From: jfa Date: Tue, 4 Dec 2007 09:32:22 +0000 (+0000) Subject: NPAL17908: Roll-back fix for bug 16198, new fix will be provided after 4.1.0 issue. X-Git-Tag: V4_1_0rc2~4 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=6afbf9dbec452a9c834c60bb601325701b7bfaba;p=modules%2Fsmesh.git NPAL17908: Roll-back fix for bug 16198, new fix will be provided after 4.1.0 issue. --- diff --git a/src/SMESH_SWIG/smeshDC.py b/src/SMESH_SWIG/smeshDC.py index c4fe06ac3..dfd4405b4 100644 --- a/src/SMESH_SWIG/smeshDC.py +++ b/src/SMESH_SWIG/smeshDC.py @@ -419,7 +419,7 @@ class Mesh_Algorithm: # @class Mesh_Algorithm # @brief Class Mesh_Algorithm - hypos = {} + #17908#hypos = {} #def __init__(self,smesh): # self.smesh=smesh @@ -429,11 +429,11 @@ class Mesh_Algorithm: self.subm = None self.algo = None - def FindHypothesis(self,hypname, args): - key = "%s %s %s" % (self.__class__.__name__, hypname, args) - if Mesh_Algorithm.hypos.has_key( key ): - return Mesh_Algorithm.hypos[ key ] - return None + #17908#def FindHypothesis(self,hypname, args): + #17908# key = "%s %s %s" % (self.__class__.__name__, hypname, args) + #17908# if Mesh_Algorithm.hypos.has_key( key ): + #17908# return Mesh_Algorithm.hypos[ key ] + #17908# return None ## If the algorithm is global, return 0; \n # else return the submesh associated to this algorithm. @@ -462,7 +462,7 @@ class Mesh_Algorithm: ## Get id of algo def GetId(self): return self.algo.GetId() - + ## Private method. def Create(self, mesh, geom, hypo, so="libStdMeshersEngine.so"): if geom is None: @@ -494,14 +494,14 @@ class Mesh_Algorithm: ## Private method def Hypothesis(self, hyp, args=[], so="libStdMeshersEngine.so", UseExisting=0): CreateNew = 1 - if UseExisting: - hypo = self.FindHypothesis(hyp, args) - if hypo: CreateNew = 0 - pass + #17908#if UseExisting: + #17908# hypo = self.FindHypothesis(hyp, args) + #17908# if hypo: CreateNew = 0 + #17908# pass if CreateNew: hypo = self.mesh.smeshpyD.CreateHypothesis(hyp, so) key = "%s %s %s" % (self.__class__.__name__, hyp, args) - Mesh_Algorithm.hypos[key] = hypo + #17908#Mesh_Algorithm.hypos[key] = hypo a = "" s = "=" i = 0 @@ -527,17 +527,18 @@ class Mesh_Algorithm: # More details. class Mesh_Segment(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Segments + #17908#algo = 0 # algorithm object common for all Mesh_Segments ## Private constructor. def __init__(self, mesh, geom=0): Mesh_Algorithm.__init__(self) - if not Mesh_Segment.algo: - Mesh_Segment.algo = self.Create(mesh, geom, "Regular_1D") - else: - self.Assign( Mesh_Segment.algo, mesh, geom) - pass + #17908#if not Mesh_Segment.algo: + #17908# Mesh_Segment.algo = self.Create(mesh, geom, "Regular_1D") + #17908#else: + #17908# self.Assign( Mesh_Segment.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "Regular_1D") ## Define "LocalLength" hypothesis to cut an edge in several segments with the same length # @param l for the length of segments that cut an edge @@ -547,7 +548,7 @@ class Mesh_Segment(Mesh_Algorithm): hyp = self.Hypothesis("LocalLength", [l], UseExisting=UseExisting) hyp.SetLength(l) return hyp - + ## Define "NumberOfSegments" hypothesis to cut an edge in several fixed number of segments # @param n for the number of segments that cut an edge # @param s for the scale factor (optional) @@ -562,7 +563,7 @@ class Mesh_Segment(Mesh_Algorithm): hyp.SetScaleFactor(s) hyp.SetNumberOfSegments(n) return hyp - + ## Define "Arithmetic1D" hypothesis to cut an edge in several segments with arithmetic length increasing # @param start for the length of the first segment # @param end for the length of the last segment @@ -646,15 +647,16 @@ class Mesh_Segment(Mesh_Algorithm): # More details. class Mesh_CompositeSegment(Mesh_Segment): - algo = 0 # algorithm object common for all Mesh_CompositeSegments + #17908#algo = 0 # algorithm object common for all Mesh_CompositeSegments ## Private constructor. def __init__(self, mesh, geom=0): - if not Mesh_CompositeSegment.algo: - Mesh_CompositeSegment.algo = self.Create(mesh, geom, "CompositeSegment_1D") - else: - self.Assign( Mesh_CompositeSegment.algo, mesh, geom) - pass + #17908#if not Mesh_CompositeSegment.algo: + #17908# Mesh_CompositeSegment.algo = self.Create(mesh, geom, "CompositeSegment_1D") + #17908#else: + #17908# self.Assign( Mesh_CompositeSegment.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "CompositeSegment_1D") # Public class: Mesh_Segment_Python @@ -665,16 +667,17 @@ class Mesh_CompositeSegment(Mesh_Segment): # More details. class Mesh_Segment_Python(Mesh_Segment): - algo = 0 # algorithm object common for all Mesh_Segment_Pythons + #17908#algo = 0 # algorithm object common for all Mesh_Segment_Pythons ## Private constructor. def __init__(self, mesh, geom=0): import Python1dPlugin - if not Mesh_Segment_Python.algo: - Mesh_Segment_Python.algo = self.Create(mesh, geom, "Python_1D", "libPython1dEngine.so") - else: - self.Assign( Mesh_Segment_Python.algo, mesh, geom) - pass + #17908#if not Mesh_Segment_Python.algo: + #17908# Mesh_Segment_Python.algo = self.Create(mesh, geom, "Python_1D", "libPython1dEngine.so") + #17908#else: + #17908# self.Assign( Mesh_Segment_Python.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "Python_1D", "libPython1dEngine.so") ## Define "PythonSplit1D" hypothesis based on the Erwan Adam patch, awaiting equivalent SALOME functionality # @param n for the number of segments that cut an edge @@ -700,41 +703,44 @@ class Mesh_Triangle(Mesh_Algorithm): params = 0 # algorithm objects common for all instances of Mesh_Triangle - algoMEF = 0 - algoNET = 0 - algoNET_2D = 0 + #17908#algoMEF = 0 + #17908#algoNET = 0 + #17908#algoNET_2D = 0 ## Private constructor. def __init__(self, mesh, algoType, geom=0): Mesh_Algorithm.__init__(self) if algoType == MEFISTO: - if not Mesh_Triangle.algoMEF: - Mesh_Triangle.algoMEF = self.Create(mesh, geom, "MEFISTO_2D") - else: - self.Assign( Mesh_Triangle.algoMEF, mesh, geom) - pass + #17908#if not Mesh_Triangle.algoMEF: + #17908# Mesh_Triangle.algoMEF = self.Create(mesh, geom, "MEFISTO_2D") + #17908#else: + #17908# self.Assign( Mesh_Triangle.algoMEF, mesh, geom) + #17908# pass + self.Create(mesh, geom, "MEFISTO_2D") pass elif algoType == NETGEN: if noNETGENPlugin: print "Warning: NETGENPlugin module unavailable" pass - if not Mesh_Triangle.algoNET: - Mesh_Triangle.algoNET = self.Create(mesh, geom, "NETGEN_2D", "libNETGENEngine.so") - else: - self.Assign( Mesh_Triangle.algoNET, mesh, geom) - pass + #17908#if not Mesh_Triangle.algoNET: + #17908# Mesh_Triangle.algoNET = self.Create(mesh, geom, "NETGEN_2D", "libNETGENEngine.so") + #17908#else: + #17908# self.Assign( Mesh_Triangle.algoNET, mesh, geom) + #17908# pass + self.Create(mesh, geom, "NETGEN_2D", "libNETGENEngine.so") pass elif algoType == NETGEN_2D: if noNETGENPlugin: print "Warning: NETGENPlugin module unavailable" pass - if not Mesh_Triangle.algoNET_2D: - Mesh_Triangle.algoNET_2D = self.Create(mesh, geom, - "NETGEN_2D_ONLY", "libNETGENEngine.so") - else: - self.Assign( Mesh_Triangle.algoNET_2D, mesh, geom) - pass + #17908#if not Mesh_Triangle.algoNET_2D: + #17908# Mesh_Triangle.algoNET_2D = self.Create(mesh, geom, + #17908# "NETGEN_2D_ONLY", "libNETGENEngine.so") + #17908#else: + #17908# self.Assign( Mesh_Triangle.algoNET_2D, mesh, geom) + #17908# pass + self.Create(mesh, geom, "NETGEN_2D_ONLY", "libNETGENEngine.so") pass self.algoType = algoType @@ -877,17 +883,18 @@ class Mesh_Triangle(Mesh_Algorithm): # More details. class Mesh_Quadrangle(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Quadrangles + #17908#algo = 0 # algorithm object common for all Mesh_Quadrangles ## Private constructor. def __init__(self, mesh, geom=0): Mesh_Algorithm.__init__(self) - if not Mesh_Quadrangle.algo: - Mesh_Quadrangle.algo = self.Create(mesh, geom, "Quadrangle_2D") - else: - self.Assign( Mesh_Quadrangle.algo, mesh, geom) - pass + #17908#if not Mesh_Quadrangle.algo: + #17908# Mesh_Quadrangle.algo = self.Create(mesh, geom, "Quadrangle_2D") + #17908#else: + #17908# self.Assign( Mesh_Quadrangle.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "Quadrangle_2D") ## Define "QuadranglePreference" hypothesis, forcing construction # of quadrangles if the number of nodes on opposite edges is not the same @@ -907,39 +914,43 @@ class Mesh_Tetrahedron(Mesh_Algorithm): params = 0 algoType = 0 - algoNET = 0 # algorithm object common for all Mesh_Tetrahedrons - algoGHS = 0 # algorithm object common for all Mesh_Tetrahedrons - algoFNET = 0 # algorithm object common for all Mesh_Tetrahedrons + #17908#algoNET = 0 # algorithm object common for all Mesh_Tetrahedrons + #17908#algoGHS = 0 # algorithm object common for all Mesh_Tetrahedrons + #17908#algoFNET = 0 # algorithm object common for all Mesh_Tetrahedrons ## Private constructor. def __init__(self, mesh, algoType, geom=0): Mesh_Algorithm.__init__(self) if algoType == NETGEN: - if not Mesh_Tetrahedron.algoNET: - Mesh_Tetrahedron.algoNET = self.Create(mesh, geom, "NETGEN_3D", "libNETGENEngine.so") - else: - self.Assign( Mesh_Tetrahedron.algoNET, mesh, geom) - pass + #17908#if not Mesh_Tetrahedron.algoNET: + #17908# Mesh_Tetrahedron.algoNET = self.Create(mesh, geom, "NETGEN_3D", "libNETGENEngine.so") + #17908#else: + #17908# self.Assign( Mesh_Tetrahedron.algoNET, mesh, geom) + #17908# pass + self.Create(mesh, geom, "NETGEN_3D", "libNETGENEngine.so") pass elif algoType == GHS3D: - if not Mesh_Tetrahedron.algoGHS: - import GHS3DPlugin - Mesh_Tetrahedron.algoGHS = self.Create(mesh, geom, "GHS3D_3D" , "libGHS3DEngine.so") - else: - self.Assign( Mesh_Tetrahedron.algoGHS, mesh, geom) - pass + #17908#if not Mesh_Tetrahedron.algoGHS: + #17908# import GHS3DPlugin + #17908# Mesh_Tetrahedron.algoGHS = self.Create(mesh, geom, "GHS3D_3D" , "libGHS3DEngine.so") + #17908#else: + #17908# self.Assign( Mesh_Tetrahedron.algoGHS, mesh, geom) + #17908# pass + import GHS3DPlugin + self.Create(mesh, geom, "GHS3D_3D" , "libGHS3DEngine.so") pass elif algoType == FULL_NETGEN: if noNETGENPlugin: print "Warning: NETGENPlugin module has not been imported." - if not Mesh_Tetrahedron.algoFNET: - Mesh_Tetrahedron.algoFNET = self.Create(mesh, geom, "NETGEN_2D3D", "libNETGENEngine.so") - else: - self.Assign( Mesh_Tetrahedron.algoFNET, mesh, geom) - pass + #17908#if not Mesh_Tetrahedron.algoFNET: + #17908# Mesh_Tetrahedron.algoFNET = self.Create(mesh, geom, "NETGEN_2D3D", "libNETGENEngine.so") + #17908#else: + #17908# self.Assign( Mesh_Tetrahedron.algoFNET, mesh, geom) + #17908# pass + self.Create(mesh, geom, "NETGEN_2D3D", "libNETGENEngine.so") pass self.algoType = algoType @@ -1015,17 +1026,18 @@ class Mesh_Tetrahedron(Mesh_Algorithm): # More details. class Mesh_Hexahedron(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Hexahedrons + #17908#algo = 0 # algorithm object common for all Mesh_Hexahedrons ## Private constructor. def __init__(self, mesh, geom=0): Mesh_Algorithm.__init__(self) - if not Mesh_Hexahedron.algo: - Mesh_Hexahedron.algo = self.Create(mesh, geom, "Hexa_3D") - else: - self.Assign( Mesh_Hexahedron.algo, mesh, geom) - pass + #17908#if not Mesh_Hexahedron.algo: + #17908# Mesh_Hexahedron.algo = self.Create(mesh, geom, "Hexa_3D") + #17908#else: + #17908# self.Assign( Mesh_Hexahedron.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "Hexa_3D") # Deprecated, only for compatibility! # Public class: Mesh_Netgen @@ -1041,8 +1053,8 @@ class Mesh_Netgen(Mesh_Algorithm): is3D = 0 - algoNET23 = 0 # algorithm object common for all Mesh_Netgens - algoNET2 = 0 # algorithm object common for all Mesh_Netgens + #17908#algoNET23 = 0 # algorithm object common for all Mesh_Netgens + #17908#algoNET2 = 0 # algorithm object common for all Mesh_Netgens ## Private constructor. def __init__(self, mesh, is3D, geom=0): @@ -1053,19 +1065,21 @@ class Mesh_Netgen(Mesh_Algorithm): self.is3D = is3D if is3D: - if not Mesh_Netgen.algoNET23: - Mesh_Netgen.algoNET23 = self.Create(mesh, geom, "NETGEN_2D3D", "libNETGENEngine.so") - else: - self.Assign( Mesh_Netgen.algoNET23, mesh, geom) - pass + #17908#if not Mesh_Netgen.algoNET23: + #17908# Mesh_Netgen.algoNET23 = self.Create(mesh, geom, "NETGEN_2D3D", "libNETGENEngine.so") + #17908#else: + #17908# self.Assign( Mesh_Netgen.algoNET23, mesh, geom) + #17908# pass + self.Create(mesh, geom, "NETGEN_2D3D", "libNETGENEngine.so") pass else: - if not Mesh_Netgen.algoNET2: - Mesh_Netgen.algoNET2 = self.Create(mesh, geom, "NETGEN_2D", "libNETGENEngine.so") - else: - self.Assign( Mesh_Netgen.algoNET2, mesh, geom) - pass + #17908#if not Mesh_Netgen.algoNET2: + #17908# Mesh_Netgen.algoNET2 = self.Create(mesh, geom, "NETGEN_2D", "libNETGENEngine.so") + #17908#else: + #17908# self.Assign( Mesh_Netgen.algoNET2, mesh, geom) + #17908# pass + self.Create(mesh, geom, "NETGEN_2D", "libNETGENEngine.so") pass ## Define hypothesis containing parameters of the algorithm @@ -1086,17 +1100,18 @@ class Mesh_Netgen(Mesh_Algorithm): # More details. class Mesh_Projection1D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Projection1Ds + #17908#algo = 0 # algorithm object common for all Mesh_Projection1Ds ## Private constructor. def __init__(self, mesh, geom=0): Mesh_Algorithm.__init__(self) - if not Mesh_Projection1D.algo: - Mesh_Projection1D.algo = self.Create(mesh, geom, "Projection_1D") - else: - self.Assign( Mesh_Projection1D.algo, mesh, geom) - pass + #17908#if not Mesh_Projection1D.algo: + #17908# Mesh_Projection1D.algo = self.Create(mesh, geom, "Projection_1D") + #17908#else: + #17908# self.Assign( Mesh_Projection1D.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "Projection_1D") ## Define "Source Edge" hypothesis, specifying a meshed edge to # take a mesh pattern from, and optionally association of vertices @@ -1126,17 +1141,18 @@ class Mesh_Projection1D(Mesh_Algorithm): # More details. class Mesh_Projection2D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Projection2Ds + #17908#algo = 0 # algorithm object common for all Mesh_Projection2Ds ## Private constructor. def __init__(self, mesh, geom=0): Mesh_Algorithm.__init__(self) - if not Mesh_Projection2D.algo: - Mesh_Projection2D.algo = self.Create(mesh, geom, "Projection_2D") - else: - self.Assign( Mesh_Projection2D.algo, mesh, geom) - pass + #17908#if not Mesh_Projection2D.algo: + #17908# Mesh_Projection2D.algo = self.Create(mesh, geom, "Projection_2D") + #17908#else: + #17908# self.Assign( Mesh_Projection2D.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "Projection_2D") ## Define "Source Face" hypothesis, specifying a meshed face to # take a mesh pattern from, and optionally association of vertices @@ -1172,17 +1188,18 @@ class Mesh_Projection2D(Mesh_Algorithm): # More details. class Mesh_Projection3D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Projection3Ds + #17908#algo = 0 # algorithm object common for all Mesh_Projection3Ds ## Private constructor. def __init__(self, mesh, geom=0): Mesh_Algorithm.__init__(self) - if not Mesh_Projection3D.algo: - Mesh_Projection3D.algo = self.Create(mesh, geom, "Projection_3D") - else: - self.Assign( Mesh_Projection3D.algo, mesh, geom) - pass + #17908#if not Mesh_Projection3D.algo: + #17908# Mesh_Projection3D.algo = self.Create(mesh, geom, "Projection_3D") + #17908#else: + #17908# self.Assign( Mesh_Projection3D.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "Projection_3D") ## Define "Source Shape 3D" hypothesis, specifying a meshed solid to # take a mesh pattern from, and optionally association of vertices @@ -1220,17 +1237,18 @@ class Mesh_Projection3D(Mesh_Algorithm): # More details. class Mesh_Prism3D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_Prism3Ds + #17908#algo = 0 # algorithm object common for all Mesh_Prism3Ds ## Private constructor. def __init__(self, mesh, geom=0): Mesh_Algorithm.__init__(self) - if not Mesh_Prism3D.algo: - Mesh_Prism3D.algo = self.Create(mesh, geom, "Prism_3D") - else: - self.Assign( Mesh_Prism3D.algo, mesh, geom) - pass + #17908#if not Mesh_Prism3D.algo: + #17908# Mesh_Prism3D.algo = self.Create(mesh, geom, "Prism_3D") + #17908#else: + #17908# self.Assign( Mesh_Prism3D.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "Prism_3D") # Public class: Mesh_RadialPrism # ------------------------------- @@ -1240,17 +1258,19 @@ class Mesh_Prism3D(Mesh_Algorithm): # More details. class Mesh_RadialPrism3D(Mesh_Algorithm): - algo = 0 # algorithm object common for all Mesh_RadialPrism3Ds + #17908#algo = 0 # algorithm object common for all Mesh_RadialPrism3Ds ## Private constructor. def __init__(self, mesh, geom=0): Mesh_Algorithm.__init__(self) - if not Mesh_RadialPrism3D.algo: - Mesh_RadialPrism3D.algo = self.Create(mesh, geom, "RadialPrism_3D") - else: - self.Assign( Mesh_RadialPrism3D.algo, mesh, geom) - pass + #17908#if not Mesh_RadialPrism3D.algo: + #17908# Mesh_RadialPrism3D.algo = self.Create(mesh, geom, "RadialPrism_3D") + #17908#else: + #17908# self.Assign( Mesh_RadialPrism3D.algo, mesh, geom) + #17908# pass + self.Create(mesh, geom, "RadialPrism_3D") + self.distribHyp = self.Hypothesis( "LayerDistribution", UseExisting=0) self.nbLayers = None @@ -1335,22 +1355,24 @@ class Mesh_RadialPrism3D(Mesh_Algorithm): # ------------------------------- class Mesh_UseExisting(Mesh_Algorithm): - algo1D = 0 # StdMeshers_UseExisting_1D object common for all Mesh_UseExisting - algo2D = 0 # StdMeshers_UseExisting_2D object common for all Mesh_UseExisting + #17908#algo1D = 0 # StdMeshers_UseExisting_1D object common for all Mesh_UseExisting + #17908#algo2D = 0 # StdMeshers_UseExisting_2D object common for all Mesh_UseExisting def __init__(self, dim, mesh, geom=0): if dim == 1: - if not Mesh_UseExisting.algo1D: - Mesh_UseExisting.algo1D= self.Create(mesh, geom, "UseExisting_1D") - else: - self.Assign( Mesh_UseExisting.algo1D, mesh, geom) - pass + #17908#if not Mesh_UseExisting.algo1D: + #17908# Mesh_UseExisting.algo1D= self.Create(mesh, geom, "UseExisting_1D") + #17908#else: + #17908# self.Assign( Mesh_UseExisting.algo1D, mesh, geom) + #17908# pass + self.Create(mesh, geom, "UseExisting_1D") else: - if not Mesh_UseExisting.algo2D: - Mesh_UseExisting.algo2D= self.Create(mesh, geom, "UseExisting_2D") - else: - self.Assign( Mesh_UseExisting.algo2D, mesh, geom) - pass + #17908#if not Mesh_UseExisting.algo2D: + #17908# Mesh_UseExisting.algo2D= self.Create(mesh, geom, "UseExisting_2D") + #17908#else: + #17908# self.Assign( Mesh_UseExisting.algo2D, mesh, geom) + #17908# pass + self.Create(mesh, geom, "UseExisting_2D") # Public class: Mesh # ==================