This is a homework problem that I'm working on at the moment. What we have to do is look at a passed 32-bit int x and return the fewest bits it would take to store that value in 2s complement.
howManyBits(0) = 1; howManyBits(-1) = 1; howManyBits(7) = 4; howManyBits(-10) = 5;
The trouble comes in that I can only use bitwise operators to find this, I cannot have constants larger than a byte, and I cannot have more than 90 operations total. At the moment, I am able to bit smear a 1 from the most significant bit all the way right, and then I count up every 1 in that. However, since it is a 32-bit int, and I have to shift the int over 1 to the right every time I check for a bit flipped on, the process of counting up the bits takes 90 operations on its own, and since the bit smearing took 20, I am well over the maximum operations.
Also, I am not aloud to use conditionals or loops in my solution.
I know that if I could figure out a log_2 algorithm that could solve it, but I haven't been able to figure that out in bitwise operators only either.
All I would like is a hint at/explanation of a process that would do it in fewer operations, not an actual code solution. Thanks!