コード例 #1
0
    def on_created(self, event):

        logging.info(
            f'event type: {event.event_type}  path : {event.src_path}')
        try:

            copyfile(
                event.src_path,
                config.get('Directory', 'temp') +
                os.path.basename(event.src_path))
            connection = utils.get_oracle_connection_obj()
            update_file_details(
                True, connection, config.get('Database', 'tablespace'),
                config.get('Database', 'file_details_tablename'),
                os.path.basename(event.src_path))
        except Exception as ex:
            error.Errors(ex).errorrun()
            err, = ex.args
            copyfile(
                event.src_path,
                config.get('Directory', 'error') +
                os.path.basename(event.src_path))
            update_file_details(
                False, connection, config.get('Database', 'tablespace'),
                config.get('Database', 'file_details_tablename'),
                os.path.basename(event.src_path), f"{err.code}:{err.message}")
コード例 #2
0
    def on_created(self, event):

        logging.info(
            f'event type: {event.event_type}  path : {event.src_path}')
        try:
            copyfile(
                event.src_path,
                config.get('Directory', 'outbound') +
                os.path.basename(event.src_path))
        except Exception as ex:
            error.Errors(ex).errorrun()
            copyfile(
                event.src_path,
                config.get('Directory', 'error') +
                os.path.basename(event.src_path))
コード例 #3
0
def extract_source_data(extraction_id, enc):
    """
    Extacts source and source database connection details from
    extraction_details and connection_detalis tables respectively
    and extracts source data and store it in provided delimited file.
    :param extraction_id: source extraction_id
    :param enc : AESCipher object
    """
    try:
        logging.getLogger().setLevel(logging.INFO)
        connection = utils.get_oracle_connection_obj()

        config = utils.get_config_parser()
        extraction_query = get_select_query(
            config.get('Database', 'extraction_columnlist'),
            config.get('Database', 'tablespace'),
            config.get('Database', 'extraction_tablename'),
            "EXTRACTION_ID=" + extraction_id.__str__())

        logging.info("Extraction_details query = " + extraction_query)

        extraction_details_df = pd.read_sql(extraction_query, con=connection)

        # Get connection details for given connection_id corresponding to extraction id
        connection_id = extraction_details_df.iloc[0]['CONNECTION_ID']
        connection_query = get_select_query(
            config.get('Database', 'connection_columnlist'),
            config.get('Database', 'tablespace'),
            config.get('Database', 'connection_tablename'),
            "CONNECTION_ID=" + connection_id.__str__())

        logging.info("Connection_details query = " + connection_query)
        connection_details_df = pd.read_sql(connection_query, con=connection)

        # create connection object for extraction table db

        password_file = connection_details_df.iloc[0]['PASSWORD_FILE']
        password = enc.decrypt_file(password_file)
        connection_src_extraction = utils.get_oracle_connection_obj(
            connection_details_df.iloc[0]['USERNAME'], password,
            connection_details_df.iloc[0]['CONNECTION_STRING'])

        # Get current incremental column's max value from source data
        max_value = get_max(connection_src_extraction, extraction_details_df)

        source_extraction_query = get_select_query(
            extraction_details_df.iloc[0]['COLUMN_LIST'],
            extraction_details_df.iloc[0]['DATABASE_NAME'],
            extraction_details_df.iloc[0]['TABLE_NAME'],
            extraction_details_df.iloc[0]['INCREMENTAL_COLUMN'] + " > " +
            extraction_details_df.iloc[0]['INCREMENTAL_VALUE'].__str__() +
            " AND " + extraction_details_df.iloc[0]['INCREMENTAL_COLUMN'] +
            " <= " + max_value.__str__())

        logging.info("Source extraction query = " + source_extraction_query)
        source_extraction_df = pd.read_sql(source_extraction_query,
                                           con=connection_src_extraction)

        logging.info("copying " + extraction_details_df.iloc[0]['FILENAME'] +
                     " file to " + config.get('Directory', 'inbound') +
                     " path")

        source_extraction_df.to_csv(
            config.get('Directory', 'inbound') +
            extraction_details_df.iloc[0]['FILENAME'],
            index=False,
            sep=extraction_details_df.iloc[0]['FILE_DELIMITER'])

        logging.info("Updating File_details oracle table")
        today = date.today().strftime("%Y-%m-%d")
        insert_file_details(
            connection, config.get('Database', 'tablespace'),
            config.get('Database', 'file_details_tablename'),
            f"0,'{connection_details_df.iloc[0]['SYSTEM']}', "
            f"'{extraction_details_df.iloc[0]['DATABASE_NAME']}', "
            f"'{extraction_details_df.iloc[0]['TABLE_NAME']}', "
            f"'{extraction_details_df.iloc[0]['FILENAME']}', "
            f"TO_DATE('{datetime.now().strftime('%Y%m%d%H%M%S')}','yyyymmddhh24miss'),"
            f"{source_extraction_df.shape[0]}, 'False', 'False', 'None', date'{today}',"
            f" '{getpass.getuser()}',"
            f" date'{today}', '{getpass.getuser()}'")

        logging.info("Successfully extracted data for " +
                     extraction_details_df.iloc[0]['TABLE_NAME'] + " table.")

        logging.info(
            "Updating incremental column's value in extraction_details")

        # #####Uncomment below code to update incremental_value column in excraction_details table  #######
        # update_extraction_details(connection, config.get('Database', 'tablespace'),
        #                  config.get('Database', 'extraction_tablename'),
        #                  extraction_id, max_value)

        logging.info(
            "####################### JOB COMPLETED SUCCESSFULLY ######################"
        )

    except Exception as ex:
        # err, = ex.args
        error.Errors(ex).errorrun()
        # logging.error("Error code    = ", err.code)
        # logging.error("Error Message = ", err.message)
        connection.close()
        connection_src_extraction.close()
        os._exit(1)
    connection.close()
    connection_src_extraction.close()
    return 0
コード例 #4
0
    def with_approximation(self):
        self.figure.clear()
        self.without_approximation()
        self.ax4.set_title("Total approximation errors",
                           fontweight="bold",
                           size=13)
        self.ax4.grid(True)
        # x_locator = mplt.ticker.MultipleLocator(base=1)
        # self.ax4.xaxis.set_major_locator(x_locator)

        euler_max_errors = []
        improved_euler_max_errors = []
        runge_kutta_max_errors = []
        nums = [k for k in range(self.N0, self.NF + 1)]
        for k in range(self.N0, self.NF + 1):
            num_methods = numericals.Numerical_methods(self.x0, self.y0,
                                                       self.X, k)
            x, y_graph = graph.Graph(self.x0, self.y0, self.X, k).solve()
            local_errors = errors.Errors(k)

            x, y_euler = num_methods.euler()
            y_local_euler = local_errors.local_error(y_graph, y_euler)
            euler_max_errors.append(max(y_local_euler))

            x, y_improved_euler = num_methods.improved_euler()
            y_local_improved_euler = local_errors.local_error(
                y_graph, y_improved_euler)
            improved_euler_max_errors.append(max(y_local_improved_euler))

            x, y_runge_kutta = num_methods.runge_kutta()
            y_local_runge_kutta = local_errors.local_error(
                y_graph, y_runge_kutta)
            runge_kutta_max_errors.append(max(y_local_runge_kutta))
        self.ax4.plot(nums,
                      euler_max_errors,
                      "red",
                      label='total approximation euler error')
        self.ax4.plot(nums,
                      improved_euler_max_errors,
                      "blue",
                      label='total approximation improved euler error')
        self.ax4.plot(nums,
                      runge_kutta_max_errors,
                      "green",
                      label='total approximation runge-kutta error')

        if (self.mradio1.isChecked()):
            self.ax4.plot(nums, euler_max_errors, 'ro', markersize=4)
            self.ax4.plot(nums, improved_euler_max_errors, 'bo', markersize=4)
            self.ax4.plot(nums, runge_kutta_max_errors, 'go', markersize=4)
            for i, j in zip(nums, euler_max_errors):
                self.ax4.annotate(str(i) + ";" + str(round(j, 3)),
                                  xy=(i, j),
                                  color='red')
            for i, j in zip(nums, improved_euler_max_errors):
                self.ax4.annotate(str(i) + ";" + str(round(j, 3)),
                                  xy=(i, j),
                                  color='blue')
            for i, j in zip(nums, runge_kutta_max_errors):
                self.ax4.annotate(str(i) + ";" + str(round(j, 3)),
                                  xy=(i, j),
                                  color='green')
        self.ax4.set_ylabel("Error value")
        self.ax4.set_xlabel("Number of points on each step")
        self.ax4.legend(loc='best')
        self.figure.tight_layout()
        self.canvas.draw()
コード例 #5
0
    def without_approximation(self):
        self.figure.clear()
        num_methods = numericals.Numerical_methods(self.x0, self.y0, self.X,
                                                   self.NUMBERS)
        graphic = graph.Graph(self.x0, self.y0, self.X, self.NUMBERS)
        if self.radio2.isChecked():
            self.ax1 = self.figure.add_subplot(311)
            self.ax2 = self.figure.add_subplot(312)
            self.ax3 = self.figure.add_subplot(313)
        else:
            self.ax1 = self.figure.add_subplot(411)
            self.ax2 = self.figure.add_subplot(412)
            self.ax3 = self.figure.add_subplot(413)
            self.ax4 = self.figure.add_subplot(414)
        self.ax1.set_title("Numerical methods", fontweight="bold", size=13)
        self.ax2.set_title("Exact solution", fontweight="bold", size=13)
        self.ax3.set_title("Local errors", fontweight="bold", size=13)

        self.ax1.grid(True)
        self.ax2.grid(True)
        self.ax3.grid(True)

        # x_locator = mplt.ticker.MultipleLocator(base=self.X_STEP)
        # y_locator = mplt.ticker.MultipleLocator(base=self.Y_STEP)

        x, y_graph = graphic.solve()

        self.ax2.plot(x, y_graph, "purple", label="y'=sin(x)+y")
        self.ax2.legend(loc='upper left')
        # self.ax2.xaxis.set_major_locator(x_locator)
        # self.ax2.yaxis.set_major_locator(y_locator)

        x, y_euler = num_methods.euler()
        self.ax1.plot(x, y_euler, "red", label="Euler")
        self.ax1.legend(loc='upper left')

        x, y_improved_euler = num_methods.improved_euler()
        self.ax1.plot(x, y_improved_euler, "blue", label="Improved Euler")
        self.ax1.legend(loc='upper left')

        x, y_runge_kutta = num_methods.runge_kutta()
        self.ax1.plot(x, y_runge_kutta, "green", label="Runge Kutta")
        self.ax1.legend(loc='upper left')

        # self.ax1.xaxis.set_major_locator(x_locator)
        # self.ax1.yaxis.set_major_locator(y_locator)
        local_errors = errors.Errors(self.NUMBERS)

        y_local_euler = local_errors.local_error(y_graph, y_euler)
        self.ax3.plot(x, y_local_euler, "red", label="local euler error")
        self.ax3.legend(loc="upper left")

        y_local_improved = local_errors.local_error(y_graph, y_improved_euler)
        self.ax3.plot(x,
                      y_local_improved,
                      "blue",
                      label="local improved euler error")
        self.ax3.legend(loc="upper left")

        y_local_runge_kutta = local_errors.local_error(y_graph, y_runge_kutta)
        self.ax3.plot(x,
                      y_local_runge_kutta,
                      "green",
                      label="local runge-kutta error")
        self.ax3.legend(loc="upper left")
        """needed the second one because common locator for
        3 graphs takes minimum y grid (what is too small
        because of graph of approximation)
        """
        # y_error_locator = mplt.ticker.MultipleLocator(base=self.Y_STEP)
        # self.ax3.xaxis.set_major_locator(x_locator)
        # self.ax3.yaxis.set_major_locator(y_error_locator)

        hand, label = self.ax3.get_legend_handles_labels()
        handout = []
        lblout = []
        for h, l in zip(hand, label):
            if l not in lblout:
                lblout.append(l)
                handout.append(h)
        self.ax3.legend(handout, lblout, loc='best')

        self.figure.tight_layout()
        self.canvas.draw()