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Reading the changes in Python 3.1, I found something... unexpected:

The sys.version_info tuple is now a named tuple:

I never heard about named tuples before, and I thought elements could either be indexed by numbers (like in tuples and lists) or by keys (like in dicts). I never expected they could be indexed both ways.

Thus, my questions are:

  • What are named tuples?
  • How to use them?
  • Why/when should I use named tuples instead of normal tuples?
  • Why/when should I use normal tuples instead of named tuples?
  • Is there any kind of "named list" (a mutable version of the named tuple)?
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Foord and Larosa published a very useful ordered dictionary library as early as 2005 that combines key and index lookup. –  Anthon Apr 21 '13 at 12:22
You can read a short tut on named tuples here: symfony-world.blogspot.com/2013/12/python-named-tuples.html –  tkoomzaaskz Dec 3 '13 at 12:57
@tkoomzaaskz - The link doesn't work, it has moved. The new link is sys-exit.blogspot.in/2013/12/python-named-tuples.html –  iankit Feb 5 '14 at 5:57
Just as a side note, there is explicitly a package namedlist, that contains a namedlist and a slightly improved namedtuple implementation. See pypi.python.org/pypi/namedlist –  yacc143 Oct 21 '14 at 10:37

5 Answers 5

up vote 456 down vote accepted

Named tuples are basically easy to create, lightweight object types. Named tuple instances can be referenced using object like variable deferencing or the standard tuple syntax. They can be used similarly to struct or other common record types, except that they are immutable. They were added in Python 2.6 and Python 3.0, although there is a recipe for implementation in Python 2.4.

For example, it is common to represent a point, for example as a tuple (x, y). This leads to code like the following:

pt1 = (1.0, 5.0)
pt2 = (2.5, 1.5)

from math import sqrt
line_length = sqrt((pt1[0]-pt2[0])**2 + (pt1[1]-pt2[1])**2)

Using a named tuple it becomes more readable:

from collections import namedtuple
Point = namedtuple('Point', 'x y')
pt1 = Point(1.0, 5.0)
pt2 = Point(2.5, 1.5)

from math import sqrt
line_length = sqrt((pt1.x-pt2.x)**2 + (pt1.y-pt2.y)**2)

However, named tuples are still backwards compatible with normal tuples, so the following will still work:

Point = namedtuple('Point', 'x y')
pt1 = Point(1.0, 5.0)
pt2 = Point(2.5, 1.5)

from math import sqrt
# use index referencing
line_length = sqrt((pt1[0]-pt2[0])**2 + (pt1[1]-pt2[1])**2)
 # use tuple unpacking
x1, y1 = pt1

Thus, you should use named tuples instead of tuples anywhere you think object notation will make your code more pythonic and more easily readable. I personally have started using them to represent very simple value types, particularly when passing them as parameters to functions. It makes the functions more readable, without seeing the context of the tuple packing.

Furthermore, you can also replace ordinary immutable classes that have no functions, only fields with them. You can even use your named tuple types as base classes:

class Point(namedtuple('Point', 'x y')):

However, as with tuples, attributes in named tuples are immutable:

>>> Point = namedtuple('Point', 'x y')
>>> pt1 = Point(1.0, 5.0)
>>> pt1.x = 2.0
AttributeError: can't set attribute

If you want to be able change the values, you need another type. There is a handy recipe for mutable recordtypes which allow you to set new values to attributes.

>>> from rcdtype import *
>>> Point = recordtype('Point', 'x y')
>>> pt1 = Point(1.0, 5.0)
>>> pt1 = Point(1.0, 5.0)
>>> pt1.x = 2.0
>>> print(pt1[0])

I am not aware of any form of "named list" that lets you add new fields, however. You may just want to use a dictionary in this situation. Named tuples can be converted to dictionaries using pt1._asdict() which returns {'x': 1.0, 'y': 5.0} and can be operated upon with all the usual dictionary functions.

As already noted, you should check the documentation for more information from which these examples were constructed.

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Great answer! Clear, direct to the point, and with many useful examples. But you forgot to add the required import before using namedtuple(). ;-) –  Denilson Sá Jun 4 '10 at 17:55
I frequently start out with data in a tuple, then as the code gets more complex I might turn it into a namedtuple and then later still I might turn it into an actual class (often subtyped off the named tuple) –  tolomea Mar 1 '12 at 2:55
Why has _asdict() prepended underscore? Is there a nicer way using dict() instead? –  wim Mar 26 '12 at 13:14
A "named list" would be the collections.OrderedDict, which is a dictionary (with named fields) that maintains elements in their order of insertion. –  Li-aung Yip Jul 12 '12 at 3:14
I would presume that _asdict has an underscore for the same reason that all of the methods/attributes of namedtuple other than the named fields begin with underscore; to guarantee that any field name not starting with an underscore will be usable. –  Ben Aug 29 '12 at 5:48

namedtuple is a factory function for making a tuple class. With that class we can create tuples that are callable by name also.

import collections

#Create a namedtuple class with names "a" "b" "c"
Row = collections.namedtuple("Row", ["a", "b", "c"], verbose=False, rename=False)   

row = Row(a=1,b=2,c=3) #Make a namedtuple from the Row class we created

print row    #Prints: Row(a=1, b=2, c=3)
print row.a  #Prints: 1
print row[0] #Prints: 1

row = Row._make([2, 3, 4]) #Make a namedtuple from a list of values

print row   #Prints: Row(a=2, b=3, c=4)
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+1 for specifying how to refer to an element in a namedtuple –  marcocassisa Mar 6 '13 at 10:52
verbose and rename parameters are defaulted to False by default so they do not need to be set to this value explicitly. –  Trismegistos Dec 31 '14 at 10:45

namedtuples are a great feature, they are perfect container for data. When you have to "store" data you would use tuples or dictionaries, like:

user = dict(name="John", age=20)


user = ("John", 20)

The dictionary approach is overwhelming, since dict are mutable and slower than tuples. On the other hand, the tuples are immutable and lightweight but lack readability for a great number of entries in the data fields.

namedtuples are the perfect compromise for the two approaches, the have great readability, lightweightness and immutability (plus they are polymorphic!).

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named tuples allow backward compatibility with code that checks for the version like this

>>> sys.version_info[0:2]
(3, 1)

while allowing future code to be more explicit by using this syntax

>>> sys.version_info.major
>>> sys.version_info.minor
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In Python inside there is a good use of container called a named tuple, it can be used to create a definition of class and has all the features of the original tuple.

Using named tuple will be directly applied to the default class template to generate a simple class, this method allows a lot of code to improve readability and it is also very convenient when defining a class.

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