Exemplo n.º 1
0
def second_empty_temp_db(tmp_path):
    global n_experiments
    n_experiments = 0
    try:
        nt.new_database("temp2.db", tmp_path)
        yield
    finally:
        gc.collect()
Exemplo n.º 2
0
def empty_db_different_folder(tmp_path):
    global n_experiments
    n_experiments = 0
    try:
        path = os.path.join(str(tmp_path), "test")
        os.mkdir(path)
        nt.new_database("temp2.db", path)
        yield
    finally:
        gc.collect()
def test_database_creation_and_init(tmp_path):

    db_folder = os.path.join(tmp_path, "temp.db")
    assert not os.path.exists(db_folder)

    nt.new_database("temp.db", str(tmp_path))
    assert os.path.exists(db_folder)

    # Make sure label columnbs are created. Following lines should not
    # raise an exception
    ids = get_dataIDs("temp.db", "pinchoff", db_folder=tmp_path)
    assert ids == []
    ids = get_dataIDs("temp.db", "good", db_folder=tmp_path)
    assert ids == []
Exemplo n.º 4
0
    def save_segmented_data_return_info(
        self,
        segment_db_name: str,
        segment_db_folder: Optional[str] = None,
    ) -> Dict[int, Dict[str, Dict[str, Tuple[float, float]]]]:
        """
        Save each mesh in a new dataset in given databases

        returns:
        segment_info = {
            data_id: {
                readout_method: {'range_x': (),
                                 'range_y': ()
                        }
                    }
        }
        """
        if segment_db_folder is None:
            segment_db_folder = nt.config["db_folder"]

        if not self.segmented_data:
            self.prepare_segmented_data(use_raw_data=True)
        if not os.path.isfile(os.path.join(segment_db_folder, segment_db_name)):
            ds = load_by_id(self.qc_run_id)
            nt.new_database(segment_db_name, db_folder=segment_db_folder)
            qc.new_experiment(f'segmented_{ds.exp_name}',
                              sample_name=ds.sample_name)


        original_params = self.qc_parameters
        segment_info: Dict[int, Dict[str, Dict[str, Tuple[float, float]]]] = {}

        with nt.switch_database(segment_db_name, segment_db_folder):
            for segment in self.segmented_data:
                meas = Measurement()
                meas.register_custom_parameter(
                    original_params[0].name,
                    label=original_params[0].label,
                    unit=original_params[0].unit,
                    paramtype="array",
                )

                meas.register_custom_parameter(
                    original_params[1].name,
                    label=original_params[1].label,
                    unit=original_params[1].unit,
                    paramtype="array",
                )
                result: List[List[Tuple[str, np.ndarray]]] = []
                ranges: Dict[str, Dict[str, Tuple[float, float]]] = {}
                m_params = [str(it) for it in list(segment.data_vars)]
                for ip, param_name in enumerate(m_params):
                    coord_names = list(segment.coords)
                    x_crd_name = coord_names[0]
                    y_crd_name = coord_names[1]

                    voltage_x = segment[param_name][x_crd_name].values
                    voltage_y = segment[param_name][y_crd_name].values
                    signal = segment[param_name].values

                    range_x = (np.min(voltage_x), np.max(voltage_x))
                    range_y = (np.min(voltage_y), np.max(voltage_y))
                    ranges[param_name] = {}
                    ranges[param_name]["range_x"] = range_x
                    ranges[param_name]["range_y"] = range_y

                    setpoints = self.raw_data[param_name].depends_on
                    meas.register_custom_parameter(
                        original_params[ip+2].name,
                        label=original_params[ip+2].label,
                        unit=original_params[1].unit,
                        paramtype="array",
                        setpoints=setpoints,
                    )
                    v_x_grid, v_y_grid = np.meshgrid(voltage_x, voltage_y)

                    result.append([(setpoints[0], v_x_grid),
                                    (setpoints[1], v_y_grid),
                                    (param_name, signal.T)])

                with meas.run() as datasaver:
                    for r_i in range(len(self.readout_methods)):
                        datasaver.add_result(*result[r_i])

                    datasaver.dataset.add_metadata(
                        "snapshot", json.dumps(self.snapshot)
                        )
                    datasaver.dataset.add_metadata(
                        nt.meta_tag, json.dumps(self.nt_metadata)
                    )
                    datasaver.dataset.add_metadata(
                        "original_guid", json.dumps(self.guid)
                        )
                    logger.debug(
                        "New dataset created and populated.\n"
                        + "database: "
                        + str(segment_db_name)
                        + "ID: "
                        + str(datasaver.run_id)
                    )
                    segment_info[datasaver.run_id] = ranges

        return segment_info