# Looking to access 16-bit image data in Javascript/WebGL

I'm trying to download 16-bit image data from a server and push it into a WebGL texture without browser plug-ins. texImage2d will work with: ImageData, HTMLImageElement, HTMLCanvasElement, or HTMLVideoElement. I'm looking for some javascript (a library or code sample) which can decode 16-bit TIFF or similar (hdf5, etc.) image data into one of these object types.

I have no problem doing this is 8-bit per channel RGB by using an to load a PNG but this doesn't work with 16-bit per channel data since there aren't any "standard" browser supported image formats which are 16-bit.

In case of combining two PNG images, one with the top 8 bits and the second with the low 8 bits, I think it should be:

``````highp vec4 texCol = texture2D(tex_low, vec2(vTexCoord.s, vTexCoord.t)) * (1.0 / 257.0);
texCol += texture2D(tex_up, vec2(vTexCoord.s, vTexCoord.t)) * (256.0 / 257.0);
``````

In 8 bits per channel RGB colors will range from 0 to 255 = 2^8 - 1.
In 16 bits per channel RGB colors will range from 0 to 65535 = 2^16 - 1 = 255*257.

## Explanation

WebGL works using colour values from 0 to 1 and makes it by dividing 8 bit color value by 255. So the divided value belongs to the range <0,1>.
In case of 16 bit per channel we would like to divide it by 65535 to get the proper number from range <0,1>.

What we want is 16 bit color value reduced to range <0,1>.
Let `low` and `up` be color value from range 0..255. `up` is top 8 bits and `low` is low 8 bits.
To get 16 bit value we can compute: `low + up*256`. Now we have number in range 0..65535. To get value from range <0,1> we divide it by 65535. Note that WebGL works using color values from range <0,1> , it is `Lw=low/255` and `Uw=up/255`. So, we don't have to multiply it by 255 and divide it by 65535 because 65535 = 255*257. Instead we just divide by 257.

Also I could not find any software to split 16 bit / channel image into two 8 bit/channel image, so here is my code, feel free to use it, it splits 16 bit / channel Tiff into two 8 bit/channel PNGs:

https://github.com/czero69/ImageSplitter

• That is counter-intuitive, but correct! Definetely worth +1. Sep 6, 2018 at 1:11

PNGToy is a pretty featured library for extracting PNG chunks of almost all depths and channel modes with javascript (really client-side / without node.js, just Promise.js dependencies). The decode method will return the desired buffer. Here is an example for 16 bits grayscale PNG (16 bits RGB should work as well) :

``````var dataObj;
var img = new PngImage();
var buffer;

var pngtoy = this.pngtoy;

dataObj = pngtoy.decode().then(function(results) {

buffer = new Uint16Array(results.bitmap);

for(var i = 0, j; i < buffer.length; i++) {

j = buffer[i];
buffer[i] = ((j & 0xff) << 8) | ((j & 0xff00) >>> 8); // needed to swap bytes for correct unsigned integer values
}

console.log(buffer);
});
};

img.onerror = function(e) {
console.log(e.message);
};

img.src = "image.png";
``````

I don't think the main browsers natively support any 16-bit/channel image format at the moment.

One way to achieve the same effect would be to create two PNG images, one with the top 8 bits of each colour channel in the image and one with the bottom 8 bits. Then bind the images as two textures and combine the values in your shader, e.g.

``````highp float val = texture2d(samplerTop8bits, tex_coord) * (256.0 / 257.0);
val += texture2d(samplerBottom8bits, tex_coord) * (1.0 / 257.0);
``````

(Note: you need highp precision to represent your data correctly in a 16-bit range)

Another method is only possible if floating point textures are supported in your target browser(s). You would, in the browser, combine the two PNG images into a floating point texture then access that normally. This may not be any faster and will probably use twice the amount of texture memory.

• I did something similar but used an RGB PNG and encoded the 2 bytes in the R and G channels then decoded in the shader. Oct 26, 2012 at 12:58
• Good suggestion @Trevor. Since I answered this question, I've done it in exactly that way. It's probably much more efficient than doing two texture reads. Oct 26, 2012 at 14:11
• Can someone please give concrete example of this? Would appreciate that very much! Nov 30, 2012 at 12:20

Digging this up. This is how I use 16-bit floating point textures

``````    function createDataTexture16F(gl, width, height) {
const texture = gl.createTexture()
gl.bindTexture(gl.TEXTURE_2D, texture)
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_S, gl.CLAMP_TO_EDGE)
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_T, gl.CLAMP_TO_EDGE)
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.LINEAR)
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.LINEAR)
gl.texStorage2D(gl.TEXTURE_2D, 0, gl.RGBA16F, width, height)
return texture
}

function updateDataTexture16F(gl, texture, width, height, data32) {
const data = float32ToHalfFloat(data32)
gl.bindTexture(gl.TEXTURE_2D, texture)
if (data.length !== width * height * 4) throw new Error('Incorrect data length')
gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA16F, width, height, 0, gl.RGBA, gl.HALF_FLOAT, data)
}
``````

`float32ToHalfFloat` packs the data into Uint16Array as there's no Float16Array in JavaScript. `data32` can be any array, either [] or Float32Array

``````    var toHalfFn = (function() {
const floatView = new Float32Array(1)
const int32View = new Int32Array(floatView.buffer)
return function toHalf(val) {
floatView[0] = val
var x = int32View[0]
var bits = (x >> 16) & 0x8000
var m = (x >> 12) & 0x07ff
var e = (x >> 23) & 0xff
if (e < 103) {
return bits
}
if (e > 142) {
bits |= 0x7c00
bits |= ((e == 255) ? 0 : 1) && (x & 0x007fffff)
return bits
}
if (e < 113) {
m |= 0x0800
bits |= (m >> (114 - e)) + ((m >> (113 - e)) & 1)
return bits
}
bits |= ((e - 112) << 10) | (m >> 1)
bits += m & 1
return bits
}

}())
export const toHalf = toHalfFn

function float32ToHalfFloat(arr) {
const data = new Uint16Array(arr.length)
for (var i = 0, il = arr.length; i < il; i ++) {
data[i] = toHalf(arr[i])
}
return data
}
``````