53

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, ())

scheduler.run()

What other ways to do this are there?

3

12 Answers 12

57

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))
    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.

6
  • 17
    Well, in java I have timer.scheduleAtFixedRate() And real multithreading. And everybody saying that in python we write less code... Um-hum... Just saying... Dec 13 '13 at 5:29
  • 4
    @user1685095 there are always exceptions to any generalized statement like that, sadly. Jan 14 '14 at 5:05
  • 4
    @Wallacoloo does that mean there aren't always exceptions? :)
    – Rob Grant
    Jun 14 '16 at 12:44
  • 2
    @user1685095 not so fast! Try coding that without multiple imports, extending TimerTask, providing a run method, and adding a separate class to run the timer as well as creating all those objects. Probably around 15 lines of code. (Unless you have a cleaner way to do it; I'm not the greatest at Java.) Apr 22 '17 at 14:41
  • 1
    Based on Alex Martelli's answer, I have implemented decorator version which is more easier to integrated. stackoverflow.com/a/48758861/482899
    – northtree
    Feb 13 '18 at 3:15
35

You could use schedule. It works on Python 2.7 and 3.3 and is rather lightweight:

import schedule
import time

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

schedule.every(10).minutes.do(job)
schedule.every().hour.do(job)
schedule.every().day.at("10:30").do(job)

while 1:
   schedule.run_pending()
   time.sleep(1)
3
  • 5
    why while loop?, wouldn't it run like cron jobs ?
    – Jaydev
    Sep 15 '16 at 11:43
  • @Jaydev the while loop is required if the code is running in the main thread
    – lurscher
    Mar 27 '18 at 16:26
  • webserver stop serving file with this package
    – Florent
    Jan 18 '20 at 22:00
22

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
        self.start()

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

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

    def stop(self):
        self._timer.cancel()
        self.is_running = False

Usage:

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()
try:
    sleep(5) # your long-running job goes here...
finally:
    rt.stop() # better in a try/finally block to make sure the program ends!

Features:

  • 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!
3
  • 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
9

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):
            self.start()

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

    def _run(self):
        self.start(from_run=True)
        self.function(*self.args, **self.kwargs)

    def stop(self):
        self._lock.acquire()
        self._stopped = True
        self._timer.cancel()
        self._lock.release()
1
  • Ha I was just putting the lock into the original. It is truly necessary. Thanks this is the correct version of MestreLion
    – Bob Denny
    Nov 30 '18 at 13:01
8

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

8

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
5

Based on Alex Martelli's answer, I have implemented decorator version which is more easier to integrated.

import sched
import time
import datetime
from functools import wraps
from threading import Thread


def async(func):
    @wraps(func)
    def async_func(*args, **kwargs):
        func_hl = Thread(target=func, args=args, kwargs=kwargs)
        func_hl.start()
        return func_hl
    return async_func


def schedule(interval):
    def decorator(func):
        def periodic(scheduler, interval, action, actionargs=()):
            scheduler.enter(interval, 1, periodic,
                            (scheduler, interval, action, actionargs))
            action(*actionargs)

        @wraps(func)
        def wrap(*args, **kwargs):
            scheduler = sched.scheduler(time.time, time.sleep)
            periodic(scheduler, interval, func)
            scheduler.run()
        return wrap
    return decorator


@async
@schedule(1)
def periodic_event():
    print(datetime.datetime.now())


if __name__ == '__main__':
    print('start')
    periodic_event()
    print('end')
3
  • This decorator solution is really great, but I have a proposal for a slight improvement: Add *args and **kwargs to the scheduled function call like this: def decorator(func, *args, **kwargs): def periodic(scheduler, interval, action, actionargs=(), kwargs={}): scheduler.enter(interval, 1, periodic, (scheduler, interval, action, actionargs, kwargs)) action(*actionargs, **kwargs) and below periodic(scheduler, interval, func, args, kwargs) This makes it possible to schedule functions with parameters.
    – opt12
    May 25 '19 at 9:36
  • @opt12 Are the params changed for each schedule?
    – northtree
    May 25 '19 at 10:13
  • Nope, the args are the same for each schedule, but you can decorate any function to be scheduled regularly. No matter whether they take parameters or not. These arguments are tha same for each run, but at least they can be supplied as initial argument.
    – opt12
    May 26 '19 at 15:09
2

Here's a quick and dirty non-blocking loop with Thread:

#!/usr/bin/env python3
import threading,time

def worker():
    print(time.time())
    time.sleep(5)
    t = threading.Thread(target=worker)
    t.start()


threads = []
t = threading.Thread(target=worker)
threads.append(t)
t.start()
time.sleep(7)
print("Hello World")

There's nothing particularly special, the worker creates a new thread of itself with a delay. Might not be most efficient, but simple enough. northtree's answer would be the way to go if you need more sophisticated solution.

And based on this, we can do the same, just with Timer:

#!/usr/bin/env python3
import threading,time

def hello():
    t = threading.Timer(10.0, hello)
    t.start()
    print( "hello, world",time.time() )

t = threading.Timer(10.0, hello)
t.start()
time.sleep(12)
print("Oh,hai",time.time())
time.sleep(4)
print("How's it going?",time.time())
2
  • do you have any idea how to add a check for checking if this thread t is alive? I tried using a try except block and putting t.start() inside the try but it doesnt start the thread!.I just need to run a isAlive() for t to check if its alive Feb 11 '19 at 14:25
  • 1
    @toing_toing Frankly, I don't know. I would suggest a global variable to be updated by a thread or a lock-file if you're in Linux environment, but that's an idea from the top of my head and not based in "good practices", only familiarity with Linux. There's an option of using shared memory for such task as well. Now, I'm not very knowledgeable in multithreaded programming, so I would suggest asking a question on the site and reference this answer so that people can see which code you're trying to deal with. Feb 11 '19 at 22:05
1

Doc: Advanced Python Scheduler

@sched.cron_schedule(day='last sun')
def some_decorated_task():
    print("I am printed at 00:00:00 on the last Sunday of every month!")

Available fields:

| Field       | Description                                                    |
|-------------|----------------------------------------------------------------|
| year        | 4-digit year number                                            |
| month       | month number (1-12)                                            |
| day         | day of the month (1-31)                                        |
| week        | ISO week number (1-53)                                         |
| day_of_week | number or name of weekday (0-6 or mon,tue,wed,thu,fri,sat,sun) |
| hour        | hour (0-23)                                                    |
| minute      | minute (0-59)                                                  |
| second      | second (0-59)                                                  |
1

There is a new package, called ischedule. For this case, the solution could be as following:

from ischedule import schedule, run_loop
from datetime import timedelta


def query_rate_limit():
    print("query_rate_limit")

schedule(query_rate_limit, interval=60)
run_loop(return_after=timedelta(hours=1))

Everything runs on the main thread and there is no busy waiting inside the run_loop. The startup time is very precise, usually within a fraction of a millisecond of the specified time.

0

See my sample

import sched, time

def myTask(m,n):
  print n+' '+m

def periodic_queue(interval,func,args=(),priority=1):
  s = sched.scheduler(time.time, time.sleep)
  periodic_task(s,interval,func,args,priority)
  s.run()

def periodic_task(scheduler,interval,func,args,priority):
  func(*args)
  scheduler.enter(interval,priority,periodic_task,
                   (scheduler,interval,func,args,priority))

periodic_queue(1,myTask,('world','hello'))
1
  • 1
    Can you explain why this is better than the other 8 answers already here? May 5 '18 at 0:03
0

I ran into a similar issue a while back so I made a python module event-scheduler to address this. It has a very similar API to the sched library with a few differences:

  1. It utilizes a background thread and is always able to accept and run jobs in the background until the scheduler is stopped explicitly (no need for a while loop).
  2. It comes with an API to schedule recurring events at a user specified interval until explicitly cancelled.

It can be installed by pip install event-scheduler

from event_scheduler import EventScheduler

event_scheduler = EventScheduler()
event_scheduler.start()
# Schedule the recurring event to print "hello world" every 60 seconds with priority 1
# You can use the event_id to cancel the recurring event later
event_id = event_scheduler.enter_recurring(60, 1, print, ("hello world",))

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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