Mercurial > repos > chemteam > mdanalysis_distance
view rdf.py @ 0:c33b972fe040 draft
planemo upload for repository https://github.com/galaxycomputationalchemistry/galaxy-tools-compchem/ commit c32fe331f438df7760084b27bafad9f78f01edde
author | chemteam |
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date | Mon, 08 Oct 2018 13:16:12 -0400 |
parents | |
children | 2b1434ec8c7e |
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#!/usr/bin/env python import argparse import csv import sys import MDAnalysis as mda from MDAnalysis.analysis.rdf import InterRDF import matplotlib import matplotlib.pyplot as plt import numpy as np matplotlib.use('Agg') def parse_command_line(argv): parser = argparse.ArgumentParser() parser.add_argument('--idcd', help='input dcd') parser.add_argument('--ipdb', help='input pdb') parser.add_argument('--isegid1', help='segid 1') parser.add_argument('--iresid1', help='resid 1') parser.add_argument('--iname1', help='name 1') parser.add_argument('--isegid2', help='segid 2') parser.add_argument('--iresid2', help='resid 2') parser.add_argument('--iname2', help='name 2') parser.add_argument('--inbins', help='Number of bins in the histogram') parser.add_argument('--istart', help='Starting Point') parser.add_argument('--iend', help='End point') parser.add_argument('--output', help='output') parser.add_argument('--ordf_plot', help='RDF plot') return parser.parse_args() args = parse_command_line(sys.argv) atom1 = "(segid %s and resid %s and name %s)" % \ (args.isegid1, args.iresid1, args.iname1) atom2 = "(segid %s and resid %s and name %s)" % \ (args.isegid2, args.iresid2, args.iname2) bins = int(args.inbins) start = float(args.istart) end = float(args.iend) u = mda.Universe(args.ipdb, args.idcd, topology_format="PDB", format="DCD") x = u.select_atoms(atom1) y = u.select_atoms(atom2) rdf = InterRDF(x, y, nbins=bins, range=(start, end)) rdf.run() bins = rdf.bins bins = np.around(bins, decimals=3) RDF = rdf.rdf zip(bins, RDF) with open(args.output, 'w') as f: writer = csv.writer(f, delimiter='\t') writer.writerows(zip(bins, RDF)) with open(args.output) as f: g = [xtmp.strip() for xtmp in f] data = [tuple(map(float, xtmp.split())) for xtmp in g[0:]] time = [xtmp[0] for xtmp in data] rdf = [xtmp[1] for xtmp in data] plt.plot(time, rdf) plt.xlabel('r ($\AA$)') plt.ylabel('g(r)') plt.savefig(args.ordf_plot, format='png')