Mercurial > repos > iuc > jbrowse
diff blastxml_to_gapped_gff3.py @ 1:497c6bb3b717 draft
planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/jbrowse commit 0887009a23d176b21536c9fd8a18c4fecc417d4f
| author | iuc |
|---|---|
| date | Thu, 18 Jun 2015 12:10:51 -0400 |
| parents | |
| children | 7342f467507b |
line wrap: on
line diff
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/blastxml_to_gapped_gff3.py Thu Jun 18 12:10:51 2015 -0400 @@ -0,0 +1,256 @@ +#!/usr/bin/perl +import re +import sys +import copy +import argparse +from BCBio import GFF +import logging +logging.basicConfig(level=logging.INFO) +log = logging.getLogger(name='blastxml2gff3') + +__author__ = "Eric Rasche" +__version__ = "0.4.0" +__maintainer__ = "Eric Rasche" +__email__ = "esr@tamu.edu" + +__doc__ = """ +BlastXML files, when transformed to GFF3, do not normally show gaps in the +blast hits. This tool aims to fill that "gap". +""" + + +def blastxml2gff3(blastxml, min_gap=3, trim=False, trim_end=False): + from Bio.Blast import NCBIXML + from Bio.Seq import Seq + from Bio.SeqRecord import SeqRecord + from Bio.SeqFeature import SeqFeature, FeatureLocation + + blast_records = NCBIXML.parse(blastxml) + records = [] + for record in blast_records: + rec = SeqRecord(Seq("ACTG"), id=record.query) + for hit in record.alignments: + for hsp in hit.hsps: + qualifiers = { + "source": "blast", + "score": hsp.expect, + "accession": hit.accession, + "hit_id": hit.hit_id, + "length": hit.length, + "hit_titles": hit.title.split(' >') + } + desc = hit.title.split(' >')[0] + qualifiers['description'] = desc[desc.index(' '):] + + # This required a fair bit of sketching out/match to figure out + # the first time. + # + # the match_start location must account for queries and + # subjecst that start at locations other than 1 + parent_match_start = hsp.query_start - hsp.sbjct_start + # The end is the start + hit.length because the match itself + # may be longer than the parent feature, so we use the supplied + # subject/hit length to calculate the real ending of the target + # protein. + parent_match_end = hsp.query_start + hit.length + hsp.query.count('-') + + # However, if the user requests that we trim the feature, then + # we need to cut the ``match`` start to 0 to match the parent feature. + # We'll also need to cut the end to match the query's end. It (maybe) + # should be the feature end? But we don't have access to that data, so + # We settle for this. + if trim: + if parent_match_start < 1: + parent_match_start = 0 + + if trim or trim_end: + if parent_match_end > hsp.query_end: + parent_match_end = hsp.query_end + 1 + + # The ``protein_match`` feature will hold one or more ``match_part``s + top_feature = SeqFeature( + FeatureLocation(parent_match_start, parent_match_end), + type="protein_match", strand=0, + qualifiers=qualifiers + ) + + # Unlike the parent feature, ``match_part``s have sources. + part_qualifiers = { + "source": "blast", + } + top_feature.sub_features = [] + for start, end, cigar in generate_parts(hsp.query, hsp.match, + hsp.sbjct, + ignore_under=min_gap): + part_qualifiers['Gap'] = cigar + part_qualifiers['ID'] = hit.hit_id + + if trim: + # If trimming, then we start relative to the + # protein_match's start + match_part_start = parent_match_start + start + else: + # Otherwise, we have to account for the subject start's location + match_part_start = parent_match_start + hsp.sbjct_start + start - 1 + + # We used to use hsp.align_length here, but that includes + # gaps in the parent sequence + # + # Furthermore align_length will give calculation errors in weird places + # So we just use (end-start) for simplicity + match_part_end = match_part_start + (end - start) + + top_feature.sub_features.append( + SeqFeature( + FeatureLocation(match_part_start, match_part_end), + type="match_part", strand=0, + qualifiers=copy.deepcopy(part_qualifiers)) + ) + + rec.features.append(top_feature) + records.append(rec) + return records + + +def __remove_query_gaps(query, match, subject): + """remove positions in all three based on gaps in query + + In order to simplify math and calculations...we remove all of the gaps + based on gap locations in the query sequence:: + + Q:ACTG-ACTGACTG + S:ACTGAAC---CTG + + will become:: + + Q:ACTGACTGACTG + S:ACTGAC---CTG + + which greatly simplifies the process of identifying the correct location + for a match_part + """ + prev = 0 + fq = '' + fm = '' + fs = '' + for position in re.finditer('-', query): + fq += query[prev:position.start()] + fm += match[prev:position.start()] + fs += subject[prev:position.start()] + prev = position.start() + 1 + fq += query[prev:] + fm += match[prev:] + fs += subject[prev:] + + return (fq, fm, fs) + + +def generate_parts(query, match, subject, ignore_under=3): + region_q = [] + region_m = [] + region_s = [] + + (query, match, subject) = __remove_query_gaps(query, match, subject) + + region_start = -1 + region_end = -1 + mismatch_count = 0 + for i, (q, m, s) in enumerate(zip(query, match, subject)): + + # If we have a match + if m != ' ' or m == '+': + if region_start == -1: + region_start = i + # It's a new region, we need to reset or it's pre-seeded with + # spaces + region_q = [] + region_m = [] + region_s = [] + region_end = i + mismatch_count = 0 + else: + mismatch_count += 1 + + region_q.append(q) + region_m.append(m) + region_s.append(s) + + if mismatch_count >= ignore_under and region_start != -1 and region_end != -1: + region_q = region_q[0:-ignore_under] + region_m = region_m[0:-ignore_under] + region_s = region_s[0:-ignore_under] + yield region_start, region_end + 1, \ + cigar_from_string(region_q, region_m, region_s, strict_m=True) + region_q = [] + region_m = [] + region_s = [] + + region_start = -1 + region_end = -1 + mismatch_count = 0 + + yield region_start, region_end + 1, \ + cigar_from_string(region_q, region_m, region_s, strict_m=True) + + +def _qms_to_matches(query, match, subject, strict_m=True): + matchline = [] + + for (q, m, s) in zip(query, match, subject): + ret = '' + + if m != ' ' or m == '+': + ret = '=' + elif m == ' ': + if q == '-': + ret = 'D' + elif s == '-': + ret = 'I' + else: + ret = 'X' + else: + log.warn("Bad data: \n\t%s\n\t%s\n\t%s\n" % (query, match, subject)) + + + if strict_m: + if ret == '=' or ret == 'X': + ret = 'M' + + matchline.append(ret) + return matchline + + +def _matchline_to_cigar(matchline): + cigar_line = [] + last_char = matchline[0] + count = 0 + for char in matchline: + if char == last_char: + count += 1 + else: + cigar_line.append("%s%s" % (last_char, count)) + count = 1 + last_char = char + cigar_line.append("%s%s" % (last_char, count)) + return ' '.join(cigar_line) + + +def cigar_from_string(query, match, subject, strict_m=True): + matchline = _qms_to_matches(query, match, subject, strict_m=strict_m) + if len(matchline) > 0: + return _matchline_to_cigar(matchline) + else: + return "" + + +if __name__ == '__main__': + parser = argparse.ArgumentParser(description='Convert Blast XML to gapped GFF3', epilog='') + parser.add_argument('blastxml', type=file, help='Blast XML Output') + parser.add_argument('--min_gap', type=int, help='Maximum gap size before generating a new match_part', default=3) + parser.add_argument('--trim', action='store_true', help='Trim blast hits to be only as long as the parent feature') + parser.add_argument('--trim_end', action='store_true', help='Cut blast results off at end of gene') + args = parser.parse_args() + + result = blastxml2gff3(**vars(args)) + + GFF.write(result, sys.stdout)