reports.metersubmetersbalance - Code Metrics - myems/myems-api - Measure and Improve Code Quality continuously with Scrutinizer

reports.metersubmetersbalance B
last analyzed 2021-02-26 06:13 UTC

↳ Parent: Project

Complexity

Total Complexity

Size/Duplication

Total Lines	343
Duplicated Lines	0 %

Importance

Changes

Metric	Value
eloc	231
dl	0
loc	343
rs	7.44
c	0
b	0
f	0
wmc	52

3 Methods

Rating	Name	Size	Complexity
A	Reporting.on_options()	3	1
A	Reporting.__init__()	3	1
F	Reporting.on_get()	312	50

How to fix Complexity

import falcon
import simplejson as json
import mysql.connector
import config
from datetime import datetime, timedelta, timezone
from core import utilities
from decimal import Decimal
import excelexporters.metersubmetersbalance


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 master meter and energy category
    # Step 3: query associated submeters
    # Step 4: query reporting period master meter energy consumption
    # Step 5: query reporting period submeters energy consumption
    # Step 6: calculate reporting period difference between master meter and submeters
    # Step 7: query submeter values as parameter data
    # Step 8: construct the report
    ####################################################################################################################
    @staticmethod
    def on_get(req, resp):
        print(req.params)
        meter_id = req.params.get('meterid')
        period_type = req.params.get('periodtype')
        reporting_period_start_datetime_local = req.params.get('reportingperiodstartdatetime')
        reporting_period_end_datetime_local = req.params.get('reportingperiodenddatetime')

        ################################################################################################################
        # Step 1: valid parameters
        ################################################################################################################
        if meter_id is None:
            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_METER_ID')
        else:
            meter_id = str.strip(meter_id)
            if not meter_id.isdigit() or int(meter_id) <= 0:
                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_METER_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

        if reporting_period_start_datetime_local is None:
            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
                                   description="API.INVALID_REPORTING_PERIOD_START_DATETIME")
        else:
            reporting_period_start_datetime_local = str.strip(reporting_period_start_datetime_local)
            try:
                reporting_start_datetime_utc = datetime.strptime(reporting_period_start_datetime_local,
                                                                 '%Y-%m-%dT%H:%M:%S')
            except ValueError:
                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
                                       description="API.INVALID_REPORTING_PERIOD_START_DATETIME")
            reporting_start_datetime_utc = reporting_start_datetime_utc.replace(tzinfo=timezone.utc) - \
                timedelta(minutes=timezone_offset)

        if reporting_period_end_datetime_local is None:
            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
                                   description="API.INVALID_REPORTING_PERIOD_END_DATETIME")
        else:
            reporting_period_end_datetime_local = str.strip(reporting_period_end_datetime_local)
            try:
                reporting_end_datetime_utc = datetime.strptime(reporting_period_end_datetime_local,
                                                               '%Y-%m-%dT%H:%M:%S')
            except ValueError:
                raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
                                       description="API.INVALID_REPORTING_PERIOD_END_DATETIME")
            reporting_end_datetime_utc = reporting_end_datetime_utc.replace(tzinfo=timezone.utc) - \
                timedelta(minutes=timezone_offset)

        if reporting_start_datetime_utc >= reporting_end_datetime_utc:
            raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
                                   description='API.INVALID_REPORTING_PERIOD_END_DATETIME')

        ################################################################################################################
        # Step 2: query the meter and energy category
        ################################################################################################################
        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()

        cursor_system.execute(" SELECT m.id, m.name, m.cost_center_id, m.energy_category_id, "
                              "        ec.name, ec.unit_of_measure "
                              " FROM tbl_meters m, tbl_energy_categories ec "
                              " WHERE m.id = %s AND m.energy_category_id = ec.id ", (meter_id,))
        row_meter = cursor_system.fetchone()
        if row_meter 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()

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

        master_meter = dict()
        master_meter['id'] = row_meter[0]
        master_meter['name'] = row_meter[1]
        master_meter['cost_center_id'] = row_meter[2]
        master_meter['energy_category_id'] = row_meter[3]
        master_meter['energy_category_name'] = row_meter[4]
        master_meter['unit_of_measure'] = row_meter[5]

        ################################################################################################################
        # Step 3: query associated submeters
        ################################################################################################################
        submeter_list = list()
        submeter_id_set = set()

        cursor_system.execute(" SELECT id, name, energy_category_id "
                              " FROM tbl_meters "
                              " WHERE master_meter_id = %s ",
                              (master_meter['id'],))
        rows_meters = cursor_system.fetchall()

        if rows_meters is not None and len(rows_meters) > 0:
            for row in rows_meters:
                submeter_list.append({"id": row[0],
                                      "name": row[1],
                                      "energy_category_id": row[2]})
                submeter_id_set.add(row[0])

        ################################################################################################################
        # Step 4: query reporting period master meter energy consumption
        ################################################################################################################
        reporting = dict()
        reporting['master_meter_total_in_category'] = Decimal(0.0)
        reporting['submeters_total_in_category'] = Decimal(0.0)
        reporting['total_difference_in_category'] = Decimal(0.0)
        reporting['percentage_difference'] = Decimal(0.0)
        reporting['timestamps'] = list()
        reporting['master_meter_values'] = list()
        reporting['submeters_values'] = list()
        reporting['difference_values'] = list()

        parameters_data = dict()
        parameters_data['names'] = list()
        parameters_data['timestamps'] = list()
        parameters_data['values'] = list()

        query = (" SELECT start_datetime_utc, actual_value "
                 " FROM tbl_meter_hourly "
                 " WHERE meter_id = %s "
                 " AND start_datetime_utc >= %s "
                 " AND start_datetime_utc < %s "
                 " ORDER BY start_datetime_utc ")
        cursor_energy.execute(query, (master_meter['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))
        rows_meter_hourly = cursor_energy.fetchall()

        rows_meter_periodically = utilities.aggregate_hourly_data_by_period(rows_meter_hourly,
                                                                            reporting_start_datetime_utc,
                                                                            reporting_end_datetime_utc,
                                                                            period_type)

        for row_meter_periodically in rows_meter_periodically:
            current_datetime_local = row_meter_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_meter_periodically[1] is None else row_meter_periodically[1]

            reporting['timestamps'].append(current_datetime)

            reporting['master_meter_values'].append(actual_value)
            reporting['master_meter_total_in_category'] += actual_value

        # add master meter values to parameter data
        parameters_data['names'].append(master_meter['name'])
        parameters_data['timestamps'].append(reporting['timestamps'])
        parameters_data['values'].append(reporting['master_meter_values'])

        ################################################################################################################
        # Step 5: query reporting period submeters energy consumption
        ################################################################################################################
        if len(submeter_list) > 0:
            query = (" SELECT start_datetime_utc, SUM(actual_value) "
                     " FROM tbl_meter_hourly "
                     " WHERE meter_id IN ( " + ', '.join(map(str, submeter_id_set)) + ") "
                     " AND start_datetime_utc >= %s "
                     " AND start_datetime_utc < %s "
                     " GROUP BY start_datetime_utc "
                     " ORDER BY start_datetime_utc ")
            cursor_energy.execute(query, (reporting_start_datetime_utc, reporting_end_datetime_utc))
            rows_submeters_hourly = cursor_energy.fetchall()

            rows_submeters_periodically = utilities.aggregate_hourly_data_by_period(rows_submeters_hourly,
                                                                                    reporting_start_datetime_utc,
                                                                                    reporting_end_datetime_utc,
                                                                                    period_type)

            for row_submeters_periodically in rows_submeters_periodically:
                current_datetime_local = row_submeters_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_submeters_periodically[1] is None else row_submeters_periodically[1]

                reporting['submeters_values'].append(actual_value)
                reporting['submeters_total_in_category'] += actual_value

        ################################################################################################################
        # Step 6: calculate reporting period difference between master meter and submeters
        ################################################################################################################
        if len(submeter_list) > 0:
            for i in range(len(reporting['timestamps'])):
                reporting['difference_values'].append(reporting['master_meter_values'][i] -
                                                      reporting['submeters_values'][i])
        else:
            for i in range(len(reporting['timestamps'])):
                reporting['difference_values'].append(reporting['master_meter_values'][i])

        reporting['total_difference_in_category'] = \
            reporting['master_meter_total_in_category'] - reporting['submeters_total_in_category']

        if abs(reporting['master_meter_total_in_category']) > Decimal(0.0):
            reporting['percentage_difference'] = \
                reporting['total_difference_in_category'] / reporting['master_meter_total_in_category']
        elif abs(reporting['master_meter_total_in_category']) == Decimal(0.0) and \
                abs(reporting['submeters_total_in_category']) > Decimal(0.0):
            reporting['percentage_difference'] = Decimal(-1.0)

        ################################################################################################################
        # Step 7: query submeter values as parameter data
        ################################################################################################################
        for submeter in submeter_list:
            submeter_timestamps = list()
            submeter_values = list()

            query = (" SELECT start_datetime_utc, actual_value "
                     " FROM tbl_meter_hourly "
                     " WHERE meter_id = %s "
                     " AND start_datetime_utc >= %s "
                     " AND start_datetime_utc < %s "
                     " ORDER BY start_datetime_utc ")
            cursor_energy.execute(query, (submeter['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))
            rows_meter_hourly = cursor_energy.fetchall()

            rows_meter_periodically = utilities.aggregate_hourly_data_by_period(rows_meter_hourly,
                                                                                reporting_start_datetime_utc,
                                                                                reporting_end_datetime_utc,
                                                                                period_type)

            for row_meter_periodically in rows_meter_periodically:
                current_datetime_local = row_meter_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_meter_periodically[1] is None else row_meter_periodically[1]

                submeter_timestamps.append(current_datetime)
                submeter_values.append(actual_value)

            parameters_data['names'].append(submeter['name'])
            parameters_data['timestamps'].append(submeter_timestamps)
            parameters_data['values'].append(submeter_values)

        ################################################################################################################
        # Step 8: 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 = {
            "meter": {
                "cost_center_id": master_meter['cost_center_id'],
                "energy_category_id": master_meter['energy_category_id'],
                "energy_category_name": master_meter['energy_category_name'],
                "unit_of_measure": master_meter['unit_of_measure'],
            },
            "reporting_period": {
                "master_meter_consumption_in_category": reporting['master_meter_total_in_category'],
                "submeters_consumption_in_category": reporting['submeters_total_in_category'],
                "difference_in_category": reporting['total_difference_in_category'],
                "percentage_difference": reporting['percentage_difference'],
                "timestamps": reporting['timestamps'],
                "difference_values": reporting['difference_values'],
            },
            "parameters": {
                "names": parameters_data['names'],
                "timestamps": parameters_data['timestamps'],
                "values": parameters_data['values']
            },
        }

        # export result to Excel file and then encode the file to base64 string
        result['excel_bytes_base64'] = excelexporters.metersubmetersbalance.export(result,
                                              master_meter['name'],
                                              reporting_period_start_datetime_local,
                                              reporting_period_end_datetime_local,
                                              period_type)

        resp.body = json.dumps(result)


1			import falcon
2			import simplejson as json
3			import mysql.connector
4			import config
5			from datetime import datetime, timedelta, timezone
6			from core import utilities
7			from decimal import Decimal
8			import excelexporters.metersubmetersbalance
9
10
11			class Reporting:
12			@staticmethod
13			def __init__():
14			pass
15
16			@staticmethod
17			def on_options(req, resp):
18			resp.status = falcon.HTTP_200
19
20			####################################################################################################################
21			# PROCEDURES
22			# Step 1: valid parameters
23			# Step 2: query the master meter and energy category
24			# Step 3: query associated submeters
25			# Step 4: query reporting period master meter energy consumption
26			# Step 5: query reporting period submeters energy consumption
27			# Step 6: calculate reporting period difference between master meter and submeters
28			# Step 7: query submeter values as parameter data
29			# Step 8: construct the report
30			####################################################################################################################
31			@staticmethod
32			def on_get(req, resp):
33			print(req.params)
34			meter_id = req.params.get('meterid')
35			period_type = req.params.get('periodtype')
36			reporting_period_start_datetime_local = req.params.get('reportingperiodstartdatetime')
37			reporting_period_end_datetime_local = req.params.get('reportingperiodenddatetime')
38
39			################################################################################################################
40			# Step 1: valid parameters
41			################################################################################################################
42			if meter_id is None:
43			raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_METER_ID')
44			else:
45			meter_id = str.strip(meter_id)
46			if not meter_id.isdigit() or int(meter_id) <= 0:
47			raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_METER_ID')
48
49			if period_type is None:
50			raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_PERIOD_TYPE')
51			else:
52			period_type = str.strip(period_type)
53			if period_type not in ['hourly', 'daily', 'monthly', 'yearly']:
54			raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_PERIOD_TYPE')
55
56			timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])
57			if config.utc_offset[0] == '-':
58			timezone_offset = -timezone_offset
59
60			if reporting_period_start_datetime_local is None:
61			raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
62			description="API.INVALID_REPORTING_PERIOD_START_DATETIME")
63			else:
64			reporting_period_start_datetime_local = str.strip(reporting_period_start_datetime_local)
65			try:
66			reporting_start_datetime_utc = datetime.strptime(reporting_period_start_datetime_local,
67			'%Y-%m-%dT%H:%M:%S')
68			except ValueError:
69			raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
70			description="API.INVALID_REPORTING_PERIOD_START_DATETIME")
71			reporting_start_datetime_utc = reporting_start_datetime_utc.replace(tzinfo=timezone.utc) - \
72			timedelta(minutes=timezone_offset)
73
74			if reporting_period_end_datetime_local is None:
75			raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
76			description="API.INVALID_REPORTING_PERIOD_END_DATETIME")
77			else:
78			reporting_period_end_datetime_local = str.strip(reporting_period_end_datetime_local)
79			try:
80			reporting_end_datetime_utc = datetime.strptime(reporting_period_end_datetime_local,
81			'%Y-%m-%dT%H:%M:%S')
82			except ValueError:
83			raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
84			description="API.INVALID_REPORTING_PERIOD_END_DATETIME")
85			reporting_end_datetime_utc = reporting_end_datetime_utc.replace(tzinfo=timezone.utc) - \
86			timedelta(minutes=timezone_offset)
87
88			if reporting_start_datetime_utc >= reporting_end_datetime_utc:
89			raise falcon.HTTPError(falcon.HTTP_400, title='API.BAD_REQUEST',
90			description='API.INVALID_REPORTING_PERIOD_END_DATETIME')
91
92			################################################################################################################
93			# Step 2: query the meter and energy category
94			################################################################################################################
95			cnx_system = mysql.connector.connect(**config.myems_system_db)
96			cursor_system = cnx_system.cursor()
97
98			cnx_energy = mysql.connector.connect(**config.myems_energy_db)
99			cursor_energy = cnx_energy.cursor()
100
101			cursor_system.execute(" SELECT m.id, m.name, m.cost_center_id, m.energy_category_id, "
102			" ec.name, ec.unit_of_measure "
103			" FROM tbl_meters m, tbl_energy_categories ec "
104			" WHERE m.id = %s AND m.energy_category_id = ec.id ", (meter_id,))
105			row_meter = cursor_system.fetchone()
106			if row_meter is None:
107			if cursor_system:
108			cursor_system.close()
109			if cnx_system:
110			cnx_system.disconnect()
111
112			if cursor_energy:
113			cursor_energy.close()
114			if cnx_energy:
115			cnx_energy.disconnect()
116
117			raise falcon.HTTPError(falcon.HTTP_404, title='API.NOT_FOUND', description='API.METER_NOT_FOUND')
118
119			master_meter = dict()
120			master_meter['id'] = row_meter[0]
121			master_meter['name'] = row_meter[1]
122			master_meter['cost_center_id'] = row_meter[2]
123			master_meter['energy_category_id'] = row_meter[3]
124			master_meter['energy_category_name'] = row_meter[4]
125			master_meter['unit_of_measure'] = row_meter[5]
126
127			################################################################################################################
128			# Step 3: query associated submeters
129			################################################################################################################
130			submeter_list = list()
131			submeter_id_set = set()
132
133			cursor_system.execute(" SELECT id, name, energy_category_id "
134			" FROM tbl_meters "
135			" WHERE master_meter_id = %s ",
136			(master_meter['id'],))
137			rows_meters = cursor_system.fetchall()
138
139			if rows_meters is not None and len(rows_meters) > 0:
140			for row in rows_meters:
141			submeter_list.append({"id": row[0],
142			"name": row[1],
143			"energy_category_id": row[2]})
144			submeter_id_set.add(row[0])
145
146			################################################################################################################
147			# Step 4: query reporting period master meter energy consumption
148			################################################################################################################
149			reporting = dict()
150			reporting['master_meter_total_in_category'] = Decimal(0.0)
151			reporting['submeters_total_in_category'] = Decimal(0.0)
152			reporting['total_difference_in_category'] = Decimal(0.0)
153			reporting['percentage_difference'] = Decimal(0.0)
154			reporting['timestamps'] = list()
155			reporting['master_meter_values'] = list()
156			reporting['submeters_values'] = list()
157			reporting['difference_values'] = list()
158
159			parameters_data = dict()
160			parameters_data['names'] = list()
161			parameters_data['timestamps'] = list()
162			parameters_data['values'] = list()
163
164			query = (" SELECT start_datetime_utc, actual_value "
165			" FROM tbl_meter_hourly "
166			" WHERE meter_id = %s "
167			" AND start_datetime_utc >= %s "
168			" AND start_datetime_utc < %s "
169			" ORDER BY start_datetime_utc ")
170			cursor_energy.execute(query, (master_meter['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))
171			rows_meter_hourly = cursor_energy.fetchall()
172
173			rows_meter_periodically = utilities.aggregate_hourly_data_by_period(rows_meter_hourly,
174			reporting_start_datetime_utc,
175			reporting_end_datetime_utc,
176			period_type)
177
178			for row_meter_periodically in rows_meter_periodically:
179			current_datetime_local = row_meter_periodically[0].replace(tzinfo=timezone.utc) + \
180			timedelta(minutes=timezone_offset)
181			if period_type == 'hourly':
182			current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')
183			elif period_type == 'daily':
184			current_datetime = current_datetime_local.strftime('%Y-%m-%d')
185			elif period_type == 'monthly':
186			current_datetime = current_datetime_local.strftime('%Y-%m')
187			elif period_type == 'yearly':
188			current_datetime = current_datetime_local.strftime('%Y')
189
190			actual_value = Decimal(0.0) if row_meter_periodically[1] is None else row_meter_periodically[1]
191
192			reporting['timestamps'].append(current_datetime)
			0 ignored issues – show introduced 2021-02-03 06:32 UTC by Report Bug Copy Issue Report The variable `current_datetime` does not seem to be defined for all execution paths. Loading history...
193			reporting['master_meter_values'].append(actual_value)
194			reporting['master_meter_total_in_category'] += actual_value
195
196			# add master meter values to parameter data
197			parameters_data['names'].append(master_meter['name'])
198			parameters_data['timestamps'].append(reporting['timestamps'])
199			parameters_data['values'].append(reporting['master_meter_values'])
200
201			################################################################################################################
202			# Step 5: query reporting period submeters energy consumption
203			################################################################################################################
204			if len(submeter_list) > 0:
205			query = (" SELECT start_datetime_utc, SUM(actual_value) "
206			" FROM tbl_meter_hourly "
207			" WHERE meter_id IN ( " + ', '.join(map(str, submeter_id_set)) + ") "
208			" AND start_datetime_utc >= %s "
209			" AND start_datetime_utc < %s "
210			" GROUP BY start_datetime_utc "
211			" ORDER BY start_datetime_utc ")
212			cursor_energy.execute(query, (reporting_start_datetime_utc, reporting_end_datetime_utc))
213			rows_submeters_hourly = cursor_energy.fetchall()
214
215			rows_submeters_periodically = utilities.aggregate_hourly_data_by_period(rows_submeters_hourly,
216			reporting_start_datetime_utc,
217			reporting_end_datetime_utc,
218			period_type)
219
220			for row_submeters_periodically in rows_submeters_periodically:
221			current_datetime_local = row_submeters_periodically[0].replace(tzinfo=timezone.utc) + \
222			timedelta(minutes=timezone_offset)
223			if period_type == 'hourly':
224			current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')
225			elif period_type == 'daily':
226			current_datetime = current_datetime_local.strftime('%Y-%m-%d')
227			elif period_type == 'monthly':
228			current_datetime = current_datetime_local.strftime('%Y-%m')
229			elif period_type == 'yearly':
230			current_datetime = current_datetime_local.strftime('%Y')
231
232			actual_value = Decimal(0.0) if row_submeters_periodically[1] is None else row_submeters_periodically[1]
233
234			reporting['submeters_values'].append(actual_value)
235			reporting['submeters_total_in_category'] += actual_value
236
237			################################################################################################################
238			# Step 6: calculate reporting period difference between master meter and submeters
239			################################################################################################################
240			if len(submeter_list) > 0:
241			for i in range(len(reporting['timestamps'])):
242			reporting['difference_values'].append(reporting['master_meter_values'][i] -
243			reporting['submeters_values'][i])
244			else:
245			for i in range(len(reporting['timestamps'])):
246			reporting['difference_values'].append(reporting['master_meter_values'][i])
247
248			reporting['total_difference_in_category'] = \
249			reporting['master_meter_total_in_category'] - reporting['submeters_total_in_category']
250
251			if abs(reporting['master_meter_total_in_category']) > Decimal(0.0):
252			reporting['percentage_difference'] = \
253			reporting['total_difference_in_category'] / reporting['master_meter_total_in_category']
254			elif abs(reporting['master_meter_total_in_category']) == Decimal(0.0) and \
255			abs(reporting['submeters_total_in_category']) > Decimal(0.0):
256			reporting['percentage_difference'] = Decimal(-1.0)
257
258			################################################################################################################
259			# Step 7: query submeter values as parameter data
260			################################################################################################################
261			for submeter in submeter_list:
262			submeter_timestamps = list()
263			submeter_values = list()
264
265			query = (" SELECT start_datetime_utc, actual_value "
266			" FROM tbl_meter_hourly "
267			" WHERE meter_id = %s "
268			" AND start_datetime_utc >= %s "
269			" AND start_datetime_utc < %s "
270			" ORDER BY start_datetime_utc ")
271			cursor_energy.execute(query, (submeter['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))
272			rows_meter_hourly = cursor_energy.fetchall()
273
274			rows_meter_periodically = utilities.aggregate_hourly_data_by_period(rows_meter_hourly,
275			reporting_start_datetime_utc,
276			reporting_end_datetime_utc,
277			period_type)
278
279			for row_meter_periodically in rows_meter_periodically:
280			current_datetime_local = row_meter_periodically[0].replace(tzinfo=timezone.utc) + \
281			timedelta(minutes=timezone_offset)
282			if period_type == 'hourly':
283			current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')
284			elif period_type == 'daily':
285			current_datetime = current_datetime_local.strftime('%Y-%m-%d')
286			elif period_type == 'monthly':
287			current_datetime = current_datetime_local.strftime('%Y-%m')
288			elif period_type == 'yearly':
289			current_datetime = current_datetime_local.strftime('%Y')
290
291			actual_value = Decimal(0.0) if row_meter_periodically[1] is None else row_meter_periodically[1]
292
293			submeter_timestamps.append(current_datetime)
294			submeter_values.append(actual_value)
295
296			parameters_data['names'].append(submeter['name'])
297			parameters_data['timestamps'].append(submeter_timestamps)
298			parameters_data['values'].append(submeter_values)
299
300			################################################################################################################
301			# Step 8: construct the report
302			################################################################################################################
303			if cursor_system:
304			cursor_system.close()
305			if cnx_system:
306			cnx_system.disconnect()
307
308			if cursor_energy:
309			cursor_energy.close()
310			if cnx_energy:
311			cnx_energy.disconnect()
312
313			result = {
314			"meter": {
315			"cost_center_id": master_meter['cost_center_id'],
316			"energy_category_id": master_meter['energy_category_id'],
317			"energy_category_name": master_meter['energy_category_name'],
318			"unit_of_measure": master_meter['unit_of_measure'],
319			},
320			"reporting_period": {
321			"master_meter_consumption_in_category": reporting['master_meter_total_in_category'],
322			"submeters_consumption_in_category": reporting['submeters_total_in_category'],
323			"difference_in_category": reporting['total_difference_in_category'],
324			"percentage_difference": reporting['percentage_difference'],
325			"timestamps": reporting['timestamps'],
326			"difference_values": reporting['difference_values'],
327			},
328			"parameters": {
329			"names": parameters_data['names'],
330			"timestamps": parameters_data['timestamps'],
331			"values": parameters_data['values']
332			},
333			}
334
335			# export result to Excel file and then encode the file to base64 string
336			result['excel_bytes_base64'] = excelexporters.metersubmetersbalance.export(result,
337			master_meter['name'],
338			reporting_period_start_datetime_local,
339			reporting_period_end_datetime_local,
340			period_type)
341
342			resp.body = json.dumps(result)
343

myems / myems-api

reports.metersubmetersbalance B last analyzed 2021-02-26 06:13 UTC

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reports.metersubmetersbalance B
last analyzed 2021-02-26 06:13 UTC