A function to return human readable size from bytes size:
>>> human_readable(2048)
'2 kilobytes'
>>>
How to do this?
asked Jul 7, 2009 at 20:59
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2I think this falls under the heading of "too small a task to require a library". If you look at the source for hurry.filesize, there's only a single function, with a dozen lines of code. And even that could be compacted.– Ben BlankJul 7, 2009 at 21:09
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19The advantage of using a library is that it is usually tested (contains tests that can be run in case if one's edit introduces a bug). If you add the tests, then it is not anymore 'dozen lines of code' :-)– Sridhar RatnakumarJul 7, 2009 at 21:49
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1The amount of re-inventing the wheel in python community is crazy and ridiculous. Just ls -h /path/to/file.ext will do the job. Having said that, the accepted answer is doing a good job. Kudo.– Edward AungApr 14, 2019 at 23:49
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32048 bytes = 2 kibibytes (not kilobytes).– Lonnie BestOct 25, 2021 at 4:03
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30 Answers
Addressing the above "too small a task to require a library" issue by a straightforward implementation (using f-strings, so Python 3.6+):
def sizeof_fmt(num, suffix="B"):
for unit in ("", "Ki", "Mi", "Gi", "Ti", "Pi", "Ei", "Zi"):
if abs(num) < 1024.0:
return f"{num:3.1f}{unit}{suffix}"
num /= 1024.0
return f"{num:.1f}Yi{suffix}"
Supports:
- all currently known binary prefixes
- negative and positive numbers
- numbers larger than 1000 Yobibytes
- arbitrary units (maybe you like to count in Gibibits!)
Example:
>>> sizeof_fmt(168963795964)
'157.4GiB'
by Fred Cirera
answered Jul 7, 2009 at 21:15
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9There should be a space between the number and the unit. If you are outputting html or latex it should be a non-breaking-space.– joschNov 21, 2014 at 14:57
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5just a thought, but for any(?) suffix other than
B(i.e. for units other than bytes) you'd want the factor to be1000.0rather than1024.0no? Dec 23, 2014 at 10:15 -
7If you want to increase the precision of the decimal component,change the
1on lines 4 and 6 to whatever precision you want. May 10, 2015 at 4:07 -
74sure would be nice if all this iteration on this "too small a task" were captured and encapsulated into a library with tests.– fess .Feb 27, 2016 at 22:03
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4
sizeof_fmt(5)returns5.0B. There shouldn't be a precision for bytes. Apr 17, 2019 at 12:21
A library that has all the functionality that it seems you're looking for is humanize. humanize.naturalsize() seems to do everything you're looking for.
Example code (python 3.10)
import humanize
disk_sizes_list = [1, 100, 999, 1000,1024, 2000,2048, 3000, 9999, 10000, 2048000000, 9990000000, 9000000000000000000000]
for size in disk_sizes_list:
natural_size = humanize.naturalsize(size)
binary_size = humanize.naturalsize(size, binary=True)
print(f" {natural_size} \t| {binary_size}\t|{size}")
Output
1 Byte | 1 Byte |1
100 Bytes | 100 Bytes |100
999 Bytes | 999 Bytes |999
1.0 kB | 1000 Bytes |1000
1.0 kB | 1.0 KiB |1024
2.0 kB | 2.0 KiB |2000
2.0 kB | 2.0 KiB |2048
3.0 kB | 2.9 KiB |3000
10.0 kB | 9.8 KiB |9999
10.0 kB | 9.8 KiB |10000
2.0 GB | 1.9 GiB |2048000000
10.0 GB | 9.3 GiB |9990000000
9.0 ZB | 7.6 ZiB |9000000000000000000000
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23Some examples using the data from the OP:
humanize.naturalsize(2048) # => '2.0 kB',humanize.naturalsize(2048, binary=True) # => '2.0 KiB'humanize.naturalsize(2048, gnu=True) # => '2.0K'Jan 27, 2016 at 10:10
The following works in Python 3.6+, is, in my opinion, the easiest to understand answer on here, and lets you customize the amount of decimal places used.
def human_readable_size(size, decimal_places=2):
for unit in ['B', 'KiB', 'MiB', 'GiB', 'TiB', 'PiB']:
if size < 1024.0 or unit == 'PiB':
break
size /= 1024.0
return f"{size:.{decimal_places}f} {unit}"
answered Apr 29, 2017 at 0:13
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I like this one, but add the abs() function in the if condition for negative values.– teekkariAug 12, 2021 at 5:15
There's always got to be one of those guys. Well today it's me. Here's a one-liner -- or two lines if you count the function signature.
def human_size(bytes, units=[' bytes','KB','MB','GB','TB', 'PB', 'EB']):
""" Returns a human readable string representation of bytes """
return str(bytes) + units[0] if bytes < 1024 else human_size(bytes>>10, units[1:])
>>> human_size(123)
123 bytes
>>> human_size(123456789)
117GB
If you need sizes bigger than an Exabyte, it's a little bit more gnarly:
def human_size(bytes, units=[' bytes','KB','MB','GB','TB', 'PB', 'EB']):
return str(bytes) + units[0] if bytes < 1024 else human_size(bytes>>10, units[1:]) if units[1:] else f'{bytes>>10}ZB'
answered May 3, 2017 at 3:09
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2
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1wouldn't it be better to assign the default list for units inside the method to avoid using a list as a default argument? (and using
units=Noneinstead)– ImaNov 20, 2017 at 16:02 -
3@ImanolEizaguirre Best practices would state that it's a good idea to do as you suggested, so you don't inadvertently introduce bugs into a program. However, this function as it is written is safe because the units list is never manipulated. If it was manipulated, the changes would be permanent, and any subsequent function calls would receive a manipulated version of the list as the default argument for the units argument. Nov 20, 2017 at 22:14
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2For Python 3, if you want a decimal point, use this instead: ``` def human_size(fsize, units=[' bytes','KB','MB','GB','TB', 'PB', 'EB']): return "{:.2f}{}".format(float(fsize), units[0]) if fsize < 1024 else human_size(fsize / 1024, units[1:]) ``` Jul 21, 2019 at 8:13
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1avoid the gnarly ZB if...else with
... if bytes < 1024 or len(units)==1 else human_size(...Mar 4, 2021 at 16:08
Here's my version. It does not use a for-loop. It has constant complexity, O(1), and is in theory more efficient than the answers here that use a for-loop.
from math import log
unit_list = zip(['bytes', 'kB', 'MB', 'GB', 'TB', 'PB'], [0, 0, 1, 2, 2, 2])
def sizeof_fmt(num):
"""Human friendly file size"""
if num > 1:
exponent = min(int(log(num, 1024)), len(unit_list) - 1)
quotient = float(num) / 1024**exponent
unit, num_decimals = unit_list[exponent]
format_string = '{:.%sf} {}' % (num_decimals)
return format_string.format(quotient, unit)
if num == 0:
return '0 bytes'
if num == 1:
return '1 byte'
To make it more clear what is going on, we can omit the code for the string formatting. Here are the lines that actually do the work:
exponent = int(log(num, 1024))
quotient = num / 1024**exponent
unit_list[exponent]
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2while you talk about optimizing such a short code, why not use if/elif/else? Th last check num==1 is unnecessary unless you expect negative file sizes. Otherwise: nice work, I like this version.– tedSep 6, 2012 at 6:50
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2My code could surely be more optimized. However, my point was to demonstrate that this task could be solved with constant complexity.– jocteeSep 8, 2012 at 16:00
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46The answers with for loops are also O(1), because the for loops are bounded--their computation time doesn't scale with the size of the input (we don't have unbounded SI prefixes). Apr 17, 2013 at 16:53
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1probably should add a comma for the formatting, so
1000would show as1,000 bytes.– iTaybJan 3, 2014 at 9:14 -
4Note that when using Python 3, zip returns an iterator, so you need to wrap it with list().
unit_list = list(zip(['bytes', 'kB', 'MB', 'GB', 'TB', 'PB'], [0, 0, 1, 2, 2, 2]))– donarbFeb 21, 2018 at 21:46
I recently came up with a version that avoids loops, using log2 to determine the size order which doubles as a shift and an index into the suffix list:
from math import log2
_suffixes = ['bytes', 'KiB', 'MiB', 'GiB', 'TiB', 'PiB', 'EiB', 'ZiB', 'YiB']
def file_size(size):
# determine binary order in steps of size 10
# (coerce to int, // still returns a float)
order = int(log2(size) / 10) if size else 0
# format file size
# (.4g results in rounded numbers for exact matches and max 3 decimals,
# should never resort to exponent values)
return '{:.4g} {}'.format(size / (1 << (order * 10)), _suffixes[order])
Could well be considered unpythonic for its readability, though.
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1
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You need to wrap either
sizeor(1 << (order * 10)infloat()in the last line (for python 2).– HarveyJan 27, 2015 at 15:18
If you're using Django installed you can also try filesizeformat:
from django.template.defaultfilters import filesizeformat
filesizeformat(1073741824)
=>
"1.0 GB"
answered Aug 27, 2014 at 12:47
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2One downside to this for me is that it uses GB instead of GiB even though it's dividing by 1024.– PepedouJun 7, 2019 at 18:23
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Never heard of GiB before, its seems silly. Does anyone every uses memory storay in real powers of 10^3 for anything useful? No-one says
Mebibyte, we all sayMegaByteJan 14, 2022 at 14:27 -
Yes, that's quite popular nowadays. For instance, Nautilus and Finder use SI-style prefixes. Apr 7, 2022 at 13:14
You should use "humanize".
>>> humanize.naturalsize(1000000)
'1.0 MB'
>>> humanize.naturalsize(1000000, binary=True)
'976.6 KiB'
>>> humanize.naturalsize(1000000, gnu=True)
'976.6K'
Reference:
answered Sep 6, 2018 at 4:56
One such library is hurry.filesize.
>>> from hurry.filesize import alternative
>>> size(1, system=alternative)
'1 byte'
>>> size(10, system=alternative)
'10 bytes'
>>> size(1024, system=alternative)
'1 KB'
answered Jul 7, 2009 at 21:00
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4However, this library is not very customizable. >>> from hurry.filesize import size >>> size(1031053) >>> size(3033053) '2M' I expect it show, for example, '2.4M' or '2423K' .. instead of the blatantly approximated '2M'. Jul 7, 2009 at 21:06
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Note also that it's very easy to just grab the code out of hurry.filesize and put it directly in your own code, if you're dealing with dependency systems and the like. It's about as short as the snippets people are providing here.– mlissnerOct 23, 2011 at 3:03
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Using either powers of 1000 or kibibytes would be more standard-friendly:
def sizeof_fmt(num, use_kibibyte=True):
base, suffix = [(1000.,'B'),(1024.,'iB')][use_kibibyte]
for x in ['B'] + map(lambda x: x+suffix, list('kMGTP')):
if -base < num < base:
return "%3.1f %s" % (num, x)
num /= base
return "%3.1f %s" % (num, x)
P.S. Never trust a library that prints thousands with the K (uppercase) suffix :)
answered May 21, 2014 at 2:49
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1
P.S. Never trust a library that prints thousands with the K (uppercase) suffix :)Why not? The code could be perfectly sound and the author just didn't consider the casing for kilo. It seems pretty asinine to automatically dismiss any code based on your rule... Feb 11, 2018 at 2:21
This will do what you need in almost any situation, is customizable with optional arguments, and as you can see, is pretty much self-documenting:
from math import log
def pretty_size(n,pow=0,b=1024,u='B',pre=['']+[p+'i'for p in'KMGTPEZY']):
pow,n=min(int(log(max(n*b**pow,1),b)),len(pre)-1),n*b**pow
return "%%.%if %%s%%s"%abs(pow%(-pow-1))%(n/b**float(pow),pre[pow],u)
Example output:
>>> pretty_size(42)
'42 B'
>>> pretty_size(2015)
'2.0 KiB'
>>> pretty_size(987654321)
'941.9 MiB'
>>> pretty_size(9876543210)
'9.2 GiB'
>>> pretty_size(0.5,pow=1)
'512 B'
>>> pretty_size(0)
'0 B'
Advanced customizations:
>>> pretty_size(987654321,b=1000,u='bytes',pre=['','kilo','mega','giga'])
'987.7 megabytes'
>>> pretty_size(9876543210,b=1000,u='bytes',pre=['','kilo','mega','giga'])
'9.9 gigabytes'
This code is both Python 2 and Python 3 compatible. PEP8 compliance is an exercise for the reader. Remember, it's the output that's pretty.
Update:
If you need thousands commas, just apply the obvious extension:
def prettier_size(n,pow=0,b=1024,u='B',pre=['']+[p+'i'for p in'KMGTPEZY']):
r,f=min(int(log(max(n*b**pow,1),b)),len(pre)-1),'{:,.%if} %s%s'
return (f%(abs(r%(-r-1)),pre[r],u)).format(n*b**pow/b**float(r))
For example:
>>> pretty_units(987654321098765432109876543210)
'816,968.5 YiB'
The HumanFriendly project helps with this.
import humanfriendly
humanfriendly.format_size(1024)
The above code will give 1KB as answer.
Examples can be found here.
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I feel that this and the humanize below are the only real answers to the OP Jul 17, 2020 at 17:11
Riffing on the snippet provided as an alternative to hurry.filesize(), here is a snippet that gives varying precision numbers based on the prefix used. It isn't as terse as some snippets, but I like the results.
def human_size(size_bytes):
"""
format a size in bytes into a 'human' file size, e.g. bytes, KB, MB, GB, TB, PB
Note that bytes/KB will be reported in whole numbers but MB and above will have greater precision
e.g. 1 byte, 43 bytes, 443 KB, 4.3 MB, 4.43 GB, etc
"""
if size_bytes == 1:
# because I really hate unnecessary plurals
return "1 byte"
suffixes_table = [('bytes',0),('KB',0),('MB',1),('GB',2),('TB',2), ('PB',2)]
num = float(size_bytes)
for suffix, precision in suffixes_table:
if num < 1024.0:
break
num /= 1024.0
if precision == 0:
formatted_size = "%d" % num
else:
formatted_size = str(round(num, ndigits=precision))
return "%s %s" % (formatted_size, suffix)
Drawing from all the previous answers, here is my take on it. It's an object which will store the file size in bytes as an integer. But when you try to print the object, you automatically get a human readable version.
class Filesize(object):
"""
Container for a size in bytes with a human readable representation
Use it like this::
>>> size = Filesize(123123123)
>>> print size
'117.4 MB'
"""
chunk = 1024
units = ['bytes', 'KB', 'MB', 'GB', 'TB', 'PB']
precisions = [0, 0, 1, 2, 2, 2]
def __init__(self, size):
self.size = size
def __int__(self):
return self.size
def __str__(self):
if self.size == 0: return '0 bytes'
from math import log
unit = self.units[min(int(log(self.size, self.chunk)), len(self.units) - 1)]
return self.format(unit)
def format(self, unit):
if unit not in self.units: raise Exception("Not a valid file size unit: %s" % unit)
if self.size == 1 and unit == 'bytes': return '1 byte'
exponent = self.units.index(unit)
quotient = float(self.size) / self.chunk**exponent
precision = self.precisions[exponent]
format_string = '{:.%sf} {}' % (precision)
return format_string.format(quotient, unit)
Modern Django have self template tag filesizeformat:
Formats the value like a human-readable file size (i.e. '13 KB', '4.1 MB', '102 bytes', etc.).
For example:
{{ value|filesizeformat }}
If value is 123456789, the output would be 117.7 MB.
More info: https://docs.djangoproject.com/en/1.10/ref/templates/builtins/#filesizeformat
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from django.template.defaultfilters import filesizeformat; filesizeformat(1024*400)this was super useful, thank you! Oct 6, 2020 at 8:38 -
To get the file size in a human readable form, I created this function:
import os
def get_size(path):
size = os.path.getsize(path)
if size < 1024:
return f"{size} bytes"
elif size < pow(1024,2):
return f"{round(size/1024, 2)} KB"
elif size < pow(1024,3):
return f"{round(size/(pow(1024,2)), 2)} MB"
elif size < pow(1024,4):
return f"{round(size/(pow(1024,3)), 2)} GB"
>>> get_size("a.txt")
1.4KB
I like the fixed precision of senderle's decimal version, so here's a sort of hybrid of that with joctee's answer above (did you know you could take logs with non-integer bases?):
from math import log
def human_readable_bytes(x):
# hybrid of https://stackoverflow.com/a/10171475/2595465
# with https://stackoverflow.com/a/5414105/2595465
if x == 0: return '0'
magnitude = int(log(abs(x),10.24))
if magnitude > 16:
format_str = '%iP'
denominator_mag = 15
else:
float_fmt = '%2.1f' if magnitude % 3 == 1 else '%1.2f'
illion = (magnitude + 1) // 3
format_str = float_fmt + ['', 'K', 'M', 'G', 'T', 'P'][illion]
return (format_str % (x * 1.0 / (1024 ** illion))).lstrip('0')
Here is an oneliner lambda without any imports to convert to human readable filesize. Pass the value in bytes.
to_human = lambda v : str(v >> ((max(v.bit_length()-1, 0)//10)*10)) +["", "K", "M", "G", "T", "P", "E"][max(v.bit_length()-1, 0)//10]
>>> to_human(1024)
'1K'
>>> to_human(1024*1024*3)
'3M'
How about a simple 2 liner:
def humanizeFileSize(filesize):
p = int(math.floor(math.log(filesize, 2)/10))
return "%.3f%s" % (filesize/math.pow(1024,p), ['B','KiB','MiB','GiB','TiB','PiB','EiB','ZiB','YiB'][p])
Here is how it works under the hood:
- Calculates log2(filesize)
- Divides it by 10 to get the closest unit. (eg if size is 5000 bytes, the closest unit is
Kb, so the answer should be X KiB) - Returns
file_size/value_of_closest_unitalong with unit.
It however doesn't work if filesize is 0 or negative (because log is undefined for 0 and -ve numbers). You can add extra checks for them:
def humanizeFileSize(filesize):
filesize = abs(filesize)
if (filesize==0):
return "0 Bytes"
p = int(math.floor(math.log(filesize, 2)/10))
return "%0.2f %s" % (filesize/math.pow(1024,p), ['Bytes','KiB','MiB','GiB','TiB','PiB','EiB','ZiB','YiB'][p])
Examples:
>>> humanizeFileSize(538244835492574234)
'478.06 PiB'
>>> humanizeFileSize(-924372537)
'881.55 MiB'
>>> humanizeFileSize(0)
'0 Bytes'
NOTE - There is a difference between Kb and KiB. KB means 1000 bytes, whereas KiB means 1024 bytes. KB,MB,GB are all multiples of 1000, whereas KiB, MiB, GiB etc are all multiples of 1024. More about it here
answered Nov 23, 2014 at 21:39
What you're about to find below is by no means the most performant or shortest solution among the ones already posted. Instead, it focuses on one particular issue that many of the other answers miss.
Namely the case when input like 999_995 is given:
Python 3.6.1 ...
...
>>> value = 999_995
>>> base = 1000
>>> math.log(value, base)
1.999999276174054
which, being truncated to the nearest integer and applied back to the input gives
>>> order = int(math.log(value, base))
>>> value/base**order
999.995
This seems to be exactly what we'd expect until we're required to control output precision. And this is when things start to get a bit difficult.
With the precision set to 2 digits we get:
>>> round(value/base**order, 2)
1000 # K
instead of 1M.
How can we counter that?
Of course, we can check for it explicitly:
if round(value/base**order, 2) == base:
order += 1
But can we do better? Can we get to know which way the order should be cut before we do the final step?
It turns out we can.
Assuming 0.5 decimal rounding rule, the above if condition translates into:
resulting in
def abbreviate(value, base=1000, precision=2, suffixes=None):
if suffixes is None:
suffixes = ['', 'K', 'M', 'B', 'T']
if value == 0:
return f'{0}{suffixes[0]}'
order_max = len(suffixes) - 1
order = log(abs(value), base)
order_corr = order - int(order) >= log(base - 0.5/10**precision, base)
order = min(int(order) + order_corr, order_max)
factored = round(value/base**order, precision)
return f'{factored:,g}{suffixes[order]}'
giving
>>> abbreviate(999_994)
'999.99K'
>>> abbreviate(999_995)
'1M'
>>> abbreviate(999_995, precision=3)
'999.995K'
>>> abbreviate(2042, base=1024)
'1.99K'
>>> abbreviate(2043, base=1024)
'2K'
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That was a very good read, and it was fun to see your mathematical algorithm. Unfortunately it's slow, as you pointed out. I have previously solved this issue in a high-performance way in the following post: stackoverflow.com/a/63839503/8874388 Sep 11, 2020 at 1:48
def human_readable_data_quantity(quantity, multiple=1024):
if quantity == 0:
quantity = +0
SUFFIXES = ["B"] + [i + {1000: "B", 1024: "iB"}[multiple] for i in "KMGTPEZY"]
for suffix in SUFFIXES:
if quantity < multiple or suffix == SUFFIXES[-1]:
if suffix == SUFFIXES[0]:
return "%d%s" % (quantity, suffix)
else:
return "%.1f%s" % (quantity, suffix)
else:
quantity /= multiple
answered Feb 2, 2010 at 2:29
This feature if available in Boltons which is a very handy library to have for most projects.
>>> bytes2human(128991)
'126K'
>>> bytes2human(100001221)
'95M'
>>> bytes2human(0, 2)
'0.00B'
answered Oct 21, 2020 at 20:15
Here's something I wrote for a different question...
Much like xApple's answer, this object will always print in a human-readable format. The difference is that it's also a proper int, so you can do math with it!
It passes the format specifier straight through to the number format and tacks on the suffix, so it's pretty much guaranteed that the requested length will be exceeded by two or three characters. I've never had a use for this code, so I haven't bothered to fix it!
class ByteSize(int):
_KB = 1024
_suffixes = 'B', 'KB', 'MB', 'GB', 'PB'
def __new__(cls, *args, **kwargs):
return super().__new__(cls, *args, **kwargs)
def __init__(self, *args, **kwargs):
self.bytes = self.B = int(self)
self.kilobytes = self.KB = self / self._KB**1
self.megabytes = self.MB = self / self._KB**2
self.gigabytes = self.GB = self / self._KB**3
self.petabytes = self.PB = self / self._KB**4
*suffixes, last = self._suffixes
suffix = next((
suffix
for suffix in suffixes
if 1 < getattr(self, suffix) < self._KB
), last)
self.readable = suffix, getattr(self, suffix)
super().__init__()
def __str__(self):
return self.__format__('.2f')
def __repr__(self):
return '{}({})'.format(self.__class__.__name__, super().__repr__())
def __format__(self, format_spec):
suffix, val = self.readable
return '{val:{fmt}} {suf}'.format(val=val, fmt=format_spec, suf=suffix)
def __sub__(self, other):
return self.__class__(super().__sub__(other))
def __add__(self, other):
return self.__class__(super().__add__(other))
def __mul__(self, other):
return self.__class__(super().__mul__(other))
def __rsub__(self, other):
return self.__class__(super().__sub__(other))
def __radd__(self, other):
return self.__class__(super().__add__(other))
def __rmul__(self, other):
return self.__class__(super().__rmul__(other))
Usage:
>>> size = 6239397620
>>> print(size)
5.81 GB
>>> size.GB
5.810891855508089
>>> size.gigabytes
5.810891855508089
>>> size.PB
0.005674699077644618
>>> size.MB
5950.353260040283
>>> size
ByteSize(6239397620)
In case someone is wondering, to convert @Sridhar Ratnakumar's answer back to bytes you could do the following:
import math
def format_back_to_bytes(value):
for power, unit in enumerate(["", "Ki", "Mi", "Gi", "Ti", "Pi", "Ei", "Zi"]):
if value[-3:-1] == unit:
return round(float(value[:-3])*math.pow(2, 10*power))
Usage:
>>> format_back_to_bytes('212.4GiB')
228062763418
answered Jan 31 at 3:08
Here you have it:
def humanSize(value, decimals=2, scale=1024, units=("B", "kiB", "MiB", "GiB", "TiB", "PiB", "EiB", "ZiB", "YiB", "RiB", "QiB")):
for unit in units:
if value < scale:
break
value /= scale
if int(value) == value:
# do not return decimals, if the value is already round
return int(value), unit
return round(value * 10**decimals) / 10**decimals, unit
Most correct format:
f"{humanSize(os.path.getsize(path))[0]}\u202f{humanSize(os.path.getsize(path))[1]}"
Examples:
>>> humanSize(42)
(42, 'B')
>>> humanSize(9137017301)
(8.51, 'GiB')
>>> humanSize(4096)
(4, 'kiB')
>>> humanSize(1267650600228229401496703205376)
(1, 'QiB')
>>> humanSize(543864)
(531.12, 'kiB')
>>> humanSize(500000000000)
(465.66, 'GiB')
Here is a class-based variant of Fred Cirera's answer, for those of us who prefer strong typing:
class Unit(int):
multiplier = 1000
precision = 2
prefixes = ('', 'k')
unit = '?'
def __str__(self):
number = self
for prefix in self.prefixes:
if number < self.multiplier or prefix == self.prefixes[-1]:
break
number /= float(self.multiplier)
if prefix:
return f'{number:.{self.precision}f}{prefix}{self.unit}'
return f'{int(number)}{self.unit}'
class Filesize(Unit):
multiplier = 1024
prefixes = ('', 'Ki', 'Mi', 'Gi', 'Ti', 'Pi', 'Ei', 'Zi', 'Yi')
unit = 'B'
class Distance(Unit):
unit = 'm'
# Prints 123m
print(Distance(123))
# Prints 123456.8km
print(Distance(123456789))
Use
from naturalsize import *
nsize(500)
from the naturalsize module.
Here is an option using while:
def number_format(n):
n2, n3 = n, 0
while n2 >= 1e3:
n2 /= 1e3
n3 += 1
return '%.3f' % n2 + ('', ' k', ' M', ' G')[n3]
s = number_format(9012345678)
print(s == '9.012 G')
Referencing Sridhar Ratnakumar's answer, updated to:
def formatSize(sizeInBytes, decimalNum=1, isUnitWithI=False, sizeUnitSeperator=""):
"""format size to human readable string"""
# https://en.wikipedia.org/wiki/Binary_prefix#Specific_units_of_IEC_60027-2_A.2_and_ISO.2FIEC_80000
# K=kilo, M=mega, G=giga, T=tera, P=peta, E=exa, Z=zetta, Y=yotta
sizeUnitList = ['','K','M','G','T','P','E','Z']
largestUnit = 'Y'
if isUnitWithI:
sizeUnitListWithI = []
for curIdx, eachUnit in enumerate(sizeUnitList):
unitWithI = eachUnit
if curIdx >= 1:
unitWithI += 'i'
sizeUnitListWithI.append(unitWithI)
# sizeUnitListWithI = ['','Ki','Mi','Gi','Ti','Pi','Ei','Zi']
sizeUnitList = sizeUnitListWithI
largestUnit += 'i'
suffix = "B"
decimalFormat = "." + str(decimalNum) + "f" # ".1f"
finalFormat = "%" + decimalFormat + sizeUnitSeperator + "%s%s" # "%.1f%s%s"
sizeNum = sizeInBytes
for sizeUnit in sizeUnitList:
if abs(sizeNum) < 1024.0:
return finalFormat % (sizeNum, sizeUnit, suffix)
sizeNum /= 1024.0
return finalFormat % (sizeNum, largestUnit, suffix)
and example output is:
def testKb():
kbSize = 3746
kbStr = formatSize(kbSize)
print("%s -> %s" % (kbSize, kbStr))
def testI():
iSize = 87533
iStr = formatSize(iSize, isUnitWithI=True)
print("%s -> %s" % (iSize, iStr))
def testSeparator():
seperatorSize = 98654
seperatorStr = formatSize(seperatorSize, sizeUnitSeperator=" ")
print("%s -> %s" % (seperatorSize, seperatorStr))
def testBytes():
bytesSize = 352
bytesStr = formatSize(bytesSize)
print("%s -> %s" % (bytesSize, bytesStr))
def testMb():
mbSize = 76383285
mbStr = formatSize(mbSize, decimalNum=2)
print("%s -> %s" % (mbSize, mbStr))
def testTb():
tbSize = 763832854988542
tbStr = formatSize(tbSize, decimalNum=2)
print("%s -> %s" % (tbSize, tbStr))
def testPb():
pbSize = 763832854988542665
pbStr = formatSize(pbSize, decimalNum=4)
print("%s -> %s" % (pbSize, pbStr))
def demoFormatSize():
testKb()
testI()
testSeparator()
testBytes()
testMb()
testTb()
testPb()
# 3746 -> 3.7KB
# 87533 -> 85.5KiB
# 98654 -> 96.3 KB
# 352 -> 352.0B
# 76383285 -> 72.84MB
# 763832854988542 -> 694.70TB
# 763832854988542665 -> 678.4199PB
This solution might also appeal to you, depending on how your mind works:
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'
