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Note: Python version is 2.7


I want to have {hierarchy of descriptor classes} integrated within {hierarchy of widget classes}, and overriding descriptor behaviour must be as easy as defining nested derived class. Example:

class A(object):
    class width(Attribute):
        def changed(self, obj, value, old):
            print 'A.width changed:', value

class B(A):
    class width(A.width):
        def changed(self, obj, value, old):
            super(B.width, self).changed(obj, value, old)
            print 'B.width changed:', value

B().width = 10
# must print:
#     A.width.changed: 10
#     B.width.changed: 10

Here is my custom descriptor class:

class Attribute(object):

    def __init__(self):
        if not hasattr(self, '_name'):
            self._name = self.__class__.__name__

    def __get__(self, obj, cls):
        if obj is None:
            print 'Attribute getter (class):', cls
            return self

        print 'Attribute getter (class, inst):', (cls, obj)
        print 'Attribute getter returning:', self.get(obj)
        return self.get(obj)

    def __set__(self, obj, value):
        print 'Attribute setter (inst, value):', (obj, value)
        self.set(obj, value)

    def get(self, obj):
            return obj.__dict__[self._name]
        except KeyError:
            raise AttributeError("attribute '%s' referenced before assigment" % (self._name))

    def set(self, obj, value):
            old = obj.__dict__[self._name]
        except KeyError:
            obj.__dict__[self._name] = value
            self.changed(obj, value, None)
            obj.__dict__[self._name] = value
            if old != value:
                self.changed(obj, value, old)

    def changed(self, obj, value, old):

Problem is that Python don't want to use __get__ and __set__, while they are attributes of class. It may be seen from this test:

# `A` and `B` were defined above
A.width_ = A.width()
B.width_ = B.width()

to_test = (
    # good:
    'Aw_ = A.width_',
    'Bw_ = B.width_',
    'B().width_ = 10',
    # silent:
    'Aw = A.width',
    'Bw = B.width',
    'B().width = 10',

for expr in to_test:
    print "Testing:", expr
    exec expr

So, my Attribute works only when instantiated.

What I have tried already

  • Decorating __get__ and __set__ with either staticmethod or classmethod. No changes in silent section. Good section fails: methods aren't callable. Wat.

  • Adding __get__ and __set__ to class Attribute from outside, as methods bound to Attribute. Nothing changed.


# `__get__` was renamed to `_unbound__get__`
Attribute.__get__ = Attribute._unbound__get__.__get__(Attribute, Attribute.__class__)
# `__set__` was renamed to `_unbound__set__`
Attribute.__set__ = Attribute._unbound__set__.__get__(Attribute, Attribute.__class__)
  • Using instantiated descriptors. This approach requires 2 symbols: one for descriptor (sub)class and one for descriptor. It also requires instantiating descriptor after subclassing it.


class B(A):
    class Width(A.width):
        def changed(self, obj, value, old):
            super(B.width, self).changed(obj, value, old)
            print 'B.width.changed:', value
B.width = B.Width()

More background.

I have growing hierarchy of widgets, where some propertries must be tracked for changes, and response to change may be extended in subclassses. So I am trying to create automated approach, with modular machinery. Because keeping relevant variables and methods per each propertry inside actual widgets is just horrible annoying mess.


Are there workarounds to achieve my needs? Or may be I am doing something wrong?

share|improve this question
Have you looked at how existing frameworks have addressed the design of this (and considered adopting their approaches?) eg: QT / WxWindows, in terms of events/attributes and inheritance models? Or, is this a "I want to do it this way - how can I make this way happen if it's possible?" – Jon Clements Aug 20 '13 at 9:23
Descripors need to be instantiated. Where's the problem in using an instance? Read how descriptors work – mata Aug 20 '13 at 9:33
@mata Because using instances involves 2 names: one for descriptor subclass and one for descriptor instance. – Shadows In Rain Aug 20 '13 at 9:59
I believe what you cannot achieve what you want. Basically you want width to be, at the same time, both a class and an instance. You cannot allow both class width(A.width) and doing A().width = 10. Choose one. The best you can achieve is automatically convert names(e.g. you create the Width class and then use A().width = 10. – Bakuriu Aug 20 '13 at 11:55

Descriptors require instances, so you cannot achieve exactly what you want. In particular you want A.width to be, at the same time, both a class and an instance of that class, which is impossible. You must have a way to access the class and the instance separately.

It's pretty simple to automatically create the instances with a known naming scheme. For example using a class decorator:

def track_attributes(cls):
    for attr in dir(cls):
        value = getattr(cls, attr)
        if isinstance(value, type) and issubclass(value, Attribute):
            # probably require more checks and/or different naming scheme
            setattr(cls, attr.lower(), value())
    return cls

Used as:

class A(object):
    class Width(Attribute):
        def changed(self, obj, value, old):
            print 'A.width changed:', value

class B(A):
    class Width(A.Width):
        def changed(self, obj, value, old):
            super(B.Width, self).changed(obj, value, old)
            print 'B.width changed:', value
B().width = 10


Attribute getter (class): <class '__main__.B'>
Attribute setter (inst, value): (<__main__.B object at 0x7fc225cd7d50>, 10)
A.width changed: 10
B.width changed: 10

An other way to achieve this without explicit decorators is to create a metaclass and have a Widget base class for all widgets.

share|improve this answer

As mata says, descriptors needs to be instances. One possible solution would be to use a class decorator or a custom metaclass (in your case more probably a custom metaclass) that would lookup the class namespace for Attribute subclasses and instanciate them. The whole thing smells a bit like overengineering to me but sometimes well you just need that level of complexity.

share|improve this answer

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