Commit 59c4ddef authored by knopp's avatar knopp

completed most of code generation tool for polar decoder integrated into "polartest"

parent 8cda0a0f
......@@ -30,7 +30,6 @@
#include "PHY/TOOLS/time_meas.h"
int8_t polar_decoder(
double *input,
uint8_t *output,
......@@ -294,6 +293,92 @@ int8_t polar_decoder(
}
#define decoder_int8_A(sorted_dlist,currentListSize,polarParams) {for (int i = 0; i < currentListSize; i++) { \
for (int k = 0; k < (polarParams->n+1); k++) { \
memcpy((void*)&sorted_dlist[i+currentListSize]->bit[k][0],\
(void*)&sorted_dlist[i]->bit[k][0],\
sizeof(uint8_t)*polarParams->N);\
memcpy((void*)&sorted_dlist[i+currentListSize]->llr[k][0],\
(void*)&sorted_dlist[i]->llr[k][0],\
sizeof(int16_t)*polarParams->N);}}}
#define decoder_int8_B(sorted_dlist,currentListSize) {for (int i = 0; i < currentListSize; i++) {sorted_dlist[i]->bit[0][currentBit]=0;sorted_dlist[i+currentListSize]->bit[0][currentBit]=1;}}
void inline decoder_int8_C(decoder_list_int8_t *sorted_dlist[],
t_nrPolar_params *polarParams,
int currentBit,
int currentListSize,
int listSize) {
int32_t pathMetric[2*listSize];
decoder_list_int8_t *temp_dlist[2*listSize];
int listIndex[2*listSize];
int listIndex2[2*listSize];
for (int i = 0; i < currentListSize; i++) {
listIndex[i]=i;
pathMetric[i] = sorted_dlist[i]->pathMetric;
}
nr_sort_asc_int16_1D_array_ind(pathMetric, listIndex, currentListSize);
for (int i=0;i<currentListSize;i++) {
listIndex2[listIndex[i]] = i;
}
// copy the llr/bit arrays that are needed
for (int i = 0; i < listSize; i++) {
// printf("listIndex[%d] %d\n",i,listIndex[i]);
if ((listIndex2[i+listSize]<listSize) && (listIndex2[i]<listSize)) { // both '0' and '1' path metrics are to be kept
// do memcpy of LLR and Bit arrays
for (int k = 0; k < (polarParams->n+1); k++) {
memcpy((void*)&sorted_dlist[i+listSize]->bit[k][0],
(void*)&sorted_dlist[i]->bit[k][0],
sizeof(uint8_t)*polarParams->N);
memcpy((void*)&sorted_dlist[i+listSize]->llr[k][0],
(void*)&sorted_dlist[i]->llr[k][0],
sizeof(int16_t)*polarParams->N);
}
sorted_dlist[i]->bit[0][currentBit]=0;
sorted_dlist[i+listSize]->bit[0][currentBit]=1;
}
else if (listIndex2[i+listSize]<listSize) { // only '1' path metric is to be kept
// just change the current bit from '0' to '1'
for (int k = 0; k < (polarParams->n+1); k++) {
memcpy((void*)&sorted_dlist[i+listSize]->bit[k][0],
(void*)&sorted_dlist[i]->bit[k][0],
sizeof(uint8_t)*polarParams->N);
memcpy((void*)&sorted_dlist[i+listSize]->llr[k][0],
(void*)&sorted_dlist[i]->llr[k][0],
sizeof(int16_t)*polarParams->N);
}
sorted_dlist[i+listSize]->bit[0][currentBit]=1;
/*
decoder_list_t *tmp = sorted_dlist[i+listSize];
sorted_dlist[i+listSize] = sorted_dlist[i];
sorted_dlist[i+listSize]->pathMetric = tmp->pathMetric;
sorted_dlist[i+listSize]->bit[0][currentBit]=1;
memcpy((void*)&sorted_dlist[i+listSize]->crcChecksum[0],
(void*)&tmp->crcChecksum[0],
24*sizeof(uint8_t));*/
}
}
for (int i = 0; i < 2*listSize; i++) {
temp_dlist[i] = sorted_dlist[i];
}
for (int i = 0; i < 2*listSize; i++) {
// printf("i %d => %d\n",i,listIndex[i]);
sorted_dlist[i] = temp_dlist[listIndex[i]];
}
}
int8_t polar_decoder_int8(int16_t *input,
uint8_t *output,
t_nrPolar_params *polarParams,
......@@ -380,12 +465,9 @@ int8_t polar_decoder_int8(int16_t *input,
uint8_t currentListSize=1;
decoder_list_int8_t *sorted_dlist[2*listSize];
decoder_list_int8_t *temp_dlist[2*listSize];
int listIndex[2*listSize];
int32_t pathMetric[2*listSize];
for (uint8_t i = 0; i < 2*listSize; i++) sorted_dlist[i] = &dlist[i];
for (uint16_t currentBit=0; currentBit<polarParams->N; currentBit++){
// printf("***************** BIT %d (currentListSize %d, information_bit_pattern %d)\n",
// currentBit,currentListSize,polarParams->information_bit_pattern[currentBit]);
......@@ -402,110 +484,45 @@ int8_t polar_decoder_int8(int16_t *input,
stop_meas(path_metric);
start_meas(sorting);
// for (int i=0;i<currentListSize;i++) {
// printf("sorted_dlist[%d] pathmetric %d\n",i,sorted_dlist[i]->pathMetric);
// }
if (currentListSize <= listSize/2) {
// until listsize is full we need to copy bit and LLR arrays to new entries
// below we only copy the ones we need to keep for sure
decoder_int8_A(sorted_dlist,currentListSize,polarParams);
#ifdef SHOWCOMP
printf("decoder_int8_A(sorted_dlist,%d,polarParams);\n",currentListSize);
#endif
}
decoder_int8_B(sorted_dlist,currentListSize);
#ifdef SHOWCOMP
printf("decoder_int8_B(sorted_dlist,%d);\n",currentListSize);
#endif
for (int i = 0; i < currentListSize; i++) {
for (int k = 0; k < (polarParams->n+1); k++) {
memcpy((void*)&sorted_dlist[i+currentListSize]->bit[k][0],
(void*)&sorted_dlist[i]->bit[k][0],
sizeof(uint8_t)*polarParams->N);
memcpy((void*)&sorted_dlist[i+currentListSize]->llr[k][0],
(void*)&sorted_dlist[i]->llr[k][0],
sizeof(int16_t)*polarParams->N);
}
}
}
for (int i = 0; i < currentListSize; i++) {
sorted_dlist[i]->bit[0][currentBit]=0;
sorted_dlist[i+currentListSize]->bit[0][currentBit]=1;
}
bitUpdated[currentBit][0]=1;
updateCrcChecksum2_int8(sorted_dlist,extended_crc_generator_matrix, currentListSize, nonFrozenBit, polarParams->crcParityBits);
currentListSize*=2;
//Keep only the best "listSize" number of entries.
if (currentListSize > listSize) {
int listIndex2[listSize];
for (int i = 0; i < currentListSize; i++) {
listIndex[i]=i;
pathMetric[i] = sorted_dlist[i]->pathMetric;
}
nr_sort_asc_int16_1D_array_ind(pathMetric, listIndex, currentListSize);
for (int i=0;i<currentListSize;i++) {
listIndex2[listIndex[i]] = i;
}
// copy the llr/bit arrays that are needed
for (int i = 0; i < listSize; i++) {
// printf("listIndex[%d] %d\n",i,listIndex[i]);
if ((listIndex2[i+listSize]<listSize) && (listIndex2[i]<listSize)) { // both '0' and '1' path metrics are to be kept
// do memcpy of LLR and Bit arrays
for (int k = 0; k < (polarParams->n+1); k++) {
memcpy((void*)&sorted_dlist[i+listSize]->bit[k][0],
(void*)&sorted_dlist[i]->bit[k][0],
sizeof(uint8_t)*polarParams->N);
memcpy((void*)&sorted_dlist[i+listSize]->llr[k][0],
(void*)&sorted_dlist[i]->llr[k][0],
sizeof(int16_t)*polarParams->N);
}
sorted_dlist[i]->bit[0][currentBit]=0;
sorted_dlist[i+listSize]->bit[0][currentBit]=1;
}
else if (listIndex2[i+listSize]<listSize) { // only '1' path metric is to be kept
// just change the current bit from '0' to '1'
for (int k = 0; k < (polarParams->n+1); k++) {
memcpy((void*)&sorted_dlist[i+listSize]->bit[k][0],
(void*)&sorted_dlist[i]->bit[k][0],
sizeof(uint8_t)*polarParams->N);
memcpy((void*)&sorted_dlist[i+listSize]->llr[k][0],
(void*)&sorted_dlist[i]->llr[k][0],
sizeof(int16_t)*polarParams->N);
}
sorted_dlist[i+listSize]->bit[0][currentBit]=1;
/*
decoder_list_t *tmp = sorted_dlist[i+listSize];
sorted_dlist[i+listSize] = sorted_dlist[i];
sorted_dlist[i+listSize]->pathMetric = tmp->pathMetric;
sorted_dlist[i+listSize]->bit[0][currentBit]=1;
memcpy((void*)&sorted_dlist[i+listSize]->crcChecksum[0],
(void*)&tmp->crcChecksum[0],
24*sizeof(uint8_t));*/
}
}
decoder_int8_C(sorted_dlist,
polarParams,
currentBit,
currentListSize,
listSize);
currentListSize = listSize;
for (int i = 0; i < 2*listSize; i++) {
temp_dlist[i] = sorted_dlist[i];
}
for (int i = 0; i < 2*listSize; i++) {
// printf("i %d => %d\n",i,listIndex[i]);
sorted_dlist[i] = temp_dlist[listIndex[i]];
}
}
stop_meas(sorting);
stop_meas(sorting);
nonFrozenBit++;
}
}
}
}
for (uint8_t i = 0; i < fmin(listSize, (pow(2,polarParams->crcCorrectionBits)) ); i++) {
// printf("list index %d :",i);
......
......@@ -32,9 +32,6 @@ inline void computeLLR(double llr[1+nmax][Nmax], uint16_t row, uint16_t col,
double absA,absB;
#ifdef SHOWCOMP
printf("computeLLR (%d,%d,%d)\n",row,col,offset);
#endif
a = llr[col + 1][row];
b = llr[col+1][row + offset];
......@@ -60,7 +57,7 @@ inline void computeLLR_int8(int16_t llr[1+nmax][Nmax], uint16_t row, uint16_t co
int16_t minabs;
#ifdef SHOWCOMP
printf("computeLLR_int8 (%d,%d,%d)\n",row,col,offset);
printf("computeLLR_int8(llr,%d,%d,%d);\n",row,col,offset);
#endif
a = llr[col + 1][row];
b = llr[col+1][row + offset];
......@@ -87,13 +84,7 @@ void updateLLR(decoder_list_t **dlist,uint8_t **llrU, uint8_t **bitU,
if (llrU[row-offset][col+1]==0) updateLLR(dlist, llrU, bitU, listSize, (row-offset), (col+1), xlen, ylen, approximation);
if (llrU[row][col+1]==0) updateLLR(dlist, llrU, bitU, listSize, row, (col+1), xlen, ylen, approximation);
for (uint8_t i=0; i<listSize; i++) {
#ifdef SHOWCOMP
printf("updatingLLR (%d,%d,%d) (bit %d,%d,%d, llr0 %d,%d,%d, llr1 %d,%d,%d \n",row,col,i,
row-offset,col,i,row-offset,col+1,i,row,col+1,i);
#endif
dlist[i]->llr[col][row] = (pow((-1),dlist[i]->bit[col][row-offset])*dlist[i]->llr[col+1][row-offset]) + dlist[i]->llr[col+1][row];
// printf("updating dlist[%d]->llr[%d][%d] => %f (%f,%f) offset %d\n",i,col,row,32*dlist[i]->llr[col][row],
// (pow((-1),dlist[i]->bit[col][row-offset])*32*dlist[i]->llr[col+1][row-offset]),32*dlist[i]->llr[col+1][row],offset);
}
} else {
if (llrU[row][col+1]==0) updateLLR(dlist, llrU, bitU, listSize, row, (col+1), xlen, ylen, approximation);
......@@ -104,6 +95,9 @@ void updateLLR(decoder_list_t **dlist,uint8_t **llrU, uint8_t **bitU,
llrU[row][col]=1;
}
#define updateLLR_int8_A(dlist,i,col,row,offset) if (dlist[(i)]->bit[(col)][(row)-(offset)]==0) dlist[(i)]->llr[(col)][(row)] = dlist[(i)]->llr[(col)+1][(row)-(offset)] + dlist[(i)]->llr[(col)+1][(row)]; else dlist[(i)]->llr[(col)][(row)] = -dlist[(i)]->llr[(col)+1][(row)-(offset)] + dlist[(i)]->llr[(col)+1][(row)];
void updateLLR_int8(decoder_list_int8_t **dlist,uint8_t **llrU, uint8_t **bitU,
uint8_t listSize, uint16_t row, uint16_t col, uint16_t xlen, uint8_t ylen) {
uint16_t offset = (xlen/(1<<(ylen-col-1)));
......@@ -111,18 +105,19 @@ void updateLLR_int8(decoder_list_int8_t **dlist,uint8_t **llrU, uint8_t **bitU,
if (bitU[row-offset][col]==0) updateBit_int8(dlist, bitU, listSize, (row-offset), col, xlen, ylen);
if (llrU[row-offset][col+1]==0) updateLLR_int8(dlist, llrU, bitU, listSize, (row-offset), (col+1), xlen, ylen);
if (llrU[row][col+1]==0) updateLLR_int8(dlist, llrU, bitU, listSize, row, (col+1), xlen, ylen);
for (uint8_t i=0; i<listSize; i++) {
#ifdef SHOWCOMP
printf("updatingLLR_int8 (%d,%d,%d) (bit %d,%d,%d, llr0 %d,%d,%d, llr1 %d,%d,%d \n",row,col,i,
row-offset,col,i,row-offset,col+1,i,row,col+1,i);
printf("updateLLR_int8_A(dlist,%d,%d,%d,%d);\n",i,row,col,offset);
#endif
updateLLR_int8_A(dlist,i,col,row,offset);
/*
if (dlist[i]->bit[col][row-offset]==0)
dlist[i]->llr[col][row] = dlist[i]->llr[col+1][row-offset] + dlist[i]->llr[col+1][row];
else
dlist[i]->llr[col][row] = -dlist[i]->llr[col+1][row-offset] + dlist[i]->llr[col+1][row];
// printf("updating dlist[%d]->llr[%d][%d] => %d (%d,%d) offset %d\n",i,col,row,dlist[i]->llr[col][row],
// (dlist[i]->bit[col][row-offset]==0 ? 1 : -1)*dlist[i]->llr[col+1][row-offset],dlist[i]->llr[col+1][row], offset);
}
dlist[i]->llr[col][row] = -dlist[i]->llr[col+1][row-offset] + dlist[i]->llr[col+1][row];*/
}
} else {
if (llrU[row][col+1]==0) updateLLR_int8(dlist, llrU, bitU, listSize, row, (col+1), xlen, ylen);
if (llrU[row+offset][col+1]==0) updateLLR_int8(dlist, llrU, bitU, listSize, (row+offset), (col+1), xlen, ylen);
......@@ -140,25 +135,19 @@ void updateBit(decoder_list_t **dlist, uint8_t **bitU, uint8_t listSize, uint16_
if (( (row) % (2*offset) ) >= offset ) {
if (bitU[row][col-1]==0) updateBit(dlist, bitU, listSize, row, (col-1), xlen, ylen);
dlist[i]->bit[col][row] = dlist[i]->bit[col-1][row];
#ifdef SHOWCOMP
printf("updating bit (%d,%d,%d) from (%d,%d,%d)\n",
row,col,i,row,col-1,i);
#endif
} else {
if (bitU[row][col-1]==0) updateBit(dlist, bitU, listSize, row, (col-1), xlen, ylen);
if (bitU[row+offset][col-1]==0) updateBit(dlist, bitU, listSize, (row+offset), (col-1), xlen, ylen);
dlist[i]->bit[col][row] = ( (dlist[i]->bit[col-1][row]+dlist[i]->bit[col-1][row+offset]) % 2);
// printf("updating dlist[%d]->bit[%d][%d] => %d\n",i,col,row,dlist[i]->bit[col][row]);
#ifdef SHOWCOMP
printf("updating bit (%d,%d,%d) from (%d,%d,%d)+(%d,%d,%d)\n",
row,col,i,row,col-1,i,row+offset,col-1,i);
#endif
}
}
bitU[row][col]=1;
}
#define updateBit_int8_A(dlist,i,col,row) dlist[(i)]->bit[(col)][(row)] = dlist[(i)]->bit[(col)-1][(row)]
#define updateBit_int8_B(dlist,i,col,row,offset) dlist[(i)]->bit[(col)][(row)] = dlist[(i)]->bit[(col)-1][(row)]^dlist[(i)]->bit[(col)-1][(row)+(offset)]
void updateBit_int8(decoder_list_int8_t **dlist, uint8_t **bitU, uint8_t listSize, uint16_t row,
uint16_t col, uint16_t xlen, uint8_t ylen) {
uint16_t offset = ( xlen/(pow(2,(ylen-col))) );
......@@ -166,71 +155,66 @@ void updateBit_int8(decoder_list_int8_t **dlist, uint8_t **bitU, uint8_t listSiz
for (uint8_t i=0; i<listSize; i++) {
if (( (row) % (2*offset) ) >= offset ) {
if (bitU[row][col-1]==0) updateBit_int8(dlist, bitU, listSize, row, (col-1), xlen, ylen);
dlist[i]->bit[col][row] = dlist[i]->bit[col-1][row];
// dlist[i]->bit[col][row] = dlist[i]->bit[col-1][row];
#ifdef SHOWCOMP
printf("updating bit (%d,%d,%d) from (%d,%d,%d)\n",
row,col,i,row,col-1,i);
printf("updateBit_int8_A(dlist,%d,%d,%d);\n",i,col,row);
#endif
updateBit_int8_A(dlist,i,col,row);
} else {
if (bitU[row][col-1]==0) updateBit_int8(dlist, bitU, listSize, row, (col-1), xlen, ylen);
if (bitU[row+offset][col-1]==0) updateBit_int8(dlist, bitU, listSize, (row+offset), (col-1), xlen, ylen);
dlist[i]->bit[col][row] = dlist[i]->bit[col-1][row]^dlist[i]->bit[col-1][row+offset];
// dlist[i]->bit[col][row] = dlist[i]->bit[col-1][row]^dlist[i]->bit[col-1][row+offset];
// printf("updating dlist[%d]->bit[%d][%d] => %d\n",i,col,row,dlist[i]->bit[col][row]);
#ifdef SHOWCOMP
printf("updating bit (%d,%d,%d) from (%d,%d,%d)+(%d,%d,%d)\n",
row,col,i,row,col-1,i,row+offset,col-1,i);
printf("updateBit_int8_B(dlist,%d,%d,%d,%d);\n",i,col,row,offset);
#endif
updateBit_int8_B(dlist,i,col,row,offset);
}
}
bitU[row][col]=1;
}
void updatePathMetric(decoder_list_t **dlist,uint8_t listSize, uint8_t bitValue,
uint16_t row, uint8_t approximation) {
#ifdef SHOWCOMP
printf("updating path_metric from Frozen bit (%d,%d) \n",
row,0);
#endif
if (approximation) { //eq. (12)
for (uint8_t i=0; i<listSize; i++) {
if ((2*bitValue) != ( 1 - copysign(1.0,dlist[i]->llr[0][row]) )) dlist[i]->pathMetric += fabs(dlist[i]->llr[0][row]);
// printf("updatepathmetric : llr %f pathMetric %f (bitValue %d)\n",32*dlist[i]->llr[0][row],32*dlist[i]->pathMetric,bitValue);
}
} else { //eq. (11b)
int8_t multiplier = (2*bitValue) - 1;
for (uint8_t i=0; i<listSize; i++) {
uint16_t row, uint8_t approximation) {
if (approximation) { //eq. (12)
for (uint8_t i=0; i<listSize; i++) {
if ((2*bitValue) != ( 1 - copysign(1.0,dlist[i]->llr[0][row]) )) dlist[i]->pathMetric += fabs(dlist[i]->llr[0][row]);
}
} else { //eq. (11b)
int8_t multiplier = (2*bitValue) - 1;
for (uint8_t i=0; i<listSize; i++) {
dlist[i]->pathMetric += log ( 1 + exp(multiplier*dlist[i]->llr[0][row]) ) ;
// printf("updatepathmetric : llr %f pathMetric %f\n",32*dlist[i]->llr[0][row],32*dlist[i]->pathMetric);
}
}
}
}
#define updatePathMetric0_int8_A(dlist,i,row,mask,absllr) { mask=dlist[i]->llr[0][row]>>15;if(mask!=0){absllr=(dlist[i]->llr[0][row]+mask)^mask;dlist[i]->pathMetric+=absllr;}}
void updatePathMetric0_int8(decoder_list_int8_t **dlist,uint8_t listSize, uint16_t row) {
int16_t mask,absllr;
for (uint8_t i=0; i<listSize; i++) {
updatePathMetric0_int8_A(dlist,i,row,mask,absllr);
#ifdef SHOWCOMP
printf("updating path_metric from Frozen bit (%d,%d) \n",
row,0);
printf("updatePathMetric0_int8_A(dlist,i,%d,%d);\n",listSize,row);
#endif
int16_t mask;
for (uint8_t i=0; i<listSize; i++) {
// if ((2*bitValue) != ( 1 - copysign(1.0,dlist[i]->llr[0][row]) )) dlist[i]->pathMetric += fabs(dlist[i]->llr[0][row]);
// equiv: if ((llr>0 && bitValue==1) || (llr<0 && bitValue==0) ...
// equiv: (llr>>7 + bitValue) != 0, in opposite case (llr>8 + bitValue) = -1 or 1
/*
mask = dlist[i]->llr[0][row]>>15;
if (mask != 0) {
int16_t absllr = (dlist[i]->llr[0][row]+mask)^mask;
dlist[i]->pathMetric += absllr;
}
// printf("updatepathmetric : llr %d, pathMetric %d (bitValue %d)\n",dlist[i]->llr[0][row],dlist[i]->pathMetric);
}
}*/
}
}
......@@ -241,10 +225,6 @@ void updatePathMetric2(decoder_list_t **dlist, uint8_t listSize, uint16_t row, u
for (i=0;i<listSize;i++) dlist[i+listSize]->pathMetric = dlist[i]->pathMetric;
decoder_list_t **dlist2 = &dlist[listSize];
#ifdef SHOWCOMP
printf("updating path_metric from information bit (%d,%d) \n",
row,0);
#endif
if (appr) { //eq. (12)
for (i = 0; i < listSize; i++) {
// bitValue=0
......@@ -263,22 +243,23 @@ void updatePathMetric2(decoder_list_t **dlist, uint8_t listSize, uint16_t row, u
}
}
#define updatePathMetric2_int8_A(dlist,i,listSize,row) {dlist[i+listSize]->pathMetric = dlist[i]->pathMetric;if (dlist[i]->llr[0][row]<0) dlist[i]->pathMetric-=dlist[i]->llr[0][row];else dlist[i+listSize]->pathMetric += dlist[i]->llr[0][row];}
void updatePathMetric2_int8(decoder_list_int8_t **dlist, uint8_t listSize, uint16_t row) {
int i;
for (i=0;i<listSize;i++) dlist[i+listSize]->pathMetric = dlist[i]->pathMetric;
decoder_list_int8_t **dlist2 = &dlist[listSize];
for (i = 0; i < listSize; i++) {
#ifdef SHOWCOMP
printf("updating path_metric from information bit (%d,%d) \n",
row,0);
printf("updatePathMetric2_int8_A(dlist,%d,%d,%d);\n",
i,listSize,row);
#endif
for (i = 0; i < listSize; i++) {
// bitValue=0
if (dlist[i]->llr[0][row]<0) dlist[i]->pathMetric -= dlist[i]->llr[0][row];
// bitValue=1
else dlist2[i]->pathMetric += dlist[i]->llr[0][row];
updatePathMetric2_int8_A(dlist,i,listSize,row);
// dlist[i+listSize]->pathMetric = dlist[i]->pathMetric;
//if (dlist[i]->llr[0][row]<0) dlist[i]->pathMetric -= dlist[i]->llr[0][row];
//else dlist[i+listSize]->pathMetric += dlist[i]->llr[0][row];
}
}
......@@ -301,20 +282,32 @@ void updateCrcChecksum2(decoder_list_t **dlist, uint8_t **crcGen,
}
}
#define updateCrcChecksum_int8_A(dlist,i,crcGen,i2,len) {for (uint8_t j = 0; j < len; j++) dlist[i]->crcChecksum[j] = (dlist[i]->crcChecksum[j]^crcGen[i2][j]);}
void updateCrcChecksum_int8(decoder_list_int8_t **dlist, uint8_t **crcGen,
uint8_t listSize, uint32_t i2, uint8_t len) {
for (uint8_t i = 0; i < listSize; i++) {
for (uint8_t j = 0; j < len; j++) {
dlist[i]->crcChecksum[j] = ( (dlist[i]->crcChecksum[j] + crcGen[i2][j]) % 2 );
}
#ifdef SHOWCOMP
printf("updateCrcChecksum_int8_A(dlist,%d,crcGen,%d,%d);\n",i,i2,len);
#endif
updateCrcChecksum_int8_A(dlist,i,crcGen,i2,len);
// for (uint8_t j = 0; j < len; j++) {
// dlist[i]->crcChecksum[j] = ( (dlist[i]->crcChecksum[j] + crcGen[i2][j]) % 2 );
// }
}
}
#define updateCrcChecksum2_int8_A(dlist,i,listSize,crcGen,i2,len) {for (uint8_t j = 0; j < len; j++) dlist[i+listSize]->crcChecksum[j]=dlist[i]->crcChecksum[j]^crcGen[i2][j];}
void updateCrcChecksum2_int8(decoder_list_int8_t **dlist, uint8_t **crcGen,
uint8_t listSize, uint32_t i2, uint8_t len) {
for (uint8_t i = 0; i < listSize; i++) {
for (uint8_t j = 0; j < len; j++) {
dlist[i+listSize]->crcChecksum[j] = ( (dlist[i]->crcChecksum[j] + crcGen[i2][j]) % 2 );
}
#ifdef SHOWCOMP
printf("updateCrcChecksum2_int8_A(dlist,%d,%d,crcGen,%d,%d);\n",i,listSize,i2,len);
#endif
updateCrcChecksum2_int8_A(dlist,i,listSize,crcGen,i2,len);
// for (uint8_t j = 0; j < len; j++) {
// dlist[i+listSize]->crcChecksum[j] = ( (dlist[i]->crcChecksum[j] + crcGen[i2][j]) % 2 );
// }
}
}
......@@ -147,8 +147,8 @@ typedef struct decoder_list_s {
typedef struct decoder_list_int8_s {
uint8_t bit[1+nmax][Nmax];
int16_t llr[1+nmax][Nmax];
uint8_t bit[1+nmax][Nmax] __attribute__((aligned(32)));
int16_t llr[1+nmax][Nmax]__attribute__((aligned(32)));
uint8_t crcChecksum[24];
int32_t pathMetric;
......
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