Reversal of collections is another typical operation. We can code it either recursively or iteratively in Python, and as functions or class methods. Example 20-21 is a first attempt at two simple reversal functions.

def reverse(list):               # recursive
    if list == []:
        return []
    else:
        return reverse(list[1:]) + list[:1]

def ireverse(list):              # iterative
    res = []
    for x in list: res = [x] + res
    return res

Both reversal functions work correctly on lists. But if we try reversing nonlist sequences (strings, tuples, and so on) we’re in trouble: the ireverse function always returns a list for the result regardless of the type of sequence passed:

>>>ireverse("spam")
['m', 'a', 'p', 's']

Much worse, the recursive reverse version won’t work at all for nonlists—it gets stuck in an infinite loop. The reason is subtle: when reverse reaches the empty string (""), it’s not equal to the empty list ([]), so the else clause is selected. But slicing an empty sequence returns another empty sequence (indexes are scaled): the else clause recurs again with an empty sequence, without raising an exception. The net effect is that this function gets stuck in a loop, calling itself over and over again until Python runs out of memory.

The versions in Example 20-22 fix both problems by using generic sequence handling techniques: