from typing import Any, Optional, TypeVar, cast from reactivex import abc, typing from reactivex.disposable import ( CompositeDisposable, Disposable, SingleAssignmentDisposable, ) from ..periodicscheduler import PeriodicScheduler _TState = TypeVar("_TState") class GtkScheduler(PeriodicScheduler): """A scheduler that schedules work via the GLib main loop used in GTK+ applications. See https://wiki.gnome.org/Projects/PyGObject """ def __init__(self, glib: Any) -> None: """Create a new GtkScheduler. Args: glib: The GLib module to use; typically, you would get this by >>> import gi >>> gi.require_version('Gtk', '3.0') >>> from gi.repository import GLib """ super().__init__() self._glib = glib def _gtk_schedule( self, time: typing.AbsoluteOrRelativeTime, action: typing.ScheduledSingleOrPeriodicAction[_TState], state: Optional[_TState] = None, periodic: bool = False, ) -> abc.DisposableBase: msecs = max(0, int(self.to_seconds(time) * 1000.0)) sad = SingleAssignmentDisposable() stopped = False def timer_handler(_: Any) -> bool: if stopped: return False nonlocal state if periodic: state = cast(typing.ScheduledPeriodicAction[_TState], action)(state) else: sad.disposable = self.invoke_action( cast(typing.ScheduledAction[_TState], action), state=state ) return periodic self._glib.timeout_add(msecs, timer_handler, None) def dispose() -> None: nonlocal stopped stopped = True return CompositeDisposable(sad, Disposable(dispose)) def schedule( self, action: typing.ScheduledAction[_TState], state: Optional[_TState] = None ) -> abc.DisposableBase: """Schedules an action to be executed. Args: action: Action to be executed. state: [Optional] state to be given to the action function. Returns: The disposable object used to cancel the scheduled action (best effort). """ return self._gtk_schedule(0.0, action, state) def schedule_relative( self, duetime: typing.RelativeTime, action: typing.ScheduledAction[_TState], state: Optional[_TState] = None, ) -> abc.DisposableBase: """Schedules an action to be executed after duetime. Args: duetime: Relative time after which to execute the action. action: Action to be executed. state: [Optional] state to be given to the action function. Returns: The disposable object used to cancel the scheduled action (best effort). """ return self._gtk_schedule(duetime, action, state=state) def schedule_absolute( self, duetime: typing.AbsoluteTime, action: typing.ScheduledAction[_TState], state: Optional[_TState] = None, ) -> abc.DisposableBase: """Schedules an action to be executed at duetime. Args: duetime: Absolute time at which to execute the action. action: Action to be executed. state: [Optional] state to be given to the action function. Returns: The disposable object used to cancel the scheduled action (best effort). """ duetime = self.to_datetime(duetime) return self._gtk_schedule(duetime - self.now, action, state=state) def schedule_periodic( self, period: typing.RelativeTime, action: typing.ScheduledPeriodicAction[_TState], state: Optional[_TState] = None, ) -> abc.DisposableBase: """Schedules a periodic piece of work to be executed in the loop. Args: period: Period in seconds for running the work repeatedly. action: Action to be executed. state: [Optional] state to be given to the action function. Returns: The disposable object used to cancel the scheduled action (best effort). """ return self._gtk_schedule(period, action, state=state, periodic=True)