The magic depends on your platform.

One possibility is that your CPU has a special instruction to copy floating point numbers into integral registers.

Of course someone has to design these CPUs, so this is not really an explanation for the algorithm at hand.

A platform might be using a floating point format that goes like this (actually, this is a fixed-point format for the sake of example):

```
[sIIIIFFFF]
```

where `s`

is the sign, the `I`

s are the part before the dot, the `F`

s are the part after the dot, e.g. (dot is virtual and only for presentation)

```
- 47.5000
[sIIII.FFFF]
```

in this case conversion is almost trivial and can be implemented using bitshifting:

```
-47.5000
>> 4
---------------
-47
```

And like in this example, commodity C++ implementations use a floating point representation often referred to as IEEE Floating Point, see also IEEE 754-1985. These are more complicated than fixed-point numbers, as they really designate a simple formula of the form _s*m^{n}, however, they *have* a well defined interpretation and you can unfold them into something more suitable.