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Is there any meaningful distinction between:

class A(object):
    foo = 5   # some default value

vs.

class B(object):
    def __init__(self, foo=5):
        self.foo = foo

If you're creating a lot of instances, is there any difference in performance or space requirements for the two styles? When you read the code, do you consider the meaning of the two styles to be significantly different?

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1  
I just realized that a similar question was asked and answered here: stackoverflow.com/questions/206734/… Should I delete this question? –  Dan Homerick Oct 16 '08 at 0:40
1  
It's your question, feel free to delete it. Since it's yours, why ask anyone else's opinion? –  S.Lott Oct 16 '08 at 17:55

5 Answers 5

up vote 56 down vote accepted

Beyond performance considerations, there is a significant semantic difference. In the class attribute case, there is just one object referred to. In the instance-attribute-set-at-instantiation, there can be multiple objects referred to. For instance

>>> class A: foo = []
>>> a, b = A(), A()
>>> a.foo.append(5)
>>> b.foo
[5]
>>> class A:
...  def __init__(self): self.foo = []
>>> a, b = A(), A()
>>> a.foo.append(5)
>>> b.foo    
[]
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Only the mutable types are shared. Like for int and str they still attached with each instances rather than class. –  Babu Jul 17 at 11:59
    
@Babu: No, int and str are also shared, in exactly the same way. You can check that easily with is or id. Or just look in each instance's __dict__ and the class's __dict__. It just usually doesn't matter very much whether immutable types are shared or not. –  abarnert Oct 29 at 22:58

The difference is that the attribute on the class is shared by all instances. The attribute on an instance is unique to that instance.

If coming from C++, attributes on the class are more like static member variables.

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Isn't it only mutable types that are shared? The accepted answer shows a list, which works, but if it is an int, it seems to be the same as an instance attr: >>> class A(object): foo = 5 >>> a, b = A(), A() >>> a.foo = 10 >>> b.foo 5 –  Rafe Jun 27 at 0:32
    
@Rafe: No, all types are shared. The reason you're confused is that what a.foo.append(5) is mutating the value that a.foo refers to, while a.foo = 5 is making a.foo into a new name for the value 5. So, you end up with an instance attribute that hides the class attribute. Try the same a.foo = 5 in Alex's version and you'll see that b.foo is unchanged. –  abarnert Oct 29 at 23:01

Just an elaboration on what Alex Coventry said, another Alex (Martelli) addressed a similar question on the comp.lang.python newsgroup years back. He examines the semantic difference of what a person intended vs. what he got (by using instance variables).

http://groups.google.com/group/comp.lang.python/msg/5914d297aff35fae?hl=en

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As per the comment of Dan:

Similar question which has been answered: Why do attribute references act like this with python inheritance

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Since people in the comments here and in two other questions marked as dups all appear to be confused about this in the same way, I think it's worth adding an additional answer on top of Alex Coventry's.

The fact that Alex is assigning a value of a mutable type, like a list, has nothing to do with whether things are shared or not. We can see this with the id function or the is operator:

>>> class A: foo = object()
>>> a, b = A(), A()
>>> a.foo is b.foo
True
>>> class A:
...     def __init__(self): self.foo = object()
>>> a, b = A(), A()
>>> a.foo is b.foo
False

(If you're wondering why I used object() instead of, say, 5, that's to avoid running into two whole other issues which I don't want to get into here; for two different reasons, entirely separately-created 5s can end up being the same instance of the number 5. But entirely separately-created object()s cannot.)


So, why is it that a.foo.append(5) in Alex's example affects b.foo, but a.foo = 5 in my example doesn't? Well, try a.foo = 5 in Alex's example, and notice that it doesn't affect b.foo there either.

a.foo = 5 is just making a.foo into a name for 5. That doesn't affect b.foo, or any other name for the old value that a.foo used to refer to.* It's a little tricky that we're creating an instance attribute that hides a class attribute,** but once you get that, nothing complicated is happening here.


Hopefully it's now obvious why Alex used a list: the fact that you can mutate a list means it's easier to show that two variables name the same list, and also means it's more important in real-life code to know whether you have two lists or two names for the same list.


* The confusion for people coming from a language like C++ is that in Python, values aren't stored in variables. Values live off in value-land, on their own, variables are just names for values, and assignment just creates a new name for a value. If it helps, think of each Python variable as a shared_ptr<T> instead of a T.

** Some people take advantage of this by using a class attribute as a "default value" for an instance attribute that instances may or may not set. This can be useful in some cases, but it can also be confusing, so be careful with it.

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