FEA-Bench / testbed /matplotlib__matplotlib /galleries /examples /specialty_plots /advanced_hillshading.py
| """ | |
| =========== | |
| Hillshading | |
| =========== | |
| Demonstrates a few common tricks with shaded plots. | |
| """ | |
| import matplotlib.pyplot as plt | |
| import numpy as np | |
| 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() | |