2017-05-30 00:19:34 +05:00
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from netgen.libngpy._geom2d import *
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from netgen.libngpy._meshing import *
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2015-08-08 15:58:41 +05:00
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2015-08-08 22:10:48 +05:00
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tmp_generate_mesh = SplineGeometry.GenerateMesh
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def geom2d_meshing_func (geom, **args):
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if "mp" in args:
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return tmp_generate_mesh (geom, args["mp"])
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else:
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return tmp_generate_mesh (geom, MeshingParameters (**args))
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SplineGeometry.GenerateMesh = geom2d_meshing_func
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2015-08-08 15:58:41 +05:00
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2015-08-08 22:10:48 +05:00
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unit_square = SplineGeometry()
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pnts = [ (0,0), (1,0), (1,1), (0,1) ]
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2016-03-13 23:05:36 +05:00
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lines = [ (0,1,1,"bottom"), (1,2,2,"right"), (2,3,3,"top"), (3,0,4,"left") ]
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2015-08-08 22:10:48 +05:00
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pnums = [unit_square.AppendPoint(*p) for p in pnts]
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2016-03-13 23:05:36 +05:00
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for l1,l2,bc,bcname in lines:
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unit_square.Append( ["line", pnums[l1], pnums[l2]], bc=bcname)
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2015-08-08 22:10:48 +05:00
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2015-11-01 16:07:26 +05:00
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2015-11-11 22:44:05 +05:00
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def MakeRectangle (geo, p1, p2, bc=None, bcs=None, **args):
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2015-11-01 16:07:26 +05:00
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p1x, p1y = p1
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p2x, p2y = p2
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p1x,p2x = min(p1x,p2x), max(p1x, p2x)
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p1y,p2y = min(p1y,p2y), max(p1y, p2y)
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2015-11-11 22:44:05 +05:00
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if not bcs: bcs=4*[bc]
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2015-11-01 16:07:26 +05:00
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pts = [geo.AppendPoint(*p) for p in [(p1x,p1y), (p2x, p1y), (p2x, p2y), (p1x, p2y)]]
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2015-11-11 22:44:05 +05:00
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for p1,p2,bc in [(0,1,bcs[0]), (1, 2, bcs[1]), (2, 3, bcs[2]), (3, 0, bcs[3])]:
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geo.Append( ["line", pts[p1], pts[p2]], bc=bc, **args)
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2015-11-01 16:07:26 +05:00
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def MakeCircle (geo, c, r, **args):
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cx,cy = c
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pts = [geo.AppendPoint(*p) for p in [(cx,cy-r), (cx+r,cy-r), (cx+r,cy), (cx+r,cy+r), \
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(cx,cy+r), (cx-r,cy+r), (cx-r,cy), (cx-r,cy-r)]]
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for p1,p2,p3 in [(0,1,2), (2,3,4), (4, 5, 6), (6, 7, 0)]:
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geo.Append( ["spline3", pts[p1], pts[p2], pts[p3]], **args)
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2019-01-23 14:35:20 +05:00
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def CreatePML(geo, pml_size, tol=1e-12):
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"""Create a pml layer around the geometry. This function works only on convex geometries and
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the highest existing domain number must be named by using the function geo.SetMaterial(domnr, name).
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Points in the geometry are assumed to be the same if (pt1 - pt2).Norm() < tol.
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Returned is a dict with information to create the pml layer:
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normals: A dict from the names of the linear pml domains to the normal vectors pointing inside the pml."""
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def Start(spline):
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if spline.rightdom == 0:
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return spline.StartPoint()
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return spline.EndPoint()
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def End(spline):
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if spline.rightdom == 0:
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return spline.EndPoint()
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return spline.StartPoint()
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splines = []
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for i in range(geo.GetNSplines()):
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splines.append(geo.GetSpline(i))
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border = []
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is_closed = False
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current_endpoint = None
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while not is_closed:
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for spline in splines:
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if spline.leftdom == 0 or spline.rightdom == 0:
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if current_endpoint is not None:
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if (Start(spline)-current_endpoint).Norm() < tol:
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border.append(spline)
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current_endpoint = End(spline)
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if (current_endpoint - startpoint).Norm() < tol:
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is_closed = True
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break
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else:
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startpoint = Start(spline)
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current_endpoint = End(spline)
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border.append(spline)
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break
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else:
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raise Exception("Couldn't find closed spline around domain")
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endpointindex_map = []
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for spline in border:
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pnt = End(spline)
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for i in range(geo.GetNPoints()):
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if (pnt - geo.GetPoint(i)).Norm() < tol:
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endpointindex_map.append(i)
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break
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else:
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raise Exception("Couldn't find endpoint of spline in geometry")
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start_ndoms = ndoms = geo.GetNDomains() + 1
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new_spline_domains = []
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normals = {}
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for i, spline in enumerate(border):
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if i == 0:
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global_start = Start(spline) + pml_size * spline.GetNormal(0)
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global_start_pnt = current_start = geo.AppendPoint(global_start[0], global_start[1])
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next_spline = border[(i+1)%len(border)]
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new_end = End(spline) + pml_size * spline.GetNormal(1)
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spline_name = geo.GetBCName(spline.bc)
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if (new_end - global_start).Norm() < tol:
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new_spline_domains.append(ndoms)
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geo.Append(["line", current_start, global_start_pnt], bc="outer_" + spline_name, leftdomain = ndoms)
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geo.Append(["line", global_start_pnt, endpointindex_map[i]], leftdomain=ndoms, rightdomain=start_ndoms)
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geo.SetMaterial(ndoms, "pml_" + spline_name)
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normals["pml_" + spline_name] = spline.GetNormal(0)
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ndoms += 1
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break
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end = geo.AppendPoint(new_end[0], new_end[1])
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new_spline_domains.append(ndoms)
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geo.Append(["line", current_start, end], bc="outer_" + spline_name, leftdomain = ndoms)
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geo.Append(["line", end, endpointindex_map[i]], leftdomain=ndoms, rightdomain=ndoms+1)
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geo.SetMaterial(ndoms, "pml_" + spline_name)
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normals["pml_" + spline_name] = spline.GetNormal(0)
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ndoms += 1
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new_start = Start(next_spline) + pml_size * next_spline.GetNormal(0)
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if (new_start - global_start).Norm() < tol:
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geo.Append(["line", end, global_start_pnt], bc="outer", leftdomain = ndoms)
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geo.Append(["line", global_start_pnt, endpointindex_map[i]], leftdomain=ndoms, rightdomain=start_ndoms)
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geo.SetMaterial(ndoms, "pml_corner")
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ndoms += 1
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break
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if (new_end - new_start).Norm() < tol:
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current_start = end
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else:
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current_start = geo.AppendPoint(new_start[0], new_start[1])
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geo.Append(["line", end, current_start], bc="outer", leftdomain = ndoms)
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geo.Append(["line", current_start, endpointindex_map[i]], leftdomain=ndoms, rightdomain=ndoms+1)
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geo.SetMaterial(ndoms, "pml_corner")
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ndoms += 1
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for spline, domnr in zip(border, new_spline_domains):
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if spline.leftdom == 0:
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spline.leftdom = domnr
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else:
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spline.rightdom = domnr
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return {"normals" : normals}
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2015-11-01 16:07:26 +05:00
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SplineGeometry.AddCircle = lambda geo, c, r, **args : MakeCircle(geo, c, r, **args)
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SplineGeometry.AddRectangle = lambda geo, p1, p2, **args : MakeRectangle(geo, p1, p2, **args)
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2016-11-04 19:03:45 +05:00
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SplineGeometry.AddSegment = lambda *args, **kwargs : SplineGeometry.Append(*args, **kwargs)
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SplineGeometry.AddPoint = lambda *args, **kwargs : SplineGeometry.AppendPoint(*args, **kwargs)
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2019-01-23 14:35:20 +05:00
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SplineGeometry.CreatePML = CreatePML
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2015-11-01 16:07:26 +05:00
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2015-10-30 23:50:40 +05:00
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__all__ = ['SplineGeometry', 'unit_square']
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2015-08-08 15:58:41 +05:00
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