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I'm trying to schedule a repeating event to run every minute in Python 3.

I've seen class sched.scheduler but I'm wondering if there's another way to do it. I've heard mentions I could use multiple threads for this, which I wouldn't mind doing.

I'm basically requesting some JSON and then parsing it; its value changes over time.

To use sched.scheduler I have to create a loop to request it to schedule the even to run for one hour:

scheduler = sched.scheduler(time.time, time.sleep)

# Schedule the event. THIS IS UGLY!
for i in range(60):
    scheduler.enter(3600 * i, 1, query_rate_limit, ())

What other ways to do this are there?

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Duplicate of all of the "schedule" question for Python 2. All of these: – S.Lott Mar 8 '10 at 3:34
Duplicate:… – S.Lott Mar 8 '10 at 3:36

6 Answers 6

up vote 19 down vote accepted

You could use threading.Timer, but that also schedules a one-off event, similarly to the .enter method of scheduler objects.

The normal pattern (in any language) to transform a one-off scheduler into a periodic scheduler is to have each event re-schedule itself at the specified interval. For example, with sched, I would not use a loop like you're doing, but rather something like:

def periodic(scheduler, interval, action, actionargs=()):
  scheduler.enter(interval, 1, periodic,
                  (scheduler, interval, action, actionargs))

and initiate the whole "forever periodic schedule" with a call

periodic(scheduler, 3600, query_rate_limit)

Or, I could use threading.Timer instead of scheduler.enter, but the pattern's quite similar.

If you need a more refined variation (e.g., stop the periodic rescheduling at a given time or upon certain conditions), that's not too hard to accomodate with a few extra parameters.

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Well, in java I have timer.scheduleAtFixedRate() And real multithreading. And everybody saying that in python we write less code... Um-hum... Just saying... – user1685095 Dec 13 '13 at 5:29
@user1685095 there are always exceptions to any generalized statement like that, sadly. – Wallacoloo Jan 14 '14 at 5:05

My humble take on the subject:

from threading import Timer

class RepeatedTimer(object):
    def __init__(self, interval, function, *args, **kwargs):
        self._timer     = None
        self.function   = function
        self.interval   = interval
        self.args       = args
        self.kwargs     = kwargs
        self.is_running = False

    def _run(self):
        self.is_running = False
        self.function(*self.args, **self.kwargs)

    def start(self):
        if not self.is_running:
            self._timer = Timer(self.interval, self._run)
            self.is_running = True

    def stop(self):
        self.is_running = False


from time import sleep

def hello(name):
    print "Hello %s!" % name

print "starting..."
rt = RepeatedTimer(1, hello, "World") # it auto-starts, no need of rt.start()
    sleep(5) # your long-running job goes here...
    rt.stop() # better in a try/finally block to make sure the program ends!


  • Standard library only, no external dependencies
  • Uses the pattern suggested by Alex Martnelli
  • start() and stop() are safe to call multiple times even if the timer has already started/stopped
  • function to be called can have positional and named arguments
  • You can change interval anytime, it will be effective after next run. Same for args, kwargs and even function!
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Beautiful class but it has a little problem if start() is executed in a loop. It may pass the is_running check due to the _run function executed in another thread. So the last self._timer is reassigned and it cannot be stopped. Check out my answer for the proper version. – fdb Sep 19 '13 at 22:58
@fdb: I'm not sure I understood your points. If you execute start() in a loop using the same class instance, it won't do anything. If you create a new instance, it will trigger a different timer (allowing you to have multiple simultaneous timers). As for multithreading, yes, it's excepted that each start() (or __init__() to be called in the same thread – MestreLion Sep 22 '13 at 4:15
It's a my mistake with "loop" word: I mean a fast calling (implemented with a do...loop) to the start() function. Fast enought to be more fast than the setting of "is_running" flag by the _run() function. – fdb Sep 30 '13 at 14:38

You could use the Advanced Python Scheduler. It even has a cron-like interface.

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Based on MestreLion answer, it solve a little problem with multithreading:

from threading import Timer, Lock

class Periodic(object):
    A periodic task running in threading.Timers

    def __init__(self, interval, function, *args, **kwargs):
        self._lock = Lock()
        self._timer = None
        self.function = function
        self.interval = interval
        self.args = args
        self.kwargs = kwargs
        self._stopped = True
        if kwargs.pop('autostart', True):

    def start(self, from_run=False):
        if from_run or self._stopped:
            self._stopped = False
            self._timer = Timer(self.interval, self._run)

    def _run(self):
        self.function(*self.args, **self.kwargs)

    def stop(self):
        self._stopped = True
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You could use schedule. It works on Python 2.7 and 3.3 and is rather lightweight:

import schedule

def job():
   print("I'm working...")


while 1:
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Use Celery.

from celery.task import PeriodicTask
from datetime import timedelta

class ProcessClicksTask(PeriodicTask):
    run_every = timedelta(minutes=30)

    def run(self, **kwargs):
        #do something
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