city_retrofit/city_model_structure/building_demand/surface.py

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"""
Surface module
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2022 Concordia CERC group
Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
Code contributors: Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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"""
from __future__ import annotations
import uuid
import numpy as np
from typing import List, Union
from city_model_structure.attributes.polygon import Polygon
from city_model_structure.attributes.plane import Plane
from city_model_structure.attributes.point import Point
from city_model_structure.greenery.vegetation import Vegetation
from city_model_structure.building_demand.thermal_boundary import ThermalBoundary
import helpers.constants as cte
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class Surface:
"""
Surface class
"""
def __init__(self, solid_polygon, perimeter_polygon, holes_polygons=None, name=None, surface_type=None):
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self._type = surface_type
self._name = name
self._id = None
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self._azimuth = None
self._inclination = None
self._area = None
self._lower_corner = None
self._upper_corner = None
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self._shared_surfaces = []
self._global_irradiance = dict()
self._perimeter_polygon = perimeter_polygon
self._holes_polygons = holes_polygons
self._solid_polygon = solid_polygon
self._short_wave_reflectance = None
self._long_wave_emittance = None
self._inverse = None
self._associated_thermal_boundaries = []
self._vegetation = None
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@property
def name(self):
"""
Get the surface name
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:return: str
"""
if self._name is None:
self._name = str(uuid.uuid4())
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return self._name
@property
def id(self):
"""
Get the surface id
:return: str
"""
if self._id is None:
raise ValueError('Undefined surface id')
return self._id
@id.setter
def id(self, value):
"""
Set the surface id
:param value: str
"""
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if value is not None:
self._id = str(value)
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# todo: implement share surfaces
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@property
def share_surfaces(self):
"""
Raises not implemented error
"""
raise NotImplementedError
def _max_coord(self, axis):
if axis == 'x':
axis = 0
elif axis == 'y':
axis = 1
else:
axis = 2
max_coordinate = ''
for point in self.perimeter_polygon.coordinates:
if max_coordinate == '':
max_coordinate = point[axis]
elif max_coordinate < point[axis]:
max_coordinate = point[axis]
return max_coordinate
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def _min_coord(self, axis):
if axis == 'x':
axis = 0
elif axis == 'y':
axis = 1
else:
axis = 2
min_coordinate = ''
for point in self.perimeter_polygon.coordinates:
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if min_coordinate == '':
min_coordinate = point[axis]
elif min_coordinate > point[axis]:
min_coordinate = point[axis]
return min_coordinate
@property
def lower_corner(self):
"""
Get surface's lower corner [x, y, z]
:return: [float]
"""
if self._lower_corner is None:
self._lower_corner = [self._min_coord('x'), self._min_coord('y'), self._min_coord('z')]
return self._lower_corner
@property
def upper_corner(self):
"""
Get surface's upper corner [x, y, z]
:return: [float]
"""
if self._upper_corner is None:
self._upper_corner = [self._max_coord('x'), self._max_coord('y'), self._max_coord('z')]
return self._upper_corner
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@property
def perimeter_area(self):
"""
Get perimeter surface area in square meters (opaque + transparent)
:return: float
"""
self._area = self.perimeter_polygon.area
return self._area
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@property
def azimuth(self):
"""
Get surface azimuth in radians
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:return: float
"""
if self._azimuth is None:
normal = self.perimeter_polygon.normal
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self._azimuth = np.arctan2(normal[1], normal[0])
return self._azimuth
@property
def inclination(self):
"""
Get surface inclination in radians
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:return: float
"""
if self._inclination is None:
self._inclination = np.arccos(self.perimeter_polygon.normal[2])
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return self._inclination
@property
def type(self):
"""
Get surface type Ground, Wall or Roof
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:return: str
"""
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# todo: there are more types: internal wall, internal floor... this method must be redefined
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if self._type is None:
grad = np.rad2deg(self.inclination)
if grad >= 170:
self._type = 'Ground'
elif 80 <= grad <= 100:
self._type = 'Wall'
else:
self._type = 'Roof'
return self._type
@property
def global_irradiance(self) -> dict:
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"""
Get global irradiance on surface in Wh/m2
:return: dict{DataFrame(float)}
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"""
return self._global_irradiance
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@global_irradiance.setter
def global_irradiance(self, value):
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"""
Set global irradiance on surface in Wh/m2
:param value: dict{DataFrame(float)}
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"""
self._global_irradiance = value
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@property
def perimeter_polygon(self) -> Polygon:
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"""
Get a polygon surface defined by the perimeter, merging solid and holes
:return: Polygon
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"""
return self._perimeter_polygon
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@property
def solid_polygon(self) -> Polygon:
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"""
Get the solid surface
:return: Polygon
"""
return self._solid_polygon
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@solid_polygon.setter
def solid_polygon(self, value):
"""
Set the solid surface
:return: Polygon
"""
self._solid_polygon = value
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@property
def holes_polygons(self) -> Union[List[Polygon], None]:
"""
Get hole surfaces, a list of hole polygons found in the surface
:return: None, [] or [Polygon]
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None -> not known whether holes exist in reality or not due to low level of detail of input data
[] -> no holes in the surface
[Polygon] -> one or more holes in the surface
"""
return self._holes_polygons
@holes_polygons.setter
def holes_polygons(self, value):
"""
Set the hole surfaces
:param value: [Polygon]
"""
self._holes_polygons = value
@property
def short_wave_reflectance(self):
"""
Get the short wave reflectance, this includes all solar spectrum, visible and not visible
The absorptance as an opaque surface, can be calculated as 1-short_wave_reflectance
:return: float
"""
return self._short_wave_reflectance
@short_wave_reflectance.setter
def short_wave_reflectance(self, value):
"""
Set the short wave reflectance, this includes all solar spectrum, visible and not visible
The absorptance as an opaque surface, can be calculated as 1-short_wave_reflectance
:param value: float
"""
self._short_wave_reflectance = value
@property
def long_wave_emittance(self):
"""
Get the long wave emittance af the surface
The thermal absorptance can be calculated as 1-long_wave_emittance
:return: float
"""
return self._long_wave_emittance
@long_wave_emittance.setter
def long_wave_emittance(self, value):
"""
Set the long wave emittance af the surface
The thermal absorptance can be calculated as 1-long_wave_emittance
:param value: float
"""
self._long_wave_emittance = value
@property
def inverse(self) -> Surface:
"""
Get the inverse surface (the same surface pointing backwards)
:return: Surface
"""
if self._inverse is None:
new_solid_polygon = Polygon(self.solid_polygon.inverse)
new_perimeter_polygon = Polygon(self.perimeter_polygon.inverse)
new_holes_polygons = []
if self.holes_polygons is not None:
for hole in self.holes_polygons:
new_holes_polygons.append(Polygon(hole.inverse))
else:
new_holes_polygons = None
self._inverse = Surface(new_solid_polygon, new_perimeter_polygon, new_holes_polygons, cte.VIRTUAL_INTERNAL)
return self._inverse
def shared_surfaces(self):
"""
Raises not implemented error
"""
# todo: check https://trimsh.org/trimesh.collision.html as an option to implement this method
raise NotImplementedError
def divide(self, z):
"""
Divides a surface at Z plane
:return: Surface, Surface, Any
"""
# todo: check return types
# todo: recheck this method for LoD3 (windows)
origin = Point([0, 0, z])
normal = np.array([0, 0, 1])
plane = Plane(normal=normal, origin=origin)
polygon = self.perimeter_polygon
part_1, part_2, intersection = polygon.divide(plane)
surface_child = Surface(part_1, part_1, name=self.name, surface_type=self.type)
rest_surface = Surface(part_2, part_2, name=self.name, surface_type=self.type)
return surface_child, rest_surface, intersection
@property
def vegetation(self) -> Union[None, Vegetation]:
"""
Get the vegetation construction at the external surface of the thermal boundary
:return: None or Vegetation
"""
return self._vegetation
@vegetation.setter
def vegetation(self, value):
"""
Set the vegetation construction at the external surface of the thermal boundary
:param value: Vegetation
"""
self._vegetation = value
@property
def associated_thermal_boundaries(self) -> Union[None, List[ThermalBoundary]]:
"""
Get the list of thermal boundaries that has this surface as external face
:return: None or [ThermalBoundary]
"""
return self._associated_thermal_boundaries
@associated_thermal_boundaries.setter
def associated_thermal_boundaries(self, value):
"""
Set the list of thermal boundaries that has this surface as external face
:param value: None or [ThermalBoundary]
"""
self._associated_thermal_boundaries = value