Mercurial > repos > artbio > bamparse
view bamparse.py @ 1:ae9ea0488850 draft
planemo upload for repository https://github.com/ARTbio/tools-artbio/tree/master/tools/bamparse commit 9aec415b3fcc66bf3ed2aad43fd70b57bfe2fb18
author | artbio |
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date | Sun, 15 Oct 2017 19:14:29 -0400 |
parents | 2a1a2bc6ae8b |
children | 8ea06787c08a |
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#!/usr/bin/env python import argparse from collections import defaultdict import pysam def Parser(): the_parser = argparse.ArgumentParser() the_parser.add_argument('--output', nargs='+', action='store', type=str, help='Count tables') the_parser.add_argument('--polarity', choices=["sense", "antisense", "both"], help="forward, reverse or both forward an\ reverse reads are counted") the_parser.add_argument('--alignments', nargs='+', help="bam alignments files") the_parser.add_argument('--labels', nargs='+', help="Alignments labels") the_parser.add_argument('--number', choices=["unique", "multiple"], help="output is a single table or multiple tables") args = the_parser.parse_args() return args def get_counts(bamfile, polarity="both"): """ Takes an AlignmentFile object and returns a dictionary of counts for sense, antisense, or both sense and antisense reads aligning to the bam references """ def filter_sense_read(read): if read.is_reverse: return 0 else: return 1 def filter_antisense_read(read): if read.is_reverse: return 1 else: return 0 counts = defaultdict(int) for ref_name in bamfile.references: counts[ref_name] = 0 if polarity == "both": for ref_name in bamfile.references: counts[ref_name] = bamfile.count(reference=ref_name) if polarity == "sense": for ref_name in bamfile.references: for read in bamfile.fetch(ref_name): counts[ref_name] += filter_sense_read(read) if polarity == "antisense": for ref_name in bamfile.references: for read in bamfile.fetch(ref_name): counts[ref_name] += filter_antisense_read(read) return counts def writetable(diclist, labels, output, number): ''' diclist is a list of count dictionnaries ''' countlists = [] for dic in diclist: counts = sorted(dic.items()) counts = [j for (i, j) in counts] countlists.append(counts) if number == "unique": out = open("outputdir/table.tabular", "w") out.write("gene\t%s\n" % "\t".join(labels)) for countline in zip(sorted(diclist[0]), *countlists): line = [str(i) for i in countline] out.write("%s\n" % "\t".join(line)) out.close() else: for i, (dic, label) in enumerate(zip(diclist, labels)): out = open("outputdir/table" + str(i) + ".tabular", "w") out.write("gene\t%s\n" % label) for gene in sorted(dic): out.write("%s\t%s\n" % (gene, dic[gene])) out.close() def main(alignments, labels, polarity, output, number): diclist = [] for file in alignments: bam_object = pysam.AlignmentFile(file, 'rb') diclist.append(get_counts(bam_object, polarity=polarity)) writetable(diclist, labels, output, number) if __name__ == "__main__": args = Parser() main(args.alignments, args.labels, args.polarity, args.output, args.number)