# Decompose list of lists into single list with non-iterable list elements

While the above mentioned solutions are helpful, my problem is slightly different, and I was wondering if there is a pythonic way to solve it.

``````a = [['a-3','b-3'],'r',['j']]
``````

What I would like, is a clean way of making 'a' equal the following:

``````a = ['a-3','b-3','r','j']
``````

I am stuck using python 2.4 so a pythonic solution that's 2.4 compatible would be great, but I would still find 2.7+ examples interesting as well.

The main problem is that there are non-iterable elements, otherwise the sum(lst,[]) works quite well, as does the chain method for 2.7+

-

Pythonic solution can mean many thing. With `readability counts` (PEP 20) in mind, this is my contribution to the thread:

``````def dec(input_, output_):
if type(input_) is list:
for subitem in input_:
dec(subitem, output_)
else:
output_.append(input_)
``````

Example:

``````input_ = [['a-3','b-3', ['x','hello', ['3','b']]],'r',['j']]
output_ = ['a-3', 'b-3', 'x', 'hello', '3', 'b', 'r', 'j']
``````
-

``````itertools.chain.from_iterable(map(lambda i: i if type(i) == list else [i], a))
``````

``````def assure_is_list(a):
return a if type(a) == list else [a]

itertools.chain.from_iterable(map(assure_is_list, a))
``````
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agreed, that works, and this will for versions prior to itertools availablility .. sum(map(lambda i: i if type(i) == list else [i],a),[]) .. though I'm not sure sum is intended to be used as a list decomposer .. I was hoping to avoid conditionals since they make things a bit messy looking s.a. sum(map(list,a),[]) .. I'm rather surprised str() and a few others can take a param but list can't – pyInTheSky Jun 27 '11 at 20:44
I would argue that this demonstrates good knowledge of the language but is not a really pythonic formulation (Readability counts, see my own answer). Cheers! :) – mac Jun 27 '11 at 21:01
@mac: Well, preference is hard to discuss. You prefer your way, I prefer mine :) If you create a function for `lambda`, with a nice name, say `assure_is_list`, it becomes very readable. – rafalotufo Jun 27 '11 at 21:06
Furthermore, I'd argue that this solution is much less prone to mistakes and errors. – rafalotufo Jun 27 '11 at 21:11
@rafalotufo - If you give a nice name to the lambda function then your one-liner would violate PEP 8! ;) [just kidding of course... your answer is totally correct and - above all - was chosen as the preferred one by the OP. I just couldn't resist! ;) ] – mac Jun 27 '11 at 21:13
``````def flatten(L):
if not L:
return L
elif type(L[0]) == type([]):
return flatten(L[0]) + flatten(L[1:])
else:
return [L[0]] + flatten(L[1:])
``````

Hope this helps

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Recursive flattening of any iterable types, except leaving strings alone (since you probably don't want to split those into characters):

``````def flatten(x):
try:
if isinstance(x, basestring): raise TypeError
y = iter(x)
except TypeError:
yield x
return
for item in y:
for subitem in flatten(item):
yield subitem
``````
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Think that you can also use something like this:

``````data = [['a-3','b-3', ['x','hello', ['3','b']]],'r',['j']]

while not all(not isinstance(x, list) for x in data):
for i in xrange(len(data)):
value = data.pop(i)
if isinstance(value, list):
data.extend(value)
else:
data.append(value)
``````
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