# Refactoring recursive “occurences of” function

def recursive_count(target, nested_num_list):
# This code finds all occurrences of "target" in "nested_num_list"
# Rewrite this code without a while/for loop that achieves
# the same results. Basically using only recursive calls and if's.

count = 0
i = 0
while i < len(nested_num_list):
if nested_num_list[i] == target:
count += 1
if type(nested_num_list[i]) == type([]):
count += recursive_count(target, nested_num_list[i])
i += 1
return count

This was a bonus question (read the hashtags) that came up in my computation class. I've tried default parameters, tinkering with i and count numerous ways but I cant get it. How would you lovely people go about it?

• Hint: divide the list into the first element and the rest. – interjay Oct 13 '15 at 17:49

Here's another approach for Python 3 (that is easily translated to python 2). No modification of input parameters or use of other functions (except isinstance):

def recursive_count(target, nested_num_list):
if nested_num_list == []:
return 0
if isinstance(nested_num_list, int):
return nested_num_list == target
x, *y = nested_num_list
# x, y = nested_num_list[0], nested_num_list[1:]  # Python 2
return recursive_count(target, x) + recursive_count(target, y)

>>> recursive_count(1, [1,2,3,[1,1,1],[1]])
5
• Perfect! well done and elegant. – pythonnoob Oct 13 '15 at 18:16
def recursive_count(target, nested_num_list):
count = 0
# Make sure there's still stuff left.
if len(nested_num_list) is 0:
return 0
item = nested_num_list.pop(0)
if type(item) == type([]):
count += recursive_count(target, item)
elif target == item:
count += 1
count += recursive_count(target, nested_num_list)
return count

If you don't mind modifying the input parameters, you can just pop the first item from the list every time and pass it back in. Edit: Added the nesting handling.

• your code returns less occurrences then it should given a nested list [1,2,3,[1,1,1],[1]]. For target "1" your code results in 1 occurrence when the right answer is 5. And no you can modify the hell out of em! haha – pythonnoob Oct 13 '15 at 18:14
• Oh dang! Sorry, forgot it was on a tested loop. – Lyr Lunace Oct 13 '15 at 18:29

I'd write a recursive flattener and use its output.

def flattener(left, right):
try:
res = reduce(flattener, right, left)
except TypeError:
left.append(right)
res = left
return res

>>> nested_list = [[0], [1, [2, 3]], [4, 5], [6, [7], [8, 9]], 10, [[[[11]]]], [], 12]
>>> flattened_list = reduce(flattener, nested_list, [])
>>> flattened_list
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12]
Go on with flattened_list ...

Edit: So you want one single function that does this, and here's a version without isinstance or explicit length checking, or indexing, and with only one inline-if:

def countin(seq, predicate):
try:
iterseq = iter(seq)
except TypeError:
return 1 if predicate(seq) else 0
try:
except StopIteration:
return 0