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added equipmentefficiency report api

pull/18/head
13621160019@163.com 2021-03-12 19:59:28 +08:00
parent 319b5738d9
commit db6f0a4662
2 changed files with 329 additions and 392 deletions
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4
CHANGELOG.md
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@ -5,13 +5,13 @@ The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/).
## [Unreleased] ## [Unreleased]
### Added ### Added
- None. - added equipmentefficiency report api.
### Changed ### Changed
- None. - None.
### Fixed ### Fixed
- None. - added historical database close and disconnect at the end of reports.
### Removed ### Removed
- None. - None.

717
myems-api/reports/equipmentefficiency.py
View File

@ -20,17 +20,13 @@ class Reporting:
# PROCEDURES # PROCEDURES
# Step 1: valid parameters # Step 1: valid parameters
# Step 2: query the equipment # Step 2: query the equipment
# Step 3: query energy categories # Step 3: query associated points
# Step 4: query associated constants # Step 4: query associated fractions
# Step 4: query associated points # Step 5: query fractions' numerator and denominator
# Step 5: query associated fractions # Step 6: calculate base period fractions
# Step 5: query base period energy input # Step 7: calculate reporting period fractions
# Step 6: query base period energy output # Step 8: query associated points data
# Step 7: query reporting period energy input # Step 9: construct the report
# Step 8: query reporting period energy output
# Step 9: query tariff data
# Step 10: query associated points data
# Step 11: construct the report
#################################################################################################################### ####################################################################################################################
@staticmethod @staticmethod
def on_get(req, resp): def on_get(req, resp):
@ -159,92 +155,7 @@ class Reporting:
equipment['cost_center_id'] = row_equipment[2] equipment['cost_center_id'] = row_equipment[2]
################################################################################################################ ################################################################################################################
# Step 3: query input energy categories and output energy categories # Step 3: query associated points
################################################################################################################
energy_category_set_input = set()
energy_category_set_output = set()
# query input energy categories in base period
cursor_energy.execute(" SELECT DISTINCT(energy_category_id) "
" FROM tbl_equipment_input_category_hourly "
" WHERE equipment_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s ",
(equipment['id'], base_start_datetime_utc, base_end_datetime_utc))
rows_energy_categories = cursor_energy.fetchall()
if rows_energy_categories is not None or len(rows_energy_categories) > 0:
for row_energy_category in rows_energy_categories:
energy_category_set_input.add(row_energy_category[0])
# query input energy categories in reporting period
cursor_energy.execute(" SELECT DISTINCT(energy_category_id) "
" FROM tbl_equipment_input_category_hourly "
" WHERE equipment_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s ",
(equipment['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))
rows_energy_categories = cursor_energy.fetchall()
if rows_energy_categories is not None or len(rows_energy_categories) > 0:
for row_energy_category in rows_energy_categories:
energy_category_set_input.add(row_energy_category[0])
# query output energy categories in base period
cursor_energy.execute(" SELECT DISTINCT(energy_category_id) "
" FROM tbl_equipment_output_category_hourly "
" WHERE equipment_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s ",
(equipment['id'], base_start_datetime_utc, base_end_datetime_utc))
rows_energy_categories = cursor_energy.fetchall()
if rows_energy_categories is not None or len(rows_energy_categories) > 0:
for row_energy_category in rows_energy_categories:
energy_category_set_output.add(row_energy_category[0])
# query output energy categories in reporting period
cursor_energy.execute(" SELECT DISTINCT(energy_category_id) "
" FROM tbl_equipment_output_category_hourly "
" WHERE equipment_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s ",
(equipment['id'], reporting_start_datetime_utc, reporting_end_datetime_utc))
rows_energy_categories = cursor_energy.fetchall()
if rows_energy_categories is not None or len(rows_energy_categories) > 0:
for row_energy_category in rows_energy_categories:
energy_category_set_output.add(row_energy_category[0])
# query properties of all energy categories above
cursor_system.execute(" SELECT id, name, unit_of_measure, kgce, kgco2e "
" FROM tbl_energy_categories "
" ORDER BY id ", )
rows_energy_categories = cursor_system.fetchall()
if rows_energy_categories is None or len(rows_energy_categories) == 0:
if cursor_system:
cursor_system.close()
if cnx_system:
cnx_system.disconnect()
if cursor_energy:
cursor_energy.close()
if cnx_energy:
cnx_energy.disconnect()
if cnx_historical:
cnx_historical.close()
if cursor_historical:
cursor_historical.disconnect()
raise falcon.HTTPError(falcon.HTTP_404,
title='API.NOT_FOUND',
description='API.ENERGY_CATEGORY_NOT_FOUND')
energy_category_dict = dict()
for row_energy_category in rows_energy_categories:
if row_energy_category[0] in energy_category_set_input or \
row_energy_category[0] in energy_category_set_output:
energy_category_dict[row_energy_category[0]] = {"name": row_energy_category[1],
"unit_of_measure": row_energy_category[2],
"kgce": row_energy_category[3],
"kgco2e": row_energy_category[4]}
################################################################################################################
# Step 4: query associated points
################################################################################################################ ################################################################################################################
point_list = list() point_list = list()
cursor_system.execute(" SELECT p.id, p.name, p.units, p.object_type " cursor_system.execute(" SELECT p.id, p.name, p.units, p.object_type "
@ -257,36 +168,181 @@ class Reporting:
for row in rows_points: for row in rows_points:
point_list.append({"id": row[0], "name": row[1], "units": row[2], "object_type": row[3]}) point_list.append({"id": row[0], "name": row[1], "units": row[2], "object_type": row[3]})
print(point_list)
################################################################################################################ ################################################################################################################
# Step 5: query base period energy input # Step 4: query associated fractions
################################################################################################################ ################################################################################################################
base_input = dict() fraction_list = list()
if energy_category_set_input is not None and len(energy_category_set_input) > 0: cursor_system.execute(" SELECT id, name, numerator_meter_uuid, denominator_meter_uuid "
for energy_category_id in energy_category_set_input: " FROM tbl_equipments_parameters "
base_input[energy_category_id] = dict() " WHERE equipment_id = %s AND parameter_type = 'fraction' ",
base_input[energy_category_id]['timestamps'] = list() (equipment['id'],))
base_input[energy_category_id]['values'] = list() rows_fractions = cursor_system.fetchall()
base_input[energy_category_id]['subtotal'] = Decimal(0.0) if rows_fractions is not None and len(rows_fractions) > 0:
for row in rows_fractions:
fraction_list.append({"id": row[0],
"name": row[1],
"numerator_meter_uuid": row[2],
"denominator_meter_uuid": row[3],
})
cursor_energy.execute(" SELECT start_datetime_utc, actual_value " print(fraction_list)
" FROM tbl_equipment_input_category_hourly "
" WHERE equipment_id = %s "
" AND energy_category_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ",
(equipment['id'],
energy_category_id,
base_start_datetime_utc,
base_end_datetime_utc))
rows_equipment_hourly = cursor_energy.fetchall()
rows_equipment_periodically = utilities.aggregate_hourly_data_by_period(rows_equipment_hourly, ################################################################################################################
base_start_datetime_utc, # Step 5: query fractions' numerator and denominator
base_end_datetime_utc, ################################################################################################################
period_type) # get all meters
for row_equipment_periodically in rows_equipment_periodically: meter_dict = dict()
current_datetime_local = row_equipment_periodically[0].replace(tzinfo=timezone.utc) + \ query = (" SELECT m.id, m.uuid, ec.unit_of_measure "
" FROM tbl_meters m, tbl_energy_categories ec "
" WHERE m.energy_category_id = ec.id ")
cursor_system.execute(query)
rows_meters = cursor_system.fetchall()
if rows_meters is not None and len(rows_meters) > 0:
for row in rows_meters:
meter_dict[row[1]] = {'id': row[0], 'unit': row[2]}
# get all offline meters
offline_meter_dict = dict()
query = (" SELECT m.id, m.uuid, ec.unit_of_measure "
" FROM tbl_offline_meters m, tbl_energy_categories ec "
" WHERE m.energy_category_id = ec.id ")
cursor_system.execute(query)
rows_offline_meters = cursor_system.fetchall()
if rows_offline_meters is not None and len(rows_offline_meters) > 0:
for row in rows_offline_meters:
offline_meter_dict[row[1]] = {'id': row[0], 'unit': row[2]}
# get all virtual meters
virtual_meter_dict = dict()
query = (" SELECT m.id, m.uuid, ec.unit_of_measure "
" FROM tbl_offline_meters m, tbl_energy_categories ec "
" WHERE m.energy_category_id = ec.id ")
cursor_system.execute(query)
rows_virtual_meters = cursor_system.fetchall()
if rows_virtual_meters is not None and len(rows_virtual_meters) > 0:
for row in rows_virtual_meters:
virtual_meter_dict[row[1]] = {'id': row[0], 'unit': row[2]}
if fraction_list is not None and len(fraction_list) > 0:
for fraction in fraction_list:
if fraction['numerator_meter_uuid'] in offline_meter_dict:
fraction['numerator_meter_id'] = offline_meter_dict[fraction['numerator_meter_uuid']]['id']
fraction['numerator_meter_unit'] = offline_meter_dict[fraction['numerator_meter_uuid']]['unit']
fraction['numerator_meter_type'] = 'offline_meter'
elif fraction['numerator_meter_uuid'] in virtual_meter_dict:
fraction['numerator_meter_id'] = virtual_meter_dict[fraction['numerator_meter_uuid']]['id']
fraction['numerator_meter_unit'] = virtual_meter_dict[fraction['numerator_meter_uuid']]['unit']
fraction['numerator_meter_type'] = 'virtual_meter'
elif fraction['numerator_meter_uuid'] in meter_dict:
fraction['numerator_meter_id'] = meter_dict[fraction['numerator_meter_uuid']]['id']
fraction['numerator_meter_unit'] = meter_dict[fraction['numerator_meter_uuid']]['unit']
fraction['numerator_meter_type'] = 'meter'
if fraction['denominator_meter_uuid'] in offline_meter_dict:
fraction['denominator_meter_id'] = offline_meter_dict[fraction['denominator_meter_uuid']]['id']
fraction['denominator_meter_unit'] = offline_meter_dict[fraction['denominator_meter_uuid']]['unit']
fraction['denominator_meter_type'] = 'offline_meter'
elif fraction['denominator_meter_uuid'] in virtual_meter_dict:
fraction['denominator_meter_id'] = virtual_meter_dict[fraction['denominator_meter_uuid']]['id']
fraction['denominator_meter_unit'] = virtual_meter_dict[fraction['denominator_meter_uuid']]['unit']
fraction['denominator_meter_type'] = 'virtual_meter'
elif fraction['denominator_meter_uuid'] in meter_dict:
fraction['denominator_meter_id'] = meter_dict[fraction['denominator_meter_uuid']]['id']
fraction['denominator_meter_unit'] = meter_dict[fraction['denominator_meter_uuid']]['unit']
fraction['denominator_meter_type'] = 'meter'
print(fraction_list)
################################################################################################################
# Step 5: calculate base period fractions
################################################################################################################
base = dict()
if fraction_list is not None and len(fraction_list) > 0:
for fraction in fraction_list:
base[fraction['id']] = dict()
base[fraction['id']]['name'] = fraction['name']
base[fraction['id']]['unit'] = fraction['numerator_meter_unit'] + '/' + \
fraction['denominator_meter_unit']
base[fraction['id']]['numerator_timestamps'] = list()
base[fraction['id']]['numerator_values'] = list()
base[fraction['id']]['numerator_cumulation'] = Decimal(0.0)
base[fraction['id']]['denominator_timestamps'] = list()
base[fraction['id']]['denominator_values'] = list()
base[fraction['id']]['denominator_cumulation'] = Decimal(0.0)
base[fraction['id']]['timestamps'] = list()
base[fraction['id']]['values'] = list()
base[fraction['id']]['cumulation'] = Decimal(0.0)
# query numerator meter output
if fraction['numerator_meter_type'] == 'meter':
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 ")
elif fraction['numerator_meter_type'] == 'offline_meter':
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 ")
elif fraction['numerator_meter_type'] == 'virtual_meter':
query = (" SELECT start_datetime_utc, actual_value "
" FROM tbl_virtual_meter_hourly "
" WHERE virtual_meter_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ")
cursor_energy.execute(query, (fraction['numerator_meter_id'],
base_start_datetime_utc,
base_end_datetime_utc))
rows_numerator_meter_hourly = cursor_energy.fetchall()
rows_numerator_meter_periodically = \
utilities.aggregate_hourly_data_by_period(rows_numerator_meter_hourly,
base_start_datetime_utc,
base_end_datetime_utc,
period_type)
# query denominator meter input
if fraction['denominator_meter_type'] == 'meter':
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 ")
elif fraction['denominator_meter_type'] == 'offline_meter':
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 ")
elif fraction['denominator_meter_type'] == 'virtual_meter':
query = (" SELECT start_datetime_utc, actual_value "
" FROM tbl_virtual_meter_hourly "
" WHERE virtual_meter_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ")
cursor_energy.execute(query, (fraction['denominator_meter_id'],
base_start_datetime_utc,
base_end_datetime_utc))
rows_denominator_meter_hourly = cursor_energy.fetchall()
rows_denominator_meter_periodically = \
utilities.aggregate_hourly_data_by_period(rows_denominator_meter_hourly,
base_start_datetime_utc,
base_end_datetime_utc,
period_type)
for row_numerator_meter_periodically in rows_numerator_meter_periodically:
current_datetime_local = row_numerator_meter_periodically[0].replace(tzinfo=timezone.utc) + \
timedelta(minutes=timezone_offset) timedelta(minutes=timezone_offset)
if period_type == 'hourly': if period_type == 'hourly':
current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S') current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')
@ -297,42 +353,15 @@ class Reporting:
elif period_type == 'yearly': elif period_type == 'yearly':
current_datetime = current_datetime_local.strftime('%Y') current_datetime = current_datetime_local.strftime('%Y')
actual_value = Decimal(0.0) if row_equipment_periodically[1] is None \ actual_value = Decimal(0.0) if row_numerator_meter_periodically[1] is None \
else row_equipment_periodically[1] else row_numerator_meter_periodically[1]
base_input[energy_category_id]['timestamps'].append(current_datetime)
base_input[energy_category_id]['values'].append(actual_value)
base_input[energy_category_id]['subtotal'] += actual_value
################################################################################################################ base[fraction['id']]['numerator_timestamps'].append(current_datetime)
# Step 6: query base period energy output base[fraction['id']]['numerator_values'].append(actual_value)
################################################################################################################ base[fraction['id']]['numerator_cumulation'] += actual_value
base_output = dict()
if energy_category_set_output is not None and len(energy_category_set_output) > 0:
for energy_category_id in energy_category_set_output:
base_output[energy_category_id] = dict()
base_output[energy_category_id]['timestamps'] = list()
base_output[energy_category_id]['values'] = list()
base_output[energy_category_id]['subtotal'] = Decimal(0.0)
cursor_energy.execute(" SELECT start_datetime_utc, actual_value " for row_denominator_meter_periodically in rows_denominator_meter_periodically:
" FROM tbl_equipment_output_category_hourly " current_datetime_local = row_denominator_meter_periodically[0].replace(tzinfo=timezone.utc) + \
" WHERE equipment_id = %s "
" AND energy_category_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ",
(equipment['id'],
energy_category_id,
base_start_datetime_utc,
base_end_datetime_utc))
rows_equipment_hourly = cursor_energy.fetchall()
rows_equipment_periodically = utilities.aggregate_hourly_data_by_period(rows_equipment_hourly,
base_start_datetime_utc,
base_end_datetime_utc,
period_type)
for row_equipment_periodically in rows_equipment_periodically:
current_datetime_local = row_equipment_periodically[0].replace(tzinfo=timezone.utc) + \
timedelta(minutes=timezone_offset) timedelta(minutes=timezone_offset)
if period_type == 'hourly': if period_type == 'hourly':
current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S') current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')
@ -343,42 +372,114 @@ class Reporting:
elif period_type == 'yearly': elif period_type == 'yearly':
current_datetime = current_datetime_local.strftime('%Y') current_datetime = current_datetime_local.strftime('%Y')
actual_value = Decimal(0.0) if row_equipment_periodically[1] is None \ actual_value = Decimal(0.0) if row_denominator_meter_periodically[1] is None \
else row_equipment_periodically[1] else row_denominator_meter_periodically[1]
base_output[energy_category_id]['timestamps'].append(current_datetime)
base_output[energy_category_id]['values'].append(actual_value) base[fraction['id']]['denominator_timestamps'].append(current_datetime)
base_output[energy_category_id]['subtotal'] += actual_value base[fraction['id']]['denominator_values'].append(actual_value)
base[fraction['id']]['denominator_cumulation'] += actual_value
for i in range(len(base[fraction['id']]['denominator_timestamps'])):
timestamp = base[fraction['id']]['denominator_timestamps'][i]
base[fraction['id']]['timestamps'].append(timestamp)
value = \
base[fraction['id']]['denominator_values'][i] / base[fraction['id']]['denominator_values'][i] \
if base[fraction['id']]['denominator_values'][i] > Decimal(0.0) else Decimal(0.0)
base[fraction['id']]['values'].append(value)
cumulation = \
base[fraction['id']]['numerator_cumulation'] / base[fraction['id']]['denominator_cumulation'] \
if base[fraction['id']]['denominator_cumulation'] > Decimal(0.0) else Decimal(0.0)
base[fraction['id']]['cumulation'] = cumulation
################################################################################################################ ################################################################################################################
# Step 7: query reporting period energy input # Step 6: calculate reporting period fractions
################################################################################################################ ################################################################################################################
reporting_input = dict() reporting = dict()
if energy_category_set_input is not None and len(energy_category_set_input) > 0: if fraction_list is not None and len(fraction_list) > 0:
for energy_category_id in energy_category_set_input: for fraction in fraction_list:
reporting[fraction['id']] = dict()
reporting[fraction['id']]['name'] = fraction['name']
reporting[fraction['id']]['unit'] = fraction['numerator_meter_unit'] + '/' + \
fraction['denominator_meter_unit']
reporting[fraction['id']]['numerator_timestamps'] = list()
reporting[fraction['id']]['numerator_values'] = list()
reporting[fraction['id']]['numerator_cumulation'] = Decimal(0.0)
reporting[fraction['id']]['denominator_timestamps'] = list()
reporting[fraction['id']]['denominator_values'] = list()
reporting[fraction['id']]['denominator_cumulation'] = Decimal(0.0)
reporting[fraction['id']]['timestamps'] = list()
reporting[fraction['id']]['values'] = list()
reporting[fraction['id']]['cumulation'] = Decimal(0.0)
# query numerator meter output
if fraction['numerator_meter_type'] == 'meter':
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 ")
elif fraction['numerator_meter_type'] == 'offline_meter':
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 ")
elif fraction['numerator_meter_type'] == 'virtual_meter':
query = (" SELECT start_datetime_utc, actual_value "
" FROM tbl_virtual_meter_hourly "
" WHERE virtual_meter_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ")
reporting_input[energy_category_id] = dict() cursor_energy.execute(query, (fraction['numerator_meter_id'],
reporting_input[energy_category_id]['timestamps'] = list() reporting_start_datetime_utc,
reporting_input[energy_category_id]['values'] = list() reporting_end_datetime_utc))
reporting_input[energy_category_id]['subtotal'] = Decimal(0.0) rows_numerator_meter_hourly = cursor_energy.fetchall()
cursor_energy.execute(" SELECT start_datetime_utc, actual_value " rows_numerator_meter_periodically = \
" FROM tbl_equipment_input_category_hourly " utilities.aggregate_hourly_data_by_period(rows_numerator_meter_hourly,
" WHERE equipment_id = %s " reporting_start_datetime_utc,
" AND energy_category_id = %s " reporting_end_datetime_utc,
" AND start_datetime_utc >= %s " period_type)
" AND start_datetime_utc < %s " # query denominator meter input
" ORDER BY start_datetime_utc ", if fraction['denominator_meter_type'] == 'meter':
(equipment['id'], query = (" SELECT start_datetime_utc, actual_value "
energy_category_id, " FROM tbl_meter_hourly "
reporting_start_datetime_utc, " WHERE meter_id = %s "
reporting_end_datetime_utc)) " AND start_datetime_utc >= %s "
rows_equipment_hourly = cursor_energy.fetchall() " AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ")
elif fraction['denominator_meter_type'] == 'offline_meter':
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 ")
elif fraction['denominator_meter_type'] == 'virtual_meter':
query = (" SELECT start_datetime_utc, actual_value "
" FROM tbl_virtual_meter_hourly "
" WHERE virtual_meter_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ")
rows_equipment_periodically = utilities.aggregate_hourly_data_by_period(rows_equipment_hourly, cursor_energy.execute(query, (fraction['denominator_meter_id'],
reporting_start_datetime_utc, reporting_start_datetime_utc,
reporting_end_datetime_utc, reporting_end_datetime_utc))
period_type) rows_denominator_meter_hourly = cursor_energy.fetchall()
for row_equipment_periodically in rows_equipment_periodically:
current_datetime_local = row_equipment_periodically[0].replace(tzinfo=timezone.utc) + \ rows_denominator_meter_periodically = \
utilities.aggregate_hourly_data_by_period(rows_denominator_meter_hourly,
reporting_start_datetime_utc,
reporting_end_datetime_utc,
period_type)
for row_numerator_meter_periodically in rows_numerator_meter_periodically:
current_datetime_local = row_numerator_meter_periodically[0].replace(tzinfo=timezone.utc) + \
timedelta(minutes=timezone_offset) timedelta(minutes=timezone_offset)
if period_type == 'hourly': if period_type == 'hourly':
current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S') current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')
@ -389,43 +490,15 @@ class Reporting:
elif period_type == 'yearly': elif period_type == 'yearly':
current_datetime = current_datetime_local.strftime('%Y') current_datetime = current_datetime_local.strftime('%Y')
actual_value = Decimal(0.0) if row_equipment_periodically[1] is None \ actual_value = Decimal(0.0) if row_numerator_meter_periodically[1] is None \
else row_equipment_periodically[1] else row_numerator_meter_periodically[1]
reporting_input[energy_category_id]['timestamps'].append(current_datetime)
reporting_input[energy_category_id]['values'].append(actual_value)
reporting_input[energy_category_id]['subtotal'] += actual_value
################################################################################################################ reporting[fraction['id']]['numerator_timestamps'].append(current_datetime)
# Step 8: query reporting period energy output reporting[fraction['id']]['numerator_values'].append(actual_value)
################################################################################################################ reporting[fraction['id']]['numerator_cumulation'] += actual_value
reporting_output = dict()
if energy_category_set_output is not None and len(energy_category_set_output) > 0:
for energy_category_id in energy_category_set_output:
reporting_output[energy_category_id] = dict() for row_denominator_meter_periodically in rows_denominator_meter_periodically:
reporting_output[energy_category_id]['timestamps'] = list() current_datetime_local = row_denominator_meter_periodically[0].replace(tzinfo=timezone.utc) + \
reporting_output[energy_category_id]['values'] = list()
reporting_output[energy_category_id]['subtotal'] = Decimal(0.0)
cursor_energy.execute(" SELECT start_datetime_utc, actual_value "
" FROM tbl_equipment_output_category_hourly "
" WHERE equipment_id = %s "
" AND energy_category_id = %s "
" AND start_datetime_utc >= %s "
" AND start_datetime_utc < %s "
" ORDER BY start_datetime_utc ",
(equipment['id'],
energy_category_id,
reporting_start_datetime_utc,
reporting_end_datetime_utc))
rows_equipment_hourly = cursor_energy.fetchall()
rows_equipment_periodically = utilities.aggregate_hourly_data_by_period(rows_equipment_hourly,
reporting_start_datetime_utc,
reporting_end_datetime_utc,
period_type)
for row_equipment_periodically in rows_equipment_periodically:
current_datetime_local = row_equipment_periodically[0].replace(tzinfo=timezone.utc) + \
timedelta(minutes=timezone_offset) timedelta(minutes=timezone_offset)
if period_type == 'hourly': if period_type == 'hourly':
current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S') current_datetime = current_datetime_local.strftime('%Y-%m-%dT%H:%M:%S')
@ -436,40 +509,34 @@ class Reporting:
elif period_type == 'yearly': elif period_type == 'yearly':
current_datetime = current_datetime_local.strftime('%Y') current_datetime = current_datetime_local.strftime('%Y')
actual_value = Decimal(0.0) if row_equipment_periodically[1] is None \ actual_value = Decimal(0.0) if row_denominator_meter_periodically[1] is None \
else row_equipment_periodically[1] else row_denominator_meter_periodically[1]
reporting_output[energy_category_id]['timestamps'].append(current_datetime)
reporting_output[energy_category_id]['values'].append(actual_value) reporting[fraction['id']]['denominator_timestamps'].append(current_datetime)
reporting_output[energy_category_id]['subtotal'] += actual_value reporting[fraction['id']]['denominator_values'].append(actual_value)
reporting[fraction['id']]['denominator_cumulation'] += actual_value
for i in range(len(reporting[fraction['id']]['denominator_timestamps'])):
timestamp = reporting[fraction['id']]['denominator_timestamps'][i]
reporting[fraction['id']]['timestamps'].append(timestamp)
value = reporting[fraction['id']]['denominator_values'][i] / \
reporting[fraction['id']]['denominator_values'][i] \
if reporting[fraction['id']]['denominator_values'][i] > Decimal(0.0) else Decimal(0.0)
reporting[fraction['id']]['values'].append(value)
cumulation = reporting[fraction['id']]['numerator_cumulation'] / \
reporting[fraction['id']]['denominator_cumulation'] \
if reporting[fraction['id']]['denominator_cumulation'] > Decimal(0.0) else Decimal(0.0)
reporting[fraction['id']]['cumulation'] = cumulation
################################################################################################################ ################################################################################################################
# Step 9: query tariff data # Step 7: query associated points data
################################################################################################################ ################################################################################################################
parameters_data = dict() parameters_data = dict()
parameters_data['names'] = list() parameters_data['names'] = list()
parameters_data['timestamps'] = list() parameters_data['timestamps'] = list()
parameters_data['values'] = list() parameters_data['values'] = list()
if energy_category_set_input is not None and len(energy_category_set_input) > 0:
for energy_category_id in energy_category_set_input:
energy_category_tariff_dict = utilities.get_energy_category_tariffs(equipment['cost_center_id'],
energy_category_id,
reporting_start_datetime_utc,
reporting_end_datetime_utc)
tariff_timestamp_list = list()
tariff_value_list = list()
for k, v in energy_category_tariff_dict.items():
# convert k from utc to local
k = k + timedelta(minutes=timezone_offset)
tariff_timestamp_list.append(k.isoformat()[0:19][0:19])
tariff_value_list.append(v)
parameters_data['names'].append('TARIFF-' + energy_category_dict[energy_category_id]['name'])
parameters_data['timestamps'].append(tariff_timestamp_list)
parameters_data['values'].append(tariff_value_list)
################################################################################################################
# Step 10: query associated sensors and points data
################################################################################################################
for point in point_list: for point in point_list:
point_values = [] point_values = []
point_timestamps = [] point_timestamps = []
@ -533,7 +600,7 @@ class Reporting:
parameters_data['values'].append(point_values) parameters_data['values'].append(point_values)
################################################################################################################ ################################################################################################################
# Step 11: construct the report # Step 8: construct the report
################################################################################################################ ################################################################################################################
if cursor_system: if cursor_system:
cursor_system.close() cursor_system.close()
@ -550,36 +617,6 @@ class Reporting:
result['equipment'] = dict() result['equipment'] = dict()
result['equipment']['name'] = equipment['name'] result['equipment']['name'] = equipment['name']
result['base_period_input'] = dict()
result['base_period_input']['names'] = list()
result['base_period_input']['units'] = list()
result['base_period_input']['timestamps'] = list()
result['base_period_input']['values'] = list()
result['base_period_input']['subtotals'] = list()
if energy_category_set_input is not None and len(energy_category_set_input) > 0:
for energy_category_id in energy_category_set_input:
result['base_period_input']['names'].append(energy_category_dict[energy_category_id]['name'])
result['base_period_input']['units'].append(energy_category_dict[energy_category_id]['unit_of_measure'])
result['base_period_input']['timestamps'].append(base_input[energy_category_id]['timestamps'])
result['base_period_input']['values'].append(base_input[energy_category_id]['values'])
result['base_period_input']['subtotals'].append(base_input[energy_category_id]['subtotal'])
result['base_period_output'] = dict()
result['base_period_output']['names'] = list()
result['base_period_output']['units'] = list()
result['base_period_output']['timestamps'] = list()
result['base_period_output']['values'] = list()
result['base_period_output']['subtotals'] = list()
if energy_category_set_output is not None and len(energy_category_set_output) > 0:
for energy_category_id in energy_category_set_output:
result['base_period_output']['names'].append(energy_category_dict[energy_category_id]['name'])
result['base_period_output']['units'].append(
energy_category_dict[energy_category_id]['unit_of_measure'])
result['base_period_output']['timestamps'].append(base_output[energy_category_id]['timestamps'])
result['base_period_output']['values'].append(base_output[energy_category_id]['values'])
result['base_period_output']['subtotals'].append(base_output[energy_category_id]['subtotal'])
result['base_period_efficiency'] = dict() result['base_period_efficiency'] = dict()
result['base_period_efficiency']['names'] = list() result['base_period_efficiency']['names'] = list()
result['base_period_efficiency']['units'] = list() result['base_period_efficiency']['units'] = list()
@ -587,82 +624,6 @@ class Reporting:
result['base_period_efficiency']['values'] = list() result['base_period_efficiency']['values'] = list()
result['base_period_efficiency']['cumulations'] = list() result['base_period_efficiency']['cumulations'] = list()
if energy_category_set_output is not None and len(energy_category_set_output) > 0:
for energy_category_id_output in energy_category_set_output:
for energy_category_id_input in energy_category_set_input:
result['base_period_efficiency']['names'].append(
energy_category_dict[energy_category_id_output]['name'] + '/' +
energy_category_dict[energy_category_id_input]['name'])
result['base_period_efficiency']['units'].append(
energy_category_dict[energy_category_id_output]['unit_of_measure'] + '/' +
energy_category_dict[energy_category_id_input]['unit_of_measure'])
result['base_period_efficiency']['timestamps'].append(
base_output[energy_category_id_output]['timestamps'])
efficiency_values = list()
for i in range(len(base_output[energy_category_id_output]['timestamps'])):
efficiency_values.append((base_output[energy_category_id_output]['values'][i] /
base_input[energy_category_id_input]['values'][i])
if base_input[energy_category_id_input]['values'][i] > Decimal(0.0)
else None)
result['base_period_efficiency']['values'].append(efficiency_values)
base_cumulation = (base_output[energy_category_id_output]['subtotal'] /
base_input[energy_category_id_input]['subtotal']) if \
base_input[energy_category_id_input]['subtotal'] > Decimal(0.0) else None
result['base_period_efficiency']['cumulations'].append(base_cumulation)
result['reporting_period_input'] = dict()
result['reporting_period_input']['names'] = list()
result['reporting_period_input']['energy_category_ids'] = list()
result['reporting_period_input']['units'] = list()
result['reporting_period_input']['timestamps'] = list()
result['reporting_period_input']['values'] = list()
result['reporting_period_input']['subtotals'] = list()
result['reporting_period_input']['increment_rates'] = list()
if energy_category_set_input is not None and len(energy_category_set_input) > 0:
for energy_category_id in energy_category_set_input:
result['reporting_period_input']['names'].append(energy_category_dict[energy_category_id]['name'])
result['reporting_period_input']['energy_category_ids'].append(energy_category_id)
result['reporting_period_input']['units'].append(
energy_category_dict[energy_category_id]['unit_of_measure'])
result['reporting_period_input']['timestamps'].append(
reporting_input[energy_category_id]['timestamps'])
result['reporting_period_input']['values'].append(
reporting_input[energy_category_id]['values'])
result['reporting_period_input']['subtotals'].append(
reporting_input[energy_category_id]['subtotal'])
result['reporting_period_input']['increment_rates'].append(
(reporting_input[energy_category_id]['subtotal'] -
base_input[energy_category_id]['subtotal']) /
base_input[energy_category_id]['subtotal']
if base_input[energy_category_id]['subtotal'] > 0.0 else None)
result['reporting_period_output'] = dict()
result['reporting_period_output']['names'] = list()
result['reporting_period_output']['energy_category_ids'] = list()
result['reporting_period_output']['units'] = list()
result['reporting_period_output']['timestamps'] = list()
result['reporting_period_output']['values'] = list()
result['reporting_period_output']['subtotals'] = list()
result['reporting_period_output']['increment_rates'] = list()
if energy_category_set_output is not None and len(energy_category_set_output) > 0:
for energy_category_id in energy_category_set_output:
result['reporting_period_output']['names'].append(energy_category_dict[energy_category_id]['name'])
result['reporting_period_output']['energy_category_ids'].append(energy_category_id)
result['reporting_period_output']['units'].append(
energy_category_dict[energy_category_id]['unit_of_measure'])
result['reporting_period_output']['timestamps'].append(
reporting_output[energy_category_id]['timestamps'])
result['reporting_period_output']['values'].append(reporting_output[energy_category_id]['values'])
result['reporting_period_output']['subtotals'].append(reporting_output[energy_category_id]['subtotal'])
result['reporting_period_output']['increment_rates'].append(
(reporting_output[energy_category_id]['subtotal'] -
base_output[energy_category_id]['subtotal']) /
base_output[energy_category_id]['subtotal']
if base_output[energy_category_id]['subtotal'] > 0.0 else None)
result['reporting_period_efficiency'] = dict() result['reporting_period_efficiency'] = dict()
result['reporting_period_efficiency']['names'] = list() result['reporting_period_efficiency']['names'] = list()
result['reporting_period_efficiency']['units'] = list() result['reporting_period_efficiency']['units'] = list()
@ -670,40 +631,16 @@ class Reporting:
result['reporting_period_efficiency']['values'] = list() result['reporting_period_efficiency']['values'] = list()
result['reporting_period_efficiency']['cumulations'] = list() result['reporting_period_efficiency']['cumulations'] = list()
result['reporting_period_efficiency']['increment_rates'] = list() result['reporting_period_efficiency']['increment_rates'] = list()
if fraction_list is not None and len(fraction_list) > 0:
if energy_category_set_output is not None and len(energy_category_set_output) > 0: for fraction in fraction_list:
for energy_category_id_output in energy_category_set_output: result['base_period_efficiency']['names'].append(reporting[fraction['id']]['name'])
for energy_category_id_input in energy_category_set_input: result['base_period_efficiency']['units'].append(reporting[fraction['id']]['unit'])
result['reporting_period_efficiency']['names'].append( result['base_period_efficiency']['timestamps'].append(base[fraction['id']]['timestamps'])
energy_category_dict[energy_category_id_output]['name'] + '/' + result['base_period_efficiency']['values'].append(base[fraction['id']]['values'])
energy_category_dict[energy_category_id_input]['name']) result['base_period_efficiency']['cumulations'].append(base[fraction['id']]['cumulation'])
result['reporting_period_efficiency']['units'].append( result['reporting_period_efficiency']['timestamps'].append(reporting[fraction['id']]['timestamps'])
energy_category_dict[energy_category_id_output]['unit_of_measure'] + '/' + result['reporting_period_efficiency']['values'].append(reporting[fraction['id']]['values'])
energy_category_dict[energy_category_id_input]['unit_of_measure']) result['reporting_period_efficiency']['cumulations'].append(reporting[fraction['id']]['cumulation'])
result['reporting_period_efficiency']['timestamps'].append(
reporting_output[energy_category_id_output]['timestamps'])
efficiency_values = list()
for i in range(len(reporting_output[energy_category_id_output]['timestamps'])):
efficiency_values.append((reporting_output[energy_category_id_output]['values'][i] /
reporting_input[energy_category_id_input]['values'][i])
if reporting_input[energy_category_id_input]['values'][i] >
Decimal(0.0) else None)
result['reporting_period_efficiency']['values'].append(efficiency_values)
base_cumulation = (base_output[energy_category_id_output]['subtotal'] /
base_input[energy_category_id_input]['subtotal']) if \
base_input[energy_category_id_input]['subtotal'] > Decimal(0.0) else None
reporting_cumulation = (reporting_output[energy_category_id_output]['subtotal'] /
reporting_input[energy_category_id_input]['subtotal']) if \
reporting_input[energy_category_id_input]['subtotal'] > Decimal(0.0) else None
result['reporting_period_efficiency']['cumulations'].append(reporting_cumulation)
result['reporting_period_efficiency']['increment_rates'].append(
((reporting_cumulation - base_cumulation) / base_cumulation if (base_cumulation is not None and
base_cumulation > Decimal(0.0))
else None)
)
result['parameters'] = { result['parameters'] = {
"names": parameters_data['names'], "names": parameters_data['names'],