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So I have this:

class Parent(object):

    def __init__(self, val):
        print 'enter Base init'
        print 'leave Base init'

    def _get_x(self):
        return self._x

    def _set_x(self, val):
        print 'enter Base _set_x'
        self._x = val
        print 'leave Base _set_x'

    x = property(_get_x, _set_x)

class Child(Parent):

    def _set_x(self, val):
        print 'enter Child _set_x'
        y = val * 2
        super(Child, self)._set_x(y)
        print 'leave Child _set_x'

child = Child(5)
num = child.x
child.x = 5
print num == child.x

And when I run it, I get this:

enter Base init
enter Child _set_x
enter Base _set_x
leave Base _set_x
leave Child _set_x
leave Base init
enter Base _set_x
leave Base _set_x

I've been reading around, and people are saying that the overriding shouldn't work, but my question is why is there this seeming inconsistency here? The subclass' setter gets called when calling from init, but when you later act on the already initialized object, it calls the base's setter. Can someone explain what is going on here?

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4 Answers 4

up vote 5 down vote accepted

Because you call it inconsistently — once directly, and once via a property. Change self._set_x(x) in Parent.__init__ to self.x = x and you'll see Child._set_x is never called. To override a setter in a child class, you can use property.setter as decorator:

class Child(Parent):
    def x(self, arg):

Or add a level of indirection to the property:

class Parent(object):
    # ...
    x = property(
        lambda self:    self._get_x(),
        lambda self, x: self._set_x(x)

The overriding doesn't work directly, because property stores concrete method objects (Parent._get_x and Parent._set_x), and doesn't look them up again, even if the type of the object happens to change — the code that runs is the same regardless. Indirection forces lookup in the dynamic type of self, which allows for overriding.

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Ahh, I see. Because even in the scope of the parent's init, it still looks at the full child self for the setter. I was thinking that the base class' init method would not find the child's setter without extra work, but now that I think about it, of course that makes sense. Thanks. –  Silas Ray Feb 14 '12 at 19:26

There's no inconsistency. The __init__ method explicitly calls self._set_x via attribute lookup. self refers to a Child object here, and since Child defines _set_x, and the Child class is first in the object's Method Resolution Order (MRO), its version of _set_x is the version that gets called.

But the x property is defined inside Parent. There's no child involved yet, so the versions of _set_x and _get_x passed to property are the versions defined in Parent. Now, when the x attribute of the Child is accessed, Python first looks for x in the Child class. But it doesn't find it, because Child doesn't define it. Then it goes to the next class in the MRO: Parent. It finds the x there, and uses it as defined in Parent.

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Yeah, you and @Cat Plus Plus got to the same point. Thanks. :) –  Silas Ray Feb 14 '12 at 19:28
x = property(_get_x, _set_x)

Here x becomes a property with getter Parent._get_x and setter Parent._set_x.

If you add the line x = property(Parent._get_x, _set_x) to the Child class, the property will be redefined and will work as you expected.

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That just begs the question though. I edited the question to remove the misdirecting name confusion. –  Silas Ray Feb 14 '12 at 19:21

Think of the methods as objects. The property x on your Parent class has been bound to the _get_x/_set_x method objects of the parent class. But in your Child class you are calling that class' own _set_x method object.

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