Python ParametricEllipsoidの例

コード例 #1

    def geometry(self):
        """Returns the geometry for the given cell type.

        Currently the cell types are all ellipsoidal and are distinguished
        through setting different scaling values in the visualisation. This has
        the additional benefit that the cells can be discriminated easily in
        Paraview based on their given scaling value.
        """
        return pv.ParametricEllipsoid(2.2,
                                      4.2,
                                      4.2,
                                      u_res=CELL_RESOLUTION,
                                      v_res=CELL_RESOLUTION,
                                      w_res=CELL_RESOLUTION)

コード例 #2

ファイル: test_filters.py プロジェクト: reinforcementdriving/pyvista

def test_select_enclosed_points():
    mesh = examples.load_uniform()
    surf = pyvista.Sphere(center=mesh.center, radius=mesh.length/2.)
    result = mesh.select_enclosed_points(surf)
    assert isinstance(result, type(mesh))
    assert 'SelectedPoints' in result.array_names
    assert result.n_arrays == mesh.n_arrays + 1
    # Now check non-closed surface
    mesh = pyvista.ParametricEllipsoid(0.2, 0.7, 0.7, )
    surf = mesh.copy()
    surf.rotate_x(90)
    result = mesh.select_enclosed_points(surf, check_surface=False)
    assert isinstance(result, type(mesh))
    assert 'SelectedPoints' in result.array_names
    assert result.n_arrays == mesh.n_arrays + 1
    with pytest.raises(RuntimeError):
        result = mesh.select_enclosed_points(surf, check_surface=True)

コード例 #3

ファイル: test_filters.py プロジェクト: JoyPoint/pyvista

def test_compute_cell_quality():
    mesh = pyvista.ParametricEllipsoid().decimate(0.8)
    qual = mesh.compute_cell_quality()
    assert 'CellQuality' in qual.array_names
    with pytest.raises(KeyError):
        qual = mesh.compute_cell_quality(quality_measure='foo')

コード例 #4

###############################################################################
# This example demonstrates how to plot parametric objects using pyvista
#
# Supertoroid
# +++++++++++

supertoroid = pv.ParametricSuperToroid(n1=0.5)
supertoroid.plot(color='tan', smooth_shading=True)

################################################################################
# Parametric Ellipsoid
# ++++++++++++++++++++

# Ellipsoid with a long x axis
ellipsoid = pv.ParametricEllipsoid(10, 5, 5)
ellipsoid.plot(color='tan')

################################################################################
# Partial Parametric Ellipsoid
# ++++++++++++++++++++++++++++

# cool plotting direction
cpos = [(21.9930, 21.1810, -30.3780), (-1.1640, -1.3098, -0.1061),
        (0.8498, -0.2515, 0.4631)]

# half ellipsoid
part_ellipsoid = pv.ParametricEllipsoid(10, 5, 5, max_v=pi / 2)
part_ellipsoid.plot(color='tan', smooth_shading=True, cpos=cpos)

################################################################################

コード例 #5

def test_compute_cell_quality():
    mesh = pyvista.ParametricEllipsoid().decimate(0.8)
    qual = mesh.compute_cell_quality()
    assert 'CellQuality' in qual.scalar_names

コード例 #6

ファイル: test_parametric_geometry.py プロジェクト: DatacloudIntl/dc_pyvista

def test_ParametricEllipsoid():
    geom = pyvista.ParametricEllipsoid()
    assert geom.n_points