merge branch

costs/__init__.py

@@ -1,25 +1,9 @@
 """
 Cost workflow initialization
 """
-import glob
-import os
-from pathlib import Path
+from .capital_costs import CapitalCosts
+from .end_of_life_costs import EndOfLifeCosts
+from .total_maintenance_costs import TotalMaintenanceCosts
+from .total_operational_costs import TotalOperationalCosts
+from .total_operational_incomes import TotalOperationalIncomes
 
-
-# constants
-CURRENT_STATUS = 0
-SKIN_RETROFIT = 1
-SYSTEM_RETROFIT_AND_PV = 2
-SKIN_RETROFIT_AND_SYSTEM_RETROFIT_AND_PV = 3
-RETROFITTING_SCENARIOS = [
-  CURRENT_STATUS,
-  SKIN_RETROFIT,
-  SYSTEM_RETROFIT_AND_PV,
-  SKIN_RETROFIT_AND_SYSTEM_RETROFIT_AND_PV
-]
-tmp_folder = Path('./tmp').resolve()
-out_path = Path('./outputs').resolve()
-files = glob.glob(f'{out_path}/*')
-for file in files:
-  if file != '.gitignore':
-    os.remove(file)

costs/configuration.py

@@ -1,11 +1,7 @@
 """
 Configuration module
-SPDX - License - Identifier: LGPL - 3.0 - or -later
-Copyright © 2022 Project Author Guille Gutierrez Guillermo.GutierrezMorote@concordia.ca
-Code contributor Pilar Monsalvete Alvarez de Uribarri pilar_monsalvete@concordia.ca
-Code contributor Oriol Gavalda Torrellas oriol.gavalda@concordia.ca
 """
-from hub.catalog_factories.costs_catalog_factory import CostCatalogFactory
+from hub.catalog_factories.costs_catalog_factory import CostsCatalogFactory
 from hub.catalog_factories.catalog import Catalog
 
 
@@ -25,7 +21,10 @@ class Configuration:
                gas_price_index,
                discount_rate,
                retrofitting_year_construction,
-               factories_handler
+               factories_handler,
+               retrofit_scenario,
+               fuel_type,
+               dictionary
                ):
     self._number_of_years = number_of_years
     self._percentage_credit = percentage_credit
@@ -38,7 +37,10 @@ class Configuration:
     self._discount_rate = discount_rate
     self._retrofitting_year_construction = retrofitting_year_construction
     self._factories_handler = factories_handler
-    self._cost_catalog = CostCatalogFactory(factories_handler).catalog
+    self._costs_catalog = CostsCatalogFactory(factories_handler).catalog
+    self._retrofit_scenario = retrofit_scenario
+    self._fuel_type = fuel_type
+    self._dictionary = dictionary
 
   @property
   def number_of_years(self):
@@ -195,8 +197,29 @@ class Configuration:
     self._factories_handler = value
 
   @property
-  def cost_catalog(self) -> Catalog:
+  def costs_catalog(self) -> Catalog:
     """
-    Get cost catalog
+    Get costs catalog
     """
-    return self._cost_catalog
+    return self._costs_catalog
+
+  @property
+  def retrofit_scenario(self):
+    """
+    Get retrofit scenario
+    """
+    return self._retrofit_scenario
+
+  @property
+  def fuel_type(self):
+    """
+    Get fuel type (0: Electricity, 1: Gas)
+    """
+    return self._fuel_type
+
+  @property
+  def dictionary(self):
+    """
+    Get hub function to cost function dictionary
+    """
+    return self._dictionary

costs/cost.py

@@ -1,20 +1,14 @@
 """
 Cost module
-SPDX - License - Identifier: LGPL - 3.0 - or -later
-Copyright © 2022 Project Author Guille Gutierrez Guillermo.GutierrezMorote@concordia.ca
-Code contributor Pilar Monsalvete Alvarez de Uribarri pilar_monsalvete@concordia.ca
-Code contributor Oriol Gavalda Torrellas oriol.gavalda@concordia.ca
 """
-
-from pathlib import Path
-
-import numpy_financial as npf
+import hub.helpers.dictionaries
 import pandas as pd
-from hub.persistence.models.city_object import CityObject
+import numpy_financial as npf
+from hub.city_model_structure.building import Building
 
-from configuration import Configuration
-from costs.results import Results
-from life_cycle_costs import LifeCycleCosts
+from costs.configuration import Configuration
+from costs import CapitalCosts, EndOfLifeCosts, TotalMaintenanceCosts, TotalOperationalCosts, TotalOperationalIncomes
+from costs.constants import CURRENT_STATUS
 
 
 class Cost:
@@ -23,8 +17,7 @@ class Cost:
   """
 
   def __init__(self,
-               buildings: [CityObject],
-               buildings_results: dict,
+               building: Building,
                number_of_years=31,
                percentage_credit=0,
                interest_rate=0.04,
@@ -35,9 +28,13 @@ class Cost:
                gas_price_index=0.05,
                discount_rate=0.03,
                retrofitting_year_construction=2020,
-               factories_handler='montreal_custom'):
-    self._buildings = buildings
-    self._results = Results(buildings_results)
+               factories_handler='montreal_custom',
+               retrofit_scenario=CURRENT_STATUS,
+               dictionary=hub.helpers.dictionaries.Dictionaries().hub_function_to_montreal_custom_costs_function):
+    self._building = building
+    fuel_type = 0
+    if "gas" in building.energy_systems_archetype_name:
+      fuel_type = 1
     self._configuration = Configuration(number_of_years,
                                         percentage_credit,
                                         interest_rate, credit_years,
@@ -47,21 +44,27 @@ class Cost:
                                         gas_price_index,
                                         discount_rate,
                                         retrofitting_year_construction,
-                                        factories_handler)
-    self._global_capital_costs = None
-    self._global_capital_incomes = None
-    self._global_end_of_life_costs = None
-    self._global_operational_costs = None
-    self._global_maintenance_costs = None
-    self._global_operational_incomes = None
+                                        factories_handler,
+                                        retrofit_scenario,
+                                        fuel_type,
+                                        dictionary)
 
-  def _life_cycle_costs(self, building: CityObject, building_results: dict):
-    lcc = LifeCycleCosts(building, building_results, self._configuration)
-    self._global_capital_costs, self._global_capital_incomes = lcc.calculate_capital_costs
-    self._global_end_of_life_costs = lcc.calculate_end_of_life_costs
-    self._global_operational_costs = lcc.calculate_total_operational_costs
-    self._global_maintenance_costs = lcc.calculate_total_maintenance_costs
-    self._global_operational_incomes = lcc.calculate_total_operational_incomes
+  @property
+  def building(self) -> Building:
+    """
+    Get current building.
+    """
+    return self._building
+
+  @building.setter
+  def building(self, value: Building):
+    """
+    Set current building.
+    """
+    self._building = value
+
+  def _npv_from_list(self, list_cashflow):
+    return npf.npv(self._configuration.discount_rate, list_cashflow)
 
   @property
   def life_cycle(self) -> pd.DataFrame:
@@ -70,93 +73,71 @@ class Cost:
     :return: DataFrame
     """
     results = pd.DataFrame()
-    for building_index, building in enumerate(self._buildings):
-      self._life_cycle_costs(building, self._buildings_results[building_index])
-      df_capital_costs_skin = (
-          self._global_capital_costs['B2010_opaque_walls'] +
-          self._global_capital_costs['B2020_transparent'] +
-          self._global_capital_costs['B3010_opaque_roof'] +
-          self._global_capital_costs['B10_superstructure']
-      )
-      df_capital_costs_systems = (
-          self._global_capital_costs['D3020_heat_generating_systems'] +
-          self._global_capital_costs['D3030_cooling_generation_systems'] +
-          self._global_capital_costs['D3080_other_hvac_ahu'] +
-          self._global_capital_costs['D5020_lighting_and_branch_wiring'] +
-          self._global_capital_costs['D301010_photovoltaic_system']
-      )
-      df_end_of_life_costs = self._global_end_of_life_costs['End_of_life_costs']
-      df_operational_costs = (
-          self._global_operational_costs['Fixed_costs_electricity_peak'] +
-          self._global_operational_costs['Fixed_costs_electricity_monthly'] +
-          self._global_operational_costs['Fixed_costs_electricity_peak'] +
-          self._global_operational_costs['Fixed_costs_electricity_monthly'] +
-          self._global_operational_costs['Variable_costs_electricity'] +
-          self._global_operational_costs['Fixed_costs_gas'] +
-          self._global_operational_costs['Variable_costs_gas']
-      )
-      df_maintenance_costs = (
-          self._global_maintenance_costs['Heating_maintenance'] +
-          self._global_maintenance_costs['Cooling_maintenance'] +
-          self._global_maintenance_costs['PV_maintenance']
-      )
-      df_operational_incomes = self._global_operational_incomes['Incomes electricity']
-      df_capital_incomes = (
-          self._global_capital_incomes['Subsidies construction'] +
-          self._global_capital_incomes['Subsidies HVAC'] +
-          self._global_capital_incomes['Subsidies PV']
-      )
-      life_cycle_costs_capital_skin = npf.npv(
-        self._configuration.discount_rate, df_capital_costs_skin.values.tolist()
-      )
-      life_cycle_costs_capital_systems = npf.npv(
-        self._configuration.discount_rate, df_capital_costs_systems.values.tolist()
-      )
-      life_cycle_costs_end_of_life_costs = npf.npv(
-        self._configuration.discount_rate, df_end_of_life_costs.values.tolist()
-      )
-      life_cycle_operational_costs = npf.npv(
-        self._configuration.discount_rate, df_operational_costs.values.tolist()
-      )
-      life_cycle_maintenance_costs = npf.npv(
-        self._configuration.discount_rate, df_maintenance_costs.values.tolist()
-      )
-      life_cycle_operational_incomes = npf.npv(
-        self._configuration.discount_rate, df_operational_incomes.values.tolist()
-      )
-      life_cycle_capital_incomes = npf.npv(
-        self._configuration.discount_rate, df_capital_incomes.values.tolist()
-      )
+    global_capital_costs, global_capital_incomes = CapitalCosts(self._building, self._configuration).calculate()
+    global_end_of_life_costs = EndOfLifeCosts(self._building, self._configuration).calculate()
+    global_operational_costs = TotalOperationalCosts(self._building, self._configuration).calculate()
+    global_maintenance_costs = TotalMaintenanceCosts(self._building, self._configuration).calculate()
+    global_operational_incomes = TotalOperationalIncomes(self._building, self._configuration).calculate()
 
-      results[f'{building.name}_{building.city_id}'] = [life_cycle_costs_capital_skin,
-                                                        life_cycle_costs_capital_systems,
-                                                        life_cycle_costs_end_of_life_costs,
-                                                        life_cycle_operational_costs,
-                                                        life_cycle_maintenance_costs,
-                                                        life_cycle_operational_incomes,
-                                                        life_cycle_capital_incomes]
+    df_capital_costs_skin = (
+        global_capital_costs['B2010_opaque_walls'] +
+        global_capital_costs['B2020_transparent'] +
+        global_capital_costs['B3010_opaque_roof'] +
+        global_capital_costs['B10_superstructure']
+    )
+    df_capital_costs_systems = (
+        global_capital_costs['D3020_heat_generating_systems'] +
+        global_capital_costs['D3030_cooling_generation_systems'] +
+        global_capital_costs['D3080_other_hvac_ahu'] +
+        global_capital_costs['D5020_lighting_and_branch_wiring'] +
+        global_capital_costs['D301010_photovoltaic_system']
+    )
+    df_end_of_life_costs = global_end_of_life_costs['End_of_life_costs']
+    df_operational_costs = (
+        global_operational_costs['Fixed_costs_electricity_peak'] +
+        global_operational_costs['Fixed_costs_electricity_monthly'] +
+        global_operational_costs['Fixed_costs_electricity_peak'] +
+        global_operational_costs['Fixed_costs_electricity_monthly'] +
+        global_operational_costs['Variable_costs_electricity'] +
+        global_operational_costs['Fixed_costs_gas'] +
+        global_operational_costs['Variable_costs_gas']
+    )
+    df_maintenance_costs = (
+        global_maintenance_costs['Heating_maintenance'] +
+        global_maintenance_costs['Cooling_maintenance'] +
+        global_maintenance_costs['PV_maintenance']
+    )
+    df_operational_incomes = global_operational_incomes['Incomes electricity']
+    df_capital_incomes = (
+        global_capital_incomes['Subsidies construction'] +
+        global_capital_incomes['Subsidies HVAC'] +
+        global_capital_incomes['Subsidies PV']
+    )
+
+    life_cycle_costs_capital_skin = self._npv_from_list(df_capital_costs_skin.values.tolist())
+    life_cycle_costs_capital_systems = self._npv_from_list(df_capital_costs_systems.values.tolist())
+    life_cycle_costs_end_of_life_costs = self._npv_from_list(df_end_of_life_costs.values.tolist())
+    life_cycle_operational_costs = self._npv_from_list(df_operational_costs.values.tolist())
+    life_cycle_maintenance_costs = self._npv_from_list(df_maintenance_costs.values.tolist())
+    life_cycle_operational_incomes = self._npv_from_list(df_operational_incomes.values.tolist())
+    life_cycle_capital_incomes = self._npv_from_list(df_capital_incomes.values.tolist())
+
+    results[f'Scenario {self._configuration.retrofit_scenario}'] = [
+      life_cycle_costs_capital_skin,
+      life_cycle_costs_capital_systems,
+      life_cycle_costs_end_of_life_costs,
+      life_cycle_operational_costs,
+      life_cycle_maintenance_costs,
+      life_cycle_operational_incomes,
+      life_cycle_capital_incomes
+    ]
+
+    results.index = ['total_capital_costs_skin',
+                     'total_capital_costs_systems',
+                     'end_of_life_costs',
+                     'total_operational_costs',
+                     'total_maintenance_costs',
+                     'operational_incomes',
+                     'capital_incomes']
 
-      results.index = ['total_capital_costs_skin',
-                       'total_capital_costs_systems',
-                       'end_of_life_costs',
-                       'total_operational_costs',
-                       'total_maintenance_costs',
-                       'operational_incomes',
-                       'capital_incomes']
     return results
-
-  def to_xlsx(self, path: Path):
-    """
-    Export life cycle costs to xls file
-    :return: none
-    """
-    for building_index, building in enumerate(self._buildings):
-      _path = (path / f'{building.name}_{building.city_id}').resolve()
-      self._life_cycle_costs(building, self._buildings_results[building_index])
-      with pd.ExcelWriter(path) as writer:
-        self._global_capital_costs.to_excel(writer, sheet_name='global_capital_costs')
-        self._global_end_of_life_costs.to_excel(writer, sheet_name='global_end_of_life_costs')
-        self._global_operational_costs.to_excel(writer, sheet_name='global_operational_costs')
-        self._global_maintenance_costs.to_excel(writer, sheet_name='global_maintenance_costs')
-        self._global_operational_incomes.to_excel(writer, sheet_name='global_operational_incomes')
-        self._global_capital_incomes.to_excel(writer, sheet_name='global_capital_incomes')

resources.txt

@@ -1,2 +0,0 @@
-numpy_financial
-cerc_hub