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What is the purpose of the self word in Python? I understand it refers to the specific object created from that class, but I can't see why it explicitly needs to be added to every function as a parameter. To illustrate, in Ruby I can do this:

class myClass
    def myFunc(name)
        @name = name
    end
end

Which I understand, quite easily. However in Python I need to include self:

class myClass:
    def myFunc(self, name):
        self.name = name

Can anyone talk me through this? It is not something I've come across in my (admittedly limited) experience.

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52  
You may find interesting this essay "Why explicit self has to stay" by Guido van Rossum: neopythonic.blogspot.com/2008/10/… – unutbu Apr 25 '10 at 20:35
6  
See also "Why must 'self' be used explicitly in method definitions and calls": docs.python.org/faq/… – unutbu Apr 25 '10 at 20:38
11  
"Which i understand, quite easily" --- Quite subjective, don't you think? What makes @name more intuitive than self.name? The latter, IMO, is more intuitive. – Santa Apr 28 '10 at 0:12
8  
That's the key difference between a function and a class method. A function is floating free, unencumbered. A class (instance) method has to be aware of it's parent (and parent properties) so you need to pass the method a reference to the parent class (as self). It's just one less implicit rule that you have to internalize before understanding OOP. Other languages choose syntactic sugar over semantic simplicity, python isn't other languages. – Evan Plaice Jan 17 '12 at 6:59
3  
I don't think "explicit is better than implicit" really explains this design choice well. @foo and self.foo are equally explicit as no implicit resolution needs to occur (e.g. in C++, instance members can be "implicitly" accessed without "explicitly" using namespaces). The only difference is that Ruby introduces a new semantic (@), while Python does not. Whether or not a new semantic was worth the amount of verbosity avoided is purely subjective. Though, it should be noted that most modern languages choose to introduce a concept here (e.g. php's $this, JS's this). – Jing Jun 14 '14 at 0:09

17 Answers 17

up vote 337 down vote accepted

The reason you need to use self. is because Python does not use the @ syntax to refer to instance attributes. Python decided to do methods in a way that makes the instance to which the method belongs be passed automatically, but not received automatically: the first parameter of methods is the instance the method is called on. That makes methods entirely the same as functions, and leaves the actual name to use up to you (although self is the convention, and people will generally frown at you when you use something else.) self is not special to the code, it's just another object.

Python could have done something else to distinguish normal names from attributes -- special syntax like Ruby has, or requiring declarations like C++ and Java do, or perhaps something yet more different -- but it didn't. Python's all for making things explicit, making it obvious what's what, and although it doesn't do it entirely everywhere, it does do it for instance attributes. That's why assigning to an instance attribute needs to know what instance to assign to, and that's why it needs self..

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18  
@Georg: cls refers to the class object, not instance object – SilentGhost Apr 25 '10 at 20:33
4  
The exception is when it's not a "regular" method, or "instance method", but something else -- a classmethod or a staticmethod or just a plain function :) – Thomas Wouters Apr 25 '10 at 20:55
11  
@SilentGhost: Actually, the name of the first parameter is whatever you want it to be. On class methods, the convention is to use cls and self is used conventionally for instance methods. If I wanted, I could use self for classmethods and cls for instance methods. I could also use bob and fnord if I liked. – SingleNegationElimination Nov 22 '10 at 22:13
34  
I find it interesting that the community didn't choose this instead of self. Does self have some history that I'm not aware of in older programming languages? – Julius Dec 12 '12 at 20:46
13  
@Julius The self came from Modula-3's conventions, see this answer for further details on this choice. (Disclaimer: its mine). – Bakuriu Sep 20 '13 at 19:07

I have been confused by this as well for quite a while and I don’t believe that the reason for this has got much to do with the often-pronounced explicit is better than implicit but that it is just following a simple analogy there.

Let’s take a simple vector class:

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

Now, we want to have a method which calculates the length. What would it look like if we wanted to define it inside the class?

    def length(self):
        return math.sqrt(self.x ** 2 + self.y ** 2)

And, what should it look like when we were to define it as a global method/function?

def length_global(vector):
    return math.sqrt(vector.x ** 2 + vector.y ** 2)

So, the whole structure stays the same. Now, how can me make use of this? If we assume for a moment that we hadn’t written a length method for our Vector class, we could do this:

Vector.length_new = length_global
v = Vector(3, 4)
print v.length_new() # 5.0

This works, because the first parameter of length_global, can be re-used as the self parameter in length_new. This would not be possible without an explicit self.


Another way of understanding the need for the explicit self is to see where Python adds some syntactical sugar. When you keep in mind, that basically, a call like

v_instance.length()

is internally transformed to

Vector.length(v_instance)

it is easy to see where the self fits in. You don't actually write instance methods in Python; what you write is class methods which (must) take an instance as a first parameter. And therefore, you’ll have to place the instance parameter somewhere explicitly.

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2  
Vector.length_new = length_global... I actually started to use syntax like this in my class declarations. Whenever I only want to inherit some of the methods from another class, I just explicitly copy the reference to the methods. – Jeeyoung Kim Nov 22 '10 at 21:37
1  
would it be fair to say that python's "instance method" is simply a syntactic sugar of static global methods (as in Java or C++) with an instance object passed in to package multiple attributes? --- well this is kind of half-true since in polymorphism, the more important purpose of "this" (as in java) or "self" is to give u the correct implementation of methods. Python does have this. so calling myobj.someMethod() is equal to TheClassOfMyObj.someMethod(myobj) in python. note that the "TheClassOfMyObj" is automatically figured out by python from "self", otherwise u'd have to find that out. – teddy teddy Sep 7 '12 at 19:43
3  
That everything is really class methods in Python, was very eye opening, thanks! – dashesy Apr 6 '13 at 22:47
1  
Infact, not only are instance methods just class methods, but methods are just functions which are members of a class, as the Vector.length_new = length_global shows. – RussW Sep 6 '13 at 9:46
1  
@KarolyHorvath: Sure, it would also be possible to have a language with a model where internally defined methods do not need an explicit self but externally defined methods do. But I’d say there is some consistency in requiring the explicit self in both cases, which makes it a legitimate reason to do it this way. Other languages may choose different approaches. – Debilski Mar 16 '14 at 14:52

Let's say you have a class ClassA which contains a method methodA defined as:

def methodA(self, arg1, arg2):
    # do something

and ObjectA is an instance of this class.

Now when ObjectA.methodA(arg1, arg2) is called, python internally converts it for you as:

ClassA.methodA(ObjectA, arg1, arg2)

The self variable refers to the object itself.

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19  
This is the best simple answer about this topic. It tells everything a begginer needs to know. – Dielson Sales Mar 26 '14 at 3:26
9  
I read all the other answers and sort of understood, I read this one and then it all made sense. – Seth Oct 8 '14 at 2:37
2  
This is called as magic answer __magic__() – Rio Jun 3 '15 at 19:13
1  
This is already answered in the latter portion of Debilski's answer.. – SIslam Jun 13 '15 at 15:36

I like this example:

class A: 
    foo = []
a, b = A(), A()
a.foo.append(5)
b.foo
ans: [5]

class A: 
    def __init__(self): 
        self.foo = []
a, b = A(), A()
a.foo.append(5)
b.foo
ans: []
share|improve this answer
13  
so vars without self is simply static vars of the class, like in java – teddy teddy Sep 7 '12 at 19:45
    
teddy teddy, you aren't entirely correct. The behavior (static or non-static like) depends not only on self but also on the variable type. Try to do the first example with simple integer instead of list. The result would be quite different. – Konstantin Mar 27 '14 at 19:18
    
Actually, my question with this is why are you allowed to say a.foo in the first example, rather than A.foo? Clearly foo belongs to the class... – raxod502 Aug 6 '14 at 18:29
    
You can call static members from instances of the object in most languages. Why is that surprising? – Paarth Oct 29 '14 at 0:25
    
This is the simplest example I can imagine, and it explains it very well in my opinion. Thanks! – GL2014 Jan 2 '15 at 14:39

When objects are instantiated, the object itself is passed into the self parameter.

enter image description here

Because of this, the object’s data is bound to the object. Below is an example of how you might like to visualize what each object’s data might look. Notice how ‘self’ is replaced with the objects name. I'm not saying this example diagram below is wholly accurate but it hopefully with serve a purpose in visualizing the use of self.

enter image description here

The Object is passed into the self parameter so that the object can keep hold of its own data.

Although this may not be wholly accurate, think of the process of instantiating an object like this: When an object is made it uses the class as a template for its own data and methods. Without passing it's own name into the self parameter, the attributes and methods in the class would remain as a general template and would not be referenced to (belong to) the object. So by passing the object's name into the self parameter it means that if 100 objects are instantiated from the one class, they can all keep track of their own data and methods.

See the illustration below:

enter image description here

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Hey there, when accessing Bob's attributes for example by "bob.name()", you actually accesing bob().self.name so to speak from the 'init' right? – udarH3 Aug 10 '15 at 8:31
1  
When you write bob.name() in the above comment, you are implying that bob has a method called name() due to the fact that you added brackets after name. In this example however there is no such method. 'bob.name' (which has no parenthesis) is directly accessing the attribute called name from the init (constructor) method. When bob's speak method is called it is the method which accesses the name attribute and returns it in a print statement. Hope this helps. – sw123456 Aug 10 '15 at 8:48
    
Yeah without paranthesis i wanted to write sry. So the value of name you actually get it and not of self.name because as far as i know self.name and name are 2 different variable. Thanks – udarH3 Aug 10 '15 at 9:07
1  
No, you get the value of self.name, which for the bob object is actually bob.name, because the object's name is passed into the self parameter when it is created (instantiated). Again, hope this helps. Feel free to upvote main post if it has. – sw123456 Aug 10 '15 at 9:18
1  
Name is assigned to self.name at instantiation. After an object is created, all variables that belong to the object are those prefixed with 'self.' Remember that self is replaced with the object's name when it is created from the class. – sw123456 Aug 10 '15 at 9:23

I will demonstrate with code that does not use classes:

def state_init(state):
    state['field'] = 'init'

def state_add(state, x):
    state['field'] += x

def state_mult(state, x):
    state['field'] *= x

def state_getField(state):
    return state['field']

myself = {}
state_init(myself)
state_add(myself, 'added')
state_mult(myself, 2)

print( state_getField(myself) )
#--> 'initaddedinitadded'

Classes are just a way to avoid passing in this "state" thing all the time (and other nice things like initializing, class composition, the rarely-needed metaclasses, and supporting custom methods to override operators).

Now let's demonstrate the above code using the built-in python class machinery, to show how it's basically the same thing.

class State(object):
    def __init__(self):
        self.field = 'init'
    def add(self, x):
        self.field += x
    def mult(self, x):
        self.field *= x

s = State()
s.add('added')    # self is implicitly passed in
s.mult(2)         # self is implicitly passed in
print( s.field )

[migrated my answer from duplicate closed question]

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As well as all the other reasons already stated, it allows for easier access to overridden methods; you can call Class.some_method(inst).

An example of where it’s useful:

class C1(object):
    def __init__(self):
         print "C1 init"

class C2(C1):
    def __init__(self): #overrides C1.__init__
        print "C2 init"
        C1.__init__(self) #but we still want C1 to init the class too
>>> C2()
"C2 init"
"C1 init"
share|improve this answer

The following excerpts are from the Python documentation about self:

As in Modula-3, there are no shorthands [in Python] for referencing the object’s members from its methods: the method function is declared with an explicit first argument representing the object, which is provided implicitly by the call.

Often, the first argument of a method is called self. This is nothing more than a convention: the name self has absolutely no special meaning to Python. Note, however, that by not following the convention your code may be less readable to other Python programmers, and it is also conceivable that a class browser program might be written that relies upon such a convention.

For more information, see the Python documentation tutorial on classes.

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Its use is nearly the same as that of this keyword in Java, i.e. to give a reference to the current object.

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class myClass: def myFunc(this, name): this.name = name – Lemuel Adane Oct 26 '12 at 12:01

It’s there to follow the Python zen “explicit is better than implicit”. It’s indeed a reference to your class object. In Java and PHP, for example, it's called this.

If user_type_name is a field on your model you access it by self.user_type_name.

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self is an object reference to the object itself, therefore, they are same. Python methods are not called in the context of the object itself. self in Python may be used to deal with custom object models or something.

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Python is not a language built for Object Oriented Programming unlike Java or C++.

When calling a static method in Python, one simply writes a method with regular arguments inside it.

class Animal():
    def staticMethod():
        print "This is a static method"

However, an object method, which requires you to make a variable, which is an Animal, in this case, needs the self argument

class Animal():
    def objectMethod(self):
        print "This is an object method which needs an instance of a class"

The self method is also used to refer to a variable field within the class.

class Animal():
    animalName = ""

    def animalName(self):
        return self.animalName()

In this case, self is referring to the animalName variable of the entire class. REMEMBER: If you have a variable within a method, self will not work. That variable is simply existent only while that method is running. For defining fields (the variables of the entire class), you have to define them OUTSIDE the class methods.

If you don't understand a single word of what I am saying, then Google "Object Oriented Programming." Once you understand this, you won't even need to ask that question :).

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+1 because of the distinction between staticMethod() and objectMethod(self). I would like to add that in order to invoke the first, you would say Animal.staticMethod(), while objectMethod() needs an instance: a = Animal(); a.objectMethod() – user465139 Jul 24 '15 at 9:37
    
What you are saying isn't 100% true. That's just a convention. You can still call the static method from an object created. You just won't be able to use any class members because you didn't declare a self. I can even call Animal.objectMethod(animalObj) to call the non static. Basically this means a static method is only a method that doesn't use member variables. There shouldn't be any need to declare self. It's a silly language requirement I think. Languages like Lua and C++ give you obj variables behind the scenes. – user441521 Jan 12 at 18:20

Take a look at the following example, which clearly explains the purpose of self

class Restaurant(object):  
    bankrupt = False

    def open_branch(self):
        if not self.bankrupt:
           print("branch opened")

#create instance1
>>> x = Restaurant()
>>> x.bankrupt
False

#create instance2
>>> y = Restaurant()
>>> y.bankrupt = True   
>>> y.bankrupt
True

>>> x.bankrupt
False  

self is used/needed to distinguish between instances.

share|improve this answer
    
Yes, I think we know why self is used, but the question is why does the language make you explicitly declare it. Many other languages don't require this and a language which prides itself on being brief, you'd think they would just give you the variable behind the scenes to use like Lua or C++ (this) does. – user441521 Jan 12 at 18:13

Is because by the way python is designed the alternatives would hardly work. Python is designed to allow methods or functions to be defined in a context where both implicit this (a-la Java/C++) or explicit @ (a-la ruby) wouldn't work. Let's have an example with the explicit approach with python conventions:

def fubar(x):
    self.x = x

class C:
    frob = fubar

Now the fubar function wouldn't work since it would assume that self is a global variable (and in frob as well). The alternative would be to execute method's with a replaced global scope (where self is the object).

The implicit approach would be

def fubar(x)
    myX = x

class C:
    frob = fubar

This would mean that myX would be interpreted as a local variable in fubar (and in frob as well). The alternative here would be to execute methods with a replaced local scope which is retained between calls, but that would remove the posibility of method local variables.

However the current situation works out well:

 def fubar(self, x)
     self.x = x

 class C:
     frob = fubar

here when called as a method frob will receive the object on which it's called via the self parameter, and fubar can still be called with an object as parameter and work the same (it is the same as C.frob I think).

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In the __init__ method, self refers to the newly created object; in other class methods, it refers to the instance whose method was called.

self, as a name, is just a convention, call it as you want ! but when using it, for example to delete the object, you have to use the same name: __del__(var), where var was used in the __init__(var,[...])

You should take a look at cls too, to have the bigger picture. This post could be helpful.

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I'm surprised nobody has brought up Lua. Lua also uses the 'self' variable however it can be omitted but still used. C++ does the same with 'this'. I don't see any reason to have to declare 'self' in each function but you should still be able to use it just like you can with lua and C++. For a language that prides itself on being brief it's odd that it requires you to declare the self variable.

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it's an explicit reference to the class instance object.

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13  
I don't think this helps richzilla to understand the reason behind it. – Georg Schölly Apr 25 '10 at 20:30

protected by Jon Clements Apr 23 '13 at 8:26

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