mirror of
https://github.com/osm-search/Nominatim.git
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181 lines
7.8 KiB
Python
181 lines
7.8 KiB
Python
""" Steps for checking the DB after import and update tests.
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There are two groups of test here. The first group tests
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the contents of db tables directly, the second checks
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query results by using the command line query tool.
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"""
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from nose.tools import *
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from lettuce import *
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import psycopg2
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import psycopg2.extensions
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import psycopg2.extras
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import os
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import random
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import json
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import re
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import logging
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from collections import OrderedDict
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logger = logging.getLogger(__name__)
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@step(u'table placex contains as names for (N|R|W)(\d+)')
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def check_placex_names(step, osmtyp, osmid):
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""" Check for the exact content of the name hstore in placex.
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"""
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cur = world.conn.cursor(cursor_factory=psycopg2.extras.DictCursor)
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cur.execute('SELECT name FROM placex where osm_type = %s and osm_id =%s', (osmtyp, int(osmid)))
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for line in cur:
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names = dict(line['name'])
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for name in step.hashes:
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assert_in(name['k'], names)
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assert_equals(names[name['k']], name['v'])
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del names[name['k']]
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assert_equals(len(names), 0)
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@step(u'table ([a-z_]+) contains$')
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def check_placex_content(step, tablename):
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""" check that the given lines are in the given table
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Entries are searched by osm_type/osm_id and then all
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given columns are tested. If there is more than one
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line for an OSM object, they must match in these columns.
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"""
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try:
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cur = world.conn.cursor(cursor_factory=psycopg2.extras.DictCursor)
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for line in step.hashes:
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osmtype, osmid, cls = world.split_id(line['object'])
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q = 'SELECT *'
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if tablename == 'placex':
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q = q + ", ST_X(centroid) as clat, ST_Y(centroid) as clon"
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q = q + ", ST_GeometryType(geometry) as geometrytype"
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q = q + ' FROM %s where osm_type = %%s and osm_id = %%s' % (tablename,)
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if cls is None:
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params = (osmtype, osmid)
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else:
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q = q + ' and class = %s'
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params = (osmtype, osmid, cls)
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cur.execute(q, params)
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assert(cur.rowcount > 0)
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for res in cur:
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for k,v in line.iteritems():
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if not k == 'object':
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assert_in(k, res)
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if type(res[k]) is dict:
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val = world.make_hash(v)
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assert_equals(res[k], val)
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elif k in ('parent_place_id', 'linked_place_id'):
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pid = world.get_placeid(v)
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assert_equals(pid, res[k], "Results for '%s'/'%s' differ: '%s' != '%s'" % (line['object'], k, pid, res[k]))
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elif k == 'centroid':
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world.match_geometry((res['clat'], res['clon']), v)
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else:
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assert_equals(str(res[k]), v, "Results for '%s'/'%s' differ: '%s' != '%s'" % (line['object'], k, str(res[k]), v))
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finally:
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cur.close()
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world.conn.commit()
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@step(u'table (placex?) has no entry for (N|R|W)(\d+)(:\w+)?')
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def check_placex_missing(step, tablename, osmtyp, osmid, placeclass):
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cur = world.conn.cursor()
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try:
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q = 'SELECT count(*) FROM %s where osm_type = %%s and osm_id = %%s' % (tablename, )
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args = [osmtyp, int(osmid)]
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if placeclass is not None:
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q = q + ' and class = %s'
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args.append(placeclass[1:])
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cur.execute(q, args)
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numres = cur.fetchone()[0]
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assert_equals (numres, 0)
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finally:
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cur.close()
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world.conn.commit()
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@step(u'search_name table contains$')
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def check_search_name_content(step):
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cur = world.conn.cursor(cursor_factory=psycopg2.extras.DictCursor)
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for line in step.hashes:
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placeid = world.get_placeid(line['place_id'])
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cur.execute('SELECT * FROM search_name WHERE place_id = %s', (placeid,))
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assert(cur.rowcount > 0)
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for res in cur:
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for k,v in line.iteritems():
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if k in ('search_rank', 'address_rank'):
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assert_equals(int(v), res[k], "Results for '%s'/'%s' differ: '%s' != '%d'" % (line['place_id'], k, v, res[k]))
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elif k in ('importance'):
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assert_equals(float(v), res[k], "Results for '%s'/'%s' differ: '%s' != '%d'" % (line['place_id'], k, v, res[k]))
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elif k in ('name_vector', 'nameaddress_vector'):
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terms = [x.strip().replace('#', ' ') for x in v.split(',')]
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cur.execute('SELECT word_id, word_token FROM word, (SELECT unnest(%s) as term) t WHERE word_token = make_standard_name(t.term)', (terms,))
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assert cur.rowcount >= len(terms)
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for wid in cur:
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assert_in(wid['word_id'], res[k], "Missing term for %s/%s: %s" % (line['place_id'], k, wid['word_token']))
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elif k in ('country_code'):
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assert_equals(v, res[k], "Results for '%s'/'%s' differ: '%s' != '%d'" % (line['place_id'], k, v, res[k]))
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elif k == 'place_id':
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pass
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else:
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raise Exception("Cannot handle field %s in search_name table" % (k, ))
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@step(u'way (\d+) expands to housenumbers')
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def check_interpolated_housenumbers(step, nodeid):
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"""Check that the exact set of housenumbers has been entered in
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placex for the given source node. Expected are two columns:
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housenumber and centroid
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"""
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numbers = {}
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for line in step.hashes:
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assert line["housenumber"] not in numbers
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numbers[line["housenumber"]] = line["centroid"]
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cur = world.conn.cursor(cursor_factory=psycopg2.extras.DictCursor)
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cur.execute("""SELECT DISTINCT housenumber,
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ST_X(centroid) as clat, ST_Y(centroid) as clon
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FROM placex WHERE osm_type = 'W' and osm_id = %s
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and class = 'place' and type = 'address'""",
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(int(nodeid),))
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assert_equals(len(numbers), cur.rowcount)
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for r in cur:
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assert_in(r["housenumber"], numbers)
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world.match_geometry((r['clat'], r['clon']), numbers[r["housenumber"]])
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del numbers[r["housenumber"]]
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@step(u'way (\d+) expands exactly to housenumbers ([0-9,]*)')
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def check_interpolated_housenumber_list(step, nodeid, numberlist):
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""" Checks that the interpolated house numbers corresponds
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to the given list.
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"""
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expected = numberlist.split(',');
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cur = world.conn.cursor()
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cur.execute("""SELECT housenumber FROM placex
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WHERE osm_type = 'W' and osm_id = %s
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and class = 'place' and type = 'address'""", (int(nodeid),))
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for r in cur:
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assert_in(r[0], expected, "Unexpected house number %s for node %s." % (r[0], nodeid))
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expected.remove(r[0])
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assert_equals(0, len(expected), "Missing house numbers for way %s: %s" % (nodeid, expected))
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@step(u'way (\d+) expands to no housenumbers')
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def check_no_interpolated_housenumber_list(step, nodeid):
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""" Checks that the interpolated house numbers corresponds
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to the given list.
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"""
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cur = world.conn.cursor()
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cur.execute("""SELECT housenumber FROM placex
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WHERE osm_type = 'W' and osm_id = %s
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and class = 'place' and type = 'address'""", (int(nodeid),))
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res = [r[0] for r in cur]
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assert_equals(0, len(res), "Unexpected house numbers for way %s: %s" % (nodeid, res))
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@step(u'table search_name has no entry for (.*)')
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def check_placex_missing(step, osmid):
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""" Checks if there is an entry in the search index for the
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given place object.
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"""
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cur = world.conn.cursor()
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placeid = world.get_placeid(osmid)
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cur.execute('SELECT count(*) FROM search_name WHERE place_id =%s', (placeid,))
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numres = cur.fetchone()[0]
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assert_equals (numres, 0)
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