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Completely redid the RDS demod

pull/1307/head
AlexandreRouma 2023-12-13 23:25:18 +01:00
rodzic 794d6ff5ac
commit 2432390600
12 zmienionych plików z 1027 dodań i 156 usunięć
Pokaż statystyki Ściągnij plik aktualizacji Ściągnij plik porównania Expand all files Collapse all files

50
core/src/dsp/demod/broadcast_fm.h
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@ -49,6 +49,7 @@ namespace dsp::demod {
audioFirTaps = taps::lowPass(15000.0, 4000.0, _samplerate);
alFir.init(NULL, audioFirTaps);
arFir.init(NULL, audioFirTaps);
xlator.init(NULL, -57000.0, samplerate);
rdsResamp.init(NULL, samplerate, 5000.0);
lmr = buffer::alloc<float>(STREAM_BUFFER_SIZE);
@ -56,9 +57,9 @@ namespace dsp::demod {
r = buffer::alloc<float>(STREAM_BUFFER_SIZE);
lprDelay.out.free();
lmrDelay.out.free();
arFir.out.free();
alFir.out.free();
xlator.out.free();
rdsResamp.out.free();
base_type::init(in);
@ -92,6 +93,7 @@ namespace dsp::demod {
alFir.setTaps(audioFirTaps);
arFir.setTaps(audioFirTaps);
xlator.setOffset(-57000.0, samplerate);
rdsResamp.setInSamplerate(samplerate);
reset();
@ -139,7 +141,7 @@ namespace dsp::demod {
base_type::tempStart();
}
inline int process(int count, complex_t* in, stereo_t* out, int& rdsOutCount, float* rdsout = NULL) {
inline int process(int count, complex_t* in, stereo_t* out, int& rdsOutCount, complex_t* rdsout = NULL) {
// Demodulate
demod.process(count, in, demod.out.writeBuf);
if (_stereo) {
@ -152,24 +154,24 @@ namespace dsp::demod {
// Delay
lprDelay.process(count, demod.out.writeBuf, demod.out.writeBuf);
lmrDelay.process(count, rtoc.out.writeBuf, rtoc.out.writeBuf);
lmrDelay.process(count, rtoc.out.writeBuf, lmrDelay.out.writeBuf);
// conjugate PLL output to down convert twice the L-R signal
math::Conjugate::process(count, pilotPLL.out.writeBuf, pilotPLL.out.writeBuf);
math::Multiply<dsp::complex_t>::process(count, rtoc.out.writeBuf, pilotPLL.out.writeBuf, rtoc.out.writeBuf);
math::Multiply<dsp::complex_t>::process(count, rtoc.out.writeBuf, pilotPLL.out.writeBuf, rtoc.out.writeBuf);
math::Multiply<dsp::complex_t>::process(count, lmrDelay.out.writeBuf, pilotPLL.out.writeBuf, lmrDelay.out.writeBuf);
math::Multiply<dsp::complex_t>::process(count, lmrDelay.out.writeBuf, pilotPLL.out.writeBuf, lmrDelay.out.writeBuf);
// Do RDS demod
if (_rdsOut) {
// Since the PLL output is no longer needed after this, use it as the output
math::Multiply<dsp::complex_t>::process(count, rtoc.out.writeBuf, pilotPLL.out.writeBuf, pilotPLL.out.writeBuf);
convert::ComplexToReal::process(count, pilotPLL.out.writeBuf, rdsout);
volk_32f_s32f_multiply_32f(rdsout, rdsout, 100.0, count);
rdsOutCount = rdsResamp.process(count, rdsout, rdsout);
// Translate to 0Hz
xlator.process(count, rtoc.out.writeBuf, rtoc.out.writeBuf);
// Resample to the output samplerate
rdsOutCount = rdsResamp.process(count, rtoc.out.writeBuf, rdsout);
}
// Convert output back to real for further processing
convert::ComplexToReal::process(count, rtoc.out.writeBuf, lmr);
convert::ComplexToReal::process(count, lmrDelay.out.writeBuf, lmr);
// Amplify by 2x
volk_32f_s32f_multiply_32f(lmr, lmr, 2.0f, count);
@ -193,24 +195,11 @@ namespace dsp::demod {
// Convert to complex
rtoc.process(count, demod.out.writeBuf, rtoc.out.writeBuf);
// Filter out pilot and run through PLL
pilotFir.process(count, rtoc.out.writeBuf, pilotFir.out.writeBuf);
pilotPLL.process(count, pilotFir.out.writeBuf, pilotPLL.out.writeBuf);
// Translate to 0Hz
xlator.process(count, rtoc.out.writeBuf, rtoc.out.writeBuf);
// Delay
lprDelay.process(count, demod.out.writeBuf, demod.out.writeBuf);
lmrDelay.process(count, rtoc.out.writeBuf, rtoc.out.writeBuf);
// conjugate PLL output to down convert twice the L-R signal
math::Conjugate::process(count, pilotPLL.out.writeBuf, pilotPLL.out.writeBuf);
math::Multiply<dsp::complex_t>::process(count, rtoc.out.writeBuf, pilotPLL.out.writeBuf, rtoc.out.writeBuf);
math::Multiply<dsp::complex_t>::process(count, rtoc.out.writeBuf, pilotPLL.out.writeBuf, rtoc.out.writeBuf);
// Since the PLL output is no longer needed after this, use it as the output
math::Multiply<dsp::complex_t>::process(count, rtoc.out.writeBuf, pilotPLL.out.writeBuf, pilotPLL.out.writeBuf);
convert::ComplexToReal::process(count, pilotPLL.out.writeBuf, rdsout);
volk_32f_s32f_multiply_32f(rdsout, rdsout, 100.0, count);
rdsOutCount = rdsResamp.process(count, rdsout, rdsout);
// Resample to the output samplerate
rdsOutCount = rdsResamp.process(count, rtoc.out.writeBuf, rdsout);
}
// Filter if needed
@ -240,7 +229,7 @@ namespace dsp::demod {
return count;
}
stream<float> rdsOut;
stream<complex_t> rdsOut;
protected:
double _deviation;
@ -253,13 +242,14 @@ namespace dsp::demod {
tap<complex_t> pilotFirTaps;
filter::FIR<complex_t, complex_t> pilotFir;
convert::RealToComplex rtoc;
channel::FrequencyXlator xlator;
loop::PLL pilotPLL;
math::Delay<float> lprDelay;
math::Delay<complex_t> lmrDelay;
tap<float> audioFirTaps;
filter::FIR<float, float> arFir;
filter::FIR<float, float> alFir;
multirate::RationalResampler<float> rdsResamp;
multirate::RationalResampler<dsp::complex_t> rdsResamp;
float* lmr;
float* l;

5
core/src/dsp/loop/phase_control_loop.h
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@ -65,6 +65,11 @@ namespace dsp::loop {
if constexpr(CLAMP_PHASE) { clampPhase(); }
}
inline void advancePhase() {
phase += freq;
if constexpr(CLAMP_PHASE) { clampPhase(); }
}
T freq;
T phase;

8
core/src/utils/riff.cpp
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@ -7,6 +7,14 @@ namespace riff {
const char* LIST_SIGNATURE = "LIST";
const size_t RIFF_LABEL_SIZE = 4;
// Writer::Writer(const Writer&& b) {
// //file = std::move(b.file);
// }
Writer::~Writer() {
close();
}
bool Writer::open(std::string path, const char form[4]) {
std::lock_guard<std::recursive_mutex> lck(mtx);

23
core/src/utils/riff.h
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@ -20,6 +20,10 @@ namespace riff {
class Writer {
public:
Writer() {}
// Writer(const Writer&& b);
~Writer();
bool open(std::string path, const char form[4]);
bool isOpen();
void close();
@ -40,4 +44,23 @@ namespace riff {
std::ofstream file;
std::stack<ChunkDesc> chunks;
};
// class Reader {
// public:
// Reader();
// Reader(const Reader&& b);
// ~Reader();
// bool open(std::string path);
// bool isOpen();
// void close();
// const std::string& form();
// private:
// std::string _form;
// std::recursive_mutex mtx;
// std::ofstream file;
// };
}

63
decoder_modules/atv_decoder/src/chroma_pll.h 100644
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@ -0,0 +1,63 @@
#pragma once
#include <dsp/loop/pll.h>
#include "chrominance_filter.h"
// TODO: Should be 60 but had to try something
#define BURST_START (63+CHROMA_FIR_DELAY)
#define BURST_END (BURST_START+28)
#define A_PHASE ((135.0/180.0)*FL_M_PI)
#define B_PHASE ((-135.0/180.0)*FL_M_PI)
namespace dsp::loop {
class ChromaPLL : public PLL {
using base_type = PLL;
public:
ChromaPLL() {}
ChromaPLL(stream<complex_t>* in, double bandwidth, double initPhase = 0.0, double initFreq = 0.0, double minFreq = -FL_M_PI, double maxFreq = FL_M_PI) {
base_type::init(in, bandwidth, initFreq, initPhase, minFreq, maxFreq);
}
inline int process(int count, complex_t* in, complex_t* out, bool aphase = false) {
// Process the pre-burst section
for (int i = 0; i < BURST_START; i++) {
out[i] = in[i] * math::phasor(-pcl.phase);
pcl.advancePhase();
}
// Process the burst itself
if (aphase) {
for (int i = BURST_START; i < BURST_END; i++) {
complex_t outVal = in[i] * math::phasor(-pcl.phase);
out[i] = outVal;
pcl.advance(math::normalizePhase(outVal.phase() - A_PHASE));
}
}
else {
for (int i = BURST_START; i < BURST_END; i++) {
complex_t outVal = in[i] * math::phasor(-pcl.phase);
out[i] = outVal;
pcl.advance(math::normalizePhase(outVal.phase() - B_PHASE));
}
}
// Process the post-burst section
for (int i = BURST_END; i < count; i++) {
out[i] = in[i] * math::phasor(-pcl.phase);
pcl.advancePhase();
}
return count;
}
inline int processBlank(int count, complex_t* in, complex_t* out) {
for (int i = 0; i < count; i++) {
out[i] = in[i] * math::phasor(-pcl.phase);
pcl.advancePhase();
}
return count;
}
};
}

239
decoder_modules/atv_decoder/src/chrominance_filter.h 100644
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@ -0,0 +1,239 @@
#pragma once
#include <dsp/types.h>
inline const dsp::complex_t CHROMA_FIR[] = {
{-0.000005461290583903, -0.000011336784355655},
{ 0.000020060944485414, 0.000009851315045203},
{-0.000034177222729438, 0.000007245841504981},
{ 0.000027694034878705, -0.000033114740542635},
{-0.000001217597841648, 0.000039141482370942},
{-0.000008324593371228, -0.000011315001355976},
{-0.000038085228233509, -0.000010585909953738},
{ 0.000114833396071141, -0.000047778708840608},
{-0.000115428390169113, 0.000205816198882814},
{-0.000055467806072871, -0.000356692479491626},
{ 0.000349316846854190, 0.000326162940234916},
{-0.000558465829929114, -0.000048001521408724},
{ 0.000488176200631416, -0.000319593757302922},
{-0.000169437838021935, 0.000501610900725908},
{-0.000131793335799502, -0.000373003580727547},
{ 0.000166817395492786, 0.000105930895534474},
{ 0.000030499908326112, -0.000003048682668943},
{-0.000174999505027919, 0.000168008090089458},
{ 0.000054431163395030, -0.000385174790951272},
{ 0.000215876012859739, 0.000372695852521209},
{-0.000325534912280750, -0.000130173041693966},
{ 0.000154951430569290, -0.000045395998708328},
{ 0.000054324657659002, -0.000076028700470037},
{ 0.000015664427565764, 0.000348002612845696},
{-0.000345943017888332, -0.000402175417043307},
{ 0.000568731727879741, 0.000112347863435682},
{-0.000416485880859085, 0.000211750352828909},
{ 0.000087462353623011, -0.000188197153014309},
{-0.000032082305030264, -0.000136804226080664},
{ 0.000379089999045955, 0.000303466839685362},
{-0.000726760198519770, -0.000007022279302816},
{ 0.000619888661818195, -0.000476871323359809},
{-0.000151885493742993, 0.000595641190573181},
{-0.000100626407015494, -0.000227947144491108},
{-0.000201935458823941, -0.000107628631934340},
{ 0.000680260922139900, -0.000120771182888852},
{-0.000666108629277491, 0.000744775901128973},
{ 0.000067236591919755, -0.001044125966364420},
{ 0.000447037274751822, 0.000651912509450913},
{-0.000262675893448686, -0.000082499729563337},
{-0.000349821460486320, 0.000132102793530818},
{ 0.000507024815168287, -0.000837598610490618},
{ 0.000163814255478652, 0.001346530693477834},
{-0.000970457632383793, -0.000968411010101160},
{ 0.000974834882891140, 0.000116507082762032},
{-0.000225464280571542, 0.000137131865995708},
{-0.000211542240694642, 0.000563783548428947},
{-0.000414412310798766, -0.001309793399193736},
{ 0.001497010004594478, 0.001021907858926259},
{-0.001752019159639658, 0.000116536066154131},
{ 0.000872822027879430, -0.000783952720205569},
{-0.000032439446797970, 0.000184988059956734},
{ 0.000446259382722895, 0.000833040920509238},
{-0.001741577737284306, -0.000764423771425237},
{ 0.002306569133792772, -0.000593352416441601},
{-0.001336084746214192, 0.001744394557524181},
{-0.000015810020735495, -0.001342809547658260},
{ 0.000007636494885364, 0.000009498318627546},
{ 0.001403876768349702, 0.000326101441888391},
{-0.002351020828600226, 0.001098649819278302},
{ 0.001389314639579544, -0.002746943712072884},
{ 0.000526319899588909, 0.002635084366837732},
{-0.001109526585744687, -0.000950323796527721},
{-0.000307792427984886, -0.000013203419520794},
{ 0.001737955094951111, -0.001247368808692850},
{-0.000974502437588420, 0.003352512117661680},
{-0.001462571137390936, -0.003635296917435679},
{ 0.002783459090201693, 0.001604420226187745},
{-0.001471518558760170, 0.000211117948702137},
{-0.000575340825070194, 0.000601820846100026},
{ 0.000302090333345692, -0.003088058972305493},
{ 0.002496092353182990, 0.003912508340989065},
{-0.004645661091012423, -0.001630427298020200},
{ 0.003556824805628799, -0.001209822327859352},
{-0.000744999556260706, 0.001143238699138109},
{ 0.000144278726929409, 0.001638049051599065},
{-0.003025291044450178, -0.003226370992887968},
{ 0.006047866290490120, 0.000927406808799887},
{-0.005338456415106141, 0.003008811999350399},
{ 0.001642959659014839, -0.003972384205231079},
{ 0.000273874932822212, 0.000977326273749033},
{ 0.002315022846573390, 0.001695671268241410},
{-0.006240953957978884, 0.000207330368698293},
{ 0.006164252120861735, -0.005177351717451013},
{-0.001560310257561104, 0.007437030759707700},
{-0.002131333814462852, -0.004317129694157112},
{ 0.000280518918541908, 0.000134405998842553},
{ 0.004612116481180659, -0.001024468120657814},
{-0.005599300279638699, 0.006828277067771868},
{ 0.000228879728552504, -0.010675998154712657},
{ 0.005692081512980654, 0.007582243186569848},
{-0.005100500569859509, -0.001364751685737153},
{-0.000902490398043454, 0.000385770160220703},
{ 0.003673858819546609, -0.006701685283451640},
{ 0.002079056046131593, 0.012568579063417429},
{-0.010730008156911677, -0.009826454574016218},
{ 0.012092401380903161, 0.000921764172237851},
{-0.004714530989129091, 0.003151948807627123},
{-0.001055930168838909, 0.003228576712467020},
{-0.004343270165991213, -0.011924332879354394},
{ 0.016499994418955999, 0.010255324919126899},
{-0.021047239750251585, 0.002309419513135448},
{ 0.011855513874047341, -0.011604071033866310},
{-0.000777842281358575, 0.005916341648175263},
{ 0.004380939277688377, 0.007397670455730446},
{-0.021891594662401131, -0.008509480947490166},
{ 0.032787638290674201, -0.009950745850861956},
{-0.021022579272463194, 0.030030850567389102},
{-0.001508145650189953, -0.027571914870304640},
{ 0.004056649693022923, 0.004624901687718579},
{ 0.025728742586666287, 0.004824671348397606},
{-0.058002700931665603, 0.030198618296813803},
{ 0.043631619628438784, -0.096308304333327280},
{ 0.033451363423624300, 0.136687079396426990},
{-0.129387018420204200, -0.101540513046619400},
{ 0.172881344826560730, -0.000000000000005297},
{-0.129387018420198010, 0.101540513046627330},
{ 0.033451363423615862, -0.136687079396429050},
{ 0.043631619628444723, 0.096308304333324601},
{-0.058002700931667456, -0.030198618296810247},
{ 0.025728742586665992, -0.004824671348399184},
{ 0.004056649693022639, -0.004624901687718827},
{-0.001508145650188251, 0.027571914870304734},
{-0.021022579272465047, -0.030030850567387805},
{ 0.032787638290674812, 0.009950745850859947},
{-0.021891594662400610, 0.008509480947491507},
{ 0.004380939277687923, -0.007397670455730714},
{-0.000777842281358940, -0.005916341648175215},
{ 0.011855513874048058, 0.011604071033865578},
{-0.021047239750251731, -0.002309419513134139},
{ 0.016499994418955360, -0.010255324919127926},
{-0.004343270165990471, 0.011924332879354665},
{-0.001055930168839110, -0.003228576712466955},
{-0.004714530989129287, -0.003151948807626830},
{ 0.012092401380903103, -0.000921764172238603},
{-0.010730008156911072, 0.009826454574016881},
{ 0.002079056046130817, -0.012568579063417559},
{ 0.003673858819547020, 0.006701685283451416},
{-0.000902490398043478, -0.000385770160220647},
{-0.005100500569859424, 0.001364751685737466},
{ 0.005692081512980187, -0.007582243186570198},
{ 0.000228879728553163, 0.010675998154712643},
{-0.005599300279639117, -0.006828277067771524},
{ 0.004612116481180722, 0.001024468120657532},
{ 0.000280518918541900, -0.000134405998842571},
{-0.002131333814462586, 0.004317129694157243},
{-0.001560310257561563, -0.007437030759707604},
{ 0.006164252120862052, 0.005177351717450635},
{-0.006240953957978898, -0.000207330368697911},
{ 0.002315022846573286, -0.001695671268241552},
{ 0.000273874932822152, -0.000977326273749050},
{ 0.001642959659015084, 0.003972384205230976},
{-0.005338456415106324, -0.003008811999350072},
{ 0.006047866290490063, -0.000927406808800258},
{-0.003025291044449980, 0.003226370992888153},
{ 0.000144278726929308, -0.001638049051599074},
{-0.000744999556260777, -0.001143238699138063},
{ 0.003556824805628873, 0.001209822327859134},
{-0.004645661091012323, 0.001630427298020484},
{ 0.002496092353182751, -0.003912508340989219},
{ 0.000302090333345882, 0.003088058972305475},
{-0.000575340825070231, -0.000601820846099991},
{-0.001471518558760183, -0.000211117948702046},
{ 0.002783459090201593, -0.001604420226187919},
{-0.001462571137390710, 0.003635296917435769},
{-0.000974502437588628, -0.003352512117661619},
{ 0.001737955094951189, 0.001247368808692742},
{-0.000307792427984885, 0.000013203419520814},
{-0.001109526585744628, 0.000950323796527789},
{ 0.000526319899588746, -0.002635084366837765},
{ 0.001389314639579712, 0.002746943712072799},
{-0.002351020828600294, -0.001098649819278158},
{ 0.001403876768349682, -0.000326101441888477},
{ 0.000007636494885364, -0.000009498318627546},
{-0.000015810020735412, 0.001342809547658261},
{-0.001336084746214299, -0.001744394557524099},
{ 0.002306569133792808, 0.000593352416441460},
{-0.001741577737284259, 0.000764423771425344},
{ 0.000446259382722843, -0.000833040920509266},
{-0.000032439446797982, -0.000184988059956732},
{ 0.000872822027879478, 0.000783952720205515},
{-0.001752019159639665, -0.000116536066154024},
{ 0.001497010004594416, -0.001021907858926351},
{-0.000414412310798685, 0.001309793399193761},
{-0.000211542240694677, -0.000563783548428934},
{-0.000225464280571550, -0.000137131865995694},
{ 0.000974834882891133, -0.000116507082762092},
{-0.000970457632383734, 0.000968411010101219},
{ 0.000163814255478569, -0.001346530693477844},
{ 0.000507024815168339, 0.000837598610490586},
{-0.000349821460486328, -0.000132102793530797},
{-0.000262675893448681, 0.000082499729563353},
{ 0.000447037274751782, -0.000651912509450940},
{ 0.000067236591919819, 0.001044125966364416},
{-0.000666108629277537, -0.000744775901128932},
{ 0.000680260922139908, 0.000120771182888810},
{-0.000201935458823935, 0.000107628631934352},
{-0.000100626407015480, 0.000227947144491114},
{-0.000151885493743030, -0.000595641190573172},
{ 0.000619888661818225, 0.000476871323359771},
{-0.000726760198519770, 0.000007022279302861},
{ 0.000379089999045936, -0.000303466839685386},
{-0.000032082305030256, 0.000136804226080666},
{ 0.000087462353623023, 0.000188197153014303},
{-0.000416485880859098, -0.000211750352828883},
{ 0.000568731727879734, -0.000112347863435717},
{-0.000345943017888307, 0.000402175417043329},
{ 0.000015664427565742, -0.000348002612845697},
{ 0.000054324657659007, 0.000076028700470034},
{ 0.000154951430569292, 0.000045395998708319},
{-0.000325534912280742, 0.000130173041693986},
{ 0.000215876012859716, -0.000372695852521222},
{ 0.000054431163395054, 0.000385174790951269},
{-0.000174999505027930, -0.000168008090089447},
{ 0.000030499908326113, 0.000003048682668941},
{ 0.000166817395492779, -0.000105930895534485},
{-0.000131793335799479, 0.000373003580727555},
{-0.000169437838021966, -0.000501610900725898},
{ 0.000488176200631435, 0.000319593757302892},
{-0.000558465829929111, 0.000048001521408758},
{ 0.000349316846854170, -0.000326162940234938},
{-0.000055467806072849, 0.000356692479491629},
{-0.000115428390169126, -0.000205816198882806},
{ 0.000114833396071144, 0.000047778708840601},
{-0.000038085228233508, 0.000010585909953741},
{-0.000008324593371228, 0.000011315001355977},
{-0.000001217597841650, -0.000039141482370942},
{ 0.000027694034878707, 0.000033114740542633},
{-0.000034177222729439, -0.000007245841504979},
{ 0.000020060944485413, -0.000009851315045204},
{-0.000005461290583903, 0.000011336784355656},
};
#define CHROMA_FIR_SIZE (sizeof(CHROMA_FIR)/sizeof(dsp::complex_t))
#define CHROMA_FIR_DELAY ((CHROMA_FIR_SIZE-1)/2)

193
decoder_modules/atv_decoder/src/linesync.h 100644
Wyświetl plik

@ -0,0 +1,193 @@
#pragma once
#include <dsp/processor.h>
#include <dsp/loop/phase_control_loop.h>
#include <dsp/taps/windowed_sinc.h>
#include <dsp/multirate/polyphase_bank.h>
#include <dsp/math/step.h>
class LineSync : public dsp::Processor<float, float> {
using base_type = dsp::Processor<float, float>;
public:
LineSync() {}
LineSync(dsp::stream<float>* in, double omega, double omegaGain, double muGain, double omegaRelLimit, int interpPhaseCount = 128, int interpTapCount = 8) { init(in, omega, omegaGain, muGain, omegaRelLimit, interpPhaseCount, interpTapCount); }
~LineSync() {
if (!base_type::_block_init) { return; }
base_type::stop();
dsp::multirate::freePolyphaseBank(interpBank);
dsp::buffer::free(buffer);
}
void init(dsp::stream<float>* in, double omega, double omegaGain, double muGain, double omegaRelLimit, int interpPhaseCount = 128, int interpTapCount = 8) {
_omega = omega;
_omegaGain = omegaGain;
_muGain = muGain;
_omegaRelLimit = omegaRelLimit;
_interpPhaseCount = interpPhaseCount;
_interpTapCount = interpTapCount;
pcl.init(_muGain, _omegaGain, 0.0, 0.0, 1.0, _omega, _omega * (1.0 - omegaRelLimit), _omega * (1.0 + omegaRelLimit));
generateInterpTaps();
buffer = dsp::buffer::alloc<float>(STREAM_BUFFER_SIZE + _interpTapCount);
bufStart = &buffer[_interpTapCount - 1];
base_type::init(in);
}
void setOmegaGain(double omegaGain) {
assert(base_type::_block_init);
std::lock_guard<std::recursive_mutex> lck(base_type::ctrlMtx);
_omegaGain = omegaGain;
pcl.setCoefficients(_muGain, _omegaGain);
}
void setMuGain(double muGain) {
assert(base_type::_block_init);
std::lock_guard<std::recursive_mutex> lck(base_type::ctrlMtx);
_muGain = muGain;
pcl.setCoefficients(_muGain, _omegaGain);
}
void setOmegaRelLimit(double omegaRelLimit) {
assert(base_type::_block_init);
std::lock_guard<std::recursive_mutex> lck(base_type::ctrlMtx);
_omegaRelLimit = omegaRelLimit;
pcl.setFreqLimits(_omega * (1.0 - _omegaRelLimit), _omega * (1.0 + _omegaRelLimit));
}
void setSyncLevel(float level) {
assert(base_type::_block_init);
std::lock_guard<std::recursive_mutex> lck(base_type::ctrlMtx);
syncLevel = level;
}
void setInterpParams(int interpPhaseCount, int interpTapCount) {
assert(base_type::_block_init);
std::lock_guard<std::recursive_mutex> lck(base_type::ctrlMtx);
base_type::tempStop();
_interpPhaseCount = interpPhaseCount;
_interpTapCount = interpTapCount;
dsp::multirate::freePolyphaseBank(interpBank);
dsp::buffer::free(buffer);
generateInterpTaps();
buffer = dsp::buffer::alloc<float>(STREAM_BUFFER_SIZE + _interpTapCount);
bufStart = &buffer[_interpTapCount - 1];
base_type::tempStart();
}
void reset() {
assert(base_type::_block_init);
std::lock_guard<std::recursive_mutex> lck(base_type::ctrlMtx);
base_type::tempStop();
offset = 0;
pcl.phase = 0.0f;
pcl.freq = _omega;
base_type::tempStart();
}
int run() {
int count = base_type::_in->read();
if (count < 0) { return -1; }
// Copy data to work buffer
memcpy(bufStart, base_type::_in->readBuf, count * sizeof(float));
if (test2) {
test2 = false;
offset += 5;
}
// Process all samples
while (offset < count) {
// Calculate new output value
int phase = std::clamp<int>(floorf(pcl.phase * (float)_interpPhaseCount), 0, _interpPhaseCount - 1);
float outVal;
volk_32f_x2_dot_prod_32f(&outVal, &buffer[offset], interpBank.phases[phase], _interpTapCount);
base_type::out.writeBuf[outCount++] = outVal;
// If the end of the line is reached, process it and determin error
float error = 0;
if (outCount >= 720) {
// Compute averages.
float left = 0.0f, right = 0.0f;
for (int i = (720-17); i < 720; i++) {
left += base_type::out.writeBuf[i];
}
for (int i = 0; i < 27; i++) {
left += base_type::out.writeBuf[i];
}
for (int i = 27; i < (54+17); i++) {
right += base_type::out.writeBuf[i];
}
left *= (1.0f/44.0f);
right *= (1.0f/44.0f);
// If the sync is present, compute error
if ((left < syncLevel && right < syncLevel) && !forceLock) {
error = (left + syncBias - right);
locked = true;
}
else {
locked = false;
}
if (++counter >= 100) {
counter = 0;
//flog::warn("Left: {}, Right: {}, Error: {}, Freq: {}, Phase: {}", left, right, error, pcl.freq, pcl.phase);
}
// Output line
if (!base_type::out.swap(outCount)) { break; }
outCount = 0;
}
// Advance symbol offset and phase
pcl.advance(error);
float delta = floorf(pcl.phase);
offset += delta;
pcl.phase -= delta;
}
offset -= count;
// Update delay buffer
memmove(buffer, &buffer[count], (_interpTapCount - 1) * sizeof(float));
// Swap if some data was generated
base_type::_in->flush();
return outCount;
}
bool locked = false;
bool test2 = false;
float syncBias = 0.0f;
bool forceLock = false;
int counter = 0;
protected:
void generateInterpTaps() {
double bw = 0.5 / (double)_interpPhaseCount;
dsp::tap<float> lp = dsp::taps::windowedSinc<float>(_interpPhaseCount * _interpTapCount, dsp::math::hzToRads(bw, 1.0), dsp::window::nuttall, _interpPhaseCount);
interpBank = dsp::multirate::buildPolyphaseBank<float>(_interpPhaseCount, lp);
dsp::taps::free(lp);
}
dsp::multirate::PolyphaseBank<float> interpBank;
dsp::loop::PhaseControlLoop<double, false> pcl;
double _omega;
double _omegaGain;
double _muGain;
double _omegaRelLimit;
int _interpPhaseCount;
int _interpTapCount;
int offset = 0;
int outCount = 0;
float* buffer;
float* bufStart;
float syncLevel = -0.03f;
};

181
decoder_modules/atv_decoder/src/main.cpp
Wyświetl plik

@ -10,6 +10,15 @@
#include <dsp/demod/quadrature.h>
#include <dsp/sink/handler_sink.h>
#include "linesync.h"
#include <dsp/loop/pll.h>
#include <dsp/convert/real_to_complex.h>
#include <dsp/filter/fir.h>
#include <dsp/taps/from_array.h>
#include "chrominance_filter.h"
#include "chroma_pll.h"
#define CONCAT(a, b) ((std::string(a) + b).c_str())
@ -17,7 +26,8 @@ SDRPP_MOD_INFO{/* Name: */ "atv_decoder",
/* Description: */ "ATV decoder for SDR++",
/* Author: */ "Ryzerth",
/* Version: */ 0, 1, 0,
/* Max instances */ -1};
/* Max instances */ -1
};
#define SAMPLE_RATE (625.0f * 720.0f * 25.0f)
@ -29,9 +39,16 @@ class ATVDecoderModule : public ModuleManager::Instance {
vfo = sigpath::vfoManager.createVFO(name, ImGui::WaterfallVFO::REF_CENTER, 0, 8000000.0f, SAMPLE_RATE, SAMPLE_RATE, SAMPLE_RATE, true);
demod.init(vfo->output, SAMPLE_RATE, SAMPLE_RATE / 2.0f);
sink.init(&demod.out, handler, this);
sync.init(&demod.out, 1.0f, 1e-6, 1.0, 0.05);
sink.init(&sync.out, handler, this);
r2c.init(NULL);
chromaTaps = dsp::taps::fromArray(CHROMA_FIR_SIZE, CHROMA_FIR);
fir.init(NULL, chromaTaps);
pll.init(NULL, 0.01, 0.0, dsp::math::hzToRads(4433618.75, SAMPLE_RATE), dsp::math::hzToRads(4433618.75*0.90, SAMPLE_RATE), dsp::math::hzToRads(4433618.75*1.1, SAMPLE_RATE));
demod.start();
sync.start();
sink.start();
gui::menu.registerEntry(name, menuHandler, this, this);
@ -47,9 +64,13 @@ class ATVDecoderModule : public ModuleManager::Instance {
void postInit() {}
void enable() { enabled = true; }
void enable() {
enabled = true;
}
void disable() { enabled = false; }
void disable() {
enabled = false;
}
bool isEnabled() { return enabled; }
@ -61,6 +82,8 @@ class ATVDecoderModule : public ModuleManager::Instance {
style::beginDisabled();
}
// Ideal width for testing: 750pixels
ImGui::FillWidth();
_this->img.draw();
@ -76,6 +99,28 @@ class ATVDecoderModule : public ModuleManager::Instance {
ImGui::FillWidth();
ImGui::SliderFloat("##spanLvl", &_this->spanLvl, 0, 1.0);
ImGui::LeftLabel("Sync Bias");
ImGui::FillWidth();
ImGui::SliderFloat("##syncBias", &_this->sync.syncBias,-0.1, 0.1);
if (ImGui::Button("Test2")) {
_this->sync.test2 = true;
}
if (ImGui::Button("Switch frame")) {
std::lock_guard<std::mutex> lck(_this->evenFrameMtx);
_this->evenFrame = !_this->evenFrame;
}
if (_this->sync.locked) {
ImGui::TextColored(ImVec4(0, 1, 0, 1), "Locked");
}
else {
ImGui::TextUnformatted("Not locked");
}
ImGui::Checkbox("Force Lock", &_this->sync.forceLock);
if (!_this->enabled) {
style::endDisabled();
}
@ -84,70 +129,66 @@ class ATVDecoderModule : public ModuleManager::Instance {
static void handler(float *data, int count, void *ctx) {
ATVDecoderModule *_this = (ATVDecoderModule *)ctx;
uint8_t *buf = (uint8_t *)_this->img.buffer;
float val;
float imval;
int pos = 0;
// Convert line to complex
_this->r2c.process(720, data, _this->r2c.out.writeBuf);
// Isolate the chroma subcarrier
_this->fir.process(720, _this->r2c.out.writeBuf, _this->fir.out.writeBuf);
// Run chroma carrier through the PLL
_this->pll.process(720, _this->fir.out.writeBuf, _this->pll.out.writeBuf, ((_this->ypos%2)==1) ^ _this->evenFrame);
// Render line to the image without color
//int lypos = _this->ypos - 1;
//if (lypos < 0) { lypos = 624; }
//uint32_t* lastLine = &((uint32_t *)_this->img.buffer)[(lypos < 313) ? (lypos*720*2) : ((((lypos - 313)*2)+1)*720) ];
//uint32_t* currentLine = &((uint32_t *)_this->img.buffer)[(_this->ypos < 313) ? (_this->ypos*720*2) : ((((_this->ypos - 313)*2)+1)*720) ];
uint32_t* currentLine = &((uint32_t *)_this->img.buffer)[_this->ypos*720];
for (int i = 0; i < count; i++) {
val = data[i];
// Sync
if (val < _this->sync_level) {
_this->sync_count++;
}
else {
if (_this->sync_count >= 300) {
_this->short_sync = 0;
}
else if (_this->sync_count >= 33) {
if (_this->short_sync == 5) {
_this->even_field = false;
_this->ypos = 0;
_this->img.swap();
buf = (uint8_t *)_this->img.buffer;
}
else if (_this->short_sync == 4) {
_this->even_field = true;
_this->ypos = 0;
}
_this->xpos = 0;
_this->short_sync = 0;
}
else if (_this->sync_count >= 15) {
_this->short_sync++;
}
_this->sync_count = 0;
//float imval = std::clamp<float>((data[i] - _this->minLvl) * 255.0 / _this->spanLvl, 0, 255);
uint32_t re = std::clamp<float>((_this->pll.out.writeBuf[i].re - _this->minLvl) * 255.0 / _this->spanLvl, 0, 255);
uint32_t im = std::clamp<float>((_this->pll.out.writeBuf[i].im - _this->minLvl) * 255.0 / _this->spanLvl, 0, 255);
currentLine[i] = 0xFF000000 | (im << 8) | re;
}
// Vertical scan logic
_this->ypos++;
bool rollover = _this->ypos >= 625;
if (rollover) {
{
std::lock_guard<std::mutex> lck(_this->evenFrameMtx);
_this->evenFrame = !_this->evenFrame;
}
_this->ypos = 0;
_this->img.swap();
}
// Measure vsync levels
float sync0 = 0.0f, sync1 = 0.0f;
for (int i = 0; i < 306; i++) {
sync0 += data[i];
}
for (int i = (720/2); i < ((720/2)+306); i++) {
sync1 += data[i];
}
sync0 *= (1.0f/305.0f);
sync1 *= (1.0f/305.0f);
// Draw
imval = std::clamp<float>((val - _this->minLvl) * 255.0 / _this->spanLvl, 0, 255);
if (_this->even_field) {
pos = ((720 * _this->ypos * 2) + _this->xpos) * 4;
}
else {
pos = ((720 * (_this->ypos * 2 + 1)) + _this->xpos) * 4;
}
// Save sync detection to history
_this->syncHistory >>= 2;
_this->syncHistory |= (((uint16_t)(sync1 < _this->sync_level)) << 9) | (((uint16_t)(sync0 < _this->sync_level)) << 8);
buf[pos] = imval;
buf[pos + 1] = imval;
buf[pos + 2] = imval;
buf[pos + 3] = imval;
// Image logic
_this->xpos++;
if (_this->xpos >= 720) {
_this->ypos++;
_this->xpos = 0;
}
if (_this->ypos >= 312) {
_this->ypos = 0;
_this->xpos = 0;
_this->even_field = !_this->even_field;
if (_this->even_field) {
_this->img.swap();
buf = (uint8_t *)_this->img.buffer;
}
// Trigger vsync in case one is detected
// TODO: Also sync with odd field
if (!rollover && _this->syncHistory == 0b0000011111) {
{
std::lock_guard<std::mutex> lck(_this->evenFrameMtx);
_this->evenFrame = !_this->evenFrame;
}
_this->ypos = 0;
_this->img.swap();
}
}
@ -156,19 +197,27 @@ class ATVDecoderModule : public ModuleManager::Instance {
VFOManager::VFO *vfo = NULL;
dsp::demod::Quadrature demod;
LineSync sync;
dsp::sink::Handler<float> sink;
int xpos = 0;
dsp::convert::RealToComplex r2c;
dsp::tap<dsp::complex_t> chromaTaps;
dsp::filter::FIR<dsp::complex_t, dsp::complex_t> fir;
dsp::loop::ChromaPLL pll;
int ypos = 0;
bool even_field = false;
float sync_level = -0.3f;
bool evenFrame = false;
std::mutex evenFrameMtx;
float sync_level = -0.06f;
int sync_count = 0;
int short_sync = 0;
float minLvl = 0.0f;
float spanLvl = 1.0f;
bool lockedLines = 0;
uint16_t syncHistory = 0;
ImGui::ImageDisplay img;
};

183
decoder_modules/radio/src/demodulators/wfm.h
Wyświetl plik

@ -2,11 +2,13 @@
#include "../demod.h"
#include <dsp/demod/broadcast_fm.h>
#include <dsp/clock_recovery/mm.h>
#include <dsp/clock_recovery/fd.h>
#include <dsp/loop/fast_agc.h>
#include <dsp/loop/costas.h>
#include <dsp/taps/root_raised_cosine.h>
#include <dsp/digital/binary_slicer.h>
#include <dsp/digital/manchester_decoder.h>
#include <dsp/digital/differential_decoder.h>
#include <dsp/routing/doubler.h>
#include <gui/widgets/symbol_diagram.h>
#include <fstream>
#include <rds.h>
@ -14,9 +16,9 @@
namespace demod {
class WFM : public Demodulator {
public:
WFM() {}
WFM() : diag(0.5, 4096) {}
WFM(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, double audioSR) {
WFM(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, double audioSR) : diag(0.5, 4096) {
init(name, config, input, bandwidth, audioSR);
}
@ -45,33 +47,66 @@ namespace demod {
if (config->conf[name][getName()].contains("rds")) {
_rds = config->conf[name][getName()]["rds"];
}
if (config->conf[name][getName()].contains("rdsInfo")) {
_rdsInfo = config->conf[name][getName()]["rdsInfo"];
}
_config->release(modified);
// Define structure
demod.init(input, bandwidth / 2.0f, getIFSampleRate(), _stereo, _lowPass, _rds);
recov.init(&demod.rdsOut, 5000.0 / 2375, omegaGain, muGain, 0.01);
slice.init(&recov.out);
manch.init(&slice.out);
diff.init(&manch.out, 2);
agc.init(&demod.rdsOut, 1.0, 1e6, 0.1);
costas.init(&agc.out, 0.005f);
taps = dsp::taps::bandPass<dsp::complex_t>(0, 2375, 100, 5000);
fir.init(&costas.out, taps);
double baudfreq = dsp::math::hzToRads(2375.0/2.0, 5000);
costas2.init(&fir.out, 0.01, 0.0, baudfreq, baudfreq - (baudfreq*0.1), baudfreq + (baudfreq*0.1));
c2r.init(&costas2.out);
recov.init(&c2r.out, 5000.0 / (2375.0 / 2.0), 1e-6, 0.01, 0.01);
slice.init(&doubler.outA);
diff.init(&slice.out, 2);
hs.init(&diff.out, rdsHandler, this);
doubler.init(&recov.out);
reshape.init(&doubler.outB, 4096, (1187 / 30) - 4096);
diagHandler.init(&reshape.out, _diagHandler, this);
diag.lines.push_back(-0.8);
diag.lines.push_back(0.8);
}
void start() {
agc.start();
costas.start();
fir.start();
costas2.start();
c2r.start();
demod.start();
recov.start();
slice.start();
manch.start();
diff.start();
hs.start();
doubler.start();
reshape.start();
diagHandler.start();
}
void stop() {
agc.stop();
costas.stop();
fir.stop();
costas2.stop();
c2r.stop();
demod.stop();
recov.stop();
slice.stop();
manch.stop();
diff.stop();
hs.stop();
c2r.stop();
reshape.stop();
diagHandler.stop();
}
void showMenu() {
@ -94,14 +129,105 @@ namespace demod {
_config->release(true);
}
// if (_rds) {
// if (rdsDecode.countryCodeValid()) { ImGui::Text("Country code: %d", rdsDecode.getCountryCode()); }
// if (rdsDecode.programCoverageValid()) { ImGui::Text("Program coverage: %d", rdsDecode.getProgramCoverage()); }
// if (rdsDecode.programRefNumberValid()) { ImGui::Text("Reference number: %d", rdsDecode.getProgramRefNumber()); }
// if (rdsDecode.programTypeValid()) { ImGui::Text("Program type: %d", rdsDecode.getProgramType()); }
// if (rdsDecode.PSNameValid()) { ImGui::Text("Program name: [%s]", rdsDecode.getPSName().c_str()); }
// if (rdsDecode.radioTextValid()) { ImGui::Text("Radiotext: [%s]", rdsDecode.getRadioText().c_str()); }
// }
// TODO: This will break when the entire radio module is disabled
if (!_rds) { ImGui::BeginDisabled(); }
if (ImGui::Checkbox(("Advanced RDS Info##_radio_wfm_rds_info_" + name).c_str(), &_rdsInfo)) {
_config->acquire();
_config->conf[name][getName()]["rdsInfo"] = _rdsInfo;
_config->release(true);
}
if (!_rds) { ImGui::EndDisabled(); }
float menuWidth = ImGui::GetContentRegionAvail().x;
if (_rds && _rdsInfo) {
ImGui::BeginTable(("##radio_wfm_rds_info_tbl_" + name).c_str(), 2, ImGuiTableFlags_SizingFixedFit | ImGuiTableFlags_RowBg | ImGuiTableFlags_Borders);
if (rdsDecode.piCodeValid()) {
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("PI Code");
ImGui::TableSetColumnIndex(1);
ImGui::Text("0x%04X (%s)", rdsDecode.getPICode(), rdsDecode.getCallsign().c_str());
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Country Code");
ImGui::TableSetColumnIndex(1);
ImGui::Text("%d", rdsDecode.getCountryCode());
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Program Coverage");
ImGui::TableSetColumnIndex(1);
ImGui::Text("%s (%d)", rds::AREA_COVERAGE_TO_STR[rdsDecode.getProgramCoverage()], rdsDecode.getProgramCoverage());
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Reference Number");
ImGui::TableSetColumnIndex(1);
ImGui::Text("%d", rdsDecode.getProgramRefNumber());
}
else {
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("PI Code");
ImGui::TableSetColumnIndex(1);
ImGui::TextUnformatted("0x---- (----)");
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Country Code");
ImGui::TableSetColumnIndex(1);
ImGui::TextUnformatted("--"); // TODO: String
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Program Coverage");
ImGui::TableSetColumnIndex(1);
ImGui::TextUnformatted("------- (--)");
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Reference Number");
ImGui::TableSetColumnIndex(1);
ImGui::TextUnformatted("--");
}
if (rdsDecode.programTypeValid()) {
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Program Type");
ImGui::TableSetColumnIndex(1);
ImGui::Text("%s (%d)", rds::PROGRAM_TYPE_US_TO_STR[rdsDecode.getProgramType()], rdsDecode.getProgramType());
}
else {
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Program Type");
ImGui::TableSetColumnIndex(1);
ImGui::TextUnformatted("------- (--)"); // TODO: String
}
if (rdsDecode.musicValid()) {
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Music");
ImGui::TableSetColumnIndex(1);
ImGui::Text("%s", rdsDecode.getMusic() ? "Yes":"No");
}
else {
ImGui::TableNextRow();
ImGui::TableSetColumnIndex(0);
ImGui::TextUnformatted("Music");
ImGui::TableSetColumnIndex(1);
ImGui::TextUnformatted("---");
}
ImGui::EndTable();
ImGui::SetNextItemWidth(menuWidth);
diag.draw();
}
}
void setBandwidth(double bandwidth) {
@ -145,6 +271,14 @@ namespace demod {
_this->rdsDecode.process(data, count);
}
// DEBUGGING ONLY
static void _diagHandler(float* data, int count, void* ctx) {
WFM* _this = (WFM*)ctx;
float* buf = _this->diag.acquireBuffer();
memcpy(buf, data, count * sizeof(float));
_this->diag.releaseBuffer();
}
static void fftRedraw(ImGui::WaterFall::FFTRedrawArgs args, void* ctx) {
WFM* _this = (WFM*)ctx;
if (!_this->_rds) { return; }
@ -186,13 +320,23 @@ namespace demod {
}
dsp::demod::BroadcastFM demod;
dsp::clock_recovery::FD recov;
dsp::loop::FastAGC<dsp::complex_t> agc;
dsp::loop::Costas<2> costas;
dsp::tap<dsp::complex_t> taps;
dsp::filter::FIR<dsp::complex_t, dsp::complex_t> fir;
dsp::loop::Costas<2> costas2;
dsp::convert::ComplexToReal c2r;
dsp::clock_recovery::MM<float> recov;
dsp::digital::BinarySlicer slice;
dsp::digital::ManchesterDecoder manch;
dsp::digital::DifferentialDecoder diff;
dsp::sink::Handler<uint8_t> hs;
EventHandler<ImGui::WaterFall::FFTRedrawArgs> fftRedrawHandler;
dsp::routing::Doubler<float> doubler;
dsp::buffer::Reshaper<float> reshape;
dsp::sink::Handler<float> diagHandler;
ImGui::SymbolDiagram diag;
rds::RDSDecoder rdsDecode;
ConfigManager* _config = NULL;
@ -200,6 +344,7 @@ namespace demod {
bool _stereo = false;
bool _lowPass = true;
bool _rds = false;
bool _rdsInfo = false;
float muGain = 0.01;
float omegaGain = (0.01*0.01)/4.0;

83
decoder_modules/radio/src/rds.cpp
Wyświetl plik

@ -3,6 +3,8 @@
#include <map>
#include <algorithm>
#include <utils/flog.h>
namespace rds {
std::map<uint16_t, BlockType> SYNDROMES = {
{ 0b1111011000, BLOCK_TYPE_A },
@ -54,18 +56,26 @@ namespace rds {
type = (BlockType)((lastType + 1) % _BLOCK_TYPE_COUNT);
}
// Save block while correcting errors (NOT YET)
// Save block while correcting errors (NOT YET) <- idk why the "not yet is here", TODO: find why
blocks[type] = correctErrors(shiftReg, type, blockAvail[type]);
// Update continous group count
if (type == BLOCK_TYPE_A) { contGroup = 1; }
else if (type == BLOCK_TYPE_B && lastType == BLOCK_TYPE_A) { contGroup++; }
// If block type is A, decode it directly, otherwise, update continous count
if (type == BLOCK_TYPE_A) {
decodeBlockA();
}
else if (type == BLOCK_TYPE_B) { contGroup = 1; }
else if ((type == BLOCK_TYPE_C || type == BLOCK_TYPE_CP) && lastType == BLOCK_TYPE_B) { contGroup++; }
else if (type == BLOCK_TYPE_D && (lastType == BLOCK_TYPE_C || lastType == BLOCK_TYPE_CP)) { contGroup++; }
else { contGroup = 0; }
else {
// If block B is available, decode it alone.
if (contGroup == 1) {
decodeBlockB();
}
contGroup = 0;
}
// If we've got an entire group, process it
if (contGroup >= 4) {
if (contGroup >= 3) {
contGroup = 0;
decodeGroup();
}
@ -124,26 +134,45 @@ namespace rds {
return out;
}
void RDSDecoder::decodeGroup() {
void RDSDecoder::decodeBlockA() {
// If it didn't decode properly return
if (!blockAvail[BLOCK_TYPE_A]) { return; }
// Update timeout
std::lock_guard<std::mutex> lck(groupMtx);
auto now = std::chrono::high_resolution_clock::now();
anyGroupLastUpdate = now;
// Make sure blocks A and B are available
if (!blockAvail[BLOCK_TYPE_A] || !blockAvail[BLOCK_TYPE_B]) { return; }
blockALastUpdate = now;
// Decode PI code
piCode = (blocks[BLOCK_TYPE_A] >> 10) & 0xFFFF;
countryCode = (blocks[BLOCK_TYPE_A] >> 22) & 0xF;
programCoverage = (AreaCoverage)((blocks[BLOCK_TYPE_A] >> 18) & 0xF);
programRefNumber = (blocks[BLOCK_TYPE_A] >> 10) & 0xFF;
decodeCallsign();
}
void RDSDecoder::decodeBlockB() {
// If it didn't decode properly return
if (!blockAvail[BLOCK_TYPE_B]) { return; }
// Decode group type and version
uint8_t groupType = (blocks[BLOCK_TYPE_B] >> 22) & 0xF;
GroupVersion groupVer = (GroupVersion)((blocks[BLOCK_TYPE_B] >> 21) & 1);
groupType = (blocks[BLOCK_TYPE_B] >> 22) & 0xF;
groupVer = (GroupVersion)((blocks[BLOCK_TYPE_B] >> 21) & 1);
// Decode traffic program and program type
trafficProgram = (blocks[BLOCK_TYPE_B] >> 20) & 1;
programType = (ProgramType)((blocks[BLOCK_TYPE_B] >> 15) & 0x1F);
}
void RDSDecoder::decodeGroup() {
std::lock_guard<std::mutex> lck(groupMtx);
auto now = std::chrono::high_resolution_clock::now();
// Make sure blocks B is available
if (!blockAvail[BLOCK_TYPE_B]) { return; }
// Decode block B
decodeBlockB();
if (groupType == 0) {
group0LastUpdate = now;
@ -202,9 +231,33 @@ namespace rds {
}
}
bool RDSDecoder::anyGroupValid() {
void RDSDecoder::decodeCallsign() {
// Determin first better based on offset
bool w = (piCode >= 21672);
callsign = w ? 'W' : 'K';
// Base25 decode the rest
std::string restStr;
int rest = piCode - (w ? 21672 : 4096);
while (rest) {
restStr += 'A' + (rest % 26);
rest /= 26;
}
// Reorder chars
for (int i = restStr.size() - 1; i >= 0; i--) {
callsign += restStr[i];
}
}
bool RDSDecoder::blockAValid() {
auto now = std::chrono::high_resolution_clock::now();
return (std::chrono::duration_cast<std::chrono::milliseconds>(now - anyGroupLastUpdate)).count() < 5000.0;
return (std::chrono::duration_cast<std::chrono::milliseconds>(now - blockALastUpdate)).count() < 5000.0;
}
bool RDSDecoder::blockBValid() {
auto now = std::chrono::high_resolution_clock::now();
return (std::chrono::duration_cast<std::chrono::milliseconds>(now - blockALastUpdate)).count() < 5000.0;
}
bool RDSDecoder::group0Valid() {

153
decoder_modules/radio/src/rds.h
Wyświetl plik

@ -20,22 +20,42 @@ namespace rds {
};
enum AreaCoverage {
AREA_COVERAGE_LOCAL,
AREA_COVERAGE_INTERNATIONAL,
AREA_COVERAGE_NATIONAL,
AREA_COVERAGE_SUPRA_NATIONAL,
AREA_COVERAGE_REGIONAL1,
AREA_COVERAGE_REGIONAL2,
AREA_COVERAGE_REGIONAL3,
AREA_COVERAGE_REGIONAL4,
AREA_COVERAGE_REGIONAL5,
AREA_COVERAGE_REGIONAL6,
AREA_COVERAGE_REGIONAL7,
AREA_COVERAGE_REGIONAL8,
AREA_COVERAGE_REGIONAL9,
AREA_COVERAGE_REGIONAL10,
AREA_COVERAGE_REGIONAL11,
AREA_COVERAGE_REGIONAL12
AREA_COVERAGE_INVALID = -1,
AREA_COVERAGE_LOCAL = 0,
AREA_COVERAGE_INTERNATIONAL = 1,
AREA_COVERAGE_NATIONAL = 2,
AREA_COVERAGE_SUPRA_NATIONAL = 3,
AREA_COVERAGE_REGIONAL1 = 4,
AREA_COVERAGE_REGIONAL2 = 5,
AREA_COVERAGE_REGIONAL3 = 6,
AREA_COVERAGE_REGIONAL4 = 7,
AREA_COVERAGE_REGIONAL5 = 8,
AREA_COVERAGE_REGIONAL6 = 9,
AREA_COVERAGE_REGIONAL7 = 10,
AREA_COVERAGE_REGIONAL8 = 11,
AREA_COVERAGE_REGIONAL9 = 12,
AREA_COVERAGE_REGIONAL10 = 13,
AREA_COVERAGE_REGIONAL11 = 14,
AREA_COVERAGE_REGIONAL12 = 15
};
inline const char* AREA_COVERAGE_TO_STR[] = {
"Local",
"International",
"National",
"Supra-National",
"Regional 1",
"Regional 2",
"Regional 3",
"Regional 4",
"Regional 5",
"Regional 6",
"Regional 7",
"Regional 8",
"Regional 9",
"Regional 10",
"Regional 11",
"Regional 12",
};
enum ProgramType {
@ -108,6 +128,76 @@ namespace rds {
PROGRAM_TYPE_EU_ALARM = 31
};
inline const char* PROGRAM_TYPE_EU_TO_STR[] = {
"None",
"News",
"Current Affairs",
"Information",
"Sports",
"Education",
"Drama",
"Culture",
"Science",
"Varied",
"Pop Music",
"Rock Music",
"Easy Listening Music",
"Light Classical",
"Serious Classical",
"Other Music",
"Weather",
"Finance",
"Children Program",
"Social Affairs",
"Religion",
"Phone-in",
"Travel",
"Leisure",
"Jazz Music",
"Country Music",
"National Music",
"Oldies Music",
"Folk Music",
"Documentary",
"Alarm Test",
"Alarm",
};
inline const char* PROGRAM_TYPE_US_TO_STR[] = {
"None",
"News",
"Information",
"Sports",
"Talk",
"Rock",
"Classic Rock",
"Adult Hits",
"Soft Rock",
"Top 40",
"Country",
"Oldies",
"Soft",
"Nostalgia",
"Jazz",
"Classical",
"Rythm and Blues",
"Soft Rythm and Blues",
"Foreign Language",
"Religious Music",
"Religious Talk",
"Personality",
"Public",
"College",
"Unassigned",
"Unassigned",
"Unassigned",
"Unassigned",
"Unassigned",
"Weather",
"Emergency Test",
"Emergency",
};
enum DecoderIdentification {
DECODER_IDENT_STEREO = (1 << 0),
DECODER_IDENT_ARTIFICIAL_HEAD = (1 << 1),
@ -119,13 +209,14 @@ namespace rds {
public:
void process(uint8_t* symbols, int count);
bool countryCodeValid() { std::lock_guard<std::mutex> lck(groupMtx); return anyGroupValid(); }
bool piCodeValid() { std::lock_guard<std::mutex> lck(groupMtx); return blockAValid(); }
uint16_t getPICode() { std::lock_guard<std::mutex> lck(groupMtx); return piCode; }
uint8_t getCountryCode() { std::lock_guard<std::mutex> lck(groupMtx); return countryCode; }
bool programCoverageValid() { std::lock_guard<std::mutex> lck(groupMtx); return anyGroupValid(); }
uint8_t getProgramCoverage() { std::lock_guard<std::mutex> lck(groupMtx); return programCoverage; }
bool programRefNumberValid() { std::lock_guard<std::mutex> lck(groupMtx); return anyGroupValid(); }
uint8_t getProgramRefNumber() { std::lock_guard<std::mutex> lck(groupMtx); return programRefNumber; }
bool programTypeValid() { std::lock_guard<std::mutex> lck(groupMtx); return anyGroupValid(); }
std::string getCallsign() { std::lock_guard<std::mutex> lck(groupMtx); return callsign; }
bool programTypeValid() { std::lock_guard<std::mutex> lck(groupMtx); return blockBValid(); }
ProgramType getProgramType() { std::lock_guard<std::mutex> lck(groupMtx); return programType; }
bool musicValid() { std::lock_guard<std::mutex> lck(groupMtx); return group0Valid(); }
@ -139,9 +230,14 @@ namespace rds {
private:
static uint16_t calcSyndrome(uint32_t block);
static uint32_t correctErrors(uint32_t block, BlockType type, bool& recovered);
void decodeBlockA();
void decodeBlockB();
void decodeGroup();
bool anyGroupValid();
void decodeCallsign();
bool blockAValid();
bool blockBValid();
bool group0Valid();
bool group2Valid();
@ -154,17 +250,24 @@ namespace rds {
uint32_t blocks[_BLOCK_TYPE_COUNT];
bool blockAvail[_BLOCK_TYPE_COUNT];
// All groups
// Block A (All groups)
std::mutex groupMtx;
std::chrono::time_point<std::chrono::high_resolution_clock> anyGroupLastUpdate;
std::chrono::time_point<std::chrono::high_resolution_clock> blockALastUpdate{}; // 1970-01-01
uint16_t piCode;
uint8_t countryCode;
AreaCoverage programCoverage;
uint8_t programRefNumber;
std::string callsign;
// Block B (All groups)
std::chrono::time_point<std::chrono::high_resolution_clock> blockBLastUpdate{}; // 1970-01-01
uint8_t groupType;
GroupVersion groupVer;
bool trafficProgram;
ProgramType programType;
// Group type 0
std::chrono::time_point<std::chrono::high_resolution_clock> group0LastUpdate;
std::chrono::time_point<std::chrono::high_resolution_clock> group0LastUpdate{}; // 1970-01-01
bool trafficAnnouncement;
bool music;
uint8_t decoderIdent;
@ -172,7 +275,7 @@ namespace rds {
std::string programServiceName = " ";
// Group type 2
std::chrono::time_point<std::chrono::high_resolution_clock> group2LastUpdate;
std::chrono::time_point<std::chrono::high_resolution_clock> group2LastUpdate{}; // 1970-01-01
bool rtAB = false;
std::string radioText = " ";

2
source_modules/bladerf_source/src/main.cpp
Wyświetl plik

@ -347,7 +347,7 @@ private:
static void start(void* ctx) {
BladeRFSourceModule* _this = (BladeRFSourceModule*)ctx;
if (_this->running) { return; }
if (_this->devCount == 0) { return; }
if (_this->devCount <= 0) { return; }
// Open device
bladerf_devinfo info = _this->devInfoList[_this->devId];