#include "config.h"
#include <stdlib.h>
#if defined(_MSC_VER)
#include <intrin.h>
#else
#include <emmintrin.h>
#include <smmintrin.h>
#endif
#include "parasail.h"
#include "parasail/memory.h"
#include "parasail/internal_sse.h"
#define SG_TRACE
#define SG_SUFFIX _diag_sse41_128_8
#include "sg_helper.h"
static inline void arr_store_si128(
int8_t *array,
__m128i vWH,
int32_t i,
int32_t s1Len,
int32_t j,
int32_t s2Len)
{
if (0 <= i+0 && i+0 < s1Len && 0 <= j-0 && j-0 < s2Len) {
array[1LL*(i+0)*s2Len + (j-0)] = (int8_t)_mm_extract_epi8(vWH, 15);
}
if (0 <= i+1 && i+1 < s1Len && 0 <= j-1 && j-1 < s2Len) {
array[1LL*(i+1)*s2Len + (j-1)] = (int8_t)_mm_extract_epi8(vWH, 14);
}
if (0 <= i+2 && i+2 < s1Len && 0 <= j-2 && j-2 < s2Len) {
array[1LL*(i+2)*s2Len + (j-2)] = (int8_t)_mm_extract_epi8(vWH, 13);
}
if (0 <= i+3 && i+3 < s1Len && 0 <= j-3 && j-3 < s2Len) {
array[1LL*(i+3)*s2Len + (j-3)] = (int8_t)_mm_extract_epi8(vWH, 12);
}
if (0 <= i+4 && i+4 < s1Len && 0 <= j-4 && j-4 < s2Len) {
array[1LL*(i+4)*s2Len + (j-4)] = (int8_t)_mm_extract_epi8(vWH, 11);
}
if (0 <= i+5 && i+5 < s1Len && 0 <= j-5 && j-5 < s2Len) {
array[1LL*(i+5)*s2Len + (j-5)] = (int8_t)_mm_extract_epi8(vWH, 10);
}
if (0 <= i+6 && i+6 < s1Len && 0 <= j-6 && j-6 < s2Len) {
array[1LL*(i+6)*s2Len + (j-6)] = (int8_t)_mm_extract_epi8(vWH, 9);
}
if (0 <= i+7 && i+7 < s1Len && 0 <= j-7 && j-7 < s2Len) {
array[1LL*(i+7)*s2Len + (j-7)] = (int8_t)_mm_extract_epi8(vWH, 8);
}
if (0 <= i+8 && i+8 < s1Len && 0 <= j-8 && j-8 < s2Len) {
array[1LL*(i+8)*s2Len + (j-8)] = (int8_t)_mm_extract_epi8(vWH, 7);
}
if (0 <= i+9 && i+9 < s1Len && 0 <= j-9 && j-9 < s2Len) {
array[1LL*(i+9)*s2Len + (j-9)] = (int8_t)_mm_extract_epi8(vWH, 6);
}
if (0 <= i+10 && i+10 < s1Len && 0 <= j-10 && j-10 < s2Len) {
array[1LL*(i+10)*s2Len + (j-10)] = (int8_t)_mm_extract_epi8(vWH, 5);
}
if (0 <= i+11 && i+11 < s1Len && 0 <= j-11 && j-11 < s2Len) {
array[1LL*(i+11)*s2Len + (j-11)] = (int8_t)_mm_extract_epi8(vWH, 4);
}
if (0 <= i+12 && i+12 < s1Len && 0 <= j-12 && j-12 < s2Len) {
array[1LL*(i+12)*s2Len + (j-12)] = (int8_t)_mm_extract_epi8(vWH, 3);
}
if (0 <= i+13 && i+13 < s1Len && 0 <= j-13 && j-13 < s2Len) {
array[1LL*(i+13)*s2Len + (j-13)] = (int8_t)_mm_extract_epi8(vWH, 2);
}
if (0 <= i+14 && i+14 < s1Len && 0 <= j-14 && j-14 < s2Len) {
array[1LL*(i+14)*s2Len + (j-14)] = (int8_t)_mm_extract_epi8(vWH, 1);
}
if (0 <= i+15 && i+15 < s1Len && 0 <= j-15 && j-15 < s2Len) {
array[1LL*(i+15)*s2Len + (j-15)] = (int8_t)_mm_extract_epi8(vWH, 0);
}
}
#define FNAME parasail_sg_flags_trace_diag_sse41_128_8
parasail_result_t* FNAME(
const char * const restrict _s1, const int _s1Len,
const char * const restrict _s2, const int s2Len,
const int open, const int gap, const parasail_matrix_t *matrix,
int s1_beg, int s1_end, int s2_beg, int s2_end)
{
int32_t N = 0;
int32_t PAD = 0;
int32_t PAD2 = 0;
int32_t s1Len_PAD = 0;
int32_t s2Len_PAD = 0;
int8_t * restrict s1 = NULL;
int8_t * restrict s2B = NULL;
int8_t * restrict _H_pr = NULL;
int8_t * restrict _F_pr = NULL;
int8_t * restrict s2 = NULL;
int8_t * restrict H_pr = NULL;
int8_t * restrict F_pr = NULL;
parasail_result_t *result = NULL;
int32_t i = 0;
int32_t j = 0;
int32_t s1Len = 0;
int32_t end_query = 0;
int32_t end_ref = 0;
int8_t NEG_LIMIT = 0;
int8_t POS_LIMIT = 0;
int8_t score = 0;
__m128i vNegLimit;
__m128i vPosLimit;
__m128i vSaturationCheckMin;
__m128i vSaturationCheckMax;
__m128i vNegInf;
__m128i vOpen;
__m128i vGap;
__m128i vOne;
__m128i vN;
__m128i vGapN;
__m128i vNegOne;
__m128i vI;
__m128i vJreset;
__m128i vMaxHRow;
__m128i vMaxHCol;
__m128i vLastVal;
__m128i vEndI;
__m128i vEndJ;
__m128i vILimit;
__m128i vILimit1;
__m128i vJLimit;
__m128i vJLimit1;
__m128i vIBoundary;
__m128i vTDiag;
__m128i vTIns;
__m128i vTDel;
__m128i vTDiagE;
__m128i vTInsE;
__m128i vTDiagF;
__m128i vTDelF;
PARASAIL_CHECK_NULL(_s2);
PARASAIL_CHECK_GT0(s2Len);
PARASAIL_CHECK_GE0(open);
PARASAIL_CHECK_GE0(gap);
PARASAIL_CHECK_NULL(matrix);
if (matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) {
PARASAIL_CHECK_NULL(_s1);
PARASAIL_CHECK_GT0(_s1Len);
}
N = 16;
PAD = N-1;
PAD2 = PAD*2;
s1Len = matrix->type == PARASAIL_MATRIX_TYPE_SQUARE ? _s1Len : matrix->length;
s1Len_PAD = s1Len+PAD;
s2Len_PAD = s2Len+PAD;
i = 0;
j = 0;
end_query = s1Len-1;
end_ref = s2Len-1;
NEG_LIMIT = (-open < matrix->min ? INT8_MIN + open : INT8_MIN - matrix->min) + 1;
POS_LIMIT = INT8_MAX - matrix->max - 1;
score = NEG_LIMIT;
vNegLimit = _mm_set1_epi8(NEG_LIMIT);
vPosLimit = _mm_set1_epi8(POS_LIMIT);
vSaturationCheckMin = vPosLimit;
vSaturationCheckMax = vNegLimit;
vNegInf = _mm_set1_epi8(NEG_LIMIT);
vOpen = _mm_set1_epi8(open);
vGap = _mm_set1_epi8(gap);
vOne = _mm_set1_epi8(1);
vN = _mm_set1_epi8(N);
vGapN = s1_beg ? _mm_set1_epi8(0) : _mm_set1_epi8(gap*N);
vNegOne = _mm_set1_epi8(-1);
vI = _mm_set_epi8(0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15);
vJreset = _mm_set_epi8(0,-1,-2,-3,-4,-5,-6,-7,-8,-9,-10,-11,-12,-13,-14,-15);
vMaxHRow = vNegInf;
vMaxHCol = vNegInf;
vLastVal = vNegInf;
vEndI = vNegInf;
vEndJ = vNegInf;
vILimit = _mm_set1_epi8(s1Len);
vILimit1 = _mm_subs_epi8(vILimit, vOne);
vJLimit = _mm_set1_epi8(s2Len);
vJLimit1 = _mm_subs_epi8(vJLimit, vOne);
vIBoundary = s1_beg ? _mm_set1_epi8(0) : _mm_set_epi8(
-open-0*gap,
-open-1*gap,
-open-2*gap,
-open-3*gap,
-open-4*gap,
-open-5*gap,
-open-6*gap,
-open-7*gap,
-open-8*gap,
-open-9*gap,
-open-10*gap,
-open-11*gap,
-open-12*gap,
-open-13*gap,
-open-14*gap,
-open-15*gap);
vTDiag = _mm_set1_epi8(PARASAIL_DIAG);
vTIns = _mm_set1_epi8(PARASAIL_INS);
vTDel = _mm_set1_epi8(PARASAIL_DEL);
vTDiagE = _mm_set1_epi8(PARASAIL_DIAG_E);
vTInsE = _mm_set1_epi8(PARASAIL_INS_E);
vTDiagF = _mm_set1_epi8(PARASAIL_DIAG_F);
vTDelF = _mm_set1_epi8(PARASAIL_DEL_F);
result = parasail_result_new_trace(s1Len, s2Len, 16, sizeof(int8_t));
if (!result) return NULL;
result->flag |= PARASAIL_FLAG_SG | PARASAIL_FLAG_DIAG
| PARASAIL_FLAG_TRACE
| PARASAIL_FLAG_BITS_8 | PARASAIL_FLAG_LANES_16;
result->flag |= s1_beg ? PARASAIL_FLAG_SG_S1_BEG : 0;
result->flag |= s1_end ? PARASAIL_FLAG_SG_S1_END : 0;
result->flag |= s2_beg ? PARASAIL_FLAG_SG_S2_BEG : 0;
result->flag |= s2_end ? PARASAIL_FLAG_SG_S2_END : 0;
s2B= parasail_memalign_int8_t(16, s2Len+PAD2);
_H_pr = parasail_memalign_int8_t(16, s2Len+PAD2);
_F_pr = parasail_memalign_int8_t(16, s2Len+PAD2);
s2 = s2B+PAD;
H_pr = _H_pr+PAD;
F_pr = _F_pr+PAD;
if (!s2B) return NULL;
if (!_H_pr) return NULL;
if (!_F_pr) return NULL;
if (matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) {
s1 = parasail_memalign_int8_t(16, s1Len+PAD);
if (!s1) return NULL;
for (i=0; i<s1Len; ++i) {
s1[i] = matrix->mapper[(unsigned char)_s1[i]];
}
for (i=s1Len; i<s1Len_PAD; ++i) {
s1[i] = 0;
}
}
for (j=0; j<s2Len; ++j) {
s2[j] = matrix->mapper[(unsigned char)_s2[j]];
}
for (j=-PAD; j<0; ++j) {
s2[j] = 0;
}
for (j=s2Len; j<s2Len_PAD; ++j) {
s2[j] = 0;
}
if (s2_beg) {
for (j=0; j<s2Len; ++j) {
H_pr[j] = 0;
F_pr[j] = NEG_LIMIT;
}
}
else {
for (j=0; j<s2Len; ++j) {
H_pr[j] = -open - j*gap;
F_pr[j] = NEG_LIMIT;
}
}
for (j=-PAD; j<0; ++j) {
H_pr[j] = NEG_LIMIT;
F_pr[j] = NEG_LIMIT;
}
for (j=s2Len; j<s2Len+PAD; ++j) {
H_pr[j] = NEG_LIMIT;
F_pr[j] = NEG_LIMIT;
}
H_pr[-1] = 0;
for (i=0; i<s1Len; i+=N) {
__m128i vNH = vNegInf;
__m128i vWH = vNegInf;
__m128i vE = vNegInf;
__m128i vE_opn = vNegInf;
__m128i vE_ext = vNegInf;
__m128i vF = vNegInf;
__m128i vF_opn = vNegInf;
__m128i vF_ext = vNegInf;
__m128i vJ = vJreset;
const int * const restrict matrow0 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+0] : ((i+0 >= s1Len) ? s1Len-1 : i+0))];
const int * const restrict matrow1 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+1] : ((i+1 >= s1Len) ? s1Len-1 : i+1))];
const int * const restrict matrow2 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+2] : ((i+2 >= s1Len) ? s1Len-1 : i+2))];
const int * const restrict matrow3 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+3] : ((i+3 >= s1Len) ? s1Len-1 : i+3))];
const int * const restrict matrow4 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+4] : ((i+4 >= s1Len) ? s1Len-1 : i+4))];
const int * const restrict matrow5 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+5] : ((i+5 >= s1Len) ? s1Len-1 : i+5))];
const int * const restrict matrow6 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+6] : ((i+6 >= s1Len) ? s1Len-1 : i+6))];
const int * const restrict matrow7 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+7] : ((i+7 >= s1Len) ? s1Len-1 : i+7))];
const int * const restrict matrow8 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+8] : ((i+8 >= s1Len) ? s1Len-1 : i+8))];
const int * const restrict matrow9 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+9] : ((i+9 >= s1Len) ? s1Len-1 : i+9))];
const int * const restrict matrow10 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+10] : ((i+10 >= s1Len) ? s1Len-1 : i+10))];
const int * const restrict matrow11 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+11] : ((i+11 >= s1Len) ? s1Len-1 : i+11))];
const int * const restrict matrow12 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+12] : ((i+12 >= s1Len) ? s1Len-1 : i+12))];
const int * const restrict matrow13 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+13] : ((i+13 >= s1Len) ? s1Len-1 : i+13))];
const int * const restrict matrow14 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+14] : ((i+14 >= s1Len) ? s1Len-1 : i+14))];
const int * const restrict matrow15 = &matrix->matrix[matrix->size * ((matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) ? s1[i+15] : ((i+15 >= s1Len) ? s1Len-1 : i+15))];
__m128i vIltLimit = _mm_cmplt_epi8(vI, vILimit);
__m128i vIeqLimit1 = _mm_cmpeq_epi8(vI, vILimit1);
vNH = _mm_srli_si128(vNH, 1);
vNH = _mm_insert_epi8(vNH, H_pr[-1], 15);
vWH = _mm_srli_si128(vWH, 1);
vWH = _mm_insert_epi8(vWH, s1_beg ? 0 : (-open - i*gap), 15);
H_pr[-1] = -open - (i+N)*gap;
for (j=0; j<s2Len+PAD; ++j) {
__m128i vMat;
__m128i vNWH = vNH;
vNH = _mm_srli_si128(vWH, 1);
vNH = _mm_insert_epi8(vNH, H_pr[j], 15);
vF = _mm_srli_si128(vF, 1);
vF = _mm_insert_epi8(vF, F_pr[j], 15);
vF_opn = _mm_subs_epi8(vNH, vOpen);
vF_ext = _mm_subs_epi8(vF, vGap);
vF = _mm_max_epi8(vF_opn, vF_ext);
vE_opn = _mm_subs_epi8(vWH, vOpen);
vE_ext = _mm_subs_epi8(vE, vGap);
vE = _mm_max_epi8(vE_opn, vE_ext);
vMat = _mm_set_epi8(
matrow0[s2[j-0]],
matrow1[s2[j-1]],
matrow2[s2[j-2]],
matrow3[s2[j-3]],
matrow4[s2[j-4]],
matrow5[s2[j-5]],
matrow6[s2[j-6]],
matrow7[s2[j-7]],
matrow8[s2[j-8]],
matrow9[s2[j-9]],
matrow10[s2[j-10]],
matrow11[s2[j-11]],
matrow12[s2[j-12]],
matrow13[s2[j-13]],
matrow14[s2[j-14]],
matrow15[s2[j-15]]
);
vNWH = _mm_adds_epi8(vNWH, vMat);
vWH = _mm_max_epi8(vNWH, vE);
vWH = _mm_max_epi8(vWH, vF);
{
__m128i cond = _mm_cmpeq_epi8(vJ,vNegOne);
vWH = _mm_blendv_epi8(vWH, vIBoundary, cond);
vF = _mm_blendv_epi8(vF, vNegInf, cond);
vE = _mm_blendv_epi8(vE, vNegInf, cond);
}
if (j > PAD) {
vSaturationCheckMin = _mm_min_epi8(vSaturationCheckMin, vWH);
vSaturationCheckMax = _mm_max_epi8(vSaturationCheckMax, vWH);
}
{
__m128i case1 = _mm_cmpeq_epi8(vWH, vNWH);
__m128i case2 = _mm_cmpeq_epi8(vWH, vF);
__m128i vT = _mm_blendv_epi8(
_mm_blendv_epi8(vTIns, vTDel, case2),
vTDiag,
case1);
__m128i condE = _mm_cmpgt_epi8(vE_opn, vE_ext);
__m128i condF = _mm_cmpgt_epi8(vF_opn, vF_ext);
__m128i vET = _mm_blendv_epi8(vTInsE, vTDiagE, condE);
__m128i vFT = _mm_blendv_epi8(vTDelF, vTDiagF, condF);
vT = _mm_or_si128(vT, vET);
vT = _mm_or_si128(vT, vFT);
arr_store_si128(result->trace->trace_table, vT, i, s1Len, j, s2Len);
}
H_pr[j-15] = (int8_t)_mm_extract_epi8(vWH,0);
F_pr[j-15] = (int8_t)_mm_extract_epi8(vF,0);
{
__m128i vJeqLimit1 = _mm_cmpeq_epi8(vJ, vJLimit1);
__m128i vJgtNegOne = _mm_cmpgt_epi8(vJ, vNegOne);
__m128i vJltLimit = _mm_cmplt_epi8(vJ, vJLimit);
__m128i cond_j = _mm_and_si128(vIltLimit, vJeqLimit1);
__m128i cond_i = _mm_and_si128(vIeqLimit1,
_mm_and_si128(vJgtNegOne, vJltLimit));
__m128i cond_max_row = _mm_cmpgt_epi8(vWH, vMaxHRow);
__m128i cond_max_col = _mm_cmpgt_epi8(vWH, vMaxHCol);
__m128i cond_last_val = _mm_and_si128(vIeqLimit1, vJeqLimit1);
__m128i cond_all_row = _mm_and_si128(cond_max_row, cond_i);
__m128i cond_all_col = _mm_and_si128(cond_max_col, cond_j);
vMaxHRow = _mm_blendv_epi8(vMaxHRow, vWH, cond_all_row);
vMaxHCol = _mm_blendv_epi8(vMaxHCol, vWH, cond_all_col);
vLastVal = _mm_blendv_epi8(vLastVal, vWH, cond_last_val);
vEndI = _mm_blendv_epi8(vEndI, vI, cond_all_col);
vEndJ = _mm_blendv_epi8(vEndJ, vJ, cond_all_row);
}
vJ = _mm_adds_epi8(vJ, vOne);
}
vI = _mm_adds_epi8(vI, vN);
vIBoundary = _mm_subs_epi8(vIBoundary, vGapN);
}
{
int8_t max_row = NEG_LIMIT;
int8_t max_col = NEG_LIMIT;
int8_t last_val = NEG_LIMIT;
int8_t *s = (int8_t*)&vMaxHRow;
int8_t *t = (int8_t*)&vMaxHCol;
int8_t *u = (int8_t*)&vLastVal;
int8_t *i = (int8_t*)&vEndI;
int8_t *j = (int8_t*)&vEndJ;
int32_t k;
for (k=0; k<N; ++k, ++s, ++t, ++u, ++i, ++j) {
if (*t > max_col || (*t == max_col && *i < end_query)) {
max_col = *t;
end_query = *i;
}
if (*s > max_row) {
max_row = *s;
end_ref = *j;
}
if (*u > last_val) {
last_val = *u;
}
}
if (s1_end && s2_end) {
if (max_col > max_row || (max_col == max_row && end_ref == s2Len-1)) {
score = max_col;
end_ref = s2Len-1;
}
else {
score = max_row;
end_query = s1Len-1;
}
}
else if (s1_end) {
score = max_col;
end_ref = s2Len-1;
}
else if (s2_end) {
score = max_row;
end_query = s1Len-1;
}
else {
score = last_val;
end_query = s1Len-1;
end_ref = s2Len-1;
}
}
if (_mm_movemask_epi8(_mm_or_si128(
_mm_cmplt_epi8(vSaturationCheckMin, vNegLimit),
_mm_cmpgt_epi8(vSaturationCheckMax, vPosLimit)))) {
result->flag |= PARASAIL_FLAG_SATURATED;
score = 0;
end_query = 0;
end_ref = 0;
}
result->score = score;
result->end_query = end_query;
result->end_ref = end_ref;
parasail_free(_F_pr);
parasail_free(_H_pr);
parasail_free(s2B);
if (matrix->type == PARASAIL_MATRIX_TYPE_SQUARE) {
parasail_free(s1);
}
return result;
}
SG_IMPL_ALL