Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I need my program to execute a certain function in parallel. But that function branches off into different results depending on how the user interacts with the program. I have a simple GUI within a module named threadGUI.py that has two options: Downloading and uploading. These options create dictionaries containing variables related to the function. These dictionaries are stored in a main dictionary which is stored in the thread_test.py module. These work fine when executing one after the other, but when I try to do it in parallel something goes wrong. The threading related code in threadGUI.py:

def OnStartClick(self):
  for i in thread_test.dictList.values():        #the main dictionary is stored as a global in thread_test.py
     thread = Thread(target = thread_test.begin_tests, args = (i, ))
     thread.start()
  print "thread finished...exiting"

The above function calls the begin_test function within the thread_test.py module. The function looks like so:

def begin_tests(arg): 
    print arg
    print dictList
    dictItem = arg
    print dictItem
    if dictItem['Type'] == "HTTP_Downloading":
        print "DOWNLOAD"
    elif dictItem['Type'] == "FTP_Uploading":
        print "UPLOAD"
    else:
        print "Invalid input"
        sys.exit(1)

This is a simplified example of my code. My problem is that my code is only executing one function out of the two instead of both. So if I created a dictionary which called a download, upload, download then it would execute three downloads, instead of the desired pattern.

share|improve this question

1 Answer 1

The problem is not in the code posted:

from threading import Thread

dictList = {
    'foo': { 'Type': 'HTTP_Downloading' },
    'bar': { 'Type': 'FTP_Uploading' },
    'baz': { 'Type': 'HTTP_Downloading' }
}

def begin_tests(arg):
    print arg
    print dictList
    dictItem = arg
    print dictItem
    if dictItem['Type'] == "HTTP_Downloading":
        print "DOWNLOAD"
    elif dictItem['Type'] == "FTP_Uploading":
        print "UPLOAD"
    else:
        print "Invalid input"
        sys.exit(1)

def OnStartClick(self):
  for i in dictList.values():        #the main dictionary is stored as a global in thread_test.py
     thread = Thread(target = begin_tests, args = (i, ))
     thread.start()
  print "thread finished...exiting"

OnStartClick(None)

Results in:

{'Type': 'HTTP_Downloading'}
{'baz': {'Type': 'HTTP_Downloading'}, 'foo': {'Type': 'HTTP_Downloading'}, 'bar': {'Type': 'FTP_Uploading'}}
{'Type': 'HTTP_Downloading'}
 {DOWNLOAD
{'Type': 'FTP_Uploading'}
'Type': 'HTTP_Downloading'}
{'baz': {'Type': 'HTTP_Downloading'}, 'foo': {'Type': 'HTTP_Downloading'}, 'bar': {'Type': 'FTP_Uploading'}}
{'baz': {'Type': 'HTTP_Downloading'}, 'foo': {'Type': 'HTTP_Downloading'}, 'bar': {'Type': 'FTP_Uploading'}}
 thread finished...exiting
{'Type': 'HTTP_Downloading'}
DOWNLOAD
{'Type': 'FTP_Uploading'}
UPLOAD

At a guess, the you are reusing the inner dict.

UPDATE:

I think this case is better solved by using a worker-pool-and-queue strategy. Something like:

from Queue import Queue
from threading import Thread

queue = Queue() # Replaces the dictList

threads = []
for n in range(10):
    thread = Thread(target = worker, args = (begin_tests, queue, ))
    thread.start()
    threads.append(thread)

Stop = object()
def worker(work, queue):
    while True:
        task = queue.get()
        if task is Stop:
            break
        work(task)            

Use it like so:

queue.put({ 'Type': 'HTTP_Downloading' })
queue.put({ 'Type': 'FTP_Uploading' })
queue.put({ 'Type': 'HTTP_Downloading' })
queue.put(Stop)

This does not in itself address the problem of mutating the dicts; that has to be fixed elsewhere. This strategy has two benefits: it does preserve the order of tasks and it does not risk losing tasks: dict makes limited concurrency guarantees, whereas Queue() is guaranteed to be thread-safe.

share|improve this answer
    
I came to that realization soon after posting my question so your guess is right. I currently don't know how to go about a work around though. Once the next thread starts it overwrites the dictItem and causes errors in any previous ongoing threads. Is there any way to fix a global variable to that specific thread instead of affecting all of them? –  Joe Jun 5 '12 at 14:14
    
The queues sound great but this program is too far gone to switch over right now. Maybe if I have time at the end to optimize the code I can give them a go. It turned out I was messing with global variables too much and I discovered local threading storage which solved my issue. Thanks for your help anyway, it helped me narrow down the issue! –  Joe Jun 6 '12 at 15:30

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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