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OK, guys, I know what I want to do, but I don't know if it already exists (as a function or theoretically) or how to phrase it, so I need your help :

  • Let's say we've got a binary number : (msb)10101110(lsb)
  • Starting from bit X, I want to zero-out all other bits (going left), as soon as the first zero bit is encountered.
  • Do that as fast as possible, with the absolute minimum number of operations and CPU cycles needed

An example :

  • Number = 10101110, Starting position = 1 (bit at place 1 = 1)
  • position++ - bit at place 2 = 1, keep going
  • position++ - bit at place 3 = 1, keep going
  • position++ - bit at place 4 = 0, oops... zero encountered... now, everything has to be zero-ed out.

So, the final result of our imaginary function CROPLEFT(X,POS), where X=10101110, and POS=1, would return 00001110.

Any ideas?

share|improve this question
@MitchWheat Trust me, I've covered a whole notebook full of sketches for a wide variety of extreme bitmap manipulations. The thing is all I can think of this one includes a loop (which I most definitely would prefer to avoid). – Dr.Kameleon Dec 15 '12 at 5:16
@MitchWheat He says it's probably not the fastest way. And I agree with him. – Mysticial Dec 15 '12 at 5:18
@MitchWheat This is going to be performed some million times, so it'll definitely kill speed, that's why. – Dr.Kameleon Dec 15 '12 at 5:19
@MitchWheat Per second. (along with a dozen other calculations) :-) – Dr.Kameleon Dec 15 '12 at 5:20
@MitchWheat OK, no need to be secretive: It's part of my move-generation algorithm for a chess engine project of mine. So, if you've ever played with chess programming and bitmaps, you know what I'm talking about... ;-) – Dr.Kameleon Dec 15 '12 at 5:23

4 Answers 4

up vote 12 down vote accepted

Piece of cake.

y = ~x;    // We like working with 1's, not 0's.
y &= -y;   // Mask off all but the lowest-set bit
x &= y-1;  // Make a mask for the bits below that and apply it.

and with the position parameter added:

y = ~x & -1U<<pos; // Change 1U to a larger type if needed.
y &= -y;
x &= y-1;

The key ingredient is the second line and the fact that you can replace a value y with just its lowest set bit by applying logical and against -y. Sadly there's no such luck for getting the highest-set bit, unless you have a special cpu instruction for it, so you're lucky that your problem called for lowest.

share|improve this answer
Woah, a bit of explanation and I'll upvote. :) – Mysticial Dec 15 '12 at 5:19
I think you're missing the "starting at position X" part. Although it's a trivial change. – rici Dec 15 '12 at 5:20
Crazy! Was that so simple? Yep, an explanation would be ideal; I'll test it and I'll accept it is asap. – Dr.Kameleon Dec 15 '12 at 5:20
@rici: Yes, I missed that detail. Is it okay to leave it as an exercise for OP? :-) – R.. Dec 15 '12 at 5:21
I went ahead and just added it. – R.. Dec 15 '12 at 5:33

OK, what the heck:

return x & ((x ^ (x + (1UL << POS))) | ((1UL << POS) - 1))

For what it's worth, both of them compiled with gcc-4.7 -O3. R..'s on the left, mine on the right: (using unsigned long and 1UL in both of them)

        .p2align 4,,15                          .p2align 4,,15
        .globl  zapleft                         .globl  zapleft2
        .type   zapleft, @function              .type   zapleft2, @function
zapleft:                                zapleft2:           
.LFB0:                                  .LFB1:
        .cfi_startproc                          .cfi_startproc
        movl    %esi, %ecx                      movl    %esi, %ecx
        movq    %rdi, %rax                      movl    $1, %edx
        movq    $-1, %rdx                       salq    %cl, %rdx
        salq    %cl, %rdx                       leaq    (%rdx,%rdi), %rax
        notq    %rax                            subq    $1, %rdx
        andq    %rax, %rdx                      xorq    %rdi, %rax
        movq    %rdx, %rax                      orq     %rdx, %rax
        negq    %rax                            andq    %rdi, %rax
        andq    %rdx, %rax                      ret
        subq    $1, %rax                        .cfi_endproc
        andq    %rdi, %rax              .LFE1:
        ret                             .size   zapleft2, .-zapleft2
        .size   zapleft, .-zapleft
share|improve this answer
note: untested. Sorry – rici Dec 15 '12 at 5:28
I kinda cheated scooping you by only reading half the problem before I answered... ;-) – R.. Dec 15 '12 at 5:28
for x=10101110 and POS=1, this returns 10100000 (actually the opposite thing) – Dr.Kameleon Dec 15 '12 at 5:30
@Dr.Kameleon: parenthesis error. fixed. – rici Dec 15 '12 at 5:37
OK, just re-tested it. And I confirm : it works. Guess I'll have to run some profiling tests to see which version runs faster... Thanks a million for the all the effort! :-) – Dr.Kameleon Dec 15 '12 at 5:39
CROPLEFT(int X,int POS) {

    int mask = 1 << POS;

    while (X & mask)
        mask <<= 1;

    return (X & (mask - 1));
share|improve this answer
This is pretty much identical to what I had written myself, but decided to avoid, because of that loop thing. Thanks a lot buddy, anyway... :-) – Dr.Kameleon Dec 15 '12 at 5:32
thanks buddy :-) – Adeel Ahmed Dec 15 '12 at 5:35

replace trailing zeroes by ones:

x = x | (x-1);

replace trailing ones by zeroes:

x = x & (x+1);

EDIT: Oups, it seems I misread the question, above code zeroes the right bits, not the left bits !

To zero the left bit, we would need a final XOR operation:

y = x | (x-1);
y = y & (y+1);
y = x ^ y;

EDIT 2 About the start position POS

We just have to zero out the rightmost POS bits in a first step.

y = x & (-1U<<pos);
y = y | (y-1);
y = y & (y+1);
y = x ^ y;

EDIT 3 Above solution ignore the first group of zeroes if they are encountered at POS.
If this does not answer the question, then the code will be shorter, but very much like the one of rci now:

y = x | ((1U<<pos)-1); // fill trailing positions with ones
y = y & (y+1);         // replace trailing ones by zeroes
y = x ^ y;             // modify leading bits rather than trailing ones
share|improve this answer
Since I've got the checker from yesterday, I checked yours, too. It works :) It's ten instructions, one longer than mine but two shorter than @R's – rici Dec 16 '12 at 2:34
@rici our code are almost the same, my additional step is probably a miss-interpretation of the question because i ignore first group zeroes encountered at POS – aka.nice Dec 16 '12 at 12:24

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