Getting floats out of a shader in the browser is actually pretty easy, the constraint being 1 float per pixel though.

We convert 4 ints to 1 float (r: int, g: int, b: int, a: int) -> (rgba: float).

Thanks IEEE

```
float random(vec2 seed) {
return fract(cos(mod(123456780., 1024. * dot(seed / time, vec2(23.1406926327792690, 2.6651441426902251)))));
}
float shift_right(float v, float amt) {
v = floor(v) + 0.5; return floor(v / exp2(amt));
}
float shift_left(float v, float amt) {
return floor(v * exp2(amt) + 0.5);
}
float mask_last(float v, float bits) {
return mod(v, shift_left(1.0, bits));
}
float extract_bits(float num, float from, float to) {
from = floor(from + 0.5); to = floor(to + 0.5);
return mask_last(shift_right(num, from), to - from);
}
vec4 encode_float(float val) {
if (val == 0.0) return vec4(0, 0, 0, 0);
float sign = val > 0.0 ? 0.0 : 1.0;
val = abs(val);
float exponent = floor(log2(val));
float biased_exponent = exponent + 127.0;
float fraction = ((val / exp2(exponent)) - 1.0) * 8388608.0;
float t = biased_exponent / 2.0;
float last_bit_of_biased_exponent = fract(t) * 2.0;
float remaining_bits_of_biased_exponent = floor(t);
float byte4 = extract_bits(fraction, 0.0, 8.0) / 255.0;
float byte3 = extract_bits(fraction, 8.0, 16.0) / 255.0;
float byte2 = (last_bit_of_biased_exponent * 128.0 + extract_bits(fraction, 16.0, 23.0)) / 255.0;
float byte1 = (sign * 128.0 + remaining_bits_of_biased_exponent) / 255.0;
return vec4(byte4, byte3, byte2, byte1);
}
```

Usage:

Shader:

```
outputcolor = encode_float(420.420f);
```

JavaScript:

```
// convert output to floats
output = new Float32Array(output.buffer);
```