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I have this scenario, where I need to ask a nested class to append items to a list in the outer class. Heres pseudocode thats similar to what Im trying to do. How would I go about getting it to work?

class Outer(object):
  outerlist = []
  class Inner(object):
    def __call__(self, arg1):
      outerlist.append(arg1)

if __name__ == "__main__":
  f = Outer()
  f.Inner("apple")
  f.Inner("orange")

  print f.outerlist()

This is what I hope to see - apple, orange

Details:
OS X, Python 2.7

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4  
Why would you use a nested classes at all? –  Martijn Pieters Dec 10 '12 at 9:23
    
So Im trying to have the Outer class contain decorators that will accept arguments, and the best way to do that is to have decorators written as classes stackoverflow.com/questions/10610824/… –  sri Dec 10 '12 at 9:25
2  
Yes, using a class for a decorator is a good idea, but that doesn't mean you need to use nested classes. What are you trying to solve? –  Martijn Pieters Dec 10 '12 at 9:26
    
@sri: Yes, the decorators should be a class, I agree. But the class you decorate should be a completely separate class. No nesting. –  Lennart Regebro Dec 10 '12 at 9:30
    
Some side issues: I assume you want print f.outerlist, not f.outerlist(), because you can't call a list. Also, while you're allowed to access class variables via an instance, it's usually less confusing to access them by the class, as in print Outer.outerlist. (And the fact that you're accessing it via f means I have to ask: do you actually want a class variable here?) –  abarnert Dec 10 '12 at 9:44

3 Answers 3

up vote 2 down vote accepted

Now that I understand your design, you're going about things all wrong.

First, Outer is a class; it doesn't get __call__ed. Your line 17 is just going to construct an empty Outer object and do nothing with it. If you want to "call" the Outer object, you can define an __init__ method—or, as Sheena suggests, define a __new__ and intercept the initialization, since you don't actually need the initialized object anyway.

Honestly, I don't think someone who doesn't understand how __call__ works yet should be trying to build something tricky like this yet. But if you insist, read on.

It's a very odd, and probably bad, design to collect this kind of stuff in a class instead of an instance. Keep in mind that class variables are effectively globals, with all that entails. If you try to use Outer reentrantly, or from multiple threads/event handlers/greenlets/whatever, the uses will end up stomping all over each other. Even if you think that isn't possibly going to be a problem now, it likely will at some point in the future.

You could create an Outer instance, and use its members as decorators. For example:

from outer_library import Outer

outer = Outer()

@outer.get("/")
…

But I'm not sure that's much better. The entire design here seems to involve performing actions at the module level, even though it looks like you're just defining normal functions and calling a function at the end. The fact that you've managed to confuse yourself should be evidence of how confusing a design this is.

But if you do want to do that, what you probably want to do is define classes inside the Outer.__init__ method, and assign them to instance members. Classes are first-class values, and can be assigned to variables just like any other values. Then, use the __init__ (or __new__) methods of those classes to do the work you wanted, making the classes simulate functions.

This may seem confusing or misleading. But remember that the whole point of what you're trying to do is to use a class in a way that it looks like a method, so that kind of confusion is inherent in the problem. But if you prefer, you can write decorators as functions (in this case, as normal instance methods of Outer); it just makes a different part of the problem harder instead of this part.

A more normal way to design something like this would be to make Outer a perfectly normal class that people can either subclass or create instances of, and provide an explicit non-fancy way to attach handler methods or functions to URLs. Then, once that's working, design a way to simplify that handler registration with a decorator.

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Point taken. (the pastebin code is wrong in the __main__ part - my bad,)I am not supposed to talk about my project online atm and but suffice to say, it is supposed to be a singleton and should be callable, it is instantiated properly in my code. Sorry about not being able to word things clearer, Il work on that the next time. But atleast as far as my question goes its been answered. Thanks. :) –  sri Dec 10 '12 at 10:12

You can only access the outer class with the full global name:

class Outer(object):
    outerlist = []
    class Inner(object):
        def __call__(self, arg1):
            Outer.outerlist.append(arg1)

In python, there generally is no need to nest classes in any case. There are use-cases where it makes sense to define a class in a function (to use scoped variabels), but rarely is there a need for nested classes.

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This is mostly right, but using __call__ means you have to write Outer.Inner()("apple") rather than just Outer.Inner("apple"). The mistake is in the OP's code, not yours, but it still needs to be corrected. –  abarnert Dec 10 '12 at 9:48
    
@abarnert: the OP hardly knows what needs to be achieved, so I'll postpone talking about how to call this until it is clear what the real goal is.. –  Martijn Pieters Dec 10 '12 at 9:55
    
@MartijnPieters Excuse me. I have a restless pet in my hands -hence the delay and this involves homework - hence the vagueness. I did reply to your comment under the question. Please check. I would be more than happy to explain further. Thanks. –  sri Dec 10 '12 at 9:57
    
@sri: If this involves homework, can you tell us what part of this is the assignment, and what part you thought up yourself? It seems likely to me that there's a much simpler and more pythonic way to build what your teacher wanted. (That's not guaranteed—after all, some teachers are insane… But it's worth checking.) –  abarnert Dec 10 '12 at 10:10

This will have the desired result.

Notice the use of __new__ (line A). This means that instead of doing any construction stuff properly Inner just appends the list. Also, to access class properties of a containing class just use the outer class's name (line B).

Lastly see line C. the list is not a function. You had some extra brackets in your original code.

class Outer(object):
    outerlist = []
    class Inner(object):
        def __new__(self, arg1):                #A
            Outer.outerlist.append(arg1)        #B

f = Outer()
f.Inner("apple")
f.Inner("orange")
print f.outerlist                               #C
share|improve this answer
    
So is __new__ called everytime it does __init__ or __call__ ? Thats pretty neat. –  sri Dec 10 '12 at 9:37
    
@sri: Not every time it does a __call__—that's an instance method, which can be called multiple times. It's called once, when the class needs to create an instance—generally, right before __init__. –  abarnert Dec 10 '12 at 9:45
1  
@Sheena: They're "class variables". The word "static" refers to things that are associated with neither the class nor the instance, and "properties" are a special kind of class variable whose descriptor lets them acts like an instance variable. But otherwise, all on the money. –  abarnert Dec 10 '12 at 9:47
    
@abarnert: thanks, updated –  Sheena Dec 10 '12 at 9:51

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