city_retrofit/hub/city_model_structure/city.py
2023-02-22 20:17:04 -05:00

479 lines
14 KiB
Python

"""
City module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2022 Concordia CERC group
Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Code contributors: Peter Yefi peteryefi@gmail.com
"""
from __future__ import annotations
import bz2
import sys
import pickle
import math
import copy
import pyproj
from typing import List, Union
from pyproj import Transformer
from pathlib import Path
from hub.city_model_structure.building import Building
from hub.city_model_structure.city_object import CityObject
from hub.city_model_structure.city_objects_cluster import CityObjectsCluster
from hub.city_model_structure.buildings_cluster import BuildingsCluster
from hub.city_model_structure.fuel import Fuel
from hub.city_model_structure.iot.station import Station
from hub.city_model_structure.level_of_detail import LevelOfDetail
from hub.city_model_structure.machine import Machine
from hub.city_model_structure.parts_consisting_building import PartsConsistingBuilding
from hub.helpers.geometry_helper import GeometryHelper
from hub.helpers.location import Location
from hub.city_model_structure.energy_system import EnergySystem
from hub.city_model_structure.lca_material import LcaMaterial
import pandas as pd
class City:
"""
City class
"""
def __init__(self, lower_corner, upper_corner, srs_name):
self._name = None
self._lower_corner = lower_corner
self._upper_corner = upper_corner
self._buildings = None
self._srs_name = srs_name
self._location = None
self._country_code = None
self._climate_reference_city = None
self._climate_file = None
self._latitude = None
self._longitude = None
self._time_zone = None
self._buildings_clusters = None
self._parts_consisting_buildings = None
self._city_objects_clusters = None
self._city_objects = None
self._energy_systems = None
self._fuels = None
self._machines = None
self._stations = []
self._lca_materials = None
self._level_of_detail = LevelOfDetail()
@property
def fuels(self) -> [Fuel]:
return self._fuels
@fuels.setter
def fuels(self, value):
self._fuels = value
@property
def machines(self) -> [Machine]:
return self._machines
@machines.setter
def machines(self, value):
self._machines = value
def _get_location(self) -> Location:
if self._location is None:
gps = pyproj.CRS('EPSG:4326') # LatLon with WGS84 datum used by GPS units and Google Earth
try:
if self._srs_name in GeometryHelper.srs_transformations.keys():
self._srs_name = GeometryHelper.srs_transformations[self._srs_name]
input_reference = pyproj.CRS(self.srs_name) # Projected coordinate system from input data
except pyproj.exceptions.CRSError:
sys.stderr.write('Invalid projection reference system, please check the input data. '
'(e.g. in CityGML files: srs_name)\n')
sys.exit()
transformer = Transformer.from_crs(input_reference, gps)
coordinates = transformer.transform(self.lower_corner[0], self.lower_corner[1])
self._location = GeometryHelper.get_location(coordinates[0], coordinates[1])
return self._location
@property
def country_code(self):
"""
Get models country code
:return: str
"""
return self._get_location().country
@property
def location(self):
return self._get_location().city
@property
def name(self):
"""
Get city name
:return: str
"""
if self._name is None:
return self._get_location().city
return self._name
@property
def climate_reference_city(self) -> Union[None, str]:
"""
Get the name for the climatic information reference city
:return: None or str
"""
return self._climate_reference_city
@climate_reference_city.setter
def climate_reference_city(self, value):
"""
Set the name for the climatic information reference city
:param value: str
"""
if value is not None:
self._climate_reference_city = str(value)
@property
def climate_file(self) -> Union[None, Path]:
"""
Get the climate file full path
:return: None or Path
"""
return self._climate_file
@climate_file.setter
def climate_file(self, value):
"""
Set the climate file full path
:param value: Path
"""
if value is not None:
self._climate_file = Path(value)
@property
def city_objects(self) -> Union[List[CityObject], None]:
"""
Get the city objects belonging to the city
:return: None or [CityObject]
"""
if self._city_objects is None:
if self.city_objects_clusters is None:
self._city_objects = []
else:
self._city_objects = self.city_objects_clusters
if self.buildings is not None:
for building in self.buildings:
self._city_objects.append(building)
if self.energy_systems is not None:
for energy_system in self.energy_systems:
self._city_objects.append(energy_system)
return self._city_objects
@property
def buildings(self) -> Union[List[Building], None]:
"""
Get the buildings belonging to the city
:return: None or [Building]
"""
return self._buildings
@property
def lower_corner(self) -> List[float]:
"""
Get city lower corner
:return: [x,y,z]
"""
return self._lower_corner
@property
def upper_corner(self) -> List[float]:
"""
Get city upper corner
:return: [x,y,z]
"""
return self._upper_corner
def city_object(self, name) -> Union[CityObject, None]:
"""
Retrieve the city CityObject with the given name
:param name:str
:return: None or CityObject
"""
for city_object in self.buildings:
if str(city_object.name) == str(name):
return city_object
return None
def add_city_object(self, new_city_object):
"""
Add a CityObject to the city
:param new_city_object:CityObject
:return: None or not implemented error
"""
if new_city_object.type == 'building':
if self._buildings is None:
self._buildings = []
self._buildings.append(new_city_object)
elif new_city_object.type == 'energy_system':
if self._energy_systems is None:
self._energy_systems = []
self._energy_systems.append(new_city_object)
else:
raise NotImplementedError(new_city_object.type)
def remove_city_object(self, city_object):
"""
Remove a CityObject from the city
:param city_object:CityObject
:return: None
"""
if city_object.type != 'building':
raise NotImplementedError(city_object.type)
if self._buildings is None or self._buildings == []:
sys.stderr.write('Warning: impossible to remove city_object, the city is empty\n')
else:
if city_object in self._buildings:
self._buildings.remove(city_object)
@property
def srs_name(self) -> Union[None, str]:
"""
Get city srs name
:return: None or str
"""
return self._srs_name
@name.setter
def name(self, value):
"""
Set city name
:param value:str
"""
if value is not None:
self._name = str(value)
@staticmethod
def load(city_filename) -> City:
"""
Load a city saved with city.save(city_filename)
:param city_filename: city filename
:return: City
"""
with open(city_filename, 'rb') as file:
return pickle.load(file)
def save(self, city_filename):
"""
Save a city into the given filename
:param city_filename: destination city filename
:return: None
"""
with open(city_filename, 'wb') as file:
pickle.dump(self, file)
def save_compressed(self, city_filename):
"""
Save a city into the given filename
:param city_filename: destination city filename
:return: None
"""
with bz2.BZ2File(city_filename, 'wb') as f:
pickle.dump(self, f)
def region(self, center, radius) -> City:
"""
Get a region from the city
:param center: specific point in space [x, y, z]
:param radius: distance to center of the sphere selected in meters
:return: selected_region_city
"""
selected_region_lower_corner = [center[0] - radius, center[1] - radius, center[2] - radius]
selected_region_upper_corner = [center[0] + radius, center[1] + radius, center[2] + radius]
selected_region_city = City(selected_region_lower_corner, selected_region_upper_corner, srs_name=self.srs_name)
selected_region_city.climate_file = self.climate_file
# selected_region_city.climate_reference_city = self.climate_reference_city
for city_object in self.city_objects:
location = city_object.centroid
if location is not None:
distance = math.sqrt(math.pow(location[0] - center[0], 2) + math.pow(location[1] - center[1], 2)
+ math.pow(location[2] - center[2], 2))
if distance < radius:
selected_region_city.add_city_object(city_object)
return selected_region_city
@property
def latitude(self) -> Union[None, float]:
"""
Get city latitude in degrees
:return: None or float
"""
return self._latitude
@latitude.setter
def latitude(self, value):
"""
Set city latitude in degrees
:parameter value: float
"""
if value is not None:
self._latitude = float(value)
@property
def longitude(self) -> Union[None, float]:
"""
Get city longitude in degrees
:return: None or float
"""
return self._longitude
@longitude.setter
def longitude(self, value):
"""
Set city longitude in degrees
:parameter value: float
"""
if value is not None:
self._longitude = float(value)
@property
def time_zone(self) -> Union[None, float]:
"""
Get city time_zone
:return: None or float
"""
return self._time_zone
@time_zone.setter
def time_zone(self, value):
"""
Set city time_zone
:parameter value: float
"""
if value is not None:
self._time_zone = float(value)
@property
def buildings_clusters(self) -> Union[List[BuildingsCluster], None]:
"""
Get buildings clusters belonging to the city
:return: None or [BuildingsCluster]
"""
return self._buildings_clusters
@property
def parts_consisting_buildings(self) -> Union[List[PartsConsistingBuilding], None]:
"""
Get parts consisting buildings belonging to the city
:return: None or [PartsConsistingBuilding]
"""
return self._parts_consisting_buildings
@property
def energy_systems(self) -> Union[List[EnergySystem], None]:
"""
Get energy systems belonging to the city
:return: None or [EnergySystem]
"""
return self._energy_systems
@property
def stations(self) -> [Station]:
"""
Get the sensors stations belonging to the city
:return: [Station]
"""
return self._stations
@property
def city_objects_clusters(self) -> Union[List[CityObjectsCluster], None]:
"""
Get city objects clusters belonging to the city
:return: None or [CityObjectsCluster]
"""
if self.buildings_clusters is None:
self._city_objects_clusters = []
else:
self._city_objects_clusters = self.buildings_clusters
if self.parts_consisting_buildings is not None:
self._city_objects_clusters.append(self.parts_consisting_buildings)
return self._city_objects_clusters
def add_city_objects_cluster(self, new_city_objects_cluster):
"""
Add a CityObject to the city
:param new_city_objects_cluster:CityObjectsCluster
:return: None or NotImplementedError
"""
if new_city_objects_cluster.type == 'buildings':
if self._buildings_clusters is None:
self._buildings_clusters = []
self._buildings_clusters.append(new_city_objects_cluster)
elif new_city_objects_cluster.type == 'building_parts':
if self._parts_consisting_buildings is None:
self._parts_consisting_buildings = []
self._parts_consisting_buildings.append(new_city_objects_cluster)
else:
raise NotImplementedError
@property
def lca_materials(self) -> Union[List[LcaMaterial], None]:
"""
Get life cycle materials for the city
:return: [LcaMaterial] or
"""
return self._lca_materials
@lca_materials.setter
def lca_materials(self, value):
"""
Set life cycle materials for the city
"""
self._lca_materials = value
def lca_material(self, lca_id) -> Union[LcaMaterial, None]:
"""
Get the lca material matching the given Id
:return: LcaMaterial or None
"""
for lca_material in self.lca_materials:
if str(lca_material.id) == str(lca_id):
return lca_material
return None
@property
def copy(self) -> City:
"""
Get a copy of the current city
"""
return copy.deepcopy(self)
def merge(self, city) -> City:
_merge_city = self.copy
selected_city_object = None
# set initial minimum radiation to a higher number
min_radiation = 1000000
for city_object in city.city_objects:
if city_object.type == 'building':
building_radiation = 0
for surface in city_object.surfaces:
radiation = surface.global_irradiance
if "yearly" in radiation:
building_radiation += radiation["yearly"].iloc[0]
elif "monthly" in radiation and "yearly" not in radiation:
radiation["yearly"] = pd.DataFrame({radiation["monthly"].sum()})
building_radiation += radiation["yearly"].iloc[0]
if building_radiation < min_radiation:
min_radiation = building_radiation
selected_city_object = city_object
# merge the city object with the minimum radiation
if selected_city_object is not None:
_merge_city.add_city_object(selected_city_object)
return _merge_city
@property
def level_of_detail(self) -> LevelOfDetail:
"""
Get level of detail of different aspects of the city: geometry, construction and usage
:return: LevelOfDetail
"""
return self._level_of_detail