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I'm having trouble figuring out how to use the python NetworkX package to generate a graph using atomic coordinates from molecular dynamics simulations. Ideally it would be nice if I could "hand-over" the atomic coordinates and get a graph with nodes being atoms and edges being the nearest neighbors. I also need to generate the shortest path rings. One solution might be to use the Scipy.spatial.KDTree module to get the nearest neighbors and manual insert the nodes and edges from such results. Does anyone have other thoughts?

Thanks for any help!

-SB

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In case you are still looking for this, I wrote a python script that does exactly what you ask for: shortest-path rings from atomic coordinates.

http://sourceforge.net/projects/polypy/

I'm working on a C++ version.

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Your idea to use scipy.spatial.KDTree sounds good. Take a look at this example which should get you most of the way there: NetworkX Random Geometric Graph Implementation using K-D Trees

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Thanks for pointing me in the right direction that got me started. Any aid on performing closed bath ring statistics using NetworkX? – S_B Jul 23 '13 at 5:24
    
Google says 'No results found for "closed bath ring statistics"'... – Aric Jul 23 '13 at 14:17

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