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