The question is whether this is an attribute of the class itself or of a particular object. If the whole class of things has a certain attribute (possibly with minor exceptions), then by all means, assign an attribute onto the class. If some strange objects, or subclasses differ in this attribute, they can override it as necessary. Also, this is more memory-efficient than assigning an essentially constant attribute onto every object; only the class's
__dict__ has a single entry for that attribute, and the
__dict__ of each object may remain empty (at least for that particular attribute).
In short, both of your examples are quite idiomatic code, but they mean somewhat different things, both at the machine level, and at the human semantic level.
Let me explain this:
>>> class MyClass(object):
... a_member = 'a'
>>> o = MyClass()
>>> p = MyClass()
>>> o.a_member = 'b'
On line two, you're setting a "class attribute". This is litterally an attribute of the object named "MyClass". It is stored as
MyClass.__dict__['a_member'] = 'a'. On later lines, you're setting the object attribute
o.a_member to be. This is completely equivalent to
o.__dict__['a_member'] = 'b'. You can see that this has nothing to do with the separate dictionary of
p.__dict__. When accessing
a_member of p, it is not found in the object dictionary, and deferred up to its class dictionary:
MyClass.a_member. This is why modifying the attributes of
o do not affect the attributes of
p, because it doesn't affect the attributes of