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What is the difference between creating a variable using the self.variable syntax and creating one without?

I was testing it out and I can still access both from an instance:

class TestClass(object):
    j = 10
    def __init__(self):
        self.i = 20

if __name__ == '__main__':
    testInstance = TestClass()
    print testInstance.i
    print testInstance.j

However, if I swap the location of the self, it results in an error.

class TestClass(object):
    self.j = 10
    def __init__(self):
        i = 20

if __name__ == '__main__':
    testInstance = TestClass()
    print testInstance.i
    print testInstance.j  

>>NameError: name 'self' is not defined

So I gather that self has a special role in initialization.. but, I just don't quite get what it is.

share|improve this question
up vote 6 down vote accepted

self refers to the current instance of the class. If you declare a variable outside of a function body, you're referring to the class itself, not an instance, and thus all instances of the class will share the same value for that attribute.

In addition, variables declared as part of the class (rather than part of an instance) can be accessed as part of the class itself:

class Foo(object):
    a = 1

one = Foo()
two = Foo()

Foo.a = 3

Since this value is class-wide, not only can you read it directly from the class:

print Foo.a # prints 3

But it will also change the value for every instance of the class:

print one.a # prints 3
print two.a # prints 3

Note, however, that this is only the case if you don't override a class variable with an instance variable. For instance, if you created the following:

class Bar(object)
    a = 1
    def __init__(self):
        self.a = 2

and then did the following:

one = Bar()
two = Bar()
two.a = 3

Then you'd get the following results:

print Bar.a # prints "1"
print one.a # prints "2"
print two.a # prints "3"

As noted in the comments, assigning to two.a creates an instance-local entry on that instance, which overrides the a from Bar, hence why Bar.a is still 1 but two.a is 3.

share|improve this answer
    
Since a is a class variable, you can also access Foo.a directly – Nathan Villaescusa Oct 10 '12 at 2:36
    
@NathanVillaescusa Quite true. – Amber Oct 10 '12 at 2:36
    
Another thing, if in the __init__ method of foo you alter self.a, you do so only for that instance, so Foo.a is still unchanged. – Nathan Villaescusa Oct 10 '12 at 2:38
    
To further explain kindall's first point: when you assign to a class attribute on an instance, you create a new attribute on the instance, you don't modify the value of the class attribute. If the attribute is a mutable object, you can mutate it, and that will be visible on all instances of the class. But assignment to an class attribute on an instance will add a new entry to the instance's __dict__ which will always be retrieved before the class attribute. To illustrate this, just examine __dict__ on one and two in the first example before and after the new assignments. – Matthew Trevor Oct 10 '12 at 4:07
    
@kindall You're correct about the first example, and I've removed the incorrect portion. The second example (with Bar), however, is correct, and has been tested. – Amber Oct 10 '12 at 7:57

j is a class variable as pointed by Amber. Now, if you come from C++ background, self is akin to the this pointer. While python doesn't deal with pointers, self plays the similar role of referring to current instance of the class.

In the python way, explicit is better than implicit. In C++, the availability of this is conventionally assumed for each class. Python, on the other hand, explicitly passes self as first argument to each of your instance methods.

Hence self is available only inside the scope of your instance methods, making it undefined for the place from which you tried using it.

Since you're made to explicitly pass self to instance methods, you could also call it something else if you want to -

>>> class Foo:
...     b = 20
...     def __init__(them):
...             them.beep = "weee"
... 
>>> f = Foo()
>>> f.beep
'weee'
share|improve this answer

For methods, you have the class instance itself passed in as the first argument

def TestClass(object):
  def foo(self, x):
    pass

thing = TestClass()
thing.foo("hello")

# ^
# |__ this will call the bound method `foo()`, passing in thing as the first 
#     argument and "hello" as the second argument

Using the name self is just a python convention, and it will happen anyway if you use some other name.

In your second example, self is simply not defined so it doesn't make sense to ask for self.j, which is why you're seeing the error you get.

share|improve this answer

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