def varsim_somatic_main():
    main_parser = argparse.ArgumentParser(
        description="VarSim: somatic workflow",
        formatter_class=argparse.ArgumentDefaultsHelpFormatter)
    main_parser.add_argument("--out_dir",
                             metavar="Out directory",
                             help="Output directory",
                             default="somatic_out")
    main_parser.add_argument("--work_dir",
                             metavar="Work directory",
                             help="Work directory",
                             default="somatic_work")
    main_parser.add_argument("--log_dir",
                             metavar="Log directory",
                             help="Directory to log to",
                             default="somatic_log")
    main_parser.add_argument("--reference",
                             metavar="FASTA",
                             help="Reference genome",
                             required=True,
                             type=file)
    main_parser.add_argument("--seed",
                             metavar="INT",
                             help="Random number seed",
                             type=int,
                             default=0)
    main_parser.add_argument("--sex",
                             metavar="Sex",
                             help="Sex of the person (MALE/FEMALE)",
                             required=False,
                             type=str,
                             choices=["MALE", "FEMALE"],
                             default="MALE")
    main_parser.add_argument("--id",
                             metavar="id",
                             help="Sample ID",
                             required=True)
    main_parser.add_argument("--simulator",
                             metavar="simulator",
                             help="Read simulator to use",
                             required=False,
                             type=str,
                             choices=["art", "dwgsim"],
                             default="art")
    main_parser.add_argument(
        "--simulator_executable",
        metavar="PATH",
        help="Path to the executable of the read simulator chosen",
        required=True,
        type=file)
    main_parser.add_argument("--varsim_jar",
                             metavar="PATH",
                             help="Path to VarSim.jar (deprecated)",
                             type=file,
                             default=None,
                             required=False)
    main_parser.add_argument("--read_length",
                             metavar="INT",
                             help="Length of read to simulate",
                             default=100,
                             type=int)
    main_parser.add_argument(
        "--nlanes",
        metavar="INT",
        help=
        "Number of lanes to generate, coverage will be divided evenly over the lanes. Simulation is parallized over lanes. Each lane will have its own pair of files",
        default=3,
        type=int)
    main_parser.add_argument("--total_coverage",
                             metavar="FLOAT",
                             help="Total coverage to simulate",
                             default=1.0,
                             type=float)
    main_parser.add_argument("--mean_fragment_size",
                             metavar="INT",
                             help="Mean fragment size",
                             default=350,
                             type=int)
    main_parser.add_argument("--sd_fragment_size",
                             metavar="INT",
                             help="Standard deviation of fragment size",
                             default=50,
                             type=int)

    main_parser.add_argument("--force_five_base_encoding",
                             action="store_true",
                             help="Force bases to be ACTGN")
    main_parser.add_argument("--filter",
                             action="store_true",
                             help="Only use PASS variants")
    main_parser.add_argument("--keep_temp",
                             action="store_true",
                             help="Keep temporary files")
    main_parser.add_argument("--java_max_mem",
                             metavar="XMX",
                             help="max java memory",
                             default="10g",
                             type=str)
    main_parser.add_argument("--java",
                             metavar="PATH",
                             help="path to java",
                             default="java",
                             type=str)
    main_parser.add_argument("--python",
                             metavar="PATH",
                             help="path to python",
                             default="python",
                             type=str)
    main_parser.add_argument('--version',
                             action='version',
                             version=get_version())

    input_vcf_group = main_parser.add_argument_group("Input VCFs options")
    input_vcf_group.add_argument(
        "--cosmic_vcf",
        metavar="VCF",
        help=
        "COSMIC database VCF. Need to specify when random COSMIC sampling is enabled."
    )
    input_vcf_group.add_argument("--normal_vcf",
                                 metavar="VCF",
                                 help="Normal VCF from previous VarSim run",
                                 required=True)
    input_vcf_group.add_argument("--somatic_vcfs",
                                 metavar="VCF",
                                 nargs="+",
                                 help="Somatic VCF",
                                 default=[])
    input_vcf_group.add_argument(
        "--merge_priority",
        choices=["sn", "ns"],
        help=
        "Priority of merging (lowest first) somatic (s) and normal truth (n).",
        default="sn")

    pipeline_control_group = main_parser.add_argument_group(
        "Pipeline control options. Disable parts of the pipeline.")
    pipeline_control_group.add_argument("--disable_rand_vcf",
                                        action="store_true",
                                        help="Disable RandVCF2VCF somatic")
    pipeline_control_group.add_argument("--disable_vcf2diploid",
                                        action="store_true",
                                        help="Disable vcf2diploid")
    pipeline_control_group.add_argument("--disable_sim",
                                        action="store_true",
                                        help="Disable read simulation")

    # RandVCF2VCF seed num_SNP num_INS num_DEL num_MNP num_COMPLEX percent_novel min_length_lim max_length_lim reference_file file.vcf
    rand_vcf_group = main_parser.add_argument_group(
        "RandVCF2VCF somatic options")
    rand_vcf_group.add_argument("--som_num_snp",
                                metavar="INT",
                                help="Number of somatic SNPs",
                                default=9000,
                                type=int)
    rand_vcf_group.add_argument("--som_num_ins",
                                metavar="INT",
                                help="Number of somatic insertions",
                                default=1000,
                                type=int)
    rand_vcf_group.add_argument("--som_num_del",
                                metavar="INT",
                                help="Number of somatic deletions",
                                default=1000,
                                type=int)
    rand_vcf_group.add_argument("--som_num_mnp",
                                metavar="INT",
                                help="Number of somatic MNPs",
                                default=100,
                                type=int)
    rand_vcf_group.add_argument("--som_num_complex",
                                metavar="INT",
                                help="Number of somatic complex variants",
                                default=100,
                                type=int)
    # rand_vcf_group.add_argument("--som_percent_novel", metavar="percent_novel", help="Percent novel", default=0, type=float)
    rand_vcf_group.add_argument("--som_min_length_lim",
                                metavar="INT",
                                help="Min length lim",
                                default=0,
                                type=int)
    rand_vcf_group.add_argument("--som_max_length_lim",
                                metavar="INT",
                                help="Max length lim",
                                default=49,
                                type=int)
    # rand_vcf_group.add_argument("--som_vcf", metavar="in_vcf", help="Input somatic variant database VCF", type=file, required=False)
    rand_vcf_group.add_argument(
        "--som_prop_het",
        metavar="FLOAT",
        help="Proportion of somatic heterozygous variants",
        default=1.0,
        type=float)
    rand_vcf_group.add_argument(
        "--sv_insert_seq",
        metavar="FILE",
        help=
        "Path to file containing concatenation of real insertion sequences",
        type=file,
        required=True)

    dwgsim_group = main_parser.add_argument_group("DWGSIM options")
    dwgsim_group.add_argument("--dwgsim_start_e",
                              metavar="first_base_error_rate",
                              help="Error rate on the first base",
                              default=0.0001,
                              type=float)
    dwgsim_group.add_argument("--dwgsim_end_e",
                              metavar="last_base_error_rate",
                              help="Error rate on the last base",
                              default=0.0015,
                              type=float)
    dwgsim_group.add_argument("--dwgsim_options",
                              help="DWGSIM command-line options",
                              default="",
                              required=False)

    art_group = main_parser.add_argument_group("ART options")
    art_group.add_argument("--profile_1",
                           metavar="profile_file1",
                           help="Profile for first end",
                           default=None,
                           type=file)
    art_group.add_argument("--profile_2",
                           metavar="profile_file2",
                           help="Profile for second end",
                           default=None,
                           type=file)
    art_group.add_argument("--art_options",
                           help="ART command-line options",
                           default="",
                           required=False)

    args = main_parser.parse_args()

    args.java = utils.get_java(args.java)
    check_java(args.java)
    utils.JAVA_XMX = utils.JAVA_XMX + args.java_max_mem
    makedirs([args.log_dir, args.out_dir])

    FORMAT = '%(levelname)s %(asctime)-15s %(name)-20s %(message)s'
    logging.basicConfig(filename=os.path.join(args.log_dir, "varsim.log"),
                        filemode="w",
                        level=logging.DEBUG,
                        format=FORMAT)
    logger = logging.getLogger(varsim_somatic_main.__name__)

    if not args.disable_sim:
        if not args.simulator_executable:
            logger.error(
                "Please specify %s binary with --simulator_executable option" %
                args.simulator)
            sys.exit(os.EX_USAGE)
        check_executable(args.simulator_executable.name)

    t_s = time.time()

    cosmic_sampled_vcfs = []
    if not args.disable_rand_vcf:
        if not args.cosmic_vcf:
            logger.error(
                "COSMIC database VCF not specified using --cosmic_vcf")
            sys.exit(os.EX_USAGE)
        rand_vcf_stdout = open(os.path.join(args.out_dir, "random.cosmic.vcf"),
                               "w")
        rand_vcf_stderr = open(os.path.join(args.log_dir, "random.cosmic.err"),
                               "w")
        cosmic_sampled_vcfs = [rand_vcf_stdout.name]

        # Not able to support novel yet for COSMIC variants
        randvcf_options = RandVCFOptions(args.som_num_snp, args.som_num_ins,
                                         args.som_num_del, args.som_num_mnp,
                                         args.som_num_complex, 0,
                                         args.som_min_length_lim,
                                         args.som_max_length_lim,
                                         args.som_prop_het)
        run_randvcf(os.path.realpath(args.cosmic_vcf), rand_vcf_stdout,
                    rand_vcf_stderr, args.seed, args.sex, randvcf_options,
                    args.reference.name, args.java)

    normal_vcfs = [args.normal_vcf]
    somatic_vcfs = cosmic_sampled_vcfs + args.somatic_vcfs
    fixed_somatic_vcfs = []
    if somatic_vcfs:
        vcfs_dir = os.path.join(args.out_dir, "somatic_vcfs")
        makedirs([vcfs_dir])
        count = 0
        for index, vcf in enumerate(somatic_vcfs):
            copied_vcf = os.path.join(vcfs_dir, "%d.vcf" % index)
            logger.info(
                "Copying somatic VCF %s to %s and adding VARSIMSOMATIC id to entries if missing"
                % (vcf, copied_vcf))
            with open(vcf, "r") as vcf_fd, open(copied_vcf,
                                                "w") as copied_vcf_fd:
                for line in vcf_fd:
                    if line.startswith("#"):
                        copied_vcf_fd.write(line)
                    else:
                        line_fields = line.split("\t")
                        line_fields[2] = (
                            "VARSIMSOMATIC%d" %
                            count) if line_fields[2] == "." else (
                                "%s,VARSIMSOMATIC%d" % (line_fields[2], count))
                        copied_vcf_fd.write("\t".join(line_fields))
                        count += 1
            fixed_somatic_vcfs.append(copied_vcf)

    vcf_files = (fixed_somatic_vcfs +
                 normal_vcfs) if args.merge_priority == "sn" else (
                     normal_vcfs + fixed_somatic_vcfs)
    vcf_files = map(os.path.realpath, filter(None, vcf_files))

    processes = run_vcfstats(vcf_files, args.out_dir, args.log_dir, args.java)

    # Run VarSim
    varsim_stdout = open(os.path.join(args.log_dir, "som_varsim.out"), "w")
    varsim_stderr = open(os.path.join(args.log_dir, "som_varsim.log"), "w")

    vcf_arg_list = ["--vcfs"] + vcf_files

    # need to fix the store true ones
    filter_arg_list = ["--filter"] if args.filter else []
    disable_sim_arg_list = ["--disable_sim"] if args.disable_sim else []
    force_five_base_encoding_arg_list = [
        "--force_five_base_encoding"
    ] if args.force_five_base_encoding else []
    keep_temp_arg_list = ["--keep_temp"] if args.keep_temp else []
    profile_1_arg_list = ["--profile_1", args.profile_1.name
                          ] if args.profile_1 is not None else []
    profile_2_arg_list = ["--profile_2", args.profile_2.name
                          ] if args.profile_2 is not None else []
    other_varsim_opts = []
    if args.simulator == "dwgsim":
        other_varsim_opts = [
            "--dwgsim_start_e",
            str(args.dwgsim_start_e), "--dwgsim_end_e",
            str(args.dwgsim_end_e)
        ]
        if args.dwgsim_options:
            other_varsim_opts += ["--dwgsim_options", str(args.dwgsim_options)]
    elif args.simulator == "art" and args.art_options:
        other_varsim_opts += ["--art_options", args.art_options]

    args.python = utils.get_python(args.python)
    varsim_command = [args.python, os.path.realpath(VARSIM_PY),
                      "--out_dir", str(os.path.realpath(args.out_dir)),
                      "--work_dir", str(os.path.realpath(args.work_dir)),
                      "--log_dir", str(os.path.realpath(os.path.join(args.log_dir, "varsim"))),
                      "--reference", str(os.path.realpath(args.reference.name)),
                      "--seed", str(args.seed),
                      "--sex", str(args.sex),
                      "--id", str(args.id),
                      "--simulator", str(args.simulator),
                      "--simulator_executable", str(args.simulator_executable.name),
                      "--read_length", str(args.read_length),
                      "--nlanes", str(args.nlanes),
                      "--total_coverage", str(args.total_coverage),
                      "--mean_fragment_size", str(args.mean_fragment_size),
                      "--sd_fragment_size", str(args.sd_fragment_size),
                      "--disable_rand_vcf",
                      "--disable_rand_dgv",
        "--sv_insert_seq", args.sv_insert_seq.name] + other_varsim_opts + vcf_arg_list + filter_arg_list + disable_sim_arg_list \
                     + force_five_base_encoding_arg_list + keep_temp_arg_list + profile_1_arg_list + profile_2_arg_list
    varsim_command = " ".join(varsim_command)
    p_varsim = subprocess.Popen(varsim_command,
                                stdout=varsim_stdout,
                                stderr=varsim_stderr,
                                shell=True)
    logger.info("Executing command " + varsim_command + " with pid " +
                str(p_varsim.pid))
    processes.append(p_varsim)

    processes = monitor_processes(processes)

    # Split the tumor truth VCF into normal variants and somatic variants
    tumor_vcf = os.path.realpath(
        os.path.join(args.out_dir, "%s.truth.vcf" % args.id))
    normal_vcf = os.path.join(args.out_dir, "%s_norm.vcf" % args.id)
    somatic_vcf = os.path.join(args.out_dir, "%s_somatic.vcf" % args.id)
    logger.info("Splitting the truth VCF %s into normal and somatic VCFs" %
                tumor_vcf)
    with open(tumor_vcf, "r") as tumor_truth_fd, \
        open(normal_vcf, "w") as normal_vcf_fd, \
        open(somatic_vcf, "w") as somatic_vcf_fd:
        for line in tumor_truth_fd:
            if line.startswith("#"):
                somatic_vcf_fd.write(line)
                normal_vcf_fd.write(line)
                continue
            if line.find("VARSIMSOMATIC") >= 0:
                somatic_vcf_fd.write(line)
            else:
                normal_vcf_fd.write(line)

    run_vcfstats([normal_vcf, somatic_vcf], args.out_dir, args.log_dir,
                 args.java)

    logger.info("Done! (%g hours)" % ((time.time() - t_s) / 3600.0))
Esempio n. 2
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    pbsim_group = main_parser.add_argument_group("PBSIM options")
    pbsim_group.add_argument("--model_qc",
                             metavar="model_qc",
                             help="PBSIM QC model",
                             default=None,
                             type=str)

    longislnd_group = main_parser.add_argument_group("LongISLND options")
    longislnd_group.add_argument("--longislnd_options",
                                 help="LongISLND options",
                                 default="")

    args = main_parser.parse_args()

    args.java = utils.get_java(args.java)
    utils.JAVA_XMX = utils.JAVA_XMX + args.java_max_mem
    makedirs([args.log_dir, args.out_dir])

    # Setup logging
    FORMAT = '%(levelname)s %(asctime)-15s %(name)-20s %(message)s'
    loglevel = get_loglevel(args.loglevel)
    if not args.log_to_stderr:
        logging.basicConfig(filename=os.path.join(args.log_dir, "varsim.log"),
                            filemode="w",
                            level=loglevel,
                            format=FORMAT)
    else:
        logging.basicConfig(level=loglevel, format=FORMAT)

    simulator = None if args.disable_sim else args.simulator
Esempio n. 3
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def process(args):
    '''
    main
    :param args:
    :return:
    '''
    args.java = utils.get_java(args.java)
    utils.check_java(args.java)

    # Setup logging
    FORMAT = '%(levelname)s %(asctime)-15s %(name)-20s %(message)s'
    loglevel = utils.get_loglevel(args.loglevel)
    if args.log_to_file:
        logging.basicConfig(filename=args.log_to_file,
                            filemode="w",
                            level=loglevel,
                            format=FORMAT)
    else:
        logging.basicConfig(level=loglevel, format=FORMAT)

    if len(args.vcfs) > 1:
        raise NotImplementedError(
            'right now only support one prediction VCF. Quick workaround: src/sort_vcf.sh vcf1 vcf2 > merged.vcf'
        )

    global LOGGER
    LOGGER = logging.getLogger(__name__)
    LOGGER.info('working hard ...')

    utils.JAVA_XMX = utils.JAVA_XMX + args.java_max_mem
    args.out_dir = os.path.abspath(args.out_dir)
    args.reference = os.path.abspath(args.reference)
    utils.makedirs([args.out_dir])

    varsim_prefix = os.path.join(args.out_dir, 'varsim_compare_results')
    varsim_comparator = VarSimVCFComparator(
        prefix=varsim_prefix,
        true_vcf=args.true_vcf,
        reference=args.reference,
        regions=None,
        sample=args.sample,
        vcfs=args.vcfs,
        exclude_filtered=args.exclude_filtered,
        disallow_partial_fp=args.disallow_partial_fp,
        match_geno=args.match_geno,
        log_to_file=args.log_to_file,
        opts=args.vcfcompare_options,
        java=args.java)
    varsim_tp, varsim_fn, varsim_fp = varsim_comparator.get_tp(
    ), varsim_comparator.get_fn(), varsim_comparator.get_fp()
    varsim_tp = utils.sort_and_compress(varsim_tp)
    varsim_fn = utils.sort_and_compress(varsim_fn)
    varsim_fp = utils.sort_and_compress(varsim_fp)
    #run vcfeval
    sdf = args.sdf
    if not sdf:
        LOGGER.info(
            "user did not supply SDF-formatted reference, trying to generate one..."
        )
        sdf = generate_sdf(args.reference, args.log_to_file, java=args.java)
    '''for vcfeval
    sample column must be present, and not empty
    if single-sample vcf, vcfeval doesn't check if samples match in truth and call
    in multi-sample vcf, sample name must be specified
    right now
    '''
    vcfeval_prefix = os.path.join(args.out_dir, 'vcfeval_compare_results')
    if os.path.exists(vcfeval_prefix):
        LOGGER.warn('{0} exists, removing ...'.format(vcfeval_prefix))
        shutil.rmtree(vcfeval_prefix)
    vcfeval_comparator = RTGVCFComparator(
        prefix=vcfeval_prefix,
        true_vcf=varsim_fn,
        reference=sdf,
        regions=None,
        sample=args.sample,
        vcfs=[varsim_fp],
        exclude_filtered=args.exclude_filtered,
        match_geno=args.match_geno,
        log_to_file=args.log_to_file,
        opts=args.vcfeval_options,
        java=args.java)
    vcfeval_tp, vcfeval_tp_predict = vcfeval_comparator.get_tp(
    ), vcfeval_comparator.get_tp_predict()
    augmented_tp, augmented_fn, augmented_fp, augmented_t = merge_results(
        outdir=args.out_dir,
        varsim_tp=varsim_tp,
        varsim_fn=varsim_fn,
        vcfeval_tp=vcfeval_tp,
        varsim_fp=varsim_fp,
        vcfeval_tp_predict=vcfeval_tp_predict)
    augmented_tp, augmented_fn, augmented_fp, augmented_t = summarize_results(
        os.path.join(args.out_dir, "augmented"),
        augmented_tp,
        augmented_fn,
        augmented_fp,
        augmented_t,
        var_types=args.var_types,
        sv_length=args.sv_length,
        regions=args.regions,
        bed_either=args.bed_either,
        java=args.java)

    if args.master_vcf and args.call_vcf:
        match_false(augmented_fp,
                    [args.call_vcf, args.master_vcf, augmented_fn],
                    args.out_dir, args.sample, args.log_to_file,
                    args.vcfeval_options, sdf, args.java)
        match_false(augmented_fn, [args.call_vcf], args.out_dir, args.sample,
                    args.log_to_file, args.vcfeval_options, sdf, args.java)

    LOGGER.info(
        "Variant comparison done.\nTrue positive: {0}\nFalse negative: {1}\nFalse positive: {2}\n"
        .format(augmented_tp, augmented_fn, augmented_fp))