What's the difference between the list methods append() and extend()?


20 Answers 20


.append() appends a single object at the end of the list:

>>> x = [1, 2, 3]
>>> x.append([4, 5])
>>> print(x)
[1, 2, 3, [4, 5]]

.extend() appends multiple objects that are taken from inside the specified iterable:

>>> x = [1, 2, 3]
>>> x.extend([4, 5])
>>> print(x)
[1, 2, 3, 4, 5]
  • 174
    What is the difference between extend and simply using the addition operator - in the above example, x = x + [4, 5]?
    – Rohan
    Commented May 29, 2017 at 22:10
  • 417
    Actually there's a big difference - x + [4, 5] gives you a new list assigned to x - x.extend() mutates the original list. I elaborate in my answer here below.
    – Aaron Hall
    Commented Jul 17, 2017 at 17:14
  • 11
    @AaronHall @Rohan but it is same as x += [4,5]. Commented Dec 13, 2018 at 14:54
  • 3
    The keyword when using append is Object. If you try to use extend and you pass in a dictionary, it will append the key, and not the whole hash to the end of the array.
    – Anthony
    Commented Mar 15, 2019 at 14:53
  • 5
    @Rohan, the time complexity of x = x + [4, 5] would be O(len(x) + len([4,5])) where as extend has the time complexity of O(len([4, 5])) Commented Jul 22, 2020 at 16:20

.append() adds an element to a list,
whereas .extend() concatenates the first list with another list/iterable.

>>> xs = ['A', 'B']
>>> xs
['A', 'B']

>>> xs.append("D")
>>> xs
['A', 'B', 'D']

>>> xs.append(["E", "F"])
>>> xs
['A', 'B', 'D', ['E', 'F']]

>>> xs.insert(2, "C")
>>> xs
['A', 'B', 'C', 'D', ['E', 'F']]

>>> xs.extend(["G", "H"])
>>> xs
['A', 'B', 'C', 'D', ['E', 'F'], 'G', 'H']

What is the difference between the list methods append and extend?

  • .append() adds its argument as a single element to the end of a list. The length of the list itself will increase by one.
  • .extend() iterates over its argument adding each element to the list, extending the list. The length of the list will increase by however many elements were in the iterable argument.


The .append() method appends an object to the end of the list.


Whatever the object is, whether a number, a string, another list, or something else, it gets added onto the end of my_list as a single entry on the list.

>>> my_list
['foo', 'bar']
>>> my_list.append('baz')
>>> my_list
['foo', 'bar', 'baz']

So keep in mind that a list is an object. If you append another list onto a list, the first list will be a single object at the end of the list (which may not be what you want):

>>> another_list = [1, 2, 3]
>>> my_list.append(another_list)
>>> my_list
['foo', 'bar', 'baz', [1, 2, 3]]
                     #^^^^^^^^^--- single item at the end of the list.


The .extend() method extends a list by appending elements from an iterable:


So with extend, each element of the iterable gets appended onto the list. For example:

>>> my_list
['foo', 'bar']
>>> another_list = [1, 2, 3]
>>> my_list.extend(another_list)
>>> my_list
['foo', 'bar', 1, 2, 3]

Keep in mind that a string is an iterable, so if you extend a list with a string, you'll append each character as you iterate over the string (which may not be what you want):

>>> my_list.extend('baz')
>>> my_list
['foo', 'bar', 1, 2, 3, 'b', 'a', 'z']

Operator Overload, __add__ (+) and __iadd__ (+=)

Both + and += operators are defined for list. They are semantically similar to extend.

my_list + another_list creates a third list in memory, so you can return the result of it, but it requires that the second iterable be a list.

my_list += another_list modifies the list in-place (it is the in-place operator, and lists are mutable objects, as we've seen) so it does not create a new list. It also works like extend, in that the second iterable can be any kind of iterable.

Don't get confused - my_list = my_list + another_list is not equivalent to += - it gives you a brand new list assigned to my_list.

Time Complexity

Append has (amortized) constant time complexity, O(1).

Extend has time complexity, O(k).

Iterating through the multiple calls to .append() adds to the complexity, making it equivalent to that of extend, and since extend's iteration is implemented in C, it will always be faster if you intend to append successive items from an iterable onto a list.

Regarding "amortized" - from the list object implementation source:

    /* This over-allocates proportional to the list size, making room
     * for additional growth.  The over-allocation is mild, but is
     * enough to give linear-time amortized behavior over a long
     * sequence of appends() in the presence of a poorly-performing
     * system realloc().

This means that we get the benefits of a larger than needed memory reallocation up front, but we may pay for it on the next marginal reallocation with an even larger one. Total time for all appends is linear at O(n), and that time allocated per append, becomes O(1).


You may wonder what is more performant, since append can be used to achieve the same outcome as extend. The following functions do the same thing:

def append(alist, iterable):
    for item in iterable:
def extend(alist, iterable):

So let's time them:

import timeit

>>> min(timeit.repeat(lambda: append([], "abcdefghijklmnopqrstuvwxyz")))
>>> min(timeit.repeat(lambda: extend([], "abcdefghijklmnopqrstuvwxyz")))

Addressing a comment on timings

A commenter said:

Perfect answer, I just miss the timing of comparing adding only one element

Do the semantically correct thing. If you want to append all elements in an iterable, use .extend(). If you're just adding one element, use .append().

Ok, so let's create an experiment to see how this works out in time:

def append_one(a_list, element):

def extend_one(a_list, element):
    """creating a new list is semantically the most direct
    way to create an iterable to give to extend"""

import timeit

And we see that going out of our way to create an iterable just to use extend is a (minor) waste of time:

>>> min(timeit.repeat(lambda: append_one([], 0)))
>>> min(timeit.repeat(lambda: extend_one([], 0)))

We learn from this that there's nothing gained from using .extend() when we have only one element to append.

Also, these timings are not that important. I am just showing them to make the point that, in Python, doing the semantically correct thing is doing things the Right Way™.

It's conceivable that you might test timings on two comparable operations and get an ambiguous or inverse result. Just focus on doing the semantically correct thing.


We see that .extend() is semantically clearer, and that it can run much faster than .append(), when you intend to append each element in an iterable to a list.

If you only have a single element (not in an iterable) to add to the list, use .append().

  • 1
    @Aaron Hall One small comment in algorithm for timing. "extend_one" may return "slightly wrong" time because the creation of a list is also involved. Probably better is to create the items as variables (ex1 = 0 and ex2 = [0]) and pass these variables, if you want to be more strict. Commented Mar 31, 2018 at 18:06
  • 22
    Perfect answer indeed. What about performance of l1 += l2 vs l1.extend(l2)? Commented Apr 23, 2018 at 3:54
  • 12
    @Jean-FrancoisT.: l1 += l2 and l1.extend(l2) ultimately execute the same code (the list_extend function in listobject.c). The only differences are: 1. += reassigns l1 (to itself for lists, but the reassignment supports immutable types that aren't the same object after), which makes it illegal if l1 is actually an attribute of an immutable object; for example, t = ([],), t[0] += lst would fail, while t[0].extend(lst) would work. 2. l1 += l2 uses dedicated bytecodes, while l1.extend(l2) uses generalized method dispatch; this makes += faster than extend. Commented Aug 17, 2018 at 19:10
  • 4
    The fact that += must reassign l1 does mean that in some cases, the slower dispatch of extend is partially or wholly made up for by not assigning back to the left hand side. For example, if the list is an attribute of an object, self.l1 += l2 and self.l1.extend(l2) have identical performance on my Python 3.6 install, simply because real operation is more like self.l1 = self.l1.__iadd__(l2), which means it must perform a moderately expensive STORE_ATTR that self.l1.extend(l2) doesn't have to. Commented Aug 17, 2018 at 19:20
  • 3
    Simple comparison in local tests: For a local variable (so the += is just using STORE_FAST, which is super cheap), where the value being added is an existing list with one item in it, with the operation repeated 1000 times, += took about 33 ns on average, while extend took 78 ns, a difference of 45 ns. If l1 is a global (requires more expensive STORE_GLOBAL), the difference narrows to 17 ns. If l1 is actually local.l1 (requires even more expensive STORE_ATTR), there is no meaningful difference between += and extend (timings roughly identical; extend sometimes wins). Commented Aug 17, 2018 at 19:32

append appends a single element. extend appends a list of elements.

Note that if you pass a list to append, it still adds one element:

>>> a = [1, 2, 3]
>>> a.append([4, 5, 6])
>>> a
[1, 2, 3, [4, 5, 6]]

Append vs Extend

enter image description here

With append you can append a single element that will extend the list:

>>> a = [1,2]
>>> a.append(3)
>>> a

If you want to extend more than one element you should use extend, because you can only append one elment or one list of element:

>>> a.append([4,5])
>>> a
>>> [1,2,3,[4,5]]

So that you get a nested list

Instead with extend, you can extend a single element like this

>>> a = [1,2]
>>> a.extend([3])
>>> a

Or, differently, from append, extend more elements in one time without nesting the list into the original one (that's the reason of the name extend)

>>> a.extend([4,5,6])
>>> a

Adding one element with both methods

enter image description here

Both append and extend can add one element to the end of the list, though append is simpler.

append 1 element

>>> x = [1,2]
>>> x.append(3)
>>> x

extend one element

>>> x = [1,2]
>>> x.extend([3])
>>> x

Adding more elements... with different results

If you use append for more than one element, you have to pass a list of elements as arguments and you will obtain a NESTED list!

>>> x = [1,2]
>>> x.append([3,4])
>>> x

With extend, instead, you pass a list as an argument, but you will obtain a list with the new element that is not nested in the old one.

>>> z = [1,2] 
>>> z.extend([3,4])
>>> z

So, with more elements, you will use extend to get a list with more items. However, appending a list will not add more elements to the list, but one element that is a nested list as you can clearly see in the output of the code.

enter image description here

enter image description here


The following two snippets are semantically equivalent:

for item in iterator:



The latter may be faster as the loop is implemented in C.

  • 22
    Extending is ~4x faster on my machine than appending in a loop (16us vs 4us for 100 loops of zeros)
    – Alex L
    Commented Dec 27, 2012 at 8:29
  • 6
    extend() probably preallocates, while append() likely does not. Commented Oct 23, 2015 at 13:43
  • @MadPhysicist: For completeness' sake, there would be times where extend() can't preallocate sensibly since some iterables don't implement __len__(), but like you I'd be surprised if it doesn't try. Some of the performance gain also comes from doing the iteration part in pure C instead of in Python, as pointed out in Aaron's answer. Commented Jul 28, 2019 at 3:43

The append() method adds a single item to the end of the list.

x = [1, 2, 3]
x.append([4, 5])
# gives you
[1, 2, 3, [4, 5], 'abc']

The extend() method takes one argument, a list, and appends each of the items of the argument to the original list. (Lists are implemented as classes. “Creating” a list is really instantiating a class. As such, a list has methods that operate on it.)

x = [1, 2, 3]
x.extend([4, 5])
# gives you
[1, 2, 3, 4, 5, 'a', 'b', 'c']

From Dive Into Python.

  • You can't extend with just 6 since it's not iterable. And the second output in your example is wrong. 'abc' gets added as a single element since you passed it in to extend as a list with one element ['abc']: [1, 2, 3, 4, 5, 'abc']. To make your example output correct, change the abc line to: x.extend('abc'). And remove the x.extend(6) or change it to x.extend([6]).
    – aneroid
    Commented Sep 25, 2014 at 9:28
  • Also "The extend() method takes one argument, a list," is wrong
    – am70
    Commented Feb 4, 2022 at 9:51

You can use "+" for returning extend, instead of extending in place.



[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 11]



[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 9, 8, 7, 6, 5, 4, 3, 2]

Similarly += for in place behavior, but with slight differences from append & extend. One of the biggest differences of += from append and extend is when it is used in function scopes, see this blog post.

  • Does using the '+' to return extend have any affect on time complexity?
    – franklin
    Commented Jul 19, 2015 at 3:59
  • 5
    @franklin, see this answer for details: stackoverflow.com/a/28119966/2230844
    – den.run.ai
    Commented Jul 21, 2015 at 14:50
  • 3
    I don't see how this answers the question
    – pppery
    Commented Jul 13, 2018 at 3:20
  • I think list.extend([item]) is more efficient than list.append(item)
    – blackraven
    Commented Aug 26, 2022 at 1:58

append(object) updates the list by adding the object to the list.

x = [20]
# List passed to the append(object) method is treated as a single object.
x.append([21, 22, 23])
# Hence the resultant list length will be 2
--> [20, [21, 22, 23]]

extend(list) concatenates the two lists essentially.

x = [20]
# The parameter passed to extend(list) method is treated as a list.
# Eventually it is two lists being concatenated.
x.extend([21, 22, 23])
# Here the resultant list's length is 4
--> [20, 21, 22, 23]

This is the equivalent of append and extend using the + operator:

>>> x = [1,2,3]
>>> x
[1, 2, 3]
>>> x = x + [4,5,6] # Extend
>>> x
[1, 2, 3, 4, 5, 6]
>>> x = x + [[7,8]] # Append
>>> x
[1, 2, 3, 4, 5, 6, [7, 8]]

extend() can be used with an iterator argument. Here is an example. You wish to make a list out of a list of lists this way:


list2d = [[1,2,3],[4,5,6], [7], [8,9]]

you want

[1, 2, 3, 4, 5, 6, 7, 8, 9]

You may use itertools.chain.from_iterable() to do so. This method's output is an iterator. Its implementation is equivalent to

def from_iterable(iterables):
    # chain.from_iterable(['ABC', 'DEF']) --> A B C D E F
    for it in iterables:
        for element in it:
            yield element

Back to our example, we can do

import itertools
list2d = [[1,2,3],[4,5,6], [7], [8,9]]
merged = list(itertools.chain.from_iterable(list2d))

and get the wanted list.

Here is how equivalently extend() can be used with an iterator argument:

merged = []
[1, 2, 3, 4, 5, 6, 7, 8, 9]

append(): It is basically used in Python to add one element.

Example 1:

>> a = [1, 2, 3, 4]
>> a.append(5)
>> print(a)
>> a = [1, 2, 3, 4, 5]

Example 2:

>> a = [1, 2, 3, 4]
>> a.append([5, 6])
>> print(a)
>> a = [1, 2, 3, 4, [5, 6]]

extend(): Where extend(), is used to merge two lists or insert multiple elements in one list.

Example 1:

>> a = [1, 2, 3, 4]
>> b = [5, 6, 7, 8]
>> a.extend(b)
>> print(a)
>> a = [1, 2, 3, 4, 5, 6, 7, 8]

Example 2:

>> a = [1, 2, 3, 4]
>> a.extend([5, 6])
>> print(a)
>> a = [1, 2, 3, 4, 5, 6]

An interesting point that has been hinted, but not explained, is that extend is faster than append. For any loop that has append inside should be considered to be replaced by list.extend(processed_elements).

Bear in mind that apprending new elements might result in the realloaction of the whole list to a better location in memory. If this is done several times because we are appending 1 element at a time, overall performance suffers. In this sense, list.extend is analogous to "".join(stringlist).


Append adds the entire data at once. The whole data will be added to the newly created index. On the other hand, extend, as it name suggests, extends the current array.

For example

list1 = [123, 456, 678]
list2 = [111, 222]

With append we get:

result = [123, 456, 678, [111, 222]]

While on extend we get:

result = [123, 456, 678, 111, 222]

An English dictionary defines the words append and extend as:

append: add (something) to the end of a written document.
extend: make larger. Enlarge or expand

With that knowledge, now let's understand

1) The difference between append and extend


  • Appends any Python object as-is to the end of the list (i.e. as a the last element in the list).
  • The resulting list may be nested and contain heterogeneous elements (i.e. list, string, tuple, dictionary, set, etc.)


  • Accepts any iterable as its argument and makes the list larger.
  • The resulting list is always one-dimensional list (i.e. no nesting) and it may contain heterogeneous elements in it (e.g. characters, integers, float) as a result of applying list(iterable).

2) Similarity between append and extend

  • Both take exactly one argument.
  • Both modify the list in-place.
  • As a result, both returns None.


lis = [1, 2, 3]

# 'extend' is equivalent to this
lis = lis + list(iterable)

# 'append' simply appends its argument as the last element to the list
# as long as the argument is a valid Python object

I hope I can make a useful supplement to this question. If your list stores a specific type object, for example Info, here is a situation that extend method is not suitable: In a for loop and and generating an Info object every time and using extend to store it into your list, it will fail. The exception is like below:

TypeError: 'Info' object is not iterable

But if you use the append method, the result is OK. Because every time using the extend method, it will always treat it as a list or any other collection type, iterate it, and place it after the previous list. A specific object can not be iterated, obviously.


To distinguish them intuitively

l1 = ['a', 'b', 'c']
l2 = ['d', 'e', 'f']
['a', 'b', 'c', ['d', 'e', 'f']]

It's like l1 reproduce a body inside her body(nested).

# Reset l1 = ['a', 'b', 'c']
['a', 'b', 'c', 'd', 'e', 'f']

It's like that two separated individuals get married and construct an united family.

Besides I make an exhaustive cheatsheet of all list's methods for your reference.

list_methods = {'Add': {'extend', 'append', 'insert'},
                'Remove': {'pop', 'remove', 'clear'}
                'Sort': {'reverse', 'sort'},
                'Search': {'count', 'index'},
                'Copy': {'copy'},

extend(L) extends the list by appending all the items in the given list L.

>>> a
[1, 2, 3]
a.extend([4])  #is eqivalent of a[len(a):] = [4]
>>> a
[1, 2, 3, 4]
a = [1, 2, 3]
>>> a
[1, 2, 3]
>>> a[len(a):] = [4]
>>> a
[1, 2, 3, 4]

append "extends" the list (in place) by only one item, the single object passed (as argument).

extend "extends" the list (in place) by as many items as the object passed (as argument) contains.

This may be slightly confusing for str objects.

  1. If you pass a string as argument: append will add a single string item at the end but extend will add as many "single" 'str' items as the length of that string.
  2. If you pass a list of strings as argument: append will still add a single 'list' item at the end and extend will add as many 'list' items as the length of the passed list.
def append_o(a_list, element):
    print('append:', end = ' ')
    for item in a_list:
        print(item, end = ',')

def extend_o(a_list, element):
    print('extend:', end = ' ')
    for item in a_list:
        print(item, end = ',')

append_o(['ab'],['cd', 'ef'])
extend_o(['ab'],['cd', 'ef'])


append: ab,cd,
extend: ab,c,d,
append: ab,['cd', 'ef'],
extend: ab,cd,ef,
append: ab,['cd'],
extend: ab,cd,

Append and extend are one of the extensibility mechanisms in python.

Append: Adds an element to the end of the list.

my_list = [1,2,3,4]

To add a new element to the list, we can use append method in the following way.


The default location that the new element will be added is always in the (length+1) position.

Insert: The insert method was used to overcome the limitations of append. With insert, we can explicitly define the exact position we want our new element to be inserted at.

Method descriptor of insert(index, object). It takes two arguments, first being the index we want to insert our element and second the element itself.

Example: my_list = [1,2,3,4]
my_list[4, 'a']

Extend: This is very useful when we want to join two or more lists into a single list. Without extend, if we want to join two lists, the resulting object will contain a list of lists.

a = [1,2]
b = [3]
print (a)

If we try to access the element at pos 2, we get a list ([3]), instead of the element. To join two lists, we'll have to use append.

a = [1,2]
b = [3]
print (a)

To join multiple lists

a = [1]
b = [2]
c = [3]
print (a)

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