def main(): common.configure_logging() parser = argparse.ArgumentParser() parser.add_argument('num_sources', type=int, nargs='?', default=DEFAULT_NUM_SOURCES) parser.add_argument('server_host', nargs='?', default=common.DEFAULT_SERVER_HOST) args = parser.parse_args() capture = cv2.VideoCapture(0) def gen_producer(n): text = 'client {}'.format(n) async def producer(): _, frame = capture.read() cv2.putText(frame, text, ORG, FONT_FACE, FONT_SCALE, COLOR) _, jpeg_frame=cv2.imencode('.jpg', frame) input_frame = gabriel_pb2.InputFrame() input_frame.payload_type = gabriel_pb2.PayloadType.IMAGE input_frame.payloads.append(jpeg_frame.tobytes()) return input_frame return producer producer_wrappers = [ ProducerWrapper(producer=gen_producer(i), source_name=str(i)) for i in range(args.num_sources) ] client = WebsocketClient( args.server_host, common.WEBSOCKET_PORT, producer_wrappers, push_source.consumer) client.launch()
def main(): common.configure_logging('korred') data = common.Data() handler = Handler(data=data) NativeMessageInterface( callback=handler.handle, interactive=os.getenv('INTERACTIVE', False), ).run()
def main(): common.configure_logging() args = common.parse_source_name_server_host() engine = DisplayEngine(args.source_name) server_address = SERVER_ADDRESS_FORMAT.format(args.server_host, common.ZMQ_PORT) engine_runner.run(engine, args.source_name, server_address)
def main(): common.configure_logging() args = common.parse_source_name_server_host() source = push_source.Source(args.source_name) p = multiprocessing.Process(target=send_frames, args=(source, )) p.start() producer_wrappers = [source.get_producer_wrapper()] client = WebsocketClient(args.server_host, common.WEBSOCKET_PORT, producer_wrappers, push_source.consumer) client.launch() p.terminate()
def main(): common.configure_logging() parser = argparse.ArgumentParser() parser.add_argument( 'source_name', nargs='?', default=common.DEFAULT_SOURCE_NAME) args = parser.parse_args() def engine_factory(): return DisplayEngine() local_engine.run(engine_factory, args.source_name, input_queue_maxsize=60, port=common.WEBSOCKET_PORT, num_tokens=2)
def main(): common.configure_logging() parser = argparse.ArgumentParser() parser.add_argument('source_name', nargs='?', default=common.DEFAULT_SOURCE_NAME) parser.add_argument('server_host', nargs='?', default=DEFAULT_SERVER_HOST) args = parser.parse_args() capture = cv2.VideoCapture(0) opencv_adapter = OpencvAdapter(preprocess, produce_extras, consume_frame, capture, args.source_name) client = WebsocketClient(args.server_host, common.WEBSOCKET_PORT, opencv_adapter.get_producer_wrappers(), opencv_adapter.consumer) client.launch()
# Do useful things with it # Look in the object store c_list = client_manager.object_store.container_list() print("Name\tCount\tBytes") for c in c_list: print("%s\t%d\t%d" % (c['name'], c['count'], c['bytes'])) if len(c_list) > 0: # See what is in the first container o_list = client_manager.object_store.object_list(c_list[0]['name']) print("\nObject") for o in o_list: print("%s" % o) # Look at the compute flavors flavor_list = client_manager.compute.flavors.list() print("\nFlavors:") for f in flavor_list: print("%s" % f) if __name__ == "__main__": parser = argparse.ArgumentParser(description='ClientManager Example') opts = common.base_parser( clientmanager.build_plugin_option_parser(parser), ).parse_args() common.configure_logging(opts) sys.exit(common.main(opts, run))
return if len(df) < 100: drawstyle = {'linestyle': 'None', 'marker': 'o', 'markersize': 6} else: drawstyle = {} for c in df.columns: if isinstance(df[c][df.index[0]], complex): axes.plot(df.index, np.real(df[c]), label=name + " - Re(" + str(c) + ")", **drawstyle) axes.plot(df.index, np.imag(df[c]), label=name + " - Im(" + str(c) + ")", **drawstyle) else: axes.plot(df.index, df[c], label=name + " - " + str(c), **drawstyle) def _draw_sample_sine(self): args = np.arange(1000.) df = pd.DataFrame(np.sin(np.radians(args)), index=args, columns=['y']) self.add_object(df, 'sin(x)') def _exit(self): self.window.destroy() if __name__ == '__main__': common.configure_logging() root = tk.Tk() data_viewer(root) root.mainloop()
pointsWritten = 0 # keeps track of the points written in the last 10 minutes points_lock = threading.Lock() devices_lock = threading.Lock() transducers_dict_lock = threading.Lock() transducers_locks = dict() # Change Thread name in Python 3.6+ if sys.version_info.major >= 3 and sys.version_info.minor > 5: ex = ThreadPoolExecutor(max_workers=NUM_THREAD_WORKERS, thread_name_prefix="Consumer") else: ex = ThreadPoolExecutor(max_workers=NUM_THREAD_WORKERS) # set logging configurations common.configure_logging(conf) # create Influx client influx_client = influxdb.InfluxDBClient(conf['influxdb_host'], conf['influxdb_port'], conf['influxdb_user'], conf['influxdb_password'], INFLUX_DATABASE) # start mqtt client mqtt_client = MqttClient(host=conf['mqtt_broker'], port=conf['mqtt_broker_port'], client_id=conf['client_id'], service_id=conf['service_id'], password=conf['password'], enable_ssl=bool(conf['enable_ssl']),
def main(): global root_dir arg_parser = argparse.ArgumentParser() arg_parser.add_argument('--output-dir', '-d') arg_parser.add_argument('--test-domain', '-t', default='testobjects.cedexis.localhost') arg_parser.add_argument( '--verbose', '-v', action='count', default=0, help= 'Verbosity level; you can specify up to 3 times for increasing detail') args = arg_parser.parse_args() common.configure_logging(args.verbose) if not args.output_dir is None: root_dir = args.output_dir # `multiple` are multiples of 1024 file_sizes = [ None, { 'multiple': 2, 'prefix': 'r16', 'generator_fn': generate_test_object(create_javascript_output), 'compressors': [ { 'compressor': common.compression.identity_compressor, 'padding_start_size': int(9.86e2), 'padding_file': 'padding-200K.txt', }, { 'compressor': common.compression.gzip_compressor, 'padding_start_size': int(1.14e3), 'padding_file': 'padding-200K.txt', }, ] }, { 'multiple': 15, 'prefix': 'r16', 'generator_fn': generate_test_object(create_javascript_output), 'compressors': [ { 'compressor': common.compression.identity_compressor, 'padding_start_size': int(6.214e3), 'padding_file': 'padding-200K.txt', }, { 'compressor': common.compression.gzip_compressor, 'padding_start_size': int(9.227e3), 'padding_file': 'padding-200K.txt', }, ] }, { 'multiple': 100, 'prefix': 'r16xl', 'generator_fn': generate_test_object(create_javascript_output), 'compressors': [ #{ # 'compressor': common.compression.identity_compressor, # 'padding_start_size': int(4.178e4), # 'padding_file': 'padding-200K.txt', #}, { 'compressor': common.compression.gzip_compressor, 'padding_start_size': int(6.612e4), 'padding_file': 'padding-200K.txt', }, ] }, { 'multiple': 15, 'filename': 'r16.html', 'generator_fn': generate_test_object(create_dsa_output), 'compressors': [ #{ # 'compressor': common.compression.identity_compressor, # 'padding_start_size': int(5.5e3), # 'padding_file': 'padding-200K.txt', #}, { 'compressor': common.compression.gzip_compressor, 'padding_start_size': int(9e3), 'padding_file': 'padding-200K.txt', }, ] }, ] try: for file_size_info in file_sizes: if file_size_info is None: logger.info('Producing small test object') output_file_path = os.path.join(root_dir, 'r16.js') if os.path.exists(output_file_path): os.unlink(output_file_path) output = create_javascript_output(None) common.compression.identity_compressor.generate_compressed_file( output, root_dir, 'r16.js') else: for compressor_info in file_size_info['compressors']: file_size_info['generator_fn'](file_size_info, compressor_info, args.test_domain) except common.errors.InvalidJavaScriptError as e: logger.error('Exception: %r', e) raise
]), app='Console', new_instance=False, ) def main(): data = common.Data() with Daemon(data): # TODO: Check for configuration validity and ask user if the old configuration should be kept NativeMessagingConfiguration().write() launchctl_manager = LaunchctlManager() app = App(launchctl_manager) menu_item = rumps.MenuItem(title='Launch at Login') menu_item.state = launchctl_manager.is_loaded() app.menu = [ 'Install Firefox Extension...', menu_item, 'View Logs', ] app.run() if __name__ == "__main__": common.configure_logging('korredd') try: main() except Exception as e: logging.critical('Critical error', e) logging.info('Quit korredd')