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I'm using this function to convert file size in bytes to a human readable file size:

function getReadableFileSizeString(fileSizeInBytes) {

    var i = -1;
    var byteUnits = [' kB', ' MB', ' GB', ' TB', 'PB', 'EB', 'ZB', 'YB'];
    do {
        fileSizeInBytes = fileSizeInBytes / 1024;
    } while (fileSizeInBytes > 1024);

    return Math.max(fileSizeInBytes, 0.1).toFixed(1) + byteUnits[i];

However, it seems like this isn't 100% accurate. For example...

getReadableFileSizeString(1551859712); // output is "1.4 GB"

Shouldn't this be "1.5 GB"? It seems like the division by 1024 is losing precision. Am I totally misunderstanding something or is there a better way to do this?

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As an aside, your solution is elegant. I like it. –  Brendan May 2 '12 at 19:35
@Brendan... thanks! I appreciate that :) I'll be honest though... I didn't come up with this all by myself. I'm pretty sure I saw something similar somewhere at some point. –  Hristo May 2 '12 at 19:39
your function will fail on anything larger than about 2^90. –  Janus Troelsen Sep 28 '12 at 21:10
@JanusTroelsen... why is that? please give me some more details! –  Hristo Sep 28 '12 at 21:36
getReadableFileSizeString(0); returns 0.1kb ;p –  Daniel Magnusson Dec 10 '12 at 15:08

6 Answers 6

up vote 6 down vote accepted

It depends on whether you want to use the binary or decimal convention.

RAM, for instance, is always measured in binary, so to express 1551859712 as ~1.4GiB would be correct.

On the other hand, hard disk manufacturers like to use decimal, so they would call it ~1.6GB.

And just to be confusing, floppy disks use a mixture of the two systems - their 1MB is actually 1024000 bytes.

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Here's one I just wrote:

function humanFileSize(bytes, si) {
    var thresh = si ? 1000 : 1024;
    if(bytes < thresh) return bytes + ' B';
    var units = si ? ['kB','MB','GB','TB','PB','EB','ZB','YB'] : ['KiB','MiB','GiB','TiB','PiB','EiB','ZiB','YiB'];
    var u = -1;
    do {
        bytes /= thresh;
    } while(bytes >= thresh);
    return bytes.toFixed(1)+' '+units[u];
share|improve this answer
I'm making one adjustment: When evaluating the threshold, take the absolute value. This way the function will support negative values. Nice function! Thank you for not using a switch statement!! –  Aaron Blenkush May 2 at 15:33
@AaronBlenkush: When would you have a negative file size? –  Mark May 2 at 15:41
I just copied your function into a Google Sheet I'm using to show size delta after a "cleanup" operation. Before, After, and Diff. The cleanup operation resulted in the growth of some database tables, and the reduction in others. For example, Table A has a diff of -1.95 MB, while Table B has a diff of 500 kB. Therefore: positive and negative :-) –  Aaron Blenkush May 2 at 15:46
Double vote-up! For the use Kibibytes. –  Daniel De León Jul 10 at 17:08

Here is a prototype to convert a number to a readable string respecting the new international standards.

There are two ways to represent big numbers: You could either display them in multiples of 1000 = 10 3 (base 10) or 1024 = 2 10 (base 2). If you divide by 1000, you probably use the SI prefix names, if you divide by 1024, you probably use the IEC prefix names. The problem starts with dividing by 1024. Many applications use the SI prefix names for it and some use the IEC prefix names. The current situation is a mess. If you see SI prefix names you do not know whether the number is divided by 1000 or 1024



 return (a=a?[1e3,'k','B']:[1024,'K','iB'],b=Math,c=b.log,
 +' '+(d?(a[1]+'MGTPEZY')[--d]+a[2]:'Bytes');


IEC prefix

console.log((186457865).fileSize()); // default IEC (power 1024)
//177.82 MiB

SI prefix

console.log((186457865).fileSize(1)); //1,true for SI (power 1000)
//186.46 MB 

i set the IEC as default because i always used binary mode to calculate the size of a file... using the power of 1024

If you just want one of them in a short oneliner function:


function fileSizeSI(a,b,c,d,e){
 return (b=Math,c=b.log,d=1e3,e=c(a)/c(d)|0,a/b.pow(d,e)).toFixed(2)
 +' '+(e?'kMGTPEZY'[--e]+'B':'Bytes')


function fileSizeIEC(a,b,c,d,e){
 return (b=Math,c=b.log,d=1024,e=c(a)/c(d)|0,a/b.pow(d,e)).toFixed(2)
 +' '+(e?'KMGTPEZY'[--e]+'iB':'Bytes')



if you have some questions about the functions just ask

share|improve this answer

Another embodiment of the calculation

function humanFileSize(size) {
    var i = Math.floor( Math.log(size) / Math.log(1024) );
    return ( size / Math.pow(1024, i) ).toFixed(2) * 1 + ' ' + ['B', 'kB', 'MB', 'GB', 'TB'][i];
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really nice one :D –  zsitro Jun 24 at 16:50
seems doesn't handle 0 –  Offirmo Aug 29 at 23:53
1551859712 / 1024 = 1515488
1515488 / 1024 = 1479.96875
1479.96875 / 1024 = 1.44528198242188

Your solution is correct. The important thing to realize is that in order to get from 1551859712 to 1.5, you have to do divisions by 1000, but bytes are counted in binary-to-decimal chunks of 1024, hence why the Gigabyte value is less.

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@Eli... yea, it seems like it. I guess I was expecting "1.5" since its 1551859712, but that would mean I'm in decimal not binary. –  Hristo May 2 '12 at 19:44

Based on cocco's idea, here's a less compact -but hopefully more comprehensive- example.

<!DOCTYPE html>
<title>File info</title>

function fileSize(bytes) {
    var exp = Math.log(bytes) / Math.log(1024) | 0;
    var result = (bytes / Math.pow(1024, exp)).toFixed(2);

    return result + ' ' + (exp == 0 ? 'bytes': 'KMGTPEZY'[exp - 1] + 'B');

function info(input) {
    input.nextElementSibling.textContent = fileSize(input.files[0].size);

<label for="upload-file"> File: </label>
<input id="upload-file" type="file" onchange="info(this)">
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