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Fire Advanced Analyitics research group scriptable knowledge base
- Novel Algorithms related to landscape risk metrics, spatial decision optimization models, etc.
- (Cell2) Fire (W) Simulator integration algorithms to facilitating placing firebreaks, measuring forest fire impacts, etc.
- (Q)GIS algorithms to common tasks related to rasters, polygons, spatial clustering, etc.
- Install QGIS
- Open QGIS Python Console
- To install, type :
!pip install fire2a-lib- Visit fire2a-lib documentation, example:
from fire2a.downstream_protection_value import digraph_from_messages
digraph = digraph_from_messages('messages01.csv')- Install QGIS
- 1.A. Simple
- 1.B. Docker users check qgis container
- Optional but worth it for Windows: Make QGIS's bundled python folder writable by your user
- Three alternatives:
- A. Open File Explorer, go to
C:\Program Files\QGIS 3.38.3\apps, right-clickPython312folder [Show more options]\Properties\Security\Edit\Allow Full control\OK - B. Open cmd administrator terminal, type:
icacls "C:\Program Files\QGIS 3.38.3\apps\Python312" /grant %username%:F /T
- Locate python, prepare environment
- 2.A. Windows
- Open
OsGeo4W Shellapplication, - Run
bin\python-qgis.batonce to configure all environment variables in the current session. - Also you could:
bin\python-qgis.bat your_script.py - Recommended persistent integration
- Open
- 2.B. macOS
- Open terminal application,
- Use this python:
/Applications/QGIS.app/Contents/MacOS/bin/python(see creating an alias below) - TODO: are all environment variables right?
- 2.C. Linux
python3 -m venv --system-site-packages qgis_venv source qgis_venv/bin/activate
- Install
python -m pip install fire2a-lib
# also recommended for development: ipython qtconsole jupyterlab- Visit fire2a-lib documentation, example for getting the burn probability from a simulator results directory:
python -m fire2a.cell2fire -vvv --base-raster ../fuels.asc --authid EPSG:25831 --scar-sample Grids/Grids2/ForestGrid03.csv --scar-poly propagation_scars.shp --burn-prob burn_probability.tif- Check standalone scripting for more info on initializing a headless QGIS environment
- Usage examples
- macOS users add a permanent alias, on the terminal app
echo "alias pythonq='/Applications/QGIS.app/Contents/MacOS/bin/python'" >> ~/.zshrc
- Interactive sessions in IPython, qtconsole, jupyter-lab, or IPyConsole (QGIS plugin) compatible
# Press tab to auto-complete of available modules from IPython
In [1]: from fire2a.<press-tab>- Stop here interactive (colored terminal able):
from IPython.terminal.embed import InteractiveShellEmbed
InteractiveShellEmbed()()- Stop here interactive (no colors):
from IPython import embed
embed()c. QGIS debugging:
from qgis.PyQt.QtCore import pyqtRemoveInputHook
pyqtRemoveInputHook()
import pdb
pdb.set_trace()
from IPython.terminal.embed import InteractiveShellEmbed
InteractiveShellEmbed()()- Copy and paste the code interactive:
# Select and Copy a whole module from line 1 up -but not included- to 'def main def main(argv=None):' line
In [2]: %paste
# Choose your args
In [3]: args = arg_parser.parse_args(['-vvv', '--base-raster', ...
# Skip (reading args from sys.argv o main)
if argv is sys.argv:
argv = sys.argv[1:]
args = arg_parser(argv)
# Ready to run the main interactively (args object ready)Everyone interacting in the project's codebases, issue trackers, chat rooms, and fora is expected to follow the PSF Code of Conduct.