I'm trying to find the way to start a new Process and get its output if it takes less than X seconds. If the process takes more time I would like to ignore the Process result, kill the Process and carry on.
I need to basically add the timer to the code below. Now sure if there's a better way to do it, I'm open to a different and better solution.
from multiprocessing import Process, Queue
def f(q):
# Ugly work
q.put(['hello', 'world'])
if __name__ == '__main__':
q = Queue()
p = Process(target=f, args=(q,))
p.start()
print q.get()
p.join()
Thanks!
You may find the following module useful in your case:
Module
#! /usr/bin/env python3
"""Allow functions to be wrapped in a timeout API.
Since code can take a long time to run and may need to terminate before
finishing, this module provides a set_timeout decorator to wrap functions."""
__author__ = 'Stephen "Zero" Chappell ' \
'<stephen.paul.chappell@atlantis-zero.net>'
__date__ = '18 December 2017'
__version__ = 1, 0, 1
__all__ = [
'set_timeout',
'run_with_timeout'
]
import multiprocessing
import sys
import time
DEFAULT_TIMEOUT = 60
def set_timeout(limit=None):
"""Return a wrapper that provides a timeout API for callers."""
if limit is None:
limit = DEFAULT_TIMEOUT
_Timeout.validate_limit(limit)
def wrapper(entry_point):
return _Timeout(entry_point, limit)
return wrapper
def run_with_timeout(limit, polling_interval, entry_point, *args, **kwargs):
"""Execute a callable object and automatically poll for results."""
engine = set_timeout(limit)(entry_point)
engine(*args, **kwargs)
while engine.ready is False:
time.sleep(polling_interval)
return engine.value
def _target(queue, entry_point, *args, **kwargs):
"""Help with multiprocessing calls by being a top-level module function."""
# noinspection PyPep8,PyBroadException
try:
queue.put((True, entry_point(*args, **kwargs)))
except:
queue.put((False, sys.exc_info()[1]))
class _Timeout:
"""_Timeout(entry_point, limit) -> _Timeout instance"""
def __init__(self, entry_point, limit):
"""Initialize the _Timeout instance will all needed attributes."""
self.__entry_point = entry_point
self.__limit = limit
self.__queue = multiprocessing.Queue()
self.__process = multiprocessing.Process()
self.__timeout = time.monotonic()
def __call__(self, *args, **kwargs):
"""Begin execution of the entry point in a separate process."""
self.cancel()
self.__queue = multiprocessing.Queue(1)
self.__process = multiprocessing.Process(
target=_target,
args=(self.__queue, self.__entry_point) + args,
kwargs=kwargs
)
self.__process.daemon = True
self.__process.start()
self.__timeout = time.monotonic() + self.__limit
def cancel(self):
"""Terminate execution if possible."""
if self.__process.is_alive():
self.__process.terminate()
@property
def ready(self):
"""Property letting callers know if a returned value is available."""
if self.__queue.full():
return True
elif not self.__queue.empty():
return True
elif self.__timeout < time.monotonic():
self.cancel()
else:
return False
@property
def value(self):
"""Property that retrieves a returned value if available."""
if self.ready is True:
valid, value = self.__queue.get()
if valid:
return value
raise value
raise TimeoutError('execution timed out before terminating')
@property
def limit(self):
"""Property controlling what the timeout period is in seconds."""
return self.__limit
@limit.setter
def limit(self, value):
self.validate_limit(value)
self.__limit = value
@staticmethod
def validate_limit(value):
"""Verify that the limit's value is not too low."""
if value <= 0:
raise ValueError('limit must be greater than zero')
To use, see the following example that demonstrates its usage:
Example
from time import sleep
def main():
timeout_after_four_seconds = timeout(4)
# create copies of a function that have a timeout
a = timeout_after_four_seconds(do_something)
b = timeout_after_four_seconds(do_something)
c = timeout_after_four_seconds(do_something)
# execute the functions in separate processes
a('Hello', 1)
b('World', 5)
c('Jacob', 3)
# poll the functions to find out what they returned
results = [a, b, c]
polling = set(results)
while polling:
for process, name in zip(results, 'abc'):
if process in polling:
ready = process.ready
if ready is True: # if the function returned
print(name, 'returned', process.value)
polling.remove(process)
elif ready is None: # if the function took too long
print(name, 'reached timeout')
polling.remove(process)
else: # if the function is running
assert ready is False, 'ready must be True, False, or None'
sleep(0.1)
print('Done.')
def do_something(data, work):
sleep(work)
print(data)
return work
if __name__ == '__main__':
main()
Does the process you are running involve a loop? If so you can get the timestamp prior to starting the loop and include an if statement within the loop with an sys.exit(); command terminating the script if the current timestamp differs from the recorded start time stamp by more than x seconds.
All you need to adapt the queue example from the docs to your case is to pass the timeout to the q.get()
call and terminate the process on timeout:
from Queue import Empty
...
try:
print q.get(timeout=timeout)
except Empty: # no value, timeout occured
p.terminate()
q = None # the queue might be corrupted after the `terminate()` call
p.join()
Using a Pipe
might be more lightweight otherwise the code is the same (you could use .poll(timeout)
, to find out whether there is a data to receive).
The technical post webpages of this site follow the CC BY-SA 4.0 protocol. If you need to reprint, please indicate the site URL or the original address.Any question please contact:yoyou2525@163.com.