diff --git a/plugins/channelmimo/interferometer/interferometer.h b/plugins/channelmimo/interferometer/interferometer.h index d600cb77f..927282675 100644 --- a/plugins/channelmimo/interferometer/interferometer.h +++ b/plugins/channelmimo/interferometer/interferometer.h @@ -21,7 +21,6 @@ #include #include -#include #include "dsp/mimochannel.h" #include "dsp/spectrumvis.h" @@ -186,7 +185,7 @@ private: ScopeVis m_scopeSink; QThread *m_thread; InterferometerBaseband* m_basebandSink; - QRecursiveMutex m_mutex; + QMutex m_mutex; bool m_running; InterferometerSettings m_settings; MessageQueue *m_guiMessageQueue; //!< Input message queue to the GUI diff --git a/plugins/channelrx/wdsprx/wdsprxdnrdialog.cpp b/plugins/channelrx/wdsprx/wdsprxdnrdialog.cpp index 96d7285a4..6d118a4af 100644 --- a/plugins/channelrx/wdsprx/wdsprxdnrdialog.cpp +++ b/plugins/channelrx/wdsprx/wdsprxdnrdialog.cpp @@ -22,6 +22,7 @@ WDSPRxDNRDialog::WDSPRxDNRDialog(QWidget* parent) : ui(new Ui::WDSPRxDNRDialog) { ui->setupUi(this); + ui->snb->hide(); } WDSPRxDNRDialog::~WDSPRxDNRDialog() @@ -29,6 +30,14 @@ WDSPRxDNRDialog::~WDSPRxDNRDialog() delete ui; } +void WDSPRxDNRDialog::setSNB(bool snb) +{ + ui->snb->blockSignals(true); + ui->snb->setChecked(snb); + ui->snb->blockSignals(false); + m_snb = snb; +} + void WDSPRxDNRDialog::setANF(bool anf) { ui->anf->blockSignals(true); @@ -77,6 +86,12 @@ void WDSPRxDNRDialog::setNR2ArtifactReduction(bool nr2ArtifactReducion) m_nr2ArtifactReduction = nr2ArtifactReducion; } +void WDSPRxDNRDialog::on_snb_clicked(bool checked) +{ + m_snb = checked; + emit valueChanged(ChangedSNB); +} + void WDSPRxDNRDialog::on_anf_clicked(bool checked) { m_anf = checked; diff --git a/plugins/channelrx/wdsprx/wdsprxdnrdialog.h b/plugins/channelrx/wdsprx/wdsprxdnrdialog.h index 622479d1f..24d4aa129 100644 --- a/plugins/channelrx/wdsprx/wdsprxdnrdialog.h +++ b/plugins/channelrx/wdsprx/wdsprxdnrdialog.h @@ -30,6 +30,7 @@ class SDRGUI_API WDSPRxDNRDialog : public QDialog { Q_OBJECT public: enum ValueChanged { + ChangedSNB, ChangedANF, ChangedNR, ChangedNR2Gain, @@ -41,6 +42,7 @@ public: explicit WDSPRxDNRDialog(QWidget* parent = nullptr); ~WDSPRxDNRDialog(); + void setSNB(bool snb); void setANF(bool anf); void setNRScheme(WDSPRxProfile::WDSPRxNRScheme scheme); void setNR2Gain(WDSPRxProfile::WDSPRxNR2Gain gain); @@ -48,6 +50,7 @@ public: void setNRPosition(WDSPRxProfile::WDSPRxNRPosition position); void setNR2ArtifactReduction(bool nr2ArtifactReducion); + bool getSNB() const { return m_snb; } bool getANF() const { return m_anf; } WDSPRxProfile::WDSPRxNRScheme getNRScheme() const { return m_nrScheme; } WDSPRxProfile::WDSPRxNR2Gain getNR2Gain() const { return m_nr2Gain; } @@ -60,6 +63,7 @@ signals: private: Ui::WDSPRxDNRDialog *ui; + bool m_snb; bool m_anf; WDSPRxProfile::WDSPRxNRScheme m_nrScheme; WDSPRxProfile::WDSPRxNR2Gain m_nr2Gain; @@ -68,6 +72,7 @@ private: bool m_nr2ArtifactReduction; private slots: + void on_snb_clicked(bool checked); void on_anf_clicked(bool checked); void on_nr_currentIndexChanged(int index); void on_nr2Gain_currentIndexChanged(int index); diff --git a/plugins/channelrx/wdsprx/wdsprxdnrdialog.ui b/plugins/channelrx/wdsprx/wdsprxdnrdialog.ui index 8c5508c81..51a4f546b 100644 --- a/plugins/channelrx/wdsprx/wdsprxdnrdialog.ui +++ b/plugins/channelrx/wdsprx/wdsprxdnrdialog.ui @@ -40,6 +40,19 @@ + + + + true + + + Spectral Noise Blanker + + + SNB + + + diff --git a/plugins/channelrx/wdsprx/wdsprxgui.cpp b/plugins/channelrx/wdsprx/wdsprxgui.cpp index bc706cec2..2543e76f8 100644 --- a/plugins/channelrx/wdsprx/wdsprxgui.cpp +++ b/plugins/channelrx/wdsprx/wdsprxgui.cpp @@ -318,6 +318,7 @@ void WDSPRxGUI::on_profileIndex_valueChanged(int value) m_settings.m_nbAvgTime = m_settings.m_profiles[m_settings.m_profileIndex].m_nbAvgTime; // Noise reduction m_settings.m_dnr = m_settings.m_profiles[m_settings.m_profileIndex].m_dnr; + m_settings.m_snb = m_settings.m_profiles[m_settings.m_profileIndex].m_snb; m_settings.m_anf = m_settings.m_profiles[m_settings.m_profileIndex].m_anf; m_settings.m_nrScheme = m_settings.m_profiles[m_settings.m_profileIndex].m_nrScheme; m_settings.m_nr2Gain = m_settings.m_profiles[m_settings.m_profileIndex].m_nr2Gain; @@ -946,6 +947,7 @@ void WDSPRxGUI::dnrSetupDialog(const QPoint& p) { m_dnrDialog = new WDSPRxDNRDialog(); m_dnrDialog->move(p); + m_dnrDialog->setSNB(m_settings.m_snb); m_dnrDialog->setANF(m_settings.m_anf); m_dnrDialog->setNRScheme(m_settings.m_nrScheme); m_dnrDialog->setNR2Gain(m_settings.m_nr2Gain); @@ -969,6 +971,11 @@ void WDSPRxGUI::dnrSetup(int32_t iValueChanged) switch (valueChanged) { + case WDSPRxDNRDialog::ValueChanged::ChangedSNB: + m_settings.m_snb = m_dnrDialog->getSNB(); + m_settings.m_profiles[m_settings.m_profileIndex].m_snb = m_settings.m_snb; + applySettings(); + break; case WDSPRxDNRDialog::ValueChanged::ChangedANF: m_settings.m_anf = m_dnrDialog->getANF(); m_settings.m_profiles[m_settings.m_profileIndex].m_anf = m_settings.m_anf; diff --git a/plugins/channelrx/wdsprx/wdsprxsettings.cpp b/plugins/channelrx/wdsprx/wdsprxsettings.cpp index 850e3b75e..3ba15c2bd 100644 --- a/plugins/channelrx/wdsprx/wdsprxsettings.cpp +++ b/plugins/channelrx/wdsprx/wdsprxsettings.cpp @@ -63,6 +63,7 @@ void WDSPRxSettings::resetToDefaults() m_nbAvgTime = 50.0; // Noise reduction m_dnr = false; + m_snb = false; m_anf = false; m_nrScheme = WDSPRxProfile::NRSchemeNR; m_nr2Gain = WDSPRxProfile::NR2GainGamma; @@ -138,6 +139,7 @@ QByteArray WDSPRxSettings::serialize() const s.writeDouble(27, m_nbAvgTime); // Noise reduction s.writeBool( 30, m_dnr); + s.writeBool( 31, m_snb); s.writeBool( 32, m_anf); s.writeS32( 33, (int) m_nrScheme); s.writeS32( 34, (int) m_nr2Gain); @@ -160,9 +162,10 @@ QByteArray WDSPRxSettings::serialize() const // Squelch s.writeBool( 60, m_squelch); s.writeS32( 61, m_squelchThreshold); - s.writeDouble(62, m_ssqlTauMute); - s.writeDouble(63, m_ssqlTauUnmute); - s.writeDouble(64, m_amsqMaxTail); + s.writeS32( 62, (int) m_squelchMode); + s.writeDouble(63, m_ssqlTauMute); + s.writeDouble(64, m_ssqlTauUnmute); + s.writeDouble(65, m_amsqMaxTail); // s.writeString(70, m_title); s.writeString(71, m_audioDeviceName); @@ -207,6 +210,7 @@ QByteArray WDSPRxSettings::serialize() const s.writeDouble(127 + 100*i, m_profiles[i].m_nbAvgTime); // Noise reduction s.writeBool (130 + 100*i, m_profiles[i].m_dnr); + s.writeBool (131 + 100*i, m_profiles[i].m_snb); s.writeBool (132 + 100*i, m_profiles[i].m_anf); s.writeS32 (133 + 100*i, (int) m_profiles[i].m_nrScheme); s.writeS32 (134 + 100*i, (int) m_profiles[i].m_nr2Gain); @@ -229,9 +233,10 @@ QByteArray WDSPRxSettings::serialize() const // Squelch s.writeBool( 160 + 100*i, m_profiles[i].m_squelch); s.writeS32( 161 + 100*i, m_profiles[i].m_squelchThreshold); - s.writeDouble(162 + 100*i, m_profiles[i].m_ssqlTauMute); - s.writeDouble(163 + 100*i, m_profiles[i].m_ssqlTauUnmute); - s.writeDouble(164 + 100*i, m_profiles[i].m_amsqMaxTail); + s.writeS32( 162 + 100*i, (int) m_profiles[i].m_squelchMode); + s.writeDouble(163 + 100*i, m_profiles[i].m_ssqlTauMute); + s.writeDouble(164 + 100*i, m_profiles[i].m_ssqlTauUnmute); + s.writeDouble(165 + 100*i, m_profiles[i].m_amsqMaxTail); } return s.final(); @@ -290,6 +295,7 @@ bool WDSPRxSettings::deserialize(const QByteArray& data) d.readDouble(27, &m_nbAvgTime, 50.0); // Nosie reduction d.readBool( 30, &m_dnr, false); + d.readBool( 31, &m_snb, false); d.readBool( 32, &m_anf, false); d.readS32( 33, &tmp, 2); m_nrScheme = (WDSPRxProfile::WDSPRxNRScheme) tmp; @@ -316,9 +322,11 @@ bool WDSPRxSettings::deserialize(const QByteArray& data) // Squelch d.readBool( 60, &m_squelch, false); d.readS32( 61, &m_squelchThreshold, 3); - d.readDouble(62, &m_ssqlTauMute, 0.1); - d.readDouble(63, &m_ssqlTauUnmute, 0.1); - d.readDouble(64, &m_amsqMaxTail, 1.5); + d.readS32( 62, &tmp, 0); + m_squelchMode = (WDSPRxProfile::WDSPRxSquelchMode) tmp; + d.readDouble(63, &m_ssqlTauMute, 0.1); + d.readDouble(64, &m_ssqlTauUnmute, 0.1); + d.readDouble(65, &m_amsqMaxTail, 1.5); // d.readString(70, &m_title, "WDSP Receiver"); d.readString(71, &m_audioDeviceName, AudioDeviceManager::m_defaultDeviceName); @@ -381,14 +389,15 @@ bool WDSPRxSettings::deserialize(const QByteArray& data) d.readDouble(127 + 100*i, &m_profiles[i].m_nbAvgTime, 50.0); // Noise reduction d.readBool (130 + 100*i, &m_profiles[i].m_dnr, false); + d.readBool (131 + 100*i, &m_profiles[i].m_snb, false); d.readBool (132 + 100*i, &m_profiles[i].m_anf, false); - d.readS32 (133 + 100*i, &tmp); + d.readS32 (133 + 100*i, &tmp, 0); m_profiles[i].m_nrScheme = (WDSPRxProfile::WDSPRxNRScheme) tmp; - d.readS32 (134 + 100*i, &tmp); + d.readS32 (134 + 100*i, &tmp, 0); m_profiles[i].m_nr2Gain = (WDSPRxProfile::WDSPRxNR2Gain) tmp; - d.readS32 (135 + 100*i, &tmp); + d.readS32 (135 + 100*i, &tmp, 0); m_profiles[i].m_nr2NPE = (WDSPRxProfile::WDSPRxNR2NPE) tmp; - d.readS32 (136 + 100*i, &tmp); + d.readS32 (136 + 100*i, &tmp, 0); m_profiles[i].m_nrPosition = (WDSPRxProfile::WDSPRxNRPosition) tmp; d.readBool (137 + 100*i, &m_profiles[i].m_nr2ArtifactReduction); // Demods @@ -407,9 +416,11 @@ bool WDSPRxSettings::deserialize(const QByteArray& data) // Squelch d.readBool( 160 + 100*i, &m_profiles[i].m_squelch, false); d.readS32( 161 + 100*i, &m_profiles[i].m_squelchThreshold, 3); - d.readDouble(161 + 100*i, &m_profiles[i].m_ssqlTauMute, 0.1); - d.readDouble(162 + 100*i, &m_profiles[i].m_ssqlTauUnmute, 0.1); - d.readDouble(163 + 100*i, &m_profiles[i].m_amsqMaxTail, 1.5); + d.readS32( 162 + 100*i, &tmp, 0); + m_profiles[i].m_squelchMode = (WDSPRxProfile::WDSPRxSquelchMode) tmp; + d.readDouble(163 + 100*i, &m_profiles[i].m_ssqlTauMute, 0.1); + d.readDouble(164 + 100*i, &m_profiles[i].m_ssqlTauUnmute, 0.1); + d.readDouble(165 + 100*i, &m_profiles[i].m_amsqMaxTail, 1.5); } return true; diff --git a/plugins/channelrx/wdsprx/wdsprxsettings.cpp.orig b/plugins/channelrx/wdsprx/wdsprxsettings.cpp.orig new file mode 100644 index 000000000..850e3b75e --- /dev/null +++ b/plugins/channelrx/wdsprx/wdsprxsettings.cpp.orig @@ -0,0 +1,422 @@ +/////////////////////////////////////////////////////////////////////////////////// +// Copyright (C) 2024 Edouard Griffiths, F4EXB // +// // +// This program is free software; you can redistribute it and/or modify // +// it under the terms of the GNU General Public License as published by // +// the Free Software Foundation as version 3 of the License, or // +// (at your option) any later version. // +// // +// This program is distributed in the hope that it will be useful, // +// but WITHOUT ANY WARRANTY; without even the implied warranty of // +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // +// GNU General Public License V3 for more details. // +// // +// You should have received a copy of the GNU General Public License // +// along with this program. If not, see . // +/////////////////////////////////////////////////////////////////////////////////// + +#include + +#include "audio/audiodevicemanager.h" +#include "util/simpleserializer.h" +#include "settings/serializable.h" +#include "wdsprxsettings.h" + +#ifdef SDR_RX_SAMPLE_24BIT +const int WDSPRxSettings::m_minPowerThresholdDB = -120; +const float WDSPRxSettings::m_mminPowerThresholdDBf = 120.0f; +#else +const int WDSPRxSettings::m_minPowerThresholdDB = -100; +const float WDSPRxSettings::m_mminPowerThresholdDBf = 100.0f; +#endif + +WDSPRxSettings::WDSPRxSettings() : + m_channelMarker(nullptr), + m_spectrumGUI(nullptr), + m_rollupState(nullptr) +{ + m_profiles.resize(10); + resetToDefaults(); +} + +void WDSPRxSettings::resetToDefaults() +{ + m_demod = WDSPRxProfile::DemodSSB; + m_audioBinaural = false; + m_audioFlipChannels = false; + m_dsb = false; + m_audioMute = false; + // AGC + m_agc = false; + m_agcMode = WDSPRxProfile::AGCMedium; + m_agcGain = 80; + m_agcSlope = 35; // 3.5 dB + m_agcHangThreshold = 0; + // Noise blanker + m_dnb = false; + m_nbScheme = WDSPRxProfile::WDSPRxNBScheme::NBSchemeNB; + m_nb2Mode = WDSPRxProfile::WDSPRxNB2Mode::NB2ModeZero; + m_nbSlewTime = 0.1; + m_nbLeadTime = 0.1; + m_nbLagTime = 0.1; + m_nbThreshold = 30; + m_nbAvgTime = 50.0; + // Noise reduction + m_dnr = false; + m_anf = false; + m_nrScheme = WDSPRxProfile::NRSchemeNR; + m_nr2Gain = WDSPRxProfile::NR2GainGamma; + m_nr2NPE = WDSPRxProfile::NR2NPEOSMS; + m_nrPosition = WDSPRxProfile::NRPositionPreAGC; + m_nr2ArtifactReduction = true; + // Demods + m_amFadeLevel = false; + m_cwPeaking = false; + m_cwPeakFrequency = 600.0; + m_cwBandwidth = 100.0; + m_cwGain = 2.0; + m_fmDeviation = 2500.0; + m_fmAFLow = 300.0; + m_fmAFHigh = 3000.0; + m_fmAFLimiter = false; + m_fmAFLimiterGain = 10.0; + m_fmCTCSSNotch = false; + m_fmCTCSSNotchFrequency = 67.0; + // Squelch + m_squelch = false; + m_squelchThreshold = 3; + m_squelchMode = WDSPRxProfile::SquelchModeVoice; + m_ssqlTauMute = 0.1; + m_ssqlTauUnmute = 0.1; + m_amsqMaxTail = 1.5; + // + m_volume = 1.0; + m_inputFrequencyOffset = 0; + m_rgbColor = QColor(0, 255, 196).rgb(); + m_title = "WDSP Receiver"; + m_audioDeviceName = AudioDeviceManager::m_defaultDeviceName; + m_streamIndex = 0; + m_useReverseAPI = false; + m_reverseAPIAddress = "127.0.0.1"; + m_reverseAPIPort = 8888; + m_reverseAPIDeviceIndex = 0; + m_reverseAPIChannelIndex = 0; + m_workspaceIndex = 0; + m_hidden = false; + m_profileIndex = 0; +} + +QByteArray WDSPRxSettings::serialize() const +{ + SimpleSerializer s(1); + s.writeS32( 1, m_inputFrequencyOffset); + s.writeS32( 2, (int) m_demod); + s.writeS32( 3, m_volume * 10.0); + + if (m_spectrumGUI) { + s.writeBlob(4, m_spectrumGUI->serialize()); + } + + s.writeU32( 5, m_rgbColor); + s.writeBool( 8, m_audioBinaural); + s.writeBool( 9, m_audioFlipChannels); + s.writeBool( 10, m_dsb); + // AGC + s.writeBool( 11, m_agc); + s.writeS32( 12, (int) m_agcMode); + s.writeS32( 13, m_agcGain); + s.writeS32( 14, m_agcSlope); + s.writeS32( 15, m_agcHangThreshold); + // Noise blanker + s.writeBool( 20, m_dnb); + s.writeS32( 21, (int) m_nbScheme); + s.writeS32( 22, (int) m_nb2Mode); + s.writeDouble(23, m_nbSlewTime); + s.writeDouble(24, m_nbLeadTime); + s.writeDouble(25, m_nbLagTime); + s.writeS32( 26, m_nbThreshold); + s.writeDouble(27, m_nbAvgTime); + // Noise reduction + s.writeBool( 30, m_dnr); + s.writeBool( 32, m_anf); + s.writeS32( 33, (int) m_nrScheme); + s.writeS32( 34, (int) m_nr2Gain); + s.writeS32( 35, (int) m_nr2NPE); + s.writeS32( 36, (int) m_nrPosition); + s.writeBool( 37, m_nr2ArtifactReduction); + // Demods + s.writeBool( 40, m_amFadeLevel); + s.writeBool( 41, m_cwPeaking); + s.writeDouble(42, m_cwPeakFrequency); + s.writeDouble(43, m_cwBandwidth); + s.writeDouble(44, m_cwGain); + s.writeDouble(45, m_fmDeviation); + s.writeDouble(46, m_fmAFLow); + s.writeDouble(47, m_fmAFHigh); + s.writeBool( 48, m_fmAFLimiter); + s.writeDouble(49, m_fmAFLimiterGain); + s.writeBool( 50, m_fmCTCSSNotch); + s.writeDouble(51, m_fmCTCSSNotchFrequency); + // Squelch + s.writeBool( 60, m_squelch); + s.writeS32( 61, m_squelchThreshold); + s.writeDouble(62, m_ssqlTauMute); + s.writeDouble(63, m_ssqlTauUnmute); + s.writeDouble(64, m_amsqMaxTail); + // + s.writeString(70, m_title); + s.writeString(71, m_audioDeviceName); + s.writeBool( 72, m_useReverseAPI); + s.writeString(73, m_reverseAPIAddress); + s.writeU32( 74, m_reverseAPIPort); + s.writeU32( 75, m_reverseAPIDeviceIndex); + s.writeU32( 76, m_reverseAPIChannelIndex); + s.writeS32( 77, m_streamIndex); + + if (m_rollupState) { + s.writeBlob(78, m_rollupState->serialize()); + } + + s.writeS32( 79, m_workspaceIndex); + s.writeBlob( 80, m_geometryBytes); + s.writeBool( 81, m_hidden); + s.writeU32( 82, m_profileIndex); + + for (unsigned int i = 0; i < 10; i++) + { + s.writeS32 (104 + 100*i, (int) m_profiles[i].m_demod); + // Filter + s.writeS32 (100 + 100*i, m_profiles[i].m_spanLog2); + s.writeS32 (101 + 100*i, m_profiles[i].m_highCutoff / 100.0); + s.writeS32 (102 + 100*i, m_profiles[i].m_lowCutoff / 100.0); + s.writeS32 (103 + 100*i, m_profiles[i].m_fftWindow); + // AGC + s.writeBool (110 + 100*i, m_profiles[i].m_agc); + s.writeS32 (111 + 100*i, (int) m_profiles[i].m_agcMode); + s.writeS32 (112 + 100*i, m_profiles[i].m_agcGain); + s.writeS32 (113 + 100*i, m_profiles[i].m_agcSlope); + s.writeS32 (114 + 100*i, m_profiles[i].m_agcHangThreshold); + // Noise blanjer + s.writeBool (120 + 100*i, m_profiles[i].m_dnb); + s.writeS32 (121 + 100*i, (int) m_profiles[i].m_nbScheme); + s.writeS32 (122 + 100*i, (int) m_profiles[i].m_nb2Mode); + s.writeDouble(123 + 100*i, m_profiles[i].m_nbSlewTime); + s.writeDouble(124 + 100*i, m_profiles[i].m_nbLeadTime); + s.writeDouble(125 + 100*i, m_profiles[i].m_nbLagTime); + s.writeS32 (126 + 100*i, m_profiles[i].m_nbThreshold); + s.writeDouble(127 + 100*i, m_profiles[i].m_nbAvgTime); + // Noise reduction + s.writeBool (130 + 100*i, m_profiles[i].m_dnr); + s.writeBool (132 + 100*i, m_profiles[i].m_anf); + s.writeS32 (133 + 100*i, (int) m_profiles[i].m_nrScheme); + s.writeS32 (134 + 100*i, (int) m_profiles[i].m_nr2Gain); + s.writeS32 (135 + 100*i, (int) m_profiles[i].m_nr2NPE); + s.writeS32 (136 + 100*i, (int) m_profiles[i].m_nrPosition); + s.writeBool (137 + 100*i, m_profiles[i].m_nr2ArtifactReduction); + // Demods + s.writeBool (140 + 100*i, m_profiles[i].m_amFadeLevel); + s.writeBool (141 + 100*i, m_profiles[i].m_cwPeaking); + s.writeDouble(142 + 100*i, m_profiles[i].m_cwPeakFrequency); + s.writeDouble(143 + 100*i, m_profiles[i].m_cwBandwidth); + s.writeDouble(144 + 100*i, m_profiles[i].m_cwGain); + s.writeDouble(145 + 100*i, m_profiles[i].m_fmDeviation); + s.writeDouble(146 + 100*i, m_profiles[i].m_fmAFLow); + s.writeDouble(147 + 100*i, m_profiles[i].m_fmAFHigh); + s.writeBool( 148 + 100*i, m_profiles[i].m_fmAFLimiter); + s.writeDouble(149 + 100*i, m_profiles[i].m_fmAFLimiterGain); + s.writeBool( 150 + 100*i, m_profiles[i].m_fmCTCSSNotch); + s.writeDouble(151 + 100*i, m_profiles[i].m_fmCTCSSNotchFrequency); + // Squelch + s.writeBool( 160 + 100*i, m_profiles[i].m_squelch); + s.writeS32( 161 + 100*i, m_profiles[i].m_squelchThreshold); + s.writeDouble(162 + 100*i, m_profiles[i].m_ssqlTauMute); + s.writeDouble(163 + 100*i, m_profiles[i].m_ssqlTauUnmute); + s.writeDouble(164 + 100*i, m_profiles[i].m_amsqMaxTail); + } + + return s.final(); +} + +bool WDSPRxSettings::deserialize(const QByteArray& data) +{ + SimpleDeserializer d(data); + + if(!d.isValid()) + { + resetToDefaults(); + return false; + } + + if(d.getVersion() == 1) + { + QByteArray bytetmp; + qint32 tmp; + uint32_t utmp; + QString strtmp; + + d.readS32( 1, &m_inputFrequencyOffset, 0); + d.readS32( 2, &tmp, 0); + m_demod = (WDSPRxProfile::WDSPRxDemod) tmp; + d.readS32( 3, &tmp, 30); + m_volume = tmp / 10.0; + + if (m_spectrumGUI) + { + d.readBlob(4, &bytetmp); + m_spectrumGUI->deserialize(bytetmp); + } + + d.readU32( 5, &m_rgbColor); + d.readBool( 8, &m_audioBinaural, false); + d.readBool( 9, &m_audioFlipChannels, false); + d.readBool( 10, &m_dsb, false); + // AGC + d.readBool( 11, &m_agc, true); + d.readS32( 12, &tmp, 2); + m_agcMode = (WDSPRxProfile::WDSPRxAGCMode) tmp; + d.readS32( 13, &m_agcGain, 80); + d.readS32( 14, &m_agcSlope, 35); + d.readS32( 15, &m_agcHangThreshold, 0); + // Noise blanker + d.readBool( 20, &m_dnb, false); + d.readS32( 21, &tmp, 2); + m_nbScheme = (WDSPRxProfile::WDSPRxNBScheme) tmp; + d.readS32( 22, &tmp, 2); + m_nb2Mode = (WDSPRxProfile::WDSPRxNB2Mode) tmp; + d.readDouble(23, &m_nbSlewTime, 0.1); + d.readDouble(24, &m_nbLeadTime, 0.1); + d.readDouble(25, &m_nbLagTime, 0.1); + d.readS32( 26, &m_nbThreshold, 30); + d.readDouble(27, &m_nbAvgTime, 50.0); + // Nosie reduction + d.readBool( 30, &m_dnr, false); + d.readBool( 32, &m_anf, false); + d.readS32( 33, &tmp, 2); + m_nrScheme = (WDSPRxProfile::WDSPRxNRScheme) tmp; + d.readS32( 34, &tmp, 2); + m_nr2Gain = (WDSPRxProfile::WDSPRxNR2Gain) tmp; + d.readS32( 35, &tmp, 2); + m_nr2NPE = (WDSPRxProfile::WDSPRxNR2NPE) tmp; + d.readS32( 36, &tmp, 2); + m_nrPosition = (WDSPRxProfile::WDSPRxNRPosition) tmp; + d.readBool( 37, &m_nr2ArtifactReduction, true); + // Demods + d.readBool( 40, &m_amFadeLevel, false); + d.readBool( 41, &m_cwPeaking, false); + d.readDouble(42, &m_cwPeakFrequency, 600.0); + d.readDouble(43, &m_cwBandwidth, 100.0); + d.readDouble(44, &m_cwGain, 2.0); + d.readDouble(45, &m_fmDeviation, 2500.0); + d.readDouble(46, &m_fmAFLow, 300.0); + d.readDouble(47, &m_fmAFHigh, 3000.0); + d.readBool( 48, &m_fmAFLimiter, false); + d.readDouble(49, &m_fmAFLimiterGain, 10.0); + d.readBool( 50, &m_fmCTCSSNotch, false); + d.readDouble(51, &m_fmCTCSSNotchFrequency, 67.0); + // Squelch + d.readBool( 60, &m_squelch, false); + d.readS32( 61, &m_squelchThreshold, 3); + d.readDouble(62, &m_ssqlTauMute, 0.1); + d.readDouble(63, &m_ssqlTauUnmute, 0.1); + d.readDouble(64, &m_amsqMaxTail, 1.5); + // + d.readString(70, &m_title, "WDSP Receiver"); + d.readString(71, &m_audioDeviceName, AudioDeviceManager::m_defaultDeviceName); + d.readBool( 72, &m_useReverseAPI, false); + d.readString(73, &m_reverseAPIAddress, "127.0.0.1"); + d.readU32( 74, &utmp, 0); + + if ((utmp > 1023) && (utmp < 65535)) { + m_reverseAPIPort = utmp; + } else { + m_reverseAPIPort = 8888; + } + + d.readU32( 75, &utmp, 0); + m_reverseAPIDeviceIndex = utmp > 99 ? 99 : utmp; + d.readU32( 76, &utmp, 0); + m_reverseAPIChannelIndex = utmp > 99 ? 99 : utmp; + d.readS32( 77, &m_streamIndex, 0); + + if (m_rollupState) + { + d.readBlob(78, &bytetmp); + m_rollupState->deserialize(bytetmp); + } + + d.readS32( 79, &m_workspaceIndex, 0); + d.readBlob( 80, &m_geometryBytes); + d.readBool( 81, &m_hidden, false); + d.readU32( 82, &utmp, 0); + m_profileIndex = utmp < 10 ? utmp : 0; + + for (unsigned int i = 0; (i < 10); i++) + { + d.readS32 (104 + 100*i, &tmp, 9); + m_profiles[i].m_demod = (WDSPRxProfile::WDSPRxDemod) tmp; + // Filter + d.readS32 (100 + 100*i, &m_profiles[i].m_spanLog2, 3); + d.readS32 (101 + 100*i, &tmp, 30); + m_profiles[i].m_highCutoff = tmp * 100.0; + d.readS32 (102 + 100*i, &tmp, 3); + m_profiles[i].m_lowCutoff = tmp * 100.0; + d.readS32 (103 + 100*i, &m_profiles[i].m_fftWindow, 0); + // AGC + d.readBool( 110 + 100*i, &m_profiles[i].m_agc, true); + d.readS32( 111 + 100*i, &tmp, 2); + m_profiles[i].m_agcMode = (WDSPRxProfile::WDSPRxAGCMode) tmp; + d.readS32( 112 + 100*i, &m_profiles[i].m_agcGain, 80); + d.readS32( 113 + 100*i, &m_profiles[i].m_agcSlope, 35); + d.readS32( 114 + 100*i, &m_profiles[i].m_agcHangThreshold, 0); + // Noise blanker + d.readBool (120 + 100*i, &m_profiles[i].m_dnb, false); + d.readS32 (121 + 100*i, &tmp); + m_profiles[i].m_nbScheme = (WDSPRxProfile::WDSPRxNBScheme) tmp; + d.readS32 (122 + 100*i, &tmp); + m_profiles[i].m_nb2Mode = (WDSPRxProfile::WDSPRxNB2Mode) tmp; + d.readDouble(123 + 100*i, &m_profiles[i].m_nbSlewTime, 0.1); + d.readDouble(124 + 100*i, &m_profiles[i].m_nbLeadTime, 0.1); + d.readDouble(125 + 100*i, &m_profiles[i].m_nbLagTime, 0.1); + d.readS32 (126 + 100*i, &m_profiles[i].m_nbThreshold, 30); + d.readDouble(127 + 100*i, &m_profiles[i].m_nbAvgTime, 50.0); + // Noise reduction + d.readBool (130 + 100*i, &m_profiles[i].m_dnr, false); + d.readBool (132 + 100*i, &m_profiles[i].m_anf, false); + d.readS32 (133 + 100*i, &tmp); + m_profiles[i].m_nrScheme = (WDSPRxProfile::WDSPRxNRScheme) tmp; + d.readS32 (134 + 100*i, &tmp); + m_profiles[i].m_nr2Gain = (WDSPRxProfile::WDSPRxNR2Gain) tmp; + d.readS32 (135 + 100*i, &tmp); + m_profiles[i].m_nr2NPE = (WDSPRxProfile::WDSPRxNR2NPE) tmp; + d.readS32 (136 + 100*i, &tmp); + m_profiles[i].m_nrPosition = (WDSPRxProfile::WDSPRxNRPosition) tmp; + d.readBool (137 + 100*i, &m_profiles[i].m_nr2ArtifactReduction); + // Demods + d.readBool (140 + 100*i, &m_amFadeLevel, false); + d.readBool (141 + 100*i, &m_cwPeaking, false); + d.readDouble(142 + 100*i, &m_profiles[i].m_cwPeakFrequency, 600.0); + d.readDouble(143 + 100*i, &m_profiles[i].m_cwBandwidth, 100.0); + d.readDouble(144 + 100*i, &m_profiles[i].m_cwGain, 2.0); + d.readDouble(145 + 100*i, &m_profiles[i].m_fmDeviation, 2500.0); + d.readDouble(146 + 100*i, &m_profiles[i].m_fmAFLow, 300.0); + d.readDouble(147 + 100*i, &m_profiles[i].m_fmAFHigh, 3000.0); + d.readBool( 148 + 100*i, &m_profiles[i].m_fmAFLimiter, false); + d.readDouble(149 + 100*i, &m_profiles[i].m_fmAFLimiterGain, 10.0); + d.readBool( 150 + 100*i, &m_profiles[i].m_fmCTCSSNotch, false); + d.readDouble(151 + 100*i, &m_profiles[i].m_fmCTCSSNotchFrequency, 67.0); + // Squelch + d.readBool( 160 + 100*i, &m_profiles[i].m_squelch, false); + d.readS32( 161 + 100*i, &m_profiles[i].m_squelchThreshold, 3); + d.readDouble(161 + 100*i, &m_profiles[i].m_ssqlTauMute, 0.1); + d.readDouble(162 + 100*i, &m_profiles[i].m_ssqlTauUnmute, 0.1); + d.readDouble(163 + 100*i, &m_profiles[i].m_amsqMaxTail, 1.5); + } + + return true; + } + else + { + resetToDefaults(); + return false; + } +} diff --git a/plugins/channelrx/wdsprx/wdsprxsettings.cpp.rej b/plugins/channelrx/wdsprx/wdsprxsettings.cpp.rej new file mode 100644 index 000000000..484c3fdab --- /dev/null +++ b/plugins/channelrx/wdsprx/wdsprxsettings.cpp.rej @@ -0,0 +1,18 @@ +--- plugins/channelrx/wdsprx/wdsprxsettings.cpp ++++ plugins/channelrx/wdsprx/wdsprxsettings.cpp +@@ -182,6 +184,7 @@ QByteArray WDSPRxSettings::serialize() const + s.writeDouble(127 + 50*i, m_profiles[i].m_nbAvgTime); + // Noise reduction + s.writeBool (130 + 50*i, m_profiles[i].m_dnr); ++ s.writeBool (131 + 50*i, m_profiles[i].m_snb); + s.writeBool (132 + 50*i, m_profiles[i].m_anf); + s.writeS32 (133 + 50*i, (int) m_profiles[i].m_nrScheme); + s.writeS32 (134 + 50*i, (int) m_profiles[i].m_nr2Gain); +@@ -329,6 +333,7 @@ bool WDSPRxSettings::deserialize(const QByteArray& data) + d.readDouble(127 + 50*i, &m_profiles[i].m_nbAvgTime, 50.0); + // Noise reduction + d.readBool (130 + 50*i, &m_profiles[i].m_dnr, false); ++ d.readBool (131 + 50*i, &m_profiles[i].m_snb, false); + d.readBool (132 + 50*i, &m_profiles[i].m_anf, false); + d.readS32 (133 + 50*i, &tmp); + m_profiles[i].m_nrScheme = (WDSPRxProfile::WDSPRxNRScheme) tmp; diff --git a/plugins/channelrx/wdsprx/wdsprxsettings.h b/plugins/channelrx/wdsprx/wdsprxsettings.h index be51a2e36..5e0c00539 100644 --- a/plugins/channelrx/wdsprx/wdsprxsettings.h +++ b/plugins/channelrx/wdsprx/wdsprxsettings.h @@ -106,6 +106,7 @@ struct WDSPRxProfile double m_nbAvgTime; // a.k.a back tau // Noise rediction bool m_dnr; + bool m_snb; bool m_anf; WDSPRxNRScheme m_nrScheme; WDSPRxNR2Gain m_nr2Gain; @@ -153,6 +154,7 @@ struct WDSPRxProfile m_nbThreshold(30), m_nbAvgTime(50.0), m_dnr(false), + m_snb(false), m_anf(false), m_nrScheme(NRSchemeNR), m_nr2Gain(NR2GainGamma), @@ -209,6 +211,7 @@ struct WDSPRxSettings double m_nbAvgTime; // Noise reduction bool m_dnr; + bool m_snb; bool m_anf; WDSPRxProfile::WDSPRxNRScheme m_nrScheme; WDSPRxProfile::WDSPRxNR2Gain m_nr2Gain; diff --git a/plugins/channelrx/wdsprx/wdsprxsettings.h.orig b/plugins/channelrx/wdsprx/wdsprxsettings.h.orig new file mode 100644 index 000000000..be51a2e36 --- /dev/null +++ b/plugins/channelrx/wdsprx/wdsprxsettings.h.orig @@ -0,0 +1,271 @@ +/////////////////////////////////////////////////////////////////////////////////// +// Copyright (C) 2024 Edouard Griffiths, F4EXB // +// // +// This program is free software; you can redistribute it and/or modify // +// it under the terms of the GNU General Public License as published by // +// the Free Software Foundation as version 3 of the License, or // +// (at your option) any later version. // +// // +// This program is distributed in the hope that it will be useful, // +// but WITHOUT ANY WARRANTY; without even the implied warranty of // +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // +// GNU General Public License V3 for more details. // +// // +// You should have received a copy of the GNU General Public License // +// along with this program. If not, see . // +/////////////////////////////////////////////////////////////////////////////////// + +#ifndef PLUGINS_CHANNELRX_WDSPRX_WDSPRXSETTINGS_H_ +#define PLUGINS_CHANNELRX_WDSPRX_WDSPRXSETTINGS_H_ + +#include +#include + +#include "dsp/fftwindow.h" + +class Serializable; + + +struct WDSPRxProfile +{ + enum WDSPRxDemod + { + DemodSSB, + DemodAM, + DemodSAM, + DemodFMN, + }; + enum WDSPRxAGCMode + { + AGCLong, + AGCSlow, + AGCMedium, + AGCFast, + }; + enum WDSPRxNRScheme + { + NRSchemeNR, + NRSchemeNR2, + }; + enum WDSPRxNBScheme + { + NBSchemeNB, //!< Preemptive Wideband Blanker (ANB) + NBSchemeNB2, //!< Interpolating Wideband Blanker (NOB) + }; + enum WDSPRxNR2Gain + { + NR2GainLinear, + NR2GainLog, + NR2GainGamma, + }; + enum WDSPRxNR2NPE + { + NR2NPEOSMS, + NR2NPEMMSE, + }; + enum WDSPRxNRPosition + { + NRPositionPreAGC, + NRPositionPostAGC, + }; + enum WDSPRxNB2Mode + { + NB2ModeZero, + NB2ModeSampleAndHold, + NB2ModeMeanHold, + NB2ModeHoldSample, + NB2ModeInterpolate, + }; + enum WDSPRxSquelchMode + { + SquelchModeVoice, + SquelchModeAM, + SquelchModeFM, + }; + + WDSPRxDemod m_demod; + // Filter + int m_spanLog2; + Real m_highCutoff; + Real m_lowCutoff; + int m_fftWindow; // 0: 4-term Blackman-Harris, 1: 7-term Blackman-Harris + // AGC + bool m_agc; + WDSPRxAGCMode m_agcMode; + int m_agcGain; //!< Fixed gain if AGC is off else top gain + int m_agcSlope; + int m_agcHangThreshold; + // Noise blanker + bool m_dnb; + WDSPRxNBScheme m_nbScheme; + WDSPRxNB2Mode m_nb2Mode; + double m_nbSlewTime; // a.k.a tau + double m_nbLeadTime; // a.k.a adv time + double m_nbLagTime; // a.k.a hang time + int m_nbThreshold; + double m_nbAvgTime; // a.k.a back tau + // Noise rediction + bool m_dnr; + bool m_anf; + WDSPRxNRScheme m_nrScheme; + WDSPRxNR2Gain m_nr2Gain; + WDSPRxNR2NPE m_nr2NPE; + WDSPRxNRPosition m_nrPosition; + bool m_nr2ArtifactReduction; + // Demods + bool m_amFadeLevel; + bool m_cwPeaking; + double m_cwPeakFrequency; + double m_cwBandwidth; + double m_cwGain; + double m_fmDeviation; + double m_fmAFLow; + double m_fmAFHigh; + bool m_fmAFLimiter; + double m_fmAFLimiterGain; + bool m_fmCTCSSNotch; + double m_fmCTCSSNotchFrequency; + // Squelch + bool m_squelch; + int m_squelchThreshold; + WDSPRxSquelchMode m_squelchMode; + double m_ssqlTauMute; //!< Voice squelch tau mute + double m_ssqlTauUnmute; //!< Voice squelch tau unmute + double m_amsqMaxTail; + + WDSPRxProfile() : + m_demod(DemodSSB), + m_spanLog2(3), + m_highCutoff(3000), + m_lowCutoff(300), + m_fftWindow(0), + m_agc(false), + m_agcMode(AGCMedium), + m_agcGain(80), + m_agcSlope(35), + m_agcHangThreshold(0), + m_dnb(false), + m_nbScheme(NBSchemeNB), + m_nb2Mode(NB2ModeZero), + m_nbSlewTime(0.1), + m_nbLeadTime(0.1), + m_nbLagTime(0.1), + m_nbThreshold(30), + m_nbAvgTime(50.0), + m_dnr(false), + m_anf(false), + m_nrScheme(NRSchemeNR), + m_nr2Gain(NR2GainGamma), + m_nr2NPE(NR2NPEOSMS), + m_nrPosition(NRPositionPreAGC), + m_nr2ArtifactReduction(true), + m_amFadeLevel(false), + m_cwPeaking(false), + m_cwPeakFrequency(600.0), + m_cwBandwidth(100.0), + m_cwGain(2.0), + m_fmDeviation(2500.0), + m_fmAFLow(300.0), + m_fmAFHigh(3000.0), + m_fmAFLimiter(false), + m_fmAFLimiterGain(10.0), + m_fmCTCSSNotch(false), + m_fmCTCSSNotchFrequency(67.0), + m_squelch(false), + m_squelchThreshold(3), + m_squelchMode(SquelchModeVoice), + m_ssqlTauMute(0.1), + m_ssqlTauUnmute(0.1), + m_amsqMaxTail(1.5) + {} +}; + +struct WDSPRxSettings +{ + WDSPRxProfile::WDSPRxDemod m_demod; + qint32 m_inputFrequencyOffset; + // Real m_highCutoff; + // Real m_lowCutoff; + Real m_volume; + // int m_spanLog2; + bool m_audioBinaural; + bool m_audioFlipChannels; + bool m_dsb; + bool m_audioMute; + // AGC + bool m_agc; + WDSPRxProfile::WDSPRxAGCMode m_agcMode; + int m_agcGain; //!< Fixed gain if AGC is off else top gain + int m_agcSlope; + int m_agcHangThreshold; + // Noise blanker + bool m_dnb; + WDSPRxProfile::WDSPRxNBScheme m_nbScheme; + WDSPRxProfile::WDSPRxNB2Mode m_nb2Mode; + double m_nbSlewTime; + double m_nbLeadTime; + double m_nbLagTime; + int m_nbThreshold; + double m_nbAvgTime; + // Noise reduction + bool m_dnr; + bool m_anf; + WDSPRxProfile::WDSPRxNRScheme m_nrScheme; + WDSPRxProfile::WDSPRxNR2Gain m_nr2Gain; + WDSPRxProfile::WDSPRxNR2NPE m_nr2NPE; + WDSPRxProfile::WDSPRxNRPosition m_nrPosition; + bool m_nr2ArtifactReduction; + // Demods + bool m_amFadeLevel; + bool m_cwPeaking; + double m_cwPeakFrequency; + double m_cwBandwidth; + double m_cwGain; + double m_fmDeviation; + double m_fmAFLow; + double m_fmAFHigh; + bool m_fmAFLimiter; + double m_fmAFLimiterGain; + bool m_fmCTCSSNotch; + double m_fmCTCSSNotchFrequency; + // Squelch + bool m_squelch; + int m_squelchThreshold; + WDSPRxProfile::WDSPRxSquelchMode m_squelchMode; + double m_ssqlTauMute; //!< Voice squelch tau mute + double m_ssqlTauUnmute; //!< Voice squelch tau unmute + double m_amsqMaxTail; + + quint32 m_rgbColor; + QString m_title; + QString m_audioDeviceName; + int m_streamIndex; //!< MIMO channel. Not relevant when connected to SI (single Rx). + bool m_useReverseAPI; + QString m_reverseAPIAddress; + uint16_t m_reverseAPIPort; + uint16_t m_reverseAPIDeviceIndex; + uint16_t m_reverseAPIChannelIndex; + int m_workspaceIndex; + QByteArray m_geometryBytes; + bool m_hidden; + std::vector m_profiles; + unsigned int m_profileIndex; + + Serializable *m_channelMarker; + Serializable *m_spectrumGUI; + Serializable *m_rollupState; + + WDSPRxSettings(); + void resetToDefaults(); + void setChannelMarker(Serializable *channelMarker) { m_channelMarker = channelMarker; } + void setSpectrumGUI(Serializable *spectrumGUI) { m_spectrumGUI = spectrumGUI; } + void setRollupState(Serializable *rollupState) { m_rollupState = rollupState; } + QByteArray serialize() const; + bool deserialize(const QByteArray& data); + + static const int m_minPowerThresholdDB; + static const float m_mminPowerThresholdDBf; +}; + + +#endif /* PLUGINS_CHANNELRX_WDSPRX_WDSPRXSETTINGS_H_ */ diff --git a/plugins/channelrx/wdsprx/wdsprxsink.cpp b/plugins/channelrx/wdsprx/wdsprxsink.cpp index 5b8db0769..48080be7e 100644 --- a/plugins/channelrx/wdsprx/wdsprxsink.cpp +++ b/plugins/channelrx/wdsprx/wdsprxsink.cpp @@ -131,7 +131,6 @@ WDSPRxSink::WDSPRxSink() : ); m_rxa->setSpectrumProbe(&m_spectrumProbe); WDSP::RXA::SetPassband(*m_rxa, 0, m_Bandwidth); - WDSP::ANR::SetANRVals(*m_rxa, 64, 16, 16e-4, 10e-7); applyChannelSettings(m_channelSampleRate, m_channelFrequencyOffset, true); applySettings(m_settings, true); @@ -351,7 +350,6 @@ void WDSPRxSink::applySettings(const WDSPRxSettings& settings, bool force) << " m_agcSlope: " << settings.m_agcSlope << " m_agcHangThreshold: " << settings.m_agcHangThreshold << " m_audioDeviceName: " << settings.m_audioDeviceName - << " m_anf: "<< settings.m_anf << " m_dnr: " << settings.m_dnr << " m_nrScheme: " << settings.m_nrScheme << " m_nrPosition: "<< settings.m_nrPosition @@ -553,6 +551,11 @@ void WDSPRxSink::applySettings(const WDSPRxSettings& settings, bool force) WDSP::ANF::SetANFRun(*m_rxa, settings.m_anf ? 1 : 0); } + // Caution: Causes corruption + if ((m_settings.m_snb != settings.m_snb) || force) { + WDSP::SNBA::SetSNBARun(*m_rxa, settings.m_snb ? 1 : 0); + } + // CW Peaking if ((m_settings.m_cwPeaking != settings.m_cwPeaking) || force) { diff --git a/plugins/channelrx/wdsprx/wdsprxsink.cpp.orig b/plugins/channelrx/wdsprx/wdsprxsink.cpp.orig new file mode 100644 index 000000000..5b8db0769 --- /dev/null +++ b/plugins/channelrx/wdsprx/wdsprxsink.cpp.orig @@ -0,0 +1,782 @@ +/////////////////////////////////////////////////////////////////////////////////// +// Copyright (C) 2024 Edouard Griffiths, F4EXB // +// // +// This program is free software; you can redistribute it and/or modify // +// it under the terms of the GNU General Public License as published by // +// the Free Software Foundation as version 3 of the License, or // +// (at your option) any later version. // +// // +// This program is distributed in the hope that it will be useful, // +// but WITHOUT ANY WARRANTY; without even the implied warranty of // +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // +// GNU General Public License V3 for more details. // +// // +// You should have received a copy of the GNU General Public License // +// along with this program. If not, see . // +/////////////////////////////////////////////////////////////////////////////////// + +#include + +#include +#include + +#include "dsp/spectrumvis.h" +#include "dsp/datafifo.h" +#include "util/db.h" +#include "util/messagequeue.h" +#include "maincore.h" +#include "RXA.hpp" +#include "nbp.hpp" +#include "meter.hpp" +#include "patchpanel.hpp" +#include "wcpAGC.hpp" +#include "anr.hpp" +#include "emnr.hpp" +#include "snba.hpp" +#include "anf.hpp" +#include "anb.hpp" +#include "nob.hpp" +#include "amd.hpp" +#include "fmd.hpp" +#include "iir.cpp" +#include "ssql.hpp" +#include "amsq.hpp" +#include "fmsq.hpp" + +#include "wdsprxsink.h" + +const int WDSPRxSink::m_ssbFftLen = 2048; +const int WDSPRxSink::m_wdspSampleRate = 48000; +const int WDSPRxSink::m_wdspBufSize = 512; + +WDSPRxSink::SpectrumProbe::SpectrumProbe(SampleVector& sampleVector) : + m_sampleVector(sampleVector), + m_spanLog2(0), + m_dsb(false), + m_usb(true), + m_sum(0) +{} + +void WDSPRxSink::SpectrumProbe::setSpanLog2(int spanLog2) +{ + m_spanLog2 = spanLog2; +} + +void WDSPRxSink::SpectrumProbe::proceed(const float *in, int nb_samples) +{ + int decim = 1<<(m_spanLog2 - 1); + unsigned char decim_mask = decim - 1; // counter LSB bit mask for decimation by 2^(m_scaleLog2 - 1) + + for (int i = 0; i < nb_samples; i++) + { + float cr = in[2*i+1]; + float ci = in[2*i]; + m_sum += std::complex{cr, ci}; + + if (decim == 1) + { + m_sampleVector.push_back(Sample(cr*SDR_RX_SCALEF, ci*SDR_RX_SCALEF)); + } + else + { + if (!(m_undersampleCount++ & decim_mask)) + { + float avgr = m_sum.real() / decim; + float avgi = m_sum.imag() / decim; + + if (!m_dsb & !m_usb) + { // invert spectrum for LSB + m_sampleVector.push_back(Sample(avgi*SDR_RX_SCALEF, avgr*SDR_RX_SCALEF)); + } + else + { + m_sampleVector.push_back(Sample(avgr*SDR_RX_SCALEF, avgi*SDR_RX_SCALEF)); + } + + m_sum = 0; + } + } + } +} + +WDSPRxSink::WDSPRxSink() : + m_squelchDelayLine(2*48000), + m_audioActive(false), + m_spectrumSink(nullptr), + m_spectrumProbe(m_sampleBuffer), + m_inCount(0), + m_audioFifo(24000), + m_audioSampleRate(48000) +{ + m_Bandwidth = 5000; + m_channelSampleRate = 48000; + m_channelFrequencyOffset = 0; + + m_audioBuffer.resize(m_audioSampleRate / 10); + m_audioBufferFill = 0; + m_undersampleCount = 0; + + m_demodBuffer.resize(1<<12); + m_demodBufferFill = 0; + + m_sAvg = 0.0; + m_sPeak = 0.0; + m_sCount = 1; + + m_rxa = WDSP::RXA::create_rxa( + m_wdspSampleRate, // input samplerate + m_wdspSampleRate, // output samplerate + m_wdspSampleRate, // sample rate for mainstream dsp processing (dsp) + m_wdspBufSize // number complex samples processed per buffer in mainstream dsp processing + ); + m_rxa->setSpectrumProbe(&m_spectrumProbe); + WDSP::RXA::SetPassband(*m_rxa, 0, m_Bandwidth); + WDSP::ANR::SetANRVals(*m_rxa, 64, 16, 16e-4, 10e-7); + + applyChannelSettings(m_channelSampleRate, m_channelFrequencyOffset, true); + applySettings(m_settings, true); +} + +WDSPRxSink::~WDSPRxSink() +{ + WDSP::RXA::destroy_rxa(m_rxa); +} + +void WDSPRxSink::feed(const SampleVector::const_iterator& begin, const SampleVector::const_iterator& end) +{ + if (m_channelSampleRate == 0) { + return; + } + + Complex ci; + + for(SampleVector::const_iterator it = begin; it < end; ++it) + { + Complex c(it->real(), it->imag()); + c *= m_nco.nextIQ(); + + if (m_interpolatorDistance < 1.0f) // interpolate + { + while (!m_interpolator.interpolate(&m_interpolatorDistanceRemain, c, &ci)) + { + processOneSample(ci); + m_interpolatorDistanceRemain += m_interpolatorDistance; + } + } + else + { + if (m_interpolator.decimate(&m_interpolatorDistanceRemain, c, &ci)) + { + processOneSample(ci); + m_interpolatorDistanceRemain += m_interpolatorDistance; + } + } + } +} + +void WDSPRxSink::getMagSqLevels(double& avg, double& peak, int& nbSamples) +{ + avg = m_sAvg; + peak = m_sPeak; + nbSamples = m_sCount; +} + +void WDSPRxSink::processOneSample(Complex &ci) +{ + m_rxa->get_inbuff()[2*m_inCount] = ci.imag() / SDR_RX_SCALEF; + m_rxa->get_inbuff()[2*m_inCount+1] = ci.real() / SDR_RX_SCALEF; + + if (++m_inCount == m_rxa->get_insize()) + { + WDSP::RXA::xrxa(m_rxa); + + m_sCount = m_wdspBufSize; + m_sAvg = WDSP::METER::GetMeter(*m_rxa, WDSP::RXA::RXA_S_AV); + m_sPeak = WDSP::METER::GetMeter(*m_rxa, WDSP::RXA::RXA_S_PK); + + for (int i = 0; i < m_rxa->get_outsize(); i++) + { + if (m_settings.m_audioMute) + { + m_audioBuffer[m_audioBufferFill].r = 0; + m_audioBuffer[m_audioBufferFill].l = 0; + } + else + { + const double& cr = m_rxa->get_outbuff()[2*i+1]; + const double& ci = m_rxa->get_outbuff()[2*i]; + qint16 zr = cr * 32768.0; + qint16 zi = ci * 32768.0; + m_audioBuffer[m_audioBufferFill].r = zr; + m_audioBuffer[m_audioBufferFill].l = zi; + + if (m_settings.m_audioBinaural) + { + m_demodBuffer[m_demodBufferFill++] = zr; + m_demodBuffer[m_demodBufferFill++] = zi; + } + else + { + Real demod = (zr + zi) * 0.7; + qint16 sample = (qint16)(demod); + m_demodBuffer[m_demodBufferFill++] = sample; + } + + if (m_demodBufferFill >= m_demodBuffer.size()) + { + QList dataPipes; + MainCore::instance()->getDataPipes().getDataPipes(m_channel, "demod", dataPipes); + + if (dataPipes.size() > 0) + { + QList::iterator it = dataPipes.begin(); + + for (; it != dataPipes.end(); ++it) + { + DataFifo *fifo = qobject_cast((*it)->m_element); + + if (fifo) + { + fifo->write( + (quint8*) &m_demodBuffer[0], + m_demodBuffer.size() * sizeof(qint16), + m_settings.m_audioBinaural ? DataFifo::DataTypeCI16 : DataFifo::DataTypeI16 + ); + } + } + } + + m_demodBufferFill = 0; + } + } // audio sample + + if (++m_audioBufferFill == m_audioBuffer.size()) + { + std::size_t res = m_audioFifo.write((const quint8*)&m_audioBuffer[0], std::min(m_audioBufferFill, m_audioBuffer.size())); + + if (res != m_audioBufferFill) { + qDebug("WDSPRxSink::processOneSample: %lu/%lu samples written", res, m_audioBufferFill); + } + + m_audioBufferFill = 0; + } + } // result loop + + if (m_spectrumSink && (m_sampleBuffer.size() != 0)) + { + m_spectrumSink->feed(m_sampleBuffer.begin(), m_sampleBuffer.end(), !m_settings.m_dsb); + m_sampleBuffer.clear(); + } + + m_inCount = 0; + } +} + +void WDSPRxSink::applyChannelSettings(int channelSampleRate, int channelFrequencyOffset, bool force) +{ + qDebug() << "WDSPRxSink::applyChannelSettings:" + << " channelSampleRate: " << channelSampleRate + << " channelFrequencyOffset: " << channelFrequencyOffset; + + if ((m_channelFrequencyOffset != channelFrequencyOffset) || + (m_channelSampleRate != channelSampleRate) || force) + { + m_nco.setFreq(-channelFrequencyOffset, channelSampleRate); + } + + if ((m_channelSampleRate != channelSampleRate) || force) + { + Real interpolatorBandwidth = (m_Bandwidth * 1.5f) > channelSampleRate ? channelSampleRate : (m_Bandwidth * 1.5f); + m_interpolator.create(16, channelSampleRate, interpolatorBandwidth, 2.0f); + m_interpolatorDistanceRemain = 0; + m_interpolatorDistance = (Real) channelSampleRate / (Real) m_wdspSampleRate; + } + + m_channelSampleRate = channelSampleRate; + m_channelFrequencyOffset = channelFrequencyOffset; +} + +void WDSPRxSink::applyAudioSampleRate(int sampleRate) +{ + qDebug("WDSPRxSink::applyAudioSampleRate: %d", sampleRate); + + Real interpolatorBandwidth = (m_Bandwidth * 1.5f) > m_channelSampleRate ? m_channelSampleRate : (m_Bandwidth * 1.5f); + m_interpolator.create(16, m_channelSampleRate, interpolatorBandwidth, 2.0f); + m_interpolatorDistanceRemain = 0; + m_interpolatorDistance = (Real) m_channelSampleRate / (Real) m_wdspSampleRate; + + WDSP::RXA::setOutputSamplerate(m_rxa, sampleRate); + + m_audioFifo.setSize(sampleRate); + m_audioSampleRate = sampleRate; + m_audioBuffer.resize(sampleRate / 10); + m_audioBufferFill = 0; + + QList pipes; + MainCore::instance()->getMessagePipes().getMessagePipes(m_channel, "reportdemod", pipes); + + if (pipes.size() > 0) + { + for (const auto& pipe : pipes) + { + MessageQueue* messageQueue = qobject_cast(pipe->m_element); + + if (messageQueue) + { + MainCore::MsgChannelDemodReport *msg = MainCore::MsgChannelDemodReport::create(m_channel, sampleRate); + messageQueue->push(msg); + } + } + } +} + +void WDSPRxSink::applySettings(const WDSPRxSettings& settings, bool force) +{ + qDebug() << "WDSPRxSink::applySettings:" + << " m_demod: " << settings.m_demod + << " m_inputFrequencyOffset: " << settings.m_inputFrequencyOffset + << " m_profileIndex: " << settings.m_profileIndex + << " m_spanLog2: " << settings.m_profiles[settings.m_profileIndex].m_spanLog2 + << " m_highCutoff: " << settings.m_profiles[settings.m_profileIndex].m_highCutoff + << " m_lowCutoff: " << settings.m_profiles[settings.m_profileIndex].m_lowCutoff + << " m_fftWindow: " << settings.m_profiles[settings.m_profileIndex].m_fftWindow << "]" + << " m_volume: " << settings.m_volume + << " m_audioBinaural: " << settings.m_audioBinaural + << " m_audioFlipChannels: " << settings.m_audioFlipChannels + << " m_dsb: " << settings.m_dsb + << " m_audioMute: " << settings.m_audioMute + << " m_agc: " << settings.m_agc + << " m_agcMode: " << settings.m_agcMode + << " m_agcGain: " << settings.m_agcGain + << " m_agcSlope: " << settings.m_agcSlope + << " m_agcHangThreshold: " << settings.m_agcHangThreshold + << " m_audioDeviceName: " << settings.m_audioDeviceName + << " m_anf: "<< settings.m_anf + << " m_dnr: " << settings.m_dnr + << " m_nrScheme: " << settings.m_nrScheme + << " m_nrPosition: "<< settings.m_nrPosition + << " m_nr2Gain: " << settings.m_nr2Gain + << " m_nr2NPE: " << settings.m_nr2NPE + << " m_nr2ArtifactReduction: " << settings.m_nr2ArtifactReduction + << " m_streamIndex: " << settings.m_streamIndex + << " m_useReverseAPI: " << settings.m_useReverseAPI + << " m_reverseAPIAddress: " << settings.m_reverseAPIAddress + << " m_reverseAPIPort: " << settings.m_reverseAPIPort + << " m_reverseAPIDeviceIndex: " << settings.m_reverseAPIDeviceIndex + << " m_reverseAPIChannelIndex: " << settings.m_reverseAPIChannelIndex + << " force: " << force; + + // Filter and mode + + if((m_settings.m_profiles[m_settings.m_profileIndex].m_highCutoff != settings.m_profiles[settings.m_profileIndex].m_highCutoff) || + (m_settings.m_profiles[m_settings.m_profileIndex].m_lowCutoff != settings.m_profiles[settings.m_profileIndex].m_lowCutoff) || + (m_settings.m_profiles[m_settings.m_profileIndex].m_fftWindow != settings.m_profiles[settings.m_profileIndex].m_fftWindow) || + (m_settings.m_demod != settings.m_demod) || + (m_settings.m_dsb != settings.m_dsb) || force) + { + float band, low, high, fLow, fHigh; + bool usb, dsb; + + band = settings.m_profiles[settings.m_profileIndex].m_highCutoff; + high = band; + low = settings.m_profiles[settings.m_profileIndex].m_lowCutoff; + + if (band < 0) + { + band = -band; + m_spectrumProbe.setUSB(false); + usb = false; + } + else + { + m_spectrumProbe.setUSB(true); + usb = true; + } + + m_Bandwidth = band; + + if (high < low) + { + if (settings.m_dsb) + { + fLow = high; + fHigh = -high; + m_spectrumProbe.setDSB(true); + dsb = true; + } + else + { + fLow = high; + fHigh = low; + m_spectrumProbe.setDSB(false); + dsb = false; + } + } + else + { + if (settings.m_dsb) + { + fLow = -high; + fHigh = high; + m_spectrumProbe.setDSB(true); + dsb = true; + } + else + { + fLow = low; + fHigh = high; + m_spectrumProbe.setDSB(false); + dsb = false; + } + } + + Real interpolatorBandwidth = (m_Bandwidth * 1.5f) > m_channelSampleRate ? m_channelSampleRate : (m_Bandwidth * 1.5f); + m_interpolator.create(16, m_channelSampleRate, interpolatorBandwidth, 2.0f); + m_interpolatorDistanceRemain = 0; + m_interpolatorDistance = (Real) m_channelSampleRate / (Real) m_audioSampleRate; + + WDSP::RXA::SetPassband(*m_rxa, fLow, fHigh); + WDSP::NBP::NBPSetWindow(*m_rxa, m_settings.m_profiles[m_settings.m_profileIndex].m_fftWindow); + + if (settings.m_demod == WDSPRxProfile::DemodSSB) + { + if (dsb) + { + WDSP::RXA::SetMode(*m_rxa, WDSP::RXA::RXA_DSB); + } + else + { + if (usb) { + WDSP::RXA::SetMode(*m_rxa, WDSP::RXA::RXA_USB); + } else { + WDSP::RXA::SetMode(*m_rxa, WDSP::RXA::RXA_LSB); + } + } + } + else if (settings.m_demod == WDSPRxProfile::DemodAM) + { + WDSP::RXA::SetMode(*m_rxa, WDSP::RXA::RXA_AM); + } + else if (settings.m_demod == WDSPRxProfile::DemodSAM) + { + WDSP::RXA::SetMode(*m_rxa, WDSP::RXA::RXA_SAM); + } + else if (settings.m_demod == WDSPRxProfile::DemodFMN) + { + WDSP::RXA::SetMode(*m_rxa, WDSP::RXA::RXA_FM); + } + } + + if ((m_settings.m_profiles[settings.m_profileIndex].m_spanLog2 != settings.m_profiles[settings.m_profileIndex].m_spanLog2) || force) { + m_spectrumProbe.setSpanLog2(settings.m_profiles[settings.m_profileIndex].m_spanLog2); + } + + // Noise Reduction + + if ((m_settings.m_dnr != settings.m_dnr) + || (m_settings.m_nrScheme != settings.m_nrScheme) || force) + { + WDSP::ANR::SetANRRun(*m_rxa, 0); + WDSP::EMNR::SetEMNRRun(*m_rxa, 0); + + if (settings.m_dnr) + { + switch (settings.m_nrScheme) + { + case WDSPRxProfile::NRSchemeNR: + WDSP::ANR::SetANRRun(*m_rxa, 1); + break; + case WDSPRxProfile::NRSchemeNR2: + WDSP::EMNR::SetEMNRRun(*m_rxa, 1); + break; + default: + break; + } + } + } + + if ((m_settings.m_nrPosition != settings.m_nrPosition) || force) + { + switch (settings.m_nrPosition) + { + case WDSPRxProfile::NRPositionPreAGC: + WDSP::ANR::SetANRPosition(*m_rxa, 0); + WDSP::EMNR::SetEMNRPosition(*m_rxa, 0); + break; + case WDSPRxProfile::NRPositionPostAGC: + WDSP::ANR::SetANRPosition(*m_rxa, 1); + WDSP::EMNR::SetEMNRPosition(*m_rxa, 1); + break; + default: + break; + } + } + + if ((m_settings.m_nr2Gain != settings.m_nr2Gain) || force) + { + switch (settings.m_nr2Gain) + { + case WDSPRxProfile::NR2GainLinear: + WDSP::EMNR::SetEMNRgainMethod(*m_rxa, 0); + break; + case WDSPRxProfile::NR2GainLog: + WDSP::EMNR::SetEMNRgainMethod(*m_rxa, 1); + break; + case WDSPRxProfile::NR2GainGamma: + WDSP::EMNR::SetEMNRgainMethod(*m_rxa, 2); + break; + default: + break; + } + } + + if ((m_settings.m_nr2NPE != settings.m_nr2NPE) || force) + { + switch (settings.m_nr2NPE) + { + case WDSPRxProfile::NR2NPEOSMS: + WDSP::EMNR::SetEMNRnpeMethod(*m_rxa, 0); + break; + case WDSPRxProfile::NR2NPEMMSE: + WDSP::EMNR::SetEMNRnpeMethod(*m_rxa, 1); + break; + default: + break; + } + } + + if ((m_settings.m_nr2ArtifactReduction != settings.m_nr2ArtifactReduction) || force) { + WDSP::EMNR::SetEMNRaeRun(*m_rxa, settings.m_nr2ArtifactReduction ? 1 : 0); + } + + if ((m_settings.m_anf != settings.m_anf) || force) { + WDSP::ANF::SetANFRun(*m_rxa, settings.m_anf ? 1 : 0); + } + + // CW Peaking + + if ((m_settings.m_cwPeaking != settings.m_cwPeaking) || force) { + WDSP::SPEAK::SetSPCWRun(*m_rxa, settings.m_cwPeaking ? 1 : 0); + } + + if ((m_settings.m_cwPeakFrequency != settings.m_cwPeakFrequency) || force) { + WDSP::SPEAK::SetSPCWFreq(*m_rxa, settings.m_cwPeakFrequency); + } + + if ((m_settings.m_cwBandwidth != settings.m_cwBandwidth) || force) { + WDSP::SPEAK::SetSPCWBandwidth(*m_rxa, settings.m_cwBandwidth); + } + + if ((m_settings.m_cwGain != settings.m_cwGain) || force) { + WDSP::SPEAK::SetSPCWGain(*m_rxa, settings.m_cwGain); + } + + // Noise Blanker + + if ((m_settings.m_dnb != settings.m_dnb) + || (m_settings.m_nbScheme != settings.m_nbScheme) || force) + { + WDSP::ANB::SetANBRun(*m_rxa, 0); + WDSP::NOB::SetNOBRun(*m_rxa, 0); + + if (settings.m_dnb) + { + switch(settings.m_nbScheme) + { + case WDSPRxProfile::NBSchemeNB: + WDSP::ANB::SetANBRun(*m_rxa, 1); + break; + case WDSPRxProfile::NBSchemeNB2: + WDSP::NOB::SetNOBRun(*m_rxa, 1); + break; + default: + break; + } + } + } + + if ((m_settings.m_nbSlewTime != settings.m_nbSlewTime) || force) + { + WDSP::ANB::SetANBTau(*m_rxa, settings.m_nbSlewTime * 0.001); + WDSP::NOB::SetNOBTau(*m_rxa, settings.m_nbSlewTime * 0.001); + } + + if ((m_settings.m_nbLeadTime != settings.m_nbLeadTime) || force) + { + WDSP::ANB::SetANBAdvtime(*m_rxa, settings.m_nbLeadTime * 0.001); + WDSP::NOB::SetNOBAdvtime(*m_rxa, settings.m_nbLeadTime * 0.001); + } + + if ((m_settings.m_nbLagTime != settings.m_nbLagTime) || force) + { + WDSP::ANB::SetANBHangtime(*m_rxa, settings.m_nbLagTime * 0.001); + WDSP::NOB::SetNOBHangtime(*m_rxa, settings.m_nbLagTime * 0.001); + } + + if ((m_settings.m_nbThreshold != settings.m_nbThreshold) || force) + { + WDSP::ANB::SetANBThreshold(*m_rxa, settings.m_nbThreshold); + WDSP::NOB::SetNOBThreshold(*m_rxa, settings.m_nbThreshold); + } + + if ((m_settings.m_nbAvgTime != settings.m_nbAvgTime) || force) + { + WDSP::ANB::SetANBBacktau(*m_rxa, settings.m_nbAvgTime * 0.001); + WDSP::NOB::SetNOBBacktau(*m_rxa, settings.m_nbAvgTime * 0.001); + } + + // AM option + + if ((m_settings.m_amFadeLevel != settings.m_amFadeLevel) || force) { + WDSP::AMD::SetAMDFadeLevel(*m_rxa, settings.m_amFadeLevel); + } + + // FM options + + if ((m_settings.m_fmDeviation != settings.m_fmDeviation) || force) { + WDSP::FMD::SetFMDeviation(*m_rxa, settings.m_fmDeviation); + } + + if ((m_settings.m_fmAFLow != settings.m_fmAFLow) + || (m_settings.m_fmAFHigh != settings.m_fmAFHigh) || force) + { + WDSP::FMD::SetFMAFFilter(*m_rxa, settings.m_fmAFLow, settings.m_fmAFHigh); + } + + if ((m_settings.m_fmAFLimiter != settings.m_fmAFLimiter) || force) { + WDSP::FMD::SetFMLimRun(*m_rxa, settings.m_fmAFLimiter ? 1 : 0); + } + + if ((m_settings.m_fmAFLimiterGain != settings.m_fmAFLimiterGain) || force) { + WDSP::FMD::SetFMLimGain(*m_rxa, settings.m_fmAFLimiterGain); + } + + if ((m_settings.m_fmCTCSSNotch != settings.m_fmCTCSSNotch) || force) { + WDSP::FMD::SetCTCSSRun(*m_rxa, settings.m_fmCTCSSNotch ? 1 : 0); + } + + if ((m_settings.m_fmCTCSSNotchFrequency != settings.m_fmCTCSSNotchFrequency) || force) { + WDSP::FMD::SetCTCSSFreq(*m_rxa, settings.m_fmCTCSSNotchFrequency); + } + + // Squelch + + if ((m_settings.m_squelch != settings.m_squelch) + || (m_settings.m_squelchThreshold != settings.m_squelchThreshold) + || (m_settings.m_squelchMode != settings.m_squelchMode) || force) + { + WDSP::SSQL::SetSSQLRun(*m_rxa, 0); + WDSP::AMSQ::SetAMSQRun(*m_rxa, 0); + WDSP::FMSQ::SetFMSQRun(*m_rxa, 0); + + if (settings.m_squelch) + { + switch(settings.m_squelchMode) + { + case WDSPRxProfile::SquelchModeVoice: + { + WDSP::SSQL::SetSSQLRun(*m_rxa, 1); + double threshold = 0.0075 * settings.m_squelchThreshold; + WDSP::SSQL::SetSSQLThreshold(*m_rxa, threshold); + } + break; + case WDSPRxProfile::SquelchModeAM: + { + WDSP::AMSQ::SetAMSQRun(*m_rxa, 1); + double threshold = ((settings.m_squelchThreshold / 100.0) * 160.0) - 160.0; + WDSP::AMSQ::SetAMSQThreshold(*m_rxa, threshold); + } + break; + case WDSPRxProfile::SquelchModeFM: + { + WDSP::FMSQ::SetFMSQRun(*m_rxa, 1); + double threshold = pow(10.0, -2.0 * ((double) settings.m_squelchThreshold) / 100.0); + qDebug("WDSPRxSink::applySettings: FM squelch %lf", threshold); + WDSP::FMSQ::SetFMSQThreshold(*m_rxa, threshold); + } + break; + default: + break; + } + } + } + + if ((m_settings.m_ssqlTauMute != settings.m_ssqlTauMute) || force) { + WDSP::SSQL::SetSSQLTauMute(*m_rxa, settings.m_ssqlTauMute); + } + + if ((m_settings.m_ssqlTauUnmute != settings.m_ssqlTauUnmute) || force) { + WDSP::SSQL::SetSSQLTauUnMute(*m_rxa, settings.m_ssqlTauUnmute); + } + + if ((m_settings.m_amsqMaxTail != settings.m_amsqMaxTail) || force) { + WDSP::AMSQ::SetAMSQMaxTail(*m_rxa, settings.m_amsqMaxTail); + } + + // Audio panel + + if ((m_settings.m_volume != settings.m_volume) || force) { + WDSP::PANEL::SetPanelGain1(*m_rxa, settings.m_volume); + } + + if ((m_settings.m_audioBinaural != settings.m_audioBinaural) || force) { + WDSP::PANEL::SetPanelBinaural(*m_rxa, settings.m_audioBinaural ? 1 : 0); + } + + if ((m_settings.m_audioFlipChannels != settings.m_audioFlipChannels) || force) { + WDSP::PANEL::SetPanelCopy(*m_rxa, settings.m_audioFlipChannels ? 3 : 0); + } + + // AGC + + if ((m_settings.m_agc != settings.m_agc) + || (m_settings.m_agcMode != settings.m_agcMode) + || (m_settings.m_agcSlope != settings.m_agcSlope) + || (m_settings.m_agcHangThreshold != settings.m_agcHangThreshold) + || (m_settings.m_agcGain != settings.m_agcGain) || force) + { + WDSP::WCPAGC::SetAGCSlope(*m_rxa, settings.m_agcSlope); // SetRXAAGCSlope(id, rx->agc_slope); + WDSP::WCPAGC::SetAGCTop(*m_rxa, (float) settings.m_agcGain); // SetRXAAGCTop(id, rx->agc_gain); + + if (settings.m_agc) + { + switch (settings.m_agcMode) + { + case WDSPRxProfile::WDSPRxAGCMode::AGCLong: + WDSP::WCPAGC::SetAGCMode(*m_rxa, 1); + WDSP::WCPAGC::SetAGCAttack(*m_rxa, 2); // SetRXAAGCAttack(id, 2); + WDSP::WCPAGC::SetAGCHang(*m_rxa, 2000); // SetRXAAGCHang(id, 2000); + WDSP::WCPAGC::SetAGCDecay(*m_rxa, 2000); // SetRXAAGCDecay(id, 2000); + WDSP::WCPAGC::SetAGCHangThreshold(*m_rxa, settings.m_agcHangThreshold); // SetRXAAGCHangThreshold(id, (int)rx->agc_hang_threshold); + break; + case WDSPRxProfile::WDSPRxAGCMode::AGCSlow: + WDSP::WCPAGC::SetAGCMode(*m_rxa, 2); + WDSP::WCPAGC::SetAGCAttack(*m_rxa, 2); // SetRXAAGCAttack(id, 2); + WDSP::WCPAGC::SetAGCHang(*m_rxa, 1000); // SetRXAAGCHang(id, 1000); + WDSP::WCPAGC::SetAGCDecay(*m_rxa, 500); // SetRXAAGCDecay(id, 500); + WDSP::WCPAGC::SetAGCHangThreshold(*m_rxa, settings.m_agcHangThreshold); // SetRXAAGCHangThreshold(id, (int)rx->agc_hang_threshold); + break; + case WDSPRxProfile::WDSPRxAGCMode::AGCMedium: + WDSP::WCPAGC::SetAGCMode(*m_rxa, 3); + WDSP::WCPAGC::SetAGCAttack(*m_rxa, 2); // SetRXAAGCAttack(id, 2); + WDSP::WCPAGC::SetAGCHang(*m_rxa, 0); // SetRXAAGCHang(id, 0); + WDSP::WCPAGC::SetAGCDecay(*m_rxa, 250); // SetRXAAGCDecay(id, 250); + WDSP::WCPAGC::SetAGCHangThreshold(*m_rxa, settings.m_agcHangThreshold); // SetRXAAGCHangThreshold(id, 100); + break; + case WDSPRxProfile::WDSPRxAGCMode::AGCFast: + WDSP::WCPAGC::SetAGCMode(*m_rxa, 4); + WDSP::WCPAGC::SetAGCAttack(*m_rxa, 2); // SetRXAAGCAttack(id, 2); + WDSP::WCPAGC::SetAGCHang(*m_rxa, 0); // SetRXAAGCHang(id, 0); + WDSP::WCPAGC::SetAGCDecay(*m_rxa, 50); // SetRXAAGCDecay(id, 50); + WDSP::WCPAGC::SetAGCHangThreshold(*m_rxa, settings.m_agcHangThreshold); // SetRXAAGCHangThreshold(id, 100); + break; + } + } + else + { + WDSP::WCPAGC::SetAGCMode(*m_rxa, 0); + } + } + + m_settings = settings; +}