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What I am asking may look weird, but here is an example:

I have a class 'A'

class A:
    a=1

other I have class 'B'

class B:
    def __init__(self, obj):
        self.obj = obj # obj is any object

Now I use:

first = A()
second = B(first)
isinstance(second, A)

I want step 3 to be true. i.e. whatever object class B is taking, it should add instance of that object type to object.

Is something like this possible in Python?

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But B isn't an A! Do you want Python to lie? –  katrielalex Jun 24 '12 at 19:00
3  
What problem are you trying to solve by the way? Why does step 3 need to be true? –  Simeon Visser Jun 24 '12 at 19:04
    
I'll add my voice to the rising chorus: this sounds like a terrible idea. You're going against the grain of the language, and I am certain there's a better way to solve your problem. –  Ned Batchelder Jun 24 '12 at 19:25
1  
I would just prepend the names of the variables with a single or double underscore to indicate they are private. If someone wants to muck around with them: let them. If code breaks because they did then it is their problem; they decided to change private variables. –  JPvdMerwe Jun 24 '12 at 19:43
1  
@ParitoshSingh: you are barking up the wrong tree. Why try to make Python act like another language? You're putting a lot of work into fighting the language. Write documentation that tells your users not to touch the private stuff, and be done with it. Also, I don't even understand how this achieves the effect of private variables? –  Ned Batchelder Jun 24 '12 at 20:56

4 Answers 4

up vote 2 down vote accepted

You can of course override the __new__ and derive your object from type instead of object effectively creating a class factory...

What you end up doing is very similar to:

b = type('B', (A,), {'obj': A()})

Which generates a class B derived from A, containing that instance of A() - since this is a function you can pass whatever you fancy in for whatever reason you wish to do so.

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Using inheritance, yes:

class B(A):
    def __init__(self, obj):
        self.obj = obj # obj is any object
share|improve this answer
1  
But it needs to work for arbitrary A: would B need to inherit from countless base classes? –  Simeon Visser Jun 24 '12 at 18:59
    
Yes i know using inheritance this can be done, but what i asked is i want to pass any object, it not specifically object of class A, it can be object of class C, D, E; any class.. :) –  Paritosh Singh Jun 24 '12 at 19:00
    
The I'd ask what katrielalex asks. Please tell us what you want to accomplish, maybe there's a better way to do it. –  Paul Jun 24 '12 at 19:03

2 Possibilities

instead of isinstance(second, A) do isinstance(second.obj, A)

Second... more hackish way is to do something like this:

class B:
    def __init__(self, obj):
        self.obj = obj # obj is any object
        self.__class__ = obj.__class__

This is hackish as it basically fools the interpreter into into thinking the instance is a different class. That is isinstance(second, B) will return False

To answer the question posed below: the interpreter will basically act as if second is a class A and nothing defined at the class level in B will remain. eg if you do something like

class B:
    b=2 #Won't be visible
    def __init__(self, obj):
        self.obj = obj # obj is any object
        self.b2 = 5 #Instance variable will be visible
        self.__class__ = obj.__class__

    def someFunc(self): #Won't be visible
        return 3

Using the same code as you used above for initialization here is what will happen with some calls using the interpreter. In general any class variables or methods will be removed and instead use A'a, however any instance variables will be remembered. Because of this doing self.obj = obj is a bit redundant. Basically instantiating B(obj) will more or less return an object of the same class as obj. Though it won't call obj's __init__, for that you will need some more voodoo/magic (if you're interested just post).

>>> isinstance(second, A)
True
>>> isinstance(second, B)
False
>>> second.a
1
>>> second.b
Traceback (most recent call last):
  File "<pyshell#15>", line 1, in <module>
    second.b
AttributeError: A instance has no attribute 'b'
>>> second.someFunc()
Traceback (most recent call last):
  File "<pyshell#16>", line 1, in <module>
    second.someFunc()
AttributeError: A instance has no attribute 'someFunc'
>>> second.b2
5
>>> second.obj
<__main__.A instance at 0x0123CAF8>
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can you please tell me any major use case which may create problem....., i think this is right :) –  Paritosh Singh Jun 24 '12 at 19:24
    
I wouldn't have believed it is as simple as just changing __class__. One thing you could try is setting up a __getattr__() that defers look up to B. –  JPvdMerwe Jun 24 '12 at 19:54
    
@JPvdMerwe You couldn't declare it inside of B directly, but I suppose you could do something like self.__getattr__ = B.__getattr__, though I'm not 100% sure that will work (set instance function to a class function), plus if the original class defined __getattr__() you would need to add logic to defer to that when needed... –  Russ Jun 24 '12 at 20:01
    
Normal methods will be looked up first in the instance then the class (just as any other attribute), so overriding them with instance attributes will work. There's a handful of special methods that jump straight to the class though, and I believe __getattr__ is one of them. –  Ben Jun 25 '12 at 1:31

I'd be tempted to suggest that this is highly unlikely to be a good idea even if it's possible in a non-hackish way. (Edit: Jon Clements' suggestion strikes me as the best/least hackish way but I still suggest the rest of my post is relevant.) I'd further hazard to suggest this is conflating/confusing an "is-a" relationship with what should probably be a "has-a" relationship. Impossible to know for sure unless more details are posted about what the OP is trying to achieve.

Anyway, someone (Kent Beck I think) once said (paraphrasing as I remember it) that inheritance creates very powerful coupling between bodies of code with attendant difficulties in maintenance and enhancement and that therefore inheritance should really be pretty deep down in your bag of tricks and shouldn't be used lightly. Put differently: Prefer composition (or aggregation) over inheritance where at all possible.

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I agree - hierarchy and containment is more useful statically. I just posted my answer to show it is possible to "muck about with" construction of any Python class. –  Jon Clements Jun 24 '12 at 19:41

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