Although the accepted anwer is spot on, I would like to add a bit description.
Let's do a small exercise
first of all define a class as follows:
temp = 'Skyharbor'
def __init__(self, x):
self.x = x
def change(self, y):
self.temp = y
So what do we have here?
- We have a very simple class which has an attribute
temp which is a string
__init__ method which sets
- A change method sets
Pretty straight forward so far yeah? Now let's start playing around with this class. Let's initialize this class first:
a = A('Tesseract')
Now do the following:
a.temp worked as expected but how the hell did
A.temp work? Well it worked because temp is a class attribute. Everything in python is an object. Here A is also an object of class
type. Thus the attribute temp is an attribute held by the
A class and if you change the value of temp through
A (and not through an instance of
a), the changed value is going to be reflected in all the instance of
Let's go ahead and do that:
>>> A.temp = 'Monuments'
Interesting isn't it? And note that
id(A.temp) are still the same.
Any Python object is automatically given a
__dict__ attribute, which contains its list of attributes. Let's investigate what this dictionary contains for our example objects:
'change': <function change at 0x7f5e26fee6e0>,
'__init__': <function __init__ at 0x7f5e26fee668>,
temp attribute is listed among
A class's attributes while
x is listed for the instance.
So how come that we get a defined value of
a.temp if it is not even listed for the instance
a. Well that's the magic of
__getattribute__() method. In Python the dotted syntax automatically invokes this method so when we write
a.temp, Python executes
a.__getattribute__('temp'). That method performs the attribute lookup action, i.e. finds the value of the attribute by looking in different places.
The standard implementation of
__getattribute__() searches first the internal dictionary (dict) of an object, then the type of the object itself. In this case
a.__getattribute__('temp') executes first
a.__dict__['temp'] and then
Okay now let's use our
Well now that we have used
print(a.temp) gives us a different value from
Now if we compare
id(A.temp), they will be different.