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Instead of using common OOP, like Java and C# do with their base class Object or object, Python uses special methods for basic behaviour of objects. Python uses __str__ which is used when the object is passed to print:

>>> class Demo:
>>>   def __str__(self):
>>>     return "representation"

>>> d = Demo()
>>> print(d)
representation

The same with len:

>>> class Ruler:
>>>   def __len__(self):
>>>     return 42

>>> r = Ruler()
>>> len(r)
42

What I would expect is something like this:

>>> class Ruler:
>>>   def len(self):
>>>     return 42

>>> r = Ruler()
>>> r.len()
42

What is the reason for using special methods indirectly instead of calling usual methods directly?

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2  
As for __str__, as I understand it, it is strictly equivalent to Java/C#'s toString. __str__ gives a textual representation of the object, which is clearly different from what print does — print the textual representation to the standard output. –  ChrisJ Feb 25 '11 at 20:08
4  
Is this what you mean? docs.python.org/faq/… –  Thomas K Feb 25 '11 at 20:16
    
@Thomas yes, that is the answer. Maybe you want to write it as an answer ... –  deamon Feb 25 '11 at 20:19

4 Answers 4

up vote 13 down vote accepted

The reason for this is explained well in the Python documentation here:

http://docs.python.org/faq/design.html#why-does-python-use-methods-for-some-functionality-e-g-list-index-but-functions-for-other-e-g-len-list

The major reason is history. Functions were used for those operations that were generic for a group of types and which were intended to work even for objects that didn’t have methods at all (e.g. tuples). It is also convenient to have a function that can readily be applied to an amorphous collection of objects when you use the functional features of Python (map(), apply() et al).

In fact, implementing len(), max(), min() as a built-in function is actually less code than implementing them as methods for each type. One can quibble about individual cases but it’s a part of Python, and it’s too late to make such fundamental changes now. The functions have to remain to avoid massive code breakage.

(This was answered in the comments, but needs to be shown as a real answer for the sake of future readers.)

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2  
You beat me to it ;-) –  Thomas K Feb 25 '11 at 20:24
1  
Another good argument is that functions like len are leading to a more consistent API. –  deamon Dec 15 '11 at 19:06

These aren't hooks.

They're just methods with special names.

The convention for special method names in Python is __name__.

The built-in len, iter, str, repr (and other) functions use ordinary methods with names that follow a special convention so that we can all be sure we've implemented the special methods properly.

The special methods have odd-looking names so that we are free to use any name we want without fear of collision.


obj.len() would be much more intuitive to implement and use.

To you, perhaps. To others, it may be utterly baffling.

Python has both method notation and function notation for many common functions.

And the function notation is preferred.

It's still OO programming. Only the notation has been changed.

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Ok, let's call it "special methods". Why is __len__ only called indirectly? obj.len() would be much more intuitive to implement and use. –  deamon Feb 25 '11 at 20:15
    
This doesn't get at the heart of his question. –  FogleBird Feb 25 '11 at 20:23
    
@FogleBird: I'm glad you understood the heart of the question. Clearly, I couldn't understand it. –  S.Lott Feb 25 '11 at 20:31
    
@daemon: If what you're asking simply "why does Python also have functional syntax?" If so, please update the question to indicate that you want to know why Python has both methods as well as functions that reference the methods. –  S.Lott Feb 25 '11 at 20:32

Hooks allow to redefine behavior of standard functions. Consider overriding __add__() and use standard infix + operator vs adding a custom add() and using nested calls.

Moreover, if you define __iter__(), you can use your object in a for ... in loop. Compare it to controlling a loop and advancing iteration by hand. Consider overriding __call__() and turning your instances into functions, as good as any other function. This gives enormous flexibility.

If you want, Java does the same with .toString() that works implicitly when you print the object or concatenate it to a string.

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Not a Pythonista, so this may be way off, but if I understand your question, my impression is that it's a matter of style and idiom rather than behaviour. Java, and to a lesser extent C#, are very verbose, canonical and orthogonal languages. Everything is an object (or for C#, behaves like one--IIRC int.toString() is valid), and everything your program does should be explicitly expressed.

Python is more terse, valuing convenience at the occasional expense of clarity. You'll see this in C++ as well, with implicit conversions and operating overloading. Just consider the C++ analog to your toString() examples:

std::ostream& operator<<(std::ostream& outstream, const Widget& rhs)
{
    return outstream << rhs.name();
}

std::cout << myWidget;
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I think you've got a point about it being terser - Python aims for a balance between explicit and compact. But also in Python, everything inherits from object, and you can do someint.__str__() if you want (it's not recommenended, but it does the same as str(someint)). –  Thomas K Feb 25 '11 at 20:30

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