def main(argv=None):
if argv is None:
argv = sys.argv[1:]
edge_filename = argv[0]
mesh_filename = argv[1]
mesh_size = float(argv[2])
cdt = CDT()
with open(edge_filename, 'rt') as edge_file:
for line in edge_file:
ax, ay, bx, by = map(float, line.split())
a = cdt.insert(Point(ax, ay))
b = cdt.insert(Point(bx, by))
cdt.insert_constraint(a, b)
make_conforming_delaunay(cdt)
make_conforming_gabriel(cdt)
mesher = Mesher(cdt)
mesher.criteria = Criteria(aspect_bound=0.125, size_bound=mesh_size)
mesher.refine_mesh()
lloyd_optimize(cdt, time_limit=0.5)
point_to_index_map = {
vertex.point: index
for index, vertex in enumerate(cdt.finite_vertices())
}
triangles = (tuple(point_to_index_map[face.vertex_handle(i).point]
for i in range(3)) for face in cdt.finite_faces())
with open(mesh_filename, 'wt') as mesh_file:
print(cdt.number_of_vertices(), file=mesh_file)
for point in point_to_index_map:
print(point.x, point.y, file=mesh_file)
print(cdt.number_of_faces(), file=mesh_file)
for triangle in triangles:
print(' '.join(map(str, triangle)), file=mesh_file)
def main():
cdt = CDT()
va = cdt.insert(Point(100, 269))
vb = cdt.insert(Point(246, 269))
vc = cdt.insert(Point(246, 223))
vd = cdt.insert(Point(303, 223))
ve = cdt.insert(Point(303, 298))
vf = cdt.insert(Point(246, 298))
vg = cdt.insert(Point(246, 338))
vh = cdt.insert(Point(355, 338))
vi = cdt.insert(Point(355, 519))
vj = cdt.insert(Point(551, 519))
vk = cdt.insert(Point(551, 445))
vl = cdt.insert(Point(463, 445))
vm = cdt.insert(Point(463, 377))
vn = cdt.insert(Point(708, 377))
vo = cdt.insert(Point(708, 229))
vp = cdt.insert(Point(435, 229))
vq = cdt.insert(Point(435, 100))
vr = cdt.insert(Point(100, 100))
cdt.insert_constraint(va, vb)
cdt.insert_constraint(vb, vc)
cdt.insert_constraint(vc, vd)
cdt.insert_constraint(vd, ve)
cdt.insert_constraint(ve, vf)
cdt.insert_constraint(vf, vg)
cdt.insert_constraint(vg, vh)
cdt.insert_constraint(vh, vi)
cdt.insert_constraint(vi, vj)
cdt.insert_constraint(vj, vk)
cdt.insert_constraint(vk, vl)
cdt.insert_constraint(vl, vm)
cdt.insert_constraint(vm, vn)
cdt.insert_constraint(vn, vo)
cdt.insert_constraint(vo, vp)
cdt.insert_constraint(vp, vq)
cdt.insert_constraint(vq, vr)
cdt.insert_constraint(vr, va)
vs = cdt.insert(Point(349, 236))
vt = cdt.insert(Point(370, 236))
vu = cdt.insert(Point(370, 192))
vv = cdt.insert(Point(403, 192))
vw = cdt.insert(Point(403, 158))
vx = cdt.insert(Point(349, 158))
cdt.insert_constraint(vs, vt)
cdt.insert_constraint(vt, vu)
cdt.insert_constraint(vu, vv)
cdt.insert_constraint(vv, vw)
cdt.insert_constraint(vw, vx)
cdt.insert_constraint(vx, vs)
vy = cdt.insert(Point(501, 336))
vz = cdt.insert(Point(533, 336))
v1 = cdt.insert(Point(519, 307))
v2 = cdt.insert(Point(484, 307))
cdt.insert_constraint(vy, vz)
cdt.insert_constraint(vz, v1)
cdt.insert_constraint(v1, v2)
cdt.insert_constraint(v2, vy)
print("Number of vertices:", cdt.number_of_vertices())
mesher = Mesher(cdt)
seeds = [
Point(505, 325),
Point(379, 172),
]
mesher.seeds_from(seeds)
make_conforming_delaunay(cdt)
print("Number of vertices:", cdt.number_of_vertices())
make_conforming_gabriel(cdt)
print("Number of vertices:", cdt.number_of_vertices())
mesher.criteria = Criteria(aspect_bound=0.125, size_bound=30)
mesher.refine_mesh()
print("Number of vertices:", cdt.number_of_vertices())
lloyd_optimize(cdt, max_iteration_number=10)
print("Number of vertices:", cdt.number_of_vertices())
vertex_iterator = cdt.finite_vertices()
print(next(vertex_iterator))
for vertex in cdt.finite_vertices():
print(vertex.point)
for face in cdt.finite_faces():
for index in range(3):
print(index, face.vertex_handle(index).point)
def main():
cdt = CDT()
va = cdt.insert(Point(100, 269))
vb = cdt.insert(Point(246, 269))
vc = cdt.insert(Point(246, 223))
vd = cdt.insert(Point(303, 223))
ve = cdt.insert(Point(303, 298))
vf = cdt.insert(Point(246, 298))
vg = cdt.insert(Point(246, 338))
vh = cdt.insert(Point(355, 338))
vi = cdt.insert(Point(355, 519))
vj = cdt.insert(Point(551, 519))
vk = cdt.insert(Point(551, 445))
vl = cdt.insert(Point(463, 445))
vm = cdt.insert(Point(463, 377))
vn = cdt.insert(Point(708, 377))
vo = cdt.insert(Point(708, 229))
vp = cdt.insert(Point(435, 229))
vq = cdt.insert(Point(435, 100))
vr = cdt.insert(Point(100, 100))
cdt.insert_constraint(va, vb)
cdt.insert_constraint(vb, vc)
cdt.insert_constraint(vc, vd)
cdt.insert_constraint(vd, ve)
cdt.insert_constraint(ve, vf)
cdt.insert_constraint(vf, vg)
cdt.insert_constraint(vg, vh)
cdt.insert_constraint(vh, vi)
cdt.insert_constraint(vi, vj)
cdt.insert_constraint(vj, vk)
cdt.insert_constraint(vk, vl)
cdt.insert_constraint(vl, vm)
cdt.insert_constraint(vm, vn)
cdt.insert_constraint(vn, vo)
cdt.insert_constraint(vo, vp)
cdt.insert_constraint(vp, vq)
cdt.insert_constraint(vq, vr)
cdt.insert_constraint(vr, va)
vs = cdt.insert(Point(349, 236))
vt = cdt.insert(Point(370, 236))
vu = cdt.insert(Point(370, 192))
vv = cdt.insert(Point(403, 192))
vw = cdt.insert(Point(403, 158))
vx = cdt.insert(Point(349, 158))
cdt.insert_constraint(vs, vt)
cdt.insert_constraint(vt, vu)
cdt.insert_constraint(vu, vv)
cdt.insert_constraint(vv, vw)
cdt.insert_constraint(vw, vx)
cdt.insert_constraint(vx, vs)
vy = cdt.insert(Point(501, 336))
vz = cdt.insert(Point(533, 336))
v1 = cdt.insert(Point(519, 307))
v2 = cdt.insert(Point(484, 307))
cdt.insert_constraint(vy, vz)
cdt.insert_constraint(vz, v1)
cdt.insert_constraint(v1, v2)
cdt.insert_constraint(v2, vy)
print("Number of vertices:", cdt.number_of_vertices())
mesher = Mesher(cdt)
seeds = [
Point(505, 325),
Point(379, 172),
]
mesher.seeds_from(seeds)
make_conforming_delaunay(cdt)
print("Number of vertices:", cdt.number_of_vertices())
make_conforming_gabriel(cdt)
print("Number of vertices:", cdt.number_of_vertices())