remove None value from a list without removing the 0 value

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?

EDIT:

Changed list to L to avoid shadowing the built in list function. Read the comment below.

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Don't name your lists list. Pick a more meaningful name. Also, by naming them list, you shadow the builtin list function. – Blender Apr 19 '13 at 3:34
This even confused me for a little while but now I fixed it by doing list = __builtins__.list. Moral of the story, don't call your variable list – jamylak Apr 19 '13 at 3:38

>>> 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]
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Works perfect!!!! Thank you very much Jamylak!!!! – mongotop Apr 19 '13 at 3:36
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
@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
I'm amazed by the quality of the answers!! Thank you guys!!! – mongotop Apr 19 '13 at 3:45
@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

FWIW, Python 3 makes this problem easy:

>>> L = [0, 23, 234, 89, None, 0, 35, 9]
>>> list(filter(None.__ne__, L))
[0, 23, 234, 89, 0, 35, 9]

In Python 2, you would use a list comprehension instead:

>>> [x for x in L if x is not None]
[0, 23, 234, 89, 0, 35, 9]
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+1 Do you recommend the use of __ne__ like that as opposed to partial and ne? – jamylak Apr 21 '13 at 1:38
@jamylak Yes, it is faster, a bit easier to write, and a bit more clear. – Raymond Hettinger Apr 21 '13 at 1:50
Consider using the operator module. – Zoidberg Feb 17 '15 at 15:41

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).

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Capital letters at the beginning signify a class name. – jamylak Feb 13 '15 at 10:48
@jamylak - thanks - changed now. For anyone who wants a style reference: PEP 0008 Style Guide for Python Code / function names says: "Function names should be lowercase, with words separated by underscores as necessary to improve readability." – ToolmakerSteve Jun 23 '15 at 0:39
Give pylint a try for your code. – rockdaboot Feb 5 at 10:35

Using list comprehension this can be done as follows:

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

The value of l is:

[0, 23, 234, 89, 0, 35, 9]
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@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]
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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 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 for loop approach could be parallelized if portions of the list were allocated to each processing element. The list comprehension approach could also be parallelized by portioning, to limit the in-memory duplications.

Attempting to iterate over the list and remove None entries in place gets complicated because of the list shrinking as elements are removed. The same issue (along with normal parallel programming issues) would effect any attempts at parallelization.

Choosing either approach will probably not matter in common situations. It becomes more of a preference of notation.

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My solution uses while rather than for to iterate the list:

value = None
while value in yourlist:
yourlist.remove(value)
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