WSJT-X/lib/qra/q65/q65_subs.c

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// q65_subs.c
/* Fortran interface for Q65 codec
To encode a Q65 message:
integer x(13) !Message payload, 78 bits as 13 six-bit integers
integer y(63) !Codeword, 63 six-bit integers
call q65_enc(imsg,icodeword)
To decode a Q65 message:
parameter (LL=64,NN=63)
real s3(LL,NN) !Received energies
real s3prob(LL,NN) !Symbol-value probabilities
integer APmask(13)
integer APsymbols(13)
real snr2500
integer xdec(13) !Decoded 78-bit message as 13 six-bit integers
integer irc !Return code from q65_decode()
call q65_dec(s3,APmask,APsymbols,s3prob,snr2500,xdec,irc)
*/
#include "qra15_65_64_irr_e23.h" // QRA code used by Q65
#include "q65.h"
#include <stdio.h>
#include <stdlib.h>
static q65_codec_ds codec;
void q65_enc_(int x[], int y[])
{
static int first=1;
if (first) {
// Set the QRA code, allocate memory, and initialize
int rc = q65_init(&codec,&qra15_65_64_irr_e23);
if (rc<0) {
printf("error in q65_init()\n");
exit(0);
}
first=0;
}
// Encode message x[13], producing codeword y[63]
q65_encode(&codec,y,x);
}
void q65_intrinsics_ff_(float s3[], int* submode, float* B90Ts,
int* fadingModel, float s3prob[])
{
/* Input: s3[LL,NN] Received energies
* submode 0=A, 4=E
* B90 Spread bandwidth, 90% fractional energy
* fadingModel 0=Gaussian, 1=Lorentzian
* Output: s3prob[LL,NN] Symbol-value intrinsic probabilities
*/
int rc;
static int first=1;
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if (first) {
// Set the QRA code, allocate memory, and initialize
int rc = q65_init(&codec,&qra15_65_64_irr_e23);
if (rc<0) {
printf("error in q65_init()\n");
exit(0);
}
first=0;
}
rc = q65_intrinsics_fastfading(&codec,s3prob,s3,*submode,*B90Ts,*fadingModel);
if(rc<0) {
printf("error in q65_intrinsics()\n");
exit(0);
}
}
void q65_dec_(float s3[], float s3prob[], int APmask[], int APsymbols[],
int* maxiters0, float* esnodb0, int xdec[], int* rc0)
{
/* Input: s3[LL,NN] Symbol spectra
* s3prob[LL,NN] Symbol-value intrinsic probabilities
* APmask[13] AP information to be used in decoding
* APsymbols[13] Available AP informtion
* Output:
* esnodb0 Estimated Es/No (dB)
* xdec[13] Decoded 78-bit message as 13 six-bit integers
* rc0 Return code from q65_decode()
*/
int rc;
int ydec[63];
float esnodb;
int maxiters=*maxiters0;
rc = q65_decode(&codec,ydec,xdec,s3prob,APmask,APsymbols,maxiters);
*rc0=rc;
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// rc = -1: Invalid params
// rc = -2: Decode failed
// rc = -3: CRC mismatch
*esnodb0 = 0.0; //Default Es/No for a failed decode
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if(rc<0) return;
rc = q65_esnodb_fastfading(&codec,&esnodb,ydec,s3);
if(rc<0) {
printf("error in q65_esnodb_fastfading()\n");
exit(0);
}
*esnodb0 = esnodb;
}
void q65_dec_fullaplist_(float s3[], float s3prob[], int codewords[],
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int* ncw, float* esnodb0, int xdec[], float* plog, int* rc0)
{
/* Input: s3[LL,NN] Symbol spectra
* s3prob[LL,NN] Symbol-value intrinsic probabilities
* codewords[63,ncw] Full codewords to search for
* ncw Number of codewords
* Output:
* esnodb0 Estimated Es/No (dB)
* xdec[13] Decoded 78-bit message as 13 six-bit integers
* rc0 Return code from q65_decode()
*/
int rc;
int ydec[63];
float esnodb;
rc = q65_decode_fullaplist(&codec,ydec,xdec,s3prob,codewords,*ncw);
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*plog=q65_llh;
*rc0=rc;
// rc = -1: Invalid params
// rc = -2: Decode failed
// rc = -3: CRC mismatch
*esnodb0 = 0.0; //Default Es/No for a failed decode
if(rc<0) return;
rc = q65_esnodb_fastfading(&codec,&esnodb,ydec,s3);
if(rc<0) {
printf("error in q65_esnodb_fastfading()\n");
exit(0);
}
*esnodb0 = esnodb;
}