extend sqlite converter for search tables

[nominatim.git] / nominatim / tools / convert_sqlite.py

diff --git a/nominatim/tools/convert_sqlite.py b/nominatim/tools/convert_sqlite.py
index 16f51b661a6f5849df2c6bd875c76cdc7bb3e025..d9e39ba37402b7a9dcc7455fa1665ce978b82eb9 100644 (file)
--- a/nominatim/tools/convert_sqlite.py
+++ b/nominatim/tools/convert_sqlite.py
@@ -14,7 +14,8 @@ from pathlib import Path
 import sqlalchemy as sa
 
 from nominatim.typing import SaSelect
 import sqlalchemy as sa
 
 from nominatim.typing import SaSelect

-from nominatim.db.sqlalchemy_types import Geometry
+from nominatim.db.sqlalchemy_types import Geometry, IntArray
+from nominatim.api.search.query_analyzer_factory import make_query_analyzer

 import nominatim.api as napi
 
 LOG = logging.getLogger()
 import nominatim.api as napi
 
 LOG = logging.getLogger()


@@ -54,18 +55,24 @@ class SqliteWriter:
         """ Create the database structure and copy the data from
             the source database to the destination.
         """
         """ Create the database structure and copy the data from
             the source database to the destination.
         """

+        LOG.warning('Setting up spatialite')

         await self.dest.execute(sa.select(sa.func.InitSpatialMetaData(True, 'WGS84')))
 
         await self.create_tables()
         await self.copy_data()
         await self.dest.execute(sa.select(sa.func.InitSpatialMetaData(True, 'WGS84')))
 
         await self.create_tables()
         await self.copy_data()

+        if 'search' in self.options:
+            await self.create_word_table()

         await self.create_indexes()
 
 
     async def create_tables(self) -> None:
         """ Set up the database tables.
         """
         await self.create_indexes()
 
 
     async def create_tables(self) -> None:
         """ Set up the database tables.
         """

+        LOG.warning('Setting up tables')

         if 'search' not in self.options:
             self.dest.t.meta.remove(self.dest.t.search_name)
         if 'search' not in self.options:
             self.dest.t.meta.remove(self.dest.t.search_name)

+        else:
+            await self.create_class_tables()

 
         await self.dest.connection.run_sync(self.dest.t.meta.create_all)
 
 
         await self.dest.connection.run_sync(self.dest.t.meta.create_all)
 


@@ -78,6 +85,41 @@ class SqliteWriter:
                                                       col.type.subtype.upper(), 'XY')))
 
 
                                                       col.type.subtype.upper(), 'XY')))
 
 

+    async def create_class_tables(self) -> None:
+        """ Set up the table that serve class/type-specific geometries.
+        """
+        sql = sa.text("""SELECT tablename FROM pg_tables
+                         WHERE tablename LIKE 'place_classtype_%'""")
+        for res in await self.src.execute(sql):
+            for db in (self.src, self.dest):
+                sa.Table(res[0], db.t.meta,
+                         sa.Column('place_id', sa.BigInteger),
+                         sa.Column('centroid', Geometry))
+
+
+    async def create_word_table(self) -> None:
+        """ Create the word table.
+            This table needs the property information to determine the
+            correct format. Therefore needs to be done after all other
+            data has been copied.
+        """
+        await make_query_analyzer(self.src)
+        await make_query_analyzer(self.dest)
+        src = self.src.t.meta.tables['word']
+        dest = self.dest.t.meta.tables['word']
+
+        await self.dest.connection.run_sync(dest.create)
+
+        LOG.warning("Copying word table")
+        async_result = await self.src.connection.stream(sa.select(src))
+
+        async for partition in async_result.partitions(10000):
+            data = [{k: getattr(r, k) for k in r._fields} for r in partition]
+            await self.dest.execute(dest.insert(), data)
+
+        await self.dest.connection.run_sync(sa.Index('idx_word_woken', dest.c.word_token).create)
+
+

     async def copy_data(self) -> None:
         """ Copy data for all registered tables.
         """
     async def copy_data(self) -> None:
         """ Copy data for all registered tables.
         """


@@ -90,6 +132,14 @@ class SqliteWriter:
                         for r in partition]
                 await self.dest.execute(table.insert(), data)
 
                         for r in partition]
                 await self.dest.execute(table.insert(), data)
 

+        # Set up a minimal copy of pg_tables used to look up the class tables later.
+        pg_tables = sa.Table('pg_tables', self.dest.t.meta,
+                             sa.Column('schemaname', sa.Text, default='public'),
+                             sa.Column('tablename', sa.Text))
+        await self.dest.connection.run_sync(pg_tables.create)
+        data = [{'tablename': t} for t in self.dest.t.meta.tables]
+        await self.dest.execute(pg_tables.insert().values(data))
+

 
     async def create_indexes(self) -> None:
         """ Add indexes necessary for the frontend.
 
     async def create_indexes(self) -> None:
         """ Add indexes necessary for the frontend.


@@ -119,6 +169,22 @@ class SqliteWriter:
         await self.create_index('placex', 'parent_place_id')
         await self.create_index('placex', 'rank_address')
         await self.create_index('addressline', 'place_id')
         await self.create_index('placex', 'parent_place_id')
         await self.create_index('placex', 'rank_address')
         await self.create_index('addressline', 'place_id')

+        await self.create_index('postcode', 'place_id')
+        await self.create_index('osmline', 'place_id')
+        await self.create_index('tiger', 'place_id')
+
+        if 'search' in self.options:
+            await self.create_spatial_index('postcode', 'geometry')
+            await self.create_spatial_index('search_name', 'centroid')
+            await self.create_index('search_name', 'place_id')
+            await self.create_index('osmline', 'parent_place_id')
+            await self.create_index('tiger', 'parent_place_id')
+            await self.create_search_index()
+
+            for t in self.dest.t.meta.tables:
+                if t.startswith('place_classtype_'):
+                    await self.dest.execute(sa.select(
+                      sa.func.CreateSpatialIndex(t, 'centroid')))

 
 
     async def create_spatial_index(self, table: str, column: str) -> None:
 
 
     async def create_spatial_index(self, table: str, column: str) -> None:


@@ -136,6 +202,35 @@ class SqliteWriter:
             sa.Index(f"idx_{table}_{column}", getattr(table.c, column)).create)
 
 
             sa.Index(f"idx_{table}_{column}", getattr(table.c, column)).create)
 
 

+    async def create_search_index(self) -> None:
+        """ Create the tables and indexes needed for word lookup.
+        """
+        tsrc = self.src.t.search_name
+        for column in ('name_vector', 'nameaddress_vector'):
+            table_name = f'reverse_search_{column}'
+            LOG.warning("Creating reverse search %s", table_name)
+            rsn = sa.Table(table_name, self.dest.t.meta,
+                           sa.Column('word', sa.Integer()),
+                           sa.Column('places', IntArray))
+            await self.dest.connection.run_sync(rsn.create)
+
+            sql = sa.select(sa.func.unnest(getattr(tsrc.c, column)).label('word'),
+                            sa.func.ArrayAgg(tsrc.c.place_id).label('places'))\
+                    .group_by('word')
+
+            async_result = await self.src.connection.stream(sql)
+            async for partition in async_result.partitions(100):
+                data = []
+                for row in partition:
+                    row.places.sort()
+                    data.append({'word': row.word,
+                                 'places': row.places})
+                await self.dest.execute(rsn.insert(), data)
+
+            await self.dest.connection.run_sync(
+                sa.Index(f'idx_reverse_search_{column}_word', rsn.c.word).create)
+
+

     def select_from(self, table: str) -> SaSelect:
         """ Create the SQL statement to select the source columns and rows.
         """
     def select_from(self, table: str) -> SaSelect:
         """ Create the SQL statement to select the source columns and rows.
         """