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What is the difference between doing

class a:
   def __init__(self):

to doing

class a:
   def __init__(self):
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Duplicate stackoverflow.com/questions/1537202/… –  S.Lott Oct 11 '09 at 11:55
Same question within a few days? Homework? –  S.Lott Oct 11 '09 at 11:55
please have a look at the other questions I have posted, for instance: stackoverflow.com/questions/1547222/… or this: stackoverflow.com/questions/1353173/… (I doubt how many schools have a fogbugz account :) ) also, if there's any place where you can see the user's IP - I am pretty sure the other guy's not from the same country as me. –  olamundo Oct 11 '09 at 19:56
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3 Answers

up vote 9 down vote accepted
class a:
   def __init__(self):

this creates a class (in Py2, a cruddy, legacy, old-style, don't do that! class; in Py3, the nasty old legacy classes have finally gone away so this would be a class of the one and only kind -- the *good kind, which requires class a(object): in Py2) such that each instance starts out with its own reference to the integer object 1.

class a:
   def __init__(self):

this creates a class (of the same kind) which itself has a reference to the integer object 1 (its instances start out with no per-instance reference).

For immutables like int values, it's hard to see a practical difference. For example, in either case, if you later do self.val = 2 on one instance of a, this will make an instance reference (the existing answer is badly wrong in this respect).

The distinction is important for mutable objects, because they have mutator methods, so it's pretty crucial to know if a certain list is unique per-instance or shared among all instances. But for immutable objects, since you can never change the object itself but only assign (e.g. to self.val, which will always make a per-instance reference), it's pretty minor.

Just about the only relevant difference for immutables: if you later assign a.val = 3, in the first case this will affect what's seen as self.val by each instance (except for instances that had their own self.val assigned to, or equivalent actions); in the second case, it will not affect what's seen as self.val by any instance (except for instances for which you had performed del self.val or equivalent actions).

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As mentioned by others, in one case it's an attribute on the class on the other an attribute on the instance. Does this matter? Yes, in one case it does. As Alex said, if the value is mutable. The best explanation is code, so I'll add some code to show it (that's all this answer does, really):

First a class defining two instance attributes.

>>> class A(object):
...     def __init__(self):
...         self.number = 45
...         self.letters = ['a', 'b', 'c']

And then a class defining two class attributes.

>>> class B(object):
...     number = 45
...     letters = ['a', 'b', 'c']

Now we use them:

>>> a1 = A()
>>> a2 = A()
>>> a2.number = 15
>>> a2.letters.append('z')

And all is well:

>>> a1.number
>>> a1.letters
['a', 'b', 'c']

Now use the class attribute variation:

>>> b1 = B()
>>> b2 = B()
>>> b2.number = 15
>>> b2.letters.append('z')

And all is...well...

>>> b1.number
>>> b1.letters
['a', 'b', 'c', 'z']

Yeah, notice that when you changed, the mutable class attribute it changed for all classes. That's usually not what you want.

If you are using the ZODB, you use a lot of class attributes because it's a handy way of upgrading existing objects with new attributes, or adding information on a class level that doesn't get persisted. Otherwise you can pretty much ignore them.

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Others have explained the technical differences. I'll try to explain why you might want to use class variables.

If you're only instantiating the class once, then class variables effectively are instance variables. However, if you're making many copies, or want to share state among a few instances, then class variables are very handy. For example:

class Foo(object):
    def __init__(self):
        self.bar = expensivefunction()

myobjs = [Foo() for _ in range(1000000)]

will cause expensivefunction() to be called a million times. If it's going to return the same value each time, say fetching a configuration parameter from a database, then you should consider moving it into the class definition so that it's only called once and then shared across all instances.

I also use class variables a lot when memoizing results. Example:

class Foo(object):
    bazcache = {}

    def baz(cls, key):
            result = cls.bazcache[key]
        except KeyError:
            result = expensivefunction(key)
            cls.bazcache[key] = result
        return result

In this case, baz is a class method; its result doesn't depend on any instance variables. That means we can keep one copy of the results cache in the class variable, so that 1) you don't store the same results multiple times, and 2) each instance can benefit from results that were cached from other instances.

To illustrate, suppose that you have a million instances, each operating on the results of a Google search. You'd probably much prefer that all those objects share those results than to have each one execute the search and wait for the answer.

So I'd disagree with Lennart here. Class variables are very convenient in certain cases. When they're the right tool for the job, don't hesitate to use them.

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