diff --git a/hub/helpers/geometry_helper.py b/hub/helpers/geometry_helper.py index 269a7af7..d1ac2166 100644 --- a/hub/helpers/geometry_helper.py +++ b/hub/helpers/geometry_helper.py @@ -14,8 +14,6 @@ from hub.city_model_structure.attributes.polygon import Polygon from hub.city_model_structure.attributes.polyhedron import Polyhedron from hub.helpers.location import Location -from PIL import Image - class MapPoint: def __init__(self, x, y): @@ -63,7 +61,7 @@ class GeometryHelper: return MapPoint(((city.upper_corner[0] - coordinate[0]) * 0.5), ((city.upper_corner[1] - coordinate[1]) * 0.5)) @staticmethod - def city_mapping(city, building_names=None, plot=False): + def city_mapping(city, building_names=None): """ Returns a shared_information dictionary like @@ -71,17 +69,16 @@ class GeometryHelper: "building_name" : [{line: 0 coordinate_1: [x,y,z], coordinate_2:[x, y, z], points: 0}] } """ - shared_information = {} + lines_information = {} if building_names is None: building_names = [b.name for b in city.buildings] x = int((city.upper_corner[0] - city.lower_corner[0]) * 0.5) + 1 y = int((city.upper_corner[1] - city.lower_corner[1]) * 0.5) + 1 - city_map = [[{} for _ in range(y + 1)] for _ in range(x + 1)] - img = Image.new('RGB', (x + 1, y + 1), "black") # create a new black image - city_image = img.load() # create the pixel map + city_map = [['' for _ in range(y + 1)] for _ in range(x + 1)] + map_info = [[{} for _ in range(y + 1)] for _ in range(x + 1)] for building_name in building_names: building = city.city_object(building_name) - shared_information[building_name]: [] + lines_information[building_name]: [] line = 0 for ground in building.grounds: length = len(ground.perimeter_polygon.coordinates) - 1 @@ -90,21 +87,63 @@ class GeometryHelper: if i == length: j = 0 next_coordinate = ground.perimeter_polygon.coordinates[j] - line_dictionary = {"line": line, "coordinate_1": coordinate, "coordinate_2":next_coordinate, "points": 0} point = GeometryHelper.coordinate_to_map_point(coordinate, city) - distance = GeometryHelper.distance_between_points(coordinate, next_coordinate) + distance = int(GeometryHelper.distance_between_points(coordinate, next_coordinate)) if distance == 0: continue delta_x = (coordinate[0] - next_coordinate[0]) / (distance / 0.5) delta_y = (coordinate[1] - next_coordinate[1]) / (distance / 0.5) - for k in range(0, int(distance)): + for k in range(0, distance): x = MapPoint(point.x + (delta_x * k), point.y + (delta_y * k)).x y = MapPoint(point.x + (delta_x * k), point.y + (delta_y * k)).y - if city_map[x][y] == {}: + if city_map[x][y] == '': city_map[x][y] = building.name - city_image[x, y] = (100, 0, 0) + map_info[x][y] = { + 'line_start': (coordinate[0], coordinate[1]), + 'line_end': (next_coordinate[0], next_coordinate[1]), + } elif city_map[x][y] != building.name: neighbour = city.city_object(city_map[x][y]) + neighbour_info = map_info[x][y] + + # prepare the keys + neighbour_start_coordinate = f'{neighbour_info["line_start"][0]}_{neighbour_info["line_start"][1]}' + building_start_coordinate = f'{coordinate[0]}_{coordinate[1]}' + neighbour_key = f'{neighbour.name}_{neighbour_start_coordinate}_{building_start_coordinate}' + building_key = f'{building.name}_{building_start_coordinate}_{neighbour_start_coordinate}' + + # Add my neighbour info to my shared lines + if building.name in lines_information.keys() and neighbour_key in lines_information[building.name]: + shared_points = int(lines_information[building.name][neighbour_key]['shared_points']) + lines_information[building.name][neighbour_key]['shared_points'] = shared_points + 1 + else: + if building.name not in lines_information.keys(): + lines_information[building.name] = {} + lines_information[building.name][neighbour_key] = { + 'neighbour_name': neighbour.name, + 'line_start': (coordinate[0], coordinate[1]), + 'line_end': (next_coordinate[0], next_coordinate[1]), + 'neighbour_line_start': neighbour_info['line_start'], + 'neighbour_line_end': neighbour_info['line_end'], + 'shared_points': 1 + } + + # Add my info to my neighbour shared lines + if neighbour.name in lines_information.keys() and building_key in lines_information[neighbour.name]: + shared_points = int(lines_information[neighbour.name][building_key]['shared_points']) + lines_information[neighbour.name][building_key]['shared_points'] = shared_points + 1 + else: + if neighbour.name not in lines_information.keys(): + lines_information[neighbour.name] = {} + lines_information[neighbour.name][building_key] = { + 'neighbour_name': building.name, + 'line_start': neighbour_info['line_start'], + 'line_end': neighbour_info['line_end'], + 'neighbour_line_start': (coordinate[0], coordinate[1]), + 'neighbour_line_end': (next_coordinate[0], next_coordinate[1]), + 'shared_points': 1 + } + if building.neighbours is None: building.neighbours = [neighbour] elif neighbour not in building.neighbours: @@ -114,8 +153,7 @@ class GeometryHelper: elif building not in neighbour.neighbours: neighbour.neighbours.append(building) line += 1 - if plot: - img.show() + return lines_information @staticmethod def segment_list_to_trimesh(lines) -> Trimesh: