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Is the a short syntax for joining a list of lists into a single list( or iterator) in python?

For example I have a list as follows and I want to iterate over a,b and c.

x = [["a","b"], ["c"]]

The best I can come up with is as follows.

result = []
[ result.extend(el) for el in x] 

for el in result:
  print el
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16 Answers 16

up vote 196 down vote accepted
import itertools
a = [["a","b"], ["c"]]
print list(itertools.chain(*a))
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no need to list() it! for item in itertools.chain(*a): do somethign with item – hasen Apr 4 '09 at 8:42
A bit of explanation would also be nice. – hasen Apr 4 '09 at 8:43
Slightly better: list(itertools.chain.from_iterable(a)) – Neil G Jun 16 '11 at 22:45
result = []; map(result.extend, a) is ~30% faster than itertools.chain. But chain.from_iterable is a tiny bit faster than map+extend. [Python 2.7, x86_64] – temoto Jun 20 '11 at 2:23
This explains what's happening with the *a: (it sends the elements of a as arguments to chain, like removing the outer [ and ]). – Evgeni Sergeev Jan 9 '14 at 6:00

If you're only going one level deep, a nested comprehension will also work:

>>> x = [["a","b"], ["c"]]
>>> [inner
...     for outer in x
...         for inner in outer]
['a', 'b', 'c']

On one line, that becomes:

>>> [j for i in x for j in i]
['a', 'b', 'c']
share|improve this answer
Very cool, so for the next depth-level it will become [i for ll in x for l in ll for i in l] - at this point it starts getting a bit lame for the reader, but nevertheless cool :) – Cyrus Apr 10 '12 at 2:41
For three levels, it gets nasty: >>> x = [[["a", "b"], ["c"]], [["d"]]] >>> [k for i in x for j in i for k in j] ['a', 'b', 'c', 'd'] – George V. Reilly Apr 17 '12 at 23:02
x = [["a","b"], ["c"]]

result = sum(x, [])
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O(n^2) complexity yaaaaaay. – habnabit Sep 4 '10 at 5:57
@Aaron, explain for a noob python learner please: Is O(n^2) good or bad in this case? ;-) – Aufwind Jul 11 '11 at 16:31
O(n^2) here basically means that the time required for this function to execute is proportional to the square of the length of the inputs. So if you double the inputs, you quadruple the time required. This is a Bad Thing if you have large inputs, but for small ones it should be fine. But a faster method will be better. – andronikus Aug 29 '11 at 20:27
No, this is linear in the total number of items in all sublists combined, just like all other methods suggested on this page. – Julian Feb 26 '14 at 23:38
@Julian: You are wrong. Just time it, or see – Sven Marnach Feb 28 '14 at 16:00

This is known as flattening, and there are a LOT of implementations out there:

How about this, although it will only work for 1 level deep nesting:

>>> x = [["a","b"], ["c"]]
>>> for el in sum(x, []):
...     print el

From those links, apparently the most complete-fast-elegant-etc implementation is the following:

def flatten(l, ltypes=(list, tuple)):
    ltype = type(l)
    l = list(l)
    i = 0
    while i < len(l):
        while isinstance(l[i], ltypes):
            if not l[i]:
                i -= 1
                l[i:i + 1] = l[i]
        i += 1
    return ltype(l)
share|improve this answer
Ah, 'sum(L,I)' is shorthand for 'reduce(plus_operator, L, I)'. That's kinda cool. – Aaron Apr 4 '09 at 4:18
your "most complete-elegant-etc" is not "elegant" at all!! see the docs for itertools.chain to see true elegance! – hasen Apr 4 '09 at 9:04
@hasen j: I believe he means best for arbitrary nested lists. chain assumes a consistent, one-deep list of lists (which is probably all the question needs), but flatten handles things like [a,b,[c], [d,[e,f]],[[[g]]]]. – Brian Apr 4 '09 at 9:44
l = []
map(l.extend, list_of_lists)


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sum(listoflists,[]) # shorter! – recursive Jul 24 '10 at 1:18
@recursive Shorter but different functionally = much worse performance-wise, see comments on other variants for explanation – Kos Dec 11 '12 at 7:59
This tiny snippet appears to be the fastest way around for non-recursive flatten. Needs more upvotes. – Kos Dec 11 '12 at 8:34

This works recursively for infinitely nested elements:

def iterFlatten(root):
    if isinstance(root, (list, tuple)):
        for element in root:
            for e in iterFlatten(element):
                yield e
        yield root


>>> b = [["a", ("b", "c")], "d"]
>>> list(iterFlatten(b))
['a', 'b', 'c', 'd']
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>>> a = [] >>> a.append(a) >>> b = iterFlatten(a) >>> next(b) RuntimeError: maximum recursion depth exceeded in __instancecheck__ :) – Darthfett Mar 22 '12 at 16:39
@Darthfett would you expect a meaningful result for flattening an "infinitely-nested list"? :-) – Kos Dec 11 '12 at 7:46
@Kos A version that checks for such cases (by using a stack/set to check for self-references in a list) could be preferable than simply continuing to flatten until reaching the recursion depth limit. This could bypass the issue by simply giving the value, instead of trying to flatten it. – Darthfett Dec 11 '12 at 22:28

Late to the party but ...

I'm new to python and come from a lisp background. This is what I came up with (check out the var names for lulz):

def flatten(lst):
    if lst:
        if isinstance(car,(list,tuple)):
            if cdr: return flatten(car) + flatten(cdr)
            return flatten(car)
        if cdr: return [car] + flatten(cdr)
        return [car]

Seems to work. Test:



[1, 2, 3, 4, 5, 6, 7, 8, 1, 2]
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You come from a lisp background? I never would have guessed from the code... haha – Tom Nov 17 '11 at 16:20
Nice, been doing Python for some time now and I haven't seen var-arg tuple unpacking like you did with car, *cdr. (e-> probably because it's Python 3 and I'm still digging 2 for some reason :-)) – Kos Dec 11 '12 at 7:52

What you're describing is known as flattening a list, and with this new knowledge you'll be able to find many solutions to this on Google (there is no built-in flatten method). Here is one of them, from

def flatten(x):
    flat = True
    ans = []
    for i in x:
        if ( i.__class__ is list):
            ans = flatten(i)
    return ans
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There's always reduce (being deprecated to functools):

>>> x = [ [ 'a', 'b'], ['c'] ]
>>> for el in reduce(lambda a,b: a+b, x, []):
...  print el
__main__:1: DeprecationWarning: reduce() not supported in 3.x; use functools.reduce()
>>> import functools
>>> for el in functools.reduce(lambda a,b: a+b, x, []):
...   print el

Unfortunately the plus operator for list concatenation can't be used as a function -- or fortunate, if you prefer lambdas to be ugly for improved visibility.

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GAH, I cannot believe they are deprecating it to functools. Anyway, you don't need the extra empty list, this will work just fine: reduce(lambda a,b: a+b, x) – Benson Apr 4 '09 at 6:23
Versions of the operators are defined as functions in the operator module, which are faster and less ugly than the lambda: "functools.reduce(operator.add, [[1,2,3],[4,5]],[])". Alternatively, just use sum() – Brian Apr 4 '09 at 9:40
Personally, I think the lambda way is quite pretty. :-) – Benson Apr 16 '09 at 1:58
If you want to do a reduce, then reduce over extend not add to avoid spamming the memory with temporary lists. Wrap extend with a function that extends then returns the list itself. – Kos Dec 11 '12 at 7:58

Or a recursive operation:

def flatten(input):
    ret = []
    if not isinstance(input, (list, tuple)):
        return [input]
    for i in input:
        if isinstance(i, (list, tuple)):
    return ret
share|improve this answer

Sadly, Python doesn't have a simple way to flatten lists. Try this:

def flatten(some_list):
    for element in some_list:
        if type(element) in (tuple, list):
            for item in flatten(element):
                yield item
            yield element

Which will recursively flatten a list; you can then do

result = []
[ result.extend(el) for el in x] 

for el in flatten(result):
      print el
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I had a similar problem when I had to create a dictionary that contained the elements of an array and their count. The answer is relevant because, I flatten a list of lists, get the elements I need and then do a group and count. I used Python's map function to produce a tuple of element and it's count and groupby over the array. Note that the groupby takes the array element itself as the keyfunc. As a relatively new Python coder, I find it to me more easier to comprehend, while being Pythonic as well.

Before I discuss the code, here is a sample of data I had to flatten first:

{ "_id" : ObjectId("4fe3a90783157d765d000011"), "status" : [ "opencalais" ],
  "content_length" : 688, "open_calais_extract" : { "entities" : [
  {"type" :"Person","name" : "Iman Samdura","rel_score" : 0.223 }, 
  {"type" : "Company",  "name" : "Associated Press",    "rel_score" : 0.321 },          
  {"type" : "Country",  "name" : "Indonesia",   "rel_score" : 0.321 }, ... ]},
  "title" : "Indonesia Police Arrest Bali Bomb Planner", "time" : "06:42  ET",         
  "filename" : "021121bn.01", "month" : "November", "utctime" : 1037836800,
  "date" : "November 21, 2002", "news_type" : "bn", "day" : "21" }

It is a query result from Mongo. The code below flattens a collection of such lists.

def flatten_list(items):
  return sorted([entity['name'] for entity in [entities for sublist in  
   [item['open_calais_extract']['entities'] for item in items] 
   for entities in sublist])

First, I would extract all the "entities" collection, and then for each entities collection, iterate over the dictionary and extract the name attribute.

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For one-level flatten, if you care about speed, this is faster than any of the previous answers under all conditions I tried. (That is, if you need the result as a list. If you only need to iterate through it on the fly then the chain example is probably better.) It works by pre-allocating a list of the final size and copying the parts in by slice (which is a lower-level block copy than any of the iterator methods):

def join(a):
    """Joins a sequence of sequences into a single sequence.  (One-level flattening.)
    E.g., join([(1,2,3), [4, 5], [6, (7, 8, 9), 10]]) = [1,2,3,4,5,6,(7,8,9),10]
    This is very efficient, especially when the subsequences are long.
    n = sum([len(b) for b in a])
    l = [None]*n
    i = 0
    for b in a:
        j = i+len(b)
        l[i:j] = b
        i = j
    return l

Sorted times list with comments:

[(0.5391559600830078, 'flatten4b'), # join() above. 
(0.5400412082672119, 'flatten4c'), # Same, with sum(len(b) for b in a) 
(0.5419249534606934, 'flatten4a'), # Similar, using zip() 
(0.7351131439208984, 'flatten1b'), # list(itertools.chain.from_iterable(a)) 
(0.7472689151763916, 'flatten1'), # list(itertools.chain(*a)) 
(1.5468521118164062, 'flatten3'), # [i for j in a for i in j] 
(26.696547985076904, 'flatten2')] # sum(a, [])
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Can you add timings to confirm that this is faster than the other methods presented? – esmit Jun 27 '12 at 22:46
Sorted times list with comments: [(0.5391559600830078, 'flatten4b'), # join() above. (0.5400412082672119, 'flatten4c'), # Same, with sum(len(b) for b in a) (0.5419249534606934, 'flatten4a'), # Similar, using zip() (0.7351131439208984, 'flatten1b'), # list(itertools.chain.from_iterable(a)) (0.7472689151763916, 'flatten1'), # list(itertools.chain(*a)) (1.5468521118164062, 'flatten3'), # [i for j in a for i in j] (26.696547985076904, 'flatten2')] # sum(a, []) – Brandyn Jun 28 '12 at 9:09
You skipped map(result.extend, a) – Kos Dec 11 '12 at 8:00
There's a benchmark – Kos Dec 11 '12 at 8:35
@Kos, you are right! I'm lame. I probably omitted it originally because it "obviously" has bad O() time due to multiple copies, but now that I add it to my test, in practice it looks like it is successfully using realloc() to avoid this, and so it is winning hands down under all conditions. I remain skeptical, though, that it might revert to horrible behavior in a real working environment with fragmented memory. In a simple test app like this, with a clean slate of memory, it is free to keep extending the array without moving it. Thoughts? – Brandyn Dec 11 '12 at 20:10

A performance comparison:

import itertools
import timeit
big_list = [[0]*1000 for i in range(1000)]
timeit.repeat(lambda: list(itertools.chain.from_iterable(big_list)), number=100)
timeit.repeat(lambda: list(itertools.chain(*big_list)), number=100)
timeit.repeat(lambda: (lambda b: map(b.extend, big_list))([]), number=100)
timeit.repeat(lambda: [el for list_ in big_list for el in list_], number=100)
[100*x for x in timeit.repeat(lambda: sum(big_list, []), number=1)]


>>> import itertools
>>> import timeit
>>> big_list = [[0]*1000 for i in range(1000)]
>>> timeit.repeat(lambda: list(itertools.chain.from_iterable(big_list)), number=100)
[3.016212113769325, 3.0148865239060227, 3.0126415732791028]
>>> timeit.repeat(lambda: list(itertools.chain(*big_list)), number=100)
[3.019953987082083, 3.528754223385439, 3.02181439266457]
>>> timeit.repeat(lambda: (lambda b: map(b.extend, big_list))([]), number=100)
[1.812084445152557, 1.7702404451095965, 1.7722977998725362]
>>> timeit.repeat(lambda: [el for list_ in big_list for el in list_], number=100)
[5.409658160700605, 5.477502077679354, 5.444318360412744]
>>> [100*x for x in timeit.repeat(lambda: sum(big_list, []), number=1)]
[399.27587954973444, 400.9240571138051, 403.7521153804846]

This is with Python 2.7.1 on Windows XP 32-bit, but @temoto in the comments above got from_iterable to be faster than map+extend, so it's quite platform and input dependent.

Stay away from sum(big_list, [])

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If you meant using "join":

print '\n'.join(map(str, listOfLists or listOfTuples))

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If you need a list, not a generator, use list():

from itertools import chain
x = [["a","b"], ["c"]]
y = list(chain(x))
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s/x/*x/ (or chain.from_iterable(x) preferably) – Kos Dec 12 '12 at 8:52
I do not understand what it does. join is supposed to have a separator. – Val Oct 4 '13 at 15:45
@Val chain makes a generator that will output 'a', 'b', 'c'. list converts it into a list. – culebrón Oct 4 '13 at 19:52

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