268

This was my source I started with.

My List

L = [0, 23, 234, 89, None, 0, 35, 9]

When I run this :

L = filter(None, L)

I get this results

[23, 234, 89, 35, 9]

But this is not what I need, what I really need is :

[0, 23, 234, 89, 0, 35, 9]

Because I'm calculating percentile of the data and the 0 make a lot of difference.

How to remove the None value from a list without removing 0 value?

0

11 Answers 11

406
>>> L = [0, 23, 234, 89, None, 0, 35, 9]
>>> [x for x in L if x is not None]
[0, 23, 234, 89, 0, 35, 9]

Just for fun, here's how you can adapt filter to do this without using a lambda, (I wouldn't recommend this code - it's just for scientific purposes)

>>> from operator import is_not
>>> from functools import partial
>>> L = [0, 23, 234, 89, None, 0, 35, 9]
>>> filter(partial(is_not, None), L)
[0, 23, 234, 89, 0, 35, 9]
6
  • 25
    The less elegant filter version: filter(lambda x: x is not None, L) -- You could get rid of the lambda using partial and operator.is_not I think, but it's probably not worth it since the list-comp is so much cleaner. – mgilson Apr 19 '13 at 3:36
  • 4
    @mgilson Oh wow I didn't even know is_not existed! I thought it was only is_, I'm gonna add that in just for fun – jamylak Apr 19 '13 at 3:40
  • @jamylak -- Yeah. It actually bothers me that is_not exists and not_in doesn't exist. I actually think that not_in should be turned into a magic method __not_contains__ ... see a question I asked a while back and a comment I made to an answerer ... and still don't feel like it is resolved. – mgilson Apr 19 '13 at 3:47
  • @mgilson I think under that same assumption I just assumed it didn't exist. I guess you can just use filterfalse or something depending on the use case – jamylak Apr 19 '13 at 3:58
  • @jamylak -- Yeah. My main problem is that x > y does not imply not x <= y in python because you can do anything in __lt__ and __le__, so why should x not in y imply not x in y (especially since not in has it's own bytecode?) – mgilson Apr 19 '13 at 4:07
146

A list comprehension is likely the cleanest way:

>>> L = [0, 23, 234, 89, None, 0, 35, 9
>>> [x for x in L if x is not None]
[0, 23, 234, 89, 0, 35, 9]

There is also a functional programming approach but it is more involved:

>>> from operator import is_not
>>> from functools import partial
>>> L = [0, 23, 234, 89, None, 0, 35, 9]
>>> list(filter(partial(is_not, None), L))
[0, 23, 234, 89, 0, 35, 9]
8
  • +1 Do you recommend the use of __ne__ like that as opposed to partial and ne? – jamylak Apr 21 '13 at 1:38
  • 1
    @jamylak Yes, it is faster, a bit easier to write, and a bit more clear. – Raymond Hettinger Apr 21 '13 at 1:50
  • 12
    What is __ne__? – DrMcCleod Jul 12 '17 at 21:00
  • 11
    @DrMcCleod The expression x != y internally calls x.__ne__(y) where the ne stands for "not equal". So, None.__ne__ is a bound method that returns True when called with any value other than None. For example, bm = None.__ne__ called with bm(10) returns NotImplemented which as true value, and bm(None) returns False. – Raymond Hettinger Jul 13 '17 at 4:12
  • 1
    That NotImplemented is true in boolean context is really bizarre. See Make NotImplemented unusable in boolean context Python issue. – Piotr Dobrogost Sep 30 '20 at 10:55
20

Using list comprehension this can be done as follows:

l = [i for i in my_list if i is not None]

The value of l is:

[0, 23, 234, 89, 0, 35, 9]
1
  • 3
    This solution is already found in the top answer, or am I missing something? – Qaswed May 3 '19 at 7:28
16

For Python 2.7 (See Raymond's answer, for Python 3 equivalent):

Wanting to know whether something "is not None" is so common in python (and other OO languages), that in my Common.py (which I import to each module with "from Common import *"), I include these lines:

def exists(it):
    return (it is not None)

Then to remove None elements from a list, simply do:

filter(exists, L)

I find this easier to read, than the corresponding list comprehension (which Raymond shows, as his Python 2 version).

1
  • I would prefer Raymonds solution for Python 3, and then the list comprehension for Python 2. But if I did have to go this route, I would rather partial(is_not, None) than this solution. I believe this will be slower (although thats not too important). But with a couple of imports of python modules, no need for a custom defined function in this case – jamylak Feb 17 '18 at 14:25
13

@jamylak answer is quite nice, however if you don't want to import a couple of modules just to do this simple task, write your own lambda in-place:

>>> L = [0, 23, 234, 89, None, 0, 35, 9]
>>> filter(lambda v: v is not None, L)
[0, 23, 234, 89, 0, 35, 9]
2
  • You obviously didn't read my solution correctly which is [x for x in L if x is not None] the other code was just an addition i explicitly stated i wouldn't recommend – jamylak Feb 17 '18 at 14:26
  • 2
    @jamylak - I did read it, but you hadn't included this solution. - Also not sure why you are editing people's answers from 4-5 years ago. – A T Feb 17 '18 at 23:09
6

Iteration vs Space, usage could be an issue. In different situations profiling may show either to be "faster" and/or "less memory" intensive.

# first
>>> L = [0, 23, 234, 89, None, 0, 35, 9, ...]
>>> [x for x in L if x is not None]
[0, 23, 234, 89, 0, 35, 9, ...]

# second
>>> L = [0, 23, 234, 89, None, 0, 35, 9]
>>> for i in range(L.count(None)): L.remove(None)
[0, 23, 234, 89, 0, 35, 9, ...]

The first approach (as also suggested by @jamylak, @Raymond Hettinger, and @Dipto) creates a duplicate list in memory, which could be costly of memory for a large list with few None entries.

The second approach goes through the list once, and then again each time until a None is reached. This could be less memory intensive, and the list will get smaller as it goes. The decrease in list size could have a speed up for lots of None entries in the front, but the worst case would be if lots of None entries were in the back.

The second approach would likely always be slower than the first approach. That does not make it an invalid consideration.

Parallelization and in-place techniques are other approaches, but each have their own complications in Python. Knowing the data and the runtime use-cases, as well profiling the program are where to start for intensive operations or large data.

Choosing either approach will probably not matter in common situations. It becomes more of a preference of notation. In fact, in those uncommon circumstances, numpy (example if L is numpy.array: L = L[L != numpy.array(None) (from here)) or cython may be worthwhile alternatives instead of attempting to micromanage Python optimizations.

8
  • 1
    Not a fan of this at all, the whole advantage you claim with this solution is that the list might be so huge that building duplicate list in memory could be costly. Well then your solution will be even more costly because you're scanning the entire list for L.count(None) and then you're calling .remove(None) multiple times which makes this O(N^2) The situation you are trying to solve should not be dealt with in this way, the data should be restructured into a Database or file instead if it's that memory intensive. – jamylak Feb 17 '18 at 14:31
  • Would be interested if you had a practical example where this answer is the best solution, I tend to think that there would be a better approach in all cases. For example numpy would be able to handle this type of operation in a more optimised manner – jamylak Feb 19 '18 at 5:16
  • This discussion is getting too abstract now, I don't think you'd be able to give me one real life example in your years of experience where this answer is the correct approach over restructuring the data as i mentioned before. – jamylak Feb 20 '18 at 5:39
  • True, but not all real world situations allow flexibility of transforming the data. For example, pumping "legacy" geospatial data through a one-off analysis on a system without much memory. Another example is programming time vs runtime. Might not care if something takes all night to run so long as it was inexpensive to write. What about if writing a plugin or library? You may not be the one deciding what the data looks like. With this answer, I am bringing attention to considering memory and knowing the data, but I point out it probably does not matter most of the time. – Kevin Aug 7 '20 at 19:09
  • 1
    @Kevin - my mistake, I misread the code! – ToolmakerSteve Dec 22 '20 at 0:34
3

Say the list is like below

iterator = [None, 1, 2, 0, '', None, False, {}, (), []]

This will return only those items whose bool(item) is True

print filter(lambda item: item, iterator)
# [1, 2]

This is equivalent to

print [item for item in iterator if item]

To just filter None:

print filter(lambda item: item is not None, iterator)
# [1, 2, 0, '', False, {}, (), []]

Equivalent to:

print [item for item in iterator if item is not None]

To get all the items that evaluate to False

print filter(lambda item: not item, iterator)
# Will print [None, '', 0, None, False, {}, (), []]
0
2
from operator import is_not
from functools import partial   

filter_null = partial(filter, partial(is_not, None))

# A test case
L = [1, None, 2, None, 3]
L = list(filter_null(L))
4
  • 6
    Please, give some details information to the OP, and not just a code. – Laurent LAPORTE Nov 2 '16 at 20:23
  • 1
    I did. What you think? – med_abidi Nov 23 '16 at 8:05
  • Well, this doesn't answer the OP question. Consider this answer instead: stackoverflow.com/a/16096769/1513933 – Laurent LAPORTE Nov 23 '16 at 8:11
  • Yes you are right. There was a problem with the filter partial. – med_abidi Nov 23 '16 at 8:30
2

If it is all a list of lists, you could modify sir @Raymond's answer

L = [ [None], [123], [None], [151] ] no_none_val = list(filter(None.__ne__, [x[0] for x in L] ) ) for python 2 however

no_none_val = [x[0] for x in L if x[0] is not None] """ Both returns [123, 151]"""

<< list_indice[0] for variable in List if variable is not None >>

1
L = [0, 23, 234, 89, None, 0, 35, 9] 
result = list(filter(lambda x: x != None, L))
0
  • My List: L=[0, 23, 234, 89, None, 0, 35, 9]
  • Code_result: [k for k in L if (k is None)==False]
  • Result: [0, 23, 234, 89, 0, 35, 9]
2
  • Did you mean to post this as a comment, or a new question? – AMC Dec 1 '20 at 1:50
  • Be careful with " ==False " instead of " is False ". It should work OK here, but in other scenarios where a 0 is present could have unintended consequences. For this application, you are better off with " is not None " like the other answers have done. " 0==False " returns True and " 0 is False " returns False – Nate Wanner Feb 3 at 19:11

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