I am using a library that reads a file and returns its size in bytes.

This file size is then displayed to the end user; to make it easier for them to understand it, I am explicitly converting the file size to MB by dividing it by 1024.0 * 1024.0. Of course this works, but I am wondering is there a better way to do this in Python?

By better, I mean perhaps a stdlib function that can manipulate sizes according to the type I want. Like if I specify MB, it automatically divides it by 1024.0 * 1024.0. Somethign on these lines.

  • 4
    So write one. Also note that many systems now use MB to mean 10^6 instead of 2^20. – tc. Mar 4 '11 at 13:08
  • 4
    @A A, @tc: Please keep in mind that the SI and IEC Norm is kB (Kilo) for 1.000 Byte and KiB (Kibi) for 1.024 Byte. See en.wikipedia.org/wiki/Kibibyte . – Bobby Mar 4 '11 at 13:12
  • 2
    @Bobby: kB actually means "kilobel", equal to 10000 dB. There is no SI unit for byte. IIRC, the IEC recommends KiB but does not define kB or KB. – tc. Mar 12 '11 at 4:41
  • 2
    @tc. The prefix kilo is defined by SI to mean 1000. The IEC defined kB, etc. to use the SI prefix instead of 2^10. – ford Feb 11 '13 at 23:03
  • 1
    I mean the prefixes are defined generally by SI, but the abbreviations for data size are not: physics.nist.gov/cuu/Units/prefixes.html. Those are defined by IEC: physics.nist.gov/cuu/Units/binary.html – ford Feb 19 '13 at 16:40

13 Answers 13


There is hurry.filesize that will take the size in bytes and make a nice string out if it.

>>> from hurry.filesize import size
>>> size(11000)
>>> size(198283722)

Or if you want 1K == 1000 (which is what most users assume):

>>> from hurry.filesize import size, si
>>> size(11000, system=si)
>>> size(198283722, system=si)

It has IEC support as well (but that wasn't documented):

>>> from hurry.filesize import size, iec
>>> size(11000, system=iec)
>>> size(198283722, system=iec)

Because it's written by the Awesome Martijn Faassen, the code is small, clear and extensible. Writing your own systems is dead easy.

Here is one:

mysystem = [
    (1024 ** 5, ' Megamanys'),
    (1024 ** 4, ' Lotses'),
    (1024 ** 3, ' Tons'), 
    (1024 ** 2, ' Heaps'), 
    (1024 ** 1, ' Bunches'),
    (1024 ** 0, ' Thingies'),

Used like so:

>>> from hurry.filesize import size
>>> size(11000, system=mysystem)
'10 Bunches'
>>> size(198283722, system=mysystem)
'189 Heaps'
  • Perfect! More than wanting to make it work for my case, I wanted to know it there was something like this. – user225312 Mar 4 '11 at 13:45
  • 1
    Hm, now I need one to go the other way. From "1 kb" to 1024 (an int). – mlissner Jul 9 '18 at 19:06
  • 1
    Works only in python 2 – e-info128 Feb 18 at 17:15
  • This package might be cool but the odd license and the fact that there is no online available source code make it something I'd be very happy to avoid. And also it seems to support python2 only. – Almog Cohen Apr 2 at 23:42
  • @AlmogCohen the source is online, available straight from PyPI (some packages do not have a Github repository, just a PyPI page) and the license is not that obscure, ZPL is the Zope Public License, which is, to the best of my knowledge, BSD-like. I do agree that the licensing itself is odd: there is no standard 'LICENSE.txt' file, nor is there a preamble at the top of each source file. – sleblanc yesterday

Here is what I use:

import math

def convert_size(size_bytes):
   if size_bytes == 0:
       return "0B"
   size_name = ("B", "KB", "MB", "GB", "TB", "PB", "EB", "ZB", "YB")
   i = int(math.floor(math.log(size_bytes, 1024)))
   p = math.pow(1024, i)
   s = round(size_bytes / p, 2)
   return "%s %s" % (s, size_name[i])

NB : size should be sent in Bytes.

  • 10
    If you're sending size in bytes then just add "B" as the first element of size_name. – tuxGurl Mar 25 '13 at 17:13
  • Awesome cheers! – matcheek May 6 '13 at 14:01
  • When you have 0 sized byte of file, it fails. log(0, 1024) is not defined! You should check 0 byte case before this statement i = int(math.floor(math.log(size,1024))). – genclik27 May 7 '14 at 13:57
  • genclik - you're right. I've just submitted a minor edit which will fix this, and enable conversion from bytes. Thanks, Sapam, for the original – FarmerGedden Aug 22 '14 at 9:37
  • 1
    does not work with bytes – e-info128 Jan 24 '16 at 22:57

Instead of a size divisor of 1024 * 1024 you could use the << bitwise shifting operator, i.e. 1<<20 to get megabytes, 1<<30 to get gigabytes, etc.

I defined a constant MBFACTOR = float(1<<20) which can then be used with bytes, i.e.: megas = size_in_bytes/MBFACTOR.

  • 6
    Is it not >>? – Tjorriemorrie Aug 8 '14 at 12:54
  • @Tjorriemorrie: it must be a left shift, right shifting will drop the only bit off and will result in 0. – ccpizza Apr 6 '18 at 13:47
  • Brilliant answer. Thank you. – Borislav Aymaliev Aug 8 '18 at 8:11
  • excellent answer ! – Romain Jouin Aug 14 '18 at 8:25
  • i know this is old, but would this be correct usage? def convert_to_mb(data_b): print(data_b/(1 << 20)) – roastbeeef Mar 27 at 12:25

Here is the compact function to calculate size

def GetHumanReadable(size,precision=2):
    suffixIndex = 0
    while size > 1024 and suffixIndex < 4:
        suffixIndex += 1 #increment the index of the suffix
        size = size/1024.0 #apply the division
    return "%.*f%s"%(precision,size,suffixes[suffixIndex])

For more detailed output and vice versa operation please refer: http://code.activestate.com/recipes/578019-bytes-to-human-human-to-bytes-converter/


Just in case anyone's searching for the reverse of this problem (as I sure did) here's what works for me:

def get_bytes(size, suffix):
    size = int(float(size))
    suffix = suffix.lower()

    if suffix == 'kb' or suffix == 'kib':
        return size << 10
    elif suffix == 'mb' or suffix == 'mib':
        return size << 20
    elif suffix == 'gb' or suffix == 'gib':
        return size << 30

    return False
  • You are not handling the case of decimal numbers like 1.5GB. To fix it just change the << 10 to * 1024, << 20 to * 1024**2 and << 30 to * 1024**3. – E235 Mar 13 at 16:02

See below for a quick and relatively easy-to-read way to print file sizes in a single line of code if you already know what you want. These one-liners combine the great answer by @ccpizza above with some handy formatting tricks I read here How to print number with commas as thousands separators?.


print ('{:,.0f}'.format(os.path.getsize(filepath))+" B")


print ('{:,.0f}'.format(os.path.getsize(filepath)/float(1<<7))+" kb")


print ('{:,.0f}'.format(os.path.getsize(filepath)/float(1<<10))+" KB")


print ('{:,.0f}'.format(os.path.getsize(filepath)/float(1<<17))+" mb")


print ('{:,.0f}'.format(os.path.getsize(filepath)/float(1<<20))+" MB")


print ('{:,.0f}'.format(os.path.getsize(filepath)/float(1<<27))+" gb")


print ('{:,.0f}'.format(os.path.getsize(filepath)/float(1<<30))+" GB")


print ('{:,.0f}'.format(os.path.getsize(filepath)/float(1<<40))+" TB")

Obviously they assume you know roughly what size you're going to be dealing with at the outset, which in my case (video editor at South West London TV) is MB and occasionally GB for video clips.

UPDATE USING PATHLIB In reply to Hildy's comment, here's my suggestion for a compact pair of functions (keeping things 'atomic' rather than merging them) using just the Python standard library:

from pathlib import Path    

def get_size(path = Path('.')):
    """ Gets file size, or total directory size """
    if path.is_file():
        size = path.stat().st_size
    elif path.is_dir():
        size = sum(file.stat().st_size for file in path.glob('*.*'))
    return size

def format_size(path, unit="MB"):
    """ Converts integers to common size units used in computing """
    bit_shift = {"B": 0,
            "kb": 7,
            "KB": 10,
            "mb": 17,
            "MB": 20,
            "gb": 27,
            "GB": 30,
            "TB": 40,}
    return "{:,.0f}".format(get_size(path) / float(1 << bit_shift[unit])) + " " + unit

# Tests and test results
>>> get_size("d:\\media\\bags of fun.avi")
'38 MB'
>>> get_size("d:\\media\\bags of fun.avi","KB")
'38,763 KB'
>>> get_size("d:\\media\\bags of fun.avi","kb")
'310,104 kb'
  • 1
    That's a pretty clever way to do that. I wonder if you could put these into a function where you pass in whether you want kb's. mb's and so-on. You could even have an input command that asks which one you want, which would be pretty convenient if you do this a lot. – Hildy Oct 7 '18 at 2:09
  • See above, Hildy... You can also customise the dictionary line like @lennart-regebro outlined above... which could be useful for storage management e.g. "Partition", "Cluster", "4TB Disks", "DVD_RW", "Blu-Ray Disk", "1GB memory sticks" or whatever. – Peter F Oct 7 '18 at 5:41
  • I've also just added Kb (Kilobit), Mb (Megabit), and Gb (Gigabit) - users often get those confused in terms of network or file-transfer speeds, so thought it might be handy. – Peter F Oct 7 '18 at 6:01

Here my two cents, which permits casting up and down, and adds customizable precision:

def convertFloatToDecimal(f=0.0, precision=2):
    Convert a float to string of decimal.
    precision: by default 2.
    If no arg provided, return "0.00".
    return ("%." + str(precision) + "f") % f

def formatFileSize(size, sizeIn, sizeOut, precision=0):
    Convert file size to a string representing its value in B, KB, MB and GB.
    The convention is based on sizeIn as original unit and sizeOut
    as final unit. 
    assert sizeIn.upper() in {"B", "KB", "MB", "GB"}, "sizeIn type error"
    assert sizeOut.upper() in {"B", "KB", "MB", "GB"}, "sizeOut type error"
    if sizeIn == "B":
        if sizeOut == "KB":
            return convertFloatToDecimal((size/1024.0), precision)
        elif sizeOut == "MB":
            return convertFloatToDecimal((size/1024.0**2), precision)
        elif sizeOut == "GB":
            return convertFloatToDecimal((size/1024.0**3), precision)
    elif sizeIn == "KB":
        if sizeOut == "B":
            return convertFloatToDecimal((size*1024.0), precision)
        elif sizeOut == "MB":
            return convertFloatToDecimal((size/1024.0), precision)
        elif sizeOut == "GB":
            return convertFloatToDecimal((size/1024.0**2), precision)
    elif sizeIn == "MB":
        if sizeOut == "B":
            return convertFloatToDecimal((size*1024.0**2), precision)
        elif sizeOut == "KB":
            return convertFloatToDecimal((size*1024.0), precision)
        elif sizeOut == "GB":
            return convertFloatToDecimal((size/1024.0), precision)
    elif sizeIn == "GB":
        if sizeOut == "B":
            return convertFloatToDecimal((size*1024.0**3), precision)
        elif sizeOut == "KB":
            return convertFloatToDecimal((size*1024.0**2), precision)
        elif sizeOut == "MB":
            return convertFloatToDecimal((size*1024.0), precision)

Add TB, etc, as you wish.

  • I will vote this up because it can be worked out just with the python standard library – Ciasto piekarz Aug 7 '18 at 5:34

Here's a version that matches the output of ls -lh.

def human_size(num: int) -> str:
    base = 1
    for unit in ['B', 'K', 'M', 'G', 'T', 'P', 'E', 'Z', 'Y']:
        n = num / base
        if n < 9.95 and unit != 'B':
            # Less than 10 then keep 1 decimal place
            value = "{:.1f}{}".format(n, unit)
            return value
        if round(n) < 1000:
            # Less than 4 digits so use this
            value = "{}{}".format(round(n), unit)
            return value
        base *= 1024
    value = "{}{}".format(round(n), unit)
    return value

Here is my implementation:

from bisect import bisect

def to_filesize(bytes_num, si=True):
    decade = 1000 if si else 1024
    partitions = tuple(decade ** n for n in range(1, 6))
    suffixes = tuple('BKMGTP')

    i = bisect(partitions, bytes_num)
    s = suffixes[i]

    for n in range(i):
        bytes_num /= decade

    f = '{:.3f}'.format(bytes_num)

    return '{}{}'.format(f.rstrip('0').rstrip('.'), s)

It will print up to three decimals and it strips trailing zeros and periods. The boolean parameter si will toggle usage of 10-based vs. 2-based size magnitude.

This is its counterpart. It allows to write clean configuration files like {'maximum_filesize': from_filesize('10M'). It returns an integer that approximates the intended filesize. I am not using bit shifting because the source value is a floating point number (it will accept from_filesize('2.15M') just fine). Converting it to an integer/decimal would work but makes the code more complicated and it already works as it is.

def from_filesize(spec, si=True):
    decade = 1000 if si else 1024
    suffixes = tuple('BKMGTP')

    num = float(spec[:-1])
    s = spec[-1]
    i = suffixes.index(s)

    for n in range(i):
        num *= decade

    return int(num)

Here's another version of @romeo's reverse implementation that handles a single input string.

import re

def get_bytes(size_string):
        size_string = size_string.lower().replace(',', '')
        size = re.search('^(\d+)[a-z]i?b$', size_string).groups()[0]
        suffix = re.search('^\d+([kmgtp])i?b$', size_string).groups()[0]
    except AttributeError:
        raise ValueError("Invalid Input")
    shft = suffix.translate(str.maketrans('kmgtp', '12345')) + '0'
    return int(size) << int(shft)

Similar to Aaron Duke's reply but more "pythonic" ;)

import re

RE_SIZE = re.compile(r'^(\d+)([a-z])i?b?$')

def to_bytes(s):
    parts = RE_SIZE.search(s.lower().replace(',', ''))
    if not parts:
        raise ValueError("Invalid Input")
    size = parts.group(1)
    suffix = parts.group(2)
    shift = suffix.translate(str.maketrans('kmgtp', '12345')) + '0'
    return int(size) << int(shift)

I'm new to programming. I came up with this following function that converts a given file size into readable format.

def file_size_converter(size):
    magic = lambda x: str(round(size/round(x/1024), 2))
    size_in_int = [int(1 << 10), int(1 << 20), int(1 << 30), int(1 << 40), int(1 << 50)]
    size_in_text = ['B', 'KB', 'MB', 'GB', 'TB', 'PB', 'EB', 'ZB', 'YB']
    for i in size_in_int:
        if size < i:
            g = size_in_int.index(i)
            position = int((1024 % i) / 1024 * g)
            ss = magic(i)
            return ss + ' ' + size_in_text[position]

This work correctly for all file sizes:

import math
from os.path import getsize

def convert_size(size):
   if (size == 0):
       return '0B'
   size_name = ("B", "KB", "MB", "GB", "TB", "PB", "EB", "ZB", "YB")
   i = int(math.floor(math.log(size,1024)))
   p = math.pow(1024,i)
   s = round(size/p,2)
   return '%s %s' % (s,size_name[i])

  • 3
    was it really worth copy the answer from "sapam".... no.... just comment next time. – Angry 84 Oct 20 '16 at 3:18
  • Another answer must be copied somewhere else and then copied here again... we encourage original ones, in fact. – WesternGun Nov 6 '17 at 15:57

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