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i am interested, how optimal way is calculate number of bits set in byte by this way

template< unsigned char byte > class BITS_SET
    enum {
     B0 = (byte & 0x01) ? 1:0,
     B1 = (byte & 0x02) ? 1:0,
     B2 = (byte & 0x04) ? 1:0,
     B3 = (byte & 0x08) ? 1:0,
     B4 = (byte & 0x10) ? 1:0,
     B5 = (byte & 0x20) ? 1:0,
     B6 = (byte & 0x40) ? 1:0,
     B7 = (byte & 0x80) ? 1:0
 enum{RESULT = B0+B1+B2+B3+B4+B5+B6+B7};

maybe it is optimal when value of byte is known at run-time yes?is it recomended use this in code?

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This is called a population count and it can be done much more efficiently than testing one bit at a time. On x86 it can be done with a single instruction. On other architectures it can be done with a few instructions. –  Paul R Mar 30 '12 at 20:28
@PaulR, the template solution proposed would calculate at compile time, which would take less than one instruction at run-time! –  Mark Ransom Mar 30 '12 at 20:32
Ah - sorry - missed the point of the question ! –  Paul R Mar 30 '12 at 20:34
@PaulR, the question is a bit confusing - it shows code that would only work at compile time but asks if it would be optimal at run time. I assume that English is not the asker's native language. –  Mark Ransom Mar 30 '12 at 20:41
yes sure ,it is not my native language,i am from georgia,but i didn't understand why you mentioned it? –  dato datuashvili Mar 30 '12 at 20:47
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5 Answers

up vote 3 down vote accepted

For 8-bit values, just use a 256-element lookup table.

For larger sized inputs, it's slightly less trivial. Sean Eron Anderson has several different functions for this on his Bit Twiddling Hacks page, all with different performance characteristics. There is not one be-all-end-all-fastest version, since it depends on the nature of your processor (pipeline depth, branch predictor, cache size, etc.) and the data you're using.

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For just a single byte value, the fastest way is to store the answer in an 256 byte array that you index with the value. For example, bits_set[] = {0, 1, 1, 2, ...

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thanks for reply –  dato datuashvili Mar 30 '12 at 20:26
With the speed of today's processors and the comparative slowness of memory, I'd have to see a shootout between a lookup table and some bit-twiddling code before I'd declare the lookup to be the "fastest". –  Mark Ransom Mar 30 '12 at 20:31
If you don't feel like making a 256 element array, you could instead make a 16 element array, and bitshift the second half. –  Matthew Mar 30 '12 at 20:39
@MarkRansom, that's possible. Actually some CPUs have an assembly instruction that counts bits set in a single cycle. But also, I spend a lot of time on embedded systems that have single cycle access to all their (small amount of) memory. –  TJD Mar 30 '12 at 20:39
Don't be so sure the "bitcount" machine instruction operates in a single clock cycle. Whether it does depends on the specific microarchitecture, and more likely on whether the chip is used by the NSA or not :-} –  Ira Baxter Mar 30 '12 at 20:42
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int count(int a){ return a == 0 ? 0 : 1 + count(a&(a-1)); }
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would not recursively calling function increases speed of function exponential?maybe it is better using while loop? –  dato datuashvili Mar 30 '12 at 20:32
Modern compilers are optimizing such simple functions to "non-recursive" versions. –  Jarosław Gomułka Mar 30 '12 at 20:34
This still takes N steps if there are N bits in the word. If N=32 this can take 32 steps with a conditional branch in each one. Bad news. Better to use a logarithmic summing; for N~~32 you get constant time. The BitHacks code I quoted takes 14 machine instructions, many of them single clocks on modern CPUs. –  Ira Baxter Mar 31 '12 at 1:18
This takes 2 * number_of_set_bits + 1. So for 10000010 it will need 5 instructions. But in general, solution from BitHacks is definitly better. –  Jarosław Gomułka Mar 31 '12 at 6:39
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The usual answer for "fastest way to do bitcount" is "look up the byte in an array". That kind of works for bytes, but you pay an actual memory access for it. If you only do this once in awhile, it is likely the fastest, but then you don't need the fastest if you only do it once in awhile.

If you do it a lot, you are better off batching up bytes into words or doublewords, and doing fast bitcount operations on these. These tend to be pure arithmetic, since you can't realistically lookup a 32 bit value in an array to get its bitcount. Instead you combine values by shifting and masking in clever ways.

A great source of clever tricks for doing this is Bit Hacks.

Here is the scheme published there for counting bits in 32 bit words in C:

 unsigned int v; // count bits set in this (32-bit value)
 unsigned int c; // store the total here

 v = v - ((v >> 1) & 0x55555555);                    // reuse input as temporary
 v = (v & 0x33333333) + ((v >> 2) & 0x33333333);     // temp
 c = ((v + (v >> 4) & 0xF0F0F0F) * 0x1010101) >> 24; // count
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so it means that,my code is not protable yes?generally my question refers which one is better if compiler supports template programming? –  dato datuashvili Mar 30 '12 at 20:49
Your target computer has a native word size easily known to your application at compile time. If you predicate your code on number of bits processed, you will have at most 4 routines in the forseeable future: one for 8, 16, 32, 64 bits (you decide if you think 128 bits will happen soon). I think that's pretty portable, and it will be fast on whichever target architecture you've compiled for. [It isn't clear to me that you want to use template metaprogramming for this]. –  Ira Baxter Mar 30 '12 at 21:21
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Why not do a left shift and mask off the rest?

int countBits(unsigned char byte){
    int count = 0;
    for(int i = 0; i < 8; i++)
        count += (byte >> i) & 0x01; // Shift bit[i] to the first position, and mask off the remaining bits.
    return count;

This can easily be adapted to handle ints of any size by simply calculating how many bits there is in the value being counted, then use that value in the counter loop. This is all very trivial to do.

int countBits(unsigned long long int a){
    int count = 0;
    for(int i = 0; i < sizeof(a)*8; i++)
        count += (a >> i) & 0x01;
    return count;
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