Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

If I have two threading.Event() objects, and wish to sleep until either one of them is set, is there an efficient way to do that in python? Clearly I could do something with polling/timeouts, but I would like to really have the thread sleep until one is set, akin to how select is used for file descriptors.

So in the following implementation, what would an efficient non-polling implementation of wait_for_either look like?

a = threading.Event()
b = threading.Event()

wait_for_either(a, b)
share|improve this question

migrated from superuser.com Sep 7 '12 at 12:17

This question came from our site for computer enthusiasts and power users.

    
Is there a good reason for using 2 different events and not use the same one? –  iuliux Sep 7 '12 at 12:21

4 Answers 4

up vote 8 down vote accepted

Here is a non-polling non-excessive thread solution: modify the existing Events to fire a callback whenever they change, and handle setting a new event in that callback:

import threading

def or_set(self):
    self._set()
    self.changed()

def or_clear(self):
    self._clear()
    self.changed()

def orify(e, changed_callback):
    e._set = e.set
    e._clear = e.clear
    e.changed = changed_callback
    e.set = lambda: or_set(e)
    e.clear = lambda: or_clear(e)

def OrEvent(*events):
    or_event = threading.Event()
    def changed():
        bools = [e.is_set() for e in events]
        if any(bools):
            or_event.set()
        else:
            or_event.clear()
    for e in events:
        orify(e, changed)
    changed()
    return or_event

Sample usage:

def wait_on(name, e):
    print "Waiting on %s..." % (name,)
    e.wait()
    print "%s fired!" % (name,)

def test():
    import time

    e1 = threading.Event()
    e2 = threading.Event()

    or_e = OrEvent(e1, e2)

    threading.Thread(target=wait_on, args=('e1', e1)).start()
    time.sleep(0.05)
    threading.Thread(target=wait_on, args=('e2', e2)).start()
    time.sleep(0.05)
    threading.Thread(target=wait_on, args=('or_e', or_e)).start()
    time.sleep(0.05)

    print "Firing e1 in 2 seconds..."
    time.sleep(2)
    e1.set()
    time.sleep(0.05)

    print "Firing e2 in 2 seconds..."
    time.sleep(2)
    e2.set()
    time.sleep(0.05)

The result of which was:

Waiting on e1...
Waiting on e2...
Waiting on or_e...
Firing e1 in 2 seconds...
e1 fired!or_e fired!

Firing e2 in 2 seconds...
e2 fired!

This should be thread-safe. Any comments are welcome.

EDIT: Oh and here is your wait_for_either function, though the way I wrote the code, it's best to make and pass around an or_event. Note that the or_event shouldn't be set or cleared manually.

def wait_for_either(e1, e2):
    OrEvent(e1, e2).wait()
share|improve this answer

One solution (with polling) would be to do sequential waits on each Event in a loop

def wait_for_either(a, b):
    while True:
        if a.wait(tunable_timeout):
            break
        if b.wait(tunable_timeout):
            break

I think that if you tune the timeout well enough the results would be OK.


The best non-polling I can think of is to wait for each one in a different thread and set a shared Event whom you will wait after in the main thread.

def repeat_trigger(waiter, trigger):
    waiter.wait()
    trigger.set()

def wait_for_either(a, b):
    trigger = threading.Event()
    ta = threading.Thread(target=repeat_trigger, args=(a, trigger))
    tb = threading.Thread(target=repeat_trigger, args=(b, trigger))
    ta.start()
    tb.start()
    # Now do the union waiting
    trigger.wait()

Pretty interesting, so I wrote an OOP version of the previous solution:

class EventUnion(object):
    """Register Event objects and wait for release when any of them is set"""
    def __init__(self, ev_list=None):
        self._trigger = Event()
        if ev_list:
            # Make a list of threads, one for each Event
            self._t_list = [
                            Thread(target=self._triggerer, args=(ev, ))
                            for ev in ev_list
                           ]
        else:
            self._t_list = []

    def register(self, ev):
        """Register a new Event"""
        self._t_list.append(Thread(target=self._triggerer, args=(ev, )))

    def wait(self, timeout=None):
        """Start waiting until any one of the registred Event is set"""
        # Start all the threads
        map(lambda t: t.start(), self._t_list)
        # Now do the union waiting
        return self._trigger.wait(timeout)

    def _triggerer(self, ev):
        ev.wait()
        self._trigger.set()
share|improve this answer
1  
you could make repeat_trigger also check for trigger (with timeout = 0 for trigger and timeout > 0 for waiter) so that all threads eventually end –  Mihai Stan Sep 7 '12 at 12:43
    
i was thinking the same but there's gotta be a better way than starting 2 threads... –  Claudiu Sep 7 '12 at 13:43

Not pretty, but you can use two additional threads to multiplex the events...

def wait_for_either(a, b):
  flag = False #some condition variable, event, or similar

  class Event_Waiter(threading.Thread):
    def __init__(self, event):
        self.e = event
    def run(self):
        self.e.wait()
        flag.set()

  a_thread = Event_Waiter(a)
  b_thread = Event_Waiter(b)
  a.start()
  b.start()
  flag.wait()

Note, you may have to worry about accidentally getting both events if they arrive too quickly. The helper threads (a_thread and b_thread) should lock synchronize around trying to set flag and then should kill the other thread (possibly resetting that thread's event if it was consumed).

share|improve this answer

Starting extra threads seems a clear solution, not very effecient though. Function wait_events will block util any one of events is set.

def wait_events(*events):
    event_share = Event()

    def set_event_share(event):
        event.wait()
        event.clear()
        event_share.set()
    for event in events:
        Thread(target=set_event_share(event)).start()

    event_share.wait()

wait_events(event1, event2, event3)
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.