159

Given a class Foo (whether it is a new-style class or not), how do you generate all the base classes - anywhere in the inheritance hierarchy - it issubclass of?

0
219

inspect.getmro(cls) works for both new and old style classes and returns the same as NewClass.mro(): a list of the class and all its ancestor classes, in the order used for method resolution.

>>> class A(object):
>>>     pass
>>>
>>> class B(A):
>>>     pass
>>>
>>> import inspect
>>> inspect.getmro(B)
(<class '__main__.B'>, <class '__main__.A'>, <type 'object'>)
2
  • 3
    Doesn't work for pyobjc classes :( File "/Users/rbp/Projects/zzzzzzz/macmdtypes.py", line 70, in coerce print inspect.getmro(path) File "/System/Library/Frameworks/Python.framework/Versions/2.7/lib/python2.7/inspect.py", line 348, in getmro searchbases(cls, result) File "/System/Library/Frameworks/Python.framework/Versions/2.7/lib/python2.7/inspect.py", line 339, in _searchbases for base in cls.__bases_: AttributeError: 'NSTaggedDate' object has no attribute '__bases'
    – rbp
    Aug 8 '13 at 17:11
  • 22
    @rbp I suspect that you had the same problem that I encountered: you were trying to do inspect.getmro(obj) instead of inspect.getmro(type(obj)).
    – esmit
    Jul 9 '15 at 18:40
48

See the __bases__ property available on a python class, which contains a tuple of the bases classes:

>>> def classlookup(cls):
...     c = list(cls.__bases__)
...     for base in c:
...         c.extend(classlookup(base))
...     return c
...
>>> class A: pass
...
>>> class B(A): pass
...
>>> class C(object, B): pass
...
>>> classlookup(C)
[<type 'object'>, <class __main__.B at 0x00AB7300>, <class __main__.A at 0x00A6D630>]
2
  • 5
    This may introduce duplicates. And this is why the documentation for getmro explicitly says "No class appears more than once in this tuple"? Sep 9 '09 at 20:45
  • 10
    Caution, __bases__ only goes up one level. (As your recursive utility implies, but a cursory glance at the example might not pick up on that.)
    – Bob Stein
    Mar 18 '16 at 14:31
40

inspect.getclasstree() will create a nested list of classes and their bases. Usage:

inspect.getclasstree(inspect.getmro(IOError)) # Insert your Class instead of IOError.
1
  • 2
    Ooh, nice. And for even nicer output, use pprint! python -c 'import inspect; from pprint import pprint as pp; pp(inspect.getclasstree(inspect.getmro(IOError)))'
    – penguin359
    Nov 15 '16 at 4:58
21

you can use the __bases__ tuple of the class object:

class A(object, B, C):
    def __init__(self):
       pass
print A.__bases__

The tuple returned by __bases__ has all its base classes.

3
  • 1
    If your class inherits from a class that inherits from a class, only the first part of the chain will be in its __bases__
    – Boris
    Nov 25 '19 at 22:56
  • Simple and clean without importing a whole module for a single function.
    – Temperosa
    Jul 8 '20 at 13:55
  • @Temperosa it maybe be simple and clean but it's wrong
    – DavidW
    Aug 28 at 15:26
14

According to the Python doc, we can also simply use class.__mro__ attribute or class.mro() method:

>>> class A:
...     pass
... 
>>> class B(A):
...     pass
... 
>>> B.__mro__
(<class '__main__.B'>, <class '__main__.A'>, <class 'object'>)
>>> A.__mro__
(<class '__main__.A'>, <class 'object'>)
>>> object.__mro__
(<class 'object'>,)
>>>
>>> B.mro()
[<class '__main__.B'>, <class '__main__.A'>, <class 'object'>]
>>> A.mro()
[<class '__main__.A'>, <class 'object'>]
>>> object.mro()
[<class 'object'>]
>>> A in B.mro()
True

12

In python 3.7 you don't need to import inspect, type.mro will give you the result.

>>> class A:
...   pass
... 
>>> class B(A):
...   pass
... 
>>> type.mro(B)
[<class '__main__.B'>, <class '__main__.A'>, <class 'object'>]
>>>

attention that in python 3.x every class inherits from base object class.

2

Although Jochen's answer is very helpful and correct, as you can obtain the class hierarchy using the .getmro() method of the inspect module, it's also important to highlight that Python's inheritance hierarchy is as follows:

ex:

class MyClass(YourClass):

An inheriting class

  • Child class
  • Derived class
  • Subclass

ex:

class YourClass(Object):

An inherited class

  • Parent class
  • Base class
  • Superclass

One class can inherit from another - The class' attributed are inherited - in particular, its methods are inherited - this means that instances of an inheriting (child) class can access attributed of the inherited (parent) class

instance -> class -> then inherited classes

using

import inspect
inspect.getmro(MyClass)

will show you the hierarchy, within Python.

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