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I'm using WebGL to render a binary encoded mesh file. The binary file is written out in big-endian format (I can verify this by opening the file in a hex editor, or viewing the network traffic using fiddler). When I try to read the binary response using a Float32Array or Int32Array, the binary is interpreted as little-endian and my values are wrong:

// Interpret first 32bits in buffer as an int
var wrongValue = new Int32Array(binaryArrayBuffer)[0];

I can't find any references to the default endianness of typed arrays in http://www.khronos.org/registry/typedarray/specs/latest/ so I'm wondering what's the deal? Should I assume that all binary data should be little-endian when reading using typed arrays?

To get around the problem I can use a DataView object (discussed in the previous link) and call:

// Interpret first 32bits in buffer as an int
var correctValue = new DataView(binaryArrayBuffer).getInt32(0);

The DataView functions such as "getInt32" read big-endian values by default.

(Note: I've tested using Google Chrome 15 and Firefox 8 and they both behave the same way)

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In case anyone is wondering, I think the answer is that I should have written my file using little-endian. –  user1009974 Oct 23 '11 at 23:25

4 Answers 4

up vote 23 down vote accepted

The current behaviour, somewhat sadly, is that the endianness is that of the underlying hardware. As almost all desktop computers are x86, this means little-endian. Most ARM OSes use little-endian mode (ARM processes are bi-endian and can operate in either).

The reason why this is somewhat sad is the fact that it means almost nobody will test whether their code works on big-endian hardware, hurting what does, and the fact that the entire web platform was designed around code working uniformly across implementations and platforms, which this breaks.

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Somehow I thought that would be the case. –  user1009974 Nov 12 '11 at 2:30

Taken from here http://www.khronos.org/registry/typedarray/specs/latest/ (when that spec is fully implemented) you can use:

new DataView(binaryArrayBuffer).getInt32(0, true) // For little endian
new DataView(binaryArrayBuffer).getInt32(0, false) // For big endian

However, if you can't use those method because they aren't implemented, you can always check the file's magic value (almost every format has a magic value) on the header to see if you need to invert it according to your endiannes.

Also, you can save endiannes-specific files on your server and use them accordingly to the detected host endiannes.

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Hm that's a good idea! I was using DataView before, but only Chrome supports it at the moment. –  user1009974 Nov 12 '11 at 2:26
Just as a follow up, i'm implementing my own binary writer on JavaScript, and it seems to be working on both firefox and chrome. –  Chiguireitor Dec 13 '11 at 20:29

FYI you can use the following javascript function to determine the endianness of the machine, after which you can pass an appropriately formatted file to the client (you can store two versions of the file on server, big endian and little endian):

function checkEndian(){
    var a = new ArrayBuffer(4);
    var b = new Uint8Array(a);
    var c = new Uint32Array(a);
    b[0] = 0xa1;
    b[1] = 0xb2;
    b[2] = 0xc3;
    b[3] = 0xd4;
    if(c[0] == 0xd4c3b2a1) return "little endian";
    if(c[0] == 0xa1b2c3d4) return "big endian";
    else throw new Error("Something crazy just happened"); 

In your case you will probably have to either recreate the file in little endian, or run through the entire data structure to make it little endian. Using a twist of the above method you can swap endianness on the fly (not really recommended and only makes sense if the entire structure is the same tightly packed types, in reality you can create a stub function that swaps bytes as needed):

function swapBytes(buf, size){
 var bytes = Uint8Array(buf);
 var len = bytes.length;
 if(size == 'WORD'){
  var holder;
  for(var i =0; i<len; i+=2){
     holder = bytes[i];
     bytes[i] = bytes[i+1];
     bytes[i+1] = holder;
}else if(size == 'DWORD'){
 var holder;
 for(var i =0; i<len; i+=4){
    holder = bytes[i];
    bytes[i] = bytes[i+3];
    bytes[i+3] = holder;
    holder = bytes[i+1];
    bytes[i+1] = bytes[i+2];
    bytes[i+2] = holder;
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Nice one! I have just added new and return bytes; to your code. These helped make the code run for me. Thanks. –  Theo Mar 21 '14 at 21:14
Actually the return was not necessary as the buffer itself is swapped. –  Theo Mar 21 '14 at 21:47
filler text just to do this: :-D –  Ryan Mar 24 '14 at 11:05

The other answers seem a bit outdated to me, so here's a link to the latest spec:


In particular:

The typed array view types operate with the endianness of the host computer.

The DataView type operates upon data with a specified endianness (big-endian or little-endian).

So if you want to read/write data in Big Endian (Network Byte Order), see: http://www.khronos.org/registry/typedarray/specs/latest/#DATAVIEW

// For multi-byte values, the optional littleEndian argument
// indicates whether a big-endian or little-endian value should be
// read. If false or undefined, a big-endian value is read.
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