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sdrangel/sdrsrv/mainserver.cpp

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///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2017-2022 Edouard Griffiths, F4EXB <f4exb06@gmail.com> //
// Copyright (C) 2019 Davide Gerhard <rainbow@irh.it> //
// Copyright (C) 2020 Jon Beniston, M7RCE <jon@beniston.com> //
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// //
// Swagger server adapter interface //
// //
// 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. //
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// //
// 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 <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
#include <QDebug>
#include <QSysInfo>
#include <QResource>
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#include "dsp/dspengine.h"
#include "dsp/dspdevicesourceengine.h"
#include "dsp/dspdevicesinkengine.h"
#include "dsp/dspdevicemimoengine.h"
#include "dsp/spectrumvis.h"
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#include "device/deviceapi.h"
#include "device/deviceset.h"
#include "device/deviceenumerator.h"
#include "feature/featureset.h"
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#include "plugin/pluginmanager.h"
#include "webapi/webapirequestmapper.h"
#include "webapi/webapiserver.h"
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#include "webapi/webapiadapter.h"
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#include "mainparser.h"
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#include "mainserver.h"
MainServer *MainServer::m_instance = 0;
MainServer::MainServer(qtwebapp::LoggerWithFile *logger, const MainParser& parser, QObject *parent) :
QObject(parent),
m_mainCore(MainCore::instance()),
m_dspEngine(DSPEngine::instance())
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{
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qDebug() << "MainServer::MainServer: start";
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m_instance = this;
m_mainCore->m_logger = logger;
m_mainCore->m_mainMessageQueue = &m_inputMessageQueue;
m_mainCore->m_settings.setAudioDeviceManager(m_dspEngine->getAudioDeviceManager());
m_mainCore->m_masterTabIndex = -1;
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qDebug() << "MainServer::MainServer: create FFT factory...";
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m_dspEngine->createFFTFactory(parser.getFFTWFWisdomFileName());
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qDebug() << "MainServer::MainServer: load plugins...";
m_mainCore->m_pluginManager = new PluginManager(this);
m_mainCore->m_pluginManager->setEnableSoapy(parser.getSoapy());
m_mainCore->m_pluginManager->loadPlugins(QString("pluginssrv"));
addFeatureSet(); // Create the uniuefeature set
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connect(&m_inputMessageQueue, SIGNAL(messageEnqueued()), this, SLOT(handleMessages()), Qt::QueuedConnection);
m_mainCore->m_masterTimer.start(50);
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qDebug() << "MainServer::MainServer: load settings...";
loadSettings();
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qDebug() << "MainServer::MainServer: finishing...";
QString applicationDirPath = QCoreApplication::instance()->applicationDirPath();
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m_apiAdapter = new WebAPIAdapter();
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m_requestMapper = new WebAPIRequestMapper(this);
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m_requestMapper->setAdapter(m_apiAdapter);
m_apiServer = new WebAPIServer(parser.getServerAddress(), parser.getServerPort(), m_requestMapper);
m_apiServer->start();
m_dspEngine->setMIMOSupport(true);
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qDebug() << "MainServer::MainServer: end";
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}
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MainServer::~MainServer()
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{
while (m_mainCore->m_deviceSets.size() > 0) {
removeLastDevice();
}
m_apiServer->stop();
m_mainCore->m_settings.save();
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delete m_apiServer;
delete m_requestMapper;
delete m_apiAdapter;
delete m_mainCore->m_pluginManager;
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qDebug() << "MainServer::~MainServer: end";
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}
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bool MainServer::handleMessage(const Message& cmd)
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{
if (MainCore::MsgDeleteInstance::match(cmd))
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{
while (m_mainCore->m_deviceSets.size() > 0)
{
removeLastDevice();
}
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emit finished();
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return true;
}
else if (MainCore::MsgLoadPreset::match(cmd))
{
MainCore::MsgLoadPreset& notif = (MainCore::MsgLoadPreset&) cmd;
loadPresetSettings(notif.getPreset(), notif.getDeviceSetIndex());
return true;
}
else if (MainCore::MsgSavePreset::match(cmd))
{
MainCore::MsgSavePreset& notif = (MainCore::MsgSavePreset&) cmd;
savePresetSettings(notif.getPreset(), notif.getDeviceSetIndex());
m_mainCore->m_settings.sortPresets();
m_mainCore->m_settings.save();
return true;
}
else if (MainCore::MsgDeletePreset::match(cmd))
{
MainCore::MsgDeletePreset& notif = (MainCore::MsgDeletePreset&) cmd;
const Preset *presetToDelete = notif.getPreset();
// remove preset from settings
m_mainCore->m_settings.deletePreset(presetToDelete);
return true;
}
else if (MainCore::MsgDeleteConfiguration::match(cmd))
{
MainCore::MsgDeleteConfiguration& notif = (MainCore::MsgDeleteConfiguration&) cmd;
const Configuration *configuationToDelete = notif.getConfiguration();
// remove configuration from settings
m_mainCore->m_settings.deleteConfiguration(configuationToDelete);
return true;
}
else if (MainCore::MsgLoadFeatureSetPreset::match(cmd))
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{
MainCore::MsgLoadFeatureSetPreset& notif = (MainCore::MsgLoadFeatureSetPreset&) cmd;
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loadFeatureSetPresetSettings(notif.getPreset(), notif.getFeatureSetIndex());
return true;
}
else if (MainCore::MsgSaveFeatureSetPreset::match(cmd))
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{
MainCore::MsgSaveFeatureSetPreset& notif = (MainCore::MsgSaveFeatureSetPreset&) cmd;
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saveFeatureSetPresetSettings(notif.getPreset(), notif.getFeatureSetIndex());
m_mainCore->m_settings.sortPresets();
m_mainCore->m_settings.save();
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return true;
}
else if (MainCore::MsgDeleteFeatureSetPreset::match(cmd))
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{
MainCore::MsgDeleteFeatureSetPreset& notif = (MainCore::MsgDeleteFeatureSetPreset&) cmd;
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const FeatureSetPreset *presetToDelete = notif.getPreset();
// remove preset from settings
m_mainCore->m_settings.deleteFeatureSetPreset(presetToDelete);
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return true;
}
else if (MainCore::MsgAddDeviceSet::match(cmd))
{
MainCore::MsgAddDeviceSet& notif = (MainCore::MsgAddDeviceSet&) cmd;
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int direction = notif.getDirection();
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if (direction == 1) { // Single stream Tx
addSinkDevice();
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} else if (direction == 0) { // Single stream Rx
addSourceDevice();
} else if (direction == 2) { // MIMO
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addMIMODevice();
}
return true;
}
else if (MainCore::MsgRemoveLastDeviceSet::match(cmd))
{
if (m_mainCore->m_deviceSets.size() > 0) {
removeLastDevice();
}
return true;
}
else if (MainCore::MsgSetDevice::match(cmd))
{
MainCore::MsgSetDevice& notif = (MainCore::MsgSetDevice&) cmd;
if (notif.getDeviceType() == 1) {
changeSampleSink(notif.getDeviceSetIndex(), notif.getDeviceIndex());
} else if (notif.getDeviceType() == 0) {
changeSampleSource(notif.getDeviceSetIndex(), notif.getDeviceIndex());
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} else if (notif.getDeviceType() == 2) {
changeSampleMIMO(notif.getDeviceSetIndex(), notif.getDeviceIndex());
}
return true;
}
else if (MainCore::MsgAddChannel::match(cmd))
{
MainCore::MsgAddChannel& notif = (MainCore::MsgAddChannel&) cmd;
addChannel(notif.getDeviceSetIndex(), notif.getChannelRegistrationIndex());
return true;
}
else if (MainCore::MsgDeleteChannel::match(cmd))
{
MainCore::MsgDeleteChannel& notif = (MainCore::MsgDeleteChannel&) cmd;
deleteChannel(notif.getDeviceSetIndex(), notif.getChannelIndex());
return true;
}
else if (MainCore::MsgAddFeature::match(cmd))
{
MainCore::MsgAddFeature& notif = (MainCore::MsgAddFeature&) cmd;
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addFeature(0, notif.getFeatureRegistrationIndex());
return true;
}
else if (MainCore::MsgDeleteFeature::match(cmd))
{
MainCore::MsgDeleteFeature& notif = (MainCore::MsgDeleteFeature&) cmd;
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deleteFeature(0, notif.getFeatureIndex());
return true;
}
else if (MainCore::MsgApplySettings::match(cmd))
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{
applySettings();
return true;
}
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else
{
return false;
}
}
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void MainServer::handleMessages()
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{
Message* message;
while ((message = m_inputMessageQueue.pop()) != 0)
{
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qDebug("MainServer::handleMessages: message: %s", message->getIdentifier());
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handleMessage(*message);
delete message;
}
}
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void MainServer::loadSettings()
{
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qDebug() << "MainServer::loadSettings";
m_mainCore->m_settings.load();
m_mainCore->m_settings.sortPresets();
m_mainCore->setLoggingOptions();
}
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void MainServer::applySettings()
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{
m_mainCore->m_settings.sortPresets();
m_mainCore->setLoggingOptions();
}
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void MainServer::addSinkDevice()
{
DSPDeviceSinkEngine *dspDeviceSinkEngine = m_dspEngine->addDeviceSinkEngine();
dspDeviceSinkEngine->start();
uint dspDeviceSinkEngineUID = dspDeviceSinkEngine->getUID();
char uidCStr[16];
sprintf(uidCStr, "UID:%d", dspDeviceSinkEngineUID);
int deviceTabIndex = m_mainCore->m_deviceSets.size();
m_mainCore->m_deviceSets.push_back(new DeviceSet(deviceTabIndex, 1));
m_mainCore->m_deviceSets.back()->m_deviceSourceEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceSinkEngine = dspDeviceSinkEngine;
m_mainCore->m_deviceSets.back()->m_deviceMIMOEngine = nullptr;
dspDeviceSinkEngine->addSpectrumSink(m_mainCore->m_deviceSets.back()->m_spectrumVis);
char tabNameCStr[16];
sprintf(tabNameCStr, "T%d", deviceTabIndex);
DeviceAPI *deviceAPI = new DeviceAPI(DeviceAPI::StreamSingleTx, deviceTabIndex, nullptr, dspDeviceSinkEngine, nullptr);
m_mainCore->m_deviceSets.back()->m_deviceAPI = deviceAPI;
QList<QString> channelNames;
// create a file sink by default
int fileSinkDeviceIndex = DeviceEnumerator::instance()->getFileOutputDeviceIndex();
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const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getTxSamplingDevice(fileSinkDeviceIndex);
deviceAPI->setSamplingDeviceSequence(samplingDevice->sequence);
deviceAPI->setDeviceNbItems(samplingDevice->deviceNbItems);
deviceAPI->setDeviceItemIndex(samplingDevice->deviceItemIndex);
deviceAPI->setHardwareId(samplingDevice->hardwareId);
deviceAPI->setSamplingDeviceId(samplingDevice->id);
deviceAPI->setSamplingDeviceSerial(samplingDevice->serial);
deviceAPI->setSamplingDeviceDisplayName(samplingDevice->displayedName);
deviceAPI->setSamplingDevicePluginInterface(DeviceEnumerator::instance()->getTxPluginInterface(fileSinkDeviceIndex));
QString userArgs = m_mainCore->m_settings.getDeviceUserArgs().findUserArgs(samplingDevice->hardwareId, samplingDevice->sequence);
if (userArgs.size() > 0) {
deviceAPI->setHardwareUserArguments(userArgs);
}
DeviceSampleSink *sink = deviceAPI->getPluginInterface()->createSampleSinkPluginInstance(
deviceAPI->getSamplingDeviceId(), deviceAPI);
deviceAPI->setSampleSink(sink);
emit m_mainCore->deviceSetAdded(deviceTabIndex, deviceAPI);
}
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void MainServer::addSourceDevice()
{
DSPDeviceSourceEngine *dspDeviceSourceEngine = m_dspEngine->addDeviceSourceEngine();
dspDeviceSourceEngine->start();
uint dspDeviceSourceEngineUID = dspDeviceSourceEngine->getUID();
char uidCStr[16];
sprintf(uidCStr, "UID:%d", dspDeviceSourceEngineUID);
int deviceTabIndex = m_mainCore->m_deviceSets.size();
m_mainCore->m_deviceSets.push_back(new DeviceSet(deviceTabIndex, 0));
m_mainCore->m_deviceSets.back()->m_deviceSourceEngine = dspDeviceSourceEngine;
m_mainCore->m_deviceSets.back()->m_deviceSinkEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceMIMOEngine = nullptr;
dspDeviceSourceEngine->addSink(m_mainCore->m_deviceSets.back()->m_spectrumVis);
char tabNameCStr[16];
sprintf(tabNameCStr, "R%d", deviceTabIndex);
DeviceAPI *deviceAPI = new DeviceAPI(DeviceAPI::StreamSingleRx, deviceTabIndex, dspDeviceSourceEngine, nullptr, nullptr);
m_mainCore->m_deviceSets.back()->m_deviceAPI = deviceAPI;
// Create a file source instance by default
int fileSourceDeviceIndex = DeviceEnumerator::instance()->getFileInputDeviceIndex();
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const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getRxSamplingDevice(fileSourceDeviceIndex);
deviceAPI->setSamplingDeviceSequence(samplingDevice->sequence);
deviceAPI->setDeviceNbItems(samplingDevice->deviceNbItems);
deviceAPI->setDeviceItemIndex(samplingDevice->deviceItemIndex);
deviceAPI->setHardwareId(samplingDevice->hardwareId);
deviceAPI->setSamplingDeviceId(samplingDevice->id);
deviceAPI->setSamplingDeviceSerial(samplingDevice->serial);
deviceAPI->setSamplingDeviceDisplayName(samplingDevice->displayedName);
deviceAPI->setSamplingDevicePluginInterface(DeviceEnumerator::instance()->getRxPluginInterface(fileSourceDeviceIndex));
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QString userArgs = m_mainCore->m_settings.getDeviceUserArgs().findUserArgs(samplingDevice->hardwareId, samplingDevice->sequence);
if (userArgs.size() > 0) {
deviceAPI->setHardwareUserArguments(userArgs);
}
DeviceSampleSource *source = deviceAPI->getPluginInterface()->createSampleSourcePluginInstance(
deviceAPI->getSamplingDeviceId(), deviceAPI);
deviceAPI->setSampleSource(source);
emit m_mainCore->deviceSetAdded(deviceTabIndex, deviceAPI);
}
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void MainServer::addMIMODevice()
{
DSPDeviceMIMOEngine *dspDeviceMIMOEngine = m_dspEngine->addDeviceMIMOEngine();
dspDeviceMIMOEngine->start();
uint dspDeviceMIMOEngineUID = dspDeviceMIMOEngine->getUID();
char uidCStr[16];
sprintf(uidCStr, "UID:%d", dspDeviceMIMOEngineUID);
int deviceTabIndex = m_mainCore->m_deviceSets.size();
m_mainCore->m_deviceSets.push_back(new DeviceSet(deviceTabIndex, 2));
m_mainCore->m_deviceSets.back()->m_deviceSourceEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceSinkEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceMIMOEngine = dspDeviceMIMOEngine;
dspDeviceMIMOEngine->addSpectrumSink(m_mainCore->m_deviceSets.back()->m_spectrumVis);
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char tabNameCStr[16];
sprintf(tabNameCStr, "M%d", deviceTabIndex);
DeviceAPI *deviceAPI = new DeviceAPI(DeviceAPI::StreamMIMO, deviceTabIndex, nullptr, nullptr, dspDeviceMIMOEngine);
// create a test MIMO by default
int testMIMODeviceIndex = DeviceEnumerator::instance()->getTestMIMODeviceIndex();
const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getMIMOSamplingDevice(testMIMODeviceIndex);
deviceAPI->setSamplingDeviceSequence(samplingDevice->sequence);
deviceAPI->setDeviceNbItems(samplingDevice->deviceNbItems);
deviceAPI->setDeviceItemIndex(samplingDevice->deviceItemIndex);
deviceAPI->setHardwareId(samplingDevice->hardwareId);
deviceAPI->setSamplingDeviceId(samplingDevice->id);
deviceAPI->setSamplingDeviceSerial(samplingDevice->serial);
deviceAPI->setSamplingDeviceDisplayName(samplingDevice->displayedName);
deviceAPI->setSamplingDevicePluginInterface(DeviceEnumerator::instance()->getMIMOPluginInterface(testMIMODeviceIndex));
QString userArgs = m_mainCore->m_settings.getDeviceUserArgs().findUserArgs(samplingDevice->hardwareId, samplingDevice->sequence);
if (userArgs.size() > 0) {
deviceAPI->setHardwareUserArguments(userArgs);
}
DeviceSampleMIMO *mimo = deviceAPI->getPluginInterface()->createSampleMIMOPluginInstance(
deviceAPI->getSamplingDeviceId(), deviceAPI);
m_mainCore->m_deviceSets.back()->m_deviceAPI->setSampleMIMO(mimo);
emit m_mainCore->deviceSetAdded(deviceTabIndex, deviceAPI);
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}
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void MainServer::removeLastDevice()
{
int removedTabIndex = m_mainCore->m_deviceSets.size() - 1;
if (m_mainCore->m_deviceSets.back()->m_deviceSourceEngine) // source set
{
DSPDeviceSourceEngine *lastDeviceEngine = m_mainCore->m_deviceSets.back()->m_deviceSourceEngine;
lastDeviceEngine->stopAcquistion();
// deletes old UI and input object
m_mainCore->m_deviceSets.back()->freeChannels(); // destroys the channel instances
m_mainCore->m_deviceSets.back()->m_deviceAPI->resetSamplingDeviceId();
m_mainCore->m_deviceSets.back()->m_deviceAPI->getPluginInterface()->deleteSampleSourcePluginInstanceInput(
m_mainCore->m_deviceSets.back()->m_deviceAPI->getSampleSource());
m_mainCore->m_deviceSets.back()->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
DeviceAPI *sourceAPI = m_mainCore->m_deviceSets.back()->m_deviceAPI;
delete m_mainCore->m_deviceSets.back();
lastDeviceEngine->stop();
m_dspEngine->removeLastDeviceSourceEngine();
delete sourceAPI;
}
else if (m_mainCore->m_deviceSets.back()->m_deviceSinkEngine) // sink set
{
DSPDeviceSinkEngine *lastDeviceEngine = m_mainCore->m_deviceSets.back()->m_deviceSinkEngine;
lastDeviceEngine->stopGeneration();
// deletes old UI and output object
m_mainCore->m_deviceSets.back()->freeChannels();
m_mainCore->m_deviceSets.back()->m_deviceAPI->resetSamplingDeviceId();
m_mainCore->m_deviceSets.back()->m_deviceAPI->getPluginInterface()->deleteSampleSinkPluginInstanceOutput(
m_mainCore->m_deviceSets.back()->m_deviceAPI->getSampleSink());
m_mainCore->m_deviceSets.back()->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
DeviceAPI *sinkAPI = m_mainCore->m_deviceSets.back()->m_deviceAPI;
delete m_mainCore->m_deviceSets.back();
lastDeviceEngine->stop();
m_dspEngine->removeLastDeviceSinkEngine();
delete sinkAPI;
}
m_mainCore->m_deviceSets.pop_back();
emit m_mainCore->deviceSetRemoved(removedTabIndex);
}
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void MainServer::changeSampleSource(int deviceSetIndex, int selectedDeviceIndex)
{
if (deviceSetIndex >= 0)
{
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qDebug("MainServer::changeSampleSource: deviceSet at %d", deviceSetIndex);
DeviceSet *deviceSet = m_mainCore->m_deviceSets[deviceSetIndex];
deviceSet->m_deviceAPI->saveSamplingDeviceSettings(m_mainCore->m_settings.getWorkingPreset()); // save old API settings
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deviceSet->m_deviceAPI->stopDeviceEngine();
// deletes old UI and input object
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deviceSet->m_deviceAPI->resetSamplingDeviceId();
deviceSet->m_deviceAPI->getPluginInterface()->deleteSampleSourcePluginInstanceInput(
deviceSet->m_deviceAPI->getSampleSource());
deviceSet->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
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const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getRxSamplingDevice(selectedDeviceIndex);
deviceSet->m_deviceAPI->setSamplingDeviceSequence(samplingDevice->sequence);
deviceSet->m_deviceAPI->setDeviceNbItems(samplingDevice->deviceNbItems);
deviceSet->m_deviceAPI->setDeviceItemIndex(samplingDevice->deviceItemIndex);
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deviceSet->m_deviceAPI->setHardwareId(samplingDevice->hardwareId);
deviceSet->m_deviceAPI->setSamplingDeviceId(samplingDevice->id);
deviceSet->m_deviceAPI->setSamplingDeviceSerial(samplingDevice->serial);
deviceSet->m_deviceAPI->setSamplingDeviceDisplayName(samplingDevice->displayedName);
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deviceSet->m_deviceAPI->setSamplingDevicePluginInterface(DeviceEnumerator::instance()->getRxPluginInterface(selectedDeviceIndex));
if (deviceSet->m_deviceAPI->getSamplingDeviceId().size() == 0) // non existent device => replace by default
{
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qDebug("MainServer::changeSampleSource: non existent device replaced by File Input");
int deviceIndex = DeviceEnumerator::instance()->getFileInputDeviceIndex();
samplingDevice = DeviceEnumerator::instance()->getRxSamplingDevice(deviceIndex);
deviceSet->m_deviceAPI->setSamplingDeviceSequence(samplingDevice->sequence);
deviceSet->m_deviceAPI->setDeviceNbItems(samplingDevice->deviceNbItems);
deviceSet->m_deviceAPI->setDeviceItemIndex(samplingDevice->deviceItemIndex);
deviceSet->m_deviceAPI->setHardwareId(samplingDevice->hardwareId);
deviceSet->m_deviceAPI->setSamplingDeviceId(samplingDevice->id);
deviceSet->m_deviceAPI->setSamplingDeviceSerial(samplingDevice->serial);
deviceSet->m_deviceAPI->setSamplingDeviceDisplayName(samplingDevice->displayedName);
deviceSet->m_deviceAPI->setSamplingDevicePluginInterface(DeviceEnumerator::instance()->getRxPluginInterface(deviceIndex));
}
// add to buddies list
std::vector<DeviceSet*>::iterator it = m_mainCore->m_deviceSets.begin();
int nbOfBuddies = 0;
for (; it != m_mainCore->m_deviceSets.end(); ++it)
{
if (*it != deviceSet) // do not add to itself
{
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if ((deviceSet->m_deviceAPI->getHardwareId() == (*it)->m_deviceAPI->getHardwareId()) &&
(deviceSet->m_deviceAPI->getSamplingDeviceSerial() == (*it)->m_deviceAPI->getSamplingDeviceSerial()))
{
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(*it)->m_deviceAPI->addBuddy(deviceSet->m_deviceAPI);
nbOfBuddies++;
}
}
}
if (nbOfBuddies == 0) {
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deviceSet->m_deviceAPI->setBuddyLeader(true);
}
// constructs new GUI and input object
DeviceSampleSource *source = deviceSet->m_deviceAPI->getPluginInterface()->createSampleSourcePluginInstance(
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deviceSet->m_deviceAPI->getSamplingDeviceId(), deviceSet->m_deviceAPI);
deviceSet->m_deviceAPI->setSampleSource(source);
deviceSet->m_deviceAPI->loadSamplingDeviceSettings(m_mainCore->m_settings.getWorkingPreset()); // load new API settings
// Notify
emit m_mainCore->deviceChanged(deviceSetIndex);
}
}
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void MainServer::changeSampleSink(int deviceSetIndex, int selectedDeviceIndex)
{
if (deviceSetIndex >= 0)
{
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qDebug("MainServer::changeSampleSink: device set at %d", deviceSetIndex);
DeviceSet *deviceSet = m_mainCore->m_deviceSets[deviceSetIndex];
deviceSet->m_deviceAPI->saveSamplingDeviceSettings(m_mainCore->m_settings.getWorkingPreset()); // save old API settings
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deviceSet->m_deviceAPI->stopDeviceEngine();
// deletes old UI and output object
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deviceSet->m_deviceAPI->resetSamplingDeviceId();
deviceSet->m_deviceAPI->getPluginInterface()->deleteSampleSinkPluginInstanceOutput(
deviceSet->m_deviceAPI->getSampleSink());
deviceSet->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
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const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getTxSamplingDevice(selectedDeviceIndex);
deviceSet->m_deviceAPI->setSamplingDeviceSequence(samplingDevice->sequence);
deviceSet->m_deviceAPI->setDeviceNbItems(samplingDevice->deviceNbItems);
deviceSet->m_deviceAPI->setDeviceItemIndex(samplingDevice->deviceItemIndex);
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deviceSet->m_deviceAPI->setHardwareId(samplingDevice->hardwareId);
deviceSet->m_deviceAPI->setSamplingDeviceId(samplingDevice->id);
deviceSet->m_deviceAPI->setSamplingDeviceSerial(samplingDevice->serial);
deviceSet->m_deviceAPI->setSamplingDeviceDisplayName(samplingDevice->displayedName);
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deviceSet->m_deviceAPI->setSamplingDevicePluginInterface(DeviceEnumerator::instance()->getTxPluginInterface(selectedDeviceIndex));
if (deviceSet->m_deviceAPI->getSamplingDeviceId().size() == 0) // non existent device => replace by default
{
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qDebug("MainServer::changeSampleSink: non existent device replaced by File Sink");
int fileSinkDeviceIndex = DeviceEnumerator::instance()->getFileOutputDeviceIndex();
const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getTxSamplingDevice(fileSinkDeviceIndex);
deviceSet->m_deviceAPI->setSamplingDeviceSequence(samplingDevice->sequence);
deviceSet->m_deviceAPI->setDeviceNbItems(samplingDevice->deviceNbItems);
deviceSet->m_deviceAPI->setDeviceItemIndex(samplingDevice->deviceItemIndex);
deviceSet->m_deviceAPI->setHardwareId(samplingDevice->hardwareId);
deviceSet->m_deviceAPI->setSamplingDeviceId(samplingDevice->id);
deviceSet->m_deviceAPI->setSamplingDeviceSerial(samplingDevice->serial);
deviceSet->m_deviceAPI->setSamplingDeviceDisplayName(samplingDevice->displayedName);
deviceSet->m_deviceAPI->setSamplingDevicePluginInterface(DeviceEnumerator::instance()->getTxPluginInterface(fileSinkDeviceIndex));
}
// add to buddies list
std::vector<DeviceSet*>::iterator it = m_mainCore->m_deviceSets.begin();
int nbOfBuddies = 0;
for (; it != m_mainCore->m_deviceSets.end(); ++it)
{
if (*it != deviceSet) // do not add to itself
{
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if ((deviceSet->m_deviceAPI->getHardwareId() == (*it)->m_deviceAPI->getHardwareId()) &&
(deviceSet->m_deviceAPI->getSamplingDeviceSerial() == (*it)->m_deviceAPI->getSamplingDeviceSerial()))
{
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(*it)->m_deviceAPI->addBuddy(deviceSet->m_deviceAPI);
nbOfBuddies++;
}
}
}
if (nbOfBuddies == 0) {
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deviceSet->m_deviceAPI->setBuddyLeader(true);
}
// constructs new GUI and output object
DeviceSampleSink *sink = deviceSet->m_deviceAPI->getPluginInterface()->createSampleSinkPluginInstance(
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deviceSet->m_deviceAPI->getSamplingDeviceId(), deviceSet->m_deviceAPI);
deviceSet->m_deviceAPI->setSampleSink(sink);
deviceSet->m_deviceAPI->loadSamplingDeviceSettings(m_mainCore->m_settings.getWorkingPreset()); // load new API settings
}
}
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void MainServer::changeSampleMIMO(int deviceSetIndex, int selectedDeviceIndex)
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{
if (deviceSetIndex >= 0)
{
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qDebug("MainServer::changeSampleMIMO: device set at %d", deviceSetIndex);
DeviceSet *deviceSet = m_mainCore->m_deviceSets[deviceSetIndex];
deviceSet->m_deviceAPI->saveSamplingDeviceSettings(m_mainCore->m_settings.getWorkingPreset()); // save old API settings
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deviceSet->m_deviceAPI->stopDeviceEngine();
// deletes old UI and output object
deviceSet->m_deviceAPI->resetSamplingDeviceId();
deviceSet->m_deviceAPI->getPluginInterface()->deleteSampleMIMOPluginInstanceMIMO(
deviceSet->m_deviceAPI->getSampleMIMO());
const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getMIMOSamplingDevice(selectedDeviceIndex);
deviceSet->m_deviceAPI->setSamplingDeviceSequence(samplingDevice->sequence);
deviceSet->m_deviceAPI->setDeviceNbItems(samplingDevice->deviceNbItems);
deviceSet->m_deviceAPI->setDeviceItemIndex(samplingDevice->deviceItemIndex);
deviceSet->m_deviceAPI->setHardwareId(samplingDevice->hardwareId);
deviceSet->m_deviceAPI->setSamplingDeviceId(samplingDevice->id);
deviceSet->m_deviceAPI->setSamplingDeviceSerial(samplingDevice->serial);
deviceSet->m_deviceAPI->setSamplingDeviceDisplayName(samplingDevice->displayedName);
deviceSet->m_deviceAPI->setSamplingDevicePluginInterface(DeviceEnumerator::instance()->getMIMOPluginInterface(selectedDeviceIndex));
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if (deviceSet->m_deviceAPI->getSamplingDeviceId().size() == 0) // non existent device => replace by default
{
qDebug("MainServer::changeSampleMIMO: non existent device replaced by Test MIMO");
int testMIMODeviceIndex = DeviceEnumerator::instance()->getTestMIMODeviceIndex();
const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getMIMOSamplingDevice(testMIMODeviceIndex);
deviceSet->m_deviceAPI->setSamplingDeviceSequence(samplingDevice->sequence);
deviceSet->m_deviceAPI->setDeviceNbItems(samplingDevice->deviceNbItems);
deviceSet->m_deviceAPI->setDeviceItemIndex(samplingDevice->deviceItemIndex);
deviceSet->m_deviceAPI->setHardwareId(samplingDevice->hardwareId);
deviceSet->m_deviceAPI->setSamplingDeviceId(samplingDevice->id);
deviceSet->m_deviceAPI->setSamplingDeviceSerial(samplingDevice->serial);
deviceSet->m_deviceAPI->setSamplingDeviceDisplayName(samplingDevice->displayedName);
deviceSet->m_deviceAPI->setSamplingDevicePluginInterface(DeviceEnumerator::instance()->getMIMOPluginInterface(testMIMODeviceIndex));
}
QString userArgs = m_mainCore->m_settings.getDeviceUserArgs().findUserArgs(samplingDevice->hardwareId, samplingDevice->sequence);
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if (userArgs.size() > 0) {
deviceSet->m_deviceAPI->setHardwareUserArguments(userArgs);
}
// constructs new GUI and MIMO object
DeviceSampleMIMO *mimo = deviceSet->m_deviceAPI->getPluginInterface()->createSampleMIMOPluginInstance(
deviceSet->m_deviceAPI->getSamplingDeviceId(), deviceSet->m_deviceAPI);
deviceSet->m_deviceAPI->setSampleMIMO(mimo);
deviceSet->m_deviceAPI->loadSamplingDeviceSettings(m_mainCore->m_settings.getWorkingPreset()); // load new API settings
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}
}
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void MainServer::addChannel(int deviceSetIndex, int selectedChannelIndex)
{
if (deviceSetIndex >= 0)
{
DeviceSet *deviceSet = m_mainCore->m_deviceSets[deviceSetIndex];
if (deviceSet->m_deviceSourceEngine) // source device => Rx channels
{
deviceSet->addRxChannel(selectedChannelIndex, m_mainCore->m_pluginManager->getPluginAPI());
}
else if (deviceSet->m_deviceSinkEngine) // sink device => Tx channels
{
deviceSet->addTxChannel(selectedChannelIndex, m_mainCore->m_pluginManager->getPluginAPI());
}
}
}
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void MainServer::deleteChannel(int deviceSetIndex, int channelIndex)
{
if (deviceSetIndex >= 0)
{
DeviceSet *deviceSet = m_mainCore->m_deviceSets[deviceSetIndex];
deviceSet->deleteChannel(channelIndex);
}
}
void MainServer::addFeatureSet()
{
m_mainCore->appendFeatureSet();
emit m_mainCore->featureSetAdded(m_mainCore->getFeatureeSets().size() - 1);
}
void MainServer::removeFeatureSet(unsigned int featureSetIndex)
{
if (featureSetIndex < m_mainCore->m_featureSets.size())
{
m_mainCore->removeFeatureSet(featureSetIndex);
emit m_mainCore->featureSetRemoved(featureSetIndex);
}
}
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void MainServer::addFeature(int featureSetIndex, int selectedFeatureIndex)
{
if (featureSetIndex >= 0)
{
FeatureSet *featureSet = m_mainCore->m_featureSets[featureSetIndex];
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featureSet->addFeature(selectedFeatureIndex, m_mainCore->m_pluginManager->getPluginAPI(), m_apiAdapter);
}
}
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void MainServer::deleteFeature(int featureSetIndex, int featureIndex)
{
if ((featureSetIndex >= 0) && (featureSetIndex < (int) m_mainCore->m_featureSets.size()))
{
FeatureSet *featureSet = m_mainCore->m_featureSets[featureSetIndex];
featureSet->deleteFeature(featureIndex);
}
}
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void MainServer::loadPresetSettings(const Preset* preset, int tabIndex)
{
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qDebug("MainServer::loadPresetSettings: preset [%s | %s]",
qPrintable(preset->getGroup()),
qPrintable(preset->getDescription()));
if (tabIndex >= 0)
{
DeviceSet *deviceSet = m_mainCore->m_deviceSets[tabIndex];
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deviceSet->m_deviceAPI->loadSamplingDeviceSettings(preset);
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if (deviceSet->m_deviceSourceEngine) { // source device
deviceSet->loadRxChannelSettings(preset, m_mainCore->m_pluginManager->getPluginAPI());
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} else if (deviceSet->m_deviceSinkEngine) { // sink device
deviceSet->loadTxChannelSettings(preset, m_mainCore->m_pluginManager->getPluginAPI());
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} else if (deviceSet->m_deviceMIMOEngine) { // MIMO device
deviceSet->loadMIMOChannelSettings(preset, m_mainCore->m_pluginManager->getPluginAPI());
}
}
}
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void MainServer::savePresetSettings(Preset* preset, int tabIndex)
{
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qDebug("MainServer::savePresetSettings: preset [%s | %s]",
qPrintable(preset->getGroup()),
qPrintable(preset->getDescription()));
// Save from currently selected source tab
//int currentSourceTabIndex = ui->tabInputsView->currentIndex();
DeviceSet *deviceSet = m_mainCore->m_deviceSets[tabIndex];
if (deviceSet->m_deviceSourceEngine) // source device
{
preset->clearChannels();
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preset->setSourcePreset();
deviceSet->saveRxChannelSettings(preset);
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deviceSet->m_deviceAPI->saveSamplingDeviceSettings(preset);
}
else if (deviceSet->m_deviceSinkEngine) // sink device
{
preset->clearChannels();
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preset->setSinkPreset();
deviceSet->saveTxChannelSettings(preset);
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deviceSet->m_deviceAPI->saveSamplingDeviceSettings(preset);
}
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else if (deviceSet->m_deviceMIMOEngine) // MIMO device
{
preset->clearChannels();
preset->setMIMOPreset();
deviceSet->saveMIMOChannelSettings(preset);
deviceSet->m_deviceAPI->saveSamplingDeviceSettings(preset);
}
}
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void MainServer::loadFeatureSetPresetSettings(const FeatureSetPreset* preset, int featureSetIndex)
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{
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qDebug("MainServer::loadFeatureSetPresetSettings: preset [%s | %s]",
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qPrintable(preset->getGroup()),
qPrintable(preset->getDescription()));
if (featureSetIndex >= 0)
{
FeatureSet *featureSet = m_mainCore->m_featureSets[featureSetIndex];
featureSet->loadFeatureSetSettings(preset, m_mainCore->m_pluginManager->getPluginAPI(), m_apiAdapter);
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}
}
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void MainServer::saveFeatureSetPresetSettings(FeatureSetPreset* preset, int featureSetIndex)
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{
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qDebug("MainServer::saveFeatureSetPresetSettings: preset [%s | %s]",
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qPrintable(preset->getGroup()),
qPrintable(preset->getDescription()));
// Save from currently selected source tab
//int currentSourceTabIndex = ui->tabInputsView->currentIndex();
FeatureSet *featureSet = m_mainCore->m_featureSets[featureSetIndex];
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preset->clearFeatures();
featureSet->saveFeatureSetSettings(preset);
}