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# file1.py

class _Producer(self):

  def __init__(self):
    self.chunksize = 6220800
    with open('/dev/zero') as f:
      self.thing = f.read(self.chunksize)
    self.n = 0
    self.start()

  def start(self):
    import subprocess
    import threading

    def produce():
      self._proc = subprocess.Popen(['producer_proc'], stdout=subprocess.PIPE)
      while True:
        self.thing = self._proc.stdout.read(self.chunksize)
        if len(self.thing) != self.chunksize:
          msg = 'Expected {0} bytes.  Read {1} bytes'.format(self.chunksize, len(self.thing))
          raise Exception(msg)
        self.n += 1

    t = threading.Thread(target=produce)
    t.daemon = True
    t.start()
    self._thread = t

  def stop(self):
    if self._thread.is_alive():
      self._proc.terminate()
      self._thread.join(1)

producer = _Producer()
producer.start()

I have written some code more or less like the above design, and now I want to be able to consume the output of producer_proc in other files by going:

# some_other_file.py
import file1
my_thing = file1.producer.thing 

Multiple other consumers might be grabbing a reference to file.producer.thing, they all need to use from the same producer_proc. And the producer_proc should never be blocked. Is this a sane implementation? Does the python GIL make it thread safe, or do I need to reimplement using a Queue for getting data of the worker thread? Do consumers need to explicitly make a copy of the thing?

I guess am trying to implement something like Producer/Consumer pattern or Observer pattern, but I'm not really clear on all the technical details of design patterns.

  • A single producer is constantly making things
  • Multiple consumers using things at arbitrary times
  • producer.thing should be replaced by a fresh thing as soon as the new one is available, most things will go unused but that's ok
  • It's OK for multiple consumers to read the same thing, or to read the same thing twice in succession. They only want to be sure they have got the most recent thing when asked for it, not some stale old thing.
  • A consumer should be able to keep using a thing as long as they have it in scope, even though the producer may have already overwritten his self.thing with a fresh new thing.
share|improve this question
up vote 1 down vote accepted

Given your (unusual!) requirements, your implementation seems correct. In particular,

  • If you're only updating one attribute, the Python GIL should be sufficient. Single bytecode instructions are atomic.
  • If you do anything more complex, add locking! It's basically harmless anyway - if you cared about performance or multicore scalability, you probably wouldn't be using Python!
  • In particular, be aware that self.thing and self.n in this code are updated in a separate bytecode instructions. The GIL could be released/acquired between, so you can't get a consistent view of the two of them unless you add locking. If you're not going to do that, I'd suggest removing self.n as it's an "attractive nuisance" (easily misused) or at least adding a comment/docstring with this caveat.
  • Consumers don't need to make a copy. You're not ever mutating a particular object pointed to by self.thing (and couldn't with string objects; they're immutable) and Python is garbage-collected, so as long as a consumer grabbed a reference to it, it can keep accessing it without worrying too much about what other threads are doing. The worst that could happen is your program using a lot of memory from several generations of self.thing being kept alive.

I'm a bit curious where your requirements came from. In particular, that you don't care if a thing is never used or used many times.

share|improve this answer
    
Thanks, the requirements came from a need to change the performance of some code which is currently using a pull model on producer_proc to a push model, without appearing to change the interface of the code. The thing in my case is a raw video frame (note 6220800 == 1920*1080*3). The old code spawns a capture process any time a video frame is requested, which has some delay. I would rather the capture process is chugging away in the background all the time, to avoid this delay. – wim Sep 19 '11 at 2:19
    
By the way, I have now a related problem which I unfortunately did not make clear in the requirements of original question - I need to read 25 things, i.e. almost 150 megabytes, per second. The code above works, but if there is heavy load on the CPU due to other stuff running in the OS, the producer thread can not run fast enough and the output gets blocked up. How can I ensure that I'm reading data as fast as it is produced, or alternatively, that data will be simply be dropped (at frame boundaries!) rather than trying to read every byte of output? – wim Sep 19 '11 at 2:26
    
Hmm. It sounds like you have a pipe or character device to get the video frames? There's no seek then, so I don't believe there is any way to skip bytes. I don't see a way with the Python API to read() into a preallocated discard buffer either. As far as reading faster, my best suggestion would be to not use Python. :( (If not rewrite the whole program, then implement the producer as a C Python extension module.) Python's a fun language but terribly slow and with the Global Interpreter Lock, almost single-processor. – Scott Lamb Sep 19 '11 at 5:41

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