Say I have a module with the following:

def main():

if __name__ == "__main__":

I want to write a unit test for the bottom half (I'd like to achieve 100% coverage). I discovered the runpy builtin module that performs the import/__name__-setting mechanism, but I can't figure out how to mock or otherwise check that the main() function is called.

This is what I've tried so far:

import runpy
import mock

def test_main(self, main):
    runpy.run_module('foobar', run_name='__main__')

I will choose another alternative which is to exclude the if __name__ == '__main__' from the coverage report , of course you can do that only if you already have a test case for your main() function in your tests.

As for why I choose to exclude rather than writing a new test case for the whole script is because if as I stated you already have a test case for your main() function the fact that you add an other test case for the script (just for having a 100 % coverage) will be just a duplicated one.

For how to exclude the if __name__ == '__main__' you can write a coverage configuration file and add in the section report:


exclude_lines =
    if __name__ == .__main__.:

More info about the coverage configuration file can be found here.

Hope this can help.

  • 1
    Heya, I've added a new answer that gives 100% test coverage (with tests !) and doesn't require ignoring anything. Let me know what you think: stackoverflow.com/a/27084447/1423157 Thanks.
    – robru
    Nov 23 '14 at 23:59
  • For those wondering: nose-cov uses coverage.py underneath, so a .coveragerc file with the above content will work just fine.
    – Joscha
    Nov 12 '15 at 4:58
  • 15
    IMHO, even if I found it interesting and useful, this answer does not actually give a response to the OP. He want to test that main is called, not to skip this check. Otherwise, the script could actually do everything except what actually expected, when launched, with tests saying "OK, everything works!". And the main function could be fully unit-tested, even if being never called actually.
    – iacopo
    Feb 5 '17 at 10:25
  • 2
    It might not give a response to OP, but it is a good answer for practical purposes which is how I found this question at least. A similar solution is using # pragma: no cover like so if __name__ == '__main__': # pragma: no cover. Personally I'm not willing to do this because it clutters the code and is pretty ugly, so I think mouad's answer is the best solution, but others may find it useful. Jun 11 '17 at 1:06
  • @mouad If we're being very specific, I think technically the regex line should use ['"] instead of . like: __name__ == ['"]__main__['"]:. Jun 11 '17 at 1:12

You can do this using the imp module rather than the import statement. The problem with the import statement is that the test for '__main__' runs as part of the import statement before you get a chance to assign to runpy.__name__.

For example, you could use imp.load_source() like so:

import imp
runpy = imp.load_source('__main__', '/path/to/runpy.py')

The first parameter is assigned to __name__ of the imported module.

  • 7
    The imp module seems to work much like the runpy module I used in the question. The problem is that the mock cannot (apparently) be inserted after the module was loaded and before the code was run. Do you have any suggestions for this?
    – Nikolaj
    May 1 '11 at 19:54

Whoa, I'm a little late to the party, but I recently ran into this issue and I think I came up with a better solution, so here it is...

I was working on a module that contained a dozen or so scripts all ending with this exact copypasta:

if __name__ == '__main__':
    if '--help' in sys.argv or '-h' in sys.argv:

Not horrible, sure, but not testable either. My solution was to write a new function in one of my modules:

def run_script(name, doc, main):
    """Act like a script if we were invoked like a script."""
    if name == '__main__':
        if '--help' in sys.argv or '-h' in sys.argv:

and then place this gem at the end of each script file:

run_script(__name__, __doc__, main)

Technically, this function will be run unconditionally whether your script was imported as a module or ran as a script. This is ok however because the function doesn't actually do anything unless the script is being ran as a script. So code coverage sees the function runs and says "yes, 100% code coverage!" Meanwhile, I wrote three tests to cover the function itself:

def test_run_script_as_import(self, sysMock):
    """The run_script() func is a NOP when name != __main__."""
    mainMock = Mock()
    sysMock.argv = []
    run_script('some_module', 'docdocdoc', mainMock)
    self.assertEqual(mainMock.mock_calls, [])
    self.assertEqual(sysMock.exit.mock_calls, [])
    self.assertEqual(sysMock.stdout.write.mock_calls, [])

def test_run_script_as_script(self, sysMock):
    """Invoke main() when run as a script."""
    mainMock = Mock()
    sysMock.argv = []
    run_script('__main__', 'docdocdoc', mainMock)
    self.assertEqual(sysMock.stdout.write.mock_calls, [])

def test_run_script_with_help(self, sysMock):
    """Print help when the user asks for help."""
    mainMock = Mock()
    for h in ('-h', '--help'):
        sysMock.argv = [h]
        run_script('__main__', h*5, mainMock)
        self.assertEqual(mainMock.mock_calls, [])
        self.assertEqual(sysMock.exit.mock_calls, [])

Blam! Now you can write a testable main(), invoke it as a script, have 100% test coverage, and not need to ignore any code in your coverage report.

  • 25
    I appreciate the creativity and perseverance in finding a solution, but if you were in my team, I would veto this way of coding. One of the strenghts of Python is its being highly idiomatic. if __name__ == ... is the way to let a module script. Any pythonista will recognise that line and understand what it does. Your solution it's just obfuscating the obvious for no good reason other than scratching an intellectual itch. As I said: a clever solution, but clever does not always equate to correct.
    – mac
    Mar 9 '15 at 9:47
  • That's fine if you just have one module, or if each module does somthing different when called as a script, but as I said I had a dozen files with completely identical if __name__ == ... blocks at the end, which is a huge violation of Don't Repeat Yourself and also makes it difficult to fix bugs when you need to fix it identically in so many places. Unifying the logic like this increases testability and reduces the potential for bugs. If you're concerned about people not understanding it, name the function if_name_equals_main() and people will figure it out.
    – robru
    Mar 10 '15 at 17:21
  • 8
    If you have any logic in the block indented under if __name__ ... then you are doing it wrong and should refactor. The only line of code under if __name__... should read: main().
    – mac
    Mar 10 '15 at 23:04
  • 1
    @mac I don't know that I agree with that. Yes, if you have logic you should refactor. But that doesn't mean that the only thing you can have under if __name__ ... is main(). For example, I like to use argeparse and construct my parser in the if __name__ ... portion. Then abstract my main to use explicit args rather than something like: main(parser.parse_args()). This makes it easier to call main() from another module if needed. Otherwise you have to construct an argeparse.Namespace() object and get all the default args correct. Or is there a more idiomatic way to do it? Nov 24 '15 at 3:22
  • @MichaelLeonard - I am not sure I understand your question correctly. main is - by convention - the function that should run when invoking the module as a script, so it is the conventional place where parsing code should go. If you have a single function you want to expose from within the module, that should not be called main but something else, and the main function should in turn invoke it passing the parsed arguments. Or am I misunderstanding your question entirely?
    – mac
    Nov 24 '15 at 14:59

Python 3 solution:

import os
from importlib.machinery import SourceFileLoader
from importlib.util import spec_from_loader, module_from_spec
from importlib import reload
from unittest import TestCase
from unittest.mock import MagicMock, patch

class TestIfNameEqMain(TestCase):
    def test_name_eq_main(self):
        loader = SourceFileLoader('__main__',
        with self.assertRaises(SystemExit) as e:
            loader.exec_module(module_from_spec(spec_from_loader(loader.name, loader)))

Using the alternative solution of defining your own little function:

# module.py
def main():
    if __name__ == '__main__':
        return 'sweet'
    return 'child of mine'

You can test with:

# Override the `__name__` value in your module to '__main__'
with patch('module_name.__name__', '__main__'):
    import module_name
    self.assertEqual(module_name.main(), 'sweet')

with patch('module_name.__name__', 'anything else'):
    del module_name
    import module_name
    self.assertEqual(module_name.main(), 'child of mine')

One approach is to run the modules as scripts (e.g. os.system(...)) and compare their stdout and stderr output to expected values.


I did not want to exclude the lines in question, so based on this explanation of a solution, I implemented a simplified version of the alternate answer given here...

  1. I wrapped if __name__ == "__main__": in a function to make it easily testable, and then called that function to retain logic:
# myapp.module.py

def main():

def init():
    if __name__ == "__main__":

  1. I mocked the __name__ using unittest.mock to get at the lines in question:
from unittest.mock import patch, MagicMock
from myapp import module

def test_name_equals_main():
  # Arrange
  with patch.object(module, "main", MagicMock()) as mock_main:
    with patch.object(module, "__name__", "__main__"):
         # Act

  # Assert

If you are sending arguments into the mocked function, like so,

if __name__ == "__main__":

then you can use assert_called_once_with() for an even better test:

expected_args = ["expected_arg_1", "expected_arg_2"]

If desired, you can also add a return_value to the MagicMock() like so:

with patch.object(module, "main", MagicMock(return_value='foo')) as mock_main:

My solution is to use imp.load_source() and force an exception to be raised early in main() by not providing a required CLI argument, providing a malformed argument, setting paths in such a way that a required file is not found, etc.

import imp    
import os
import sys

def mainCond(testObj, srcFilePath, expectedExcType=SystemExit, cliArgsStr=''):
    sys.argv = [os.path.basename(srcFilePath)] + (
        [] if len(cliArgsStr) == 0 else cliArgsStr.split(' '))
    testObj.assertRaises(expectedExcType, imp.load_source, '__main__', srcFilePath)

Then in your test class you can use this function like this:

def testMain(self):
    mainCond(self, 'path/to/main.py', cliArgsStr='-d FailingArg')

I found this solution helpful. Works well if you use a function to keep all your script code. The code will be handled as one code line. It doesn't matter if the entire line was executed for coverage counter (though this is not what you would actually actually expect by 100% coverage) The trick is also accepted pylint. ;-)

if __name__ == '__main__': \

If it's just to get the 100% and there is nothing "real" to test there, it is easier to ignore that line.

If you are using the regular coverage lib, you can just add a simple comment, and the line will be ignored in the coverage report.

if __name__ == '__main__':
    main()  # pragma: no cover


Another comment by @ Taylor Edmiston also mentions it

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