netgen/tests/pytest/test_boundarylayer.py


import pytest
from netgen.csg import *

def GetNSurfaceElements(mesh, boundaries, adjacent_domain=None):
    nse_in_layer = 0
    for el in mesh.Elements2D():
        if mesh.GetBCName(el.index-1) in boundaries:
            if adjacent_domain is None:
                nse_in_layer += 1
            else:
                if (mesh.FaceDescriptor(el.index).domin > 0 and mesh.GetMaterial(mesh.FaceDescriptor(el.index).domin) == adjacent_domain) or (mesh.FaceDescriptor(el.index).domout > 0 and mesh.GetMaterial(mesh.FaceDescriptor(el.index).domout) == adjacent_domain):
                    nse_in_layer += 1
    return nse_in_layer

@pytest.mark.parametrize("outside", [True, False])
def test_boundarylayer(outside, capfd):
    mesh = unit_cube.GenerateMesh(maxh=0.3)
    ne_before = mesh.ne
    layer_surfacenames = ["right", "top", "left", "back", "bottom"]
    mesh.BoundaryLayer("|".join(layer_surfacenames), [0.01, 0.02], "layer", outside=outside, grow_edges=True)

    should_ne = ne_before + 2 * GetNSurfaceElements(mesh, layer_surfacenames)
    assert mesh.ne == should_ne
    capture = capfd.readouterr()
    assert not "elements are not matching" in capture.out

    for side in ["front"]:
        mesh.BoundaryLayer(side, [0.001, 0.002], "layer", outside=outside, grow_edges=True)
        should_ne += 2 * GetNSurfaceElements(mesh, [side])
        assert mesh.ne == should_ne
        capture = capfd.readouterr()
        assert not "elements are not matching" in capture.out

@pytest.mark.parametrize("outside", [True, False])
@pytest.mark.parametrize("version", [1, 2]) # version 2 not working yet
def test_boundarylayer2(outside, version, capfd):
    geo = CSGeometry()
    top = Plane(Pnt(0,0,0.5), Vec(0,0,1))
    bot = Plane(Pnt(0,0,0.1), Vec(0,0,-1))
    bigpart = OrthoBrick(Pnt(-5,-5,0), Pnt(1,1,1))
    part = bigpart* top * bot
    outer = ((OrthoBrick(Pnt(-1,-1,-1), Pnt(2,2,3)).bc("outer") * Plane(Pnt(2,2,2), Vec(0,0,1)).bc("outertop")))
    
    geo.Add((part * outer).mat("part"))
    if version == 1:
        geo.Add((outer-part).mat("rest"))
    else:
        geo.Add((outer-top).mat("rest"))
        geo.Add((outer-bot).mat("rest"))
        geo.Add((outer*top*bot-bigpart).mat("rest"))

    geo.CloseSurfaces(top, bot, [])
    mesh = geo.GenerateMesh()
    should_ne = mesh.ne + 2 * GetNSurfaceElements(mesh, ["default"], "part")
    layersize = 0.05
    mesh.BoundaryLayer("default", [0.5 * layersize, layersize], "part", domains="part", outside=outside, grow_edges=True)
    assert mesh.ne == should_ne
    assert not "elements are not matching" in capfd.readouterr().out
    import netgen.gui
    ngs = pytest.importorskip("ngsolve")
    ngs.Draw(ngs.Mesh(mesh))
    mesh = ngs.Mesh(mesh)
    assert ngs.Integrate(1, mesh.Materials("part")) == pytest.approx(0.5*2.05*2.05 if outside else 0.4*2*2)
    assert ngs.Integrate(1, mesh) == pytest.approx(3**3)


@pytest.mark.parametrize("outside", [True, False])
def test_wrong_orientation(outside):
    geo = CSGeometry()
    brick = OrthoBrick((-1,0,0),(1,1,1)) - Plane((0,0,0), (1,0,0))
    geo.Add(brick.mat("air"))

    mesh = geo.GenerateMesh()

    mesh.BoundaryLayer(".*", 0.1, "air", domains="air", outside=outside,
                       grow_edges=True)
    ngs = pytest.importorskip("ngsolve")
    mesh = ngs.Mesh(mesh)
    assert ngs.Integrate(1, mesh) == pytest.approx(1.2**3 if outside else 1)
modernize and improve GenerateBoundaryLayer 2020-04-19 23:00:06 +05:00
			`import pytest`
			`from netgen.csg import *`

fix not working boundarylayer test 2020-10-27 20:53:07 +05:00			`def GetNSurfaceElements(mesh, boundaries, adjacent_domain=None):`
improve functionality of boundarylayer 2020-04-23 18:44:32 +05:00			`nse_in_layer = 0`
			`for el in mesh.Elements2D():`
boundarylayer fixes 2020-07-15 00:30:26 +05:00			`if mesh.GetBCName(el.index-1) in boundaries:`
fix not working boundarylayer test 2020-10-27 20:53:07 +05:00			`if adjacent_domain is None:`
			`nse_in_layer += 1`
			`else:`
			`if (mesh.FaceDescriptor(el.index).domin > 0 and mesh.GetMaterial(mesh.FaceDescriptor(el.index).domin) == adjacent_domain) or (mesh.FaceDescriptor(el.index).domout > 0 and mesh.GetMaterial(mesh.FaceDescriptor(el.index).domout) == adjacent_domain):`
			`nse_in_layer += 1`
improve functionality of boundarylayer 2020-04-23 18:44:32 +05:00			`return nse_in_layer`

modernize and improve GenerateBoundaryLayer 2020-04-19 23:00:06 +05:00			`@pytest.mark.parametrize("outside", [True, False])`
improve functionality of boundarylayer 2020-04-23 18:44:32 +05:00			`def test_boundarylayer(outside, capfd):`
modernize and improve GenerateBoundaryLayer 2020-04-19 23:00:06 +05:00			`mesh = unit_cube.GenerateMesh(maxh=0.3)`
			`ne_before = mesh.ne`
boundarylayer fixes 2020-07-15 00:30:26 +05:00			`layer_surfacenames = ["right", "top", "left", "back", "bottom"]`
modernize and improve GenerateBoundaryLayer 2020-04-19 23:00:06 +05:00			`mesh.BoundaryLayer("\|".join(layer_surfacenames), [0.01, 0.02], "layer", outside=outside, grow_edges=True)`

boundarylayer fixes 2020-07-15 00:30:26 +05:00			`should_ne = ne_before + 2 * GetNSurfaceElements(mesh, layer_surfacenames)`
improve functionality of boundarylayer 2020-04-23 18:44:32 +05:00			`assert mesh.ne == should_ne`
			`capture = capfd.readouterr()`
			`assert not "elements are not matching" in capture.out`

			`for side in ["front"]:`
boundarylayer fixes 2020-07-15 00:30:26 +05:00			`mesh.BoundaryLayer(side, [0.001, 0.002], "layer", outside=outside, grow_edges=True)`
			`should_ne += 2 * GetNSurfaceElements(mesh, [side])`
improve functionality of boundarylayer 2020-04-23 18:44:32 +05:00			`assert mesh.ne == should_ne`
			`capture = capfd.readouterr()`
			`assert not "elements are not matching" in capture.out`
boundarylayer fixes 2020-07-15 00:30:26 +05:00
			`@pytest.mark.parametrize("outside", [True, False])`
fix not working boundarylayer test 2020-10-27 20:53:07 +05:00			`@pytest.mark.parametrize("version", [1, 2]) # version 2 not working yet`
boundarylayer fixes 2020-07-15 00:30:26 +05:00			`def test_boundarylayer2(outside, version, capfd):`
			`geo = CSGeometry()`
			`top = Plane(Pnt(0,0,0.5), Vec(0,0,1))`
			`bot = Plane(Pnt(0,0,0.1), Vec(0,0,-1))`
			`bigpart = OrthoBrick(Pnt(-5,-5,0), Pnt(1,1,1))`
			`part = bigpart* top * bot`
			`outer = ((OrthoBrick(Pnt(-1,-1,-1), Pnt(2,2,3)).bc("outer") * Plane(Pnt(2,2,2), Vec(0,0,1)).bc("outertop")))`
modernize and improve GenerateBoundaryLayer 2020-04-19 23:00:06 +05:00
boundarylayer fixes 2020-07-15 00:30:26 +05:00			`geo.Add((part * outer).mat("part"))`
			`if version == 1:`
			`geo.Add((outer-part).mat("rest"))`
			`else:`
			`geo.Add((outer-top).mat("rest"))`
			`geo.Add((outer-bot).mat("rest"))`
			`geo.Add((outertopbot-bigpart).mat("rest"))`

			`geo.CloseSurfaces(top, bot, [])`
			`mesh = geo.GenerateMesh()`
fix not working boundarylayer test 2020-10-27 20:53:07 +05:00			`should_ne = mesh.ne + 2 * GetNSurfaceElements(mesh, ["default"], "part")`
boundarylayer fixes 2020-07-15 00:30:26 +05:00			`layersize = 0.05`
add project to boundary in boundarylayer and correctly treat inverse boundaries 2020-11-03 16:28:13 +05:00			`mesh.BoundaryLayer("default", [0.5 * layersize, layersize], "part", domains="part", outside=outside, grow_edges=True)`
boundarylayer fixes 2020-07-15 00:30:26 +05:00			`assert mesh.ne == should_ne`
			`assert not "elements are not matching" in capfd.readouterr().out`
add project to boundary in boundarylayer and correctly treat inverse boundaries 2020-11-03 16:28:13 +05:00			`import netgen.gui`
			`ngs = pytest.importorskip("ngsolve")`
			`ngs.Draw(ngs.Mesh(mesh))`
			`mesh = ngs.Mesh(mesh)`
			`assert ngs.Integrate(1, mesh.Materials("part")) == pytest.approx(0.52.052.05 if outside else 0.422)`
			`assert ngs.Integrate(1, mesh) == pytest.approx(3**3)`


			`@pytest.mark.parametrize("outside", [True, False])`
			`def test_wrong_orientation(outside):`
			`geo = CSGeometry()`
			`brick = OrthoBrick((-1,0,0),(1,1,1)) - Plane((0,0,0), (1,0,0))`
			`geo.Add(brick.mat("air"))`

			`mesh = geo.GenerateMesh()`

			`mesh.BoundaryLayer(".*", 0.1, "air", domains="air", outside=outside,`
			`grow_edges=True)`
			`ngs = pytest.importorskip("ngsolve")`
			`mesh = ngs.Mesh(mesh)`
			`assert ngs.Integrate(1, mesh) == pytest.approx(1.2**3 if outside else 1)`