Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

By "internal function", I mean a function that is called from within the same module it is defined in.

I am using the mock library, specifically the patch decorators, in my unit tests. They're Django unit tests, but this should apply to any python tests.

I have one module with several functions, many of which call each other. For example (fictitious code, ignore the lack of decimal.Decimal):

TAX_LOCATION = 'StateName, United States'

def add_tax(price, user):
    tax = 0
    if TAX_LOCATION == 'StateName, UnitedStates':
        tax = price * .75
    return (tax, price+tax)

def build_cart(...):
    # build a cart object for `user`
    tax, price = add_tax(, cart.user)
    return cart

These are part of a deeper calling chain (func1 -> func2 -> build_cart -> add_tax), all of which are in the same module.

In my unit tests, I'd like to disable taxes to get consistent results. As I see it, my two options are 1) patch out TAX_LOCATION (with an empty string, say) so that add_tax doesn't actually do anything or 2) patch out add_tax to simply return (0, price).

However, when I try to patch either of these the patch seems to work externally (I can import the patched part inside the test and print it out, getting expected values), but seems to have no effect internally (the results I get from the code behave as if the patch were not applied).

My tests are like this (again, fictitious code):

from mock import patch
from django.test import TestCase

class MyTests(TestCase):

    @patch('mymodule.TAX_LOCATION', '')
    def test_tax_location(self):
        import mymodule
        print mymodule.TAX_LOCATION # ''
        self.assertEqual(, original_price) # fails, tax applied

    @patch('mymodule.add_tax', lambda p, u: (0, p))
    def test_tax_location(self):
        import mymodule
        print mymodule.add_tax(50, None) # (0, 50)
        self.assertEqual(, original_price) # fails, tax applied

Does anyone know if it's possible for mock to patch out functions used internally like this, or am I out of luck?

share|improve this question
Any import inside of the test function will see the patched values, but I suspect the problem is still a "namespace" one. (i.e. where the patching is being done and where they are being used doesn't match). You're not showing the real code - mymodule.func1() isn't shown and where "cart" comes from isn't shown - so I can't diagnose the problem (I'm the author of mock). – fuzzyman May 24 '11 at 15:02
@fuzzyman, ironically, I've been completely unsuccessful so far in my attempts to produce a short example that reproduces the problem (I've tried several things in both simple python modules and a simple django project, everything behaves as expected). The project I'm using this in is a really huge django project, though, so at this point I believe there are some tainted things going on with the imports (from the example here, from within build_cart, print sys.modules['app.views'].add_tax prints a Mock object while print add_tax prints the original function). – eternicode Jul 12 '11 at 21:18
up vote 12 down vote accepted

The answer: Clean up your darned imports

@patch('mymodule.TAX_LOCATION', '') did indeed patch things appropriately, but since our imports at the time were very haphazard -- sometimes we imported mymodule.build_cart, sometimes we imported project.mymodule.build_cart -- instances of the "full" import were not patched at all. Mock couldn't be expected to know about the two separate import paths... without being told explicitly, anyway.

We've since standardized all our imports on the longer path, and things behave much more nicely now.

share|improve this answer

I'm pretty sure your problem is that you are importing 'mymodule' inside your test functions, and therefore the patch decorator has no chance of actually patching. Do the import at the top of the module, like any other import.

share|improve this answer
If that's the case, why does the patched function behave as expected when called from within the test function? Besides that, I still get undesirable behavior when I omit the imports altogether. Thanks for the try, though. – eternicode Mar 18 '11 at 1:20

another option is to explicitly call patch on the function:


and to support both running directly or from py.test etc:

mock.patch(__name__ + '.' + 'function_name')
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.