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When defining a method on a class in Python, it looks something like this:

class MyClass(object):
    def __init__(self, x, y):
        self.x = x
        self.y = y

But in some other languages, such as C#, you have a reference to the object that the method is bound to with the "this" keyword without declaring it as an argument in the method prototype.

Was this an intentional language design decision in Python or are there some implementation details that require the passing of "self" as an argument?

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I bet you would also be interested in knowing why you need to explicitly write self to access members - stackoverflow.com/questions/910020/… –  Piotr Dobrogost Jan 1 '11 at 20:32
But it looks kinda a boiler plate though –  Raghuveer May 20 at 11:25

7 Answers 7

up vote 51 down vote accepted

I like to quote Peters' Zen of Python. "Explicit is better than implicit."

In Java and C++, 'this.' can be deduced, except when you have variable names that make it impossible to deduce. So you sometimes need it and sometimes don't.

Python elects to make things like this explicit rather than based on a rule.

Additionally, since nothing is implied or assumed, parts of the implementation are exposed. self.__class__, self.__dict__ and other "internal" structures are available in an obvious way.

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Although it would be nice to have a less cryptic error message when you forget it. –  Martin Beckett Feb 3 '09 at 23:51
You can spell it anything (my, this, whatever) and for certain type of class methods, it changes meaning. Not easy to work out your intent and give a "better" message. –  S.Lott Feb 4 '09 at 1:07
However when you call a method you don't have to pass object variable, doesn't it breaks the rule of explicitness? If to keep this zen, it have to be something like: object.method(object, param1, param2). Looks somehow inconsistent... –  Vedmant Jun 5 at 20:17
@Vedmant object.method() is explicit enough. –  ElmoVanKielmo Jul 27 at 12:09
@Vedmant oh, come on. The concept is so simple and easy to understand. I don't even know why I'm getting into this purely academic discussion. Enormous amount of Python code was successfully developed and it works but now someone doesn't find it natural that the first argument of a method will hold a reference to the object on which the method is called. And there's one more reason for self to be there. In Python you can't use any symbol which is not available in the current scope (except for assignment) so self has to be exactly where it is. –  ElmoVanKielmo Jul 28 at 15:09

I suggest that one should read Guido van Rossum's blog on this topic - Why explicit self has to stay.

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It's to minimize the difference between methods and functions. It allows you to easily generate methods in metaclasses, or add methods at runtime to pre-existing classes.


>>> class C(object):
...     def foo(self):
...         print "Hi!"
>>> def bar(self):
...     print "Bork bork bork!"
>>> c = C()
>>> C.bar = bar
>>> c.bar()
Bork bork bork!
>>> c.foo()

It also (as far as I know) makes the implementation of the python runtime easier.

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+1 for It's to minimize the difference between methods and functions. This should be accepted answer –  user May 27 '12 at 6:20
This also at the root of guido's much linked explanation. –  Marcin Jul 18 '13 at 20:25
This also shows that in Python , when you do c.bar() first it checks instance for attributes , then it checks class attributes . So you can 'attach' a data or function (objects) to a Class anytime and expect to access in its instance (i.e dir(instance) will s how it ) . Not just when you "created" c instance . Its very dynamic . –  Nishant Jan 4 '14 at 22:55
I don't really buy it. Even in the cases where you need the parent class, you could still infer it upon execution. And equivalence between instance methods and class functions passed instances is silly; Ruby does just fine without them. –  zachaysan Mar 1 at 17:58

Python doesn't force you on using "self". You can give it whatever name you want. You just have to remember that the first argument in a method definition header is a reference to the object.

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By convention, it should however be 'self' for instances or 'cls' where types are involved (mmmm metaclasses) –  pobk Sep 16 '08 at 8:16
It forces to put self as first param in every method, just extra text that doesn't make much sense as for me. Other languages work just fine with this. –  Vedmant Jul 28 at 13:29

I think it has to do with PEP 227:

Names in class scope are not accessible.  Names are resolved in
the innermost enclosing function scope.  If a class definition
occurs in a chain of nested scopes, the resolution process skips
class definitions.  This rule prevents odd interactions between
class attributes and local variable access.  If a name binding
operation occurs in a class definition, it creates an attribute on
the resulting class object.  To access this variable in a method,
or in a function nested within a method, an attribute reference
must be used, either via self or via the class name.
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There is also another very simple answer: according to the zen of python, "explicit is better than implicit".

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Also allows you to do this: (in short, invoking Outer(3).create_inner_class(4)().weird_sum_with_closure_scope(5) will return 12, but will do so in the craziest of ways.

class Outer(object):
    def __init__(self, outer_num):
        self.outer_num = outer_num

    def create_inner_class(outer_self, inner_arg):
        class Inner(object):
            inner_arg = inner_arg
            def weird_sum_with_closure_scope(inner_self, num)
                return num + outer_self.outer_num + inner_arg
        return Inner

Of course, this is harder to imagine in languages like Java and C#. By making the self reference explicit, you're free to refer to any object by that self reference. Also, such a way of playing with classes at runtime is harder to do in the more static languages - not that's it's necessarily good or bad. It's just that the explicit self allows all this craziness to exist.

Moreover, imagine this: We'd like to customize the behavior of methods (for profiling, or some crazy black magic). This can lead us to think: what if we had a class Method whose behavior we could override or control?

Well here it is:

from functools import partial

class MagicMethod(object):
    """Does black magic when called"""
    def __get__(self, obj, obj_type):
        # This binds the <other> class instance to the <innocent_self> parameter
        # of the method MagicMethod.invoke
        return partial(self.invoke, obj)

    def invoke(magic_self, innocent_self, *args, **kwargs):
        # do black magic here
        print magic_self, innocent_self, args, kwargs

class InnocentClass(object):
    magic_method = MagicMethod()

And now: InnocentClass().magic_method() will act like expected. The method will be bound with the innocent_self parameter to InnocentClass, and with the magic_self to the MagicMethod instance. Weird huh? It's like having 2 keywords this1 and this2 in languages like Java and C#. Magic like this allows frameworks to do stuff that would otherwise be much more verbose.

Again, I don't want to comment on the ethics of this stuff. I just wanted to show things that would be harder to do without an explicit self reference.

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