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I have a bit-mask of N chars in size, which is statically known (i.e. can be calculated at compile time, but it's not a single constant, so I can't just write it down), with bits set to 1 denoting the "wanted" bits. And I have a value of the same size, which is only known at runtime. I want to collect the "wanted" bits from that value, in order, into the beginning of a new value. For simplicity's sake let's assume the number of wanted bits is <= 32.

Completely unoptimized reference code which hopefully has the correct behaviour:

template<int N, const char mask[N]>
unsigned gather_bits(const char* val)
    unsigned result   = 0;
    char*    result_p = (char*)&result;
    int      pos      = 0;
    for (int i = 0; i < N * CHAR_BIT; i++)
        if (mask[i/CHAR_BIT] & (1 << (i % CHAR_BIT)))
            if (val[i/CHAR_BIT] & (1 << (i % CHAR_BIT)))
                if (pos < sizeof(unsigned) * CHAR_BIT)
                    result_p[pos/CHAR_BIT] |= 1 << (pos % CHAR_BIT);
            pos += 1;
    return result;

Although I'm not sure whether that formulation actually allows access to the contents of the mask at compile time. But in any case, it's available for use, maybe a constexpr function or something would be a better idea. I'm not looking here for the necessary C++ wizardry (I'll figure that out), just the algorithm.

An example of input/output, with 16-bit values and imaginary binary notation for clarity:

mask   = 0b0011011100100110
val    = 0b0101000101110011
wanted = 0b__01_001__1__01_ // retain only those bits which are set in the mask
result = 0b0000000001001101 // bring them to the front
                   ^ gathered bits begin here

My questions are:

  • What's the most performant way to do this? (Are there any hardware instructions that can help?)

  • What if both the mask and the value are restricted to be unsigned, so a single word, instead of an unbounded char array? Can it then be done with a fixed, short sequence of instructions?

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can give a simple example on what you want to do (i.e. input -> output), so that people won't have to decipher the code? –  arrows Jan 7 '13 at 16:54
graphics.stanford.edu/~seander/bithacks.html has several things that could be used as pieces in this and/or inspire techniques to try out. –  aschepler Jan 7 '13 at 17:19
@arrows I have an English description too but OK, in a moment. –  glaebhoerl Jan 7 '13 at 18:15
@aschepler thanks, I already looked at that and didn't see anything obviously relevant, though I only checked the ToC. –  glaebhoerl Jan 7 '13 at 18:15

1 Answer 1

up vote 3 down vote accepted

There will pext (parallel bit extract) that does exactly what you want in Intel Haswell. I don't know what the performance of that instruction will be, probably better than the alternatives though. This operation is also known as "compress-right" or simply "compress", the implementation from Hacker's Delight is this:

unsigned compress(unsigned x, unsigned m) {
   unsigned mk, mp, mv, t; 
   int i; 

   x = x & m;           // Clear irrelevant bits. 
   mk = ~m << 1;        // We will count 0's to right. 

   for (i = 0; i < 5; i++) {
      mp = mk ^ (mk << 1);             // Parallel prefix. 
      mp = mp ^ (mp << 2); 
      mp = mp ^ (mp << 4); 
      mp = mp ^ (mp << 8); 
      mp = mp ^ (mp << 16); 
      mv = mp & m;                     // Bits to move. 
      m = m ^ mv | (mv >> (1 << i));   // Compress m. 
      t = x & mv; 
      x = x ^ t | (t >> (1 << i));     // Compress x. 
      mk = mk & ~mp; 
   return x; 
share|improve this answer
Hmm, that doesn't look like a small number of instructions. :) Bummer. Google turns up a bunch of interesting stuff with the references you provided, so I'll do some more research now that I know what to search for. And hardware support sounds promising. Thanks! –  glaebhoerl Jan 7 '13 at 18:53

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