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Okay so I'm an a fairly annoying situation where I don't have access to typed arrays such as Float32Array, but still need to be able to convert a Javascript number into bytes. Now, an integer I can handle just fine, but I have no idea how to do it for a floating point value.

I've solved the problem of doing it the other way around (bytes into a float), but documentation on converting from float to bytes is pretty scarce, as most language just let you read the pointer or have common classes for handling it.

Ideally I'd like to be able to convert floats into both 4-byte and 8-byte representations, and choose which one to use. However, code that can simply take a number and spit it out as 8-bytes would still be great, as I can probably come up with the 32-bit version myself from there.

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2  
toString(2) will help? (42).toString(2) –  Mohsen Apr 10 '13 at 20:06
1  
You might also find some use of Number.toExponential –  Paul S. Apr 10 '13 at 20:14

3 Answers 3

up vote 2 down vote accepted

Okay, so I actually figured it out, so I'll share my solution for single and double precision. Now I can't guarantee that they're 100% standards compliant, but they require no loops and seem to work just fine:

Single precision (given a decimal value outputs a single 32-bit big endian integer with the binary representation):

function toFloat32(value) {
    var bytes = 0;
    switch (value) {
        case Number.POSITIVE_INFINITY: bytes = 0x7F800000; break;
        case Number.NEGATIVE_INFINITY: bytes = 0xFF800000; break;
        case +0.0: bytes = 0x40000000; break;
        case -0.0: bytes = 0xC0000000; break;
        default:
            if (Number.isNaN(value)) { bytes = 0x7FC00000; break; }

            if (value <= -0.0) {
                bytes = 0x80000000;
                value = -value;
            }

            var exponent = Math.floor(Math.log(value) / Math.log(2));
            var significand = ((value / Math.pow(2, exponent)) * 0x00800000) | 0;

            exponent += 127;
            if (exponent >= 0xFF) {
                exponent = 0xFF;
                significand = 0;
            } else if (exponent < 0) exponent = 0;

            bytes = bytes | (exponent << 23);
            bytes = bytes | (significand & ~(-1 << 23));
        break;
    }
    return bytes;
};

Double precision (given a decimal value outputs two 32-bit integers with the binary representation in big-endian order):

function toFloat64(value) {
    if ((byteOffset + 8) > this.byteLength) 
        throw "Invalid byteOffset: Cannot write beyond view boundaries.";

    var hiWord = 0, loWord = 0;
    switch (value) {
        case Number.POSITIVE_INFINITY: hiWord = 0x7FF00000; break;
        case Number.NEGATIVE_INFINITY: hiWord = 0xFFF00000; break;
        case +0.0: hiWord = 0x40000000; break;
        case -0.0: hiWord = 0xC0000000; break;
        default:
            if (Number.isNaN(value)) { hiWord = 0x7FF80000; break; }

            if (value <= -0.0) {
                hiWord = 0x80000000;
                value = -value;
            }

            var exponent = Math.floor(Math.log(value) / Math.log(2));
            var significand = Math.floor((value / Math.pow(2, exponent)) * Math.pow(2, 52));

            loWord = significand & 0xFFFFFFFF;
            significand /= Math.pow(2, 32);

            exponent += 1023;
            if (exponent >= 0x7FF) {
                exponent = 0x7FF;
                significand = 0;
            } else if (exponent < 0) exponent = 0;

            hiWord = hiWord | (exponent << 20);
            hiWord = hiWord | (significand & ~(-1 << 20));
        break;
    }

    return [hiWord, loWord];
};

Apologies for any mistakes in copy/pasting, also the code ommits any handling of endianness, though it's fairly easy to add.

Thanks to everyone posting suggestions, but I ended up figuring out mostly on my own, as I wanted to avoid looping as much as possible for speed; it's still not exactly blazingly fast but it'll do =)

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There is a slight rounding error here it looks like. However, it's pretty darn close. Nice work. –  Qix Sep 17 '14 at 23:37
    
^ I was wrong; using 64-bit precision works marvelously. –  Qix Sep 18 '14 at 0:19

See BinaryParser.encodeFloat here.

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This library uses with (and I'm sure a few other no-nos) and thus is not strict compliant! Be cautious when using! –  Qix Sep 17 '14 at 23:38

You can use a JavaScript implementation of IEEE 754 like the one at http://ysangkok.github.io/IEEE-754/index.xhtml . It uses Emscripten and gmp.js.

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