import base64 import random import string import re import psycopg2.extras from check_functions import Almost class PlaceColumn: def __init__(self, context, force_name): self.columns = { 'admin_level' : 15} self.force_name = force_name self.context = context self.geometry = None def add(self, key, value): if hasattr(self, 'set_key_' + key): getattr(self, 'set_key_' + key)(value) elif key.startswith('name+'): self.add_hstore('name', key[5:], value) elif key.startswith('extra+'): self.add_hstore('extratags', key[6:], value) elif key.startswith('addr+'): self.add_hstore('address', key[5:], value) elif key in ('name', 'address', 'extratags'): self.columns[key] = eval('{' + value + '}') else: assert key in ('class', 'type') self.columns[key] = None if value == '' else value def set_key_name(self, value): self.add_hstore('name', 'name', value) def set_key_osm(self, value): assert value[0] in 'NRW' assert value[1:].isdigit() self.columns['osm_type'] = value[0] self.columns['osm_id'] = int(value[1:]) def set_key_admin(self, value): self.columns['admin_level'] = int(value) def set_key_housenr(self, value): if value: self.add_hstore('address', 'housenumber', value) def set_key_postcode(self, value): if value: self.add_hstore('address', 'postcode', value) def set_key_street(self, value): if value: self.add_hstore('address', 'street', value) def set_key_addr_place(self, value): if value: self.add_hstore('address', 'place', value) def set_key_country(self, value): if value: self.add_hstore('address', 'country', value) def set_key_geometry(self, value): self.geometry = self.context.osm.parse_geometry(value, self.context.scene) assert self.geometry is not None def add_hstore(self, column, key, value): if column in self.columns: self.columns[column][key] = value else: self.columns[column] = { key : value } def db_insert(self, cursor): assert 'osm_type' in self.columns if self.force_name and 'name' not in self.columns: self.add_hstore('name', 'name', ''.join(random.choice(string.printable) for _ in range(int(random.random()*30)))) if self.columns['osm_type'] == 'N' and self.geometry is None: pt = self.context.osm.grid_node(self.columns['osm_id']) if pt is None: pt = (random.random()*360 - 180, random.random()*180 - 90) self.geometry = "ST_SetSRID(ST_Point(%f, %f), 4326)" % pt else: assert self.geometry is not None, "Geometry missing" query = 'INSERT INTO place (%s, geometry) values(%s, %s)' % ( ','.join(self.columns.keys()), ','.join(['%s' for x in range(len(self.columns))]), self.geometry) cursor.execute(query, list(self.columns.values())) class LazyFmt(object): def __init__(self, fmtstr, *args): self.fmt = fmtstr self.args = args def __str__(self): return self.fmt % self.args class PlaceObjName(object): def __init__(self, placeid, conn): self.pid = placeid self.conn = conn def __str__(self): if self.pid is None: return "" if self.pid == 0: return "place ID 0" cur = self.conn.cursor() cur.execute("""SELECT osm_type, osm_id, class FROM placex WHERE place_id = %s""", (self.pid, )) assert cur.rowcount == 1, "No entry found for place id %s" % self.pid return "%s%s:%s" % cur.fetchone() def compare_place_id(expected, result, column, context): if expected == '0': assert result == 0, \ LazyFmt("Bad place id in column %s. Expected: 0, got: %s.", column, PlaceObjName(result, context.db)) elif expected == '-': assert result is None, \ LazyFmt("bad place id in column %s: %s.", column, PlaceObjName(result, context.db)) else: assert NominatimID(expected).get_place_id(context.db.cursor()) == result, \ LazyFmt("Bad place id in column %s. Expected: %s, got: %s.", column, expected, PlaceObjName(result, context.db)) def check_database_integrity(context): """ Check some generic constraints on the tables. """ # place_addressline should not have duplicate (place_id, address_place_id) cur = context.db.cursor() cur.execute("""SELECT count(*) FROM (SELECT place_id, address_place_id, count(*) as c FROM place_addressline GROUP BY place_id, address_place_id) x WHERE c > 1""") assert cur.fetchone()[0] == 0, "Duplicates found in place_addressline" class NominatimID: """ Splits a unique identifier for places into its components. As place_ids cannot be used for testing, we use a unique identifier instead that is of the form [:]. """ id_regex = re.compile(r"(?P[NRW])(?P\d+)(:(?P\w+))?") def __init__(self, oid): self.typ = self.oid = self.cls = None if oid is not None: m = self.id_regex.fullmatch(oid) assert m is not None, "ID '%s' not of form [:]" % oid self.typ = m.group('tp') self.oid = m.group('id') self.cls = m.group('cls') def __str__(self): if self.cls is None: return self.typ + self.oid return '%s%d:%s' % (self.typ, self.oid, self.cls) def table_select(self): """ Return where clause and parameter list to select the object from a Nominatim table. """ where = 'osm_type = %s and osm_id = %s' params = [self.typ, self. oid] if self.cls is not None: where += ' and class = %s' params.append(self.cls) return where, params def get_place_id(self, cur): where, params = self.table_select() cur.execute("SELECT place_id FROM placex WHERE %s" % where, params) assert cur.rowcount == 1, \ "Expected exactly 1 entry in placex for %s found %s" % (str(self), cur.rowcount) return cur.fetchone()[0] def assert_db_column(row, column, value, context): if column == 'object': return if column.startswith('centroid'): if value == 'in geometry': query = """SELECT ST_Within(ST_SetSRID(ST_Point({}, {}), 4326), ST_SetSRID('{}'::geometry, 4326))""".format( row['cx'], row['cy'], row['geomtxt']) cur = context.db.cursor() cur.execute(query) assert cur.fetchone()[0], "(Row %s failed: %s)" % (column, query) else: fac = float(column[9:]) if column.startswith('centroid*') else 1.0 x, y = value.split(' ') assert Almost(float(x) * fac) == row['cx'], "Bad x coordinate" assert Almost(float(y) * fac) == row['cy'], "Bad y coordinate" elif column == 'geometry': geom = context.osm.parse_geometry(value, context.scene) cur = context.db.cursor() query = "SELECT ST_Equals(ST_SnapToGrid(%s, 0.00001, 0.00001), ST_SnapToGrid(ST_SetSRID('%s'::geometry, 4326), 0.00001, 0.00001))" % ( geom, row['geomtxt'],) cur.execute(query) assert cur.fetchone()[0], "(Row %s failed: %s)" % (column, query) elif value == '-': assert row[column] is None, "Row %s" % column else: assert value == str(row[column]), \ "Row '%s': expected: %s, got: %s" % (column, value, str(row[column])) ################################ STEPS ################################## @given(u'the scene (?P.+)') def set_default_scene(context, scene): context.scene = scene @given("the (?Pnamed )?places") def add_data_to_place_table(context, named): cur = context.db.cursor() cur.execute('ALTER TABLE place DISABLE TRIGGER place_before_insert') for r in context.table: col = PlaceColumn(context, named is not None) for h in r.headings: col.add(h, r[h]) col.db_insert(cur) cur.execute('ALTER TABLE place ENABLE TRIGGER place_before_insert') cur.close() context.db.commit() @given("the relations") def add_data_to_planet_relations(context): cur = context.db.cursor() for r in context.table: last_node = 0 last_way = 0 parts = [] if r['members']: members = [] for m in r['members'].split(','): mid = NominatimID(m) if mid.typ == 'N': parts.insert(last_node, int(mid.oid)) last_node += 1 last_way += 1 elif mid.typ == 'W': parts.insert(last_way, int(mid.oid)) last_way += 1 else: parts.append(int(mid.oid)) members.extend((mid.typ.lower() + mid.oid, mid.cls or '')) else: members = None tags = [] for h in r.headings: if h.startswith("tags+"): tags.extend((h[5:], r[h])) 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)) context.db.commit() @given("the ways") def add_data_to_planet_ways(context): cur = context.db.cursor() for r in context.table: tags = [] for h in r.headings: if h.startswith("tags+"): tags.extend((h[5:], r[h])) 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)) context.db.commit() @when("importing") def import_and_index_data_from_place_table(context): context.nominatim.run_setup_script('create-functions', 'create-partition-functions') cur = context.db.cursor() cur.execute( """insert into placex (osm_type, osm_id, class, type, name, admin_level, address, extratags, geometry) select osm_type, osm_id, class, type, name, admin_level, address, extratags, geometry from place where not (class='place' and type='houses' and osm_type='W')""") cur.execute( """insert into location_property_osmline (osm_id, address, linegeo) SELECT osm_id, address, geometry from place WHERE class='place' and type='houses' and osm_type='W' and ST_GeometryType(geometry) = 'ST_LineString'""") context.db.commit() context.nominatim.run_setup_script('calculate-postcodes', 'index', 'index-noanalyse') 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') cur = context.db.cursor() for r in context.table: col = PlaceColumn(context, False) for h in r.headings: col.add(h, r[h]) col.db_insert(cur) context.db.commit() while True: context.nominatim.run_update_script('index') cur = context.db.cursor() cur.execute("SELECT 'a' FROM placex WHERE indexed_status != 0 LIMIT 1") if cur.rowcount == 0: break check_database_integrity(context) @when("updating postcodes") def update_postcodes(context): context.nominatim.run_update_script('calculate-postcodes') @when("marking for delete (?P.*)") def delete_places(context, oids): context.nominatim.run_setup_script( 'create-functions', 'create-partition-functions', 'enable-diff-updates') cur = context.db.cursor() for oid in oids.split(','): where, params = NominatimID(oid).table_select() cur.execute("DELETE FROM place WHERE " + where, params) context.db.commit() while True: context.nominatim.run_update_script('index') cur = context.db.cursor() cur.execute("SELECT 'a' FROM placex WHERE indexed_status != 0 LIMIT 1") if cur.rowcount == 0: break @then("placex contains(?P exactly)?") def check_placex_contents(context, exact): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) expected_content = set() for row in context.table: nid = NominatimID(row['object']) where, params = nid.table_select() cur.execute("""SELECT *, ST_AsText(geometry) as geomtxt, ST_X(centroid) as cx, ST_Y(centroid) as cy FROM placex where %s""" % where, params) assert cur.rowcount > 0, "No rows found for " + row['object'] for res in cur: if exact: expected_content.add((res['osm_type'], res['osm_id'], res['class'])) for h in row.headings: if h in ('extratags', 'address'): if row[h] == '-': assert res[h] is None else: vdict = eval('{' + row[h] + '}') assert vdict == res[h] elif h.startswith('name'): name = h[5:] if h.startswith('name+') else 'name' assert name in res['name'] assert res['name'][name] == row[h] elif h.startswith('extratags+'): assert res['extratags'][h[10:]] == row[h] elif h.startswith('addr+'): if row[h] == '-': if res['address'] is not None: assert h[5:] not in res['address'] else: assert h[5:] in res['address'], "column " + h assert res['address'][h[5:]] == row[h], "column %s" % h elif h in ('linked_place_id', 'parent_place_id'): compare_place_id(row[h], res[h], h, context) else: assert_db_column(res, h, row[h], context) if exact: cur.execute('SELECT osm_type, osm_id, class from placex') assert expected_content == set([(r[0], r[1], r[2]) for r in cur]) context.db.commit() @then("place contains(?P exactly)?") def check_placex_contents(context, exact): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) expected_content = set() for row in context.table: nid = NominatimID(row['object']) where, params = nid.table_select() cur.execute("""SELECT *, ST_AsText(geometry) as geomtxt, ST_GeometryType(geometry) as geometrytype FROM place where %s""" % where, params) assert cur.rowcount > 0, "No rows found for " + row['object'] for res in cur: if exact: expected_content.add((res['osm_type'], res['osm_id'], res['class'])) for h in row.headings: msg = "%s: %s" % (row['object'], h) if h in ('name', 'extratags', 'address'): if row[h] == '-': assert res[h] is None, msg else: vdict = eval('{' + row[h] + '}') assert vdict == res[h], msg elif h.startswith('name+'): assert res['name'][h[5:]] == row[h], msg elif h.startswith('extratags+'): assert res['extratags'][h[10:]] == row[h], msg elif h.startswith('addr+'): if row[h] == '-': if res['address'] is not None: assert h[5:] not in res['address'] else: assert res['address'][h[5:]] == row[h], msg elif h in ('linked_place_id', 'parent_place_id'): compare_place_id(row[h], res[h], h, context) else: assert_db_column(res, h, row[h], context) if exact: cur.execute('SELECT osm_type, osm_id, class from place') assert expected_content, set([(r[0], r[1], r[2]) for r in cur]) context.db.commit() @then("search_name contains(?P not)?") def check_search_name_contents(context, exclude): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) for row in context.table: pid = NominatimID(row['object']).get_place_id(cur) cur.execute("""SELECT *, ST_X(centroid) as cx, ST_Y(centroid) as cy FROM search_name WHERE place_id = %s""", (pid, )) assert cur.rowcount > 0, "No rows found for " + row['object'] for res in cur: 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('#')] subcur = context.db.cursor() subcur.execute(""" SELECT word_id, word_token FROM word, (SELECT unnest(%s::TEXT[]) as term) t WHERE word_token = make_standard_name(t.term) and class is null and country_code is null and operator is null UNION SELECT word_id, word_token FROM word, (SELECT unnest(%s::TEXT[]) as term) t WHERE word_token = ' ' || make_standard_name(t.term) and class is null and country_code is null and operator is null """, (terms, words)) if not exclude: assert subcur.rowcount >= len(terms) + len(words), \ "No word entry found for " + row[h] + ". Entries found: " + str(subcur.rowcount) for wid in subcur: if exclude: assert wid[0] not in res[h], "Found term for %s/%s: %s" % (pid, h, wid[1]) else: assert wid[0] in res[h], "Missing term for %s/%s: %s" % (pid, h, wid[1]) else: assert_db_column(res, h, row[h], context) context.db.commit() @then("location_postcode contains exactly") def check_location_postcode(context): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) 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))) table = list(cur) for row in context.table: for i in range(len(table)): if table[i]['country_code'] != row['country'] \ or table[i]['postcode'] != row['postcode']: continue for h in row.headings: if h not in ('country', 'postcode'): assert_db_column(table[i], h, row[h], context) @then("word contains(?P not)?") def check_word_table(context, exclude): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) 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) if exclude: assert cur.rowcount == 0, "Row still in word table: %s" % '/'.join(values) else: assert cur.rowcount > 0, "Row not in word table: %s" % '/'.join(values) @then("place_addressline contains") def check_place_addressline(context): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) for row in context.table: pid = NominatimID(row['object']).get_place_id(cur) apid = NominatimID(row['address']).get_place_id(cur) cur.execute(""" SELECT * FROM place_addressline WHERE place_id = %s AND address_place_id = %s""", (pid, apid)) assert cur.rowcount > 0, \ "No rows found for place %s and address %s" % (row['object'], row['address']) for res in cur: for h in row.headings: if h not in ('address', 'object'): assert_db_column(res, h, row[h], context) context.db.commit() @then("place_addressline doesn't contain") def check_place_addressline_exclude(context): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) for row in context.table: pid = NominatimID(row['object']).get_place_id(cur) apid = NominatimID(row['address']).get_place_id(cur) cur.execute(""" SELECT * FROM place_addressline WHERE place_id = %s AND address_place_id = %s""", (pid, apid)) assert cur.rowcount == 0, \ "Row found for place %s and address %s" % (row['object'], row['address']) context.db.commit() @then("(?P\w+) expands to(?P no)? interpolation") def check_location_property_osmline(context, oid, neg): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) nid = NominatimID(oid) assert 'W' == nid.typ, "interpolation must be a way" cur.execute("""SELECT *, ST_AsText(linegeo) as geomtxt FROM location_property_osmline WHERE osm_id = %s AND startnumber IS NOT NULL""", (nid.oid, )) if neg: assert cur.rowcount == 0 return todo = list(range(len(list(context.table)))) for res in cur: for i in todo: row = context.table[i] if (int(row['start']) == res['startnumber'] and int(row['end']) == res['endnumber']): todo.remove(i) break else: assert False, "Unexpected row %s" % (str(res)) for h in row.headings: if h in ('start', 'end'): continue elif h == 'parent_place_id': compare_place_id(row[h], res[h], h, context) else: assert_db_column(res, h, row[h], context) assert not todo @then("(?Pplacex|place) has no entry for (?P.*)") def check_placex_has_entry(context, table, oid): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) nid = NominatimID(oid) where, params = nid.table_select() cur.execute("SELECT * FROM %s where %s" % (table, where), params) assert cur.rowcount == 0 context.db.commit() @then("search_name has no entry for (?P.*)") def check_search_name_has_entry(context, oid): cur = context.db.cursor(cursor_factory=psycopg2.extras.DictCursor) pid = NominatimID(oid).get_place_id(cur) cur.execute("SELECT * FROM search_name WHERE place_id = %s", (pid, )) assert cur.rowcount == 0 context.db.commit()