def bluetooth_server(inputs, out_q, nskip):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
data_types = [
'pressure', 'altitude', 'vspeed', 'temperature', 'battery'
]
data_converters = {'vspeed': 100}
unavailable_data = {
'pressure': '999999',
'altitude': '99999',
'vspeed': '9999',
'temperature': '99',
'battery': '999'
}
server_socket = bluetooth.BluetoothSocket(bluetooth.RFCOMM)
server_socket.bind(('', bluetooth.PORT_ANY))
server_socket.listen(1)
while True:
logger.log(__name__ + ' started')
print('waiting bluetooth connection...')
client_socket, client_address = server_socket.accept()
print('connected')
for i in inputs:
while not inputs[i].empty():
inputs[i].get_nowait()
logger.log(__name__ + ' entering main loop')
while True:
try:
message = 'LK8EX1'
for t in data_types:
message += ','
if t in inputs:
value = inputs[t].get().data
value = value * data_converters.get(t, 1)
message += '{0:.2f}'.format(value)
else:
message += unavailable_data[t]
message = '$' + message + ',*' + checksum(message)
client_socket.sendall(message)
for n in range(nskip):
for i in inputs:
inputs[i].get()
except bluetooth.BluetoothError:
break
except:
logger.log(format_current_exception(__name__))
def HD44780_writer(inputs, out_q, nskip, debug):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
display = HD44780()
logger.log(__name__ + ' entering main loop')
while True:
for i in inputs:
in_msg = i['queue'].get()
if debug:
s = '{0} {1}'.format(in_msg.tag, in_msg.data)
else:
s = '{0}: {1:7.1f} {2}'.format(i['label'], in_msg.data,
i['unit'])
display.print(s, i['line'], AlignMode.LEFT)
for n in range(nskip):
for i in inputs:
i['queue'].get()
except:
logger.log(format_current_exception(__name__))
def derivative_calculator(in_q, out_q, out_topic, nskip):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
result = 0.0
in_msg = in_q.get()
last_value, last_t = in_msg.data, time()
logger.log(__name__ + ' entering main loop')
while True:
in_msg = in_q.get()
new_value, new_t = in_msg.data, time()
result = (new_value - last_value) / (new_t - last_t)
last_value, last_t = new_value, new_t
out_msg = Message(out_topic, round(result, 2))
out_q.put(out_msg)
for n in range(nskip):
in_q.get()
out_q.put(out_msg)
except:
logger.log(format_current_exception(__name__))
def linreg_calculator(in_q, out_q, out_topic, buffer_size):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
X = np.zeros(shape=(buffer_size, 1), dtype=np.double)
y = np.zeros(shape=(buffer_size, 1), dtype=np.double)
linregr = LinearRegression()
for i in range(buffer_size):
in_msg = in_q.get()
X[i, 0] = in_msg.timestamp
y[i, 0] = in_msg.data
logger.log(__name__ + ' entering main loop')
while True:
X = np.roll(X, -1)
y = np.roll(y, -1)
in_msg = in_q.get()
X[buffer_size - 1, 0] = in_msg.timestamp
y[buffer_size - 1, 0] = in_msg.data
linregr.fit(X, y)
out_msg = Message(out_topic, round(linregr.coef_[0, 0], 2))
out_q.put(out_msg)
except:
logger.log(format_current_exception(__name__))
def wrap_up(args):
cloudFS = GCStorage.get_CloudFS(PROJECT_ID, GC_BUCKET, CREDENTIAL_PATH)
us_timezone = timezone('US/Pacific')
date = datetime.datetime.now(us_timezone).strftime("%Y-%m-%d")
save_dir = Path(EXP_STORAGE) / date
args.exp_name = getpass.getuser() + '_' + socket.gethostname() + \
'_KGAT_' + args.exp_name + '_' + args.dataset
exp_num = get_experiment_number(save_dir, args.exp_name)
args.exp_name = args.exp_name + '_' + str(exp_num)
save_dir = save_dir / args.exp_name
log_file = save_dir / 'run_log.txt'
arg_dict = namespace_to_dict(args)
arg_dict_text = pp.pformat(arg_dict, indent=4)
arg_text = ' '.join(sys.argv)
args.logger = Logger(log_file, save_dir)
args.logger.log_text(
{
'setup:command_line': arg_text,
'setup:parsed_arguments': arg_dict_text
}, 0, False)
return args
def _setup_logger(self, root_dir, model_name):
log_dir = os.path.join(root_dir, model_name)
logger = Logger(log_dir, exp_name=model_name)
save_args(self.args, filename=log_dir + '/args.yaml')
return logger
def console_writer(inputs, out_q):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
logger.log(__name__ + ' entering main loop')
while True:
for q in inputs:
print(q.get())
except:
logger.log(format_current_exception(__name__))
def file_reader(out_q, out_topic, filename, sep, field, interval):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
with open(filename, 'r') as f:
logger.log(__name__ + ' entering main loop')
while True:
for line in f:
tokens = line.split(sep)
out_msg = Message(out_topic, float(tokens[field]))
out_q.put(out_msg)
sleep(interval)
except:
logger.log(format_current_exception(__name__))
def MPL3115A2_reader(initial_altitude, out_q, out_topic, interval):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
sensor = MPL3115A2()
sensor.set_altitude(initial_altitude)
logger.log(__name__ + ' entering main loop')
while True:
altitude = sensor.read_altitude()
msg = Message(out_topic, altitude)
out_q.put(msg)
sleep(interval)
except:
logger.log(format_current_exception(__name__))
def data_log_writer(inputs, out_q):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
for i in inputs:
with open(i['file'], 'w'):
pass
logger.log(__name__ + ' entering main loop')
while True:
for i in inputs:
in_msg = i['queue'].get()
with open(i['file'], 'a') as f:
f.write('{0},{1},{2}\n'.format(in_msg.timestamp,
in_msg.data, in_msg.tag))
except:
logger.log(format_current_exception(__name__))
def pubsub_manager(in_q, topics, out_q):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
indexes = {}
for t in topics:
indexes[t] = 0
logger.log(__name__ + ' entering main loop')
while True:
in_msg = in_q.get()
t, data, timestamp = in_msg.topic, in_msg.data, in_msg.timestamp
if t in topics:
tag = '{0}.{1}'.format(topics[t].tag, indexes[t])
out_msg = Message(t, data, tag, timestamp)
indexes[t] += 1
for q in topics[t].subscriptions:
q.put(out_msg)
except:
logger.log(format_current_exception(__name__))
def network_writer(address, inputs, out_q):
logger = Logger(out_q)
try:
logger.log(__name__ + ' started')
with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as s:
s.connect(address)
logger.log(__name__ + ' entering main loop')
while True:
for label, queue in inputs:
in_msg = queue.get()
out_msg = {
'label': label,
'value': in_msg.data,
'tag': in_msg.tag
}
json_msg = json.dumps(out_msg)
s.send(json_msg.encode())
ack = s.recv(SOCKET_BUFFER_SIZE)
except:
logger.log(format_current_exception(__name__))
p.terminate()
p.join()
print('Exiting')
sys.exit(0)
if __name__ == '__main__':
try:
mp.set_start_method('spawn')
signal.signal(signal.SIGINT, signal.SIG_IGN)
pubsub_queue = mp.Queue()
topics = {}
logger = Logger(pubsub_queue)
logger.log("---> RASPBERRY_FLY STARTING...")
logs_queue = pubsub_queue
logs_topics = LOGS_TOPIC
rwalt_topic = Topic(tag='RA')
fltalt_topic = Topic(tag='FA')
rwvs_topic = Topic(tag='RV')
fltvs_topic = Topic(tag='FV')
logs_topic = Topic(tag='LOGS')
if SIMULATION:
rwalt_reader = mp.Process(target=file_reader,
args=(pubsub_queue, RWALT_TOPIC,
RWALT_SIMULATION_FILE,
class BasePage:
def __init__(self, driver):
self.driver = driver
logs = Logger()
def check_element_is_on_page(self, locator):
self.logs.info(self.logs.locator_check_message(locator))
try:
WebDriverWait(self.driver, tc.wait_time).until(
ec.presence_of_element_located(locator))
self.logs.info(self.logs.locator_found_message(locator))
return True
except (NoSuchElementException, TimeoutException):
self.logs.error(self.logs.locator_not_found(locator))
raise
def find_and_click_element(self, locator):
self.logs.info(self.logs.locator_check_message(locator))
try:
element = WebDriverWait(self.driver, tc.wait_time).until(
ec.element_to_be_clickable(locator))
self.logs.info(self.logs.clicking_locator(locator))
element.click()
return True
except (NoSuchElementException, TimeoutException,
ElementNotInteractableException) as e:
self.logs.error(self.logs.locator_not_found(locator))
self.logs.error(self.logs.error(e))
raise
def scroll_to_element(self, locator):
try:
element = WebDriverWait(self.driver, tc.wait_time).until(
ec.presence_of_element_located(locator))
self.driver.execute_script("arguments[0].scrollIntoView();",
element)
return True
except (NoSuchElementException, TimeoutException):
self.logs.error(self.logs.locator_not_found(locator))
raise
def hover_element(self, locator):
try:
element = WebDriverWait(self.driver, tc.wait_time).until(
ec.presence_of_element_located(locator))
hover = ActionChains(self.driver).move_to_element(element)
hover.perform()
return True
except (NoSuchElementException, TimeoutException):
self.logs.error(self.logs.locator_not_found(locator))
raise
def set_text(self, locator, text):
try:
element = WebDriverWait(self.driver, tc.wait_time).until(
ec.presence_of_element_located(locator))
self.logs.info(self.logs.sending_text_to_element(text, locator))
element.send_keys(text)
return True
except (NoSuchElementException, TimeoutException):
self.logs.error(self.logs.locator_not_found(locator))
raise
def get_text(self, locator):
self.logs.info(self.logs.getting_text_from_element(locator))
try:
element = WebDriverWait(self.driver, tc.wait_time).until(
ec.presence_of_element_located(locator))
self.logs.info(self.logs.text_of_locator(locator, element))
return element.text
except (NoSuchElementException, TimeoutException):
self.logs.error(self.logs.locator_not_found(locator))
raise
class Main(metaclass=Singleton):
logger = Logger()
def __init__(self):
# Load Configuration
self.utility_config = utility.utility_config
self.controller_config = controller.controller_config
self.sensor_config = sensor.sensor_config
self.pilot_config = pilot.pilot_config
# Initialize objects
"""
We can initialize objects from each active module based on configuration files
"""
# Initialize non parameterized objects
"""
First Initialize non parameterized objects, and add parameterized objects into dictionary
for later Initialization
"""
self.non_tp_objects = {
} # Dictionary of non threaded non parameterized objects
self.non_p_objects = {
} # Dictionary of threaded non parameterized objects
self.parameterized_objects = {
} # Dictionary of all parameterized objects
self.sensor_objects = {}
self.car = Car()
self.non_p_objects['car'] = self.car
self.non_tp_objects['logger'] = Main.logger
# Initialize utility module objects
self.initialize_utility()
# Initialize controller module objects
self.initialize_controller()
# Initialize sensor module objects
self.initialize_sensor()
# Initialize pilot module objects
self.initialize_pilot()
# Initialize parameterized objects
"""
parameterized_objects structure:
Type Dictionary => key : value
Key is the name of objects' class to be initialized.
Value is array of 3 elements:
Value[0]: un-initialized object
Value[1]: List of the name of parameters
Value[2]: is threaded?
"""
for key in list(self.parameterized_objects):
# [key] will return array, [0] will return the un-initialized object
# After it return the un-initialized object it will initialize it using the parameters from get_parameters
if key not in self.parameterized_objects:
continue
obj = self.parameterized_objects[key][0](self.get_parameters(
self.parameterized_objects[key]))
if self.parameterized_objects[key][2]:
self.non_p_objects[key] = obj
else:
self.non_tp_objects[key] = obj
del self.parameterized_objects[key]
# Separate sensor objects
for k in list(self.non_p_objects):
if k in self.sensor_config.modules:
self.sensor_objects[k] = self.non_p_objects[k]
del self.non_p_objects[k]
# Initialize car object
self.car.initialize_objects(self.non_tp_objects, self.non_p_objects,
self.sensor_objects)
def initialize_utility(self):
for name, obj in inspect.getmembers(sys.modules['utility']):
if inspect.isclass(obj) and name in self.utility_config.modules and \
self.utility_config.modules[name].is_active:
if self.utility_config.modules[name].parameterized:
# append to parameterized objects dictionary for later Initialization
self.parameterized_objects[name] = [
obj, self.utility_config.modules[name].parameters,
self.utility_config.modules[name].threaded
]
else:
if self.utility_config.modules[name].threaded:
self.non_p_objects[name] = obj(
) # Initialize object and append to threaded non parameterized
else:
# Initialize object and append to non threaded non parameterized
self.non_tp_objects[name] = obj()
elif name in self.utility_config.modules and inspect.ismodule(obj) \
and self.utility_config.modules[name].is_active:
print(name)
obj = getattr(obj,
self.utility_config.modules[name].class_name)
if self.utility_config.modules[name].parameterized:
# append to parameterized objects dictionary for later Initialization
self.parameterized_objects[name] = [
obj, self.utility_config.modules[name].parameters,
self.utility_config.modules[name].threaded
]
else:
if self.utility_config.modules[name].threaded:
self.non_p_objects[name] = obj(
) # Initialize object and append to threaded non parameterized
else:
# Initialize object and append to non threaded non parameterized
self.non_tp_objects[name] = obj()
def initialize_controller(self):
for name, obj in inspect.getmembers(sys.modules['car.controller']):
if inspect.isclass(obj) and name in self.controller_config.modules \
and self.controller_config.modules[name].is_active:
if self.controller_config.modules[name].parameterized:
# append to parameterized objects dictionary for later Initialization
self.parameterized_objects[name] = [
obj, self.controller_config.modules[name].parameters,
self.controller_config.modules[name].threaded
]
else:
if self.controller_config.modules[name].threaded:
# Initialize object and append to threaded non parameterized
self.non_p_objects[name] = obj()
else:
# Initialize object and append to non threaded non parameterized
self.non_tp_objects[name] = obj()
elif name in self.controller_config.modules and inspect.ismodule(obj) \
and self.controller_config.modules[name].is_active:
obj = getattr(obj,
self.controller_config.modules[name].class_name)
if self.controller_config.modules[name].parameterized:
# append to parameterized objects dictionary for later Initialization
self.parameterized_objects[name] = [
obj, self.controller_config.modules[name].parameters,
self.controller_config.modules[name].threaded
]
else:
if self.controller_config.modules[name].threaded:
# Initialize object and append to threaded non parameterized
self.non_p_objects[name] = obj()
else:
self.non_tp_objects[name] = obj()
def initialize_sensor(self):
for name, obj in inspect.getmembers(sys.modules['car.sensor']):
if inspect.isclass(obj) and name in self.sensor_config.modules \
and self.sensor_config.modules[name].is_active:
if self.sensor_config.modules[name].parameterized:
# append to parameterized objects list for later Initialization
self.parameterized_objects[name] = [
obj, self.sensor_config.modules[name].parameters,
self.sensor_config.modules[name].threaded
]
else:
if self.sensor_config.modules[name].threaded:
self.non_p_objects[name] = obj()
else:
self.non_tp_objects[name] = obj(
) # Initialize object and append
elif name in self.sensor_config.modules and inspect.ismodule(obj) \
and self.sensor_config.modules[name].is_active:
obj = getattr(obj, self.sensor_config.modules[name].class_name)
if self.sensor_config.modules[name].parameterized:
# append to parameterized objects dictionary for later Initialization
self.parameterized_objects[name] = [
obj, self.sensor_config.modules[name].parameters,
self.sensor_config.modules[name].threaded
]
else:
if self.sensor_config.modules[name].threaded:
# Initialize object and append to threaded non parameterized
self.non_p_objects[name] = obj()
else:
self.non_tp_objects[name] = obj() #
def initialize_pilot(self):
for name, obj in inspect.getmembers(sys.modules['pilot.agent']):
if inspect.isclass(obj) and name in self.pilot_config.modules \
and self.pilot_config.modules[name].is_active:
if self.pilot_config.modules[name].parameterized:
# append to parameterized objects list for later Initialization
self.parameterized_objects[name] = [
obj, self.pilot_config.modules[name].parameters,
self.pilot_config.modules[name].threaded
]
else:
if self.pilot_config.modules[name].threaded:
# Initialize object and append to threaded non parameterized
self.non_p_objects[name] = obj()
else:
# Initialize object and append to non threaded non parameterized
self.non_tp_objects[name] = obj()
elif name in self.pilot_config.modules and inspect.ismodule(obj) \
and self.pilot_config.modules[name].is_active:
obj = getattr(obj, self.pilot_config.modules[name].class_name)
if self.pilot_config.modules[name].parameterized:
# append to parameterized objects dictionary for later Initialization
self.parameterized_objects[name] = [
obj, self.pilot_config.modules[name].parameters,
self.pilot_config.modules[name].threaded
]
else:
if self.pilot_config.modules[name].threaded:
# Initialize object and append to threaded non parameterized
self.non_p_objects[name] = obj()
else:
self.non_tp_objects[name] = obj()
def get_parameters(self, parameterized_object):
p_param = {} # dictionary of parameters to be passed to the object
for param in parameterized_object[1]:
if param in self.non_tp_objects:
p_param[param] = self.non_tp_objects[param]
elif param in self.non_p_objects:
p_param[param] = self.non_p_objects[param]
elif param in self.parameterized_objects:
# Remove it from parameterized_objects dictionary and return it
p_object = self.parameterized_objects.pop(param)
p_object[0] = p_object[0](self.get_parameters(p_object))
p_param[param] = p_object[0]
if p_object[
2]: # if threaded add to threaded non parameterized dictionary
self.non_p_objects[param] = p_object[0]
else:
self.non_tp_objects[param] = p_object[0]
return p_param
"""""" """""" """""" """""" """""" """""" """""" """""" """""" """""" """""" """""" """
Main()
""" """""" """""" """""" """""" """""" """""" """""" """""" """""" """""" """""" """"""
if __name__ == '__main__':
update_time = 0
downgrade_time = 0
Network_Error = 0
Run_status = "Running"
update = "Update success from %s to version %s on internet" % (old_version,
new_version)
downgrade = "Downgrade success from %s to version %s on local" % (
new_version, old_version)
shot_path = make_shot_dir()
start_time = time.strftime('%Y-%m-%d %H-%M-%S', time.localtime())
log_conf = Logger.init_logger('project.log')
start = time.time()
i = 1
for i in range(1, int(cycle) + 1):
logging.log(
logging.INFO,
"This is %i times----------------------------------------" % i)
if check_connect(IP + "/index.fcgi"):
#when version file have been download from server(on updating),but the net disconnect
if update_full() == False:
logging.log(
logging.INFO,
"Maybe Network trouble, so wait 100 second, then open setting page again"
)
time.sleep(
def _setup_logger(self, log_dir, model_name):
return Logger(log_dir, model_name)
batch_size=1,
shuffle=False,
num_workers=args.threads)
# Create the model
network = MultiTasNet(args).to(device)
# Check the model
network.compute_stats(train_loader)
optimizer = Ranger(filter(lambda p: p.requires_grad, network.parameters()),
weight_decay=args.weight_decay)
decay = SGDRLearningRate(optimizer,
args.learning_rate,
t_0=args.sgdr_period,
mul=0.85)
logger = Logger()
# Optionally load from a checkpoint
if args.checkpoint is not None:
state = torch.load(f"{args.directory}/{args.checkpoint}")
optimizer.load_state_dict(state['optimizer'])
network.load_state_dict(state['state_dict'])
initial_epoch = state['epoch'] + 1
steps = state['steps']
else:
initial_epoch, steps = 0, 0
# Optionally distribute the model across more GPUs
raw_network = network
if torch.cuda.device_count() > 1:
print("Let's use", torch.cuda.device_count(), "GPUs!")
optParser.add_option("--enable-save",
action="store_true",
dest="save",
help="enable store output files."
" default won't saving anything")
optParser.add_option("--force-update",
action="store_true",
dest="force_update",
help="force to renew the source data.")
optParser.add_option("--log",
action="store_true",
dest="log",
help="enable logger to file."
" default show log at console only")
optParser.add_option("--stemmer",
default=None,
dest="stemmer",
help="customize stemmer type, (porter, snowball)")
(options, args) = optParser.parse_args()
Settings = init_config()
level = max(Settings.LogLevel, logging.NOTSET)
logger = Logger('keywall.greper', level=level, enable=options.log)
try:
init_stemmer(options, *args, logger=logger)
client = get_client(options, *args, logger=logger)
client.run()
except KeyboardInterrupt:
logger.error("keyboard interrupt main tread shutdown")
'weights - train both with "m40". Experiments on LINEMOD ("lm") and 7-Scenes (7scenes) use no pretraining.'
)
args = parser.parse_args()
# PATHS
dataset = args.dataset
mode = args.mode
code_path = os.path.dirname(os.path.abspath(__file__)).replace(
"/registration", "")
if not os.path.exists(os.path.join(code_path, "logs")):
os.mkdir(os.path.join(code_path, "logs"))
if not os.path.exists(os.path.join(code_path, "weights")):
os.mkdir(os.path.join(code_path, "weights"))
model_path = os.path.join(code_path, f"weights/{dataset}_{mode}")
logger = Logger(log_dir=os.path.join(code_path, f"logs/{dataset}/"),
log_name=f"{mode}",
reset_num_timesteps=True)
# TRAINING
agent = Agent().to(DEVICE)
if args.mode == "pretrain" and dataset in ["m40", "7scenes"]:
print(f"Training: dataset '{dataset}' - mode '{args.mode}'")
train(agent,
logger,
dataset,
noise_type="clean",
epochs=50,
lr=1e-3,
lr_step=10,
alpha=0,