I am testing Python threading with the following script:
import threading
class FirstThread (threading.Thread):
def run (self):
while True:
print 'first'
class SecondThread (threading.Thread):
def run (self):
while True:
print 'second'
FirstThread().start()
SecondThread().start()
This is running in Python 2.7 on Kubuntu 11.10. Ctrl + C will not kill it. I also tried adding a handler for system signals, but that did not help:
import signal
import sys
def signal_handler(signal, frame):
sys.exit(0)
signal.signal(signal.SIGINT, signal_handler)
To kill the process I am killing it by PID after sending the program to the background with Ctrl + Z , which isn't being ignored. Why is Ctrl + C being ignored so persistently? How can I resolve this?
Ctrl + C terminates the main thread, but because your threads aren't in daemon mode, they keep running, and that keeps the process alive. We can make them daemons:
f = FirstThread()
f.daemon = True
f.start()
s = SecondThread()
s.daemon = True
s.start()
But then there's another problem - once the main thread has started your threads, there's nothing else for it to do. So it exits, and the threads are destroyed instantly. So let's keep the main thread alive:
import time
while True:
time.sleep(1)
Now it will keep print 'first' and 'second' until you hit Ctrl + C .
Edit: as commenters have pointed out, the daemon threads may not get a chance to clean up things like temporary files. If you need that, then catch the KeyboardInterrupt
on the main thread and have it co-ordinate cleanup and shutdown. But in many cases, letting daemon threads die suddenly is probably good enough.
KeyboardInterrupt 和信号只有进程(即主线程)才能看到...看看Ctrl-c 即 KeyboardInterrupt 以杀死 python 中的线程
I think it's best to call join()
on your threads when you expect them to die. I've taken the liberty to make the change your loops to end (you can add whatever cleanup needs are required to there as well). The variable die
is checked on each pass and when it's True
, the program exits.
import threading
import time
class MyThread (threading.Thread):
die = False
def __init__(self, name):
threading.Thread.__init__(self)
self.name = name
def run (self):
while not self.die:
time.sleep(1)
print (self.name)
def join(self):
self.die = True
super().join()
if __name__ == '__main__':
f = MyThread('first')
f.start()
s = MyThread('second')
s.start()
try:
while True:
time.sleep(2)
except KeyboardInterrupt:
f.join()
s.join()
An improved version of @Thomas K's answer :
is_any_thread_alive()
according to this gist , which can terminates the main()
automatically.Example codes:
import threading
def job1():
...
def job2():
...
def is_any_thread_alive(threads):
return True in [t.is_alive() for t in threads]
if __name__ == "__main__":
...
t1 = threading.Thread(target=job1,daemon=True)
t2 = threading.Thread(target=job2,daemon=True)
t1.start()
t2.start()
while is_any_thread_alive([t1,t2]):
time.sleep(0)
One simple 'gotcha' to beware of, are you sure CAPS LOCK isn't on?
I was running a Python script in the Thonny IDE on a Pi4. With CAPS LOCK on, Ctrl + Shift + C is passed to the keyboard buffer, not Ctrl + C .
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