X-Git-Url: https://git.openstreetmap.org./nominatim.git/blobdiff_plain/f29c7bf910ea36fdc2cc70ba63c6dcece79c7b6c..e5b74245922339f0bf9c0c36a67a261a13af3fa1:/test/bdd/steps/queries.py diff --git a/test/bdd/steps/queries.py b/test/bdd/steps/queries.py index caefb661..4d59b923 100644 --- a/test/bdd/steps/queries.py +++ b/test/bdd/steps/queries.py @@ -110,18 +110,29 @@ class SearchResponse(GenericResponse): 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('') - 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) @@ -185,6 +196,15 @@ class ReverseResponse(GenericResponse): 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) @@ -250,6 +270,27 @@ class StatusResponse(GenericResponse): 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.*)"(?P with dups)?') def query_cmd(context, query, dups): """ Query directly via PHP script. @@ -414,6 +455,8 @@ def website_lookup_request(context, fmt, query): if fmt == 'json ': outfmt = 'json' + elif fmt == 'geojson ': + outfmt = 'geojson' else: outfmt = 'xml' @@ -451,6 +494,18 @@ def step_impl(context, fmt): context.execute_steps("Then a HTTP 200 is returned") eq_(context.response.format, fmt) +@then(u'a (?P\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').+', context.response.page, re.DOTALL)) + elif fmt == 'xml': + assert_is_not_none(re.search(r'.+', 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: @@ -554,6 +609,27 @@ def step_impl(context, lid, coords): assert_greater_equal(bbox[2], coord[2]) assert_less_equal(bbox[3], coord[3]) +@then(u'result (?P\d+ )?has centroid in (?P[\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 no)? duplicates') def check_for_duplicates(context, neg): context.execute_steps("then at least 1 result is returned")