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Hillshading#
Demonstrates a few common tricks with shaded plots.
import numpy as np
import matplotlib.pyplot as plt
from matplotlib.colors import LightSource, Normalize
def display_colorbar():
"""Display a correct numeric colorbar for a shaded plot."""
y, x = np.mgrid[-4:2:200j, -4:2:200j]
z = 10 * np.cos(x**2 + y**2)
cmap = plt.cm.copper
ls = LightSource(315, 45)
rgb = ls.shade(z, cmap)
fig, ax = plt.subplots()
ax.imshow(rgb, interpolation='bilinear')
# Use a proxy artist for the colorbar...
im = ax.imshow(z, cmap=cmap)
im.remove()
fig.colorbar(im, ax=ax)
ax.set_title('Using a colorbar with a shaded plot', size='x-large')
def avoid_outliers():
"""Use a custom norm to control the displayed z-range of a shaded plot."""
y, x = np.mgrid[-4:2:200j, -4:2:200j]
z = 10 * np.cos(x**2 + y**2)
# Add some outliers...
z[100, 105] = 2000
z[120, 110] = -9000
ls = LightSource(315, 45)
fig, (ax1, ax2) = plt.subplots(ncols=2, figsize=(8, 4.5))
rgb = ls.shade(z, plt.cm.copper)
ax1.imshow(rgb, interpolation='bilinear')
ax1.set_title('Full range of data')
rgb = ls.shade(z, plt.cm.copper, vmin=-10, vmax=10)
ax2.imshow(rgb, interpolation='bilinear')
ax2.set_title('Manually set range')
fig.suptitle('Avoiding Outliers in Shaded Plots', size='x-large')
def shade_other_data():
"""Demonstrates displaying different variables through shade and color."""
y, x = np.mgrid[-4:2:200j, -4:2:200j]
z1 = np.sin(x**2) # Data to hillshade
z2 = np.cos(x**2 + y**2) # Data to color
norm = Normalize(z2.min(), z2.max())
cmap = plt.cm.RdBu
ls = LightSource(315, 45)
rgb = ls.shade_rgb(cmap(norm(z2)), z1)
fig, ax = plt.subplots()
ax.imshow(rgb, interpolation='bilinear')
ax.set_title('Shade by one variable, color by another', size='x-large')
display_colorbar()
avoid_outliers()
shade_other_data()
plt.show()
Total running time of the script: ( 0 minutes 3.166 seconds)