612

How do I split a string every nth character?

'1234567890'   →   ['12', '34', '56', '78', '90']

For the same question with a list, see How do I split a list into equally-sized chunks?.

0

20 Answers 20

791
>>> line = '1234567890'
>>> n = 2
>>> [line[i:i+n] for i in range(0, len(line), n)]
['12', '34', '56', '78', '90']
5
  • 1
    @TrevorRudolph It only does exactly what you tell it. The above answer is really only just a for loop but expressed pythonically. Also, if you need to remember a "simplistic" answer, there are at least hundreds of thousands of ways to remember them: starring the page on stackoverflow; copying and then pasting into an email; keeping a "helpful" file with stuff you want to remember; simply using a modern search engine whenever you need something; using bookmarks in (probably) every web browser; etc.
    – dylnmc
    Nov 2, 2014 at 4:03
  • It is easier to understand but it has the downside that you must reference 'line' twice.
    – Damien
    Jan 5, 2016 at 14:33
  • 4
    Great for breaking up long lines for printing, e.g. for i in range(0, len(string), n): print(string[i:i+n])
    – PatrickT
    Aug 6, 2021 at 6:12
  • 2
    for any noobs like me who don't get list comprehensions, the following may be easier to understand, in place of the last line: substrings = [] for i in range(0, len(line), n): substring = line[i:i+n] substrings.append(substring)
    – ArduinoBen
    May 15, 2023 at 4:11
  • is there a way to do this while retaining line breaks? I'm trying to use this on a multiline string, it eats \ns and replaces them with spaces when I join them together
    – prout
    Sep 19, 2023 at 10:50
350

Just to be complete, you can do this with a regex:

>>> import re
>>> re.findall('..','1234567890')
['12', '34', '56', '78', '90']

For odd number of chars you can do this:

>>> import re
>>> re.findall('..?', '123456789')
['12', '34', '56', '78', '9']

You can also do the following, to simplify the regex for longer chunks:

>>> import re
>>> re.findall('.{1,2}', '123456789')
['12', '34', '56', '78', '9']

And you can use re.finditer if the string is long to generate chunk by chunk.

5
  • 18
    This is by far the best answer here and deserves to be on top. One could even write '.'*n to make it more clear. No joining, no zipping, no loops, no list comprehension; just find the next two characters next to each other, which is exactly how a human brain thinks about it. If Monty Python were still alive, he'd love this method! Dec 12, 2018 at 1:27
  • 2
    This is the fastest method for reasonably long strings too: gitlab.com/snippets/1908857 Oct 30, 2019 at 16:03
  • 10
    This won't work if the string contains newlines. This needs flags=re.S.
    – Aran-Fey
    Nov 14, 2019 at 17:17
  • 1
    Yeah this is not a good answer. Regexes have so many gotchas (as Aran-Fey found!) that you should use them very sparingly. You definitely don't need them here. They're only faster because they're implemented in C and Python is crazy slow.
    – Timmmm
    Mar 22, 2022 at 15:17
  • This is fast but more_itertools.sliced seems more efficient.
    – FifthAxiom
    Jun 1, 2022 at 4:42
298

There is already an inbuilt function in Python for this.

>>> from textwrap import wrap
>>> s = '1234567890'
>>> wrap(s, 2)
['12', '34', '56', '78', '90']

This is what the docstring for wrap says:

>>> help(wrap)
'''
Help on function wrap in module textwrap:

wrap(text, width=70, **kwargs)
    Wrap a single paragraph of text, returning a list of wrapped lines.

    Reformat the single paragraph in 'text' so it fits in lines of no
    more than 'width' columns, and return a list of wrapped lines.  By
    default, tabs in 'text' are expanded with string.expandtabs(), and
    all other whitespace characters (including newline) are converted to
    space.  See TextWrapper class for available keyword args to customize
    wrapping behaviour.
'''
9
  • 5
    print(wrap('12345678', 3)) splits the string into groups of 3 digits, but starts in front and not behind. Result: ['123', '456', '78'] May 20, 2019 at 19:20
  • 6
    It is interesting to learn about 'wrap' yet it is not doing exactly what was asked above. It is more oriented towards displaying text, rather than splitting a string to a fixed number of characters.
    – Oren
    Jun 5, 2019 at 15:21
  • 16
    wrap may not return what is asked for if the string contains space. e.g. wrap('0 1 2 3 4 5', 2) returns ['0', '1', '2', '3', '4', '5'] (the elements are stripped)
    – satomacoto
    Jun 20, 2019 at 9:22
  • 3
    This indeed answers the question, but what happens if there's spaces and you want them maintained in the split characters? wrap() removes spaces if they fall straight after a split group of characters Jul 5, 2019 at 18:56
  • 2
    This works poorly if you want to split text with hyphens (the number you give as argument is actually the MAXIMUM number of characters, not exact one, and it breaks i.e. on hyphens and white spaces). Aug 6, 2019 at 14:11
102

Another common way of grouping elements into n-length groups:

>>> s = '1234567890'
>>> map(''.join, zip(*[iter(s)]*2))
['12', '34', '56', '78', '90']

This method comes straight from the docs for zip().

6
  • 2
    In [19]: a = "hello world"; list( map( "".join, zip(*[iter(a)]*4) ) ) get the result ['hell', 'o wo']. Apr 18, 2013 at 15:54
  • 21
    If someone finds zip(*[iter(s)]*2) tricky to understand, read How does zip(*[iter(s)]*n) work in Python?. Jan 11, 2014 at 14:49
  • 19
    This does not account for an odd number of chars, it'll simply drop those chars: >>> map(''.join, zip(*[iter('01234567')]*5)) -> ['01234']
    – Bjorn
    Sep 15, 2014 at 19:39
  • 4
    To also handle odd number of chars just replace zip() with itertools.zip_longest(): map(''.join, zip_longest(*[iter(s)]*2, fillvalue='')) Jun 8, 2017 at 7:44
  • Also useful: docs for maps()
    – winklerrr
    Apr 23, 2019 at 11:17
77

I think this is shorter and more readable than the itertools version:

def split_by_n(seq, n):
    '''A generator to divide a sequence into chunks of n units.'''
    while seq:
        yield seq[:n]
        seq = seq[n:]

print(list(split_by_n('1234567890', 2)))
2
  • 9
    but not really efficient: when applied to strings: too many copies
    – Eric
    Aug 27, 2015 at 21:17
  • 1
    It also doesn't work if seq is a generator, which is what the itertools version is for. Not that OP asked for that, but it's not fair to criticize itertool's version not being as simple.
    – mikenerone
    Jun 28, 2017 at 20:47
44

Using more-itertools from PyPI:

>>> from more_itertools import sliced
>>> list(sliced('1234567890', 2))
['12', '34', '56', '78', '90']
36

I like this solution:

s = '1234567890'
o = []
while s:
    o.append(s[:2])
    s = s[2:]
1
  • for loops are faster in python especially if you are iterating many times Apr 22, 2023 at 9:45
19

You could use the grouper() recipe from itertools:

Python 2.x:

from itertools import izip_longest    

def grouper(iterable, n, fillvalue=None):
    "Collect data into fixed-length chunks or blocks"
    # grouper('ABCDEFG', 3, 'x') --> ABC DEF Gxx
    args = [iter(iterable)] * n
    return izip_longest(fillvalue=fillvalue, *args)

Python 3.x:

from itertools import zip_longest

def grouper(iterable, n, *, incomplete='fill', fillvalue=None):
    "Collect data into non-overlapping fixed-length chunks or blocks"
    # grouper('ABCDEFG', 3, fillvalue='x') --> ABC DEF Gxx
    # grouper('ABCDEFG', 3, incomplete='strict') --> ABC DEF ValueError
    # grouper('ABCDEFG', 3, incomplete='ignore') --> ABC DEF
    args = [iter(iterable)] * n
    if incomplete == 'fill':
        return zip_longest(*args, fillvalue=fillvalue)
    if incomplete == 'strict':
        return zip(*args, strict=True)
    if incomplete == 'ignore':
        return zip(*args)
    else:
        raise ValueError('Expected fill, strict, or ignore')

These functions are memory-efficient and work with any iterables.

2
  • Throwing an overflow when using very large strings (len=2**22*40)
    – FifthAxiom
    Jun 1, 2022 at 4:36
  • @FifthAxiom What version of Python and what kind of overflow are you talking about? Mar 16, 2023 at 6:55
18

This can be achieved by a simple for loop.

a = '1234567890a'
result = []

for i in range(0, len(a), 2):
    result.append(a[i : i + 2])
print(result)

The output looks like ['12', '34', '56', '78', '90', 'a']

3
  • 4
    While this code may answer the question, providing additional context regarding why and/or how this code answers the question improves its long-term value. May 22, 2020 at 18:41
  • 4
    This is the same solution as here: stackoverflow.com/a/59091507/7851470
    – Georgy
    May 22, 2020 at 20:23
  • 1
    This is the same solution as the top voted answer - except for the fact that the top answer is using list comprehension. Dec 7, 2020 at 4:54
15

I was stuck in the same scenario.

This worked for me:

x = "1234567890"
n = 2
my_list = []
for i in range(0, len(x), n):
    my_list.append(x[i:i+n])
print(my_list)

Output:

['12', '34', '56', '78', '90']
0
12

Try this:

s = '1234567890'
print([s[idx:idx+2] for idx in range(len(s)) if idx % 2 == 0])

Output:

['12', '34', '56', '78', '90']
1
  • 1
    why enumerate(s) if you're going to ignore the val? just do for i in range(len(s)); why iterate over every value only to throw away half of them? just skip the values you don't need: for i in range(0, len(s), 2) (and skip the if part) Mar 28, 2023 at 15:54
8

Try the following code:

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))

s = '1234567890'
print list(split_every(2, list(s)))
1
  • Your answer doesn't meet OP's requirement, you have to use yield ''.join(piece) to make it work as expected: eval.in/813878 Jun 8, 2017 at 8:15
7

As always, for those who love one liners:

n = 2  
line = "this is a line split into n characters"  
line = [line[i * n:i * n+n] for i, blah in enumerate(line[::n])]
4
  • When I run this in Python Fiddle with a print(line) I get this is a line split into n characters as the output. Might you be better putting: line = [line[i * n:i * n+n] for i,blah in enumerate(line[::n])]? Fix this and it's a good answer :). May 20, 2016 at 20:24
  • Can you explain the ,blah and why it's necessary? I notice I can replace blah with any alpha character/s, but not numbers, and can't remove the blah or/and the comma. My editor suggests adding whitespace after , :s Jul 17, 2017 at 20:11
  • enumerate returns two iterables, so you need two places to put them. But you don't actually need the second iterable for anything in this case.
    – Daniel F
    Jul 27, 2017 at 9:18
  • 1
    Rather than blah I prefer to use an underscore or double underscore, see: stackoverflow.com/questions/5893163/…
    – Andy Royal
    Aug 15, 2017 at 10:39
6
>>> from functools import reduce
>>> from operator import add
>>> from itertools import izip
>>> x = iter('1234567890')
>>> [reduce(add, tup) for tup in izip(x, x)]
['12', '34', '56', '78', '90']
>>> x = iter('1234567890')
>>> [reduce(add, tup) for tup in izip(x, x, x)]
['123', '456', '789']
0
4

A simple recursive solution for short string:

def split(s, n):
    if len(s) < n:
        return []
    else:
        return [s[:n]] + split(s[n:], n)

print(split('1234567890', 2))

Or in such a form:

def split(s, n):
    if len(s) < n:
        return []
    elif len(s) == n:
        return [s]
    else:
        return split(s[:n], n) + split(s[n:], n)

, which illustrates the typical divide and conquer pattern in recursive approach more explicitly (though practically it is not necessary to do it this way)

3

more_itertools.sliced has been mentioned before. Here are four more options from the more_itertools library:

s = "1234567890"

["".join(c) for c in mit.grouper(2, s)]

["".join(c) for c in mit.chunked(s, 2)]

["".join(c) for c in mit.windowed(s, 2, step=2)]

["".join(c) for c in  mit.split_after(s, lambda x: int(x) % 2 == 0)]

Each of the latter options produce the following output:

['12', '34', '56', '78', '90']

Documentation for discussed options: grouper, chunked, windowed, split_after

0
3

A solution with groupby:

from itertools import groupby, chain, repeat, cycle

text = "wwworldggggreattecchemggpwwwzaz"
n = 3
c = cycle(chain(repeat(0, n), repeat(1, n)))
res = ["".join(g) for _, g in groupby(text, lambda x: next(c))]
print(res)

Output:

['www', 'orl', 'dgg', 'ggr', 'eat', 'tec', 'che', 'mgg', 'pww', 'wza', 'z']
1

Another solution using groupby and index//n as the key to group the letters:

from itertools import groupby

text = "abcdefghij"
n = 3

result = []
for idx, chunk in groupby(text, key=lambda x: x.index//n):
    result.append("".join(chunk))

# result = ['abc', 'def', 'ghi', 'j']
0

These answers are all nice and working and all, but the syntax is so cryptic... Why not write a simple function?

def SplitEvery(string, length):
    if len(string) <= length: return [string]        
    sections = len(string) / length
    lines = []
    start = 0;
    for i in range(sections):
        line = string[start:start+length]
        lines.append(line)
        start += length
    return lines

And call it simply:

text = '1234567890'
lines = SplitEvery(text, 2)
print(lines)

# output: ['12', '34', '56', '78', '90']
1
  • 1
    You cannot pass a float to the range function, so the function you display wouldn't work. (Try running it if you don't believe me) Oct 3, 2022 at 10:15
0

A full write-up with updated solutions can be found here on Github.

NOTE: Solutions are written for Python3.10+

Using List Comprehension and Slicing: This is a simple and straightforward approach where we can use Python’s slicing feature to split the string into chunks of n characters. We can use list comprehension to iterate over the string with a step size of n and slice the string from the current index to the current index plus n.

def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters.

    This function uses list comprehension and slicing to split the string into groups.
    It includes error handling to check if `n` is a positive integer.

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        list[str]: A list of strings, where each string is a group of `n` consecutive characters from the input string.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Use list comprehension and slicing to split the string into groups of `n` characters.
    return [s[i:i + n] for i in range(0, len(s), n)]

Using the re (regex) Module: Python’s re module provides a function called findall(), which can be used to find all occurrences of a pattern in a string. We can use this function with a regular expression that matches any n characters to split the string into chunks of n characters.

import re

def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters.

    This function uses the `re.findall()` function from the `re` (regex) module to solve the problem.
    It includes error handling to check if `n` is a positive integer.

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        list[str]: A list of strings, where each string is a group of `n` consecutive characters from the input string.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Use `re.findall()` to split the string into groups of `n` characters.
    return re.findall(f'.{{1,{n}}}', s)

Using the textwrap Module: The textwrap module in Python provides a function called wrap(), which can be used to split a string into a list of output lines of specified width. We can use this function to split the string into chunks of n characters.

import textwrap

def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters.

    This function uses the `textwrap.wrap()` function from the `textwrap` module to solve the problem.
    It includes error handling to check if `n` is a positive integer.

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        List[str]: A list of strings, where each string is a group of `n` consecutive characters from the input string.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Use `textwrap.wrap()` to split the string into groups of `n` characters.
    return textwrap.wrap(s, n)

Using a Loop and String Concatenation: We can also solve this problem by manually looping over the string and concatenating n characters at a time to a new string. Once we have n characters, we can add the new string to a list and reset the new string to an empty string.

def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters.

    This function uses a loop and string concatenation to solve the problem.
    It includes error handling to check if `n` is a positive integer.

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        List[str]: A list of strings, where each string is a group of `n` consecutive characters from the input string.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Initialize an empty list to store the groups.
    result = []

    # Initialize an empty string to store the current group.
    group = ''

    # Iterate over each character in the string.
    for c in s:
        group += c  # Add the current character to the current group.

        # If the current group has `n` characters, add it to the result and reset the group.
        if len(group) == n:
            result.append(group)
            group = ''

    # If there are any remaining characters in the group, add it to the result.
    if group:
        result.append(group)

    return result

Using Generator Function: We can create a generator function that takes a string and a number n as input and yields chunks of n characters from the string. This approach is memory efficient as it doesn’t require storing all chunks in memory at once.

from typing import Generator


def split_string_into_groups(string: str, n: int) -> Generator[str, None, None]:
    """
    Generator function to split a string into groups of `n` consecutive characters.

    Args:
        string (str): The input string to be split.
        n (int): The size of the groups.

    Yields:
        str: The next group of `n` characters.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> list(split_string_into_groups("HelloWorld", 3))
        ['Hel', 'loW', 'orl', 'd']
        >>> list(split_string_into_groups("Python", 2))
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Iterate over the string with a step size of `n`.
    for i in range(0, len(string), n):
        # Yield the next group of `n` characters.
        yield string[i:i + n]

Using itertools: The itertools module in Python provides a function called islice(), which can be used to slice an iterable. We can use this function to split the string into chunks of n characters.

from itertools import islice
from typing import Iterator


def split_string_into_groups(s: str, n: int) -> Iterator[str]:
    """
    Splits a string into groups of `n` consecutive characters using itertools.islice().

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        Iterator[str]: An iterator that yields each group of `n` consecutive characters from the input string.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> list(split_string_into_groups("HelloWorld", 3))
        ['Hel', 'loW', 'orl', 'd']
        >>> list(split_string_into_groups("Python", 2))
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Create an iterator from the string.
    it = iter(s)

    # Use itertools.islice() to yield groups of `n` characters from the iterator.
    while True:
        group = ''.join(islice(it, n))

        if not group:
            break

        yield group

Using numpy: We can also use the numpy library to solve this problem. We can convert the string to a numpy array and then use the reshape() function to split the array into chunks of n characters.

import numpy as np


def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters using numpy.reshape().

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        List[str]: A list of strings where each string is a group of `n` consecutive characters.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Convert the string to a list of characters
    chars = list(s)

    # Add extra empty strings only if the length of `s` is not a multiple of `n`
    if len(s) % n != 0:
        chars += [''] * (n - len(s) % n)

    # Reshape the array into a 2D array with the number of groups as the number of rows and n as the number of columns
    arr = np.array(chars).reshape(-1, n)

    # Convert each row of the 2D array back to a string and add it to the result list
    result = [''.join(row).rstrip() for row in arr]

    return result

Using pandas: The pandas library in Python provides a function called groupby(), which can be used to split an array into bins. We can use this function to split the string into chunks of n characters.

import pandas as pd


def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a given string into groups of `n` consecutive characters.

    This function uses the pandas library to convert the string into a pandas Series,
    then uses the groupby method to group the characters into groups of `n` characters.
    The groups are then converted back to a list of strings.

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        list[str]: A list of strings, where each string is a group of `n` consecutive characters from the input string.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Convert the string to a pandas Series
    s = pd.Series(list(s))

    # Use pandas groupby to group the characters
    # The index of each character is divided by `n` using integer division,
    # which groups the characters into groups of `n` characters.
    groups = s.groupby(s.index // n).agg(''.join)

    # Convert the result back to a list and return it
    return groups.tolist()

Using more_itertools: The more_itertools library provides a function called chunked(), which can be used to split an iterable into chunks of a specified size. We can use this function to split the string into chunks of n characters.

import more_itertools


def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters using more_itertools.chunked().

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        List[str]: A list of strings where each string is a group of `n` consecutive characters.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Use more_itertools.chunked() to split the string into chunks of `n` characters.
    chunks = more_itertools.chunked(s, n)

    # Convert each chunk to a string and add it to the result list.
    result = [''.join(chunk) for chunk in chunks]

    return result

Using toolz: The toolz library provides a function called partition_all(), which can be used to split an iterable into chunks of a specified size. We can use this function to split the string into chunks of n characters.

import toolz


def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters using toolz.partition_all().

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        List[str]: A list of strings where each string is a group of `n` consecutive characters.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Use toolz.partition_all() to split the string into chunks of `n` characters.
    chunks = toolz.partition_all(n, s)

    # Convert each chunk to a string and add it to the result list.
    result = [''.join(chunk) for chunk in chunks]

    return result

Using cytoolz: The cytoolz library provides a function called partition_all(), which can be used to split an iterable into chunks of a specified size. We can use this function to split the string into chunks of n characters.

from cytoolz import partition_all


def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters using cytoolz.partition_all().

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        list[str]: A list of strings where each string is a group of `n` consecutive characters.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Use cytoolz.partition_all() to split the string into chunks of `n` characters.
    chunks = partition_all(n, s)

    # Convert each chunk to a string and add it to the result list.
    result = [''.join(chunk) for chunk in chunks]

    return result

Using itertools: The itertools library provides a function called zip_longest, which can be used to split an iterable into chunks of a specified size. We can use this function to split the string into chunks of n characters.

from itertools import zip_longest


def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters using itertools.zip_longest().

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        List[str]: A list of strings where each string is a group of `n` consecutive characters.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Use itertools.zip_longest() to split the string into chunks of `n` characters.
    args = [iter(s)] * n
    chunks = zip_longest(*args, fillvalue='')

    # Convert each chunk to a string and add it to the result list.
    result = [''.join(chunk) for chunk in chunks]

    return result

Using list + map + join + zip: We can also solve this problem using the list function, the map function, the join method, and the zip function. We can use the map function to iterate over the string with a step size of n and slice the string from the current index to the current index plus n. We can then use the zip function to combine the chunks into a list of tuples, and the join method to join the tuples into a list of strings.

def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters using list, map, join, and zip.

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        list[str]: A list of strings where each string is a group of `n` consecutive characters.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Use list, map, join, and zip to split the string into chunks of `n` characters.
    result = [''.join(chunk) for chunk in zip(*[iter(s)] * n)]

    # If the string length is not a multiple of `n`, add the remaining characters to the result.
    remainder = len(s) % n
    if remainder != 0:
        result.append(s[-remainder:])

    return result

Using Recursion with Slicing: We can also solve this problem using recursion and slicing. We can define a recursive function that takes a string and a number n as input and returns a list of chunks of n characters. The function can slice the string into chunks of n characters and call itself recursively with the remaining string until the string is empty.

def split_string_into_groups(s: str, n: int) -> list[str]:
    """
    Splits a string into groups of `n` consecutive characters using recursion with slicing.

    Args:
        s (str): The input string to be split.
        n (int): The size of the groups.

    Returns:
        list[str]: A list of strings where each string is a group of `n` consecutive characters.

    Raises:
        ValueError: If `n` is not a positive integer.

    Examples:
        >>> split_string_into_groups("HelloWorld", 3)
        ['Hel', 'loW', 'orl', 'd']
        >>> split_string_into_groups("Python", 2)
        ['Py', 'th', 'on']
    """
    # Check if `n` is a positive integer.
    if n <= 0:
        raise ValueError("The group size must be a positive integer")

    # Base case: if the length of the string is less than or equal to `n`, return a list containing `s`.
    if len(s) <= n:
        return [s]

    # Recursive case: split the string into two parts and recursively call `split_string_into_groups` on the rest of the string.
    return [s[:n]] + split_string_into_groups(s[n:], n)
2
  • 1
    did you really need to copy the same docstring examples section for every single one?
    – starball
    Mar 12 at 23:29
  • They just happened to be the same. Sometimes different solutions to the same problem require different examples as they work slightly differently. e.g. Some solutions might preserve order while others don't. As a learning tool it is helpful to have all documentation available at each location instead of saying hey for doc-tests see this solution over here. Also, the source code is built into a project as separate files. You likely wouldn't notice if looking at them all separately.
    – JerodG
    Mar 13 at 20:26

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