def generate_boundary(self):
super().generate_boundary()
self.boundary = Bspline(self.control_points,
self.spline_degree,
n=self.n,
periodic=self.spline_periodic,
**self.kwargs)
self.surface_points = self.boundary.rvals
self.surface_points[0] = self.control_points[0]
self.surface_points[-1] = self.control_points[-1]
self.surface_lines = self._create_line_list(self.surface_points)
def test_bspline_first_order(self):
# When
spline = Bspline(cv=self.cv, degree=1)
# Then
self.assertEqual(len(spline.rvals), 5)
self.assertListEqual(spline.rvals, self.cv)
class TestBspline(unittest.TestCase):
def setUp(self):
self.cv = [[0.0, 0.0], [0.0, 1.0], [1.0, 1.0], [2.0, 1.0], [2.0, 2.0]]
self.bspline = Bspline(self.cv, n=120)
def test_edge_points(self):
rvals = np.array(self.bspline.rvals)
control_points = self.bspline.cv
self.assertTrue(
np.linalg.norm(rvals[0] - control_points[0]) < _TOLERANCE)
self.assertTrue(
np.linalg.norm(rvals[-1] - control_points[-1]) < _TOLERANCE)
normal_vector_left = self.bspline.normal(control_points[0])
normal_vector_left_expected = np.array([-1.0, 0.0])
normal_vector_right = self.bspline.normal(control_points[0])
normal_vector_right_expected = np.array([-1.0, 0.0])
self.assertTrue(
np.linalg.norm(normal_vector_left -
normal_vector_left_expected) < _TOLERANCE)
self.assertTrue(
(np.linalg.norm(normal_vector_right - normal_vector_right_expected)
< _TOLERANCE))
def test_get_t_from_point(self):
self.assertTrue(
abs(
self.bspline.get_t_from_point(self.bspline.cv[0]) -
self.bspline.kv[0]) < _TOLERANCE)
self.assertTrue(
abs(
self.bspline.get_t_from_point(self.bspline.cv[2]) -
self.bspline.kv[-1] / 2.0) < _TOLERANCE)
self.assertTrue(
abs(
self.bspline.get_t_from_point(self.bspline.cv[-1]) -
self.bspline.kv[-1]) < _TOLERANCE)
def test_bspline_first_order(self):
# When
spline = Bspline(cv=self.cv, degree=1)
# Then
self.assertEqual(len(spline.rvals), 5)
self.assertListEqual(spline.rvals, self.cv)
class BSplineElement(BoundaryElement):
def __init__(self, control_points, bcond=None, el_size=0.05, **kwargs):
super().__init__(control_points,
bcond=bcond,
el_size=el_size,
**kwargs)
self.spline_degree = kwargs.pop("degree", 3)
self.spline_periodic = kwargs.pop("periodic", False)
self.kwargs = kwargs
# Do not specify extra points for lines: control points themselves
# are enough
if self.spline_degree == 1:
self.n = len(self.control_points) - 1
else:
self.n = self.estimate_points_number(self.control_points,
self.el_size)
self.control_points = control_points
def generate_boundary(self):
super().generate_boundary()
self.boundary = Bspline(self.control_points,
self.spline_degree,
n=self.n,
periodic=self.spline_periodic,
**self.kwargs)
self.surface_points = self.boundary.rvals
self.surface_points[0] = self.control_points[0]
self.surface_points[-1] = self.control_points[-1]
self.surface_lines = self._create_line_list(self.surface_points)
def get_normal(self, point):
return self.boundary.normal(point)
def get_curvature(self, point):
return self.boundary.curvature(point)
def get_displacement(self, point, cp_index):
return self.boundary.displacement(point, cp_index)
def default_bspline():
cv = [[0.0, 0.0], [0.0, 1.0], [1.0, 1.0], [2.0, 1.0], [2.0, 2.0]]
bspline = Bspline(cv, n=TEST_N)
return bspline
def setUp(self):
self.cv = [[0.0, 0.0], [0.0, 1.0], [1.0, 1.0], [2.0, 1.0], [2.0, 2.0]]
self.bspline = Bspline(self.cv, n=120)
def plot_periodic_bspline():
control_points = [[0.0, 0.0], [1.0, 0.0], [1.0, 1.0], [0.5, 1.5],
[0.0, 1.0]]
periodic_bspline = Bspline(control_points, periodic=True)
periodic_bspline.plot()
def bspline():
bspline = Bspline(control_points, degree=degree)
bspline.tolerance = 1.0e-5
return bspline