I assume two's complement 32 bit integers and operators working as in C#.

## How to do the conversion?

```
fixed / 65536.0
```

is correct and easy to understand.

```
(fixed >> 16) + (fixed & 0xffff) / 65536.0
```

Is equivalent to the above for positive integers, but slower, and harder to read. You're basically using the distributive law to separate a single division into two divisions, and write the first one using a bitshift.

For negative integers `fixed & 0xffff`

doesn't give you the fractional bits, so it's not correct for negative numbers.

Look at the raw integer `-1`

which should map to `-1/65536`

. This code returns `65535/65536`

instead.

Depending on your compiler it might be faster to do:

```
fixed * (1/65536.0)
```

But I assume most modern compilers already do that optimization.

## How does signed fixed-point "-0.5" looks like in memory anyway?

Inverting the conversion gives us:

```
RoundToInt(float*65536)
```

Setting `float=-0.5`

gives us: `-32768`

.