3

I know old-style Python classes aren't recommended anymore, especially since Python 3 removes them. However, I'd still like to understand what is happening here:

class MyClass:
  pass

my_instance = MyClass()
str(my_instance)

This snippet prints the following:

'<main.MyClass instance at 0x108ec4290>'

So, I don't have any explicit inheritance and I didn't overload the str method. However, this doesn't raise an exception for the supposedly missing method. Why?

I know that old-style classes have the concept of an 'instance' and a 'type' and that new-style classes aim to unify these concepts. So is Python finding and calling the str method on the 'instance' type that my instance is implicitly connected to?

Here are some clues:

dir(my_instance) - Returns:

['__doc__', '__module__']

type(my_instance) - Returns:

<type 'instance'>

dir(type(my_instance)) - Returns:

['__abs__', '__add__', '__and__', '__call__', '__class__', '__cmp__', '__coerce__', '__contains__', '__delattr__', '__delitem__', '__delslice__', '__div__', '__divmod__', '__doc__', '__eq__', '__float__', '__floordiv__', '__format__', '__ge__', '__getattribute__', '__getitem__', '__getslice__', '__gt__', '__hash__', '__hex__', '__iadd__', '__iand__', '__idiv__', '__ifloordiv__', '__ilshift__', '__imod__', '__imul__', '__index__', '__init__', '__int__', '__invert__', '__ior__', '__ipow__', '__irshift__', '__isub__', '__iter__', '__itruediv__', '__ixor__', '__le__', '__len__', '__long__', '__lshift__', '__lt__', '__mod__', '__mul__', '__ne__', '__neg__', '__new__', '__nonzero__', '__oct__', '__or__', '__pos__', '__pow__', '__radd__', '__rand__', '__rdiv__', '__rdivmod__', '__reduce__', '__reduce_ex__', '__repr__', '__rfloordiv__', '__rlshift__', '__rmod__', '__rmul__', '__ror__', '__rpow__', '__rrshift__', '__rshift__', '__rsub__', '__rtruediv__', '__rxor__', '__setattr__', '__setitem__', '__setslice__', '__sizeof__', '__str__', '__sub__', '__subclasshook__', '__truediv__', '__xor__', 'next']

Can anyone explain exactly the relationship between classes and types in old-style classes and what is happening here?

  • I might be making this up, but I recall that __str__() defaults to __repr__() if no __str__() is defined, and __repr__() defaults to something like what you show (<main.MyClass instance at 0x108ec4290>) if it's not overridden. – jedwards Sep 1 '12 at 0:25
  • @jedwards: But even then, __repr__ isn't there on the old style instance object either. So it would be the same magic... just one more hop. – jdi Sep 1 '12 at 0:30
  • @jedwards is right. If that is the case, what 'magic' is happening to find the missing repr method? – durden2.0 Sep 1 '12 at 0:39
  • The same magic that happens to resolve all the special methods. I am just saying that whether it differs to repr first if not str exists doesnt really change the question. – jdi Sep 1 '12 at 0:51
  • @jdi, I agree -- was just making a sidenote, not critiquing your answer. – jedwards Sep 1 '12 at 1:35
1

I am sure other people can give you more concrete reasons that this, but there is a quote from a similar discussion located here: old-style class

object is the base class that is at the top of any inheritance tree. The purpose of insisting on the base class, I believe, is to unify object behavior without requiring too much 'magic.' That is, prior to new-style classes, objects just magically had properties like __doc__ and __str__; now, they have them for a reason: because they inherited them from the base class.

That part about the "magic" I believe is just that... black-box magic. Obviously the MRO (method resolution order) of old style classes was much more magical, in that it probably had to check both explicit definitions on the instance object, as well as on the type. Either that, or part of the mechanics of an old style class is to always provide a default __str__ method when one cannot be located.

It would be less magical now with new-style classes, because due to the inheritance, the methods are really right there on the instance.

Here is another site with some good quotes and examples: Principle of Biggest Surprise

For old-style classes all lookup is done in the instance.

For instances of new-style classes, all special method lookup that is done implicitely is done in the class struct

New-style:

class Foo(object):
    def __str__(self):
        return "old str"

foo = Foo()
foo.__str__ = lambda: "new str"

print str(foo)
print foo.__str__()

# old str
# new str

Old-Style:

class Foo:
    def __str__(self):
        return "old str"

foo = Foo()
foo.__str__ = lambda: "new str"

print str(foo)
print foo.__str__()

# new str
# new str
  • I don't quite understand the new-style snippet you showed above. What is the difference between Python implicitly calling str with str() and your direct call to str? I would have thought both calls would print 'new str' since you replaced the str method right? Is this binding done before-hand and the object's dict still has the old str or something? – durden2.0 Sep 1 '12 at 0:38
  • @durden2.0 - i updated the quote. It says on new style classes, implicit calls perform the lookup on the class. So str() is implicit. – jdi Sep 1 '12 at 0:49
  • Thanks for the update. So all implicit lookups only look in the methods that are available in the class object, not the instance of the class? How exactly does that work? Does python somehow call the method with the class itself for implicit lookups? It seems like this would still need an instance since it's not a static/class method, right? – durden2.0 Sep 1 '12 at 2:12
  • 2
    I think the logic when you call str(obj) goes like this: Is obj an old-style instance? If so, call obj.__str__(). If no __str__ method exists, do some black magic to return something anyway (this magic is one of the things that is undesirable about old-style instances). If obj is an instance of a new-style class, search the classes in its MRO until you find a __str__ function to call. Since all new-style classes inherit from object (which has a __str__ method), you're guaranteed to find an one, without any magic required. – Blckknght Sep 1 '12 at 3:46

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