# Python iterate through list and count items of a certain value

Hi I have a python problem whereby I have to count which list elements contain the value 2, in a list with various levels of nest. E.g.:

``````my_list = [[2,3,2,2], [[2,1,2,1], [2,1,1]], [1,1,1]]
``````

this list can have have up to three levels of nesting but could also be two or only one level deep.

I have piece of code which sort of works:

``````count = 0
for i in my_list:
if len(i) > 1:
for x in i:
if 2 in x:
count += 1
elif i == 2:
count += 1
``````

However, apart from being very ugly, this does not take account of the potential to have a list with a single element which is 2. It also doesn't work to get `len()` on a single `int`.

I know list comprehension should be able to take care of this but I am a litle stuck on how to deal with the potential nesting.

Any help would be much appreciated.

-
What's the expected output on the example you give? – NPE Dec 10 '12 at 20:13
Are you doing this to understand how to navigate list structures, or do you just need a count? There's already an answer using flatten that's solid. I you want to do this manually, then you'll need recursion. – RonaldBarzell Dec 10 '12 at 20:26
so the output would be: count = 3. – Darwin Tech Dec 10 '12 at 20:28
Do you ever need to handle, for example, `[2, [2,3,2,2], [[2,1,2,1], [2,1,1]], [1,1,1]]`, and if so, what result do you need? (4?) – jimhark Dec 10 '12 at 20:59

I'd use a variant of the `flatten()` generator from http://stackoverflow.com/a/2158532/367273

The original yields every elements from an arbitrarily nested and irregularly shaped structure of iterables. My variant (below) yields the innermost iterables instead of yielding the scalars.

``````from collections import Iterable

def flatten(l):
for el in l:
if isinstance(el, Iterable) and any(isinstance(subel, Iterable) for subel in el):
for sub in flatten(el):
yield sub
else:
yield el

my_list = [[2,3,2,2], [[2,1,2,1], [2,1,1]], [1,1,1]]
print(sum(1 for el in flatten(my_list) if 2 in el))
``````

For your example it prints `3`.

-
Very nice solution... perhaps include the definition of flatten in your answer to make this easier to understand without needing to go to the other answer as well? – EEP Dec 10 '12 at 20:24
Where does `collections` come from in this case? – Darwin Tech Dec 10 '12 at 20:33
`import collections`. This solution counts all the 2's. – jimhark Dec 10 '12 at 20:38
@jimhark: Not anymore. See the update. – NPE Dec 10 '12 at 20:39
This is fantastic. I tested in a more complex example and it turns up the right solution. I assumed going into this that this would be a very common design pattern. Is it not? – Darwin Tech Dec 10 '12 at 20:40

Here is another way to do this:

``````small_list = [2]
my_list = [[2,3,2,2], [[2,1,2,1], [2,1,1]], [1,1,1]]
another_list = [[2,3,2,2], [[2,1,2,1], [2,1,1]], [1,1,1], 2]

from collections import Iterable

def count_lists_w_two(x):
if isinstance(x, Iterable) == False:
return 0
else:
return (2 in x) + sum(count_lists_w_two(ele) for ele in x)
``````

Result:

``````>>> count_lists_w_two(small_list)
1
>>> count_lists_w_two(my_list)
3
>>> count_lists_w_two(another_list)
4
``````
-
Why not instead of `any(ele == 2 for ele in x)` just use `2 in x`? – jimhark Dec 10 '12 at 21:56
@jimhark, I wasn't even thinking about `2 in x`. Is it better? It is shorter, of course, but I think both are pretty clear. Do you think `2 in x` has an advantage in speed? – Akavall Dec 10 '12 at 22:05
you're writing code to implement a built-in which usually isn't a good idea. A reader has more to read, and in this case may re-read asking, "why not use the built-in"? I fully expect your approach to be slower, but I make it a policy not guess about Python performance. I'll leave the performance testing to you. Please share any results. – jimhark Dec 10 '12 at 22:11
@jimhark, the build-in is about 3 times faster according my rather sloppy test, I guess enough reason for me to edit my code. Thanks for pointing that out. – Akavall Dec 10 '12 at 22:30
Yeah, I couldn't help but test too. After a quick test using `timeit`, it looks like the built in is up to almost 20 times faster when the list is short or the match is early in the list. For longer lists with a match near the end, it drops off to almost 4 times faster. – jimhark Dec 10 '12 at 22:30

My solution recurses a nested list of lists. If the list contains `2`, the count is set to one. Then the sum of the counts of any sub-lists are added. This approach supports heterogeneous lists where numbers and lists can be mixed at the same level, as in the second usage example below:

``````import collections

def list_count(l):
count = int(2 in l)
for el in l:
if isinstance(el, collections.Iterable):
count += list_count(el)
return count
``````

Here are a couple of test cases:

``````my_list = [[2,3,2,2], [[2,1,2,1], [2,1,1]], [1,1,1]]
print = list_count(my_list)
# 3 is printed

my_list = [2, [2,3,2,2], [[2,1,2,1], [2,1,1]], [1,1,1]]
print = list_count(my_list)
# 4 is printed
``````

@Akavall's answer reminded me this could be collapsed to a one-liner. (But I always get (usually justified) readability complaints on SO when I do this.)

``````def list_count(l):
return ( int(2 in l) +
sum([list_count(el) for el in l
if isinstance(el, collections.Iterable)]) )
``````

## Original Answer (not what original question was looking for)

Update: @NPE updated his answer after expected result was specified. He's current answer works as the original poster desires.

``````my_list = [[2,3,2,2], [[2,1,2,1], [2,1,1]], [1,1,1]]
But he's looking for `3`. My code generates 2 because it iterates across each top level element and counts it if it contains any 2, but that's not what he actually wants.