99

How can I make methods and data members private in Python? Or doesn't Python support private members?

2

10 Answers 10

110

9.6. Private Variables

“Private” instance variables that cannot be accessed except from inside an object, don’t exist in Python. However, there is a convention that is followed by most Python code: a name prefixed with an underscore (e.g. _spam) should be treated as a non-public part of the API (whether it is a function, a method or a data member). It should be considered an implementation detail and subject to change without notice.

Since there is a valid use-case for class-private members (namely to avoid name clashes of names with names defined by subclasses), there is limited support for such a mechanism, called name mangling. Any identifier of the form __spam (at least two leading underscores, at most one trailing underscore) is textually replaced with _classname__spam, where classname is the current class name with leading underscore(s) stripped. This mangling is done without regard to the syntactic position of the identifier, as long as it occurs within the definition of a class.

So, for example,

class Test:
    def __private_symbol(self):
        pass
    def normal_symbol(self):
        pass
 
print dir(Test)

will output:

['_Test__private_symbol', 
'__doc__', 
'__module__', 
'normal_symbol']

__private_symbol should be considered a private method, but it would still be accessible through _Test__private_symbol.

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  • 4
    but what if i dont want my client to use certain methods?(ie methods that are of no concern to the client,like methods used for provding a service to a public method but is of no use being public)
    – appusajeev
    Jan 14, 2010 at 13:17
  • 14
    @appusajeev: don't document them. if they use them it's their problem. Jan 14, 2010 at 13:21
  • 7
    Methods that begin with one or more underscores won't be documented, i.e., they won't show up when using help() on the class in the interpreter. Your client could still technically use them, but it's their own problem if they do.
    – mipadi
    Jan 14, 2010 at 13:34
  • 6
    @appusajeev: What does "better abstraction" mean?
    – S.Lott
    Jan 14, 2010 at 14:00
  • 11
    "We're all adults here" Jun 3, 2014 at 17:07
44

The other answers provide the technical details. I'd like to emphasise the difference in philosophy between Python on one hand and languages like C++/Java (which I presume you're familiar with based on your question).

The general attitude in Python (and Perl for that matter) is that the 'privacy' of an attribute is a request to the programmer rather than a barbed wire fence by the compiler/interpreter. The idea is summarised well in this mail and is often referred to as "We're all consenting adults" since it 'assumes' that the programmer is responsible enough to not meddle with the insides. The leading underscores serve as a polite message saying that the attribute is internal.

On the other hand, if you do want to access the internals for some applications (a notable example is documentation generators like pydoc), you're free to do so. Onus is on you as a programmer to know what you're doing and do it properly rather than on the language to force you do to things it's way.

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  • 17
    "rather than on the language to force you do to things it's way." What about indentations? :) Jan 2, 2015 at 18:53
  • @BorisMilner I think the response to that would be: Indentation makes code readable and helps with understanding, so it becomes a good practice. Limiting access to members does no such thing. If anything, it goes a little bit into the opposite direction, because you'd have to state which members are private and which are not, adding visual clutter. May 29, 2017 at 12:28
14

There are no private of any other access protection mechanisms in Python. There is a convention documented in the Python style guide for indicating to the users of your your class that they should not be accessing certain attribute.

  • _single_leading_underscore: weak "internal use" indicator. E.g. from M import * does not import objects whose name starts with an underscore.

  • single_trailing_underscore_: used by convention to avoid conflicts with Python keyword, e.g. Tkinter.Toplevel(master, class_='ClassName')

  • __double_leading_underscore: when naming a class attribute, invokes name mangling (inside class FooBar, __boo becomes _FooBar__boo; see below).

9

If the name of a Python function, class method, or attribute starts with (but doesn't end with) two underscores, it's private; everything else is public. Python has no concept of protected class methods (accessible only in their own class and descendant classes). Class methods are either private (accessible only in their own class) or public (accessible from anywhere).

Dive Into Python

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  • 8
    Actually this is called name mangling and the variables do not become really private. docs.python.org/tutorial/classes.html#private-variables
    – jbochi
    Jan 14, 2010 at 13:12
  • but what if i dont want my client to use certain methods?(ie methods that are of no concern to the client,like methods used for provding a service to a public method but is of no use being public)
    – appusajeev
    Jan 14, 2010 at 13:27
  • Then you're looking for "non-public" members, see answer by jbochi.
    – ezod
    Jan 14, 2010 at 13:41
9

Python does not support privacy directly . Programmer need to know when it is safe to modify attribute from outside but anyway with python you can achieve something like private with little tricks. Now let's see a person can put anything private to it or not.

class Person(object):

    def __priva(self):
        print "I am Private"
   
    def publ(self):
        print " I am public"
   
    def callpriva(self):
        self.__priva()

Now When we will execute :

>>> p = Person()
>>> p.publ()
 I am public
>>> p.__priva()
Traceback (most recent call last):
  File "", line 1, in 
    p.__priva()
AttributeError: 'Person' object has no attribute '__priva'
​#Explanation   : You can see  here we are not able to fetch that private method directly.
>>> p.callpriva()
I am Private
#​Explanation  : Here we can access private method inside class​

​Then how someone can access that variable ???
You can do like :

>>> p._Person__priva
I am Private

​wow , actually if python is getting any variable starting with double underscore are “translated” by adding a single underscore and the class name to the beginning:

Note : If you do not want this name changing but you still want to send a signal for other objects to stay away, you can use a single initial underscore names with an initial underscore aren’t imported with starred imports (from module import *)
Example :

#test.py
def hello():
    print "hello"
def _hello():
    print "Hello private"

#----------------------
#test2.py
from test import *
print hello()
print _hello()

output-->

hello
Traceback (most recent call last):
  File "", line 1, in 
NameError: name '_hello' is not defined

Now if we will call _hello manually .

#test2.py
from test import _hello , hello
print hello()
print _hello()

output-->

hello
hello private

Finally : Python doesn’t really have an equivalent privacy support, although single and double initial underscores do to some extent give you two levels of privacy

3

This might work:

import sys, functools

def private(member):
    @functools.wraps(member)
    def wrapper(*function_args):
      myself = member.__name__
      caller = sys._getframe(1).f_code.co_name
      if (not caller in dir(function_args[0]) and not caller is myself):
         raise Exception("%s called by %s is private"%(myself,caller))
      return member(*function_args)
    return wrapper

class test:
   def public_method(self):
      print('public method called')

   @private
   def private_method(self):
      print('private method called')

t = test()
t.public_method()
t.private_method()
2

This is kinda a l-o-n-g answer but I think it gets to the root of the real problem here -- scope of visibility. Just hang in there while I slog through this!

Simply importing a module need not necessarily give the application developer access to all of its classes or methods; if I can't actually SEE the module source code how will I know what's available? Some one (or some THING) has to tell me what I can do and explain how to use those features I'm allowed to use, otherwise the whole thing is useless to me.

Those developing higher-level abstractions based on fundamental classes and methods via imported modules are presented with a specification DOCUMENT -- NOT the actual source code.

The module spec describes all the features intended to be visible to the client developer. When dealing with large projects and software project teams, the actual implementation of a module should ALWAYS remain hidden from those using it -- it's a blackbox with an interface to the outside world. For OOD purists, I believe the techie terms are "decoupling" and "coherence". The module user need only know the interface methods without being burden with the details of implementation.

A module should NEVER be changed without first changing its underlying spec document, which may require review / approval in some organizations prior to changing the code.

As hobby programmer (retired now), I start a new module with the spec doc actually written out as a giant comment block at the top of the module, this will be the part the user actually sees in the spec library. Since it's just me, I've yet to set up a library, but it would be easy enough to do.

Then I begin coding by writing the various classes and methods but without functional bodies -- just null print statements like "print()" -- just enough to allow the module to compile without syntax errors. When this step is complete I compile the completed null-module -- this is my spec. If I were working on a project team, I would present this spec/interface for review & commentary before proceeding with fleshing out the body.

I flesh out the bodies of each method one at a time and compile accordingly, ensuring syntax errors are fixed immediately on-the-fly. This is also a good time to start writing a temporary "main" execution section at the bottom to test each method as you code it. When the coding/testing are complete, all of the test code is commented out until you need it again should updates become necessary.

In a real-world development team, the spec comment block would also appear in a document control library, but that's another story. The point is: you, as the module client, see only this spec and NOT the source code.

PS: long before the beginning of time, I worked in the defense aerospace community and we did some pretty cool stuff, but things like proprietary algorithms and sensitive systems control logic were tightly vaulted and encrypted in super-duper secure software libraries. We had access to module / package interfaces but NOT the blackbox implementation bodies. There was a document management tool that handled all system-level designs, software specs, source code and test records -- it was all synched together. The government had strict requirements software quality assurance standards. Anyone remember a language called "Ada"? That's how old I am!

1

PEP 8

Section "Method Names and Instance Variables" https://peps.python.org/pep-0008/#method-names-and-instance-variables

Use one leading underscore only for non-public methods and instance variables.

To avoid name clashes with subclasses, use two leading underscores to invoke Python’s name mangling rules.

Python mangles these names with the class name: if class Foo has an attribute named __a, it cannot be accessed by Foo.__a. (An insistent user could still gain access by calling Foo._Foo__a.) Generally, double leading underscores should be used only to avoid name conflicts with attributes in classes designed to be subclassed.

Note: there is some controversy about the use of __names (see below).

Section "Designing for Inheritance " https://peps.python.org/pep-0008/#designing-for-inheritance

Always decide whether a class’s methods and instance variables (collectively: “attributes”) should be public or non-public. If in doubt, choose non-public; it’s easier to make it public later than to make a public attribute non-public.

Public attributes are those that you expect unrelated clients of your class to use, with your commitment to avoid backwards incompatible changes. Non-public attributes are those that are not intended to be used by third parties; you make no guarantees that non-public attributes won’t change or even be removed.

We don’t use the term “private” here, since no attribute is really private in Python (without a generally unnecessary amount of work).

Another category of attributes are those that are part of the “subclass API” (often called “protected” in other languages). Some classes are designed to be inherited from, either to extend or modify aspects of the class’s behavior. When designing such a class, take care to make explicit decisions about which attributes are public, which are part of the subclass API, and which are truly only to be used by your base class.

With this in mind, here are the Pythonic guidelines:

  • Public attributes should have no leading underscores.

  • If your public attribute name collides with a reserved keyword, append a single trailing underscore to your attribute name. This is preferable to an abbreviation or corrupted spelling. (However, notwithstanding this rule, ‘cls’ is the preferred spelling for any variable or argument which is known to be a class, especially the first argument to a class method.)

    Note 1: See the argument name recommendation above for class methods.

  • For simple public data attributes, it is best to expose just the attribute name, without complicated accessor/mutator methods. Keep in mind that Python provides an easy path to future enhancement, should you find that a simple data attribute needs to grow functional behavior. In that case, use properties to hide functional implementation behind simple data attribute access syntax.

    Note 1: Try to keep the functional behavior side-effect free, although side-effects such as caching are generally fine.

    Note 2: Avoid using properties for computationally expensive operations; the attribute notation makes the caller believe that access is (relatively) cheap.

  • If your class is intended to be subclassed, and you have attributes that you do not want subclasses to use, consider naming them with double leading underscores and no trailing underscores. This invokes Python’s name mangling algorithm, where the name of the class is mangled into the attribute name. This helps avoid attribute name collisions should subclasses inadvertently contain attributes with the same name.

    Note 1: Note that only the simple class name is used in the mangled name, so if a subclass chooses both the same class name and attribute name, you can still get name collisions.

    Note 2: Name mangling can make certain uses, such as debugging and getattr(), less convenient. However the name mangling algorithm is well documented and easy to perform manually.

    Note 3: Not everyone likes name mangling. Try to balance the need to avoid accidental name clashes with potential use by advanced callers.

-1
import inspect


class Number:
    def __init__(self, value):
        self.my_private = value

    def set_private(self, value):
        self.my_private = value

    def __setattr__(self, my_private, value):
        f = inspect.stack()[1][3]
        if f not in ['__init__', 'set_private']:
            raise Exception("can't access private member-my_private")
        # the default behavior
        self.__dict__[my_private] = value


def main():
    n = Number(2)
    print(n.my_private)
    n.set_private(3)
    print(n.my_private)


if __name__ == '__main__': 
    main()
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  • why is the answer not useful? it will make the "my_private" member prive.
    – liorb87
    Dec 2, 2015 at 17:41
  • 2
    It's not useful because it doesn't work. Not only does this not create a private member, it actually doesn't work. The constructor Number(2) doesn't work because even Number's own init function cannot set any members.
    – Cort Ammon
    Jul 21, 2016 at 22:18
  • @CortAmmon you are right, I have corrected my answer
    – liorb87
    Nov 6, 2021 at 20:02
-2

I use Python 2.7 and 3.5. I wrote this code:

class MyOBject(object):
    def __init__(self):
        self.__private_field = 10


my_object = MyOBject()
print(my_object.__private_field)

ran it and got:

AttributeError: 'MyOBject' object has no attribute '__private_field'

Please see: https://www.tutorialsteacher.com/python/private-and-protected-access-modifiers-in-python

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  • 1
    Value still could be accessed and modified: print(my_object._MyOBject__private_field)
    – flamingo
    Apr 14, 2020 at 21:09

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