I was wondering, if I had a string that was read from a text file, what would be the most efficient way of splitting it into groups of 5 characters? For example:

I have a text file called dna.txt, and its contents are:


I then have a Python script that will store the 2nd and 4th lines of the text file.

import linecache
f = open("dna.txt")
sequence_1 = linecache.getline('dna.txt', 2)
sequence_2 = linecache.getline('dna.txt', 4)

The goal is for the program to print out:


Like I said before, I've been trying to come up with an efficient way of breaking the 2 strings, but with no luck. Help would be much appreciated, thanks!

>>> mouse = 'ACCAAAAGTGTAT'
>>> import re
>>> def format_dna(s):
...     return re.sub(r'(.{5})(?!$)', r'\g<1>\n', s)
>>> print(format_dna(human))
>>> print(format_dna(mouse))

re.sub does regular expression replacements in the string.

(.{5})(?!$) is the pattern to match. \g<1>\n is the pattern to substitute.

.{5} matches any five characters. With parens (.{5}) it's a capture group.

$ matches the end of the string. (?!$) is a negative lookahead assertion. This prevents the pattern from matching the last group if the string's length is a multiple of five (which would result in adding an unwanted newline at the end of the string).

\g<1> is a backreference that refers to the first (and only) capture group.

So this says: When you see five characters in a row (that aren't the last five), replace them with the five characters, plus a newline.

  • All of the In [x]: parts result in the error: End of Statement Expected, and Statement expected, found Py:COLON – Muffinman Aug 7 '14 at 19:05
  • Reformatted it to look like a standard python prompt. – Chris Martin Aug 7 '14 at 19:06
  • It works, but could you explain the 5th line to me? Is that just purely for formatting? – Muffinman Aug 7 '14 at 19:09
  • Updated the answer to explain. – Chris Martin Aug 7 '14 at 19:56

This should get you started:

print(' '.join(human[i:i+5] for i in range(0, len(human), 5)))

It's easy to generalize this into a generator that takes human and 5 as arguments and yields the substrings:

def splitn(s, n):
    for i in range(0, len(s), n):
        yield s[i:i+n]

print(' '.join(splitn("ACCGTGAAAAACGTGAGTATA", 5)))
  • I'm using the latest version of Python 3, is that the proper format for it? Or is that for 2? – Muffinman Aug 7 '14 at 19:00
  • @Muffinman: The In[x]: and Out[x]: bits are IPython prompts: ipython.org. – NPE Aug 7 '14 at 19:01

Before using this, look at the other answers that were posted while I was writing this up. This is a simple, and very sub-optimal algorithm.

Not super efficient but you could do it with simple loop.

str = "abcdefghijlkmnopqrstuvwxyz"
length = len(str)
i = 0
subs = []
while (i < length):
    subs[i/5] = str[i:i+5]
    i += 5

This should end up with each index of subs containing five characters grouped.

  • subs[i/5] = str[i:i+5] TypeError: list indices must be integers, not float – Muffinman Aug 7 '14 at 19:06
  • @Muffinman sorry, cast it to int. I/5 should always give you an int (0/5,5/5,10/5,etc) – David Aug 7 '14 at 19:09
  • @David not in python3 ... you need 3//5 for an int – Joran Beasley Aug 7 '14 at 19:18
  • @PadraicCunningham I know. It was simply an example. – David Aug 7 '14 at 19:40

You can do this fairly easily with a generator expression or a list comprehension in older versions of Python. For any string s and index i within the string the expression s[i:i+5] will evaluate to a substring of s of maximum length 5 starting at position i.

If i+5 happens to point past the end of the string the slicing notation conveniently suppresses any index errors and just returns the longest string it can.

So the expression

[sequence_1[i:i+5] for i in range((0, len(sequence_1), 5)]

should give you a list of the substrings you need.

>>> def groupdna(long_seq,size=5):
...     groups = itertools.izip_longest(*[iter(long_seq)]*size,fillvalue="")
...     return list(map("".join,groups))
>>> groupdna(human,5)
>>> groupdna(mouse,5)

is a fun way to do it :P

  • meh I just changed it to use izip_longest instead ... and broke it out into slightly more bytesize chunks – Joran Beasley Aug 7 '14 at 20:39
  • Yep tha will work except it is zip_longest in python 3 – Padraic Cunningham Aug 7 '14 at 20:49
In [1]: import re


In [3]: print("\n".join(re.findall("\w{5}|\w+",s))) 

re.findall("\w{5}|\w+",s) finds 5 chars together or one or more chars together.

Some timings:

In [72]: %timeit "\n".join(groupdna(s,5))
100000 loops, best of 3: 3.5 µs per loop

In [73]: timeit ('\n'.join(splitn(s, 5)))
100000 loops, best of 3: 2.22 µs per loop

In [74]: %timeit re.sub(r'(.{5})(?!$)', r'\g<1>\n', s)
100000 loops, best of 3: 5.24 µs per loop

In [75]: %timeit ("\n".join(re.findall("\w{5}|\w+",s)))
100000 loops, best of 3: 2.16 µs per loop

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