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I have been reading documentation describing class inheritance, abstract base classes and even python interfaces. But nothing seams to be exactly what I want. Namely, a simple way of building virtual classes. When the virtual class gets called, I would like it to instantiate some more specific class based on what the parameters it is given and hand that back the calling function. For now I have a summary way of rerouting calls to the virtual class down to the underlying class.

The idea is the following:

class Shape:
    def __init__(self, description):
        if   description == "It's flat":  self.underlying_class = Line(description)
        elif description == "It's spiky": self.underlying_class = Triangle(description)
        elif description == "It's big":   self.underlying_class = Rectangle(description)
    def number_of_edges(self, parameters):
        return self.underlying_class(parameters)

class Line:
    def __init__(self, description):
        self.desc = description
    def number_of_edges(self, parameters):
        return 1

class Triangle:
    def __init__(self, description):
        self.desc = description
    def number_of_edges(self, parameters):
        return 3

class Rectangle:
    def __init__(self, description):
        self.desc = description
    def number_of_edges(self, parameters):
        return 4

shape_dont_know_what_it_is = Shape("It's big")
shape_dont_know_what_it_is.number_of_edges(parameters)

My rerouting is far from optimal, as only calls to the number_of_edges() function get passed on. Adding something like this to Shape doesn't seam to do the trick either:

def __getattr__(self, *args):
    return underlying_class.__getattr__(*args)

What I am doing wrong ? Is the whole idea badly implemented ? Any help greatly appreciated.

share|improve this question
    
__getattr__ works only for new-style classes. This means your classes have to be subclasses of object. –  Georg Schölly Jun 19 '10 at 18:07

4 Answers 4

up vote 9 down vote accepted

I would prefer doing it with a factory:

def factory(description):
    if   description == "It's flat":  return Line(description)
    elif description == "It's spiky": return Triangle(description)
    elif description == "It's big":   return Rectangle(description)

or:

def factory(description):
    class = {"It's flat":Line("It's flat"), "It's spiky":Triangle("It's spiky"), "It's big":Rectangle("It's big")}
    return class[description]

and inherit the classes from Shape

class Line(Shape):
    def __init__(self, description):
        self.desc = description
    def number_of_edges(self, parameters):
        return 1
share|improve this answer
    
Triable -> Triangle in the second example –  javawizard Jun 6 '13 at 19:37
    
I have fixed it, thanks. –  TooAngel Jul 2 '13 at 8:32

You can change the class with object.__class__, but it's much better to just make a function that returns an instance of an arbitrary class.

On another note, all class should inherit from object unless you use using Python 3, like this, otherwise you end up with an old-style class:

class A(object):
    pass
share|improve this answer

Python doesn't have virtual classes out of the box. You will have to implement them yourself (it should be possible, Python's reflection capabilities should be powerful enough to let you do this).

However, if you need virtual classes, then why don't you just use a programming language which does have virtual classes like Beta, gBeta or Newspeak? (BTW: are there any others?)

In this particular case, though, I don't really see how virtual classes would simplify your solution, at least not in the example you have given. Maybe you could elaborate why you think you need virtual classes?

Don't get me wrong: I like virtual classes, but the fact that only three languages have ever implemented them, only one of those three is still alive and exactly 0 of those three are actually used by anybody is somewhat telling …

share|improve this answer

I agree with TooAngel, but I'd use the __new__ method.

class Shape(object):
    def __new__(cls, *args, **kwargs):
        if cls is Shape:                            # <-- required because Line's
            description, args = args[0], args[1:]   #     __new__ method is the
            if description == "It's flat":          #     same as Shape's
                instance = Line(*args, **kwargs);
        else:
            instance = super(Shape, cls).__new__(cls, *args, **kwargs)
        return instance

    def number_of_edges(self):
        return 0

class Line(Shape):
    def number_of_edges(self):
        return 1

instance = Shape("It's flat")
instance.number_of_edges()
-> 1
share|improve this answer
1  
nice - I also thought about something like that, but didn't know the python syntax for it –  TooAngel Jun 19 '10 at 18:28
    
In this example, Shape is known as a metaclass. –  Daniel Newby Jun 19 '10 at 18:32
1  
@Daniel: I don't think so. Metaclasses usually change the way a class works. In Objective-C this would be called a Class Cluster. I'm not sure what the proper name for it is in Python. –  Georg Schölly Jun 19 '10 at 19:22
    
@Georg: You are right. –  Daniel Newby Jun 23 '10 at 18:24
    
I implemented this solution and discovered that is suffers from a flaw: the init method of the class Shape will be called twice when creating an instance. –  xApple May 10 '11 at 14:30

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