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I have a method on one of my objects that returns a new instance of that same class. I'm trying to figure out the most idiomatic way to write this method such that it generates a new object of the same type without duplicating code.

Since this method uses data from the instance, my first pass is:

class Foo(object):
    def get_new(self):
        data = # Do interesting things
        return Foo(data)

However, if I subclass Foo and don't override get_new, calling get_new on SubFoo would return a Foo! So, I could write a classmethod:

class Foo(object):

    @classmethod
    def get_new(cls, obj):
        data = # Munge about in objects internals
        return cls(data)

However, the data I'm accessing is specific to the object, so it seems to break encapsulation for this not to be a "normal" (undecorated) method. Additionally, you then have to call it like SubFoo.get_new(sub_foo_inst), which seems redundant. I'd like the object to just "know" which type to return -- the same type as itself!

I suppose it's also possible to add a factory method to the class, and override the return type everywhere, without duplicating the logic, but that seems to put a lot of work on the subclasses.

So, my question is, what's the best way to write a method that gives flexibility in type of class without having to annotate the type all over the place?

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classmethods themselves aren't very idiomatic on Python; factories can just be plain functions that live in the same module as the class. –  Adam Vandenberg Feb 14 '11 at 19:52
1  
@Adam: Class methods have their uses (e.g. when you're using class variables and don't want to break inheritance). Static methods are much worse. –  delnan Feb 14 '11 at 19:56

2 Answers 2

up vote 12 down vote accepted

If you want to make it more flexible for subclassing, you can simply use the self.__class__ special attribute:

class Foo(object):
    def __init__(self, data):
        self.data = data

    def get_new(self):
        data = # Do interesting things
        return self.__class__(data)

Note that using the @classmethod approach will prevent you from accessing data within any one instance, removing it as a viable solution in instances where #Do interesting things relies on data stored within an instance.

For Python 2, I do not recommend using type(self), as this will return an inappropriate value for classic classes (i.e., those not subclassed from the base object):

>>> class Foo:
...     pass
... 
>>> f = Foo()
>>> type(f)
<type 'instance'>
>>> f.__class__    # Note that the __class__ attribute still works
<class '__main__.Foo'>

For Python 3, this is not as much of an issue, as all classes are derived from object, however, I believe self.__class__ is considered the more Pythonic idiom.

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Perfect! That's exactly what I was looking for. This is only week 2 or so of seriously using Python, so I'm still not totally aware of all the pieces and how they get used. –  TR. Feb 14 '11 at 20:07
    
Using type(self), as möter suggests, does essentially the same thing but is slightly cleaner IMHO. But maybe that's just my aversion for anything with four underscores. –  Thomas Feb 14 '11 at 20:08
2  
@Thomas: I actually do not recommend using type(), and I have added an explanation of why to my answer. –  gotgenes Feb 14 '11 at 20:18
    
Interesting, I learned something. Thanks! –  Thomas Feb 15 '11 at 11:16

You can use the builtin 'type'.

type(instance)

is that instance's class.

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