Python gives us the ability to create 'private' methods and variables within a class by prepending double underscores to the name, like this: __myPrivateMethod(). How, then, can one explain this
>>> class MyClass:
... def myPublicMethod(self):
... print 'public method'
... def __myPrivateMethod(self):
... print 'this is private!!'
...
>>> obj = MyClass()
>>> obj.myPublicMethod()
public method
>>> obj.__myPrivateMethod()
Traceback (most recent call last):
File "", line 1, in
AttributeError: MyClass instance has no attribute '__myPrivateMethod'
>>> dir(obj)
['_MyClass__myPrivateMethod', '__doc__', '__module__', 'myPublicMethod']
>>> obj._MyClass__myPrivateMethod()
this is private!!
What's the deal?!
I'll explain this a little for those who didn't quite get that.
>>> class MyClass:
... def myPublicMethod(self):
... print 'public method'
... def __myPrivateMethod(self):
... print 'this is private!!'
...
>>> obj = MyClass()
What I did there is create a class with a public method and a private method and instantiate it.
Next, I call its public method.
>>> obj.myPublicMethod()
public method
Next, I try and call its private method.
>>> obj.__myPrivateMethod()
Traceback (most recent call last):
File "", line 1, in
AttributeError: MyClass instance has no attribute '__myPrivateMethod'
Everything looks good here; we're unable to call it. It is, in fact, 'private'. Well, actually it isn't. Running dir() on the object reveals a new magical method that python creates magically for all of your 'private' methods.
>>> dir(obj)
['_MyClass__myPrivateMethod', '__doc__', '__module__', 'myPublicMethod']
This new method's name is always an underscore, followed by the class name, followed by the method name.
>>> obj._MyClass__myPrivateMethod()
this is private!!
So much for encapsulation, eh?
In any case, I'd always heard Python doesn't support encapsulation, so why even try? What gives?
Question&Answers:
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