Mercurial > repos > davidvanzessen > shm_csr
view change_o/MakeDb.py @ 78:aff3ba86ef7a draft
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| author | davidvanzessen |
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| date | Mon, 31 Aug 2020 11:20:08 -0400 |
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#!/usr/bin/env python3 """ Create tab-delimited database file to store sequence alignment information """ # Info __author__ = 'Namita Gupta, Jason Anthony Vander Heiden' from changeo import __version__, __date__ # Imports import os import re import csv from argparse import ArgumentParser from collections import OrderedDict from textwrap import dedent from time import time from Bio import SeqIO # Presto and changeo imports from presto.Annotation import parseAnnotation from presto.IO import countSeqFile, printLog, printMessage, printProgress, printError, printWarning, readSeqFile from changeo.Defaults import default_format, default_out_args from changeo.Commandline import CommonHelpFormatter, checkArgs, getCommonArgParser, parseCommonArgs from changeo.Alignment import RegionDefinition from changeo.Gene import buildGermline from changeo.IO import countDbFile, extractIMGT, readGermlines, getFormatOperators, getOutputHandle, \ AIRRWriter, ChangeoWriter, IgBLASTReader, IgBLASTReaderAA, IMGTReader, IHMMuneReader from changeo.Receptor import ChangeoSchema, AIRRSchema # 10X Receptor attributes cellranger_base = ['cell', 'c_call', 'conscount', 'umicount'] cellranger_extended = ['cell', 'c_call', 'conscount', 'umicount', 'v_call_10x', 'd_call_10x', 'j_call_10x', 'junction_10x', 'junction_10x_aa'] def readCellRanger(cellranger_file, fields=cellranger_base): """ Load a Cell Ranger annotation table Arguments: cellranger_file (str): path to the annotation file. fields (list): list of fields to keep. Returns: dict: dict of dicts with contig_id as the primary key. """ # Mapping of 10X annotations to Receptor attributes cellranger_map = {'cell': 'barcode', 'c_call': 'c_gene', 'locus': 'chain', 'conscount': 'reads', 'umicount': 'umis', 'v_call_10x': 'v_gene', 'd_call_10x': 'd_gene', 'j_call_10x': 'j_gene', 'junction_10x': 'cdr3_nt', 'junction_10x_aa': 'cdr3'} # Function to parse individual fields def _parse(x): return '' if x == 'None' else x # Generate annotation dictionary ann_dict = {} with open(cellranger_file) as csv_file: # Detect delimiters dialect = csv.Sniffer().sniff(csv_file.readline()) csv_file.seek(0) # Read in annotation file csv_reader = csv.DictReader(csv_file, dialect=dialect) # Generate annotation dictionary for row in csv_reader: ann_dict[row['contig_id']] = {f: _parse(row[cellranger_map[f]]) for f in fields} return ann_dict def addGermline(receptor, references, amino_acid=False): """ Add full length germline to Receptor object Arguments: receptor (changeo.Receptor.Receptor): Receptor object to modify. references (dict): dictionary of IMGT-gapped references sequences. amino_acid (bool): if True build amino acid germline, otherwise build nucleotide germline Returns: changeo.Receptor.Receptor: modified Receptor with the germline sequence added. """ if amino_acid: __, germlines, __ = buildGermline(receptor, references, seq_field='sequence_aa_imgt', amino_acid=True) germline_seq = None if germlines is None else germlines['full'] receptor.setField('germline_aa_imgt', germline_seq) else: __, germlines, __ = buildGermline(receptor, references, amino_acid=False) germline_seq = None if germlines is None else germlines['full'] receptor.setField('germline_imgt', germline_seq) return receptor def getIDforIMGT(seq_file): """ Create a sequence ID translation using IMGT truncation. Arguments: seq_file : a fasta file of sequences input to IMGT. Returns: dict : a dictionary of with the IMGT truncated ID as the key and the full sequence description as the value. """ # Create a sequence ID translation using IDs truncate up to space or 50 chars ids = {} for rec in readSeqFile(seq_file): if len(rec.description) <= 50: id_key = rec.description else: id_key = re.sub('\||\s|!|&|\*|<|>|\?', '_', rec.description[:50]) ids.update({id_key: rec.description}) return ids def getSeqDict(seq_file): """ Create a dictionary from a sequence file. Arguments: seq_file : sequence file. Returns: dict : sequence description as keys with Bio.SeqRecords as values. """ seq_dict = SeqIO.to_dict(readSeqFile(seq_file), key_function=lambda x: x.description) return seq_dict def writeDb(records, fields, aligner_file, total_count, id_dict=None, annotations=None, amino_acid=False, partial=False, asis_id=True, regions='default', writer=AIRRWriter, out_file=None, out_args=default_out_args): """ Writes parsed records to an output file Arguments: records : a iterator of Receptor objects containing alignment data. fields : a list of ordered field names to write. aligner_file : input file name. total_count : number of records (for progress bar). id_dict : a dictionary of the truncated sequence ID mapped to the full sequence ID. annotations : additional annotation dictionary. amino_acid : if True do verification on amino acid fields. partial : if True put incomplete alignments in the pass file. asis_id : if ID is to be parsed for pRESTO output with default delimiters. regions (str): name of the IMGT FWR/CDR region definitions to use. writer : writer class. out_file : output file name. Automatically generated from the input file if None. out_args : common output argument dictionary from parseCommonArgs. Returns: None """ # Wrapper for opening handles and writers def _open(x, f, writer=writer, out_file=out_file): if out_file is not None and x == 'pass': handle = open(out_file, 'w') else: handle = getOutputHandle(aligner_file, out_label='db-%s' % x, out_dir=out_args['out_dir'], out_name=out_args['out_name'], out_type=out_args['out_type']) return handle, writer(handle, fields=f) # Function to convert fasta header annotations to changeo columns def _changeo(f, header): h = [ChangeoSchema.fromReceptor(x) for x in header if x.upper() not in f] f.extend(h) return f def _airr(f, header): h = [AIRRSchema.fromReceptor(x) for x in header if x.lower() not in f] f.extend(h) return f # Function to verify IMGT-gapped sequence and junction concur def _imgt_check(rec): try: if amino_acid: rd = RegionDefinition(rec.junction_aa_length, amino_acid=amino_acid, definition=regions) x, y = rd.positions['junction'] check = (rec.junction_aa == rec.sequence_aa_imgt[x:y]) else: rd = RegionDefinition(rec.junction_length, amino_acid=amino_acid, definition=regions) x, y = rd.positions['junction'] check = (rec.junction == rec.sequence_imgt[x:y]) except (TypeError, AttributeError): check = False return check # Function to check for valid records strictly def _strict(rec): if amino_acid: valid = [rec.v_call and rec.v_call != 'None', rec.j_call and rec.j_call != 'None', rec.functional is not None, rec.sequence_aa_imgt, rec.junction_aa, _imgt_check(rec)] else: valid = [rec.v_call and rec.v_call != 'None', rec.j_call and rec.j_call != 'None', rec.functional is not None, rec.sequence_imgt, rec.junction, _imgt_check(rec)] return all(valid) # Function to check for valid records loosely def _gentle(rec): valid = [rec.v_call and rec.v_call != 'None', rec.d_call and rec.d_call != 'None', rec.j_call and rec.j_call != 'None'] return any(valid) # Set writer class and annotation conversion function if writer == ChangeoWriter: _annotate = _changeo elif writer == AIRRWriter: _annotate = _airr else: printError('Invalid output writer.') # Additional annotation (e.g. 10X cell calls) # _append_table = None # if cellranger_file is not None: # with open(cellranger_file) as csv_file: # # Read in annotation file (use Sniffer to discover file delimiters) # dialect = csv.Sniffer().sniff(csv_file.readline()) # csv_file.seek(0) # csv_reader = csv.DictReader(csv_file, dialect = dialect) # # # Generate annotation dictionary # anntab_dict = {entry['contig_id']: {cellranger_map[field]: entry[field] \ # for field in cellranger_map.keys()} for entry in csv_reader} # # fields = _annotate(fields, cellranger_map.values()) # _append_table = lambda sequence_id: anntab_dict[sequence_id] # Set pass criteria _pass = _gentle if partial else _strict # Define log handle if out_args['log_file'] is None: log_handle = None else: log_handle = open(out_args['log_file'], 'w') # Initialize handles, writers and counters pass_handle, pass_writer = None, None fail_handle, fail_writer = None, None pass_count, fail_count = 0, 0 start_time = time() # Validate and write output printProgress(0, total_count, 0.05, start_time=start_time) for i, record in enumerate(records, start=1): # Replace sequence description with full string, if required if id_dict is not None and record.sequence_id in id_dict: record.sequence_id = id_dict[record.sequence_id] # Parse sequence description into new columns if not asis_id: try: ann_raw = parseAnnotation(record.sequence_id) record.sequence_id = ann_raw.pop('ID') # Convert to Receptor fields ann_parsed = OrderedDict() for k, v in ann_raw.items(): ann_parsed[ChangeoSchema.toReceptor(k)] = v # Add annotations to Receptor and update field list record.setDict(ann_parsed, parse=True) if i == 1: fields = _annotate(fields, ann_parsed.keys()) except IndexError: # Could not parse pRESTO-style annotations so fall back to no parse asis_id = True printWarning('Sequence annotation format not recognized. Sequence headers will not be parsed.') # Add supplemental annotation fields # if _append_table is not None: # record.setDict(_append_table(record.sequence_id), parse=True) if annotations is not None: record.setDict(annotations[record.sequence_id], parse=True) if i == 1: fields = _annotate(fields, annotations[record.sequence_id].keys()) # Count pass or fail and write to appropriate file if _pass(record): pass_count += 1 # Write row to pass file try: pass_writer.writeReceptor(record) except AttributeError: # Open pass file and writer pass_handle, pass_writer = _open('pass', fields) pass_writer.writeReceptor(record) else: fail_count += 1 # Write row to fail file if specified if out_args['failed']: try: fail_writer.writeReceptor(record) except AttributeError: # Open fail file and writer fail_handle, fail_writer = _open('fail', fields) fail_writer.writeReceptor(record) # Write log if log_handle is not None: log = OrderedDict([('ID', record.sequence_id), ('V_CALL', record.v_call), ('D_CALL', record.d_call), ('J_CALL', record.j_call), ('PRODUCTIVE', record.functional)]) if not _imgt_check(record) and not amino_acid: log['ERROR'] = 'Junction does not match the sequence starting at position 310 in the IMGT numbered V(D)J sequence.' printLog(log, log_handle) # Print progress printProgress(i, total_count, 0.05, start_time=start_time) # Print console log log = OrderedDict() log['OUTPUT'] = os.path.basename(pass_handle.name) if pass_handle is not None else None log['PASS'] = pass_count log['FAIL'] = fail_count log['END'] = 'MakeDb' printLog(log) # Close file handles output = {'pass': None, 'fail': None} if pass_handle is not None: output['pass'] = pass_handle.name pass_handle.close() if fail_handle is not None: output['fail'] = fail_handle.name fail_handle.close() return output def parseIMGT(aligner_file, seq_file=None, repo=None, cellranger_file=None, partial=False, asis_id=True, extended=False, format=default_format, out_file=None, out_args=default_out_args): """ Main for IMGT aligned sample sequences. Arguments: aligner_file : zipped file or unzipped folder output by IMGT. seq_file : FASTA file input to IMGT (from which to get seqID). repo : folder with germline repertoire files. partial : If True put incomplete alignments in the pass file. asis_id : if ID is to be parsed for pRESTO output with default delimiters. extended : if True add alignment score, FWR, CDR and junction fields to output file. format : output format. one of 'changeo' or 'airr'. out_file : output file name. Automatically generated from the input file if None. out_args : common output argument dictionary from parseCommonArgs. Returns: dict : names of the 'pass' and 'fail' output files. """ # Print parameter info log = OrderedDict() log['START'] = 'MakeDb' log['COMMAND'] = 'imgt' log['ALIGNER_FILE'] = aligner_file log['SEQ_FILE'] = os.path.basename(seq_file) if seq_file else '' log['ASIS_ID'] = asis_id log['PARTIAL'] = partial log['EXTENDED'] = extended printLog(log) start_time = time() printMessage('Loading files', start_time=start_time, width=20) # Extract IMGT files temp_dir, imgt_files = extractIMGT(aligner_file) # Count records in IMGT files total_count = countDbFile(imgt_files['summary']) # Get (parsed) IDs from fasta file submitted to IMGT id_dict = getIDforIMGT(seq_file) if seq_file else {} # Load supplementary annotation table if cellranger_file is not None: f = cellranger_extended if extended else cellranger_base annotations = readCellRanger(cellranger_file, fields=f) else: annotations = None printMessage('Done', start_time=start_time, end=True, width=20) # Define format operators try: __, writer, schema = getFormatOperators(format) except ValueError: printError('Invalid format %s.' % format) out_args['out_type'] = schema.out_type # Define output fields fields = list(schema.required) if extended: custom = IMGTReader.customFields(scores=True, regions=True, junction=True, schema=schema) fields.extend(custom) # Parse IMGT output and write db with open(imgt_files['summary'], 'r') as summary_handle, \ open(imgt_files['gapped'], 'r') as gapped_handle, \ open(imgt_files['ntseq'], 'r') as ntseq_handle, \ open(imgt_files['junction'], 'r') as junction_handle: # Open parser parse_iter = IMGTReader(summary_handle, gapped_handle, ntseq_handle, junction_handle) # Add germline sequence if repo is None: germ_iter = parse_iter else: references = readGermlines(repo) # Check for IMGT-gaps in germlines if all('...' not in x for x in references.values()): printWarning('Germline reference sequences do not appear to contain IMGT-numbering spacers. Results may be incorrect.') germ_iter = (addGermline(x, references) for x in parse_iter) # Write db output = writeDb(germ_iter, fields=fields, aligner_file=aligner_file, total_count=total_count, annotations=annotations, id_dict=id_dict, asis_id=asis_id, partial=partial, writer=writer, out_file=out_file, out_args=out_args) # Cleanup temp directory temp_dir.cleanup() return output def parseIgBLAST(aligner_file, seq_file, repo, amino_acid=False, cellranger_file=None, partial=False, asis_id=True, asis_calls=False, extended=False, regions='default', format='changeo', out_file=None, out_args=default_out_args): """ Main for IgBLAST aligned sample sequences. Arguments: aligner_file (str): IgBLAST output file to process. seq_file (str): fasta file input to IgBlast (from which to get sequence). repo (str): folder with germline repertoire files. amino_acid (bool): if True then the IgBLAST output files are results from igblastp. igblastn is assumed if False. partial : If True put incomplete alignments in the pass file. asis_id (bool): if ID is to be parsed for pRESTO output with default delimiters. asis_calls (bool): if True do not parse gene calls for allele names. extended (bool): if True add alignment scores, FWR regions, and CDR regions to the output. regions (str): name of the IMGT FWR/CDR region definitions to use. format (str): output format. one of 'changeo' or 'airr'. out_file (str): output file name. Automatically generated from the input file if None. out_args (dict): common output argument dictionary from parseCommonArgs. Returns: dict : names of the 'pass' and 'fail' output files. """ # Print parameter info log = OrderedDict() log['START'] = 'MakeDB' log['COMMAND'] = 'igblast-aa' if amino_acid else 'igblast' log['ALIGNER_FILE'] = os.path.basename(aligner_file) log['SEQ_FILE'] = os.path.basename(seq_file) log['ASIS_ID'] = asis_id log['ASIS_CALLS'] = asis_calls log['PARTIAL'] = partial log['EXTENDED'] = extended printLog(log) # Set amino acid conditions if amino_acid: format = '%s-aa' % format parser = IgBLASTReaderAA else: parser = IgBLASTReader # Start start_time = time() printMessage('Loading files', start_time=start_time, width=20) # Count records in sequence file total_count = countSeqFile(seq_file) # Get input sequence dictionary seq_dict = getSeqDict(seq_file) # Create germline repo dictionary references = readGermlines(repo, asis=asis_calls) # Load supplementary annotation table if cellranger_file is not None: f = cellranger_extended if extended else cellranger_base annotations = readCellRanger(cellranger_file, fields=f) else: annotations = None printMessage('Done', start_time=start_time, end=True, width=20) # Check for IMGT-gaps in germlines if all('...' not in x for x in references.values()): printWarning('Germline reference sequences do not appear to contain IMGT-numbering spacers. Results may be incorrect.') # Define format operators try: __, writer, schema = getFormatOperators(format) except ValueError: printError('Invalid format %s.' % format) out_args['out_type'] = schema.out_type # Define output fields fields = list(schema.required) if extended: custom = parser.customFields(schema=schema) fields.extend(custom) # Parse and write output with open(aligner_file, 'r') as f: parse_iter = parser(f, seq_dict, references, regions=regions, asis_calls=asis_calls) germ_iter = (addGermline(x, references, amino_acid=amino_acid) for x in parse_iter) output = writeDb(germ_iter, fields=fields, aligner_file=aligner_file, total_count=total_count, annotations=annotations, amino_acid=amino_acid, partial=partial, asis_id=asis_id, regions=regions, writer=writer, out_file=out_file, out_args=out_args) return output def parseIHMM(aligner_file, seq_file, repo, cellranger_file=None, partial=False, asis_id=True, extended=False, format=default_format, out_file=None, out_args=default_out_args): """ Main for iHMMuneAlign aligned sample sequences. Arguments: aligner_file : iHMMune-Align output file to process. seq_file : fasta file input to iHMMuneAlign (from which to get sequence). repo : folder with germline repertoire files. partial : If True put incomplete alignments in the pass file. asis_id : if ID is to be parsed for pRESTO output with default delimiters. extended : if True parse alignment scores, FWR and CDR region fields. format : output format. One of 'changeo' or 'airr'. out_file : output file name. Automatically generated from the input file if None. out_args : common output argument dictionary from parseCommonArgs. Returns: dict : names of the 'pass' and 'fail' output files. """ # Print parameter info log = OrderedDict() log['START'] = 'MakeDB' log['COMMAND'] = 'ihmm' log['ALIGNER_FILE'] = os.path.basename(aligner_file) log['SEQ_FILE'] = os.path.basename(seq_file) log['ASIS_ID'] = asis_id log['PARTIAL'] = partial log['EXTENDED'] = extended printLog(log) start_time = time() printMessage('Loading files', start_time=start_time, width=20) # Count records in sequence file total_count = countSeqFile(seq_file) # Get input sequence dictionary seq_dict = getSeqDict(seq_file) # Create germline repo dictionary references = readGermlines(repo) # Load supplementary annotation table if cellranger_file is not None: f = cellranger_extended if extended else cellranger_base annotations = readCellRanger(cellranger_file, fields=f) else: annotations = None printMessage('Done', start_time=start_time, end=True, width=20) # Check for IMGT-gaps in germlines if all('...' not in x for x in references.values()): printWarning('Germline reference sequences do not appear to contain IMGT-numbering spacers. Results may be incorrect.') # Define format operators try: __, writer, schema = getFormatOperators(format) except ValueError: printError('Invalid format %s.' % format) out_args['out_type'] = schema.out_type # Define output fields fields = list(schema.required) if extended: custom = IHMMuneReader.customFields(scores=True, regions=True, schema=schema) fields.extend(custom) # Parse and write output with open(aligner_file, 'r') as f: parse_iter = IHMMuneReader(f, seq_dict, references) germ_iter = (addGermline(x, references) for x in parse_iter) output = writeDb(germ_iter, fields=fields, aligner_file=aligner_file, total_count=total_count, annotations=annotations, asis_id=asis_id, partial=partial, writer=writer, out_file=out_file, out_args=out_args) return output def getArgParser(): """ Defines the ArgumentParser. Returns: argparse.ArgumentParser """ fields = dedent( ''' output files: db-pass database of alignment records with functionality information, V and J calls, and a junction region. db-fail database with records that fail due to no productivity information, no gene V assignment, no J assignment, or no junction region. universal output fields: sequence_id, sequence, sequence_alignment, germline_alignment, rev_comp, productive, stop_codon, vj_in_frame, locus, v_call, d_call, j_call, junction, junction_length, junction_aa, v_sequence_start, v_sequence_end, v_germline_start, v_germline_end, d_sequence_start, d_sequence_end, d_germline_start, d_germline_end, j_sequence_start, j_sequence_end, j_germline_start, j_germline_end, np1_length, np2_length, fwr1, fwr2, fwr3, fwr4, cdr1, cdr2, cdr3 imgt specific output fields: n1_length, n2_length, p3v_length, p5d_length, p3d_length, p5j_length, d_frame, v_score, v_identity, d_score, d_identity, j_score, j_identity igblast specific output fields: v_score, v_identity, v_support, v_cigar, d_score, d_identity, d_support, d_cigar, j_score, j_identity, j_support, j_cigar ihmm specific output fields: vdj_score 10X specific output fields: cell_id, c_call, consensus_count, umi_count, v_call_10x, d_call_10x, j_call_10x, junction_10x, junction_10x_aa ''') # Define ArgumentParser parser = ArgumentParser(description=__doc__, epilog=fields, formatter_class=CommonHelpFormatter, add_help=False) group_help = parser.add_argument_group('help') group_help.add_argument('--version', action='version', version='%(prog)s:' + ' %s %s' %(__version__, __date__)) group_help.add_argument('-h', '--help', action='help', help='show this help message and exit') subparsers = parser.add_subparsers(title='subcommands', dest='command', help='Aligner used', metavar='') # TODO: This is a temporary fix for Python issue 9253 subparsers.required = True # Parent parser parser_parent = getCommonArgParser(db_in=False) # igblastn output parser parser_igblast = subparsers.add_parser('igblast', parents=[parser_parent], formatter_class=CommonHelpFormatter, add_help=False, help='Process igblastn output.', description='Process igblastn output.') group_igblast = parser_igblast.add_argument_group('aligner parsing arguments') group_igblast.add_argument('-i', nargs='+', action='store', dest='aligner_files', required=True, help='''IgBLAST output files in format 7 with query sequence (igblastn argument \'-outfmt "7 std qseq sseq btop"\').''') group_igblast.add_argument('-r', nargs='+', action='store', dest='repo', required=True, help='''List of folders and/or fasta files containing the same germline set used in the IgBLAST alignment. These reference sequences must contain IMGT-numbering spacers (gaps) in the V segment.''') group_igblast.add_argument('-s', action='store', nargs='+', dest='seq_files', required=True, help='''List of input FASTA files (with .fasta, .fna or .fa extension), containing sequences.''') group_igblast.add_argument('--10x', action='store', nargs='+', dest='cellranger_file', help='''Table file containing 10X annotations (with .csv or .tsv extension).''') group_igblast.add_argument('--asis-id', action='store_true', dest='asis_id', help='''Specify to prevent input sequence headers from being parsed to add new columns to database. Parsing of sequence headers requires headers to be in the pRESTO annotation format, so this should be specified when sequence headers are incompatible with the pRESTO annotation scheme. Note, unrecognized header formats will default to this behavior.''') group_igblast.add_argument('--asis-calls', action='store_true', dest='asis_calls', help='''Specify to prevent gene calls from being parsed into standard allele names in both the IgBLAST output and reference database. Note, this requires the sequence identifiers in the reference sequence set and the IgBLAST database to be exact string matches.''') group_igblast.add_argument('--partial', action='store_true', dest='partial', help='''If specified, include incomplete V(D)J alignments in the pass file instead of the fail file. An incomplete alignment is defined as a record for which a valid IMGT-gapped sequence cannot be built or that is missing a V gene assignment, J gene assignment, junction region, or productivity call.''') group_igblast.add_argument('--extended', action='store_true', dest='extended', help='''Specify to include additional aligner specific fields in the output. Adds <vdj>_score, <vdj>_identity, <vdj>_support, <vdj>_cigar, fwr1, fwr2, fwr3, fwr4, cdr1, cdr2 and cdr3.''') group_igblast.add_argument('--regions', action='store', dest='regions', choices=('default', 'rhesus-igl'), default='default', help='''IMGT CDR and FWR boundary definition to use.''') parser_igblast.set_defaults(func=parseIgBLAST, amino_acid=False) # igblastp output parser parser_igblast_aa = subparsers.add_parser('igblast-aa', parents=[parser_parent], formatter_class=CommonHelpFormatter, add_help=False, help='Process igblastp output.', description='Process igblastp output.') group_igblast_aa = parser_igblast_aa.add_argument_group('aligner parsing arguments') group_igblast_aa.add_argument('-i', nargs='+', action='store', dest='aligner_files', required=True, help='''IgBLAST output files in format 7 with query sequence (igblastp argument \'-outfmt "7 std qseq sseq btop"\').''') group_igblast_aa.add_argument('-r', nargs='+', action='store', dest='repo', required=True, help='''List of folders and/or fasta files containing the same germline set used in the IgBLAST alignment. These reference sequences must contain IMGT-numbering spacers (gaps) in the V segment.''') group_igblast_aa.add_argument('-s', action='store', nargs='+', dest='seq_files', required=True, help='''List of input FASTA files (with .fasta, .fna or .fa extension), containing sequences.''') group_igblast_aa.add_argument('--10x', action='store', nargs='+', dest='cellranger_file', help='''Table file containing 10X annotations (with .csv or .tsv extension).''') group_igblast_aa.add_argument('--asis-id', action='store_true', dest='asis_id', help='''Specify to prevent input sequence headers from being parsed to add new columns to database. Parsing of sequence headers requires headers to be in the pRESTO annotation format, so this should be specified when sequence headers are incompatible with the pRESTO annotation scheme. Note, unrecognized header formats will default to this behavior.''') group_igblast_aa.add_argument('--asis-calls', action='store_true', dest='asis_calls', help='''Specify to prevent gene calls from being parsed into standard allele names in both the IgBLAST output and reference database. Note, this requires the sequence identifiers in the reference sequence set and the IgBLAST database to be exact string matches.''') group_igblast_aa.add_argument('--extended', action='store_true', dest='extended', help='''Specify to include additional aligner specific fields in the output. Adds v_score, v_identity, v_support, v_cigar, fwr1, fwr2, fwr3, cdr1 and cdr2.''') group_igblast_aa.add_argument('--regions', action='store', dest='regions', choices=('default', 'rhesus-igl'), default='default', help='''IMGT CDR and FWR boundary definition to use.''') parser_igblast_aa.set_defaults(func=parseIgBLAST, partial=True, amino_acid=True) # IMGT aligner parser_imgt = subparsers.add_parser('imgt', parents=[parser_parent], formatter_class=CommonHelpFormatter, add_help=False, help='''Process IMGT/HighV-Quest output (does not work with V-QUEST).''', description='''Process IMGT/HighV-Quest output (does not work with V-QUEST).''') group_imgt = parser_imgt.add_argument_group('aligner parsing arguments') group_imgt.add_argument('-i', nargs='+', action='store', dest='aligner_files', help='''Either zipped IMGT output files (.zip or .txz) or a folder containing unzipped IMGT output files (which must include 1_Summary, 2_IMGT-gapped, 3_Nt-sequences, and 6_Junction).''') group_imgt.add_argument('-s', nargs='*', action='store', dest='seq_files', required=False, help='''List of FASTA files (with .fasta, .fna or .fa extension) that were submitted to IMGT/HighV-QUEST. If unspecified, sequence identifiers truncated by IMGT/HighV-QUEST will not be corrected.''') group_imgt.add_argument('-r', nargs='+', action='store', dest='repo', required=False, help='''List of folders and/or fasta files containing the germline sequence set used by IMGT/HighV-QUEST. These reference sequences must contain IMGT-numbering spacers (gaps) in the V segment. If unspecified, the germline sequence reconstruction will not be included in the output.''') group_imgt.add_argument('--10x', action='store', nargs='+', dest='cellranger_file', help='''Table file containing 10X annotations (with .csv or .tsv extension).''') group_imgt.add_argument('--asis-id', action='store_true', dest='asis_id', help='''Specify to prevent input sequence headers from being parsed to add new columns to database. Parsing of sequence headers requires headers to be in the pRESTO annotation format, so this should be specified when sequence headers are incompatible with the pRESTO annotation scheme. Note, unrecognized header formats will default to this behavior.''') group_imgt.add_argument('--partial', action='store_true', dest='partial', help='''If specified, include incomplete V(D)J alignments in the pass file instead of the fail file. An incomplete alignment is defined as a record that is missing a V gene assignment, J gene assignment, junction region, or productivity call.''') group_imgt.add_argument('--extended', action='store_true', dest='extended', help='''Specify to include additional aligner specific fields in the output. Adds <vdj>_score, <vdj>_identity>, fwr1, fwr2, fwr3, fwr4, cdr1, cdr2, cdr3, n1_length, n2_length, p3v_length, p5d_length, p3d_length, p5j_length and d_frame.''') parser_imgt.set_defaults(func=parseIMGT) # iHMMuneAlign Aligner parser_ihmm = subparsers.add_parser('ihmm', parents=[parser_parent], formatter_class=CommonHelpFormatter, add_help=False, help='Process iHMMune-Align output.', description='Process iHMMune-Align output.') group_ihmm = parser_ihmm.add_argument_group('aligner parsing arguments') group_ihmm.add_argument('-i', nargs='+', action='store', dest='aligner_files', required=True, help='''iHMMune-Align output file.''') group_ihmm.add_argument('-r', nargs='+', action='store', dest='repo', required=True, help='''List of folders and/or FASTA files containing the set of germline sequences used by iHMMune-Align. These reference sequences must contain IMGT-numbering spacers (gaps) in the V segment.''') group_ihmm.add_argument('-s', action='store', nargs='+', dest='seq_files', required=True, help='''List of input FASTA files (with .fasta, .fna or .fa extension) containing sequences.''') group_ihmm.add_argument('--10x', action='store', nargs='+', dest='cellranger_file', help='''Table file containing 10X annotations (with .csv or .tsv extension).''') group_ihmm.add_argument('--asis-id', action='store_true', dest='asis_id', help='''Specify to prevent input sequence headers from being parsed to add new columns to database. Parsing of sequence headers requires headers to be in the pRESTO annotation format, so this should be specified when sequence headers are incompatible with the pRESTO annotation scheme. Note, unrecognized header formats will default to this behavior.''') group_ihmm.add_argument('--partial', action='store_true', dest='partial', help='''If specified, include incomplete V(D)J alignments in the pass file instead of the fail file. An incomplete alignment is defined as a record for which a valid IMGT-gapped sequence cannot be built or that is missing a V gene assignment, J gene assignment, junction region, or productivity call.''') group_ihmm.add_argument('--extended', action='store_true', dest='extended', help='''Specify to include additional aligner specific fields in the output. Adds the path score of the iHMMune-Align hidden Markov model as vdj_score; adds fwr1, fwr2, fwr3, fwr4, cdr1, cdr2 and cdr3.''') parser_ihmm.set_defaults(func=parseIHMM) return parser if __name__ == "__main__": """ Parses command line arguments and calls main """ parser = getArgParser() checkArgs(parser) args = parser.parse_args() args_dict = parseCommonArgs(args, in_arg='aligner_files') # Set no ID parsing if sequence files are not provided if 'seq_files' in args_dict and not args_dict['seq_files']: args_dict['asis_id'] = True # Delete if 'aligner_files' in args_dict: del args_dict['aligner_files'] if 'seq_files' in args_dict: del args_dict['seq_files'] if 'out_files' in args_dict: del args_dict['out_files'] if 'command' in args_dict: del args_dict['command'] if 'func' in args_dict: del args_dict['func'] # Call main for i, f in enumerate(args.__dict__['aligner_files']): args_dict['aligner_file'] = f args_dict['seq_file'] = args.__dict__['seq_files'][i] \ if args.__dict__['seq_files'] else None args_dict['out_file'] = args.__dict__['out_files'][i] \ if args.__dict__['out_files'] else None args_dict['cellranger_file'] = args.__dict__['cellranger_file'][i] \ if args.__dict__['cellranger_file'] else None args.func(**args_dict)