mirror of
https://github.com/osm-search/Nominatim.git
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235 lines
9.7 KiB
Python
235 lines
9.7 KiB
Python
# SPDX-License-Identifier: GPL-2.0-only
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#
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# This file is part of Nominatim. (https://nominatim.org)
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#
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# Copyright (C) 2022 by the Nominatim developer community.
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# For a full list of authors see the git log.
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"""
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Functions for importing, updating and otherwise maintaining the table
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of artificial postcode centroids.
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"""
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from typing import Optional, Tuple, Dict, List, TextIO
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from collections import defaultdict
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from pathlib import Path
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import csv
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import gzip
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import logging
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from math import isfinite
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from psycopg2 import sql as pysql
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from nominatim.db.connection import connect, Connection
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from nominatim.utils.centroid import PointsCentroid
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from nominatim.data.postcode_format import PostcodeFormatter, CountryPostcodeMatcher
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from nominatim.tokenizer.base import AbstractAnalyzer, AbstractTokenizer
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LOG = logging.getLogger()
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def _to_float(numstr: str, max_value: float) -> float:
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""" Convert the number in string into a float. The number is expected
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to be in the range of [-max_value, max_value]. Otherwise rises a
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ValueError.
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"""
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num = float(numstr)
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if not isfinite(num) or num <= -max_value or num >= max_value:
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raise ValueError()
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return num
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class _PostcodeCollector:
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""" Collector for postcodes of a single country.
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"""
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def __init__(self, country: str, matcher: Optional[CountryPostcodeMatcher]):
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self.country = country
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self.matcher = matcher
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self.collected: Dict[str, PointsCentroid] = defaultdict(PointsCentroid)
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self.normalization_cache: Optional[Tuple[str, Optional[str]]] = None
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def add(self, postcode: str, x: float, y: float) -> None:
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""" Add the given postcode to the collection cache. If the postcode
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already existed, it is overwritten with the new centroid.
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"""
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if self.matcher is not None:
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normalized: Optional[str]
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if self.normalization_cache and self.normalization_cache[0] == postcode:
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normalized = self.normalization_cache[1]
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else:
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match = self.matcher.match(postcode)
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normalized = self.matcher.normalize(match) if match else None
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self.normalization_cache = (postcode, normalized)
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if normalized:
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self.collected[normalized] += (x, y)
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def commit(self, conn: Connection, analyzer: AbstractAnalyzer, project_dir: Path) -> None:
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""" Update postcodes for the country from the postcodes selected so far
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as well as any externally supplied postcodes.
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"""
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self._update_from_external(analyzer, project_dir)
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to_add, to_delete, to_update = self._compute_changes(conn)
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LOG.info("Processing country '%s' (%s added, %s deleted, %s updated).",
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self.country, len(to_add), len(to_delete), len(to_update))
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with conn.cursor() as cur:
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if to_add:
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cur.execute_values(
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"""INSERT INTO location_postcode
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(place_id, indexed_status, country_code,
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postcode, geometry) VALUES %s""",
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to_add,
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template=pysql.SQL("""(nextval('seq_place'), 1, {},
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%s, 'SRID=4326;POINT(%s %s)')
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""").format(pysql.Literal(self.country)))
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if to_delete:
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cur.execute("""DELETE FROM location_postcode
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WHERE country_code = %s and postcode = any(%s)
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""", (self.country, to_delete))
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if to_update:
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cur.execute_values(
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pysql.SQL("""UPDATE location_postcode
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SET indexed_status = 2,
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geometry = ST_SetSRID(ST_Point(v.x, v.y), 4326)
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FROM (VALUES %s) AS v (pc, x, y)
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WHERE country_code = {} and postcode = pc
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""").format(pysql.Literal(self.country)), to_update)
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def _compute_changes(self, conn: Connection) \
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-> Tuple[List[Tuple[str, float, float]], List[str], List[Tuple[str, float, float]]]:
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""" Compute which postcodes from the collected postcodes have to be
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added or modified and which from the location_postcode table
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have to be deleted.
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"""
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to_update = []
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to_delete = []
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with conn.cursor() as cur:
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cur.execute("""SELECT postcode, ST_X(geometry), ST_Y(geometry)
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FROM location_postcode
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WHERE country_code = %s""",
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(self.country, ))
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for postcode, x, y in cur:
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pcobj = self.collected.pop(postcode, None)
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if pcobj:
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newx, newy = pcobj.centroid()
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if (x - newx) > 0.0000001 or (y - newy) > 0.0000001:
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to_update.append((postcode, newx, newy))
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else:
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to_delete.append(postcode)
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to_add = [(k, *v.centroid()) for k, v in self.collected.items()]
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self.collected = defaultdict(PointsCentroid)
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return to_add, to_delete, to_update
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def _update_from_external(self, analyzer: AbstractAnalyzer, project_dir: Path) -> None:
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""" Look for an external postcode file for the active country in
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the project directory and add missing postcodes when found.
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"""
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csvfile = self._open_external(project_dir)
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if csvfile is None:
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return
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try:
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reader = csv.DictReader(csvfile)
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for row in reader:
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if 'postcode' not in row or 'lat' not in row or 'lon' not in row:
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LOG.warning("Bad format for external postcode file for country '%s'."
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" Ignored.", self.country)
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return
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postcode = analyzer.normalize_postcode(row['postcode'])
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if postcode not in self.collected:
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try:
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# Do float conversation separately, it might throw
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centroid = (_to_float(row['lon'], 180),
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_to_float(row['lat'], 90))
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self.collected[postcode] += centroid
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except ValueError:
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LOG.warning("Bad coordinates %s, %s in %s country postcode file.",
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row['lat'], row['lon'], self.country)
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finally:
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csvfile.close()
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def _open_external(self, project_dir: Path) -> Optional[TextIO]:
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fname = project_dir / f'{self.country}_postcodes.csv'
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if fname.is_file():
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LOG.info("Using external postcode file '%s'.", fname)
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return open(fname, 'r', encoding='utf-8')
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fname = project_dir / f'{self.country}_postcodes.csv.gz'
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if fname.is_file():
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LOG.info("Using external postcode file '%s'.", fname)
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return gzip.open(fname, 'rt')
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return None
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def update_postcodes(dsn: str, project_dir: Path, tokenizer: AbstractTokenizer) -> None:
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""" Update the table of artificial postcodes.
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Computes artificial postcode centroids from the placex table,
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potentially enhances it with external data and then updates the
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postcodes in the table 'location_postcode'.
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"""
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matcher = PostcodeFormatter()
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with tokenizer.name_analyzer() as analyzer:
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with connect(dsn) as conn:
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# First get the list of countries that currently have postcodes.
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# (Doing this before starting to insert, so it is fast on import.)
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with conn.cursor() as cur:
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cur.execute("SELECT DISTINCT country_code FROM location_postcode")
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todo_countries = set((row[0] for row in cur))
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# Recompute the list of valid postcodes from placex.
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with conn.cursor(name="placex_postcodes") as cur:
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cur.execute("""
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SELECT cc, pc, ST_X(centroid), ST_Y(centroid)
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FROM (SELECT
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COALESCE(plx.country_code,
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get_country_code(ST_Centroid(pl.geometry))) as cc,
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pl.address->'postcode' as pc,
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COALESCE(plx.centroid, ST_Centroid(pl.geometry)) as centroid
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FROM place AS pl LEFT OUTER JOIN placex AS plx
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ON pl.osm_id = plx.osm_id AND pl.osm_type = plx.osm_type
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WHERE pl.address ? 'postcode' AND pl.geometry IS NOT null) xx
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WHERE pc IS NOT null AND cc IS NOT null
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ORDER BY cc, pc""")
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collector = None
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for country, postcode, x, y in cur:
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if collector is None or country != collector.country:
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if collector is not None:
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collector.commit(conn, analyzer, project_dir)
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collector = _PostcodeCollector(country, matcher.get_matcher(country))
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todo_countries.discard(country)
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collector.add(postcode, x, y)
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if collector is not None:
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collector.commit(conn, analyzer, project_dir)
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# Now handle any countries that are only in the postcode table.
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for country in todo_countries:
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fmt = matcher.get_matcher(country)
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_PostcodeCollector(country, fmt).commit(conn, analyzer, project_dir)
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conn.commit()
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analyzer.update_postcodes_from_db()
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def can_compute(dsn: str) -> bool:
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"""
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Check that the place table exists so that
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postcodes can be computed.
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"""
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with connect(dsn) as conn:
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return conn.table_exists('place')
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