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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()
    do_something()

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

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  • 2
    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, 2011 at 18:37
  • Indeed, unit testing is how I know something is broken... the issue is finding where it broke.
    – Mike Pennington
    Mar 28, 2011 at 18:39
  • @Mike Pennington I don't understand what is the issue. What does it mean : should be .lower() ?
    – eyquem
    Mar 28, 2011 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, 2011 at 18:54
  • 2
    @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, 2011 at 15:58

3 Answers 3

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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_something()

Do this:

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

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.

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  • 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, 2011 at 19:44
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@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
      pass

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):
    baz.func()

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...

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    There is absolutely a way to know types. type(obj); isinstance(obj, (cls1, cls2)), issubclass(obj, cls)...
    – Daenyth
    May 12, 2011 at 16:04
0

This is pylint ticket #65910

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