Note
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Checkerboard function#
The verde.synthetic.CheckerBoard
class generates synthetic data in a
checkerboard pattern. It has different data generation methods, some of which
are shared with most other gridders: predict, grid, profile, and scatter.
wavelengths (east, north): 2500.0 2500.0
Checkerboard value at (easting=2000, northing=-2500): -951.0565162951536
Data grid:
<xarray.Dataset> Size: 122kB
Dimensions: (northing: 150, easting: 100)
Coordinates:
* easting (easting) float64 800B 0.0 50.51 101.0 ... 4.949e+03 5e+03
* northing (northing) float64 1kB -5e+03 -4.966e+03 -4.933e+03 ... -33.56 0.0
Data variables:
scalars (northing, easting) float64 120kB 0.0 126.6 ... -126.6 -4.899e-13
Attributes:
metadata: Generated by CheckerBoard()
Table of scattered data:
northing easting scalars
0 -1610.917316 2744.067520 -354.631332
1 -3649.960134 3575.946832 -410.305405
2 -1324.029889 3013.816880 -944.622429
3 -189.057274 2724.415915 475.366775
4 -3756.234282 2118.273997 818.736516
import matplotlib.pyplot as plt
import verde as vd
# Instantiate the data generator class and fit it to set the data region.
synth = vd.synthetic.CheckerBoard()
# Default values are provided for the wavelengths of the function determined
# from the region.
print("wavelengths (east, north):", synth.w_east_, synth.w_north_)
# The CheckerBoard class behaves like any gridder class
print(
"Checkerboard value at (easting=2000, northing=-2500):",
synth.predict((2000, -2500)),
)
# Generating a grid results in a xarray.Dataset
grid = synth.grid(shape=(150, 100))
print("\nData grid:\n", grid)
# while a random scatter generates a pandas.DataFrame
table = synth.scatter(size=100)
print("\nTable of scattered data:\n", table.head())
fig = plt.figure(figsize=(5.5, 4))
ax = plt.subplot(111)
ax.set_title("CheckerBoard")
ax.set_aspect("equal")
grid.scalars.plot.pcolormesh(ax=ax)
plt.tight_layout(pad=0)
plt.show()
Total running time of the script: (0 minutes 0.116 seconds)