Writing a TTL decorator in Python

Question

I'm trying to write a TTL decorator in python. Basically I give it raise an exception if the function doesn't answer in the selected time.

You can find the thead2 snippets on http://sebulba.wikispaces.com/recipe+thread2

from thread2 import Thread

"""  A TTL decorator. """
class Worker(Thread):
    def __init__(self, q, f, args, kvargs):
        Thread.__init__(self)

        self.q = q
        self.f = f
        self.args = args
        self.kvargs = kvargs

    def run(self,):
        try:
            res = (True, self.f(*self.args, **self.kvargs))
            self.q.put(res)
        except Exception, e:
            self.q.put((False, e))

class Referee(Thread):
    def __init__(self,q, ttl,exception_factory):
        Thread.__init__(self)

        self.exception_factory=exception_factory    
        self.q=q
        self.ttl=ttl

    def run(self):
        time.sleep(self.ttl)
        res = (False, self.exception_factory())
        self.q.put(res)

def raise_if_too_long(ttl, exception_factory=lambda :RuntimeError("Timeout")):
    def raise_if_too_long_aux(f):
        def ritl(*args,**kvargs):
            q = Queue.Queue(2)

            referee = Referee(q, ttl, exception_factory)
            worker = Worker(q,f,args,kvargs)

            worker.start()
            referee.start()

            (valid, res)= q.get(1)

            q.task_done()

            referee.terminate()
            worker.terminate()

            if valid:
                return res
            else:
                raise res

        return ritl

    return raise_if_too_long_aux

However, I get some pretty bad result. It seems like sometimes the function is returning alright yet the decorator doesn't return until the TTL is reached and the error raises.

Do you see something wrong in this code? Is there a common way/library to write function with a TTL in python?

Answer 1

The code provided is a bit tough to follow -- how is it going to raise an exception in the right place at the right time in the right thread?

Consider this rough flow:

Decorator function called with target function. Return a function which:

1. Starts thread, calling target function
2. Joins to thread using thread.join([timeout])
3. If you get a timeout, raise an exception, and ignore the result of the thread.
4. If you don't get a timeout, capture the result of the thread and return it.

(You would need to devise a way to capture the output of the thread...)

See http://docs.python.org/library/threading.html for info on the threading timeout...

(Or just start using erlang :)

Answer 2

If you want the function's execution to be terminated after the timeout has been exceeded, you might want to try code that has that capability. To use the module, all that needs to be done is for your function to be called as an argument to add_timeout, and the returned value can run. Once called, the object's ready property can be polled, and anything returned can be accessed via the value property. The code's documentation should provide an explanation for the rest of the available API.

## {{{ http://code.activestate.com/recipes/577045/ (r2)
#! /usr/bin/env python
"""Provide way to add timeout specifications to arbitrary functions.

There are many ways to add a timeout to a function, but no solution
is both cross-platform and capable of terminating the procedure. This
module use the multiprocessing module to solve both of those problems."""

################################################################################

__author__ = 'Stephen "Zero" Chappell <Noctis.Skytower@gmail.com>'
__date__ = '11 February 2010'
__version__ = '$Revision: 3 $'

################################################################################

import inspect
import sys
import time
import multiprocessing

################################################################################

def add_timeout(function, limit=60):
    """Add a timeout parameter to a function and return it.

    It is illegal to pass anything other than a function as the first
    parameter. If the limit is not given, it gets a default value equal
    to one minute. The function is wrapped and returned to the caller."""
    assert inspect.isfunction(function)
    if limit <= 0:
        raise ValueError()
    return _Timeout(function, limit)

class NotReadyError(Exception): pass

################################################################################

def _target(queue, function, *args, **kwargs):
    """Run a function with arguments and return output via a queue.

    This is a helper function for the Process created in _Timeout. It runs
    the function with positional arguments and keyword arguments and then
    returns the function's output by way of a queue. If an exception gets
    raised, it is returned to _Timeout to be raised by the value property."""
    try:
        queue.put((True, function(*args, **kwargs)))
    except:
        queue.put((False, sys.exc_info()[1]))

class _Timeout:

    """Wrap a function and add a timeout (limit) attribute to it.

    Instances of this class are automatically generated by the add_timeout
    function defined above. Wrapping a function allows asynchronous calls
    to be made and termination of execution after a timeout has passed."""

    def __init__(self, function, limit):
        """Initialize instance in preparation for being called."""
        self.__limit = limit
        self.__function = function
        self.__timeout = time.clock()
        self.__process = multiprocessing.Process()
        self.__queue = multiprocessing.Queue()

    def __call__(self, *args, **kwargs):
        """Execute the embedded function object asynchronously.

        The function given to the constructor is transparently called and
        requires that "ready" be intermittently polled. If and when it is
        True, the "value" property may then be checked for returned data."""
        self.cancel()
        self.__queue = multiprocessing.Queue(1)
        args = (self.__queue, self.__function) + args
        self.__process = multiprocessing.Process(target=_target,
                                                 args=args,
                                                 kwargs=kwargs)
        self.__process.daemon = True
        self.__process.start()
        self.__timeout = self.__limit + time.clock()

    def cancel(self):
        """Terminate any possible execution of the embedded function."""
        if self.__process.is_alive():
            self.__process.terminate()

    @property
    def ready(self):
        """Read-only property indicating status of "value" property."""
        if self.__queue.full():
            return True
        elif not self.__queue.empty():
            return True
        elif self.__timeout < time.clock():
            self.cancel()
        else:
            return False

    @property
    def value(self):
        """Read-only property containing data returned from function."""
        if self.ready is True:
            flag, load = self.__queue.get()
            if flag:
                return load
            raise load
        raise NotReadyError()

    def __get_limit(self):
        return self.__limit

    def __set_limit(self, value):
        if value <= 0:
            raise ValueError()
        self.__limit = value

    limit = property(__get_limit, __set_limit,
                     doc="Property for controlling the value of the timeout.")
## end of http://code.activestate.com/recipes/577045/ }}}