Check start session

Add total heating area to meb results

bootstrap.py

@@ -9,6 +9,7 @@ import datetime
 
 import flask
 import yaml
+from pathlib import Path
 from flasgger import LazyJSONEncoder, Swagger
 from flask import Response
 from flask_restful import Api
@@ -17,12 +18,20 @@ import threading
 import hub_api.helpers.session_helper as sh
 from hub_api.control.session import SessionStart, SessionEnd, KeepSessionAlive
 from hub_api.control.uptime import Uptime
-from hub_api.buildings.meb import Meb
+from hub_api.persistence.full_retrofit_results import FullRetrofitResults
-from hub_api.geolocation.reverse import Reverse
+from hub_api.persistence.retrofit_results import RetrofitResults
+from hub_api.workflow.insel_montly_energy_balance import InselMonthlyEnergyBalance
+from hub_api.workflow.costs import Costs
+from hub_api.workflow.energy_plus import EnergyPlus
+from hub_api.workflow.glb import Glb
+from hub_api.energy_plus.idf_generator import IdfGenerator
+from hub_api.config import Config
+
 
 sh.begin_time = datetime.datetime.now()
 app = flask.Flask('cerc_api')
 app.json_provider_class = LazyJSONEncoder
+app.config['MAX_CONTENT_LENGTH'] = int(Config.max_file_size())
 api = Api(app)
 
 api.add_resource(Uptime, '/v1.4/uptime')
@@ -30,27 +39,36 @@ api.add_resource(Uptime, '/v1.4/uptime')
 # Session
 api.add_resource(SessionStart, '/v1.4/session/start')
 api.add_resource(SessionEnd, '/v1.4/session/end')
-api.add_resource(KeepSessionAlive, '/v1.4/session/keep_alive')
+api.add_resource(KeepSessionAlive, '/v1.4/session/keep-alive')
 
-# Buildings
+# persistence
-api.add_resource(Meb, '/v1.4/buildings/meb')
+api.add_resource(RetrofitResults, '/v1.4/persistence/retrofit-results')
+api.add_resource(FullRetrofitResults, '/v1.4/persistence/full-retrofit-results')
 
-# GeoLocation
+# energy plus
-api.add_resource(Reverse, '/v1.4/geolocation/reverse/<latitude>/<longitude>', endpoint='reverse')
+api.add_resource(IdfGenerator, '/v1.4/energy-plus/idf-generator')
 
-with open("hub_api/docs/openapi-specs.yml", "r") as stream:
+# workflows
+api.add_resource(Costs, '/v1.4/workflow/costs')
+api.add_resource(EnergyPlus, '/v1.4/workflow/energy-plus')
+api.add_resource(Glb, '/v1.4/workflow/glb')
+api.add_resource(InselMonthlyEnergyBalance, '/v1.4/workflow/insel-monthly-energy-balance')
+
+yml_path = Path('./docs/openapi-specs.yml').resolve()
+
+with open(yml_path, "r") as stream:
   swagger_config = {
     "headers": [],
     "specs": [
       {
-        "endpoint": 'apispec',
+        "endpoint": '/api/apispec',
-        "route": '/v1.4/apispec.json',
+        "route": '/api/apispec/apispec.json',
         "rule_filter": lambda rule: True,  # all in
         "model_filter": lambda tag: True,  # all in
       }
     ],
-    "static_url_path": "/api/v1.4/static",
+    "static_url_path": "/api/static",
-    "specs_route": "/v1.4/api-docs/",
+    "specs_route": "/api/api-docs/",
     "openapi": "3.0.0"
   }
   try:
@@ -63,7 +81,8 @@ with open("hub_api/docs/openapi-specs.yml", "r") as stream:
 def home():
   return Response(headers={'Access-Control-Allow-Origin': '*'})
 
-sh.debug_mode = True
+
+sh.debug_mode = False
 
 threading.Thread(target=sh.expired_sessions_collector, daemon=True, args="5").start()
 app.run(port=15789, host="0.0.0.0", debug=sh.debug_mode)

hub_api/buildings/meb.py

@@ -1,40 +0,0 @@
-import json
-
-from flask import Response, request
-from flask_restful import Resource
-
-from hub_api.config import Config
-from hub_api.helpers.session_helper import session, refresh_session
-
-
-class Meb(Resource, Config):
-  def __init__(self):
-    super().__init__()
-
-  def post(self):
-    """
-    API call for requesting a specified list of enriched buildings
-    """
-    session_id = request.headers.get('session_id', None)
-    token = request.headers.get('token', None)
-    application_uuid = request.headers.get('application_uuid', None)
-    _session = refresh_session(session_id, token, application_uuid)
-    if _session is None:
-      return Response(json.dumps({'error': 'unauthorized'}), status=403)
-    application_id = session(session_id)['application_id']
-    user_id = session(session_id)['user_id']
-    token = {'token': _session['token']}
-    payload = request.get_json()
-    results = self.export_db_factory.results(user_id, application_id, payload)
-    if results == {}:
-      # no data found for the given parameters
-      return Response(json.dumps({'result': 'succeed', 'results': results}), status=200, headers=token)
-    # deserialize the response to return pure json
-    city_name = next(iter(results))
-    for building_results in results[city_name]:
-      values = []
-      for value in building_results['insel meb']:
-        key = next(iter(value))
-        values.append({key: json.loads(value[key])})
-      building_results['insel meb'] = values
-    return Response(json.dumps({'result': 'succeed', 'results': results}), status=200, headers=token)

hub_api/config.py

@@ -3,25 +3,73 @@ Config
 SPDX - License - Identifier: LGPL - 3.0 - or -later
 Copyright © 2023 Project Peter Yefi peteryefi@gmail.com
 """
+import distutils
 import os
 import platform
 from pathlib import Path
-
+from dotenv import load_dotenv
-from hub.exports.db_factory import DBFactory as CityExportFactory
+import hub.helpers.dictionaries
-from hub.imports.db_factory import DBFactory
+from hub.persistence.db_control import DBControl
+from hub.persistence.repository import Repository
+from hub.catalog_factories.energy_systems_catalog_factory import EnergySystemsCatalogFactory
+from pymongo import MongoClient
 
 
 class Config:
 
   def __init__(self):
-    dotenv_path = "{}/.env".format(os.path.expanduser('~'))
+    dotenv_path = "{}/.local/etc/hub_api/.env".format(os.path.expanduser('~'))
     if platform.system() == 'Linux':
-      dotenv_path = Path('/usr/local/etc/hub/.env').resolve()
+      dotenv_path = Path(dotenv_path).resolve()
+    environment = 'PROD'
+    load_dotenv(dotenv_path=dotenv_path)
+    self._database_name = os.getenv(f'{environment}_DB_NAME')
+    self._database = DBControl(db_name=self._database_name, app_env=environment, dotenv_path=dotenv_path)
+    self._repository = Repository(db_name=self._database_name, app_env=environment, dotenv_path=dotenv_path)
+    self._energy_systems_catalog = EnergySystemsCatalogFactory('montreal_custom').catalog
+    self._dictionaries = {
+      'pluto': hub.helpers.dictionaries.Dictionaries().pluto_function_to_hub_function,
+      'htf': hub.helpers.dictionaries.Dictionaries().hft_function_to_hub_function,
+      'montreal': hub.helpers.dictionaries.Dictionaries().montreal_function_to_hub_function,
+      'alkis': hub.helpers.dictionaries.Dictionaries().alkis_function_to_hub_function,
+      'eilat': hub.helpers.dictionaries.Dictionaries().eilat_function_to_hub_function
+    }
+    # mongodb
+    _mongodb = os.getenv(f'{environment}_MONGO_DB')
+    _mongodb_database = os.getenv(f'{environment}_MONGO_DB_DATABASE')
+    self._mongodb_collection_prefix = os.getenv(f'{environment}_MONGO_DB_COLLECTION_PREFIX')
+    _client = MongoClient(_mongodb)
+    self._montreal_retrofit_db = _client[_mongodb_database]
 
-    environment = 'TEST'
-    database_name = 'persistence_test'
 
-    self.export_db_factory = CityExportFactory(db_name=database_name, app_env=environment,
+  @property
-                                               dotenv_path=dotenv_path)
+  def database(self):
-    self.import_db_factory = DBFactory(db_name=database_name, app_env=environment,
+    return self._database
-                                       dotenv_path=dotenv_path)
+
+  @property
+  def repository(self):
+    return self._repository
+
+  @property
+  def energy_systems_catalog(self):
+    return self._energy_systems_catalog
+
+  @staticmethod
+  def max_file_size():
+    return 10 * 1024 * 1024  # 10 MB
+
+  @property
+  def insel(self):
+    return distutils.spawn.find_executable('insel')
+
+  @property
+  def sra(self):
+    return distutils.spawn.find_executable('sra')
+
+  @property
+  def montreal_retrofit_db(self):
+    return self._montreal_retrofit_db
+
+  @property
+  def mongodb_collection_prefix(self):
+    return self._mongodb_collection_prefix

hub_api/control/session.py

@@ -7,7 +7,7 @@ Copyright © 2022 Project Author name guillermo.gutierrezmorote@concordia.ca
 import datetime
 import json
 import uuid
-
+from sqlalchemy.exc import SQLAlchemyError
 from flask import request, Response
 from flask_restful import Resource
 
@@ -22,9 +22,13 @@ class SessionStart(Resource, Config):
   def put(self):
     username = request.headers.get('username', None)
     password = request.headers.get('password', None)
-    application_uuid = request.headers.get('application_uuid', None)
+    try:
+      application_uuid = uuid.UUID(request.headers.get('application-uuid', None))
+      user_info = self.database.user_login(name=username, password=password, application_uuid=application_uuid)
+    except (ValueError, SQLAlchemyError, TypeError):
+      return Response(json.dumps({'error': 'unauthorized'}), status=403)
     ip = request.remote_addr
-    user_info = self.export_db_factory.user_login(name=username, password=password, application_uuid=application_uuid)
+    print(f'received valid login from {ip} {user_info}')
     if user_info:
       session_id = str(uuid.uuid4())
       token = str(uuid.uuid4())
@@ -36,45 +40,45 @@ class SessionStart(Resource, Config):
         'application_id': user_info.application_id,
         'application_uuid': application_uuid,
         'ip': ip,
-        'cities': []
+        'scenarios': []
       }
-      cities = self.export_db_factory.cities_by_user_and_application(user_info.id, user_info.application_id)
+      cities = self.database.cities_by_user_and_application(user_info.id, user_info.application_id)
       for city in cities:
-        session['cities'].append({
+        if city.scenario not in session['scenarios']:
-          "name": city.name,
+          session['scenarios'].append(city.scenario)
-          "geometric_level_of_detail": city.level_of_detail
-        })
       sessions[session_id] = session
-      response = Response(json.dumps({'cities': session['cities'], 'result': 'OK'}), status=200)
+      response = Response(json.dumps({'scenarios': session['scenarios'], 'result': 'OK'}), status=200)
       response.headers['session_id'] = session_id
       response.headers['token'] = token
       return response
 
     return Response(json.dumps({'error': 'unauthorized'}), status=403)
 
+
 class SessionEnd(Resource):
   def __init__(self):
     pass
 
   @staticmethod
   def put():
-    session_id = request.headers.get('session_id', None)
+    session_id = request.headers.get('session-id', None)
     token = request.headers.get('token', None)
-    application_uuid = request.headers.get('application_uuid', None)
+    application_uuid = request.headers.get('application-uuid', None)
 
     if remove_session(session_id, token, application_uuid):
       return Response(json.dumps({'result': 'succeed'}), status=200)
     return Response(json.dumps({'error': 'unauthorized'}), status=403)
 
+
 class KeepSessionAlive(Resource):
   def __init__(self):
     pass
 
   @staticmethod
   def put():
-    session_id = request.headers.get('session_id', None)
+    session_id = request.headers.get('session-id', None)
     token = request.headers.get('token', None)
-    application_uuid = request.headers.get('application_uuid', None)
+    application_uuid = request.headers.get('application-uuid', None)
     _session = refresh_session(session_id, token, application_uuid)
 
     if _session is None:

hub_api/energy_plus/idf_generator.py

@@ -0,0 +1,54 @@
+import datetime
+import json
+import os
+from pathlib import Path
+
+from flask import request, Response, make_response, send_file
+from flask_restful import Resource
+from hub.city_model_structure.city import City
+from hub.exports.energy_building_exports_factory import EnergyBuildingsExportsFactory
+from hub.version import __version__ as version
+
+from hub_api.config import Config
+from hub_api.helpers.session_helper import refresh_session, session
+
+
+class IdfGenerator(Resource, Config):
+  def __init__(self):
+    self._tmp_path = (Path(__file__).parent / 'tmp').resolve()
+    super().__init__()
+
+  def post(self):
+    """
+    API call generate the IDF file for the input data
+    """
+    session_id = request.headers.get('session-id', None)
+    token = request.headers.get('token', None)
+    application_uuid = request.headers.get('application-uuid', None)
+    _session = refresh_session(session_id, token, application_uuid)
+    if _session is None:
+      return Response(json.dumps({'error': 'unauthorized'}), status=403)
+    else:
+      token = _session['token']
+      application_id = session(session_id)['application_id']
+      user_id = session(session_id)['user_id']
+
+    tmp_path = (self._tmp_path / token).resolve()
+    try:
+      os.mkdir(tmp_path)
+    except FileExistsError:
+      pass
+    payload = request.get_json()
+    for key, value in payload.items():
+      db_city = self.database.get_city(self.database.building(value, user_id, application_id, key).city_id)
+
+      if version != db_city.hub_release:
+        return Response(json.dumps({
+          'error': 'The selected building belongs to an old hub release and cannot be loaded.'
+        }), status=422)
+      idf_file = tmp_path/db_city.name
+      city = City.load_compressed(db_city.pickle_path, idf_file)
+      EnergyBuildingsExportsFactory('idf', city, tmp_path, target_buildings=[value]).export()
+      response = make_response(send_file(idf_file))
+      response.headers['token'] = token
+      return response

hub_api/energy_plus/tmp/.gitignore

@@ -0,0 +1,2 @@
+*
+!.gitignore

hub_api/geolocation/reverse.py

@@ -1,35 +0,0 @@
-import json
-import math
-from pathlib import Path
-
-from flask import Response
-from flask.views import MethodView
-
-from hub_api.config import Config
-
-
-class Reverse(MethodView, Config):
-  def __init__(self):
-    super().__init__()
-    self._reverse_path = Path(Path(__file__).parent.parent / 'data/cities15000.txt').resolve()
-
-  def get(self, latitude: float, longitude: float):
-    latitude = float(latitude)
-    longitude = float(longitude)
-    distance = math.inf
-    country = 'unknown'
-    city = 'unknown'
-    with open(self._reverse_path, 'r') as f:
-      for line_number, line in enumerate(f):
-        fields = line.split('\t')
-        file_city_name = fields[1]
-        file_latitude = float(fields[4])
-        file_longitude = float(fields[5])
-        file_country_code = fields[8]
-        new_distance = math.sqrt(pow((latitude-file_latitude),2) + pow((longitude-file_longitude),2))
-        if distance > new_distance:
-          distance = new_distance
-          country = file_country_code
-          city = file_city_name
-    return Response(json.dumps({'country': country, 'city':city}), status=200)
-

hub_api/helpers/session_helper.py

@@ -3,9 +3,13 @@ Session helper
 SPDX - License - Identifier: LGPL - 3.0 - or -later
 Copyright © 2022 Project Author name guillermo.gutierrezmorote@concordia.ca
 """
-import uuid
 import datetime
+import shutil
 import time
+import uuid
+from copy import deepcopy
+from glob import glob
+from pathlib import Path
 
 sessions = {}
 begin_time = None
@@ -16,17 +20,26 @@ construction_catalog = None
 usage_catalog = None
 debug_mode = False
 
+
 def expired_sessions_collector(session_timeout_duration):
   """
   Goes through each session in sessions and removes expired session(s)
   """
   while True:
     if bool(sessions):
-      for _session in list(sessions):
+      _sessions = deepcopy(sessions)
-        _expire = datetime.datetime.strptime(sessions[session]['expire'], '%Y-%m-%d %H:%M:%S.%f')
+      for session_uuid in _sessions:
+        _expire = datetime.datetime.strptime(_sessions[session_uuid]['expire'], '%Y-%m-%d %H:%M:%S.%f')
         if _expire < datetime.datetime.now():
-          print("session with session_id: ", session, "expired.")
+          print("session for user: ", _sessions[session_uuid]['user'], "expired.")
-          del sessions[session]
+          response_path = (Path(__file__).parent.parent / f'response_files/{session_uuid}').resolve()
+          if response_path.exists():
+            shutil.rmtree(response_path)
+          del sessions[session_uuid]
+      existing_directories = glob(f'{Path(__file__).parent.parent.resolve()}/response_files/*')
+      for directory in existing_directories:
+        if directory not in _sessions.keys():
+          shutil.rmtree(directory)
     time.sleep(60 * int(session_timeout_duration))
 
 
@@ -38,7 +51,7 @@ def _validate_session(session_id, token, application_uuid):
     _session = session(session_id)
     if debug_mode:
       token = _session['token']
-    return bool(_session) and (_session['token'] == token) and _session['application_uuid'] == application_uuid
+    return bool(_session) and (_session['token'] == token) and str(_session['application_uuid']) == application_uuid
   except KeyError:
     return False
 

hub_api/mockup/building.py

@@ -0,0 +1,231 @@
+"""
+Mockup Building module
+SPDX - License - Identifier: LGPL - 3.0 - or -later
+Copyright © 2023 Concordia CERC group
+Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
+"""
+
+import hub.helpers.constants as cte
+from hub.helpers.dictionaries import Dictionaries
+
+
+from hub_api.mockup.properties import *
+
+
+class Building:
+  """
+  Building class
+  """
+  def __init__(self, building_info, results, catalog_archetype):
+    self._function = building_info.function
+    self._area = building_info.area
+    self._volume = building_info.volume
+    self._total_heating_area = building_info.total_heating_area
+    self._wall_area = building_info.wall_area
+    self._windows_area = building_info.windows_area
+    self._roof_area = building_info.roof_area
+    self._total_pv_area = building_info.total_pv_area
+    self._energy_systems_archetype_name = building_info.system_name
+    self._heating_consumption = {
+      cte.YEAR: results['insel meb']['yearly_heating_consumption'],
+      cte.MONTH: results['insel meb']['monthly_heating_consumption']
+    }
+    self._cooling_consumption = {
+      cte.YEAR: results['insel meb']['yearly_cooling_consumption'],
+      cte.MONTH: results['insel meb']['monthly_cooling_consumption']
+    }
+    self._domestic_hot_water_consumption = {
+      cte.YEAR: results['insel meb']['yearly_domestic_hot_water_consumption'],
+      cte.MONTH: results['insel meb']['monthly_domestic_hot_water_consumption']
+    }
+    self._lighting_electrical_demand = {
+      cte.YEAR: results['insel meb']['yearly_lighting_electrical_demand'],
+      cte.MONTH: results['insel meb']['monthly_lighting_electrical_demand']
+    }
+    self._appliances_electrical_demand = {
+      cte.YEAR: results['insel meb']['yearly_appliances_electrical_demand'],
+      cte.MONTH: results['insel meb']['monthly_appliances_electrical_demand']
+    }
+    self._heating_peak_load = {
+      cte.YEAR: results['insel meb']['yearly_heating_peak_load'],
+      cte.MONTH: results['insel meb']['monthly_heating_peak_load']
+    }
+    self._cooling_peak_load = {
+      cte.YEAR: results['insel meb']['yearly_cooling_peak_load'],
+      cte.MONTH: results['insel meb']['monthly_cooling_peak_load']
+    }
+    self._lighting_peak_load = {
+      cte.YEAR: results['insel meb']['yearly_lighting_peak_load'],
+      cte.MONTH: results['insel meb']['monthly_lighting_peak_load']
+    }
+    self._appliances_peak_load = {
+      cte.YEAR: results['insel meb']['yearly_appliances_peak_load'],
+      cte.MONTH: results['insel meb']['monthly_appliances_peak_load']
+    }
+    self._onsite_electrical_production = {
+      cte.YEAR: results['insel meb']['yearly_on_site_electrical_production'],
+      cte.MONTH: results['insel meb']['monthly_on_site_electrical_production']
+    }
+    self._catalog_archetype = catalog_archetype
+
+  @property
+  def function(self):
+    """
+    Get building function
+    :return: str
+    """
+    return self._function
+
+  @property
+  def volume(self):
+    """
+    Get building volume in m3
+    :return: float
+    """
+    return self._volume
+
+  @property
+  def thermal_zones_from_internal_zones(self) -> [ThermalZone]:
+    """
+    Get building thermal zones
+    :return: [ThermalZone]
+    """
+    ground = ThermalBoundary()
+    ground.type = 'Ground'
+    ground.opaque_area = self._area
+    roof = ThermalBoundary()
+    roof.type = 'Roof'
+    roof.opaque_area = self._roof_area
+    wall = ThermalBoundary()
+    wall.type = 'Wall'
+    wall.opaque_area = self._wall_area
+    wall.window_ratio = self._windows_area / (self._windows_area + self._wall_area)
+    thermal_zone = ThermalZone()
+    thermal_zone.total_floor_area = self._total_heating_area
+    thermal_zone.thermal_boundaries = [roof, wall, ground]
+    return [thermal_zone]
+
+  @property
+  def roofs(self) -> [Roof]:
+    """
+    Get building roofs
+    :return: [Roof]
+    """
+    polygon = Polygon()
+    polygon.area = self._roof_area
+    roof = Roof()
+    roof.solid_polygon = polygon
+    roof.solar_collectors_area_reduction_factor = self._total_pv_area / self._roof_area
+    return [roof]
+
+  @property
+  def heating_consumption(self):
+    """
+    Get building heating consumption in J
+    :return: dict
+    """
+    return self._heating_consumption
+
+  @property
+  def cooling_consumption(self):
+    """
+    Get building cooling consumption in J
+    :return: dict
+    """
+    return self._cooling_consumption
+
+  @property
+  def domestic_hot_water_consumption(self):
+    """
+    Get building domestic hot water consumption in J
+    :return: dict
+    """
+    return self._domestic_hot_water_consumption
+
+  @property
+  def lighting_electrical_demand(self):
+    """
+    Get building lighting demand in J
+    :return: dict
+    """
+    return self._lighting_electrical_demand
+
+  @property
+  def appliances_electrical_demand(self):
+    """
+    Get building appliances electrical demand in J
+    :return: dict
+    """
+    return self._appliances_electrical_demand
+
+  @property
+  def heating_peak_load(self):
+    """
+    Get building heating peak load in W
+    :return: dict
+    """
+    return self._heating_peak_load
+
+  @property
+  def cooling_peak_load(self):
+    """
+    Get building cooling peak load in W
+    :return: dict
+    """
+    return self._cooling_peak_load
+
+  @property
+  def lighting_peak_load(self):
+    """
+    Get building lighting peak load in W
+    :return: dict
+    """
+    return self._lighting_peak_load
+
+  @property
+  def appliances_peak_load(self):
+    """
+    Get building appliances peak load in W
+    :return: dict
+    """
+    return self._appliances_peak_load
+
+  @property
+  def onsite_electrical_production(self):
+    """
+    Get building onsite electrical production in J
+    :return: dict
+    """
+    return self._onsite_electrical_production
+
+  @property
+  def energy_systems_archetype_name(self):
+    """
+    Get energy systems archetype name
+    :return: dict
+    """
+    return self._energy_systems_archetype_name
+
+  @property
+  def energy_systems(self) -> [EnergySystem]:
+    """
+    Get building energy systems
+    :return: [EnergySystem]
+    """
+    _energy_systems = []
+    for system in self._catalog_archetype.systems:
+      _hub_demand_types = []
+      for demand_type in system.demand_types:
+        # todo: generalize this when we have more catalogs
+        _hub_demand_types.append(Dictionaries().montreal_demand_type_to_hub_energy_demand_type[demand_type])
+      demands = _hub_demand_types
+      fuel_type = Dictionaries().montreal_custom_fuel_to_hub_fuel[system.generation_systems[0].fuel_type]
+      generic_generation_system = GenericGenerationSystem()
+      generic_generation_system.fuel_type = fuel_type
+      generation_system = GenerationSystem()
+      generation_system.generic_generation_system = generic_generation_system
+      energy_system = EnergySystem()
+      energy_system.generation_system = generation_system
+      energy_system.demand_types = demands
+      _energy_systems.append(energy_system)
+    return _energy_systems

hub_api/mockup/properties.py

@@ -0,0 +1,267 @@
+"""
+Properties module to be used by mockup building
+SPDX - License - Identifier: LGPL - 3.0 - or -later
+Copyright © 2023 Concordia CERC group
+Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
+"""
+
+from __future__ import annotations
+
+
+class EnergySystem:
+  """
+  EnergySystem class
+  """
+  def __init__(self):
+    self._generation_system = None
+    self._demand_types = None
+
+  @property
+  def generation_system(self) -> GenerationSystem:
+    """
+    Get building generation system
+    :return: GenerationSystem
+    """
+    return self._generation_system
+
+  @generation_system.setter
+  def generation_system(self, value):
+    """
+    Set building generation system
+    :param value: GenerationSystem
+    """
+    self._generation_system = value
+
+  @property
+  def demand_types(self):
+    """
+    Get demand types covered by an energy system
+    :return: [str]
+    """
+    return self._demand_types
+
+  @demand_types.setter
+  def demand_types(self, value):
+    """
+    Set demand types covered by an energy system
+    :param value: [str]
+    """
+    self._demand_types = value
+
+
+class GenerationSystem:
+  """
+  GenerationSystem class
+  """
+
+  def __init__(self):
+    self._generic_generation_system = None
+
+  @property
+  def generic_generation_system(self) -> GenericGenerationSystem:
+    """
+    Get generic generation system
+    :return: GenericGenerationSystem
+    """
+    return self._generic_generation_system
+
+  @generic_generation_system.setter
+  def generic_generation_system(self, value):
+    """
+    Set generic generation system
+    :param value: GenericGenerationSystem
+    """
+    self._generic_generation_system = value
+
+
+class GenericGenerationSystem:
+  """
+  GenericGenerationSystem class
+  """
+
+  def __init__(self):
+    self._fuel_type = None
+
+  @property
+  def fuel_type(self):
+    """
+    Get fuel type of generic generation system
+    :return: str
+    """
+    return self._fuel_type
+
+  @fuel_type.setter
+  def fuel_type(self, value):
+    """
+    Set fuel type of generic generation system
+    :param value: str
+    """
+    self._fuel_type = value
+
+
+class ThermalZone:
+  """
+  ThermalZone class
+  """
+
+  def __init__(self):
+    self._thermal_boundaries = None
+    self._total_floor_area = None
+
+  @property
+  def thermal_boundaries(self) -> [ThermalBoundary]:
+    """
+    Get thermal boundaries
+    :return: [ThermalBoundary]
+    """
+    return self._thermal_boundaries
+
+  @thermal_boundaries.setter
+  def thermal_boundaries(self, value):
+    """
+    Set thermal boundaries
+    :param value: [ThermalBoundary]
+    """
+    self._thermal_boundaries = value
+
+  @property
+  def total_floor_area(self):
+    """
+    Get total floor area in m2
+    :return: float
+    """
+    return self._total_floor_area
+
+  @total_floor_area.setter
+  def total_floor_area(self, value):
+    """
+    Get total floor area in m2
+    :param value: float
+    """
+    self._total_floor_area = value
+
+
+class ThermalBoundary:
+  """
+  ThermalBoundary class
+  """
+
+  def __init__(self):
+    self._type = None
+    self._opaque_area = None
+    self._window_ratio = None
+
+  @property
+  def type(self):
+    """
+    Get thermal boundary type
+    :return: str
+    """
+    return self._type
+
+  @type.setter
+  def type(self, value):
+    """
+    Set thermal boundary type
+    :param value: str
+    """
+    self._type = value
+
+  @property
+  def opaque_area(self):
+    """
+    Get thermal boundary opaque area in m2
+    :return: float
+    """
+    return self._opaque_area
+
+  @opaque_area.setter
+  def opaque_area(self, value):
+    """
+    Set thermal boundary opaque area in m2
+    :param value: float
+    """
+    self._opaque_area = value
+
+  @property
+  def window_ratio(self):
+    """
+    Get thermal boundary window ratio
+    :return: float
+    """
+    return self._window_ratio
+
+  @window_ratio.setter
+  def window_ratio(self, value):
+    """
+    Set thermal boundary window ratio
+    :param value: float
+    """
+    self._window_ratio = value
+
+
+class Roof:
+  """
+  Roof class
+  """
+
+  def __init__(self):
+    self._solid_polygon = None
+    self._solar_collectors_area_reduction_factor = None
+
+  @property
+  def solid_polygon(self) -> Polygon:
+    """
+    Get solid polygon
+    :return: Polygon
+    """
+    return self._solid_polygon
+
+  @solid_polygon.setter
+  def solid_polygon(self, value):
+    """
+    Set solid polygon
+    :param value: Polygon
+    """
+    self._solid_polygon = value
+
+  @property
+  def solar_collectors_area_reduction_factor(self):
+    """
+    Get solar-collectors-area reduction factor
+    :return: float
+    """
+    return self._solar_collectors_area_reduction_factor
+
+  @solar_collectors_area_reduction_factor.setter
+  def solar_collectors_area_reduction_factor(self, value):
+    """
+    Set solar-collectors-area reduction factor
+    :param value: float
+    """
+    self._solar_collectors_area_reduction_factor = value
+
+
+class Polygon:
+  """
+  Polygon class
+  """
+
+  def __init__(self):
+    self._area = None
+
+  @property
+  def area(self):
+    """
+    Get polygon area in m2
+    :return: float
+    """
+    return self._area
+
+  @area.setter
+  def area(self, value):
+    """
+    Set polygon area in m2
+    :param value: float
+    """
+    self._area = value

hub_api/persistence/full_retrofit_results.py

@@ -0,0 +1,45 @@
+import json
+
+from flask import Response, request
+from flask_restful import Resource
+
+from hub_api.config import Config
+from hub_api.helpers.session_helper import refresh_session
+from hub_api.persistence.mock import dic
+
+
+class FullRetrofitResults(Resource, Config):
+
+  def __init__(self):
+    super().__init__()
+
+  def post(self):
+    session_id = request.headers.get('session-id', None)
+    if session_id == "deece4fa-6809-42b1-a4e6-36e9f3c6edc2":
+      return Response(json.dumps(dic), status=200)
+    token = request.headers.get('token', None)
+    application_uuid = request.headers.get('application-uuid', None)
+    _session = refresh_session(session_id, token, application_uuid)
+    results = {'current status': [],
+               'skin retrofit': [],
+               'system retrofit and pv': [],
+               'skin and system retrofit with pv': []
+               }
+    if _session is None:
+      return Response(json.dumps({'error': 'unauthorized'}), status=403)
+    else:
+      response_token = {'token': _session['token']}
+      json_request = request.get_json()
+      for scenario in json_request['scenarios']:
+        for key, buildings in scenario.items():
+          mongodb_collection = f'{self.mongodb_collection_prefix}{key.replace(" ", "_")}'
+          building_query = ''
+          for building in buildings:
+            building_query = f'{building_query} {{"alias": "{building}"}},'
+          query = f'{{"$or": [{building_query[:-1]}]}}'
+          cursor = self.montreal_retrofit_db[mongodb_collection].find(json.loads(query))
+          for result in cursor:
+            del result['_id']
+            result['building'] = result['alias']
+            results[key].append(result)
+    return Response(json.dumps({'result': 'succeed', 'results': results}), status=200, headers=response_token)

hub_api/persistence/retrofit_results.py

@@ -0,0 +1,142 @@
+import json
+import threading
+
+from co2_emission.co2_emission import Co2Emission
+from costs.cost import Cost
+from flask import Response, request
+from flask_restful import Resource
+
+from hub_api.config import Config
+from hub_api.helpers.session_helper import session, refresh_session
+from hub_api.mockup.building import Building
+from hub_api.persistence.mock import dic
+
+
+class RetrofitResults(Resource, Config):
+
+  def __init__(self):
+    super().__init__()
+    self._scenario_ids = {'current status': 0,
+                          'skin retrofit': 1,
+                          'system retrofit and pv': 2,
+                          'skin and system retrofit with pv': 3
+                          }
+
+  def _calculate_building(self, building_results, user_id, application_id, scenario, scenario_id):
+    building_info = self.database.building(building_results['building'], user_id, application_id, scenario)
+    archetype = self.energy_systems_catalog.get_entry(building_info.system_name)
+    mockup_building = Building(building_info, building_results, archetype)
+    life_cycle = Cost(mockup_building, retrofit_scenario=scenario_id).life_cycle
+    operational_co2 = Co2Emission(mockup_building).operational_co2
+    global_capital_costs = life_cycle[f'Scenario {scenario_id}']['global_capital_costs']
+    global_operational_costs = life_cycle[f'Scenario {scenario_id}']['global_operational_costs']
+    global_capital_incomes = life_cycle[f'Scenario {scenario_id}']['global_capital_incomes']
+    global_maintenance_costs = life_cycle[f'Scenario {scenario_id}']['global_maintenance_costs']
+    building_results['total_heating_area'] = building_info.total_heating_area
+    building_results['year_of_construction'] = building_info.year_of_construction
+    building_results['function'] = building_info.function
+    building_results['costs'] = {
+      'total_capital_costs_skin': life_cycle[f'Scenario {scenario_id}']['total_capital_costs_skin'],
+      'total_capital_costs_systems': life_cycle[f'Scenario {scenario_id}']['total_capital_costs_systems'],
+      'end_of_life_costs': life_cycle[f'Scenario {scenario_id}']['end_of_life_costs'],
+      'total_operational_costs': life_cycle[f'Scenario {scenario_id}']['total_operational_costs'],
+      'total_maintenance_costs': life_cycle[f'Scenario {scenario_id}']['total_maintenance_costs'],
+      'operational_incomes': life_cycle[f'Scenario {scenario_id}']['operational_incomes'],
+      'capital_incomes': life_cycle[f'Scenario {scenario_id}']['capital_incomes'],
+      'global_capital_costs': {
+        'B2010_opaque_walls': global_capital_costs['B2010_opaque_walls'].tolist(),
+        'B2020_transparent': global_capital_costs['B2020_transparent'].tolist(),
+        'B3010_opaque_roof': global_capital_costs['B3010_opaque_roof'].tolist(),
+        'B10_superstructure': global_capital_costs['B10_superstructure'].tolist(),
+        'D3020_heat_generating_systems': global_capital_costs['D3020_heat_generating_systems'].tolist(),
+        'D3030_cooling_generation_systems': global_capital_costs['D3030_cooling_generation_systems'].tolist(),
+        'D3080_other_hvac_ahu': global_capital_costs['D3080_other_hvac_ahu'].tolist(),
+        'D5020_lighting_and_branch_wiring': global_capital_costs['D5020_lighting_and_branch_wiring'].tolist(),
+        'D301010_photovoltaic_system': global_capital_costs['D301010_photovoltaic_system'].tolist(),
+      },
+      'global_end_of_life_costs': life_cycle[f'Scenario {scenario_id}']['global_end_of_life_costs'][
+        'End_of_life_costs'].tolist(),
+      'global_operational_costs': {
+        'fixed_costs_electricity_peak': global_operational_costs['Fixed_costs_electricity_peak'].tolist(),
+        'fixed_costs_electricity_monthly': global_operational_costs['Fixed_costs_electricity_monthly'].tolist(),
+        'variable_costs_electricity': global_operational_costs['Variable_costs_electricity'].tolist(),
+        'fixed_costs_gas': global_operational_costs['Fixed_costs_gas'].tolist(),
+        'variable_costs_gas': global_operational_costs['Variable_costs_gas'].tolist()
+      },
+      'global_maintenance_costs': {
+        'heating_maintenance': global_maintenance_costs['Heating_maintenance'].tolist(),
+        'cooling_maintenance': global_maintenance_costs['Cooling_maintenance'].tolist(),
+        'pv_maintenance': global_maintenance_costs['PV_maintenance'].tolist(),
+      },
+      'global_operational_incomes': life_cycle[f'Scenario {scenario_id}']['global_operational_incomes'][
+        'Incomes electricity'].tolist(),
+      'global_capital_incomes': {
+        'subsidies_construction': global_capital_incomes['Subsidies construction'].tolist(),
+        'subsidies_hvac': global_capital_incomes['Subsidies HVAC'].tolist(),
+        'subsidies_pv': global_capital_incomes['Subsidies PV'].tolist()
+      }
+    }
+    building_results['operational_co2'] = operational_co2
+
+  def post(self):
+    """
+    API call for requesting a specified list of enriched persistence
+    """
+    # todo: cost and co2 libs are using default canadians values, in the future need to be optionally API configurable
+    session_id = request.headers.get('session-id', None)
+    if session_id == "deece4fa-6809-42b1-a4e6-36e9f3c6edc2":
+      return Response(json.dumps(dic), status=200)
+    token = request.headers.get('token', None)
+    application_uuid = request.headers.get('application-uuid', None)
+    _session = refresh_session(session_id, token, application_uuid)
+    if _session is None:
+      return Response(json.dumps({'error': 'unauthorized'}), status=403)
+    else:
+      token = {'token': _session['token']}
+      application_id = session(session_id)['application_id']
+      user_id = session(session_id)['user_id']
+    payload = request.get_json()
+    if 'scenarios' not in payload:
+      return Response(json.dumps({'error': 'Bad request'}), status=400, headers=token)
+    results = self.database.results(user_id, application_id, payload)
+    if results == {}:
+      # no data found for the given parameters
+      return Response(json.dumps({'result': 'succeed', 'results': results}), status=200, headers=token)
+    # deserialize the response to return pure json
+    t = []
+    for scenario in results:
+      scenario_id = self._scenario_ids[scenario]
+      for building_results in results[scenario]:
+        f = threading.Thread(
+          target=self._calculate_building,
+          args=(building_results, user_id, application_id, scenario, scenario_id)
+        )
+        t.append(f)
+        f.start()
+    for f in t:
+      f.join()
+    return Response(json.dumps({'result': 'succeed', 'results': results}), status=200, headers=token)
+
+  def get(self):
+    session_id = request.headers.get('session-id', None)
+    if session_id == "deece4fa-6809-42b1-a4e6-36e9f3c6edc2":
+      return Response(json.dumps(dic), status=200)
+    token = request.headers.get('token', None)
+    application_uuid = request.headers.get('application-uuid', None)
+    _session = refresh_session(session_id, token, application_uuid)
+    results = {'meb': []}
+    if _session is None:
+      return Response(json.dumps({'error': 'unauthorized'}), status=403)
+    else:
+      response_token = {'token': _session['token']}
+      buildings = request.get_json()['buildings']
+      building_query = ''
+      for building in buildings:
+        building_query = f'{building_query} {{"alias": "{building}"}},'
+      query = f'{{"$or": [{building_query[:-1]}]}}'
+      cursor = self.mongodb_meb.find(json.loads(query))
+      for result in cursor:
+        del result['_id']
+        results['meb'].append(result)
+
+    return Response(json.dumps({'result': 'succeed', 'results': results}), status=200, headers=response_token)

hub_api/response_files/.gitignore

@@ -0,0 +1,2 @@
+*
+!.gitignore

hub_api/tests/test_api.py

@@ -0,0 +1,16 @@
+from unittest import TestCase
+
+from hub_api.config import Config
+from hub.persistence.models import City, Application, CityObject, SimulationResults, User
+
+
+class TestApi(TestCase):
+  def test_create_database(self):
+    config = Config()
+    Application.__table__.create(bind=config.repository.engine, checkfirst=True)
+    User.__table__.create(bind=config.repository.engine, checkfirst=True)
+    City.__table__.create(bind=config.repository.engine, checkfirst=True)
+    CityObject.__table__.create(bind=config.repository.engine, checkfirst=True)
+    SimulationResults.__table__.create(bind=config.repository.engine, checkfirst=True)
+    config.database.create_user('Administrator', )
+    self.assertTrue(True)

hub_api/workflow/costs.py

@@ -0,0 +1,14 @@
+from flask_restful import Resource
+
+from hub_api.config import Config
+
+
+class Costs(Resource, Config):
+  def __init__(self):
+    super().__init__()
+
+  def post(self):
+    """
+    API call for performing the cost workflow
+    """
+    raise NotImplementedError()

hub_api/workflow/energy_plus.py

@@ -0,0 +1,117 @@
+import json
+import os
+import shutil
+import zipfile
+from pathlib import Path
+
+from flask import Response, request, send_file, make_response
+from flask_restful import Resource
+from hub.exports.energy_building_exports_factory import EnergyBuildingsExportsFactory
+from hub.imports.construction_factory import ConstructionFactory
+from hub.imports.geometry_factory import GeometryFactory
+from hub.imports.usage_factory import UsageFactory
+from hub.imports.weather_factory import WeatherFactory
+from werkzeug.utils import secure_filename
+
+from hub_api.config import Config
+from hub_api.helpers.session_helper import refresh_session
+
+
+class EnergyPlus(Resource, Config):
+  def __init__(self):
+    super().__init__()
+    self._extensions = ['.geojson', '.gml']
+    self._tmp_path = (Path(__file__).parent / 'tmp').resolve()
+    self._response_path = (Path(__file__).parent.parent / 'response_files').resolve()
+    self._city = None
+
+  def _allowed_extensions(self, filename):
+    self._file_extension = Path(filename).suffix
+    return self._file_extension in self._extensions
+
+  def _geojson(self, file_path):
+    try:
+      height_field = request.form.get('height_field')
+      year_of_construction_field = request.form.get('year_of_construction_field')
+      function_field = request.form.get('function_field')
+      function_dictionary = self._dictionaries[request.form.get('function_to_hub')]
+      return GeometryFactory('geojson',
+                             path=file_path,
+                             height_field=height_field,
+                             year_of_construction_field=year_of_construction_field,
+                             function_field=function_field,
+                             function_to_hub=function_dictionary).city
+    except KeyError:
+      return None
+
+  def _citygml(self, file_path):
+    try:
+      year_of_construction_field = request.form.get('year_of_construction_field')
+      function_field = request.form.get('function_field')
+      function_dictionary = self._dictionaries[request.form.get('function_dictionary_name')]
+      hub_crs = request.form.get('hub_crs')
+      return GeometryFactory('citygml',
+                             path=file_path,
+                             year_of_construction_field=year_of_construction_field,
+                             function_field=function_field,
+                             function_to_hub=function_dictionary,
+                             hub_crs=hub_crs).city
+    except KeyError:
+      return None
+
+  def post(self):
+    """
+    API call for performing the monthly energy balance workflow
+    """
+    session_id = request.headers.get('session-id', None)
+    token = request.headers.get('token', None)
+    application_uuid = request.headers.get('application-uuid', None)
+    _session = refresh_session(session_id, token, application_uuid)
+    if _session is None:
+      return Response(json.dumps({'error': 'unauthorized'}), status=403)
+    else:
+      response_token = {'token': _session['token']}
+      tmp_path = (self._tmp_path / token).resolve()
+      response_path = (self._response_path / session_id).resolve()
+      try:
+        os.mkdir(tmp_path)
+      except FileExistsError:
+        pass
+      try:
+        os.mkdir(response_path)
+      except FileExistsError:
+        pass
+      geometry_file = request.files['geometry_file']
+      if not self._allowed_extensions(geometry_file.filename):
+        shutil.rmtree(tmp_path)
+        return Response(json.dumps({'error': 'Unsupported media type'}), status=415, headers=response_token)
+      filename = secure_filename(geometry_file.filename)
+      file_path = os.path.join(tmp_path, filename)
+      geometry_file.save(file_path)
+      if self._file_extension == '.geojson':
+        self._city = self._geojson(file_path)
+      else:
+        self._city = self._citygml(file_path)
+      if self._city is None:
+        shutil.rmtree(tmp_path)
+        return Response(json.dumps({'error': 'Bad request'}), status=400, headers=response_token)
+      construction_handler = request.form.get('construction_handler')
+      usage_handler = request.form.get('usage_handler')
+      WeatherFactory('epw', self._city).enrich()
+      ConstructionFactory(construction_handler, self._city).enrich()
+      UsageFactory(usage_handler, self._city).enrich()
+      _idf = EnergyBuildingsExportsFactory('idf', self._city, tmp_path).export()
+      _idf.run()
+      result_files = [
+        str((tmp_path / f'{self._city.name}_out.csv').resolve()),
+        str((tmp_path / f'{self._city.name}_out.eso').resolve()),
+        str((tmp_path / f'{self._city.name}.idf').resolve()),
+      ]
+      result_zip = (response_path / f'{token}.zip').resolve()
+      with zipfile.ZipFile(result_zip, 'w') as zf:
+        for result_file in result_files:
+          zf.write(result_file, Path(result_file).name)
+    shutil.rmtree(tmp_path)
+    response = make_response(send_file(result_zip))
+    response.headers['token'] = token
+    return response

hub_api/workflow/glb.py

@@ -0,0 +1,105 @@
+import glob
+import json
+import os
+import shutil
+import zipfile
+from pathlib import Path
+
+from flask import Response, request, send_file, make_response
+from flask_restful import Resource
+from hub.exports.exports_factory import ExportsFactory
+from hub.imports.geometry_factory import GeometryFactory
+from werkzeug.utils import secure_filename
+
+from hub_api.config import Config
+from hub_api.helpers.session_helper import refresh_session
+
+
+class Glb(Resource, Config):
+  def __init__(self):
+    super().__init__()
+    self._extensions = ['.geojson', '.gml']
+    self._tmp_path = (Path(__file__).parent / 'tmp').resolve()
+    self._response_path = (Path(__file__).parent.parent / 'response_files').resolve()
+    self._city = None
+
+  def _allowed_extensions(self, filename):
+    self._file_extension = Path(filename).suffix
+    return self._file_extension in self._extensions
+
+  def _geojson(self, file_path):
+    try:
+      height_field = request.form.get('height_field')
+      year_of_construction_field = request.form.get('year_of_construction_field')
+      function_field = request.form.get('function_field')
+      function_dictionary = self._dictionaries[request.form.get('function_to_hub')]
+      return GeometryFactory('geojson',
+                             path=file_path,
+                             height_field=height_field,
+                             year_of_construction_field=year_of_construction_field,
+                             function_field=function_field,
+                             function_to_hub=function_dictionary).city
+    except KeyError:
+      return None
+
+  def _citygml(self, file_path):
+    try:
+      year_of_construction_field = request.form.get('year_of_construction_field')
+      function_field = request.form.get('function_field')
+      function_dictionary = self._dictionaries[request.form.get('function_dictionary_name')]
+      hub_crs = request.form.get('hub_crs')
+      return GeometryFactory('citygml',
+                             path=file_path,
+                             year_of_construction_field=year_of_construction_field,
+                             function_field=function_field,
+                             function_to_hub=function_dictionary,
+                             hub_crs=hub_crs).city
+    except KeyError:
+      return None
+
+  def post(self):
+    """
+    API call for performing the monthly energy balance workflow
+    """
+    session_id = request.headers.get('session-id', None)
+    token = request.headers.get('token', None)
+    application_uuid = request.headers.get('application-uuid', None)
+    _session = refresh_session(session_id, token, application_uuid)
+    if _session is None:
+      return Response(json.dumps({'error': 'unauthorized'}), status=403)
+    else:
+      response_token = {'token': _session['token']}
+      tmp_path = (self._tmp_path / token).resolve()
+      response_path = (self._response_path / session_id).resolve()
+      try:
+        os.mkdir(tmp_path)
+      except FileExistsError:
+        pass
+      try:
+        os.mkdir(response_path)
+      except FileExistsError:
+        pass
+      geometry_file = request.files['geometry_file']
+      if not self._allowed_extensions(geometry_file.filename):
+        shutil.rmtree(tmp_path)
+        return Response(json.dumps({'error': 'Unsupported media type'}), status=415, headers=response_token)
+      filename = secure_filename(geometry_file.filename)
+      file_path = os.path.join(tmp_path, filename)
+      geometry_file.save(file_path)
+      if self._file_extension == '.geojson':
+        self._city = self._geojson(file_path)
+      else:
+        self._city = self._citygml(file_path)
+      if self._city is None:
+        shutil.rmtree(tmp_path)
+        return Response(json.dumps({'error': 'Bad request'}), status=400, headers=response_token)
+      ExportsFactory('glb', self._city, tmp_path).export()
+      result_files = glob.glob(f'{tmp_path}/*.glb')
+      result_zip = (response_path / f'{token}.zip').resolve()
+      with zipfile.ZipFile(result_zip, 'w') as zf:
+        for result_file in result_files:
+          zf.write(result_file, Path(result_file).name)
+    shutil.rmtree(tmp_path)
+    response = make_response(send_file(result_zip))
+    response.headers['token'] = token
+    return response

hub_api/workflow/insel_montly_energy_balance.py

@@ -0,0 +1,137 @@
+import json
+import os
+import shutil
+import subprocess
+from pathlib import Path
+
+import hub.helpers.constants as cte
+from flask import Response, request
+from flask_restful import Resource
+from hub.exports.energy_building_exports_factory import EnergyBuildingsExportsFactory
+from hub.exports.exports_factory import ExportsFactory
+from hub.imports.construction_factory import ConstructionFactory
+from hub.imports.geometry_factory import GeometryFactory
+from hub.imports.results_factory import ResultFactory
+from hub.imports.usage_factory import UsageFactory
+from hub.imports.weather_factory import WeatherFactory
+from werkzeug.utils import secure_filename
+
+from hub_api.config import Config
+from hub_api.helpers.session_helper import refresh_session
+
+
+class InselMonthlyEnergyBalance(Resource, Config):
+  def __init__(self):
+    super().__init__()
+    self._extensions = ['.geojson', '.gml']
+    self._tmp_path = (Path(__file__).parent / 'tmp').resolve()
+    self._city = None
+
+  def _allowed_extensions(self, filename):
+    self._file_extension = Path(filename).suffix
+    return self._file_extension in self._extensions
+
+  def _geojson(self, file_path):
+    try:
+      height_field = request.form.get('height_field')
+      year_of_construction_field = request.form.get('year_of_construction_field')
+      function_field = request.form.get('function_field')
+      function_dictionary = self._dictionaries[request.form.get('function_to_hub')]
+      return GeometryFactory('geojson',
+                             path=file_path,
+                             height_field=height_field,
+                             year_of_construction_field=year_of_construction_field,
+                             function_field=function_field,
+                             function_to_hub=function_dictionary).city
+    except KeyError:
+      return None
+
+  def _citygml(self, file_path):
+    # try:
+    year_of_construction_field = request.form.get('year_of_construction_field')
+    if year_of_construction_field == '':
+      year_of_construction_field = None
+    function_field = request.form.get('function_field')
+    if function_field == '':
+      function_field = None
+    function_dictionary = self._dictionaries[request.form.get('function_to_hub')]
+    return GeometryFactory('citygml',
+                           path=file_path,
+                           year_of_construction_field=year_of_construction_field,
+                           function_field=function_field,
+                           function_to_hub=function_dictionary).city
+  # except KeyError:
+    #  return None
+
+  def post(self):
+    """
+    API call for performing the monthly energy balance workflow
+    """
+    session_id = request.headers.get('session-id', None)
+    token = request.headers.get('token', None)
+    application_uuid = request.headers.get('application-uuid', None)
+    _session = refresh_session(session_id, token, application_uuid)
+    if _session is None:
+      return Response(json.dumps({'error': 'unauthorized'}), status=403)
+    else:
+      response_token = {'token': _session['token']}
+      tmp_path = (self._tmp_path / token).resolve()
+      try:
+        os.mkdir(tmp_path)
+      except FileExistsError:
+        pass
+      geometry_file = request.files['geometry_file']
+      if not self._allowed_extensions(geometry_file.filename):
+        shutil.rmtree(tmp_path)
+        return Response(json.dumps({'error': 'Unsupported media type'}), status=415, headers=response_token)
+      filename = secure_filename(geometry_file.filename)
+      file_path = os.path.join(tmp_path, filename)
+      geometry_file.save(file_path)
+      if self._file_extension == '.geojson':
+        self._city = self._geojson(file_path)
+      else:
+        self._city = self._citygml(file_path)
+      if self._city is None:
+        shutil.rmtree(tmp_path)
+        return Response(json.dumps({'error': 'Bad request'}), status=400, headers=response_token)
+      construction_handler = request.form.get('construction_handler')
+      usage_handler = request.form.get('usage_handler')
+      WeatherFactory('epw', self._city).enrich()
+      ConstructionFactory(construction_handler, self._city).enrich()
+      UsageFactory(usage_handler, self._city).enrich()
+      ExportsFactory('sra', self._city, tmp_path).export()
+      sra_file = str((tmp_path / f'{self._city.name}_sra.xml').resolve())
+      subprocess.run([self.sra, sra_file], stdout=subprocess.DEVNULL)
+      ResultFactory('sra', self._city, tmp_path).enrich()
+      EnergyBuildingsExportsFactory('insel_monthly_energy_balance', self._city, tmp_path).export()
+      for building in self._city.buildings:
+        insel_path = (tmp_path / f'{building.name}.insel')
+        subprocess.run([self.insel, str(insel_path)], stdout=subprocess.DEVNULL)
+      ResultFactory('insel_monthly_energy_balance', self._city, tmp_path).enrich()
+      results = {}
+      for building in self._city.buildings:
+        results[building.name] = {
+          'total_heating_area': building.floor_area * building.storeys_above_ground,
+          'year_of_construction': building.year_of_construction,
+          'function': building.function,
+          'monthly_heating_demand': building.heating_demand[cte.MONTH],
+          'yearly_heating_demand': building.heating_demand[cte.YEAR],
+          'monthly_cooling_demand': building.cooling_demand[cte.MONTH],
+          'yearly_cooling_demand': building.cooling_demand[cte.YEAR],
+          'monthly_lighting_peak_load': building.lighting_peak_load[cte.MONTH],
+          'yearly_lighting_peak_load': building.lighting_peak_load[cte.YEAR],
+          'monthly_appliances_peak_load': building.appliances_peak_load[cte.MONTH],
+          'yearly_appliances_peak_load': building.appliances_peak_load[cte.YEAR],
+          'monthly_cooling_peak_load': building.cooling_peak_load[cte.MONTH],
+          'yearly_cooling_peak_load': building.cooling_peak_load[cte.YEAR],
+          'monthly_heating_peak_load': building.heating_peak_load[cte.MONTH],
+          'yearly_heating_peak_load': building.heating_peak_load[cte.YEAR],
+          'monthly_lighting_electrical_demand': building.lighting_electrical_demand[cte.MONTH],
+          'yearly_lighting_electrical_demand': building.lighting_electrical_demand[cte.YEAR],
+          'monthly_appliances_electrical_demand': building.appliances_electrical_demand[cte.MONTH],
+          'yearly_appliances_electrical_demand': building.appliances_electrical_demand[cte.YEAR],
+          'monthly_domestic_hot_water_heat_demand': building.domestic_hot_water_heat_demand[cte.MONTH],
+          'yearly_domestic_hot_water_heat_demand': building.domestic_hot_water_heat_demand[cte.YEAR],
+        }
+    shutil.rmtree(tmp_path)
+    return Response(json.dumps({'result': 'succeed', 'results': results}), status=200, headers=response_token)

hub_api/workflow/tmp/.gitignore

@@ -0,0 +1,2 @@
+.gitignore
+!.gitignore

requirements.txt

@@ -27,3 +27,9 @@ flasgger
 cerc-hub
 python-dotenv
 mapbox_earcut
+cerc-costs
+cerc-co2-emission
+werkzeug
+sqlalchemy
+pathlib
+pymongo