-rw-r--r-- 3031 libmceliece-20230612/crypto_kem/6688128/avx/syndrome_asm.q raw
int64 b64 int64 synd int64 addr int64 c int64 c_all int64 row int64 p int64 e int64 s reg256 pp reg256 ee reg256 ss int64 buf_ptr stack256 buf enter syndrome_asm input_1 += 1044364 buf_ptr = &buf row = 1664 loop: row -= 1 ss = mem256[ input_1 + 0 ] ee = mem256[ input_2 + 208 ] ss &= ee pp = mem256[ input_1 + 32 ] ee = mem256[ input_2 + 240 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 64 ] ee = mem256[ input_2 + 272 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 96 ] ee = mem256[ input_2 + 304 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 128 ] ee = mem256[ input_2 + 336 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 160 ] ee = mem256[ input_2 + 368 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 192 ] ee = mem256[ input_2 + 400 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 224 ] ee = mem256[ input_2 + 432 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 256 ] ee = mem256[ input_2 + 464 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 288 ] ee = mem256[ input_2 + 496 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 320 ] ee = mem256[ input_2 + 528 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 352 ] ee = mem256[ input_2 + 560 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 384 ] ee = mem256[ input_2 + 592 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 416 ] ee = mem256[ input_2 + 624 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 448 ] ee = mem256[ input_2 + 656 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 480 ] ee = mem256[ input_2 + 688 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 512 ] ee = mem256[ input_2 + 720 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 544 ] ee = mem256[ input_2 + 752 ] pp &= ee ss ^= pp pp = mem256[ input_1 + 576 ] ee = mem256[ input_2 + 784 ] pp &= ee ss ^= pp buf = ss s = mem64[input_1 + 608] e = mem64[input_2 + 816] s &= e p = mem64[input_1 + 616] e = mem64[input_2 + 824] p &= e s ^= p p = *(uint32 *)(input_1 + 624) e = *(uint32 *)(input_2 + 832) p &= e s ^= p c_all = count(s) b64 = mem64[ buf_ptr + 0 ] c = count(b64) c_all ^= c b64 = mem64[ buf_ptr + 8 ] c = count(b64) c_all ^= c b64 = mem64[ buf_ptr + 16 ] c = count(b64) c_all ^= c b64 = mem64[ buf_ptr + 24 ] c = count(b64) c_all ^= c addr = row (uint64) addr >>= 3 addr += input_0 synd = *(uint8 *) (addr + 0) synd <<= 1 (uint32) c_all &= 1 synd |= c_all *(uint8 *) (addr + 0) = synd input_1 -= 628 =? row-0 goto loop if != ss = mem256[ input_0 + 0 ] ee = mem256[ input_2 + 0 ] ss ^= ee mem256[ input_0 + 0 ] = ss ss = mem256[ input_0 + 32 ] ee = mem256[ input_2 + 32 ] ss ^= ee mem256[ input_0 + 32 ] = ss ss = mem256[ input_0 + 64 ] ee = mem256[ input_2 + 64 ] ss ^= ee mem256[ input_0 + 64 ] = ss ss = mem256[ input_0 + 96 ] ee = mem256[ input_2 + 96 ] ss ^= ee mem256[ input_0 + 96 ] = ss ss = mem256[ input_0 + 128 ] ee = mem256[ input_2 + 128 ] ss ^= ee mem256[ input_0 + 128 ] = ss ss = mem256[ input_0 + 160 ] ee = mem256[ input_2 + 160 ] ss ^= ee mem256[ input_0 + 160 ] = ss s = mem64[ input_0 + 192 ] e = mem64[ input_2 + 192 ] s ^= e mem64[ input_0 + 192 ] = s s = mem64[ input_0 + 200 ] e = mem64[ input_2 + 200 ] s ^= e mem64[ input_0 + 200 ] = s return