# Python self-referential list produces weird output on sorted

I recently came across a weird discrepancy when trying to sort self-referential lists using `.sort()` and `sorted()`. I was hoping someone could shed some light on this. The code in question is the following:

``````lst = [1, 2, 3]

lst[0] = lst
lst[1] = lst
lst[2] = lst

print(lst)

print(sorted(lst))

lst.sort()

print(lst)
``````

The above code produces the following output:

``````[[...], [...], [...]]
[[[...], [...], [...]], [[...], [...], [...]], [[...], [...], [...]]]
[[...], [...], [...]]
``````

It's the output from `print(sorted(lst))` that baffles me. Wonder if it is some form of recursion that's causing it?

• `sort` and `sorted` don't really have anything to do with that. It's enough to compare the output of `print(l)` and `print(list(l))` Jul 5, 2021 at 20:23
• In other words, it is due to how new lists are constructed from an existing, self-reffering list, not to sorting Jul 5, 2021 at 20:23

I'm going to call your list `x`, because frankly `l` looks too much like the number one and is throwing me off. So you've got a list `x` which looks like this

``````[x, x, x]
``````

Now, we do

``````print(x)
``````

Python is smart enough to say "hey, look, this list contains itself recursively, let's not print it again inside of itself." All of the places `x` appears in your list, we get `[...]`

``````[[...], [...], [...]]
``````

Now consider

``````x.sort()
print(x)
``````

We sort the list, which doesn't do much since every element is the same. However, crucially, it all happens in-place. The list started out looking like `[x, x, x]` and will end looking like `[x, x, x]`, where `x` is our list. So the print looks the same.

``````[[...], [...], [...]]
``````

``````sorted(x)
``````

`sorted`, unlike `list.sort`, does not modify the list and instead produces a new list. Let's call this new list `y`. In your `x.sort` example, at the end, we have the same list `x` that looks like `x = [x, x, x]`. When we print the list, we immediately see the recursion and stop printing.

However, `sorted(x)` produces a new list. The list will still look like `[x, x, x]`, but it's not the list `x`. It's a new list `y = [x, x, x]`.

Now, we do

``````print(sorted(x))
``````

Python sees a list of three elements: `[x, x, x]`. We look at each of those elements. We're printing `y`, so the fact that this list contains `x` is not a recursion problem; it's a perfectly ordinary list that contains other lists. So we print `x` inside of `y`. Now, one more layer down, we look inside `x` and see that it contains, lo and behold, `x` again. That is a recursion problem, but it happened one step later, because we made a new list that, although it looks identical to the original, is distinct.

``````[[[...], [...], [...]], [[...], [...], [...]], [[...], [...], [...]]]
``````
• I prefer `L` instead of `l` or `x` Jul 6, 2021 at 8:25
• @GrijeshChauhan: names starting with an uppercase letter are typically used for constants. Jul 6, 2021 at 11:36
• Constants or classes; in any case not variables, for which the convention is `snake_case`. I personally see many data scientists and university students especially go against this and it makes their code so much harder to read. Jul 6, 2021 at 12:44
• @EricDuminil I always emphasis on readability over practice and rules. I do not use `L` in project code but for this use-case `L` looks better than `x` to me -- still it is inexact science and everyone has their own preference. Yes, capitals mostly apt for constant naming. Jul 7, 2021 at 9:14
• @theberzi: It's possible to write FORTRAN in any language. :) Jul 7, 2021 at 9:51

Maybe you thought after `lst[0] = lst` that `lst` would be `[[1,2,3],2,3]`. If so, you'd be assuming ` = lst` passes by value. But lists are passed by reference, so at that point `lst` is `[lst,2,3]`.

To pass by value, use `lst[0] = list(lst)` etc. This time the right-hand side creates a new list, with the same value as before but a new reference, since in this context `list(lst)` is syntactic sugar for `[v for v in lst]`.

As @DeepSpace noted, this fact about `list` also explains why `print(list(lst))` is three times more verbose than `print(lst)`; it prints `[v for v in lst]`, which is just `[lst, lst, lst]`.

• We don't have these two "call/pass by value" "call/pass by reference" terminologies in Python.
– S.B
Jul 12, 2022 at 11:37