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Is there a python lock annotation which has the same effect to a python method as the "synchronized" keyword to java methods?

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1  
first you should be warned that multithreading in python is a bad idea –  Xavier Combelle Jan 7 '11 at 12:22
    
thanks for the comment, can you be more precise? –  paweloque Jan 7 '11 at 12:33
2  
It depends on what you're doing. Python has a "global interpreter lock", so only one thread can be executing Python code at a time, and you can't take advantage of multiple cores. But if your code is waiting for disk access, or data from the network, or numpy calculations, multithreading works. –  Thomas K Jan 7 '11 at 12:52
    
Xavier, don't spout nonsense. Multithreading is not always a bad idea. Granted it has probs with its GIL on multi-core systems for some CPU bound code... but thats not enough to call the whole thing a "bad idea". –  Corey Goldberg Jan 7 '11 at 19:30
    
@Corey To quote guido Unfortunately, for most mortals, thread programming is just Too Hard to get right.... found in devshed.com/c/a/Python/Basic-Threading-in-Python –  Xavier Combelle Jan 14 '11 at 9:58

1 Answer 1

up vote 9 down vote accepted

I can assume that no builtin feature exist in python but you can implement it by understanding how it work in Java from this link :

Every Java object created, including every Class loaded, has an associated lock or monitor. Putting code inside a synchronized block makes the compiler append instructions to acquire the lock on the specified object before executing the code, and release it afterwards (either because the code finishes normally or abnormally). Between acquiring the lock and releasing it, a thread is said to "own" the lock. At the point of Thread A wanting to acquire the lock, if Thread B already owns the it, then Thread A must wait for Thread B to release it.

so maybe something like this can work :

synchronized statement in java:

public class Java {
    static private int count = 0;

    public void increment() {
       synchronized (this) {
          count++;
       }
    }
}

became :

import threading

class Java:
   cout = 0
   lock = threading.RLock()

   def increment():
       with Java.lock:
           Java.cout += 1

and synchronized method in Java:

public class Java {
    static private int count = 0;

    public synchronized void increment() {
        count ++;
    }
}

became:

import threading

def synchronized(method):
    """ Work with instance method only !!! """

    def new_method(self, *arg, **kws):
        with self.lock:
            return method(self, *arg, **kws)


    return new_method

class Java:
    count = 0
    lock = threading.RLock()

    @synchronized
    def incremenet(self):
        Java.count += 1

Explicit is better than implicit.

N.B: my knowledge in Java is very limited, and it's my first lecture about this Java feature so maybe i miss something (or maybe i miss all the point here :) ), well hope this answer can help someone.

N.B: the lock that i have created is a class variable so threading synchronization happen in class level, if we want to make the synchronization in instance level (only) which i think that how java do it, the code above must change.

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2  
You can also use with lock: instead of the acquire and release methods. –  Thomas K Jan 7 '11 at 13:01
    
@Thomas K: thanks for the remark :) updated –  mouad Jan 7 '11 at 13:05
1  
You probably want to add a return into your decorator: it's not needed for your example but it lets you reuse the decorator with a method that returns something. Also there's no particular reason to explicitly access the lock through the class so long as you don't assign to it you can access the class variable through the instance. with self.lock: return method(self, *args, **kws) –  Duncan Jan 7 '11 at 13:16
    
@Duncan: thanks for the remarks :) updated , now i'm angry about my self how did i miss that –  mouad Jan 7 '11 at 13:24
1  
@singularity: Yeah you're right. Guess there are too many possibilities. –  Jochen Ritzel Jan 7 '11 at 17:49

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