Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

For testing things that query the environment (e.g., os.getenv, sys.version, etc.), it's often more convenient to make the queries lie than to actually fake up the environment. Here's a context manager that does this for one os.getenv call at a time:

from __future__ import with_statement
from contextlib import contextmanager
import os

def fake_env(**fakes):
    '''fakes is a dict mapping variables to their values. In the
    fake_env context, os.getenv calls try to return out of the fakes
    dict whenever possible before querying the actual environment.

    global os
    original = os.getenv

    def dummy(var):
        try: return fakes[var]
        except KeyError: return original(var)

    os.getenv = dummy
    os.getenv = original

if __name__ == '__main__':

    print os.getenv('HOME') 
    with fake_env(HOME='here'):
        print os.getenv('HOME') 
    print os.getenv('HOME') 

But this only works for os.getenv and the syntax gets a bit clunky if I allow for functions with multiple arguments. I guess between ast and code/exec/eval I could extend it to take the function to override as a parameter, but not cleanly. Also, I would then be on my way to Greenspun's Tenth. Is there a better way?

share|improve this question

2 Answers 2

up vote 4 down vote accepted

You could easily just pass os.getenv itself as the first argument, then analyze it in the context manager much more simply than ast, code, etc etc:

>>> os.getenv.__name__
>>> os.getenv.__module__

After that, for reasonably general purpose use, you could have the result object to be returned, or a mapping from arguments (probably tuples thereof) to results. The faker context manager could also optionally accept a callable to be used for faking.

For example, with maximum simplicity:

import sys

def faker(original, fakefun):

    original = os.getenv
    themod = sys.modules[original.__module__]
    thename = original.__name__

    def dummy(*a, **k):
        try: return fakefun(*a, **k)
        except BaseException: return original(*a, **k)

    setattr(themod, thename, dummy)
    setattr(themod, thename, original)

Your specific example could become:

with faker(os.getenv, dict(HOME='here').__getitem__):

Of course, a little more complexity may be warranted if e.g. you want to propagate certain exceptions rather than punting to the original function, or shortcut some common cases where providing a fakefun callable is clunky, and so on. But there's no reason such a general faker need be much more complex than your specific one.

share|improve this answer
So this is the Python time machine. Right, the missing piece in my head was how to extract the module and name from the function itself rather than its string name (e.g., 'os.getenv'). Thanks! –  Wang Aug 3 '10 at 14:11
@Wang, you're most welcome! –  Alex Martelli Aug 3 '10 at 14:13
I didn't understand this at the time, but it's actually very important to re-import the module, isn't it? If, say, you just look it up in locals()/globals(), then it breaks when the module is imported under a different name (e.g., import csv as bob). –  Wang Aug 5 '10 at 18:50
@Wang, original.__module__ won't be affected by that as clause anyway -- try it! –  Alex Martelli Aug 5 '10 at 22:01
Right, that's what I meant. original.__module__ will always use the standard name, and sys.modules will always map from the standard name to the module. But locals()/globals() might list it under the as-clause name. –  Wang Aug 10 '10 at 13:59

Why not write your own (fake) sys, os, &c. modules?

import fakeSys as sys
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.