class Simulation:
"""Simulation, representing a simulation day, holds both static and dynamic
states of the current airport, and implements `tick()` functions for the
caller to simulation to the next state.
"""
def __init__(self):
params = Config.params
# Setups the logger
self.logger = logging.getLogger(__name__)
# Setups the clock
self.clock = Clock()
# Sets up the airport
airport_name = params["airport"]
self.airport = Airport.create(airport_name)
# Sets up the scenario
self.scenario = Scenario.create(
airport_name, self.airport.surface)
# Sets up the routing expert monitoring the airport surface
self.routing_expert = RoutingExpert(self.airport.surface.links,
self.airport.surface.nodes,
params["simulation"]["cache"])
# Sets up the uncertainty module
self.uncertainty = (Uncertainty(params["uncertainty"]["prob_hold"],
params["uncertainty"]["speed_bias_sigma"],
params["uncertainty"]["speed_bias_mu"])
if params["uncertainty"]["enabled"] else None)
# Loads the requested scheduler
self.scheduler = get_scheduler()
if not params["simulator"]["test_mode"]:
# Sets up the analyst
self.analyst = Analyst(self)
# Sets up the state logger
self.state_logger = StateLogger()
# Initializes the previous schedule time
self.last_schedule_time = None
# Initializes the last execution time for rescheduling to None
self.last_schedule_exec_time = None
self.__print_stats()
def tick(self):
"""Moves the states of this simulation to the next state."""
self.logger.debug("\nCurrent Time: %s", self.now)
try:
# # Reschedule happens before the tick. It will resolve conflict here
# if self.__is_time_to_reschedule():
# self.logger.info("Time to reschedule")
# start = time.time()
# self.__reschedule() # it will try to resolve conflict
# self.last_schedule_exec_time = time.time() - start # seconds
# self.last_schedule_time = self.now
# self.logger.info("Last schedule time is updated to %s",
# self.last_schedule_time)
# Add aircraft
self.airport.add_aircrafts(self.scenario, self.now,
self.clock.sim_time, self.scheduler)
start = time.time()
self.__reschedule() # it will try to resolve conflict
self.last_schedule_exec_time = time.time() - start # seconds
self.last_schedule_time = self.now
self.logger.info("Last schedule time is updated to %s",
self.last_schedule_time)
# # Inject uncertainties
# if self.uncertainty:
# self.uncertainty.inject(self)
# Tick
self.airport.tick()
state = None
aircrafts = self.airport.control_takeoff()
if not Config.params["simulator"]["test_mode"]:
state = self.state_logger.log_on_tick(self)
self.clock.tick()
# print(len(state["aircrafts"]))
# if len(state["aircrafts"]) >= 1:
# print(state["aircrafts"][0]["callsign"] + " "+state["aircrafts"][0]["state"])
# Remove aircraft close to the runway
self.airport.remove_aircrafts(self.scenario)
self.airport.remove_departure_aircrafts(aircrafts)
# Abort on conflict
conflicts, conflicts_dist = self.airport.conflicts
if conflicts:
for idx, conflict in enumerate(conflicts):
dist = conflicts_dist[idx]
print("Found %s", conflict)
print("Conflict distance: %d", dist)
print(conflict.detailed_description)
self.logger.error("Found %s", conflict)
self.logger.error("Conflict distance: %d", dist)
self.logger.error(conflict.detailed_description)
for aircraft in self.airport.aircrafts:
self.logger.error(aircraft)
print(aircraft.model)
aircraft.has_conflict = True
# for conflict in conflicts:
# self.logger.error("Found %s", conflict)
# self.logger.error("Conflict distance: ", dist)
# self.logger.error(conflict.detailed_description)
# for aircraft in self.airport.aircrafts:
# self.logger.error(aircraft)
# change color for crashing airplanes
# print(pair[0].model, pair[1].model)
# pair[0].has_conflict = True
# pair[1].has_conflict = True
# raise SimulationException("Conflict found")
# Observe
if not Config.params["simulator"]["test_mode"]:
self.analyst.observe_on_tick(self)
# return current state for streaming visualization
return state
except ClockException as error:
# Finishes
if not Config.params["simulator"]["test_mode"]:
self.analyst.save()
raise error
except SimulationException as error:
raise error
except Exception as error:
self.logger.error(traceback.format_exc())
raise error
def __is_time_to_reschedule(self):
reschedule_cycle = Config.params["simulation"]["reschedule_cycle"]
last_time = self.last_schedule_time
next_time = (get_seconds_after(last_time, reschedule_cycle)
if last_time is not None else None)
return last_time is None or next_time <= self.now
def __reschedule(self):
schedule, priority = self.scheduler.schedule(self)
self.airport.apply_schedule(schedule)
self.airport.apply_priority(priority)
if not Config.params["simulator"]["test_mode"]:
self.analyst.observe_on_reschedule(self)
@property
def now(self):
"""Return the current time of the simulation."""
return self.clock.now
def __print_stats(self):
self.scenario.print_stats()
self.airport.print_stats()
def __getstate__(self):
__dict = dict(self.__dict__)
del __dict["logger"]
__dict["uncertainty"] = None
__dict["routing_expert"] = None
return __dict
def __setstate__(self, new_dict):
self.__dict__.update(new_dict)
def set_quiet(self, logger):
"""Sets the simulation and its subclass to quiet mode where the logger
doesn't print that many stuff.
"""
self.logger = logger
self.airport.set_quiet(logger)
self.scenario.set_quiet(logger)
self.routing_expert.set_quiet(logger)
@property
def copy(self):
"""Obtains a immutable copy of this simulation."""
# NOTE: If uncertainty is not None, call inject() in tick().
return ClonedSimulation(self)
class Simulation:
"""Simulation, representing a simulation day, holds both static and dynamic
states of the current airport, and implements `tick()` functions for the
caller to simulation to the next state.
"""
def __init__(self):
params = Config.params
# Setups the logger
self.logger = logging.getLogger(__name__)
# Setups the clock
self.clock = Clock()
# Sets up the airport
airport_name = params["airport"]
self.airport = Airport.create(airport_name)
# Sets up the scenario
self.scenario = Scenario.create(airport_name, self.airport.surface)
# Sets up the routing expert monitoring the airport surface
self.routing_expert = RoutingExpert(self.airport.surface.links,
self.airport.surface.nodes,
params["simulation"]["cache"])
# Sets up the uncertainty module
self.uncertainty = (Uncertainty(params["uncertainty"]["prob_hold"])
if params["uncertainty"]["enabled"] else (None))
# Loads the requested scheduler
self.scheduler = get_scheduler()
if not params["simulator"]["test_mode"]:
# Sets up the analyst
self.analyst = Analyst(self)
# Sets up the state logger
self.state_logger = StateLogger()
# Initializes the previous schedule time
self.last_schedule_time = None
# Initializes the last execution time for rescheduling to None
self.last_schedule_exec_time = None
self.__print_stats()
def tick(self):
"""Moves the states of this simulation to the next state."""
self.logger.debug("\nCurrent Time: %s", self.now)
try:
# Reschedule happens before the tick
if self.__is_time_to_reschedule():
self.logger.info("Time to reschedule")
start = time.time()
self.__reschedule()
self.last_schedule_exec_time = time.time() - start # seconds
self.last_schedule_time = self.now
self.logger.info("Last schedule time is updated to %s",
self.last_schedule_time)
# Adds aircrafts
self.airport.add_aircrafts(self.scenario, self.now,
self.clock.sim_time)
# Injects uncertainties
if self.uncertainty:
self.uncertainty.inject(self)
# Ticks
self.airport.tick()
if not Config.params["simulator"]["test_mode"]:
self.state_logger.log_on_tick(self)
self.clock.tick()
# Removes aircrafts
self.airport.remove_aircrafts(self.scenario)
# Abort on conflict
conflicts = self.airport.conflicts
if conflicts:
for conflict in conflicts:
self.logger.error("Found %s", conflict)
raise SimulationException("Conflict found")
# Observe
if not Config.params["simulator"]["test_mode"]:
self.analyst.observe_on_tick(self)
except ClockException as error:
# Finishes
if not Config.params["simulator"]["test_mode"]:
self.analyst.save()
raise error
except SimulationException as error:
raise error
except Exception as error:
self.logger.error(traceback.format_exc())
raise error
def __is_time_to_reschedule(self):
reschedule_cycle = Config.params["simulation"]["reschedule_cycle"]
last_time = self.last_schedule_time
next_time = (get_seconds_after(last_time, reschedule_cycle)
if last_time is not None else None)
return last_time is None or next_time <= self.now
def __reschedule(self):
schedule = self.scheduler.schedule(self)
self.airport.apply_schedule(schedule)
if not Config.params["simulator"]["test_mode"]:
self.analyst.observe_on_reschedule(self)
@property
def now(self):
"""Return the current time of the simulation."""
return self.clock.now
def __print_stats(self):
self.scenario.print_stats()
self.airport.print_stats()
def __getstate__(self):
__dict = dict(self.__dict__)
del __dict["logger"]
__dict["uncertainty"] = None
__dict["routing_expert"] = None
return __dict
def __setstate__(self, new_dict):
self.__dict__.update(new_dict)
def set_quiet(self, logger):
"""Sets the simulation and its subclass to quiet mode where the logger
doesn't print that many stuff.
"""
self.logger = logger
self.airport.set_quiet(logger)
self.scenario.set_quiet(logger)
self.routing_expert.set_quiet(logger)
@property
def copy(self):
"""Obtains a immutable copy of this simulation."""
# NOTE: If uncertainty is not None, call inject() in tick().
return ClonedSimulation(self)
