from compas.geometry import Vector, Point, Plane
from compas.geometry import Polyline
from compas.geometry import Circle
from compas_occ.geometry import OCCNurbsCurve
from compas_view2.app import App
circle = Circle(Plane(Point(0, 0, 0), Vector(0, 0, 1)), 1.0)
curve = OCCNurbsCurve.from_circle(circle)
# ==============================================================================
# Visualisation
# ==============================================================================
view = App()
view.add(Polyline(curve.locus()), linewidth=3)
view.add(Polyline(curve.points),
show_points=True,
pointsize=20,
pointcolor=(1, 0, 0),
linewidth=1,
linecolor=(0.3, 0.3, 0.3))
view.run()
front = Plane([0, -1, 0], [0, -1, 0])
back = Plane([0, +1, 0], [0, +1, 0])
halfspaces = array(
[left.abcd, right.abcd, top.abcd, bottom.abcd, front.abcd, back.abcd],
dtype=float)
interior = array([0, 0, 0], dtype=float)
hsi = HalfspaceIntersection(halfspaces, interior)
hull = ConvexHull(hsi.intersections)
mesh = Mesh.from_vertices_and_faces(
[hsi.intersections[i] for i in hull.vertices], hull.simplices)
mesh.unify_cycles()
to_merge = []
for a, b in combinations(mesh.faces(), 2):
na = Vector(*mesh.face_normal(a))
nb = Vector(*mesh.face_normal(b))
if na.dot(nb) >= 1:
if na.cross(nb).length < 1e-6:
to_merge.append([a, b])
for faces in to_merge:
mesh.merge_faces(faces)
viewer = App()
viewer.add(mesh, show_vertices=True, pointsize=10)
viewer.run()
