I would like to change the __str__() attribute of one of my class's methods.

(Note: Not to be confused with "trying to change the method __str__()".)

I have a class, MyClass, which has a method 'some_method'. I can change the way MyClass displays itself by:

class MyClass():
    def __init__(self): pass
    def some_method(self): pass
    def __str__(self): return "I'm an instance of MyClass!"

When I instantiate and print MyClass:


I get:

I'm an instance of MyClass!

When I


I get:

<bound method my_class.some_method of <gumble margle object at mumble-jumble>>

I would like to see instead:

some_method in the instance my_class you Dope!

I've tried overriding the str method of some_method:

def some_method(self):
    def __str__(self):
        return "You dope!"

But no love.

Attempting to brute-force it in IPython proved no better:

my_class.some_method.__str__ = lambda: "You Dope!"


AttributeError: 'method' object attribute '__str__' is read-only

Is there an easy way to do this programmatically (preferrably in Python 3)?

  • 1
    Dumb question: do python methods even have attributes? I for one wasn't aware that a python method is an object ... is it? – GreenAsJade Jan 25 '14 at 0:24
  • 3
    @GreenAsJade: everything's an object. That doesn't mean the language makes it easy set set attributes, though. – Wooble Jan 25 '14 at 0:26
  • 3
    @GreenAsJade As they say, everything is an object. Yes, a bound method is an obect and has attributes. – user395760 Jan 25 '14 at 0:26
  • As for the question, I don't think you can set attributes on bound method objects. You can, however, wrap the function in a descriptor that constructs a custom bound-method-like object (with any methods you want) in place of the built-in bound method type. – user395760 Jan 25 '14 at 0:28
  • 1
    If you want print [x.some_method, x.another_method] to work right, you'll need to override __repr__ instead. In that case, I recommend keeping the <> around the string. – user2357112 supports Monica Jan 25 '14 at 0:55

You'll need to use a custom class instead of a class function:

class CustomFunction(object):
    def __init__(self, name):
        self.name = name

    def __call__(func, self):
        # This is the actual function

    def __get__(func, instance=None, type_=None):
        class CustomMethod(object):
            def __init__(self, instance, type_):
                self.im_self = instance
                self.im_class = type_
            def __call__(self, *args, **kw):
                return func(self.im_self, *args, **kw)
            def __str__(self):
                return '{} in the instance {} you Dope!'.format(func.name, self.im_self)

        return CustomMethod(instance, type_)

then use this in your class:

class MyClass():
    def __init__(self): pass

    some_method = CustomFunction('some_method')


>>> print MyClass().some_method
some_method in the instance <__main__.MyClass instance at 0x106b5ccb0> you Dope!

This works because functions are descriptors; they return methods when their __get__ method is called.

  • In this case, is "some_method" a class variable of MyClass? – GreenAsJade Jan 25 '14 at 0:58
  • @GreenAsJade: all regular methods are class attributes too; I just produced a custom one. – Martijn Pieters Jan 25 '14 at 1:04
  • This implementation is weird. It took me quite a while to understand what you were doing with the func and self arguments. I'd find a decorator-based implementation much clearer. – user2357112 supports Monica Jan 25 '14 at 1:09
  • @Martijn It seems to me it isn't the 1st time I see you writing that "functions are descriptors". But I don't feel this to be correct. It is true that if foo is a function, hasattr(foo.__class__,'__get__') is True. However, this doesn't make of foo a descriptor because: 1/ a descriptor is an instance of a descriptor-defining class, 2/ this instance must be defined as an attribute in an owner class. Said shortly, a descriptor is an object that can be accessed through a dot notation. So free functions outside any class rigourously aren't descriptors. Do you see things like that or not? – eyquem Jan 25 '14 at 1:51
  • No, a descriptor is anything that implements the descriptor protocol. Did you read the descriptor howto yet? Functions are descriptors because the have a .__get__() method. – Martijn Pieters Jan 25 '14 at 1:59

Just add @toStr("This is %s You Dope! :P") above the method.

class MyClass():
    @toStr("This is %s You Dope! :P")
    def some_method(self):
        print("method is doing something... Here is an attrbute... "+str(self.kk))
    def __str__(self): return "I'm an instance of MyClass!"
    def __init__(self):
        self.some_method.real_self = self
        self.kk = [":D"]
c = MyClass()


I'm an instance of MyClass!
method is doing something... Here is an attrbute... [':D']
This is some_method You Dope! :P

Add the following somewhere above the class (perhaps a separate file) to create the annotation:

def toStr(str):
    def decorator(f):
        class _temp:
            def __call__(self, *args, **kwargs):
                return f(self.real_self, *args, **kwargs)
            def __str__(self):
                return str%f.__name__
        return _temp()
    return decorator

Note that self.some_method.real_self = self is needed in __init__ to ensure that the right self gets passed to the wrapped method.

  • In f(self, *args, **kwargs) you're actually passing _temp's instance to f. – Ashwini Chaudhary Jan 25 '14 at 1:08
  • 1
    This is definitely looking good. I like the decorator definition being in another file. I can hide it in a library away from users. Is there a way to have the decorator automatically extract the method name, rather than passing it manually to the decorator? – JS. Jan 25 '14 at 1:10
  • @JS. Yes, I have modified it to use the method's __name__ to generate the string. – Navin Jan 25 '14 at 1:15
  • This implementation doesn't work. The method receives the wrong value for self. – user2357112 supports Monica Jan 25 '14 at 1:15
  • @AshwiniChaudhary I have modified _temp to store the correct self and use that when calling f. – Navin Jan 25 '14 at 1:33

I faced this same problem and I wasn't happy with either of the solutions here. Martijn's solution using descriptors is the right approach, but it is not as elegant as a solution that provides a decorator (and some of the choices of argument names as well as the structure of his solution is unnecessarily confusing). Navin's solution is not a good approach as it requires manually setting "real_self"; this is precisely the purpose of descriptors. Here I wanted to override __repr__ instead of __str__, but that's just a detail, the solution is the same.

Here is my decorator which returns a descriptor solution:

from functools import update_wrapper

# the usual outer function to allow the decorator to accept an argument
def custom_repr(repr_text):
    # the decorator itself
    def method_decorator(method):

        # Wrap the method in our own descriptor.
        class CustomReprDescriptor(object):

            def __get__(self, instance, owner):
                # Return our wrapped method when we call instance.method
                # This class encapsulates the method
                class MethodWrapper(object):
                    # Callable with custom __repr__ method
                    # Capture the instance and owner (type) from the __get__ call
                    def __init__(self):
                        self.im_self = instance
                        self.im_class = owner
                        self.im_func = method

                    # Call the wrapped method using the captured instance
                    def __call__(self, *args, **kwargs):
                        return self.im_func(self.im_self, *args, **kwargs)

                    # Capture the custom __repr__ text from the decorator call
                    def __repr__(self):
                        return repr_text
                # The call to __get__ returns our wrapped method with custom __repr__
                return update_wrapper(MethodWrapper(), method)
        # The decorator returns our custom descriptor
        return CustomReprDescriptor()
    return method_decorator

class TestClass(object):

    @custom_repr("Test of custom repr.")
    def re_repr_method(self):
        print "Called re-repred method."

tc = TestClass
print "rc.re_repr_method.__name__ = " + tc.re_repr_method.__name__
print repr(tc.re_repr_method)


Called re-repred method.
rc.re_repr_method.__name__ = re_repr_method
Test of custom repr.

The key to understanding all of this is that when you write a method in a class declaration in python, you are not doing anything special - merely defining a function in the namespace of that class. However, then some syntactic sugar kicks in (or at least I believe this happens): Python then wraps that method inside a descriptor, which handles calling that function with the instance of the class as the self argument. So, all we need to do is take this step ourselves; rather than let Python convert our class-level function into a method, just wrap it ourselves in a descriptor whose __get__ method returns a callable whose __call__ method calls the function we want as our method, but which has a __repr__ method of our choosing.

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