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Goal:

  • run ~40 huge queries in a db using SQLAlchemy with Threads or Processes, put the corresponding SQLA ResultProxies in a Queue.Queue (being handled by multiprocessing.Manager)
  • at the same time, write the results to .csv files with a number of Processes that consume said Queue

Current state:

  • QueryThread and WriteThread classes that run the queries and write the data; since the queries take some time to run, there is no significant performance loss due to how the GIL handles threading
  • writing the files on the other hand takes forever; in fact, even though the original idea was to run multiple threads of the WriteThread class, the best performance is obtained with a single thread.

Hence the idea to use multiprocessing; I want to be able to write the output concurrently and not be CPU bound but rather I/O bound.

Background aside, here's the issue (which is essentially a design question) - the multiprocessing library works by pickling objects and then piping the data to other spawned processes; but the ResultProxy objects and shared Queue that I'm trying to use in the WriteWorker Process aren't picklable, which results in the following message (not verbatim, but close enough):

pickle.PicklingError: Can't pickle object in WriteWorker.start()

So the question for you helpful folks is, any ideas on a potential design pattern or approach that would avoid this issue? This seems like a simple, classic producer-consumer problem, I imagine the solution is straightforward and I'm just overthinking it

any help or feedback is appreciated! thanks :)

edit: here's some relevant snippets of code, let me know if there's any other context I can provide

from the parent class:

#init manager and queues
self.manager = multiprocessing.Manager()
self.query_queue = self.manager.Queue()
self.write_queue = self.manager.Queue()


def _get_data(self):
    #spawn a pool of query processes, and pass them query queue instance
    for i in xrange(self.NUM_QUERY_THREADS):
        qt = QueryWorker.QueryWorker(self.query_queue, self.write_queue, self.config_values, self.args)
        qt.daemon = True
        # qt.setDaemon(True)
        qt.start()

    #populate query queue
    self.parse_sql_queries()

    #spawn a pool of writer processes, and pass them output queue instance
    for i in range(self.NUM_WRITE_THREADS):
        wt = WriteWorker.WriteWorker(self.write_queue, self.output_path, self.WRITE_BUFFER, self.output_dict)
        wt.daemon = True
        # wt.setDaemon(True)
        wt.start()

    #wait on the queues until everything has been processed
    self.query_queue.join()
    self.write_queue.join()

and from the QueryWorker class:

def run(self):
    while True:
        #grabs host from query queue
        query_tupe = self.query_queue.get()
        table =  query_tupe[0]
        query = query_tupe[1]
        query_num = query_tupe[2]
        if query and table:
            #grab connection from pool, run the query
            connection = self.engine.connect()
            print 'Running query #' + str(query_num) + ': ' + table
            try:
                result = connection.execute(query)
            except:
                print 'Error while running query #' + str(query_num) + ': \n\t' + str(query) + '\nError: '  + str(sys.exc_info()[1])

            #place result handle tuple into out queue
            self.out_queue.put((table, result))

        #signals to queue job is done
        self.query_queue.task_done()
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1 Answer 1

up vote 1 down vote accepted

The simple answer is to avoid using ResultsProxy directly. Instead get the data from the ResultsProxy using cursor.fetchall() or cursor.fetchmany(number_to_fetch) and then pass the data into the multiprocessing queue.

share|improve this answer
    
That works as long as there aren't too many results. You can also set up a feeder/consumer system where the process with the cursor sends data to the child in chunks and the child requests more when it has finished with the first however many. –  Perkins Nov 28 '12 at 17:18
    
Thanks for the suggestions, I implemented this approach and it's working swimmingly. I call fetchmany(), populate a chunk_queue with the results of that, and then the consumer processes write based on the queue –  ignorantslut Nov 29 '12 at 20:15

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