You might look at JavaScript Exact Arithmetic. This site implements, among many things, conversion of IEEE Double to ByteArray and ByteArray to IEEE Double. IEEE Double is the representation used by Java. So, a byte array produced by this site will convert to the exact double using Java.

I have extracted the underlying code and build up the library JRS (for J R Stockton, the author of the original code). The JRS library offers two methods:

- doubleToHexString(): converts an IEEE Double to an hexadecimal string
- hexStringToDouble(): converts an hexadecimal string to an IEEE Double

The library is provided below. Please take a look at the Copyright page for fair usage.

*The JRS library is as follows:*

```
/**
* A library that allow conversion of double to byteArray and vis versa.
* Extracted from "JRS - JavaScript Exact Arithmetic - J R Stockton (See
* http://www.merlyn.demon.co.uk/js-exact.htm#DW4 and
* http://www.merlyn.demon.co.uk/contents.htm#Copy).
*/
JRS = function(){
function numberToBinString(number, binStringLength) {
var A = [], T = null; // number>=0
while (binStringLength--) {
T = number % 2;
A[binStringLength] = T;
number -= T;
number /= 2;
}
return A.join("");
}
function HexFn(fourBitsBinString) {
return parseInt(fourBitsBinString, 2).toString(16);
}
function binStringToHexString(binString) {
return binString.replace(/(\d{4})/g, HexFn );
}
function hexStringToBinString(hexString) {
var binString = "";
for(var i=0; i< hexString.length-1; i+=2) {
binString += numberToBinString(parseInt(hexString.substr(i, 2), 16), 8);
}
return binString;
}
function SngFwd(Sg, Ex, Mt) {
var B = {};
Mt = Math.pow(2, 23) * Mt + 0.5; // round
B.a = 0xFF & Mt;
B.b = 0xFF & (Mt >> 8);
B.c = 0x7F & (Mt >> 16) | (Ex & 1) << 7;
B.d = Sg << 7 | (Ex >> 1);
return B;
}
function DblFwd(Sg, Ex, Mt) {
var B = {};
Mt = Math.pow(2, 52) * Mt;
B.a = 0xFFFF & Mt;
B.b = 0xFFFF & (Mt >> 16);
Mt /= Math.pow(2, 32); // Integers are only 32-bit
B.c = 0xFFFF & Mt;
B.d = Sg << 15 | Ex << 4 | 0x000F & (Mt >> 16);
return B;
}
function CVTFWD(NumW, Qty) { // Function now without side-effects
var Sign = null, Expo = null, Mant = null, Bin = null, nb01 = ""; // , OutW = NumW/4
var Inf = {
32 : {d: 0x7F, c: 0x80, b: 0, a : 0},
64 : {d: 0x7FF0, c: 0, b: 0, a : 0}
};
var ExW = {32: 8, 64: 11}[NumW], MtW = NumW - ExW - 1;
if (isNaN(Qty)) {
Bin = Inf[NumW];
Bin.a = 1;
Sign = false;
Expo = Math.pow(2, ExW) - 1;
Mant = Math.pow(2, -MtW);
}
if (!Bin) {
Sign = Qty < 0 || 1 / Qty < 0; // OK for +-0
if (!isFinite(Qty)) {
Bin = Inf[NumW];
if (Sign)
Bin.d += 1 << (NumW / 4 - 1);
Expo = Math.pow(2, ExW) - 1;
Mant = 0;
}
}
if (!Bin) {
Expo = {32: 127, 64: 1023}[NumW];
Mant = Math.abs(Qty);
while (Mant >= 2) {
Expo++;
Mant /= 2;
}
while (Mant < 1 && Expo > 0) {
Expo--;
Mant *= 2;
}
if (Expo <= 0) {
Mant /= 2;
nb01 = "Zero or Denormal";
}
if (NumW == 32 && Expo > 254) {
nb01 = "Too big for Single";
Bin = {
d : Sign ? 0xFF : 0x7F,
c : 0x80,
b : 0,
a : 0
};
Expo = Math.pow(2, ExW) - 1;
Mant = 0;
}
}
if (!Bin)
Bin = {32: SngFwd, 64: DblFwd}[NumW](Sign, Expo, Mant);
Bin.sgn = +Sign;
Bin.exp = numberToBinString(Expo, ExW);
Mant = (Mant % 1) * Math.pow(2, MtW);
if (NumW == 32)
Mant = Math.floor(Mant + 0.5);
Bin.mnt = numberToBinString(Mant, MtW);
Bin.nb01 = nb01;
return Bin;
}
function CVTREV(BinStr) {
var ExW = {32: 8,64: 11}[BinStr.length];
var M = BinStr.match(new RegExp("^(.)(.{" + ExW + "})(.*)$"));
// M1 sign, M2 exponent, M3 mantissa
var Sign = M[1] == "1" ? -1 : +1;
if (!/0/.test(M[2])) { // NaN or Inf
var X = /1/.test(M[3]) ? NaN : Sign / 0;
throw new Error("Max Coded " + M[3] + " " + X.toString());
}
var Denorm = +M[2] == 0;
if (Denorm) {
console.log("Zero or Denormal");
}
var Expo = parseInt(M[2], 2) - Math.pow(2, ExW - 1) + 1;
var Mant = parseInt(M[3], 2) / Math.pow(2, M[3].length) + !Denorm;
return Sign * Mant * Math.pow(2, Expo + Denorm);
}
this.doubleToHexString = function( /* double */d, /* int */size) {
var NumW = size;
var Qty = d;
with (CVTFWD(NumW, Qty)) {
return binStringToHexString(sgn + exp + mnt);
}
};
this.hexStringToDouble = function (/*String*/hexString, /*int*/size) {
var NumW = size ;
var binString = hexStringToBinString(hexString) ;
var X = new RegExp("^[01]{" + NumW + "}$");
if (!X.test(binString)) {
alert(NumW + " bits 0/1 needed");
return;
}
return CVTREV(binString);
};
};
```