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I'm reading this question which asks if generators are thread-safe, and one answer said:

It's not thread-safe; simultaneous calls may interleave, and mess with the local variables.

Another answer shows that you can use a lock to ensure that only one thread uses the generator at a time.

I'm new to multithreading. Can anyone devise an example to show what exactly happens when you use the generator without lock?

For example, it doesn't seem to have any problems if I do this:

  import threading

  def generator():
      for i in data:
          yield i

  class CountThread(threading.Thread):
      def __init__(self, name):
          self.name = name

      def run(self):
          for i in gen():
              print '{0} {1}'.format(self.name, i)

  data = [i for i in xrange(100)]
  gen = generator()
  a = CountThread('a')
  b = CountThread('b')
share|improve this question
It's very hard to show an example of something not working due to threads, because you never know how much time a thread will get or what order they'll run in. It could be shear luck that nothing bad happens. –  Alec Teal Nov 18 '13 at 8:48
Seriously, stop asking the same question over and over. (stackoverflow.com/questions/20042534/…) If you are not sure about something, please come and move this conversation to the Python Chat Room. –  Inbar Rose Nov 18 '13 at 8:49
@InbarRose Are they the same question? I'm asking what happens when it fails. –  Haiyang Nov 18 '13 at 8:57
@InbarRose: This question is fine, it's different from what he asked in your linked question. –  justhalf Nov 18 '13 at 9:05

1 Answer 1

up vote 2 down vote accepted

Run this example.

You'll see that the 10 000 numbers will be "shared" across threads. You won't see the 10 000 numbers in both threads.

It's actually most likely that one thread will see all the numbers.

import threading

class CountThread(threading.Thread):
  def __init__(self, gen):
      self.gen = gen
      self.numbers_seen = 0

  def run(self):
      for i in self.gen:
          self.numbers_seen += 1

def generator(data):
    for _ in data:
        yield data

gen = generator(xrange(10000))

a = CountThread(gen)
b = CountThread(gen)



print "Numbers seen in a", a.numbers_seen
print "Numbers seen in b", b.numbers_seen

Actually, if it happens that Python switches threads during execution (just use a higher value than 10000, e.g. 10000000), you'll get an exception:

Exception in thread Thread-2:
Traceback (most recent call last):
  File "/usr/local/Cellar/python/2.7.5/Frameworks/Python.framework/Versions/2.7/lib/python2.7/threading.py", line 808, in __bootstrap_inner
  File "test.py", line 10, in run
    for i in self.gen:
ValueError: generator already executing
share|improve this answer
Interesting that if you use the built-in iter() function instead of your generator() function -- as in gen = iter(xrange(100000000)) -- it seems to always make it all the way thought without the exception. I'm not saying you're wrong -- perhaps the objects returned from iter() are thread-safe, although there's no mention of that in the documentation. –  martineau Nov 18 '13 at 9:53
iter() isn't a generator, it's a completely custom iterator that maintains its' own state (as opposed to a generator which has to do this far more generically) –  Nick Bastin Nov 18 '13 at 11:01
@Nick Bastin: A generator is just a function which returns an iterator, so since the iter() built-in function returns an iterator object, by definition it is a generator. –  martineau Nov 18 '13 at 20:28
@martineau: Not really - it may look like a duck (generator) and quack like a duck (generator), but is implemented completely differently internally, and thus doesn't have the same issues as a generator created wholly in python (as iter() is implemented wholly in C). A python generator (one created using yield) inherits thread safety issues inherent to the CPython implementation, but as iter() is implemented entirely in C it can avoid the problem of having to be threadsafe while calling back into your python code to get the next value. –  Nick Bastin Nov 18 '13 at 20:53
@NickBastin: Yeah, I know it's because iter() is implemented in C. As I originally commented, I just thought it was interesting. But now I'm now wondering if there might be some way to inherit or otherwise leverage it's thread-safety to make one's own pure-python generators created with yield also that way... –  martineau Nov 18 '13 at 21:00

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