Gkit is a suit of utilites for processing geo-dataset.
Project description
Gkit
Gkit is a suite of utilities for processing geo-dataset allowing you to manipulate raster datasets like np.MaskedArray.
Gkit supports Python3 and all OS which could install numpy, matplotlib, gdal.
In Python2, may have unpredictable bugs.
Documents: https://titorx.github.io/gkit/html/
Simple Example
Here is examples of some basic features that Gkit provides.
import numpy as np
import gkit as gk
# Read the first band from .tif
r = gk.read("lst.tif")
# You could also specific point out which band you want to load
r = gk.read("lst.tif", 2)
# gk.read returns a Raster class
type(r)
# Output:
# gkit.core.Raster
# Open an interactive window display raster using matplotlib(call plt.show)
r.show()The screenshot:
# Only draw raster without calling plt.show.
import matplotlib.pylab as plt
r.plot()
plt.xlabel("Lon")
plt.ylabel("Lat")
plt.title("LST(K)")
plt.colorbar()
plt.savefig("raster_plot.png")The screenshot:
# Raster class inherits from np.ma.MaskedArray.
# It has all features which MaskedArray has.
r
# Output:
# masked_array(data =
# [[-- -- -- ..., -- -- --]
# [-- -- -- ..., -- -- --]
# [-- -- -- ..., -- -- --]
# ...,
# [242.5966339111328 242.6825408935547 242.79612731933594 ...,
# 243.512451171875 243.46498107910156 243.45751953125]
# [241.1952667236328 241.18592834472656 241.19235229492188 ...,
# 241.02757263183594 241.04196166992188 241.0919189453125]
# [241.97023010253906 242.03948974609375 242.05393981933594 ...,
# 241.8543243408203 241.85800170898438 241.80813598632812]],
# mask =
# [[ True True True ..., True True True]
# [ True True True ..., True True True]
# [ True True True ..., True True True]
# ...,
# [False False False ..., False False False]
# [False False False ..., False False False]
# [False False False ..., False False False]],
# fill_value = 1e+20)
# Doing operation like common numpy masked array.
tmp = (r - 273.15)**3 / 4
tmp = np.cos(r)
tmp = np.abs(r)
tmp = np.sqrt(r)
print(r.shape)
print(r.mean())
print(r.max())
print(r.min())
# convert data type
tmp = r.astype(np.float64)
# Save to file
r.save("out_file.tif")
# Create a raster from numpy array
import numpy as np
x, y = np.mgrid[-1:1:100j, -2:2:200j]
array = np.sqrt(x**2 + y**2)
print(array.shape)
# Output:
# (100, 200)
transform = [-100, 0.1, 0, 0, 0, -0.1]
raster = gk.Raster(array, transform)
raster.show()The screenshot:
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distributions
No source distribution files available for this release.See tutorial on generating distribution archives.
Built Distribution
gkit-0.4.10-py3-none-any.whl
(11.6 kB
view hashes)
