2

In a function, I want to call one line in every 2 seconds. Whenever I use sleep function, the code wait 2 seconds then going to the next instruction. But, I want to call a function in every 2 seconds without disturbing other instructions. Example;

a = None
def foo():
    bar()

    a = a * 12 
    print "A : ",a

def bar():
    a = 0

Every two seconds, a should be resetted. But, in two seconds value of a should be incremented and displayed. Is it possible ? How ?

4
  • You'll need to learn (and learn a lot) about threading. Note that a is not shared between foo and bar in your example, they are independent locals.
    – Martijn Pieters
    Mar 17, 2013 at 12:38
  • @MartijnPieters sorry I forget. Is the answer simple ?
    – demilg
    Mar 17, 2013 at 12:40
  • Sharing variables between threads can be complicated. It requires you to understand threading and thread safety.
    – Martijn Pieters
    Mar 17, 2013 at 12:43
  • @MartijnPieters in foo function, are there any key, like schedule, to put after bar so that it will be scheduled, like in foo bar().schedule(2) ?
    – demilg
    Mar 17, 2013 at 12:46

3 Answers 3

2

You could poll for the time. That is read the current time, store it, process your stuff and then busy wait till the current time matches the stored time + 2 seconds. If you want to you can add a sleep after your stuff. But make sure that the sleep will be finished before the 2 seconds intervall has passed. E.g. sleep for only 1.5 seconds.

If you want to run it independently then you will need to use threading. http://docs.python.org/2/library/threading.html

You may also want to consider the answers here: Executing periodic actions in Python

import time, threading
def foo():
    print(time.ctime())
    threading.Timer(10, foo).start()
0
2

use threading.Timer. but just running bar in your code in separate timer won't work, you have to think about using variables between threads first.

0
0

I would approach your needs using threads and locks.

In fact, I love an open sourced ThreadPool written by Pepe, a friend of mine.

Here is ThreadPool code, and after that, a possible solution:

#! /usr/bin/python
# -*- coding: utf-8 -*-
# File: threadPool.py

import threading
import Queue
import time
import sys
import traceback
import datetime

Instance = None

def getInstance():
    global Instance
    if not Instance:
        Instance = ThreadPool()
    return Instance


class ThreadPool:
    def __init__(self,maxWorkers = 10):
        self.tasks = Queue.Queue()
        self.workers = 0
        self.working = 0
        self.maxWorkers = maxWorkers
        self.allKilled = threading.Event()
        self.countLock = threading.RLock()
        self.timers = {}
        self.timersLock = threading.Lock()
        self.timersThreadLock = threading.Lock()
        self.timersEvent = threading.Event()
        self.allKilled.set()

    def run(self,target,callback = None, *args, **kargs):
        """ starts task.
            target = callable to run with *args and **kargs arguments.
            callback = callable executed when target ends
                       callback sould accept one parameter where target's
                       return value is passed.
                       If callback is None it's ignored.
        """
        self.countLock.acquire()
        if not self.workers:
            self.addWorker()
        self.countLock.release()
        self.tasks.put((target,callback,args,kargs))

    def setMaxWorkers(self,num):
        """ Sets the maximum workers to create.
            num = max workers
                  If number passed is lower than active workers 
                  it will kill workers to match that number. 
        """
        self.countLock.acquire()
        self.maxWorkers = num
        if self.workers > self.maxWorkers:
            self.killWorker(self.workers - self.maxWorkers)
        self.countLock.release()

    def addWorker(self,num = 1):
        """ Add workers.
            num = number of workers to create/add.
        """
        for x in xrange(num):
            self.countLock.acquire()
            self.workers += 1
            self.allKilled.clear()
            self.countLock.release()        
            t = threading.Thread(target = self.__workerThread)
            t.setDaemon(True)
            t.start()

    def killWorker(self,num = 1):
        """ Kill workers.
            num = number of workers to kill.
        """
        self.countLock.acquire()
        if num > self.workers:
            num = self.workers
        self.countLock.release()
        for x in xrange(num):
            self.tasks.put("exit")            

    def killAllWorkers(self,wait = None):
        """ Kill all active workers.
            wait = seconds to wait until last worker ends
                   if None it waits forever.
        """

        self.countLock.acquire()
        self.killWorker(self.workers)
        self.countLock.release()
        self.allKilled.wait(wait)

    def __workerThread(self):
        while True:
            task = self.tasks.get()
            # exit is "special" tasks to kill thread
            if task == "exit":
                break

            self.countLock.acquire()
            self.working += 1
            if (self.working >= self.workers) and (self.workers < self.maxWorkers): # create thread on demand
                self.addWorker()
            self.countLock.release()

            fun,cb,args,kargs = task
            try:
                ret = fun(*args,**kargs)
                if cb:
                    cb(ret)
            except:
                ty,val,tb = sys.exc_info()
                print "Thread Catch:%s" % "".join(traceback.format_exception(ty,val,tb))

            self.countLock.acquire()
            self.working -= 1
            self.countLock.release()                
            del(fun) # Dereference all
            del(cb)
            del(args)
            del(kargs)
            del(task)

        self.countLock.acquire()
        self.workers -= 1
        if not self.workers:
            self.allKilled.set()
        self.countLock.release()

    def timer(self, cb, period):
        """ Add or remove timers.
            cb = callback function.
            period = period in seconds (float)
                     if period is 0 timer is deleted.
        """ 
        self.run(self.__timerThread, None, cb, period) 

    def __timerThread(self, cb, period):
        self.timersLock.acquire()
        self.timersEvent.set()
        if not period:
            if cb in self.timers:
                del(self.timers[cb])
            self.timersLock.release()
            return

        self.timers[cb] = [period,time.time()]    
        self.timersLock.release()

        if not self.timersThreadLock.acquire(0):
            return

        while True:
            self.timersLock.acquire()
            if len(self.timers) == 0:
                self.timersThreadLock.release()
                self.timersLock.release()
                break

            minWait = 30*24*3600
            now = time.time()
            for k,v in self.timers.items():
                period, last = v
                wait = period - (now - last)
                if wait <=0:
                    self.run(k)
                    wait = period
                    v[1] = now
                if wait < minWait:
                    minWait = wait
            self.timersLock.release()
            self.timersEvent.wait(minWait)
            self.timersEvent.clear()         

And a possible solution:

#! /usr/bin/python
# -*- coding: utf-8 -*-
# File: a.py

import threadPool
import time
import threading

class A:
    def __init__(self):
        self.a = 1
        self.alock = threading.Lock()
        self.tp = threadPool.getInstance()

    def bar(self):
        self.alock.acquire()
        self.a = 1
        self.alock.release()

    def foo(self):
        self.tp.timer(self.bar, 2)
        while True:
            self.alock.acquire()
            self.a = self.a * 12 
            self.alock.release()
            print "A : ",self.a
            time.sleep(0.1)

a = A()
a.foo()

Run:

$ python a.py
0

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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