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I have encountered a funny situation in Python that I cannot resolve. I have a function definition inside one class like def a(self, x, y): and it's been called from other place like a(par1, par2). However, what happens is that par1 gets substituted instead of self, par2 instead of x and y is left uninitialized. But that shouldn't be the case: par1 and par2 should have been placed instead of x and y respectively and Python should have got self himself. This works correctly in Python 2.7, however this funny thing happens in 3.2 . The method a doesn't have any modifiers, however the method where I am calling it from has @classmethod modifier. It's a bit weird, maybe @classmethod was changed in the third version. If anybody knows what is going on or how to make things work correctly, please tell.

Thank you !

share|improve this question
Should you be calling a like <instance>.a(par1, par2)? – ajwood Feb 6 '12 at 19:40
can you show a full example of what your code looks like? – SingleNegationElimination Feb 6 '12 at 19:40
Can you provide a complete, runnable example of the behavior? – Kevin Feb 6 '12 at 19:40
This calls out for a SSCCE that works in Python 2.7 and fails in Python 3.2 – millimoose Feb 6 '12 at 19:40
How are you calling the a method? a(par1, par2) on its own will never work. You can't be doing self.a(par1, par2), since you said you're in a classmethod so you don't have a self parameter. cls.a(par1, par2) will give you the error you've mentioned in Python3, but would fail with the error given in Ethan's answer in Python2. If you're calling it on a completely different object like foo.a(par1, par2) then it shouldn't be relevant that you're calling it from a classmethod. – Ben Feb 7 '12 at 1:38

From your description I'm guessing code similar to this:

class Test(object):

    def a(self, par1, par2='empty'):
        print(self, par1, par2)

    def b(cls, fjord):
        cls.a('par1', 'par2')

test = Test()
test.a('this', 'that')

In 2.7 this crashes like so:

(<__main__.Test object at 0x00B4A710>, 'this', 'that')


Traceback (most recent call last):
  File "", line 11, in <module>
  File "", line 7, in b
    cls.a('par1', 'par2')
TypeError: unbound method a() must be called with Test instance as first argument
           (got str instance instead)

While in 3.2 it works just fine -- because unbound methods no longer exist, they are simply functions.

The reason self is not an instance is precisely because it is being called from a class method: the class method does not get self so it cannot pass it along.

share|improve this answer
That's what I had started out thinking, but the claim is that the code works in 2.7, but fails in 3.2. – Ian Clelland Feb 6 '12 at 21:23
Perhaps, though, it is failing, but the TypeError is being caught somewhere else – Ian Clelland Feb 6 '12 at 21:23

You can create an instance first using that class:

class ex():
    def a(self,x,y):
MyInstance=ex() #MyInstance is an instance of class "ex"

The instance itself will be substituted to self. Therefore par1 and par2 will substitute x and y respectively.

share|improve this answer
"This works correctly in Python 2.7, however this funny thing happens in 3.2". RTFQ – Sheena Jun 14 '13 at 5:33

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