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Is there any difference between calling len([1,2,3]) or [1,2,3].__len__()? If there is no visible difference what is done differently behind the scenes?

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4 Answers 4

up vote 33 down vote accepted

len is a function to get the length of a collection. It works by calling an object's __len__ method. __something__ attributes are special and usually more than meets the eye, and generally should not be called directly.

It was decided at some point long ago getting the length of something should be a function and not a method code, reasoning that len(a)'s meaning would be clear to beginners but a.len() would not be as clear. When Python started __len__ didn't even exist and len was a special thing that worked with a few types of objects. Whether or not the situation this leaves us makes total sense, it's here to stay.

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It's here to stay, but it wouldn't hurt to have a some_collection.length() methods in addition. Actually, .size() would be better, because tree-based data structures have a size, but aren't easily pictured to have a length. – Evgeni Sergeev Apr 29 '14 at 1:03
@EvgeniSergeev And indeed, objects like that have such attributes - a numpy array has a shape attribute (which is not a method at all, since it's a property of the object not an action on the object). – Henry Gomersall Sep 10 '14 at 15:04
fwiw, one plausible reason for this is that python really really doesn't like reserving method names — a Rectangle class might want to have length and width, and if .length() were effectively reserved, you'd either have to awkwardly change the name or break duck typing. – Eevee Sep 30 at 4:01
@EvgeniSergeev If you make a tree like-structure, you can provide a len attribute to it. :) – meawoppl Nov 29 at 1:48

It's often the case that the "typical" behavior of a built-in or operator is to call (with different and nicer syntax) suitable magic methods (ones with names like __whatever__) on the objects involved. Often the built-in or operator has "added value" (it's able to take different paths depending on the objects involved) -- in the case of len vs __len__, it's just a bit of sanity checking on the built-in that is missing from the magic method:

>>> class bah(object):
...   def __len__(self): return "an inch"
>>> bah().__len__()
'an inch'
>>> len(bah())
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: 'str' object cannot be interpreted as an integer

When you see a call to the len built-in, you're sure that, if the program continues after that rather than raising an exception, the call has returned an integer, non-negative, and less than 2**31 -- when you see a call to xxx.__len__(), you have no certainty (except that the code's author is either unfamiliar with Python or up to no good;-).

Other built-ins provide even more added value beyond simple sanity checks and readability. By uniformly designing all of Python to work via calls to builtins and use of operators, never through calls to magic methods, programmers are spared from the burden of remembering which case is which. (Sometimes an error slips in: until 2.5, you had to call -- in 2.6, while that still works for backwards compatibility, you should call next(foo), and in 3.*, the magic method is correctly named __next__ instead of the "oops-ey" next!-).

So the general rule should be to never call a magic method directly (but always indirectly through a built-in) unless you know exactly why you need to do that (e.g., when you're overriding such a method in a subclass, if the subclass needs to defer to the superclass that must be done through explicit call to the magic method).

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I am beginner Python user (not the beginner programmer thought) and I am not sure about "When you see a call to the len built-in, you're sure that, if the program continues after that rather than raising an exception". I tried this: def len(x): return "I am a string." print(len(42)) print(len([1,2,3])) and it printed I am string twice. Can you explain it more? – Darek Nędza May 3 '14 at 8:19
@DarekNędza This has nothing to do with the above, which is about builtin len. You just defined your len function, that can of course return whatever you want. OP spoke about builtin len, which calls __len__ special method (not function) on the object under consideration. – Veky Nov 17 '14 at 21:38
@Veky How can I be sure that I am calling built-in function len not some other function (like in my example) that happened to have same name - len. There is no warning like "You are redefining built-in function len" or something like this. In my opinion, I cannot be sure about what Alex stated in his answer. – Darek Nędza Nov 18 '14 at 20:38
Alex explicitly said if you're calling builtin, then you're sure..._. He said nothing about being sure you're calling builtin. But if you want to know that, you can: len in vars(__builtins__).values(). – Veky Nov 19 '14 at 8:59

You can think of len() as being roughly equivalent to

def len(x):
    return x.__len__()

One advantage is that it allows you to write things like

map(len, somelist) 

instead of

map(list.__len__, somelist)


map(operator.attrgetter('__len__'), somelist)

There is slightly different behaviour though. For example in the case of ints

>>> (1).__len__()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
AttributeError: 'int' object has no attribute '__len__'
>>> len(1)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: object of type 'int' has no len()
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You can check Pythond docs:

>>> class Meta(type):
...    def __getattribute__(*args):
...       print "Metaclass getattribute invoked"
...       return type.__getattribute__(*args)
>>> class C(object):
...     __metaclass__ = Meta
...     def __len__(self):
...         return 10
...     def __getattribute__(*args):
...         print "Class getattribute invoked"
...         return object.__getattribute__(*args)
>>> c = C()
>>> c.__len__()                 # Explicit lookup via instance
Class getattribute invoked
>>> type(c).__len__(c)          # Explicit lookup via type
Metaclass getattribute invoked
>>> len(c)                      # Implicit lookup

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