1 # SPDX-License-Identifier: GPL-3.0-or-later
3 # This file is part of Nominatim. (https://nominatim.org)
5 # Copyright (C) 2024 by the Nominatim developer community.
6 # For a full list of authors see the git log.
8 Helper functions for output of results in json formats.
10 from typing import Mapping, Any, Optional, Tuple, Union
12 from ..utils.json_writer import JsonWriter
13 from ..results import AddressLines, ReverseResults, SearchResults
14 from . import classtypes as cl
16 #pylint: disable=too-many-branches
18 def _write_osm_id(out: JsonWriter, osm_object: Optional[Tuple[str, int]]) -> None:
19 if osm_object is not None:
20 out.keyval_not_none('osm_type', cl.OSM_TYPE_NAME.get(osm_object[0], None))\
21 .keyval('osm_id', osm_object[1])
24 def _write_typed_address(out: JsonWriter, address: Optional[AddressLines],
25 country_code: Optional[str]) -> None:
27 for line in (address or []):
30 label = cl.get_label_tag(line.category, line.extratags,
31 line.rank_address, country_code)
32 if label not in parts:
33 parts[label] = line.local_name
34 if line.names and 'ISO3166-2' in line.names and line.admin_level:
35 parts[f"ISO3166-2-lvl{line.admin_level}"] = line.names['ISO3166-2']
37 for k, v in parts.items():
41 out.keyval('country_code', country_code)
44 def _write_geocodejson_address(out: JsonWriter,
45 address: Optional[AddressLines],
46 obj_place_id: Optional[int],
47 country_code: Optional[str]) -> None:
49 for line in (address or []):
50 if line.isaddress and line.local_name:
51 if line.category[1] in ('postcode', 'postal_code'):
52 out.keyval('postcode', line.local_name)
53 elif line.category[1] == 'house_number':
54 out.keyval('housenumber', line.local_name)
55 elif (obj_place_id is None or obj_place_id != line.place_id) \
56 and line.rank_address >= 4 and line.rank_address < 28:
57 rank_name = GEOCODEJSON_RANKS[line.rank_address]
58 if rank_name not in extra:
59 extra[rank_name] = line.local_name
62 for k, v in extra.items():
66 out.keyval('country_code', country_code)
69 def format_base_json(results: Union[ReverseResults, SearchResults],
70 options: Mapping[str, Any], simple: bool,
71 class_label: str) -> str:
72 """ Return the result list as a simple json string in custom Nominatim format.
78 return '{"error":"Unable to geocode"}'
82 for result in results:
84 .keyval_not_none('place_id', result.place_id)\
85 .keyval('licence', cl.OSM_ATTRIBUTION)\
87 _write_osm_id(out, result.osm_object)
89 out.keyval('lat', f"{result.centroid.lat}")\
90 .keyval('lon', f"{result.centroid.lon}")\
91 .keyval(class_label, result.category[0])\
92 .keyval('type', result.category[1])\
93 .keyval('place_rank', result.rank_search)\
94 .keyval('importance', result.calculated_importance())\
95 .keyval('addresstype', cl.get_label_tag(result.category, result.extratags,
97 result.country_code))\
98 .keyval('name', result.locale_name or '')\
99 .keyval('display_name', result.display_name or '')
102 if options.get('icon_base_url', None):
103 icon = cl.ICONS.get(result.category)
105 out.keyval('icon', f"{options['icon_base_url']}/{icon}.p.20.png")
107 if options.get('addressdetails', False):
108 out.key('address').start_object()
109 _write_typed_address(out, result.address_rows, result.country_code)
110 out.end_object().next()
112 if options.get('extratags', False):
113 out.keyval('extratags', result.extratags)
115 if options.get('namedetails', False):
116 out.keyval('namedetails', result.names)
118 bbox = cl.bbox_from_result(result)
119 out.key('boundingbox').start_array()\
120 .value(f"{bbox.minlat:0.7f}").next()\
121 .value(f"{bbox.maxlat:0.7f}").next()\
122 .value(f"{bbox.minlon:0.7f}").next()\
123 .value(f"{bbox.maxlon:0.7f}").next()\
127 for key in ('text', 'kml'):
128 out.keyval_not_none('geo' + key, result.geometry.get(key))
129 if 'geojson' in result.geometry:
130 out.key('geojson').raw(result.geometry['geojson']).next()
131 out.keyval_not_none('svg', result.geometry.get('svg'))
145 def format_base_geojson(results: Union[ReverseResults, SearchResults],
146 options: Mapping[str, Any],
147 simple: bool) -> str:
148 """ Return the result list as a geojson string.
150 if not results and simple:
151 return '{"error":"Unable to geocode"}'
156 .keyval('type', 'FeatureCollection')\
157 .keyval('licence', cl.OSM_ATTRIBUTION)\
158 .key('features').start_array()
160 for result in results:
162 .keyval('type', 'Feature')\
163 .key('properties').start_object()
165 out.keyval_not_none('place_id', result.place_id)
167 _write_osm_id(out, result.osm_object)
169 out.keyval('place_rank', result.rank_search)\
170 .keyval('category', result.category[0])\
171 .keyval('type', result.category[1])\
172 .keyval('importance', result.calculated_importance())\
173 .keyval('addresstype', cl.get_label_tag(result.category, result.extratags,
175 result.country_code))\
176 .keyval('name', result.locale_name or '')\
177 .keyval('display_name', result.display_name or '')
179 if options.get('addressdetails', False):
180 out.key('address').start_object()
181 _write_typed_address(out, result.address_rows, result.country_code)
182 out.end_object().next()
184 if options.get('extratags', False):
185 out.keyval('extratags', result.extratags)
187 if options.get('namedetails', False):
188 out.keyval('namedetails', result.names)
190 out.end_object().next() # properties
192 out.key('bbox').start_array()
193 for coord in cl.bbox_from_result(result).coords:
194 out.float(coord, 7).next()
195 out.end_array().next()
197 out.key('geometry').raw(result.geometry.get('geojson')
198 or result.centroid.to_geojson()).next()
200 out.end_object().next()
202 out.end_array().next().end_object()
207 def format_base_geocodejson(results: Union[ReverseResults, SearchResults],
208 options: Mapping[str, Any], simple: bool) -> str:
209 """ Return the result list as a geocodejson string.
211 if not results and simple:
212 return '{"error":"Unable to geocode"}'
217 .keyval('type', 'FeatureCollection')\
218 .key('geocoding').start_object()\
219 .keyval('version', '0.1.0')\
220 .keyval('attribution', cl.OSM_ATTRIBUTION)\
221 .keyval('licence', 'ODbL')\
222 .keyval_not_none('query', options.get('query'))\
223 .end_object().next()\
224 .key('features').start_array()
226 for result in results:
228 .keyval('type', 'Feature')\
229 .key('properties').start_object()\
230 .key('geocoding').start_object()
232 out.keyval_not_none('place_id', result.place_id)
234 _write_osm_id(out, result.osm_object)
236 out.keyval('osm_key', result.category[0])\
237 .keyval('osm_value', result.category[1])\
238 .keyval('type', GEOCODEJSON_RANKS[max(3, min(28, result.rank_address))])\
239 .keyval_not_none('accuracy', getattr(result, 'distance', None), transform=int)\
240 .keyval('label', result.display_name or '')\
241 .keyval_not_none('name', result.locale_name or None)\
243 if options.get('addressdetails', False):
244 _write_geocodejson_address(out, result.address_rows, result.place_id,
247 out.key('admin').start_object()
248 if result.address_rows:
249 for line in result.address_rows:
250 if line.isaddress and (line.admin_level or 15) < 15 and line.local_name \
251 and line.category[0] == 'boundary' and line.category[1] == 'administrative':
252 out.keyval(f"level{line.admin_level}", line.local_name)
253 out.end_object().next()
255 out.end_object().next().end_object().next()
257 out.key('geometry').raw(result.geometry.get('geojson')
258 or result.centroid.to_geojson()).next()
260 out.end_object().next()
262 out.end_array().next().end_object()
267 GEOCODEJSON_RANKS = {
270 5: 'state', 6: 'state', 7: 'state', 8: 'state', 9: 'state',
271 10: 'county', 11: 'county', 12: 'county',
272 13: 'city', 14: 'city', 15: 'city', 16: 'city',
273 17: 'district', 18: 'district', 19: 'district', 20: 'district', 21: 'district',
274 22: 'locality', 23: 'locality', 24: 'locality',
275 25: 'street', 26: 'street', 27: 'street', 28: 'house'}