1bbfc2d15bb06a447003d15991338ef43abdf3cf
3 import matplotlib
.pyplot
as plt
5 from matplotlib
import pylab
6 from mpl_toolkits
.mplot3d
import Axes3D
10 x
, y
, z
= symbols('x y z')
14 diam_plot
= fig
.add_subplot(2, 2, 1)
15 diam_plot
.set_title('Diamond')
16 diam
= Ge(y
, x
- 1) & Le(y
, x
+ 1) & Ge(y
, -x
- 1) & Le(y
, -x
+ 1)
17 diam
.plot(diam_plot
, fill
=True, edgecolor
='red', facecolor
='yellow')
19 cham_plot
= fig
.add_subplot(2, 2, 2, projection
='3d')
20 cham_plot
.set_title('Chamfered cube')
21 cham
= Le(0, x
) & Le(x
, 3) & Le(0, y
) & Le(y
, 3) & Le(0, z
) & Le(z
, 3) & \
22 Le(z
- 2, x
) & Le(x
, z
+ 2) & Le(1 - z
, x
) & Le(x
, 5 - z
) & \
23 Le(z
- 2, y
) & Le(y
, z
+ 2) & Le(1 - z
, y
) & Le(y
, 5 - z
) & \
24 Le(y
- 2, x
) & Le(x
, y
+ 2) & Le(1 - y
, x
) & Le(x
, 5 - y
)
25 cham
.plot(cham_plot
, facecolors
=(1, 0, 0, 0.75))
27 rhom_plot
= fig
.add_subplot(2, 2, 3, projection
='3d')
28 rhom_plot
.set_title('Rhombicuboctahedron')
30 Le(x
+ y
+ z
, 7) & Ge(-2, -x
- y
- z
) & \
31 Le(-1, x
+ y
- z
) & Le(x
+ y
- z
, 4) & \
32 Le(-1, x
- y
+ z
) & Le(x
- y
+ z
, 4) & \
33 Le(-1, -x
+ y
+ z
) & Le(-x
+ y
+ z
, 4)
34 rhom
.plot(rhom_plot
, facecolors
=(0, 1, 0, 0.75))
36 cubo_plot
= fig
.add_subplot(2, 2, 4, projection
='3d')
37 cubo_plot
.set_title('Truncated cuboctahedron')
38 cubo
= Le(0, x
) & Le(x
, 5) & Le(0, y
) & Le(y
, 5) & Le(0, z
) & Le(z
, 5) & \
39 Le(x
-4, y
) & Le(y
, x
+ 4) & Le(-x
+ 1, y
) & Le(y
, -x
+ 9) & \
40 Le(y
-4, z
) & Le(z
, y
+ 4) & Le(-y
+ 1, z
) & Le(z
, -y
+ 9) & \
41 Le(z
-4, x
) & Le(x
, z
+ 4) & Le(-z
+ 1, x
) & Le(x
, -z
+ 9) & \
42 Le(3, x
+ y
+ z
) & Le(x
+ y
+ z
, 12) & \
43 Le(-2, x
- y
+ z
) & Le(x
- y
+ z
, 7) & \
44 Le(-2, -x
+ y
+ z
) & Le(-x
+ y
+ z
, 7) & \
45 Le(-2, x
+ y
- z
) & Le(x
+ y
- z
, 7)
46 cubo
.plot(cubo_plot
, facecolors
=(0, 0, 1, 0.75))