| """ |
| ====================== |
| Primary 3D view planes |
| ====================== |
| |
| This example generates an "unfolded" 3D plot that shows each of the primary 3D |
| view planes. The elevation, azimuth, and roll angles required for each view are |
| labeled. You could print out this image and fold it into a box where each plane |
| forms a side of the box. |
| """ |
|
|
| import matplotlib.pyplot as plt |
|
|
|
|
| def annotate_axes(ax, text, fontsize=18): |
| ax.text(x=0.5, y=0.5, z=0.5, s=text, |
| va="center", ha="center", fontsize=fontsize, color="black") |
|
|
| |
| views = [('XY', (90, -90, 0)), |
| ('XZ', (0, -90, 0)), |
| ('YZ', (0, 0, 0)), |
| ('-XY', (-90, 90, 0)), |
| ('-XZ', (0, 90, 0)), |
| ('-YZ', (0, 180, 0))] |
|
|
| layout = [['XY', '.', 'L', '.'], |
| ['XZ', 'YZ', '-XZ', '-YZ'], |
| ['.', '.', '-XY', '.']] |
| fig, axd = plt.subplot_mosaic(layout, subplot_kw={'projection': '3d'}, |
| figsize=(12, 8.5)) |
| for plane, angles in views: |
| axd[plane].set_xlabel('x') |
| axd[plane].set_ylabel('y') |
| axd[plane].set_zlabel('z') |
| axd[plane].set_proj_type('ortho') |
| axd[plane].view_init(elev=angles[0], azim=angles[1], roll=angles[2]) |
| axd[plane].set_box_aspect(None, zoom=1.25) |
|
|
| label = f'{plane}\n{angles}' |
| annotate_axes(axd[plane], label, fontsize=14) |
|
|
| for plane in ('XY', '-XY'): |
| axd[plane].set_zticklabels([]) |
| axd[plane].set_zlabel('') |
| for plane in ('XZ', '-XZ'): |
| axd[plane].set_yticklabels([]) |
| axd[plane].set_ylabel('') |
| for plane in ('YZ', '-YZ'): |
| axd[plane].set_xticklabels([]) |
| axd[plane].set_xlabel('') |
|
|
| label = 'mplot3d primary view planes\n' + 'ax.view_init(elev, azim, roll)' |
| annotate_axes(axd['L'], label, fontsize=18) |
| axd['L'].set_axis_off() |
|
|
| plt.show() |
|
|
