from __future__ import annotations import numpy as np import pyny3d.geoms as pn from helpers.geometry import Geometry class Surface: def __init__(self, coordinates, surface_type=None, name=None, swr='0.2', remove_last=True, is_projected=False): self._coordinates = coordinates self._type = surface_type self._name = name self._swr = swr self._remove_last = remove_last self._is_projected = is_projected self._geometry = Geometry() self._polygon = None self._area = None self._points = None self._points_list = None self._normal = None self._azimuth = None self._inclination = None self._area_above_ground = None self._area_below_ground = None self._parent = None self._shapely = None self._projected_surface = None self._shared_surfaces = None self._global_irradiance_hour = np.zeros(8760) self._global_irradiance_month = np.zeros(12) def parent(self, parent, surface_id): self._parent = parent self._name = str(surface_id) @property def name(self): if self._name is None: raise Exception('surface has no name') return self._name @property def swr(self): return self._swr @swr.setter def swr(self, value): self._swr = value @property def points(self): if self._points is None: self._points = np.fromstring(self._coordinates, dtype=float, sep=' ') self._points = Geometry.to_points_matrix(self._points, self._remove_last) return self._points @property def points_list(self): if self._points_list is None: s = self.points self._points_list = np.reshape(s, len(s) * 3) return self._points_list @property def polygon(self): if self._polygon is None: try: self._polygon = pn.Polygon(self.points) except ValueError: # is not really a polygon but a line so just return none self._polygon = None return self._polygon @property def area(self): if self._area is None: self._area = self.polygon.get_area() return self._area def _is_almost_same_terrain(self, terrain_points, ground_points): equal = 0 for t in terrain_points: for g in ground_points: if self._geometry.almost_equal(t, g): equal += 1 return equal == len(terrain_points) @property def _is_terrain(self): for t_points in self._parent.terrains: if len(t_points) == len(self.points) and self._is_almost_same_terrain(t_points, self.points): return True return False @property def area_above_ground(self): if self._area_above_ground is None: self._area_above_ground = self.area - self.area_below_ground return self._area_above_ground @property def area_below_ground(self): if self._area_below_ground is None: self._area_below_ground = 0.0 if self._is_terrain: self._area_below_ground = self.area return self._area_below_ground @property def normal(self): if self._normal is None: points = self.points n = np.cross(points[1] - points[0], points[2] - points[0]) self._normal = n / np.linalg.norm(n) return self._normal @property def azimuth(self): if self._azimuth is None: normal = self.normal self._azimuth = np.arctan2(normal[1], normal[0]) return self._azimuth @property def inclination(self): if self._inclination is None: self._inclination = np.arccos(self.normal[2]) return self._inclination @property def type(self): if self._type is None: grad = np.rad2deg(self.inclination) if 170 <= grad: self._type = 'Ground' elif 80 <= grad <= 100: self._type = 'Wall' else: self._type = 'Roof' return self._type def shared(self, surface): if self.type is not 'Wall': return if self._geometry.is_almost_same_surface(self, surface): self._shared_surfaces.append((100, surface)) surface.shared(self) @property def global_irradiance_hour(self): return self._global_irradiance_hour @global_irradiance_hour.setter def global_irradiance_hour(self, value): self._global_irradiance_hour = value @property def global_irradiance_month(self): return self._global_irradiance_month @global_irradiance_month.setter def global_irradiance_month(self, value): self._global_irradiance_month = value @property def shapely(self): if self.polygon is None: return None if self._shapely is None: self._shapely = self.polygon.get_shapely() return self._shapely @property def projection(self) -> Surface: if self._is_projected: return self if self._projected_surface is None: coordinates = '' for coordinate in self.shapely.exterior.coords: if coordinates != '': coordinates = coordinates + ' ' coordinates = coordinates + str(coordinate[0]) + ' ' + str(coordinate[1]) + ' 0.0' self._projected_surface = Surface(coordinates) return self._projected_surface