# find the index of the highest bit set of a 32-bit number without loops obviously

Here's a tough one(atleast i had a hard time :P):

find the index of the highest bit set of a 32-bit number without using any loops.

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Of course the obvious answer is to just use 32 if-statements no? –  Mysticial Jan 28 '12 at 0:25
See here for some ideas: stackoverflow.com/q/8991024/922184 –  Mysticial Jan 28 '12 at 0:26
Or unrolled loops. –  Daniel Fischer Jan 28 '12 at 0:28
Recursion allowed? –  paislee Jan 28 '12 at 0:33
Possible duplicate: stackoverflow.com/questions/671815/… –  500 - Internal Server Error Jan 28 '12 at 0:39

With recursion:

``````int firstset(int bits) {
return (bits & 0x80000000) ? 31 : firstset((bits << 1) | 1) - 1;
}
``````
• Assumes `[31,..,0]` indexing
• Returns -1 if no bits set
• `| 1` prevents stack overflow by capping the number of shifts until a `1` is reached (32)
• Not tail recursive :)
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I do not understand the |1)-1 part. why are you doing that ? –  Kshitij Banerjee Jan 31 '12 at 12:06
@KshitijBanerjee this sets index of 0 to one after every shift. Otherwise you'll shift forever if the number is zero. –  paislee Jan 31 '12 at 15:35

You could do it like this (not optimised):

``````int index = 0;
uint32_t temp = number;

if ((temp >> 16) != 0) {
temp >>= 16;
index += 16;
}

if ((temp >> 8) != 0) {
temp >>= 8
index += 8;
}

...
``````
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Compiler will probably store the result of the right shift, but just in case, I would do if ((temp2 = temp >> 16) != 0) { temp = temp2; ... –  Paul Chernoch Apr 4 '12 at 12:30

Floor of logarithm-base-two should do the trick (though you have to special-case 0).

``````Floor of log base 2 of 0001 is 0 (bit with index 0 is set).
"           "      of 0010 is 1 (bit with index 1 is set).
"           "      of 0011 is 1 (bit with index 1 is set).
"           "      of 0100 is 2 (bit with index 2 is set).
and so on.
``````

On an unrelated note, this is actually a pretty terrible interview question (I say this as someone who does technical interviews for potential candidates), because it really doesn't correspond to anything you do in practical programming.

Your boss isn't going to come up to you one day and say "hey, so we have a rush job for this latest feature, and it needs to be implemented without loops!"

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and how does that work ? –  Kshitij Banerjee Jan 28 '12 at 0:28
I am pretty sure calculating log is more expensive than 32 shifts! –  ElKamina Jan 28 '12 at 0:28
and does'nt log use looping internally? –  Kshitij Banerjee Jan 28 '12 at 0:30
@ElKamina - The question didn't ask for it to be fast. Kshitij - most code uses looping internally. –  Amber Jan 28 '12 at 0:32
Also, calculating a logarithm is almost certainly faster than calling a recursive function up to 32 times, due to function call overhead. –  Amber Jan 28 '12 at 0:40

this can be done as a binary search, reducing complexity of O(N) (for an N-bit word) to O(log(N)). a possible implementation is:

``````int highest_bit_index(uint32_t value)
{
if(value == 0) return 0;
int depth = 0;
int exponent = 16;

while(exponent > 0)
{
int shifted = value >> (exponent);
if(shifted > 0)
{
depth += exponent;
if(shifted == 1) return depth + 1;
value >>= exponent;
}
exponent /= 2;
}

return depth + 1;
}
``````

the input is a 32 bit unsigned integer. it has a loop that can be converted into 5 levels of if-statements , therefore resulting in 32 or so if-statements. you could also use recursion to get rid of the loop, or the absolutely evil "goto" ;)

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Let n - Decimal number for which bit location to be identified start - Indicates decimal value of ( 1 << 32 ) - 2147483648 bitLocation - Indicates bit location which is set to 1

``````public int highestBitSet(int n, long start, int bitLocation)
{
if (start == 0)
{
return 0;
}
if ((start & n) > 0)
{
return bitLocation;
}
else
{
return highestBitSet(n, (start >> 1), --bitLocation);
}
}

long i = 1;
long startIndex = (i << 31);
int bitLocation = 32;
int value = highestBitSet(64, startIndex, bitLocation);
System.out.println(value);
``````
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``````int high_bit_set(int n, int pos)
{
if(pos<0)
return -1;
else
return (0x80000000 & n)?pos:high_bit_set((n<<1),--pos);
}

main()
{
int n=0x23;
int high_pos = high_bit_set(n,31);
printf("highest index = %d",high_pos);
}
``````

From your main call function `high_bit_set(int n , int pos)` with the input value `n`, and default `31` as the highest position. And the function is like above.

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Paislee's solution is actually pretty easy to make tail-recursive, though, it's a much slower solution than the suggested floor(log2(n));

``````int firstset_tr(int bits, int final_dec) {

// pass in 0 for final_dec on first call, or use a helper function

if (bits & 0x80000000) {
return 31-final_dec;
} else {
return firstset_tr( ((bits << 1) | 1), final_dec+1 );
}
}
``````

This function also works for other bit sizes, just change the check, e.g.

``````if (bits & 0x80) {   // for 8-bit
return 7-final_dec;
}
``````
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well from what I know the function Log is Implemented very efficiently in most programming languages, and even if it does contain loops , it is probably very few of them , internally So I would say that in most cases using the log would be faster , and more direct. you do have to check for 0 though and avoid taking the log of 0, as that would cause the program to crash.

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