from CGAL.CGAL_Kernel import Point_2 from CGAL.CGAL_Mesh_2 import Mesh_2_Constrained_Delaunay_triangulation_2 from CGAL.CGAL_Mesh_2 import Delaunay_mesh_size_criteria_2 from CGAL import CGAL_Mesh_2 cdt=Mesh_2_Constrained_Delaunay_triangulation_2() va = cdt.insert(Point_2(-4,0)) vb = cdt.insert(Point_2(0,-1)) vc = cdt.insert(Point_2(4,0)) vd = cdt.insert(Point_2(0,1)) cdt.insert(Point_2(2, 0.6)) cdt.insert_constraint(va, vb) cdt.insert_constraint(vb, vc) cdt.insert_constraint(vc, vd) cdt.insert_constraint(vd, va) print "Number of vertices: ", cdt.number_of_vertices() print "Meshing the triangulation..." CGAL_Mesh_2.refine_Delaunay_mesh_2(cdt,Delaunay_mesh_size_criteria_2(0.125, 0.5)) print "Number of vertices: ", cdt.number_of_vertices()
vb = cdt.insert(Point_2(-5., 5.))
vc = cdt.insert(Point_2(4., 3.))
vd = cdt.insert(Point_2(5., -5.))
ve = cdt.insert(Point_2(6., 6.))
vf = cdt.insert(Point_2(-6., 6.))
vg = cdt.insert(Point_2(-6., -6.))
vh = cdt.insert(Point_2(6., -6.))
cdt.insert_constraint(va, vb)
cdt.insert_constraint(vb, vc)
cdt.insert_constraint(vc, vd)
cdt.insert_constraint(vd, va)
cdt.insert_constraint(ve, vf)
cdt.insert_constraint(vf, vg)
cdt.insert_constraint(vg, vh)
cdt.insert_constraint(vh, ve)
print("Number of vertices before: ", cdt.number_of_vertices())
#make it conforming Delaunay
CGAL_Mesh_2.make_conforming_Delaunay_2(cdt)
print("Number of vertices after make_conforming_Delaunay_2: ",
cdt.number_of_vertices())
#then make it conforming Gabriel
CGAL_Mesh_2.make_conforming_Gabriel_2(cdt)
print("Number of vertices after make_conforming_Gabriel_2: ",
cdt.number_of_vertices())
#construct a constrained triangulation
va = cdt.insert(Point_2( 5., 5.))
vb = cdt.insert(Point_2(-5., 5.))
vc = cdt.insert(Point_2( 4., 3.))
vd = cdt.insert(Point_2( 5.,-5.))
ve = cdt.insert(Point_2( 6., 6.))
vf = cdt.insert(Point_2(-6., 6.))
vg = cdt.insert(Point_2(-6.,-6.))
vh = cdt.insert(Point_2( 6.,-6.))
cdt.insert_constraint(va,vb)
cdt.insert_constraint(vb,vc)
cdt.insert_constraint(vc,vd)
cdt.insert_constraint(vd,va)
cdt.insert_constraint(ve,vf)
cdt.insert_constraint(vf,vg)
cdt.insert_constraint(vg,vh)
cdt.insert_constraint(vh,ve)
print("Number of vertices before: ", cdt.number_of_vertices())
#make it conforming Delaunay
CGAL_Mesh_2.make_conforming_Delaunay_2(cdt)
print("Number of vertices after make_conforming_Delaunay_2: ", cdt.number_of_vertices())
#then make it conforming Gabriel
CGAL_Mesh_2.make_conforming_Gabriel_2(cdt)
print("Number of vertices after make_conforming_Gabriel_2: ", cdt.number_of_vertices())
from __future__ import print_function
from CGAL.CGAL_Kernel import Point_2
from CGAL.CGAL_Mesh_2 import Mesh_2_Constrained_Delaunay_triangulation_2
from CGAL.CGAL_Mesh_2 import Delaunay_mesh_size_criteria_2
from CGAL import CGAL_Mesh_2
cdt = Mesh_2_Constrained_Delaunay_triangulation_2()
va = cdt.insert(Point_2(-4, 0))
vb = cdt.insert(Point_2(0, -1))
vc = cdt.insert(Point_2(4, 0))
vd = cdt.insert(Point_2(0, 1))
cdt.insert(Point_2(2, 0.6))
cdt.insert_constraint(va, vb)
cdt.insert_constraint(vb, vc)
cdt.insert_constraint(vc, vd)
cdt.insert_constraint(vd, va)
print("Number of vertices: ", cdt.number_of_vertices())
print("Meshing the triangulation...")
CGAL_Mesh_2.refine_Delaunay_mesh_2(cdt,
Delaunay_mesh_size_criteria_2(0.125, 0.5))
print("Number of vertices: ", cdt.number_of_vertices())
from CGAL.CGAL_Mesh_2 import Delaunay_mesh_size_criteria_2
from CGAL.CGAL_Mesh_2 import Default_Delaunay_mesher_2
from CGAL.CGAL_Mesh_2 import Mesh_2_parameters
from CGAL import CGAL_Mesh_2
cdt = Mesh_2_Constrained_Delaunay_triangulation_2()
va = cdt.insert(Point_2(-2, 0))
vb = cdt.insert(Point_2(0, -2))
vc = cdt.insert(Point_2(2, 0))
vd = cdt.insert(Point_2(0, 1))
cdt.insert(Point_2(2, 0.6))
cdt.insert_constraint(va, vb)
cdt.insert_constraint(vb, vc)
cdt.insert_constraint(vc, vd)
cdt.insert_constraint(vd, va)
print("Number of vertices: ", cdt.number_of_vertices())
print("Meshing...")
mesher = Default_Delaunay_mesher_2(cdt)
mesher.set_criteria(Delaunay_mesh_size_criteria_2(0.125, 0.05))
mesher.refine_mesh()
print("Number of vertices: ", cdt.number_of_vertices())
print("Run Lloyd optimization...")
params = Mesh_2_parameters()
params.set_max_iteration_number(10)
CGAL_Mesh_2.lloyd_optimize_mesh_2(cdt, params)
print("done.")
print("Number of vertices: ", cdt.number_of_vertices())
