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I have a framework composed of different tools written in python in a multi-user environment.

The first time I log to the system and start one command it takes 6 seconds just to show a few line of help. If I immediately issue the same command again it takes 0.1s. After a couple of minutes it gets back to 6s. (proof of short-lived cache)

The system sits on a GPFS so disk throughput should be ok, though access might be low because of the amount of files in the system.

strace -e open python tool | wc -l

shows 2154 files being accessed when starting the tool.

strace -e open python tool | grep ENOENT | wc -l

shows 1945 missing files being looked for. (A very bad hit/miss ratio is you ask me :-)

I have a hunch that the excessive time involved in loading the tool is consumed by querying the GPFS about all those files, and these are cached for the next call (at either system or GPFS level), though I don't know how to test/prove it. I have no root access to the system and I can only write to GPFS and /tmp.

Is it possible to improve this python quest for missing files?

Any idea on how to test this in a simple way? (Reinstalling everything on /tmp is not simple, as there are many packages involved, virtualenv will not help either (I think), since it's just linking the files on the gpfs system).

An option would be of course to have a daemon that forks, but that's far from "simple" and would be a last resort solution.

Thanks for reading.

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2 Answers 2

up vote 1 down vote accepted

How about using imp module? In particular there is a function: imp.find_module(module, path) here http://docs.python.org/2.7/library/imp.html

At least this example (see below) reduces the number of open() syscalls vs simple 'import numpy,scipy': (update: but it doesn't look like it is possible to achieve significant reductions of syscalls this way...)

import imp
import sys


def loadm(name, path):
    fp, pathname, description = imp.find_module(name,[path])
    try:
        _module = imp.load_module(name, fp, pathname, description)
        return _module
    finally:
        # Since we may exit via an exception, close fp explicitly.
        if fp:
            fp.close()


numpy = loadm("numpy", "/home/username/py-virtual27/lib/python2.7/site-packages/")
scipy = loadm("scipy", "/home/username/py-virtual27/lib/python2.7/site-packages/")

I guess you also better check that your PYTHONPATH is empty or small, because that can also increase the loading time.

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Indeed I tried this one out and it looked promising, though all default libraries are run at start up time and I can't tell python from which file it should load a module, but let it search for it in a directory, causing 4 open() calls and at least 2 misses. I just wish there would be a way of telling python not to do that. –  estani Mar 18 '13 at 19:03

Python 2 looks for modules as relative to the current package first. If your library code has a lot of imports for a lot of top-level modules those are all looked up as relative first. So, if package foo.bar import os, then Python first looks for foo/bar/os.py. This miss is cached by Python itself too.

In Python 3, the default has moved to absolute imports instead; you can switch Python 2.5 and up to use absolute imports per module with:

from __future__ import absolute_import

Another source of file lookup misses is loading .pyc bytecode cache files; if those are missing for some reason (filesystem not writable for the current Python process) then Python will continue to look for those on every run. You can create these caches with the compileall module:

python -m compileall /path/to/directory/with/pythoncode

provided you run that with the correct write permissions.

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hmmm... I tried this on the top level call (the script importing the rest), but it just added another 25 files lookups searching for future without any other benefit at all :-/. All .pyc are there, but the order of search is allways: *.so -> *module.so -> *.py -> *.pyc, so it makes no difference. By the way it's absolute_import (no s). Thanks anyways! –  estani Mar 18 '13 at 10:50
    
Corrected. Yes, I imagine Python has to look up C extensions before Python files, and it'll have to find the .py file to test if the .pyc file is perhaps stale. I was trying to give you options for lookups that can be avoided. –  Martijn Pieters Mar 18 '13 at 10:58
    
Indeed, thanks for that! I also tested it with a file that just loads os and turning the __future__ option before made no difference. I think I can try tuning PYTHONPATH, though I wish there would be a way to cache all those calls from one python call to the other... is it possible to load a module into memory from a given path? Perhaps I could pre-load them... –  estani Mar 18 '13 at 11:25
    
@estani: Once an import has succeeded, the imported file is not loaded again. Moving the moment the file is imported into the main script is not going to reduce your startup time though. –  Martijn Pieters Mar 18 '13 at 11:41
    
The idea would be to tell python which file I want to load for each module. So I can cache the location of those files using strace and load them afterwards using something like imp.module_load. I would be using the knowledge I have about the location of those files to speed things up... but this would not be much, since most modules are already loaded on python start up (like os, sys, etc)... –  estani Mar 18 '13 at 12:49

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