Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I want a simple C function which will return true if the n-th bit in a byte is set to 1'.else it will return false.This is a critical function in terms of execution time.So I am thinking of the most optimal way to do that.

share|improve this question
duplicate, stackoverflow.com/questions/523724/… – blueshift Jan 19 '12 at 4:15
That's not a dupe, it specifically asked about non-bitshift methods. – paxdiablo Jan 19 '12 at 4:20
up vote 23 down vote accepted

The following function can do what you need:

int isNthBitSet (unsigned char c, int n) {
    static unsigned char mask[] = {128, 64, 32, 16, 8, 4, 2, 1};
    return ((c & mask[n]) != 0);

This assumes 8-bit bytes (not a given in C) and the zeroth bit being the highest order one. If those assumption are incorrect, it simply comes down to expanding and/or re-ordering the mask array.

No error checking is done since you cited speed as the most important consideration. Do not pass in an invalid n, that'll be undefined behaviour.

At insane optimisation level -O3, gcc gives us:

isNthBitSet:    pushl   %ebp
                movl    %esp, %ebp
                movl    12(%ebp), %eax
                movzbl  8(%ebp), %edx
                popl    %ebp
                testb   %dl, mask(%eax)
                setne   %al
                movzbl  %al, %eax
mask:           .byte   -128, 64, 32, 16, 8, 4, 2, 1

which is pretty small and efficient. And if you make it static and suggest inlining, or force it inline as a macro definition, you can even bypass the cost of a function call.

Just make sure you benchmark any solution you're given, including this one (a). The number one mantra in optimisation is "Measure, don't guess!"

If you want to know how the bitwise operators work, see here. The simplified AND-only version is below.

The AND operation & will set a bit in the target only if both bits are set in the tewo sources. The relevant table is:

AND | 0 1
 0  | 0 0
 1  | 0 1

For a given char value, we use the single-bit bit masks to check if a bit is set. Let's say you have the value 13 and you want to see if the third-from-least-significant bit is set.

Decimal  Binary
  13     0000 1101
   4     0000 0100 (the bitmask for the third-from-least bit).
         0000 0100 (the result of the AND operation).

You can see that all the zero bits in the mask result in the equivalent result bits being zero. The single one bit in the mask will basically let the equivalent bit in the value flow through to the result. The result is then zero if the bit we're checking was zero, or non-zero if it was one.

That's where the expression in the return statement comes from. The values in the mask lookup table are all the single-bit masks:

Decimal  Binary
  128    1000 0000
   64    0100 0000
   32    0010 0000
   16    0001 0000
    8    0000 1000
    4    0000 0100
    2    0000 0010
    1    0000 0001

(a) I know how good I am, but you don't :-)

share|improve this answer
Lookup table, yes! But I'd expect bit 0 to be the least significant bit in the byte, and so would have reversed the order of mask[] intialized entries. – hardmath Jan 19 '12 at 4:04
@blueshift, you only write it once, or zero times if you simply steal this code :-) And I know about bit shifting, I was probably doing it when you were still a suckling :-) Others had already posted the bitshift solution, I just offered a different approach. – paxdiablo Jan 19 '12 at 4:17
@blueshift, that's your right, of course. I was simply explaining. And you never assume something is faster or slower, you always check. I'd be more prone to listen to you if you had done so. Benchmarking this function on my machine at optimisation -O0 (none) got through a million checks in four thousandths of a second, that's two hundred and fifty million times a second (although, granted, it's a grunty octo-core development box). If you need better than that then, by all means, choose a faster solution. Personally, I doubt it would be necessary except in the most extreme cases. – paxdiablo Jan 19 '12 at 7:06
You can safely omit the != 0 part in your return statement, since c & mask[n] by itself already yields the desired return value. If I'm not mistaken, this will save two of your machine instructions, setne and movzbl. – Philip Jan 19 '12 at 8:54
@Philip, sometimes I prefer to optimise for readability :-) I'd be surprised if that change would result in changes to the underlying assembly but, just checking, it does. The testb/setne is replaced with an andb - whether that's an improvement, I couldn't say off the top of my head but it probably is. I though gcc was smarter than that. – paxdiablo Jan 19 '12 at 9:14

Just check the value of (1 << bit) & byte. If it is nonzero, the bit is set.

share|improve this answer

Let the number be num. Then:

return ((1 << n) & num);
share|improve this answer
bool isSet(unsigned char b, unsigned char n) { return b & ( 1 << n); }
share|improve this answer
I understand unsigned char for the byte value, but n? That seems odd. – robjb Jan 19 '12 at 4:05
well n can't be bigger than a byte... it doesn't really matter much – Keith Nicholas Jan 19 '12 at 7:50
Since unsigned char does not constrain n to only valid values, I would argue it's a [small] "code smell" with regards to readability. Of course, that's debatable and I'll agree it doesn't matter much. – robjb Jan 19 '12 at 16:26
int main()
   unsigned int n,a;
   printf("enter value for n\n");
   pintf("enter value for a:\n");
   a= a|(((~((unsigned)0))>>(sizeof(int)*8-1))<<n);
share|improve this answer

Another approach would be

    bool isNthBitSet (unsigned char c, int n) {
      return (1 & (c >> n));
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.