# What is the logic for x,y=y,x to swap the values in Python? [duplicate]

This question already has an answer here:

Code:

``````x="salil"
y="Ajay"
y,x=x,y

print x +" "+ y
``````

Output:

``````Ajay salil
``````

What is a logical explanation for this?

## marked as duplicate by l4mpi, John Dvorak, Martijn Pieters♦Jul 13 '15 at 15:18

• Logic? This is just how it works. First right gets assigned to first left, second right gets assigned to second left, at the same time. What is unclear about it? – Amadan Jul 13 '15 at 2:42
• i want to know how the compiler reads it , morever is precedence of , and = operators any issue here ? – salil vishnu Kapur Jul 13 '15 at 2:43
• – NightShadeQueen Jul 13 '15 at 2:47
• also see: eikke.com/python-value-swap – NightShadeQueen Jul 13 '15 at 2:50

The way this mechanism works is a combination of two features -- forming implicit tuples, and tuple/list unpacking.

When you do `something = x, y`, what Python will do is implicitly create a tuple (a sort of immutable list) comprising of the two elements, x and y. So, the following two lines of code are exactly equivalent:

``````something = x, y
something = (x, y)
``````

A tuple can, of course, contain more than two elements:

``````something = a, b, c, d, e
something = (a, b, c, d, e)
``````

The intended use case of this feature is to make it easier/cleaner to do things like return multiple values from a function:

``````def foo():
return "hello", "world"
``````

The second feature is tuple/list unpacking. Whenever you have a series of variables on the left-hand side, and any sort of list, tuple, or other collection on the other, Python will attempt to match up each of the elements in the right to the ones on the left:

``````>>> a, b, c = [11, 22, 33]
>>> print(a)
11
>>> print(b)
22
>>> print(c)
33
``````

If it helps, the line `a, b, c = [11, 22, 33]` is basically identical to doing:

``````temp = [11, 22, 33]
a = temp
b = temp
c = temp
``````

Note that the right-hand side can be literally any kind of collection, not just tuples or lists. So the following code is valid:

``````>>> p, q = "az"
>>> print(p + "  " + q)
a  z
>>>
>>> s, t = {'cat': 'foo', 'dog': 'bar'}
>>> print(s + "  " + t)
cat  dog
``````

(Though, since dictionaries in Python are not obligated to be in any particular order, and since the order of the keys can be freely scrambled, unpacking them probably isn't going to be useful since you'd potentially get different results each time.)

If the number of variables and the number of elements in the collection do not match up, Python will throw an exception:

``````>>> a, b = (1, 2, 3)
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
ValueError: too many values to unpack (expected 2)

>>> a, b, c = (1, 2)
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
ValueError: need more than 2 values to unpack
``````

So that means that if we called our `foo` function from above and did the following:

``````>>> x, y = foo()
``````

...the variable `x` would equal the string `"hello"`, and the variable `y` would equal the string `"world"`.

So ultimately, that means that your original snippit of code:

``````x = "salil"
y = "Ajay"
y, x = x, y
``````

...is logically equivalent to the following:

``````x = "salil"
y = "Ajay"
temp = (x, y)  # evaluates to ("salil", "Ajay")
y, x = temp
``````

...which broken down even more, is logically equivalent to the following:

``````x = "salil"
y = "Ajay"
temp = (x, y)  # evaluates to ("salil", "Ajay")
y = temp
x = temp
``````

Note that you can think of these two operations take place separately. First the tuple is formed and evaluated, then the tuple is unpacked back into the variables. The net effect is that the values of your two variables are interchanged.

(However, as it turns out, the CPython interpreter (the original and 'standard' implementation of Python) does a bit of optimization here: it will optimize the swap and won't do the full tuple unpacking -- see comments below. I'm not sure if other implementations of Python do the same, though I suspect they might. In any case, this sort of optimization is implementation-specific, and is independent to the design of the Python language itself.)

• @salilvishnuKapur The right-hand side is always fully evaluated before assignment takes place. This is always the case for Python and most programming languages), not just with tuple packing/unpacking. – Michael0x2a Jul 13 '15 at 3:08
• It parses the code from left to right, but it evaluates it in a different order. In an expression `y = f(x)`, the evaluation order would be `x`, then `f`, and finally `y`. – Nayuki Jul 13 '15 at 3:11
• There's also a little bit of optimization here. `a,b = b,a` is actually just a straight swap: `LOAD_FAST,LOAD_FAST,ROT_TWO`. You can see it, using dis. – NightShadeQueen Jul 13 '15 at 3:14
• @salilvishnuKapur - If you're a beginner/new to programming, this isn't something you should really worry about. Basically, what's happening is that Python will take the code you write, and first convert it into a simpler, more basic programming language before running your code. In this more basic language, the swapping was compiled down to the operations LOAD_FAST, LOAD_FAST, and ROT_TWO (load two variables; rotate their values). However, the details of how Python bytecode work is not something that is going to be relevant to you on a day-to-day basis, and is something that you can ignore. – Michael0x2a Jul 13 '15 at 3:27
• @glglgl -- I suppose I meant implicit in the sense that there are no parens, so to a beginner it may not be obvious that this is creating a tuple. But yes, I do agree that if you know what's going on, it's pretty explicit. – Michael0x2a Jul 13 '15 at 3:51

Okay, let's see:

``````import dis
src = '''
x="salil"
y="Ajay"
y,x=x,y

print x +" "+ y
'''
code = compile(src, '<string>', 'exec')
dis.dis(code)
``````

This produces:

``````  2           0 LOAD_CONST               0 ('salil')
3 STORE_NAME               0 (x)

3           6 LOAD_CONST               1 ('Ajay')
9 STORE_NAME               1 (y)

4          12 LOAD_NAME                0 (x)
15 LOAD_NAME                1 (y)
18 ROT_TWO
19 STORE_NAME               1 (y)
22 STORE_NAME               0 (x)

6          25 LOAD_NAME                0 (x)
28 LOAD_CONST               2 (' ')
32 LOAD_NAME                1 (y)
36 PRINT_ITEM
37 PRINT_NEWLINE
38 LOAD_CONST               3 (None)
41 RETURN_VALUE
``````

Remember that Python operates as a stack machine. In this case, it optimized the assignment to a `ROT_TWO` (i.e. swap) instruction. There's also a `ROT_THREE` instruction. But let's try something else:

``````import dis
src = 'x, y, z, w = a, b, c, d'
code = compile(src, '<string>', 'exec')
dis.dis(code)
``````

This produces the general form:

``````  1           0 LOAD_NAME                0 (a)
3 LOAD_NAME                1 (b)
6 LOAD_NAME                2 (c)
9 LOAD_NAME                3 (d)
12 BUILD_TUPLE              4
15 UNPACK_SEQUENCE          4
18 STORE_NAME               4 (x)
21 STORE_NAME               5 (y)
24 STORE_NAME               6 (z)
27 STORE_NAME               7 (w)
30 LOAD_CONST               0 (None)
33 RETURN_VALUE
``````
• hie could you explain this in a little more detail LOAD_FAST,LOAD_FAST,ROT_TWO ? – salil vishnu Kapur Jul 13 '15 at 3:25

This works for swapping because the right hand side of the `=` is evaluated first.

So on the right, it evaluates to

``````'salil', 'Ajay'
``````

and then the assignment of `x` and `y` happens

`````` x, y = 'salil', 'Ajay'
``````
• but doesn't the interpreter read every line of code from left to right ? – salil vishnu Kapur Jul 13 '15 at 3:08
• @salilvishnuKapur It scans and parses that way, but it doesn't execute that way. Otherwise operator precedence and indeed assignment would be impossible. – user207421 Jul 13 '15 at 4:42
• @EJP okay, thanks ! – salil vishnu Kapur Jul 13 '15 at 6:16