Пример #1
0
    def configure_and_run(self):
        """
        Configures and runs the application. It will set the exit status of the object in accordance with if any
        fatal qc errors were found or not.

        :returns: The reports of the application as a dict
        """
        try:
            config = ConfigFactory.from_config_path(self._config_file)
            parser_configurations = config.get("parser_configurations", None)
            run_type_recognizer = RunTypeRecognizer(config=config,
                                                    runfolder=self._runfolder)
            instrument_and_reagent_version = run_type_recognizer.instrument_and_reagent_version(
            )

            # TODO For now assume symmetric read lengths
            both_read_lengths = run_type_recognizer.read_length()
            read_length = int(both_read_lengths.split("-")[0])
            handler_config = config.get_handler_configs(
                instrument_and_reagent_version, read_length)

            run_type_summary = RunTypeSummarizer.summarize(
                instrument_and_reagent_version, both_read_lengths,
                handler_config)

            qc_engine = QCEngine(runfolder=self._runfolder,
                                 parser_configurations=parser_configurations,
                                 handler_config=handler_config)
            reports = qc_engine.run()
            reports["run_summary"] = run_type_summary
            self.exit_status = qc_engine.exit_status
            return reports
        except CheckQCException as e:
            log.error(e)
            self.exit_status = 1
Пример #2
0
    def configure_and_run(self):
        """
        Configures and runs the application. It will set the exit status of the object in accordance with if any
        fatal qc errors were found or not.

        :returns: The reports of the application as a dict
        """
        config = ConfigFactory.from_config_path(self._config_file)
        parser_configurations = config.get("parser_configurations", None)

        if not Path(self._runfolder).is_dir():
            raise RunfolderNotFoundError(
                "Could not find runfolder: {}. Are you "
                "sure the path is correct?".format(self._runfolder))

        run_type_recognizer = RunTypeRecognizer(runfolder=self._runfolder)
        instrument_and_reagent_version = run_type_recognizer.instrument_and_reagent_version(
        )

        # TODO For now assume symmetric read lengths
        both_read_lengths = run_type_recognizer.read_length()
        read_length = int(both_read_lengths.split("-")[0])
        handler_config = config.get_handler_configs(
            instrument_and_reagent_version, read_length)

        run_type_summary = RunTypeSummarizer.summarize(
            instrument_and_reagent_version, both_read_lengths, handler_config)

        qc_engine = QCEngine(runfolder=self._runfolder,
                             parser_configurations=parser_configurations,
                             handler_config=handler_config)
        reports = qc_engine.run()
        reports["run_summary"] = run_type_summary
        self.exit_status = qc_engine.exit_status
        return reports
class TestRunTypeRecognizerFromFolder(TestCase):

    def setUp(self):
        self.runtype_recognizer = RunTypeRecognizer(runfolder=os.path.join(os.path.dirname(__file__),
                                                                           "resources", "Rapid"))

    def test_instrument_type(self):
        expected = "hiseq2500"
        actual = self.runtype_recognizer.instrument_type()
        self.assertEqual(expected, actual.name())

    def test_read_length(self):
        expected = "51"
        actual = self.runtype_recognizer.read_length()
        self.assertEqual(expected, actual)

    def test_run_mode(self):
        expected = "hiseq2500_rapidrun_v2"
        actual = self.runtype_recognizer.instrument_and_reagent_version()
        self.assertEqual(expected, actual)
Пример #4
0
    return checkqc_config_dict


if __name__ == "__main__":
    parser = argparse.ArgumentParser(
        description="Converts CheckQC tresholds to MultiQC conditional format")
    parser.add_argument("--runfolder",
                        type=str,
                        required=True,
                        help="Path to runfolder")
    parser.add_argument("--config", type=str, help="Path to checkQC config")

    args = parser.parse_args()
    runfolder = args.runfolder
    config = args.config

    run_type_recognizer = RunTypeRecognizer(runfolder)
    config = ConfigFactory.from_config_path(config)

    instrument_and_reagent_version = (
        run_type_recognizer.instrument_and_reagent_version())
    both_read_lengths = run_type_recognizer.read_length()
    read_length = int(both_read_lengths.split("-")[0])
    checkqc_config = config.get_handler_configs(instrument_and_reagent_version,
                                                read_length)
    checkqc_config_dict = convert_to_dict(checkqc_config)
    multiqc_config = convert_to_multiqc_config(checkqc_config_dict)

    with open("qc_thresholds.yaml", "w") as outfile:
        yaml.dump(multiqc_config, outfile)
 def _create_runtype_recognizer(self, instrument_name):
     with mock.patch.object(RunfolderReader, 'read_run_info_xml',
                            return_value={"RunInfo": {"Run": {"Instrument": instrument_name}}}), \
          mock.patch.object(RunfolderReader, 'read_run_parameters_xml', return_value=None):
         return RunTypeRecognizer(runfolder='foo')
 def setUp(self):
     self.runtype_recognizer = RunTypeRecognizer(runfolder=os.path.join(os.path.dirname(__file__),
                                                                        "resources", "Rapid"))