65

I want to create a non-thread-safe chunk of code for experimentation, and those are the functions that 2 threads are going to call.

c = 0

def increment():
  c += 1

def decrement():
  c -= 1

Is this code thread safe?

If not, may I understand why it is not thread safe, and what kind of statements usually lead to non-thread-safe operations.

If it is thread-safe, how can I make it explicitly non-thread-safe?

2
  • 5
    There should be a global c deceleration at the start of each function or this doesn't really do anything.
    – JoshB
    Sep 1, 2016 at 8:04
  • Hi nubela, can you pick the correct answer so that future readers don't get confused?
    – laike9m
    Feb 18, 2020 at 0:29

8 Answers 8

133

No, this code is absolutely, demonstrably not threadsafe.

import threading

i = 0

def test():
    global i
    for x in range(100000):
        i += 1

threads = [threading.Thread(target=test) for t in range(10)]
for t in threads:
    t.start()

for t in threads:
    t.join()

assert i == 1000000, i

fails consistently.

i += 1 resolves to four opcodes: load i, load 1, add the two, and store it back to i. The Python interpreter switches active threads (by releasing the GIL from one thread so another thread can have it) every 100 opcodes. (Both of these are implementation details.) The race condition occurs when the 100-opcode preemption happens between loading and storing, allowing another thread to start incrementing the counter. When it gets back to the suspended thread, it continues with the old value of "i" and undoes the increments run by other threads in the meantime.

Making it threadsafe is straightforward; add a lock:

#!/usr/bin/python
import threading
i = 0
i_lock = threading.Lock()

def test():
    global i
    i_lock.acquire()
    try:
        for x in range(100000):
            i += 1
    finally:
        i_lock.release()

threads = [threading.Thread(target=test) for t in range(10)]
for t in threads:
    t.start()

for t in threads:
    t.join()

assert i == 1000000, i
7
  • 16
    Much more helpful than the accepted answer. Thanks!
    – RoboCop87
    Jul 2, 2014 at 14:34
  • 5
    Up-voted. Your lock example would be more illustrative if the lock were acquired and released for each increment instead of each 100,000 increments. Why even bother with threads if they are going to execute sequentially with no overlap whatsoever? Mar 19, 2017 at 4:15
  • @MarredCheese because this is just exploring the features of the language. In real workloads there are always other intertwined things happening that interact with the locked thing only at specific points in time.
    – Liz
    Aug 18, 2021 at 13:40
  • Is there a reason why global i is declared but not global i_lock? Aug 21, 2021 at 13:09
  • 1
    @EricMcLachlan (from almost a year ago--sorry, I often don't see SO comments) i is assigned to, so it needs to be explicitly declared global or else it would bind as a local. i_lock is only accessed and not assigned to, so there's no need to declare it global. I only declare globals when it's required, not in every place they're accessed. Jun 30, 2022 at 6:10
33

(note: you would need global c in each function to make your code work.)

Is this code thread safe?

No. Only a single bytecode instruction is ‘atomic’ in CPython, and a += may not result in a single opcode, even when the values involved are simple integers:

>>> c= 0
>>> def inc():
...     global c
...     c+= 1

>>> import dis
>>> dis.dis(inc)

  3           0 LOAD_GLOBAL              0 (c)
              3 LOAD_CONST               1 (1)
              6 INPLACE_ADD         
              7 STORE_GLOBAL             0 (c)
             10 LOAD_CONST               0 (None)
             13 RETURN_VALUE        

So one thread could get to index 6 with c and 1 loaded, give up the GIL and let another thread in, which executes an inc and sleeps, returning the GIL to the first thread, which now has the wrong value.

In any case, what's atomic is an implementation detail which you shouldn't rely on. Bytecodes may change in future versions of CPython, and the results will be totally different in other implementations of Python that do not rely on a GIL. If you need thread safety, you need a locking mechanism.

18

To be sure I recommend to use a lock:

import threading

class ThreadSafeCounter():
    def __init__(self):
        self.lock = threading.Lock()
        self.counter=0

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


    def decrement(self):
        with self.lock:
            self.counter-=1

The synchronized decorator can also help to keep the code easy to read.

15

It's easy to prove that your code is not thread safe. You can increase the likelyhood of seeing the race condition by using a sleep in the critical parts (this simply simulates a slow CPU). However if you run the code for long enough you should see the race condition eventually regardless.

from time import sleep
c = 0

def increment():
  global c
  c_ = c
  sleep(0.1)
  c = c_ + 1

def decrement():
  global c
  c_ = c
  sleep(0.1)
  c  = c_ - 1
4
  • Using sleep for this kind of stuff is very wrong. How did you come up with the 0.1 value? would a faster processor need longer sleep? Using sleep for solving problems is almost always wrong.
    – omribahumi
    Mar 26, 2015 at 19:52
  • 8
    @omribahumi, what? I think you're confused by the purpose of my answer. This code is an example of how easy it is to prove a particular piece of code isn't thread safe. The sleep is merely there as a placeholder to simulate extra processing that would normally be there. If you meant that using sleep is the wrong way to avoid race conditions, I certainly agree, but that's not what my answer claims. Mar 27, 2015 at 4:07
  • 2
    @jacmkno, The answer isn't wrong, but has confused people for some reason. It proves that the OP's code is not thread safe. Or are you suggesting otherwise? Nov 4, 2015 at 4:13
  • 3
    Up-voted this purely because you seem to have been punished for other people not reading your answer... Makes sense to me Aug 28, 2016 at 10:29
5

Short answer: no.

Long answer: generally not.

While CPython's GIL makes single opcodes thread-safe, this is no general behaviour. You may not assume that even simple operations like an addition is a atomic instruction. The addition may only be half done when another thread runs.

And as soon as your functions access a variable in more than one opcode, your thread safety is gone. You can generate thread safety, if you wrap your function bodies in locks. But be aware that locks may be computationally costly and may generate deadlocks.

2
  • Everything has multiple opcodes/is a composite unless stated otherwise.
    – ebo
    Nov 11, 2009 at 19:47
  • 1
    Both the short and long answers are no. Nov 11, 2009 at 23:41
2

If you actually want to make your code not thread-safe, and have good chance of "bad" stuff actually happening without you trying like ten thousand times (or one time when you real don't want "bad" stuff to happen), you can 'jitter' your code with explicit sleeps:

def íncrement():
    global c
    x = c
    from time import sleep
    sleep(0.1)
    c = x + 1
0

Single opcodes are thread-safe because of the GIL but nothing else:

import time
class something(object):
    def __init__(self,c):
        self.c=c
    def inc(self):
        new = self.c+1 
        # if the thread is interrupted by another inc() call its result is wrong
        time.sleep(0.001) # sleep makes the os continue another thread
        self.c = new


x = something(0)
import threading

for _ in range(10000):
    threading.Thread(target=x.inc).start()

print x.c # ~900 here, instead of 10000

Every resource shared by multiple threads must have a lock.

3
  • 9
    This does not answer the question, which is about += Dec 8, 2016 at 14:53
  • Also, and correct me if I'm wrong, print x.c doesn't wait for the threads to finish. So most of them are still running when you print the output. Dec 14, 2016 at 9:56
  • 1
    Do you want to update the answer mentioning that thread safety is an issue only when dealing with shared/global variables. In your example, x is a global variable.
    – variable
    Nov 6, 2019 at 7:59
0

Are you sure that the functions increment and decrement execute without any error?

I think it should raise an UnboundLocalError because you have to explicitly tell Python that you want to use the global variable named 'c'.

So change increment ( also decrement ) to the following:

def increment():
    global c
    c += 1

I think as is your code is thread unsafe. This article about thread synchronisation mechanisms in Python may be helpful.

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