+
@step(u'table ([a-z_]+) contains$')
def check_placex_content(step, tablename):
""" check that the given lines are in the given table
q = 'SELECT *'
if tablename == 'placex':
q = q + ", ST_X(centroid) as clat, ST_Y(centroid) as clon"
- q = q + ", ST_GeometryType(geometry) as geometrytype"
- q = q + ' FROM %s where osm_type = %%s and osm_id = %%s' % (tablename,)
+ if tablename == 'location_property_osmline':
+ q = q + ' FROM %s where osm_id = %%s' % (tablename,)
+ else:
+ q = q + ' FROM %s where osm_type = %%s and osm_id = %%s' % (tablename,)
if cls is None:
- params = (osmtype, osmid)
+ if tablename == 'location_property_osmline':
+ params = (osmid,)
+ else:
+ params = (osmtype, osmid)
else:
q = q + ' and class = %s'
- params = (osmtype, osmid, cls)
+ if tablename == 'location_property_osmline':
+ params = (osmid, cls)
+ else:
+ params = (osmtype, osmid, cls)
cur.execute(q, params)
assert(cur.rowcount > 0)
for res in cur:
cur.close()
world.conn.commit()
+@step(u'table location_property_osmline has no entry for W(\d+)?')
+def check_osmline_missing(step, osmid):
+ cur = world.conn.cursor()
+ try:
+ q = 'SELECT count(*) FROM location_property_osmline where osm_id = %s' % (osmid, )
+ cur.execute(q)
+ numres = cur.fetchone()[0]
+ assert_equals (numres, 0)
+ finally:
+ cur.close()
+ world.conn.commit()
+
@step(u'search_name table contains$')
def check_search_name_content(step):
cur = world.conn.cursor(cursor_factory=psycopg2.extras.DictCursor)
FROM placex WHERE osm_type = 'W' and osm_id = %s
and class = 'place' and type = 'address'""",
(int(nodeid),))
+
assert_equals(len(numbers), cur.rowcount)
for r in cur:
assert_in(r["housenumber"], numbers)
world.match_geometry((r['clat'], r['clon']), numbers[r["housenumber"]])
del numbers[r["housenumber"]]
+@step(u'way (\d+) expands to lines')
+def check_interpolation_lines(step, wayid):
+ """Check that the correct interpolation line has been entered in
+ location_property_osmline for the given source line/nodes. Expected are three columns:
+ startnumber, endnumber and linegeo
+ """
+ lines = {}
+ for line in step.hashes:
+ assert line["startnumber"] not in lines
+ lines[line["startnumber"]] = {'endnumber': line["endnumber"], 'geometry': line["geometry"]}
+ cur = world.conn.cursor(cursor_factory=psycopg2.extras.DictCursor)
+ cur.execute("""SELECT startnumber::text, endnumber::text, st_astext(linegeo) as geometry
+ FROM location_property_osmline WHERE osm_id = %s""",
+ (int(wayid),))
+ assert_equals(len(lines), cur.rowcount)
+ for r in cur:
+ assert_in(r["startnumber"], lines)
+ assert_equals(r["endnumber"], lines[r["startnumber"]]["endnumber"])
+ linegeo = str(str(r["geometry"].split('(')[1]).split(')')[0]).replace(',', ', ')
+ assert_equals(linegeo, lines[r["startnumber"]]["geometry"])
+ del lines[r["startnumber"]]
+
@step(u'way (\d+) expands exactly to housenumbers ([0-9,]*)')
def check_interpolated_housenumber_list(step, nodeid, numberlist):
""" Checks that the interpolated house numbers corresponds
cur = world.conn.cursor()
cur.execute("""SELECT housenumber FROM placex
WHERE osm_type = 'W' and osm_id = %s
- and class = 'place' and type = 'address'""", (int(nodeid),))
+ and class = 'place' and type = 'address'""", (int(nodeid),))
for r in cur:
assert_in(r[0], expected, "Unexpected house number %s for node %s." % (r[0], nodeid))
expected.remove(r[0])
projects / nominatim.git / blobdiff