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Are there good (suitable for using in real projects) ways or reducing boilerplate in things like this

class B(A):
    def qqq(self): # 1 unwanted token "self"
        super(B, self).qqq() # 7 unwanted tokens plus 2 duplications ("B", "qqq")
        do_something()

I want it to look more like this:

class B(A):
    def qqq:
        super
        do_something()

or (more realistically)

class B(A):
    @autosuper_before
    def qqq(self):
        do_something()

Is it possible in Python 2.6+ without overt hacks?

@link super() in Python 2.x without args

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4  
No point in fighting the self parameter. Explicit is better than implicit, special cases aren't special enough to break the rules, yadda yadda yadda. Besides, how often do you override a method with no parameters and don't do anything before calling the next implementation? –  delnan Aug 4 '12 at 22:52
    
What do you mean by "overt hacks"? –  BrenBarn Aug 4 '12 at 23:19
    
@BrenBarn, "Overt hacks" here means "Code becomes little bit simpler at the price of massive slowdown or ugly backtraces or something other unpleasant". –  Vi. Aug 5 '12 at 16:14

1 Answer 1

up vote 3 down vote accepted

tl;dr

As the OP said "Is it possible in Python 2.6+ without overt hacks?", the answer is: No

Long version

You can make a simple decorator that will call the next parent with this method. The problem is that you will not have control on the arguments you want to pass.

Edit: This will not work for a subclass already using autosuper because it'll chose the wrong class and make an infinite loop.

def autosuper(fn):
    def f(self, *args, **kw):
        cl = super(type(self), self)
        getattr(cl, fn.__name__)(*args, **kw)
        return fn(self, *args, **kw)
    return f

How could this be done? Python 3.x do have a super function that takes no arguments!

Unfortunally, the Python 3.x's super is a class and at the same time a keyword, because just the presence of its name will change the current environment to unveil a variable named __class__ that is the right class you need to use!

If you check the frame inside a function declared in a class, there's no __class__ variable and the co_freevars attribute of the frame's f_code attribute is empty. When you write the name super (do not need to call it), the __class__ string will appear in co_freevars meaning it comes from another closure. Also, if you try to access the __class__ variable without using super, it'll use the LOAD_DEFER bytecode for this same reason instead of LOAD_GLOBAL like would be normal to every undefined name.

This is so crazy that you cannot just do hyper = super and call this new hyper variable without arguments (that is exactly the same object as super).

As I cannot compete with this much of black magic inside the Python Interpreter, and because the autosuper decorator is not declared inside a class (so it can never access the __class__ variable even if that was possible in Python 2.x), I will not try to write a new decorator and will leave this answer here as a warn for other people who want to do that.

It is probably possible to make some hackeries to find the right class to use, but I will not dig that far. Things to consider:

  • When the decorator is applied, the class do not exist yet, so this should be done when the decorated function is called.
  • The function being decorated is not yet an unbound method (that were removed anyway from Py3k) so you cannot check the im_class attribute.
  • The frame does not seem to hold any information of the class used to make this call (unless of course the __class__ variable do exist and it is possible to get a reference to it)
  • This answer provided by OP is also quite broken because it makes a lot of bad assumptions and has problems with decorated functions.
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(I'm just forgetting to add "self" again and again. (Also forgetting to change arguments or "super" in numerous methods when I change the name of the class or name of method). –  Vi. Aug 5 '12 at 16:09
    
Should it work reasonably fast? It looks a bit like Java's reflection which is said to be slow. Can the "reflection" be moved from "f" (to keep it lightweight) to "autosuper" and let "f" to call already prepared thing? (Actually I want something like Lisp macros that will just add that "super(...)" line automatically) –  Vi. Aug 5 '12 at 16:12
    
@Vi. Java reflection uses a similar syntax but is very different from decorators. It will just add one extra function call. BTW, I changed the code to use the super function instead of writing my own –  JBernardo Aug 5 '12 at 17:04
    
This approach will not work if you add an additional level of inheritance (i.e., a class E(D) that also uses autosuper). In this case type(self) will evaluate to E so D.foo will try to call itself and lead to infinite recursion. –  BrenBarn Aug 5 '12 at 18:28
    
The issue seems to be restricting enough to prevent the real usage this decorator. How to access the class's type where the decorator is being applied to use it instead of type(self)? –  Vi. Aug 6 '12 at 0:10

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