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I have to write a function that count the number of bit required to represent an int in 2's complement form. The requirement:

1. can only use: ! ~ & ^ | + << >>
2. no loops and conditional statement
3. at most, 90 operators are used

currently, I am thinking something like this:

int howManyBits(int x) {
   int mostdigit1 = !!(0x80000000 & x);
   int mostdigit2 = mostdigit1 | !!(0x40000000 & x);
   int mostdigit3 = mostdigit2 | !!(0x20000000 & x);
   //and so one until it reach the least significant digit
   return mostdigit1+mostdigit2+...+mostdigit32+1;

However, this algorithm doesn't work. it also exceed the 90 operators limit. any suggestion, how can I fix and improve this algorithm?

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I need a better explanation of what number you want. Suppose the input number is 68 decimal, that is 01000010 binary. What answer do you expect from that? –  Jeppe Stig Nielsen Apr 7 '13 at 20:44

1 Answer 1

up vote 1 down vote accepted

With 2's complement integers, the problem are the negative numbers. A negative number is indicated by the most significant bit: If it is set, the number is negative. The negative of a 2's complement integer n is defined as -(1's complement of n)+1.
Thus, I would first test for the negative sign. If it is set, the number of bits required is simply the number of bits available to represent an integer, e.g. 32 bits. If not, you can simply count the number of bits required by shifting repeatedly n by one bit right, until the result is zero. If n, e.g., would be +1, e.g. 000…001, you had to shift it once right to make the result zero, e.g. 1 times. Thus you need 1 bit to represent it.

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Can't you represent -1 as simply 1 in two's compliment? Which would force 1 to be 01 not merely 1, and so on. –  Patashu Apr 12 '13 at 3:54
You could -1 represent as the integer 1 plus a sign bit. But in this case, the hardware arithmetic gets more complicated. For example, if you represented 1 as (+)1 and -1 as (-)1, adding these 2 numbers would require to check the sign bits first, and then to SUBTRACT the 2nd 1 from the 1st. In 2's complement representation, a hardware adder can simply add 00000001 and 11111111 and will compute the correct result 00000000 (0 in 2's complement representation). –  Reinhard Männer Apr 12 '13 at 18:05

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