I understand how I can provide an informal representation of an instance of the object, but I am interested in providing an informal string representation of the Class name.

So specifically, I want to override what is returned when I print the Class (__main__.SomeClass).

>>> class SomeClass:
...   def __str__(self):
...     return 'I am a SomeClass instance.'
>>> SomeClass
<class __main__.SomeClass at 0x2ba2f0fd3b30>
>>> print SomeClass
>>> x = SomeClass()
>>> x
<__main__.SomeClass instance at 0x2ba2f0ff3f38>
>>> print x
I am a SomeClass instance.

Your problem is called meta class confusion. Of class A, if A.__str__(self) is a template for methods of instances of A, how can I provide a method __str__() for A itself? Meta classes to the rescue.

The following links explain this better than I could here.



A short example here:

class AMeta(type):
    def __str__(self):
        return "I am the truly remarkable class A"

class A(object):
    __metaclass__ = AMeta
    def __str__(self):
        return "I am an A instance"

print A
I am the truly remarkable class A
print A()
I am an A instance

Btw you can do the same for __repr__.

  • I think you meant def __str__(self): in class A instead of def str(self): – chaos.ct Aug 18 '11 at 16:58
  • If repr(A) is called when you define __str__ it won't use your custimized message. However, if you define __repr__ and str(A) is called, it will use your custimized message if str isn't defined (which it isn't for type, the default metaclass). – agf Aug 18 '11 at 18:42
  • @agif: I meant overriding __repr__ for a class (repr(A)) requires the same meta class trick. There are fallbacks for serveral of these methods if one isn't defined at all, but that's a different topic and well documented in the std lib reference. – Jürgen Strobel Aug 18 '11 at 19:21

you would have to override the __str__ method of the metaclass. I don't really know why you would want to do this, but here it is anyway.

>>> class InformalType(type):
...     def __str__(self):
...             return self.__name__
>>> class MyFoo(object):
...     __metaclass__ = InformalType
...     pass
>>> MyFoo
<class '__main__.MyFoo'>
>>> print MyFoo
>>> foo = MyFoo()
>>> foo
<__main__.MyFoo object at 0x7fdf9581f910>
>>> print foo
<__main__.MyFoo object at 0x7fdf9581f910>

To change the class' string representation:

class MC(type):
    def __repr__(cls):
        return 'I am Test'

class Test:
    __metaclass__ = MC

print Test

works fine.

If repr(Test) is called when you define __str__ it won't use your custimized message.

However, if you define __repr__ like I did, and str(Test) is called, it will use your custimized message, because __repr__ is the fallback and __str__ isn't defined in type.

If all you want to do is change it's name:

def renamer(name):
    def wrapper(func):
        func.__name__ = name
        return func
    return wrapper

@renamer('Not Test')
class Test: pass
print Test.__name__

Test.__name__ = 'Test Again'
print Test.__name__    

will both work to change the class' name.

  • He wants to change how the class is printed (as str), not its name. – Jürgen Strobel Aug 18 '11 at 16:37
  • Look at my first code example, it does exactly that. The second example is the one that changes the name. In fact, my answer had that before yours did. – agf Aug 18 '11 at 16:40

override __repr__ instead.

>>> class SomeClass(object):
...   def __repr__(self):
...     return 'I am a SomeClass instance.'
  • No, this overrides instance representation. – Jürgen Strobel Aug 18 '11 at 16:01
  • __repr__ is for instances too. it doesn't do what he says, i tried decorating __repr__ with @classmethod, but didn't work :). – utdemir Aug 18 '11 at 16:02
  • Your code still doesn't work, because to be useful to repr(SomeClass), your SomeClass.__repr__ must not have a self argument. – Jürgen Strobel Aug 18 '11 at 16:07
  • 1
    repr is used for the formal representation of an object. I'm looking for the informal representation of the Class. – adam Aug 18 '11 at 16:39
  • I'm misunderstood the question – OneOfOne Aug 18 '11 at 22:40

You can achieve this with metaclasses.


>>> class MyMeta(type):
...     def __init__(cls, name, bases, dct):
...             super(MyMeta, cls).__init__(name, bases, dct)
...     def __repr__(self):
...             return "MyMeta is Cool: " + self.__name__
>>> class FooType(metaclass=MyMeta):
...     pass
>>> FooType
MyMeta is Cool: FooType

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