#include "config.h"
#include <stdint.h>
#include <stdlib.h>
#include <immintrin.h>
#include "parasail.h"
#include "parasail/memory.h"
#include "parasail/internal_avx.h"
#define SWAP(A,B) { __m256i* tmp = A; A = B; B = tmp; }
#if HAVE_AVX2_MM256_INSERT_EPI64
#define _mm256_insert_epi64_rpl _mm256_insert_epi64
#else
static inline __m256i _mm256_insert_epi64_rpl(__m256i a, int64_t i, int imm) {
__m256i_64_t A;
A.m = a;
A.v[imm] = i;
return A.m;
}
#endif
#if HAVE_AVX2_MM256_SET1_EPI64X
#define _mm256_set1_epi64x_rpl _mm256_set1_epi64x
#else
static inline __m256i _mm256_set1_epi64x_rpl(int64_t i) {
__m256i_64_t A;
A.v[0] = i;
A.v[1] = i;
A.v[2] = i;
A.v[3] = i;
return A.m;
}
#endif
static inline __m256i _mm256_max_epi64_rpl(__m256i a, __m256i b) {
__m256i_64_t A;
__m256i_64_t B;
A.m = a;
B.m = b;
A.v[0] = (A.v[0]>B.v[0]) ? A.v[0] : B.v[0];
A.v[1] = (A.v[1]>B.v[1]) ? A.v[1] : B.v[1];
A.v[2] = (A.v[2]>B.v[2]) ? A.v[2] : B.v[2];
A.v[3] = (A.v[3]>B.v[3]) ? A.v[3] : B.v[3];
return A.m;
}
#if HAVE_AVX2_MM256_EXTRACT_EPI64
#define _mm256_extract_epi64_rpl _mm256_extract_epi64
#else
static inline int64_t _mm256_extract_epi64_rpl(__m256i a, int imm) {
__m256i_64_t A;
A.m = a;
return A.v[imm];
}
#endif
static inline __m256i _mm256_min_epi64_rpl(__m256i a, __m256i b) {
__m256i_64_t A;
__m256i_64_t B;
A.m = a;
B.m = b;
A.v[0] = (A.v[0]<B.v[0]) ? A.v[0] : B.v[0];
A.v[1] = (A.v[1]<B.v[1]) ? A.v[1] : B.v[1];
A.v[2] = (A.v[2]<B.v[2]) ? A.v[2] : B.v[2];
A.v[3] = (A.v[3]<B.v[3]) ? A.v[3] : B.v[3];
return A.m;
}
#define _mm256_cmplt_epi64_rpl(a,b) _mm256_cmpgt_epi64(b,a)
#define _mm256_slli_si256_rpl(a,imm) _mm256_alignr_epi8(a, _mm256_permute2x128_si256(a, a, _MM_SHUFFLE(0,0,3,0)), 16-imm)
#ifdef PARASAIL_TABLE
static inline void arr_store_si256(
int *array,
__m256i vH,
int32_t t,
int32_t seglen,
int32_t d,
int32_t dlen)
{
array[1LL*(0*seglen+t)*dlen + d] = (int64_t)_mm256_extract_epi64_rpl(vH, 0);
array[1LL*(1*seglen+t)*dlen + d] = (int64_t)_mm256_extract_epi64_rpl(vH, 1);
array[1LL*(2*seglen+t)*dlen + d] = (int64_t)_mm256_extract_epi64_rpl(vH, 2);
array[1LL*(3*seglen+t)*dlen + d] = (int64_t)_mm256_extract_epi64_rpl(vH, 3);
}
#endif
#ifdef PARASAIL_ROWCOL
static inline void arr_store_col(
int *col,
__m256i vH,
int32_t t,
int32_t seglen)
{
col[0*seglen+t] = (int64_t)_mm256_extract_epi64_rpl(vH, 0);
col[1*seglen+t] = (int64_t)_mm256_extract_epi64_rpl(vH, 1);
col[2*seglen+t] = (int64_t)_mm256_extract_epi64_rpl(vH, 2);
col[3*seglen+t] = (int64_t)_mm256_extract_epi64_rpl(vH, 3);
}
#endif
#ifdef PARASAIL_TABLE
#define FNAME parasail_nw_stats_table_striped_avx2_256_64
#define PNAME parasail_nw_stats_table_striped_profile_avx2_256_64
#else
#ifdef PARASAIL_ROWCOL
#define FNAME parasail_nw_stats_rowcol_striped_avx2_256_64
#define PNAME parasail_nw_stats_rowcol_striped_profile_avx2_256_64
#else
#define FNAME parasail_nw_stats_striped_avx2_256_64
#define PNAME parasail_nw_stats_striped_profile_avx2_256_64
#endif
#endif
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)
{
parasail_profile_t *profile = NULL;
parasail_result_t *result = NULL;
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_PSSM) {
PARASAIL_CHECK_NULL_PSSM_STATS(s1);
}
else {
PARASAIL_CHECK_NULL(s1);
PARASAIL_CHECK_GT0(s1Len);
}
profile = parasail_profile_create_stats_avx_256_64(s1, s1Len, matrix);
if (!profile) return NULL;
result = PNAME(profile, s2, s2Len, open, gap);
parasail_profile_free(profile);
return result;
}
parasail_result_t* PNAME(
const parasail_profile_t * const restrict profile,
const char * const restrict s2, const int s2Len,
const int open, const int gap)
{
int32_t i = 0;
int32_t j = 0;
int32_t k = 0;
int32_t s1Len = 0;
int32_t end_query = 0;
int32_t end_ref = 0;
const parasail_matrix_t *matrix = NULL;
int32_t segWidth = 0;
int32_t segLen = 0;
int32_t offset = 0;
int32_t position = 0;
__m256i* restrict vProfile = NULL;
__m256i* restrict vProfileM = NULL;
__m256i* restrict vProfileS = NULL;
__m256i* restrict pvHStore = NULL;
__m256i* restrict pvHLoad = NULL;
__m256i* restrict pvHMStore = NULL;
__m256i* restrict pvHMLoad = NULL;
__m256i* restrict pvHSStore = NULL;
__m256i* restrict pvHSLoad = NULL;
__m256i* restrict pvHLStore = NULL;
__m256i* restrict pvHLLoad = NULL;
__m256i* restrict pvE = NULL;
__m256i* restrict pvEM = NULL;
__m256i* restrict pvES = NULL;
__m256i* restrict pvEL = NULL;
int64_t* restrict boundary = NULL;
__m256i vGapO;
__m256i vGapE;
int64_t NEG_LIMIT = 0;
int64_t POS_LIMIT = 0;
__m256i vZero;
__m256i vOne;
int64_t score = 0;
int64_t matches = 0;
int64_t similar = 0;
int64_t length = 0;
__m256i vNegLimit;
__m256i vPosLimit;
__m256i vSaturationCheckMin;
__m256i vSaturationCheckMax;
parasail_result_t *result = NULL;
PARASAIL_CHECK_NULL(profile);
PARASAIL_CHECK_NULL(profile->profile64.score);
PARASAIL_CHECK_NULL(profile->matrix);
PARASAIL_CHECK_GT0(profile->s1Len);
PARASAIL_CHECK_NULL(s2);
PARASAIL_CHECK_GT0(s2Len);
PARASAIL_CHECK_GE0(open);
PARASAIL_CHECK_GE0(gap);
i = 0;
j = 0;
k = 0;
s1Len = profile->s1Len;
end_query = s1Len-1;
end_ref = s2Len-1;
matrix = profile->matrix;
segWidth = 4;
segLen = (s1Len + segWidth - 1) / segWidth;
offset = (s1Len - 1) % segLen;
position = (segWidth - 1) - (s1Len - 1) / segLen;
vProfile = (__m256i*)profile->profile64.score;
vProfileM = (__m256i*)profile->profile64.matches;
vProfileS = (__m256i*)profile->profile64.similar;
vGapO = _mm256_set1_epi64x_rpl(open);
vGapE = _mm256_set1_epi64x_rpl(gap);
NEG_LIMIT = (-open < matrix->min ? INT64_MIN + open : INT64_MIN - matrix->min) + 1;
POS_LIMIT = INT64_MAX - matrix->max - 1;
vZero = _mm256_setzero_si256();
vOne = _mm256_set1_epi64x_rpl(1);
score = NEG_LIMIT;
matches = 0;
similar = 0;
length = 0;
vNegLimit = _mm256_set1_epi64x_rpl(NEG_LIMIT);
vPosLimit = _mm256_set1_epi64x_rpl(POS_LIMIT);
vSaturationCheckMin = vPosLimit;
vSaturationCheckMax = vNegLimit;
#ifdef PARASAIL_TABLE
result = parasail_result_new_table3(segLen*segWidth, s2Len);
#else
#ifdef PARASAIL_ROWCOL
result = parasail_result_new_rowcol3(segLen*segWidth, s2Len);
#else
result = parasail_result_new_stats();
#endif
#endif
if (!result) return NULL;
result->flag |= PARASAIL_FLAG_NW | PARASAIL_FLAG_STRIPED
| PARASAIL_FLAG_STATS
| PARASAIL_FLAG_BITS_64 | PARASAIL_FLAG_LANES_4;
#ifdef PARASAIL_TABLE
result->flag |= PARASAIL_FLAG_TABLE;
#endif
#ifdef PARASAIL_ROWCOL
result->flag |= PARASAIL_FLAG_ROWCOL;
#endif
pvHStore = parasail_memalign___m256i(32, segLen);
pvHLoad = parasail_memalign___m256i(32, segLen);
pvHMStore = parasail_memalign___m256i(32, segLen);
pvHMLoad = parasail_memalign___m256i(32, segLen);
pvHSStore = parasail_memalign___m256i(32, segLen);
pvHSLoad = parasail_memalign___m256i(32, segLen);
pvHLStore = parasail_memalign___m256i(32, segLen);
pvHLLoad = parasail_memalign___m256i(32, segLen);
pvE = parasail_memalign___m256i(32, segLen);
pvEM = parasail_memalign___m256i(32, segLen);
pvES = parasail_memalign___m256i(32, segLen);
pvEL = parasail_memalign___m256i(32, segLen);
boundary = parasail_memalign_int64_t(32, s2Len+1);
if (!pvHStore) return NULL;
if (!pvHLoad) return NULL;
if (!pvHMStore) return NULL;
if (!pvHMLoad) return NULL;
if (!pvHSStore) return NULL;
if (!pvHSLoad) return NULL;
if (!pvHLStore) return NULL;
if (!pvHLLoad) return NULL;
if (!pvE) return NULL;
if (!pvEM) return NULL;
if (!pvES) return NULL;
if (!pvEL) return NULL;
if (!boundary) return NULL;
parasail_memset___m256i(pvHMStore, vZero, segLen);
parasail_memset___m256i(pvHSStore, vZero, segLen);
parasail_memset___m256i(pvHLStore, vZero, segLen);
parasail_memset___m256i(pvEM, vZero, segLen);
parasail_memset___m256i(pvES, vZero, segLen);
parasail_memset___m256i(pvEL, vOne, segLen);
{
int32_t index = 0;
for (i=0; i<segLen; ++i) {
int32_t segNum = 0;
__m256i_64_t h;
__m256i_64_t e;
for (segNum=0; segNum<segWidth; ++segNum) {
int64_t tmp = -open-gap*(segNum*segLen+i);
h.v[segNum] = tmp < INT64_MIN ? INT64_MIN : tmp;
tmp = tmp - open;
e.v[segNum] = tmp < INT64_MIN ? INT64_MIN : tmp;
}
_mm256_store_si256(&pvHStore[index], h.m);
_mm256_store_si256(&pvE[index], e.m);
++index;
}
}
{
boundary[0] = 0;
for (i=1; i<=s2Len; ++i) {
int64_t tmp = -open-gap*(i-1);
boundary[i] = tmp < INT64_MIN ? INT64_MIN : tmp;
}
}
for (j=0; j<s2Len; ++j) {
__m256i vEF_opn;
__m256i vE;
__m256i vE_ext;
__m256i vEM;
__m256i vES;
__m256i vEL;
__m256i vF;
__m256i vF_ext;
__m256i vFM;
__m256i vFS;
__m256i vFL;
__m256i vH;
__m256i vH_dag;
__m256i vHM;
__m256i vHS;
__m256i vHL;
const __m256i* vP = NULL;
const __m256i* vPM = NULL;
const __m256i* vPS = NULL;
vF = vNegLimit;
vFM = vZero;
vFS = vZero;
vFL = vOne;
vH = _mm256_load_si256(&pvHStore[segLen - 1]);
vHM = _mm256_load_si256(&pvHMStore[segLen - 1]);
vHS = _mm256_load_si256(&pvHSStore[segLen - 1]);
vHL = _mm256_load_si256(&pvHLStore[segLen - 1]);
vH = _mm256_slli_si256_rpl(vH, 8);
vHM = _mm256_slli_si256_rpl(vHM, 8);
vHS = _mm256_slli_si256_rpl(vHS, 8);
vHL = _mm256_slli_si256_rpl(vHL, 8);
vH = _mm256_insert_epi64_rpl(vH, boundary[j], 0);
vP = vProfile + matrix->mapper[(unsigned char)s2[j]] * segLen;
vPM = vProfileM + matrix->mapper[(unsigned char)s2[j]] * segLen;
vPS = vProfileS + matrix->mapper[(unsigned char)s2[j]] * segLen;
SWAP(pvHLoad, pvHStore)
SWAP(pvHMLoad, pvHMStore)
SWAP(pvHSLoad, pvHSStore)
SWAP(pvHLLoad, pvHLStore)
for (i=0; i<segLen; ++i) {
__m256i case1;
__m256i case2;
vE = _mm256_load_si256(pvE+ i);
vEM = _mm256_load_si256(pvEM+ i);
vES = _mm256_load_si256(pvES+ i);
vEL = _mm256_load_si256(pvEL+ i);
vH_dag = _mm256_add_epi64(vH, _mm256_load_si256(vP + i));
vH = _mm256_max_epi64_rpl(vH_dag, vE);
vH = _mm256_max_epi64_rpl(vH, vF);
_mm256_store_si256(pvHStore + i, vH);
case1 = _mm256_cmpeq_epi64(vH, vH_dag);
case2 = _mm256_cmpeq_epi64(vH, vF);
vHM = _mm256_blendv_epi8(
_mm256_blendv_epi8(vEM, vFM, case2),
_mm256_add_epi64(vHM, _mm256_load_si256(vPM + i)),
case1);
_mm256_store_si256(pvHMStore + i, vHM);
vHS = _mm256_blendv_epi8(
_mm256_blendv_epi8(vES, vFS, case2),
_mm256_add_epi64(vHS, _mm256_load_si256(vPS + i)),
case1);
_mm256_store_si256(pvHSStore + i, vHS);
vHL = _mm256_blendv_epi8(
_mm256_blendv_epi8(vEL, vFL, case2),
_mm256_add_epi64(vHL, vOne),
case1);
_mm256_store_si256(pvHLStore + i, vHL);
vSaturationCheckMin = _mm256_min_epi64_rpl(vSaturationCheckMin, vH);
vSaturationCheckMax = _mm256_max_epi64_rpl(vSaturationCheckMax, vH);
vSaturationCheckMax = _mm256_max_epi64_rpl(vSaturationCheckMax, vHM);
vSaturationCheckMax = _mm256_max_epi64_rpl(vSaturationCheckMax, vHS);
vSaturationCheckMax = _mm256_max_epi64_rpl(vSaturationCheckMax, vHL);
#ifdef PARASAIL_TABLE
arr_store_si256(result->stats->tables->matches_table, vHM, i, segLen, j, s2Len);
arr_store_si256(result->stats->tables->similar_table, vHS, i, segLen, j, s2Len);
arr_store_si256(result->stats->tables->length_table, vHL, i, segLen, j, s2Len);
arr_store_si256(result->stats->tables->score_table, vH, i, segLen, j, s2Len);
#endif
vEF_opn = _mm256_sub_epi64(vH, vGapO);
vE_ext = _mm256_sub_epi64(vE, vGapE);
vE = _mm256_max_epi64_rpl(vEF_opn, vE_ext);
case1 = _mm256_cmpgt_epi64(vEF_opn, vE_ext);
vEM = _mm256_blendv_epi8(vEM, vHM, case1);
vES = _mm256_blendv_epi8(vES, vHS, case1);
vEL = _mm256_blendv_epi8(
_mm256_add_epi64(vEL, vOne),
_mm256_add_epi64(vHL, vOne),
case1);
_mm256_store_si256(pvE + i, vE);
_mm256_store_si256(pvEM + i, vEM);
_mm256_store_si256(pvES + i, vES);
_mm256_store_si256(pvEL + i, vEL);
vF_ext = _mm256_sub_epi64(vF, vGapE);
vF = _mm256_max_epi64_rpl(vEF_opn, vF_ext);
case1 = _mm256_cmpgt_epi64(vEF_opn, vF_ext);
vFM = _mm256_blendv_epi8(vFM, vHM, case1);
vFS = _mm256_blendv_epi8(vFS, vHS, case1);
vFL = _mm256_blendv_epi8(
_mm256_add_epi64(vFL, vOne),
_mm256_add_epi64(vHL, vOne),
case1);
vH = _mm256_load_si256(pvHLoad + i);
vHM = _mm256_load_si256(pvHMLoad + i);
vHS = _mm256_load_si256(pvHSLoad + i);
vHL = _mm256_load_si256(pvHLLoad + i);
}
for (k=0; k<segWidth; ++k) {
__m256i vHp = _mm256_load_si256(&pvHLoad[segLen - 1]);
int64_t tmp = boundary[j+1]-open;
int64_t tmp2 = tmp < INT64_MIN ? INT64_MIN : tmp;
vHp = _mm256_slli_si256_rpl(vHp, 8);
vF = _mm256_slli_si256_rpl(vF, 8);
vFM = _mm256_slli_si256_rpl(vFM, 8);
vFS = _mm256_slli_si256_rpl(vFS, 8);
vFL = _mm256_slli_si256_rpl(vFL, 8);
vHp = _mm256_insert_epi64_rpl(vHp, boundary[j], 0);
vF = _mm256_insert_epi64_rpl(vF, tmp2, 0);
vFL = _mm256_insert_epi64_rpl(vFL, 1, 0);
for (i=0; i<segLen; ++i) {
__m256i case1;
__m256i case2;
__m256i cond;
vHp = _mm256_add_epi64(vHp, _mm256_load_si256(vP + i));
vH = _mm256_load_si256(pvHStore + i);
vH = _mm256_max_epi64_rpl(vH,vF);
_mm256_store_si256(pvHStore + i, vH);
case1 = _mm256_cmpeq_epi64(vH, vHp);
case2 = _mm256_cmpeq_epi64(vH, vF);
cond = _mm256_andnot_si256(case1, case2);
vHM = _mm256_load_si256(pvHMStore + i);
vHM = _mm256_blendv_epi8(vHM, vFM, cond);
_mm256_store_si256(pvHMStore + i, vHM);
vHS = _mm256_load_si256(pvHSStore + i);
vHS = _mm256_blendv_epi8(vHS, vFS, cond);
_mm256_store_si256(pvHSStore + i, vHS);
vHL = _mm256_load_si256(pvHLStore + i);
vHL = _mm256_blendv_epi8(vHL, vFL, cond);
_mm256_store_si256(pvHLStore + i, vHL);
vSaturationCheckMin = _mm256_min_epi64_rpl(vSaturationCheckMin, vH);
vSaturationCheckMax = _mm256_max_epi64_rpl(vSaturationCheckMax, vH);
vSaturationCheckMax = _mm256_max_epi64_rpl(vSaturationCheckMax, vHM);
vSaturationCheckMax = _mm256_max_epi64_rpl(vSaturationCheckMax, vHS);
vSaturationCheckMax = _mm256_max_epi64_rpl(vSaturationCheckMax, vHL);
#ifdef PARASAIL_TABLE
arr_store_si256(result->stats->tables->matches_table, vHM, i, segLen, j, s2Len);
arr_store_si256(result->stats->tables->similar_table, vHS, i, segLen, j, s2Len);
arr_store_si256(result->stats->tables->length_table, vHL, i, segLen, j, s2Len);
arr_store_si256(result->stats->tables->score_table, vH, i, segLen, j, s2Len);
#endif
vEF_opn = _mm256_sub_epi64(vH, vGapO);
vF_ext = _mm256_sub_epi64(vF, vGapE);
if (! _mm256_movemask_epi8(
_mm256_or_si256(
_mm256_cmpgt_epi64(vF_ext, vEF_opn),
_mm256_cmpeq_epi64(vF_ext, vEF_opn))))
goto end;
vF = vF_ext;
cond = _mm256_cmpgt_epi64(vEF_opn, vF_ext);
vFM = _mm256_blendv_epi8(vFM, vHM, cond);
vFS = _mm256_blendv_epi8(vFS, vHS, cond);
vFL = _mm256_blendv_epi8(
_mm256_add_epi64(vFL, vOne),
_mm256_add_epi64(vHL, vOne),
cond);
vHp = _mm256_load_si256(pvHLoad + i);
}
}
end:
{
}
#ifdef PARASAIL_ROWCOL
{
vH = _mm256_load_si256(pvHStore + offset);
vHM = _mm256_load_si256(pvHMStore + offset);
vHS = _mm256_load_si256(pvHSStore + offset);
vHL = _mm256_load_si256(pvHLStore + offset);
for (k=0; k<position; ++k) {
vH = _mm256_slli_si256_rpl (vH, 8);
vHM = _mm256_slli_si256_rpl (vHM, 8);
vHS = _mm256_slli_si256_rpl (vHS, 8);
vHL = _mm256_slli_si256_rpl (vHL, 8);
}
result->stats->rowcols->score_row[j] = (int64_t) _mm256_extract_epi64_rpl (vH, 3);
result->stats->rowcols->matches_row[j] = (int64_t) _mm256_extract_epi64_rpl (vHM, 3);
result->stats->rowcols->similar_row[j] = (int64_t) _mm256_extract_epi64_rpl (vHS, 3);
result->stats->rowcols->length_row[j] = (int64_t) _mm256_extract_epi64_rpl (vHL, 3);
}
#endif
}
#ifdef PARASAIL_ROWCOL
for (i=0; i<segLen; ++i) {
__m256i vH = _mm256_load_si256(pvHStore+i);
__m256i vHM = _mm256_load_si256(pvHMStore+i);
__m256i vHS = _mm256_load_si256(pvHSStore+i);
__m256i vHL = _mm256_load_si256(pvHLStore+i);
arr_store_col(result->stats->rowcols->score_col, vH, i, segLen);
arr_store_col(result->stats->rowcols->matches_col, vHM, i, segLen);
arr_store_col(result->stats->rowcols->similar_col, vHS, i, segLen);
arr_store_col(result->stats->rowcols->length_col, vHL, i, segLen);
}
#endif
{
__m256i vH = _mm256_load_si256(pvHStore + offset);
__m256i vHM = _mm256_load_si256(pvHMStore + offset);
__m256i vHS = _mm256_load_si256(pvHSStore + offset);
__m256i vHL = _mm256_load_si256(pvHLStore + offset);
for (k=0; k<position; ++k) {
vH = _mm256_slli_si256_rpl (vH, 8);
vHM = _mm256_slli_si256_rpl (vHM, 8);
vHS = _mm256_slli_si256_rpl (vHS, 8);
vHL = _mm256_slli_si256_rpl (vHL, 8);
}
score = (int64_t) _mm256_extract_epi64_rpl (vH, 3);
matches = (int64_t) _mm256_extract_epi64_rpl (vHM, 3);
similar = (int64_t) _mm256_extract_epi64_rpl (vHS, 3);
length = (int64_t) _mm256_extract_epi64_rpl (vHL, 3);
}
if (_mm256_movemask_epi8(_mm256_or_si256(
_mm256_cmplt_epi64_rpl(vSaturationCheckMin, vNegLimit),
_mm256_cmpgt_epi64(vSaturationCheckMax, vPosLimit)))) {
result->flag |= PARASAIL_FLAG_SATURATED;
score = 0;
matches = 0;
similar = 0;
length = 0;
end_query = 0;
end_ref = 0;
}
result->score = score;
result->end_query = end_query;
result->end_ref = end_ref;
result->stats->matches = matches;
result->stats->similar = similar;
result->stats->length = length;
parasail_free(boundary);
parasail_free(pvEL);
parasail_free(pvES);
parasail_free(pvEM);
parasail_free(pvE);
parasail_free(pvHLLoad);
parasail_free(pvHLStore);
parasail_free(pvHSLoad);
parasail_free(pvHSStore);
parasail_free(pvHMLoad);
parasail_free(pvHMStore);
parasail_free(pvHLoad);
parasail_free(pvHStore);
return result;
}