string.split() returns a list instance. Is there a version that returns a generator instead? Are there any reasons against having a generator version?

  • 3
    This question might be related. – Björn Pollex Oct 5 '10 at 8:51
  • 1
    The reason is that it's very hard to think of a case where it's useful. Why do you want this? – Glenn Maynard Oct 5 '10 at 9:02
  • 10
    @Glenn: Recently I saw a question about splitting a long string into chunks of n words. One of the solutions split the string and then returned a generator working on the result of split. That got me thinking if there was a way for split to return a generator to start with. – Manoj Govindan Oct 5 '10 at 9:07
  • 5
    There is a relevant discussion on the Python Issue tracker: – saffsd Apr 19 '13 at 1:51

14 Answers 14

up vote 51 down vote accepted

It is highly probable that re.finditer uses fairly minimal memory overhead.

def split_iter(string):
    return ( for x in re.finditer(r"[A-Za-z']+", string))


>>> list( split_iter("A programmer's RegEx test.") )
['A', "programmer's", 'RegEx', 'test']

edit: I have just confirmed that this takes constant memory in python 3.2.1, assuming my testing methodology was correct. I created a string of very large size (1GB or so), then iterated through the iterable with a for loop (NOT a list comprehension, which would have generated extra memory). This did not result in a noticeable growth of memory (that is, if there was a growth in memory, it was far far less than the 1GB string).

  • 2
    Excellent! I had forgotten about finditer. If one were interested in doing something like splitlines, I would suggest using this RE: '(.*\n|.+$)' str.splitlines chops off the trainling newline though (something that I don't really like...); if you wanted to replicated that part of the behavior, you could use grouping: ( or for m in re.finditer('((.*)\n|(.+)$)', s)). PS: I guess the outer paren in the RE are not needed; I just feel uneasy about using | without paren :P – allyourcode Feb 12 '15 at 17:54
  • 2
    What about performance? re matching should be slower that ordinary search. – anatoly techtonik Aug 10 '16 at 4:36
  • 1
    How would you rewrite this split_iter function to work like a_string.split("delimiter")? – Moberg Nov 14 '16 at 12:46
  • split accepts regular expressions anyway so it's not really faster, if you want to use the returned value in a prev next fashion, look at my answer at the bottom... – Veltzer Doron Dec 18 '17 at 14:35
  • str.split() does not accept regular expressions, that's re.split() you're thinking of... – alexis Mar 31 at 13:43

The most efficient way I can think of it to write one using the offset parameter of the str.find() method. This avoids lots of memory use, and relying on the overhead of a regexp when it's not needed.

[edit 2016-8-2: updated this to optionally support regex separators]

def isplit(source, sep=None, regex=False):
    generator version of str.split()

    :param source:
        source string (unicode or bytes)

    :param sep:
        separator to split on.

    :param regex:
        if True, will treat sep as regular expression.

        generator yielding elements of string.
    if sep is None:
        # mimic default python behavior
        source = source.strip()
        sep = "\\s+"
        if isinstance(source, bytes):
            sep = sep.encode("ascii")
        regex = True
    if regex:
        # version using re.finditer()
        if not hasattr(sep, "finditer"):
            sep = re.compile(sep)
        start = 0
        for m in sep.finditer(source):
            idx = m.start()
            assert idx >= start
            yield source[start:idx]
            start = m.end()
        yield source[start:]
        # version using str.find(), less overhead than re.finditer()
        sepsize = len(sep)
        start = 0
        while True:
            idx = source.find(sep, start)
            if idx == -1:
                yield source[start:]
            yield source[start:idx]
            start = idx + sepsize

This can be used like you want...

>>> print list(isplit("abcb","b"))

While there is a little bit of cost seeking within the string each time find() or slicing is performed, this should be minimal since strings are represented as continguous arrays in memory.

This is generator version of split() implemented via that does not have the problem of allocating too many substrings.

import re

def itersplit(s, sep=None):
    exp = re.compile(r'\s+' if sep is None else re.escape(sep))
    pos = 0
    while True:
        m =, pos)
        if not m:
            if pos < len(s) or sep is not None:
                yield s[pos:]
        if pos < m.start() or sep is not None:
            yield s[pos:m.start()]
        pos = m.end()

sample1 = "Good evening, world!"
sample2 = " Good evening, world! "
sample3 = "brackets][all][][over][here"
sample4 = "][brackets][all][][over][here]["

assert list(itersplit(sample1)) == sample1.split()
assert list(itersplit(sample2)) == sample2.split()
assert list(itersplit(sample3, '][')) == sample3.split('][')
assert list(itersplit(sample4, '][')) == sample4.split('][')

EDIT: Corrected handling of surrounding whitespace if no separator chars are given.

  • 8
    why is this any better than re.finditer? – Erik Allik Oct 15 '13 at 0:34

Here is my implementation, which is much, much faster and more complete than the other answers here. It has 4 separate subfunctions for different cases.

I'll just copy the docstring of the main str_split function:

str_split(s, *delims, empty=None)

Split the string s by the rest of the arguments, possibly omitting empty parts (empty keyword argument is responsible for that). This is a generator function.

When only one delimiter is supplied, the string is simply split by it. empty is then True by default.

str_split('[]aaa[][]bb[c', '[]')
    -> '', 'aaa', '', 'bb[c'
str_split('[]aaa[][]bb[c', '[]', empty=False)
    -> 'aaa', 'bb[c'

When multiple delimiters are supplied, the string is split by longest possible sequences of those delimiters by default, or, if empty is set to True, empty strings between the delimiters are also included. Note that the delimiters in this case may only be single characters.

str_split('aaa, bb : c;', ' ', ',', ':', ';')
    -> 'aaa', 'bb', 'c'
str_split('aaa, bb : c;', *' ,:;', empty=True)
    -> 'aaa', '', 'bb', '', '', 'c', ''

When no delimiters are supplied, string.whitespace is used, so the effect is the same as str.split(), except this function is a generator.

str_split('aaa\\t  bb c \\n')
    -> 'aaa', 'bb', 'c'

import string

def _str_split_chars(s, delims):
    "Split the string `s` by characters contained in `delims`, including the \
    empty parts between two consecutive delimiters"
    start = 0
    for i, c in enumerate(s):
        if c in delims:
            yield s[start:i]
            start = i+1
    yield s[start:]

def _str_split_chars_ne(s, delims):
    "Split the string `s` by longest possible sequences of characters \
    contained in `delims`"
    start = 0
    in_s = False
    for i, c in enumerate(s):
        if c in delims:
            if in_s:
                yield s[start:i]
                in_s = False
            if not in_s:
                in_s = True
                start = i
    if in_s:
        yield s[start:]

def _str_split_word(s, delim):
    "Split the string `s` by the string `delim`"
    dlen = len(delim)
    start = 0
        while True:
            i = s.index(delim, start)
            yield s[start:i]
            start = i+dlen
    except ValueError:
    yield s[start:]

def _str_split_word_ne(s, delim):
    "Split the string `s` by the string `delim`, not including empty parts \
    between two consecutive delimiters"
    dlen = len(delim)
    start = 0
        while True:
            i = s.index(delim, start)
            if start!=i:
                yield s[start:i]
            start = i+dlen
    except ValueError:
    if start<len(s):
        yield s[start:]

def str_split(s, *delims, empty=None):
Split the string `s` by the rest of the arguments, possibly omitting
empty parts (`empty` keyword argument is responsible for that).
This is a generator function.

When only one delimiter is supplied, the string is simply split by it.
`empty` is then `True` by default.
    str_split('[]aaa[][]bb[c', '[]')
        -> '', 'aaa', '', 'bb[c'
    str_split('[]aaa[][]bb[c', '[]', empty=False)
        -> 'aaa', 'bb[c'

When multiple delimiters are supplied, the string is split by longest
possible sequences of those delimiters by default, or, if `empty` is set to
`True`, empty strings between the delimiters are also included. Note that
the delimiters in this case may only be single characters.
    str_split('aaa, bb : c;', ' ', ',', ':', ';')
        -> 'aaa', 'bb', 'c'
    str_split('aaa, bb : c;', *' ,:;', empty=True)
        -> 'aaa', '', 'bb', '', '', 'c', ''

When no delimiters are supplied, `string.whitespace` is used, so the effect
is the same as `str.split()`, except this function is a generator.
    str_split('aaa\\t  bb c \\n')
        -> 'aaa', 'bb', 'c'
    if len(delims)==1:
        f = _str_split_word if empty is None or empty else _str_split_word_ne
        return f(s, delims[0])
    if len(delims)==0:
        delims = string.whitespace
    delims = set(delims) if len(delims)>=4 else ''.join(delims)
    if any(len(d)>1 for d in delims):
        raise ValueError("Only 1-character multiple delimiters are supported")
    f = _str_split_chars if empty else _str_split_chars_ne
    return f(s, delims)

This function works in Python 3, and an easy, though quite ugly, fix can be applied to make it work in both 2 and 3 versions. The first lines of the function should be changed to:

def str_split(s, *delims, **kwargs):
    empty = kwargs.get('empty')

Did some performance testing on the various methods proposed (I won't repeat them here). Some results:

  • str.split (default = 0.3461570239996945
  • manual search (by character) (one of Dave Webb's answer's) = 0.8260340550004912
  • re.finditer (ninjagecko's answer) = 0.698872097000276
  • str.find (one of Eli Collins's answers) = 0.7230395330007013
  • itertools.takewhile (Ignacio Vazquez-Abrams's answer) = 2.023023967998597
  • str.split(..., maxsplit=1) recursion = N/A†

†The recursion answers (string.split with maxsplit = 1) fail to complete in a reasonable time, given string.splits speed they may work better on shorter strings, but then I can't see the use-case for short strings where memory isn't an issue anyway.

Tested using timeit on:

the_text = "100 " * 9999 + "100"

def test_function( method ):
    def fn( ):
        total = 0

        for x in method( the_text ):
            total += int( x )

        return total

    return fn

This raises another question as to why string.split is so much faster despite its memory usage.

No, but it should be easy enough to write one using itertools.takewhile().


Very simple, half-broken implementation:

import itertools
import string

def isplitwords(s):
  i = iter(s)
  while True:
    r = []
    for c in itertools.takewhile(lambda x: not x in string.whitespace, i):
      if r:
        yield ''.join(r)
        raise StopIteration()
  • @Ignacio: The example in docs uses a list of integers to illustrate the use of takeWhile. What would be a good predicate for splitting a string into words (default split) using takeWhile()? – Manoj Govindan Oct 5 '10 at 8:36
  • Look for presence in string.whitespace. – Ignacio Vazquez-Abrams Oct 5 '10 at 8:37
  • The separator can have multiple characters, 'abc<def<>ghi<><>lmn'.split('<>') == ['abc<def', 'ghi', '', 'lmn'] – kennytm Oct 5 '10 at 8:42
  • @Ignacio: Can you add an example to your answer? – Manoj Govindan Oct 5 '10 at 8:43
  • 1
    Easy to write, but many orders of magnitude slower. This is an operation that really should be implemented in native code. – Glenn Maynard Oct 5 '10 at 8:43

I don't see any obvious benefit to a generator version of split(). The generator object is going to have to contain the whole string to iterate over so you're not going to save any memory by having a generator.

If you wanted to write one it would be fairly easy though:

import string

def gsplit(s,sep=string.whitespace):
    word = []

    for c in s:
        if c in sep:
            if word:
                yield "".join(word)
                word = []

    if word:
        yield "".join(word)
  • 3
    You'd halve the memory used, by not having to store a second copy of the string in each resulting part, plus the array and object overhead (which is typically more than the strings themselves). That generally doesn't matter, though (if you're splitting strings so large that this matters, you're probably doing something wrong), and even a native C generator implementation would always be significantly slower than doing it all at once. – Glenn Maynard Oct 5 '10 at 8:58
  • @Glenn Maynard - I just realised that. I for some reason I originally the generator would store a copy of the string rather than a reference. A quick check with id() put me right. And obviously as strings are immutable you don't need to worry about someone changing the original string while you're iterating over it. – Dave Webb Oct 5 '10 at 9:02
  • 5
    Isn't the main point in using a generator not the memory usage, but that you could save yourself having to split the whole string if you wanted to exit early? (That's not a comment on your particular solution, I was just surprised by the discussion about memory). – Scott Griffiths Oct 5 '10 at 16:15
  • @Scott: It's hard to think of a case where that's really a win--where 1: you want to stop splitting partway through, 2: you don't know how many words you're splitting in advance, 3: you have a large enough string for it to matter, and 4: you consistently stop early enough for it to be a significant win over str.split. That's a very narrow set of conditions. – Glenn Maynard Oct 5 '10 at 20:35
  • 4
    You can have much higher benefit if your string is lazily generated as well (e.g. from network traffic or file reads) – Lie Ryan Feb 22 '11 at 10:53

I wrote a version of @ninjagecko's answer that behaves more like string.split (i.e. whitespace delimited by default and you can specify a delimiter).

def isplit(string, delimiter = None):
    """Like string.split but returns an iterator (lazy)

    Multiple character delimters are not handled.

    if delimiter is None:
        # Whitespace delimited by default
        delim = r"\s"

    elif len(delimiter) != 1:
        raise ValueError("Can only handle single character delimiters",

        # Escape, incase it's "\", "*" etc.
        delim = re.escape(delimiter)

    return ( for x in re.finditer(r"[^{}]+".format(delim), string))

Here are the tests I used (in both python 3 and python 2):

# Wrapper to make it a list
def helper(*args,  **kwargs):
    return list(isplit(*args, **kwargs))

# Normal delimiters
assert helper("1,2,3", ",") == ["1", "2", "3"]
assert helper("1;2;3,", ";") == ["1", "2", "3,"]
assert helper("1;2 ;3,  ", ";") == ["1", "2 ", "3,  "]

# Whitespace
assert helper("1 2 3") == ["1", "2", "3"]
assert helper("1\t2\t3") == ["1", "2", "3"]
assert helper("1\t2 \t3") == ["1", "2", "3"]
assert helper("1\n2\n3") == ["1", "2", "3"]

# Surrounding whitespace dropped
assert helper(" 1 2  3  ") == ["1", "2", "3"]

# Regex special characters
assert helper(r"1\2\3", "\\") == ["1", "2", "3"]
assert helper(r"1*2*3", "*") == ["1", "2", "3"]

# No multi-char delimiters allowed
    helper(r"1,.2,.3", ",.")
    assert False
except ValueError:

python's regex module says that it does "the right thing" for unicode whitespace, but I haven't actually tested it.

Also available as a gist.

If you would also like to be able to read an iterator (as well as return one) try this:

import itertools as it

def iter_split(string, sep=None):
    sep = sep or ' '
    groups = it.groupby(string, lambda s: s != sep)
    return (''.join(g) for k, g in groups if k)


>>> list(iter_split(iter("Good evening, world!")))
['Good', 'evening,', 'world!']

more_itertools.spit_at offers an analog to str.split for iterators.

>>> import more_itertools as mit

>>> list(mit.split_at("abcdcba", lambda x: x == "b"))
[['a'], ['c', 'd', 'c'], ['a']]

>>> "abcdcba".split("b")
['a', 'cdc', 'a']

more_itertools is a third-party package.

def split_generator(f,s):
    f is a string, s is the substring we split on.
    This produces a generator rather than a possibly
    memory intensive list. 
    while j<len(f):
        if i>=len(f):
            yield f[j:]
        elif f[i] != s:
            yield [f[j:i]]
  • why do you yield [f[j:i]]and not f[j:i]? – Moberg Dec 18 '14 at 14:25

I wanted to show how to use the find_iter solution to return a generator for given delimiters and then use the pairwise recipe from itertools to build a previous next iteration which will get the actual words as in the original split method.

from more_itertools import pairwise
import re

string = "dasdha hasud hasuid hsuia dhsuai dhasiu dhaui d"
delimiter = " "
# split according to the given delimiter including segments beginning at the beginning and ending at the end
for prev, curr in pairwise(re.finditer("^|[{0}]+|$".format(delimiter), string)):
    print(string[prev.end(): curr.start()])


  1. I use prev & curr instead of prev & next because overriding next in python is a very bad idea
  2. This is quite efficient

Need is for me, at least, with files used as generators.

This is version I did in preparation to some huge files with empty line separated blocks of text (this would need to be thoroughly tested for corner cases in case you would use it in production system):

from __future__ import print_function

def isplit(iterable, sep=None):
    r = ''
    for c in iterable:
        r += c
        if sep is None:
            if not c.strip():
                r = r[:-1]
                if r:
                    yield r
                    r = ''                    
        elif r.endswith(sep):
            yield r
            r = ''
    if r:
        yield r

def read_blocks(filename):
    """read a file as a sequence of blocks separated by empty line"""
    with open(filename) as ifh:
        for block in isplit(ifh, '\n\n'):
            yield block.splitlines()           

if __name__ == "__main__":
    for lineno, block in enumerate(read_blocks("logfile.txt"), 1):

    print('Testing skip with None.')
    for word in isplit('\tTony   \t  Jarkko \n  Veijalainen\n'):

You can build one easily using str.split itself with a limit:

def isplit(s, sep=None):
    while s:
        parts = s.split(sep, 1)
        if len(parts) == 2:
            s = parts[1]
            s = ''
        yield parts[0]

This way, you don't have to replicate strip()'s functionality and behaviour (e.g. when sep=None) and it depends on its possibly fast native implementation. I assume that string.split will stop scanning the string for separators once it has enough 'parts'.

As Glenn Maynard points out, this scales poorly for large strings (O(n^2)). I've confirmed this through 'timit' tests.

  • 3
    This is O(n^2), making it catastrophically slow when the string has a lot of words, eg. "abcd " * 1000000. (I explained this already to someone else who gave the same solution--he deleted the answer, so now I get to repeat myself...) – Glenn Maynard Oct 5 '10 at 11:30
  • @Glenn: while it's a pity that such a clear code doesn't have good complexity, I'd think that for strings of typical length it would do just fine. What is the length of strings you're usually splitting? – SilentGhost Oct 5 '10 at 12:03
  • 1
    Also, you could improve performance and code by using partition (which doesn't allow for None separator): while s: a, _, s = s.partition(sep);yield a – SilentGhost Oct 5 '10 at 12:12
  • 1
    @SilentGhost: While I'm not sure what real-world use this has to begin with, it's even harder to think of a practical use for this if you're not dealing with very large strings. – Glenn Maynard Oct 5 '10 at 20:39

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.