Mercurial > repos > rnateam > graphclust_motif_finder_plot
view MotifFinderPlot.py @ 0:edcf58ab7552 draft
planemo upload for repository https://github.com/eteriSokhoyan/galaxytools/tree/master/tools/GraphClust/Plotting commit 057c2fd398055dc86eb2c00d8a74f301d5c231d9-dirty
| author | rnateam |
|---|---|
| date | Wed, 22 Feb 2017 16:53:29 -0500 |
| parents | |
| children | adf18db4c14a |
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#!/usr/bin/env python import matplotlib matplotlib.use('Agg') from matplotlib import pyplot as plt import matplotlib.patches as mpatches from collections import defaultdict import glob import pandas as pd import itertools import seaborn as sns def plot_bar(ranges, colors, orig_names, cluster_nums): fig, ax = plt.subplots() for i, k in enumerate(sorted(ranges.keys())): ax.broken_barh(ranges[k], (i-0.25, 0.5), facecolors=colors[k]) ax.set_xlim(0) ax.set_xlabel('position in sequence') ax.set_yticklabels(['']+[k+'-'+orig_names[k] for k in sorted(ranges.keys())]) ax.grid(True) fig.suptitle('Structure motif prediction\nRegions with same color are prediticted to have similar structures') # Add the legend patches = [mpatches.Patch(color=cluster_nums[lab], label=lab) for lab in sorted(cluster_nums)] ax.legend(handles=patches, loc='best') # , bbox_to_anchor=(1, 0.5), loc='center left') plt.savefig("motif_plot.png", bbox_inches='tight') def parse_clusters(): currentdir_files = sorted(list(glob.glob('*'))) print ("currentdir_files are: ", currentdir_files) print ("RESULTS_files are: ", sorted(list(glob.glob('RESULTS/*')))) cluster_files = sorted(list(glob.glob('RESULTS/*.cluster.all'))) if len(cluster_files) == 0: raise RuntimeError('Expected cluster.all search path is empty:{}'.format(cluster_files)) palette = itertools.cycle(sns.color_palette("Set2", len(cluster_files))) ranges = defaultdict(list) colors = defaultdict(list) orig_names = defaultdict(list) cluster_nums = defaultdict(list) for cluster_file in cluster_files: cluster_color = next(palette) df_cluster = pd.read_csv(cluster_file, sep='\s+', header=None) for irow, row in df_cluster.iterrows(): seq, start, end, strand = row[0].split("#") ranges[seq].append((int(start), int(end)-int(start)+1)) colors[seq].append(cluster_color) assert row[1] == 'RESULT' cluster_nums['cluster-{}'.format(row[2])] = cluster_color assert row[9] == 'ORIGHEAD' orig_names[seq] = row[10] return ranges, colors, orig_names, cluster_nums my_ranges, my_colors, my_orig_names, my_cluster_nums = parse_clusters() plot_bar(my_ranges, my_colors, my_orig_names, my_cluster_nums)