example_strings = ["10.43 KB", "11 GB", "343.1 MB"]

I want to convert all this strings into bytes. So far I came up with this:

def parseSize(size):
    if size.endswith(" B"):
        size = int(size.rstrip(" B"))
    elif size.endswith(" KB"):
        size = float(size.rstrip(" KB")) * 1000
    elif size.endswith(" MB"):
        size = float(size.rstrip(" MB")) * 1000000
    elif size.endswith(" GB"):
        size = float(size.rstrip(" GB")) * 10000000000
    elif size.endswith(" TB"):
        size = float(size.rstrip(" TB")) * 10000000000000
    return int(size)

But I don't like it and also I don't think it works. I could find only modules that do the opposite thing.


7 Answers 7


Here's a slightly prettier version. There's probably no module for this, just define the function inline. It's very small and readable.

units = {"B": 1, "KB": 10**3, "MB": 10**6, "GB": 10**9, "TB": 10**12}

# Alternative unit definitions, notably used by Windows:
# units = {"B": 1, "KB": 2**10, "MB": 2**20, "GB": 2**30, "TB": 2**40}

def parse_size(size):
    number, unit = [string.strip() for string in size.split()]
    return int(float(number)*units[unit])

example_strings = ["10.43 KB", "11 GB", "343.1 MB"]

for example_string in example_strings:


(Note that different places use slightly different conventions for the definitions of KB, MB, etc -- either using powers of 10**3 = 1000 or powers of 2**10 = 1024. If your context is Windows, you will want to use the latter. If your context is Mac OS, you will want to use the former.)

  • 3
    Curious not to use 1024 as the multiplier here and in the question itself.
    – mlissner
    Commented Jul 9, 2018 at 19:08
  • @mlissner Not really, as K means 1000 and a KB is technically 1000 bytes (and so on for the other prefixes). 1024 is often used instead in practice, but technically that would be a KiB, a Kibibyte.
    – Denziloe
    Commented Jul 10, 2018 at 0:59
  • 4
    I suppose. Still, if any system said something was 5kb, I'd assume it meant kibibyte. Anyway, hopefully this discussion helps somebody someday. That was all I was really after!
    – mlissner
    Commented Jul 10, 2018 at 5:20
  • I'm primarily looking to sort the damn things in a meaningful way and this works for that :) Commented Nov 20, 2020 at 15:12
  • Let's not confuse/mislead others and stick with 2^n bit depth (1024 for KB, etc). Most devs don't know the difference between kibi/kilo, mega/medi, etc. Commented Dec 21, 2021 at 0:06

To answer the OPs question, there does seem to be a module for this, humanfriendly:

pip install humanfriendly


>>> import humanfriendly
>>> user_input = raw_input("Enter a readable file size: ")
Enter a readable file size: 16G
>>> num_bytes = humanfriendly.parse_size(user_input)
>>> print num_bytes
>>> print "You entered:", humanfriendly.format_size(num_bytes)
You entered: 16 GB
>>> print "You entered:", humanfriendly.format_size(num_bytes, binary=True)
You entered: 14.9 GiB

I liked Denziloe's answer compared to everything else that came up in google, but it

  • required spaces between the number and units
  • didn't handle lower case units
  • assumed a kb was 1000 instead of 1024, etc. (Kudos to mlissner for trying to point that out years ago. Maybe our assumptions are too old school, but I don't see most software catching up to the new assumptions either.)

So I tweaked it into this:

import re

# based on https://stackoverflow.com/a/42865957/2002471
units = {"B": 1, "KB": 2**10, "MB": 2**20, "GB": 2**30, "TB": 2**40}

def parse_size(size):
    size = size.upper()
    #print("parsing size ", size)
    if not re.match(r' ', size):
        size = re.sub(r'([KMGT]?B)', r' \1', size)
    number, unit = [string.strip() for string in size.split()]
    return int(float(number)*units[unit])

example_strings = ["1024b", "10.43 KB", "11 GB", "343.1 MB", "10.43KB", "11GB", "343.1MB", "10.43 kb", "11 gb", "343.1 mb", "10.43kb", "11gb", "343.1mb"]

for example_string in example_strings:
        print(example_string, parse_size(example_string))

which we can verify by checking the output:

$ python humansize.py 
('1024b', 1024)
('10.43 KB', 10680)
('11 GB', 11811160064)
('343.1 MB', 359766425)
('10.43KB', 10680)
('11GB', 11811160064)
('343.1MB', 359766425)
('10.43 kb', 10680)
('11 gb', 11811160064)
('343.1 mb', 359766425)
('10.43kb', 10680)
('11gb', 11811160064)
('343.1mb', 359766425)
  • 2
    đź’Ż for using 2^n bit depth. Commented Dec 21, 2021 at 0:07
  • Well, actually, a KB is 1000, not 1024. You are probably confusing it with a KiB. The reason why 1024 was used is because of how trivial it is for a computer to convert between units when using a multiplier that is an exponent of 2. Just shift the bits 10 bits to the left or the right, and you've converted between two adjacent prefixes. Commented Dec 13, 2022 at 10:39
  • KiB is a recent creation. For decades KB was 1024. Now there's differing opinions. I'm old school. The regex is not hard to adapt to suit your feelings on this.
    – chicks
    Commented Dec 13, 2022 at 15:29

Based on chicks answer, only use regular expression to parse the size and accept the size in integer.

UNITS = {None: 1, "B": 1, "KB": 2 ** 10, "MB": 2 ** 20, "GB": 2 ** 30, "TB": 2 ** 40}

def parse_human_size(size):
    >>> examples = [12345, "123214", "1024b", "10.43 KB", "11 GB", "343.1 MB", "10.43KB", "11GB", "343.1MB", "10.43 kb"]
    >>> for s in examples:
        print('[', s, ']', parse_human_size(s))
    if isinstance(size, int):
        return size
    m = re.match(r'^(\d+(?:\.\d+)?)\s*([KMGT]?B)?$', size.upper())
    if m:
        number, unit = m.groups()
        return int(float(number) * UNITS[unit])
    raise ValueError("Invalid human size")

Edit: I missed this other answer that points out another package, humanfriendly, for solving this problem, and this package is built for this kind of thing only (as opposed to my suggestion of poaching a utility function from a package built for entirely different purposes). So +1 that answer.

I ended up here because I wanted to avoid the dependency, but for those who don't mind it, you can find a utility that suits this well in dask.utils.parse_bytes.

import dask.utils
# supports good range of human-readable units
# and potential spelling variants

Anyway, here is the documentation and here is the source code. Dask is a framework for parallel computing in python, come for the fancy utils, stay for the concurrency :)

import re
def parse_size(size):
    units = {"B": 1, "KB": 2**10, "MB": 2**20, "GB": 2**30, "TB": 2**40 ,
             "":  1, "KIB": 10**3, "MIB": 10**6, "GIB": 10**9, "TIB": 10**12}
    m = re.match(r'^([\d\.]+)\s*([a-zA-Z]{0,3})$', str(size).strip())
    number, unit = float(m.group(1)), m.group(2).upper()
    return int(number*units[unit])

The code searches for the unit of measure that contains the string. once found. with another regular expression, extract the number. once done these two things. calculate the value to bytes. if the value is not specified, it tries to treat it as Bytes but the function returns 0 if not possible conversion.

def calculate(data):

    if len(result)>=1:
        number=re.findall(r'[-+]?\d*\.\d+|\d+', data)
        return int(number*convertion[result[0].upper()])
      number=re.findall(r'[-+]?\d*\.\d+|\d+', data)
      if len(number)>=1:
        return int(number*convertion["B"])
          return 0
  • Can you edit this answer and explain what the code does..?
    – chevybow
    Commented Aug 13, 2018 at 22:01

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