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To create a unit test of a given function, I need to patch ''.join(...).

I've tried many ways to do this (using the mock library) but I just can't get it to work even though I have some experience creating unit tests with that library.

The first issue to arise is that str is a built-in class thus it can't be mocked. A post by William John Bert shows how to deal with this (datetime.date in his case). There is also a possible solution in the "Partial mocking" section of the library's official documentation.

The second issue is str isn't really used directly. Instead, method join of literal '' is called. So, what should the path to patch be?

None of these options worked:

  • patch('__builtin__.str', 'join')
  • patch('string.join')
  • patch('__builtin__.str', FakeStr) (where FakeStr is a subclass of str)

Any help will be greatly appreciated.

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up vote 3 down vote accepted

You can't, because it is not possible to set attributes on built-in classes:

>>> str.join = lambda x: None
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: can't set attributes of built-in/extension type 'str'

and you cannot patch str, since ''.join uses a literal, and thus the interpreter will always create a str, no matter how you try to replace str in __builtin__.

You can see this if you read the bytecode generated:

>>> import dis
>>> def test():
...     ''.join([1,2,3])
... 
>>> dis.dis(test)
  2           0 LOAD_CONST               1 ('')
              3 LOAD_ATTR                0 (join)
              6 LOAD_CONST               2 (1)
              9 LOAD_CONST               3 (2)
             12 LOAD_CONST               4 (3)
             15 BUILD_LIST               3
             18 CALL_FUNCTION            1
             21 POP_TOP             
             22 LOAD_CONST               0 (None)
             25 RETURN_VALUE

The bytecode is generated at compile time, and, as you can see, the first LOAD_CONST loads '' which is a str, no matter how you change the value of str at runtime.

What you can do, is use a wrapper function which can be mocked, or avoid using literals. For example using str() instead of '' allows you to mock the str class with a subclass that implements the join method how you want(even though this may affect too much code and may not be feasible depending on the modules you use).

share|improve this answer
    
Nice way to "peek under the hood"! Thanks – glarrain Mar 4 '13 at 18:30

If you're feeling incredibly lucky, you can inspect and patch the string consts in the code object:

def patch_strings(fun, cls):
    new_consts = tuple(
                  cls(c) if type(c) is str else c
                  for c in fun.func_code.co_consts)

    code = type(fun.func_code)

    fun.func_code = code(
           fun.func_code.co_argcount,
           fun.func_code.co_nlocals, 
           fun.func_code.co_stacksize,
           fun.func_code.co_flags,
           fun.func_code.co_code,
           new_consts,
           fun.func_code.co_names,
           fun.func_code.co_varnames,
           fun.func_code.co_filename,
           fun.func_code.co_name,
           fun.func_code.co_firstlineno,
           fun.func_code.co_lnotab,
           fun.func_code.co_freevars,
           fun.func_code.co_cellvars)

def a():
    return ''.join(['a', 'b'])

class mystr(str):
    def join(self, s):
        print 'join called!'
        return super(mystr, self).join(s)

patch_strings(a, mystr)
print a()      # prints "join called!\nab"

Python3 version:

def patch_strings(fun, cls):
    new_consts = tuple(
                   cls(c) if type(c) is str else c
                   for c in fun.__code__.co_consts)

    code = type(fun.__code__)

    fun.__code__ = code(
           fun.__code__.co_argcount,
           fun.__code__.co_kwonlyargcount,
           fun.__code__.co_nlocals, 
           fun.__code__.co_stacksize,
           fun.__code__.co_flags,
           fun.__code__.co_code,
           new_consts,
           fun.__code__.co_names,
           fun.__code__.co_varnames,
           fun.__code__.co_filename,
           fun.__code__.co_name,
           fun.__code__.co_firstlineno,
           fun.__code__.co_lnotab,
           fun.__code__.co_freevars,
           fun.__code__.co_cellvars)
share|improve this answer

Here I'm patching the variable inside the module I'm testing. I don't like the idea because I'm changing my code to fit the test but it works.

tests.py

import mock

from main import func


@mock.patch('main.patched_str')
def test(patched_str):
    patched_str.join.return_value = "hello"

    result = func('1', '2')

    assert patched_str.join.called_with('1', '2')
    assert result == "hello" 


if __name__ == '__main__':
    test()

main.py

patched_str = ''

def func(*args):
    return patched_str.join(args)
share|improve this answer

There's really no way to do this that will work with string literals, as these always use the built-in str class, which is, as you have found, not patchable in this fashion.

Of course, you could write a function join(seq, sep='') that you use in place of ''.join() and patch that, or a str subclass class Separator that you always use to explicitly construct strings that will be used for join operations (e.g. Separator('').join(....)). These workarounds are kind of ugly, but you can't patch the method otherwise.

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My solution is tricky a little but it works for most of cases. It doesn't use the mock library, BTW. The advantage of my solution is that you keep using ''.join without ugly modifications.

I found this approach when I had to run code written for Python3.3 in Python3.2 (it replaced str(...).casefold with str(...).lower)

Say you have this module:

# my_module.py

def my_func():
    """Print some joined text"""
    print('_'.join(str(n) for n in range(5)))

There's a unittest example for testing it. Note that it's written for Python 2.7, but can be easily modified for Python 3 (see comments):

import re
from imp import reload  # for Python 3

import my_module


class CustomJoinTets(unittest.TestCase):
    """Test case using custom str(...).join method"""
    def setUp(self):
        """Replace the join method with a custom function"""
        with open(my_module.__file__.replace('.pyc', '.py')) as f:
            # Replace `separator.join(` with `custom_join(separator)(`
            contents = re.sub(r"""(?P<q>["'])(?P<sep>.*?)(?P=q)[.]join\(""",
                              r"custom_join(\g<q>\g<sep>\g<q>)(",
                              f.read())

        # Replace the code in the module
        # For Python 3 do `exec(contents, my_module.__dict__)`
        exec contents in my_module.__dict__

        # Create `custom_join` object in the module
        my_module.custom_join = self._custom_join

    def tearDown(self):
        """Reload the module"""
        reload(my_module)

    def _custom_join(self, separator):
        """A factory for a custom join"""
        separator = '+{}+'.format(separator)
        return separator.join

    def test_smoke(self):
        """Do something"""
        my_module.my_func()

if __name__ == '__main__':
    unittest.main()

And if you really want mock library, you can make _custom_join method return MagicMock object:

    def _custom_join(self, separator):
        """A factory for a custom join"""
        import mock

        return mock.MagicMock(name="{!r}.join".format(separator))
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