def get_depth_analysis(aln_filename, chrom):
    # get depth from bam_stats
    args = [
        '-i', aln_filename, '--silent', '--depth_spacing',
        str(DEPTH_SPACING)
    ]
    bam_summaries, length_summaries, depth_summaries = bam_stats.main(args)
    return depth_summaries[aln_filename][chrom][bam_stats.D_ALL_DEPTH_MAP]
Exemple #2
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def get_genome_read_depths(bam_file, args):
    spacing = args.sampling_spacing
    verbose = args.verbose

    if not os.path.isfile(bam_file):
        raise Exception("Genome bam {} does not exist!".format(bam_file))
    log(bam_file)

    bs_args = [
        "--input_glob", bam_file, "--depth_spacing",
        str(spacing), '--silent'
    ]
    if args.filter_secondary: bs_args.append('--filter_secondary')
    if args.filter_primary: bs_args.append('--filter_primary')

    bam_summaries, _, depth_summaries = bam_stats.main(bs_args)
    if bam_stats.GENOME_KEY in depth_summaries[bam_file]:
        del depth_summaries[bam_file][bam_stats.GENOME_KEY]

    positions = dict()
    chromosomes = list(depth_summaries[bam_file].keys())
    chromosomes.sort(key=chrom_sort)

    for chromosome in chromosomes:
        if verbose:
            log("{}: \t{}: \tread_count: {}".format(
                bam_file, chromosome, bam_summaries[bam_file][chromosome][
                    bam_stats.B_FILTERED_READ_COUNT]))
            log("{}: \t{}: \tmax_depth:  {}".format(
                bam_file, chromosome,
                depth_summaries[bam_file][chromosome][bam_stats.D_MAX]))
            log("{}: \t{}: \tmin_depth:  {}".format(
                bam_file, chromosome,
                depth_summaries[bam_file][chromosome][bam_stats.D_MIN]))
            log("{}: \t{}: \tavg_depth:  {}".format(
                bam_file, chromosome,
                depth_summaries[bam_file][chromosome][bam_stats.D_AVG]))
            log("{}: \t{}: \tstd_depth:  {}".format(
                bam_file, chromosome,
                depth_summaries[bam_file][chromosome][bam_stats.D_STD]))

        positions[chromosome] = depth_summaries[bam_file][chromosome][
            bam_stats.D_ALL_DEPTH_MAP]
        pass

    return positions
Exemple #3
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def main():
    args = parse_args()
    assert False not in [
        len(args.input_bam_glob) > 0,
        os.path.isfile(args.coordinate_tsv),
        os.path.isdir(args.output_location)
    ]

    coords = list()
    with open(args.coordinate_tsv) as tsv_in:
        for line in tsv_in:
            # skip
            if line.startswith("#"): continue
            if len(line.strip()) == 0: continue

            # get line parts
            line = line.strip().split("\t")

            # save relevant data
            coord = {CHR: line[0]}
            if len(line) >= 3:
                coord[START] = int(line[1])
                coord[END] = int(line[2])
            if args.description_column is not None:
                coord[DESC] = "_".join(line[args.description_column].split())
            coords.append(coord)

    for file in glob.glob(args.input_bam_glob):
        for coord in coords:
            out_filename = get_output_filename(file, coord)
            out_location = os.path.join(args.output_location, out_filename)
            region = coord[CHR] if len(coord) < 3 else "{}:{}-{}".format(
                coord[CHR], coord[START], coord[END])

            # log what's happening
            print("{}:\n\tloc:  {}\n\tdesc: {}\n\tout:  {}".format(
                file, region, coord[DESC] if DESC in coord else '',
                out_location),
                  file=sys.stderr)

            # get the region and index
            samtools_args = ['samtools', 'view', '-hb', file, region]
            with open(out_location, 'w') as output:
                subprocess.check_call(samtools_args, stdout=output)
            subprocess.check_call(['samtools', 'index', out_location])

            # maybe make stats
            if args.produce_bam_stats:
                stats_filename = "{}.stats.txt".format(out_filename)
                stats_location = os.path.join(args.output_location,
                                              stats_filename)
                bam_stats_args = [
                    '-i', out_location, '-g', '-l', '-d', '-v', '-o',
                    stats_location
                ]
                if len(coord) >= 3:
                    bam_stats_args.extend(
                        ['-r', '{}-{}'.format(coord[START], coord[END])])

                # get summaries
                generic_summaries, _, depth_summaries = bam_stats.main(
                    bam_stats_args)

                # are we flagging output based on depth?
                if args.min_depth_threshold is not None:

                    # find depth
                    generic_summary = generic_summaries[out_location][
                        bam_stats.GENOME_KEY]
                    depth_summary = depth_summaries[out_location][
                        bam_stats.GENOME_KEY]
                    depth_summary_value = int(
                        max(depth_summary[bam_stats.D_MED],
                            depth_summary[bam_stats.D_AVG]))
                    print("\tsection_depth:{}".format(depth_summary_value),
                          file=sys.stderr)

                    # handle min depth
                    if args.min_depth_threshold <= depth_summary_value:
                        print("\tFLAGGED!", file=sys.stderr)
                        # also try to get stats for only primary reads
                        bam_stats_args_prim = [
                            '-i', out_location, '-d', '-V',
                            '--filter_secondary', '--filter_supplementary',
                            '-r', '{}-{}'.format(coord[START], coord[END])
                        ]
                        _, _, prim_depth_summaries = bam_stats.main(
                            bam_stats_args_prim)
                        prim_depth_summary = prim_depth_summaries[
                            out_location][bam_stats.GENOME_KEY]
                        prim_depth_summary_value = int(
                            max(prim_depth_summary[bam_stats.D_MED],
                                prim_depth_summary[bam_stats.D_AVG]))

                        # document depths in flagged filename
                        flag_filename = "FLAGGED.DEPTH_{:04d}_p{:04d}.{}.stats.txt".format(
                            depth_summary_value, prim_depth_summary_value,
                            out_filename)
                        with open(
                                os.path.join(args.output_location,
                                             flag_filename), 'w') as flag_out:
                            print("####################################",
                                  file=flag_out)
                            print("bam_file:{}".format(out_filename),
                                  file=flag_out)
                            print("bam_stats_file:{}".format(stats_filename),
                                  file=flag_out)
                            print("depth_threshold:{}".format(
                                args.min_depth_threshold),
                                  file=flag_out)
                            print("median_depth:{}".format(
                                depth_summary[bam_stats.D_MED]),
                                  file=flag_out)
                            print("mean_depth:{}".format(
                                depth_summary[bam_stats.D_AVG]),
                                  file=flag_out)
                            print("total_reads:{}".format(
                                generic_summary[bam_stats.B_READ_COUNT]),
                                  file=flag_out)
                            print("filtered_reads:{}".format(
                                generic_summary[bam_stats.B_SECONDARY_COUNT] +
                                generic_summary[
                                    bam_stats.B_SUPPLEMENTARY_COUNT]),
                                  file=flag_out)
                            print("primary_median_depth:{}".format(
                                prim_depth_summary[bam_stats.D_MED]),
                                  file=flag_out)
                            print("primary_mean_depth:{}".format(
                                prim_depth_summary[bam_stats.D_AVG]),
                                  file=flag_out)

    print("Fin.", file=sys.stderr)