class FSTimeSync:
def __init__(self):
self.si = SingleInstance(32092)
self.settings = Settings('settings.json', DEFAULT_SETTINGS)
self.fs_sync = FSSync()
self.gui = GUI(self)
self.mw_emit = self.gui.main_window.act.emit # TODO: Switch from mw_emit to mw_act
self.mw_act = self.gui.main_window_act
self.time_offsets = None
self.sync_run = False
self.sync_thread = None
self.time_run = False
self.time_thread = None
self.live_sync_enabled = False
self.now_source = "S"
self.ntp_client = ntplib.NTPClient()
self.ntp_delta = None
self.offset = BasicTimeDelta()
def start(self):
try:
self.sync_thread = threading.Thread(None,
self.sync_thread_runner,
"Sync Thread",
daemon=True)
self.sync_thread.start()
self.time_thread = threading.Thread(None,
self.time_thread_loop,
"Time Thread",
daemon=True)
self.time_thread.start()
self.gui.start() # locking
finally:
self.stop()
def stop(self):
self.sync_run = False
self.time_run = False
self.fs_sync.close_pyuipc()
sys.exit(0)
def get_now(self):
if self.now_source == "NTP":
try:
if not self.ntp_delta:
response = self.ntp_client.request('pool.ntp.org')
print(time.ctime(response.tx_time))
self.ntp_delta = datetime.now(
timezone.utc) - datetime.fromtimestamp(
response.tx_time, timezone.utc)
print(self.ntp_delta)
self.gui.remove_message(1, 0)
return datetime.utcnow() - self.ntp_delta
except (ntplib.NTPException, socket.gaierror) as exc:
self.gui.add_message(1, 0, "Can't reach NTP server.")
print(exc)
return datetime.utcnow()
return datetime.utcnow()
def switch_now_source(self):
if self.now_source == "NTP": # Will switch to S
self.now_source = "S"
self.mw_emit([self.gui.main_window.ui.utc_label.setText, "UTC.S"])
self.mw_emit([
self.gui.main_window.ui.utc_label.setToolTip,
"UTC.S : Using System Time"
])
elif self.now_source == "S": # Will switch to NTP
self.ntp_delta = None # Refresh NTP
self.now_source = "NTP"
self.mw_emit(
[self.gui.main_window.ui.utc_label.setText, "UTC.NTP"])
self.mw_emit([
self.gui.main_window.ui.utc_label.setToolTip,
"UTC.NTP : Using Network Time Protocol, Online Time"
])
self.gui.remove_message(0, 1) # Remove will sync message
def time_thread_loop(self):
self.time_run = True
while self.time_run:
now = self.get_now()
self.mw_emit([
self.gui.main_window.ui.real_time_hour.setText,
"{:02d}".format(now.hour)
])
# self.mw_emit([self.gui.main_window.ui.real_time_seperator.setText, str(two_dots))
self.mw_emit([
self.gui.main_window.ui.real_time_minute.setText,
"{:02d}".format(now.minute)
])
self.mw_emit([
self.gui.main_window.ui.real_time_second.setText,
"{:02d}".format(now.second)
])
self.mw_emit([
self.gui.main_window.ui.real_date.setText,
"{:02d}.{:02d}.{}".format(now.day, now.month, now.year)
])
# print(now)
if bool(self.offset):
offsetted_dt = self.offset + now
self.gui.main_window_act(
self.gui.main_window.ui.left_value.setText,
f"{offsetted_dt.strftime('%H:%M | %d.%m.%Y')}")
else:
self.gui.main_window_act(
self.gui.main_window.ui.left_value.setText, "")
self.gui.main_window_act(
self.gui.main_window.ui.left_status.setText, str(self.offset))
time.sleep(0.5)
def toggle_live_sync(self):
print("toggle live sync")
if not self.live_sync_enabled:
self.enable_live_sync()
else:
self.disable_live_sync()
def disable_live_sync(self):
self.live_sync_enabled = False
self.gui.remove_message(0, 1) # Remove will sync message
self.mw_emit([
self.gui.main_window.ui.live_button.setIcon,
self.gui.icons["sync_disabled"]
])
self.mw_emit([
self.gui.main_window.ui.live_button.setToolTip,
"Live Sync: Disabled"
])
def enable_live_sync(self):
self.live_sync_enabled = True
self.mw_emit([
self.gui.main_window.ui.live_button.setIcon, self.gui.icons["sync"]
])
self.mw_emit([
self.gui.main_window.ui.live_button.setToolTip,
"Live Sync: Enabled"
])
def restart_sync_thread_runner(self, restart):
self.mw_act(self.gui.main_window.ui.sim_label.setText,
'Waiting Simulator...')
self.mw_act(self.gui.main_window.ui.sim_time_hour.setText, "")
self.mw_act(self.gui.main_window.ui.sim_time_minute.setText, "")
self.mw_act(self.gui.main_window.ui.sim_time_second.setText, "")
self.mw_act(self.gui.main_window.ui.sim_time_second.setToolTip, "")
self.mw_act(self.gui.main_window.ui.sim_time_seperator.setText, "")
self.mw_act(self.gui.main_window.ui.sim_date.setText, "")
self.fs_sync.reset()
time.sleep(10) # Sleep, make sure FSUIPC exits completely.
self.sync_thread_runner(restart=restart + 1)
def sync_thread_runner(self, restart=0):
# Est. FSUIPC connection.
# Try every 10 seconds.
self.sync_run = True
while self.sync_run:
if not self.fs_sync.connect_pyuipc():
# print(self.fs_sync.connect_pyuipc())
# print("Cannot connect FSUIPC.")
time.sleep(10)
continue
self.mw_act(self.gui.main_window.ui.sim_label.setText,
self.fs_sync.opened_sim)
break
offsets = {
"TIME_SECOND": [0x023A, "b"],
"TIME_HOUR": [0x023B, "b"],
"TIME_MINUTE": [0x023C, "b"],
"DATE_DAY": [0x023D, "b"],
"DATE_MONTH": [0x0242, "b"],
"DATE_YEAR": [0x0240, "H"], # Fixed from local
}
if self.fs_sync.pyuipc_open == SIMULATOR_XPLANE_ID:
offsets["DAY_OF_YEAR"] = [0x023E, "h"]
self.time_offsets = self.fs_sync.create_offset_set(offsets)
try:
self.sync_routine_loop()
except (pyuipc.FSUIPCException, SystemError) as exc:
if exc.errorCode == 12 or exc.errorCode == 13:
print(
f"Catched PYUIPC error, will restart. Code:{exc.errorCode}"
)
self.restart_sync_thread_runner(restart=restart)
def sync_routine_loop(self):
two_dots = FlipFlop(":")
while self.sync_run:
data_delta = self.sync_sim()
if not data_delta:
continue
data = data_delta[0]
delta = data_delta[1]
datetime = data_delta[2]
self.mw_emit([
self.gui.main_window.ui.sim_time_hour.setText,
"{:02d}".format(data["TIME_HOUR"])
])
self.mw_emit([
self.gui.main_window.ui.sim_time_seperator.setText,
str(two_dots)
])
self.mw_emit([
self.gui.main_window.ui.sim_time_minute.setText,
"{:02d}".format(data["TIME_MINUTE"])
])
self.mw_emit([
self.gui.main_window.ui.sim_time_second.setText,
"{:02d}".format(data["TIME_SECOND"])
])
self.mw_emit([
self.gui.main_window.ui.sim_date.setText,
datetime.strftime('%d.%m.%Y')
])
self.mw_emit([
self.gui.main_window.ui.sim_time_second.setToolTip,
"ε: ±{}s Δ: {}s".format(30, int(delta))
])
# print(data)
time.sleep(1)
def sync_sim(self, force=False):
"""
Returns initial data if no sync.
Returns new data if there has been sync.
"""
if not self.fs_sync.pyuipc_open:
return
try:
data = self.time_offsets.read()
if self.fs_sync.pyuipc_open == SIMULATOR_XPLANE_ID:
data["DATE_YEAR"] += SIMULATOR_XPLANE_YEAR_DELTA
time_from_data = datetime(data["DATE_YEAR"],
1,
1,
data["TIME_HOUR"],
data["TIME_MINUTE"],
second=data["TIME_SECOND"])
time_from_data = time_from_data + timedelta(
days=data["DAY_OF_YEAR"])
else:
time_from_data = datetime(data["DATE_YEAR"],
data["DATE_MONTH"],
data["DATE_DAY"],
data["TIME_HOUR"],
data["TIME_MINUTE"],
second=data["TIME_SECOND"])
now = self.offset + self.get_now()
delta = (now - time_from_data).total_seconds()
except ValueError as exc:
# ValueError generally thrown when FSUIPC is reporting year out of range.
# Happens on scenerio screen.
print(exc)
time.sleep(0.5)
return False
if self.live_sync_enabled or force:
if not self.fs_sync.pyuipc_open:
return
if abs(delta) > 30 or force:
if force:
if data["TIME_SECOND"] - now.second > 20:
self.time_offsets.write("TIME_SECOND", 0)
else:
if now.second > 3:
self.gui.add_message(
0, 1, "Will Sync At: {:02d}:{:02d}z".format(
now.hour, now.minute + 1))
return [data, delta, time_from_data]
self.time_offsets.write("TIME_SECOND", 0)
print("DOING A ZULU TIME SYNC.")
if self.fs_sync.pyuipc_open == SIMULATOR_XPLANE_ID:
self.time_offsets.write(
"DATE_YEAR", now.year - SIMULATOR_XPLANE_YEAR_DELTA)
self.time_offsets.write("DAY_OF_YEAR",
int(now.strftime('%j')) - 1)
self.time_offsets.write("TIME_HOUR", now.hour)
self.time_offsets.write("TIME_MINUTE", now.minute)
else:
self.time_offsets.write("DATE_YEAR", now.year)
self.time_offsets.write("DATE_MONTH", now.month)
self.time_offsets.write("DATE_DAY", now.day)
self.time_offsets.write("TIME_HOUR", now.hour)
self.time_offsets.write("TIME_MINUTE", now.minute)
self.gui.remove_message(0, 1) # Remove will sync message
self.gui.add_message(
0, 2, "Last Sync: {:02d}:{:02d}:{:02d}z".format(
now.hour, now.minute, now.second))
return [self.time_offsets.read(), delta,
time_from_data] # Return fresh data
return [data, delta, time_from_data]
import sys
from tkinter import Tk
from dataset_repository import DatasetRepository
from misc.db_connection import get_database_connection
from stat_analyzer import StatAnalyzer
from analyses_config import get_analyses_config
from gui.gui import GUI
arguments = sys.argv
stat_analyzer = StatAnalyzer(dataset=None, analyses=get_analyses_config())
dataset_repository = DatasetRepository(get_database_connection())
window = Tk()
window.title("Stat analyzer")
ui = GUI(window, stat_analyzer, dataset_repository)
# If running with argument "dev". Load example data
if len(arguments) > 1 and arguments[1] == 'dev':
ui.load_exampledata()
ui.start()
from tkinter import Tk
from gui.gui import GUI
window = Tk()
window.title('TodoApp')
gui = GUI(window)
gui.start()
window.mainloop()
