myems-api/reports/offlinemetercarbon.py
from datetime import datetime, timedelta, timezone
from decimal import Decimal
import falcon
import mysql.connector
import simplejson as json
import config
import excelexporters.offlinemetercarbon
from core import utilities
from core.useractivity import access_control, api_key_control
class Reporting:
def __init__(self):
""""Initializes Reporting"""
pass
@staticmethod
def on_options(req, resp):
resp.status = falcon.HTTP_200
####################################################################################################################
# PROCEDURES
# Step 1: valid parameters
# Step 2: query the offline meter and energy category
# Step 3: query base period energy consumption
# Step 4: query base period energy carbon dioxide emissions
# Step 5: query reporting period energy consumption
# Step 6: query reporting period energy carbon dioxide emissions
# Step 7: query tariff data
# Step 8: construct the report
####################################################################################################################
@staticmethod
def on_get(req, resp):
if 'API-KEY' not in req.headers or \
not isinstance(req.headers['API-KEY'], str) or \
len(str.strip(req.headers['API-KEY'])) == 0:
access_control(req)
else:
api_key_control(req)
print(req.params)
offline_meter_id = req.params.get('offlinemeterid')
period_type = req.params.get('periodtype')
base_period_start_datetime_local = req.params.get('baseperiodstartdatetime')
base_period_end_datetime_local = req.params.get('baseperiodenddatetime')
reporting_period_start_datetime_local = req.params.get('reportingperiodstartdatetime')
reporting_period_end_datetime_local = req.params.get('reportingperiodenddatetime')
language = req.params.get('language')
quick_mode = req.params.get('quickmode')
################################################################################################################
# Step 1: valid parameters
################################################################################################################
if offline_meter_id is None:
raise falcon.HTTPError(status=falcon.HTTP_400,
title='API.BAD_REQUEST',
description='API.INVALID_OFFLINE_METER_ID')
else:
offline_meter_id = str.strip(offline_meter_id)
if not offline_meter_id.isdigit() or int(offline_meter_id) <= 0:
raise falcon.HTTPError(status=falcon.HTTP_400,
title='API.BAD_REQUEST',
description='API.INVALID_OFFLINE_METER_ID')
if period_type is None:
raise falcon.HTTPError(status=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', 'weekly', 'monthly', 'yearly']:
raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST',
description='API.INVALID_PERIOD_TYPE')
timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])
if config.utc_offset[0] == '-':
timezone_offset = -timezone_offset
base_start_datetime_utc = None
if base_period_start_datetime_local is not None and len(str.strip(base_period_start_datetime_local)) > 0:
base_period_start_datetime_local = str.strip(base_period_start_datetime_local)
try:
base_start_datetime_utc = datetime.strptime(base_period_start_datetime_local, '%Y-%m-%dT%H:%M:%S')
except ValueError:
raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST',
description="API.INVALID_BASE_PERIOD_START_DATETIME")
base_start_datetime_utc = \
base_start_datetime_utc.replace(tzinfo=timezone.utc) - timedelta(minutes=timezone_offset)
# nomalize the start datetime
if config.minutes_to_count == 30 and base_start_datetime_utc.minute >= 30:
base_start_datetime_utc = base_start_datetime_utc.replace(minute=30, second=0, microsecond=0)
else:
base_start_datetime_utc = base_start_datetime_utc.replace(minute=0, second=0, microsecond=0)
base_end_datetime_utc = None
if base_period_end_datetime_local is not None and len(str.strip(base_period_end_datetime_local)) > 0:
base_period_end_datetime_local = str.strip(base_period_end_datetime_local)
try:
base_end_datetime_utc = datetime.strptime(base_period_end_datetime_local, '%Y-%m-%dT%H:%M:%S')
except ValueError:
raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST',
description="API.INVALID_BASE_PERIOD_END_DATETIME")
base_end_datetime_utc = \
base_end_datetime_utc.replace(tzinfo=timezone.utc) - timedelta(minutes=timezone_offset)
if base_start_datetime_utc is not None and base_end_datetime_utc is not None and \
base_start_datetime_utc >= base_end_datetime_utc:
raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST',
description='API.INVALID_BASE_PERIOD_END_DATETIME')
if reporting_period_start_datetime_local is None:
raise falcon.HTTPError(status=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(status=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)
# nomalize the start datetime
if config.minutes_to_count == 30 and reporting_start_datetime_utc.minute >= 30:
reporting_start_datetime_utc = reporting_start_datetime_utc.replace(minute=30, second=0, microsecond=0)
else:
reporting_start_datetime_utc = reporting_start_datetime_utc.replace(minute=0, second=0, microsecond=0)
if reporting_period_end_datetime_local is None:
raise falcon.HTTPError(status=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(status=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(status=falcon.HTTP_400, title='API.BAD_REQUEST',
description='API.INVALID_REPORTING_PERIOD_END_DATETIME')
# if turn quick mode on, do not return parameters data and excel file
is_quick_mode = False
if quick_mode is not None and \
len(str.strip(quick_mode)) > 0 and \
str.lower(str.strip(quick_mode)) in ('true', 't', 'on', 'yes', 'y'):
is_quick_mode = True
trans = utilities.get_translation(language)
trans.install()
_ = trans.gettext
################################################################################################################
# Step 2: query the offline 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()
cnx_carbon = mysql.connector.connect(**config.myems_carbon_db)
cursor_carbon = cnx_carbon.cursor()
cursor_system.execute(" SELECT m.id, m.name, m.cost_center_id, m.energy_category_id, "
" ec.name, ec.unit_of_measure, ec.kgce, ec.kgco2e "
" FROM tbl_offline_meters m, tbl_energy_categories ec "
" WHERE m.id = %s AND m.energy_category_id = ec.id ", (offline_meter_id,))
row_offline_meter = cursor_system.fetchone()
if row_offline_meter is None:
if cursor_system:
cursor_system.close()
if cnx_system:
cnx_system.close()
if cursor_energy:
cursor_energy.close()
if cnx_energy:
cnx_energy.close()
if cursor_carbon:
cursor_carbon.close()
if cnx_carbon:
cnx_carbon.close()
raise falcon.HTTPError(status=falcon.HTTP_404, title='API.NOT_FOUND',
description='API.OFFLINE_METER_NOT_FOUND')
offline_meter = dict()
offline_meter['id'] = row_offline_meter[0]
offline_meter['name'] = row_offline_meter[1]
offline_meter['cost_center_id'] = row_offline_meter[2]
offline_meter['energy_category_id'] = row_offline_meter[3]
offline_meter['energy_category_name'] = row_offline_meter[4]
offline_meter['unit_of_measure'] = config.currency_unit
offline_meter['kgce'] = row_offline_meter[6]
offline_meter['kgco2e'] = row_offline_meter[7]
################################################################################################################
# Step 3: query base period energy consumption
################################################################################################################
query = (" SELECT start_datetime_utc, actual_value "
" FROM tbl_offline_meter_hourly "
" WHERE offline_meter_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ")
cursor_energy.execute(query, (offline_meter['id'], base_start_datetime_utc, base_end_datetime_utc))
rows_offline_meter_hourly = cursor_energy.fetchall()
rows_offline_meter_periodically = utilities.aggregate_hourly_data_by_period(rows_offline_meter_hourly,
base_start_datetime_utc,
base_end_datetime_utc,
period_type)
base = dict()
base['timestamps'] = list()
base['values'] = list()
base['total_in_category'] = Decimal(0.0)
base['total_in_kgce'] = Decimal(0.0)
base['total_in_kgco2e'] = Decimal(0.0)
for row_offline_meter_periodically in rows_offline_meter_periodically:
current_datetime_local = row_offline_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 == 'weekly':
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_offline_meter_periodically[1] is None \
else row_offline_meter_periodically[1]
base['timestamps'].append(current_datetime)
base['total_in_kgce'] += actual_value * offline_meter['kgce']
base['total_in_kgco2e'] += actual_value * offline_meter['kgco2e']
################################################################################################################
# Step 4: query base period energy carbon dioxide emissions
################################################################################################################
query = (" SELECT start_datetime_utc, actual_value "
" FROM tbl_offline_meter_hourly "
" WHERE offline_meter_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ")
cursor_carbon.execute(query, (offline_meter['id'], base_start_datetime_utc, base_end_datetime_utc))
rows_offline_meter_hourly = cursor_carbon.fetchall()
rows_offline_meter_periodically = utilities.aggregate_hourly_data_by_period(rows_offline_meter_hourly,
base_start_datetime_utc,
base_end_datetime_utc,
period_type)
base['values'] = list()
base['total_in_category'] = Decimal(0.0)
for row_offline_meter_periodically in rows_offline_meter_periodically:
actual_value = Decimal(0.0) if row_offline_meter_periodically[1] is None \
else row_offline_meter_periodically[1]
base['values'].append(actual_value)
base['total_in_category'] += actual_value
################################################################################################################
# Step 5: query reporting period energy consumption
################################################################################################################
query = (" SELECT start_datetime_utc, actual_value "
" FROM tbl_offline_meter_hourly "
" WHERE offline_meter_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ")
cursor_energy.execute(query, (offline_meter['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))
rows_offline_meter_hourly = cursor_energy.fetchall()
rows_offline_meter_periodically = utilities.aggregate_hourly_data_by_period(rows_offline_meter_hourly,
reporting_start_datetime_utc,
reporting_end_datetime_utc,
period_type)
reporting = dict()
reporting['timestamps'] = list()
reporting['values'] = list()
reporting['rates'] = list()
reporting['total_in_category'] = Decimal(0.0)
reporting['total_in_kgce'] = Decimal(0.0)
reporting['total_in_kgco2e'] = Decimal(0.0)
for row_offline_meter_periodically in rows_offline_meter_periodically:
current_datetime_local = row_offline_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 == 'weekly':
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_offline_meter_periodically[1] is None \
else row_offline_meter_periodically[1]
reporting['timestamps'].append(current_datetime)
reporting['total_in_kgce'] += actual_value * offline_meter['kgce']
reporting['total_in_kgco2e'] += actual_value * offline_meter['kgco2e']
################################################################################################################
# Step 6: query reporting period energy carbon dioxide emissions
################################################################################################################
query = (" SELECT start_datetime_utc, actual_value "
" FROM tbl_offline_meter_hourly "
" WHERE offline_meter_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ")
cursor_carbon.execute(query, (offline_meter['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))
rows_offline_meter_hourly = cursor_carbon.fetchall()
rows_offline_meter_periodically = utilities.aggregate_hourly_data_by_period(rows_offline_meter_hourly,
reporting_start_datetime_utc,
reporting_end_datetime_utc,
period_type)
for row_offline_meter_periodically in rows_offline_meter_periodically:
actual_value = Decimal(0.0) if row_offline_meter_periodically[1] is None \
else row_offline_meter_periodically[1]
reporting['values'].append(actual_value)
reporting['total_in_category'] += actual_value
for index, value in enumerate(reporting['values']):
if index < len(base['values']) and base['values'][index] != 0 and value != 0:
reporting['rates'].append((value - base['values'][index]) / base['values'][index])
else:
reporting['rates'].append(None)
################################################################################################################
# Step 7: query tariff data
################################################################################################################
parameters_data = dict()
parameters_data['names'] = list()
parameters_data['timestamps'] = list()
parameters_data['values'] = list()
if config.is_tariff_appended and not is_quick_mode:
tariff_dict = utilities.get_energy_category_tariffs(offline_meter['cost_center_id'],
offline_meter['energy_category_id'],
reporting_start_datetime_utc,
reporting_end_datetime_utc)
tariff_timestamp_list = list()
tariff_value_list = list()
for k, v in tariff_dict.items():
# convert k from utc to local
k = k + timedelta(minutes=timezone_offset)
tariff_timestamp_list.append(k.isoformat()[0:19])
tariff_value_list.append(v)
parameters_data['names'].append(_('Tariff') + '-' + offline_meter['energy_category_name'])
parameters_data['timestamps'].append(tariff_timestamp_list)
parameters_data['values'].append(tariff_value_list)
################################################################################################################
# Step 8: construct the report
################################################################################################################
if cursor_system:
cursor_system.close()
if cnx_system:
cnx_system.close()
if cursor_energy:
cursor_energy.close()
if cnx_energy:
cnx_energy.close()
if cursor_carbon:
cursor_carbon.close()
if cnx_carbon:
cnx_carbon.close()
result = {"offline_meter": {
"cost_center_id": offline_meter['cost_center_id'],
"energy_category_id": offline_meter['energy_category_id'],
"energy_category_name": offline_meter['energy_category_name'],
"unit_of_measure": 'KG',
"kgce": offline_meter['kgce'],
"kgco2e": offline_meter['kgco2e'],
}, "base_period": {
"total_in_category": base['total_in_category'],
"total_in_kgce": base['total_in_kgce'],
"total_in_kgco2e": base['total_in_kgco2e'],
"timestamps": base['timestamps'],
"values": base['values'],
}, "reporting_period": {
"increment_rate":
(reporting['total_in_category'] - base['total_in_category']) / base['total_in_category']
if base['total_in_category'] != Decimal(0.0) else None,
"total_in_category": reporting['total_in_category'],
"total_in_kgce": reporting['total_in_kgce'],
"total_in_kgco2e": reporting['total_in_kgco2e'],
"timestamps": reporting['timestamps'],
"values": reporting['values'],
"rates": reporting['rates'],
}, "parameters": {
"names": parameters_data['names'],
"timestamps": parameters_data['timestamps'],
"values": parameters_data['values']
}, 'excel_bytes_base64': None}
# export result to Excel file and then encode the file to base64 string
if not is_quick_mode:
result['excel_bytes_base64'] = \
excelexporters.offlinemetercarbon.export(result,
offline_meter['name'],
base_period_start_datetime_local,
base_period_end_datetime_local,
reporting_period_start_datetime_local,
reporting_period_end_datetime_local,
period_type,
language)
resp.text = json.dumps(result)