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https://git.salome-platform.org/gitpub/modules/smesh.git
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109 lines
3.5 KiB
Python
109 lines
3.5 KiB
Python
# Usage of Body Fitting algorithm
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import salome
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salome.salome_init_without_session()
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from salome.geom import geomBuilder
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from salome.smesh import smeshBuilder
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geom_builder = geomBuilder.New()
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smesh_builder = smeshBuilder.New()
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# create a sphere
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sphere = geom_builder.MakeSphereR( 50 )
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# cut the sphere by a box
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box = geom_builder.MakeBoxDXDYDZ( 100, 100, 100 )
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partition = geom_builder.MakePartition([ sphere ], [ box ], theName="partition")
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# create a mesh and assign a "Body Fitting" algo
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mesh = smesh_builder.Mesh( partition )
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cartAlgo = mesh.BodyFitted()
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# define a cartesian grid using Coordinates
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coords = list(range(-100,100,10))
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cartHyp = cartAlgo.SetGrid( coords,coords,coords, 1000000)
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# compute the mesh
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if not mesh.Compute(): raise Exception("Error when computing Mesh")
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print("nb hexahedra",mesh.NbHexas())
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print("nb tetrahedra",mesh.NbTetras())
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print("nb polyhedra",mesh.NbPolyhedrons())
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print()
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# define the grid by setting constant spacing
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cartHyp = cartAlgo.SetGrid( "10","10","10", 1000000)
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if not mesh.Compute(): raise Exception("Error when computing Mesh")
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print("nb hexahedra",mesh.NbHexas())
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print("nb tetrahedra",mesh.NbTetras())
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print("nb polyhedra",mesh.NbPolyhedrons())
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print("nb faces",mesh.NbFaces())
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print()
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# activate creation of faces
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cartHyp.SetToCreateFaces( True )
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if not mesh.Compute(): raise Exception("Error when computing Mesh")
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print("nb hexahedra",mesh.NbHexas())
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print("nb tetrahedra",mesh.NbTetras())
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print("nb polyhedra",mesh.NbPolyhedrons())
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print("nb faces",mesh.NbFaces())
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print()
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# enable consideration of shared faces
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cartHyp.SetToConsiderInternalFaces( True )
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if not mesh.Compute(): raise Exception("Error when computing Mesh")
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print("nb hexahedra",mesh.NbHexas())
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print("nb tetrahedra",mesh.NbTetras())
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print("nb polyhedra",mesh.NbPolyhedrons())
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print("nb faces",mesh.NbFaces())
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print()
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# define the grid by setting different spacing in 2 sub-ranges of geometry
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spaceFuns = ["5","10+10*t"]
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cartAlgo.SetGrid( [spaceFuns, [0.5]], [spaceFuns, [0.5]], [spaceFuns, [0.25]], 10 )
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if not mesh.Compute(): raise Exception("Error when computing Mesh")
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print("nb hexahedra",mesh.NbHexas())
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print("nb tetrahedra",mesh.NbTetras())
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print("nb polyhedra",mesh.NbPolyhedrons())
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print()
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# Example of customization of dirtections of the grid axes
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# make a box with non-orthogonal edges
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xDir = geom_builder.MakeVectorDXDYDZ( 1.0, 0.1, 0.0, "xDir" )
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yDir = geom_builder.MakeVectorDXDYDZ(-0.1, 1.0, 0.0, "yDir" )
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zDir = geom_builder.MakeVectorDXDYDZ( 0.2, 0.3, 1.0, "zDir" )
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face = geom_builder.MakePrismVecH( xDir, yDir, 1.0 )
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box = geom_builder.MakePrismVecH( face, zDir, 1.0, theName="box" )
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spc = "0.1" # spacing
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# default axes
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mesh = smesh_builder.Mesh( box, "custom axes")
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algo = mesh.BodyFitted()
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algo.SetGrid( spc, spc, spc, 10000 )
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if not mesh.Compute(): raise Exception("Error when computing Mesh")
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print("Default axes")
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print(" nb hex:",mesh.NbHexas())
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# set axes using edges of the box
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algo.SetAxesDirs( xDir, [-0.1,1,0], zDir )
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if not mesh.Compute(): raise Exception("Error when computing Mesh")
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print("Manual axes")
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print(" nb hex:",mesh.NbHexas())
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# set optimal orthogonal axes
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algo.SetOptimalAxesDirs( isOrthogonal=True )
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if not mesh.Compute(): raise Exception("Error when computing Mesh")
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print("Optimal orthogonal axes")
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print(" nb hex:",mesh.NbHexas())
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# set optimal non-orthogonal axes
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algo.SetOptimalAxesDirs( isOrthogonal=False )
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if not mesh.Compute(): raise Exception("Error when computing Mesh")
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print("Optimal non-orthogonal axes")
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print(" nb hex:",mesh.NbHexas())
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