According to http://www.faqs.org/docs/diveintopython/fileinfo_private.html:

Like most languages, Python has the concept of private elements:

  • Private functions, which can't be called from outside their module

However, if I define two files:

#a.py
__num=1

and:

#b.py
import a
print a.__num

when i run b.py it prints out 1 without giving any exception. Is diveintopython wrong, or did I misunderstand something? And is there some way to do define a module's function as private?

  • It's not that diveintopython is wrong, but in their example: >>> import fileinfo >>> m = fileinfo.MP3FileInfo() >>> m.__parse("/music/_singles/kairo.mp3") 1 Traceback (innermost last): File "<interactive input>", line 1, in ? AttributeError: 'MP3FileInfo' instance has no attribute '__parse' fileinfo.MP3FileInfo() is an instance of class. Which gives this exception when you use double underscore. Whereas in your case, you didn't create a class, you just created a module. See also: stackoverflow.com/questions/70528/… – Homero Barrocas S Esmeraldo Apr 24 at 23:18
up vote 232 down vote accepted

In Python, "privacy" depends on "consenting adults'" levels of agreement - you can't force it (any more than you can in real life;-). A single leading underscore means you're not supposed to access it "from the outside" -- two leading underscores (w/o trailing underscores) carry the message even more forcefully... but, in the end, it still depends on social convention and consensus: Python's introspection is forceful enough that you can't handcuff every other programmer in the world to respect your wishes.

((Btw, though it's a closely held secret, much the same holds for C++: with most compilers, a simple #define private public line before #includeing your .h file is all it takes for wily coders to make hash of your "privacy"...!-))

  • 60
    Your note on C++ is incorrect. By using #define private public you're changing the code that gets sent to the compiler, which is where the name mangling takes place. – rhinoinrepose Apr 5 '11 at 22:14
  • 12
    Also the C++ mangling is obscure, but hardly secret. You can "introspect" a binary produced by C++ too. OT, sorry. – Prof. Falken Aug 22 '12 at 12:50
  • 34
    As an update to @rhinoinrepose, it is not just incorrect, it is undefined behavior according to the standard to redefine a keyword with a preprocessor macro. – CoryKramer Jun 8 '15 at 20:26
  • 1
    You can use a closure to make a variable private and then return the variables you want to export. – Edgar Klerks Jul 7 '15 at 12:15
  • 3
    @AlexMartelli Isn't static void foo() as private as it gets. It is at least hidden to the linker, and the function may be removed entirely by inlining. – user877329 Jun 18 '17 at 13:16

There may be confusion between class privates and module privates.

A module private starts with one underscore
Such a element is not copied along when using the from <module_name> import * form of the import command; it is however imported if using the import <moudule_name> syntax (see Ben Wilhelm's answer)
Simply remove one underscore from the a.__num of the question's example and it won't show in modules that import a.py using the from a import * syntax.

A class private starts with two underscores (aka dunder i.e. d-ouble under-score)
Such a variable has its name "mangled" to include the classname etc.
It can still be accessed outside of the class logic, through the mangled name.
Although the name mangling can serve as a mild prevention device against unauthorized access, its main purpose is to prevent possible name collisions with class members of the ancestor classes. See Alex Martelli's funny but accurate reference to consenting adults as he describes the convention used in regards to these variables.

>>> class Foo(object):
...    __bar = 99
...    def PrintBar(self):
...        print(self.__bar)
...
>>> myFoo = Foo()
>>> myFoo.__bar  #direct attempt no go
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
AttributeError: 'Foo' object has no attribute '__bar'
>>> myFoo.PrintBar()  # the class itself of course can access it
99
>>> dir(Foo)    # yet can see it
['PrintBar', '_Foo__bar', '__class__', '__delattr__', '__dict__', '__doc__', '__
format__', '__getattribute__', '__hash__', '__init__', '__module__', '__new__',
'__reduce__', '__reduce_ex__', '__repr__', '__setattr__', '__sizeof__', '__str__
', '__subclasshook__', '__weakref__']
>>> myFoo._Foo__bar  #and get to it by its mangled name !  (but I shouldn't!!!)
99
>>>
  • Well, TIL. Any reason why they don't enforce module-level __private_function, though? I ran into this and got into errors because of it. – Santa Apr 16 '10 at 21:04
  • 3
    As per stackoverflow.com/a/13618522/3155195, the explanation of the single underscore is wrong. – zehnpaard Jan 10 '15 at 13:48
  • 1
    @zehnpaard Thank you for pointing this out! I edited my answer to fix this inaccuracy. – mjv Jan 12 '15 at 13:03
  • @mjv: Thanks for fixing! – zehnpaard Jan 12 '15 at 20:33
  • 1
    This should be the accepted answer – Terrabits May 4 '17 at 23:34

This question was not fully answered, since module privacy is not purely conventional, and since using import may or may not recognize module privacy, depending on how it is used.

If you define private names in a module, those names will be imported into any script that uses the syntax, 'import module_name'. Thus, assuming you had correctly defined in your example the module private, _num, in a.py, like so..

#a.py
_num=1

..you would be able to access it in b.py with the module name symbol:

#b.py
import a
...
foo = a._num # 1

To import only non-privates from a.py, you must use the from syntax:

#b.py
from a import *
...
foo = _num # throws NameError: name '_num' is not defined

For the sake of clarity, however, it is better to be explicit when importing names from modules, rather than importing them all with a '*':

#b.py
from a import name1 
from a import name2
...
  • Thank you! I was wondering why a._num was still working. – gwg Dec 16 '14 at 23:57
  • 1
    where do you specify which functions/libraries are imported? in the init.py? – FistOfFury Aug 24 '16 at 21:40
  • There is no risk of name collisions when _names are invoked with import a -- they are accesses as a._names when using this style. – Josiah Yoder Sep 7 '17 at 15:52
  • @FistOfFury Yes, you specify the functions imported in the __init__.py file. See here for some help on that. – Mike Williamson Jan 19 at 0:36

Python allows for private class members with the double underscore prefix. This technique doesn't work at a module level so I am thinking this is a mistake in Dive Into Python.

Here is an example of private class functions:

class foo():
    def bar(self): pass
    def __bar(self): pass

f = foo()
f.bar()   # this call succeeds
f.__bar() # this call fails
  • 2
    I think the OP's intent is to write functions that are not accessible outside of, for example, a commercial package. In that regard, this answer isn't complete. The __bar() function is still accessible from outside through f._foo__bar(). Therefore, the double-leading underscores do not make it private. – SevakPrime May 29 '15 at 12:11

This is an ancient question, but both module private (one underscore) and class-private (two underscores) mangled variables are now covered in the standard documentation:

The Python Tutorial » Classes » Private Variables

You can add an inner function:

def public(self, args):
   def private(self.root, data):
       if (self.root != None):
          pass #do something with data

Something like that if you really need that level of privacy.

embedded with closures or functions is one way. This is common in JS although not required for non-browser platforms or browser workers.

In Python it seems a bit strange, but if something really needs to be hidden than that might be the way. More to the point using the python API and keeping things that require to be hidden in the C (or other language) is probably the best way. Failing that I would go for putting the code inside a function, calling that and having it return the items you want to export.

Python has three modes via., private, public and protected .While importing a module only public mode is accessible .So private and protected modules cannot be called from outside of the module i.e., when it is imported .

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