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More work on the new radio

pull/538/head
AlexandreRouma 2021-12-04 04:49:51 +01:00
rodzic 2748c13142
commit 62d2dfafd7
12 zmienionych plików z 638 dodań i 36 usunięć
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1
CMakeLists.txt
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@ -145,6 +145,7 @@ endif (OPT_BUILD_METEOR_DEMODULATOR)
if (OPT_BUILD_RADIO)
add_subdirectory("decoder_modules/radio")
add_subdirectory("decoder_modules/new_radio")
endif (OPT_BUILD_RADIO)
if (OPT_BUILD_WEATHER_SAT_DECODER)

1
core/src/credits.cpp
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@ -38,6 +38,7 @@ namespace sdrpp_credits {
const char* hardwareDonators[] = {
"Airspy",
"Analog Devices",
"CaribouLabs",
"Howard Su",
"MyriadRF",
"Nuand",

2
core/src/gui/dialogs/credits.cpp
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@ -31,7 +31,7 @@ namespace credits {
ImGui::Spacing();
ImGui::Spacing();
ImGui::Text("This software is brought to you by Alexandre Rouma with the help of\n\n");
ImGui::Text("This software is brought to you by Alexandre Rouma (ON5RYZ) with the help of\n\n");
ImGui::Columns(4, "CreditColumns", true);

24
decoder_modules/new_radio/src/demod.h
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@ -3,13 +3,20 @@
#include <dsp/types.h>
#include <gui/widgets/waterfall.h>
#include <config.h>
#include "radio_module.h"
#include <utils/event.h>
enum DeemphasisMode {
DEEMP_MODE_50US,
DEEMP_MODE_75US,
DEEMP_MODE_NONE,
_DEEMP_MODE_COUNT
};
namespace demod {
class Demodulator {
public:
virtual ~Demodulator() {}
virtual void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth) = 0;
virtual void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) = 0;
virtual void start() = 0;
virtual void stop() = 0;
virtual void showMenu() = 0;
@ -21,11 +28,22 @@ namespace demod {
virtual double getDefaultBandwidth() = 0;
virtual double getMinBandwidth() = 0;
virtual double getMaxBandwidth() = 0;
virtual bool getBandwidthLocked() = 0;
virtual double getMaxAFBandwidth() = 0;
virtual double getDefaultSnapInterval() = 0;
virtual int getVFOReference() = 0;
virtual bool getDeempAllowed() = 0;
virtual int getDefaultDeemphasisMode() = 0;
virtual double getAFBandwidth(double bandwidth) = 0;
virtual bool getDynamicAFBandwidth() = 0;
virtual dsp::stream<dsp::stereo_t>* getOutput() = 0;
};
}
#include "demodulators/wfm.h"
#include "demodulators/wfm.h"
#include "demodulators/nfm.h"
#include "demodulators/am.h"
#include "demodulators/usb.h"
#include "demodulators/lsb.h"
#include "demodulators/dsb.h"
#include "demodulators/cw.h"

77
decoder_modules/new_radio/src/demodulators/am.h 100644
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@ -0,0 +1,77 @@
#pragma once
#include "../demod.h"
#include <dsp/demodulator.h>
#include <dsp/filter.h>
namespace demod {
class AM : public Demodulator {
public:
AM() {}
AM(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
init(name, config, input, bandwidth, outputChangeHandler);
}
~AM() {
stop();
}
void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
this->name = name;
this->outputChangeHandler = outputChangeHandler;
// Define structure
demod.init(input);
agc.init(&demod.out, 20.0f, getIFSampleRate());
m2s.init(&agc.out);
}
void start() {
demod.start();
agc.start();
m2s.start();
}
void stop() {
demod.stop();
agc.stop();
m2s.stop();
}
void showMenu() {
// TODO: Adjust AGC settings
}
void setBandwidth(double bandwidth) {}
void setInput(dsp::stream<dsp::complex_t>* input) {
demod.setInput(input);
}
// ============= INFO =============
const char* getName() { return "AM"; }
double getIFSampleRate() { return 15000.0; }
double getAFSampleRate() { return getIFSampleRate(); }
double getDefaultBandwidth() { return 10000.0; }
double getMinBandwidth() { return 1000.0; }
double getMaxBandwidth() { return getIFSampleRate(); }
bool getBandwidthLocked() { return false; }
double getMaxAFBandwidth() { return getIFSampleRate() / 2.0; }
double getDefaultSnapInterval() { return 1000.0; }
int getVFOReference() { return ImGui::WaterfallVFO::REF_CENTER; }
bool getDeempAllowed() { return false; }
int getDefaultDeemphasisMode() { return DEEMP_MODE_NONE; }
double getAFBandwidth(double bandwidth) { return bandwidth / 2.0; }
bool getDynamicAFBandwidth() { return true; }
dsp::stream<dsp::stereo_t>* getOutput() { return &m2s.out; }
private:
dsp::AMDemod demod;
dsp::AGC agc;
dsp::MonoToStereo m2s;
std::string name;
EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler;
};
}

79
decoder_modules/new_radio/src/demodulators/cw.h 100644
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@ -0,0 +1,79 @@
#pragma once
#include "../demod.h"
#include <dsp/demodulator.h>
#include <dsp/filter.h>
namespace demod {
class CW : public Demodulator {
public:
CW() {}
CW(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
init(name, config, input, bandwidth, outputChangeHandler);
}
~CW() {
stop();
}
void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
this->name = name;
this->outputChangeHandler = outputChangeHandler;
// Define structure
xlator.init(input, getIFSampleRate(), 1000.0);
c2r.init(&xlator.out);
agc.init(&c2r.out, 20.0f, getIFSampleRate());
m2s.init(&agc.out);
}
void start() {
xlator.start();
c2r.start();
agc.start();
m2s.start();
}
void stop() {
xlator.stop();
c2r.stop();
agc.stop();
m2s.stop();
}
void showMenu() {}
void setBandwidth(double bandwidth) {}
void setInput(dsp::stream<dsp::complex_t>* input) {
xlator.setInput(input);
}
// ============= INFO =============
const char* getName() { return "CW"; }
double getIFSampleRate() { return 3000.0; }
double getAFSampleRate() { return getIFSampleRate(); }
double getDefaultBandwidth() { return 500.0; }
double getMinBandwidth() { return 50.0; }
double getMaxBandwidth() { return 500.0; }
bool getBandwidthLocked() { return false; }
double getMaxAFBandwidth() { return getIFSampleRate() / 2.0; }
double getDefaultSnapInterval() { return 10.0; }
int getVFOReference() { return ImGui::WaterfallVFO::REF_CENTER; }
bool getDeempAllowed() { return false; }
int getDefaultDeemphasisMode() { return DEEMP_MODE_NONE; }
double getAFBandwidth(double bandwidth) { return (bandwidth / 2.0) + 1000.0; }
bool getDynamicAFBandwidth() { return true; }
dsp::stream<dsp::stereo_t>* getOutput() { return &m2s.out; }
private:
dsp::FrequencyXlator<dsp::complex_t> xlator;
dsp::ComplexToReal c2r;
dsp::AGC agc;
dsp::MonoToStereo m2s;
std::string name;
EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler;
};
}

79
decoder_modules/new_radio/src/demodulators/dsb.h 100644
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@ -0,0 +1,79 @@
#pragma once
#include "../demod.h"
#include <dsp/demodulator.h>
#include <dsp/filter.h>
namespace demod {
class DSB : public Demodulator {
public:
DSB() {}
DSB(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
init(name, config, input, bandwidth, outputChangeHandler);
}
~DSB() {
stop();
}
void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
this->name = name;
this->outputChangeHandler = outputChangeHandler;
// Define structure
demod.init(input, getIFSampleRate(), bandwidth, dsp::SSBDemod::MODE_DSB);
agc.init(&demod.out, 20.0f, getIFSampleRate());
m2s.init(&agc.out);
}
void start() {
demod.start();
agc.start();
m2s.start();
}
void stop() {
demod.stop();
agc.stop();
m2s.stop();
}
void showMenu() {
// TODO: Adjust AGC settings
}
void setBandwidth(double bandwidth) {
demod.setBandWidth(bandwidth);
}
void setInput(dsp::stream<dsp::complex_t>* input) {
demod.setInput(input);
}
// ============= INFO =============
const char* getName() { return "DSB"; }
double getIFSampleRate() { return 24000.0; }
double getAFSampleRate() { return getIFSampleRate(); }
double getDefaultBandwidth() { return 4600.0; }
double getMinBandwidth() { return 1000.0; }
double getMaxBandwidth() { return getIFSampleRate() / 2.0; }
bool getBandwidthLocked() { return false; }
double getMaxAFBandwidth() { return getIFSampleRate() / 2.0; }
double getDefaultSnapInterval() { return 100.0; }
int getVFOReference() { return ImGui::WaterfallVFO::REF_CENTER; }
bool getDeempAllowed() { return false; }
int getDefaultDeemphasisMode() { return DEEMP_MODE_NONE; }
double getAFBandwidth(double bandwidth) { return bandwidth / 2.0; }
bool getDynamicAFBandwidth() { return true; }
dsp::stream<dsp::stereo_t>* getOutput() { return &m2s.out; }
private:
dsp::SSBDemod demod;
dsp::AGC agc;
dsp::MonoToStereo m2s;
std::string name;
EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler;
};
}

79
decoder_modules/new_radio/src/demodulators/lsb.h 100644
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@ -0,0 +1,79 @@
#pragma once
#include "../demod.h"
#include <dsp/demodulator.h>
#include <dsp/filter.h>
namespace demod {
class LSB : public Demodulator {
public:
LSB() {}
LSB(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
init(name, config, input, bandwidth, outputChangeHandler);
}
~LSB() {
stop();
}
void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
this->name = name;
this->outputChangeHandler = outputChangeHandler;
// Define structure
demod.init(input, getIFSampleRate(), bandwidth, dsp::SSBDemod::MODE_LSB);
agc.init(&demod.out, 20.0f, getIFSampleRate());
m2s.init(&agc.out);
}
void start() {
demod.start();
agc.start();
m2s.start();
}
void stop() {
demod.stop();
agc.stop();
m2s.stop();
}
void showMenu() {
// TODO: Adjust AGC settings
}
void setBandwidth(double bandwidth) {
demod.setBandWidth(bandwidth);
}
void setInput(dsp::stream<dsp::complex_t>* input) {
demod.setInput(input);
}
// ============= INFO =============
const char* getName() { return "LSB"; }
double getIFSampleRate() { return 24000.0; }
double getAFSampleRate() { return getIFSampleRate(); }
double getDefaultBandwidth() { return 2800.0; }
double getMinBandwidth() { return 500.0; }
double getMaxBandwidth() { return getIFSampleRate() / 2.0; }
bool getBandwidthLocked() { return false; }
double getMaxAFBandwidth() { return getIFSampleRate() / 2.0; }
double getDefaultSnapInterval() { return 100.0; }
int getVFOReference() { return ImGui::WaterfallVFO::REF_UPPER; }
bool getDeempAllowed() { return false; }
int getDefaultDeemphasisMode() { return DEEMP_MODE_NONE; }
double getAFBandwidth(double bandwidth) { return bandwidth; }
bool getDynamicAFBandwidth() { return true; }
dsp::stream<dsp::stereo_t>* getOutput() { return &m2s.out; }
private:
dsp::SSBDemod demod;
dsp::AGC agc;
dsp::MonoToStereo m2s;
std::string name;
EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler;
};
}

69
decoder_modules/new_radio/src/demodulators/nfm.h 100644
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@ -0,0 +1,69 @@
#pragma once
#include "../demod.h"
#include <dsp/demodulator.h>
#include <dsp/filter.h>
namespace demod {
class NFM : public Demodulator {
public:
NFM() {}
NFM(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
init(name, config, input, bandwidth, outputChangeHandler);
}
~NFM() {
stop();
}
void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
this->name = name;
this->outputChangeHandler = outputChangeHandler;
// Define structure
demod.init(input, getIFSampleRate(), bandwidth / 2.0f);
}
void start() {
demod.start();
}
void stop() {
demod.stop();
}
void showMenu() {}
void setBandwidth(double bandwidth) {
demod.setDeviation(bandwidth / 2.0f);
}
void setInput(dsp::stream<dsp::complex_t>* input) {
demod.setInput(input);
}
// ============= INFO =============
const char* getName() { return "FM"; }
double getIFSampleRate() { return 50000.0; }
double getAFSampleRate() { return getIFSampleRate(); }
double getDefaultBandwidth() { return 12500.0; }
double getMinBandwidth() { return 1000.0; }
double getMaxBandwidth() { return getIFSampleRate(); }
bool getBandwidthLocked() { return false; }
double getMaxAFBandwidth() { return getIFSampleRate() / 2.0; }
double getDefaultSnapInterval() { return 2500.0; }
int getVFOReference() { return ImGui::WaterfallVFO::REF_CENTER; }
bool getDeempAllowed() { return true; }
int getDefaultDeemphasisMode() { return DEEMP_MODE_NONE; }
double getAFBandwidth(double bandwidth) { return bandwidth / 2.0; }
bool getDynamicAFBandwidth() { return true; }
dsp::stream<dsp::stereo_t>* getOutput() { return &demod.out; }
private:
dsp::FMDemod demod;
std::string name;
EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler;
};
}

79
decoder_modules/new_radio/src/demodulators/usb.h 100644
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@ -0,0 +1,79 @@
#pragma once
#include "../demod.h"
#include <dsp/demodulator.h>
#include <dsp/filter.h>
namespace demod {
class USB : public Demodulator {
public:
USB() {}
USB(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
init(name, config, input, bandwidth, outputChangeHandler);
}
~USB() {
stop();
}
void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
this->name = name;
this->outputChangeHandler = outputChangeHandler;
// Define structure
demod.init(input, getIFSampleRate(), bandwidth, dsp::SSBDemod::MODE_USB);
agc.init(&demod.out, 20.0f, getIFSampleRate());
m2s.init(&agc.out);
}
void start() {
demod.start();
agc.start();
m2s.start();
}
void stop() {
demod.stop();
agc.stop();
m2s.stop();
}
void showMenu() {
// TODO: Adjust AGC settings
}
void setBandwidth(double bandwidth) {
demod.setBandWidth(bandwidth);
}
void setInput(dsp::stream<dsp::complex_t>* input) {
demod.setInput(input);
}
// ============= INFO =============
const char* getName() { return "USB"; }
double getIFSampleRate() { return 24000.0; }
double getAFSampleRate() { return getIFSampleRate(); }
double getDefaultBandwidth() { return 2800.0; }
double getMinBandwidth() { return 500.0; }
double getMaxBandwidth() { return getIFSampleRate() / 2.0; }
bool getBandwidthLocked() { return false; }
double getMaxAFBandwidth() { return getIFSampleRate() / 2.0; }
double getDefaultSnapInterval() { return 100.0; }
int getVFOReference() { return ImGui::WaterfallVFO::REF_LOWER; }
bool getDeempAllowed() { return false; }
int getDefaultDeemphasisMode() { return DEEMP_MODE_NONE; }
double getAFBandwidth(double bandwidth) { return bandwidth; }
bool getDynamicAFBandwidth() { return true; }
dsp::stream<dsp::stereo_t>* getOutput() { return &m2s.out; }
private:
dsp::SSBDemod demod;
dsp::AGC agc;
dsp::MonoToStereo m2s;
std::string name;
EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler;
};
}

34
decoder_modules/new_radio/src/demodulators/wfm.h
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@ -8,29 +8,26 @@ namespace demod {
public:
WFM() {}
WFM(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth) {
init(name, config, input, bandwidth);
WFM(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
init(name, config, input, bandwidth, outputChangeHandler);
}
~WFM() {
stop();
}
void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth) {
void init(std::string name, ConfigManager* config, dsp::stream<dsp::complex_t>* input, double bandwidth, EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler) {
this->name = name;
this->outputChangeHandler = outputChangeHandler;
_config = config;
// Load config
_config->acquire();
bool modified =false;
if (!config->conf[name].contains(getName())) {
config->conf[name][getName()]["deempMode"] = 0;
config->conf[name][getName()]["stereo"] = false;
modified = true;
}
if (config->conf[name][getName()].contains("deempMode")) {
deempMode = config->conf[name][getName()]["deempMode"];
}
if (config->conf[name][getName()].contains("stereo")) {
stereo = config->conf[name][getName()]["stereo"];
}
@ -39,19 +36,15 @@ namespace demod {
// Define structure
demod.init(input, getIFSampleRate(), bandwidth / 2.0f);
demodStereo.init(input, getIFSampleRate(), bandwidth / 2.0f);
//deemp.init(stereo ? demodStereo.out : &demod.out, getAFSampleRate(), 50e-6);
//deemp.bypass = false;
}
void start() {
stereo ? demodStereo.start() : demod.start();
//deemp.start();
}
void stop() {
demod.stop();
demodStereo.stop();
//deemp.stop();
}
void showMenu() {
@ -61,7 +54,6 @@ namespace demod {
_config->conf[name][getName()]["stereo"] = stereo;
_config->release(true);
}
//ImGui::Checkbox("Deemp bypass", &deemp.bypass);
}
void setBandwidth(double bandwidth) {
@ -82,10 +74,15 @@ namespace demod {
double getDefaultBandwidth() { return 150000.0; }
double getMinBandwidth() { return 50000.0; }
double getMaxBandwidth() { return getIFSampleRate(); }
bool getBandwidthLocked() { return false; }
double getMaxAFBandwidth() { return 16000.0; }
double getDefaultSnapInterval() { return 100000.0; }
int getVFOReference() { return ImGui::WaterfallVFO::REF_CENTER; }
dsp::stream<dsp::stereo_t>* getOutput() { return demodStereo.out; }
bool getDeempAllowed() { return true; }
int getDefaultDeemphasisMode() { return DEEMP_MODE_50US; }
double getAFBandwidth(double bandwidth) { return 16000.0; }
bool getDynamicAFBandwidth() { return false; }
dsp::stream<dsp::stereo_t>* getOutput() { return stereo ? demodStereo.out : &demod.out; }
// ============= DEDICATED FUNCTIONS =============
@ -93,12 +90,12 @@ namespace demod {
stereo = _stereo;
if (stereo) {
demod.stop();
//deemp.setInput(demodStereo.out);
outputChangeHandler.handler(demodStereo.out, outputChangeHandler.ctx);
demodStereo.start();
}
else {
demodStereo.stop();
//deemp.setInput(&demod.out);
outputChangeHandler.handler(&demod.out, outputChangeHandler.ctx);
demod.start();
}
}
@ -106,15 +103,12 @@ namespace demod {
private:
dsp::FMDemod demod;
dsp::StereoFMDemod demodStereo;
//dsp::BFMDeemp deemp;
RadioModule* _rad = NULL;
ConfigManager* _config = NULL;
int deempMode;
bool stereo;
bool stereo = false;
std::string name;
EventHandler<dsp::stream<dsp::stereo_t>*> outputChangeHandler;
};
}

150
decoder_modules/new_radio/src/radio_module.h
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@ -10,6 +10,13 @@ ConfigManager config;
#define CONCAT(a, b) ((std::string(a) + b).c_str())
const double DeemphasisModes[] {
50e-6,
75e-6
};
const char* DeemhasisModesTxt = "50µS\00075µS\000None\000";
class RadioModule;
#include "demod.h"
@ -29,6 +36,12 @@ public:
// Create demodulator instances
demods.fill(NULL);
demods[RADIO_DEMOD_WFM] = new demod::WFM();
demods[RADIO_DEMOD_NFM] = new demod::NFM();
demods[RADIO_DEMOD_AM] = new demod::AM();
demods[RADIO_DEMOD_USB] = new demod::USB();
demods[RADIO_DEMOD_LSB] = new demod::LSB();
demods[RADIO_DEMOD_DSB] = new demod::DSB();
demods[RADIO_DEMOD_CW] = new demod::CW();
// Initialize the VFO
vfo = sigpath::vfoManager.createVFO(name, ImGui::WaterfallVFO::REF_CENTER, 0, 200000, 200000, 50000, 200000, false);
@ -43,6 +56,9 @@ public:
sigpath::sinkManager.registerStream(name, &stream);
// Load configuration for all demodulators
EventHandler<dsp::stream<dsp::stereo_t>*> _demodOutputChangeHandler;
_demodOutputChangeHandler.handler = demodOutputChangeHandler;
_demodOutputChangeHandler.ctx = this;
for (auto& demod : demods) {
if (!demod) { continue; }
@ -52,11 +68,13 @@ public:
config.conf[name][demod->getName()]["bandwidth"] = bw;
config.conf[name][demod->getName()]["snapInterval"] = demod->getDefaultSnapInterval();
config.conf[name][demod->getName()]["squelchLevel"] = MIN_SQUELCH;
config.conf[name][demod->getName()]["squelchEnabled"] = false;
config.conf[name][demod->getName()]["deempMode"] = demod->getDefaultDeemphasisMode();
}
bw = std::clamp<double>(bw, demod->getMinBandwidth(), demod->getMaxBandwidth());
// Initialize
demod->init(name, &config, &squelch.out, bw);
demod->init(name, &config, &squelch.out, bw, _demodOutputChangeHandler);
}
// Initialize DSP
@ -119,8 +137,6 @@ private:
float menuWidth = ImGui::GetContentRegionAvailWidth();
ImGui::BeginGroup();
// TODO: Change VFO ref in signal path
ImGui::Columns(4, CONCAT("RadioModeColumns##_", _this->name), false);
if (ImGui::RadioButton(CONCAT("NFM##_", _this->name), _this->selectedDemodID == 0) && _this->selectedDemodID != 0) {
_this->selectDemodByID(RADIO_DEMOD_NFM);
@ -153,16 +169,57 @@ private:
ImGui::EndGroup();
_this->selectedDemod->showMenu();
if (!_this->bandwidthLocked) {
ImGui::LeftLabel("Bandwidth");
ImGui::SetNextItemWidth(menuWidth - ImGui::GetCursorPosX());
if (ImGui::InputFloat(("##_radio_bw_" + _this->name).c_str(), &_this->bandwidth, 1, 100, "%.0f")) {
_this->bandwidth = std::clamp<float>(_this->bandwidth, _this->minBandwidth, _this->maxBandwidth);
_this->setBandwidth(_this->bandwidth);
config.acquire();
config.conf[_this->name][_this->selectedDemod->getName()]["bandwidth"] = _this->bandwidth;
config.release(true);
}
}
ImGui::LeftLabel("Squelch");
ImGui::LeftLabel("Snap Interval");
ImGui::SetNextItemWidth(menuWidth - ImGui::GetCursorPosX());
if (ImGui::SliderFloat(("##_radio_sqelch_" + _this->name).c_str(), &_this->squelchLevel, _this->MIN_SQUELCH, _this->MAX_SQUELCH, "%.3fdB")) {
if (ImGui::InputInt(("##_radio_snap_" + _this->name).c_str(), &_this->snapInterval, 1, 100)) {
if (_this->snapInterval < 1) { _this->snapInterval = 1; }
_this->vfo->setSnapInterval(_this->snapInterval);
config.acquire();
config.conf[_this->name][_this->selectedDemod->getName()]["snapInterval"] = _this->snapInterval;
config.release(true);
}
if (_this->deempAllowed) {
ImGui::LeftLabel("De-emphasis");
ImGui::SetNextItemWidth(menuWidth - ImGui::GetCursorPosX());
if (ImGui::Combo(("##_radio_wfm_deemp_" + _this->name).c_str(), &_this->deempMode, DeemhasisModesTxt)) {
_this->setDeemphasisMode(_this->deempMode);
config.acquire();
config.conf[_this->name][_this->selectedDemod->getName()]["deempMode"] = _this->deempMode;
config.release(true);
}
}
if (ImGui::Checkbox(("Squelch##_radio_sqelch_ena_" + _this->name).c_str(), &_this->squelchEnabled)) {
_this->setSquelchEnabled(_this->squelchEnabled);
config.acquire();
config.conf[_this->name][_this->selectedDemod->getName()]["squelchEnabled"] = _this->squelchEnabled;
config.release(true);
}
if (!_this->squelchEnabled && _this->enabled) { style::beginDisabled(); }
ImGui::SameLine();
ImGui::SetNextItemWidth(menuWidth - ImGui::GetCursorPosX());
if (ImGui::SliderFloat(("##_radio_sqelch_lvl_" + _this->name).c_str(), &_this->squelchLevel, _this->MIN_SQUELCH, _this->MAX_SQUELCH, "%.3fdB")) {
_this->squelch.setLevel(_this->squelchLevel);
config.acquire();
config.conf[_this->name][_this->selectedDemod->getName()]["squelchLevel"] = _this->squelchLevel;
config.release(true);
}
if (!_this->squelchEnabled && _this->enabled) { style::endDisabled(); }
_this->selectedDemod->showMenu();
if (!_this->enabled) { style::endDisabled(); }
}
@ -184,10 +241,13 @@ private:
// Load config
bandwidth = selectedDemod->getDefaultBandwidth();
double minBandwidth = selectedDemod->getMinBandwidth();
double maxBandwidth = selectedDemod->getMaxBandwidth();
minBandwidth = selectedDemod->getMinBandwidth();
maxBandwidth = selectedDemod->getMaxBandwidth();
bandwidthLocked = selectedDemod->getBandwidthLocked();
snapInterval = selectedDemod->getDefaultSnapInterval();
squelchLevel = MIN_SQUELCH;
deempMode = DEEMP_MODE_NONE;
squelchEnabled = false;
if (config.conf[name][selectedDemod->getName()].contains("snapInterval")) {
bandwidth = config.conf[name][selectedDemod->getName()]["bandwidth"];
bandwidth = std::clamp<double>(bandwidth, minBandwidth, maxBandwidth);
@ -198,6 +258,13 @@ private:
if (config.conf[name][selectedDemod->getName()].contains("squelchLevel")) {
squelchLevel = config.conf[name][selectedDemod->getName()]["squelchLevel"];
}
if (config.conf[name][selectedDemod->getName()].contains("squelchEnabled")) {
squelchEnabled = config.conf[name][selectedDemod->getName()]["squelchEnabled"];
}
if (config.conf[name][selectedDemod->getName()].contains("deempMode")) {
deempMode = config.conf[name][selectedDemod->getName()]["deempMode"];
}
deempMode = std::clamp<int>(deempMode, 0, _DEEMP_MODE_COUNT-1);
// Configure VFO
if (vfo) {
@ -209,6 +276,7 @@ private:
// Configure squelch
squelch.setLevel(squelchLevel);
setSquelchEnabled(squelchEnabled);
// Configure resampler
resamp.stop();
@ -217,6 +285,15 @@ private:
setAudioSampleRate(audioSampleRate);
resamp.start();
// Configure deemphasis
deempAllowed = selectedDemod->getDeempAllowed();
if (deempAllowed) {
setDeemphasisMode(deempMode);
}
else {
setDeemphasisMode(DEEMP_MODE_NONE);
}
// Start new demodulator
selectedDemod->start();
}
@ -224,7 +301,14 @@ private:
void setBandwidth(double bw) {
bandwidth = bw;
if (!selectedDemod) { return; }
float audioBW = std::min<float>(selectedDemod->getMaxAFBandwidth(), selectedDemod->getAFBandwidth(bandwidth));
vfo->setBandwidth(bandwidth);
selectedDemod->setBandwidth(bandwidth);
if (selectedDemod->getDynamicAFBandwidth()) {
win.setCutoff(audioBW);
win.setTransWidth(audioBW);
resamp.updateWindow(&win);
}
config.acquire();
config.conf[name][selectedDemod->getName()]["bandwidth"] = bandwidth;
config.release(true);
@ -233,14 +317,45 @@ private:
void setAudioSampleRate(double sr) {
audioSampleRate = sr;
if (!selectedDemod) { return; }
float audioBW = std::min<float>(selectedDemod->getMaxAFBandwidth(), audioSampleRate / 2.0f);
float audioBW = std::min<float>(selectedDemod->getMaxAFBandwidth(), selectedDemod->getAFBandwidth(bandwidth));
resamp.stop();
deemp.stop();
deemp.setSampleRate(audioSampleRate);
resamp.setOutSampleRate(audioSampleRate);
win.setSampleRate(audioSampleRate * resamp.getInterpolation());
win.setSampleRate(selectedDemod->getAFSampleRate() * resamp.getInterpolation());
win.setCutoff(audioBW);
win.setTransWidth(audioBW);
resamp.updateWindow(&win);
resamp.start();
if (deempMode != DEEMP_MODE_NONE) { deemp.start(); }
}
void setDeemphasisMode(int mode) {
deempMode = mode;
if (mode != DEEMP_MODE_NONE) {
// TODO: Investigate why not stopping the deemp here causes the DSP to stall
deemp.stop();
stream.setInput(&deemp.out);
deemp.setTau(DeemphasisModes[deempMode]);
deemp.start();
}
else {
deemp.stop();
stream.setInput(&resamp.out);
}
}
void setSquelchEnabled(bool enable) {
squelchEnabled = enable;
if (!selectedDemod) { return; }
if (squelchEnabled) {
selectedDemod->setInput(&squelch.out);
squelch.start();
}
else {
squelch.stop();
selectedDemod->setInput(vfo->output);
}
}
static void vfoUserChangedBandwidthHandler(double newBw, void* ctx) {
@ -252,6 +367,11 @@ private:
RadioModule* _this = (RadioModule*)ctx;
_this->setAudioSampleRate(sampleRate);
}
static void demodOutputChangeHandler(dsp::stream<dsp::stereo_t>* output, void* ctx) {
RadioModule* _this = (RadioModule*)ctx;
_this->resamp.setInput(output);
}
EventHandler<double> onUserChangedBandwidthHandler;
VFOManager::VFO* vfo;
@ -268,10 +388,16 @@ private:
demod::Demodulator* selectedDemod = NULL;
double audioSampleRate = 48000.0;
double bandwidth;
double snapInterval;
float minBandwidth;
float maxBandwidth;
float bandwidth;
bool bandwidthLocked;
int snapInterval;
bool squelchEnabled = false;
float squelchLevel;
int selectedDemodID = 1;
int deempMode = DEEMP_MODE_NONE;
bool deempAllowed;
const double MIN_SQUELCH = -100.0;
const double MAX_SQUELCH = 0.0;