mirror of
https://git.salome-platform.org/gitpub/modules/smesh.git
synced 2024-12-25 17:00:34 +05:00
234 lines
8.0 KiB
Python
234 lines
8.0 KiB
Python
#!/usr/bin/env python
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import sys
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import salome
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salome.standalone()
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salome.salome_init()
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###
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### SHAPER component
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###
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from salome.shaper import model
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model.begin()
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partSet = model.moduleDocument()
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### Create Part
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Part_1 = model.addPart(partSet)
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Part_1_doc = Part_1.document()
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### Create Sketch
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Sketch_1 = model.addSketch(Part_1_doc, model.defaultPlane("XOZ"))
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### Create SketchLine
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SketchLine_1 = Sketch_1.addLine(100, 0, 0, 0)
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### Create SketchProjection
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SketchProjection_1 = Sketch_1.addProjection(model.selection("VERTEX", "PartSet/Origin"), False)
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SketchPoint_1 = SketchProjection_1.createdFeature()
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Sketch_1.setCoincident(SketchLine_1.endPoint(), SketchPoint_1.result())
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### Create SketchLine
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SketchLine_2 = Sketch_1.addLine(0, 0, 0, 100)
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### Create SketchLine
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SketchLine_3 = Sketch_1.addLine(0, 100, 100, 100)
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### Create SketchLine
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SketchLine_4 = Sketch_1.addLine(100, 100, 100, 0)
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Sketch_1.setCoincident(SketchLine_4.endPoint(), SketchLine_1.startPoint())
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Sketch_1.setCoincident(SketchLine_1.endPoint(), SketchLine_2.startPoint())
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Sketch_1.setCoincident(SketchLine_2.endPoint(), SketchLine_3.startPoint())
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Sketch_1.setCoincident(SketchLine_3.endPoint(), SketchLine_4.startPoint())
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Sketch_1.setHorizontal(SketchLine_1.result())
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Sketch_1.setVertical(SketchLine_2.result())
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Sketch_1.setHorizontal(SketchLine_3.result())
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Sketch_1.setVertical(SketchLine_4.result())
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Sketch_1.setEqual(SketchLine_3.result(), SketchLine_4.result())
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Sketch_1.setLength(SketchLine_1.result(), 100)
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### Create SketchLine
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SketchLine_5 = Sketch_1.addLine(0, 50, 100, 50)
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Sketch_1.setCoincident(SketchLine_5.startPoint(), SketchLine_2.result())
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Sketch_1.setCoincident(SketchLine_5.endPoint(), SketchLine_4.result())
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Sketch_1.setHorizontal(SketchLine_5.result())
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### Create SketchLine
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SketchLine_6 = Sketch_1.addLine(50, 50.00000000000001, 50, 0)
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Sketch_1.setCoincident(SketchLine_6.endPoint(), SketchLine_1.result())
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Sketch_1.setVertical(SketchLine_6.result())
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Sketch_1.setCoincident(SketchLine_6.startPoint(), SketchLine_5.result())
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Sketch_1.setMiddlePoint(SketchLine_6.startPoint(), SketchLine_5.result())
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Sketch_1.setMiddlePoint(SketchLine_5.startPoint(), SketchLine_2.result())
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model.do()
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### Create Extrusion
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Extrusion_1 = model.addExtrusion(Part_1_doc, [model.selection("COMPOUND", "Sketch_1")], model.selection(), 100, 0, "Faces|Wires")
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### Create Group
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Group_1 = model.addGroup(Part_1_doc, "Faces", [model.selection("FACE", "Extrusion_1_1_1/Generated_Face&Sketch_1/SketchLine_5"), model.selection("FACE", "(Extrusion_1_1_3/Generated_Face&Sketch_1/SketchLine_4)(Extrusion_1_1_3/From_Face)(Extrusion_1_1_3/To_Face)(Extrusion_1_1_3/Generated_Face&Sketch_1/SketchLine_3)2(Extrusion_1_1_3/Generated_Face&Sketch_1/SketchLine_2)2")])
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Group_1.setName("crack_1")
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Group_1.result().setName("crack_1")
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### Create Group
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Group_2 = model.addGroup(Part_1_doc, "Faces", [model.selection("FACE", "Extrusion_1_1_1/Generated_Face&Sketch_1/SketchLine_6")])
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Group_2.setName("crack_2")
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Group_2.result().setName("crack_2")
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### Create Group
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Group_3 = model.addGroup(Part_1_doc, "Faces", [model.selection("COMPSOLID", "Extrusion_1_1")])
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Group_3.setName("all_faces")
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Group_3.result().setName("all_faces")
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### Create GroupSubstraction
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GroupSubstraction_1 = model.addGroupSubstraction(Part_1_doc, [model.selection("COMPOUND", "all_faces")], [model.selection("COMPOUND", "crack_1"), model.selection("COMPOUND", "crack_2")])
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GroupSubstraction_1.result().setName("sides")
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### Create Group
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Group_4 = model.addGroup(Part_1_doc, "Edges", [model.selection("EDGE", "[Extrusion_1_1_3/Generated_Face&Sketch_1/SketchLine_3][Extrusion_1_1_3/To_Face]")])
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Group_4.setName("top_edge")
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Group_4.result().setName("top_edge")
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### Create Group
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Group_5 = model.addGroup(Part_1_doc, "Solids", [model.selection("SOLID", "Extrusion_1_1_3")])
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Group_5.setName("Solid_1")
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Group_5.result().setName("Solid_1")
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### Create Group
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Group_6 = model.addGroup(Part_1_doc, "Solids", [model.selection("SOLID", "Extrusion_1_1_1")])
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Group_6.setName("Solid_2")
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Group_6.result().setName("Solid_2")
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### Create Group
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Group_7 = model.addGroup(Part_1_doc, "Solids", [model.selection("SOLID", "Extrusion_1_1_2")])
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Group_7.setName("Solid_3")
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Group_7.result().setName("Solid_3")
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model.end()
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###
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### SHAPERSTUDY component
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###
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model.publishToShaperStudy()
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import SHAPERSTUDY
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shapes = SHAPERSTUDY.shape(model.featureStringId(Extrusion_1))
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Extrusion_1_1 = shapes[0]
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groups = shapes[1:]
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# dict of groups by their name
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d_groups = {}
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for gr in groups:
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name = gr.GetName()
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d_groups[name] = gr
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###
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### SMESH component
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###
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import SMESH, SALOMEDS
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from salome.smesh import smeshBuilder
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smesh = smeshBuilder.New()
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# Create an hexahedral mesh or polyhedral mesh
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# @param algo: "hexahedra", "polyhedra" or "polygons"
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def createMesh(algo):
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nb_segs = 5
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Mesh_1 = smesh.Mesh(Extrusion_1_1)
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mesh_name = "Mesh_%s"%algo
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Mesh_1.SetName(mesh_name)
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algo_1d = Mesh_1.Segment()
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algo_1d.NumberOfSegments(nb_segs)
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if algo == "hexahedra":
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Mesh_1.Quadrangle(algo=smeshBuilder.QUADRANGLE)
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Mesh_1.Hexahedron(algo=smeshBuilder.Hexa)
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elif algo == "polyhedra":
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Mesh_1.Quadrangle(algo=smeshBuilder.QUADRANGLE)
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Mesh_1.Polyhedron()
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elif algo == "polygons":
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Mesh_1.Polygon()
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Mesh_1.Polyhedron()
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else:
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raise Exception("not expected algo: ", algo)
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d_mesh_groups = {}
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# Create group of faces
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for name, gr in d_groups.items():
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if name.startswith("crack") or name.startswith("Solid_"):
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gr_mesh = Mesh_1.Group(gr)
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d_mesh_groups[name] = gr_mesh
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# Group on nodes
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gr_sides_1 = Mesh_1.GroupOnGeom(d_groups["sides"],'sides',SMESH.NODE)
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# sub-mesh on top edge
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algo_1d_sub = Mesh_1.Segment(geom=d_groups["top_edge"])
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algo_1d_sub.NumberOfSegments(2*nb_segs)
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algo_1d_sub.Propagation()
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isDone = Mesh_1.Compute()
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if not isDone:
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raise Exception("Error when computing Mesh")
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nb_nodes = Mesh_1.NbNodes()
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# Create 2 cracks by two calls of DoubleNodeElemGroups
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# FIRST CRACK
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# get affected elements on crack_1
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[ affectedVolumes_1, affectedFaces_1, affectedEdges_1 ] = Mesh_1.AffectedElemGroupsInRegion( [ d_mesh_groups["crack_1" ] ], [ gr_sides_1 ], None )
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# affectedVolumes_1 is d_mesh_groups["Solid_1"] => use one or the other
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# double nodes on crack_1
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[ crack_1_double_faces, crack_1_double_nodes ] = Mesh_1.DoubleNodeElemGroups( [ d_mesh_groups["crack_1" ] ], [ gr_sides_1 ], [ affectedVolumes_1, affectedFaces_1, affectedEdges_1 ], 1, 1 )
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# check new nodes were added
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new_nb_nodes_1 = Mesh_1.NbNodes()
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assert new_nb_nodes_1 > nb_nodes
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# check number of new nodes
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if algo != "polygons":
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assert new_nb_nodes_1-nb_nodes == (nb_segs*2-1)*(nb_segs-1)
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else:
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assert new_nb_nodes_1-nb_nodes == nb_segs-1
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# check new nodes where affected to volume elements
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affectedVolumes_1_nodes = affectedVolumes_1.GetNodeIDs()
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for n in range(nb_nodes +1, new_nb_nodes_1):
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assert n in affectedVolumes_1_nodes, "New node not affected to affectedVolumes_1 in %s"%mesh_name
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# SECOND CRACK
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# get affected elements on crack_2
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[ affectedVolumes_2, affectedFaces_2, affectedEdges_2 ] = Mesh_1.AffectedElemGroupsInRegion( [ d_mesh_groups["crack_2" ] ], [ gr_sides_1 ], None )
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# double nodes on crack_2
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# affectedVolumes_2 is d_mesh_groups["Solid_3"] => use one or the other
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[ crack_2_double_faces, crack_2_double_nodes ] = Mesh_1.DoubleNodeElemGroups( [ d_mesh_groups["crack_2" ] ], [ gr_sides_1 ], [ affectedVolumes_2, affectedFaces_2, affectedEdges_2 ], 1, 1 )
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# check new nodes were added
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new_nb_nodes_2 = Mesh_1.NbNodes()
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assert new_nb_nodes_2 > new_nb_nodes_1
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# check number of new nodes
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if algo != "polygons":
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assert new_nb_nodes_2-new_nb_nodes_1 == (nb_segs-1)*nb_segs
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else:
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assert new_nb_nodes_2-new_nb_nodes_1 == nb_segs-1
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# check new nodes where affected to volume elements
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affectedVolumes_2_nodes = affectedVolumes_2.GetNodeIDs()
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for n in range(new_nb_nodes_1 +1, new_nb_nodes_2):
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assert n in affectedVolumes_2_nodes, "New node not affected to affectedVolumes_2 in %s"%mesh_name
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createMesh("hexahedra")
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createMesh("polyhedra")
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createMesh("polygons")
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if salome.sg.hasDesktop():
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salome.sg.updateObjBrowser()
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