I found a piece of code to do the serialization of float numbers on network.

```
uint32_t htonf(float f)
{
uint32_t p;
uint32_t sign;
if (f < 0) { sign = 1; f = -f; }
else { sign = 0; }
p = ((((uint32_t)f)&0x7fff)<<16) | (sign<<31); // whole part and sign
p |= (uint32_t)(((f - (int)f) * 65536.0f))&0xffff; // fraction
return p;
}
```

*Spec: The above code is sort of a naive implementation that stores a float in a 32-bit number. The high bit (31) is used to store the sign of the number ("1" means negative), and the next seven bits (30-16) are used to store the whole number portion of the float. Finally, the remaining bits (15-0) are used to store the fractional portion of the number.*

The others are fine but I cannot figure out what this means. How does this get us the 15-0 bits? Why do we need the "*65536.0f"?

```
p |= (uint32_t)(((f - (int)f) * 65536.0f))&0xffff
```

Anyone can explain on this?