__getattr__ for static/class variables in python

__getattr__() and __str__() for an object are found on its class, so if you want to customize those things for a class, you need the class-of-a-class. A metaclass.

class FooType(type):
    def _foo_func(cls):
        return 'foo!'

    def _bar_func(cls):
        return 'bar!'

    def __getattr__(cls, key):
        if key == 'Foo':
            return cls._foo_func()
        elif key == 'Bar':
            return cls._bar_func()
        raise AttributeError(key)

    def __str__(cls):
        return 'custom str for %s' % (cls.__name__,)

class MyClass:
    __metaclass__ = FooType

# in python 3:
# class MyClass(metaclass=FooType):
#    pass


print MyClass.Foo
print MyClass.Bar
print str(MyClass)

printing:

foo!
bar!
custom str for MyClass

And no, an object can't intercept a request for a stringifying one of its attributes. The object returned for the attribute must define its own __str__() behavior.


(I know this is an old question, but since all the other answers use a metaclass...)

You can use the following simple classproperty descriptor:

class classproperty(object):
    """ @classmethod+@property """
    def __init__(self, f):
        self.f = classmethod(f)
    def __get__(self, *a):
        return self.f.__get__(*a)()

Use it like:

class MyClass(object):

     @classproperty
     def Foo(cls):
        do_something()
        return 1

     @classproperty
     def Bar(cls):
        do_something_else()
        return 2

For the first, you'll need to create a metaclass, and define __getattr__() on that.

class MyMetaclass(type):
  def __getattr__(self, name):
    return '%s result' % name

class MyClass(object):
  __metaclass__ = MyMetaclass

print MyClass.Foo

For the second, no. Calling str(MyClass.Foo) invokes MyClass.Foo.__str__(), so you'll need to return an appropriate type for MyClass.Foo.