myems /
myems-normalization
| Total Complexity | 124 |
| Total Lines | 476 |
| Duplicated Lines | 9.24 % |
| Changes | 0 | ||
Duplicate code is one of the most pungent code smells. A rule that is often used is to re-structure code once it is duplicated in three or more places.
Common duplication problems, and corresponding solutions are:
Complex classes like virtualmeter often do a lot of different things. To break such a class down, we need to identify a cohesive component within that class. A common approach to find such a component is to look for fields/methods that share the same prefixes, or suffixes.
Once you have determined the fields that belong together, you can apply the Extract Class refactoring. If the component makes sense as a sub-class, Extract Subclass is also a candidate, and is often faster.
| 1 | import time |
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| 2 | from datetime import datetime, timedelta |
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| 3 | import mysql.connector |
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| 4 | from sympy import sympify |
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| 5 | from multiprocessing import Pool |
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| 6 | import random |
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| 7 | import config |
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| 8 | |||
| 9 | |||
| 10 | ######################################################################################################################## |
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| 11 | # PROCEDURES: |
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| 12 | # Step 1: Query all virtual meters |
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| 13 | # Step 2: Create multiprocessing pool to call worker in parallel |
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| 14 | ######################################################################################################################## |
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| 15 | |||
| 16 | def calculate_hourly(logger): |
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| 17 | |||
| 18 | while True: |
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| 19 | # outer loop to reconnect server if there is a connection error |
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| 20 | cnx_system_db = None |
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| 21 | cursor_system_db = None |
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| 22 | try: |
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| 23 | cnx_system_db = mysql.connector.connect(**config.myems_system_db) |
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| 24 | cursor_system_db = cnx_system_db.cursor() |
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| 25 | except Exception as e: |
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| 26 | logger.error("Error in step 0 of virtual_meter.calculate_hourly " + str(e)) |
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| 27 | if cursor_system_db: |
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| 28 | cursor_system_db.close() |
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| 29 | if cnx_system_db: |
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| 30 | cnx_system_db.close() |
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| 31 | # sleep and continue the outer loop to reconnect the database |
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| 32 | time.sleep(60) |
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| 33 | continue |
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| 34 | |||
| 35 | print("Connected to MyEMS System Database") |
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| 36 | |||
| 37 | virtual_meter_list = list() |
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| 38 | try: |
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| 39 | cursor_system_db.execute(" SELECT m.id, m.name, e.equation, e.id as expression_id " |
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| 40 | " FROM tbl_virtual_meters m, tbl_expressions e " |
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| 41 | " WHERE m.id = e.virtual_meter_id " |
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| 42 | " ORDER BY m.id ") |
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| 43 | rows_virtual_meters = cursor_system_db.fetchall() |
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| 44 | |||
| 45 | if rows_virtual_meters is None or len(rows_virtual_meters) == 0: |
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| 46 | # sleep several minutes and continue the outer loop to reconnect the database |
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| 47 | time.sleep(60) |
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| 48 | continue |
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| 49 | |||
| 50 | for row in rows_virtual_meters: |
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| 51 | meta_result = {"id": row[0], "name": row[1], "equation": row[2], "expression_id": row[3]} |
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| 52 | virtual_meter_list.append(meta_result) |
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| 53 | |||
| 54 | except Exception as e: |
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| 55 | logger.error("Error in step 1 of virtual meter calculate hourly " + str(e)) |
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| 56 | # sleep and continue the outer loop to reconnect the database |
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| 57 | time.sleep(60) |
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| 58 | continue |
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| 59 | finally: |
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| 60 | if cursor_system_db: |
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| 61 | cursor_system_db.close() |
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| 62 | if cnx_system_db: |
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| 63 | cnx_system_db.close() |
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| 64 | |||
| 65 | # shuffle the virtual meter list for randomly calculating the meter hourly value |
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| 66 | random.shuffle(virtual_meter_list) |
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| 67 | |||
| 68 | print("Got all virtual meters in MyEMS System Database") |
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| 69 | ################################################################################################################ |
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| 70 | # Step 2: Create multiprocessing pool to call worker in parallel |
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| 71 | ################################################################################################################ |
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| 72 | p = Pool(processes=config.pool_size) |
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| 73 | error_list = p.map(worker, virtual_meter_list) |
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| 74 | p.close() |
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| 75 | p.join() |
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| 76 | |||
| 77 | for error in error_list: |
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| 78 | if error is not None and len(error) > 0: |
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| 79 | logger.error(error) |
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| 80 | |||
| 81 | print("go to sleep ...") |
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| 82 | time.sleep(60) |
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| 83 | print("wake from sleep, and continue to work...") |
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| 84 | |||
| 85 | |||
| 86 | ######################################################################################################################## |
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| 87 | # Step 1: get start datetime and end datetime |
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| 88 | # Step 2: parse the expression and get all meters, virtual meters, offline meters associated with the expression |
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| 89 | # Step 3: query energy consumption values from table meter hourly, virtual meter hourly and offline meter hourly |
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| 90 | # Step 4: evaluate the equation with variables values from previous step and save to table virtual meter hourly |
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| 91 | # returns the error string for logging or returns None |
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| 92 | ######################################################################################################################## |
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| 93 | |||
| 94 | def worker(virtual_meter): |
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| 95 | cnx_energy_db = None |
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| 96 | cursor_energy_db = None |
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| 97 | |||
| 98 | try: |
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| 99 | cnx_energy_db = mysql.connector.connect(**config.myems_energy_db) |
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| 100 | cursor_energy_db = cnx_energy_db.cursor() |
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| 101 | except Exception as e: |
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| 102 | if cursor_energy_db: |
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| 103 | cursor_energy_db.close() |
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| 104 | if cnx_energy_db: |
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| 105 | cnx_energy_db.close() |
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| 106 | return "Error in step 1.1 of virtual meter worker " + str(e) + " for '" + virtual_meter['name'] + "'" |
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| 107 | |||
| 108 | print("Start to process virtual meter: " + "'" + virtual_meter['name']+"'") |
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| 109 | |||
| 110 | #################################################################################################################### |
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| 111 | # step 1: get start datetime and end datetime |
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| 112 | # get latest timestamp from energy database in tbl_virtual_meter_hourly |
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| 113 | #################################################################################################################### |
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| 114 | |||
| 115 | try: |
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| 116 | query = (" SELECT MAX(start_datetime_utc) " |
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| 117 | " FROM tbl_virtual_meter_hourly " |
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| 118 | " WHERE virtual_meter_id = %s ") |
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| 119 | cursor_energy_db.execute(query, (virtual_meter['id'],)) |
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| 120 | row_datetime = cursor_energy_db.fetchone() |
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| 121 | except Exception as e: |
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| 122 | if cursor_energy_db: |
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| 123 | cursor_energy_db.close() |
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| 124 | if cnx_energy_db: |
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| 125 | cnx_energy_db.close() |
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| 126 | return "Error in step 1.2 of virtual meter worker " + str(e) + " for '" + virtual_meter['name'] + "'" |
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| 127 | |||
| 128 | start_datetime_utc = datetime.strptime(config.start_datetime_utc, '%Y-%m-%d %H:%M:%S') |
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| 129 | start_datetime_utc = start_datetime_utc.replace(minute=0, second=0, microsecond=0, tzinfo=None) |
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| 130 | |||
| 131 | if row_datetime is not None and len(row_datetime) > 0 and isinstance(row_datetime[0], datetime): |
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| 132 | # replace second and microsecond with 0 |
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| 133 | # note: do not replace minute in case of calculating in half hourly |
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| 134 | start_datetime_utc = row_datetime[0].replace(second=0, microsecond=0, tzinfo=None) |
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| 135 | # start from the next time slot |
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| 136 | start_datetime_utc += timedelta(minutes=config.minutes_to_count) |
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| 137 | |||
| 138 | end_datetime_utc = datetime.utcnow().replace() |
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| 139 | end_datetime_utc = end_datetime_utc.replace(second=0, microsecond=0, tzinfo=None) |
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| 140 | |||
| 141 | time_difference = end_datetime_utc - start_datetime_utc |
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| 142 | time_difference_in_minutes = time_difference / timedelta(minutes=1) |
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| 143 | if time_difference_in_minutes < config.minutes_to_count: |
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| 144 | if cursor_energy_db: |
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| 145 | cursor_energy_db.close() |
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| 146 | if cnx_energy_db: |
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| 147 | cnx_energy_db.close() |
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| 148 | return "it's too early to calculate" + " for '" + virtual_meter['name'] + "'" |
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| 149 | |||
| 150 | # trim end_datetime_utc |
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| 151 | trimmed_end_datetime_utc = start_datetime_utc + timedelta(minutes=config.minutes_to_count) |
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| 152 | while trimmed_end_datetime_utc <= end_datetime_utc: |
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| 153 | trimmed_end_datetime_utc += timedelta(minutes=config.minutes_to_count) |
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| 154 | |||
| 155 | end_datetime_utc = trimmed_end_datetime_utc - timedelta(minutes=config.minutes_to_count) |
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| 156 | |||
| 157 | if end_datetime_utc <= start_datetime_utc: |
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| 158 | if cursor_energy_db: |
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| 159 | cursor_energy_db.close() |
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| 160 | if cnx_energy_db: |
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| 161 | cnx_energy_db.close() |
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| 162 | return "it's too early to calculate" + " for '" + virtual_meter['name'] + "'" |
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| 163 | |||
| 164 | print("start_datetime_utc: " + start_datetime_utc.isoformat()[0:19] |
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| 165 | + "end_datetime_utc: " + end_datetime_utc.isoformat()[0:19]) |
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| 166 | |||
| 167 | ############################################################################################################ |
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| 168 | # Step 2: parse the expression and get all meters, virtual meters, and |
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| 169 | # offline meters associated with the expression |
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| 170 | ############################################################################################################ |
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| 171 | cnx_factory_db = None |
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| 172 | cursor_factory_db = None |
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| 173 | try: |
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| 174 | cnx_factory_db = mysql.connector.connect(**config.myems_system_db) |
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| 175 | cursor_factory_db = cnx_factory_db.cursor() |
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| 176 | except Exception as e: |
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| 177 | if cursor_factory_db: |
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| 178 | cursor_factory_db.close() |
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| 179 | if cnx_factory_db: |
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| 180 | cnx_factory_db.close() |
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| 181 | if cursor_energy_db: |
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| 182 | cursor_energy_db.close() |
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| 183 | if cnx_energy_db: |
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| 184 | cnx_energy_db.close() |
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| 185 | return "Error in step 2.1 of virtual meter worker " + str(e) + " for '" + virtual_meter['name'] + "'" |
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| 186 | |||
| 187 | meter_list_in_expression = list() |
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| 188 | virtual_meter_list_in_expression = list() |
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| 189 | offline_meter_list_in_expression = list() |
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| 190 | try: |
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| 191 | ######################################################################################################## |
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| 192 | # get all meters associated with the expression |
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| 193 | ######################################################################################################## |
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| 194 | |||
| 195 | cursor_factory_db.execute(" SELECT m.id as meter_id, v.name as variable_name " |
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| 196 | " FROM tbl_meters m, tbl_variables v " |
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| 197 | " WHERE m.id = v.meter_id " |
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| 198 | " AND v.meter_type = 'meter' " |
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| 199 | " AND v.expression_id = %s ", |
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| 200 | (virtual_meter['expression_id'], )) |
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| 201 | rows = cursor_factory_db.fetchall() |
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| 202 | if rows is not None and len(rows) > 0: |
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| 203 | for row in rows: |
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| 204 | meter_list_in_expression.append({"meter_id": row[0], "variable_name": row[1].lower()}) |
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| 205 | |||
| 206 | ######################################################################################################## |
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| 207 | # get all virtual meters associated with the expression |
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| 208 | ######################################################################################################## |
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| 209 | |||
| 210 | cursor_factory_db.execute(" SELECT m.id as virtual_meter_id, v.name as variable_name " |
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| 211 | " FROM tbl_virtual_meters m, tbl_variables v " |
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| 212 | " WHERE m.id = v.meter_id " |
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| 213 | " AND v.meter_type = 'virtual_meter' " |
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| 214 | " AND v.expression_id = %s ", |
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| 215 | (virtual_meter['expression_id'],)) |
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| 216 | rows = cursor_factory_db.fetchall() |
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| 217 | if rows is not None and len(rows) > 0: |
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| 218 | for row in rows: |
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| 219 | virtual_meter_list_in_expression.append({"virtual_meter_id": row[0], |
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| 220 | "variable_name": row[1].lower()}) |
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| 221 | |||
| 222 | ######################################################################################################## |
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| 223 | # get all offline meters associated with the expression |
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| 224 | ######################################################################################################## |
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| 225 | |||
| 226 | cursor_factory_db.execute(" SELECT m.id as offline_meter_id, v.name as variable_name " |
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| 227 | " FROM tbl_offline_meters m, tbl_variables v " |
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| 228 | " WHERE m.id = v.meter_id " |
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| 229 | " AND v.meter_type = 'offline_meter' " |
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| 230 | " AND v.expression_id = %s ", |
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| 231 | (virtual_meter['expression_id'],)) |
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| 232 | rows = cursor_factory_db.fetchall() |
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| 233 | if rows is not None and len(rows) > 0: |
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| 234 | for row in rows: |
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| 235 | offline_meter_list_in_expression.append({"offline_meter_id": row[0], |
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| 236 | "variable_name": row[1].lower()}) |
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| 237 | except Exception as e: |
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| 238 | if cursor_energy_db: |
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| 239 | cursor_energy_db.close() |
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| 240 | if cnx_energy_db: |
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| 241 | cnx_energy_db.close() |
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| 242 | return "Error in step 2.2 of virtual meter worker " + str(e) + " for '" + virtual_meter['name'] + "'" |
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| 243 | finally: |
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| 244 | if cursor_factory_db: |
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| 245 | cursor_factory_db.close() |
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| 246 | if cnx_factory_db: |
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| 247 | cnx_factory_db.close() |
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| 248 | |||
| 249 | ############################################################################################################ |
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| 250 | # Step 3: query energy consumption values from table meter hourly, virtual meter hourly |
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| 251 | # and offline meter hourly |
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| 252 | ############################################################################################################ |
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| 253 | |||
| 254 | print("getting energy consumption values from myems_energy_db.tbl_meter_hourly...") |
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| 255 | energy_meter_hourly = dict() |
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| 256 | if meter_list_in_expression is not None and len(meter_list_in_expression) > 0: |
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| 257 | try: |
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| 258 | for meter_in_expression in meter_list_in_expression: |
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| 259 | meter_id = str(meter_in_expression['meter_id']) |
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| 260 | query = (" SELECT start_datetime_utc, actual_value " |
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| 261 | " FROM tbl_meter_hourly " |
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| 262 | " WHERE meter_id = %s AND start_datetime_utc >= %s AND start_datetime_utc < %s " |
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| 263 | " ORDER BY start_datetime_utc ") |
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| 264 | cursor_energy_db.execute(query, (meter_id, start_datetime_utc, end_datetime_utc, )) |
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| 265 | rows_energy_values = cursor_energy_db.fetchall() |
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| 266 | if rows_energy_values is None or len(rows_energy_values) == 0: |
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| 267 | energy_meter_hourly[meter_id] = None |
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| 268 | else: |
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| 269 | energy_meter_hourly[meter_id] = dict() |
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| 270 | for row_energy_value in rows_energy_values: |
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| 271 | energy_meter_hourly[meter_id][row_energy_value[0]] = row_energy_value[1] |
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| 272 | except Exception as e: |
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| 273 | if cursor_energy_db: |
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| 274 | cursor_energy_db.close() |
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| 275 | if cnx_energy_db: |
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| 276 | cnx_energy_db.close() |
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| 277 | return "Error in step 3.2 virtual meter worker " + str(e) + " for '" + virtual_meter['name'] + "'" |
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| 278 | |||
| 279 | print("getting energy consumption values from myems_energy_db.tbl_virtual_meter_hourly...") |
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| 280 | energy_virtual_meter_hourly = dict() |
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| 281 | if virtual_meter_list_in_expression is not None and len(virtual_meter_list_in_expression) > 0: |
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| 282 | try: |
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| 283 | for virtual_meter_in_expression in virtual_meter_list_in_expression: |
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| 284 | virtual_meter_id = str(virtual_meter_in_expression['virtual_meter_id']) |
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| 285 | query = (" SELECT start_datetime_utc, actual_value " |
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| 286 | " FROM tbl_virtual_meter_hourly " |
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| 287 | " WHERE virtual_meter_id = %s " |
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| 288 | " AND start_datetime_utc >= %s AND start_datetime_utc < %s " |
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| 289 | " ORDER BY start_datetime_utc ") |
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| 290 | cursor_energy_db.execute(query, (virtual_meter_id, start_datetime_utc, end_datetime_utc,)) |
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| 291 | rows_energy_values = cursor_energy_db.fetchall() |
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| 292 | if rows_energy_values is None or len(rows_energy_values) == 0: |
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| 293 | energy_virtual_meter_hourly[virtual_meter_id] = None |
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| 294 | else: |
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| 295 | energy_virtual_meter_hourly[virtual_meter_id] = dict() |
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| 296 | for row_energy_value in rows_energy_values: |
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| 297 | energy_virtual_meter_hourly[virtual_meter_id][row_energy_value[0]] = row_energy_value[1] |
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| 298 | except Exception as e: |
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| 299 | if cursor_energy_db: |
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| 300 | cursor_energy_db.close() |
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| 301 | if cnx_energy_db: |
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| 302 | cnx_energy_db.close() |
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| 303 | return "Error in step 3.3 virtual meter worker " + str(e) + " for '" + virtual_meter['name'] + "'" |
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| 304 | |||
| 305 | print("getting energy consumption values from myems_energy_db.tbl_offline_meter_hourly...") |
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| 306 | energy_offline_meter_hourly = dict() |
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| 307 | if offline_meter_list_in_expression is not None and len(offline_meter_list_in_expression) > 0: |
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| 308 | try: |
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| 309 | for offline_meter_in_expression in offline_meter_list_in_expression: |
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| 310 | offline_meter_id = str(offline_meter_in_expression['offline_meter_id']) |
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| 311 | query = (" SELECT start_datetime_utc, actual_value " |
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| 312 | " FROM tbl_offline_meter_hourly " |
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| 313 | " WHERE offline_meter_id = %s " |
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| 314 | " AND start_datetime_utc >= %s AND start_datetime_utc < %s " |
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| 315 | " ORDER BY start_datetime_utc ") |
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| 316 | cursor_energy_db.execute(query, (offline_meter_id, start_datetime_utc, end_datetime_utc,)) |
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| 317 | rows_energy_values = cursor_energy_db.fetchall() |
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| 318 | if rows_energy_values is None or len(rows_energy_values) == 0: |
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| 319 | energy_offline_meter_hourly[offline_meter_id] = None |
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| 320 | else: |
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| 321 | energy_offline_meter_hourly[offline_meter_id] = dict() |
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| 322 | for row_energy_value in rows_energy_values: |
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| 323 | energy_offline_meter_hourly[offline_meter_id][row_energy_value[0]] = row_energy_value[1] |
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| 324 | except Exception as e: |
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| 325 | if cursor_energy_db: |
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| 326 | cursor_energy_db.close() |
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| 327 | if cnx_energy_db: |
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| 328 | cnx_energy_db.close() |
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| 329 | return "Error in step 3.4 virtual meter worker " + str(e) + " for '" + virtual_meter['name'] + "'" |
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| 330 | |||
| 331 | ############################################################################################################ |
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| 332 | # Step 4: evaluate the equation with variables values from previous step |
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| 333 | # and save to table virtual meter hourly |
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| 334 | ############################################################################################################ |
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| 335 | |||
| 336 | print("getting common time slot of energy values for all meters...") |
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| 337 | common_start_datetime_utc = start_datetime_utc |
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| 338 | common_end_datetime_utc = end_datetime_utc |
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| 339 | if energy_meter_hourly is not None and len(energy_meter_hourly) > 0: |
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| 340 | for meter_id, energy_hourly in energy_meter_hourly.items(): |
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| 341 | if energy_hourly is None or len(energy_hourly) == 0: |
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| 342 | common_start_datetime_utc = None |
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| 343 | common_end_datetime_utc = None |
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| 344 | break |
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| 345 | else: |
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| 346 | if common_start_datetime_utc < min(energy_hourly.keys()): |
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| 347 | common_start_datetime_utc = min(energy_hourly.keys()) |
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| 348 | if common_end_datetime_utc > max(energy_hourly.keys()): |
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| 349 | common_end_datetime_utc = max(energy_hourly.keys()) |
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| 350 | |||
| 351 | print("getting common time slot of energy values for all virtual meters...") |
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| 352 | View Code Duplication | if common_start_datetime_utc is not None and common_start_datetime_utc is not None: |
|
|
Duplication
introduced
by
|
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| 353 | if energy_virtual_meter_hourly is not None and len(energy_virtual_meter_hourly) > 0: |
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| 354 | for meter_id, energy_hourly in energy_virtual_meter_hourly.items(): |
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| 355 | if energy_hourly is None or len(energy_hourly) == 0: |
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| 356 | common_start_datetime_utc = None |
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| 357 | common_end_datetime_utc = None |
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| 358 | break |
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| 359 | else: |
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| 360 | if common_start_datetime_utc < min(energy_hourly.keys()): |
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| 361 | common_start_datetime_utc = min(energy_hourly.keys()) |
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| 362 | if common_end_datetime_utc > max(energy_hourly.keys()): |
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| 363 | common_end_datetime_utc = max(energy_hourly.keys()) |
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| 364 | |||
| 365 | print("getting common time slot of energy values for all offline meters...") |
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| 366 | View Code Duplication | if common_start_datetime_utc is not None and common_start_datetime_utc is not None: |
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| 367 | if energy_offline_meter_hourly is not None and len(energy_offline_meter_hourly) > 0: |
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| 368 | for meter_id, energy_hourly in energy_offline_meter_hourly.items(): |
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| 369 | if energy_hourly is None or len(energy_hourly) == 0: |
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| 370 | common_start_datetime_utc = None |
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| 371 | common_end_datetime_utc = None |
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| 372 | break |
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| 373 | else: |
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| 374 | if common_start_datetime_utc < min(energy_hourly.keys()): |
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| 375 | common_start_datetime_utc = min(energy_hourly.keys()) |
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| 376 | if common_end_datetime_utc > max(energy_hourly.keys()): |
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| 377 | common_end_datetime_utc = max(energy_hourly.keys()) |
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| 378 | |||
| 379 | print("evaluating the equation with SymPy...") |
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| 380 | normalized_values = list() |
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| 381 | |||
| 382 | ############################################################################################################ |
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| 383 | # Converting Strings to SymPy Expressions |
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| 384 | # The sympify function(that’s sympify, not to be confused with simplify) can be used to |
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| 385 | # convert strings into SymPy expressions. |
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| 386 | ############################################################################################################ |
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| 387 | try: |
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| 388 | expr = sympify(virtual_meter['equation'].lower()) |
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| 389 | print("the expression to be evaluated: " + str(expr)) |
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| 390 | current_datetime_utc = common_start_datetime_utc |
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| 391 | print("common_start_datetime_utc: " + str(common_start_datetime_utc)) |
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| 392 | print("common_end_datetime_utc: " + str(common_end_datetime_utc)) |
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| 393 | while common_start_datetime_utc is not None \ |
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| 394 | and common_end_datetime_utc is not None \ |
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| 395 | and current_datetime_utc <= common_end_datetime_utc: |
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| 396 | meta_data = dict() |
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| 397 | meta_data['start_datetime_utc'] = current_datetime_utc |
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| 398 | |||
| 399 | #################################################################################################### |
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| 400 | # create a dictionary of Symbol: point pairs |
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| 401 | #################################################################################################### |
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| 402 | |||
| 403 | subs = dict() |
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| 404 | |||
| 405 | #################################################################################################### |
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| 406 | # Evaluating the expression at current_datetime_utc |
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| 407 | #################################################################################################### |
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| 408 | |||
| 409 | if meter_list_in_expression is not None and len(meter_list_in_expression) > 0: |
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| 410 | for meter_in_expression in meter_list_in_expression: |
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| 411 | meter_id = str(meter_in_expression['meter_id']) |
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| 412 | actual_value = energy_meter_hourly[meter_id].get(current_datetime_utc, 0.0) |
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| 413 | subs[meter_in_expression['variable_name']] = actual_value |
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| 414 | |||
| 415 | if virtual_meter_list_in_expression is not None and len(virtual_meter_list_in_expression) > 0: |
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| 416 | for virtual_meter_in_expression in virtual_meter_list_in_expression: |
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| 417 | virtual_meter_id = str(virtual_meter_in_expression['virtual_meter_id']) |
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| 418 | actual_value = energy_virtual_meter_hourly[virtual_meter_id].get(current_datetime_utc, 0.0) |
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| 419 | subs[virtual_meter_in_expression['variable_name']] = actual_value |
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| 420 | |||
| 421 | if offline_meter_list_in_expression is not None and len(offline_meter_list_in_expression) > 0: |
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| 422 | for offline_meter_in_expression in offline_meter_list_in_expression: |
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| 423 | offline_meter_id = str(offline_meter_in_expression['offline_meter_id']) |
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| 424 | actual_value = energy_offline_meter_hourly[offline_meter_id].get(current_datetime_utc, 0.0) |
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| 425 | subs[offline_meter_in_expression['variable_name']] = actual_value |
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| 426 | |||
| 427 | #################################################################################################### |
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| 428 | # To numerically evaluate an expression with a Symbol at a point, |
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| 429 | # we might use subs followed by evalf, |
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| 430 | # but it is more efficient and numerically stable to pass the substitution to evalf |
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| 431 | # using the subs flag, which takes a dictionary of Symbol: point pairs. |
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| 432 | #################################################################################################### |
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| 433 | |||
| 434 | meta_data['actual_value'] = expr.evalf(subs=subs) |
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| 435 | |||
| 436 | normalized_values.append(meta_data) |
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| 437 | |||
| 438 | current_datetime_utc += timedelta(minutes=config.minutes_to_count) |
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| 439 | |||
| 440 | except Exception as e: |
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| 441 | if cursor_energy_db: |
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| 442 | cursor_energy_db.close() |
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| 443 | if cnx_energy_db: |
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| 444 | cnx_energy_db.close() |
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| 445 | return "Error in step 4.1 virtual meter worker " + str(e) + " for '" + virtual_meter['name'] + "'" |
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| 446 | |||
| 447 | print("saving energy values to table virtual meter hourly...") |
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| 448 | |||
| 449 | View Code Duplication | if len(normalized_values) > 0: |
|
| 450 | try: |
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| 451 | add_values = (" INSERT INTO tbl_virtual_meter_hourly " |
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| 452 | " (virtual_meter_id, start_datetime_utc, actual_value) " |
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| 453 | " VALUES ") |
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| 454 | |||
| 455 | for meta_data in normalized_values: |
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| 456 | add_values += " (" + str(virtual_meter['id']) + "," |
||
| 457 | add_values += "'" + meta_data['start_datetime_utc'].isoformat()[0:19] + "'," |
||
| 458 | add_values += str(meta_data['actual_value']) + "), " |
||
| 459 | print("add_values:" + add_values) |
||
| 460 | # trim ", " at the end of string and then execute |
||
| 461 | cursor_energy_db.execute(add_values[:-2]) |
||
| 462 | cnx_energy_db.commit() |
||
| 463 | except Exception as e: |
||
| 464 | if cursor_energy_db: |
||
| 465 | cursor_energy_db.close() |
||
| 466 | if cnx_energy_db: |
||
| 467 | cnx_energy_db.close() |
||
| 468 | return "Error in step 4.2 virtual meter worker " + str(e) + " for '" + virtual_meter['name'] + "'" |
||
| 469 | |||
| 470 | if cursor_energy_db: |
||
| 471 | cursor_energy_db.close() |
||
| 472 | if cnx_energy_db: |
||
| 473 | cnx_energy_db.close() |
||
| 474 | |||
| 475 | return None |
||
| 476 |
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