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# Count the number of lists using recursion?

This is what I've tried:

``````def recursive_list_counter(l):
sum = 0
for e in l:
if type(e) == type([]):
#print e
sum += 1
recursive_list_counter(e)
return sum

# should be 6 if I count the first also
recursive_list_counter([[[13, 7], 90], 2, [1, 100, [5, [2]]], 8, 6])
``````

I want to use recursion to retrieve the number of lists within a list, counting the original list also.

-

## 6 Answers

Your recursive call ignores what is returned. Add the return value:

``````def recursive_list_counter(l):
sum = 0
for e in l:
if isinstance(e, list):
sum += 1
sum += recursive_list_counter(e)
return sum
``````

Note that the outer list is ignored in the count, so the call returns 5, not 6.

Furthermore, you should use `isinstance()` to test if an object is of a given type.

If you want to see `6`, count the current list in the function, and leave counting nested lists to the recursive call:

``````def recursive_list_counter(l):
sum = 1
for e in l:
if isinstance(e, list):
sum += recursive_list_counter(e)
return sum
``````
-
I would change `type(e) == type([])` this part – oleg Oct 30 '13 at 10:50
To count the outer list, just start with `sum = 1` and lose `sum += 1`. – Eser Aygün Oct 30 '13 at 11:10

For your given example, if all you have are numbers within lists, you can try converting to string and counting the number of `[`

``````>>> li = [[[13, 7], 90], 2, [1, 100, [5, [2]]], 8, 6]
>>> str(li).count('[')
6
``````
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This was genius! – Games Brainiac Oct 30 '13 at 10:51
This is Brilliant! +1 – ffledgling Oct 30 '13 at 10:55
But of course your solution fails miserably as soon as there is s string inside the list containing an opening bracket. And it is way to costly because generating the string representation is not necessary for this task. – Alfe Oct 30 '13 at 10:55
@Alfe I know, but still, its awesome! – Games Brainiac Oct 30 '13 at 10:57
@Alfe Agree with the part this fails if there are strings with the bracket in one of the lists. My answer begins with the assumption that is not the case. Disagree with converting to string being costly, recursion implies call stack, and I won't be too sure on which is faster, without proper tests. – mu 無 Oct 30 '13 at 10:58

A true functional solution would be this:

``````def recursive_list_counter(li):
return 1 + sum(map(recursive_list_counter, li)) if isinstance(li, list) else 0
``````

To count all elements in the list use this slightly altered version:

``````def recursive_element_counter(li):
return sum(map(recursive_element_counter, li)) if isinstance(li, list) else 1
``````
-
Looks like this gives a wrong answer, 10 – user2144553 Oct 30 '13 at 11:09
Maybe you are trying an outdated version of my answer? – Alfe Oct 30 '13 at 11:09
Actually I copied element counter by mistake, sorry. – user2144553 Oct 30 '13 at 11:12

I think this should do the trick. But I guess I was too slow, I already see 3 other answers. :P

``````#!/usr/bin/env python

def lcount(l):
count = 0
if isinstance(l, list):
count+=1
count+=sum([lcount(x) for x in l])

return count

list_ = [ [ [1, 2, 3], [1, 4, 5], [7, 8, 9]], [ 1, 2, 7], 1, 3, ]
print lcount(list_)
``````
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@user2144553 I'm not sure how you're running this or what input you're using but, runs for me, see ideone.com/2InIOy for live example – ffledgling Oct 30 '13 at 11:05
Sorry, my mistake. – user2144553 Oct 30 '13 at 11:10

Three important points:

• use `isinstance` to check the type
• don't use `sum` as a variable since it's already a built-in function
• recursive fonctions should start with the stopping condition (here: `not isinstance(l, list)`)

Here is your function :

``````def recursive_list_counter(l):
if not isinstance(l, list):
return 0
return 1 + sum(recursive_list_counter(e) for e in l)
``````
-

Actually, the problem is very simple. Everytime you called `recursive_list_counter`, you create a new local variable `sum`, instead of incrementing the global one.

``````sum = 0
def recursive_list_counter(l):
global sum
for e in l:
if type(e) is list: #this is the same, but a better practice.
#print e
sum += 1
recursive_list_counter(e)
return sum

recursive_list_counter([[[13, 7], 90], 2, [1, 100, [5, [2]]], 8, 6]) #returns 5
``````

You can also increment sum recursively:

``````if type(e) is list:
sum += 1
sum += recursive_list_counter(e)
``````

Hope this helps!

-
Don't use globals. – Alfe Oct 30 '13 at 10:56
If you are going to test for the specific type, use `is`: `type(e) is list`; but it is much better to use `isinstance()` because then you allow for subclasses of list as well. – Martijn Pieters Oct 30 '13 at 10:59
Hi, your comment #returns 6 is a bit misleading! Your code actually returns 5, but that's normal since we start in a list. – user2144553 Oct 30 '13 at 11:00
@MartijnPieters Thanks, i forgot that for a second. – aIKid Oct 30 '13 at 11:11