from ..db.connection import connect, get_pg_env
from ..db import utils as db_utils
from ..db.async_connection import DBConnection
+from ..db.sql_preprocessor import SQLPreprocessor
from .exec_utils import run_osm2pgsql
from ..errors import UsageError
from ..version import POSTGRESQL_REQUIRED_VERSION, POSTGIS_REQUIRED_VERSION
conn.commit()
-def import_osm_data(osm_file, options, drop=False):
+def import_osm_data(osm_file, options, drop=False, ignore_errors=False):
""" Import the given OSM file. 'options' contains the list of
default settings for osm2pgsql.
"""
run_osm2pgsql(options)
with connect(options['dsn']) as conn:
- with conn.cursor() as cur:
- cur.execute('SELECT * FROM place LIMIT 1')
- if cur.rowcount == 0:
- raise UsageError('No data imported by osm2pgsql.')
+ if not ignore_errors:
+ with conn.cursor() as cur:
+ cur.execute('SELECT * FROM place LIMIT 1')
+ if cur.rowcount == 0:
+ raise UsageError('No data imported by osm2pgsql.')
if drop:
conn.drop_table('planet_osm_nodes')
Path(options['flatnode_file']).unlink()
+def create_tables(conn, config, sqllib_dir, reverse_only=False):
+ """ Create the set of basic tables.
+ When `reverse_only` is True, then the main table for searching will
+ be skipped and only reverse search is possible.
+ """
+ sql = SQLPreprocessor(conn, config, sqllib_dir)
+ sql.env.globals['db']['reverse_only'] = reverse_only
+
+ sql.run_sql_file(conn, 'tables.sql')
+
+
+def create_table_triggers(conn, config, sqllib_dir):
+ """ Create the triggers for the tables. The trigger functions must already
+ have been imported with refresh.create_functions().
+ """
+ sql = SQLPreprocessor(conn, config, sqllib_dir)
+ sql.run_sql_file(conn, 'table-triggers.sql')
+
+
+def create_partition_tables(conn, config, sqllib_dir):
+ """ Create tables that have explicit partitioning.
+ """
+ sql = SQLPreprocessor(conn, config, sqllib_dir)
+ sql.run_sql_file(conn, 'partition-tables.src.sql')
+
+
def truncate_data_tables(conn, max_word_frequency=None):
""" Truncate all data tables to prepare for a fresh load.
"""
cur.execute('TRUNCATE location_property_tiger')
cur.execute('TRUNCATE location_property_osmline')
cur.execute('TRUNCATE location_postcode')
- cur.execute('TRUNCATE search_name')
+ if conn.table_exists('search_name'):
+ cur.execute('TRUNCATE search_name')
cur.execute('DROP SEQUENCE IF EXISTS seq_place')
cur.execute('CREATE SEQUENCE seq_place start 100000')
with connect(dsn) as conn:
with conn.cursor() as cur:
cur.execute('ANALYSE')
+
+
+def create_search_indices(conn, config, sqllib_dir, drop=False):
+ """ Create tables that have explicit partitioning.
+ """
+
+ # If index creation failed and left an index invalid, they need to be
+ # cleaned out first, so that the script recreates them.
+ with conn.cursor() as cur:
+ cur.execute("""SELECT relname FROM pg_class, pg_index
+ WHERE pg_index.indisvalid = false
+ AND pg_index.indexrelid = pg_class.oid""")
+ bad_indices = [row[0] for row in list(cur)]
+ for idx in bad_indices:
+ LOG.info("Drop invalid index %s.", idx)
+ cur.execute('DROP INDEX "{}"'.format(idx))
+ conn.commit()
+
+ sql = SQLPreprocessor(conn, config, sqllib_dir)
+
+ sql.run_sql_file(conn, 'indices.sql', drop=drop)
+
+def create_country_names(conn, config):
+ """ Create search index for default country names.
+ """
+
+ with conn.cursor() as cur:
+ cur.execute("""SELECT getorcreate_country(make_standard_name('uk'), 'gb')""")
+ cur.execute("""SELECT getorcreate_country(make_standard_name('united states'), 'us')""")
+ cur.execute("""SELECT COUNT(*) FROM
+ (SELECT getorcreate_country(make_standard_name(country_code),
+ country_code) FROM country_name WHERE country_code is not null) AS x""")
+ cur.execute("""SELECT COUNT(*) FROM
+ (SELECT getorcreate_country(make_standard_name(name->'name'), country_code)
+ FROM country_name WHERE name ? 'name') AS x""")
+ sql_statement = """SELECT COUNT(*) FROM (SELECT getorcreate_country(make_standard_name(v),
+ country_code) FROM (SELECT country_code, skeys(name)
+ AS k, svals(name) AS v FROM country_name) x WHERE k"""
+
+ languages = config.LANGUAGES
+
+ if languages:
+ sql_statement = "{} IN (".format(sql_statement)
+ delim = ''
+ for language in languages.split(','):
+ sql_statement = "{}{}'name:{}'".format(sql_statement, delim, language)
+ delim = ', '
+ sql_statement = '{})'.format(sql_statement)
+ else:
+ sql_statement = "{} LIKE 'name:%'".format(sql_statement)
+ sql_statement = "{}) v".format(sql_statement)
+ cur.execute(sql_statement)
+ conn.commit()