EDIT: Possible solution below, can anyone confirm?
I'm running tkinter in a thread, and attempting to use the
event_generate technique described in this answer to control its behaviour from other threads. Clearly, once I have started a thread which sets up a
tkinter.Tk instance and starts its mainloop, it is necessary to block until the mainloop has started before attempting to generate events. The way I was trying to do this is as follows (python 3.2 code):
import tkinter import threading mainloop_started = threading.Event() def tkinter_thread_stuff(): global root root = tkinter.Tk() #[code that binds events with root.bind] root.after(0, mainloop_started.set) root.mainloop() th = threading.Thread(target=tkinter_thread_stuff) th.start() mainloop_started.wait() #[code that sends events to root with event_generate]
In other words, I am using
after to cause the tkinter mainloop to set the
mainloop_started, and my event-generating code starts by blocking until this event is set. However, this seems to lead to a race condition - sometimes events generated quickly after
mainloop_started.wait() are never processed by tkinter. If I put a time delay in the
after call (e.g.
root.after(1000, mainloop_started.set)), this does not happen, so it looks like there is some time in between the point where tkinter calls the
after callback, and the point at which it is able to receive events. Does anyone know the correct way of blocking until tkinter can receive events?
PS: is it safe to run the tkinter mainloop inside a thread like this? I know I can't interfere directly with root or other tkinter stuff from other threads, but apart from that, everything seems to work OK. I have seen some sites that say tkinter can only be run in the main thread.
EDIT: I think I have a solution - use
after_idle instead of
after. This seems to make sure that the callback isn't called until the mainloop is ready to process events, but can anyone confirm this? Anyway, what is the point of
after if you can't guarantee that tkinter will be fully set up when the callback is called (unless
after is called in another event handler, I suppose)?
A concrete example of the effects of using
after_idle in this case if anyone wants to play around with it:
import tkinter import threading #create a threading.Event for blocking until the mainloop is ready mainloop_started = threading.Event() #counter stores the number of times that tkinter receives the event #<<increment>>, which is generated 1000 times counter = 0 #delay in milliseconds before mainloop sets mainloop_started: #if I set this to 0, the final value of counter varies between 0 and 1000, i.e. #some of the <<increment>> events may not be processed as expected #if I set it to 1 or a larger number, the final value of counter is always 1000, #so all events are processed correctly, and I can get the #same behaviour by replacing after with after_idle below delay_ms = 0 def send_events(): global root #wait until mainloop_started has been set mainloop_started.wait() #send 1000 <<increment>> events for i in range(1000): root.event_generate('<<increment>>', when='tail') #send a <<show>> event root.event_generate('<<show>>', when='tail') #run send_events in a thread th = threading.Thread(target=send_events) th.start() #start tkinter root = tkinter.Tk() #when root receives the event <<increment>>, increment counter def increment(event): global counter counter += 1 root.bind('<<increment>>', increment) #when root receives the event <<show>>, print the value of the counter def show(event): print(counter) root.bind('<<show>>', show) #instruct mainloop to set mainloop_started root.after(delay_ms, mainloop_started.set) #using after_idle instead causes all events to be processed correctly #root.after_idle(mainloop_started.set) #finally, start the mainloop root.mainloop()