Welcome to GrinPy¶
GrinPy is a NetworkX extension for calculating graph invariants. This extension imports all of NetworkX into the same interface as GrinPy for easy of use and provides the following extensions:
- extended functional interface for graph properties
- calculation of NP-hard invariants such as: independence number, domination number and zero forcing number
- calculation of several invariants that are known to be related to the NP-hard invariants, such as the residue, the annihilation number and the sub-domination number
Our goal is to provide the most comprehensive list of invariants. We will be continuing to add to this list as time goes on, and we invite others to join us by contributing their own implementations of algorithms for computing new or existing GrinPy invariants.
We envision GrinPy’s primary audience to be professional mathematicians and students of mathematics. Computer scientists, electrical engineers, physicists, biologists, chemists and social scientists may also find GrinPy’s extensions to the standard NetworkX package useful.
Grinpy was originally created to aid the developers, David Amos and Randy Davila, in creating an ordered tree of graph databases for use in an experimental automated conjecturing program. It quickly became clear that a Python package for calculating graph invariants would be useful. GrinPy was created in November 2017 and is still in its infancy. We look forward to what the future brings!
GrinPy is free software; you can redistribute it and/or modify it under the terms of the 3-clause BSD license, the same license that NetworkX is released under. We greatly appreciate contributions. Please join us on Github.