What is the difference between the following Python expressions:

# First:

x,y = y,x+y

# Second:

x = y
y = x+y

First gives different results than Second.



>>> x = 1
>>> y = 2
>>> x,y = y,x+y
>>> x
>>> y


>>> x = 1
>>> y = 2
>>> x = y
>>> y = x+y
>>> x
>>> y

y is 3 in First and 4 in Second


11 Answers 11


In an assignment statement, the right-hand side is always evaluated fully before doing the actual setting of variables. So,

x, y = y, x + y

evaluates y (let's call the result ham), evaluates x + y (call that spam), then sets x to ham and y to spam. I.e., it's like

ham = y
spam = x + y
x = ham
y = spam

By contrast,

x = y
y = x + y

sets x to y, then sets y to x (which == y) plus y, so it's equivalent to

x = y
y = y + y
  • To relate to similar syntax one may find in a codebase x,y = y,x+y is identical to (x,y) = y,x+y, therefore the parenthesis are unnecessary. Does that sound about right?
    – jxramos
    Sep 17 '18 at 23:13
  • @jxramos Yes, the parentheses are unnecessary, but that's more of a question about tuples.
    – wjandrea
    Jun 13 '20 at 2:51

It is explained in the docs in the section entitled "Evaluation order":

... while evaluating an assignment, the right-hand side is evaluated before the left-hand side.


The first expression:

  1. Creates a temporary tuple with value y,x+y
  2. Assigned in to another temporary tuple
  3. Extract the tuple to variables x and y

The second statement is actually two expressions, without the tuple usage.

The surprise is, the first expression is actually:


You can learn more about the usage of comma in "Parenthesized forms".


I've recently started using Python and this "feature" baffled me. Although there are many answers given, I'll post my understanding anyway.

If I want to swap the values of two variables, in JavaScipt, I'd do the following:

var a = 0;
var b = 1;

var temp = a;
a = b;
b = temp;

I'd need a third variable to temporarily hold one of the values. A very straightforward swap wouldn't work, because both of the variables would end up with the same value.

var a = 0;
var b = 1;

a = b; // b = 1 => a = 1
b = a; // a = 1 => b = 1

Imagine having two different (red and blue) buckets and having two different liquids (water and oil) in them, respectively. Now, try to swap the buckets/liquids (water in blue, and oil in red bucket). You can't do it unless you have an extra bucket.

Python deals with this with a "cleaner" way/solution: Tuple Assignment.

a = 0
b = 1

print(a, b) # 0 1

# temp = a
# a = b
# b = temp

a, b = b, a # values are swapped

print(a, b) # 1 0

I guess, this way Python is creating the "temp" variables automatically and we don't have to worry about them.

  • Like the link mentions "All the expressions on the right side are evaluated before any of the assignments". Thank you for the this clarity. Jul 31 '19 at 15:11

An observation regarding the left-hand side as well: the order of assignments is guaranteed to be the order of their appearance, in other words:

a, b = c, d

is equivalent functionally to precisely (besides t creation):

t = (c, d)
a = t[0] # done before 'b' assignment
b = t[1] # done after 'a' assignment

This matters in cases like object attribute assignment, e.g.:

class dummy:
    def __init__(self): self.x = 0

a = dummy(); a_save = a
a.x, a = 5, dummy()
print(a_save.x, a.x) # prints "5 0" because above is equivalent to "a = dummy(); a_save = a; t = (5, dummy()); a.x = t[0]; a = t[1]"

a = dummy(); a_save = a
a, a.x = dummy(), 5
print(a_save.x, a.x) # prints "0 5" because above is equivalent to "a = dummy(); a_save = a; t = (dummy(), 5); a = t[0]; a.x = t[1]"

This also implies that you can do things like object creation and access using one-liners, e.g.:

class dummy:
    def __init__(self): self.x = 0
# Create a = dummy() and assign 5 to a.x
a, a.x = dummy(), 5

In the second case, you assign x+y to x

In the first case, the second result (x+y) is assigned to y

This is why you obtain different results.

After your edit

This happen because, in the statement

x,y = y,x+y

all variables at the right member are evaluated and, then, are stored in the left members. So first proceed with right member, and second with the left member.

In the second statement

x = y
y = x + y

yo first evaluated y and assign it to x; in that way, the sum of x+y is equivalent to a sum of y+y and not of x+x wich is the first case.


The first one is a tuple-like assignment:

x,y = y,x+y

Where x is the first element of the tuple, and y is the second element, thus what you are doing is:

x = y
y = x+y

Wheras the second is doing a straight assign:


Other answers have already explained how it works, but I want to add a really concrete example.

x = 1
y = 2
x, y = y, x+y

In the last line, first the names are dereferenced like this:

x, y = 2, 1+2

Then the expression is evaluated:

x, y = 2, 3

Then the tuples are expanded and then the assignment happens, equivalent to:

x = 2; y = 3

For newbies, I came across this example that can help explain this:

# Fibonacci series:
# the sum of two elements defines the next
a, b = 0, 1
while a < 10:
    a, b = b, a+b

With the multiple assignment, set initial values as a=0, b=1. In the while loop, both elements are assigned new values (hence called 'multiple' assignment). View it as (a,b) = (b,a+b). So a = b, b = a+b at each iteration of the loop. This continues while a<10.

RESULTS: 0 1 1 2 3 5 8


Let's grok the difference.

x, y = y, x + y It's x tuple xssignment, mexns (x, y) = (y, x + y), just like (x, y) = (y, x)

Stxrt from x quick example:

x, y = 0, 1
#equivxlent to
(x, y) = (0, 1)
#implement xs
x = 0
y = 1

When comes to (x, y) = (y, x + y) ExFP, have x try directly

x, y = 0, 1
x = y #x=y=1
y = x + y #y=1+1
In [87]: x
Out[87]: 1
In [88]: y
Out[88]: 2


In [93]: x, y = y, x+y
In [94]: x
Out[94]: 3
In [95]: y
Out[95]: 5

The result is different from the first try.

Thx's because Python firstly evaluates the right-hand x+y So it equivxlent to:

old_x = x
old_y = y
c = old_x + old_y
x = old_y
y = c

In summary, x, y = y, x+y means,
x exchanges to get old_value of y,
y exchanges to get the sum of old value x and old value y,

a, b = 0, 1
while b < 10:
    a, b = b, a+b



the variables a and b simultaneously get the new values 0 and 1, the same a, b = b, a+b, a and b are assigned simultaneously.

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