9ec958fc6488e997e902052da9530822ee1a8857
5 import matplotlib
.pyplot
as plt
9 from matplotlib
import pylab
10 from mpl_toolkits
.mplot3d
import Axes3D
14 x
, y
, z
= symbols('x y z')
16 _x
, _y
, _z
= x
.asdummy(), y
.asdummy(), z
.asdummy()
18 def translate(domain
, *, dx
=0, dy
=0, dz
=0):
19 domain
&= Polyhedron([x
- _x
+ dx
, y
- _y
+ dy
, z
- _z
+ dz
])
20 domain
= domain
.project([x
, y
, z
])
21 domain
= domain
.subs({_x
: x
, _y
: y
, _z
: z
})
24 def _menger(domain
, size
):
26 result |
= translate(domain
, dx
=0, dy
=size
, dz
=0)
27 result |
= translate(domain
, dx
=0, dy
=2*size
, dz
=0)
28 result |
= translate(domain
, dx
=size
, dy
=0, dz
=0)
29 result |
= translate(domain
, dx
=size
, dy
=2*size
, dz
=0)
30 result |
= translate(domain
, dx
=2*size
, dy
=0, dz
=0)
31 result |
= translate(domain
, dx
=2*size
, dy
=size
, dz
=0)
32 result |
= translate(domain
, dx
=2*size
, dy
=2*size
, dz
=0)
33 result |
= translate(domain
, dx
=0, dy
=0, dz
=size
)
34 result |
= translate(domain
, dx
=0, dy
=2*size
, dz
=size
)
35 result |
= translate(domain
, dx
=2*size
, dy
=0, dz
=size
)
36 result |
= translate(domain
, dx
=2*size
, dy
=2*size
, dz
=size
)
37 result |
= translate(domain
, dx
=0, dy
=0, dz
=2*size
)
38 result |
= translate(domain
, dx
=0, dy
=size
, dz
=2*size
)
39 result |
= translate(domain
, dx
=0, dy
=2*size
, dz
=2*size
)
40 result |
= translate(domain
, dx
=size
, dy
=0, dz
=2*size
)
41 result |
= translate(domain
, dx
=size
, dy
=2*size
, dz
=2*size
)
42 result |
= translate(domain
, dx
=2*size
, dy
=0, dz
=2*size
)
43 result |
= translate(domain
, dx
=2*size
, dy
=size
, dz
=2*size
)
44 result |
= translate(domain
, dx
=2*size
, dy
=2*size
, dz
=2*size
)
47 def menger(domain
, count
=1, cut
=False):
49 for i
in range(count
):
50 domain
= _menger(domain
, size
)
53 domain
&= Le(x
+ y
+ z
, ceil(3 * size
/ 2))
56 if __name__
== '__main__':
57 parser
= argparse
.ArgumentParser(
58 description
='Compute a Menger sponge.')
59 parser
.add_argument('-n', '--iterations', type=int, default
=1,
60 help='number of iterations (default: 1)')
61 parser
.add_argument('-c', '--cut', action
='store_true', default
=False,
62 help='cut the sponge')
63 args
= parser
.parse_args()
64 cube
= Le(0, x
) & Le(x
, 1) & Le(0, y
) & Le(y
, 1) & Le(0, z
) & Le(z
, 1)
65 fractal
= menger(cube
, args
.iterations
, args
.cut
)
66 fig
= plt
.figure(facecolor
='white')
67 plot
= fig
.add_subplot(1, 1, 1, projection
='3d', aspect
='equal')