/////////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2012 maintech GmbH, Otto-Hahn-Str. 15, 97204 Hoechberg, Germany // // written by Christian Daniel // // Copyright (C) 2015-2022 Edouard Griffiths, F4EXB // // Copyright (C) 2022-2023 Jon Beniston, M7RCE // // // // 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 "dsp/spectrumvis.h" #include "dsp/dspdevicesourceengine.h" #include "dsp/dspdevicesinkengine.h" #include "gui/glspectrum.h" #include "gui/glspectrumview.h" #include "gui/glspectrumgui.h" // #include "gui/channelwindow.h" #include "gui/mdiutils.h" #include "gui/workspace.h" #include "gui/rollupcontents.h" #include "device/devicegui.h" #include "device/deviceset.h" #include "device/deviceapi.h" #include "plugin/pluginapi.h" #include "plugin/plugininterface.h" #include "channel/channelutils.h" #include "channel/channelapi.h" #include "channel/channelgui.h" #include "mainspectrum/mainspectrumgui.h" #include "settings/preset.h" #include "util/simpleserializer.h" #include "mainwindow.h" #include "deviceuiset.h" DeviceUISet::DeviceUISet(int deviceSetIndex, DeviceSet *deviceSet) { m_spectrum = new GLSpectrum(); m_spectrum->setIsDeviceSpectrum(true); m_spectrumVis = deviceSet->m_spectrumVis; m_spectrumVis->setGLSpectrum(m_spectrum); m_spectrumGUI = new GLSpectrumGUI; m_spectrumGUI->setBuddies(m_spectrumVis, m_spectrum); m_mainSpectrumGUI = new MainSpectrumGUI(m_spectrum, m_spectrumGUI); // m_channelWindow = new ChannelWindow; m_deviceAPI = nullptr; m_deviceGUI = nullptr; m_deviceSourceEngine = nullptr; m_deviceSinkEngine = nullptr; m_deviceMIMOEngine = nullptr; m_deviceSetIndex = deviceSetIndex; m_deviceSet = deviceSet; m_nbAvailableRxChannels = 0; // updated at enumeration for UI selector m_nbAvailableTxChannels = 0; // updated at enumeration for UI selector m_nbAvailableMIMOChannels = 0; // updated at enumeration for UI selector // m_spectrum needs to have its font to be set since it cannot be inherited from the main window QFont font; font.setFamily(QStringLiteral("Liberation Sans")); font.setPointSize(9); m_spectrum->setFont(font); } DeviceUISet::~DeviceUISet() { // delete m_channelWindow; delete m_mainSpectrumGUI; // delete m_spectrumGUI; // done above // delete m_spectrum; } void DeviceUISet::setIndex(int deviceSetIndex) { m_deviceGUI->setIndex(deviceSetIndex); m_mainSpectrumGUI->setIndex(deviceSetIndex); for (auto& channelRegistation : m_channelInstanceRegistrations) { channelRegistation.m_gui->setDeviceSetIndex(deviceSetIndex); } m_deviceSetIndex = deviceSetIndex; } void DeviceUISet::setSpectrumScalingFactor(float scalef) { m_spectrumVis->setScalef(scalef); } void DeviceUISet::addChannelMarker(ChannelMarker* channelMarker) { m_spectrum->addChannelMarker(channelMarker); } void DeviceUISet::removeChannelMarker(ChannelMarker* channelMarker) { m_spectrum->removeChannelMarker(channelMarker); } void DeviceUISet::registerRxChannelInstance(ChannelAPI *channelAPI, ChannelGUI* channelGUI) { m_channelInstanceRegistrations.append(ChannelInstanceRegistration(channelAPI, channelGUI, 0)); m_deviceSet->addChannelInstance(channelAPI); QObject::connect( channelGUI, &ChannelGUI::closing, this, [=](){ this->handleChannelGUIClosing(channelGUI); }, Qt::QueuedConnection ); } void DeviceUISet::registerTxChannelInstance(ChannelAPI *channelAPI, ChannelGUI* channelGUI) { m_channelInstanceRegistrations.append(ChannelInstanceRegistration(channelAPI, channelGUI, 1)); m_deviceSet->addChannelInstance(channelAPI); QObject::connect( channelGUI, &ChannelGUI::closing, this, [=](){ this->handleChannelGUIClosing(channelGUI); }, Qt::QueuedConnection ); } void DeviceUISet::registerChannelInstance(ChannelAPI *channelAPI, ChannelGUI* channelGUI) { m_channelInstanceRegistrations.append(ChannelInstanceRegistration( channelAPI, channelGUI, 2)); m_deviceSet->addChannelInstance(channelAPI); QObject::connect( channelGUI, &ChannelGUI::closing, this, [=](){ this->handleChannelGUIClosing(channelGUI); }, Qt::QueuedConnection ); } void DeviceUISet::unregisterChannelInstanceAt(int channelIndex) { if ((channelIndex >= 0) && (channelIndex < m_channelInstanceRegistrations.count())) { m_channelInstanceRegistrations.removeAt(channelIndex); m_deviceSet->removeChannelInstanceAt(channelIndex); // Renumerate for (int i = 0; i < m_channelInstanceRegistrations.count(); i++) { m_channelInstanceRegistrations.at(i).m_gui->setIndex(i); } } } void DeviceUISet::freeChannels() { for(int i = 0; i < m_channelInstanceRegistrations.count(); i++) { qDebug("DeviceUISet::freeChannels: destroying channel [%s]", qPrintable(m_channelInstanceRegistrations[i].m_channelAPI->getURI())); m_channelInstanceRegistrations[i].m_gui->destroy(); m_channelInstanceRegistrations[i].m_channelAPI->destroy(); } m_channelInstanceRegistrations.clear(); m_deviceSet->clearChannels(); } void DeviceUISet::deleteChannel(int channelIndex) { if ((channelIndex >= 0) && (channelIndex < m_channelInstanceRegistrations.count())) { qDebug("DeviceUISet::deleteChannel: delete channel [%s] at %d", qPrintable(m_channelInstanceRegistrations[channelIndex].m_channelAPI->getURI()), channelIndex); m_channelInstanceRegistrations[channelIndex].m_gui->destroy(); m_channelInstanceRegistrations[channelIndex].m_channelAPI->destroy(); m_channelInstanceRegistrations.removeAt(channelIndex); } m_deviceSet->removeChannelInstanceAt(channelIndex); } ChannelAPI *DeviceUISet::getChannelAt(int channelIndex) { return m_deviceSet->getChannelAt(channelIndex); } ChannelGUI *DeviceUISet::getChannelGUIAt(int channelIndex) { return m_channelInstanceRegistrations[channelIndex].m_gui; } // Serialization is only used for Device and Spectrum settings in a Device preset // To include channels, use a Device Set preset via loadDeviceSetSettings/saveDeviceSetSettings QByteArray DeviceUISet::serialize() const { SimpleSerializer s(1); s.writeBlob(1, m_deviceAPI->serialize()); s.writeBlob(2, m_deviceGUI->serialize()); s.writeBlob(3, m_spectrumGUI->serialize()); return s.final(); } bool DeviceUISet::deserialize(const QByteArray& data) { SimpleDeserializer d(data); if (!d.isValid()) { return false; } if (d.getVersion() == 1) { QByteArray data; d.readBlob(1, &data); m_deviceAPI->deserialize(data); d.readBlob(2, &data); m_deviceGUI->deserialize(data); d.readBlob(3, &data); m_spectrumGUI->deserialize(data); return true; } else { return false; } } void DeviceUISet::loadDeviceSetSettings( const Preset* preset, PluginAPI *pluginAPI, QList *workspaces, Workspace *currentWorkspace ) { qDebug("DeviceUISet::loadDeviceSetSettings: preset: [%s, %s]", qPrintable(preset->getGroup()), qPrintable(preset->getDescription())); m_spectrumGUI->deserialize(preset->getSpectrumConfig()); MDIUtils::restoreMDIGeometry(m_mainSpectrumGUI, preset->getSpectrumGeometry()); MDIUtils::restoreMDIGeometry(m_deviceGUI, preset->getDeviceGeometry()); m_deviceAPI->loadSamplingDeviceSettings(preset); if (!preset->getShowSpectrum()) { m_mainSpectrumGUI->hide(); } if (m_deviceSourceEngine) { // source device loadRxChannelSettings(preset, pluginAPI, workspaces, currentWorkspace); } else if (m_deviceSinkEngine) { // sink device loadTxChannelSettings(preset, pluginAPI, workspaces, currentWorkspace); } else if (m_deviceMIMOEngine) { // MIMO device loadMIMOChannelSettings(preset, pluginAPI, workspaces, currentWorkspace); } } void DeviceUISet::saveDeviceSetSettings(Preset* preset) const { qDebug("DeviceUISet::saveDeviceSetSettings: preset: [%s, %s]", qPrintable(preset->getGroup()), qPrintable(preset->getDescription())); preset->setSpectrumConfig(m_spectrumGUI->serialize()); preset->setSpectrumWorkspaceIndex(m_mainSpectrumGUI->getWorkspaceIndex()); preset->setSpectrumGeometry(MDIUtils::saveMDIGeometry(m_mainSpectrumGUI)); preset->setDeviceGeometry(MDIUtils::saveMDIGeometry(m_deviceGUI)); preset->setShowSpectrum(m_spectrumGUI->isVisible()); preset->setSelectedDevice(Preset::SelectedDevice{ m_deviceAPI->getSamplingDeviceId(), m_deviceAPI->getSamplingDeviceSerial(), (int) m_deviceAPI->getSamplingDeviceSequence(), (int) m_deviceAPI->getDeviceItemIndex() }); preset->setDeviceWorkspaceIndex(m_deviceGUI->getWorkspaceIndex()); preset->clearChannels(); if (m_deviceSourceEngine) // source device { preset->setSourcePreset(); saveRxChannelSettings(preset); } else if (m_deviceSinkEngine) // sink device { preset->setSinkPreset(); saveTxChannelSettings(preset); } else if (m_deviceMIMOEngine) // MIMO device { preset->setMIMOPreset(); saveMIMOChannelSettings(preset); } m_deviceAPI->saveSamplingDeviceSettings(preset); } void DeviceUISet::loadRxChannelSettings(const Preset *preset, PluginAPI *pluginAPI, QList *workspaces, Workspace *currentWorkspace) { if (preset->isSourcePreset()) { qDebug("DeviceUISet::loadRxChannelSettings: Loading preset [%s | %s]", qPrintable(preset->getGroup()), qPrintable(preset->getDescription())); // Available channel plugins PluginAPI::ChannelRegistrations *channelRegistrations = pluginAPI->getRxChannelRegistrations(); // clear list for (int i = 0; i < m_channelInstanceRegistrations.count(); i++) { qDebug("DeviceUISet::loadRxChannelSettings: destroying old channel [%s]", qPrintable(m_channelInstanceRegistrations[i].m_channelAPI->getURI())); m_channelInstanceRegistrations[i].m_channelAPI->setMessageQueueToGUI(nullptr); // have channel stop sending messages to its GUI m_channelInstanceRegistrations[i].m_gui->destroy(); m_channelInstanceRegistrations[i].m_channelAPI->destroy(); } m_channelInstanceRegistrations.clear(); m_deviceSet->clearChannels(); qDebug("DeviceUISet::loadRxChannelSettings: %d channel(s) in preset", preset->getChannelCount()); for (int i = 0; i < preset->getChannelCount(); i++) { const Preset::ChannelConfig& channelConfig = preset->getChannelConfig(i); ChannelGUI *rxChannelGUI = nullptr; ChannelAPI *channelAPI = nullptr; // create channel instance for (int i = 0; i < channelRegistrations->count(); i++) { //if((*channelRegistrations)[i].m_channelIdURI == channelConfig.m_channelIdURI) if (ChannelUtils::compareChannelURIs((*channelRegistrations)[i].m_channelIdURI, channelConfig.m_channelIdURI)) { qDebug("DeviceUISet::loadRxChannelSettings: creating new channel [%s] from config [%s]", qPrintable((*channelRegistrations)[i].m_channelIdURI), qPrintable(channelConfig.m_channelIdURI)); BasebandSampleSink *rxChannel; PluginInterface *pluginInterface = (*channelRegistrations)[i].m_plugin; pluginInterface->createRxChannel(m_deviceAPI, &rxChannel, &channelAPI); rxChannelGUI = pluginInterface->createRxChannelGUI(this, rxChannel); rxChannelGUI->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName); registerRxChannelInstance(channelAPI, rxChannelGUI); QObject::connect( rxChannelGUI, &ChannelGUI::closing, this, [=](){ this->handleChannelGUIClosing(rxChannelGUI); }, Qt::QueuedConnection ); break; } } if (rxChannelGUI && channelAPI) { qDebug("DeviceUISet::loadRxChannelSettings: deserializing channel [%s]", qPrintable(channelConfig.m_channelIdURI)); rxChannelGUI->deserialize(channelConfig.m_config); int originalWorkspaceIndex = rxChannelGUI->getWorkspaceIndex(); if (workspaces && (workspaces->size() > 0) && (originalWorkspaceIndex < workspaces->size())) // restore in original workspace { (*workspaces)[originalWorkspaceIndex]->addToMdiArea((QMdiSubWindow*) rxChannelGUI); } else if (currentWorkspace) // restore in current workspace { rxChannelGUI->setWorkspaceIndex(currentWorkspace->getIndex()); currentWorkspace->addToMdiArea((QMdiSubWindow*) rxChannelGUI); } if (rxChannelGUI->getHidden()) { rxChannelGUI->hide(); } MDIUtils::restoreMDIGeometry(rxChannelGUI, rxChannelGUI->getGeometryBytes()); rxChannelGUI->getRollupContents()->arrangeRollups(); rxChannelGUI->setDeviceType(ChannelGUI::DeviceRx); rxChannelGUI->setDeviceSetIndex(m_deviceSetIndex); rxChannelGUI->setIndex(channelAPI->getIndexInDeviceSet()); rxChannelGUI->setIndexToolTip(m_deviceAPI->getSamplingDeviceDisplayName()); QObject::connect( rxChannelGUI, &ChannelGUI::moveToWorkspace, this, [=](int wsIndexDest){ MainWindow::getInstance()->channelMove(rxChannelGUI, wsIndexDest); } ); QObject::connect( rxChannelGUI, &ChannelGUI::duplicateChannelEmitted, this, [=](){ MainWindow::getInstance()->channelDuplicate(rxChannelGUI); } ); QObject::connect( rxChannelGUI, &ChannelGUI::moveToDeviceSet, this, [=](int dsIndexDest){ MainWindow::getInstance()->channelMoveToDeviceSet(rxChannelGUI, dsIndexDest); } ); } } } else { qDebug("DeviceUISet::loadRxChannelSettings: Loading preset [%s | %s] not a source preset", qPrintable(preset->getGroup()), qPrintable(preset->getDescription())); } } void DeviceUISet::saveRxChannelSettings(Preset *preset) const { if (preset->isSourcePreset()) { for (int i = 0; i < m_channelInstanceRegistrations.count(); i++) { ChannelGUI *channelGUI = m_channelInstanceRegistrations[i].m_gui; channelGUI->setGeometryBytes(MDIUtils::saveMDIGeometry(channelGUI)); channelGUI->zetHidden(channelGUI->isHidden()); preset->addChannel(m_channelInstanceRegistrations[i].m_channelAPI->getURI(), channelGUI->serialize()); } } else { qDebug("DeviceUISet::saveRxChannelSettings: not a source preset"); } } void DeviceUISet::loadTxChannelSettings(const Preset *preset, PluginAPI *pluginAPI, QList *workspaces, Workspace *currentWorkspace) { if (preset->isSinkPreset()) { qDebug("DeviceUISet::loadTxChannelSettings: Loading preset [%s | %s]", qPrintable(preset->getGroup()), qPrintable(preset->getDescription())); // Available channel plugins PluginAPI::ChannelRegistrations *channelRegistrations = pluginAPI->getTxChannelRegistrations(); // clear list for (int i = 0; i < m_channelInstanceRegistrations.count(); i++) { qDebug("DeviceUISet::loadTxChannelSettings: destroying old channel [%s]", qPrintable(m_channelInstanceRegistrations[i].m_channelAPI->getURI())); m_channelInstanceRegistrations[i].m_channelAPI->setMessageQueueToGUI(nullptr); // have channel stop sending messages to its GUI m_channelInstanceRegistrations[i].m_gui->destroy(); m_channelInstanceRegistrations[i].m_channelAPI->destroy(); } m_channelInstanceRegistrations.clear(); m_deviceSet->clearChannels(); qDebug("DeviceUISet::loadTxChannelSettings: %d channel(s) in preset", preset->getChannelCount()); for (int i = 0; i < preset->getChannelCount(); i++) { const Preset::ChannelConfig& channelConfig = preset->getChannelConfig(i); ChannelGUI *txChannelGUI = nullptr; ChannelAPI *channelAPI = nullptr; // create channel instance for (int i = 0; i < channelRegistrations->count(); i++) { if ((*channelRegistrations)[i].m_channelIdURI == channelConfig.m_channelIdURI) { qDebug("DeviceUISet::loadTxChannelSettings: creating new channel [%s] from config [%s]", qPrintable((*channelRegistrations)[i].m_channelIdURI), qPrintable(channelConfig.m_channelIdURI)); BasebandSampleSource *txChannel; PluginInterface *pluginInterface = (*channelRegistrations)[i].m_plugin; pluginInterface->createTxChannel(m_deviceAPI, &txChannel, &channelAPI); txChannelGUI = pluginInterface->createTxChannelGUI(this, txChannel); txChannelGUI->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName); registerTxChannelInstance(channelAPI, txChannelGUI); QObject::connect( txChannelGUI, &ChannelGUI::closing, this, [=](){ this->handleChannelGUIClosing(txChannelGUI); }, Qt::QueuedConnection ); break; } } if (txChannelGUI && channelAPI) { qDebug("DeviceUISet::loadTxChannelSettings: deserializing channel [%s]", qPrintable(channelConfig.m_channelIdURI)); txChannelGUI->deserialize(channelConfig.m_config); int originalWorkspaceIndex = txChannelGUI->getWorkspaceIndex(); if (workspaces && (workspaces->size() > 0) && (originalWorkspaceIndex < workspaces->size())) // restore in original workspace { (*workspaces)[originalWorkspaceIndex]->addToMdiArea((QMdiSubWindow*) txChannelGUI); } else if (currentWorkspace) // restore in current workspace { txChannelGUI->setWorkspaceIndex(currentWorkspace->getIndex()); currentWorkspace->addToMdiArea((QMdiSubWindow*) txChannelGUI); } if (txChannelGUI->getHidden()) { txChannelGUI->hide(); } MDIUtils::restoreMDIGeometry(txChannelGUI, txChannelGUI->getGeometryBytes()); txChannelGUI->getRollupContents()->arrangeRollups(); txChannelGUI->setDeviceType(ChannelGUI::DeviceTx); txChannelGUI->setDeviceSetIndex(m_deviceSetIndex); txChannelGUI->setIndex(channelAPI->getIndexInDeviceSet()); txChannelGUI->setIndexToolTip(m_deviceAPI->getSamplingDeviceDisplayName()); QObject::connect( txChannelGUI, &ChannelGUI::moveToWorkspace, this, [=](int wsIndexDest){ MainWindow::getInstance()->channelMove(txChannelGUI, wsIndexDest); } ); QObject::connect( txChannelGUI, &ChannelGUI::duplicateChannelEmitted, this, [=](){ MainWindow::getInstance()->channelDuplicate(txChannelGUI); } ); QObject::connect( txChannelGUI, &ChannelGUI::moveToDeviceSet, this, [=](int dsIndexDest){ MainWindow::getInstance()->channelMoveToDeviceSet(txChannelGUI, dsIndexDest); } ); } } } else { qDebug("DeviceUISet::loadTxChannelSettings: Loading preset [%s | %s] not a sink preset", qPrintable(preset->getGroup()), qPrintable(preset->getDescription())); } } void DeviceUISet::saveTxChannelSettings(Preset *preset) const { if (preset->isSinkPreset()) { for (int i = 0; i < m_channelInstanceRegistrations.count(); i++) { ChannelGUI *channelGUI = m_channelInstanceRegistrations[i].m_gui; qDebug("DeviceUISet::saveTxChannelSettings: saving channel [%s]", qPrintable(m_channelInstanceRegistrations[i].m_channelAPI->getURI())); channelGUI->setGeometryBytes(MDIUtils::saveMDIGeometry(channelGUI)); channelGUI->zetHidden(channelGUI->isHidden()); preset->addChannel(m_channelInstanceRegistrations[i].m_channelAPI->getURI(), channelGUI->serialize()); } } else { qDebug("DeviceUISet::saveTxChannelSettings: not a sink preset"); } } void DeviceUISet::loadMIMOChannelSettings(const Preset *preset, PluginAPI *pluginAPI, QList *workspaces, Workspace *currentWorkspace) { if (preset->isMIMOPreset()) { qDebug("DeviceUISet::loadMIMOChannelSettings: Loading preset [%s | %s]", qPrintable(preset->getGroup()), qPrintable(preset->getDescription())); // clear list for (int i = 0; i < m_channelInstanceRegistrations.count(); i++) { qDebug("DeviceUISet::loadMIMOChannelSettings: destroying old channel [%s]", qPrintable(m_channelInstanceRegistrations[i].m_channelAPI->getURI())); m_channelInstanceRegistrations[i].m_gui->destroy(); // stop GUI first (issue #1427) m_channelInstanceRegistrations[i].m_channelAPI->destroy(); // stop channel before (issue #860) } m_channelInstanceRegistrations.clear(); m_deviceSet->clearChannels(); qDebug("DeviceUISet::loadMIMOChannelSettings: %d channel(s) in preset", preset->getChannelCount()); for (int i = 0; i < preset->getChannelCount(); i++) { const Preset::ChannelConfig& channelConfig = preset->getChannelConfig(i); ChannelGUI *channelGUI = nullptr; ChannelAPI *channelAPI = nullptr; // Available MIMO channel plugins PluginAPI::ChannelRegistrations *channelMIMORegistrations = pluginAPI->getMIMOChannelRegistrations(); // create MIMO channel instance for (int i = 0; i < channelMIMORegistrations->count(); i++) { if (ChannelUtils::compareChannelURIs((*channelMIMORegistrations)[i].m_channelIdURI, channelConfig.m_channelIdURI)) { qDebug("DeviceUISet::loadMIMOChannelSettings: creating new MIMO channel [%s] from config [%s]", qPrintable((*channelMIMORegistrations)[i].m_channelIdURI), qPrintable(channelConfig.m_channelIdURI)); MIMOChannel *mimoChannel; PluginInterface *pluginInterface = (*channelMIMORegistrations)[i].m_plugin; pluginInterface->createMIMOChannel(m_deviceAPI, &mimoChannel, &channelAPI); channelGUI = pluginInterface->createMIMOChannelGUI(this, mimoChannel); channelGUI->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName); registerChannelInstance(channelAPI, channelGUI); QObject::connect( channelGUI, &ChannelGUI::closing, this, [=](){ this->handleChannelGUIClosing(channelGUI); }, Qt::QueuedConnection ); break; } } // Available Rx channel plugins PluginAPI::ChannelRegistrations *channelRxRegistrations = pluginAPI->getRxChannelRegistrations(); // create Rx channel instance for (int i = 0; i < channelRxRegistrations->count(); i++) { if (ChannelUtils::compareChannelURIs((*channelRxRegistrations)[i].m_channelIdURI, channelConfig.m_channelIdURI)) { qDebug("DeviceUISet::loadMIMOChannelSettings: creating new Rx channel [%s] from config [%s]", qPrintable((*channelRxRegistrations)[i].m_channelIdURI), qPrintable(channelConfig.m_channelIdURI)); BasebandSampleSink *rxChannel; PluginInterface *pluginInterface = (*channelRxRegistrations)[i].m_plugin; pluginInterface->createRxChannel(m_deviceAPI, &rxChannel, &channelAPI); channelGUI = pluginInterface->createRxChannelGUI(this, rxChannel); channelGUI->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName); registerRxChannelInstance(channelAPI, channelGUI); QObject::connect( channelGUI, &ChannelGUI::closing, this, [=](){ this->handleChannelGUIClosing(channelGUI); }, Qt::QueuedConnection ); break; } } // Available Tx channel plugins PluginAPI::ChannelRegistrations *channelTxRegistrations = pluginAPI->getTxChannelRegistrations(); // create Tx channel instance for (int i = 0; i < channelTxRegistrations->count(); i++) { if (ChannelUtils::compareChannelURIs((*channelTxRegistrations)[i].m_channelIdURI, channelConfig.m_channelIdURI)) { qDebug("DeviceUISet::loadMIMOChannelSettings: creating new Tx channel [%s] from config [%s]", qPrintable((*channelTxRegistrations)[i].m_channelIdURI), qPrintable(channelConfig.m_channelIdURI)); BasebandSampleSource *txChannel; PluginInterface *pluginInterface = (*channelTxRegistrations)[i].m_plugin; pluginInterface->createTxChannel(m_deviceAPI, &txChannel, &channelAPI); channelGUI = pluginInterface->createTxChannelGUI(this, txChannel); channelGUI->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName); registerTxChannelInstance(channelAPI, channelGUI); break; } } if (channelGUI && channelAPI) { qDebug("DeviceUISet::loadMIMOChannelSettings: deserializing channel [%s]", qPrintable(channelConfig.m_channelIdURI)); channelGUI->deserialize(channelConfig.m_config); int originalWorkspaceIndex = channelGUI->getWorkspaceIndex(); if (workspaces && (workspaces->size() > 0) && (originalWorkspaceIndex < workspaces->size())) // restore in original workspace { (*workspaces)[originalWorkspaceIndex]->addToMdiArea((QMdiSubWindow*) channelGUI); } else if (currentWorkspace) // restore in current workspace { channelGUI->setWorkspaceIndex(currentWorkspace->getIndex()); currentWorkspace->addToMdiArea((QMdiSubWindow*) channelGUI); } if (channelGUI->getHidden()) { channelGUI->hide(); } MDIUtils::restoreMDIGeometry(channelGUI, channelGUI->getGeometryBytes()); channelGUI->getRollupContents()->arrangeRollups(); channelGUI->setDeviceType(ChannelGUI::DeviceMIMO); channelGUI->setDeviceSetIndex(m_deviceSetIndex); channelGUI->setIndex(channelAPI->getIndexInDeviceSet()); channelGUI->setIndexToolTip(m_deviceAPI->getSamplingDeviceDisplayName()); QObject::connect( channelGUI, &ChannelGUI::closing, this, [=](){ this->handleChannelGUIClosing(channelGUI); }, Qt::QueuedConnection ); QObject::connect( channelGUI, &ChannelGUI::moveToWorkspace, this, [=](int wsIndexDest){ MainWindow::getInstance()->channelMove(channelGUI, wsIndexDest); } ); QObject::connect( channelGUI, &ChannelGUI::duplicateChannelEmitted, this, [=](){ MainWindow::getInstance()->channelDuplicate(channelGUI); } ); QObject::connect( channelGUI, &ChannelGUI::moveToDeviceSet, this, [=](int dsIndexDest){ MainWindow::getInstance()->channelMoveToDeviceSet(channelGUI, dsIndexDest); } ); } } } else { qDebug("DeviceUISet::loadMIMOChannelSettings: Loading preset [%s | %s] not a MIMO preset", qPrintable(preset->getGroup()), qPrintable(preset->getDescription())); } } void DeviceUISet::saveMIMOChannelSettings(Preset *preset) const { if (preset->isMIMOPreset()) { for (int i = 0; i < m_channelInstanceRegistrations.count(); i++) { ChannelGUI *channelGUI = m_channelInstanceRegistrations[i].m_gui; qDebug("DeviceUISet::saveMIMOChannelSettings: saving channel [%s]", qPrintable(m_channelInstanceRegistrations[i].m_channelAPI->getURI())); channelGUI->setGeometryBytes(MDIUtils::saveMDIGeometry(channelGUI)); channelGUI->zetHidden(channelGUI->isHidden()); preset->addChannel(m_channelInstanceRegistrations[i].m_channelAPI->getURI(), channelGUI->serialize()); } } else { qDebug("DeviceUISet::saveMIMOChannelSettings: not a MIMO preset"); } } // sort by increasing delta frequency and type (i.e. name) bool DeviceUISet::ChannelInstanceRegistration::operator<(const ChannelInstanceRegistration& other) const { if (m_channelAPI && other.m_channelAPI) { if (m_channelAPI->getCenterFrequency() == other.m_channelAPI->getCenterFrequency()) { return m_channelAPI->getName() < other.m_channelAPI->getName(); } else { return m_channelAPI->getCenterFrequency() < other.m_channelAPI->getCenterFrequency(); } } else { return false; } } void DeviceUISet::handleChannelGUIClosing(ChannelGUI* channelGUI) { qDebug("DeviceUISet::handleChannelGUIClosing: %s: %d", qPrintable(channelGUI->getTitle()), channelGUI->getIndex()); for (ChannelInstanceRegistrations::iterator it = m_channelInstanceRegistrations.begin(); it != m_channelInstanceRegistrations.end(); ++it) { if (it->m_gui == channelGUI) { ChannelAPI *channelAPI = it->m_channelAPI; m_deviceSet->removeChannelInstance(channelAPI); QObject::connect( channelGUI, &ChannelGUI::destroyed, this, [this, channelAPI](){ this->handleDeleteChannel(channelAPI); } ); m_channelInstanceRegistrations.erase(it); break; } } // Renumerate for (int i = 0; i < m_channelInstanceRegistrations.count(); i++) { m_channelInstanceRegistrations.at(i).m_gui->setIndex(i); } } void DeviceUISet::handleDeleteChannel(ChannelAPI *channelAPI) { channelAPI->destroy(); } int DeviceUISet::webapiSpectrumSettingsGet(SWGSDRangel::SWGGLSpectrum& response, QString& errorMessage) const { return m_spectrumVis->webapiSpectrumSettingsGet(response, errorMessage); } int DeviceUISet::webapiSpectrumSettingsPutPatch( bool force, const QStringList& spectrumSettingsKeys, SWGSDRangel::SWGGLSpectrum& response, // query + response QString& errorMessage) { return m_spectrumVis->webapiSpectrumSettingsPutPatch(force, spectrumSettingsKeys, response, errorMessage); } int DeviceUISet::webapiSpectrumServerGet(SWGSDRangel::SWGSpectrumServer& response, QString& errorMessage) const { return m_spectrumVis->webapiSpectrumServerGet(response, errorMessage); } int DeviceUISet::webapiSpectrumServerPost(SWGSDRangel::SWGSuccessResponse& response, QString& errorMessage) { return m_spectrumVis->webapiSpectrumServerPost(response, errorMessage); } int DeviceUISet::webapiSpectrumServerDelete(SWGSDRangel::SWGSuccessResponse& response, QString& errorMessage) { return m_spectrumVis->webapiSpectrumServerDelete(response, errorMessage); }