I'm really close to finally breaking this thing, but still I have no idea how to watch for the overflow on this.

```
int multFiveEighths(int x) {
int y=((x<<2)+x);
int f=((y>>3)+1);
int z=(y>>3);
return f + ((~!(x>>31&1)+1) & (z+~f+1));
```

I multiply by 5/8, and use a conditional bitwise to say: If the sign bit is 1 (number is negative), use f, else z.

A part of this is to include overflow behavior like the C expression (x*5/8)

So how do I include the overflow behavior? I can only use these ops: ! ~ & ^ | + << >> No loops, no casting, no declaring of functions. I'm so close that it's painful.

EDIT

I have to implement rounding towards zero.

overflow of signed integers, and left-shifting of negative integers, are undefined behaviour. So the problem is not well posed (I'd love to have a word with your "professor" about that!). – Daniel Fischer Sep 26 '12 at 18:53`((~!(x>>31&1)+1)`

This means shift x right by 31, needlessly mask out the lsb giving you the same number as you had before & operator, either 1 or 0, then inverse the 1 or 0, then set all bits to their opposite. At this point you either have 0xFFFFFFFE or 0xFFFFFFFF. On top of that useless binary number you add 1, ending up with either 0xFFFFFFFF or overflow. Don't write obfuscated one-line messes like this! – Lundin Sep 26 '12 at 19:07