def get_servers(user): """ Gets the list of servers for a given user """ if user.is_anonymous(): theuser = get_valid_user() else: theuser = user servers = [] try: workspace = Workspace.objects.get(user=theuser) servers = workspace.servers.all() except Workspace.DoesNotExist: # It is okay to not load workspaces, # the default geoserver is being defined below. pass geoservers = [{'url': ogc_server_settings.ows, 'name': 'Local Geoserver', 'version': '1.0.0', 'id':0}] for server in servers: # TODO for the moment assume version 1.0.0 geoservers.append({'url': server.url, 'name': server.name, 'id': server.id, 'version': '1.0.0'}) return geoservers
def get_servers(user): """ Gets the list of servers for a given user """ if user.is_anonymous(): theuser = get_valid_user() else: theuser = user servers = [] try: workspace = Workspace.objects.get(user=theuser) servers = workspace.servers.all() except Workspace.DoesNotExist: # It is okay to not load workspaces, # the default geoserver is being defined below. pass geoservers = [{ 'url': ogc_server_settings.ows, 'name': 'Local Geoserver', 'version': '1.0.0', 'id': 0 }] for server in servers: # TODO for the moment assume version 1.0.0 geoservers.append({ 'url': server.url, 'name': server.name, 'id': server.id, 'version': '1.0.0' }) return geoservers
def setUp(self): """Create valid superuser """ self.user = get_valid_user()
def calculate(request, save_output=save_file_to_geonode): start = datetime.datetime.now() if request.method == 'GET': # FIXME: Add a basic form here to be able to generate the POST request. return HttpResponse('This should be accessed by robots, not humans.' 'In other words using HTTP POST instead of GET.') elif request.method == 'POST': data = request.POST impact_function_name = data['impact_function'] hazard_server = data['hazard_server'] hazard_layer = data['hazard'] exposure_server = data['exposure_server'] exposure_layer = data['exposure'] requested_bbox = data['bbox'] keywords = data['keywords'] if request.user.is_anonymous(): theuser = get_valid_user() else: theuser = request.user # Create entry in database calculation = Calculation(user=theuser, run_date=start, hazard_server=hazard_server, hazard_layer=hazard_layer, exposure_server=exposure_server, exposure_layer=exposure_layer, impact_function=impact_function_name, success=False) # Wrap main computation loop in try except to catch and present # messages and stack traces in the application try: # Get metadata haz_metadata = get_metadata(hazard_server, hazard_layer) exp_metadata = get_metadata(exposure_server, exposure_layer) # Determine common resolution in case of raster layers raster_resolution = get_common_resolution(haz_metadata, exp_metadata) # Get reconciled bounding boxes haz_bbox, exp_bbox, imp_bbox = get_bounding_boxes(haz_metadata, exp_metadata, requested_bbox) # Record layers to download download_layers = [(hazard_server, hazard_layer, haz_bbox), (exposure_server, exposure_layer, exp_bbox)] # Add linked layers if any FIXME: STILL TODO! # Get selected impact function plugins = get_admissible_plugins() msg = ('Could not find "%s" in "%s"' % ( impact_function_name, plugins.keys())) assert impact_function_name in plugins, msg impact_function = plugins.get(impact_function_name) impact_function_source = inspect.getsource(impact_function) # Record information calculation object and save it calculation.impact_function_source = impact_function_source calculation.bbox = bboxlist2string(imp_bbox) calculation.save() # Start computation msg = 'Performing requested calculation' #logger.info(msg) # Download selected layer objects layers = [] for server, layer_name, bbox in download_layers: msg = ('- Downloading layer %s from %s' % (layer_name, server)) #logger.info(msg) L = download(server, layer_name, bbox, raster_resolution) layers.append(L) # Calculate result using specified impact function msg = ('- Calculating impact using %s' % impact_function_name) #logger.info(msg) impact_file = calculate_impact(layers=layers, impact_fcn=impact_function) # Upload result to internal GeoServer msg = ('- Uploading impact layer %s' % impact_file.name) # Determine layer title for upload output_kw = impact_file.get_keywords() title = impact_file.get_name() + " using " + output_kw['hazard_title'] + \ " and " + output_kw['exposure_title'] result = save_output(impact_file.filename, title=title, user=theuser, overwrite=False) except Exception, e: # FIXME: Reimplement error saving for calculation. # FIXME (Ole): Why should we reimplement? # This is dangerous. Try to raise an exception # e.g. in get_metadata_from_layer. Things will silently fail. # See issue #170 #logger.error(e) errors = e.__str__() trace = exception_format(e) calculation.errors = errors calculation.stacktrace = trace calculation.save() jsondata = json.dumps({'errors': errors, 'stacktrace': trace}) return HttpResponse(jsondata, mimetype='application/json')
def setUp(self): """Create valid superuser """ check_geonode_is_up() self.user = get_valid_user()
def calculate(request, save_output=save_file_to_geonode): start = datetime.datetime.now() if request.method == 'GET': # FIXME: Add a basic form here to be able to generate the POST request. return HttpResponse('This should be accessed by robots, not humans.' 'In other words using HTTP POST instead of GET.') elif request.method == 'POST': data = request.POST impact_function_name = data['impact_function'] hazard_server = data['hazard_server'] hazard_layer = data['hazard'] exposure_server = data['exposure_server'] exposure_layer = data['exposure'] requested_bbox = data['bbox'] keywords = data['keywords'] if request.user.is_anonymous(): theuser = get_valid_user() else: theuser = request.user # Create entry in database calculation = Calculation(user=theuser, run_date=start, hazard_server=hazard_server, hazard_layer=hazard_layer, exposure_server=exposure_server, exposure_layer=exposure_layer, impact_function=impact_function_name, success=False) # Wrap main computation loop in try except to catch and present # messages and stack traces in the application try: # Get metadata haz_metadata = get_metadata(hazard_server, hazard_layer) exp_metadata = get_metadata(exposure_server, exposure_layer) # Determine common resolution in case of raster layers raster_resolution = get_common_resolution(haz_metadata, exp_metadata) # Get reconciled bounding boxes haz_bbox, exp_bbox, imp_bbox = get_bounding_boxes( haz_metadata, exp_metadata, requested_bbox) # Record layers to download download_layers = [(hazard_server, hazard_layer, haz_bbox), (exposure_server, exposure_layer, exp_bbox)] # Add linked layers if any FIXME: STILL TODO! # Get selected impact function plugins = get_admissible_plugins() msg = ('Could not find "%s" in "%s"' % (impact_function_name, plugins.keys())) assert impact_function_name in plugins, msg impact_function = plugins.get(impact_function_name) impact_function_source = inspect.getsource(impact_function) # Record information calculation object and save it calculation.impact_function_source = impact_function_source calculation.bbox = bboxlist2string(imp_bbox) calculation.save() # Start computation msg = 'Performing requested calculation' #logger.info(msg) # Download selected layer objects layers = [] for server, layer_name, bbox in download_layers: msg = ('- Downloading layer %s from %s' % (layer_name, server)) #logger.info(msg) L = download(server, layer_name, bbox, raster_resolution) layers.append(L) # Calculate result using specified impact function msg = ('- Calculating impact using %s' % impact_function_name) #logger.info(msg) impact_file = calculate_impact(layers=layers, impact_fcn=impact_function) # Upload result to internal GeoServer msg = ('- Uploading impact layer %s' % impact_file.name) # Determine layer title for upload output_kw = impact_file.get_keywords() title = impact_file.get_name() + " using " + output_kw['hazard_title'] + \ " and " + output_kw['exposure_title'] result = save_output(impact_file.filename, title=title, user=theuser, overwrite=False) except Exception, e: # FIXME: Reimplement error saving for calculation. # FIXME (Ole): Why should we reimplement? # This is dangerous. Try to raise an exception # e.g. in get_metadata_from_layer. Things will silently fail. # See issue #170 #logger.error(e) errors = e.__str__() trace = exception_format(e) calculation.errors = errors calculation.stacktrace = trace calculation.save() jsondata = json.dumps({'errors': errors, 'stacktrace': trace}) return HttpResponse(jsondata, mimetype='application/json')