When writing unit tests, I sometimes cut and paste a test and don't remember to change the method name. This results in overwriting the previous test, effectively hiding it and preventing it from running. For example;

class WidgetTestCase(unittest.TestCase):

  def test_foo_should_do_some_behavior(self):
    self.assertEquals(42, self.widget.foo())

  def test_foo_should_do_some_behavior(self):
    self.assertEquals(314, self.widget.foo())

In this case, only the latter test would get called. Is there a way of programmatically catching this sort of error, short of parsing the raw source code directly?

  • 1
    Copying and pasting is generally a sign of bad coding practice - most of the time it means you should be extracting functionality out into another function. It'll save yourself time, effort if you want to change it later, and problems like these. – Gareth Latty May 25 '12 at 22:21
  • 12
    Lattyware: In general I agree. However, this is unit test code, in which it's best practice and expected that you have a bunch of short methods, most of which look quite similar except for different setup conditions and assertions. So I would say that cut and paste is par for the course, and not representative of bad practice. – Scotty Allen May 25 '12 at 22:25
  • @Scotty: Why don't you just get into the habit of renaming a method as your first action after copying it? By the way, if setup code and assertions differ for each method, then the only thing you are really copying is the method's name, which you might have noticed. – Niklas B. May 25 '12 at 22:25
  • 3
    @ScottyAllen Why are tests any different to your other code? If they share a lot of functionality, then extract out common code. If they don't, then don't copy and paste other functions to make them. – Gareth Latty May 25 '12 at 22:27
  • 2
    @Scotty: I suspect Darthfett's answer about pylint (and similar tools) is the most practical answer. However on stackoverflow.com/questions/10762088/… (which links here) I posted a (giant) answer that includes how you can detect this error if you're using Python3; it's over there rather than here because you're probably not using Python3 and it's more relevant to the guts of why __setattr__ doesn't help here. – Ben May 26 '12 at 3:03

If you run pylint over your code, it will inform you when you have overwritten another method:

For example, I ran this:

class A(object):
    def blah(self):
        print("Hello, World!")

    def blah(self):
        print("I give up!")

In this online pylint checker. Besides all the missing docstrings and such, I get this:

E: 5:A.blah: method already defined line 2

Alternatively, via the command line:

$ python -m pyflakes .
.\blah.py:5:5 redefinition of unused 'blah' from line 2

What follows is a horrible hack that uses undocumented, implementation-specific Python features. You should never ever ever do anything like this.

It's been tested on Python 2.6.1 and 2.7.2; doesn't seem to work with Python 3.2 as written, but then, you can do this right in Python 3.x anyway.

import sys

class NoDupNames(object):

    def __init__(self):
        self.namespaces = []

    def __call__(self, frame, event, arg):
        if event == "call":
            if frame.f_code.co_flags == 66:
        elif event in ("line", "return") and self.namespaces:
            for key in frame.f_locals.iterkeys():
                if key in self.namespaces[-1]:
                    raise NameError("attribute '%s' already declared" % key) 
            if event == "return":
        return self

    def __enter__(self):
        self.oldtrace = sys.gettrace()

    def __exit__(self, type, value, traceback):


with NoDupNames():
    class Foo(object):
        num = None
        num = 42


NameError: attribute 'num' already declared

How it works: We hook up to the system trace hook. Each time Python is about to execute a line, we get called. This allows us to see what names were defined by the last statement executed. To make sure we can catch duplicates, we actually maintain our own local variable dictionary and clear out Python's after each line. At the end of the class definition, we copy our locals back into Python's. Some of the other tomfoolery is in there to handle nested class definitions and to handle multiple assignments in a single statement.

As a downside, our "clear ALL the locals!" approach means you can't do this:

with NoDupNames():
    class Foo(object):
        a = 6
        b = 7
        c = a * b

Because as far as Python knows, there are no names a and b when c = a * b is executed; we cleared those as soon as we saw 'em. Also, if you assign the same variable twice in a single line (e.g., a = 0; a = 1) it won't catch that. However, it works for more typical class definitions.

Also, you should not put anything besides class definitions inside a NoDupNames context. I don't know what will happen; maybe nothing bad. But I haven't tried it, so in theory the universe could be sucked into its own plughole.

This is quite possibly the most evil code I have ever written, but it sure was fun!


Here is one option for how to detect this at runtime using decorators without the need for any analysis tool:

def one_def_only():
  names = set()
  def assert_first_def(func):
    assert func.__name__ not in names, func.__name__ + ' defined twice'
    return func
  return assert_first_def

class WidgetTestCase(unittest.TestCase):
  assert_first_def = one_def_only()

  def test_foo_should_do_some_behavior(self):
    self.assertEquals(42, self.widget.foo())

  def test_foo_should_do_some_behavior(self):
    self.assertEquals(314, self.widget.foo())

Example of an attempt to import or run:

>>> import testcases
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "testcases.py", line 13, in <module>
    class WidgetTestCase(unittest.TestCase):
  File "testcases.py", line 20, in WidgetTestCase
  File "testcases.py", line 7, in assert_first_def
    assert func.__name__ not in names, func.__name__ + ' defined twice'
AssertionError: test_foo_should_do_some_behavior defined twice

You cannot easily/cleanly detect it during runtime since the old method is simply replaced and a decorator would have to be used on every function definition. Static analysis (Pylint, etc.) is the best way to do it.

I just tested it and __setattr__ of the metaclass is not called for stuff defined in the class block.

  • 1
    Sad that __setattr__ isn't a viable solution - it sounded like a clever approach:) – Scotty Allen May 25 '12 at 22:32
  • 2
    Just a quick clarification for future readers, it's not that the metaclass __setattr__ isn't called for methods, but that it's only called when setting attributes on the class object, which doesn't exist yet when names defined in the class block are being bound. More detail in ThiefMaster's followup question. – Ben May 27 '12 at 2:00

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