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Trying to convert super(B, self).method() into a simple nice bubble() call. Did it, see below!

Is it possible to get reference to class B in this example?

class A(object): pass

class B(A):
    def test(self):
        test2()

class C(B): pass

import inspect
def test2():
    frame = inspect.currentframe().f_back
    cls = frame.[?something here?]
    # cls here should == B (class)

c = C()
c.test()

Basically, C is child of B, B is child of A. Then we create c of type C. Then the call to c.test() actually calls B.test() (via inheritance), which calls to test2().

test2() can get the parent frame frame; code reference to method via frame.f_code; self via frame.f_locals['self']; but type(frame.f_locals['self']) is C (of course), but not B, where method is defined.

Any way to get B?

share|improve this question
    
If I may ask... what do you need this for? Cause I hardly think that something like this can be the best method for anything. –  Wolph Apr 25 '10 at 0:10
    
I'm actually trying to simplify doing super(B, self).test() for users with some kind of simple bubble() call. Actually, I've already found a way. –  Slava V Apr 25 '10 at 0:13
    
Couldn't you do super(self.__class__, self).test()? –  Wolph Apr 25 '10 at 0:31
2  
@WoLpH: No, because first argument might be "this class" not self.__class__ which might be a subclass of "this class". If that worked, why wouldn't Python do that itself and eliminate first argument as excessive? –  doublep Apr 25 '10 at 0:37
    
@Slava: AFAIK in Python 3 super can be called without arguments. Though I guess you want that for Python 2.x. –  doublep Apr 25 '10 at 0:38

3 Answers 3

up vote 2 down vote accepted

Found a shorter way to do super(B, self).test() -> bubble() from below.

(Works with multiple inheritance, doesn't require arguments, correcly behaves with sub-classes)

The solution was to use inspect.getmro(type(back_self)) (where back_self is a self from callee), then iterating it as cls with method_name in cls.__dict__ and verifying that the code reference we have is the one in this class (realized in find_class_by_code_object(self) nested function).

bubble() can be easily extended with *args, **kwargs.

import inspect
def bubble(*args, **kwargs):
    def find_class_by_code_object(back_self, method_name, code):
        for cls in inspect.getmro(type(back_self)):
            if method_name in cls.__dict__:
                method_fun = getattr(cls, method_name)
                if method_fun.im_func.func_code is code:
                    return cls

    frame = inspect.currentframe().f_back
    back_self = frame.f_locals['self']
    method_name = frame.f_code.co_name

    for _ in xrange(5):
        code = frame.f_code
        cls = find_class_by_code_object(back_self, method_name, code)
        if cls:
            super_ = super(cls, back_self)
            return getattr(super_, method_name)(*args, **kwargs)
        try:
            frame = frame.f_back
        except:
            return



class A(object):
    def test(self):
        print "A.test()"

class B(A):
    def test(self):
        # instead of "super(B, self).test()" we can do
        bubble()

class C(B):
    pass

c = C()
c.test() # works!

b = B()
b.test() # works!

If anyone has a better idea, let's hear it.

Known bug: (thanks doublep) If C.test = B.test --> "infinite" recursion. Although that seems un-realistic for child class to actually have a method, that has been ='ed from parent's one.

Known bug2: (thanks doublep) Decorated methods won't work (probably unfixable, since decorator returns a closure)... Fixed decorator proble with for _ in xrange(5): ... frame = frame.f_back - will handle up to 5 decorators, increase if needed. I love Python!

Performance is 5 times worse than super() call, but we are talking about 200K calls vs a million calls per second, if this isn't in your tightest loops - no reason to worry.

share|improve this answer
    
I'm not sure it will work for decorated functions. Also, I hope performance is not important at all in your usecase for bubble(). –  doublep Apr 25 '10 at 0:42
    
Another (quite unlikely in real use) bug: if subclass def foo..., then does bar = foo then bubble() in bar() won't work as excepted because method_name will be incorrectly evaluated to "foo". –  doublep Apr 25 '10 at 0:48
1  
bar = foo: If I do B.test_alias = B.test and then c.test_alias(), it calls A.test() as expected. Performance seems to be OK, 5000 ns (nanoseconds) for bubble() vs 900ns for super(...). This is a drop, but I don't see it as a huge one. –  Slava V Apr 25 '10 at 0:55
    
Ah, right. For super() emulator that's exactly what's needed and is even the same what would happen if the method did direct call to parent's implementation. I guess it's time to sleep, I'm making too many logical errors ;) –  doublep Apr 25 '10 at 1:00
    
@doublep: thanks for the help! :) –  Slava V Apr 25 '10 at 1:03

Although this code should never be used for any normal purpose. For the sake of answering the question, here's something working ;)

import inspect

def test2():
    funcname = inspect.stack()[1][3]
    frame = inspect.currentframe().f_back
    self = frame.f_locals['self']

    return contains(self.__class__, funcname)

def contains(class_, funcname):
    if funcname in class_.__dict__:
        return class_

    for class_ in class_.__bases__:
        class_ = contains(class_, funcname)
        if class_:
            return class_
share|improve this answer
    
Well, that's basically what I did below, however don't you think that using inspect.getmro() is better than bases ? Also you don't test that the function is actually the one that called it, class C might have test function too. My answer takes care of that. –  Slava V Apr 25 '10 at 0:45
    
Indeed, I just couldn't find the mro method so I emulated it myself. Your method is definately better. Although I still argue that both are the wrong solution. –  Wolph Apr 25 '10 at 0:49

Since functions in Python are not bound to classes [1], general answer is "not possible". However, for non-static functions that follow standard naming convention for attributes you could probably try

inspect.currentframe ().f_back.f_locals['self'].class

[1] for instance, you could do:

class X: pass
X.foo = (lambda self: None)

EDIT:

I managed to suggest a way already present in the question :-/. However, I'm still curious how you managed to do that, as I'm still certain functions are not bound to classes in Python.

share|improve this answer
    
Actually possible, I'll publish it in a second. (Not needed for static methods, since I was searching for a replacement for super(), which is run only on bound methods) –  Slava V Apr 25 '10 at 0:21
    
@doublep: 1. Try evaluating X.foo.im_class and you will be surprised. 2. The solution you propose appears in the question. –  interjay Apr 25 '10 at 0:26
1  
@interjay: Oh damn, indeed. That's what I get for not reading to the end :(. However, X.foo.im_class won't help in this case. Try Y.foo = X.foo; the function will be the same, but im_class not: that's a property of method binding object, not the function. –  doublep Apr 25 '10 at 0:30
    
@doublep: C.foo = B.foo is indeed a problem for my posted solution... but for most cases where I want it - it'll work. –  Slava V Apr 25 '10 at 0:35
2  
@doublep BTW inspect.currentframe ().f_back.f_locals['self'].__class__ won't work, since it'll return C instead of B. –  Slava V Apr 25 '10 at 0:39

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