There are two basic problems you are running into here:
__xxx__ methods are only looked up on the class
TypeError: can't set attributes of built-in/extension type 'module'
(1) means any solution would have to also keep track of which module was being examined, otherwise every module would then have the instance-substitution behavior; and (2) means that (1) isn't even possible... at least not directly.
Fortunately, sys.modules is not picky about what goes there so a wrapper will work, but only for module access (i.e.
import somemodule; somemodule.salutation('world'); for same-module access you pretty much have to yank the methods from the substitution class and add them to
globals() eiher with a custom method on the class (I like using
.export()) or with a generic function (such as those already listed as answers). One thing to keep in mind: if the wrapper is creating a new instance each time, and the globals solution is not, you end up with subtly different behavior. Oh, and you don't get to use both at the same time -- it's one or the other.
From Guido van Rossum:
There is actually a hack that is occasionally used and recommended: a
module can define a class with the desired functionality, and then at
the end, replace itself in sys.modules with an instance of that class
(or with the class, if you insist, but that's generally less useful).
# module foo.py
def funct1(self, <args>): <code>
def funct2(self, <args>): <code>
sys.modules[__name__] = Foo()
This works because the import machinery is actively enabling this
hack, and as its final step pulls the actual module out of
sys.modules, after loading it. (This is no accident. The hack was
proposed long ago and we decided we liked enough to support it in the
So the established way to accomplish what you want is to create a single class in your module, and as the last act of the module replace
sys.modules[__name__] with an instance of your class -- and now you can play with
__getattribute__ as needed.