Mercurial > repos > artbio > yac_clipper
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planemo upload for repository https://github.com/ARTbio/tools-artbio/tree/master/tools/yac_clipper commit e9cf2978954c546bb90eb11931f9cfd6562156f3
author | artbio |
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date | Wed, 26 Jul 2017 13:35:39 -0400 |
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children | 7c913274e22a |
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#!/usr/bin/python # yac = yet another clipper # v 1.2.1 - 23-08-2014 - Support FastQ output # v 1.1.0 - 23-08-2014 - argparse implementation # Usage yac.py $input $output $adapter_to_clip $min $max $Nmode # Christophe Antoniewski <drosofff@gmail.com> import sys import string import argparse from itertools import islice def Parser(): the_parser = argparse.ArgumentParser() the_parser.add_argument( '--input', action="store", nargs='+', help="input fastq files") the_parser.add_argument( '--output', action="store", type=str, help="output, clipped fasta file") the_parser.add_argument( '--output_format', action="store", type=str, help="output format, fasta or fastq") the_parser.add_argument( '--adapter_to_clip', action="store", type=str, help="adapter sequence to clip") the_parser.add_argument( '--min', action="store", type=int, help="minimal size of clipped sequence to keep") the_parser.add_argument( '--max', action="store", type=int, help="maximal size of clipped sequence to keep") the_parser.add_argument('--Nmode', action="store", type=str, choices=[ "accept", "reject"], help="accept or reject sequences with N for clipping") args = the_parser.parse_args() args.adapter_to_clip = args.adapter_to_clip.upper() return args class Clip: def __init__(self, inputfile, outputfile, output_format, adapter, minsize, maxsize, Nmode): self.inputfile = inputfile self.outputfile = outputfile self.output_format = output_format self.adapter = adapter self.minsize = int(minsize) self.maxsize = int(maxsize) self.Nmode = Nmode def motives(sequence): '''return a list of motives for perfect (6nt) or imperfect (7nt with one mismatch) search on import string module''' sequencevariants = [ sequence[0:6]] # initializes the list with the 6mer perfect match dicsubst = {"A": "TGCN", "T": "AGCN", "G": "TACN", "C": "GATN"} for pos in enumerate(sequence[:6]): for subst in dicsubst[pos[1]]: sequencevariants.append( sequence[:pos[0]] + subst + sequence[pos[0] + 1:7]) return sequencevariants self.adaptmotifs = motives(self.adapter) def scanadapt(self, adaptmotives=[], sequence="", qscore=""): '''scans sequence for adapter motives''' match_position = sequence.rfind(adaptmotives[0]) if match_position != -1: return sequence[:match_position], qscore[:match_position] for motif in adaptmotives[1:]: match_position = sequence.rfind(motif) if match_position != -1: return sequence[:match_position], qscore[:match_position] return sequence, qscore def write_output(self, id, read, qscore, output): if self.output_format == "fasta": block = ">{0}\n{1}\n".format(id, read) else: block = "@HWI-{0}\n{1}\n+\n{2}\n".format(id, read, qscore) output.write(block) def handle_io(self): '''Open input file, pass read sequence and read qscore to clipping function. Pass clipped read and qscore to output function.''' id = 0 output = open(self.outputfile, "a") with open(self.inputfile, "r") as input: block_gen = islice(input, 1, None, 2) for i, line in enumerate(block_gen): if i % 2: qscore = line.rstrip() else: read = line.rstrip() continue trimmed_read, trimmed_qscore = self.scanadapt( self.adaptmotifs, read, qscore) if self.minsize <= len(trimmed_read) <= self.maxsize: if (self.Nmode == "reject") and ("N" in trimmed_read): continue id += 1 self.write_output(id, trimmed_read, trimmed_qscore, output) output.close() def main(*argv): instanceClip = Clip(*argv) instanceClip.handle_io() if __name__ == "__main__": args = Parser() id = 0 for inputfile in args.input: main(inputfile, args.output, args.output_format, args.adapter_to_clip, args.min, args.max, args.Nmode)