#pragma once #include #include #include #include #include #include #include #include #include #include #include "radio_interface.h" #include "demod.h" ConfigManager config; #define CONCAT(a, b) ((std::string(a) + b).c_str()) std::map deempTaus = { { DEEMP_MODE_22US, 22e-6 }, { DEEMP_MODE_50US, 50e-6 }, { DEEMP_MODE_75US, 75e-6 } }; std::map ifnrTaps = { { IFNR_PRESET_NOAA_APT, 9}, { IFNR_PRESET_VOICE, 15 }, { IFNR_PRESET_NARROW_BAND, 31 }, { IFNR_PRESET_BROADCAST, 32 } }; class RadioModule : public ModuleManager::Instance { public: RadioModule(std::string name) { this->name = name; // Initialize option lists deempModes.define("None", DEEMP_MODE_NONE); deempModes.define("22us", DEEMP_MODE_22US); deempModes.define("50us", DEEMP_MODE_50US); deempModes.define("75us", DEEMP_MODE_75US); ifnrPresets.define("NOAA APT", IFNR_PRESET_NOAA_APT); ifnrPresets.define("Voice", IFNR_PRESET_VOICE); ifnrPresets.define("Narrow Band", IFNR_PRESET_NARROW_BAND); // Initialize the config if it doesn't exist bool created = false; config.acquire(); if (!config.conf.contains(name)) { config.conf[name]["selectedDemodId"] = 1; created = true; } selectedDemodID = config.conf[name]["selectedDemodId"]; config.release(created); // 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(); demods[RADIO_DEMOD_RAW] = new demod::RAW(); // Initialize the VFO vfo = sigpath::vfoManager.createVFO(name, ImGui::WaterfallVFO::REF_CENTER, 0, 200000, 200000, 50000, 200000, false); onUserChangedBandwidthHandler.handler = vfoUserChangedBandwidthHandler; onUserChangedBandwidthHandler.ctx = this; vfo->wtfVFO->onUserChangedBandwidth.bindHandler(&onUserChangedBandwidthHandler); // Initialize IF DSP chain ifChainOutputChanged.ctx = this; ifChainOutputChanged.handler = ifChainOutputChangeHandler; ifChain.init(vfo->output, &ifChainOutputChanged); fmnr.block.init(NULL, 32); notch.block.init(NULL, 0.5, 0, 250000); // TODO: The rate has to depend on IF sample rate so the width is always the same squelch.block.init(NULL, MIN_SQUELCH); nb.block.init(NULL, -100.0f); ifChain.add(¬ch); ifChain.add(&squelch); ifChain.add(&fmnr); ifChain.add(&nb); // Load configuration for and enabled all demodulators EventHandler*> _demodOutputChangeHandler; EventHandler _demodAfbwChangedHandler; _demodOutputChangeHandler.handler = demodOutputChangeHandler; _demodOutputChangeHandler.ctx = this; _demodAfbwChangedHandler.handler = demodAfbwChangedHandler; _demodAfbwChangedHandler.ctx = this; for (auto& demod : demods) { if (!demod) { continue; } // Default config double bw = demod->getDefaultBandwidth(); if (!config.conf[name].contains(demod->getName())) { 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; } bw = std::clamp(bw, demod->getMinBandwidth(), demod->getMaxBandwidth()); // Initialize demod->init(name, &config, ifChain.getOutput(), bw, _demodOutputChangeHandler, _demodAfbwChangedHandler, stream.getSampleRate()); } // Initialize audio DSP chain afChainOutputChanged.ctx = this; afChainOutputChanged.handler = afChainOutputChangeHandler; afChain.init(&dummyAudioStream, &afChainOutputChanged); win.init(24000, 24000, 48000); resamp.block.init(NULL, &win, 250000, 48000); deemp.block.init(NULL, 48000, 50e-6); deemp.block.bypass = false; afChain.add(&resamp); afChain.add(&deemp); // Initialize the sink srChangeHandler.ctx = this; srChangeHandler.handler = sampleRateChangeHandler; stream.init(afChain.getOutput(), &srChangeHandler, audioSampleRate); sigpath::sinkManager.registerStream(name, &stream); // Select the demodulator selectDemodByID((DemodID)selectedDemodID); // Start IF chain ifChain.start(); // Start AF chain afChain.start(); // Start stream, the rest was started when selecting the demodulator stream.start(); // Register the menu gui::menu.registerEntry(name, menuHandler, this, this); // Register the module interface core::modComManager.registerInterface("radio", name, moduleInterfaceHandler, this); } ~RadioModule() { gui::menu.removeEntry(name); stream.stop(); if (enabled) { disable(); } sigpath::sinkManager.unregisterStream(name); } void postInit() {} void enable() { enabled = true; if (!vfo) { vfo = sigpath::vfoManager.createVFO(name, ImGui::WaterfallVFO::REF_CENTER, 0, 200000, 200000, 50000, 200000, false); vfo->wtfVFO->onUserChangedBandwidth.bindHandler(&onUserChangedBandwidthHandler); } ifChain.setInput(vfo->output); ifChain.start(); selectDemodByID((DemodID)selectedDemodID); afChain.start(); } void disable() { enabled = false; ifChain.stop(); if (selectedDemod) { selectedDemod->stop(); } afChain.stop(); if (vfo) { sigpath::vfoManager.deleteVFO(vfo); } vfo = NULL; } bool isEnabled() { return enabled; } std::string name; enum DemodID { RADIO_DEMOD_NFM, RADIO_DEMOD_WFM, RADIO_DEMOD_AM, RADIO_DEMOD_DSB, RADIO_DEMOD_USB, RADIO_DEMOD_CW, RADIO_DEMOD_LSB, RADIO_DEMOD_RAW, _RADIO_DEMOD_COUNT, }; private: static void menuHandler(void* ctx) { RadioModule* _this = (RadioModule*)ctx; if (!_this->enabled) { style::beginDisabled(); } float menuWidth = ImGui::GetContentRegionAvail().x; ImGui::BeginGroup(); 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); } if (ImGui::RadioButton(CONCAT("WFM##_", _this->name), _this->selectedDemodID == 1) && _this->selectedDemodID != 1) { _this->selectDemodByID(RADIO_DEMOD_WFM); } ImGui::NextColumn(); if (ImGui::RadioButton(CONCAT("AM##_", _this->name), _this->selectedDemodID == 2) && _this->selectedDemodID != 2) { _this->selectDemodByID(RADIO_DEMOD_AM); } if (ImGui::RadioButton(CONCAT("DSB##_", _this->name), _this->selectedDemodID == 3) && _this->selectedDemodID != 3) { _this->selectDemodByID(RADIO_DEMOD_DSB); } ImGui::NextColumn(); if (ImGui::RadioButton(CONCAT("USB##_", _this->name), _this->selectedDemodID == 4) && _this->selectedDemodID != 4) { _this->selectDemodByID(RADIO_DEMOD_USB); } if (ImGui::RadioButton(CONCAT("CW##_", _this->name), _this->selectedDemodID == 5) && _this->selectedDemodID != 5) { _this->selectDemodByID(RADIO_DEMOD_CW); }; ImGui::NextColumn(); if (ImGui::RadioButton(CONCAT("LSB##_", _this->name), _this->selectedDemodID == 6) && _this->selectedDemodID != 6) { _this->selectDemodByID(RADIO_DEMOD_LSB); } if (ImGui::RadioButton(CONCAT("RAW##_", _this->name), _this->selectedDemodID == 7) && _this->selectedDemodID != 7) { _this->selectDemodByID(RADIO_DEMOD_RAW); }; ImGui::Columns(1, CONCAT("EndRadioModeColumns##_", _this->name), false); ImGui::EndGroup(); 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(_this->bandwidth, _this->minBandwidth, _this->maxBandwidth); _this->setBandwidth(_this->bandwidth); } } // VFO snap interval ImGui::LeftLabel("Snap Interval"); ImGui::SetNextItemWidth(menuWidth - ImGui::GetCursorPosX()); 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); } // Deemphasis mode if (_this->deempAllowed) { ImGui::LeftLabel("De-emphasis"); ImGui::SetNextItemWidth(menuWidth - ImGui::GetCursorPosX()); if (ImGui::Combo(("##_radio_wfm_deemp_" + _this->name).c_str(), &_this->deempId, _this->deempModes.txt)) { _this->setDeemphasisMode(_this->deempModes[_this->deempId]); } } // Squelch if (ImGui::Checkbox(("Squelch##_radio_sqelch_ena_" + _this->name).c_str(), &_this->squelchEnabled)) { _this->setSquelchEnabled(_this->squelchEnabled); } 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->setSquelchLevel(_this->squelchLevel); } if (!_this->squelchEnabled && _this->enabled) { style::endDisabled(); } // Noise blanker if (_this->nbAllowed) { if (ImGui::Checkbox(("Noise Blanker##_radio_nb_ena_" + _this->name).c_str(), &_this->nbEnabled)) { _this->setNoiseBlankerEnabled(_this->nbEnabled); } if (!_this->nbEnabled && _this->enabled) { style::beginDisabled(); } ImGui::SameLine(); ImGui::SetNextItemWidth(menuWidth - ImGui::GetCursorPosX()); if (ImGui::SliderFloat(("##_radio_nb_lvl_" + _this->name).c_str(), &_this->nbLevel, 0.0f, -100.0f, "%.3fdB")) { _this->setNoiseBlankerLevel(_this->nbLevel); } if (!_this->nbEnabled && _this->enabled) { style::endDisabled(); } } // // Notch filter // if (ImGui::Checkbox("Notch##_radio_notch_ena_", &_this->notchEnabled)) { // _this->ifChain.setState(&_this->notch, _this->notchEnabled); // } // if (ImGui::SliderFloat(("NF##_radio_notch_freq_" + _this->name).c_str(), &_this->notchPos, -7500, 7500)) { // _this->notch.block.setOffset(_this->notchPos); // } // if (ImGui::SliderFloat(("NW##_radio_notch_width_" + _this->name).c_str(), &_this->notchWidth, 0, 1000)) { // // TODO: Implement // } // FM IF Noise Reduction if (_this->FMIFNRAllowed) { if (ImGui::Checkbox(("IF Noise Reduction##_radio_fmifnr_ena_" + _this->name).c_str(), &_this->FMIFNREnabled)) { _this->setFMIFNREnabled(_this->FMIFNREnabled); } if (_this->selectedDemodID == RADIO_DEMOD_NFM) { if (!_this->FMIFNREnabled && _this->enabled) { style::beginDisabled(); } ImGui::SameLine(); ImGui::SetNextItemWidth(menuWidth - ImGui::GetCursorPosX()); if (ImGui::Combo(("##_radio_fmifnr_ena_" + _this->name).c_str(), &_this->fmIFPresetId, _this->ifnrPresets.txt)) { _this->setIFNRPreset(_this->ifnrPresets[_this->fmIFPresetId]); } if (!_this->FMIFNREnabled && _this->enabled) { style::endDisabled(); } } } // Demodulator specific menu _this->selectedDemod->showMenu(); if (!_this->enabled) { style::endDisabled(); } } void selectDemodByID(DemodID id) { demod::Demodulator* demod = demods[id]; if (!demod) { spdlog::error("Demodulator {0} not implemented", id); return; } selectedDemodID = id; selectDemod(demod); // Save config config.acquire(); config.conf[name]["selectedDemodId"] = id; config.release(true); } void selectDemod(demod::Demodulator* demod) { // Stopcurrently selected demodulator and select new if (selectedDemod) { selectedDemod->stop(); } selectedDemod = demod; // Give the demodulator the most recent audio SR selectedDemod->AFSampRateChanged(audioSampleRate); // Set the demodulator's input selectedDemod->setInput(ifChain.getOutput()); // Set AF chain's input afChain.setInput(selectedDemod->getOutput()); // Load config bandwidth = selectedDemod->getDefaultBandwidth(); minBandwidth = selectedDemod->getMinBandwidth(); maxBandwidth = selectedDemod->getMaxBandwidth(); bandwidthLocked = selectedDemod->getBandwidthLocked(); snapInterval = selectedDemod->getDefaultSnapInterval(); squelchLevel = MIN_SQUELCH; deempAllowed = selectedDemod->getDeempAllowed(); deempId = deempModes.valueId((DeemphasisMode)selectedDemod->getDefaultDeemphasisMode()); squelchEnabled = false; postProcEnabled = selectedDemod->getPostProcEnabled(); FMIFNRAllowed = selectedDemod->getFMIFNRAllowed(); FMIFNREnabled = false; fmIFPresetId = ifnrPresets.valueId(IFNR_PRESET_VOICE); nbAllowed = selectedDemod->getNBAllowed(); nbEnabled = false; nbLevel = 0.0f; config.acquire(); if (config.conf[name][selectedDemod->getName()].contains("bandwidth")) { bandwidth = config.conf[name][selectedDemod->getName()]["bandwidth"]; bandwidth = std::clamp(bandwidth, minBandwidth, maxBandwidth); } if (config.conf[name][selectedDemod->getName()].contains("snapInterval")) { snapInterval = config.conf[name][selectedDemod->getName()]["snapInterval"]; } 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")) { if (!config.conf[name][selectedDemod->getName()]["deempMode"].is_string()) { config.conf[name][selectedDemod->getName()]["deempMode"] = deempModes.key(deempId); } std::string deempOpt = config.conf[name][selectedDemod->getName()]["deempMode"]; if (deempModes.keyExists(deempOpt)) { deempId = deempModes.keyId(deempOpt); } } if (config.conf[name][selectedDemod->getName()].contains("FMIFNREnabled")) { FMIFNREnabled = config.conf[name][selectedDemod->getName()]["FMIFNREnabled"]; } if (config.conf[name][selectedDemod->getName()].contains("fmifnrPreset")) { std::string presetOpt = config.conf[name][selectedDemod->getName()]["fmifnrPreset"]; if (ifnrPresets.keyExists(presetOpt)) { fmIFPresetId = ifnrPresets.keyId(presetOpt); } } if (config.conf[name][selectedDemod->getName()].contains("noiseBlankerEnabled")) { nbEnabled = config.conf[name][selectedDemod->getName()]["noiseBlankerEnabled"]; } if (config.conf[name][selectedDemod->getName()].contains("noiseBlankerEnabled")) { nbEnabled = config.conf[name][selectedDemod->getName()]["noiseBlankerEnabled"]; } if (config.conf[name][selectedDemod->getName()].contains("noiseBlankerLevel")) { nbLevel = config.conf[name][selectedDemod->getName()]["noiseBlankerLevel"]; } config.release(); // Configure VFO if (vfo) { vfo->setBandwidthLimits(minBandwidth, maxBandwidth, selectedDemod->getBandwidthLocked()); vfo->setReference(selectedDemod->getVFOReference()); vfo->setSnapInterval(snapInterval); vfo->setSampleRate(selectedDemod->getIFSampleRate(), bandwidth); } // Configure bandwidth setBandwidth(bandwidth); // Configure FM IF Noise Reduction setIFNRPreset((selectedDemodID == RADIO_DEMOD_NFM) ? ifnrPresets[fmIFPresetId] : IFNR_PRESET_BROADCAST); setFMIFNREnabled(FMIFNRAllowed ? FMIFNREnabled : false); // Configure notch notch.block.setSampleRate(selectedDemod->getIFSampleRate()); // Configure squelch squelch.block.setLevel(squelchLevel); setSquelchEnabled(squelchEnabled); // Configure noise blanker nb.block.setLevel(nbLevel); setNoiseBlankerEnabled(nbEnabled); // Configure AF chain if (postProcEnabled) { // Configure resampler afChain.stop(); resamp.block.setInSampleRate(selectedDemod->getAFSampleRate()); setAudioSampleRate(audioSampleRate); afChain.enable(&resamp); // Configure deemphasis setDeemphasisMode(deempModes[deempId]); } else { // Disable everything if post processing is disabled afChain.disableAll(); } // Start new demodulator selectedDemod->start(); } void setBandwidth(double bw) { bw = std::clamp(bw, minBandwidth, maxBandwidth); bandwidth = bw; if (!selectedDemod) { return; } float audioBW = std::min(selectedDemod->getMaxAFBandwidth(), selectedDemod->getAFBandwidth(bandwidth)); audioBW = std::min(audioBW, audioSampleRate / 2.0); vfo->setBandwidth(bandwidth); selectedDemod->setBandwidth(bandwidth); // Only bother with setting the resampling setting if we're actually post processing and dynamic bw is enabled if (selectedDemod->getDynamicAFBandwidth() && postProcEnabled) { win.setCutoff(audioBW); win.setTransWidth(audioBW); resamp.block.updateWindow(&win); } config.acquire(); config.conf[name][selectedDemod->getName()]["bandwidth"] = bandwidth; config.release(true); } void setAudioSampleRate(double sr) { audioSampleRate = sr; if (!selectedDemod) { return; } selectedDemod->AFSampRateChanged(audioSampleRate); if (!postProcEnabled) { // If postproc is disabled, IF SR = AF SR minBandwidth = selectedDemod->getMinBandwidth(); maxBandwidth = selectedDemod->getMaxBandwidth(); bandwidth = selectedDemod->getIFSampleRate(); vfo->setBandwidthLimits(minBandwidth, maxBandwidth, selectedDemod->getBandwidthLocked()); vfo->setSampleRate(selectedDemod->getIFSampleRate(), bandwidth); return; } float audioBW = std::min(selectedDemod->getMaxAFBandwidth(), selectedDemod->getAFBandwidth(bandwidth)); audioBW = std::min(audioBW, audioSampleRate / 2.0); afChain.stop(); // Configure resampler resamp.block.setOutSampleRate(audioSampleRate); win.setSampleRate(selectedDemod->getAFSampleRate() * resamp.block.getInterpolation()); win.setCutoff(audioBW); win.setTransWidth(audioBW); resamp.block.updateWindow(&win); // Configure deemphasis sample rate deemp.block.setSampleRate(audioSampleRate); afChain.start(); } void setDeemphasisMode(DeemphasisMode mode) { deempId = deempModes.valueId(mode); if (!postProcEnabled || !selectedDemod) { return; } bool deempEnabled = (mode != DEEMP_MODE_NONE); if (deempEnabled) { deemp.block.setTau(deempTaus[mode]); } afChain.setState(&deemp, deempEnabled); // Save config config.acquire(); config.conf[name][selectedDemod->getName()]["deempMode"] = deempModes.key(deempId); config.release(true); } void setSquelchEnabled(bool enable) { squelchEnabled = enable; if (!selectedDemod) { return; } ifChain.setState(&squelch, squelchEnabled); // Save config config.acquire(); config.conf[name][selectedDemod->getName()]["squelchEnabled"] = squelchEnabled; config.release(true); } void setSquelchLevel(float level) { squelchLevel = std::clamp(level, MIN_SQUELCH, MAX_SQUELCH); squelch.block.setLevel(squelchLevel); // Save config config.acquire(); config.conf[name][selectedDemod->getName()]["squelchLevel"] = squelchLevel; config.release(true); } void setFMIFNREnabled(bool enabled) { FMIFNREnabled = enabled; if (!selectedDemod) { return; } ifChain.setState(&fmnr, FMIFNREnabled); // Save config config.acquire(); config.conf[name][selectedDemod->getName()]["FMIFNREnabled"] = FMIFNREnabled; config.release(true); } void setNoiseBlankerEnabled(bool enabled) { nbEnabled = enabled; if (!selectedDemod) { return; } ifChain.setState(&nb, nbEnabled); // Save config config.acquire(); config.conf[name][selectedDemod->getName()]["noiseBlankerEnabled"] = nbEnabled; config.release(true); } void setNoiseBlankerLevel(float level) { nbLevel = level; if (!selectedDemod) { return; } nb.block.setLevel(nbLevel); // Save config config.acquire(); config.conf[name][selectedDemod->getName()]["noiseBlankerLevel"] = nbLevel; config.release(true); } void setIFNRPreset(IFNRPreset preset) { // Don't save if in broadcast mode if (preset == IFNR_PRESET_BROADCAST) { if (!selectedDemod) { return; } fmnr.block.setTapCount(ifnrTaps[preset]); return; } fmIFPresetId = ifnrPresets.valueId(preset); if (!selectedDemod) { return; } fmnr.block.setTapCount(ifnrTaps[preset]); // Save config config.acquire(); config.conf[name][selectedDemod->getName()]["fmifnrPreset"] = ifnrPresets.key(fmIFPresetId); config.release(true); } static void vfoUserChangedBandwidthHandler(double newBw, void* ctx) { RadioModule* _this = (RadioModule*)ctx; _this->setBandwidth(newBw); } static void sampleRateChangeHandler(float sampleRate, void* ctx) { RadioModule* _this = (RadioModule*)ctx; _this->setAudioSampleRate(sampleRate); } static void demodOutputChangeHandler(dsp::stream* output, void* ctx) { RadioModule* _this = (RadioModule*)ctx; _this->afChain.setInput(output); } static void demodAfbwChangedHandler(float output, void* ctx) { RadioModule* _this = (RadioModule*)ctx; float audioBW = std::min(_this->selectedDemod->getMaxAFBandwidth(), _this->selectedDemod->getAFBandwidth(_this->bandwidth)); audioBW = std::min(audioBW, _this->audioSampleRate / 2.0); _this->win.setCutoff(audioBW); _this->win.setTransWidth(audioBW); _this->resamp.block.updateWindow(&_this->win); } static void ifChainOutputChangeHandler(dsp::stream* output, void* ctx) { RadioModule* _this = (RadioModule*)ctx; if (!_this->selectedDemod) { return; } _this->selectedDemod->setInput(output); } static void afChainOutputChangeHandler(dsp::stream* output, void* ctx) { RadioModule* _this = (RadioModule*)ctx; _this->stream.setInput(output); } static void moduleInterfaceHandler(int code, void* in, void* out, void* ctx) { RadioModule* _this = (RadioModule*)ctx; if (!_this->enabled || !_this->selectedDemod) { return; } // Execute commands if (code == RADIO_IFACE_CMD_GET_MODE && out) { int* _out = (int*)out; *_out = _this->selectedDemodID; } else if (code == RADIO_IFACE_CMD_SET_MODE && in) { int* _in = (int*)in; _this->selectDemodByID((DemodID)*_in); } else if (code == RADIO_IFACE_CMD_GET_BANDWIDTH && out) { float* _out = (float*)out; *_out = _this->bandwidth; } else if (code == RADIO_IFACE_CMD_SET_BANDWIDTH && in) { float* _in = (float*)in; if (_this->bandwidthLocked) { return; } _this->setBandwidth(*_in); } else if (code == RADIO_IFACE_CMD_GET_SQUELCH_ENABLED && out) { bool* _out = (bool*)out; *_out = _this->squelchEnabled; } else if (code == RADIO_IFACE_CMD_SET_SQUELCH_ENABLED && in) { bool* _in = (bool*)in; _this->setSquelchEnabled(*_in); } else if (code == RADIO_IFACE_CMD_GET_SQUELCH_LEVEL && out) { float* _out = (float*)out; *_out = _this->squelchLevel; } else if (code == RADIO_IFACE_CMD_SET_SQUELCH_LEVEL && in) { float* _in = (float*)in; _this->setSquelchLevel(*_in); } else { return; } // Success return; } // Handlers EventHandler onUserChangedBandwidthHandler; EventHandler srChangeHandler; EventHandler*> ifChainOutputChanged; EventHandler*> afChainOutputChanged; VFOManager::VFO* vfo = NULL; // IF chain dsp::Chain ifChain; dsp::ChainLink fmnr; dsp::ChainLink notch; dsp::ChainLink squelch; dsp::ChainLink nb; // Audio chain dsp::stream dummyAudioStream; dsp::Chain afChain; dsp::filter_window::BlackmanWindow win; dsp::ChainLink, dsp::stereo_t> resamp; dsp::ChainLink deemp; SinkManager::Stream stream; std::array demods; demod::Demodulator* selectedDemod = NULL; OptionList deempModes; OptionList ifnrPresets; double audioSampleRate = 48000.0; float minBandwidth; float maxBandwidth; float bandwidth; bool bandwidthLocked; int snapInterval; int selectedDemodID = 1; bool postProcEnabled; bool squelchEnabled = false; float squelchLevel; int deempId = 0; bool deempAllowed; bool FMIFNRAllowed; bool FMIFNREnabled = false; int fmIFPresetId; bool notchEnabled = false; float notchPos = 0; float notchWidth = 500; bool nbAllowed; bool nbEnabled; float nbLevel = -100.0f; const double MIN_SQUELCH = -100.0; const double MAX_SQUELCH = 0.0; bool enabled = true; };