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I know that the topic of flattening a nested list has been covered in great detail before, however I think my task is a bit different and I couldn't find any info.

I am writing a scraper, and as output I get a nested list. The top level list elements are supposed to become rows for data in spreadsheet form. However, since the nested lists are often of different lengths, I need to expand them before flattening the list.

Here's an example. I have

   [ [ "id1", [["x", "y", "z"], [1, 2]],    ["a", "b", "c"]],
     [ "id2", [["x", "y", "z"], [1, 2, 3]], ["a", "b"]],
     [ "id3", [["x", "y"],      [1, 2, 3]], ["a", "b", "c", ""]] ]

The output I ultimately want is

   [[ "id1", "x", "y",  z, 1, 2, "", "a", "b", "c", ""],
    [ "id2", "x", "y",  z, 1, 2,  3, "a", "b",  "", ""],
    [ "id3", "x", "y", "", 1, 2,  3, "a", "b", "c", ""]]

However, an intermediate list like this

   [ [ "id1", [["x", "y", "z"], [1, 2, ""]], ["a", "b", "c", ""]],
     [ "id2", [["x", "y", "z"], [1, 2,  3]], ["a", "b",  "", ""]],
     [ "id3", [["x", "y",  ""], [1, 2,  3]], ["a", "b", "c", ""]] ]

which I can then simply flatten would also be fine.

The top-level list elements (rows) are built in every iteration, and appended to the full list. I guess it is easier to transform the full list at the end?

The structure in which elements are nested should be the same, however I cannot be certain of it at this point. I guess I have a problem if the structure where to look like this.

   [ [ "id1", [[x, y, z], [1, 2]],             ["a", "b", "c"]],
     [ "id2", [[x, y, z], [1, 2, 3]], ["bla"], ["a", "b"]],
     [ "id3", [[x, y],    [1, 2, 3]],          ["a", "b", "c", ""]] ]

which should become

   [[ "id1", x, y,  z, 1, 2, "",    "", "a", "b", "c", ""],
    [ "id2", x, y,  z, 1, 2,  3, "bla", "a", "b",  "", ""],
    [ "id3", x, y, "", 1, 2,  3,    "", "a", "b", "c", ""]]

Thanks for any comments, and please excuse if this is trivial, I am rather new to Python.

share|improve this question
Please clarify how would you like blanks to be represented, since [x, y, , 1, 2, 3, "a", "b", "c", ""] doesn't look as a valid Python list - you have to put something after y and before 1. Would you like it to be None? But that would conflict with a "" that you used as a blank at the end of the list... – Ihor Kaharlichenko Aug 16 '12 at 9:44
It is also unclear what are x, y and z. Are they some kind of constants or variables that were defined beforehand? – Ihor Kaharlichenko Aug 16 '12 at 9:45
Edited it for clarification. Some of the items in the lists are already blanks, and it is perfectly fine to expand the list with blanks. I build the list from elements/lists extracted from the pages. – ilprincipe Aug 16 '12 at 9:55
How would you deal with your last example? I mean the 2nd row in the data set has 4 elements while the rest have only 3. Should the rest of the rows be padded from the right with blanks? – Ihor Kaharlichenko Aug 16 '12 at 10:02
Extended the question again. In that case blanks should be inserted, so that the result appears as shown. I aligned the corresponding lists/columns. – ilprincipe Aug 16 '12 at 10:10

3 Answers 3

up vote 6 down vote accepted

I've got a simple solution for the "same structure" case, using a recursive generator and the izip_longest function from itertools. This code is for Python 2, but with a few tweaks (noted in comments) it can be made to work on Python 3:

from itertools import izip_longest # in py3, this is renamed zip_longest

def flatten(nested_list):
    return zip(*_flattengen(nested_list)) # in py3, wrap this in list()

def _flattengen(iterable):
    for element in izip_longest(*iterable, fillvalue=""):
        if isinstance(element[0], list):
            for e in _flattengen(element):
                yield e
            yield element

In Python 3.3 it will become even simpler, thanks to PEP 380 which will allow the recursive step, for e in _flatengen(element): yield e, to become yield from _flattengen(element).

share|improve this answer
This is an elegant and flexible solution, and a great place to use recursion effectively. – Dale Bustad Aug 20 '12 at 16:52
I am testing this at the moment, and it seems to work. I have identified most of the cases where the structure deviates and will take care of them beforehand. – ilprincipe Aug 22 '12 at 11:01
def recursive_pad(l, spacer=""):
    # Make the function never modify it's arguments.
    l = list(l)

    is_list = lambda x: isinstance(x, list)
    are_subelements_lists = map(is_list, l)
    if not any(are_subelements_lists):
        return l

    # Would catch [[], [], "42"]
    if not all(are_subelements_lists) and any(are_subelements_lists):
        raise Exception("Cannot mix lists and non-lists!")

    lengths = map(len, l)
    if max(lengths) == min(lengths):
        #We're already done
        return l
    # Pad it out
    map(lambda x: list_pad(x, spacer, max(lengths)), l)
    return l

def list_pad(l, spacer, pad_to):
    for i in range(len(l), pad_to):

if __name__ == "__main__":
    print(recursive_pad([[[[["x", "y", "z"], [1, 2]], ["a", "b", "c"]], [[[x, y, z], [1, 2, 3]], ["a", "b"]], [[["x", "y"], [1, 2, 3]], ["a", "b", "c", ""]] ]))

Edit: Actually, I misread your question. This code solve a slightly different problem

share|improve this answer
There's a typo: lengths = map(len(l)) should probably be lengths = map(len, l) – sloth Aug 16 '12 at 10:41
@BigYellowCactus, Thanks, fixed! – Nick ODell Aug 16 '12 at 10:42
If I understand it correctly, this should extend the list to a common length? However, when I run it, it does not actually change anything. – ilprincipe Aug 16 '12 at 11:56

Actually there is no the solution for generic case where the structure is not the same. For example a normal algorithm would match ["bla"] with ["a", "b", "c"], and the result will be

 [  [ "id1", x, y,  z, 1, 2, "",   "a", "b", "c", "",  "",  ""],
    [ "id2", x, y,  z, 1, 2,  3, "bla",  "",  "", "", "a", "b"],
    [ "id3", x, y, "", 1, 2,  3,   "a", "b", "c", "",  "",  ""]]

But if you know you will have a number of rows, each starting with an ID an followed by a nested list structure, the algorithm below should work:

import itertools

def normalize(l):
    # just hack the first item to have only lists of lists or lists of items
    for sublist in l:
        sublist[0] = [sublist[0]]

    # break the nesting
    def flatten(l):
        for item in l:
            if not isinstance(item, list) or 0 == len([x for x in item if isinstance(x, list)]):
                yield item
                for subitem in flatten(item):
                    yield subitem

    l = [list(flatten(i)) for i in l]

    # extend all lists to greatest length
    list_lengths = { }
    for i in range(0, len(l[0])):
        for item in l:
            list_lengths[i] = max(len(item[i]), list_lengths.get(i, 0))

    for i in range(0, len(l[0])):
        for item in l:
            item[i] += [''] * (list_lengths[i] - len(item[i]))

    # flatten each row
    return [list(itertools.chain(*sublist)) for sublist in l]

l = [ [ "id1", [["x", "y", "z"], [1, 2]],    ["a", "b", "c"]],
      [ "id2", [["x", "y", "z"], [1, 2, 3]], ["a", "b"]],
      [ "id3", [["x", "y"],      [1, 2, 3]], ["a", "b", "c", ""]] ]
l = normalize(l)
print l
share|improve this answer
thanks, this works as well. – ilprincipe Aug 22 '12 at 11:02

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