I'm very new to Python and multithreaded programming in general. Basically, I have a script that will copy files to another location. I would like this to be placed in another thread so I can output .... to indicate that the script is still running.

The problem that I am having is that if the files cannot be copied it will throw an exception. This is ok if running in the main thread; however, having the following code does not work:

try:
threadClass.start()   ##### **Exception takes place here**
except:
print "Caught an exception"


In the thread class itself, I tried to re-throw the exception, but it does not work. I have seen people on here ask similar questions, but they all seem to be doing something more specific than what I am trying to do (and I don't quite understand the solutions offered). I have seen people mention the usage of sys.exc_info(), however I do not know where or how to use it.

All help is greatly appreciated!

EDIT: The code for the thread class is below:

class TheThread(threading.Thread):
def __init__(self, sourceFolder, destFolder):
self.sourceFolder = sourceFolder
self.destFolder = destFolder

def run(self):
try:
shul.copytree(self.sourceFolder, self.destFolder)
except:
raise

-
Can you provide more insight into what is happening inside of TheThread? Code sample perhaps? –  jathanism May 13 '10 at 18:43
Sure. I'll edit my response above to include some details. –  Phanto May 13 '10 at 18:44
Have you considered switching it round so the main Thread is the bit that does stuff and the progress indicator is in the spawned Thread? –  Dan Head May 13 '10 at 19:00
Dan Head, are you referring to the main thread first spawning the "..." function and then running the copy function? That could work and avoid the exception issue. But, I'd still like to learn how to properly thread in python. –  Phanto May 13 '10 at 19:28

The problem is that thread_obj.start() returns immediately. The child thread that you spawned executes in its own context, with its own stack. Any exception that occurs there is in the context of the child thread, and it is in its own stack. One way I can think of right now to communicate this information to the parent thread is by using some sort of message passing, so you might look into that.

Try this on for size:

import sys
import Queue

def __init__(self, bucket):
self.bucket = bucket

def run(self):
try:
raise Exception('An error occured here.')
except Exception:
self.bucket.put(sys.exc_info())

def main():
bucket = Queue.Queue()

while True:
try:
exc = bucket.get(block=False)
except Queue.Empty:
pass
else:
exc_type, exc_obj, exc_trace = exc
# deal with the exception
print exc_type, exc_obj
print exc_trace

continue
else:
break

if __name__ == '__main__':
main()

-
This looks like it will work. I will need to try this when I get a chance. For now, I'm marking your post as the answer. Thank you! –  Phanto May 13 '10 at 23:17
I just tried this, and it does work. Thank you! :) –  Phanto May 13 '10 at 23:40
Why not joining the thread instead of this ugly while loop? See the multiprocessing equivalent: gist.github.com/2311116 –  schlamar Dec 11 '12 at 14:03
Why not using the EventHook pattern stackoverflow.com/questions/1092531/event-system-in-python/… based on @Lasse answer? Rather than the loop thing? –  Andre Miras Jan 22 '14 at 23:01

You have to think of threads in terms of phone calls.

Consider this.

You call up the local city council and ask a question. While they find the answer for you, you hold. When they have the answer, they'll tell it to you, and then you hang up. If for some reason they can't find the answer (exception), they will tell you that.

This is how a synchronous, normal, method call works. You call a method, when it returns, you have the answer (good or bad.)

However, a thread goes more like this:

You call up the local city council and ask a question, and ask them to call you back when they have the answer. You then hang up.

At this point, you don't know if they will find the answer or not, so any attempt, now, to try to handle the result of the inquiry, will fail, as you simply don't have the results yet.

Instead, you have to react to the incoming call, and take the news, good or bad, and then process it.

In terms of your code, you need to have code that reacts to your thread failing, and logs or processes the exception. The code you have in your question, which you say doesn't work, is just like trying to process the results of the phone call right after hanging up, when you still don't have the answer.

-
That is perhaps one of the best explanations of multithreading I have ever read. If my reputation were higher, I would definitely uprank your post. –  Phanto May 13 '10 at 23:16

Although it is not possible to directly catch an exception thrown in a different thread, here's a code to quite transparently obtain something very close to this functionality. Your child thread must subclass the ExThread class instead of threading.Thread and the parent thread must call the child_thread.join_with_exception() method instead of child_thread.join() when waiting for the thread to finish its job.

Technical details of this implementation: when the child thread throws an exception, it is passed to the parent through a Queue and thrown again in the parent thread. Notice that there's no busy waiting in this approach .

#!/usr/bin/env python

import sys
import Queue

def __init__(self):
self.__status_queue = Queue.Queue()

def run_with_exception(self):
"""This method should be overriden."""
raise NotImplementedError

def run(self):
"""This method should NOT be overriden."""
try:
self.run_with_exception()
except Exception:
self.__status_queue.put(sys.exc_info())
self.__status_queue.put(None)

def wait_for_exc_info(self):
return self.__status_queue.get()

def join_with_exception(self):
ex_info = self.wait_for_exc_info()
if ex_info is None:
return
else:
raise ex_info[1]

class MyException(Exception):
pass

def __init__(self):

def run_with_exception(self):

def main():
t.start()
try:
t.join_with_exception()
except MyException as ex:

if __name__ == '__main__':
main()

-

The concurrent.futures module makes it simple to do work in separate threads (or processes) and handle any resulting exceptions:

import concurrent.futures
import shutil

def copytree_with_dots(src_path, dst_path):
# Execute the copy on a separate thread,
# creating a future object to track progress.
future = executor.submit(shutil.copytree, src_path, dst_path)

while future.running():
# Print pretty dots here.
pass

# Return the value returned by shutil.copytree(), None.
# Raise any exceptions raised during the copy process.
return future.result()


concurrent.futures is included with Python 3.2, and is available as the backported futures module for earlier versions.

-

If an exception occurs in a thread, the best way is to re-throw it in the caller thread during join. Extend ExcThread (below), overriding excRun (instead of run).

import threading

def excRun(self):
pass

def run(self):
self.exc = None
try:
self.excRun()
except:
import sys
self.exc = sys.exc_info()

def join(self):
if self.exc:
msg = "Thread '%s' threw an exception: %s" % (self.getName(), self.exc[1])
new_exc = Exception(msg)
raise new_exc.__class__, new_exc, self.exc[2]

-

As a noobie to Threading, it took me a long time to understand how to implement Mateusz Kobos's code (above). Here's a clarified version to help understand how to use it.

#!/usr/bin/env python

import sys
import Queue

def __init__(self):
self.__status_queue = Queue.Queue()

def run_with_exception(self):
"""This method should be overriden."""
raise NotImplementedError

def run(self):
"""This method should NOT be overriden."""
try:
self.run_with_exception()
except Exception:
self.__status_queue.put(sys.exc_info())
self.__status_queue.put(None)

def wait_for_exc_info(self):
return self.__status_queue.get()

def join_with_exception(self):
ex_info = self.wait_for_exc_info()
if ex_info is None:
return
else:
raise ex_info[1]

class MyException(Exception):
pass

def __init__(self):

# This overrides the "run_with_exception" from class "ExThread"
# Note, this is where the actual thread to be run lives. The thread
# to be run could also call a method or be passed in as an object
def run_with_exception(self):
# Code will function until the int
print "sleeping 5 seconds"
import time
for i in 1, 2, 3, 4, 5:
print i
time.sleep(1)
int("str")
# I'm honestly not sure why these appear here? So, I removed them.
# Perhaps Mateusz can clarify?

if __name__ == '__main__':
# The code lives in MyThread in this example. So creating the MyThread
# object set the code to be run (but does not start it yet)
# This actually starts the thread
t.start()
print
print ("Notice 't.start()' is considered to have completed, although"
" the countdown continues in its new thread. So you code "
"can tinue into new processing.")
# Now that the thread is running, the join allows for monitoring of it
try:
t.join_with_exception()
# should be able to be replace "Exception" with specific error (untested)
except Exception, e:
print
print "Exceptioon was caught and control passed back to the main thread"
print "Do some handling here...or raise a custom exception "
e = ("Caught a MyException in thread: '" +
"' [" + str(e) + "]")
raise Exception(e) # Or custom class of exception, such as MyException

-

Using naked excepts is not a good practice because you usually catch more than you bargain for.

I would suggest modifying the except to catch ONLY the exception that you would to handle. I don't think that raising it has the desired effect, because when you go to instantiate TheThread in the outer try, if it raises an exception, the assignment is never going to happen.

Instead you might want to just alert on it and move on, such as:

def run(self):
try:
shul.copytree(self.sourceFolder, self.destFolder)
except OSError, err:
print err


Then when that exception is caught, you can handle it there. Then the outer try catches an exception from TheThread, you know it won't be the one you already handled, and will help you isolate your process flow.

-
Well, if there is an error in that thread at all, I want the full program to inform the user that there was an issue and gracefully end. For that reason, I want the main thread to catch and handle all the exceptions. However, the problem still exists where if TheThread throws an exception, the main thread's try/except still won't catch it. I could have the thread detect the exception and return a false indicating that the operation was unsuccessful. That would achieve the same desired result, but I would still like to know how to properly catch a sub-thread exception. –  Phanto May 13 '10 at 19:35

One method I am fond of is based on the observer pattern. I define a signal class which my thread uses to emit exceptions to listeners. It can also be used to return values from threads. Example:

import threading

class Signal:
def __init__(self):
self._subscribers = list()

def emit(self, *args, **kwargs):
for func in self._subscribers:
func(*args, **kwargs)

def connect(self, func):
self._subscribers.append(func)

def disconnect(self, func):
try:
self._subscribers.remove(func)
except ValueError:
raise ValueError('Function {0} not removed from {1}'.format(func, self))

def __init__(self, *args, **kwargs):
self.Exception = Signal()
self.Result = Signal()

def run(self):
try:
except Exception as e:
self.Exception.emit(e)
else:
self.Result.emit(self._return_value)

if __name__ == '__main__':
import time

def handle_exception(exc):
print exc.message

def handle_result(res):
print res

def a():
time.sleep(1)
raise IOError('a failed')

def b():
time.sleep(2)
return 'b returns'

t.Exception.connect(handle_exception)
t2.Result.connect(handle_result)
t.start()
t2.start()

t.join()
t2.join()
print 'Done'


I do not have enough experience of working with threads to claim that this is a completely safe method. But it has worked for me and I like the flexibility.

-

Similar way like RickardSjogren's without Queue, sys etc. but also without some listeners to signals: execute directly an exception handler which corresponds to an except block.

#!/usr/bin/env python3

def __init__(self, callback=None, *args, **kwargs):
"""
Redirect exceptions of thread to an exception handler.

:param callback: function to handle occured exception
:type args: tuple
:type kwargs: dict
"""
self._callback = callback
super().__init__(*args, **kwargs)

def run(self):
try:
if self._target:
self._target(*self._args, **self._kwargs)
except BaseException as e:
if self._callback is None:
raise e
else:
self._callback(self, e)
finally:
# Avoid a refcycle if the thread is running a function with
# an argument that has a member that points to the thread.
del self._target, self._args, self._kwargs, self._callback