I'm creating a threading.Timer(2,work) run threads. Inside each work function, upon some condition the global counter must increment without conflict for access of counter variable among the spawned work threads.

I've tried Queue.Queue assigned counter as well as threading.Lock(). Which is a best way to implement thread-safe global increment variable.

Previously someone asked question here: Python threading. How do I lock a thread?


Not sure if you have tried this specific syntax already, but for me this has always worked well:

Define a global lock:

import threading
threadLock = threading.Lock()

and then you have to acquire and release the lock every time you increase your counter in your individual threads:

with threadLock:
    global_counter += 1
  • In Python 3, you can use Lock (and RLock, and any threading class instance) as with context. The code is a lot more readable. – Arĥimedeς ℳontegasppα ℭacilhας Jan 29 '16 at 15:43
  • @Arĥimedeςℳontegasppαℭacilhας Also in Python2, and it makes it exception-safe, so I edited it. – o11c Apr 5 '17 at 2:13

The simplest solution is to protect the counter with a multiprocessing.Lock. I like to keep it in a class, like so:

from multiprocessing import Process, RawValue, Lock
import time

class Counter(object):
    def __init__(self, value=0):
        # RawValue because we don't need it to create a Lock:
        self.val = RawValue('i', value)
        self.lock = Lock()

    def increment(self):
        with self.lock:
            self.val.value += 1

    def value(self):
        with self.lock:
            return self.val.value

def inc(counter):
    for i in range(1000):

if __name__ == '__main__':
    thread_safe_counter = Counter(0)
    procs = [Process(target=inc, args=(thread_safe_counter,)) for i in range(100)]

    for p in procs: p.start()
    for p in procs: p.join()

    print (thread_safe_counter.value())

The above snippet was first taken from Eli Bendersky's blog, here.

  • Do you need to do that. Provided you are prepared to assume CPython, then the Global Interpreter Lock means that each python operation is atomic, so self.value += 1 should be atomic. Or do I misunderstand something? – Martin Bonner Jan 29 '16 at 15:50
  • Using threads in CPython is mostly nonsensical, and the question isn't CPython specific. Even in CPython, some things happen outside the GIL, so I'd rather not encourage bad habits. – Michael Foukarakis Feb 3 '16 at 8:24
  • 4
    Also for anyone who stumbles across this later... self.value += 1 is not a single python operation in the relevant sense, because it compiles down into multiple bytecodes. Effectively it's tmp1 = self.value; tmp2 = tmp1.__iadd__(1); self.value = tmp2, where each of those 3 statements is atomic, but the sequence as whole is definitely not. – Nathaniel J. Smith Jan 20 '17 at 8:16
  • 3
    @MichaelFoukarakis Threads a definitively not a waste of time. You can download 1000 websites much faster with threads then without. – AlexLordThorsen May 21 '17 at 18:02
  • 4
    @MichaelFoukarakis Threads have their uses. For example when making a non-blocking single core program such as GUIs. Threads are not about multiprocessing necessarily. A new thread does not mandate it being run on another core. That is a misconception about threads, which many people seem to have. Clearly they are not mostly nonsensical. That is an overly broad statement to make about something as essential as threads. – Zelphir Aug 3 '17 at 12:06

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