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I know python functions are virtual by default. Lets say i have this:

class foo:
 def __init__(self, args):
   do some stuff
 def goo():
   print "You can overload me"
 def roo():
   print "You cannot overload me"

I dont want them to be able to do this:

class aoo(foo):
 def roo():
   print "I dont want you to be able to do this"

Is there a way to prevent users from overloading roo()?

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Please capitalize your class names. It makes it easier to read. –  S.Lott Nov 26 '08 at 15:35
1  
Why would you want such a thing? Are you afraid someone will override it and it won't work for them? it's their problem. But sometimes, they know what they are doing and they just need to do it. I've spent three days workaround this kind of limitation in Java, in Python it was 20 seconds. –  J. Pablo Fernández Nov 26 '08 at 16:01
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3 Answers

up vote 22 down vote accepted

You can use a metaclass:

class NonOverridable(type):
    def __new__(self, name, bases, dct):
        if bases and "roo" in dct:
            raise SyntaxError, "Overriding roo is not allowed"
        return type.__new__(self, name, bases, dct)

class foo:
    __metaclass__=NonOverridable
    ...

The metatype's new is called whenever a subclass is created; this will cause an error in the case you present. It will accept a definition of roo only if there are no base classes.

You can make the approach more fancy by using annotations to declare which methods are final; you then need to inspect all bases and compute all final methods, to see whether any of them is overridden.

This still doesn't prevent somebody monkey-patching a method into a class after it is defined; you can try to catch these by using a custom dictionary as the classes' dictionary (which might not work in all Python versions, as classes might require the class dictionary to be of the exact dict type).

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+1 for a GOOD example of metaclass new –  S.Lott Nov 26 '08 at 16:12
2  
i would hate you, if i had to use your class –  hop Nov 27 '08 at 12:31
    
Couldn't you provide your method as a descriptor that prevented itself from being removed or overriden? Presumably descriptors are only triggered on attribute lookup and not if it they are looked up directly in the class dictionary. –  fuzzyman Mar 15 '09 at 20:24
    
What Python versions will this work on? –  Zoran Pavlovic Jul 16 '12 at 12:50
    
It requires new-style classes, i.e. Python 2.2 or later. –  Martin v. Löwis Jul 27 '12 at 15:23
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Since Python has monkey patching, not only can you not make anything "private". Even if you could, someone could still monkeypatch in a new version of the method function.

You can use this kind of name as a "don't go near" warning.

class Foo( object ):
    def _roo( self ):
       """Change this at your own risk."""

That's the usual approach. Everyone can read your source. They were warned. If they boldly go where they were warned not to go, they get what they deserve. It doesn't work and you can't help them.

You can try to make this intentionally obcure with inner classes and "hidden" implementation modules that are called by the "private" methods. But... everyone has your source. You can't prevent anything. You can only advise people of the consequences of their actions.

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def non_overridable(f):
    f.non_overridable = True
    return f

class ToughMeta(type):
    def __new__(cls, name, bases, dct):
        non_overridables = get_non_overridables(bases)
        for name in dct:
            if name in non_overridables:
                raise Exception ("You can not override %s, it is non-overridable" % name)
        return type.__new__(cls, name, bases, dct)

def get_non_overridables(bases):
    ret = []
    for source in bases:
        for name, attr in source.__dict__.items():
            if getattr(attr, "non_overridable", False):
                ret.append(name)
        ret.extend(get_non_overridables(source.__bases__))
    return ret

class ToughObject(object):
    __metaclass__ = ToughMeta
    @non_overridable
    def test1():
        pass

# Tests ---------------
class Derived(ToughObject):
    @non_overridable
    def test2(self):
        print "hello"

class Derived2(Derived):
    def test1(self):
        print "derived2"

# --------------------
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