mirror of
https://git.salome-platform.org/gitpub/modules/smesh.git
synced 2024-11-14 09:38:33 +05:00
178 lines
5.1 KiB
Python
178 lines
5.1 KiB
Python
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#!/usr/bin/env python
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import os
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import sys
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import salome
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import tempfile
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salome.salome_init()
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def getTmpFileName(ext):
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"""
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get a tmp file name
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"""
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tempdir = tempfile.gettempdir()
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tmp_file = tempfile.NamedTemporaryFile(suffix=".%s"%ext , dir=tempdir, delete=False)
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tmp_filename = tmp_file.name
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return tmp_filename
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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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Part_1 = model.addPart(partSet)
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Part_1_doc = Part_1.document()
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Cylinder_1 = model.addCylinder(Part_1_doc, model.selection("VERTEX", "PartSet/Origin"), model.selection("EDGE", "PartSet/OZ"), 1, 7)
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Point_2 = model.addPoint(Part_1_doc, 1, 0, 1.5)
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Point_3 = model.addPoint(Part_1_doc, 0.5, 0, 3.5)
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Sphere_1 = model.addSphere(Part_1_doc, model.selection("VERTEX", "Point_1"), 0.75)
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Cylinder_2 = model.addCylinder(Part_1_doc, model.selection("VERTEX", "Point_2"), model.selection("EDGE", "PartSet/OX"), 0.6, 3)
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Fuse_1_objects_1 = [model.selection("SOLID", "Cylinder_2_1"),
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model.selection("SOLID", "Cylinder_1_1"),
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model.selection("SOLID", "Sphere_1_1")]
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Fuse_1 = model.addFuse(Part_1_doc, Fuse_1_objects_1, keepSubResults = True)
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model.end()
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expected_volume = 25.881416712512
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model.testResultsVolumes(Fuse_1, [expected_volume])
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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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Fuse_1_1, = SHAPERSTUDY.shape(model.featureStringId(Fuse_1))
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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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# Surface Mesh
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# ============
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Mesh_1 = smesh.Mesh(Fuse_1_1, "Mesh_1")
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NETGEN_1D_2D = Mesh_1.Triangle(algo=smeshBuilder.NETGEN_1D2D)
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NETGEN_2D_Parameters_1 = NETGEN_1D_2D.Parameters()
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NETGEN_2D_Parameters_1.SetMaxSize( 0.75 )
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NETGEN_2D_Parameters_1.SetMinSize( 0 )
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NETGEN_2D_Parameters_1.SetSecondOrder( 0 )
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NETGEN_2D_Parameters_1.SetOptimize( 1 )
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NETGEN_2D_Parameters_1.SetFineness( 5 )
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NETGEN_2D_Parameters_1.SetGrowthRate( 0.1 )
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NETGEN_2D_Parameters_1.SetNbSegPerEdge( 2 )
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NETGEN_2D_Parameters_1.SetNbSegPerRadius( 4 )
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isDone = Mesh_1.Compute()
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if not isDone:
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raise Exception("Error when computing the surface mesh")
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# MG-Hexa mesh
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# ============
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MG_Hexa = Mesh_1.Hexahedron(algo=smeshBuilder.MG_Hexa)
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isDone = Mesh_1.Compute()
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if not isDone:
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raise Exception("Error when computing volumes with MG-Hexa")
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volume = smesh.GetVolume(Mesh_1)
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#print("volume: ", volume)
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assert abs(volume-expected_volume)/expected_volume < 0.03
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assert Mesh_1.NbTriangles() == 0
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nb_hexa = Mesh_1.NbHexas()
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assert Mesh_1.NbVolumes() == nb_hexa
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# MG-Hexa mesh with layers
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# ========================
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MG_Hexa_Parameters = MG_Hexa.Parameters()
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MG_Hexa_Parameters.SetNbLayers( 3 )
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MG_Hexa_Parameters.SetFirstLayerSize( 0.01 )
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MG_Hexa_Parameters.SetGrowth( 1.1 )
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MG_Hexa_Parameters.SetFacesWithLayers( [ 10, 3 ] )
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MG_Hexa_Parameters.SetImprintedFaces( [ 18, 20, 22 ] )
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isDone = Mesh_1.Compute()
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if not isDone:
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raise Exception("Error when computing volumes with MG-Hexa and layers")
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nb_hexa_with_layers = Mesh_1.NbHexas()
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assert Mesh_1.NbVolumes() == nb_hexa_with_layers
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assert nb_hexa < nb_hexa_with_layers
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volume_with_layers = smesh.GetVolume(Mesh_1)
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#print("volume_with_layers: ", volume_with_layers)
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assert abs(volume_with_layers-expected_volume)/expected_volume < 0.05
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gr_small_volume = Mesh_1.MakeGroup("small_volumes_layers",
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SMESH.VOLUME,
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CritType=SMESH.FT_Volume3D,
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Compare=SMESH.FT_LessThan,
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Threshold=8e-5,
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Tolerance=1e-07)
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layers_volume = smesh.GetVolume(gr_small_volume)
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#print("layers_volume: ", layers_volume)
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assert layers_volume < 0.9
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# check max Warp3D
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max_warp3D = Mesh_1.GetMinMax(SMESH.FT_Warping3D)[1]
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print("max_warp3D: ", max_warp3D)
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# Check that some elements are warped
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assert max_warp3D > 1
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gr_warp3D = Mesh_1.MakeGroup("warp3D",
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SMESH.VOLUME,
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CritType=SMESH.FT_Warping3D,
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Compare=SMESH.FT_MoreThan,
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Threshold=1,
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Tolerance=1e-07)
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# Check the group has some elements
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assert gr_warp3D.Size() > 0
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# create a mesh with the faces of the hexaedra thanks to medcoupling
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umesh_3D = Mesh_1.ExportMEDCoupling()[0]
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# create faces
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umesh_2D,d0,d1,d2,d3=umesh_3D.buildDescendingConnectivity()
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# export the 2D mesh in a tmp file
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tmp_filename = getTmpFileName("med")
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umesh_2D.write(tmp_filename)
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# import it in SMESH
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([Mesh_faces], status) = smesh.CreateMeshesFromMED( tmp_filename )
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gr_warp2D = Mesh_faces.MakeGroup("warp2D",
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SMESH.FACE,
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CritType=SMESH.FT_Warping,
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Compare=SMESH.FT_MoreThan,
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Threshold=1,
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Tolerance=1e-07)
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# check max Warp3D
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max_warp2D = Mesh_faces.GetMinMax(SMESH.FT_Warping)[1]
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print("max_warp2D: ", max_warp2D)
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assert max_warp2D > 1
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assert abs(max_warp2D-max_warp3D)/max_warp2D < 1e-5
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os.remove(tmp_filename)
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if salome.sg.hasDesktop():
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salome.sg.updateObjBrowser()
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