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Is it possible to "clear" out a (nested) list in python while maintaining the "structure". I mean that if the input it is


The output would be


Where the actual structure of the list is maintained and just the values are reset.

Context: There actually isn't any, this question just came to mind and I was wondering if it can be done. .

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4 Answers 4

up vote 3 down vote accepted

Here is an implementation that makes use of the duck typing principle:

In [5]: def clear(seq):
   ...:     for i, item in enumerate(seq):
   ...:         try:
   ...:             clear(item)
   ...:         except TypeError:
   ...:             try:
   ...:                 seq[i] = 0
   ...:             except IndexError, KeyError:
   ...:                 pass

In [6]: s = [1,3,4,[5,2,[4,3],3],6,[7,8],9]

In [9]: clear(s)

In [10]: s
Out[10]: [0, 0, 0, [0, 0, [0, 0], 0], 0, [0, 0], 0]

The advantage to this is that you aren't restricted to structures/values that are ints or lists. This function will 'zero' out any mutable structure which supports indexing.

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Okay, I had to accept this. Pythonic. Although, I didn't know KeyError and IndexError were subtypes of TypeError –  Sabyasachi Apr 2 at 15:29
@Sabyasachi: They're not. KeyError and IndexError are both subclassed from LookupError. The nesting of try...except clauses doesn't indicate inheritance. –  Joel Cornett Apr 2 at 15:44
@Sabyasachi: So you accepted this one with nested try/except stucture since it is more, well, Pythonic. However you explicitely lists in your question. Nevermind. Just call clear('Clear this one!'). No offense Joel. –  SzieberthAdam Apr 2 at 17:30
@SzieberthAdam It's just my opinion. I liked your solution as well, and upvoted it accordingly. –  Sabyasachi Apr 2 at 17:50
Sure, no problem. –  SzieberthAdam Apr 2 at 19:39
>>> l = [1,3,4,[5,2,[4,3],3],6,[7,8],9]
>>> def reset(lst):
...     return [reset(e) if isinstance(e, list) else 0 for e in lst]
>>> l = reset(l)
>>> l
[0, 0, 0, [0, 0, [0, 0], 0], 0, [0, 0], 0]
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I got this to work using recursion, although it is a bit primitive.

Note: ints and lists only but can be any random nesting. Works for all

def set_zero(lst):
    for i,element in enumerate(lst):
        if type(element) != list: lst[i]=0
        else: set_zero(element)

>>> a = [1,3,4,[5,2,[4,3],3],6,[7,8],9]
>>> set_zero(a)
>>> print(a)

Nice question by the way!

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(+1)Brilliant. I think you remove the "integer only" condition by re-writing the if as if type(element)!=list. Cheers. –  Sabyasachi Apr 2 at 10:36
@Sabyasachi, Oh yeah, nice. Will update it now. –  sshashank124 Apr 2 at 10:37
Ah while you're at it, you have a typo in the output. –  Sabyasachi Apr 2 at 10:37
@Sabyasachi, Where is the typo? –  sshashank124 Apr 2 at 10:38
I see a 6 in the output –  Sabyasachi Apr 2 at 10:40

I was able to find another method, which is basically cheating but it works.
Also, it is a one-liner!!

def set_zero(lst):
    return eval(''.join(str(0) if x.isdigit() else str(x) for x in str(lst)))

>>> a = [1,3,4,[5,2,[4,3],3],6,[7,8],9]
>>> a = set_zero(a)
>>> print(a)

Downside: It is 3 / 4 X slower than my previous suggestion.

Method 1: ~0.000035 s
Method 2: ~0.000120 s

I posted it as a different answer since it is a completely different concept. I can merge it back into my first answer if you want.

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+1 brilliant. I am accepting the other though, eval is cheating(:p) the other answer captures your idea for the recursive call in a one liner. –  Sabyasachi Apr 2 at 15:13

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