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63 lines
1.7 KiB
Python
63 lines
1.7 KiB
Python
# Construction of a Sub-mesh
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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 box
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box = geom_builder.MakeBoxDXDYDZ(10., 10., 10.)
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geom_builder.addToStudy(box, "Box")
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# select one edge of the box for definition of a local hypothesis
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p5 = geom_builder.MakeVertex(5., 0., 0.)
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EdgeX = geom_builder.GetEdgeNearPoint(box, p5)
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geom_builder.addToStudyInFather(box, EdgeX, "Edge [0,0,0 - 10,0,0]")
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# create a hexahedral mesh on the box
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mesh = smesh_builder.Mesh(box, "Box : hexahedral 3D mesh")
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# create a Regular_1D algorithm for discretization of edges
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algo1D = mesh.Segment()
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# define "NumberOfSegments" hypothesis to cut
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# all the edges in a fixed number of segments
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algo1D.NumberOfSegments(4)
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# create a quadrangle 2D algorithm for the faces
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mesh.Quadrangle()
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# construct a sub-mesh on the edge with a local Regular_1D algorithm
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algo_local = mesh.Segment(EdgeX)
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# define "Arithmetic1D" hypothesis to cut EdgeX in several segments with length arithmetically
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# increasing from 1.0 to 4.0
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algo_local.Arithmetic1D(1, 4)
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# define "Propagation" hypothesis that propagates algo_local and "Arithmetic1D" hypothesis
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# from EdgeX to all parallel edges
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algo_local.Propagation()
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# assign a hexahedral algorithm
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mesh.Hexahedron()
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# any sub-shape can be meshed individually --
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# compute mesh on two surfaces using different methods
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# get surfaces
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surfaces = geom_builder.SubShapeAll(box, geom_builder.ShapeType["FACE"])
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# method 1: no sub-mesh is created
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mesh.Compute( surfaces[0] )
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# method 2: a sub-mesh is created
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submesh = mesh.GetSubMesh( surfaces[2], "submesh 2" )
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submesh.Compute()
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# compute the whole mesh
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mesh.Compute()
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