system_assignation/hub/imports/geometry/geojson.py

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"""
Geojson module parses geojson files and import the geometry into the city model structure
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2022 Concordia CERC group
Project Coder Guillermo Gutierrez Guillermo.GutierrezMorote@concordia.ca
"""
import json
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import trimesh.creation
from pyproj import Transformer
from shapely.geometry import Polygon as ShapelyPolygon
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import hub.helpers.constants as cte
from hub.imports.geometry.helpers.geometry_helper import GeometryHelper
from hub.city_model_structure.attributes.polygon import Polygon
from hub.city_model_structure.building import Building
from hub.city_model_structure.building_demand.surface import Surface
from hub.city_model_structure.city import City
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class Geojson:
"""
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Geojson class
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"""
X = 0
Y = 1
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def __init__(self,
path,
extrusion_height_field=None,
year_of_construction_field=None,
function_field=None,
function_to_hub=None):
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# todo: destination epsg should change according actual the location
self._transformer = Transformer.from_crs('epsg:4326', 'epsg:26911')
self._min_x = cte.MAX_FLOAT
self._min_y = cte.MAX_FLOAT
self._max_x = cte.MIN_FLOAT
self._max_y = cte.MIN_FLOAT
self._max_z = 0
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self._city = None
self._extrusion_height_field = extrusion_height_field
self._year_of_construction_field = year_of_construction_field
self._function_field = function_field
self._function_to_hub = function_to_hub
with open(path) as json_file:
self._geojson = json.loads(json_file.read())
def _save_bounds(self, x, y):
if x > self._max_x:
self._max_x = x
if x < self._min_x:
self._min_x = x
if y > self._max_y:
self._max_y = y
if y < self._min_y:
self._min_y = y
@staticmethod
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def _create_buildings_lod0(name, year_of_construction, function, surfaces_coordinates):
surfaces = []
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buildings = []
for zone, surface_coordinates in enumerate(surfaces_coordinates):
points = GeometryHelper.points_from_string(GeometryHelper.remove_last_point_from_string(surface_coordinates))
polygon = Polygon(points)
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surfaces.append(Surface(polygon, polygon, surface_type=cte.GROUND))
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buildings.append(Building(f'{name}_zone_{zone}', surfaces, year_of_construction, function))
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return buildings
@staticmethod
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def _create_buildings_lod1(name, year_of_construction, function, height, surface_coordinates):
lod0_buildings = Geojson._create_buildings_lod0(name, year_of_construction, function, surface_coordinates)
surfaces = []
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buildings = []
for zone, lod0_building in enumerate(lod0_buildings):
for surface in lod0_building.surfaces:
shapely_polygon = ShapelyPolygon(surface.solid_polygon.coordinates)
if not shapely_polygon.is_valid:
print(surface.solid_polygon.area)
print('error?', name, surface_coordinates)
continue
mesh = trimesh.creation.extrude_polygon(shapely_polygon, height)
for face in mesh.faces:
points = []
for vertex_index in face:
points.append(mesh.vertices[vertex_index])
polygon = Polygon(points)
surface = Surface(polygon, polygon)
surfaces.append(surface)
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buildings.append(Building(f'{name}_zone_{zone}', surfaces, year_of_construction, function))
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return buildings
def _get_polygons(self, polygons, coordinates):
if type(coordinates[0][self.X]) != float:
polygons = []
for element in coordinates:
polygons = self._get_polygons(polygons, element)
return polygons
else:
transformed_coordinates = ''
for coordinate in coordinates:
transformed = self._transformer.transform(coordinate[self.Y], coordinate[self.X])
self._save_bounds(transformed[self.X], transformed[self.Y])
transformed_coordinates = f'{transformed_coordinates} {transformed[self.X]} {transformed[self.Y]} 0.0'
polygons.append(transformed_coordinates.lstrip(' '))
return polygons
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@property
def city(self) -> City:
"""
Get city out of a Geojson file
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"""
if self._city is None:
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missing_functions = []
buildings = []
building_id = 0
for feature in self._geojson['features']:
extrusion_height = 0
if self._extrusion_height_field is not None:
extrusion_height = float(feature['properties'][self._extrusion_height_field])
year_of_construction = None
if self._year_of_construction_field is not None:
year_of_construction = int(feature['properties'][self._year_of_construction_field])
function = None
if self._function_field is not None:
function = feature['properties'][self._function_field]
if self._function_to_hub is not None:
# use the transformation dictionary to retrieve the proper function
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if function in self._function_to_hub:
function = self._function_to_hub[function]
else:
if function not in missing_functions:
missing_functions.append(function)
function = function
geometry = feature['geometry']
if 'id' in feature:
building_name = feature['id']
else:
building_name = f'building_{building_id}'
building_id += 1
polygons = []
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lod = 1
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for part, coordinates in enumerate(geometry['coordinates']):
polygons = self._get_polygons(polygons, coordinates)
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for zone, polygon in enumerate(polygons):
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if extrusion_height == 0:
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buildings = buildings + Geojson._create_buildings_lod0(f'{building_name}_part_{part}',
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year_of_construction,
function,
[polygon])
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lod = 0
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else:
if self._max_z < extrusion_height:
self._max_z = extrusion_height
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buildings = buildings + Geojson._create_buildings_lod1(f'{building_name}_part_{part}',
year_of_construction,
function,
extrusion_height,
[polygon])
self._city = City([self._min_x, self._min_y, 0.0], [self._max_x, self._max_y, self._max_z], 'epsg:26911')
for building in buildings:
self._city.add_city_object(building)
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self._city.level_of_detail.geometry = lod
if len(missing_functions) > 0:
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print(f'There are unknown functions {missing_functions}')
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return self._city