In Python, I've seen two variable values swapped using this syntax:

left, right = right, left

Is this considered the standard way to swap two variable values or is there some other means by which two variables are by convention most usually swapped?

  • 3
    @eyquem: it simply comes down to whether order-of-evaluation is defined by the language for a tuple/list assignment. Python does, most older languages don't.
    – smci
    Aug 18, 2018 at 0:37
  • Hrmm C++ has swap(a[i], a[k]) why can't we have something like this for Python.
    – Nils
    Aug 24, 2019 at 19:28
  • 3
    @Nils Because in Python, assignment is an aliasing operation while in C++ assignment to a reference is a replacement operation. Therefore in Python you cannot replace the values of the arguments passed to a function like in C++ (you can only mutate them). See Copying and Comparing: Problems and Solutions by Grogono and Sakkinen for an explanation of these terms.
    – Géry Ogam
    Oct 8, 2020 at 13:19

8 Answers 8


Python evaluates expressions from left to right. Notice that while evaluating an assignment, the right-hand side is evaluated before the left-hand side.

Python docs: Evaluation order

That means the following for the expression a,b = b,a :

  • The right-hand side b,a is evaluated, that is to say, a tuple of two elements is created in the memory. The two elements are the objects designated by the identifiers b and a, that were existing before the instruction is encountered during the execution of the program.
  • Just after the creation of this tuple, no assignment of this tuple object has still been made, but it doesn't matter, Python internally knows where it is.
  • Then, the left-hand side is evaluated, that is to say, the tuple is assigned to the left-hand side.
  • As the left-hand side is composed of two identifiers, the tuple is unpacked in order that the first identifier a be assigned to the first element of the tuple (which is the object that was formerly b before the swap because it had name b)
    and the second identifier b is assigned to the second element of the tuple (which is the object that was formerly a before the swap because its identifiers was a)

This mechanism has effectively swapped the objects assigned to the identifiers a and b

So, to answer your question: YES, it's the standard way to swap two identifiers on two objects.
By the way, the objects are not variables, they are objects.

  • 1
    As far as I understand, swapping two variables in this way does NOT use extra memory, just memory for 2 variables themselves, am I right ?
    – Chau Pham
    May 11, 2019 at 13:25
  • 6
    @Catbuilts Constructing the tuple will take up some extra memory (likely more than the 3-variable version of the swap would take up), but since the only things being swapped are memory addresses, it won't be much extra memory in the absolute sense (maybe 24 extra bytes).
    – Brilliand
    Sep 14, 2019 at 7:14
  • @Brilliand: Thks. Do you have any documents for this subject. It's quite interesting and I would like to have a futher read. Thanks.
    – Chau Pham
    Sep 16, 2019 at 11:35
  • 3
    @Catbuilts I'm not sure, but it might help to read up on how C++ pointers work. Whereas Python tries to automatically do things the best way for you, C++ actually gives you all the options to do things in all the possible right and wrong ways, so that's a good starting point for learning what the drawbacks are of the approach that Python takes. Also remember that having a "64-bit" operating system means that storing a memory address takes up 64 bits of memory - that's part of where I got my "24 bytes" number from.
    – Brilliand
    Sep 16, 2019 at 23:19
  • 2
    Great explanation. Just adding that this is why you can also use this method to rearrange any number of "variables", e.g. a, b, c = c, a, b.
    – alelom
    Feb 1, 2020 at 18:27

That is the standard way to swap two variables, yes.


I know three ways to swap variables, but a, b = b, a is the simplest. There is

XOR (for integers)

x = x ^ y
y = y ^ x
x = x ^ y

Or concisely,

x ^= y
y ^= x
x ^= y

Temporary variable

w = x
x = y
y = w
del w

Tuple swap

x, y = y, x
  • 2
    Is the simplest and the only one that is not obfuscated. Jan 6, 2016 at 23:59
  • 27
    The XOR does not swap "variables". It swaps integer variables. (Or the few other types properly implementing XOR operator) Furthermore, since according to Rogalski's answer, the Tuple Swap is optimised in the interpreter, there is really nothing against it. Short, clear, and fast.
    – Rawler
    Jun 7, 2016 at 18:13
  • XOR issue can be avoided by + - operator use, but still I feel best is a, b = b, a code x = x+y y = x-y x = x-y code
    – ashish
    Dec 27, 2016 at 1:08
  • If it's about integer values, you could just use simple arithmetic to do it too
    – era5tone
    Jun 14, 2021 at 10:22

I would not say it is a standard way to swap because it will cause some unexpected errors.

nums[i], nums[nums[i] - 1] = nums[nums[i] - 1], nums[i]

nums[i] will be modified first and then affect the second variable nums[nums[i] - 1].

  • 4
    You have the problem in almost any programming language, that is is not safe to use swap(a,b), if a depends on b or vice versa. For example, swap(a,b) might be expanded to: var c=a, a=b, b=c. And then, the last assignment will use the new value of a to evaluate the adress of b.
    – Kai Petzke
    Jun 11, 2018 at 20:16
  • 2
    nums[nums[i] - 1], nums[i] = nums[i], nums[nums[i] - 1]. Would solve the problem.
    – Bill Cheng
    Sep 26, 2019 at 14:57
  • 7
    @JacksonKelley Evaluation of right-hand side is safe. In nums[i], nums[nums[i] - 1] = nums[nums[i] - 1], nums[i]: The problem is when python does the left-hand side assignment, nums[i] is changed, which causes nums[nums[i] - 1] changed unexpected. U can imagine at first u want nums[1],nums[2] = nums[2],nums[1],but after nums[1] = nums[2] run, you no longer have nums[2] = nums[1], instead u got nums[888] = nums[1] .
    – guo
    Mar 5, 2020 at 11:01
  • 1
    wow, meet this problem when solve leetcode.com/problems/first-missing-positive/description
    – Pegasus
    Feb 17, 2022 at 13:56

Does not work for multidimensional arrays, because references are used here.

import numpy as np

# swaps
data = np.random.random(2)
data[0], data[1] = data[1], data[0]

# does not swap
data = np.random.random((2, 2))
data[0], data[1] = data[1], data[0]

See also Swap slices of Numpy arrays


To get around the problems explained by eyquem, you could use the copy module to return a tuple containing (reversed) copies of the values, via a function:

from copy import copy

def swapper(x, y):
  return (copy(y), copy(x))

Same function as a lambda:

swapper = lambda x, y: (copy(y), copy(x))

Then, assign those to the desired names, like this:

x, y = swapper(y, x)

NOTE: if you wanted to you could import/use deepcopy instead of copy.

  • what is the problem you are trying to solve by copy? Jun 24, 2019 at 20:51
  • The ones discussed in eyquem's post.
    – Malekai
    Jun 25, 2019 at 12:13
  • 3
    but it does not states any problem, in fact he says "YES, it's the standard way to swap two identifiers" Jul 18, 2019 at 6:47

That syntax is a standard way to swap variables. However, we need to be careful of the order when dealing with elements that are modified and then used in subsequent storage elements of the swap.

Using arrays with a direct index is fine. For example:

def swap_indexes(A, i1, i2):
      A[i1], A[i2] = A[i2], A[i1]
      print('A[i1]=', A[i1], 'A[i2]=', A[i2])
      return A

  A = [0, 1, 2, 3, 4]
  print('For A=', A)
  print('swap indexes 1, 3:', swap_indexes(A, 1, 3))

Gives us:
('For A=', [0, 1, 2, 3, 4])
('A[i1]=', 3, 'A[i2]=', 1)
('swap indexes 1, 3:', [0, 3, 2, 1, 4])

However, if we change the left first element and use it in the left second element as an index, this causes a bad swap.

def good_swap(P, i2):
    j = P[i2]
    #Below is correct, because P[i2] is modified after it is used in P[P[i2]]
    print('Before: P[i2]=', P[i2], 'P[P[i2]]=', P[j])
    P[P[i2]], P[i2] = P[i2], P[P[i2]]
    print('Good swap: After P[i2]=', P[i2], 'P[P[i2]]=', P[j])
    return P

def bad_swap(P, i2):
    j = P[i2]
    #Below is wrong, because P[i2] is modified and then used in P[P[i2]]
    print('Before: P[i2]=', P[i2], 'P[P[i2]]=', P[j])
    P[i2], P[P[i2]] = P[P[i2]], P[i2]
    print('Bad swap: After P[i2]=', P[i2], 'P[P[i2]]=', P[j])
    return P

P = [1, 2, 3, 4, 5]
print('For P=', P)
print('good swap with index 2:', good_swap(P, 2))
P = [1, 2, 3, 4, 5]
print('bad swap with index 2:', bad_swap(P, 2))

('For P=', [1, 2, 3, 4, 5])
('Before: P[i2]=', 3, 'P[P[i2]]=', 4)
('Good swap: After P[i2]=', 4, 'P[P[i2]]=', 3)
('good swap with index 2:', [1, 2, 4, 3, 5])

('Before: P[i2]=', 3, 'P[P[i2]]=', 4)
('Bad swap: After P[i2]=', 4, 'P[P[i2]]=', 4)
('bad swap with index 2:', [1, 2, 4, 4, 3])

The bad swap is incorrect because P[i2] is 3 and we expect P[P[i2]] to be P[3]. However, P[i2] is changed to 4 first, so the subsequent P[P[i2]] becomes P[4], which overwrites the 4th element rather than the 3rd element.

The above scenario is used in permutations. A simpler good swap and bad swap would be:

#good swap:
P[j], j = j, P[j]
#bad swap:
j, P[j] = P[j], j

You can combine tuple and XOR swaps: x, y = x ^ x ^ y, x ^ y ^ y

x, y = 10, 20

print('Before swapping: x = %s, y = %s '%(x,y))

x, y = x ^ x ^ y, x ^ y ^ y

print('After swapping: x = %s, y = %s '%(x,y))


x, y = 10, 20

print('Before swapping: x = %s, y = %s '%(x,y))

print('After swapping: x = %s, y = %s '%(x ^ x ^ y, x ^ y ^ y))

Using lambda:

x, y = 10, 20

print('Before swapping: x = %s, y = %s' % (x, y))

swapper = lambda x, y : ((x ^ x ^ y), (x ^ y ^ y))

print('After swapping: x = %s, y = %s ' % swapper(x, y))


Before swapping: x =  10 , y =  20
After swapping: x =  20 , y =  10
  • 1
    The xor operator (^) only works on ints, and it's always true that x ^ x = 0 and 0 ^ x = x, hence x ^ x ^ y = y and x ^ y ^ y = x always. That makes this solution equivalent to the simpler x, y = y, x but only working on ints. Mar 2, 2023 at 10:21

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