/grandiso-networkx

Performant, pure-Python subgraph isomorphism and monomorphism search (aka "motif search")

Primary LanguagePythonApache License 2.0Apache-2.0

Grand Isomorphisms

Codecov GitHub Workflow Status GitHub PyPI

Subgraph isomorphism is a resource-heavy (but branch-parallelizable) algorithm that is hugely impactful for large graph analysis. SotA algorithms for this (Ullmann, VF2, BB-Graph) are heavily RAM-bound, but this is due to a large number of small processes each of which hold a small portion of a traversal tree in memory.

Grand-Iso is a subgraph isomorphism algorithm that exchanges this resource-limitation for a parallelizable partial-match queue structure.

It performs favorably compared to other pure-python (and even some non-pure-python!) implementations:

image

See the wiki for more documentation.

Example Usage

from grandiso import find_motifs
import networkx as nx

host = nx.fast_gnp_random_graph(10, 0.5)

motif = nx.Graph()
motif.add_edge("A", "B")
motif.add_edge("B", "C")
motif.add_edge("C", "D")
motif.add_edge("D", "A")

len(find_motifs(motif, host))

Directed graph support:

from grandiso import find_motifs
import networkx as nx

host = nx.fast_gnp_random_graph(10, 0.5, directed=True)

motif = nx.DiGraph()
motif.add_edge("A", "B")
motif.add_edge("B", "C")
motif.add_edge("C", "D")
motif.add_edge("D", "A")

len(find_motifs(motif, host))

Counts-only

For very large graphs, you may use a good chunk of RAM not only on the queue of hypotheses, but also on the list of results. If all you care about is the NUMBER of results, you should pass count_only=True to the find_motifs function. This will dramatically reduce your RAM overhead on higher-count queries.

There are many other arguments that you can pass to the motif search algorithm. For a full list, see here.

Hacking on this repo

Running Tests

coverage run --source=grandiso -m pytest

Citing

If this tool is helpful to your research, please consider citing it with:

# https://doi.org/10.1038/s41598-021-91025-5
@article{Matelsky_Motifs_2021, 
    title={{DotMotif: an open-source tool for connectome subgraph isomorphism search and graph queries}},
    volume={11}, 
    ISSN={2045-2322}, 
    url={http://dx.doi.org/10.1038/s41598-021-91025-5}, 
    DOI={10.1038/s41598-021-91025-5}, 
    number={1}, 
    journal={Scientific Reports}, 
    publisher={Springer Science and Business Media LLC}, 
    author={Matelsky, Jordan K. and Reilly, Elizabeth P. and Johnson, Erik C. and Stiso, Jennifer and Bassett, Danielle S. and Wester, Brock A. and Gray-Roncal, William},
    year={2021}, 
    month={Jun}
}

Made with 💙 at JHU APL