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So, I was playing around with Python while answering this question, and I discovered that this is not valid:

o = object()
o.attr = 'hello'

due to an AttributeError: 'object' object has no attribute 'attr'. However, with any class inherited from object, it is valid:

class Sub(object):
    pass

s = Sub()
s.attr = 'hello'

Printing s.attr displays 'hello' as expected. Why is this the case? What in the Python language specification specifies that you can't assign attributes to vanilla objects?

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Pure guesswork: The object type is immutable and new attributes cannot be added? This seems like it would make the most sense. –  Chris Lutz Oct 7 '09 at 1:10
    
Why are you messing with creating objects via object()? What is the point of that? Can you provide some context for why you're trying this? –  S.Lott Oct 7 '09 at 10:23
2  
@ S.Lott: See the very first line of this question. Purely curiosity. –  Smashery Oct 8 '09 at 4:00

6 Answers 6

up vote 50 down vote accepted

An instance of object does not carry around a __dict__ -- if it did, before the horrible circular dependence problem (since dict, like most everything else, inherits from object;-), this would saddle every object in Python with a dict, which would mean an overhead of many bytes per object that currently doesn't have or need a dict (essentially, all objects that don't have arbitrarily assignable attributes don't have or need a dict).

For example, using the excellent pympler project (you can get it via svn from here), we can do some measurements...:

>>> from pympler import asizeof
>>> asizeof.asizeof({})
144
>>> asizeof.asizeof(23)
16

You wouldn't want every int to take up 144 bytes instead of just 16, right?-)

Now, when you make a class (inheriting from whatever), things change...:

>>> class dint(int): pass
... 
>>> asizeof.asizeof(dint(23))
184

...the __dict__ is now added (plus, a little more overhead) -- so a dint instance can have arbitrary attributes, but you pay quite a space cost for that flexibility.

So what if you wanted ints with just one extra attribute foobar...? It's a rare need, but Python does offer a special mechanism for the purpose...

>>> class fint(int):
...   __slots__ = 'foobar',
...   def __init__(self, x): self.foobar=x+100
... 
>>> asizeof.asizeof(fint(23))
80

...not quite as tiny as an int, mind you! (or even the two ints, one the self and one the self.foobar -- the second one can be reassigned), but surely much better than a dint.

When the class has the __slots__ special attribute (a sequence of strings), then the class statement (more precisely, the default metaclass, type) does not equip every instance of that class with a __dict__ (and therefore the ability to have arbitrary attributes), just a finite, rigid set of "slots" (basically places which can each hold one reference to some object) with the given names.

In exchange for the lost flexibility, you gain a lot of bytes per instance (probably meaningful only if you have zillions of instances gallivanting around, but, there are use cases for that).

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1  
This explains how the mechanism is implemented but does not explain why is it implemented in this way. I can think of at least two or three ways to implement adding dict on the fly which will not have the overhead downside but will add some simplicity. –  Георги Кременлиев Apr 3 '14 at 19:20

It is simply due to optimization.

Dicts are relatively large.

>>> import sys
>>> sys.getsizeof((lambda:1).__dict__)
140

Most (maybe all) classes that are defined in C do not have a dict for optimization.

If you look at the source code you will see that there are many checks to see if the object has a dict or not.

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If you need to stuff attributes in an object, in Python 3.3+, you can use types.SimpleNamespace.

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It's because object is a "type", not a class. In general, all classes that are defined in C extensions (like all the built in datatypes, and stuff like numpy arrays) do not allow addition of arbitrary attributes.

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But object() is an object, just like Sub() is an object. My understanding is that both s and o are objects. So what is the fundamental difference between s and o? Is it that one is an instantiated type and the other is an instantiated class? –  Smashery Oct 7 '09 at 1:26
    
Bingo. That's exactly the issue. –  Ryan Oct 7 '09 at 1:30

So, investigating my own question, I discovered this about the Python language: you can inherit from things like int, and you see the same behaviour:

>>> class MyInt(int):
       pass

>>> x = MyInt()
>>> print x
0
>>> x.hello = 4
>>> print x.hello
4
>>> x = x + 1
>>> print x
1
>>> print x.hello
Traceback (most recent call last):
  File "<interactive input>", line 1, in <module>
AttributeError: 'int' object has no attribute 'hello'

I assume the error at the end is because the add function returns an int, so I'd have to override functions like __add__ and such in order to retain my custom attributes. But this all now makes sense to me (I think), when I think of "object" like "int".

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This is (IMO) one of the fundamental limitations with Python - you can't re-open classes. I believe the actual problem, though, is caused by the fact that classes implemented in C can't be modified at runtime... subclasses can, but not the base classes.

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