hub/imports/geometry/citygml_classes/citygml_lod2.py
guille b5dd5bf7ed initial implementation of Geojson importer
Bug correction overall code quality improvement
2022-11-24 17:58:45 -05:00

87 lines
3.3 KiB
Python

"""
CityGmlLod1 module parses citygml_classes files with level of detail 1 and import the geometry into the city model
structure
SPDX - License - Identifier: LGPL - 3.0 - or -later
Copyright © 2022 Concordia CERC group
Project Coder Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
"""
from imports.geometry.citygml_classes.citygml_base import CityGmlBase
from imports.geometry.helpers.geometry_helper import GeometryHelper
from city_model_structure.building_demand.surface import Surface
from city_model_structure.attributes.polygon import Polygon
class CityGmlLod2(CityGmlBase):
"""
CityGmlLod1 class to parse level of detail 1 city gml files
"""
def __init__(self, city_object_member):
super().__init__()
self._city_object_member = city_object_member
self._surfaces = self._identify(self._city_object_member)
@classmethod
def _identify(cls, city_object_member):
if 'lod2Solid' in city_object_member:
return cls._solid(city_object_member)
if 'lod2MultiSurface' in city_object_member:
return cls._multi_surface(city_object_member)
if 'lod2MultiCurve' in city_object_member:
return cls._multi_curve(city_object_member)
raise NotImplementedError(city_object_member)
@staticmethod
def _surface_encoding(surfaces):
if 'lod2MultiSurface' in surfaces:
return 'lod2MultiSurface', 'MultiSurface'
raise NotImplementedError('unknown surface type')
@classmethod
def _solid(cls, city_object_member):
surfaces = []
for bounded in city_object_member["boundedBy"]:
try:
surface_type = next(iter(bounded))
except TypeError:
continue
try:
surface_encoding, surface_subtype = cls._surface_encoding(bounded[surface_type])
except NotImplementedError:
continue
for member in bounded[surface_type][surface_encoding][surface_subtype]['surfaceMember']:
if 'CompositeSurface' in member:
for composite_members in member['CompositeSurface']['surfaceMember']:
for composite_member in composite_members['CompositeSurface']['surfaceMember']:
surfaces.append(cls._add_member_surface(composite_member, surface_type))
else:
surfaces.append(cls._add_member_surface(member, surface_type))
return surfaces
@classmethod
def _add_member_surface(cls, member, surface_type):
pos_name = 'posList'
if pos_name not in member['Polygon']['exterior']['LinearRing']:
pos_name = 'pos'
if '@srsDimension' in member['Polygon']['exterior']['LinearRing'][pos_name]:
gml_points = member['Polygon']['exterior']['LinearRing']['posList']["#text"]
else:
gml_points = member['Polygon']['exterior']['LinearRing'][pos_name]
if pos_name == 'pos':
gml_points_string = ''
for gml_point in gml_points:
gml_points_string = f'{gml_points_string} {gml_point}'
gml_points = gml_points_string.lstrip(' ')
print(gml_points)
solid_points = GeometryHelper.points_from_string(GeometryHelper.remove_last_point_from_string(gml_points))
polygon = Polygon(solid_points)
return Surface(polygon, polygon, surface_type=GeometryHelper.gml_surface_to_libs(surface_type))
@classmethod
def _multi_curve(cls, city_object_member):
raise NotImplementedError('multi curve')
@classmethod
def _multi_surface(cls, city_object_member):
return cls._solid(city_object_member)