This repository is related to the WhiteboxTools Python Frontend only. You can report issues to this repo if you have problems installing this Python package. If you encounter any tool functioning specific errors, please open an issue on Dr. John Lindsay's WhiteboxTools repo.
Links
- Authors: Dr. John Lindsay (https://jblindsay.github.io/ghrg/index.html)
- Contributors: Dr. Qiusheng Wu (https://wetlands.io)
- GitHub repo: https://github.com/opengeos/whitebox-python
- WhiteboxTools: https://github.com/jblindsay/whitebox-tools
- User Manual: https://www.whiteboxgeo.com/manual/wbt_book/intro.html
- PyPI: https://pypi.org/project/whitebox/
- conda-forge: https://anaconda.org/conda-forge/whitebox
- Documentation: https://whitebox.readthedocs.io
- Binder: https://gishub.org/whitebox-cloud
- Free software: MIT license
Contents
- Description
- Installation
- whitebox Tutorials
- whitebox GUI
- Available Tools
- Supported Data Formats
- Contributing
- License
- Reporting Bugs
- Credits
The whitebox Python package is built on WhiteboxTools, an advanced geospatial data analysis platform developed by Prof. John Lindsay (webpage; jblindsay) at the University of Guelph's Geomorphometry and Hydrogeomatics Research Group. WhiteboxTools can be used to perform common geographical information systems (GIS) analysis operations, such as cost-distance analysis, distance buffering, and raster reclassification. Remote sensing and image processing tasks include image enhancement (e.g. panchromatic sharpening, contrast adjustments), image mosaicing, numerous filtering operations, simple classification (k-means), and common image transformations. WhiteboxTools also contains advanced tooling for spatial hydrological analysis (e.g. flow-accumulation, watershed delineation, stream network analysis, sink removal), terrain analysis (e.g. common terrain indices such as slope, curvatures, wetness index, hillshading; hypsometric analysis; multi-scale topographic position analysis), and LiDAR data processing. LiDAR point clouds can be interrogated (LidarInfo, LidarHistogram), segmented, tiled and joined, analyized for outliers, interpolated to rasters (DEMs, intensity images), and ground-points can be classified or filtered. WhiteboxTools is not a cartographic or spatial data visualization package; instead it is meant to serve as an analytical backend for other data visualization software, mainly GIS.
whitebox supports a variety of platforms, including Microsoft Windows, macOS, and Linux operating systems. Note that you will need to have Python 3.x installed. Python 2.x is not supported. The whitebox Python package can be installed using the following command:
pip install whitebox
If you have installed whitebox Python package before and want to upgrade to the latest version, you can use the following command:
pip install whitebox -U
It is recommended that you use a Python virtual environment (e.g., conda) to test the whitebox package. Please follow the conda user guide to install conda if necessary. Once you have conda installed, you can use Terminal or an Anaconda Prompt to create a Python virtual environment. Check managing Python environment for more information.
conda create -n wbt python
source activate wbt
conda install whitebox -c conda-forge
If you encounter an GLIBC errors when installing the whitebox package, you can try the following command:
import whitebox
whitebox.download_wbt(linux_musl=True, reset=True)
Alternatively, you can set the environment variable WBT_LINUX
to MUSL
before installing the whitebox package. It will automatically download the MUSL version of WhiteboxTools.
import os
os.environ["WBT_LINUX"] = "MUSL"
Launch the whitebox tutorial notebook directly with mybinder.org now:
Tool names in the whitebox Python package can be called either using the snake_case or CamelCase convention (e.g. lidar_info or LidarInfo). See below for an example Python script (example.py). If you are interested in using the WhiteboxTools command-line program, check WhiteboxTools Usage.
import os
import pkg_resources
import whitebox
wbt = whitebox.WhiteboxTools()
print(wbt.version())
print(wbt.help())
# identify the sample data directory of the package
data_dir = os.path.dirname(pkg_resources.resource_filename("whitebox", 'testdata/'))
wbt.set_working_dir(data_dir)
wbt.verbose = False
wbt.feature_preserving_smoothing("DEM.tif", "smoothed.tif", filter=9)
wbt.breach_depressions("smoothed.tif", "breached.tif")
wbt.d_inf_flow_accumulation("breached.tif", "flow_accum.tif")
This tutorial can be accessed in three ways:
- HTML version: https://gishub.org/whitebox-html
- Viewable Notebook: https://gishub.org/whitebox-notebook
- Interactive Notebook: https://gishub.org/whitebox-cloud
Launch this tutorial as an interactive Jupyter Notebook on the cloud - https://gishub.org/whitebox-cloud.
WhiteboxTools also provides a Graphical User Interface (GUI) - WhiteboxTools Runner, which can be invoked using the following Python script:
import whitebox
whitebox.Runner()
When using import whitebox
, if you get an error that says No module named '_tkinter', please install the python3-tk package
, you can try the following solution:
- For Ubuntu, Linux Mint, etc:
sudo apt-get install python3-tk
- For Manjaro, Arch Linux:
sudo pacman -S tk
The library currently contains 518 tools, which are each grouped based on their main function into one of the following categories: Data Tools, GIS Analysis, Hydrological Analysis, Image Analysis, LiDAR Analysis, Mathematical and Statistical Analysis, Stream Network Analysis, and Terrain Analysis. For a listing of available tools, complete with documentation and usage details, please see the WhiteboxTools User Manual.
The WhiteboxTools library currently supports read/writing raster data in Whitebox GAT, GeoTIFF, ESRI (ArcGIS) ASCII and binary (.flt & .hdr), GRASS GIS, Idrisi, SAGA GIS (binary and ASCII), and Surfer 7 data formats. At present, there is limited ability in WhiteboxTools to read vector geospatial data. Support for Shapefile (and other common vector formats) will be enhanced within the library soon.
If you would like to contribute to the project as a developer, follow these instructions to get started:
- Fork the whitebox project (https://github.com/opengeos/whitebox-python)
- Create your feature branch (git checkout -b my-new-feature)
- Commit your changes (git commit -am 'Add some feature')
- Push to the branch (git push origin my-new-feature)
- Create a new Pull Request
The whitebox package is distributed under the MIT license, a permissive open-source (free software) license.
Report bugs at https://github.com/opengeos/whitebox-python/issues.
If you are reporting a bug, please include:
- Your operating system name and version.
- Any details about your local setup that might be helpful in troubleshooting.
- Detailed steps to reproduce the bug.
This package was created with Cookiecutter and the audreyr/cookiecutter-pypackage project template.