return rslt def within_itree_regions(request): x = request.GET.get('x', None) y = request.GET.get('y', None) return (bool(x) and bool(y) and ITreeRegion.objects .filter(geometry__contains=Point(float(x), float(y))).exists()) _benefit_labels = { # Translators: 'Energy' is the name of an eco benefit 'energy': trans('Energy'), # Translators: 'Stormwater' is the name of an eco benefit 'stormwater': trans('Stormwater'), # Translators: 'Carbon Dioxide' is the name of an eco benefit 'co2': trans('Carbon Dioxide'), # Translators: 'Carbon Dioxide Stored' is the name of an eco benefit 'co2storage': trans('Carbon Dioxide Stored'), # Translators: 'Air Quality' is the name of an eco benefit 'airquality': trans('Air Quality') } def get_benefit_label(benefit_name): return _benefit_labels[benefit_name] within_itree_regions_view = json_api_call(within_itree_regions)
""" viewbox = _get_viewbox_from_request(request) address = request.REQUEST['address'] pq = PlaceQuery(query=address, viewbox=viewbox) geocode_result = geocoder.geocode(pq) candidates = geocode_result.get('candidates', None) if not candidates or len(candidates) == 0: return _no_results_response(address) else: candidates = [_omgeo_candidate_to_dict(c) for c in candidates] if _contains_bbox(request): bbox = {'xmin': request.REQUEST['xmin'], 'ymin': request.REQUEST['ymin'], 'xmax': request.REQUEST['xmax'], 'ymax': request.REQUEST['ymax']} candidates = [c for c in candidates if _in_bbox(bbox, c)] if len(candidates) == 0: return _no_results_response(address, inregion=True) return {'candidates': candidates} geocode_view = json_api_call(geocode)
"Plot %s does not have a current tree" % plot_id) def add_photo(request, instance, plot_id): treephoto, _ = add_tree_photo(request, instance, plot_id) return treephoto # Note that API requests going to private instances require # authentication "login_optional" before they can access they # instance data plots_closest_to_point_endpoint = check_signature( instance_request( json_api_call( plots_closest_to_point))) instances_closest_to_point_endpoint = check_signature( instance_request( json_api_call( instances_closest_to_point))) instance_info_endpoint = check_signature( instance_request( json_api_call( instance_info))) plots_endpoint = check_signature( instance_request( json_api_call( route(
return {'start_status': 'OK', 'job_id': job.pk} def check_export(request, instance, job_id): job = get_object_or_404(ExportJob, pk=job_id) # if a job has a user, it means the user must # be authenticated so only the job user can # retrieve the export if job.user and job.user != request.user: return {'status': 'ERROR', 'message': 'Job not initiated by user', 'url': None} else: return {'status': ExportJob.STATUS_STRINGS[job.status], 'message': ExportJob.STATUS_CHOICES[job.status], 'url': job.get_url_if_ready()} begin_export_endpoint = json_api_call( instance_request( requires_feature('exports')( begin_export))) check_export_endpoint = json_api_call( instance_request( requires_feature('exports')( check_export)))
map_view = instance_request( render_template('treemap/map.html', _get_map_view_context)) get_map_feature_detail_view = instance_request(render_map_feature_detail) get_map_feature_add_view = instance_request(render_map_feature_add) edit_plot_detail_view = login_required( instance_request( creates_instance_user( render_template('treemap/plot_detail.html', plot_detail)))) update_map_feature_detail_view = login_or_401( json_api_call( instance_request( creates_instance_user(update_map_feature_detail)))) delete_tree_view = login_or_401( json_api_call( instance_request( creates_instance_user(delete_tree)))) delete_map_feature_view = login_or_401( json_api_call( instance_request( creates_instance_user(delete_map_feature)))) get_plot_eco_view = instance_request(etag(_map_feature_hash)( render_template('treemap/partials/plot_eco.html', plot_detail)))
updated_plot, user=request.user, supports_eco=request.instance_supports_ecobenefits) except: raise PermissionDenied( '%s does not have permission to the ' 'current tree from plot %s' % (request.user.username, plot_id)) else: raise HttpResponseBadRequest( "Plot %s does not have a current tree" % plot_id) plots_closest_to_point_endpoint = login_optional( instance_request( csrf_exempt(json_api_call( plots_closest_to_point)))) instances_closest_to_point_endpoint = login_optional( instance_request( csrf_exempt(json_api_call( instances_closest_to_point)))) instance_info_endpoint = login_optional( instance_request( csrf_exempt(json_api_call( instance_info)))) login_endpoint = csrf_exempt( json_api_call(login_required(user_info))) plots_endpoint = json_api_call(
address = request.REQUEST['address'] pq = PlaceQuery(query=address, viewbox=viewbox) geocode_result = geocoder.geocode(pq) candidates = geocode_result.get('candidates', None) if not candidates or len(candidates) == 0: return _no_results_response(address) else: candidates = [_omgeo_candidate_to_dict(c) for c in candidates] if _contains_bbox(request): bbox = { 'xmin': request.REQUEST['xmin'], 'ymin': request.REQUEST['ymin'], 'xmax': request.REQUEST['xmax'], 'ymax': request.REQUEST['ymax'] } candidates = [c for c in candidates if _in_bbox(bbox, c)] if len(candidates) == 0: return _no_results_response(address, inregion=True) return {'candidates': candidates} geocode_view = json_api_call(geocode)
_combine_benefit_basis(basis, ft_basis) _combine_grouped_benefits(benefits, ft_benefit_groups) _annotate_basis_with_extra_stats(basis) return benefits, basis def within_itree_regions(request): from treemap.models import ITreeRegion x = request.GET.get('x', None) y = request.GET.get('y', None) return (bool(x) and bool(y) and ITreeRegion.objects.filter( geometry__contains=Point(float(x), float(y))).exists()) benefit_labels = { # Translators: 'Energy conserved' is the name of an eco benefit 'energy': trans('Energy conserved'), # Translators: 'Stormwater filtered' is the name of an eco benefit 'stormwater': trans('Stormwater filtered'), # Translators: 'Carbon dioxide removed' is the name of an eco benefit 'co2': trans('Carbon dioxide removed'), # Translators: 'Carbon dioxide stored' is the name of an eco benefit 'co2storage': trans('Carbon dioxide stored to date'), # Translators: 'Air quality improved' is the name of an eco benefit 'airquality': trans('Air quality improved') } within_itree_regions_view = json_api_call(within_itree_regions)