Esempio n. 1
0
def configToDictionary(config):
    """convert the contents of a :py:class:`ConfigParser.ConfigParser`
    object to a dictionary

    This method works by iterating over all configuration values in a
    :py:class:`ConfigParser.ConfigParser` object and inserting values
    into a dictionary. Section names are prefixed using and underscore.
    Thus::

        [sample]
        name=12

    is entered as ``sample_name=12`` into the dictionary. The sections
    ``general`` and ``DEFAULT`` are treated specially in that both
    the prefixed and the unprefixed values are inserted: ::

       [general]
       genome=hg19

    will be added as ``general_genome=hg19`` and ``genome=hg19``.

    Numbers will be automatically recognized as such and converted into
    integers or floats.

    Returns
    -------
    config : dict
        A dictionary of configuration values

    """
    p = {}
    for section in config.sections():
        for key, value in config.items(section):
            try:
                v = IOTools.str2val(value)
            except TypeError:
                E.error("error converting key %s, value %s" % (key, value))
                E.error("Possible multiple concurrent attempts to "
                        "read configuration")
                raise

            p["%s_%s" % (section, key)] = v
            if section in ("general", "DEFAULT"):
                p["%s" % (key)] = v

    for key, value in config.defaults().items():
        p["%s" % (key)] = IOTools.str2val(value)

    return p
Esempio n. 2
0
def configToDictionary(config):
    """convert the contents of a :py:class:`ConfigParser.ConfigParser`
    object to a dictionary

    This method works by iterating over all configuration values in a
    :py:class:`ConfigParser.ConfigParser` object and inserting values
    into a dictionary. Section names are prefixed using and underscore.
    Thus::

        [sample]
        name=12

    is entered as ``sample_name=12`` into the dictionary. The sections
    ``general`` and ``DEFAULT`` are treated specially in that both
    the prefixed and the unprefixed values are inserted: ::

       [general]
       genome=hg19

    will be added as ``general_genome=hg19`` and ``genome=hg19``.

    Numbers will be automatically recognized as such and converted into
    integers or floats.

    Returns
    -------
    config : dict
        A dictionary of configuration values

    """
    p = {}
    for section in config.sections():
        for key, value in config.items(section):
            try:
                v = IOTools.str2val(value)
            except TypeError:
                E.error("error converting key %s, value %s" % (key, value))
                E.error("Possible multiple concurrent attempts to "
                        "read configuration")
                raise

            p["%s_%s" % (section, key)] = v
            if section in ("general", "DEFAULT"):
                p["%s" % (key)] = v

    for key, value in config.defaults().items():
        p["%s" % (key)] = IOTools.str2val(value)

    return p
Esempio n. 3
0
 def conv(v):
     return IOTools.str2val(re.sub(",", "", v.strip()))
Esempio n. 4
0
def main(args=sys.argv):
    """command line control function for a pipeline.

    This method defines command line options for the pipeline and
    updates the global configuration dictionary correspondingly.

    It then provides a command parser to execute particular tasks
    using the ruffus pipeline control functions. See the generated
    command line help for usage.

    To use it, add::

        import CGAT.Pipeline as P

        if __name__ == "__main__":
            sys.exit(P.main(sys.argv))

    to your pipeline script.

    Arguments
    ---------
    args : list
        List of command line arguments.

    """

    global GLOBAL_OPTIONS
    global GLOBAL_ARGS

    parser = E.OptionParser(version="%prog version: $Id$",
                            usage=USAGE)

    parser.add_option("--pipeline-action", dest="pipeline_action",
                      type="choice",
                      choices=(
                          "make", "show", "plot", "dump", "config", "clone",
                          "check", "regenerate", "printconfig"),
                      help="action to take [default=%default].")

    parser.add_option("--pipeline-format", dest="pipeline_format",
                      type="choice",
                      choices=("dot", "jpg", "svg", "ps", "png"),
                      help="pipeline format [default=%default].")

    parser.add_option("-n", "--dry-run", dest="dry_run",
                      action="store_true",
                      help="perform a dry run (do not execute any shell "
                      "commands) [default=%default].")

    parser.add_option("-f", "--force-output", dest="force",
                      action="store_true",
                      help="force running the pipeline even if there "
                      "are uncommited changes "
                      "in the repository [default=%default].")

    parser.add_option("-p", "--multiprocess", dest="multiprocess", type="int",
                      help="number of parallel processes to use on "
                      "submit host "
                      "(different from number of jobs to use for "
                      "cluster jobs) "
                      "[default=%default].")

    parser.add_option("-e", "--exceptions", dest="log_exceptions",
                      action="store_true",
                      help="echo exceptions immediately as they occur "
                      "[default=%default].")

    parser.add_option("-i", "--terminate", dest="terminate",
                      action="store_true",
                      help="terminate immediately at the first exception "
                      "[default=%default].")

    parser.add_option("-d", "--debug", dest="debug",
                      action="store_true",
                      help="output debugging information on console, "
                      "and not the logfile "
                      "[default=%default].")

    parser.add_option("-s", "--set", dest="variables_to_set",
                      type="string", action="append",
                      help="explicitly set paramater values "
                      "[default=%default].")

    parser.add_option("-c", "--checksums", dest="ruffus_checksums_level",
                      type="int",
                      help="set the level of ruffus checksums"
                      "[default=%default].")

    parser.add_option("-t", "--is-test", dest="is_test",
                      action="store_true",
                      help="this is a test run"
                      "[default=%default].")

    parser.add_option("--rabbitmq-exchange", dest="rabbitmq_exchange",
                      type="string",
                      help="RabbitMQ exchange to send log messages to "
                      "[default=%default].")

    parser.add_option("--rabbitmq-host", dest="rabbitmq_host",
                      type="string",
                      help="RabbitMQ host to send log messages to "
                      "[default=%default].")

    parser.add_option("--input-validation", dest="input_validation",
                      action="store_true",
                      help="perform input validation before starting "
                      "[default=%default].")

    parser.set_defaults(
        pipeline_action=None,
        pipeline_format="svg",
        pipeline_targets=[],
        multiprocess=40,
        logfile="pipeline.log",
        dry_run=False,
        force=False,
        log_exceptions=False,
        exceptions_terminate_immediately=False,
        debug=False,
        variables_to_set=[],
        is_test=False,
        ruffus_checksums_level=0,
        rabbitmq_host="saruman",
        rabbitmq_exchange="ruffus_pipelines",
        input_validation=False)

    (options, args) = E.Start(parser,
                              add_cluster_options=True)

    GLOBAL_OPTIONS, GLOBAL_ARGS = options, args
    E.info("Started in: %s" % PARAMS.get("workingdir"))
    # At this point, the PARAMS dictionary has already been
    # built. It now needs to be updated with selected command
    # line options as these should always take precedence over
    # configuration files.

    PARAMS["dryrun"] = options.dry_run
    PARAMS["input_validation"] = options.input_validation

    # use cli_cluster_* keys in PARAMS to ensure highest priority
    # of cluster_* options passed with the command-line
    if options.cluster_memory_default is not None:
        PARAMS["cli_cluster_memory_default"] = options.cluster_memory_default
        PARAMS["cluster_memory_default"] = options.cluster_memory_default
    if options.cluster_memory_resource is not None:
        PARAMS["cli_cluster_memory_resource"] = options.cluster_memory_resource
        PARAMS["cluster_memory_resource"] = options.cluster_memory_resource
    if options.cluster_num_jobs is not None:
        PARAMS["cli_cluster_num_jobs"] = options.cluster_num_jobs
        PARAMS["cluster_num_jobs"] = options.cluster_num_jobs
    if options.cluster_options is not None:
        PARAMS["cli_cluster_options"] = options.cluster_options
        PARAMS["cluster_options"] = options.cluster_options
    if options.cluster_parallel_environment is not None:
        PARAMS["cli_cluster_parallel_environment"] = options.cluster_parallel_environment
        PARAMS["cluster_parallel_environment"] = options.cluster_parallel_environment
    if options.cluster_priority is not None:
        PARAMS["cli_cluster_priority"] = options.cluster_priority
        PARAMS["cluster_priority"] = options.cluster_priority
    if options.cluster_queue is not None:
        PARAMS["cli_cluster_queue"] = options.cluster_queue
        PARAMS["cluster_queue"] = options.cluster_queue
    if options.cluster_queue_manager is not None:
        PARAMS["cli_cluster_queue_manager"] = options.cluster_queue_manager
        PARAMS["cluster_queue_manager"] = options.cluster_queue_manager

    PARAMS["ruffus_checksums_level"] = options.ruffus_checksums_level

    for variables in options.variables_to_set:
        variable, value = variables.split("=")
        PARAMS[variable.strip()] = IOTools.str2val(value.strip())

    if args:
        options.pipeline_action = args[0]
        if len(args) > 1:
            options.pipeline_targets.extend(args[1:])

    # see inputValidation function in Parameters.py
    if options.input_validation:
        inputValidation(PARAMS, sys.argv[0])

    if options.pipeline_action == "check":
        counter, requirements = Requirements.checkRequirementsFromAllModules()
        for requirement in requirements:
            E.info("\t".join(map(str, requirement)))
        E.info("version check summary: %s" % str(counter))
        E.Stop()
        return

    elif options.pipeline_action == "debug":
        # create the session proxy
        startSession()

        method_name = options.pipeline_targets[0]
        caller = getCaller()
        method = getattr(caller, method_name)
        method(*options.pipeline_targets[1:])

    elif options.pipeline_action in ("make", "show", "svg", "plot",
                                     "touch", "regenerate"):

        # set up extra file logger
        handler = logging.FileHandler(filename=options.logfile,
                                      mode="a")
        handler.setFormatter(
            MultiLineFormatter(
                '%(asctime)s %(levelname)s %(module)s.%(funcName)s.%(lineno)d %(message)s'))
        logger = logging.getLogger()
        logger.addHandler(handler)
        messenger = None

        try:
            if options.pipeline_action == "make":

                # get tasks to be done. This essentially replicates
                # the state information within ruffus.
                stream = io.StringIO()
                pipeline_printout(
                    stream,
                    options.pipeline_targets,
                    verbose=5,
                    checksum_level=options.ruffus_checksums_level)

                messenger = LoggingFilterRabbitMQ(
                    stream.getvalue(),
                    project_name=getProjectName(),
                    pipeline_name=getPipelineName(),
                    host=options.rabbitmq_host,
                    exchange=options.rabbitmq_exchange)

                logger.addFilter(messenger)

                if not options.without_cluster and HAS_DRMAA:
                    global task
                    # use threading instead of multiprocessing in order to
                    # limit the number of concurrent jobs by using the
                    # GIL
                    #
                    # Note that threading might cause problems with rpy.
                    task.Pool = ThreadPool

                    # create the session proxy
                    startSession()

                elif not options.without_cluster and not HAS_DRMAA:
                    E.critical("DRMAA API not found so cannot talk to a cluster.")
                    E.critical("Please use --local to run the pipeline"
                               " on this host: {}".format(os.uname()[1]))
                    sys.exit(-1)

                #
                #   make sure we are not logging at the same time in
                #   different processes
                #
                # session_mutex = manager.Lock()
                E.info(E.GetHeader())
                E.info("code location: %s" % PARAMS["pipeline_scriptsdir"])
                E.info("Working directory is: %s" % PARAMS["workingdir"])

                pipeline_run(
                    options.pipeline_targets,
                    multiprocess=options.multiprocess,
                    logger=logger,
                    verbose=options.loglevel,
                    log_exceptions=options.log_exceptions,
                    exceptions_terminate_immediately=options.exceptions_terminate_immediately,
                    checksum_level=options.ruffus_checksums_level,
                )

                E.info(E.GetFooter())

                closeSession()

            elif options.pipeline_action == "show":
                pipeline_printout(
                    options.stdout,
                    options.pipeline_targets,
                    verbose=options.loglevel,
                    checksum_level=options.ruffus_checksums_level)

            elif options.pipeline_action == "touch":
                pipeline_run(
                    options.pipeline_targets,
                    touch_files_only=True,
                    verbose=options.loglevel,
                    checksum_level=options.ruffus_checksums_level)

            elif options.pipeline_action == "regenerate":
                pipeline_run(
                    options.pipeline_targets,
                    touch_files_only=options.ruffus_checksums_level,
                    verbose=options.loglevel)

            elif options.pipeline_action == "svg":
                pipeline_printout_graph(
                    options.stdout.buffer,
                    options.pipeline_format,
                    options.pipeline_targets,
                    checksum_level=options.ruffus_checksums_level)

            elif options.pipeline_action == "plot":
                outf, filename = tempfile.mkstemp()
                pipeline_printout_graph(
                    os.fdopen(outf, "wb"),
                    options.pipeline_format,
                    options.pipeline_targets,
                    checksum_level=options.ruffus_checksums_level)
                execute("inkscape %s" % filename)
                os.unlink(filename)

        except ruffus_exceptions.RethrownJobError as value:

            if not options.debug:
                E.error("%i tasks with errors, please see summary below:" %
                        len(value.args))
                for idx, e in enumerate(value.args):
                    task, job, error, msg, traceback = e

                    if task is None:
                        # this seems to be errors originating within ruffus
                        # such as a missing dependency
                        # msg then contains a RethrownJobJerror
                        msg = str(msg)
                        pass
                    else:
                        task = re.sub("__main__.", "", task)
                        job = re.sub("\s", "", job)

                    if messenger:
                        messenger.send_error(task, job, error, msg)

                    # display only single line messages
                    if len([x for x in msg.split("\n") if x != ""]) > 1:
                        msg = ""

                    E.error("%i: Task=%s Error=%s %s: %s" %
                            (idx, task, error, job, msg))

                E.error("full traceback is in %s" % options.logfile)

                # write full traceback to log file only by removing the stdout
                # handler
                lhStdout = logger.handlers[0]
                logger.removeHandler(lhStdout)
                logger.error("start of error messages")
                logger.error(value)
                logger.error("end of error messages")
                logger.addHandler(lhStdout)

                # raise error
                raise ValueError(
                    "pipeline failed with %i errors" % len(value.args))
            else:
                raise

    elif options.pipeline_action == "dump":
        print(json.dumps(PARAMS))

    elif options.pipeline_action == "printconfig":
        print("Printing out pipeline parameters: ")
        for k in sorted(PARAMS):
            print(k, "=", PARAMS[k])
        printConfigFiles()

    elif options.pipeline_action == "config":
        f = sys._getframe(1)
        caller = f.f_globals["__file__"]
        pipeline_path = os.path.splitext(caller)[0]
        general_path = os.path.join(os.path.dirname(pipeline_path),
                                    "configuration")
        writeConfigFiles(pipeline_path, general_path)

    elif options.pipeline_action == "clone":
        clonePipeline(options.pipeline_targets[0])

    else:
        raise ValueError("unknown pipeline action %s" %
                         options.pipeline_action)

    E.Stop()
Esempio n. 5
0
 def conv(v):
     return IOTools.str2val(re.sub(",", "", v.strip()))
Esempio n. 6
0
def main(args=sys.argv):
    """command line control function for a pipeline.

    This method defines command line options for the pipeline and
    updates the global configuration dictionary correspondingly.

    It then provides a command parser to execute particular tasks
    using the ruffus pipeline control functions. See the generated
    command line help for usage.

    To use it, add::

        import CGAT.Pipeline as P

        if __name__ == "__main__":
            sys.exit(P.main(sys.argv))

    to your pipeline script.

    Arguments
    ---------
    args : list
        List of command line arguments.

    """

    global GLOBAL_OPTIONS
    global GLOBAL_ARGS

    parser = E.OptionParser(version="%prog version: $Id$", usage=USAGE)

    parser.add_option("--pipeline-action",
                      dest="pipeline_action",
                      type="choice",
                      choices=("make", "show", "plot", "dump", "config",
                               "clone", "check", "regenerate", "printconfig"),
                      help="action to take [default=%default].")

    parser.add_option("--pipeline-format",
                      dest="pipeline_format",
                      type="choice",
                      choices=("dot", "jpg", "svg", "ps", "png"),
                      help="pipeline format [default=%default].")

    parser.add_option("-n",
                      "--dry-run",
                      dest="dry_run",
                      action="store_true",
                      help="perform a dry run (do not execute any shell "
                      "commands) [default=%default].")

    parser.add_option("-f",
                      "--force-output",
                      dest="force",
                      action="store_true",
                      help="force running the pipeline even if there "
                      "are uncommited changes "
                      "in the repository [default=%default].")

    parser.add_option("-p",
                      "--multiprocess",
                      dest="multiprocess",
                      type="int",
                      help="number of parallel processes to use on "
                      "submit host "
                      "(different from number of jobs to use for "
                      "cluster jobs) "
                      "[default=%default].")

    parser.add_option("-e",
                      "--exceptions",
                      dest="log_exceptions",
                      action="store_true",
                      help="echo exceptions immediately as they occur "
                      "[default=%default].")

    parser.add_option("-i",
                      "--terminate",
                      dest="terminate",
                      action="store_true",
                      help="terminate immediately at the first exception "
                      "[default=%default].")

    parser.add_option("-d",
                      "--debug",
                      dest="debug",
                      action="store_true",
                      help="output debugging information on console, "
                      "and not the logfile "
                      "[default=%default].")

    parser.add_option("-s",
                      "--set",
                      dest="variables_to_set",
                      type="string",
                      action="append",
                      help="explicitly set paramater values "
                      "[default=%default].")

    parser.add_option("-c",
                      "--checksums",
                      dest="ruffus_checksums_level",
                      type="int",
                      help="set the level of ruffus checksums"
                      "[default=%default].")

    parser.add_option("-t",
                      "--is-test",
                      dest="is_test",
                      action="store_true",
                      help="this is a test run"
                      "[default=%default].")

    parser.add_option("--rabbitmq-exchange",
                      dest="rabbitmq_exchange",
                      type="string",
                      help="RabbitMQ exchange to send log messages to "
                      "[default=%default].")

    parser.add_option("--rabbitmq-host",
                      dest="rabbitmq_host",
                      type="string",
                      help="RabbitMQ host to send log messages to "
                      "[default=%default].")

    parser.add_option("--input-validation",
                      dest="input_validation",
                      action="store_true",
                      help="perform input validation before starting "
                      "[default=%default].")

    parser.set_defaults(pipeline_action=None,
                        pipeline_format="svg",
                        pipeline_targets=[],
                        multiprocess=40,
                        logfile="pipeline.log",
                        dry_run=False,
                        force=False,
                        log_exceptions=False,
                        exceptions_terminate_immediately=False,
                        debug=False,
                        variables_to_set=[],
                        is_test=False,
                        ruffus_checksums_level=0,
                        rabbitmq_host="saruman",
                        rabbitmq_exchange="ruffus_pipelines",
                        input_validation=False)

    (options, args) = E.Start(parser, add_cluster_options=True)

    GLOBAL_OPTIONS, GLOBAL_ARGS = options, args
    E.info("Started in: %s" % PARAMS.get("workingdir"))
    # At this point, the PARAMS dictionary has already been
    # built. It now needs to be updated with selected command
    # line options as these should always take precedence over
    # configuration files.

    PARAMS["dryrun"] = options.dry_run
    PARAMS["input_validation"] = options.input_validation

    # use cli_cluster_* keys in PARAMS to ensure highest priority
    # of cluster_* options passed with the command-line
    if options.cluster_memory_default is not None:
        PARAMS["cli_cluster_memory_default"] = options.cluster_memory_default
        PARAMS["cluster_memory_default"] = options.cluster_memory_default
    if options.cluster_memory_resource is not None:
        PARAMS["cli_cluster_memory_resource"] = options.cluster_memory_resource
        PARAMS["cluster_memory_resource"] = options.cluster_memory_resource
    if options.cluster_num_jobs is not None:
        PARAMS["cli_cluster_num_jobs"] = options.cluster_num_jobs
        PARAMS["cluster_num_jobs"] = options.cluster_num_jobs
    if options.cluster_options is not None:
        PARAMS["cli_cluster_options"] = options.cluster_options
        PARAMS["cluster_options"] = options.cluster_options
    if options.cluster_parallel_environment is not None:
        PARAMS[
            "cli_cluster_parallel_environment"] = options.cluster_parallel_environment
        PARAMS[
            "cluster_parallel_environment"] = options.cluster_parallel_environment
    if options.cluster_priority is not None:
        PARAMS["cli_cluster_priority"] = options.cluster_priority
        PARAMS["cluster_priority"] = options.cluster_priority
    if options.cluster_queue is not None:
        PARAMS["cli_cluster_queue"] = options.cluster_queue
        PARAMS["cluster_queue"] = options.cluster_queue
    if options.cluster_queue_manager is not None:
        PARAMS["cli_cluster_queue_manager"] = options.cluster_queue_manager
        PARAMS["cluster_queue_manager"] = options.cluster_queue_manager

    PARAMS["ruffus_checksums_level"] = options.ruffus_checksums_level

    for variables in options.variables_to_set:
        variable, value = variables.split("=")
        PARAMS[variable.strip()] = IOTools.str2val(value.strip())

    if args:
        options.pipeline_action = args[0]
        if len(args) > 1:
            options.pipeline_targets.extend(args[1:])

    # see inputValidation function in Parameters.py
    if options.input_validation:
        inputValidation(PARAMS, sys.argv[0])

    if options.pipeline_action == "check":
        counter, requirements = Requirements.checkRequirementsFromAllModules()
        for requirement in requirements:
            E.info("\t".join(map(str, requirement)))
        E.info("version check summary: %s" % str(counter))
        E.Stop()
        return

    elif options.pipeline_action == "debug":
        # create the session proxy
        startSession()

        method_name = options.pipeline_targets[0]
        caller = getCaller()
        method = getattr(caller, method_name)
        method(*options.pipeline_targets[1:])

    elif options.pipeline_action in ("make", "show", "svg", "plot", "touch",
                                     "regenerate"):

        # set up extra file logger
        handler = logging.FileHandler(filename=options.logfile, mode="a")
        handler.setFormatter(
            MultiLineFormatter(
                '%(asctime)s %(levelname)s %(module)s.%(funcName)s.%(lineno)d %(message)s'
            ))
        logger = logging.getLogger()
        logger.addHandler(handler)
        messenger = None

        try:
            if options.pipeline_action == "make":

                # get tasks to be done. This essentially replicates
                # the state information within ruffus.
                stream = io.StringIO()
                pipeline_printout(
                    stream,
                    options.pipeline_targets,
                    verbose=5,
                    checksum_level=options.ruffus_checksums_level)

                messenger = LoggingFilterRabbitMQ(
                    stream.getvalue(),
                    project_name=getProjectName(),
                    pipeline_name=getPipelineName(),
                    host=options.rabbitmq_host,
                    exchange=options.rabbitmq_exchange)

                logger.addFilter(messenger)

                if not options.without_cluster and HAS_DRMAA:
                    global task
                    # use threading instead of multiprocessing in order to
                    # limit the number of concurrent jobs by using the
                    # GIL
                    #
                    # Note that threading might cause problems with rpy.
                    task.Pool = ThreadPool

                    # create the session proxy
                    startSession()

                elif not options.without_cluster and not HAS_DRMAA:
                    E.critical(
                        "DRMAA API not found so cannot talk to a cluster.")
                    E.critical("Please use --local to run the pipeline"
                               " on this host: {}".format(os.uname()[1]))
                    sys.exit(-1)

                #
                #   make sure we are not logging at the same time in
                #   different processes
                #
                # session_mutex = manager.Lock()
                E.info(E.GetHeader())
                E.info("code location: %s" % PARAMS["pipeline_scriptsdir"])
                E.info("Working directory is: %s" % PARAMS["workingdir"])

                pipeline_run(
                    options.pipeline_targets,
                    multiprocess=options.multiprocess,
                    logger=logger,
                    verbose=options.loglevel,
                    log_exceptions=options.log_exceptions,
                    exceptions_terminate_immediately=options.
                    exceptions_terminate_immediately,
                    checksum_level=options.ruffus_checksums_level,
                )

                E.info(E.GetFooter())

                closeSession()

            elif options.pipeline_action == "show":
                pipeline_printout(
                    options.stdout,
                    options.pipeline_targets,
                    verbose=options.loglevel,
                    checksum_level=options.ruffus_checksums_level)

            elif options.pipeline_action == "touch":
                pipeline_run(options.pipeline_targets,
                             touch_files_only=True,
                             verbose=options.loglevel,
                             checksum_level=options.ruffus_checksums_level)

            elif options.pipeline_action == "regenerate":
                pipeline_run(options.pipeline_targets,
                             touch_files_only=options.ruffus_checksums_level,
                             verbose=options.loglevel)

            elif options.pipeline_action == "svg":
                pipeline_printout_graph(
                    options.stdout.buffer,
                    options.pipeline_format,
                    options.pipeline_targets,
                    checksum_level=options.ruffus_checksums_level)

            elif options.pipeline_action == "plot":
                outf, filename = tempfile.mkstemp()
                pipeline_printout_graph(
                    os.fdopen(outf, "wb"),
                    options.pipeline_format,
                    options.pipeline_targets,
                    checksum_level=options.ruffus_checksums_level)
                execute("inkscape %s" % filename)
                os.unlink(filename)

        except ruffus_exceptions.RethrownJobError as value:

            if not options.debug:
                E.error("%i tasks with errors, please see summary below:" %
                        len(value.args))
                for idx, e in enumerate(value.args):
                    task, job, error, msg, traceback = e

                    if task is None:
                        # this seems to be errors originating within ruffus
                        # such as a missing dependency
                        # msg then contains a RethrownJobJerror
                        msg = str(msg)
                        pass
                    else:
                        task = re.sub("__main__.", "", task)
                        job = re.sub("\s", "", job)

                    if messenger:
                        messenger.send_error(task, job, error, msg)

                    # display only single line messages
                    if len([x for x in msg.split("\n") if x != ""]) > 1:
                        msg = ""

                    E.error("%i: Task=%s Error=%s %s: %s" %
                            (idx, task, error, job, msg))

                E.error("full traceback is in %s" % options.logfile)

                # write full traceback to log file only by removing the stdout
                # handler
                lhStdout = logger.handlers[0]
                logger.removeHandler(lhStdout)
                logger.error("start of error messages")
                logger.error(value)
                logger.error("end of error messages")
                logger.addHandler(lhStdout)

                # raise error
                raise ValueError("pipeline failed with %i errors" %
                                 len(value.args))
            else:
                raise

    elif options.pipeline_action == "dump":
        print(json.dumps(PARAMS))

    elif options.pipeline_action == "printconfig":
        print("Printing out pipeline parameters: ")
        for k in sorted(PARAMS):
            print(k, "=", PARAMS[k])
        printConfigFiles()

    elif options.pipeline_action == "config":
        f = sys._getframe(1)
        caller = f.f_globals["__file__"]
        pipeline_path = os.path.splitext(caller)[0]
        general_path = os.path.join(os.path.dirname(pipeline_path),
                                    "configuration")
        writeConfigFiles(pipeline_path, general_path)

    elif options.pipeline_action == "clone":
        clonePipeline(options.pipeline_targets[0])

    else:
        raise ValueError("unknown pipeline action %s" %
                         options.pipeline_action)

    E.Stop()