What are the advantages of using MethodType from the types module? You can use it to add methods to an object. But we can do that easily without it:

def func():
   print 1

class A:

obj = A()
obj.func = func

It works even if we delete func in the main scope by running del func.

Why would one want to use MethodType? Is it just a convention or a good programming habit?

  • 3
    That's not really adding a method to obj though. obj.func() is the same as calling just func(). A method receives the instance as the 1. positional argument. You could create a bound method with func.__get__(obj, A), but that wouldn't work either, since func takes no arguments. May 26, 2016 at 8:32
  • 3
    Your function func does not have a self argument. You use type when you want to attach or replace a method of a class. Here you are just attaching a function to a class..
    – Cyrbil
    May 26, 2016 at 8:36

2 Answers 2


In fact the difference between adding methods dynamically at run time and your example is huge:

  • in your case, you just attach a function to an object, you can call it of course but it is unbound, it has no relation with the object itself (ie. you cannot use self inside the function)
  • when added with MethodType, you create a bound method and it behaves like a normal Python method for the object, you have to take the object it belongs to as first argument (it is normally called self) and you can access it inside the function

This example shows the difference:

def func(obj):
  print 'I am called from', obj
class A:

This fails with a TypeError: func() takes exactly 1 argument (0 given), whereas this code works as expected:

import types
a.func = types.MethodType(func, a) # or types.MethodType(func, a, A) for PY2

shows I am called from <__main__.A instance at xxx>.

  • So in short it means I would not be able to use attributes of object that I used this upon. For example if there was an attribute let's say att in my definition then I would not be able to use it right?
    – Existent
    May 26, 2016 at 9:01
  • In your case in your question, the function is decoupled from the object. There is no way to access the object from the function because the function is not a method at all.
    – mguijarr
    May 26, 2016 at 10:41
  • @ABHI no, att can be accessed from anywhere, but you need an instance of the class to access it on (i.e. att by itself doesn't mean anything, you need obj.att). Methods defined normally (and are therefore bound) get the selfargument which is the instance that the method is bound to and so they have an easy way to get to the appropriate att.
    – Alex Hall
    May 26, 2016 at 16:29
  • 7
    Note that in Python 3 types.MethodType only takes two arguments, so for this example the call is types.MethodType(func, a)
    – jpyams
    Sep 5, 2017 at 20:13

A common use of types.MethodType is checking whether some object is a method. For example:

>>> import types
>>> class A(object):
...     def method(self):
...         pass
>>> isinstance(A().method, types.MethodType)
>>> def nonmethod():
...     pass
>>> isinstance(nonmethod, types.MethodType)

Note that in your example isinstance(obj.func, types.MethodType) returns False. Imagine you have defined a method meth in class A. isinstance(obj.meth, types.MethodType) would return True.


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