I am trying to write a method that counts down to a given time and unless a restart command is given, it will execute the task. But I don't think Python threading.Timer class allows for timer to be cancelable.

import threading

def countdown(action):
    def printText():
        print 'hello!'

    t = threading.Timer(5.0, printText)
    if (action == 'reset'):
        t.cancel()

    t.start()

I know the above code is wrong somehow. Would appreciate some kind guidance over here.

You would call the cancel method after you start the timer:

import time
import threading

def hello():
    print "hello, world"
    time.sleep(2)

t = threading.Timer(3.0, hello)
t.start()
var = 'something'
if var == 'something':
    t.cancel()

You might consider using a while-loop on a Thread, instead of using a Timer.
Here is an example appropriated from Nikolaus Gradwohl's answer to another question:

import threading
import time

class TimerClass(threading.Thread):
    def __init__(self):
        threading.Thread.__init__(self)
        self.event = threading.Event()
        self.count = 10

    def run(self):
        while self.count > 0 and not self.event.is_set():
            print self.count
            self.count -= 1
            self.event.wait(1)

    def stop(self):
        self.event.set()

tmr = TimerClass()
tmr.start()

time.sleep(3)

tmr.stop()
  • Please explain why you think a timed while loop is a better idea than the threaded timer. – Wes Modes Jan 30 '17 at 5:32
  • 1
    @WesModes I offered an alternative that prints the count down. – Honest Abe Jan 31 '17 at 1:35
  • Works for me. Although i used while not self.event.wait(1) to execute something every second instead of a count variable – mtosch Sep 23 '17 at 11:53

I'm not sure if I understand correctly. Do you want to write something like in this example?

>>> import threading
>>> t = None
>>> 
>>> def sayHello():
...     global t
...     print "Hello!"
...     t = threading.Timer(0.5, sayHello)
...     t.start()
... 
>>> sayHello()
Hello!
Hello!
Hello!
Hello!
Hello!
>>> t.cancel()
>>>
  • It's almost good. It would be good if your program didn't terminate immediately, with a single "Hello" and no delay at all! :) You have to incorporate t.cancel() into the sayHello() function based on some condtion, e.g. if counter == 10: t.cancel(). It would then have a meaning. – Apostolos Mar 1 at 22:45
  • Sorry. It wouldn't be good even then. If you add any code after calling sayHello(0), it will be executed before the timer test finishes! (Try it yourself, by adding e.g. print "Done"at the end of your code.) – Apostolos Mar 1 at 23:12

The threading.Timer class does have a cancel method, and although it won't cancel the thread, it will stop the timer from actually firing. What actually happens is that the cancel method sets a threading.Event, and the thread actually executing the threading.Timer will check that event after it's done waiting and before it actually executes the callback.

That said, timers are usually implemented without using a separate thread for each one. The best way to do it depends on what your program is actually doing (while waiting for this timer), but anything with an event loop, like GUI and network frameworks, all have ways to request a timer that is hooked into the eventloop.

Inspired by above post. Cancelable and Resetting Timer in Python. It uses thread.
Features: Start, Stop, Restart, callback function.
Input: Timeout, sleep_chunk values, and callback_function.
Can use or inherit this class in any other program. Can also pass arguments to the callback function.
Timer should respond in middle also. Not just after completion of full sleep time. So instead of using one full sleep, using small chunks of sleep and kept checking event object in loop.

import threading
import time

class TimerThread(threading.Thread):
    def __init__(self, timeout=3, sleep_chunk=0.25, callback=None, *args):
        threading.Thread.__init__(self)

        self.timeout = timeout
        self.sleep_chunk = sleep_chunk
        if callback == None:
            self.callback = None
        else:
            self.callback = callback
        self.callback_args = args

        self.terminate_event = threading.Event()
        self.start_event = threading.Event()
        self.reset_event = threading.Event()
        self.count = self.timeout/self.sleep_chunk

    def run(self):
        while not self.terminate_event.is_set():
            while self.count > 0 and self.start_event.is_set():
                # print self.count
                # time.sleep(self.sleep_chunk)
                # if self.reset_event.is_set():
                if self.reset_event.wait(self.sleep_chunk):  # wait for a small chunk of timeout
                    self.reset_event.clear()
                    self.count = self.timeout/self.sleep_chunk  # reset
                self.count -= 1
            if self.count <= 0:
                self.start_event.clear()
                #print 'timeout. calling function...'
                self.callback(*self.callback_args)
                self.count = self.timeout/self.sleep_chunk  #reset

    def start_timer(self):
        self.start_event.set()

    def stop_timer(self):
        self.start_event.clear()
        self.count = self.timeout / self.sleep_chunk  # reset

    def restart_timer(self):
        # reset only if timer is running. otherwise start timer afresh
        if self.start_event.is_set():
            self.reset_event.set()
        else:
            self.start_event.set()

    def terminate(self):
        self.terminate_event.set()

#=================================================================
def my_callback_function():
    print 'timeout, do this...'

timeout = 6  # sec
sleep_chunk = .25  # sec

tmr = TimerThread(timeout, sleep_chunk, my_callback_function)
tmr.start()

quit = '0'
while True:
    quit = raw_input("Proceed or quit: ")
    if quit == 'q':
        tmr.terminate()
        tmr.join()
        break
    tmr.start_timer()
    if raw_input("Stop ? : ") == 's':
        tmr.stop_timer()
    if raw_input("Restart ? : ") == 'r':
        tmr.restart_timer()

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

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