# How to determine the closest common ancestor class

Suppose I have four classes: `A`, `B` derived from `A`, `C` derived from `A`, and `D` derived from `C`. (So I always have single inheritance.) In python, what is the best way to determine the closest common ancestor of any two (instances of such) classes? Specifically, I need a function `clcoancl(X,Y)` for which `clcoancl(A, B) == A`, `clcoancl(B, C) == A`, and `clcoancl(C, D) == C`.

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Why do you need to know, specifically? There might be an easier way to deal with this. Usually just relying on the MRO is enough. –  Daniel Roseman Apr 3 '13 at 13:35
@DanielRoseman: Currently it concerns applications of a binary operation `*` between instances of these classes: `a * a`, `b * c`, `c * d`. This binary operator is defined in `A` and may be refined in the inheriting classes. I would like to easily be able to use the operator as defined in the closest common ancestor class. –  equaeghe Apr 3 '13 at 13:40
It sounds like your code might have a suboptimal design. You should explain why you are doing this. –  Mike Graham Apr 3 '13 at 13:48
@MikeGraham: Well, `A` is a general class of (mathematical) functions, essentially mappings to rational numbers; when doing pointwise operations, e.g., addition, of functions with different domain, the default approach is to only let this operation be defined on their intersection. The other classes (`B`, `C`, and `D`) are specific types of functions. For some one can take the union of the domains (assuming a function is zero outside its domain) when doing pointwise binary operations. Others need to be normalized in some way after applying the operation to stay within the class. –  equaeghe Apr 3 '13 at 14:07
@equaeghe, It sounds like your re-use of class inheritance here to reflect this hierarchy could prove more trouble than help. You are asking a lot of it. –  Mike Graham Apr 3 '13 at 14:11

This should work for single or multiple inheritance, with any number of classes as input:

``````import inspect
from collections import defaultdict

def clcoancl(*cls_list):
mros = [list(inspect.getmro(cls)) for cls in cls_list]
track = defaultdict(int)
while mros:
for mro in mros:
cur = mro.pop(0)
track[cur] += 1
if track[cur] == len(cls_list):
return cur
if len(mro) == 0:
mros.remove(mro)
return None # or raise, if that's more appropriate
``````

As both NPE and Daniel Rossman have mentioned though, this is probably not the optimal solution to your root problem.

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``````class A(object): pass
class B(A): pass
class C(A): pass
class D(C): pass

# get the list of ancestors (assuming single inheritance!)
def ancl(cls):
ret = []
while cls is not object:
ret.append(cls)
cls = cls.__bases__[0]
ret.append(object)
return ret

def clcoancl(cls1, cls2):
ancl1 = ancl(cls1)
ancl2 = ancl(cls2)
# find the first class present in both ancl1 and ancl2
while len(ancl1) > 0 and len(ancl2) > 0 and ancl1[-1] == ancl2[-1]:
ret = ancl1.pop(-1)
ancl2.pop(-1)
return ret

print clcoancl(A, B)
print clcoancl(B, C)
print clcoancl(C, D)
``````

Whether you actually need this is a different matter, as pointed out by @DanielRoseman is his comment to your question.

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