netgen/tests/pytest/test_csg2d.py

from netgen.geom2d import *
import pytest
import math
from pytest import approx

def test_two_circles():
    c1 = Circle(center=(0,0), radius=1)
    c2 = c1.Rotate(45)
    s = c1*c2
    geo = CSG2d()
    geo.Add(s)
    m = geo.GenerateMesh()
    assert len(m.Elements2D()) > 0

    ngs = pytest.importorskip("ngsolve")
    mesh = ngs.Mesh(m)
    mesh.Curve(5)
    assert ngs.Integrate(1.0, mesh) == approx(math.pi)
    ngs.Draw(mesh)

def test_two_edge():
    s = Solid2d( [(-1,0), cp(0,1), (1,0), cp(0,2)] )
    geo = CSG2d()
    geo.Add(s)
    m = geo.GenerateMesh()
    assert len(m.Elements2D()) > 0

    ngs = pytest.importorskip("ngsolve")
    g = geo.GenerateSplineGeometry()
    ngs.Draw(g)
    mesh = ngs.Mesh(m)
    mesh.Curve(5)
    ngs.Draw(mesh)

def test_trig_and_circle():
    g = CSG2d()

    trig = Solid2d( [(0,0), (1,1), (-1,1) ] ).BC("diamond")
    circle = Circle( center=(0,0.101), radius=0.1).BC("circle") # TODO: Failing with center=(0,0.1)

    d = trig-circle
    g.Add(d)
    g.Add(circle)

    m = g.GenerateMesh(maxh=0.1)
    assert len(m.Elements2D()) > 0

    ngs = pytest.importorskip("ngsolve")
    geo = g.GenerateSplineGeometry()
    ngs.Draw(geo)

    mesh = ngs.Mesh(m)
    mesh.Curve(3)
    ngs.Draw(mesh)


if __name__ == "__main__":
    test_two_circles()
    test_two_edge()
    test_trig_and_circle()
csg2d - tests 2020-08-28 20:28:35 +05:00			`from netgen.geom2d import *`
			`import pytest`
			`import math`
			`from pytest import approx`

			`def test_two_circles():`
			`c1 = Circle(center=(0,0), radius=1)`
fix test (csg2d interface change) 2020-11-06 15:51:15 +05:00			`c2 = c1.Rotate(45)`
csg2d - tests 2020-08-28 20:28:35 +05:00			`s = c1*c2`
			`geo = CSG2d()`
			`geo.Add(s)`
			`m = geo.GenerateMesh()`
csg2d - fix overlap detection, test 2020-08-28 21:35:35 +05:00			`assert len(m.Elements2D()) > 0`
csg2d - tests 2020-08-28 20:28:35 +05:00
			`ngs = pytest.importorskip("ngsolve")`
			`mesh = ngs.Mesh(m)`
			`mesh.Curve(5)`
			`assert ngs.Integrate(1.0, mesh) == approx(math.pi)`
csg2d - fix overlap detection, test 2020-08-28 21:35:35 +05:00			`ngs.Draw(mesh)`
csg2d - tests 2020-08-28 20:28:35 +05:00
			`def test_two_edge():`
			`s = Solid2d( [(-1,0), cp(0,1), (1,0), cp(0,2)] )`
			`geo = CSG2d()`
			`geo.Add(s)`
			`m = geo.GenerateMesh()`
csg2d - fix overlap detection, test 2020-08-28 21:35:35 +05:00			`assert len(m.Elements2D()) > 0`
csg2d - tests 2020-08-28 20:28:35 +05:00
			`ngs = pytest.importorskip("ngsolve")`
			`g = geo.GenerateSplineGeometry()`
			`ngs.Draw(g)`
csg2d - fix overlap detection, test 2020-08-28 21:35:35 +05:00			`mesh = ngs.Mesh(m)`
			`mesh.Curve(5)`
			`ngs.Draw(mesh)`

			`def test_trig_and_circle():`
			`g = CSG2d()`

			`trig = Solid2d( [(0,0), (1,1), (-1,1) ] ).BC("diamond")`
			`circle = Circle( center=(0,0.101), radius=0.1).BC("circle") # TODO: Failing with center=(0,0.1)`

			`d = trig-circle`
			`g.Add(d)`
			`g.Add(circle)`

			`m = g.GenerateMesh(maxh=0.1)`
			`assert len(m.Elements2D()) > 0`

			`ngs = pytest.importorskip("ngsolve")`
			`geo = g.GenerateSplineGeometry()`
			`ngs.Draw(geo)`

			`mesh = ngs.Mesh(m)`
			`mesh.Curve(3)`
			`ngs.Draw(mesh)`

csg2d - tests 2020-08-28 20:28:35 +05:00
			`if __name__ == "__main__":`
			`test_two_circles()`
			`test_two_edge()`
csg2d - fix overlap detection, test 2020-08-28 21:35:35 +05:00			`test_trig_and_circle()`