/ˈsnɪkɪt/ – sounds like snicket (noun, Northern English) A narrow passage between houses; an alleyway.
snkit
helps tidy spatial network data.
Say you have some edges and nodes (lines and points, connections and vertices). None of them are quite connected, and there's no explicit data to define which node is at the end of which edge, or which edges are connected.
For example:
snkit
has methods to:
The output of a snkit data cleaning process might look something like this:
geometry | id | other attributes... |
---|---|---|
POINT (0.03 0.04) |
node_0 | ... |
POINT (0.03 0.03) |
node_1 | ... |
POINT (0.02 0.03) |
node_2 | ... |
geometry | id | from_id | to_id | other attributes... |
---|---|---|---|---|
LINESTRING (0.04 -0.04... |
edge_0 | node_10 | node_22 | ... |
LINESTRING (0.01 -0.03... |
edge_1 | node_22 | node_21 | ... |
LINESTRING (0.02 -0.02... |
edge_2 | node_21 | node_25 | ... |
Install system libraries (only tested on Ubuntu):
sudo apt-get install -y libgeos-dev gdal-bin
Or use conda to install major dependencies:
conda install geopandas shapely
Install or upgrade snkit
using pip:
pip install --upgrade snkit
See the demo notebook for a small demonstration.
Clone this repository:
git clone git@github.com:tomalrussell/snkit.git
Maybe set up a virtualenv or conda environment, as you wish. Then install snkit
in editable
mode, with development packages:
pip install -e .[dev]
Run the tests:
python -m pytest tests/
Configure the pre-commit checks:
pre-commit install
There are several tools and helpers set up to run automatically, on git commit
and in GitHub Actions continuous
integration steps. Each of these can be run locally too.
Run the tests using pytest:
python -m pytest
Run formatting using black:
black .
Run linting using ruff:
ruff check .
Run type-checking using mypy:
mypy --strict .
With five lines of snkit I replaced four or five hundred lines of custom code!
A. Contented Customer (@czor847)
pysal/spaghetti
has methods
for building graph-theoretic networks and the analysis of network events.osmnx
lets you retrieve, model, analyze, and
visualize street networks from OpenStreetMap, including methods to correct and simplify
network topology.MIT License
Copyright (c) 2018 Tom Russell and snkit contributors
Initial snkit development was at the Environmental Change Institute, University of Oxford within the EPSRC sponsored MISTRAL programme, as part of the Infrastructure Transition Research Consortium.