myems / myems-api

from decimal import *

class Reporting:

    @staticmethod

    def __init__():

        pass

    @staticmethod

    def on_options(req, resp):

        resp.status = falcon.HTTP_200

    ####################################################################################################################

    # PROCEDURES

    # Step 1: valid parameters

    # Step 2: query the shopfloor

    # Step 3: query energy items

    # Step 4: query associated sensors

    # Step 5: query associated points

    # Step 6: query base period energy input

    # Step 7: query reporting period energy input

    # Step 8: query tariff data

    # Step 9: query associated sensors and points data

    # Step 10: construct the report

    ####################################################################################################################

    @staticmethod

    def on_get(req, resp):

        print(req.params)

        shopfloor_id = req.params.get('shopfloorid')

        period_type = req.params.get('periodtype')

        base_start_datetime_local = req.params.get('baseperiodstartdatetime')

        base_end_datetime_local = req.params.get('baseperiodenddatetime')

        reporting_start_datetime_local = req.params.get('reportingperiodstartdatetime')

        reporting_end_datetime_local = req.params.get('reportingperiodenddatetime')

        ################################################################################################################

        # Step 1: valid parameters

        ################################################################################################################

        if shopfloor_id is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_SHOPFLOOR_ID')

        else:

            shopfloor_id = str.strip(shopfloor_id)

            if not shopfloor_id.isdigit() or int(shopfloor_id) <= 0:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_SHOPFLOOR_ID')

        if period_type is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_PERIOD_TYPE')

        else:

            period_type = str.strip(period_type)

            if period_type not in ['hourly', 'daily', 'monthly', 'yearly']:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_PERIOD_TYPE')

        timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])

        if config.utc_offset[0] == '-':

            timezone_offset = -timezone_offset

        base_start_datetime_utc = None

        if base_start_datetime_local is not None and len(str.strip(base_start_datetime_local)) > 0:

            base_start_datetime_local = str.strip(base_start_datetime_local)

            try:

                base_start_datetime_utc = datetime.strptime(base_start_datetime_local,

                                                            '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_BASE_PERIOD_BEGINS_DATETIME")

        base_end_datetime_utc = None

        if base_end_datetime_local is not None and len(str.strip(base_end_datetime_local)) > 0:

            base_end_datetime_local = str.strip(base_end_datetime_local)

            try:

                base_end_datetime_utc = datetime.strptime(base_end_datetime_local,

                                                          '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_BASE_PERIOD_ENDS_DATETIME")

        if base_start_datetime_utc is not None and base_end_datetime_utc is not None and \

                base_start_datetime_utc >= base_end_datetime_utc:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description='API.INVALID_BASE_PERIOD_ENDS_DATETIME')

        if reporting_start_datetime_local is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description="API.INVALID_REPORTING_PERIOD_BEGINS_DATETIME")

        else:

            reporting_start_datetime_local = str.strip(reporting_start_datetime_local)

            try:

                reporting_start_datetime_utc = datetime.strptime(reporting_start_datetime_local,

                                                                 '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_REPORTING_PERIOD_BEGINS_DATETIME")

        if reporting_end_datetime_local is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description="API.INVALID_REPORTING_PERIOD_ENDS_DATETIME")

        else:

            reporting_end_datetime_local = str.strip(reporting_end_datetime_local)

            try:

                reporting_end_datetime_utc = datetime.strptime(reporting_end_datetime_local,

                                                               '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_REPORTING_PERIOD_ENDS_DATETIME")

        if reporting_start_datetime_utc >= reporting_end_datetime_utc:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description='API.INVALID_REPORTING_PERIOD_ENDS_DATETIME')

        ################################################################################################################

        # Step 2: query the shopfloor

        ################################################################################################################

        cnx_system = mysql.connector.connect(**config.myems_system_db)

        cursor_system = cnx_system.cursor()

        cnx_energy = mysql.connector.connect(**config.myems_energy_db)

        cursor_energy = cnx_energy.cursor()

        cnx_historical = mysql.connector.connect(**config.myems_historical_db)

        cursor_historical = cnx_historical.cursor()

        cursor_system.execute(" SELECT id, name, area, cost_center_id "

                              " FROM tbl_shopfloors "

                              " WHERE id = %s ", (shopfloor_id,))

        row_shopfloor = cursor_system.fetchone()

        if row_shopfloor is None:

            if cursor_system:

                cursor_system.close()

            if cnx_system:

                cnx_system.disconnect()

            if cursor_energy:

                cursor_energy.close()

            if cnx_energy:

                cnx_energy.disconnect()

            if cnx_historical:

                cnx_historical.close()

            if cursor_historical:

                cursor_historical.disconnect()

            raise falcon.HTTPError(falcon.HTTP_404, title='API.NOT_FOUND', description='API.SHOPFLOOR_NOT_FOUND')

        shopfloor = dict()

        shopfloor['id'] = row_shopfloor[0]

        shopfloor['name'] = row_shopfloor[1]

        shopfloor['area'] = row_shopfloor[2]

        shopfloor['cost_center_id'] = row_shopfloor[3]

        ################################################################################################################

        # Step 3: query energy items

        ################################################################################################################

        energy_item_set = set()

        # query energy items in base period

        cursor_energy.execute(" SELECT DISTINCT(energy_item_id) "

                              " FROM tbl_shopfloor_input_item_hourly "

                              " WHERE shopfloor_id = %s "

                              "     AND start_datetime_utc >= %s "

                              "     AND start_datetime_utc < %s ",

                              (shopfloor['id'], base_start_datetime_utc, base_end_datetime_utc))

        rows_energy_items = cursor_energy.fetchall()

        if rows_energy_items is not None or len(rows_energy_items) > 0:

            for row_item in rows_energy_items:

                energy_item_set.add(row_item[0])

        # query energy items in reporting period

        cursor_energy.execute(" SELECT DISTINCT(energy_item_id) "

                              " FROM tbl_shopfloor_input_item_hourly "

                              " WHERE shopfloor_id = %s "

                              "     AND start_datetime_utc >= %s "

                              "     AND start_datetime_utc < %s ",

                              (shopfloor['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))

        rows_energy_items = cursor_energy.fetchall()

        if rows_energy_items is not None or len(rows_energy_items) > 0:

            for row_item in rows_energy_items:

                energy_item_set.add(row_item[0])

        # query all energy items in base period and reporting period

        cursor_system.execute(" SELECT ei.id, ei.name, ei.energy_category_id, "

                              "        ec.name AS energy_category_name, ec.unit_of_measure, ec.kgce, ec.kgco2e "

                              " FROM tbl_energy_items ei, tbl_energy_categories ec "

                              " WHERE ei.energy_category_id = ec.id "

                              " ORDER BY ei.id ", )

        rows_energy_items = cursor_system.fetchall()

        if rows_energy_items is None or len(rows_energy_items) == 0:

            if cursor_system:

                cursor_system.close()

            if cnx_system:

                cnx_system.disconnect()

            if cursor_energy:

                cursor_energy.close()

            if cnx_energy:

                cnx_energy.disconnect()

            if cnx_historical:

                cnx_historical.close()

            if cursor_historical:

                cursor_historical.disconnect()

            raise falcon.HTTPError(falcon.HTTP_404,

                                   title='API.NOT_FOUND',

                                   description='API.ENERGY_ITEM_NOT_FOUND')

        energy_item_dict = dict()

        for row_energy_item in rows_energy_items:

            if row_energy_item[0] in energy_item_set:

                energy_item_dict[row_energy_item[0]] = {"name": row_energy_item[1],

                                                        "energy_category_id": row_energy_item[2],

                                                        "energy_category_name": row_energy_item[3],

                                                        "unit_of_measure": row_energy_item[4],

                                                        "kgce": row_energy_item[5],

                                                        "kgco2e": row_energy_item[6]}

        ################################################################################################################

        # Step 4: query associated sensors

        ################################################################################################################

        point_list = list()

        cursor_system.execute(" SELECT p.id, p.name, p.units, p.object_type  "

                              " FROM tbl_shopfloors st, tbl_sensors se, tbl_shopfloors_sensors ss, "

                              "      tbl_points p, tbl_sensors_points sp "

                              " WHERE st.id = %s AND st.id = ss.shopfloor_id AND ss.sensor_id = se.id "

                              "       AND se.id = sp.sensor_id AND sp.point_id = p.id "

                              " ORDER BY p.id ", (shopfloor['id'],))

        rows_points = cursor_system.fetchall()

        if rows_points is not None and len(rows_points) > 0:

            for row in rows_points:

                point_list.append({"id": row[0], "name": row[1], "units": row[2], "object_type": row[3]})

        ################################################################################################################

        # Step 5: query associated points

        ################################################################################################################

        cursor_system.execute(" SELECT p.id, p.name, p.units, p.object_type  "

                              " FROM tbl_shopfloors s, tbl_shopfloors_points sp, tbl_points p "

                              " WHERE s.id = %s AND s.id = sp.shopfloor_id AND sp.point_id = p.id "

                              " ORDER BY p.id ", (shopfloor['id'],))

        rows_points = cursor_system.fetchall()

        if rows_points is not None and len(rows_points) > 0:

            for row in rows_points:

                point_list.append({"id": row[0], "name": row[1], "units": row[2], "object_type": row[3]})

        ################################################################################################################

        # Step 6: query base period energy input

        ################################################################################################################

        base = dict()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                base[energy_item_id] = dict()

                base[energy_item_id]['timestamps'] = list()

                base[energy_item_id]['values'] = list()

                base[energy_item_id]['subtotal'] = Decimal(0.0)

                cursor_energy.execute(" SELECT start_datetime_utc, actual_value "

                                      " FROM tbl_shopfloor_input_item_hourly "

                                      " WHERE shopfloor_id = %s "

                                      "     AND energy_item_id = %s "

                                      "     AND start_datetime_utc >= %s "

                                      "     AND start_datetime_utc < %s "

                                      " ORDER BY start_datetime_utc ",

                                      (shopfloor['id'],

                                       energy_item_id,

                                       base_start_datetime_utc,

                                       base_end_datetime_utc))

                rows_shopfloor_hourly = cursor_energy.fetchall()

                rows_shopfloor_periodically = utilities.aggregate_hourly_data_by_period(rows_shopfloor_hourly,

                                                                                        base_start_datetime_utc,

                                                                                        base_end_datetime_utc,

                                                                                        period_type)

                for row_shopfloor_periodically in rows_shopfloor_periodically:

                    current_datetime_local = row_shopfloor_periodically[0].replace(tzinfo=timezone.utc) + \

                                             timedelta(minutes=timezone_offset)

                    if period_type == 'hourly':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                    elif period_type == 'daily':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%d')

                    elif period_type == 'monthly':

                        current_datetime = current_datetime_local.strftime('%Y-%m')

                    elif period_type == 'yearly':

                        current_datetime = current_datetime_local.strftime('%Y')

                    actual_value = Decimal(0.0) if row_shopfloor_periodically[1] is None \

                        else row_shopfloor_periodically[1]

                    base[energy_item_id]['timestamps'].append(current_datetime)

                    base[energy_item_id]['values'].append(actual_value)

                    base[energy_item_id]['subtotal'] += actual_value

        ################################################################################################################

        # Step 7: query reporting period energy input

        ################################################################################################################

        reporting = dict()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                reporting[energy_item_id] = dict()

                reporting[energy_item_id]['timestamps'] = list()

                reporting[energy_item_id]['values'] = list()

                reporting[energy_item_id]['subtotal'] = Decimal(0.0)

                reporting[energy_item_id]['toppeak'] = Decimal(0.0)

                reporting[energy_item_id]['onpeak'] = Decimal(0.0)

                reporting[energy_item_id]['midpeak'] = Decimal(0.0)

                reporting[energy_item_id]['offpeak'] = Decimal(0.0)

                cursor_energy.execute(" SELECT start_datetime_utc, actual_value "

                                      " FROM tbl_shopfloor_input_item_hourly "

                                      " WHERE shopfloor_id = %s "

                                      "     AND energy_item_id = %s "

                                      "     AND start_datetime_utc >= %s "

                                      "     AND start_datetime_utc < %s "

                                      " ORDER BY start_datetime_utc ",

                                      (shopfloor['id'],

                                       energy_item_id,

                                       reporting_start_datetime_utc,

                                       reporting_end_datetime_utc))

                rows_shopfloor_hourly = cursor_energy.fetchall()

                rows_shopfloor_periodically = utilities.aggregate_hourly_data_by_period(rows_shopfloor_hourly,

                                                                                        reporting_start_datetime_utc,

                                                                                        reporting_end_datetime_utc,

                                                                                        period_type)

                for row_shopfloor_periodically in rows_shopfloor_periodically:

                    current_datetime_local = row_shopfloor_periodically[0].replace(tzinfo=timezone.utc) + \

                                             timedelta(minutes=timezone_offset)

                    if period_type == 'hourly':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                    elif period_type == 'daily':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%d')

                    elif period_type == 'monthly':

                        current_datetime = current_datetime_local.strftime('%Y-%m')

                    elif period_type == 'yearly':

                        current_datetime = current_datetime_local.strftime('%Y')

                    actual_value = Decimal(0.0) if row_shopfloor_periodically[1] is None \

                        else row_shopfloor_periodically[1]

                    reporting[energy_item_id]['timestamps'].append(current_datetime)

                    reporting[energy_item_id]['values'].append(actual_value)

                    reporting[energy_item_id]['subtotal'] += actual_value

                energy_category_tariff_dict = \

                    utilities.get_energy_category_peak_types(shopfloor['cost_center_id'],

                                                             energy_item_dict[energy_item_id]['energy_category_id'],

                                                             reporting_start_datetime_utc,

                                                             reporting_end_datetime_utc)

                for row in rows_shopfloor_hourly:

                    peak_type = energy_category_tariff_dict.get(row[0], None)

                    if peak_type == 'toppeak':

                        reporting[energy_item_id]['toppeak'] += row[1]

                    elif peak_type == 'onpeak':

                        reporting[energy_item_id]['onpeak'] += row[1]

                    elif peak_type == 'midpeak':

                        reporting[energy_item_id]['midpeak'] += row[1]

                    elif peak_type == 'offpeak':

                        reporting[energy_item_id]['offpeak'] += row[1]

        ################################################################################################################

        # Step 8: query tariff data

        ################################################################################################################

        parameters_data = dict()

        parameters_data['names'] = list()

        parameters_data['timestamps'] = list()

        parameters_data['values'] = list()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                energy_category_tariff_dict = \

                    utilities.get_energy_category_tariffs(shopfloor['cost_center_id'],

                                                          energy_item_dict[energy_item_id]['energy_category_id'],

                                                          reporting_start_datetime_utc,

                                                          reporting_end_datetime_utc)

                tariff_timestamp_list = list()

                tariff_value_list = list()

                for k, v in energy_category_tariff_dict.items():

                    # convert k from utc to local

                    k = k + timedelta(minutes=timezone_offset)

                    tariff_timestamp_list.append(k.isoformat()[0:19][0:19])

                    tariff_value_list.append(v)

                parameters_data['names'].append('TARIFF-' + energy_item_dict[energy_item_id]['name'])

                parameters_data['timestamps'].append(tariff_timestamp_list)

                parameters_data['values'].append(tariff_value_list)

        ################################################################################################################

        # Step 9: query associated sensors and points data

        ################################################################################################################

        for point in point_list:

            point_values = []

            point_timestamps = []

            if point['object_type'] == 'ANALOG_VALUE':

                query = (" SELECT utc_date_time, actual_value "

                         " FROM tbl_analog_value "

                         " WHERE point_id = %s "

                         "       AND utc_date_time BETWEEN %s AND %s "

                         " ORDER BY utc_date_time ")

                cursor_historical.execute(query, (point['id'],

                                                  reporting_start_datetime_utc,

                                                  reporting_end_datetime_utc))

                rows = cursor_historical.fetchall()

                if rows is not None and len(rows) > 0:

                    for row in rows:

                        current_datetime_local = row[0].replace(tzinfo=timezone.utc) + \

                                                 timedelta(minutes=timezone_offset)

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                        point_timestamps.append(current_datetime)

                        point_values.append(row[1])

            elif point['object_type'] == 'ENERGY_VALUE':

                query = (" SELECT utc_date_time, actual_value "

                         " FROM tbl_energy_value "

                         " WHERE point_id = %s "

                         "       AND utc_date_time BETWEEN %s AND %s "

                         " ORDER BY utc_date_time ")

                cursor_historical.execute(query, (point['id'],

                                                  reporting_start_datetime_utc,

                                                  reporting_end_datetime_utc))

                rows = cursor_historical.fetchall()

                if rows is not None and len(rows) > 0:

                    for row in rows:

                        current_datetime_local = row[0].replace(tzinfo=timezone.utc) + \

                                                 timedelta(minutes=timezone_offset)

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                        point_timestamps.append(current_datetime)

                        point_values.append(row[1])

            elif point['object_type'] == 'DIGITAL_VALUE':

                query = (" SELECT utc_date_time, actual_value "

                         " FROM tbl_digital_value "

                         " WHERE point_id = %s "

                         "       AND utc_date_time BETWEEN %s AND %s ")

                cursor_historical.execute(query, (point['id'],

                                                  reporting_start_datetime_utc,

                                                  reporting_end_datetime_utc))

                rows = cursor_historical.fetchall()

                if rows is not None and len(rows) > 0:

                    for row in rows:

                        current_datetime_local = row[0].replace(tzinfo=timezone.utc) + \

                                                 timedelta(minutes=timezone_offset)

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                        point_timestamps.append(current_datetime)

                        point_values.append(row[1])

            parameters_data['names'].append(point['name'] + ' (' + point['units'] + ')')

            parameters_data['timestamps'].append(point_timestamps)

            parameters_data['values'].append(point_values)

        ################################################################################################################

        # Step 10: construct the report

        ################################################################################################################

        if cursor_system:

            cursor_system.close()

        if cnx_system:

            cnx_system.disconnect()

        if cursor_energy:

            cursor_energy.close()

        if cnx_energy:

            cnx_energy.disconnect()

        result = dict()

        result['shopfloor'] = dict()

        result['shopfloor']['name'] = shopfloor['name']

        result['shopfloor']['area'] = shopfloor['area']

        result['base_period'] = dict()

        result['base_period']['names'] = list()

        result['base_period']['units'] = list()

        result['base_period']['timestamps'] = list()

        result['base_period']['values'] = list()

        result['base_period']['subtotals'] = list()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                result['base_period']['names'].append(energy_item_dict[energy_item_id]['name'])

                result['base_period']['units'].append(energy_item_dict[energy_item_id]['unit_of_measure'])

                result['base_period']['timestamps'].append(base[energy_item_id]['timestamps'])

                result['base_period']['values'].append(base[energy_item_id]['values'])

                result['base_period']['subtotals'].append(base[energy_item_id]['subtotal'])

        result['reporting_period'] = dict()

        result['reporting_period']['names'] = list()

        result['reporting_period']['energy_item_ids'] = list()

        result['reporting_period']['energy_category_names'] = list()

        result['reporting_period']['energy_category_ids'] = list()

        result['reporting_period']['units'] = list()

        result['reporting_period']['timestamps'] = list()

        result['reporting_period']['values'] = list()

        result['reporting_period']['subtotals'] = list()

        result['reporting_period']['subtotals_per_unit_area'] = list()

        result['reporting_period']['toppeaks'] = list()

        result['reporting_period']['onpeaks'] = list()

        result['reporting_period']['midpeaks'] = list()

        result['reporting_period']['offpeaks'] = list()

        result['reporting_period']['increment_rates'] = list()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                result['reporting_period']['names'].append(energy_item_dict[energy_item_id]['name'])

                result['reporting_period']['energy_item_ids'].append(energy_item_id)

                result['reporting_period']['energy_category_names'].append(

                    energy_item_dict[energy_item_id]['energy_category_name'])

                result['reporting_period']['energy_category_ids'].append(

                    energy_item_dict[energy_item_id]['energy_category_id'])

                result['reporting_period']['units'].append(energy_item_dict[energy_item_id]['unit_of_measure'])

                result['reporting_period']['timestamps'].append(reporting[energy_item_id]['timestamps'])

                result['reporting_period']['values'].append(reporting[energy_item_id]['values'])

                result['reporting_period']['subtotals'].append(reporting[energy_item_id]['subtotal'])

                result['reporting_period']['subtotals_per_unit_area'].append(

                    reporting[energy_item_id]['subtotal'] / shopfloor['area'] if shopfloor['area'] > 0.0 else None)

                result['reporting_period']['toppeaks'].append(reporting[energy_item_id]['toppeak'])

                result['reporting_period']['onpeaks'].append(reporting[energy_item_id]['onpeak'])

                result['reporting_period']['midpeaks'].append(reporting[energy_item_id]['midpeak'])

                result['reporting_period']['offpeaks'].append(reporting[energy_item_id]['offpeak'])

                result['reporting_period']['increment_rates'].append(

                    (reporting[energy_item_id]['subtotal'] - base[energy_item_id]['subtotal']) /

                    base[energy_item_id]['subtotal']

                    if base[energy_item_id]['subtotal'] > 0.0 else None)

        result['parameters'] = {

            "names": parameters_data['names'],

            "timestamps": parameters_data['timestamps'],

            "values": parameters_data['values']

        }

        resp.body = json.dumps(result)

from decimal import *

class Reporting:

    @staticmethod

    def __init__():

        pass

    @staticmethod

    def on_options(req, resp):

        resp.status = falcon.HTTP_200

    ####################################################################################################################

    # PROCEDURES

    # Step 1: valid parameters

    # Step 2: query the store

    # Step 3: query energy items

    # Step 4: query associated sensors

    # Step 5: query associated points

    # Step 6: query base period energy input

    # Step 7: query reporting period energy input

    # Step 8: query tariff data

    # Step 9: query associated sensors and points data

    # Step 10: construct the report

    ####################################################################################################################

    @staticmethod

    def on_get(req, resp):

        print(req.params)

        store_id = req.params.get('storeid')

        period_type = req.params.get('periodtype')

        base_start_datetime_local = req.params.get('baseperiodstartdatetime')

        base_end_datetime_local = req.params.get('baseperiodenddatetime')

        reporting_start_datetime_local = req.params.get('reportingperiodstartdatetime')

        reporting_end_datetime_local = req.params.get('reportingperiodenddatetime')

        ################################################################################################################

        # Step 1: valid parameters

        ################################################################################################################

        if store_id is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_STORE_ID')

        else:

            store_id = str.strip(store_id)

            if not store_id.isdigit() or int(store_id) <= 0:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_STORE_ID')

        if period_type is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_PERIOD_TYPE')

        else:

            period_type = str.strip(period_type)

            if period_type not in ['hourly', 'daily', 'monthly', 'yearly']:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_PERIOD_TYPE')

        timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])

        if config.utc_offset[0] == '-':

            timezone_offset = -timezone_offset

        base_start_datetime_utc = None

        if base_start_datetime_local is not None and len(str.strip(base_start_datetime_local)) > 0:

            base_start_datetime_local = str.strip(base_start_datetime_local)

            try:

                base_start_datetime_utc = datetime.strptime(base_start_datetime_local,

                                                            '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_BASE_PERIOD_BEGINS_DATETIME")

        base_end_datetime_utc = None

        if base_end_datetime_local is not None and len(str.strip(base_end_datetime_local)) > 0:

            base_end_datetime_local = str.strip(base_end_datetime_local)

            try:

                base_end_datetime_utc = datetime.strptime(base_end_datetime_local,

                                                          '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_BASE_PERIOD_ENDS_DATETIME")

        if base_start_datetime_utc is not None and base_end_datetime_utc is not None and \

                base_start_datetime_utc >= base_end_datetime_utc:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description='API.INVALID_BASE_PERIOD_ENDS_DATETIME')

        if reporting_start_datetime_local is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description="API.INVALID_REPORTING_PERIOD_BEGINS_DATETIME")

        else:

            reporting_start_datetime_local = str.strip(reporting_start_datetime_local)

            try:

                reporting_start_datetime_utc = datetime.strptime(reporting_start_datetime_local,

                                                                 '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_REPORTING_PERIOD_BEGINS_DATETIME")

        if reporting_end_datetime_local is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description="API.INVALID_REPORTING_PERIOD_ENDS_DATETIME")

        else:

            reporting_end_datetime_local = str.strip(reporting_end_datetime_local)

            try:

                reporting_end_datetime_utc = datetime.strptime(reporting_end_datetime_local,

                                                               '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_REPORTING_PERIOD_ENDS_DATETIME")

        if reporting_start_datetime_utc >= reporting_end_datetime_utc:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description='API.INVALID_REPORTING_PERIOD_ENDS_DATETIME')

        ################################################################################################################

        # Step 2: query the store

        ################################################################################################################

        cnx_system = mysql.connector.connect(**config.myems_system_db)

        cursor_system = cnx_system.cursor()

        cnx_energy = mysql.connector.connect(**config.myems_energy_db)

        cursor_energy = cnx_energy.cursor()

        cnx_historical = mysql.connector.connect(**config.myems_historical_db)

        cursor_historical = cnx_historical.cursor()

        cursor_system.execute(" SELECT id, name, area, cost_center_id "

                              " FROM tbl_stores "

                              " WHERE id = %s ", (store_id,))

        row_store = cursor_system.fetchone()

        if row_store is None:

            if cursor_system:

                cursor_system.close()

            if cnx_system:

                cnx_system.disconnect()

            if cursor_energy:

                cursor_energy.close()

            if cnx_energy:

                cnx_energy.disconnect()

            if cnx_historical:

                cnx_historical.close()

            if cursor_historical:

                cursor_historical.disconnect()

            raise falcon.HTTPError(falcon.HTTP_404, title='API.NOT_FOUND', description='API.STORE_NOT_FOUND')

        store = dict()

        store['id'] = row_store[0]

        store['name'] = row_store[1]

        store['area'] = row_store[2]

        store['cost_center_id'] = row_store[3]

        ################################################################################################################

        # Step 3: query energy items

        ################################################################################################################

        energy_item_set = set()

        # query energy items in base period

        cursor_energy.execute(" SELECT DISTINCT(energy_item_id) "

                              " FROM tbl_store_input_item_hourly "

                              " WHERE store_id = %s "

                              "     AND start_datetime_utc >= %s "

                              "     AND start_datetime_utc < %s ",

                              (store['id'], base_start_datetime_utc, base_end_datetime_utc))

        rows_energy_items = cursor_energy.fetchall()

        if rows_energy_items is not None or len(rows_energy_items) > 0:

            for row_item in rows_energy_items:

                energy_item_set.add(row_item[0])

        # query energy items in reporting period

        cursor_energy.execute(" SELECT DISTINCT(energy_item_id) "

                              " FROM tbl_store_input_item_hourly "

                              " WHERE store_id = %s "

                              "     AND start_datetime_utc >= %s "

                              "     AND start_datetime_utc < %s ",

                              (store['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))

        rows_energy_items = cursor_energy.fetchall()

        if rows_energy_items is not None or len(rows_energy_items) > 0:

            for row_item in rows_energy_items:

                energy_item_set.add(row_item[0])

        # query all energy items in base period and reporting period

        cursor_system.execute(" SELECT ei.id, ei.name, ei.energy_category_id, "

                              "        ec.name AS energy_category_name, ec.unit_of_measure, ec.kgce, ec.kgco2e "

                              " FROM tbl_energy_items ei, tbl_energy_categories ec "

                              " WHERE ei.energy_category_id = ec.id "

                              " ORDER BY ei.id ", )

        rows_energy_items = cursor_system.fetchall()

        if rows_energy_items is None or len(rows_energy_items) == 0:

            if cursor_system:

                cursor_system.close()

            if cnx_system:

                cnx_system.disconnect()

            if cursor_energy:

                cursor_energy.close()

            if cnx_energy:

                cnx_energy.disconnect()

            if cnx_historical:

                cnx_historical.close()

            if cursor_historical:

                cursor_historical.disconnect()

            raise falcon.HTTPError(falcon.HTTP_404,

                                   title='API.NOT_FOUND',

                                   description='API.ENERGY_ITEM_NOT_FOUND')

        energy_item_dict = dict()

        for row_energy_item in rows_energy_items:

            if row_energy_item[0] in energy_item_set:

                energy_item_dict[row_energy_item[0]] = {"name": row_energy_item[1],

                                                        "energy_category_id": row_energy_item[2],

                                                        "energy_category_name": row_energy_item[3],

                                                        "unit_of_measure": row_energy_item[4],

                                                        "kgce": row_energy_item[5],

                                                        "kgco2e": row_energy_item[6]}

        ################################################################################################################

        # Step 4: query associated sensors

        ################################################################################################################

        point_list = list()

        cursor_system.execute(" SELECT p.id, p.name, p.units, p.object_type  "

                              " FROM tbl_stores st, tbl_sensors se, tbl_stores_sensors ss, "

                              "      tbl_points p, tbl_sensors_points sp "

                              " WHERE st.id = %s AND st.id = ss.store_id AND ss.sensor_id = se.id "

                              "       AND se.id = sp.sensor_id AND sp.point_id = p.id "

                              " ORDER BY p.id ", (store['id'],))

        rows_points = cursor_system.fetchall()

        if rows_points is not None and len(rows_points) > 0:

            for row in rows_points:

                point_list.append({"id": row[0], "name": row[1], "units": row[2], "object_type": row[3]})

        ################################################################################################################

        # Step 5: query associated points

        ################################################################################################################

        cursor_system.execute(" SELECT p.id, p.name, p.units, p.object_type  "

                              " FROM tbl_stores s, tbl_stores_points sp, tbl_points p "

                              " WHERE s.id = %s AND s.id = sp.store_id AND sp.point_id = p.id "

                              " ORDER BY p.id ", (store['id'],))

        rows_points = cursor_system.fetchall()

        if rows_points is not None and len(rows_points) > 0:

            for row in rows_points:

                point_list.append({"id": row[0], "name": row[1], "units": row[2], "object_type": row[3]})

        ################################################################################################################

        # Step 6: query base period energy input

        ################################################################################################################

        base = dict()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                base[energy_item_id] = dict()

                base[energy_item_id]['timestamps'] = list()

                base[energy_item_id]['values'] = list()

                base[energy_item_id]['subtotal'] = Decimal(0.0)

                cursor_energy.execute(" SELECT start_datetime_utc, actual_value "

                                      " FROM tbl_store_input_item_hourly "

                                      " WHERE store_id = %s "

                                      "     AND energy_item_id = %s "

                                      "     AND start_datetime_utc >= %s "

                                      "     AND start_datetime_utc < %s "

                                      " ORDER BY start_datetime_utc ",

                                      (store['id'],

                                       energy_item_id,

                                       base_start_datetime_utc,

                                       base_end_datetime_utc))

                rows_store_hourly = cursor_energy.fetchall()

                rows_store_periodically = utilities.aggregate_hourly_data_by_period(rows_store_hourly,

                                                                                    base_start_datetime_utc,

                                                                                    base_end_datetime_utc,

                                                                                    period_type)

                for row_store_periodically in rows_store_periodically:

                    current_datetime_local = row_store_periodically[0].replace(tzinfo=timezone.utc) + \

                                             timedelta(minutes=timezone_offset)

                    if period_type == 'hourly':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                    elif period_type == 'daily':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%d')

                    elif period_type == 'monthly':

                        current_datetime = current_datetime_local.strftime('%Y-%m')

                    elif period_type == 'yearly':

                        current_datetime = current_datetime_local.strftime('%Y')

                    actual_value = Decimal(0.0) if row_store_periodically[1] is None else row_store_periodically[1]

                    base[energy_item_id]['timestamps'].append(current_datetime)

                    base[energy_item_id]['values'].append(actual_value)

                    base[energy_item_id]['subtotal'] += actual_value

        ################################################################################################################

        # Step 7: query reporting period energy input

        ################################################################################################################

        reporting = dict()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                reporting[energy_item_id] = dict()

                reporting[energy_item_id]['timestamps'] = list()

                reporting[energy_item_id]['values'] = list()

                reporting[energy_item_id]['subtotal'] = Decimal(0.0)

                reporting[energy_item_id]['toppeak'] = Decimal(0.0)

                reporting[energy_item_id]['onpeak'] = Decimal(0.0)

                reporting[energy_item_id]['midpeak'] = Decimal(0.0)

                reporting[energy_item_id]['offpeak'] = Decimal(0.0)

                cursor_energy.execute(" SELECT start_datetime_utc, actual_value "

                                      " FROM tbl_store_input_item_hourly "

                                      " WHERE store_id = %s "

                                      "     AND energy_item_id = %s "

                                      "     AND start_datetime_utc >= %s "

                                      "     AND start_datetime_utc < %s "

                                      " ORDER BY start_datetime_utc ",

                                      (store['id'],

                                       energy_item_id,

                                       reporting_start_datetime_utc,

                                       reporting_end_datetime_utc))

                rows_store_hourly = cursor_energy.fetchall()

                rows_store_periodically = utilities.aggregate_hourly_data_by_period(rows_store_hourly,

                                                                                    reporting_start_datetime_utc,

                                                                                    reporting_end_datetime_utc,

                                                                                    period_type)

                for row_store_periodically in rows_store_periodically:

                    current_datetime_local = row_store_periodically[0].replace(tzinfo=timezone.utc) + \

                                             timedelta(minutes=timezone_offset)

                    if period_type == 'hourly':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                    elif period_type == 'daily':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%d')

                    elif period_type == 'monthly':

                        current_datetime = current_datetime_local.strftime('%Y-%m')

                    elif period_type == 'yearly':

                        current_datetime = current_datetime_local.strftime('%Y')

                    actual_value = Decimal(0.0) if row_store_periodically[1] is None else row_store_periodically[1]

                    reporting[energy_item_id]['timestamps'].append(current_datetime)

                    reporting[energy_item_id]['values'].append(actual_value)

                    reporting[energy_item_id]['subtotal'] += actual_value

                energy_category_tariff_dict = \

                    utilities.get_energy_category_peak_types(store['cost_center_id'],

                                                             energy_item_dict[energy_item_id]['energy_category_id'],

                                                             reporting_start_datetime_utc,

                                                             reporting_end_datetime_utc)

                for row in rows_store_hourly:

                    peak_type = energy_category_tariff_dict.get(row[0], None)

                    if peak_type == 'toppeak':

                        reporting[energy_item_id]['toppeak'] += row[1]

                    elif peak_type == 'onpeak':

                        reporting[energy_item_id]['onpeak'] += row[1]

                    elif peak_type == 'midpeak':

                        reporting[energy_item_id]['midpeak'] += row[1]

                    elif peak_type == 'offpeak':

                        reporting[energy_item_id]['offpeak'] += row[1]

        ################################################################################################################

        # Step 8: query tariff data

        ################################################################################################################

        parameters_data = dict()

        parameters_data['names'] = list()

        parameters_data['timestamps'] = list()

        parameters_data['values'] = list()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                energy_category_tariff_dict = \

                    utilities.get_energy_category_tariffs(store['cost_center_id'],

                                                          energy_item_dict[energy_item_id]['energy_category_id'],

                                                          reporting_start_datetime_utc,

                                                          reporting_end_datetime_utc)

                tariff_timestamp_list = list()

                tariff_value_list = list()

                for k, v in energy_category_tariff_dict.items():

                    # convert k from utc to local

                    k = k + timedelta(minutes=timezone_offset)

                    tariff_timestamp_list.append(k.isoformat()[0:19][0:19])

                    tariff_value_list.append(v)

                parameters_data['names'].append('TARIFF-' + energy_item_dict[energy_item_id]['name'])

                parameters_data['timestamps'].append(tariff_timestamp_list)

                parameters_data['values'].append(tariff_value_list)

        ################################################################################################################

        # Step 9: query associated sensors and points data

        ################################################################################################################

        for point in point_list:

            point_values = []

            point_timestamps = []

            if point['object_type'] == 'ANALOG_VALUE':

                query = (" SELECT utc_date_time, actual_value "

                         " FROM tbl_analog_value "

                         " WHERE point_id = %s "

                         "       AND utc_date_time BETWEEN %s AND %s "

                         " ORDER BY utc_date_time ")

                cursor_historical.execute(query, (point['id'],

                                                  reporting_start_datetime_utc,

                                                  reporting_end_datetime_utc))

                rows = cursor_historical.fetchall()

                if rows is not None and len(rows) > 0:

                    for row in rows:

                        current_datetime_local = row[0].replace(tzinfo=timezone.utc) + \

                                                 timedelta(minutes=timezone_offset)

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                        point_timestamps.append(current_datetime)

                        point_values.append(row[1])

            elif point['object_type'] == 'ENERGY_VALUE':

                query = (" SELECT utc_date_time, actual_value "

                         " FROM tbl_energy_value "

                         " WHERE point_id = %s "

                         "       AND utc_date_time BETWEEN %s AND %s "

                         " ORDER BY utc_date_time ")

                cursor_historical.execute(query, (point['id'],

                                                  reporting_start_datetime_utc,

                                                  reporting_end_datetime_utc))

                rows = cursor_historical.fetchall()

                if rows is not None and len(rows) > 0:

                    for row in rows:

                        current_datetime_local = row[0].replace(tzinfo=timezone.utc) + \

                                                 timedelta(minutes=timezone_offset)

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                        point_timestamps.append(current_datetime)

                        point_values.append(row[1])

            elif point['object_type'] == 'DIGITAL_VALUE':

                query = (" SELECT utc_date_time, actual_value "

                         " FROM tbl_digital_value "

                         " WHERE point_id = %s "

                         "       AND utc_date_time BETWEEN %s AND %s ")

                cursor_historical.execute(query, (point['id'],

                                                  reporting_start_datetime_utc,

                                                  reporting_end_datetime_utc))

                rows = cursor_historical.fetchall()

                if rows is not None and len(rows) > 0:

                    for row in rows:

                        current_datetime_local = row[0].replace(tzinfo=timezone.utc) + \

                                                 timedelta(minutes=timezone_offset)

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                        point_timestamps.append(current_datetime)

                        point_values.append(row[1])

            parameters_data['names'].append(point['name'] + ' (' + point['units'] + ')')

            parameters_data['timestamps'].append(point_timestamps)

            parameters_data['values'].append(point_values)

        ################################################################################################################

        # Step 10: construct the report

        ################################################################################################################

        if cursor_system:

            cursor_system.close()

        if cnx_system:

            cnx_system.disconnect()

        if cursor_energy:

            cursor_energy.close()

        if cnx_energy:

            cnx_energy.disconnect()

        result = dict()

        result['store'] = dict()

        result['store']['name'] = store['name']

        result['store']['area'] = store['area']

        result['base_period'] = dict()

        result['base_period']['names'] = list()

        result['base_period']['units'] = list()

        result['base_period']['timestamps'] = list()

        result['base_period']['values'] = list()

        result['base_period']['subtotals'] = list()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                result['base_period']['names'].append(energy_item_dict[energy_item_id]['name'])

                result['base_period']['units'].append(energy_item_dict[energy_item_id]['unit_of_measure'])

                result['base_period']['timestamps'].append(base[energy_item_id]['timestamps'])

                result['base_period']['values'].append(base[energy_item_id]['values'])

                result['base_period']['subtotals'].append(base[energy_item_id]['subtotal'])

        result['reporting_period'] = dict()

        result['reporting_period']['names'] = list()

        result['reporting_period']['energy_item_ids'] = list()

        result['reporting_period']['energy_category_names'] = list()

        result['reporting_period']['energy_category_ids'] = list()

        result['reporting_period']['units'] = list()

        result['reporting_period']['timestamps'] = list()

        result['reporting_period']['values'] = list()

        result['reporting_period']['subtotals'] = list()

        result['reporting_period']['subtotals_per_unit_area'] = list()

        result['reporting_period']['toppeaks'] = list()

        result['reporting_period']['onpeaks'] = list()

        result['reporting_period']['midpeaks'] = list()

        result['reporting_period']['offpeaks'] = list()

        result['reporting_period']['increment_rates'] = list()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                result['reporting_period']['names'].append(energy_item_dict[energy_item_id]['name'])

                result['reporting_period']['energy_item_ids'].append(energy_item_id)

                result['reporting_period']['energy_category_names'].append(

                    energy_item_dict[energy_item_id]['energy_category_name'])

                result['reporting_period']['energy_category_ids'].append(

                    energy_item_dict[energy_item_id]['energy_category_id'])

                result['reporting_period']['units'].append(energy_item_dict[energy_item_id]['unit_of_measure'])

                result['reporting_period']['timestamps'].append(reporting[energy_item_id]['timestamps'])

                result['reporting_period']['values'].append(reporting[energy_item_id]['values'])

                result['reporting_period']['subtotals'].append(reporting[energy_item_id]['subtotal'])

                result['reporting_period']['subtotals_per_unit_area'].append(

                    reporting[energy_item_id]['subtotal'] / store['area'] if store['area'] > 0.0 else None)

                result['reporting_period']['toppeaks'].append(reporting[energy_item_id]['toppeak'])

                result['reporting_period']['onpeaks'].append(reporting[energy_item_id]['onpeak'])

                result['reporting_period']['midpeaks'].append(reporting[energy_item_id]['midpeak'])

                result['reporting_period']['offpeaks'].append(reporting[energy_item_id]['offpeak'])

                result['reporting_period']['increment_rates'].append(

                    (reporting[energy_item_id]['subtotal'] - base[energy_item_id]['subtotal']) /

                    base[energy_item_id]['subtotal']

                    if base[energy_item_id]['subtotal'] > 0.0 else None)

        result['parameters'] = {

            "names": parameters_data['names'],

            "timestamps": parameters_data['timestamps'],

            "values": parameters_data['values']

        }

        resp.body = json.dumps(result)

from decimal import *

class Reporting:

    @staticmethod

    def __init__():

        pass

    @staticmethod

    def on_options(req, resp):

        resp.status = falcon.HTTP_200

    ####################################################################################################################

    # PROCEDURES

    # Step 1: valid parameters

    # Step 2: query the tenant

    # Step 3: query energy items

    # Step 4: query associated sensors

    # Step 5: query associated points

    # Step 6: query base period energy input

    # Step 7: query reporting period energy input

    # Step 8: query tariff data

    # Step 9: query associated sensors and points data

    # Step 10: construct the report

    ####################################################################################################################

    @staticmethod

    def on_get(req, resp):

        print(req.params)

        tenant_id = req.params.get('tenantid')

        period_type = req.params.get('periodtype')

        base_start_datetime_local = req.params.get('baseperiodstartdatetime')

        base_end_datetime_local = req.params.get('baseperiodenddatetime')

        reporting_start_datetime_local = req.params.get('reportingperiodstartdatetime')

        reporting_end_datetime_local = req.params.get('reportingperiodenddatetime')

        ################################################################################################################

        # Step 1: valid parameters

        ################################################################################################################

        if tenant_id is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_TENANT_ID')

        else:

            tenant_id = str.strip(tenant_id)

            if not tenant_id.isdigit() or int(tenant_id) <= 0:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_TENANT_ID')

        if period_type is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_PERIOD_TYPE')

        else:

            period_type = str.strip(period_type)

            if period_type not in ['hourly', 'daily', 'monthly', 'yearly']:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_PERIOD_TYPE')

        timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])

        if config.utc_offset[0] == '-':

            timezone_offset = -timezone_offset

        base_start_datetime_utc = None

        if base_start_datetime_local is not None and len(str.strip(base_start_datetime_local)) > 0:

            base_start_datetime_local = str.strip(base_start_datetime_local)

            try:

                base_start_datetime_utc = datetime.strptime(base_start_datetime_local,

                                                            '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_BASE_PERIOD_BEGINS_DATETIME")

        base_end_datetime_utc = None

        if base_end_datetime_local is not None and len(str.strip(base_end_datetime_local)) > 0:

            base_end_datetime_local = str.strip(base_end_datetime_local)

            try:

                base_end_datetime_utc = datetime.strptime(base_end_datetime_local,

                                                          '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_BASE_PERIOD_ENDS_DATETIME")

        if base_start_datetime_utc is not None and base_end_datetime_utc is not None and \

                base_start_datetime_utc >= base_end_datetime_utc:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description='API.INVALID_BASE_PERIOD_ENDS_DATETIME')

        if reporting_start_datetime_local is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description="API.INVALID_REPORTING_PERIOD_BEGINS_DATETIME")

        else:

            reporting_start_datetime_local = str.strip(reporting_start_datetime_local)

            try:

                reporting_start_datetime_utc = datetime.strptime(reporting_start_datetime_local,

                                                                 '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_REPORTING_PERIOD_BEGINS_DATETIME")

        if reporting_end_datetime_local is None:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description="API.INVALID_REPORTING_PERIOD_ENDS_DATETIME")

        else:

            reporting_end_datetime_local = str.strip(reporting_end_datetime_local)

            try:

                reporting_end_datetime_utc = datetime.strptime(reporting_end_datetime_local,

                                                               '%Y-%m-%dT%H:%M:%S').replace(tzinfo=timezone.utc) - \

                    timedelta(minutes=timezone_offset)

            except ValueError:

                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description="API.INVALID_REPORTING_PERIOD_ENDS_DATETIME")

        if reporting_start_datetime_utc >= reporting_end_datetime_utc:

            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',

                                   description='API.INVALID_REPORTING_PERIOD_ENDS_DATETIME')

        ################################################################################################################

        # Step 2: query the tenant

        ################################################################################################################

        cnx_system = mysql.connector.connect(**config.myems_system_db)

        cursor_system = cnx_system.cursor()

        cnx_energy = mysql.connector.connect(**config.myems_energy_db)

        cursor_energy = cnx_energy.cursor()

        cnx_historical = mysql.connector.connect(**config.myems_historical_db)

        cursor_historical = cnx_historical.cursor()

        cursor_system.execute(" SELECT id, name, area, cost_center_id "

                              " FROM tbl_tenants "

                              " WHERE id = %s ", (tenant_id,))

        row_tenant = cursor_system.fetchone()

        if row_tenant is None:

            if cursor_system:

                cursor_system.close()

            if cnx_system:

                cnx_system.disconnect()

            if cursor_energy:

                cursor_energy.close()

            if cnx_energy:

                cnx_energy.disconnect()

            if cnx_historical:

                cnx_historical.close()

            if cursor_historical:

                cursor_historical.disconnect()

            raise falcon.HTTPError(falcon.HTTP_404, title='API.NOT_FOUND', description='API.TENANT_NOT_FOUND')

        tenant = dict()

        tenant['id'] = row_tenant[0]

        tenant['name'] = row_tenant[1]

        tenant['area'] = row_tenant[2]

        tenant['cost_center_id'] = row_tenant[3]

        ################################################################################################################

        # Step 3: query energy items

        ################################################################################################################

        energy_item_set = set()

        # query energy items in base period

        cursor_energy.execute(" SELECT DISTINCT(energy_item_id) "

                              " FROM tbl_tenant_input_item_hourly "

                              " WHERE tenant_id = %s "

                              "     AND start_datetime_utc >= %s "

                              "     AND start_datetime_utc < %s ",

                              (tenant['id'], base_start_datetime_utc, base_end_datetime_utc))

        rows_energy_items = cursor_energy.fetchall()

        if rows_energy_items is not None or len(rows_energy_items) > 0:

            for row_item in rows_energy_items:

                energy_item_set.add(row_item[0])

        # query energy items in reporting period

        cursor_energy.execute(" SELECT DISTINCT(energy_item_id) "

                              " FROM tbl_tenant_input_item_hourly "

                              " WHERE tenant_id = %s "

                              "     AND start_datetime_utc >= %s "

                              "     AND start_datetime_utc < %s ",

                              (tenant['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))

        rows_energy_items = cursor_energy.fetchall()

        if rows_energy_items is not None or len(rows_energy_items) > 0:

            for row_item in rows_energy_items:

                energy_item_set.add(row_item[0])

        # query all energy items in base period and reporting period

        cursor_system.execute(" SELECT ei.id, ei.name, ei.energy_category_id, "

                              "        ec.name AS energy_category_name, ec.unit_of_measure, ec.kgce, ec.kgco2e "

                              " FROM tbl_energy_items ei, tbl_energy_categories ec "

                              " WHERE ei.energy_category_id = ec.id "

                              " ORDER BY ei.id ", )

        rows_energy_items = cursor_system.fetchall()

        if rows_energy_items is None or len(rows_energy_items) == 0:

            if cursor_system:

                cursor_system.close()

            if cnx_system:

                cnx_system.disconnect()

            if cursor_energy:

                cursor_energy.close()

            if cnx_energy:

                cnx_energy.disconnect()

            if cnx_historical:

                cnx_historical.close()

            if cursor_historical:

                cursor_historical.disconnect()

            raise falcon.HTTPError(falcon.HTTP_404,

                                   title='API.NOT_FOUND',

                                   description='API.ENERGY_ITEM_NOT_FOUND')

        energy_item_dict = dict()

        for row_energy_item in rows_energy_items:

            if row_energy_item[0] in energy_item_set:

                energy_item_dict[row_energy_item[0]] = {"name": row_energy_item[1],

                                                        "energy_category_id": row_energy_item[2],

                                                        "energy_category_name": row_energy_item[3],

                                                        "unit_of_measure": row_energy_item[4],

                                                        "kgce": row_energy_item[5],

                                                        "kgco2e": row_energy_item[6]}

        ################################################################################################################

        # Step 4: query associated sensors

        ################################################################################################################

        point_list = list()

        cursor_system.execute(" SELECT p.id, p.name, p.units, p.object_type  "

                              " FROM tbl_tenants t, tbl_sensors s, tbl_tenants_sensors ts, "

                              "      tbl_points p, tbl_sensors_points sp "

                              " WHERE t.id = %s AND t.id = ts.tenant_id AND ts.sensor_id = s.id "

                              "       AND s.id = sp.sensor_id AND sp.point_id = p.id "

                              " ORDER BY p.id ", (tenant['id'], ))

        rows_points = cursor_system.fetchall()

        if rows_points is not None and len(rows_points) > 0:

            for row in rows_points:

                point_list.append({"id": row[0], "name": row[1], "units": row[2], "object_type": row[3]})

        ################################################################################################################

        # Step 5: query associated points

        ################################################################################################################

        cursor_system.execute(" SELECT po.id, po.name, po.units, po.object_type  "

                              " FROM tbl_tenants sp, tbl_tenants_points sppo, tbl_points po "

                              " WHERE sp.id = %s AND sp.id = sppo.tenant_id AND sppo.point_id = po.id "

                              " ORDER BY po.id ", (tenant['id'], ))

        rows_points = cursor_system.fetchall()

        if rows_points is not None and len(rows_points) > 0:

            for row in rows_points:

                point_list.append({"id": row[0], "name": row[1], "units": row[2], "object_type": row[3]})

        ################################################################################################################

        # Step 6: query base period energy input

        ################################################################################################################

        base = dict()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                base[energy_item_id] = dict()

                base[energy_item_id]['timestamps'] = list()

                base[energy_item_id]['values'] = list()

                base[energy_item_id]['subtotal'] = Decimal(0.0)

                cursor_energy.execute(" SELECT start_datetime_utc, actual_value "

                                      " FROM tbl_tenant_input_item_hourly "

                                      " WHERE tenant_id = %s "

                                      "     AND energy_item_id = %s "

                                      "     AND start_datetime_utc >= %s "

                                      "     AND start_datetime_utc < %s "

                                      " ORDER BY start_datetime_utc ",

                                      (tenant['id'],

                                       energy_item_id,

                                       base_start_datetime_utc,

                                       base_end_datetime_utc))

                rows_tenant_hourly = cursor_energy.fetchall()

                rows_tenant_periodically = utilities.aggregate_hourly_data_by_period(rows_tenant_hourly,

                                                                                     base_start_datetime_utc,

                                                                                     base_end_datetime_utc,

                                                                                     period_type)

                for row_tenant_periodically in rows_tenant_periodically:

                    current_datetime_local = row_tenant_periodically[0].replace(tzinfo=timezone.utc) + \

                                             timedelta(minutes=timezone_offset)

                    if period_type == 'hourly':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                    elif period_type == 'daily':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%d')

                    elif period_type == 'monthly':

                        current_datetime = current_datetime_local.strftime('%Y-%m')

                    elif period_type == 'yearly':

                        current_datetime = current_datetime_local.strftime('%Y')

                    actual_value = Decimal(0.0) if row_tenant_periodically[1] is None else row_tenant_periodically[1]

                    base[energy_item_id]['timestamps'].append(current_datetime)

                    base[energy_item_id]['values'].append(actual_value)

                    base[energy_item_id]['subtotal'] += actual_value

        ################################################################################################################

        # Step 7: query reporting period energy input

        ################################################################################################################

        reporting = dict()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                reporting[energy_item_id] = dict()

                reporting[energy_item_id]['timestamps'] = list()

                reporting[energy_item_id]['values'] = list()

                reporting[energy_item_id]['subtotal'] = Decimal(0.0)

                reporting[energy_item_id]['toppeak'] = Decimal(0.0)

                reporting[energy_item_id]['onpeak'] = Decimal(0.0)

                reporting[energy_item_id]['midpeak'] = Decimal(0.0)

                reporting[energy_item_id]['offpeak'] = Decimal(0.0)

                cursor_energy.execute(" SELECT start_datetime_utc, actual_value "

                                      " FROM tbl_tenant_input_item_hourly "

                                      " WHERE tenant_id = %s "

                                      "     AND energy_item_id = %s "

                                      "     AND start_datetime_utc >= %s "

                                      "     AND start_datetime_utc < %s "

                                      " ORDER BY start_datetime_utc ",

                                      (tenant['id'],

                                       energy_item_id,

                                       reporting_start_datetime_utc,

                                       reporting_end_datetime_utc))

                rows_tenant_hourly = cursor_energy.fetchall()

                rows_tenant_periodically = utilities.aggregate_hourly_data_by_period(rows_tenant_hourly,

                                                                                     reporting_start_datetime_utc,

                                                                                     reporting_end_datetime_utc,

                                                                                     period_type)

                for row_tenant_periodically in rows_tenant_periodically:

                    current_datetime_local = row_tenant_periodically[0].replace(tzinfo=timezone.utc) + \

                                             timedelta(minutes=timezone_offset)

                    if period_type == 'hourly':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                    elif period_type == 'daily':

                        current_datetime = current_datetime_local.strftime('%Y-%m-%d')

                    elif period_type == 'monthly':

                        current_datetime = current_datetime_local.strftime('%Y-%m')

                    elif period_type == 'yearly':

                        current_datetime = current_datetime_local.strftime('%Y')

                    actual_value = Decimal(0.0) if row_tenant_periodically[1] is None else row_tenant_periodically[1]

                    reporting[energy_item_id]['timestamps'].append(current_datetime)

                    reporting[energy_item_id]['values'].append(actual_value)

                    reporting[energy_item_id]['subtotal'] += actual_value

                energy_category_tariff_dict = \

                    utilities.get_energy_category_peak_types(tenant['cost_center_id'],

                                                             energy_item_dict[energy_item_id]['energy_category_id'],

                                                             reporting_start_datetime_utc,

                                                             reporting_end_datetime_utc)

                for row in rows_tenant_hourly:

                    peak_type = energy_category_tariff_dict.get(row[0], None)

                    if peak_type == 'toppeak':

                        reporting[energy_item_id]['toppeak'] += row[1]

                    elif peak_type == 'onpeak':

                        reporting[energy_item_id]['onpeak'] += row[1]

                    elif peak_type == 'midpeak':

                        reporting[energy_item_id]['midpeak'] += row[1]

                    elif peak_type == 'offpeak':

                        reporting[energy_item_id]['offpeak'] += row[1]

        ################################################################################################################

        # Step 8: query tariff data

        ################################################################################################################

        parameters_data = dict()

        parameters_data['names'] = list()

        parameters_data['timestamps'] = list()

        parameters_data['values'] = list()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                energy_category_tariff_dict = \

                    utilities.get_energy_category_tariffs(tenant['cost_center_id'],

                                                          energy_item_dict[energy_item_id]['energy_category_id'],

                                                          reporting_start_datetime_utc,

                                                          reporting_end_datetime_utc)

                tariff_timestamp_list = list()

                tariff_value_list = list()

                for k, v in energy_category_tariff_dict.items():

                    # convert k from utc to local

                    k = k + timedelta(minutes=timezone_offset)

                    tariff_timestamp_list.append(k.isoformat()[0:19][0:19])

                    tariff_value_list.append(v)

                parameters_data['names'].append('TARIFF-' + energy_item_dict[energy_item_id]['name'])

                parameters_data['timestamps'].append(tariff_timestamp_list)

                parameters_data['values'].append(tariff_value_list)

        ################################################################################################################

        # Step 9: query associated sensors and points data

        ################################################################################################################

        for point in point_list:

            point_values = []

            point_timestamps = []

            if point['object_type'] == 'ANALOG_VALUE':

                query = (" SELECT utc_date_time, actual_value "

                         " FROM tbl_analog_value "

                         " WHERE point_id = %s "

                         "       AND utc_date_time BETWEEN %s AND %s "

                         " ORDER BY utc_date_time ")

                cursor_historical.execute(query, (point['id'],

                                                  reporting_start_datetime_utc,

                                                  reporting_end_datetime_utc))

                rows = cursor_historical.fetchall()

                if rows is not None and len(rows) > 0:

                    for row in rows:

                        current_datetime_local = row[0].replace(tzinfo=timezone.utc) + \

                                                 timedelta(minutes=timezone_offset)

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                        point_timestamps.append(current_datetime)

                        point_values.append(row[1])

            elif point['object_type'] == 'ENERGY_VALUE':

                query = (" SELECT utc_date_time, actual_value "

                         " FROM tbl_energy_value "

                         " WHERE point_id = %s "

                         "       AND utc_date_time BETWEEN %s AND %s "

                         " ORDER BY utc_date_time ")

                cursor_historical.execute(query, (point['id'],

                                                  reporting_start_datetime_utc,

                                                  reporting_end_datetime_utc))

                rows = cursor_historical.fetchall()

                if rows is not None and len(rows) > 0:

                    for row in rows:

                        current_datetime_local = row[0].replace(tzinfo=timezone.utc) + \

                                                 timedelta(minutes=timezone_offset)

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                        point_timestamps.append(current_datetime)

                        point_values.append(row[1])

            elif point['object_type'] == 'DIGITAL_VALUE':

                query = (" SELECT utc_date_time, actual_value "

                         " FROM tbl_digital_value "

                         " WHERE point_id = %s "

                         "       AND utc_date_time BETWEEN %s AND %s ")

                cursor_historical.execute(query, (point['id'],

                                                  reporting_start_datetime_utc,

                                                  reporting_end_datetime_utc))

                rows = cursor_historical.fetchall()

                if rows is not None and len(rows) > 0:

                    for row in rows:

                        current_datetime_local = row[0].replace(tzinfo=timezone.utc) + \

                                                 timedelta(minutes=timezone_offset)

                        current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')

                        point_timestamps.append(current_datetime)

                        point_values.append(row[1])

            parameters_data['names'].append(point['name'] + ' (' + point['units'] + ')')

            parameters_data['timestamps'].append(point_timestamps)

            parameters_data['values'].append(point_values)

        ################################################################################################################

        # Step 10: construct the report

        ################################################################################################################

        if cursor_system:

            cursor_system.close()

        if cnx_system:

            cnx_system.disconnect()

        if cursor_energy:

            cursor_energy.close()

        if cnx_energy:

            cnx_energy.disconnect()

        result = dict()

        result['tenant'] = dict()

        result['tenant']['name'] = tenant['name']

        result['tenant']['area'] = tenant['area']

        result['base_period'] = dict()

        result['base_period']['names'] = list()

        result['base_period']['units'] = list()

        result['base_period']['timestamps'] = list()

        result['base_period']['values'] = list()

        result['base_period']['subtotals'] = list()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                result['base_period']['names'].append(energy_item_dict[energy_item_id]['name'])

                result['base_period']['units'].append(energy_item_dict[energy_item_id]['unit_of_measure'])

                result['base_period']['timestamps'].append(base[energy_item_id]['timestamps'])

                result['base_period']['values'].append(base[energy_item_id]['values'])

                result['base_period']['subtotals'].append(base[energy_item_id]['subtotal'])

        result['reporting_period'] = dict()

        result['reporting_period']['names'] = list()

        result['reporting_period']['energy_item_ids'] = list()

        result['reporting_period']['energy_category_names'] = list()

        result['reporting_period']['energy_category_ids'] = list()

        result['reporting_period']['units'] = list()

        result['reporting_period']['timestamps'] = list()

        result['reporting_period']['values'] = list()

        result['reporting_period']['subtotals'] = list()

        result['reporting_period']['subtotals_per_unit_area'] = list()

        result['reporting_period']['toppeaks'] = list()

        result['reporting_period']['onpeaks'] = list()

        result['reporting_period']['midpeaks'] = list()

        result['reporting_period']['offpeaks'] = list()

        result['reporting_period']['increment_rates'] = list()

        if energy_item_set is not None and len(energy_item_set) > 0:

            for energy_item_id in energy_item_set:

                result['reporting_period']['names'].append(energy_item_dict[energy_item_id]['name'])

                result['reporting_period']['energy_item_ids'].append(energy_item_id)

                result['reporting_period']['energy_category_names'].append(

                    energy_item_dict[energy_item_id]['energy_category_name'])

                result['reporting_period']['energy_category_ids'].append(

                    energy_item_dict[energy_item_id]['energy_category_id'])

                result['reporting_period']['units'].append(energy_item_dict[energy_item_id]['unit_of_measure'])

                result['reporting_period']['timestamps'].append(reporting[energy_item_id]['timestamps'])

                result['reporting_period']['values'].append(reporting[energy_item_id]['values'])

                result['reporting_period']['subtotals'].append(reporting[energy_item_id]['subtotal'])

                result['reporting_period']['subtotals_per_unit_area'].append(

                    reporting[energy_item_id]['subtotal'] / tenant['area'] if tenant['area'] > 0.0 else None)

                result['reporting_period']['toppeaks'].append(reporting[energy_item_id]['toppeak'])

                result['reporting_period']['onpeaks'].append(reporting[energy_item_id]['onpeak'])

                result['reporting_period']['midpeaks'].append(reporting[energy_item_id]['midpeak'])

                result['reporting_period']['offpeaks'].append(reporting[energy_item_id]['offpeak'])

                result['reporting_period']['increment_rates'].append(

                    (reporting[energy_item_id]['subtotal'] - base[energy_item_id]['subtotal']) /

                    base[energy_item_id]['subtotal']

                    if base[energy_item_id]['subtotal'] > 0.0 else None)

        result['parameters'] = {

            "names": parameters_data['names'],

            "timestamps": parameters_data['timestamps'],

            "values": parameters_data['values']

        }

        resp.body = json.dumps(result)