I'm writing a chess program and I use 64bit bitmask to represent if there is a piece on each square of the board. Whenever I need to iterate through the board and do something for all pieces, I look at the bitmask, find the "index" (shift amount) of the bits set to 1, and then look at the board to see which piece it is.

That procedure may or may not be the best, but I'm finding that this function (on_bits) which extracts the bits takes up to 5% of the program running time! Even when taking the amount of times it gets called into account, it's still pretty slow. So I'm looking for a good solution to this. I'm posting both of my attempts.

Original:

```
int on_bits(u64 x, u8 *arr) {
int ret = 0;
int i = 0;
while (x) {
while (!(x&0xffffffff)) {
x >>= 32;
i += 32;
}
while (!(x&0xff)) {
x >>= 8;
i += 8;
}
while (!(x&1)) {
x >>= 1;
i++;
}
arr[ret++] = i;
x >>= 1;
i++;
}
return ret;
}
```

New version, runs faster with compiler optimizations and unrolling. Around 2x faster than previous one.

```
#define B(n) (((u64)0xff)<<((8*n)))
#define b(n) (((u64)1<<(n)))
int on_bits(u64 x, u8 *arr) {
int ret = 0;
if (x & (B(0) | B(1) | B(2) | B(3))) {
if (x & B(0)) {
if (x & b(0)) arr[ret++] = 0;
if (x & b(1)) arr[ret++] = 1;
if (x & b(2)) arr[ret++] = 2;
if (x & b(3)) arr[ret++] = 3;
if (x & b(4)) arr[ret++] = 4;
if (x & b(5)) arr[ret++] = 5;
if (x & b(6)) arr[ret++] = 6;
if (x & b(7)) arr[ret++] = 7;
}
if (x & B(1)) {
if (x & b(8)) arr[ret++] = 8;
if (x & b(9)) arr[ret++] = 9;
if (x & b(10)) arr[ret++] = 10;
if (x & b(11)) arr[ret++] = 11;
if (x & b(12)) arr[ret++] = 12;
if (x & b(13)) arr[ret++] = 13;
if (x & b(14)) arr[ret++] = 14;
if (x & b(15)) arr[ret++] = 15;
}
if (x & B(2)) {
if (x & b(16)) arr[ret++] = 16;
if (x & b(17)) arr[ret++] = 17;
if (x & b(18)) arr[ret++] = 18;
if (x & b(19)) arr[ret++] = 19;
if (x & b(20)) arr[ret++] = 20;
if (x & b(21)) arr[ret++] = 21;
if (x & b(22)) arr[ret++] = 22;
if (x & b(23)) arr[ret++] = 23;
}
if (x & B(3)) {
if (x & b(24)) arr[ret++] = 24;
if (x & b(25)) arr[ret++] = 25;
if (x & b(26)) arr[ret++] = 26;
if (x & b(27)) arr[ret++] = 27;
if (x & b(28)) arr[ret++] = 28;
if (x & b(29)) arr[ret++] = 29;
if (x & b(30)) arr[ret++] = 30;
if (x & b(31)) arr[ret++] = 31;
}
}
if (x & (B(4) | B(5) | B(6) | B(7))) {
if (x & B(4)) {
if (x & b(32)) arr[ret++] = 32;
if (x & b(33)) arr[ret++] = 33;
if (x & b(34)) arr[ret++] = 34;
if (x & b(35)) arr[ret++] = 35;
if (x & b(36)) arr[ret++] = 36;
if (x & b(37)) arr[ret++] = 37;
if (x & b(38)) arr[ret++] = 38;
if (x & b(39)) arr[ret++] = 39;
}
if (x & B(5)) {
if (x & b(40)) arr[ret++] = 40;
if (x & b(41)) arr[ret++] = 41;
if (x & b(42)) arr[ret++] = 42;
if (x & b(43)) arr[ret++] = 43;
if (x & b(44)) arr[ret++] = 44;
if (x & b(45)) arr[ret++] = 45;
if (x & b(46)) arr[ret++] = 46;
if (x & b(47)) arr[ret++] = 47;
}
if (x & B(6)) {
if (x & b(48)) arr[ret++] = 48;
if (x & b(49)) arr[ret++] = 49;
if (x & b(50)) arr[ret++] = 50;
if (x & b(51)) arr[ret++] = 51;
if (x & b(52)) arr[ret++] = 52;
if (x & b(53)) arr[ret++] = 53;
if (x & b(54)) arr[ret++] = 54;
if (x & b(55)) arr[ret++] = 55;
}
if (x & B(7)) {
if (x & b(56)) arr[ret++] = 56;
if (x & b(57)) arr[ret++] = 57;
if (x & b(58)) arr[ret++] = 58;
if (x & b(59)) arr[ret++] = 59;
if (x & b(60)) arr[ret++] = 60;
if (x & b(61)) arr[ret++] = 61;
if (x & b(62)) arr[ret++] = 62;
if (x & b(63)) arr[ret++] = 63;
}
}
return ret;
}
```

(There's no doubt which one is simpler, though :))

So, any ideas to improve this? Or is it a dead end? For reference, the function gets called 30 millions times in a very short benchmark.

Thanks

EDIT: It's not a requirement that the output array is sorted. Also, a super fast 'which is the first bit set' function can be ok, but my attempts at that were super slow compared to this (I used the fls function from the Linux kernel)