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

I occasionally spend a considerable amount of time tracking down brainfarts in my code... while I normally run pylint against it, there are some things that slip past pylint. The easiest problem for me to overlook is this...

# normally, variable is populated from parsed text, so it's not predictable
variable = 'fOoBaR'
if variable.lower == 'foobar':
    #       ^^^^^<------------------ should be .lower()

Neither pylint nor Python bark about this... is there a python code-checking tool that can flag this particular issue?

share|improve this question
Unit testing would resolve this. I've never been incredibly impressed by pylint or pychecker, to be fair, 'linting' a language like python is a hard problem. – marr75 Mar 28 '11 at 18:37
Indeed, unit testing is how I know something is broken... the issue is finding where it broke. – Mike Pennington Mar 28 '11 at 18:39
@Mike Pennington I don't understand what is the issue. What does it mean : should be .lower() ? – eyquem Mar 28 '11 at 18:54
@Mike sounds like you need more coverage in your unit tests. Say you think you're testing a method that returns a string, but you're getting a bound method? You should have something to test for that. – juanchopanza Mar 28 '11 at 18:54
@marr75 Eclipse doesn't detect this in code (and it can't, I mean it isn't an error in the general case) but it could conceivably save you from making the mistake in the first place - I just pulled up my Eclipse installation (3.6.1 + PyDev 1.6.1) and when I tried typing the example I got a completion popup which showed me .lower(). That said I still had to either hit enter to accept or write the '(' myself. – t.dubrownik Mar 29 '11 at 15:58

How do you propose a code-checker validate this? It's perfectly legitimate syntax. Rather than checking for this kind of mistake, it would be better to get into the habit of using better patterns.

Instead of:

variable = 'fOoBaR'
if variable.lower == 'foobar':
    #       ^^^^^<------------------ should be .lower()

Do this:

variable = 'fOoBaR'
sane_variable = variable.lower()
if sane_variable == 'foobar':

This way you're always explicitly calling .lower() on the value you're comparing against, instead of relying on an in-place method-call and comparison, which leads to the very pitfall you're experiencing.

share|improve this answer
did you read the enhancement I filed with pylint? I explained very clearly what I am looking for. There is no good reason I can think of to compare a function pointer to a constant value... it is nonsense. – Mike Pennington May 12 '11 at 19:44

@Mike Pennington I just want to first say that I also run into this a lot -.-

@eyquem 'lower()' is a function. 'lower' is a function pointer (if I'm not mistaken). Python will let you attempt to run this code, but it will not invoke the function.

I think the reason this is hard to catch is that you don't always know the type of the variable which you're calling methods on. For example, say I have 2 classes.

class Foo()
   def func(self):
      #do stuff

class Bar()
   self.func = "stuff"

If your code has a function in it that takes an argument 'baz' like so:

def myfunction(baz):
    print baz.func

def myfunction(baz):

Either one of these could be valid depending on baz's type. There is literally no way of knowing if baz is of type 'Foo' or 'Bar', though.

EDIT: I meant with static analysis...

share|improve this answer
There is absolutely a way to know types. type(obj); isinstance(obj, (cls1, cls2)), issubclass(obj, cls)... – Daenyth May 12 '11 at 16:04
up vote 0 down vote accepted

This is pylint ticket #65910

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.