# How to optimally turn a multidimentional list into a single list of items in Python? [duplicate]

Input a list such as: [1,2,[3,4,[5,6,7,[8]]],[9],10]

Desired output: [1,2,3,4,5,6,7,8,9,10]

Currently I have the following recursive function:

``````def fix_list( li , l = [] ):
for i in li:
try:
len( i )
fix_list( i, l )
except:
l.append( i )
return l
``````

I feel like the try/except catch is a little gimmicky and slow, and I'm wondering if there is a better/more optimized way to perform this task. All input is greatly appreciated.

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## marked as duplicate by Trufa, senderle, Gilles, eumiro, C. A. McCannJul 13 '11 at 16:54

You can also try if type(i) == type(1). –  Gandi Jul 13 '11 at 12:58
–  phant0m Jul 13 '11 at 12:58
It is very easy once you figure it out to see how slow (or not) your function is with the timeit module. –  Trufa Jul 13 '11 at 13:02
I like this question because the answers illustrate a good use of generators rather than returning a whole new list. –  phkahler Jul 13 '11 at 13:42

Here is an iterative version (originally inspired by Artsiom Rudzenka's) that modifies the list in place using slice assignment rather than creating a new list on each pass. Interestingly, only one pass through the list is needed! My use of `enumerate()` is a little unorthodox; I use it to keep track of an index into a list that may be growing as I iterate over it, but don't actually use the actual list item.

``````def flattened(items, seqtypes=(list, tuple)):

items = items[:]  # we will return a copy; remove to mutate original
for i, _ in enumerate(items):
while isinstance(items[i], seqtypes):
items[i:i+1] = items[i]
return items

print flattened([1,2,[3,4,[5,6,7,[8]]],[9],10])
``````

Generator version:

``````def flattener(items, seqtypes=(list, tuple)):

items = items[:]
for i, _ in enumerate(items):
while isinstance(items[i], seqtypes):
items[i:i+1] = items[i]
yield items[i]

print list(flattener([1,2,[3,4,[5,6,7,[8]]],[9],10]))
``````

Here is a `list` subclass that has a `flatten()` method. Like the `sort()` and `reverse()` methods, this mutates the list and returns `None`.

``````class listy(list):

def flatten(self, seqtypes=(list, tuple)):
for i, _ in enumerate(self):
while isinstance(self[i], seqtypes):
self[i:i+1] = self[i]

lst = listy([1,2,[3,4,[5,6,7,[8]]],[9],10])
lst.flatten()
print lst
``````

Edit: I simplified this pretty significantly from my original version. However, I see the question has been closed.

-

``````def flatten(l):
for el in l:
if isinstance(el, collections.Iterable) and not isinstance(el, basestring):
for sub in flatten(el):
yield sub
else:
yield el
``````
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Nice copy&paste ;) –  Gandi Jul 13 '11 at 12:59
@Gandi: Well at least I said where I got it, senderle didn't. –  nightcracker Jul 13 '11 at 13:01
I don't say there's anything wrong in it. –  Gandi Jul 13 '11 at 13:03
That doesn't mean you should post it as an aswer IMHO; but rather note that it is a duplicate of another question. –  phant0m Jul 13 '11 at 13:04
@nightcracker, I wrote it in the process of trying to understand how to create a recursive generator :). Eerily similar, though, isn't it? –  senderle Jul 13 '11 at 13:04

Here's a simple generator that does this:

``````def flatten(nested):
for item in nested:
if isinstance(item, collections.Iterable) and not isinstance(item, basestring):
for inner_item in flatten(item):
yield inner_item
else:
yield item
``````

Not sure whether it's "optimal" or not.

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Did you just copy that solution and rename variables so its your own? –  phant0m Jul 13 '11 at 13:03
@phant0m, no, I copied it from a script that I wrote a while ago trying to understand recursive generators. I'm unsettled by its similarity to the one nightcracker posted though. –  senderle Jul 13 '11 at 13:12
Mine looks exactly the same, except when checking for an iterable I use hasattr(el, '__iter__'). The rest is practically identical. Anyone spending 15 minutes on this will come to more or less the same solution. –  pi. Jul 13 '11 at 13:32

I have tried solution below and it works:

``````data = [1,2,[3,4,[5,6,7,[8]]],[9],10]

while any(isinstance(x, list) for x in data):
tmpLst = []
for x in data:
if isinstance(x, list):
tmpLst.extend(x)
else:
tmpLst.append(x)
data = tmpLst
``````
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Why make a copy of `tmpLst` at the end of the loop? –  kindall Jul 13 '11 at 15:13
@kindall - i am modifying initial list in order to have ability to leave while loop. –  Artsiom Rudzenka Jul 13 '11 at 15:25
yes, but it seems to me that `data = tmpLst` would work fine, without using the slice/copy, since `tmpLst` is already a copy of the original list. –  kindall Jul 13 '11 at 15:47
Have tried it and yes - seems that you are right(i simply use it with [:] in order to not get an error with shallow/deep copy). –  Artsiom Rudzenka Jul 13 '11 at 15:54

Another approach ..

``````def flatten(old, new):
for i in old:
flatten(i, new) if isinstance(i, list) else new.append(i)
return new

if __name__ == '__main__':
l1 = [1, 2, [3, 4, [5, 6, 7, [8]]], [9], 10]
l2 = list()
l3 = flatten(l1, l2)
print l3
``````

Simplified so you don't have to supply and empty list to the flatten argument list ..

``````def rec_flatten(old, new=list()):
for i in old:
rec_flatten(i, new) if isinstance(i, list) else new.append(i)
return new

if __name__ == '__main__':
l1 = [1, 2, [3, 4, [5, 6, 7, [8]]], [9], 10]
x = rec_flatten(l1)
print x
``````
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Your second version will accumulate multiple lists; try calling it a few times in a single script. –  kindall Jul 14 '11 at 4:26