Given a pointer to a T, I'd like to determine if the T straddles an N byte aligned address. In practice I really only care about whether 0-5 byte size objects straddle 8 or 16 byte byte boundaries, but I wrote up this general version:

```
template<class T, unsigned long N>
bool straddlesBoundary(T* obj)
{
unsigned long before = (unsigned long)obj & ~(N-1);
unsigned long after = ((unsigned long)obj + sizeof(T) - 1) & ~(N-1);
return before != after;
}
```

Basically, round the address down to the nearest N byte aligned address, then take the pointer increment by the size of T minus one (because T ending right on the next boundary doesn't count as a straddle) and round it down to the nearest N byte aligned address, and if they match you know it doesn't straddle.

Is there a faster way to do this? I just made this up, I don't know if there's a standard check.

Edit: Note, I am assuming T's that are smaller than N.

`#define ~(N-1) BA`

and substuting accordingly would help a little. – Matt Phillips Sep 4 '12 at 22:12`~(N-1)`

isn't a valid macro name and even if it were, replacing it with an undefined name would just make compilation fail. If you meant replacing occurrences of`~(N-1)`

with`BA`

and then adding`#define BA ~(N-1)`

to get the preprocessor to undo the change, then you'll end up with identical code after preprocessing. In any event,`~(N-1)`

is just as much a compile-time constant as`N`

, so there's no need to try to optimise that calculation. – Mike Seymour Sep 4 '12 at 22:27