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To what extent can a class "protect" one of it's attributes from outside access?

For example, a class with a conventional _secret attribute, the original value is easily accessed:

class Paranoid(object):
    def __init__(self):
        self._secret = 0

    def set(self, val):
        self._secret = val * 10

    def get(self):
        return self._secret / 10

p = Paranoid()
print p.get() # 123
print p._secret # 1230, should be inaccessible

How can access to _secret be made more difficult?

There's no practical application to this, I'm just curious if there's novel ways to make it more difficult to access (within the context of Python - so ignoring the fact you could, say, attach a debugger to the Python process and inspect the memory)

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I'm sure this is a duplicate, I recall seeing a question which had a bunch of answers with interesting attempts at protecting the attribute.. but my searches found nothing –  dbr May 8 '12 at 16:08
@ÓscarLópez Indeed, but there's nothing wrong with consenting adults playing hide-and-seek :P –  dbr May 9 '12 at 5:46

2 Answers 2

up vote 3 down vote accepted
>>> def Paranoid():
...     _secret_dict = {'_secret': 0}
...     class ParanoidClass(object):
...             def set(self, val):
...                     _secret_dict['_secret'] = val * 10
...             def get(self):
...                     return _secret_dict['_secret'] / 10
...     return ParanoidClass()
>>> p = Paranoid()
>>> p.set(123)
>>> p.get()

This reminds me of a Steve Yegge blog post.

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Doesn't make writing the class members easily for any public interface, but effective. +1 for the blog post. :D –  Darthfett May 8 '12 at 16:26
does not work: >>> p.get.im_func.func_closure[0].cell_contents {'_secret': 1230} –  ch3ka May 8 '12 at 16:26
Wow, I didn't realize closures would work for methods defined in a class defined in a function! You could make your "secret" variable an object() so you could store attributes on it; that's probably cleaner. Still, this isn't truly private, just a bit hidden: print p.get.func_closure[0].cell_contents –  kindall May 8 '12 at 16:29
@vz0 actually, I disagree. It is just different syntax. so why not stick with the clean old _secret? –  ch3ka May 8 '12 at 16:31
@ch3ka Of course I agree that in the real world, using the plain old this._secret variable is the best. This is just a funny intellectual exercise. –  vz0 May 8 '12 at 16:34

You're probably looking for getters and setters. A slightly less complecated approach is to use __secret, which will invoke name mangling to turn it into _Paranoid__secret.

But yes, I should note that the python community doesn't really value privacy the way some languages do. Or as the saying goes we're all consenting adults here.

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It is the same as the OP example, since you can easily modify the _Paranoid__secret variable. He wants the means to duplicate the private access restriction available on other languages, enforced by the compiler or by other means. –  vz0 May 8 '12 at 16:27
yeah, this isn't really the correct answer. Objects call their attributes through the same interface the user does, which makes true privacy impossible as far as I know. You could overload __setattr__ and __getattribute__ to make calls to the superclass for public attributes (and deny for private), but the user can do that with the private attribute too. –  Shep May 9 '12 at 3:42

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