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OK, check following codes first:

class DemoClass():

    def __init__(self):
        #### I really want to know if self.Counter is thread-safe. 
        self.Counter = 0

    def Increase(self):
        self.Counter = self.Counter + 1

    def Decrease(self):
        self.Counter = self.Counter - 1

    def DoThis(self):
        while True:
            Do something

            if A happens:


    def DoThat(self):
        while True:
            Do other things

            if B happens:


    def ThreadSafeOrNot(self):
        InterestingThreadA = threading.Thread(target = self.DoThis, args = ())

        InterestingThreadB = threading.Thread(target = self.DoThat, args = ())

I'm facing same situation as above. I really want to know if it's thread-safe for self.Counter, well if not, what options do I have? I can only think of threading.RLock() to lock this resource, any better idea?

share|improve this question
up vote 13 down vote accepted

You can use Locks, RLocks, Semaphores, Conditions, Events and Queues.
And this article helped me a lot.
Check it out: Laurent Luce's Blog

share|improve this answer
What, no spin locks!? :p – Austin Henley Sep 25 '12 at 5:01

Using the instance field self.Counter is thread safe or "atomic". Reading it or assigning a single value - even when it needs 4 bytes in memory, you will never get a half-changed value. But the operation self.Counter = self.Counter + 1 is not because it reads the value and then writes it - another thread could change the value of the field after it has been read and before it is written back.

So you need to protect the whole operation with a lock.

Since method body is basically the whole operation, you can use a decorator to do this. See this answer for an example:

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Out of curiosity, what do you mean by "the instance field ... is thread safe"? – Eli Bendersky Nov 29 '11 at 11:44
@EliBendersky: I guess he means operations like self.Counter = Value are thread-safe. Check this article I just found:… – Shane Nov 29 '11 at 11:50
Assigning a value is not thread-safe. Say you have self.Counter=1 followed by self.Counter=2 then x=self.Counter. Then x can get 1 or 2 depending on thread switching, which makes assigning a value not thread-safe. – Basel Shishani Oct 12 '13 at 10:13
What I said is that a single assignment is atomic (except for 64-bit types). See… – Aaron Digulla Oct 14 '13 at 7:12

No, it is not thread safe - the two threads are essentially modifying the same variable simultaneously. And yes, the solution is one of the locking mechanisms in the threading module.

BTW, self.Counter is an instance variable, not a class variable.

share|improve this answer
+1 for pointing naming error (instance <> class) – gecco Nov 29 '11 at 11:34

self.Counter is an instance variable so each thread has copy. If you declare the variable outside of __init() it will be a class variable. All instances of the class will share that instance.

share|improve this answer
Surely multiple threads can access the same instance of an object? – Harry Johnston Sep 5 '12 at 3:05
@HarryJohnston Be very careful with that. It can add quite a bit of complexity. You may have to do some form of locking. – Austin Henley Sep 25 '12 at 3:41
@AustinHenley: yes, that's the point. The OP wanted to know whether instance variables were thread-safe or not. – Harry Johnston Sep 25 '12 at 4:52

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