Mercurial > repos > dereeper > roary_plots
view Roary/contrib/roary_plots/roary_plots.py @ 0:c47a5f61bc9f draft
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| author | dereeper |
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| date | Fri, 14 May 2021 20:27:06 +0000 |
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#!/usr/bin/env python # Copyright (C) <2015> EMBL-European Bioinformatics Institute # This program is free software: you can redistribute it and/or # modify it under the terms of the GNU General Public License as # published by the Free Software Foundation, either version 3 of # the License, or (at your option) any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # Neither the institution name nor the name roary_plots # can be used to endorse or promote products derived from # this software without prior written permission. # For written permission, please contact <marco@ebi.ac.uk>. # Products derived from this software may not be called roary_plots # nor may roary_plots appear in their names without prior written # permission of the developers. You should have received a copy # of the GNU General Public License along with this program. # If not, see <http://www.gnu.org/licenses/>. __author__ = "Marco Galardini" __version__ = '0.1.0' def get_options(): import argparse # create the top-level parser description = "Create plots from roary outputs" parser = argparse.ArgumentParser(description = description, prog = 'roary_plots.py') parser.add_argument('tree', action='store', help='Newick Tree file', default='accessory_binary_genes.fa.newick') parser.add_argument('spreadsheet', action='store', help='Roary gene presence/absence spreadsheet', default='gene_presence_absence.csv') parser.add_argument('--labels', action='store_true', default=False, help='Add node labels to the tree (up to 10 chars)') parser.add_argument('--format', choices=('png', 'tiff', 'pdf', 'svg'), default='png', help='Output format [Default: png]') parser.add_argument('-N', '--skipped-columns', action='store', type=int, default=14, help='First N columns of Roary\'s output to exclude [Default: 14]') parser.add_argument('--version', action='version', version='%(prog)s '+__version__) return parser.parse_args() if __name__ == "__main__": options = get_options() import matplotlib matplotlib.use('Agg') import matplotlib.pyplot as plt import seaborn as sns sns.set_style('white') import os import pandas as pd import numpy as np from Bio import Phylo t = Phylo.read(options.tree, 'newick') # Max distance to create better plots mdist = max([t.distance(t.root, x) for x in t.get_terminals()]) # Load roary roary = pd.read_csv(options.spreadsheet, low_memory=False) # Set index (group name) roary.set_index('Gene', inplace=True) # Drop the other info columns roary.drop(list(roary.columns[:options.skipped_columns-1]), axis=1, inplace=True) # Transform it in a presence/absence matrix (1/0) roary.replace('.{2,100}', 1, regex=True, inplace=True) roary.replace(np.nan, 0, regex=True, inplace=True) # Sort the matrix by the sum of strains presence idx = roary.sum(axis=1).sort_values(ascending=False).index roary_sorted = roary.loc[idx] # Pangenome frequency plot plt.figure(figsize=(7, 5)) plt.hist(roary.sum(axis=1), roary.shape[1], histtype="stepfilled", alpha=.7) plt.xlabel('No. of genomes') plt.ylabel('No. of genes') sns.despine(left=True, bottom=True) plt.savefig('pangenome_frequency.%s'%options.format, dpi=300) plt.clf() # Sort the matrix according to tip labels in the tree roary_sorted = roary_sorted[[x.name for x in t.get_terminals()]] # Plot presence/absence matrix against the tree with sns.axes_style('whitegrid'): fig = plt.figure(figsize=(17, 10)) ax1=plt.subplot2grid((1,40), (0, 10), colspan=30) a=ax1.matshow(roary_sorted.T, cmap=plt.cm.Blues, vmin=0, vmax=1, aspect='auto', interpolation='none', ) ax1.set_yticks([]) ax1.set_xticks([]) ax1.axis('off') ax = fig.add_subplot(1,2,1) # matplotlib v1/2 workaround try: ax=plt.subplot2grid((1,40), (0, 0), colspan=10, facecolor='white') except AttributeError: ax=plt.subplot2grid((1,40), (0, 0), colspan=10, axisbg='white') fig.subplots_adjust(wspace=0, hspace=0) ax1.set_title('Roary matrix\n(%d gene clusters)'%roary.shape[0]) if options.labels: fsize = 12 - 0.1*roary.shape[1] if fsize < 7: fsize = 7 with plt.rc_context({'font.size': fsize}): Phylo.draw(t, axes=ax, show_confidence=False, label_func=lambda x: str(x)[:10], xticks=([],), yticks=([],), ylabel=('',), xlabel=('',), xlim=(-mdist*0.1,mdist+mdist*0.45-mdist*roary.shape[1]*0.001), axis=('off',), title=('Tree\n(%d strains)'%roary.shape[1],), do_show=False, ) else: Phylo.draw(t, axes=ax, show_confidence=False, label_func=lambda x: None, xticks=([],), yticks=([],), ylabel=('',), xlabel=('',), xlim=(-mdist*0.1,mdist+mdist*0.1), axis=('off',), title=('Tree\n(%d strains)'%roary.shape[1],), do_show=False, ) plt.savefig('pangenome_matrix.%s'%options.format, dpi=300) plt.clf() # Plot the pangenome pie chart plt.figure(figsize=(10, 10)) core = roary[(roary.sum(axis=1) >= roary.shape[1]*0.99) & (roary.sum(axis=1) <= roary.shape[1] )].shape[0] softcore = roary[(roary.sum(axis=1) >= roary.shape[1]*0.95) & (roary.sum(axis=1) < roary.shape[1]*0.99)].shape[0] shell = roary[(roary.sum(axis=1) >= roary.shape[1]*0.15) & (roary.sum(axis=1) < roary.shape[1]*0.95)].shape[0] cloud = roary[roary.sum(axis=1) < roary.shape[1]*0.15].shape[0] total = roary.shape[0] def my_autopct(pct): val=int(round(pct*total/100.0)) return '{v:d}'.format(v=val) a=plt.pie([core, softcore, shell, cloud], labels=['core\n(%d <= strains <= %d)'%(roary.shape[1]*.99,roary.shape[1]), 'soft-core\n(%d <= strains < %d)'%(roary.shape[1]*.95,roary.shape[1]*.99), 'shell\n(%d <= strains < %d)'%(roary.shape[1]*.15,roary.shape[1]*.95), 'cloud\n(strains < %d)'%(roary.shape[1]*.15)], explode=[0.1, 0.05, 0.02, 0], radius=0.9, colors=[(0, 0, 1, float(x)/total) for x in (core, softcore, shell, cloud)], autopct=my_autopct) plt.savefig('pangenome_pie.%s'%options.format, dpi=300) plt.clf()