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This seems to occur a lot, and was wondering if this was a requirement in the Python languages, or merely a matter of convention.

Also, could someone name and explain which functions tend to have the underscores, and why (__init__, for instance)?

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Encapsulation. Name mangling. –  Austin Henley Dec 31 '11 at 18:59
@AustinHenley: Not for double underscores before and after the name. You're thinking of underscores solely before the name. –  delnan Dec 31 '11 at 19:09

4 Answers 4

up vote 106 down vote accepted

From the Python PEP 8 -- Style Guide for Python Code (http://www.python.org/dev/peps/pep-0008/):

the following special forms using leading or trailing underscores are recognized (these can generally be combined with any case convention):

  • _single_leading_underscore: weak "internal use" indicator. E.g. "from M import *" does not import objects whose name starts with an underscore.

  • single_trailing_underscore_: used by convention to avoid conflicts with Python keyword, e.g.

    Tkinter.Toplevel(master, class_='ClassName')

  • __double_leading_underscore: when naming a class attribute, invokes name mangling (inside class FooBar, __boo becomes _FooBar__boo; see below).

  • __double_leading_and_trailing_underscore__: "magic" objects or attributes that live in user-controlled namespaces. E.g. __init__, __import__ or __file__. Never invent such names; only use them as documented.

Note that names with double leading and trailing underscores are essentially reserved for Python itself: "Never invent such names; only use them as documented".

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Raymond also explains why you'd want the name mangling behavior starting at around 34 minutes into this video: youtube.com/watch?v=HTLu2DFOdTg –  johncip May 26 at 6:42
So the choice between the single leading underscore and double leading underscore in a name is a bit like choosing between protected and private in C++ and Java? _single_leading_underscore can be changed by children, but __double_leading_underscore can't? –  Alex W Jun 4 at 21:00

The other respondents are correct in describing the double leading and trailing underscores as a naming convention for "special" or "magic" methods.

While you can call these methods directly ([10, 20].__len__() for example), the presence of the underscores is a hint that these methods are intended to be invoked indirectly (len([10, 20]) for example). Most python operators have an associated "magic" method (for example, a[x] is the usual way of invoking a.__getitem__(x)).

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Names surrounded by double underscores are "special" to Python. They're listed in the Python Language Reference, section 3, "Data model".

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One underline in the beginning:

Python doesn't have real private methods, so one underline in the start of a method or attribute means you shouldn't access this method, because it's not part of the API.

class BaseForm(StrAndUnicode):

    def _get_errors(self):
        "Returns an ErrorDict for the data provided for the form"
        if self._errors is None:
        return self._errors

    errors = property(_get_errors)

code snippet taken from django source code (django/forms/forms.py). This means errors is a property, and it's part of the module, but the method this property calls, _get_errors, is "private", so you shouldn't access it.

Two underlines in the beginning:

It makes a lot of confusion. It should not be used to create a private method. It should be used to avoid your method to be overridden by a subclass. Let's see an example:

class A(object):
    def __test(self):
        print "I'm test method in class A"

    def test(self):

a = A()


$ python test.py

I'm test method in class A

Now create a subclass B and do customization for __test method

class B(A):
    def __test(self):
        print "I'm test method in class B"

b = B()

Output will be....

$ python test.py

I'm test method in class A

As we have seen, A.test() didn't call B.__test() methods, as we could expect. Basically it is the correct behavior for __. So when you create a method starting with __ it means that you don't want to anyone can override it, it will be accessible only from inside the own class.

Two underlines in the beginning and in the end:

When we see a method like __this__, don't call it. Because it means it's a method which python calls, not by you. Let's take a look:

>>> name = "test string"
>>> name.__len__()
>>> len(name)

>>> number = 10
>>> number.__add__(40)
>>> number + 50

There is always an operator or native function which calls these magic methods. Sometimes it's just a hook python calls in specific situations. For example __init__() is called when the object is created. __new__() is called to build the instance...

Let's take an example...

class FalseCalculator(object):

    def __init__(self, number):
        self.number = number

    def __add__(self, number):
        return self.number - number

    def __sub__(self, number):
        return self.number + number

number = FalseCalculator(20)
print number + 10      # 10
print number - 20      # 40

For more details PEP-8 guide will help more.

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