I'm trying to write the Haskel function 'splitEvery' in Python. Here is it's definition:

splitEvery :: Int -> [e] -> [[e]]
    @'splitEvery' n@ splits a list into length-n pieces.  The last
    piece will be shorter if @n@ does not evenly divide the length of
    the list.

The basic version of this works fine, but I want a version that works with generator expressions, lists, and iterators. And, if there is a generator as an input it should return a generator as an output!


# should not enter infinite loop with generators or lists
splitEvery(itertools.count(), 10)
splitEvery(range(1000), 10)

# last piece must be shorter if n does not evenly divide
assert splitEvery(5, range(9)) == [[0, 1, 2, 3, 4], [5, 6, 7, 8]]

# should give same correct results with generators
tmp = itertools.islice(itertools.count(), 10)
assert list(splitEvery(5, tmp)) == [[0, 1, 2, 3, 4], [5, 6, 7, 8]]

Current Implementation

Here is the code I currently have but it doesn't work with a simple list.

def splitEvery_1(n, iterable):
    res = list(itertools.islice(iterable, n))
    while len(res) != 0:
        yield res
        res = list(itertools.islice(iterable, n))

This one doesn't work with a generator expression (thanks to jellybean for fixing it):

def splitEvery_2(n, iterable): 
    return [iterable[i:i+n] for i in range(0, len(iterable), n)]

There has to be a simple piece of code that does the splitting. I know I could just have different functions but it seems like it should be and easy thing to do. I'm probably getting stuck on an unimportant problem but it's really bugging me.

It is similar to grouper from http://docs.python.org/library/itertools.html#itertools.groupby but I don't want it to fill extra values.

def grouper(n, iterable, fillvalue=None):
    "grouper(3, 'ABCDEFG', 'x') --> ABC DEF Gxx"
    args = [iter(iterable)] * n
    return izip_longest(fillvalue=fillvalue, *args)

It does mention a method that truncates the last value. This isn't what I want either.

The left-to-right evaluation order of the iterables is guaranteed. This makes possible an idiom for clustering a data series into n-length groups using izip(*[iter(s)]*n).

list(izip(*[iter(range(9))]*5)) == [[0, 1, 2, 3, 4]]
# should be [[0, 1, 2, 3, 4], [5, 6, 7, 8]]

13 Answers 13

up vote 40 down vote accepted
from itertools import islice

def split_every(n, iterable):
    i = iter(iterable)
    piece = list(islice(i, n))
    while piece:
        yield piece
        piece = list(islice(i, n))

Some tests:

>>> list(split_every(5, range(9)))
[[0, 1, 2, 3, 4], [5, 6, 7, 8]]

>>> list(split_every(3, (x**2 for x in range(20))))
[[0, 1, 4], [9, 16, 25], [36, 49, 64], [81, 100, 121], [144, 169, 196], [225, 256, 289], [324, 361]]

>>> [''.join(s) for s in split_every(6, 'Hello world')]
['Hello ', 'world']

>>> list(split_every(100, []))
  • 2
    See my answer for a stateless, one-liner version based on this one. – Elliot Cameron Apr 7 '14 at 17:39
  • check out my answer for an even simpler one-liner (python 3) and 2-liner in python 2 – acushner Dec 17 '16 at 15:27
  • Check out my one-liner solution that could also be inlined. – Andrey Cizov Jul 6 '17 at 16:20
  • +1 All "one-liners" in the comments above make an infinite loop if a sequence is passed, .e.g. range(), or they are not one-liners more if the problem has been fixed. This seems still the best answer. – hynekcer Oct 22 '17 at 14:17
  • A notable solution is Ashley Waite, important for huge n. She is the only who accepted the requirement: "if there is a generator as an input it should return a generator as an output!" – hynekcer Oct 22 '17 at 14:17

Here's a quick one-liner version. Like Haskell's, it is lazy.

from itertools import islice, takewhile, repeat
split_every = (lambda n, it:
    takewhile(bool, (list(islice(it, n)) for _ in repeat(None))))

This requires that you use iter before calling split_every.


list(split_every(5, iter(xrange(9))))
[[0, 1, 2, 3, 4], [5, 6, 7, 8]]

Although not a one-liner, the version below doesn't require that you call iter which can be a common pitfall.

from itertools import islice, takewhile, repeat

def split_every(n, iterable):
    Slice an iterable into chunks of n elements
    :type n: int
    :type iterable: Iterable
    :rtype: Iterator
    iterator = iter(iterable)
    return takewhile(bool, (list(islice(iterator, n)) for _ in repeat(None)))

(Thanks to @eli-korvigo for improvements.)

  • Hereby I give you the [Revival] badge! =p – justhalf May 2 '14 at 2:34
  • Why the use of a lambda instead of just def split_every(n, it): ? – cfh Apr 7 '17 at 8:29
  • The goal was to be a "one-liner" but I ended up putting it on two on SO to prevent scrolling. – Elliot Cameron Apr 8 '17 at 23:18
  • This makes an infinite loop with a sequence, e.g. with range()/xrange(). – hynekcer Oct 22 '17 at 12:57
  • @hynekcer I've uploaded an updated solution that doesn't – Eli Korvigo Jan 2 at 18:56

building off of the accepted answer and employing a lesser-known use of iter (that, when passed a second arg, it calls the first until it receives the second), you can do this really easily:


from itertools import islice

def split_every(n, iterable):
    iterable = iter(iterable)
    yield from iter(lambda: list(islice(iterable, n)), [])


def split_every(n, iterable):
    iterable = iter(iterable)
    for chunk in iter(lambda: list(islice(iterable, n)), []):
        yield chunk
  • It is not for a general iterable. It works on a generator, but makes an infinite loop on a sequence. – hynekcer Oct 22 '17 at 12:18
  • @hynekcer good call. edited it to make it not loop infinitely on non-generators. – acushner Oct 22 '17 at 13:40
  • 1
    OK. It is not easy to write a readable one-liner, but it's interesting usage of iter. – hynekcer Oct 22 '17 at 13:52

more_itertools has a chunked function:

import more_itertools as mit

list(mit.chunked(range(9), 5))
# [[0, 1, 2, 3, 4], [5, 6, 7, 8]]

A one-liner, inlineable solution to this (supports v2/v3, iterators, uses standard library and a single generator comprehension):

import itertools
def split_groups(iter_in, group_size):
     return ((x for _, x in item) for _, item in itertools.groupby(enumerate(iter_in), key=lambda x: x[0] // group_size))
  • This solution makes an infinite loop with a sequence, e.g. with range()/xrange(). – hynekcer Oct 22 '17 at 13:03

I think those questions are almost equal

Changing a little bit to crop the last, I think a good solution for the generator case would be:

from itertools import *
def iter_grouper(n, iterable):
    it = iter(iterable)
    item = itertools.islice(it, n)
    while item:
        yield item
        item = itertools.islice(it, n)

for the object that supports slices (lists, strings, tuples), we can do:

def slice_grouper(n, sequence):
   return [sequence[i:i+n] for i in range(0, len(sequence), n)]

now it's just a matter of dispatching the correct method:

def grouper(n, iter_or_seq):
    if hasattr(iter_or_seq, "__getslice__"):
        return slice_grouper(n, iter_or_seq)
    elif hasattr(iter_or_seq, "__iter__"):
        return iter_grouper(n, iter_or_seq)

I think you could polish it a little bit more :-)

  • It is similar, and I do still want the last chunk. I just want it to work with generators as well as lists. – James Brooks Dec 16 '09 at 15:37
  • oh, sorry, I misunderstood that part then... I'll fix it – fortran Dec 16 '09 at 15:39
  • I did think about this but I thought there had to be a simpler way than hasattr. Roberto Bonvallet posted it so he gets the answer. That said yours appears to work +1. – James Brooks Dec 16 '09 at 15:55

Why not do it like this? Looks almost like your splitEvery_2 function.

def splitEveryN(n, it):
    return [it[i:i+n] for i in range(0, len(it), n)]

Actually it only takes away the unnecessary step interval from the slice in your solution. :)

  • That was actually what I meant with my splitEvery_2 function. It doesn't work if you input a generator expression. I think I will probably just convert my generator to a list to make things simple, but the answer will still bug me. – James Brooks Dec 16 '09 at 15:11
  • Iterators don't support the len function, although a list or a tuple would. For example len(itertools.imap(lambda x:x*2, range(3))) will fail. – Cristian Ciupitu Aug 24 '10 at 16:18

This is an answer that works for both list and generator:

from itertools import count, groupby
def split_every(size, iterable):
    c = count()
    for k, g in groupby(iterable, lambda x: next(c)//size):
        yield list(g) # or yield g if you want to output a generator

I came across this as I'm trying to chop up batches too, but doing it on a generator from a stream, so most of the solutions here aren't applicable, or don't work in python 3.

For people still stumbling upon this, here's a general solution using itertools:

from itertools import islice, chain

def iter_in_slices(iterator, size=None):
    while True:
        slice_iter = islice(iterator, size)
        # If no first object this is how StopIteration is triggered
        peek = next(slice_iter)
        # Put the first object back and return slice
        yield chain([peek], slice_iter)
  • +1: This is really the best solution for huge n when the result should be an iterator of generators. It is required in the question and nobody except you accepted it: "if there is a generator as an input it should return a generator as an output!": – hynekcer Oct 22 '17 at 14:08

Here is how you deal with list vs iterator:

def isList(L): # Implement it somehow - returns True or false
return (list, lambda x:x)[int(islist(L))](result)
  • don't understand how that solves my problem sorry. – James Brooks Dec 16 '09 at 15:56
def chunks(iterable,n):
    """assumes n is an integer>0
    while True:
        for i in range(n):
            except StopIteration:
        if result:
            yield result

g1=(i*i for i in range(10))
print g2
'<generator object chunks at 0x0337B9B8>'
print list(g2)
'[[0, 1, 4], [9, 16, 25], [36, 49, 64], [81]]'

this will do the trick

from itertools import izip_longest
izip_longest(it[::2], it[1::2])

where *it* is some iterable


izip_longest('abcdef'[::2], 'abcdef'[1::2]) -> ('a', 'b'), ('c', 'd'), ('e', 'f')

Let's break this down

'abcdef'[::2] -> 'ace'
'abcdef'[1::2] -> 'bdf'

As you can see the last number in the slice is specifying the interval that will be used to pick up items. You can read more about using extended slices here.

The zip function takes the first item from the first iterable and combines it with the first item with the second iterable. The zip function then does the same thing for the second and third items until one of the iterables runs out of values.

The result is an iterator. If you want a list use the list() function on the result.

  • The OP was already aware of zip. But this doesn't work with generators and doesn't include the last element of odd-size iterables which the OP said he wanted. – DSM Jul 20 '12 at 3:19
  • 1
    Arbitrary iterables don't suport slicing (e.g.: xrange(10)[::2] is an error). – Roberto Bonvallet Apr 9 '14 at 15:27

If you want a solution that

  • uses generators only (no intermediate lists or tuples),
  • works for very long (or infinite) iterators,
  • works for very large batch sizes,

this does the trick:

def one_batch(first_value, iterator, batch_size):
    yield first_value
    for i in xrange(1, batch_size):
        yield iterator.next()

def batch_iterator(iterator, batch_size):
    iterator = iter(iterator)
    while True:
        first_value = iterator.next()  # Peek.
        yield one_batch(first_value, iterator, batch_size)

It works by peeking at the next value in the iterator and passing that as the first value to a generator (one_batch()) that will yield it, along with the rest of the batch.

The peek step will raise StopIteration exactly when the input iterator is exhausted and there are no more batches. Since this is the correct time to raise StopIteration in the batch_iterator() method, there is no need to catch the exception.

This will process lines from stdin in batches:

for input_batch in batch_iterator(sys.stdin, 10000):
    for line in input_batch:

I've found this useful for processing lots of data and uploading the results in batches to an external store.

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