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[Python 3.1]

My program takes a long time to run just because of the pickle.load method on a huge data structure. This makes debugging very annoying and time-consuming: every time I make a small change, I need to wait for a few minutes to see if the regression tests passed.

I would like replace pickle with an in-memory data structure.

I thought of starting a python program in one process, and connecting to it from another; but I am afraid the inter-process communication overhead will be huge.

Perhaps I could run a python function from the interpreter to load the structure in memory. Then as I modify the rest of the program, I can run it many times (without exiting the interpreter in between). This seems like it would work, but I'm not sure if I will suffer any overhead or other problems.

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Are you also modifying the rest of the program in the interpreter? If not, maybe module loading will be an issue. – Danosaure Nov 15 '10 at 23:03
Are you using cPickle? Which version of Python? – Greg Hewgill Nov 15 '10 at 23:05
@Danosaure I'm modifying the rest of the program in an editor outside the interpreter. So I guess it won't work as I hoped; perhaps there's some way to force the interpreter to reload the modules if they are changed? – max Nov 15 '10 at 23:07
I'm not sure whether I'm understanding correctly but Python does have a reload function to reload an imported module. ( ctrl+f reload) – Rob Lourens Nov 15 '10 at 23:12
What are you pickling that's so big? Sounds like maybe you should use a database? – Falmarri Nov 15 '10 at 23:39

2 Answers 2

up vote 0 down vote accepted

You can use mmap to open a view on the same file in multiple processes, with access at almost the speed of memory once the file is loaded.

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While it still makes me spend time to re-parse the file into the data structure, it's a very interesting feature. However, reading mmap docs, I don't see how I can use it: when I make changes to one of the modules and run the program again, the new process won't be a child process; how can it see the mmap object then? – max Nov 16 '10 at 2:29
Opening the same file in mmap() will show the same view on the file. – Ignacio Vazquez-Abrams Nov 16 '10 at 11:04
I guess this is the only solution that doesn't require me to start the program in the interpreter. I still prefer the interpreter solution for my needs - assuming it has no hidden problems! - because it allows me to persist the data structure rather than just raw file data. – max Nov 16 '10 at 16:47

First you can pickle different parts of the hole object using this method:


import random
import pickle

class BigBadObject(object):
   def __init__(self):
      for x in xrange(random.randint(1, 1000)):
      for x in xrange(random.randint(1000, 10000)):
      self.a_string=''.join([chr(random.randint(65, 90)) 
                        for x in xrange(random.randint(100, 10000))])

if __name__=="__main__":
   output=open('lotsa_objects.pickled', 'wb')
   for i in xrange(10000):
      pickle.dump(BigBadObject(), output, pickle.HIGHEST_PROTOCOL)

Once you generated the BigFile in various separate parts you can read it with a python program with several running at the same time reading each one different parts.


from threading import Thread
from Queue import Queue, Empty
import cPickle as pickle
import time
import operator

from gen_objects import BigBadObject

class Reader(Thread):
   def __init__(self, filename, q):
      Thread.__init__(self, target=None)
      self._file=open(filename, 'rb')
   def run(self):
      while True:
         except EOFError:

class uncached(object):
   def __init__(self, filename, queue_size=100):
      self._my_reader=Reader(filename, self._my_queue)
   def __iter__(self):
      while True:
         if not self._my_reader.is_alive():
         # Loop until we get something or the thread is done processing.
            print "Getting from the queue. Queue size=", self._my_queue.qsize()
            o=self._my_queue.get(True, timeout=0.1) # Block for 0.1 seconds 
            yield o
         except Empty:

# Compute an average of all the numbers in a_lists, just for show.

for x in uncached('lotsa_objects.pickled'):
   list_avg+=reduce(operator.add, x.a_list)

print "Average: ", list_avg/list_count

This way of reading the pickle file will take 1% of the time it takes in the other way. This is because you are running 100 parallel threads at the same time.

share|improve this answer
It seems to me that threads would collide while trying to read from disk; while my Python program uses only 1 out of 8 CPU threads, the disk I/O is already at full capacity. In other words, I don't think I can read from disk any faster by having multiple threads do it. – max Nov 16 '10 at 2:46

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