOfLayers, stretchFactor,
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"
+ 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()
+ raise TypeError("ViscousLayers are not supported by %s"%self.algo.GetName())
+ if faces and isinstance( faces, geomBuilder.GEOM._objref_GEOM_Object ):
+ faces = [ faces ]
if faces and isinstance( faces[0], geomBuilder.GEOM._objref_GEOM_Object ):
faceIDs = []
for shape in faces:
def ViscousLayers2D(self, thickness, numberOfLayers, stretchFactor,
edges=[], isEdgesToIgnore=True ):
if not isinstance(self.algo, SMESH._objref_SMESH_2D_Algo):
- raise TypeError, "ViscousLayers2D are supported by 2D algorithms only"
+ raise TypeError("ViscousLayers2D are supported by 2D algorithms only")
if not "ViscousLayers2D" in self.GetCompatibleHypothesis():
- raise TypeError, "ViscousLayers2D are not supported by %s"%self.algo.GetName()
+ raise TypeError("ViscousLayers2D are not supported by %s"%self.algo.GetName())
+ if edges and not isinstance( edges, list ) and not isinstance( edges, tuple ):
+ edges = [edges]
if edges and isinstance( edges[0], geomBuilder.GEOM._objref_GEOM_Object ):
edgeIDs = []
for shape in edges:
if isinstance( i, int ):
s = geompy.SubShapes(self.mesh.geom, [i])[0]
if s.GetShapeType() != geomBuilder.GEOM.EDGE:
- raise TypeError, "Not EDGE index given"
+ raise TypeError("Not EDGE index given")
resList.append( i )
elif isinstance( i, geomBuilder.GEOM._objref_GEOM_Object ):
if i.GetShapeType() != geomBuilder.GEOM.EDGE:
- raise TypeError, "Not an EDGE given"
+ raise TypeError("Not an EDGE given")
resList.append( geompy.GetSubShapeID(self.mesh.geom, i ))
elif len( i ) > 1:
e = i[0]
v = i[1]
if not isinstance( e, geomBuilder.GEOM._objref_GEOM_Object ) or \
not isinstance( v, geomBuilder.GEOM._objref_GEOM_Object ):
- raise TypeError, "A list item must be a tuple (edge, 1st_vertex_of_edge)"
+ raise TypeError("A list item must be a tuple (edge, 1st_vertex_of_edge)")
if v.GetShapeType() == geomBuilder.GEOM.EDGE and \
e.GetShapeType() == geomBuilder.GEOM.VERTEX:
v,e = e,v
if e.GetShapeType() != geomBuilder.GEOM.EDGE or \
v.GetShapeType() != geomBuilder.GEOM.VERTEX:
- raise TypeError, "A list item must be a tuple (edge, 1st_vertex_of_edge)"
+ raise TypeError("A list item must be a tuple (edge, 1st_vertex_of_edge)")
vFirst = FirstVertexOnCurve( self.mesh, e )
tol = geompy.Tolerance( vFirst )[-1]
if geompy.MinDistance( v, vFirst ) > 1.5*tol:
resList.append( geompy.GetSubShapeID(self.mesh.geom, e ))
else:
- raise TypeError, "Item must be either an edge or tuple (edge, 1st_vertex_of_edge)"
+ raise TypeError("Item must be either an edge or tuple (edge, 1st_vertex_of_edge)")
return resList