67

guys. I'm trying to find the most elegant solution to a problem and wondered if python has anything built-in for what I'm trying to do.

What I'm doing is this. I have a list, A, and I have a function f which takes an item and returns a list. I can use a list comprehension to convert everything in A like so;

[f(a) for a in A]

But this return a list of lists;

[a1,a2,a3] => [[b11,b12],[b21,b22],[b31,b32]]

What I really want is to get the flattened list;

[b11,b12,b21,b22,b31,b32]

Now, other languages have it; it's traditionally called flatmap in functional programming languages, and .Net calls it SelectMany. Does python have anything similar? Is there a neat way to map a function over a list and flatten the result?

The actual problem I'm trying to solve is this; starting with a list of directories, find all the subdirectories. so;

import os
dirs = ["c:\\usr", "c:\\temp"]
subs = [os.listdir(d) for d in dirs]
print subs

currentliy gives me a list-of-lists, but I really want a list.

13 Answers 13

100

You can have nested iterations in a single list comprehension:

[filename for path in dirs for filename in os.listdir(path)]
  • 52
    Although clever, that is hard to understand and not very readable. – Curtis Yallop Oct 20 '14 at 23:01
  • 2
    Doesn't really answer the question as asked. This is rather a workaround for not encountering the problem in the first place. What if you already have a list of lists. For example, what if your list of lists is a result of the multiprocessing module's map function? Perhaps the itertools solution or the reduce solution is best. – Dave31415 Jan 22 '15 at 3:43
  • 16
    Dave31415: [ item for list in listoflists for item in list ] – rampion Feb 6 '15 at 19:53
  • 8
    'readability' is a subjective judgment. I find this solution quite readable. – Reb.Cabin May 22 '15 at 23:13
  • 4
    I thought it was readable too, until I saw the order of the terms... :( – c z May 10 '17 at 15:14
66
>>> listOfLists = [[1, 2],[3, 4, 5], [6]]
>>> reduce(list.__add__, listOfLists)
[1, 2, 3, 4, 5, 6]

I'm guessing the itertools solution is more efficient than this, but this feel very pythonic and avoids having to import a library just for the sake of a single list operation.

  • 5
    This is definitely the best solution. – Connor Doyle Dec 1 '12 at 0:17
  • What should I import in order to call reduce, is it pandas, scipy or functools? – Sajjon Feb 7 at 14:57
  • 1
    In Python 2, it's a built-in. For Python3, the functools version is the same thing. – Julian Feb 8 at 23:14
50

You can find a good answer in itertools' recipes:

def flatten(listOfLists):
    return list(chain.from_iterable(listOfLists))

(Note: requires Python 2.6+)

24

The question proposed flatmap. Some implementations are proposed but they may unnecessary creating intermediate lists. Here is one implementation that's base on iterators.

def flatmap(func, *iterable):
    return itertools.chain.from_iterable(map(func, *iterable))

In [148]: list(flatmap(os.listdir, ['c:/mfg','c:/Intel']))
Out[148]: ['SPEC.pdf', 'W7ADD64EN006.cdr', 'W7ADD64EN006.pdf', 'ExtremeGraphics', 'Logs']

In Python 2.x, use itertools.map in place of map.

17

You could just do the straightforward:

subs = []
for d in dirs:
    subs.extend(os.listdir(d))
  • Yep, this is fine (though not quite as good as @Ants') so I'm giving it a +1 to honor its simplicity! – Alex Martelli Jul 3 '09 at 1:31
11

You can concatenate lists using the normal addition operator:

>>> [1, 2] + [3, 4]
[1, 2, 3, 4]

The built-in function sum will add the numbers in a sequence and can optionally start from a specific value:

>>> sum(xrange(10), 100)
145

Combine the above to flatten a list of lists:

>>> sum([[1, 2], [3, 4]], [])
[1, 2, 3, 4]

You can now define your flatmap:

>>> def flatmap(f, seq):
...   return sum([f(s) for s in seq], [])
... 
>>> flatmap(range, [1,2,3])
[0, 0, 1, 0, 1, 2]

Edit: I just saw the critique in the comments for another answer and I guess it is correct that Python will needlessly build and garbage collect lots of smaller lists with this solution. So the best thing that can be said about it is that it is very simple and concise if you're used to functional programming :-)

11
import itertools
x=[['b11','b12'],['b21','b22'],['b31']]
y=list(itertools.chain(*x))
print y

itertools will work from python2.3 and greater

8
subs = []
map(subs.extend, (os.listdir(d) for d in dirs))

(but Ants's answer is better; +1 for him)

  • Using reduce (or sum, which saves you many characters and an import;-) for this is just wrong -- you keep uselessly tossing away old lists to make a new one for each d. @Ants has the right answer (smart of @Steve to accept it!). – Alex Martelli Jul 3 '09 at 1:28
  • You can't say in general that this is a bad solution. It depends on whether performance is even an issue. Simple is better unless there is a reason to optimize. That's why the reduce method could be best for many problems. For example you have a slow function that produces a list of a few hundred objects. You want to speed it up by using multiprocessing 'map' function. So you create 4 processes and use reduce to flat map them. In this case the reduce function is fine and very readable. That said, it's good that you point out why this can be suboptimal. But it is not always suboptimal. – Dave31415 Jan 22 '15 at 3:48
4

You could try itertools.chain(), like this:

import itertools
import os
dirs = ["c:\\usr", "c:\\temp"]
subs = list(itertools.chain(*[os.listdir(d) for d in dirs]))
print subs

itertools.chain() returns an iterator, hence the passing to list().

3

Google brought me next solution:

def flatten(l):
   if isinstance(l,list):
      return sum(map(flatten,l))
   else:
      return l
  • 2
    Would be a little better if it handled generator expressions too, and would be a lot better if you explained how to use it... – ephemient Jul 3 '09 at 4:45
2

You can use pyxtension:

from pyxtension.streams import stream
stream([ [1,2,3], [4,5], [], [6] ]).flatMap() == range(7)
1
def flat_list(arr):
    send_back = []
    for i in arr:
        if type(i) == list:
            send_back += flat_list(i)
        else:
            send_back.append(i)
    return send_back
0
If listA=[list1,list2,list3]
flattened_list=reduce(lambda x,y:x+y,listA)

This will do.

  • This is a very inefficient solution if the sublists are large. The + operator between two lists is O(n+m) – juanpa.arrivillaga Apr 27 '17 at 23:42

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