Commit 59c4ddef authored by Raymond Knopp's avatar Raymond 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,
......@@ -380,9 +465,6 @@ 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];
......@@ -403,101 +485,36 @@ int8_t polar_decoder_int8(int16_t *input,
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
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);
}
}
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++) {
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);
nonFrozenBit++;
......
......@@ -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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