javascript float from/to bits

I am trying to perform something that is brain-dead simple in any other language but not javascript: get the bits out of float (and the other way around).

In C/C++ it would be something like

```float a = 3.1415;
int b = *((int*)&a);
```

and vise-versa

```int a = 1000;
float b = *((float*)&a);
```

In C# you can use the BitConverter ...floatBits or something alike in Java... Even in VB6 for Christ's sake you can memcpy a float32 into an int32. How on earth can I translate between and int and a float in javascript?

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Hey, just wanted to say thanks for answering my question in asking yours. I needed to know how to do flaot/int conversions in C++; – LaikaN57 Oct 9 '10 at 21:26

You certainly don't get anything low-level like that in JavaScript. It would be extremely dangerous to allow recasting and pointer-frobbing in a language that has to be safe for untrusted potential-attacker web sites to use.

If you want to get a 32-bit IEEE754 representation of a single-precision value in a Number (which remember is not an int either; the only number type you get in JavaScript is `double`), you will have to make it yourself by fiddling the sign, exponent and mantissa bits together. There's example code here.

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+1 for reintroducing me to the word frobbing. – Eddie Parker Feb 7 '11 at 22:09
Just took a look at the Javascript in the babbage.cs.qc.edu site -- It may produce correct answers, and may work well on the online calculator, but it's horribly written & not suitable for reuse in my opinion. – Jason S Mar 17 '11 at 17:54
I fail to see why adding native IEEE binary format conversion to/from a JavaScript number would be a security issue. There's no recasting or pointers involved in this matter. – akauppi Apr 1 '12 at 13:06
``````function DoubleToIEEE(f)
{
var buf = new ArrayBuffer(8);
(new Float64Array(buf))[0] = f;
return [ (new Uint32Array(buf))[0] ,(new Uint32Array(buf))[1] ];
}
``````
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And to the other direction (from bytes to floats), see: stackoverflow.com/a/21282715/1691517. – Timo Jan 22 '14 at 12:19
``````function FloatToIEEE(f)
{
var buf = new ArrayBuffer(4);
(new Float32Array(buf))[0] = f;
return (new Uint32Array(buf))[0];
}
``````

Unfortunately, this doesn't work with doubles and in old browsers.

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There are some functions to implement conversion here. The solution is quite slow however, and you may wish to consider a redesign.

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There are places where this cannot be redesigned. Support for binary transfer protocols is one. I'm evaluating Msgpack to be used as a bridge from JS front end directly to C++ server. Having slow double conversion in the client is a negative factor for this (which can be solved only by JavaScript starting to provide native access to the IEEE representation). Upside of using msgpack is lesser bandwidth need (and no need of parsing textual number strings). – akauppi Apr 1 '12 at 13:10

Like the other posters have said, JavaScript is loose typed, so there is no differentiation in data types from float to int or vice versa.

However, what you're looking for is

float to int:

``````Math.floor( 3.9 ); // result: 3 (truncate everything past .) or
Math.round( 3.9 ); // result: 4 (round to nearest whole number)
``````

Depending on which you'd like. In C/C++ it would essentially be using `Math.floor` to convert to integer from float.

int to float:

``````var a = 10;
a.toFixed( 3 ); // result: 10.000
``````
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so per iteration you're picking up 0.000000455 of a second, cool story bro – Dan Beam Jan 5 '10 at 19:55
That is not what he's looking. He's looking for the binary representation of a double. The '(int*)&a' in the question gives one a pointer to the machine-level (IEEE) bits of the double. – akauppi Apr 1 '12 at 13:08
1. JavaScript uses `double` (IEEE 754) to represent all numbers
2. `double` consists of [sign, exponent(11bit), mantissa(52bit)] fields. Value of number is computed using formula `(-1)^sign * (1.mantissa) * 2^(exponent - 1023)`. (`1.mantissa` - means that we take bits of mantissa add 1 at the beginning and tread that value as number, e.g. if mantissa = `101` we get number `1.101 (bin) = 1 + 1/2 + 1/8 (dec) = 1.625 (dec)`.
3. We can get value of `sign` bit testing if number is greater than zero. There is a small issue with `0` here because `double` have `+0` and `-0` values, but we can distinguish these two by computing `1/value` and checking if value is `+Inf` or `-Inf`.
4. Since `1 <= 1.mantissa < 2` we can get value of exponent using `Math.log2` e.g. `Math.floor(Math.log2(666.0)) = 9` so exponent is `exponent - 1023 = 9` and `exponent = 1032`, which in binary is `(1032).toString(2) = "10000001000"`
5. After we get exponent we can scale number to zero exponent without changing mantissa, `value = value / Math.pow(2, Math.floor(Math.log2(666.0)))`, now value represents number `(-1)^sign * (1.mantissa)`. If we ignore sign and multiply that by `2^52` we get integer value that have same bits as 1.mantissa: `((666 / Math.pow(2, Math.floor(Math.log2(666)))) * Math.pow(2, 52)).toString(2) = "10100110100000000000000000000000000000000000000000000"` (we must ignore leading 1).
6. After some string concat's you will get what you want

This is only proof of concept, we didn't discuss denormalized numbers or special values such as NaN - but I think it can be expanded to account for these cases too.

@bensiu answers is fine, but if find yourself using some old JS interpreter you can use this approach.

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