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https://github.com/NGSolve/netgen.git
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106 lines
3.8 KiB
Python
106 lines
3.8 KiB
Python
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import pickle, numpy
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def test_pickle_csg():
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import netgen.csg as csg
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geo = csg.CSGeometry()
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geo.Add(csg.Sphere(csg.Pnt(0,0,0), 2).bc("sphere"))
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brick = csg.OrthoBrick(csg.Pnt(-3,-3,-3), csg.Pnt(3,3,3))
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geo.Add(csg.Cylinder(csg.Pnt(0,0,0), csg.Pnt(1,0,0), 0.5) * brick)
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geo.Add(csg.Ellipsoid(csg.Pnt(0,0,0), csg.Vec(1,0,0), csg.Vec(0,1,0), csg.Vec(0,0,0.5)))
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geo.Add(csg.Cone(csg.Pnt(0,0,0), csg.Pnt(3,0,0), 1, 0.5) * brick)
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geo.Add(csg.EllipticCone(csg.Pnt(0,0,0), csg.Vec(2,0,0), csg.Vec(0,1,0), 3, 0.5) * brick)
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geo.Add(csg.Torus(csg.Pnt(0,0,0), csg.Vec(0,1,0), 0.3, 0.05))
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pts2d = [[1,1], [1,-1], [-1,-1], [-1,1]]
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segs = [[0,1], [1,2], [2,3], [3,0]]
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curve = csg.SplineCurve2d()
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pnrs = [curve.AddPoint(*p) for p in pts2d]
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for s in segs:
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curve.AddSegment(pnrs[s[0]], pnrs[s[1]])
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geo.Add(csg.Revolution(csg.Pnt(0,0,0), csg.Pnt(1,0,0), curve))
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path = csg.SplineCurve3d()
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pnts = [(0,0,0), (2,0,0), (2,2,0)]
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segs = [(0,1,2)]
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for pnt in pnts:
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path.AddPoint (*pnt)
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for seg in segs:
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path.AddSegment (*seg)
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geo.Add(csg.Extrusion(path, curve, csg.Vec(0,0,1)))
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geo_dump = pickle.dumps(geo)
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geo2 = pickle.loads(geo_dump)
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vd1 = geo._visualizationData()
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vd2 = geo2._visualizationData()
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for val1, val2 in zip(vd1.values(), vd2.values()):
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assert numpy.array_equal(val1, val2)
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def test_pickle_stl():
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import netgen.stl as stl
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geo = stl.LoadSTLGeometry("../../tutorials/hinge.stl")
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geo_dump = pickle.dumps(geo)
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geo2 = pickle.loads(geo_dump)
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vd1 = geo._visualizationData()
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vd2 = geo2._visualizationData()
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for val1, val2 in zip(vd1.values(), vd2.values()):
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assert numpy.array_equal(val1, val2)
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def test_pickle_occ():
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try:
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import netgen.occ as occ
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except:
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import pytest
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pytest.skip("can't import occ")
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geo = occ.OCCGeometry("../../tutorials/frame.step")
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geo_dump = pickle.dumps(geo)
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geo2 = pickle.loads(geo_dump)
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vd1 = geo._visualizationData()
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vd2 = geo2._visualizationData()
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# TODO: it looks fine, but tests fail, so I assume we loose some info?
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# for val1, val2 in zip(vd1.values(), vd2.values()):
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# assert numpy.allclose(val1, val2, rtol=0.01)
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def test_pickle_geom2d():
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import netgen.geom2d as geom2d
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geo = geom2d.SplineGeometry()
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# point coordinates ...
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pnts = [ (0,0), (1,0), (1,0.6), (0,0.6), \
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(0.2,0.6), (0.8,0.6), (0.8,0.8), (0.2,0.8), \
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(0.5,0.15), (0.65,0.3), (0.5,0.45), (0.35,0.3) ]
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pnums = [geo.AppendPoint(*p) for p in pnts]
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# start-point, end-point, boundary-condition, domain on left side, domain on right side:
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lines = [ (0,1,1,1,0), (1,2,2,1,0), (2,5,2,1,0), (5,4,2,1,2), (4,3,2,1,0), (3,0,2,1,0), \
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(5,6,2,2,0), (6,7,2,2,0), (7,4,2,2,0), \
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(8,9,2,3,1), (9,10,2,3,1), (10,11,2,3,1), (11,8,2,3,1) ]
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for p1,p2,bc,left,right in lines:
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geo.Append( ["line", pnums[p1], pnums[p2]], bc=bc, leftdomain=left, rightdomain=right)
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geo_dump = pickle.dumps(geo)
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geo2 = pickle.loads(geo_dump)
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vd1 = geo._visualizationData()
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vd2 = geo2._visualizationData()
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for val1, val2 in zip(vd1.values(), vd2.values()):
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assert numpy.array_equal(val1, val2)
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def test_pickle_mesh():
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import netgen.csg as csg
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geo = csg.CSGeometry()
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brick = csg.OrthoBrick(csg.Pnt(-3,-3,-3), csg.Pnt(3,3,3))
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mesh = geo.GenerateMesh(maxh=0.2)
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assert geo == mesh.GetGeometry()
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dump = pickle.dumps([geo,mesh])
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geo2, mesh2 = pickle.loads(dump)
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assert geo2 == mesh2.GetGeometry()
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mesh.Save("msh1.vol.gz")
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mesh2.Save("msh2.vol.gz")
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import filecmp, os
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assert filecmp.cmp("msh1.vol.gz", "msh2.vol.gz")
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os.remove("msh1.vol.gz")
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os.remove("msh2.vol.gz")
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if __name__ == "__main__":
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test_pickle_mesh()
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