268 lines
13 KiB
Python
268 lines
13 KiB
Python
import time
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from datetime import datetime, timedelta
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from decimal import Decimal
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import mysql.connector
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import carbon_dioxide_emmision_factor
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import config
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########################################################################################################################
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# PROCEDURES
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# Step 1: get all offline meters
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# for each offline meter in list:
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# Step 2: get the latest start_datetime_utc
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# Step 3: get all energy data since the latest start_datetime_utc
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# Step 4: get carbon dioxide emission factor
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# Step 5: calculate carbon dioxide emission by multiplying energy with factor
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# Step 6: save carbon dioxide emission data to database
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########################################################################################################################
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def main(logger):
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while True:
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# the outermost while loop
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################################################################################################################
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# Step 1: get all offline meters
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################################################################################################################
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cnx_system_db = None
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cursor_system_db = None
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try:
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cnx_system_db = mysql.connector.connect(**config.myems_system_db)
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cursor_system_db = cnx_system_db.cursor()
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except Exception as e:
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logger.error("Error in step 1.1 of offline_meter_carbon " + str(e))
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if cursor_system_db:
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cursor_system_db.close()
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if cnx_system_db:
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cnx_system_db.close()
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# sleep and continue the outermost while loop
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time.sleep(60)
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continue
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print("Connected to MyEMS System Database")
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offline_meter_list = list()
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try:
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cursor_system_db.execute(" SELECT id, name, energy_category_id, cost_center_id "
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" FROM tbl_offline_meters "
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" ORDER BY id ")
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rows_offline_meters = cursor_system_db.fetchall()
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if rows_offline_meters is None or len(rows_offline_meters) == 0:
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print("Step 1.2: There isn't any offline meters. ")
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if cursor_system_db:
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cursor_system_db.close()
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if cnx_system_db:
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cnx_system_db.close()
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# sleep and continue the outermost while loop
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time.sleep(60)
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continue
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for row in rows_offline_meters:
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offline_meter_list.append({"id": row[0],
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"name": row[1],
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"energy_category_id": row[2],
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"cost_center_id": row[3]})
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except Exception as e:
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logger.error("Error in step 1.2 of offline_meter_carbon " + str(e))
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if cursor_system_db:
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cursor_system_db.close()
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if cnx_system_db:
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cnx_system_db.close()
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# sleep and continue the outermost while loop
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time.sleep(60)
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continue
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print("Step 1.2: Got all offline meters from MyEMS System Database")
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cnx_energy_db = None
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cursor_energy_db = None
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try:
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cnx_energy_db = mysql.connector.connect(**config.myems_energy_db)
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cursor_energy_db = cnx_energy_db.cursor()
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except Exception as e:
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logger.error("Error in step 1.3 of offline_meter_carbon " + str(e))
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if cursor_energy_db:
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cursor_energy_db.close()
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if cnx_energy_db:
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cnx_energy_db.close()
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if cursor_system_db:
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cursor_system_db.close()
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if cnx_system_db:
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cnx_system_db.close()
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# sleep and continue the outermost while loop
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time.sleep(60)
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continue
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print("Connected to MyEMS Energy Database")
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cnx_carbon_db = None
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cursor_carbon_db = None
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try:
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cnx_carbon_db = mysql.connector.connect(**config.myems_carbon_db)
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cursor_carbon_db = cnx_carbon_db.cursor()
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except Exception as e:
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logger.error("Error in step 1.4 of offline_meter_carbon " + str(e))
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if cursor_carbon_db:
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cursor_carbon_db.close()
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if cnx_carbon_db:
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cnx_carbon_db.close()
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if cursor_energy_db:
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cursor_energy_db.close()
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if cnx_energy_db:
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cnx_energy_db.close()
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if cursor_system_db:
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cursor_system_db.close()
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if cnx_system_db:
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cnx_system_db.close()
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# sleep and continue the outermost while loop
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time.sleep(60)
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continue
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print("Connected to MyEMS Carbon Database")
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for offline_meter in offline_meter_list:
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############################################################################################################
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# Step 2: get the latest start_datetime_utc
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############################################################################################################
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print("Step 2: get the latest start_datetime_utc from carbon database for " + offline_meter['name'])
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try:
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cursor_carbon_db.execute(" SELECT MAX(start_datetime_utc) "
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" FROM tbl_offline_meter_hourly "
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" WHERE offline_meter_id = %s ",
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(offline_meter['id'], ))
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row_datetime = cursor_carbon_db.fetchone()
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start_datetime_utc = datetime.strptime(config.start_datetime_utc, '%Y-%m-%d %H:%M:%S')
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start_datetime_utc = start_datetime_utc.replace(minute=0, second=0, microsecond=0, tzinfo=None)
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if row_datetime is not None and len(row_datetime) > 0 and isinstance(row_datetime[0], datetime):
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# replace second and microsecond with 0
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# note: do not replace minute in case of calculating in half hourly
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start_datetime_utc = row_datetime[0].replace(second=0, microsecond=0, tzinfo=None)
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# start from the next time slot
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start_datetime_utc += timedelta(minutes=config.minutes_to_count)
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print("start_datetime_utc: " + start_datetime_utc.isoformat()[0:19])
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except Exception as e:
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logger.error("Error in step 2 of offline_meter_carbon " + str(e))
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# break the for offline meter loop
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break
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############################################################################################################
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# Step 3: get all energy data since the latest start_datetime_utc
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############################################################################################################
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print("Step 3: get all energy data since the latest start_datetime_utc")
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query = (" SELECT start_datetime_utc, actual_value "
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" FROM tbl_offline_meter_hourly "
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" WHERE offline_meter_id = %s AND start_datetime_utc >= %s "
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" ORDER BY id ")
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cursor_energy_db.execute(query, (offline_meter['id'], start_datetime_utc, ))
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rows_hourly = cursor_energy_db.fetchall()
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if rows_hourly is None or len(rows_hourly) == 0:
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print("Step 3: There isn't any energy input data to calculate. ")
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# continue the for offline meter loop
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continue
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energy_dict = dict()
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energy_category_list = list()
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energy_category_list.append(offline_meter['energy_category_id'])
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end_datetime_utc = start_datetime_utc
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for row_hourly in rows_hourly:
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current_datetime_utc = row_hourly[0]
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actual_value = row_hourly[1]
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if energy_dict.get(current_datetime_utc) is None:
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energy_dict[current_datetime_utc] = dict()
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energy_dict[current_datetime_utc][offline_meter['energy_category_id']] = actual_value
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if current_datetime_utc > end_datetime_utc:
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end_datetime_utc = current_datetime_utc
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############################################################################################################
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# Step 4: get carbon dioxide emission factor
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############################################################################################################
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print("Step 4: get carbon dioxide emission factor")
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factor_dict = dict()
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for energy_category_id in energy_category_list:
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factor_dict[energy_category_id] = \
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carbon_dioxide_emmision_factor.get_energy_category_factor(
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energy_category_id,
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start_datetime_utc,
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end_datetime_utc)
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############################################################################################################
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# Step 5: calculate carbon dioxide emission by multiplying energy with factor
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############################################################################################################
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print("Step 5: calculate carbon dioxide emission by multiplying energy with factor")
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carbon_dict = dict()
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if len(energy_dict) > 0:
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for current_datetime_utc in energy_dict.keys():
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carbon_dict[current_datetime_utc] = dict()
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for energy_category_id in energy_category_list:
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current_factor = factor_dict[energy_category_id]
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current_energy = energy_dict[current_datetime_utc].get(energy_category_id)
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if current_factor is not None \
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and isinstance(current_factor, Decimal) \
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and current_energy is not None \
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and isinstance(current_energy, Decimal):
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carbon_dict[current_datetime_utc][energy_category_id] = \
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current_energy * current_factor
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if len(carbon_dict[current_datetime_utc]) == 0:
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del carbon_dict[current_datetime_utc]
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############################################################################################################
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# Step 6: save carbon dioxide emission data to database
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############################################################################################################
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print("Step 6: save carbon dioxide emission data to database")
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if len(carbon_dict) > 0:
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try:
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add_values = (" INSERT INTO tbl_offline_meter_hourly "
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" (offline_meter_id, "
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" start_datetime_utc, "
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" actual_value) "
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" VALUES ")
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for current_datetime_utc in carbon_dict:
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for energy_category_id in energy_category_list:
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current_carbon = carbon_dict[current_datetime_utc].get(energy_category_id)
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if current_carbon is not None and isinstance(current_carbon, Decimal):
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add_values += " (" + str(offline_meter['id']) + ","
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add_values += "'" + current_datetime_utc.isoformat()[0:19] + "',"
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add_values += str(carbon_dict[current_datetime_utc][energy_category_id]) + "), "
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print("add_values:" + add_values)
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# trim ", " at the end of string and then execute
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cursor_carbon_db.execute(add_values[:-2])
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cnx_carbon_db.commit()
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except Exception as e:
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logger.error("Error in step 6 of offline_meter_carbon " + str(e))
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# break the for offline meter loop
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break
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# end of for offline meter loop
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if cursor_system_db:
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cursor_system_db.close()
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if cnx_system_db:
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cnx_system_db.close()
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if cursor_energy_db:
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cursor_energy_db.close()
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if cnx_energy_db:
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cnx_energy_db.close()
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if cursor_carbon_db:
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cursor_carbon_db.close()
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if cnx_carbon_db:
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cnx_carbon_db.close()
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print("go to sleep 300 seconds...")
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time.sleep(300)
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print("wake from sleep, and continue to work...")
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# end of the outermost while loop
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