X-Git-Url: https://scm.cri.mines-paristech.fr/git/linpy.git/blobdiff_plain/8b80ed2263c6e0cf7d6589f36eb3338eaeaaa7e3..ce8dda550018a59520e2d632f10d3fe5650e9d0d:/examples/menger.py?ds=sidebyside diff --git a/examples/menger.py b/examples/menger.py index ee48f5d..c4413ba 100755 --- a/examples/menger.py +++ b/examples/menger.py @@ -1,59 +1,88 @@ #!/usr/bin/env python3 +# Plot a Menger sponge. +# +# The construction of a Menger sponge can be described as follows: +# +# 1. Begin with a cube. +# 2. Divide every face of the cube into 9 squares, like a Rubik's Cube. This +# will sub-divide the cube into 27 smaller cubes. +# 3. Remove the smaller cube in the middle of each face, and remove the smaller +# cube in the very center of the larger cube, leaving 20 smaller cubes. This +# is a level-1 Menger sponge (resembling a Void Cube). +# 4. Repeat steps 2 and 3 for each of the remaining smaller cubes, and continue +# to iterate. + import argparse -from pypol import * +import matplotlib.pyplot as plt + +from math import ceil + +from matplotlib import pylab +from mpl_toolkits.mplot3d import Axes3D + +from linpy import Le, Polyhedron, symbols + x, y, z = symbols('x y z') _x, _y, _z = x.asdummy(), y.asdummy(), z.asdummy() + def translate(domain, *, dx=0, dy=0, dz=0): domain &= Polyhedron([x - _x + dx, y - _y + dy, z - _z + dz]) domain = domain.project([x, y, z]) domain = domain.subs({_x: x, _y: y, _z: z}) return domain -def _menger(domain): +def _menger(domain, size): result = domain - result |= translate(domain, dx=0, dy=1, dz=0) - result |= translate(domain, dx=0, dy=2, dz=0) - result |= translate(domain, dx=1, dy=0, dz=0) - result |= translate(domain, dx=1, dy=2, dz=0) - result |= translate(domain, dx=2, dy=0, dz=0) - result |= translate(domain, dx=2, dy=1, dz=0) - result |= translate(domain, dx=2, dy=2, dz=0) - - result |= translate(domain, dx=0, dy=0, dz=1) - result |= translate(domain, dx=0, dy=2, dz=1) - result |= translate(domain, dx=2, dy=0, dz=1) - result |= translate(domain, dx=2, dy=2, dz=1) - - result |= translate(domain, dx=0, dy=0, dz=2) - result |= translate(domain, dx=0, dy=1, dz=2) - result |= translate(domain, dx=0, dy=2, dz=2) - result |= translate(domain, dx=1, dy=0, dz=2) - result |= translate(domain, dx=1, dy=2, dz=2) - result |= translate(domain, dx=2, dy=0, dz=2) - result |= translate(domain, dx=2, dy=1, dz=2) - result |= translate(domain, dx=2, dy=2, dz=2) - + result |= translate(domain, dx=0, dy=size, dz=0) + result |= translate(domain, dx=0, dy=2*size, dz=0) + result |= translate(domain, dx=size, dy=0, dz=0) + result |= translate(domain, dx=size, dy=2*size, dz=0) + result |= translate(domain, dx=2*size, dy=0, dz=0) + result |= translate(domain, dx=2*size, dy=size, dz=0) + result |= translate(domain, dx=2*size, dy=2*size, dz=0) + result |= translate(domain, dx=0, dy=0, dz=size) + result |= translate(domain, dx=0, dy=2*size, dz=size) + result |= translate(domain, dx=2*size, dy=0, dz=size) + result |= translate(domain, dx=2*size, dy=2*size, dz=size) + result |= translate(domain, dx=0, dy=0, dz=2*size) + result |= translate(domain, dx=0, dy=size, dz=2*size) + result |= translate(domain, dx=0, dy=2*size, dz=2*size) + result |= translate(domain, dx=size, dy=0, dz=2*size) + result |= translate(domain, dx=size, dy=2*size, dz=2*size) + result |= translate(domain, dx=2*size, dy=0, dz=2*size) + result |= translate(domain, dx=2*size, dy=size, dz=2*size) + result |= translate(domain, dx=2*size, dy=2*size, dz=2*size) return result -def menger(domain, count=1): + +def menger(domain, count=1, cut=False): + size = 1 for i in range(count): - domain = _menger(domain) + domain = _menger(domain, size) + size *= 3 + if cut: + domain &= Le(x + y + z, ceil(3 * size / 2)) return domain if __name__ == '__main__': parser = argparse.ArgumentParser( description='Compute a Menger sponge.') - parser.add_argument('-n', '--iterations', type=int, default=1, - help='number of iterations (default: 1)') + parser.add_argument( + '-n', '--iterations', type=int, default=2, + help='number of iterations (default: 2)') + parser.add_argument( + '-c', '--cut', action='store_true', default=False, + help='cut the sponge') args = parser.parse_args() cube = Le(0, x) & Le(x, 1) & Le(0, y) & Le(y, 1) & Le(0, z) & Le(z, 1) - fractal = menger(cube, args.iterations) - print('Menger sponge:') - print(fractal) - print('Number of polyhedra: {}'.format(len(fractal.polyhedra))) + fractal = menger(cube, args.iterations, args.cut) + fig = plt.figure(facecolor='white') + plot = fig.add_subplot(1, 1, 1, projection='3d', aspect='equal') + fractal.plot(plot) + pylab.show()