# reverse method mutating input

For an assignment we were asked to create a function that would reverse all the elements in an arbitrarily nested list. So inputs to the function should return something like this:

``````>>> seq = [1,[2,[3]]]
>>> print arb_reverse(seq)
[[[3],2],1]
>>> seq = [9,[[],[0,1,[[],[2,[[],3]]]],[],[[[4],5]]]]
>>> print arb_reverse(seq)
[[[[5,[4]]],[],[[[[3,[]],2],[]],1,0],[]],9]
``````

I came up with a recursive solution which works well:

``````def arb_reverse(seq):
result = []
for element in reversed(seq):
if not is_list(element):
result.append(element)
else:
result.append(arb_reverse(element))
return result
``````

But for a bit of a personal challenge I wanted to create a solution without the use of recursion. One version of this attempt resulted in some curious behavior which I am not understanding. For clarification, I was NOT expecting this version to work properly but the resulting input mutation does not make sense. Here is the iterative version in question:

``````def arb_reverse(seq):
elements = list(seq)   #so input is not mutated, also tried seq[:] just to be thorough
result = []
while elements:
item = elements.pop()
if isinstance(item, list):
item.reverse() #this operation seems to be the culprit
elements += item
else:
result.append(item)
return result
``````

This returns a flattened semi-reversed list (somewhat expected), but the interesting part is what it does to the input (not expected)...

``````>>> a = [1, [2, [3]]]
>>> arb_reverse(a)
[2, 3, 1]
>>> a
[1, [[3], 2]]
>>> p = [1, [2, 3, [4, [5, 6]]]]
>>> print arb_reverse(p)
[2, 3, 4, 5, 6, 1]
>>> print p
[1, [[[6, 5], 4], 3, 2]]
``````

I was under the impression that by passing the values contained in the input to a variable using `list()` or `input[:]` as i did with `elements`, that I would avoid mutating the input. However, a few print statements later revealed that the reverse method had a hand in mutating the original list. Why is that?

-

## 2 Answers

The list() call is making a new list with shallow-copied lists from the original.

Try this (stolen from here):

``````from copy import deepcopy
listB = deepcopy(listA)
``````
-
I assume var = input[:] does the same then? So even though a new list is created it still references the original values which populate the list? –  Verbal_Kint May 31 '12 at 20:34
You are correct. –  Jon Cage May 31 '12 at 20:35
Without having to import an outside module, I am guess I would have to iterate over the original list and make sure all values are copied somehow? –  Verbal_Kint May 31 '12 at 20:37
It's a built in library: docs.python.org/library/copy.html ..but if you're feeling masochistic, you could of course roll your own recursive deep-copy function. –  Jon Cage May 31 '12 at 20:43
self inflicted pain has taught me lessons I won't soon forget! Thanks –  Verbal_Kint May 31 '12 at 20:46

Try running the following code through this tool http://people.csail.mit.edu/pgbovine/python/tutor.html

``````o1 = [1, 2, 3]
o2 = [4, 5, 6]

l1 = [o1, o2]

l2 = list(l1)

l2[0].reverse()

print l2
print l1
``````

Specifically look at what happens when `l2[0].reverse()` is called.

You'll see that when you call `list()` to create a copy of the list, the lists still reference the same objects.

-
Without having done that yet, I am assuming that the copied list still references the objects populating the original list? –  Verbal_Kint May 31 '12 at 20:35
Exactly, it's just a shallow copy of the list, it doesn't duplicate the objects the list contains. –  Acorn May 31 '12 at 20:37
Considering the need for a separate function to create a true copy, at what length input would recursion make sense over iteration with regards to a solution? –  Verbal_Kint May 31 '12 at 20:41
+1 for the tutor link - that's really cool! –  Jon Cage May 31 '12 at 21:52