354

I've seen there are actually two (maybe more) ways to concatenate lists in Python:

One way is to use the extend() method:

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

the other to use the plus (+) operator:

b += a

Now I wonder: which of those two options is the 'pythonic' way to do list concatenation and is there a difference between the two? (I've looked up the official Python tutorial but couldn't find anything anything about this topic).

1
  • 1
    Maybe the difference has more implications when it comes to ducktyping and if your maybe-not-really-a-list-but-like-a-list supports .__iadd__()/.__add__()/.__radd__() versus .extend()
    – Nick T
    Dec 15, 2014 at 22:22

12 Answers 12

301

The only difference on a bytecode level is that the .extend way involves a function call, which is slightly more expensive in Python than the INPLACE_ADD.

It's really nothing you should be worrying about, unless you're performing this operation billions of times. It is likely, however, that the bottleneck would lie some place else.

6
  • 22
    Maybe the difference has more implications when it comes to ducktyping and if your maybe-not-really-a-list-but-like-a-list supports .__iadd__()/.__add__()/.__radd__() versus .extend()
    – Nick T
    Dec 15, 2014 at 22:21
  • 16
    This answer fails to mention the important scoping differences.
    – wim
    Jan 27, 2017 at 16:11
  • 12
    Well actually, extends is faster than the INPLACE_ADD() i.e. the list concatenation. gist.github.com/mekarpeles/3408081
    – Archit
    Jul 18, 2018 at 7:03
  • 4
    For me, this answer didn't really help me decide which one I should use as a general principle. I think consistency is important, and knowing things like how it can't be used with non-locals, and can't be chained (from the other answers) provides a more practical, functional reason to use extend() over the operator, even when there's a choice. "Billions of operations" use case is a valid point, but not one I run into more than a handful of times in my career. Feb 17, 2021 at 17:18
  • 7
    .extend is faster than +. There is nothing to do with extend having an extra function call. + is an operator and it also causes a function call. The reason .extend is faster is because it does much less work. + will (1) create a list, copy all elements (references) from that list, then it will get the second list and add the references. .extend will not create a new list nor copy references elements from that list. extend is equivalent to a[len(a):] = iterable. extend will operate over the list you are doing the operation and should be used instead of L = L + iterable
    – fsan
    Feb 1, 2023 at 16:58
244

You can't use += for non-local variable (variable which is not local for function and also not global)

def main():
    l = [1, 2, 3]

    def foo():
        l.extend([4])

    def boo():
        l += [5]

    foo()
    print l
    boo()  # this will fail

main()

It's because for extend case compiler will load the variable l using LOAD_DEREF instruction, but for += it will use LOAD_FAST - and you get *UnboundLocalError: local variable 'l' referenced before assignment*

6
  • 7
    I having difficulties with your explanation "variable which is not local for function and also not global" could you give example of such a variable ? Aug 7, 2014 at 7:44
  • 13
    Variable 'l' in my example is exactly of that kind. It's not local for 'foo' and 'boo' functions (outside of their scopes), but it's not global (defined inside 'main' func, not on module level)
    – monitorius
    Aug 7, 2014 at 9:34
  • 3
    I can confirm that this error still occurs with python 3.4.2 (you'll need to add parentheses to print but everything else can stay the same). Jul 1, 2015 at 15:53
  • 8
    That's right. But at least you can use nonlocal l statement in boo in Python3.
    – monitorius
    Jul 2, 2015 at 9:58
  • 1
    compiler -> interpreter?
    – joel
    Mar 17, 2020 at 16:21
75

You can chain function calls, but you can't += a function call directly:

class A:
    def __init__(self):
        self.listFoo = [1, 2]
        self.listBar = [3, 4]

    def get_list(self, which):
        if which == "Foo":
            return self.listFoo
        return self.listBar

a = A()
other_list = [5, 6]

a.get_list("Foo").extend(other_list)
a.get_list("Foo") += other_list  #SyntaxError: can't assign to function call
10

Actually, there are differences among the three options: ADD, INPLACE_ADD and extend. The former is always slower, while the other two are roughly the same.

With this information, I would rather use extend, which is faster than ADD, and seems to me more explicit of what you are doing than INPLACE_ADD.

Try the following code a few times (for Python 3):

import time

def test():
    x = list(range(10000000))
    y = list(range(10000000))
    z = list(range(10000000))

    # INPLACE_ADD
    t0 = time.process_time()
    z += x
    t_inplace_add = time.process_time() - t0

    # ADD
    t0 = time.process_time()
    w = x + y
    t_add = time.process_time() - t0

    # Extend
    t0 = time.process_time()
    x.extend(y)
    t_extend = time.process_time() - t0

    print('ADD {} s'.format(t_add))
    print('INPLACE_ADD {} s'.format(t_inplace_add))
    print('extend {} s'.format(t_extend))
    print()

for i in range(10):
    test()
ADD 0.3540440000000018 s
INPLACE_ADD 0.10896000000000328 s
extend 0.08370399999999734 s

ADD 0.2024550000000005 s
INPLACE_ADD 0.0972940000000051 s
extend 0.09610200000000191 s

ADD 0.1680199999999985 s
INPLACE_ADD 0.08162199999999586 s
extend 0.0815160000000077 s

ADD 0.16708400000000267 s
INPLACE_ADD 0.0797719999999913 s
extend 0.0801490000000058 s

ADD 0.1681250000000034 s
INPLACE_ADD 0.08324399999999343 s
extend 0.08062700000000689 s

ADD 0.1707760000000036 s
INPLACE_ADD 0.08071900000000198 s
extend 0.09226200000000517 s

ADD 0.1668420000000026 s
INPLACE_ADD 0.08047300000001201 s
extend 0.0848089999999928 s

ADD 0.16659500000000094 s
INPLACE_ADD 0.08019399999999166 s
extend 0.07981599999999389 s

ADD 0.1710910000000041 s
INPLACE_ADD 0.0783479999999912 s
extend 0.07987599999999873 s

ADD 0.16435900000000458 s
INPLACE_ADD 0.08131200000001115 s
extend 0.0818660000000051 s
2
  • 3
    You can't compare ADD with INPLACE_ADD and extend(). ADD produces a new list and copies the elements of the two original lists to it. For sure it will be slower than inplace operation of INPLACE_ADD and extend(). Mar 22, 2019 at 23:05
  • 5
    I know that. The point of this example is comparing different ways of having a list with all elements together. Sure it takes longer because it does different things, but still it is good to know in case you are interested in preserving the original objects unaltered.
    – dalonsoa
    Apr 10, 2019 at 13:40
9

I would say that there is some difference when it comes with numpy (I just saw that the question ask about concatenating two lists, not numpy array, but since it might be a issue for beginner, such as me, I hope this can help someone who seek the solution to this post), for ex.

import numpy as np
a = np.zeros((4,4,4))
b = []
b += a

it will return with error

ValueError: operands could not be broadcast together with shapes (0,) (4,4,4)

b.extend(a) works perfectly

7

ary += ext creates a new List object, then copies data from lists "ary" and "ext" into it.

ary.extend(ext) merely adds reference to "ext" list to the end of the "ary" list, resulting in less memory transactions.

As a result, .extend works orders of magnitude faster and doesn't use any additional memory outside of the list being extended and the list it's being extended with.

╰─➤ time ./list_plus.py
./list_plus.py  36.03s user 6.39s system 99% cpu 42.558 total
╰─➤ time ./list_extend.py
./list_extend.py  0.03s user 0.01s system 92% cpu 0.040 total

The first script also uses over 200MB of memory, while the second one doesn't use any more memory than a 'naked' python3 process.

Having said that, the in-place addition does seem to do the same thing as .extend.

1
  • 2
    Could you add the contents of /list_plus.py and /list_extend.py here?
    – Niko Fohr
    Feb 3, 2023 at 17:07
6

The .extend() method on lists works with any iterable*, += works with some but can get funky.

import numpy as np

l = [2, 3, 4]
t = (5, 6, 7)
l += t
l
[2, 3, 4, 5, 6, 7]

l = [2, 3, 4]
t = np.array((5, 6, 7))
l += t
l
array([ 7,  9, 11])

l = [2, 3, 4]
t = np.array((5, 6, 7))
l.extend(t)
l
[2, 3, 4, 5, 6, 7]

Python 3.6
*pretty sure .extend() works with any iterable but please comment if I am incorrect

Edit: "extend()" changed to "The .extend() method on lists" Note: David M. Helmuth's comment below is nice and clear.

5
  • Tuple is definitely an iterable, but it has no extend() method. extend() method has nothing to do with iteration. Mar 22, 2019 at 23:00
  • .extend is a method of the list class. From the Python documentation: list.extend(iterable) Extend the list by appending all the items from the iterable. Equivalent to a[len(a):] = iterable. Guess I answered my own asterisk.
    – grofte
    Mar 23, 2019 at 11:57
  • Oh, you meant that you can pass any iterable to extend(). I read it as "extend() is available for any iterable" :) My bad, but it sounds a little ambiguous. Mar 23, 2019 at 12:03
  • 1
    All in all, this is not a good example, at least not in the context of this question. When you use a += operator with objects of different types (contrary to two lists, as in the question), you can't expect that you will get a concatenation of the objects. And you can't expect that there will be a list type returned. Have a look at your code, you get an numpy.ndarray instead of list. Mar 23, 2019 at 13:18
  • 1
    @grofte provided the correct answer; however, the answer requires some clarification, so here is my suggested clarification: When using the extend() method to concatenate your list with the values held in another iterable, you get consistent behaviour regardless of whether the other iterable is a list, tuple or even a NumPy array. That consistent behaviour isn’t the case when using the += operator to concatenate a second iterable to a list. (See examples given below) - That's how they differ Jul 5, 2022 at 21:23
5

From the CPython 3.5.2 source code: No big difference.

static PyObject *
list_inplace_concat(PyListObject *self, PyObject *other)
{
    PyObject *result;

    result = listextend(self, other);
    if (result == NULL)
        return result;
    Py_DECREF(result);
    Py_INCREF(self);
    return (PyObject *)self;
}
4

I've looked up the official Python tutorial but couldn't find anything anything about this topic

This information happens to be buried in the Programming FAQ:

... for lists, __iadd__ [i.e. +=] is equivalent to calling extend on the list and returning the list. That's why we say that for lists, += is a "shorthand" for list.extend

You can also see this for yourself in the CPython source code: https://github.com/python/cpython/blob/v3.8.2/Objects/listobject.c#L1000-L1011

0

Only .extend() can be used when the list is in a tuple

This will work

t = ([],[])
t[0].extend([1,2])

while this won't

t = ([],[])
t[0] += [1,2]

The reason is that += generates a new object. If you look at the long version:

t[0] = t[0] + [1,2]

you can see how that would change which object is in the tuple, which is not possible. Using .extend() modifies an object in the tuple, which is allowed.

0

The += operator is negligibly if at all faster than list.extend() which is confirmed by dalonsoa's answer. You're literally exchanging a method call for two other operations.

>>> dis.dis("_list.extend([1])")
  1           0 LOAD_NAME                0 (_list)
              2 LOAD_METHOD              1 (extend)
              4 LOAD_CONST               0 (4)
              6 BUILD_LIST               1
              8 CALL_METHOD              1
             10 RETURN_VALUE
>>> dis.dis("_list += [1]")
  1           0 LOAD_NAME                0 (_list)
              2 LOAD_CONST               0 (4)
              4 BUILD_LIST               1
              6 INPLACE_ADD
              8 STORE_NAME               0 (_list)
             10 LOAD_CONST               1 (None)
             12 RETURN_VALUE

Note, that this does not apply to numpy arrays, since numpy arrays are not at all Python lists and should not be treated as such (Lance Ruo Zhang's answer).

The += will not work for list in tuples most likely because of the STORE_SUBSCR operation (Jann Poppinga's answer). Note, however, that in this case list.__iadd__() (being a method call) works perfectly fine.

The += does not create a new list (ding's answer).


I apologise for posting all this as an answer, I do not have enough rep to comment.

-1

According to the Python for Data Analysis.

“Note that list concatenation by addition is a comparatively expensive operation since a new list must be created and the objects copied over. Using extend to append elements to an existing list, especially if you are building up a large list, is usually preferable. ” Thus,

everything = []
for chunk in list_of_lists:
    everything.extend(chunk)

is faster than the concatenative alternative:

everything = []
for chunk in list_of_lists:
    everything = everything + chunk

enter image description here enter image description here

3
  • 5
    everything = everything + temp is not necessarily implemented in the same way as everything += temp. Aug 1, 2018 at 22:12
  • 1
    You are right. Thank you for your reminder. But my point is about the difference of efficiency. : ) Aug 2, 2018 at 5:35
  • 8
    @littlebear333 everything += temp is implemented in a way such that everything does not need to be copied. This pretty much makes your answer a moot point.
    – nog642
    Aug 19, 2018 at 20:27

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