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I am studying python, and although I think I get the whole concept and notion of Python, today I stumbled upon a piece of code that I did not fully understand:

Say I have a class that is supposed to define Circles but lacks a body:

class Circle():

Since I have not defined any attributes, how can I do this:

my_circle = Circle()
my_circle.radius = 12

The weird part is that Python accepts the above statement. I don't understand why Python doesn't raise an undefined name error. I do understand that via dynamic typing I just bind variables to objects whenever I want, but shouldn't an attribute radius exist in the Circle class to allow me to do this?

EDIT: Lots of wonderful information in your answers! Thank you everyone for all those fantastic answers! It's a pity I only get to mark one as an answer.

share|improve this question
When you initialize self.radius at the __init__ aren't you doing exactly the same thing? – JBernardo Sep 24 '12 at 16:22
Why should it not be? – Gareth Latty Sep 24 '12 at 16:24
@JBernardo yes you do, but in this case, you are explicitly defining a radius attribute for class Circle(). In my case I didn't create any attribute in the class body. – NlightNFotis Sep 24 '12 at 16:27
@NlightNFotis No, you are doing the same thing because the self is just a variable like any other. – JBernardo Sep 24 '12 at 16:29
@NlightNFotis Also, Python is not Java and a language that doesn't affect the way you think about programming, is not worth knowing - [Alan Perlis](en.wikiquote.org/wiki/Alan_Perlis) – JBernardo Sep 24 '12 at 16:30
up vote 21 down vote accepted

A leading principle is that there is no such thing as a declaration. That is, you never declare "this class has a method foo" or "instances of this class have an attribute bar", let alone making a statement about the types of objects to be stored there. You simply define a method, attribute, class, etc. and it's added. As JBernardo points out, any __init__ method does the very same thing. It wouldn't make a lot of sense to arbitrarily restrict creation of new attributes to methods with the name __init__. And it's sometimes useful to store a function as __init__ which don't actually have that name (e.g. decorators), and such a restriction would break that.

Now, this isn't universally true. Builtin types omit this capability as an optimization. Via __slots__, you can also prevent this on user-defined classes. But this is merely a space optimization (no need for a dictionary for every object), not a correctness thing.

If you want a safety net, well, too bad. Python does not offer one, and you cannot reasonably add one, and most importantly, it would be shunned by Python programmers who embrace the language (read: almost all of those you want to work with). Testing and discipline, still go a long way to ensuring correctness. Don't use the liberty to make up attributes outside of __init__ if it can be avoided, and do automated testing. I very rarely have an AttributeError or a logical error due to trickery like this, and of those that happen, almost all are caught by tests.

share|improve this answer

Just to clarify some misunderstandings in the discussions here. This code:

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

foo = Foo(5)

And this code:

class Foo(object):

foo = Foo()
foo.bar = 5

is exactly equivalent. There really is no difference. It does exactly the same thing. This difference is that in the first case it's encapsulated and it's clear that the bar attribute is a normal part of Foo-type objects. In the second case it is not clear that this is so.

In the first case you can not create a Foo object that doesn't have the bar attribute (well, you probably can, but not easily), in the second case the Foo objects will not have a bar attribute unless you set it.

So although the code is programatically equivalent, it's used in different cases.

share|improve this answer

No, python is flexible like that, it does not enforce what attributes you can store on user-defined classes.

There is a trick however, using the __slots__ attribute on a class definition will prevent you from creating additional attributes not defined in the __slots__ sequence:

>>> class Foo(object):
...     __slots__ = ()
>>> f = Foo()
>>> f.bar = 'spam'
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
AttributeError: 'Foo' object has no attribute 'bar'
>>> class Foo(object):
...     __slots__ = ('bar',)
>>> f = Foo()
>>> f.bar
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
AttributeError: bar
>>> f.bar = 'spam'
share|improve this answer
@NlightNFotis You don't. Python isn't Java and you shouldn't try to write Java in Python. If you want to do that, write Java. – Gareth Latty Sep 24 '12 at 16:25
@NlightNFotis: You generally don't in python. You use unit tests and embrace the flexibility. – Martijn Pieters Sep 24 '12 at 16:26
Share the joy of programming without a safety net :) – ypercubeᵀᴹ Sep 24 '12 at 16:26
@NlightNFotis: The type safety of Java is a an illusion. It feels like it's safer and more secure and that you can trust the code more, but you really can't. The cake is a lie. – Lennart Regebro Sep 24 '12 at 16:56
__slots__ is there as a memory-savings enhancement; it should not be used as a way to lockdown a class. – Ethan Furman Sep 24 '12 at 17:26

Python lets you store attributes of any name on virtually on any instance. It's possible to block this (either by writing the class in C, like the built-in types, or by using __slots__ which allows only certain names).

The reason it works is that most instances store their attributes in a dictionary. Yes, a regular Python dictionary like you'd define with {}. The dictionary is stored in an instance attribute called __dict__. In fact, some people say "classes are just syntactic sugar for dictionaries." That is, you can do everything you can do with a class with a dictionary; classes just make it easier.

You're used to static languages where you must define all attributes at compile time. In Python, class definitions are executed, not compiled; classes are objects just like any other; and adding attributes is as easy as adding an item to a dictionary. This is by design.

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It creates a radius data member of my_circle.

If you had asked it for my_circle.radius it would have thrown an exception:

>>> print my_circle.radius # AttributeError

Interestingly, this does not change the class; just that one instance. So:

>>> my_circle = Circle()
>>> my_circle.radius = 5
>>> my_other_circle = Circle()
>>> print my_other_circle.radius # AttributeError
share|improve this answer
although you could do Circle.xyz = 5 and change the class rather than the instance... – Joran Beasley Sep 24 '12 at 16:33

There are two types of attributes in Python - Class Data Attributes and Instance Data Attributes.

Python gives you flexibility of creating Data Attributes on the fly.

Since an instance data attribute is related to an instance, you can also do that in __init__ method or you can do it after you have created your instance..

class Demo(object):
    classAttr = 30
    def __init__(self):
         self.inInit = 10

demo = Demo()
demo.outInit = 20
Demo.new_class_attr = 45; # You can also create class attribute here.

print demo.classAttr  # Can access it 

del demo.classAttr         # Cannot do this.. Should delete only through class

demo.classAttr = 67  # creates an instance attribute for this instance.
del demo.classAttr   # Now OK.
print Demo.classAttr  

So, you see that we have created two instance attributes, one inside __init__ and one outside, after instance is created..

But a difference is that, the instance attribute created inside __init__ will be set for all the instances, while if created outside, you can have different instance attributes for different isntances..

This is unlike Java, where each Instance of a Class have same set of Instance Variables..

  • NOTE: - While you can access a class attribute through an instance, you cannot delete it.. Also, if you try to modify a class attribute through an instance, you actually create an instance attribute which shadows the class attribute..
share|improve this answer
No, you don't declare class attributes either. You define them. Those definitions are executable statements and perfectly ordinary, just instead of manipulating some function's scope, they manipulate the class's attributes. And the class attributes aren't set in stone either: It's trivial to add, replace and remove class attributes. – delnan Sep 24 '12 at 16:37
Yeah I misplaced the word there.. Thank you for noticing.. – Rohit Jain Sep 24 '12 at 16:42
I still don't see why you distinguish between class and instance attributes in the beginning. Both are explicitly defined, in both cases at runtime, and in both cases these definitions and re-definitions can happen at any time. – delnan Sep 24 '12 at 16:46
@delnan.. Thanks for reminding. Edited the post accordingly. – Rohit Jain Sep 24 '12 at 16:54

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