import os
import io
import re
+import logging
from tidylib import tidy_document
import xml.etree.ElementTree as ET
import subprocess
from collections import OrderedDict
from nose.tools import * # for assert functions
+logger = logging.getLogger(__name__)
+
BASE_SERVER_ENV = {
'HTTP_HOST' : 'localhost',
'HTTP_USER_AGENT' : 'Mozilla/5.0 (X11; Linux x86_64; rv:51.0) Gecko/20100101 Firefox/51.0',
pass
elif h == 'osm':
assert_equal(res['osm_type'], row[h][0])
- assert_equal(res['osm_id'], row[h][1:])
+ assert_equal(res['osm_id'], int(row[h][1:]))
elif h == 'centroid':
x, y = row[h].split(' ')
assert_almost_equal(float(y), float(res['lat']))
self.header['json_func'] = m.group(1)
self.result = json.JSONDecoder(object_pairs_hook=OrderedDict).decode(code)
+ def parse_geojson(self):
+ self.parse_json()
+ self.result = geojson_results_to_json_results(self.result)
+
+ def parse_geocodejson(self):
+ return self.parse_geojson()
+
def parse_html(self):
content, errors = tidy_document(self.page,
options={'char-encoding' : 'utf8'})
#eq_(len(errors), 0 , "Errors found in HTML document:\n%s" % errors)
+ self.result = []
b = content.find('nominatim_results =')
e = content.find('</script>')
- content = content[b:e]
- b = content.find('[')
- e = content.rfind(']')
+ if b >= 0 and e >= 0:
+ content = content[b:e]
- self.result = json.JSONDecoder(object_pairs_hook=OrderedDict).decode(content[b:e+1])
+ b = content.find('[')
+ e = content.rfind(']')
+ if b >= 0 and e >= 0:
+ self.result = json.JSONDecoder(object_pairs_hook=OrderedDict)\
+ .decode(content[b:e+1])
def parse_xml(self):
et = ET.fromstring(self.page)
self.header['json_func'] = m.group(1)
self.result = [json.JSONDecoder(object_pairs_hook=OrderedDict).decode(code)]
+ def parse_geojson(self):
+ self.parse_json()
+ if 'error' in self.result:
+ return
+ self.result = geojson_results_to_json_results(self.result[0])
+
+ def parse_geocodejson(self):
+ return self.parse_geojson()
+
def parse_xml(self):
et = ET.fromstring(self.page)
options={'char-encoding' : 'utf8'})
self.result = {}
+ def parse_json(self):
+ self.result = [json.JSONDecoder(object_pairs_hook=OrderedDict).decode(self.page)]
+
+
+class StatusResponse(GenericResponse):
+
+ def __init__(self, page, fmt='text', errorcode=200):
+ self.page = page
+ self.format = fmt
+ self.errorcode = errorcode
+
+ if errorcode == 200 and fmt != 'text':
+ getattr(self, 'parse_' + fmt)()
+
+ def parse_json(self):
+ self.result = [json.JSONDecoder(object_pairs_hook=OrderedDict).decode(self.page)]
+
+
+def geojson_result_to_json_result(geojson_result):
+ result = geojson_result['properties']
+ result['geojson'] = geojson_result['geometry']
+ if 'bbox' in geojson_result:
+ # bbox is minlon, minlat, maxlon, maxlat
+ # boundingbox is minlat, maxlat, minlon, maxlon
+ result['boundingbox'] = [
+ geojson_result['bbox'][1],
+ geojson_result['bbox'][3],
+ geojson_result['bbox'][0],
+ geojson_result['bbox'][2]
+ ]
+ return result
+
+
+def geojson_results_to_json_results(geojson_results):
+ if 'error' in geojson_results:
+ return
+ return list(map(geojson_result_to_json_result, geojson_results['features']))
+
+
@when(u'searching for "(?P<query>.*)"(?P<dups> with dups)?')
def query_cmd(context, query, dups):
""" Query directly via PHP script.
"""
- cmd = [os.path.join(context.nominatim.build_dir, 'utils', 'query.php'),
- '--search', query]
+ cmd = ['/usr/bin/env', 'php']
+ cmd.append(os.path.join(context.nominatim.build_dir, 'utils', 'query.php'))
+ if query:
+ cmd.extend(['--search', query])
# add more parameters in table form
if context.table:
for h in context.table.headings:
for h in context.table.headings:
params[h] = context.table[0][h]
- env = BASE_SERVER_ENV
+ env = dict(BASE_SERVER_ENV)
env['QUERY_STRING'] = urlencode(params)
env['SCRIPT_NAME'] = '/%s.php' % endpoint
'%s.php' % endpoint)
env['NOMINATIM_SETTINGS'] = context.nominatim.local_settings_file
+ logger.debug("Environment:" + json.dumps(env, sort_keys=True, indent=2))
+
if hasattr(context, 'http_headers'):
env.update(context.http_headers)
- cmd = ['/usr/bin/php-cgi', env['SCRIPT_FILENAME']]
+ cmd = ['/usr/bin/env', 'php-cgi', '-f']
+ if context.nominatim.code_coverage_path:
+ env['COV_SCRIPT_FILENAME'] = env['SCRIPT_FILENAME']
+ env['COV_PHP_DIR'] = os.path.join(context.nominatim.src_dir, "lib")
+ env['COV_TEST_NAME'] = '%s:%s' % (context.scenario.filename, context.scenario.line)
+ env['SCRIPT_FILENAME'] = \
+ os.path.join(os.path.split(__file__)[0], 'cgi-with-coverage.php')
+ cmd.append(env['SCRIPT_FILENAME'])
+ env['PHP_CODE_COVERAGE_FILE'] = context.nominatim.next_code_coverage_file()
+ else:
+ cmd.append(env['SCRIPT_FILENAME'])
+
for k,v in params.items():
cmd.append("%s=%s" % (k, v))
stdout=subprocess.PIPE, stderr=subprocess.PIPE)
(outp, err) = proc.communicate()
+ outp = outp.decode('utf-8')
+ err = err.decode("utf-8")
+
+ logger.debug("Result: \n===============================\n"
+ + outp + "\n===============================\n")
assert_equals(0, proc.returncode,
- "query.php failed with message: %s\noutput: %s" % (err, outp))
+ "%s failed with message: %s" % (
+ os.path.basename(env['SCRIPT_FILENAME']),
+ err))
assert_equals(0, len(err), "Unexpected PHP error: %s" % (err))
- outp = outp.decode('utf-8')
-
if outp.startswith('Status: '):
status = int(outp[8:11])
else:
context.response = SearchResponse(outp, outfmt, status)
-@when(u'sending (?P<fmt>\S+ )?reverse coordinates (?P<lat>[0-9.-]+)?,(?P<lon>[0-9.-]+)?')
+@when(u'sending (?P<fmt>\S+ )?reverse coordinates (?P<lat>.+)?,(?P<lon>.+)?')
def website_reverse_request(context, fmt, lat, lon):
params = {}
if lat is not None:
params['place_id'] = query
outp, status = send_api_query('details', params, fmt, context)
- context.response = DetailsResponse(outp, 'html', status)
+ if fmt is None:
+ outfmt = 'html'
+ else:
+ outfmt = fmt.strip()
+
+ context.response = DetailsResponse(outp, outfmt, status)
@when(u'sending (?P<fmt>\S+ )?lookup query for (?P<query>.*)')
def website_lookup_request(context, fmt, query):
if fmt == 'json ':
outfmt = 'json'
+ elif fmt == 'jsonv2 ':
+ outfmt = 'json'
+ elif fmt == 'geojson ':
+ outfmt = 'geojson'
+ elif fmt == 'geocodejson ':
+ outfmt = 'geocodejson'
else:
outfmt = 'xml'
context.response = SearchResponse(outp, outfmt, status)
+@when(u'sending (?P<fmt>\S+ )?status query')
+def website_status_request(context, fmt):
+ params = {}
+ outp, status = send_api_query('status', params, fmt, context)
+
+ if fmt is None:
+ outfmt = 'text'
+ else:
+ outfmt = fmt.strip()
+
+ context.response = StatusResponse(outp, outfmt, status)
@step(u'(?P<operator>less than|more than|exactly|at least|at most) (?P<number>\d+) results? (?:is|are) returned')
def validate_result_number(context, operator, number):
def check_http_return_status(context, status):
eq_(context.response.errorcode, int(status))
+@then(u'the page contents equals "(?P<text>.+)"')
+def check_page_content_equals(context, text):
+ eq_(context.response.page, text)
+
@then(u'the result is valid (?P<fmt>\w+)')
def step_impl(context, fmt):
context.execute_steps("Then a HTTP 200 is returned")
eq_(context.response.format, fmt)
+@then(u'a (?P<fmt>\w+) user error is returned')
+def check_page_error(context, fmt):
+ context.execute_steps("Then a HTTP 400 is returned")
+ eq_(context.response.format, fmt)
+
+ if fmt == 'html':
+ assert_is_not_none(re.search(r'<html( |>).+</html>', context.response.page, re.DOTALL))
+ elif fmt == 'xml':
+ assert_is_not_none(re.search(r'<error>.+</error>', context.response.page, re.DOTALL))
+ else:
+ assert_is_not_none(re.search(r'({"error":)', context.response.page, re.DOTALL))
+
@then(u'result header contains')
def check_header_attr(context):
for line in context.table:
assert_greater_equal(bbox[2], coord[2])
assert_less_equal(bbox[3], coord[3])
+@then(u'result (?P<lid>\d+ )?has centroid in (?P<coords>[\d,.-]+)')
+def step_impl(context, lid, coords):
+ if lid is None:
+ context.execute_steps("then at least 1 result is returned")
+ bboxes = zip(context.response.property_list('lat'),
+ context.response.property_list('lon'))
+ else:
+ context.execute_steps("then more than %sresults are returned" % lid)
+ res = context.response.result[int(lid)]
+ bboxes = [ (res['lat'], res['lon']) ]
+
+ coord = [ float(x) for x in coords.split(',') ]
+
+ for lat, lon in bboxes:
+ lat = float(lat)
+ lon = float(lon)
+ assert_greater_equal(lat, coord[0])
+ assert_less_equal(lat, coord[1])
+ assert_greater_equal(lon, coord[2])
+ assert_less_equal(lon, coord[3])
+
@then(u'there are(?P<neg> no)? duplicates')
def check_for_duplicates(context, neg):
context.execute_steps("then at least 1 result is returned")