I have gone through most of the documentation of __getitem__ in the Python docs, but I am still unable to grasp the meaning of it.

So all I can understand is that __getitem__ is used to implement calls like self[key]. But what is the use of it?

Lets say I have a python class defined in this way:

class Person:
    def __init__(self,name,age):
        self.name = name
        self.age = age

    def __getitem__(self,key):
        print ("Inside `__getitem__` method!")
        return getattr(self,key)

p = Person("Subhayan",32)
print (p["age"])

This returns the results as expected. But why use __getitem__ in the first place? I have also heard that Python calls __getitem__ internally. But why does it do it?

Can someone please explain this in more detail?

  • This may be of interest for one example use: How to properly subclass dict and override getitem & setitem – roganjosh Apr 26 '17 at 7:20
  • 4
    The __getitem__ use in your example doesn't make a lot of sense, but imagine that you need to write a custom list- or dictionary-like class, that has to work with existing code that uses []. That's a situation where __getitem__ is useful. – Pieter Witvoet Apr 26 '17 at 7:31
  • The primary use case, in my opinion, is when you are writing a custom class that represents a collection of things. This allows you to use the familiar list/array indexing like planets[i] to access a given item even though planets is not actually a list (and it could, under the covers, use any data structure it chooses, such as a linked list or graph, or implement any non-list functions that it chooses, which a list could not). – jarmod Oct 6 '20 at 11:15

Cong Ma does a good job of explaining what __getitem__ is used for - but I want to give you an example which might be useful. Imagine a class which models a building. Within the data for the building it includes a number of attributes, including descriptions of the companies that occupy each floor :

Without using __getitem__ we would have a class like this :

class Building(object):
     def __init__(self, floors):
         self._floors = [None]*floors
     def occupy(self, floor_number, data):
          self._floors[floor_number] = data
     def get_floor_data(self, floor_number):
          return self._floors[floor_number]

building1 = Building(4) # Construct a building with 4 floors
building1.occupy(0, 'Reception')
building1.occupy(1, 'ABC Corp')
building1.occupy(2, 'DEF Inc')
print( building1.get_floor_data(2) )

We could however use __getitem__ (and its counterpart __setitem__) to make the usage of the Building class 'nicer'.

class Building(object):
     def __init__(self, floors):
         self._floors = [None]*floors
     def __setitem__(self, floor_number, data):
          self._floors[floor_number] = data
     def __getitem__(self, floor_number):
          return self._floors[floor_number]

building1 = Building(4) # Construct a building with 4 floors
building1[0] = 'Reception'
building1[1] = 'ABC Corp'
building1[2] = 'DEF Inc'
print( building1[2] )

Whether you use __setitem__ like this really depends on how you plan to abstract your data - in this case we have decided to treat a building as a container of floors (and you could also implement an iterator for the Building, and maybe even the ability to slice - i.e. get more than one floor's data at a time - it depends on what you need.

  • 23
    Just to share something I learned only after reading the answer multiple times: once you have a getitem you don't have to explicitly call that function. When he calls building1[2] that call itself internally calls the getitem. So the point @tony-suffolk-66 is making is that, any property/variable of the class can be retrieved during run time by simply calling objectname[variablename]. Just clarifying this since it wasn't clear for me initially and writing it here hoping it helps someone. Delete if redundant please – mithunpaul Jan 11 '19 at 3:52
  • 3
    @mithunpaul the object[index] notation isn't used to get a property/variable/attribute of a class - it isindexing on a container object - for instance retrieving a child object from a parent where the parent maintains a list of it's children. In my example - the Building class is a container (in this case of Floor names), but it could be a container class for Floor classes. – Tony Suffolk 66 Jan 13 '19 at 3:02
  • Except it will not support len(), and you will get a TypeError: TypeError: object of type 'Building' has no len() – Ciasto piekarz May 3 '19 at 21:41
  • Supporting len (and other features such as iteration etc ) wasn’t the purpose of my example. Implementing a dunder_len method is trivial though. – Tony Suffolk 66 May 8 '19 at 17:52
  • @TonySuffolk66: is this correct that ____len____ determines the iterable for index (floors) in your example on which ____getitem____ loops? – Alex Aug 20 '19 at 15:12

The [] syntax for getting item by key or index is just syntax sugar.

When you evaluate a[i] Python calls a.__getitem__(i) (or type(a).__getitem__(a, i), but this distinction is about inheritance models and is not important here). Even if the class of a may not explicitly define this method, it is usually inherited from an ancestor class.

All the (Python 2.7) special method names and their semantics are listed here: https://docs.python.org/2.7/reference/datamodel.html#special-method-names


The magic method __getitem__ is basically used for accessing list items, dictionary entries, array elements etc. It is very useful for a quick lookup of instance attributes.

Here I am showing this with an example class Person that can be instantiated by 'name', 'age', and 'dob' (date of birth). The __getitem__ method is written in a way that one can access the indexed instance attributes, such as first or last name, day, month or year of the dob, etc.

import copy

# Constants that can be used to index date of birth's Date-Month-Year
D = 0; M = 1; Y = -1

class Person(object):
    def __init__(self, name, age, dob):
        self.name = name
        self.age = age
        self.dob = dob

    def __getitem__(self, indx):
        print ("Calling __getitem__")
        p = copy.copy(self)

        p.name = p.name.split(" ")[indx]
        p.dob = p.dob[indx] # or, p.dob = p.dob.__getitem__(indx)
        return p

Suppose one user input is as follows:

p = Person(name = 'Jonab Gutu', age = 20, dob=(1, 1, 1999))

With the help of __getitem__ method, the user can access the indexed attributes. e.g.,

print p[0].name # print first (or last) name
print p[Y].dob  # print (Date or Month or ) Year of the 'date of birth'
  • Great example! I was searching all over about how to implement getitem when there are multiple parameters in init and I was struggling to find a proper implementation and finally saw this! Upvoted and thank you! – Rahul P Feb 6 '20 at 2:04
  • 1
    using getitem to access attributes like this is horrible (in my opinion) - far better to write a property and create a read-only virtual attribute. Think about readability. your p[y].dob it reads as if p is a container - not that p is an instance with attributes. A virtual attribute would read as far nicer to the code using your module. you could also - if you insist - use _getattr to implement a virtual attribte but a property is a cleaner solution. – Tony Suffolk 66 Oct 10 '20 at 22:07

Useful design patterns in which __getitem__ can be implemented are "lazy" dict subclasses. The aim is to avoid instantiating a dictionary at once that either already has an inordinately large number of key-value pairs in existing containers, or has an expensive hashing process between existing containers of key-value pairs.

As a simple example, suppose you have two lists, keys and values, whereby {k:v for k,v in zip(keys, values)} is the dictionary that you need, which must be made lazy for speed or efficiency purposes:

class LazyDict(dict):
    def __init__(self, keys, values):
        self.keys = keys
        self.values = values
    def __getitem__(self, key):
        if key not in self:
                i = self.keys.index(key)
                self.__setitem__(self.keys.pop(i), self.values.pop(i))
            except ValueError, IndexError:
                raise KeyError("No such key-value pair!!")
        return super().__getitem__(key)


>>> a = [1,2,3,4]
>>> b = [1,2,2,3]
>>> c = LazyDict(a,b)
>>> c[1]
>>> c[4]
>>> c[2]
>>> c[3]
>>> d = LazyDict(a,b)
>>> d.items()
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