| | """ |
| | ============================ |
| | Draw flat objects in 3D plot |
| | ============================ |
| | |
| | Demonstrate using `.pathpatch_2d_to_3d` to 'draw' shapes and text on a 3D plot. |
| | """ |
| |
|
| | import matplotlib.pyplot as plt |
| | import numpy as np |
| |
|
| | from matplotlib.patches import Circle, PathPatch |
| | from matplotlib.text import TextPath |
| | from matplotlib.transforms import Affine2D |
| | import mpl_toolkits.mplot3d.art3d as art3d |
| |
|
| |
|
| | def text3d(ax, xyz, s, zdir="z", size=None, angle=0, usetex=False, **kwargs): |
| | """ |
| | Plots the string *s* on the axes *ax*, with position *xyz*, size *size*, |
| | and rotation angle *angle*. *zdir* gives the axis which is to be treated as |
| | the third dimension. *usetex* is a boolean indicating whether the string |
| | should be run through a LaTeX subprocess or not. Any additional keyword |
| | arguments are forwarded to `.transform_path`. |
| | |
| | Note: zdir affects the interpretation of xyz. |
| | """ |
| | x, y, z = xyz |
| | if zdir == "y": |
| | xy1, z1 = (x, z), y |
| | elif zdir == "x": |
| | xy1, z1 = (y, z), x |
| | else: |
| | xy1, z1 = (x, y), z |
| |
|
| | text_path = TextPath((0, 0), s, size=size, usetex=usetex) |
| | trans = Affine2D().rotate(angle).translate(xy1[0], xy1[1]) |
| |
|
| | p1 = PathPatch(trans.transform_path(text_path), **kwargs) |
| | ax.add_patch(p1) |
| | art3d.pathpatch_2d_to_3d(p1, z=z1, zdir=zdir) |
| |
|
| |
|
| | fig = plt.figure() |
| | ax = fig.add_subplot(projection='3d') |
| |
|
| | |
| | p = Circle((5, 5), 3) |
| | ax.add_patch(p) |
| | art3d.pathpatch_2d_to_3d(p, z=0, zdir="x") |
| |
|
| | |
| | text3d(ax, (4, -2, 0), "X-axis", zdir="z", size=.5, usetex=False, |
| | ec="none", fc="k") |
| | text3d(ax, (12, 4, 0), "Y-axis", zdir="z", size=.5, usetex=False, |
| | angle=np.pi / 2, ec="none", fc="k") |
| | text3d(ax, (12, 10, 4), "Z-axis", zdir="y", size=.5, usetex=False, |
| | angle=np.pi / 2, ec="none", fc="k") |
| |
|
| | |
| | text3d(ax, (1, 5, 0), |
| | r"$\displaystyle G_{\mu\nu} + \Lambda g_{\mu\nu} = " |
| | r"\frac{8\pi G}{c^4} T_{\mu\nu} $", |
| | zdir="z", size=1, usetex=True, |
| | ec="none", fc="k") |
| |
|
| | ax.set_xlim(0, 10) |
| | ax.set_ylim(0, 10) |
| | ax.set_zlim(0, 10) |
| |
|
| | plt.show() |
| |
|
