from geompy import *
import smesh
# create vertices
Point111 = MakeVertex( 0, 0, 0)
Point211 = MakeVertex(10, 0, 0)
Point121 = MakeVertex( 0, 10, 0)
Point221 = MakeVertex(10, 10, 0)
Point112 = MakeVertex( 0, 0, 10)
Point212 = MakeVertex(10, 0, 10)
Point122 = MakeVertex( 0, 10, 10)
Point222 = MakeVertex(10, 10, 10)
# create edges
EdgeX111 = MakeEdge(Point111, Point211)
EdgeX121 = MakeEdge(Point121, Point221)
EdgeX112 = MakeEdge(Point112, Point212)
EdgeX122 = MakeEdge(Point122, Point222)
EdgeY11 = MakeEdge(Point111, Point121)
EdgeY21 = MakeEdge(Point211, Point221)
EdgeY12 = MakeEdge(Point112, Point122)
EdgeY22 = MakeEdge(Point212, Point222)
EdgeZ111 = MakeEdge(Point111, Point112)
EdgeZ211 = MakeEdge(Point211, Point212)
EdgeZ121 = MakeEdge(Point121, Point122)
EdgeZ221 = MakeEdge(Point221, Point222)
# create faces
FaceX11 = MakeQuad(EdgeY11, EdgeZ111, EdgeY12, EdgeZ121)
FaceX21 = MakeQuad(EdgeY21, EdgeZ211, EdgeY22, EdgeZ221)
FaceY111 = MakeQuad(EdgeX111, EdgeZ111, EdgeX112, EdgeZ211)
FaceY121 = MakeQuad(EdgeX121, EdgeZ121, EdgeX122, EdgeZ221)
FaceZ11 = MakeQuad(EdgeX111, EdgeY11, EdgeX121, EdgeY21)
FaceZ12 = MakeQuad(EdgeX112, EdgeY12, EdgeX122, EdgeY22)
# create a solid
Block = MakeHexa(FaceX11, FaceX21, FaceY111, FaceY121, FaceZ11, FaceZ12)
# create a compound
box = MakeCompound([Block])
# add in the study
box_id = addToStudy(box, "Box compound")
# create a hexahedral mesh on the box
hexa = smesh.Mesh(box, "Box compound : hexahedrical mesh")
algo = hexa.Segment()
# define "NumberOfSegments" hypothesis to cut an edge in a fixed number of segments
algo.NumberOfSegments(4)
# create a quadrangle 2D algorithm for faces
hexa.Quadrangle()
# create a hexahedron 3D algorithm for solids
hexa.Hexahedron()
# create a local hypothesis
algo = hexa.Segment(EdgeX111)
# define "Arithmetic1D" hypothesis to cut an edge in several segments with arithmetic length increasing
algo.Arithmetic1D(1, 4)
# define "Propagation" hypothesis that propagates all other hypothesis on all edges on the opposite side in case of quadrangular faces
algo.Propagation()
# compute the mesh
hexa.Compute()
import smesh
import geompy
import salome
gg = salome.ImportComponentGUI("GEOM")
# create vertices
px =geompy.MakeVertex(100., 0. ,0. )
py =geompy.MakeVertex(0. ,100., 0. )
pz =geompy.MakeVertex(0. ,0. , 100.)
# create a vector from two points
vxy = geompy.MakeVector(px,py)
# create an arc from three points
arc = geompy.MakeArc(py, pz, px)
# create a wire
wire = geompy.MakeWire([vxy,arc])
isPlanarFace = 1
# create a face from the wire
face1 = geompy.MakeFace(wire,isPlanarFace)
# get edges from the face
vxy, arc = geompy.SubShapeAll(face1, geompy.ShapeType["EDGE"])
# add objects in the study
id_face1 = geompy.addToStudy(face1,"Face1")
id_arc = geompy.addToStudyInFather(face1,arc,"Arc Edge")
# display faces
gg.createAndDisplayGO(id_face1)
gg.setDisplayMode(id_face1,1)
gg.setTransparency(id_face1,0.2)
# create hexahedral mesh
hexa = smesh.Mesh(face1,"Face compound : hexahedrical mesh")
algo = hexa.Triangle()
# define "MaxElementArea"hypothesis
algo.MaxElementArea(30)
# create a local hypothesis on the wire
algo = hexa.Segment(wire)
# define "NumberOfSegments"hypothesis to cut a straight edge in a fixed number of segments
algo.NumberOfSegments(6)
# define a local "Deflection1D"hypothesis on the arc
algo = hexa.Segment(arc)
algo.Deflection1D(1)
# compute the mesh
hexa.Compute()
from geompy import *
import smesh
# create vertices
Point111 = MakeVertex( 0, 0, 0)
Point211 = MakeVertex(10, 0, 0)
Point121 = MakeVertex( 0, 10, 0)
Point221 = MakeVertex(10, 10, 0)
Point112 = MakeVertex( 0, 0, 10)
Point212 = MakeVertex(10, 0, 10)
Point122 = MakeVertex( 0, 10, 10)
Point222 = MakeVertex(10, 10, 10)
# create edges
EdgeX111 = MakeEdge(Point111, Point211)
EdgeX121 = MakeEdge(Point121, Point221)
EdgeX112 = MakeEdge(Point112, Point212)
EdgeX122 = MakeEdge(Point122, Point222)
EdgeY11 = MakeEdge(Point111, Point121)
EdgeY21 = MakeEdge(Point211, Point221)
EdgeY12 = MakeEdge(Point112, Point122)
EdgeY22 = MakeEdge(Point212, Point222)
EdgeZ111 = MakeEdge(Point111, Point112)
EdgeZ211 = MakeEdge(Point211, Point212)
EdgeZ121 = MakeEdge(Point121, Point122)
EdgeZ221 = MakeEdge(Point221, Point222)
# create faces
FaceX11 = MakeQuad(EdgeY11, EdgeZ111, EdgeY12, EdgeZ121)
FaceX21 = MakeQuad(EdgeY21, EdgeZ211, EdgeY22, EdgeZ221)
FaceY111 = MakeQuad(EdgeX111, EdgeZ111, EdgeX112, EdgeZ211)
FaceY121 = MakeQuad(EdgeX121, EdgeZ121, EdgeX122, EdgeZ221)
FaceZ11 = MakeQuad(EdgeX111, EdgeY11, EdgeX121, EdgeY21)
FaceZ12 = MakeQuad(EdgeX112, EdgeY12, EdgeX122, EdgeY22)
# create a solid
Block = MakeHexa(FaceX11, FaceX21, FaceY111, FaceY121, FaceZ11, FaceZ12)
# create a compound
box = MakeCompound([Block])
# add in the study
box_id = addToStudy(box, "Box compound")
# create a hexahedral mesh on the box
hexa = smesh.Mesh(box, "Box compound : hexahedrical mesh")
algo = hexa.Segment()
# define "NumberOfSegments" hypothesis to cut an edge in a fixed number of segments
algo.NumberOfSegments(4)
# create a quadrangle 2D algorithm for faces
hexa.Quadrangle()
# create a hexahedron 3D algorithm for solids
hexa.Hexahedron()
# create a local hypothesis
algo = hexa.Segment(EdgeX111)
# define "StartEndLength" hypothesis to cut an edge in several segments with increasing geometric length
algo.StartEndLength(1, 6)
# define "Propagation" hypothesis that propagates all other hypothesis on all edges on the opposite side in case of quadrangular faces
algo.Propagation()
# compute the mesh
hexa.Compute()
from geompy import *
import smesh
# create vertices
Point111 = MakeVertex( 0, 0, 0)
Point211 = MakeVertex(10, 0, 0)
Point121 = MakeVertex( 0, 10, 0)
Point221 = MakeVertex(10, 10, 0)
Point112 = MakeVertex( 0, 0, 10)
Point212 = MakeVertex(10, 0, 10)
Point122 = MakeVertex( 0, 10, 10)
Point222 = MakeVertex(10, 10, 10)
# create edges
EdgeX111 = MakeEdge(Point111, Point211)
EdgeX121 = MakeEdge(Point121, Point221)
EdgeX112 = MakeEdge(Point112, Point212)
EdgeX122 = MakeEdge(Point122, Point222)
EdgeY11 = MakeEdge(Point111, Point121)
EdgeY21 = MakeEdge(Point211, Point221)
EdgeY12 = MakeEdge(Point112, Point122)
EdgeY22 = MakeEdge(Point212, Point222)
EdgeZ111 = MakeEdge(Point111, Point112)
EdgeZ211 = MakeEdge(Point211, Point212)
EdgeZ121 = MakeEdge(Point121, Point122)
EdgeZ221 = MakeEdge(Point221, Point222)
# create faces
FaceX11 = MakeQuad(EdgeY11, EdgeZ111, EdgeY12, EdgeZ121)
FaceX21 = MakeQuad(EdgeY21, EdgeZ211, EdgeY22, EdgeZ221)
FaceY111 = MakeQuad(EdgeX111, EdgeZ111, EdgeX112, EdgeZ211)
FaceY121 = MakeQuad(EdgeX121, EdgeZ121, EdgeX122, EdgeZ221)
FaceZ11 = MakeQuad(EdgeX111, EdgeY11, EdgeX121, EdgeY21)
FaceZ12 = MakeQuad(EdgeX112, EdgeY12, EdgeX122, EdgeY22)
# create a solid
Block = MakeHexa(FaceX11, FaceX21, FaceY111, FaceY121, FaceZ11, FaceZ12)
# create a compound
box = MakeCompound([Block])
# add in the study
box_id = addToStudy(box, "Box compound")
# create a hexahedral mesh on the box
hexa = smesh.Mesh(box, "Box compound : hexahedrical mesh")
algo = hexa.Segment()
# define "NumberOfSegments" hypothesis to cut an edge in a fixed number of segments
algo.NumberOfSegments(4)
# create a quadrangle 2D algorithm for faces
hexa.Quadrangle()
# create a hexahedron 3D algorithm for solids
hexa.Hexahedron()
# create a local hypothesis
algo = hexa.Segment(EdgeX111)
# define "LocalLength" hypothesis to cut an edge in several segments with the same length
algo.LocalLength(2)
# define "Propagation" hypothesis that propagates all other hypothesis on all edges on the opposite side in case of quadrangular faces
algo.Propagation()
# compute the mesh
hexa.Compute()
import smesh
import geompy
import salome
gg = salome.ImportComponentGUI("GEOM")
# create vertices
px = geompy.MakeVertex(100., 0. , 0. )
py = geompy.MakeVertex(0. , 100., 0. )
pz = geompy.MakeVertex(0. , 0. , 100.)
# create a vector from two points
vxy = geompy.MakeVector(px, py)
# create an arc from three points
arc = geompy.MakeArc(py, pz, px)
# create a wire
wire = geompy.MakeWire([vxy, arc])
isPlanarFace = 1
# create a face from the wire
face1 = geompy.MakeFace(wire, isPlanarFace)
# add objects in the study
id_face1 = geompy.addToStudy(face1,"Face1")
# display faces
gg.createAndDisplayGO(id_face1)
gg.setDisplayMode(id_face1,1)
gg.setTransparency(id_face1,0.2)
# create a hexahedral mesh
hexa = smesh.Mesh(face1, "Face compound : hexahedrical mesh")
algo = hexa.Triangle()
# define "MaxElementArea" hypothesis to be applied to each triangle
algo.MaxElementArea(7)
# create a quadrangle 2D algorithm for faces
hexa.Quadrangle()
# create a local hypothesis
algo = hexa.Segment(wire)
# define "NumberOfSegments" hypothesis to cut an edge in a fixed number of segments
algo.NumberOfSegments(10)
# compute the mesh
hexa.Compute()
import salome
import geompy
import StdMeshers
smesh = salome.lcc.FindOrLoadComponent("FactoryServer", "SMESH")
smeshgui = salome.ImportComponentGUI("SMESH")
smeshgui.Init(salome.myStudyId);
# create a box
box = geompy.MakeCylinderRH(30, 50) #MakeBox(0., 0., 0., 100., 200., 300.)
# add the box to the study
idbox = geompy.addToStudy(box, "box")
# create vertices
px = geompy.MakeVertex(100., 0. , 0. )
py = geompy.MakeVertex(0. , 100., 0. )
pz = geompy.MakeVertex(0. , 0. , 100.)
# create a vector from two points
vxy = geompy.MakeVector(px, py)
# create an arc from three points
arc = geompy.MakeArc(py, pz, px)
# create a wire
wire = geompy.MakeWire([vxy, arc])
isPlanarFace = 1
# create a face from the wire
#face1
box = geompy.MakeFace(wire, isPlanarFace)
# add objects in the study
id_face1 = geompy.addToStudy(box,"Face1")
#geompy.addToStudy(face1,"Face1")
# display faces
gg.createAndDisplayGO(id_face1)
gg.setDisplayMode(id_face1,1)
gg.setTransparency(id_face1,0.2)
# create a hypothesis
print "-------------------------- create Hypothesis"
print "-------------------------- NumberOfSegments"
numberOfSegments = 7
hypNbSeg = smesh.CreateHypothesis("NumberOfSegments", "libStdMeshersEngine.so")
hypNbSeg.SetNumberOfSegments(numberOfSegments)
print hypNbSeg.GetName()
print hypNbSeg.GetId()
print hypNbSeg.GetNumberOfSegments()
smeshgui.SetName(salome.ObjectToID(hypNbSeg), "NumberOfSegments_10")
print "-------------------------- MaxElementArea"
maxElementArea = 800
hypArea = smesh.CreateHypothesis("MaxElementArea", "libStdMeshersEngine.so")
hypArea.SetMaxElementArea(maxElementArea)
print hypArea.GetName()
print hypArea.GetId()
print hypArea.GetMaxElementArea()
smeshgui.SetName(salome.ObjectToID(hypArea), "MaxElementArea_800")
print "-------------------------- MaxElementVolume"
maxElementVolume = 900
hypVolume = smesh.CreateHypothesis("MaxElementVolume", "libStdMeshersEngine.so")
hypVolume.SetMaxElementVolume(maxElementVolume)
print hypVolume.GetName()
print hypVolume.GetId()
print hypVolume.GetMaxElementVolume()
smeshgui.SetName(salome.ObjectToID(hypVolume), "MaxElementVolume_900")
# create algorithms
print "-------------------------- create Algorithms"
print "-------------------------- Regular_1D"
regular1D = smesh.CreateHypothesis("Regular_1D", "libStdMeshersEngine.so")
smeshgui.SetName(salome.ObjectToID(regular1D), "Wire Discretisation")
print "-------------------------- MEFISTO_2D"
mefisto2D = smesh.CreateHypothesis("MEFISTO_2D", "libStdMeshersEngine.so")
smeshgui.SetName(salome.ObjectToID(mefisto2D), "MEFISTO_2D")
#print "-------------------------- Hexa_3D (Hexahedron meshing algorithm)"
hexa3D = smesh.CreateHypothesis("Hexa_3D", "libStdMeshersEngine.so")
smeshgui.SetName(salome.ObjectToID(hexa3D), "HEXA_3D")
# initialize a mesh with the box
mesh = smesh.CreateMesh(box)
smeshgui.SetName(salome.ObjectToID(mesh), "MeshBox")
# add a hypothesis to the box
print "-------------------------- add hypothesis to the box"
mesh.AddHypothesis(box,hypNbSeg)
mesh.AddHypothesis(box,hypArea)
mesh.AddHypothesis(box,hypVolume)
mesh.AddHypothesis(box,regular1D)
mesh.AddHypothesis(box,mefisto2D)
mesh.AddHypothesis(box,hexa3D)
# compute the mesh
print "-------------------------- compute the mesh of the box"
ret = smesh.Compute(mesh,box)
print ret
if ret == 0:
print "probleme when computing the mesh"
salome.sg.updateObjBrowser(1)
import smesh
import geompy
import salome
gg = salome.ImportComponentGUI("GEOM")
# create sketchers
sketcher1 = geompy.MakeSketcher("Sketcher:F 0 0:TT 70 0:TT 70 70:TT 0 70:WW")
sketcher2 = geompy.MakeSketcher("Sketcher:F 20 20:TT 50 20:TT 50 50:TT 20 50:WW")
isPlanarFace = 1
# create faces from two wires
face1 = geompy.MakeFaces([sketcher1, sketcher2],isPlanarFace)
# add objects in the study
id_face1 = geompy.addToStudy(face1,"Face1")
# display faces
gg.createAndDisplayGO(id_face1)
gg.setDisplayMode(id_face1,1)
gg.setTransparency(id_face1,0.2)
# create a mesh
hexa = smesh.Mesh(face1, "Face : triangle 2D mesh")
algo = hexa.Triangle()
# define "MaxElementArea" hypothesis to be applied to each triangle
algo.MaxElementArea(30)
# define "LengthFromEdges" hypothesis to build triangles based on the length of the edges taken from the wire
algo.LengthFromEdges()
# create local hypothesis
algo = hexa.Segment()
# define "NumberOfSegments" hypothesis to cut an edge in a fixed number of segments
algo.NumberOfSegments(2)
# compute the mesh
hexa.Compute()
from geompy import *
import smesh
# create vertices
Point111 = MakeVertex( 0, 0, 0)
Point211 = MakeVertex(10, 0, 0)
Point121 = MakeVertex( 0, 10, 0)
Point221 = MakeVertex(10, 10, 0)
Point112 = MakeVertex( 0, 0, 10)
Point212 = MakeVertex(10, 0, 10)
Point122 = MakeVertex( 0, 10, 10)
Point222 = MakeVertex(10, 10, 10)
# create edges
EdgeX111 = MakeEdge(Point111, Point211)
EdgeX121 = MakeEdge(Point121, Point221)
EdgeX112 = MakeEdge(Point112, Point212)
EdgeX122 = MakeEdge(Point122, Point222)
EdgeY11 = MakeEdge(Point111, Point121)
EdgeY21 = MakeEdge(Point211, Point221)
EdgeY12 = MakeEdge(Point112, Point122)
EdgeY22 = MakeEdge(Point212, Point222)
EdgeZ111 = MakeEdge(Point111, Point112)
EdgeZ211 = MakeEdge(Point211, Point212)
EdgeZ121 = MakeEdge(Point121, Point122)
EdgeZ221 = MakeEdge(Point221, Point222)
# create faces
FaceX11 = MakeQuad(EdgeY11, EdgeZ111, EdgeY12, EdgeZ121)
FaceX21 = MakeQuad(EdgeY21, EdgeZ211, EdgeY22, EdgeZ221)
FaceY111 = MakeQuad(EdgeX111, EdgeZ111, EdgeX112, EdgeZ211)
FaceY121 = MakeQuad(EdgeX121, EdgeZ121, EdgeX122, EdgeZ221)
FaceZ11 = MakeQuad(EdgeX111, EdgeY11, EdgeX121, EdgeY21)
FaceZ12 = MakeQuad(EdgeX112, EdgeY12, EdgeX122, EdgeY22)
# create a solid
Block = MakeHexa(FaceX11, FaceX21, FaceY111, FaceY121, FaceZ11, FaceZ12)
# create a compound
box = MakeCompound([Block])
# add in the study
box_id = addToStudy(box, "Box compound")
# create a hexahedral mesh on the box
hexa = smesh.Mesh(box, "Box compound : hexahedrical mesh")
algo = hexa.Segment()
# define "NumberOfSegments" hypothesis to cut an edge in a fixed number of segments
algo.NumberOfSegments(4)
# create a quadrangle 2D algorithm for faces
hexa.Quadrangle()
# create a hexahedron 3D algorithm for solids
hexa.Hexahedron()
# create a local hypothesis
algo = hexa.Segment(EdgeX111)
# define "Arithmetic1D" hypothesis to cut an edge in several segments with arithmetic length
increasing
algo.Arithmetic1D(1, 4)
# define "Propagation" hypothesis that propagatea all other hypothesis on all edges on the opposite side in case of quadrangular faces
algo.Propagation()
# compute the mesh
hexa.Compute()
import salome
import StdMeshers
import NETGENPlugin
smesh = salome.lcc.FindOrLoadComponent("FactoryServer", "SMESH")
smeshgui = salome.ImportComponentGUI("SMESH")
smeshgui.Init(salome.myStudyId);
# create algorithms
print "-------------------------- create Algorithms"
print "-------------------------- Regular_1D (Wire discretisation)"
regular1D = smesh.CreateHypothesis("Regular_1D", "libStdMeshersEngine.so")
smeshgui.SetName(salome.ObjectToID(regular1D), "Wire Discretisation")
print "-------------------------- MEFISTO_2D (Triangle meshing algorithm)"
mefisto2D = smesh.CreateHypothesis("MEFISTO_2D", "libStdMeshersEngine.so")
smeshgui.SetName(salome.ObjectToID(mefisto2D), "MEFISTO_2D")
print "-------------------------- Quadrangle_2D (Quadrangle meshing algorithm)"
quad2D = smesh.CreateHypothesis( "Quadrangle_2D", "libStdMeshersEngine.so" )
smeshgui.SetName(salome.ObjectToID(quad2D), "Quadrangle_2D")
print "-------------------------- Hexa_3D (Hexahedron meshing algorithm)"
hexa3D = smesh.CreateHypothesis("Hexa_3D", "libStdMeshersEngine.so")
smeshgui.SetName(salome.ObjectToID(hexa3D), "HEXA_3D")
print "-------------------------- NETGEN_3D (Tetrahedron meshing algorithm)"
netgen3D = smesh.CreateHypothesis("NETGEN_3D", "libNETGENEngine.so")
smeshgui.SetName(salome.ObjectToID(netgen3D), "NETGEN_3D")
salome.sg.updateObjBrowser(1)