+from itertools import chain
+
import psycopg2.extras
from place_inserter import PlaceColumn
from table_compare import NominatimID, DBRow
+from nominatim.indexer.indexer import Indexer
def check_database_integrity(context):
""" Check some generic constraints on the tables.
@given("the (?P<named>named )?places")
def add_data_to_place_table(context, named):
+ """ Add entries into the place table. 'named places' makes sure that
+ the entries get a random name when none is explicitly given.
+ """
with context.db.cursor() as cur:
cur.execute('ALTER TABLE place DISABLE TRIGGER place_before_insert')
for row in context.table:
@given("the relations")
def add_data_to_planet_relations(context):
+ """ Add entries into the osm2pgsql relation middle table. This is needed
+ for tests on data that looks up members.
+ """
with context.db.cursor() as cur:
for r in context.table:
last_node = 0
else:
members = None
- tags = []
- for h in r.headings:
- if h.startswith("tags+"):
- tags.extend((h[5:], r[h]))
+ tags = chain.from_iterable([(h[5:], r[h]) for h in r.headings if h.startswith("tags+")])
cur.execute("""INSERT INTO planet_osm_rels (id, way_off, rel_off, parts, members, tags)
VALUES (%s, %s, %s, %s, %s, %s)""",
- (r['id'], last_node, last_way, parts, members, tags))
+ (r['id'], last_node, last_way, parts, members, list(tags)))
@given("the ways")
def add_data_to_planet_ways(context):
+ """ Add entries into the osm2pgsql way middle table. This is necessary for
+ tests on that that looks up node ids in this table.
+ """
with context.db.cursor() as cur:
for r in context.table:
- tags = []
- for h in r.headings:
- if h.startswith("tags+"):
- tags.extend((h[5:], r[h]))
-
+ tags = chain.from_iterable([(h[5:], r[h]) for h in r.headings if h.startswith("tags+")])
nodes = [ int(x.strip()) for x in r['nodes'].split(',') ]
cur.execute("INSERT INTO planet_osm_ways (id, nodes, tags) VALUES (%s, %s, %s)",
- (r['id'], nodes, tags))
+ (r['id'], nodes, list(tags)))
################################ WHEN ##################################
""" Import data previously set up in the place table.
"""
context.nominatim.copy_from_place(context.db)
- context.nominatim.run_setup_script('calculate-postcodes', 'index', 'index-noanalyse')
+ context.nominatim.run_setup_script('calculate-postcodes')
+
+ # Call directly as the refresh function does not include postcodes.
+ indexer = Indexer(context.nominatim.test_env['NOMINATIM_DATABASE_DSN'][6:], 1)
+ indexer.index_full(analyse=False)
+
check_database_integrity(context)
@when("updating places")
def update_place_table(context):
- context.nominatim.run_setup_script(
- 'create-functions', 'create-partition-functions', 'enable-diff-updates')
+ """ Update the place table with the given data. Also runs all triggers
+ related to updates and reindexes the new data.
+ """
+ context.nominatim.run_nominatim('refresh', '--functions')
with context.db.cursor() as cur:
for row in context.table:
PlaceColumn(context).add_row(row, False).db_insert(cur)
@when("updating postcodes")
def update_postcodes(context):
- context.nominatim.run_update_script('calculate-postcodes')
+ """ Rerun the calculation of postcodes.
+ """
+ context.nominatim.run_nominatim('refresh', '--postcodes')
@when("marking for delete (?P<oids>.*)")
def delete_places(context, oids):
- context.nominatim.run_setup_script(
- 'create-functions', 'create-partition-functions', 'enable-diff-updates')
+ """ Remove entries from the place table. Multiple ids may be given
+ separated by commas. Also runs all triggers
+ related to updates and reindexes the new data.
+ """
+ context.nominatim.run_nominatim('refresh', '--functions')
with context.db.cursor() as cur:
for oid in oids.split(','):
NominatimID(oid).query_osm_id(cur, 'DELETE FROM place WHERE {}')
@then("(?P<table>placex|place) contains(?P<exact> exactly)?")
def check_place_contents(context, table, exact):
+ """ Check contents of place/placex tables. Each row represents a table row
+ and all data must match. Data not present in the expected table, may
+ be arbitry. The rows are identified via the 'object' column which must
+ have an identifier of the form '<NRW><osm id>[:<class>]'. When multiple
+ rows match (for example because 'class' was left out and there are
+ multiple entries for the given OSM object) then all must match. All
+ expected rows are expected to be present with at least one database row.
+ When 'exactly' is given, there must not be additional rows in the database.
+ """
with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
expected_content = set()
for row in context.table:
@then("(?P<table>placex|place) has no entry for (?P<oid>.*)")
def check_place_has_entry(context, table, oid):
+ """ Ensure that no database row for the given object exists. The ID
+ must be of the form '<NRW><osm id>[:<class>]'.
+ """
with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
NominatimID(oid).query_osm_id(cur, "SELECT * FROM %s where {}" % table)
assert cur.rowcount == 0, \
@then("search_name contains(?P<exclude> not)?")
def check_search_name_contents(context, exclude):
+ """ Check contents of place/placex tables. Each row represents a table row
+ and all data must match. Data not present in the expected table, may
+ be arbitry. The rows are identified via the 'object' column which must
+ have an identifier of the form '<NRW><osm id>[:<class>]'. All
+ expected rows are expected to be present with at least one database row.
+ """
with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
for row in context.table:
nid = NominatimID(row['object'])
for res in cur:
db_row = DBRow(nid, res, context)
- for h in row.headings:
- if h in ('name_vector', 'nameaddress_vector'):
- terms = [x.strip() for x in row[h].split(',') if not x.strip().startswith('#')]
- words = [x.strip()[1:] for x in row[h].split(',') if x.strip().startswith('#')]
+ for name, value in zip(row.headings, row.cells):
+ if name in ('name_vector', 'nameaddress_vector'):
+ items = [x.strip() for x in value.split(',')]
with context.db.cursor() as subcur:
subcur.execute(""" SELECT word_id, word_token
FROM word, (SELECT unnest(%s::TEXT[]) as term) t
and class is null and country_code is null
and operator is null
""",
- (terms, words))
+ (list(filter(lambda x: not x.startswith('#'), items)),
+ list(filter(lambda x: x.startswith('#'), items))))
if not exclude:
- assert subcur.rowcount >= len(terms) + len(words), \
- "No word entry found for " + row[h] + ". Entries found: " + str(subcur.rowcount)
+ assert subcur.rowcount >= len(items), \
+ "No word entry found for {}. Entries found: {!s}".format(value, subcur.rowcount)
for wid in subcur:
+ present = wid[0] in res[name]
if exclude:
- assert wid[0] not in res[h], "Found term for %s/%s: %s" % (row['object'], h, wid[1])
+ assert not present, "Found term for {}/{}: {}".format(row['object'], name, wid[1])
else:
- assert wid[0] in res[h], "Missing term for %s/%s: %s" % (row['object'], h, wid[1])
- elif h != 'object':
- assert db_row.contains(h, row[h]), db_row.assert_msg(h, row[h])
+ assert present, "Missing term for {}/{}: {}".fromat(row['object'], name, wid[1])
+ elif name != 'object':
+ assert db_row.contains(name, value), db_row.assert_msg(name, value)
+
+@then("search_name has no entry for (?P<oid>.*)")
+def check_search_name_has_entry(context, oid):
+ """ Check that there is noentry in the search_name table for the given
+ objects. IDs are in format '<NRW><osm id>[:<class>]'.
+ """
+ with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
+ NominatimID(oid).row_by_place_id(cur, 'search_name')
+
+ assert cur.rowcount == 0, \
+ "Found {} entries for ID {}".format(cur.rowcount, oid)
@then("location_postcode contains exactly")
def check_location_postcode(context):
+ """ Check full contents for location_postcode table. Each row represents a table row
+ and all data must match. Data not present in the expected table, may
+ be arbitry. The rows are identified via 'country' and 'postcode' columns.
+ All rows must be present as excepted and there must not be additional
+ rows.
+ """
with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
cur.execute("SELECT *, ST_AsText(geometry) as geomtxt FROM location_postcode")
assert cur.rowcount == len(list(context.table)), \
- "Postcode table has %d rows, expected %d rows." % (cur.rowcount, len(list(context.table)))
+ "Postcode table has {} rows, expected {}.".foramt(cur.rowcount, len(list(context.table)))
results = {}
for row in cur:
for row in context.table:
db_row = results.get((row['country'],row['postcode']))
assert db_row is not None, \
- "Missing row for country '{}' postcode '{}'.".format(r['country'],['postcode'])
+ "Missing row for country '{r['country']}' postcode '{r['postcode']}'.".format(r=row)
db_row.assert_row(row, ('country', 'postcode'))
@then("word contains(?P<exclude> not)?")
def check_word_table(context, exclude):
+ """ Check the contents of the word table. Each row represents a table row
+ and all data must match. Data not present in the expected table, may
+ be arbitry. The rows are identified via all given columns.
+ """
with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
for row in context.table:
- wheres = []
- values = []
- for h in row.headings:
- wheres.append("%s = %%s" % h)
- values.append(row[h])
- cur.execute("SELECT * from word WHERE %s" % ' AND '.join(wheres), values)
+ wheres = ' AND '.join(["{} = %s".format(h) for h in row.headings])
+ cur.execute("SELECT * from word WHERE " + wheres, list(row.cells))
if exclude:
assert cur.rowcount == 0, "Row still in word table: %s" % '/'.join(values)
else:
@then("place_addressline contains")
def check_place_addressline(context):
+ """ Check the contents of the place_addressline table. Each row represents
+ a table row and all data must match. Data not present in the expected
+ table, may be arbitry. The rows are identified via the 'object' column,
+ representing the addressee and the 'address' column, representing the
+ address item.
+ """
with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
for row in context.table:
nid = NominatimID(row['object'])
@then("place_addressline doesn't contain")
def check_place_addressline_exclude(context):
+ """ Check that the place_addressline doesn't contain any entries for the
+ given addressee/address item pairs.
+ """
with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
for row in context.table:
pid = NominatimID(row['object']).get_place_id(cur)
assert cur.rowcount == 0, \
"Row found for place %s and address %s" % (row['object'], row['address'])
-@then("(?P<oid>\w+) expands to(?P<neg> no)? interpolation")
+@then("W(?P<oid>\d+) expands to(?P<neg> no)? interpolation")
def check_location_property_osmline(context, oid, neg):
- nid = NominatimID(oid)
-
- assert 'W' == nid.typ, "interpolation must be a way"
-
+ """ Check that the given way is present in the interpolation table.
+ """
with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
cur.execute("""SELECT *, ST_AsText(linegeo) as geomtxt
FROM location_property_osmline
WHERE osm_id = %s AND startnumber IS NOT NULL""",
- (nid.oid, ))
+ (oid, ))
if neg:
- assert cur.rowcount == 0
+ assert cur.rowcount == 0, "Interpolation found for way {}.".format(oid)
return
todo = list(range(len(list(context.table))))
todo.remove(i)
break
else:
- assert False, "Unexpected row %s" % (str(res))
+ assert False, "Unexpected row " + str(res)
- DBRow(nid, res, context).assert_row(row, ('start', 'end'))
+ DBRow(oid, res, context).assert_row(row, ('start', 'end'))
assert not todo
-@then("search_name has no entry for (?P<oid>.*)")
-def check_search_name_has_entry(context, oid):
- with context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) as cur:
- NominatimID(oid).row_by_place_id(cur, 'search_name')
-
- assert cur.rowcount == 0, \
- "Found {} entries for ID {}".format(cur.rowcount, oid)