Implementation of query analysis for the ICU tokenizer.
"""
from typing import Tuple, Dict, List, Optional, NamedTuple, Iterator, Any, cast
-from copy import copy
from collections import defaultdict
import dataclasses
import difflib
from nominatim.api.logging import log
from nominatim.api.search import query as qmod
from nominatim.api.search.query_analyzer_factory import AbstractQueryAnalyzer
+from nominatim.db.sqlalchemy_types import Json
DB_TO_TOKEN_TYPE = {
""" Create a ICUToken from the row of the word table.
"""
count = 1 if row.info is None else row.info.get('count', 1)
+ addr_count = 1 if row.info is None else row.info.get('addr_count', 1)
penalty = 0.0
if row.type == 'w':
penalty = 0.3
+ elif row.type == 'W':
+ if len(row.word_token) == 1 and row.word_token == row.word:
+ penalty = 0.2 if row.word.isdigit() else 0.3
elif row.type == 'H':
penalty = sum(0.1 for c in row.word_token if c != ' ' and not c.isdigit())
if all(not c.isdigit() for c in row.word_token):
penalty += 0.2 * (len(row.word_token) - 1)
+ elif row.type == 'C':
+ if len(row.word_token) == 1:
+ penalty = 0.3
if row.info is None:
lookup_word = row.word
else:
lookup_word = row.word_token
- return ICUToken(penalty=penalty, token=row.word_id, count=count,
+ return ICUToken(penalty=penalty, token=row.word_id, count=max(1, count),
lookup_word=lookup_word, is_indexed=True,
- word_token=row.word_token, info=row.info)
+ word_token=row.word_token, info=row.info,
+ addr_count=max(1, addr_count))
async def setup(self) -> None:
""" Set up static data structures needed for the analysis.
"""
- rules = await self.conn.get_property('tokenizer_import_normalisation')
- self.normalizer = Transliterator.createFromRules("normalization", rules)
- rules = await self.conn.get_property('tokenizer_import_transliteration')
- self.transliterator = Transliterator.createFromRules("transliteration", rules)
+ async def _make_normalizer() -> Any:
+ rules = await self.conn.get_property('tokenizer_import_normalisation')
+ return Transliterator.createFromRules("normalization", rules)
+
+ self.normalizer = await self.conn.get_cached_value('ICUTOK', 'normalizer',
+ _make_normalizer)
+
+ async def _make_transliterator() -> Any:
+ rules = await self.conn.get_property('tokenizer_import_transliteration')
+ return Transliterator.createFromRules("transliteration", rules)
+
+ self.transliterator = await self.conn.get_cached_value('ICUTOK', 'transliterator',
+ _make_transliterator)
if 'word' not in self.conn.t.meta.tables:
sa.Table('word', self.conn.t.meta,
sa.Column('word_token', sa.Text, nullable=False),
sa.Column('type', sa.Text, nullable=False),
sa.Column('word', sa.Text),
- sa.Column('info', self.conn.t.types.Json))
+ sa.Column('info', Json))
async def analyze_query(self, phrases: List[qmod.Phrase]) -> qmod.QueryStruct:
if row.type == 'S':
if row.info['op'] in ('in', 'near'):
if trange.start == 0:
- query.add_token(trange, qmod.TokenType.CATEGORY, token)
+ query.add_token(trange, qmod.TokenType.NEAR_ITEM, token)
else:
- query.add_token(trange, qmod.TokenType.QUALIFIER, token)
- if trange.start == 0 or trange.end == query.num_token_slots():
- token = copy(token)
- token.penalty += 0.1 * (query.num_token_slots())
- query.add_token(trange, qmod.TokenType.CATEGORY, token)
+ if trange.start == 0 and trange.end == query.num_token_slots():
+ query.add_token(trange, qmod.TokenType.NEAR_ITEM, token)
+ else:
+ query.add_token(trange, qmod.TokenType.QUALIFIER, token)
else:
query.add_token(trange, DB_TO_TOKEN_TYPE[row.type], token)
if len(part.token) <= 4 and part[0].isdigit()\
and not node.has_tokens(i+1, qmod.TokenType.HOUSENUMBER):
query.add_token(qmod.TokenRange(i, i+1), qmod.TokenType.HOUSENUMBER,
- ICUToken(0.5, 0, 1, part.token, True, part.token, None))
+ ICUToken(0.5, 0, 1, 1, part.token, True, part.token, None))
def rerank_tokens(self, query: qmod.QueryStruct, parts: QueryParts) -> None: