I am trying to extract the bits from a float without invoking undefined behavior. Here is my first attempt:

```
unsigned foo(float x)
{
unsigned* u = (unsigned*)&x;
return *u;
}
```

As I understand it, this is not guaranteed to work due to strict aliasing rules, right? Does it work if a take an intermediate step with a character pointer?

```
unsigned bar(float x)
{
char* c = (char*)&x;
unsigned* u = (unsigned*)c;
return *u;
}
```

Or do I have to extract the individual bytes myself?

```
unsigned baz(float x)
{
unsigned char* c = (unsigned char*)&x;
return c[0] | c[1] << 8 | c[2] << 16 | c[3] << 24;
}
```

Of course this has the disadvantage of depending on endianness, but I could live with that.

The union hack is definitely undefined behavior, right?

```
unsigned uni(float x)
{
union { float f; unsigned u; };
f = x;
return u;
}
```

Just for completeness, here is a reference version of `foo`

. Also undefined behavior, right?

```
unsigned ref(float x)
{
return (unsigned&)x;
}
```

So, is it possible to extract the bits from a float (**assuming both are 32 bits wide**, of course)?

EDIT: And here is the `memcpy`

version as proposed by Goz. Since many compilers do not support `static_assert`

yet, I have replaced `static_assert`

with some template metaprogramming:

```
template <bool, typename T>
struct requirement;
template <typename T>
struct requirement<true, T>
{
typedef T type;
};
unsigned bits(float x)
{
requirement<sizeof(unsigned)==sizeof(float), unsigned>::type u;
memcpy(&u, &x, sizeof u);
return u;
}
```