I'm a bit surprised by Python's extensive use of 'magic methods'.

For example, in order for a class to declare that instances have a "length", it implements a __len__ method, which it is called when you write len(obj). Why not just define a len method which is called directly as a member of the object, e.g. obj.len()?

See also: Why does Python code use len() function instead of a length method?

  • 4
    I think the general reason is a) historical and b) something like len() or reversed() applies to many types of objects, but a method such as append() only applies to sequences, etc.
    – Grant Paul
    Apr 17, 2010 at 7:29

7 Answers 7


AFAIK, len is special in this respect and has historical roots.

Here's a quote from the FAQ:

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.

The other "magical methods" (actually called special method in the Python folklore) make lots of sense, and similar functionality exists in other languages. They're mostly used for code that gets called implicitly when special syntax is used.

For example:

  • overloaded operators (exist in C++ and others)
  • constructor/destructor
  • hooks for accessing attributes
  • tools for metaprogramming

and so on...

  • 3
    Python and the Principle of Least Astonishment is a good read for some of the advantages to Python being this way (although I do admit the English needs work). The basic point: it allows the standard library to implement a ton of code that becomes very, very reusable but still overridable.
    – jpmc26
    Jan 16, 2014 at 5:52

From the Zen of Python:

In the face of ambiguity, refuse the temptation to guess.
There should be one-- and preferably only one --obvious way to do it.

This is one of the reasons - with custom methods, developers would be free to choose a different method name, like getLength(), length(), getlength() or whatsoever. Python enforces strict naming so that the common function len() can be used.

All operations that are common for many types of objects are put into magic methods, like __nonzero__, __len__ or __repr__. They are mostly optional, though.

Operator overloading is also done with magic methods (e.g. __le__), so it makes sense to use them for other common operations, too.

  • This is a compelling argument. More satisfying that "Guido didn't really believe in OO".... (as I have seen claimed elsewhere). Aug 1, 2016 at 6:09

Python uses the word "magic methods", because those methods really performs magic for you program. One of the biggest advantages of using Python's magic methods is that they provide a simple way to make objects behave like built-in types. That means you can avoid ugly, counter-intuitive, and nonstandard ways of performing basic operators.

Consider a following example:

dict1 = {1 : "ABC"}
dict2 = {2 : "EFG"}

dict1 + dict2
Traceback (most recent call last):
  File "python", line 1, in <module>
TypeError: unsupported operand type(s) for +: 'dict' and 'dict'

This gives an error, because the dictionary type doesn't support addition. Now, let's extend dictionary class and add "__add__" magic method:

class AddableDict(dict):

    def __add__(self, otherObj):
        return AddableDict(self)

dict1 = AddableDict({1 : "ABC"})
dict2 = AddableDict({2 : "EFG"})

print (dict1 + dict2)

Now, it gives following output.

{1: 'ABC', 2: 'EFG'}

Thus, by adding this method, suddenly magic has happened and the error you were getting earlier, has gone away.

I hope, it makes things clear to you. For more information, refer to:

A Guide to Python's Magic Methods (Rafe Kettler, 2012)


Some of these functions do more than a single method would be able to implement (without abstract methods on a superclass). For instance bool() acts kind of like this:

def bool(obj):
    if hasattr(obj, '__nonzero__'):
        return bool(obj.__nonzero__())
    elif hasattr(obj, '__len__'):
        if obj.__len__():
            return True
            return False
    return True

You can also be 100% sure that bool() will always return True or False; if you relied on a method you couldn't be entirely sure what you'd get back.

Some other functions that have relatively complicated implementations (more complicated than the underlying magic methods are likely to be) are iter() and cmp(), and all the attribute methods (getattr, setattr and delattr). Things like int also access magic methods when doing coercion (you can implement __int__), but do double duty as types. len(obj) is actually the one case where I don't believe it's ever different from obj.__len__().

  • 2
    Instead of hasattr() I would use try: / except AttributeError: and instead of the if obj.__len__(): return True else: return False I would just say return obj.__len__() > 0 but those are just stylistic things.
    – Chris Lutz
    Apr 17, 2010 at 19:24
  • In python 2.6 (which btw bool(x) referred to x.__nonzero__()), your method wouldn't work. bool instances have a method __nonzero__(), and your code would keep calling itself once obj was a bool. Perhaps bool(obj.__bool__()) should be treated the same way you treated __len__? (Or does this code actually work for Python 3?) Apr 19, 2010 at 22:49
  • The circular nature of bool() was somewhat intentionally absurd, to reflect the peculiarly circular nature of the definition. There's an argument that it should simply be considered a primitive. Apr 21, 2010 at 6:21
  • The only difference (currently) between len(x) and x.__len__() is that the former will raise OverflowError for lengths that exceed sys.maxsize, while the latter generally won't for types implemented in Python. That's more a bug than a feature, though (e.g. Python 3.2's range object can mostly handle arbitrarily large ranges, but using len with them may fail. Their __len__ fails as well though, since they're implemented in C rather than Python)
    – ncoghlan
    Mar 5, 2011 at 11:08

They are not really "magic names". It's just the interface an object has to implement to provide a given service. In this sense, they are not more magic than any predefined interface definition you have to reimplement.


While the reason is mostly historic, there are some peculiarities in Python's len that make the use of a function instead of a method appropriate.

Some operations in Python are implemented as methods, for example list.index and dict.append, while others are implemented as callables and magic methods, for example str and iter and reversed. The two groups differ enough so the different approach is justified:

  1. They are common.
  2. str, int and friends are types. It makes more sense to call the constructor.
  3. The implementation differs from the function call. For example, iter might call __getitem__ if __iter__ isn't available, and supports additional arguments that don't fit in a method call. For the same reason it.next() has been changed to next(it) in recent versions of Python - it makes more sense.
  4. Some of these are close relatives of operators. There's syntax for calling __iter__ and __next__ - it's called the for loop. For consistency, a function is better. And it makes it better for certain optimisations.
  5. Some of the functions are simply way too similar to the rest in some way - repr acts like str does. Having str(x) versus x.repr() would be confusing.
  6. Some of them rarely use the actual implementation method, for example isinstance.
  7. Some of them are actual operators, getattr(x, 'a') is another way of doing x.a and getattr shares many of the aforementioned qualities.

I personally call the first group method-like and the second group operator-like. It's not a very good distinction, but I hope it helps somehow.

Having said this, len doesn't exactly fit in the second group. It's more close to the operations in the first one, with the only difference that it's way more common than almost any of them. But the only thing that it does is calling __len__, and it's very close to L.index. However, there are some differences. For example, __len__ might be called for the implementation of other features, such as bool, if the method was called len you might break bool(x) with custom len method that does completely different thing.

In short, you have a set of very common features that classes might implement that might be accessed through an operator, through a special function (that usually does more than the implementation, as an operator would), during object construction, and all of them share some common traits. All the rest is a method. And len is somewhat of an exception to that rule.


There is not a lot to add to the above two posts, but all the "magic" functions are not really magic at all. They are part of the __ builtins__ module which is implicitly/automatically imported when the interpreter starts. I.e.:

from __builtins__ import *

happens every time before your program starts.

I always thought it would be more correct if Python only did this for the interactive shell, and required scripts to import the various parts from builtins they needed. Also probably different __ main__ handling would be nice in shells vs interactive. Anyway, check out all the functions, and see what it is like without them:

dir (__builtins__)
del __builtins__

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