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My multiple-inheritance-fu is not strong. I am trying to create a superclass whose __init__ takes an optional named parameter and subclasses of it which also inherit from built-in types. Sadly, I appear to have no idea how to make this work:

>>> class Super(object):
    name = None
    def __init__(self, *args, name=None, **kwargs): = name
        super().__init__(self, *args, **kwargs)

>>> class Sub(Super, int):

>>> Sub(5)

>>> Sub(5, name="Foo")
Traceback (most recent call last):
  File "<pyshell#10>", line 1, in <module>
    Sub(5, name="Foo")
TypeError: 'name' is an invalid keyword argument for this function

(I've also tried it without the super() call, but the result was the same.)

Perhaps someone with better knowledge of multiple inheritance can point me in the right direction?


Here is the solution I ended up with, based on Alex's answer.

It's still a little hacky (by changining __new__'s signature partway through construction), but it will work as long as the superclass appears in the subclasses' MROs before the built-in type and defining __new__ this way allows me to make subclasses which work with different built-in types without adding a separate __new__ to each one.

>>> class Super(object):
    name = None
    def __new__(cls, *args, name=None, **kwargs):
        inner = super().__new__(cls, *args, **kwargs) = name
        return inner

>>> class Sub(Super, int):

>>> Sub(5)

>>> Sub(5, name="Foo")

share|improve this question
what is the purpose of the class-level name = None? if you mean for it to be there, it should probably be called something distinct from – msw Sep 20 '10 at 4:16
__init__ here is stripped down from the one I'm using in the real class, for purposes of demonstration. The real one doesn't necessarily set every time and setting name = None in the superclass provides a default value. – Ben Blank Sep 20 '10 at 4:59
up vote 3 down vote accepted

You just cannot pass arbitrary parameters (whether positional or named ones) to an equally arbitrary superclass (i.e., "immediately previous type in the mro of whatever the current leaf type is") -- most types and classes just don't accept arbitrary parameters, for excellent reasons too -- quoting from the middle of the Zen of Python,

Errors should never pass silently.
Unless explicitly silenced.

and in most cases, calling (e.g.) int(name='booga') would of course be an error.

If you want you weirdly-named class Super to be able to "pass on" arbitrary parameters, you must also ensure that all classes ever used as bases after it can handle that -- so, for example, int can be called with one parameter (or exactly two: a string and a base), so, if it's absolutely crucial to you that class Sub can multiply inherit from the buck-passing Super and int, you have to field that, e.g.:

class Int(int):
    def __new__(cls, *a, **k):
        return int.__new__(Int, a[0] if a else 0)

Note that you must override __new__, not __init__ (it does no harm if you also override the latter, but it's irrelevant anyway): int is immutable so the value has to be set at __new__ time.

Now, things like

>>> class X(Super, Int): pass
>>> X(23, za='zo')

work. But note that X must subclass from Int (our __new__-sanitizing version of int), not from int itself, which, quite properly, has an unforgiving __new__!-)

share|improve this answer
(The names are just for the sake of the example, of course!) Thanks for the help; I had envisioned __init__ "consuming" the extra parameter before it was ever seen by int (which in retrospect was silly of me). – Ben Blank Sep 20 '10 at 5:33

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