I'm having some trouble with an exercise in which we must implement functions using only bitwise operators (in C), the unary operators ~ and !, and signed integer variables. We are not allowed to use any conditionals, loops or arbitrary numbers -- hell, we're not even allowed to use minus(-), but there's a really easy workaround for that.
Basically, the task is to count the number of set bits from the most significant bit until it finds an unset bit. I thought I had this all figured out, except I'm having trouble finding and propagating the first non-set bit. My idea was to inverse and propagate the (now) leftmost 1-bit to the right to be able to isolate it and then shift to the right by three (since the isolation will shift it one up), the result should become the number of set 1 bits on the right from doing this.
My biggest obstacle in this is finding a leftmost bit (be it set or unset) and propagating it... Any ideas, hints or clues?
An example of what my theoretical algorithm would do:
1110 0101 1011 1100 // our target 0001 1010 0100 0011 // invert it 0001 1111 1111 1111 // propagate 0001 0000 0000 0000 // magic happens -- isolate the leftmost 1 bit 0000 0100 0000 0000 // shift by >>2 // it's at this point I realize I have no idea what I'm doing anymore // this looks like 2^10 which is a bit too big...
So basically, I have nothing. Can someone please just give me a hint as to what I should be reading about?