python multiple inheritance passing arguments to constructors using super

Well, when dealing with multiple inheritance in general, your base classes (unfortunately) should be designed for multiple inheritance. Classes B and C in your example aren't, and thus you couldn't find a proper way to apply super in D.

One of the common ways of designing your base classes for multiple inheritance, is for the middle-level base classes to accept extra args in their __init__ method, which they are not intending to use, and pass them along to their super call.

Here's one way to do it in python:

class A(object):    def __init__(self,a):        self.a=aclass B(A):    def __init__(self,b,**kw):        self.b=b        super(B,self).__init__(**kw) class C(A):    def __init__(self,c,**kw):        self.c=c        super(C,self).__init__(**kw)class D(B,C):    def __init__(self,a,b,c,d):        super(D,self).__init__(a=a,b=b,c=c)        self.d=d

This can be viewed as disappointing, but that's just the way it is.

Unfortunately, there is no way to make this work using super() without changing the Base classes. Any call to the constructors for B or C is going to try and call the next class in the Method Resolution Order, which will always be B or C instead of the A class that the B and C class constructors assume.

The alternative is to call the constructors explicitly without the use of super() in each class.

class A(object):    def __init__(self, a):        object.__init__()        self.a = aclass B(A):    def __init__(self, a, b):        A.__init__(self, a)        self.b = bclass C(A):    def __init__(self, a, c):        A.__init__(self, a)        self.c = cclass D(B, C):    def __init__(self, a, b, c, d):        B.__init__(self, a, b)        C.__init__(self, a, c)        self.d = d 

There is still a downside here as the A constructor would be called twice, which doesn't really have much of an effect in this example, but can cause issues in more complex constructors. You can include a check to prevent the constructor from running more than once.

class A(object):    def __init__(self, a):        if hasattr(self, 'a'):            return        # Normal constructor.

Some would call this a shortcoming of super(), and it is in some sense, but it's also just a shortcoming of multiple inheritance in general. Diamond inheritance patterns are often prone to errors. And a lot of the workarounds for them lead to even more confusing and error-prone code. Sometimes, the best answer is to try and refactor your code to use less multiple inheritance.

I was not completely satisfied with the answers here, because sometimes it gets quite handy to call super() for each of the base classes separately with different parameters without restructuring them. Hence, I created a package called multinherit and you can easily solve this issue with the package. https://github.com/DovaX/multinherit

from multinherit.multinherit import multi_superclass A(object):    def __init__(self, a):        self.a = a        print(self.a)class B(A):    def __init__(self, a, b):        multi_super(A,self,a=a)        self.b = b        print(self.b)class C(A):    def __init__(self, a, c):        multi_super(A,self,a=a)        self.c = c        print(self.c)class D(B, C):    def __init__(self, a, b, c, d):        multi_super(B,self,a=a,b=b)        multi_super(C,self,a=a,c=c)        self.d = d        print(self.d)   print()print("d3")            d3=D(1,2,3,4)print(d3._classes_initialized)>>> d3>>> 1>>> 2>>> 3>>> 4>>> [<class '__main__.B'>, <class '__main__.A'>, <class '__main__.C'>]