///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2012 maintech GmbH, Otto-Hahn-Str. 15, 97204 Hoechberg, Germany //
// written by Christian Daniel //
// //
// 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
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include "device/devicegui.h"
#include "device/deviceapi.h"
#include "device/deviceuiset.h"
#include "device/deviceset.h"
#include "device/deviceenumerator.h"
#include "channel/channelapi.h"
#include "channel/channelgui.h"
#include "channel/channelwebapiutils.h"
#include "feature/featureuiset.h"
#include "feature/featureset.h"
#include "feature/feature.h"
#include "feature/featuregui.h"
#include "mainspectrum/mainspectrumgui.h"
#include "commands/commandkeyreceiver.h"
#include "gui/indicator.h"
#include "gui/presetitem.h"
#include "gui/addpresetdialog.h"
#include "gui/pluginsdialog.h"
#include "gui/aboutdialog.h"
#include "gui/rollupwidget.h"
#include "gui/audiodialog.h"
#include "gui/graphicsdialog.h"
#include "gui/loggingdialog.h"
#include "gui/deviceuserargsdialog.h"
#include "gui/sdrangelsplash.h"
#include "gui/mypositiondialog.h"
#include "gui/fftwisdomdialog.h"
#include "gui/workspace.h"
#include "gui/featurepresetsdialog.h"
#include "gui/devicesetpresetsdialog.h"
#include "gui/commandsdialog.h"
#include "gui/configurationsdialog.h"
#include "gui/dialogpositioner.h"
#include "gui/welcomedialog.h"
#include "dsp/dspengine.h"
#include "dsp/spectrumvis.h"
#include "dsp/dspcommands.h"
#include "dsp/devicesamplesource.h"
#include "dsp/devicesamplesink.h"
#include "dsp/devicesamplemimo.h"
#include "dsp/dspdevicesourceengine.h"
#include "dsp/dspdevicesinkengine.h"
#include "dsp/dspdevicemimoengine.h"
#include "plugin/pluginapi.h"
#include "gui/glspectrum.h"
#include "gui/glspectrumgui.h"
#include "loggerwithfile.h"
#include "webapi/webapirequestmapper.h"
#include "webapi/webapiserver.h"
#include "webapi/webapiadapter.h"
#include "commands/command.h"
#ifdef ANDROID
#include "util/android.h"
#endif
#include "mainwindow.h"
#include
//#include "ui_mainwindow.h"
#include
#include
#include
#include
#include
MainWindow *MainWindow::m_instance = 0;
MainWindow::MainWindow(qtwebapp::LoggerWithFile *logger, const MainParser& parser, QWidget* parent) :
QMainWindow(parent),
// ui(new Ui::MainWindow),
m_currentWorkspace(nullptr),
m_mainCore(MainCore::instance()),
m_dspEngine(DSPEngine::instance()),
m_lastEngineState(DeviceAPI::StNotStarted),
m_dateTimeWidget(nullptr),
m_showSystemWidget(nullptr),
m_commandKeyReceiver(nullptr),
m_fftWisdomProcess(nullptr)
{
#ifdef ANDROID
bool showWelcome = true;
#else
bool showWelcome = false;
#endif
qDebug() << "MainWindow::MainWindow: start";
setWindowTitle("SDRangel");
m_instance = this;
m_mainCore->m_logger = logger;
m_mainCore->m_masterTabIndex = 0;
m_mainCore->m_mainMessageQueue = &m_inputMessageQueue;
m_mainCore->m_settings.setAudioDeviceManager(m_dspEngine->getAudioDeviceManager());
QFontDatabase::addApplicationFont(":/LiberationSans-Regular.ttf");
QFontDatabase::addApplicationFont(":/LiberationMono-Regular.ttf");
QFont font("Liberation Sans");
font.setPointSize(9);
qApp->setFont(font);
QPixmap logoPixmap(":/sdrangel_logo.png");
SDRangelSplash *splash = new SDRangelSplash(logoPixmap);
splash->setMessageRect(QRect(10, 80, 350, 16));
splash->show();
splash->showStatusMessage("starting...", Qt::white);
splash->showStatusMessage("starting...", Qt::white);
setWindowIcon(QIcon(":/sdrangel_icon.png"));
#ifndef ANDROID
// To save screen space on Android, don't have menu bar. Instead menus are accessed via toolbar button
createMenuBar(nullptr);
createStatusBar();
#endif
#ifdef ANDROID
if (screen()->isLandscape(screen()->primaryOrientation())) {
setTabPosition(Qt::LeftDockWidgetArea, QTabWidget::West);
} else {
setTabPosition(Qt::LeftDockWidgetArea, QTabWidget::South);
}
#else
setTabPosition(Qt::LeftDockWidgetArea, QTabWidget::West);
#endif
setTabPosition(Qt::RightDockWidgetArea, QTabWidget::East);
setCorner(Qt::TopLeftCorner, Qt::LeftDockWidgetArea);
setCorner(Qt::BottomLeftCorner, Qt::LeftDockWidgetArea);
setCorner(Qt::TopRightCorner, Qt::RightDockWidgetArea);
setCorner(Qt::BottomRightCorner, Qt::RightDockWidgetArea);
connect(&m_inputMessageQueue, SIGNAL(messageEnqueued()), this, SLOT(handleMessages()), Qt::QueuedConnection);
connect(screen(), &QScreen::orientationChanged, this, &MainWindow::orientationChanged);
#if (QT_VERSION < QT_VERSION_CHECK(6, 0, 0))
screen()->setOrientationUpdateMask(Qt::PortraitOrientation
| Qt::LandscapeOrientation
| Qt::InvertedPortraitOrientation
| Qt::InvertedLandscapeOrientation);
#endif
connect(&m_statusTimer, SIGNAL(timeout()), this, SLOT(updateStatus()));
m_statusTimer.start(1000);
splash->showStatusMessage("allocate FFTs...", Qt::white);
splash->showStatusMessage("allocate FFTs...", Qt::white);
if (parser.getFFTWFWisdomFileName().length() != 0)
{
m_dspEngine->createFFTFactory(parser.getFFTWFWisdomFileName());
}
else
{
QString filePath = QStandardPaths::writableLocation(QStandardPaths::AppDataLocation);
filePath += QDir::separator();
filePath += "fftw-wisdom";
QFileInfo fileInfo = QFileInfo(filePath);
if (fileInfo.exists()) {
m_dspEngine->createFFTFactory(filePath);
} else {
m_dspEngine->createFFTFactory("");
}
}
m_dspEngine->preAllocateFFTs();
splash->showStatusMessage("load settings...", Qt::white);
qDebug() << "MainWindow::MainWindow: load settings...";
loadSettings();
splash->showStatusMessage("load plugins...", Qt::white);
qDebug() << "MainWindow::MainWindow: load plugins...";
m_pluginManager = new PluginManager(this);
m_mainCore->m_pluginManager = m_pluginManager;
m_pluginManager->setEnableSoapy(parser.getSoapy());
m_pluginManager->loadPlugins(QString("plugins"));
m_pluginManager->loadPluginsNonDiscoverable(m_mainCore->m_settings.getDeviceUserArgs());
splash->showStatusMessage("Add command key receiver...", Qt::white);
m_commandKeyReceiver = new CommandKeyReceiver();
m_commandKeyReceiver->setRelease(true);
this->installEventFilter(m_commandKeyReceiver);
splash->showStatusMessage("Add unique feature set...", Qt::white);
addFeatureSet(); // Create the uniuefeature set
m_apiAdapter = new WebAPIAdapter();
if (parser.getScratch())
{
qDebug() << "MainWindow::MainWindow: scratch mode: do not load current configuration";
}
else
{
splash->showStatusMessage("load current configuration...", Qt::white);
qDebug() << "MainWindow::MainWindow: load current configuration...";
loadConfiguration(m_mainCore->m_settings.getWorkingConfiguration());
if (m_workspaces.size() == 0)
{
qDebug() << "MainWindow::MainWindow: no or empty current configuration, creating empty workspace...";
addWorkspace();
// If no configurations, load some basic examples
if (m_mainCore->m_settings.getConfigurations()->size() == 0) {
loadDefaultConfigurations();
}
}
else
{
// Only show welcome dialog first time program is run
showWelcome = false;
}
}
splash->showStatusMessage("finishing...", Qt::white);
QString applicationDirPath = qApp->applicationDirPath();
#ifdef _MSC_VER
if (QResource::registerResource(applicationDirPath + "/sdrbase.rcc")) {
qDebug("MainWindow::MainWindow: registered resource file %s/%s", qPrintable(applicationDirPath), "sdrbase.rcc");
} else {
qWarning("MainWindow::MainWindow: could not register resource file %s/%s", qPrintable(applicationDirPath), "sdrbase.rcc");
}
#endif
m_requestMapper = new WebAPIRequestMapper(this);
m_requestMapper->setAdapter(m_apiAdapter);
m_apiHost = parser.getServerAddress();
m_apiPort = parser.getServerPort();
m_apiServer = new WebAPIServer(m_apiHost, m_apiPort, m_requestMapper);
m_apiServer->start();
m_dspEngine->setMIMOSupport(true);
delete splash;
// Restore window size and position
QSettings s;
restoreGeometry(qUncompress(QByteArray::fromBase64(s.value("mainWindowGeometry").toByteArray())));
restoreState(qUncompress(QByteArray::fromBase64(s.value("mainWindowState").toByteArray())));
if (showWelcome)
{
// Show welcome dialog
WelcomeDialog welcomeDialog(this);
new DialogPositioner(&welcomeDialog, true);
welcomeDialog.exec();
// Show configurations
openConfigurationDialog(true);
}
qDebug() << "MainWindow::MainWindow: end";
}
MainWindow::~MainWindow()
{
qDebug() << "MainWindow::~MainWindow";
m_statusTimer.stop();
m_mainCore->m_settings.save();
m_apiServer->stop();
delete m_apiServer;
delete m_requestMapper;
delete m_apiAdapter;
delete m_pluginManager;
delete m_dateTimeWidget;
delete m_showSystemWidget;
removeAllFeatureSets();
delete m_commandKeyReceiver;
for (const auto& workspace : m_workspaces) {
delete workspace;
}
qDebug() << "MainWindow::~MainWindow: end";
}
void MainWindow::sampleSourceAdd(Workspace *deviceWorkspace, Workspace *spectrumWorkspace, int deviceIndex)
{
DSPDeviceSourceEngine *dspDeviceSourceEngine = m_dspEngine->addDeviceSourceEngine();
dspDeviceSourceEngine->start();
uint dspDeviceSourceEngineUID = dspDeviceSourceEngine->getUID();
char uidCStr[16];
sprintf(uidCStr, "UID:%d", dspDeviceSourceEngineUID);
int deviceSetIndex = m_deviceUIs.size();
m_mainCore->appendDeviceSet(0);
m_deviceUIs.push_back(new DeviceUISet(deviceSetIndex, m_mainCore->m_deviceSets.back()));
m_deviceUIs.back()->m_deviceSourceEngine = dspDeviceSourceEngine;
m_mainCore->m_deviceSets.back()->m_deviceSourceEngine = dspDeviceSourceEngine;
m_deviceUIs.back()->m_deviceSinkEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceSinkEngine = nullptr;
m_deviceUIs.back()->m_deviceMIMOEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceMIMOEngine = nullptr;
DeviceAPI *deviceAPI = new DeviceAPI(DeviceAPI::StreamSingleRx, deviceSetIndex, dspDeviceSourceEngine, nullptr, nullptr);
m_deviceUIs.back()->m_deviceAPI = deviceAPI;
m_mainCore->m_deviceSets.back()->m_deviceAPI = deviceAPI;
QList channelNames;
m_pluginManager->listRxChannels(channelNames);
m_deviceUIs.back()->setNumberOfAvailableRxChannels(channelNames.size());
dspDeviceSourceEngine->addSink(m_deviceUIs.back()->m_spectrumVis);
// Create a file source instance by default if requested device was not enumerated (index = -1)
if (deviceIndex < 0) {
deviceIndex = DeviceEnumerator::instance()->getFileInputDeviceIndex();
}
sampleSourceCreate(deviceSetIndex, deviceIndex, m_deviceUIs.back());
m_deviceUIs.back()->m_deviceGUI->setWorkspaceIndex(deviceWorkspace->getIndex());
m_deviceUIs.back()->m_mainSpectrumGUI->setWorkspaceIndex(spectrumWorkspace->getIndex());
MainSpectrumGUI *mainSpectrumGUI = m_deviceUIs.back()->m_mainSpectrumGUI;
QObject::connect(
mainSpectrumGUI,
&MainSpectrumGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->mainSpectrumMove(mainSpectrumGUI, wsIndexDest); }
);
QObject::connect(
m_deviceUIs.back()->m_deviceGUI,
&DeviceGUI::addChannelEmitted,
this,
[=](int channelPluginIndex){ this->channelAddClicked(deviceWorkspace, deviceSetIndex, channelPluginIndex); }
);
QObject::connect(
mainSpectrumGUI,
&MainSpectrumGUI::requestCenterFrequency,
this,
&MainWindow::mainSpectrumRequestDeviceCenterFrequency
);
QObject::connect(
deviceAPI,
&DeviceAPI::stateChanged,
this,
&MainWindow::deviceStateChanged
);
deviceWorkspace->addToMdiArea(m_deviceUIs.back()->m_deviceGUI);
spectrumWorkspace->addToMdiArea(m_deviceUIs.back()->m_mainSpectrumGUI);
emit m_mainCore->deviceSetAdded(deviceSetIndex, deviceAPI);
#ifdef ANDROID
// Seemingly needed on some versions of Android, otherwise the new windows aren't always displayed??
deviceWorkspace->repaint();
#endif
}
void MainWindow::sampleSourceCreate(
int deviceSetIndex,
int deviceIndex,
DeviceUISet *deviceUISet
)
{
DeviceAPI *deviceAPI = deviceUISet->m_deviceAPI;
int selectedDeviceIndex = deviceIndex;
DeviceEnumerator::instance()->changeRxSelection(deviceSetIndex, deviceIndex);
const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getRxSamplingDevice(deviceIndex);
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(deviceIndex));
qDebug() << "MainWindow::sampleSourceCreate:"
<< "deviceSetIndex:" << deviceSetIndex
<< "deviceIndex:" << deviceIndex
<< "hardwareId:" << samplingDevice->hardwareId
<< "sequence:" << samplingDevice->sequence
<< "id:" << samplingDevice->id
<< "serial:" << samplingDevice->serial
<< "displayedName:" << samplingDevice->displayedName;
if (deviceAPI->getSamplingDeviceId().size() == 0) // non existent device => replace by default
{
qDebug("MainWindow::sampleSourceCreate: non existent device replaced by File Input");
int fileInputDeviceIndex = DeviceEnumerator::instance()->getFileInputDeviceIndex();
selectedDeviceIndex = fileInputDeviceIndex;
samplingDevice = DeviceEnumerator::instance()->getRxSamplingDevice(fileInputDeviceIndex);
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(fileInputDeviceIndex));
}
QString userArgs = m_mainCore->m_settings.getDeviceUserArgs().findUserArgs(samplingDevice->hardwareId, samplingDevice->sequence);
if (userArgs.size() > 0) {
deviceAPI->setHardwareUserArguments(userArgs);
}
// add to buddies list
std::vector::iterator it = m_deviceUIs.begin();
int nbOfBuddies = 0;
for (; it != m_deviceUIs.end(); ++it)
{
if (*it != deviceUISet) // do not add to itself
{
if ((*it)->m_deviceSourceEngine) // it is a source device
{
if ((deviceUISet->m_deviceAPI->getHardwareId() == (*it)->m_deviceAPI->getHardwareId()) &&
(deviceUISet->m_deviceAPI->getSamplingDeviceSerial() == (*it)->m_deviceAPI->getSamplingDeviceSerial()))
{
(*it)->m_deviceAPI->addSourceBuddy(deviceUISet->m_deviceAPI);
nbOfBuddies++;
}
}
if ((*it)->m_deviceSinkEngine) // it is a sink device
{
if ((deviceUISet->m_deviceAPI->getHardwareId() == (*it)->m_deviceAPI->getHardwareId()) &&
(deviceUISet->m_deviceAPI->getSamplingDeviceSerial() == (*it)->m_deviceAPI->getSamplingDeviceSerial()))
{
(*it)->m_deviceAPI->addSourceBuddy(deviceUISet->m_deviceAPI);
nbOfBuddies++;
}
}
}
}
if (nbOfBuddies == 0) {
deviceUISet->m_deviceAPI->setBuddyLeader(true);
}
// DeviceGUI *oldDeviceGUI = deviceUISet->m_deviceGUI; // store old GUI pointer for later
// constructs new GUI and input object
DeviceSampleSource *source = deviceAPI->getPluginInterface()->createSampleSourcePluginInstance(
deviceAPI->getSamplingDeviceId(), deviceAPI);
deviceAPI->setSampleSource(source);
QWidget *gui;
DeviceGUI *deviceGUI = deviceAPI->getPluginInterface()->createSampleSourcePluginInstanceGUI(
deviceAPI->getSamplingDeviceId(),
&gui,
deviceUISet
);
QObject::connect(
deviceGUI,
&DeviceGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->deviceMove(deviceGUI, wsIndexDest); }
);
QObject::connect(
deviceGUI,
&DeviceGUI::deviceChange,
this,
[=](int newDeviceIndex){ this->samplingDeviceChangeHandler(deviceGUI, newDeviceIndex); }
);
QObject::connect(
deviceGUI,
&DeviceGUI::showSpectrum,
this,
&MainWindow::mainSpectrumShow
);
QObject::connect(
deviceGUI,
&DeviceGUI::showAllChannels,
this,
&MainWindow::showAllChannels
);
QObject::connect(
deviceGUI,
&DeviceGUI::closing,
this,
[=](){ this->removeDeviceSet(deviceGUI->getIndex()); }
);
QObject::connect(
deviceGUI,
&DeviceGUI::deviceSetPresetsDialogRequested,
this,
&MainWindow::openDeviceSetPresetsDialog
);
deviceAPI->getSampleSource()->setMessageQueueToGUI(deviceGUI->getInputMessageQueue());
deviceUISet->m_deviceGUI = deviceGUI;
const PluginInterface::SamplingDevice *selectedDevice = DeviceEnumerator::instance()->getRxSamplingDevice(selectedDeviceIndex);
deviceUISet->m_selectedDeviceId = selectedDevice->id;
deviceUISet->m_selectedDeviceSerial = selectedDevice->serial;
deviceUISet->m_selectedDeviceSequence = selectedDevice->sequence;
deviceUISet->m_selectedDeviceItemImdex = selectedDevice->deviceItemIndex;
deviceUISet->m_deviceAPI->getSampleSource()->init();
// Finalize GUI setup and add it to workspace MDI
deviceGUI->setDeviceType(DeviceGUI::DeviceRx);
deviceGUI->setIndex(deviceSetIndex);
deviceGUI->setToolTip(samplingDevice->displayedName);
deviceGUI->setTitle(samplingDevice->displayedName.split(" ")[0]);
deviceGUI->setCurrentDeviceIndex(selectedDeviceIndex);
QStringList channelNames;
m_pluginManager->listRxChannels(channelNames);
deviceGUI->setChannelNames(channelNames);
MainSpectrumGUI *mainSpectrumGUI = deviceUISet->m_mainSpectrumGUI;
mainSpectrumGUI->setDeviceType(MainSpectrumGUI::DeviceRx);
mainSpectrumGUI->setIndex(deviceSetIndex);
mainSpectrumGUI->setToolTip(samplingDevice->displayedName);
mainSpectrumGUI->setTitle(samplingDevice->displayedName.split(" ")[0]);
}
void MainWindow::sampleSinkAdd(Workspace *deviceWorkspace, Workspace *spectrumWorkspace, int deviceIndex)
{
DSPDeviceSinkEngine *dspDeviceSinkEngine = m_dspEngine->addDeviceSinkEngine();
dspDeviceSinkEngine->start();
uint dspDeviceSinkEngineUID = dspDeviceSinkEngine->getUID();
char uidCStr[16];
sprintf(uidCStr, "UID:%d", dspDeviceSinkEngineUID);
int deviceSetIndex = m_deviceUIs.size();
m_mainCore->appendDeviceSet(1);
m_deviceUIs.push_back(new DeviceUISet(deviceSetIndex, m_mainCore->m_deviceSets.back()));
m_deviceUIs.back()->m_deviceSourceEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceSourceEngine = nullptr;
m_deviceUIs.back()->m_deviceSinkEngine = dspDeviceSinkEngine;
m_mainCore->m_deviceSets.back()->m_deviceSinkEngine = dspDeviceSinkEngine;
m_deviceUIs.back()->m_deviceMIMOEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceMIMOEngine = nullptr;
DeviceAPI *deviceAPI = new DeviceAPI(DeviceAPI::StreamSingleTx, deviceSetIndex, nullptr, dspDeviceSinkEngine, nullptr);
m_deviceUIs.back()->m_deviceAPI = deviceAPI;
m_mainCore->m_deviceSets.back()->m_deviceAPI = deviceAPI;
QList channelNames;
m_pluginManager->listTxChannels(channelNames);
m_deviceUIs.back()->setNumberOfAvailableTxChannels(channelNames.size());
dspDeviceSinkEngine->addSpectrumSink(m_deviceUIs.back()->m_spectrumVis);
m_deviceUIs.back()->m_spectrum->setDisplayedStream(false, 0);
if (deviceIndex < 0) {
deviceIndex = DeviceEnumerator::instance()->getFileOutputDeviceIndex(); // create a file output by default
}
sampleSinkCreate(deviceSetIndex, deviceIndex, m_deviceUIs.back());
m_deviceUIs.back()->m_deviceGUI->setWorkspaceIndex(deviceWorkspace->getIndex());
m_deviceUIs.back()->m_mainSpectrumGUI->setWorkspaceIndex(spectrumWorkspace->getIndex());
MainSpectrumGUI *mainSpectrumGUI = m_deviceUIs.back()->m_mainSpectrumGUI;
QObject::connect(
mainSpectrumGUI,
&MainSpectrumGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->mainSpectrumMove(mainSpectrumGUI, wsIndexDest); }
);
QObject::connect(
m_deviceUIs.back()->m_deviceGUI,
&DeviceGUI::addChannelEmitted,
this,
[=](int channelPluginIndex){ this->channelAddClicked(deviceWorkspace, deviceSetIndex, channelPluginIndex); }
);
QObject::connect(
mainSpectrumGUI,
&MainSpectrumGUI::requestCenterFrequency,
this,
&MainWindow::mainSpectrumRequestDeviceCenterFrequency
);
QObject::connect(
deviceAPI,
&DeviceAPI::stateChanged,
this,
&MainWindow::deviceStateChanged
);
deviceWorkspace->addToMdiArea(m_deviceUIs.back()->m_deviceGUI);
spectrumWorkspace->addToMdiArea(m_deviceUIs.back()->m_mainSpectrumGUI);
emit m_mainCore->deviceSetAdded(deviceSetIndex, deviceAPI);
}
void MainWindow::sampleSinkCreate(
int deviceSetIndex,
int deviceIndex,
DeviceUISet *deviceUISet
)
{
DeviceAPI *deviceAPI = deviceUISet->m_deviceAPI;
int selectedDeviceIndex = deviceIndex;
DeviceEnumerator::instance()->changeTxSelection(deviceSetIndex, deviceIndex);
const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getTxSamplingDevice(deviceIndex);
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(deviceIndex));
qDebug() << "MainWindow::sampleSinkCreate:"
<< "deviceSetIndex:" << deviceSetIndex
<< "newDeviceIndex:" << deviceIndex
<< "hardwareId:" << samplingDevice->hardwareId
<< "sequence:" << samplingDevice->sequence
<< "id:" << samplingDevice->id
<< "serial:" << samplingDevice->serial
<< "displayedName:" << samplingDevice->displayedName;
if (deviceAPI->getSamplingDeviceId().size() == 0) // non existent device => replace by default
{
qDebug("MainWindow::sampleSinkCreate: non existent device replaced by File Sink");
int fileSinkDeviceIndex = DeviceEnumerator::instance()->getFileOutputDeviceIndex();
selectedDeviceIndex = fileSinkDeviceIndex;
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);
}
// add to buddies list
std::vector::iterator it = m_deviceUIs.begin();
int nbOfBuddies = 0;
for (; it != m_deviceUIs.end(); ++it)
{
if (*it != deviceUISet) // do not add to itself
{
if ((*it)->m_deviceSourceEngine) // it is a source device
{
if ((deviceAPI->getHardwareId() == (*it)->m_deviceAPI->getHardwareId()) &&
(deviceAPI->getSamplingDeviceSerial() == (*it)->m_deviceAPI->getSamplingDeviceSerial()))
{
(*it)->m_deviceAPI->addSinkBuddy(deviceAPI);
nbOfBuddies++;
}
}
if ((*it)->m_deviceSinkEngine) // it is a sink device
{
if ((deviceAPI->getHardwareId() == (*it)->m_deviceAPI->getHardwareId()) &&
(deviceAPI->getSamplingDeviceSerial() == (*it)->m_deviceAPI->getSamplingDeviceSerial()))
{
(*it)->m_deviceAPI->addSinkBuddy(deviceAPI);
nbOfBuddies++;
}
}
}
}
if (nbOfBuddies == 0) {
deviceAPI->setBuddyLeader(true);
}
// DeviceGUI *oldDeviceGUI = deviceUISet->m_deviceGUI; // store old GUI pointer for later
// constructs new GUI and output object
DeviceSampleSink *sink = deviceAPI->getPluginInterface()->createSampleSinkPluginInstance(
deviceAPI->getSamplingDeviceId(), deviceAPI);
deviceAPI->setSampleSink(sink);
QWidget *gui;
DeviceGUI *deviceGUI = deviceAPI->getPluginInterface()->createSampleSinkPluginInstanceGUI(
deviceAPI->getSamplingDeviceId(),
&gui,
deviceUISet
);
QObject::connect(
deviceGUI,
&DeviceGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->deviceMove(deviceGUI, wsIndexDest); }
);
QObject::connect(
deviceGUI,
&DeviceGUI::deviceChange,
this,
[=](int newDeviceIndex){ this->samplingDeviceChangeHandler(deviceGUI, newDeviceIndex); }
);
QObject::connect(
deviceGUI,
&DeviceGUI::showSpectrum,
this,
&MainWindow::mainSpectrumShow
);
QObject::connect(
deviceGUI,
&DeviceGUI::showAllChannels,
this,
&MainWindow::showAllChannels
);
QObject::connect(
deviceGUI,
&DeviceGUI::closing,
this,
[=](){ this->removeDeviceSet(deviceGUI->getIndex()); }
);
QObject::connect(
deviceGUI,
&DeviceGUI::deviceSetPresetsDialogRequested,
this,
&MainWindow::openDeviceSetPresetsDialog
);
deviceAPI->getSampleSink()->setMessageQueueToGUI(deviceGUI->getInputMessageQueue());
deviceUISet->m_deviceGUI = deviceGUI;
const PluginInterface::SamplingDevice *selectedDevice = DeviceEnumerator::instance()->getRxSamplingDevice(selectedDeviceIndex);
deviceUISet->m_selectedDeviceId = selectedDevice->id;
deviceUISet->m_selectedDeviceSerial = selectedDevice->serial;
deviceUISet->m_selectedDeviceSequence = selectedDevice->sequence;
deviceUISet->m_selectedDeviceItemImdex = selectedDevice->deviceItemIndex;
deviceUISet->m_deviceAPI->getSampleSink()->init();
// Finalize GUI setup and add it to workspace MDI
deviceGUI->setDeviceType(DeviceGUI::DeviceTx);
deviceGUI->setIndex(deviceSetIndex);
deviceGUI->setToolTip(samplingDevice->displayedName);
deviceGUI->setTitle(samplingDevice->displayedName.split(" ")[0]);
deviceGUI->setCurrentDeviceIndex(selectedDeviceIndex);
QStringList channelNames;
m_pluginManager->listTxChannels(channelNames);
deviceGUI->setChannelNames(channelNames);
MainSpectrumGUI *spectrumGUI = deviceUISet->m_mainSpectrumGUI;
spectrumGUI->setDeviceType(MainSpectrumGUI::DeviceTx);
spectrumGUI->setIndex(deviceSetIndex);
spectrumGUI->setToolTip(samplingDevice->displayedName);
spectrumGUI->setTitle(samplingDevice->displayedName.split(" ")[0]);
}
void MainWindow::sampleMIMOAdd(Workspace *deviceWorkspace, Workspace *spectrumWorkspace, int deviceIndex)
{
DSPDeviceMIMOEngine *dspDeviceMIMOEngine = m_dspEngine->addDeviceMIMOEngine();
dspDeviceMIMOEngine->start();
uint dspDeviceMIMOEngineUID = dspDeviceMIMOEngine->getUID();
char uidCStr[16];
sprintf(uidCStr, "UID:%d", dspDeviceMIMOEngineUID);
int deviceSetIndex = m_deviceUIs.size();
m_mainCore->appendDeviceSet(2);
m_deviceUIs.push_back(new DeviceUISet(deviceSetIndex, m_mainCore->m_deviceSets.back()));
m_deviceUIs.back()->m_deviceSourceEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceSourceEngine = nullptr;
m_deviceUIs.back()->m_deviceSinkEngine = nullptr;
m_mainCore->m_deviceSets.back()->m_deviceSinkEngine = nullptr;
m_deviceUIs.back()->m_deviceMIMOEngine = dspDeviceMIMOEngine;
m_mainCore->m_deviceSets.back()->m_deviceMIMOEngine = dspDeviceMIMOEngine;
DeviceAPI *deviceAPI = new DeviceAPI(DeviceAPI::StreamMIMO, deviceSetIndex, nullptr, nullptr, dspDeviceMIMOEngine);
m_deviceUIs.back()->m_deviceAPI = deviceAPI;
m_mainCore->m_deviceSets.back()->m_deviceAPI = deviceAPI;
// add MIMO channels
QList mimoChannelNames;
m_pluginManager->listMIMOChannels(mimoChannelNames);
m_deviceUIs.back()->setNumberOfAvailableMIMOChannels(mimoChannelNames.size());
// Add Rx channels
QList rxChannelNames;
m_pluginManager->listRxChannels(rxChannelNames);
m_deviceUIs.back()->setNumberOfAvailableRxChannels(rxChannelNames.size());
// Add Tx channels
QList txChannelNames;
m_pluginManager->listTxChannels(txChannelNames);
m_deviceUIs.back()->setNumberOfAvailableTxChannels(txChannelNames.size());
dspDeviceMIMOEngine->addSpectrumSink(m_deviceUIs.back()->m_spectrumVis);
if (deviceIndex < 0) {
deviceIndex = DeviceEnumerator::instance()->getTestMIMODeviceIndex(); // create a test MIMO by default
}
sampleMIMOCreate(deviceSetIndex, deviceIndex, m_deviceUIs.back());
m_deviceUIs.back()->m_deviceGUI->setWorkspaceIndex(deviceWorkspace->getIndex());
m_deviceUIs.back()->m_mainSpectrumGUI->setWorkspaceIndex(spectrumWorkspace->getIndex());
MainSpectrumGUI *mainSpectrumGUI = m_deviceUIs.back()->m_mainSpectrumGUI;
QObject::connect(
mainSpectrumGUI,
&MainSpectrumGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->mainSpectrumMove(mainSpectrumGUI, wsIndexDest); }
);
QObject::connect(
m_deviceUIs.back()->m_deviceGUI,
&DeviceGUI::addChannelEmitted,
this,
[=](int channelPluginIndex){ this->channelAddClicked(deviceWorkspace, deviceSetIndex, channelPluginIndex); }
);
QObject::connect(
deviceAPI,
&DeviceAPI::stateChanged,
this,
&MainWindow::deviceStateChanged
);
deviceWorkspace->addToMdiArea(m_deviceUIs.back()->m_deviceGUI);
spectrumWorkspace->addToMdiArea(m_deviceUIs.back()->m_mainSpectrumGUI);
emit m_mainCore->deviceSetAdded(deviceSetIndex, deviceAPI);
}
void MainWindow::sampleMIMOCreate(
int deviceSetIndex,
int deviceIndex,
DeviceUISet *deviceUISet
)
{
DeviceAPI *deviceAPI = deviceUISet->m_deviceAPI;
int selectedDeviceIndex = deviceIndex;
DeviceEnumerator::instance()->changeMIMOSelection(deviceSetIndex, deviceIndex);
const PluginInterface::SamplingDevice *samplingDevice = DeviceEnumerator::instance()->getMIMOSamplingDevice(deviceIndex);
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(deviceIndex));
qDebug() << "MainWindow::sampleMIMOCreate:"
<< "deviceSetIndex" << deviceSetIndex
<< "newDeviceIndex:" << deviceIndex
<< "hardwareId:" << samplingDevice->hardwareId
<< "sequence:" << samplingDevice->sequence
<< "id:" << samplingDevice->id
<< "serial:" << samplingDevice->serial
<< "displayedName:" << samplingDevice->displayedName;
if (deviceAPI->getSamplingDeviceId().size() == 0) // non existent device => replace by default
{
qDebug("MainWindow::sampleMIMOCreate: non existent device replaced by Test MIMO");
int testMIMODeviceIndex = DeviceEnumerator::instance()->getTestMIMODeviceIndex();
selectedDeviceIndex = testMIMODeviceIndex;
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);
}
// DeviceGUI *oldDeviceGUI = deviceUISet->m_deviceGUI; // store old GUI pointer for later
// constructs new GUI and output object
DeviceSampleMIMO *mimo = deviceAPI->getPluginInterface()->createSampleMIMOPluginInstance(
deviceAPI->getSamplingDeviceId(), deviceAPI);
deviceAPI->setSampleMIMO(mimo);
QWidget *gui;
DeviceGUI *deviceGUI = deviceAPI->getPluginInterface()->createSampleMIMOPluginInstanceGUI(
deviceAPI->getSamplingDeviceId(),
&gui,
deviceUISet
);
QObject::connect(
deviceGUI,
&DeviceGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->deviceMove(deviceGUI, wsIndexDest); }
);
QObject::connect(
deviceGUI,
&DeviceGUI::deviceChange,
this,
[=](int newDeviceIndex){ this->samplingDeviceChangeHandler(deviceGUI, newDeviceIndex); }
);
QObject::connect(
deviceGUI,
&DeviceGUI::showSpectrum,
this,
&MainWindow::mainSpectrumShow
);
QObject::connect(
deviceGUI,
&DeviceGUI::showAllChannels,
this,
&MainWindow::showAllChannels
);
QObject::connect(
deviceGUI,
&DeviceGUI::closing,
this,
[=](){ this->removeDeviceSet(deviceGUI->getIndex()); }
);
QObject::connect(
deviceGUI,
&DeviceGUI::deviceSetPresetsDialogRequested,
this,
&MainWindow::openDeviceSetPresetsDialog
);
deviceAPI->getSampleMIMO()->setMessageQueueToGUI(deviceGUI->getInputMessageQueue());
deviceUISet->m_deviceGUI = deviceGUI;
const PluginInterface::SamplingDevice *selectedDevice = DeviceEnumerator::instance()->getRxSamplingDevice(selectedDeviceIndex);
deviceUISet->m_selectedDeviceId = selectedDevice->id;
deviceUISet->m_selectedDeviceSerial = selectedDevice->serial;
deviceUISet->m_selectedDeviceSequence = selectedDevice->sequence;
deviceUISet->m_selectedDeviceItemImdex = selectedDevice->deviceItemIndex;
deviceUISet->m_deviceAPI->getSampleMIMO()->init();
// Finalize GUI setup and add it to workspace MDI
deviceGUI->setDeviceType(DeviceGUI::DeviceMIMO);
deviceGUI->setIndex(deviceSetIndex);
deviceGUI->setToolTip(samplingDevice->displayedName);
deviceGUI->setTitle(samplingDevice->displayedName.split(" ")[0]);
deviceGUI->setCurrentDeviceIndex(selectedDeviceIndex);
QStringList channelNames, tmpChannelNames;
m_pluginManager->listMIMOChannels(channelNames);
m_pluginManager->listRxChannels(tmpChannelNames);
channelNames.append(tmpChannelNames);
m_pluginManager->listTxChannels(tmpChannelNames);
channelNames.append(tmpChannelNames);
deviceGUI->setChannelNames(channelNames);
MainSpectrumGUI *spectrumGUI = deviceUISet->m_mainSpectrumGUI;
spectrumGUI->setDeviceType(MainSpectrumGUI::DeviceMIMO);
spectrumGUI->setIndex(deviceSetIndex);
spectrumGUI->setToolTip(samplingDevice->displayedName);
spectrumGUI->setTitle(samplingDevice->displayedName.split(" ")[0]);
}
void MainWindow::removeDeviceSet(int deviceSetIndex)
{
qDebug("MainWindow::removeDeviceSet: index: %d", deviceSetIndex);
if (deviceSetIndex >= (int) m_deviceUIs.size()) {
return;
}
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
if (deviceUISet->m_deviceSourceEngine) // source device
{
DSPDeviceSourceEngine *deviceEngine = deviceUISet->m_deviceSourceEngine;
deviceEngine->stopAcquistion();
deviceEngine->removeSink(deviceUISet->m_spectrumVis);
// deletes old UI and core object
deviceUISet->freeChannels(); // destroys the channel instances
deviceUISet->m_deviceAPI->getSampleSource()->setMessageQueueToGUI(nullptr); // have source stop sending messages to the GUI
deviceUISet->m_deviceGUI->destroy();
deviceUISet->m_deviceAPI->resetSamplingDeviceId();
deviceUISet->m_deviceAPI->getPluginInterface()->deleteSampleSourcePluginInstanceInput(
deviceUISet->m_deviceAPI->getSampleSource());
deviceUISet->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
DeviceAPI *sourceAPI = deviceUISet->m_deviceAPI;
delete deviceUISet;
deviceEngine->stop();
m_dspEngine->removeDeviceEngineAt(deviceSetIndex);
DeviceEnumerator::instance()->removeRxSelection(deviceSetIndex);
delete sourceAPI;
}
else if (deviceUISet->m_deviceSinkEngine) // sink device
{
DSPDeviceSinkEngine *deviceEngine = deviceUISet->m_deviceSinkEngine;
deviceEngine->stopGeneration();
deviceEngine->removeSpectrumSink(deviceUISet->m_spectrumVis);
// deletes old UI and output object
deviceUISet->freeChannels();
deviceUISet->m_deviceAPI->getSampleSink()->setMessageQueueToGUI(nullptr); // have sink stop sending messages to the GUI
deviceUISet->m_deviceGUI->destroy();
deviceUISet->m_deviceAPI->resetSamplingDeviceId();
deviceUISet->m_deviceAPI->getPluginInterface()->deleteSampleSinkPluginInstanceOutput(
deviceUISet->m_deviceAPI->getSampleSink());
deviceUISet->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
DeviceAPI *sinkAPI = deviceUISet->m_deviceAPI;
delete deviceUISet;
deviceEngine->stop();
m_dspEngine->removeDeviceEngineAt(deviceSetIndex);
DeviceEnumerator::instance()->removeTxSelection(deviceSetIndex);
delete sinkAPI;
}
else if (deviceUISet->m_deviceMIMOEngine) // MIMO device
{
DSPDeviceMIMOEngine *deviceEngine = deviceUISet->m_deviceMIMOEngine;
deviceEngine->stopProcess(1); // Tx side
deviceEngine->stopProcess(0); // Rx side
deviceEngine->removeSpectrumSink(deviceUISet->m_spectrumVis);
// deletes old UI and output object
deviceUISet->freeChannels();
deviceUISet->m_deviceAPI->getSampleMIMO()->setMessageQueueToGUI(nullptr); // have sink stop sending messages to the GUI
deviceUISet->m_deviceGUI->destroy();
deviceUISet->m_deviceAPI->resetSamplingDeviceId();
deviceUISet->m_deviceAPI->getPluginInterface()->deleteSampleMIMOPluginInstanceMIMO(
deviceUISet->m_deviceAPI->getSampleMIMO());
DeviceAPI *mimoAPI = deviceUISet->m_deviceAPI;
delete deviceUISet;
deviceEngine->stop();
m_dspEngine->removeDeviceEngineAt(deviceSetIndex);
DeviceEnumerator::instance()->removeMIMOSelection(deviceSetIndex);
delete mimoAPI;
}
m_deviceUIs.erase(m_deviceUIs.begin() + deviceSetIndex);
m_mainCore->removeDeviceSet(deviceSetIndex);
// Renumerate
for (int i = 0; i < (int) m_deviceUIs.size(); i++)
{
DeviceUISet *deviceUISet = m_deviceUIs[i];
deviceUISet->setIndex(i);
DeviceGUI *deviceGUI = m_deviceUIs[i]->m_deviceGUI;
Workspace *deviceWorkspace = m_workspaces[deviceGUI->getWorkspaceIndex()];
QObject::disconnect(
deviceGUI,
&DeviceGUI::addChannelEmitted,
this,
nullptr
);
QObject::connect(
deviceGUI,
&DeviceGUI::addChannelEmitted,
this,
[=](int channelPluginIndex){ this->channelAddClicked(deviceWorkspace, i, channelPluginIndex); }
);
}
emit m_mainCore->deviceSetRemoved(deviceSetIndex);
}
void MainWindow::removeLastDeviceSet()
{
int removedDeviceSetIndex = m_deviceUIs.size() - 1;
if (m_deviceUIs.back()->m_deviceSourceEngine) // source tab
{
DSPDeviceSourceEngine *lastDeviceEngine = m_deviceUIs.back()->m_deviceSourceEngine;
lastDeviceEngine->stopAcquistion();
lastDeviceEngine->removeSink(m_deviceUIs.back()->m_spectrumVis);
// deletes old UI and input object
m_deviceUIs.back()->freeChannels(); // destroys the channel instances
m_deviceUIs.back()->m_deviceAPI->getSampleSource()->setMessageQueueToGUI(nullptr); // have source stop sending messages to the GUI
m_deviceUIs.back()->m_deviceGUI->destroy();
m_deviceUIs.back()->m_deviceAPI->resetSamplingDeviceId();
m_deviceUIs.back()->m_deviceAPI->getPluginInterface()->deleteSampleSourcePluginInstanceInput(
m_deviceUIs.back()->m_deviceAPI->getSampleSource());
m_deviceUIs.back()->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
DeviceAPI *sourceAPI = m_deviceUIs.back()->m_deviceAPI;
delete m_deviceUIs.back();
lastDeviceEngine->stop();
m_dspEngine->removeLastDeviceSourceEngine();
delete sourceAPI;
}
else if (m_deviceUIs.back()->m_deviceSinkEngine) // sink tab
{
DSPDeviceSinkEngine *lastDeviceEngine = m_deviceUIs.back()->m_deviceSinkEngine;
lastDeviceEngine->stopGeneration();
lastDeviceEngine->removeSpectrumSink(m_deviceUIs.back()->m_spectrumVis);
// deletes old UI and output object
m_deviceUIs.back()->freeChannels();
m_deviceUIs.back()->m_deviceAPI->getSampleSink()->setMessageQueueToGUI(nullptr); // have sink stop sending messages to the GUI
m_deviceUIs.back()->m_deviceGUI->destroy();
m_deviceUIs.back()->m_deviceAPI->resetSamplingDeviceId();
m_deviceUIs.back()->m_deviceAPI->getPluginInterface()->deleteSampleSinkPluginInstanceOutput(
m_deviceUIs.back()->m_deviceAPI->getSampleSink());
m_deviceUIs.back()->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
DeviceAPI *sinkAPI = m_deviceUIs.back()->m_deviceAPI;
delete m_deviceUIs.back();
lastDeviceEngine->stop();
m_dspEngine->removeLastDeviceSinkEngine();
delete sinkAPI;
}
else if (m_deviceUIs.back()->m_deviceMIMOEngine) // MIMO tab
{
DSPDeviceMIMOEngine *lastDeviceEngine = m_deviceUIs.back()->m_deviceMIMOEngine;
lastDeviceEngine->stopProcess(1); // Tx side
lastDeviceEngine->stopProcess(0); // Rx side
lastDeviceEngine->removeSpectrumSink(m_deviceUIs.back()->m_spectrumVis);
// deletes old UI and output object
m_deviceUIs.back()->freeChannels();
m_deviceUIs.back()->m_deviceAPI->getSampleMIMO()->setMessageQueueToGUI(nullptr); // have sink stop sending messages to the GUI
m_deviceUIs.back()->m_deviceGUI->destroy();
m_deviceUIs.back()->m_deviceAPI->resetSamplingDeviceId();
m_deviceUIs.back()->m_deviceAPI->getPluginInterface()->deleteSampleMIMOPluginInstanceMIMO(
m_deviceUIs.back()->m_deviceAPI->getSampleMIMO());
DeviceAPI *mimoAPI = m_deviceUIs.back()->m_deviceAPI;
delete m_deviceUIs.back();
lastDeviceEngine->stop();
m_dspEngine->removeLastDeviceMIMOEngine();
delete mimoAPI;
}
m_deviceUIs.pop_back();
m_mainCore->removeLastDeviceSet();
emit m_mainCore->deviceSetRemoved(removedDeviceSetIndex);
}
void MainWindow::addFeatureSet()
{
int newFeatureSetIndex = m_featureUIs.size();
if (newFeatureSetIndex != 0)
{
qWarning("MainWindow::addFeatureSet: attempt to add more than one feature set (%d)", newFeatureSetIndex);
return;
}
m_mainCore->appendFeatureSet();
m_featureUIs.push_back(new FeatureUISet(newFeatureSetIndex, m_mainCore->m_featureSets[newFeatureSetIndex]));
emit m_mainCore->featureSetAdded(newFeatureSetIndex);
}
void MainWindow::removeFeatureSet(unsigned int tabIndex)
{
if (tabIndex < m_featureUIs.size())
{
delete m_featureUIs[tabIndex];
m_featureUIs.pop_back();
m_mainCore->removeFeatureSet(tabIndex);
emit m_mainCore->featureSetRemoved(tabIndex);
}
}
void MainWindow::removeAllFeatureSets()
{
while (m_featureUIs.size() > 0)
{
delete m_featureUIs.back();
m_featureUIs.pop_back();
m_mainCore->removeLastFeatureSet();
}
}
void MainWindow::deleteChannel(int deviceSetIndex, int channelIndex)
{
if ((deviceSetIndex >= 0) && (deviceSetIndex < (int) m_deviceUIs.size()))
{
DeviceUISet *deviceSet = m_deviceUIs[deviceSetIndex];
deviceSet->deleteChannel(channelIndex);
}
}
void MainWindow::loadSettings()
{
qDebug() << "MainWindow::loadSettings";
m_mainCore->m_settings.load();
m_mainCore->m_settings.sortPresets();
m_mainCore->m_settings.sortCommands();
if (m_mainCore->m_logger) {
m_mainCore->setLoggingOptions();
}
}
void MainWindow::loadDeviceSetPresetSettings(const Preset* preset, int deviceSetIndex)
{
qDebug("MainWindow::loadDeviceSetPresetSettings: preset [%s | %s]",
qPrintable(preset->getGroup()),
qPrintable(preset->getDescription()));
if (deviceSetIndex >= 0)
{
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
deviceUISet->loadDeviceSetSettings(preset, m_pluginManager->getPluginAPI(), &m_workspaces, nullptr);
}
// m_spectrumToggleViewAction->setChecked(preset->getShowSpectrum());
// // has to be last step
// if (!preset->getLayout().isEmpty()) {
// restoreState(preset->getLayout());
// }
}
void MainWindow::saveDeviceSetPresetSettings(Preset* preset, int deviceSetIndex)
{
qDebug("MainWindow::saveDeviceSetPresetSettings: preset [%s | %s]",
qPrintable(preset->getGroup()),
qPrintable(preset->getDescription()));
// Save from currently selected source tab
//int currentSourceTabIndex = ui->tabInputsView->currentIndex();
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
deviceUISet->saveDeviceSetSettings(preset);
// preset->setShowSpectrum(m_spectrumToggleViewAction->isChecked());
// preset->setLayout(saveState());
}
void MainWindow::loadFeatureSetPresetSettings(const FeatureSetPreset* preset, int featureSetIndex, Workspace *workspace)
{
qDebug("MainWindow::loadFeatureSetPresetSettings: preset [%s | %s]",
qPrintable(preset->getGroup()),
qPrintable(preset->getDescription()));
if (featureSetIndex >= 0)
{
FeatureUISet *featureSetUI = m_featureUIs[featureSetIndex];
qDebug("MainWindow::loadFeatureSetPresetSettings: m_apiAdapter: %p", m_apiAdapter);
featureSetUI->loadFeatureSetSettings(preset, m_pluginManager->getPluginAPI(), m_apiAdapter, &m_workspaces, workspace);
}
}
void MainWindow::saveFeatureSetPresetSettings(FeatureSetPreset* preset, int featureSetIndex)
{
qDebug("MainWindow::saveFeatureSetPresetSettings: preset [%s | %s]",
qPrintable(preset->getGroup()),
qPrintable(preset->getDescription()));
// Save from currently selected source tab
//int currentSourceTabIndex = ui->tabInputsView->currentIndex();
FeatureUISet *featureUI = m_featureUIs[featureSetIndex];
preset->clearFeatures();
featureUI->saveFeatureSetSettings(preset);
}
void MainWindow::loadDefaultConfigurations()
{
QDirIterator configurationsIt(":configurations", QDirIterator::Subdirectories);
while (configurationsIt.hasNext())
{
QString group = configurationsIt.next();
QDirIterator groupIt(group, {"*.cfgx"}, QDir::Files);
while (groupIt.hasNext())
{
QFile file(groupIt.next());
if (file.open(QIODevice::ReadOnly | QIODevice::Text))
{
QByteArray base64Str;
QTextStream instream(&file);
instream >> base64Str;
file.close();
Configuration* configuration = MainCore::instance()->m_settings.newConfiguration("", "");
configuration->deserialize(QByteArray::fromBase64(base64Str));
}
else
{
qDebug() << "MainWindow::loadDefaultConfigurations: Failed to open configuration " << file.fileName();
}
}
}
QDirIterator presetIt(":presets", QDirIterator::Subdirectories);
while (presetIt.hasNext())
{
QString group = presetIt.next();
QDirIterator groupIt(group, {"*.prex"}, QDir::Files);
while (groupIt.hasNext())
{
QFile file(groupIt.next());
if (file.open(QIODevice::ReadOnly | QIODevice::Text))
{
QByteArray base64Str;
QTextStream instream(&file);
instream >> base64Str;
file.close();
Preset* preset = MainCore::instance()->m_settings.newPreset("", "");
preset->deserialize(QByteArray::fromBase64(base64Str));
}
else
{
qDebug() << "MainWindow::loadDefaultConfigurations: Failed to open preset " << file.fileName();
}
}
}
}
void MainWindow::loadConfiguration(const Configuration *configuration, bool fromDialog)
{
qDebug("MainWindow::loadConfiguration: configuration [%s | %s] %d workspace(s) - %d device set(s) - %d feature(s)",
qPrintable(configuration->getGroup()),
qPrintable(configuration->getDescription()),
configuration->getNumberOfWorkspaceGeometries(),
configuration->getDeviceSetPresets().size(),
configuration->getFeatureSetPreset().getFeatureCount()
);
QProgressDialog *waitBox = nullptr;
if (fromDialog)
{
waitBox = new QProgressDialog("Loading configuration...", "", 0, 100, this);
waitBox->setWindowModality(Qt::WindowModal);
waitBox->setAttribute(Qt::WA_DeleteOnClose, true);
waitBox->setMinimumDuration(0);
waitBox->setCancelButton(nullptr);
waitBox->setValue(1);
QApplication::processEvents();
}
// Wipe out everything first
if (waitBox)
{
waitBox->setLabelText("Deleting existing...");
waitBox->setValue(5);
QApplication::processEvents();
}
// Device sets
while (m_deviceUIs.size() > 0) {
removeLastDeviceSet();
}
// Features
m_featureUIs[0]->freeFeatures();
// Workspaces
for (const auto& workspace : m_workspaces) {
delete workspace;
}
m_workspaces.clear();
// Reconstruct
// Workspaces
for (int i = 0; i < configuration->getNumberOfWorkspaceGeometries(); i++)
{
addWorkspace();
m_workspaces[i]->setAutoStackOption(configuration->getWorkspaceAutoStackOptions()[i]);
m_workspaces[i]->setTabSubWindowsOption(configuration->getWorkspaceTabSubWindowsOptions()[i]);
}
if (m_workspaces.size() <= 0) { // cannot go further if there are no workspaces
return;
}
// Device sets
if (waitBox)
{
waitBox->setLabelText("Loading device sets...");
waitBox->setValue(25);
QApplication::processEvents();
}
const QList& deviceSetPresets = configuration->getDeviceSetPresets();
for (const auto& deviceSetPreset : deviceSetPresets)
{
if (deviceSetPreset.isSourcePreset())
{
int bestDeviceIndex = DeviceEnumerator::instance()->getBestRxSamplingDeviceIndex(
deviceSetPreset.getSelectedDevice().m_deviceId,
deviceSetPreset.getSelectedDevice().m_deviceSerial,
deviceSetPreset.getSelectedDevice().m_deviceSequence,
deviceSetPreset.getSelectedDevice().m_deviceItemIndex
);
qDebug("MainWindow::loadConfiguration: add source %s in workspace %d spectrum in %d",
qPrintable(deviceSetPreset.getSelectedDevice().m_deviceId),
deviceSetPreset.getDeviceWorkspaceIndex(),
deviceSetPreset.getSpectrumWorkspaceIndex());
int deviceWorkspaceIndex = deviceSetPreset.getDeviceWorkspaceIndex() < m_workspaces.size() ?
deviceSetPreset.getDeviceWorkspaceIndex() :
0;
int spectrumWorkspaceIndex = deviceSetPreset.getSpectrumWorkspaceIndex() < m_workspaces.size() ?
deviceSetPreset.getSpectrumWorkspaceIndex() :
deviceWorkspaceIndex;
sampleSourceAdd(m_workspaces[deviceWorkspaceIndex], m_workspaces[spectrumWorkspaceIndex], bestDeviceIndex);
}
else if (deviceSetPreset.isSinkPreset())
{
int bestDeviceIndex = DeviceEnumerator::instance()->getBestTxSamplingDeviceIndex(
deviceSetPreset.getSelectedDevice().m_deviceId,
deviceSetPreset.getSelectedDevice().m_deviceSerial,
deviceSetPreset.getSelectedDevice().m_deviceSequence,
deviceSetPreset.getSelectedDevice().m_deviceItemIndex
);
qDebug("MainWindow::loadConfiguration: add sink %s in workspace %d spectrum in %d",
qPrintable(deviceSetPreset.getSelectedDevice().m_deviceId),
deviceSetPreset.getDeviceWorkspaceIndex(),
deviceSetPreset.getSpectrumWorkspaceIndex());
int deviceWorkspaceIndex = deviceSetPreset.getDeviceWorkspaceIndex() < m_workspaces.size() ?
deviceSetPreset.getDeviceWorkspaceIndex() :
0;
int spectrumWorkspaceIndex = deviceSetPreset.getSpectrumWorkspaceIndex() < m_workspaces.size() ?
deviceSetPreset.getSpectrumWorkspaceIndex() :
deviceWorkspaceIndex;
sampleSinkAdd(m_workspaces[deviceWorkspaceIndex], m_workspaces[spectrumWorkspaceIndex], bestDeviceIndex);
}
else if (deviceSetPreset.isMIMOPreset())
{
int bestDeviceIndex = DeviceEnumerator::instance()->getBestMIMOSamplingDeviceIndex(
deviceSetPreset.getSelectedDevice().m_deviceId,
deviceSetPreset.getSelectedDevice().m_deviceSerial,
deviceSetPreset.getSelectedDevice().m_deviceSequence
);
qDebug("MainWindow::loadConfiguration: add MIMO %s in workspace %d spectrum in %d",
qPrintable(deviceSetPreset.getSelectedDevice().m_deviceId),
deviceSetPreset.getDeviceWorkspaceIndex(),
deviceSetPreset.getSpectrumWorkspaceIndex());
int deviceWorkspaceIndex = deviceSetPreset.getDeviceWorkspaceIndex() < m_workspaces.size() ?
deviceSetPreset.getDeviceWorkspaceIndex() :
0;
int spectrumWorkspaceIndex = deviceSetPreset.getSpectrumWorkspaceIndex() < m_workspaces.size() ?
deviceSetPreset.getSpectrumWorkspaceIndex() :
deviceWorkspaceIndex;
sampleMIMOAdd(m_workspaces[deviceWorkspaceIndex], m_workspaces[spectrumWorkspaceIndex], bestDeviceIndex);
}
m_deviceUIs.back()->m_deviceGUI->restoreGeometry(deviceSetPreset.getDeviceGeometry());
m_deviceUIs.back()->m_mainSpectrumGUI->restoreGeometry(deviceSetPreset.getSpectrumGeometry());
m_deviceUIs.back()->loadDeviceSetSettings(&deviceSetPreset, m_pluginManager->getPluginAPI(), &m_workspaces, nullptr);
if (waitBox)
{
waitBox->setValue(waitBox->value() + 50/deviceSetPresets.size());
QApplication::processEvents();
}
}
// Features
if (waitBox)
{
waitBox->setLabelText("Loading feature sets...");
waitBox->setValue(75);
QApplication::processEvents();
}
m_featureUIs[0]->loadFeatureSetSettings(
&configuration->getFeatureSetPreset(),
m_pluginManager->getPluginAPI(),
m_apiAdapter,
&m_workspaces,
nullptr
);
for (int i = 0; i < m_featureUIs[0]->getNumberOfFeatures(); i++)
{
FeatureGUI *gui = m_featureUIs[0]->getFeatureGuiAt(i);
QObject::connect(
gui,
&FeatureGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->featureMove(gui, wsIndexDest); }
);
}
// Lastly restore workspaces geometry
if (waitBox)
{
waitBox->setValue(90);
waitBox->setLabelText("Finalizing...");
QApplication::processEvents();
}
for (int i = 0; i < configuration->getNumberOfWorkspaceGeometries(); i++)
{
m_workspaces[i]->restoreGeometry(configuration->getWorkspaceGeometries()[i]);
m_workspaces[i]->restoreGeometry(configuration->getWorkspaceGeometries()[i]);
m_workspaces[i]->adjustSubWindowsAfterRestore();
#ifdef ANDROID
// On Android, workspaces seem to be restored to 0,20, rather than 0,0
m_workspaces[i]->move(m_workspaces[i]->pos().x(), 0);
// Need to call updateGeometry, otherwise sometimes the layout is corrupted
m_workspaces[i]->updateGeometry();
#endif
}
if (waitBox) {
waitBox->setValue(100);
}
}
void MainWindow::saveConfiguration(Configuration *configuration)
{
qDebug("MainWindow::saveConfiguration: configuration [%s | %s] %d workspaces",
qPrintable(configuration->getGroup()),
qPrintable(configuration->getDescription()),
m_workspaces.size()
);
configuration->clearData();
QList& deviceSetPresets = configuration->getDeviceSetPresets();
for (const auto& deviceUISet : m_deviceUIs)
{
deviceSetPresets.push_back(Preset());
deviceUISet->saveDeviceSetSettings(&deviceSetPresets.back());
deviceSetPresets.back().setSpectrumGeometry(deviceUISet->m_mainSpectrumGUI->saveGeometry());
deviceSetPresets.back().setSpectrumWorkspaceIndex(deviceUISet->m_mainSpectrumGUI->getWorkspaceIndex());
deviceSetPresets.back().setDeviceGeometry(deviceUISet->m_deviceGUI->saveGeometry());
deviceSetPresets.back().setDeviceWorkspaceIndex(deviceUISet->m_deviceGUI->getWorkspaceIndex());
qDebug("MainWindow::saveConfiguration: %s device in workspace %d spectrum in %d",
qPrintable(deviceUISet->m_deviceAPI->getSamplingDeviceId()),
deviceUISet->m_deviceGUI->getWorkspaceIndex(),
deviceUISet->m_mainSpectrumGUI->getWorkspaceIndex());
}
m_featureUIs[0]->saveFeatureSetSettings(&configuration->getFeatureSetPreset());
for (const auto& workspace : m_workspaces)
{
configuration->getWorkspaceGeometries().push_back(workspace->saveGeometry());
configuration->getWorkspaceAutoStackOptions().push_back(workspace->getAutoStackOption());
configuration->getWorkspaceTabSubWindowsOptions().push_back(workspace->getTabSubWindowsOption());
}
}
QString MainWindow::openGLVersion()
{
QOpenGLContext *glCurrentContext = QOpenGLContext::globalShareContext();
if (glCurrentContext)
{
if (glCurrentContext->isValid())
{
int major = glCurrentContext->format().majorVersion();
int minor = glCurrentContext->format().minorVersion();
bool es = glCurrentContext->isOpenGLES();
QString version = QString("%1.%2%3").arg(major).arg(minor).arg(es ? " ES" : "");
// Waterfall doesn't work if version is less than 2.1, so display in red
if ((major < 2) || ((major == 2) && (minor == 0))) {
version = "" + version + " ";
}
return version;
}
else
{
return "N/A";
}
}
else
{
return "N/A";
}
}
void MainWindow::createMenuBar(QToolButton *button)
{
QMenu *fileMenu, *viewMenu, *workspacesMenu, *preferencesMenu, *helpMenu;
if (button == nullptr)
{
QMenuBar *menuBar = this->menuBar();
fileMenu = menuBar->addMenu("&File");
viewMenu = menuBar->addMenu("&View");
workspacesMenu = menuBar->addMenu("&Workspaces");
preferencesMenu = menuBar->addMenu("&Preferences");
helpMenu = menuBar->addMenu("&Help");
}
else
{
QMenu *menu = new QMenu();
fileMenu = new QMenu("&File");
menu->addMenu(fileMenu);
viewMenu = new QMenu("&View");
menu->addMenu(viewMenu);
workspacesMenu = new QMenu("&Workspaces");
menu->addMenu(workspacesMenu);
preferencesMenu = new QMenu("&Preferences");
menu->addMenu(preferencesMenu);
helpMenu = new QMenu("&Help");
menu->addMenu(helpMenu);
button->setMenu(menu);
}
QAction *exitAction = fileMenu->addAction("E&xit");
exitAction->setShortcut(QKeySequence(Qt::CTRL + Qt::Key_Q));
exitAction->setToolTip("Exit");
QObject::connect(exitAction, &QAction::triggered, this, &QMainWindow::close);
QAction *fullscreenAction = viewMenu->addAction("&Fullscreen");
fullscreenAction->setShortcut(QKeySequence(Qt::Key_F11));
fullscreenAction->setToolTip("Toggle fullscreen view");
fullscreenAction->setCheckable(true);
QObject::connect(fullscreenAction, &QAction::triggered, this, &MainWindow::on_action_View_Fullscreen_toggled);
#ifdef ANDROID
QAction *keepscreenonAction = viewMenu->addAction("&Keep screen on");
keepscreenonAction->setToolTip("Prevent screen from switching off");
keepscreenonAction->setCheckable(true);
QObject::connect(keepscreenonAction, &QAction::triggered, this, &MainWindow::on_action_View_KeepScreenOn_toggled);
#endif
QAction *newWorkspaceAction = workspacesMenu->addAction("&New");
newWorkspaceAction->setToolTip("Add a new workspace");
QObject::connect(newWorkspaceAction, &QAction::triggered, this, &MainWindow::addWorkspace);
QAction *viewAllWorkspacesAction = workspacesMenu->addAction("&View all");
viewAllWorkspacesAction->setToolTip("View all workspaces");
QObject::connect(viewAllWorkspacesAction, &QAction::triggered, this, &MainWindow::viewAllWorkspaces);
QAction *removeEmptyWorkspacesAction = workspacesMenu->addAction("&Remove empty");
removeEmptyWorkspacesAction->setToolTip("Remove empty workspaces");
QObject::connect(removeEmptyWorkspacesAction, &QAction::triggered, this, &MainWindow::removeEmptyWorkspaces);
QAction *configurationsAction = preferencesMenu->addAction("&Configurations...");
configurationsAction->setToolTip("Manage configurations");
QObject::connect(configurationsAction, &QAction::triggered, this, &MainWindow::on_action_Configurations_triggered);
QAction *audioAction = preferencesMenu->addAction("&Audio...");
audioAction->setToolTip("Audio preferences");
QObject::connect(audioAction, &QAction::triggered, this, &MainWindow::on_action_Audio_triggered);
QAction *graphicsAction = preferencesMenu->addAction("&Graphics...");
graphicsAction->setToolTip("Graphics preferences");
QObject::connect(graphicsAction, &QAction::triggered, this, &MainWindow::on_action_Graphics_triggered);
QAction *loggingAction = preferencesMenu->addAction("&Logging...");
loggingAction->setToolTip("Logging preferences");
QObject::connect(loggingAction, &QAction::triggered, this, &MainWindow::on_action_Logging_triggered);
QAction *myPositionAction = preferencesMenu->addAction("My &Position...");
myPositionAction->setToolTip("Set station position");
QObject::connect(myPositionAction, &QAction::triggered, this, &MainWindow::on_action_My_Position_triggered);
QAction *fftAction = preferencesMenu->addAction("&FFT...");
fftAction->setToolTip("Set FFT cache");
QObject::connect(fftAction, &QAction::triggered, this, &MainWindow::on_action_FFT_triggered);
QMenu *devicesMenu = preferencesMenu->addMenu("&Devices");
QAction *userArgumentsAction = devicesMenu->addAction("&User arguments...");
userArgumentsAction->setToolTip("Device custom user arguments");
QObject::connect(userArgumentsAction, &QAction::triggered, this, &MainWindow::on_action_DeviceUserArguments_triggered);
QAction *commandsAction = preferencesMenu->addAction("C&ommands...");
commandsAction->setToolTip("External commands dialog");
QObject::connect(commandsAction, &QAction::triggered, this, &MainWindow::on_action_commands_triggered);
QAction *saveAllAction = preferencesMenu->addAction("&Save all");
saveAllAction->setToolTip("Save all current settings");
QObject::connect(saveAllAction, &QAction::triggered, this, &MainWindow::on_action_saveAll_triggered);
QAction *quickStartAction = helpMenu->addAction("&Quick start...");
quickStartAction->setToolTip("Instructions for quick start");
QObject::connect(quickStartAction, &QAction::triggered, this, &MainWindow::on_action_Quick_Start_triggered);
QAction *mainWindowAction = helpMenu->addAction("&Main Window...");
mainWindowAction->setToolTip("Help on main window details");
QObject::connect(mainWindowAction, &QAction::triggered, this, &MainWindow::on_action_Main_Window_triggered);
QAction *loadedPluginsAction = helpMenu->addAction("Loaded &Plugins...");
loadedPluginsAction->setToolTip("List available plugins");
QObject::connect(loadedPluginsAction, &QAction::triggered, this, &MainWindow::on_action_Loaded_Plugins_triggered);
QAction *aboutAction = helpMenu->addAction("&About SDRangel...");
aboutAction->setToolTip("SDRangel application details");
QObject::connect(aboutAction, &QAction::triggered, this, &MainWindow::on_action_About_triggered);
}
void MainWindow::createStatusBar()
{
QString qtVersionStr = QString("Qt %1 ").arg(QT_VERSION_STR);
QString openGLVersionStr = QString("OpenGL %1 ").arg(openGLVersion());
#if QT_VERSION >= QT_VERSION_CHECK(5, 4, 0)
m_showSystemWidget = new QLabel("SDRangel " + qApp->applicationVersion() + " " + qtVersionStr + openGLVersionStr
+ QSysInfo::currentCpuArchitecture() + " " + QSysInfo::prettyProductName(), this);
#else
m_showSystemWidget = new QLabel("SDRangel " + qApp->applicationVersion() + " " + qtVersionStr + openGLVersionStr, this);
#endif
statusBar()->addPermanentWidget(m_showSystemWidget);
m_dateTimeWidget = new QLabel(tr("Date"), this);
m_dateTimeWidget->setToolTip(tr("Current date/time"));
statusBar()->addPermanentWidget(m_dateTimeWidget);
}
void MainWindow::closeEvent(QCloseEvent *closeEvent)
{
qDebug("MainWindow::closeEvent");
// Save window size and position
QSettings s;
s.setValue("mainWindowGeometry", qCompress(saveGeometry()).toBase64());
s.setValue("mainWindowState", qCompress(saveState()).toBase64());
saveConfiguration(m_mainCore->m_settings.getWorkingConfiguration());
m_mainCore->m_settings.save();
while (m_deviceUIs.size() > 0) {
removeLastDeviceSet();
}
closeEvent->accept();
}
void MainWindow::applySettings()
{
loadConfiguration(m_mainCore->m_settings.getWorkingConfiguration());
m_mainCore->m_settings.sortPresets();
// int middleIndex = m_mainCore->m_settings.getPresetCount() / 2;
// QTreeWidgetItem *treeItem;
// ui->presetTree->clear();
// for (int i = 0; i < m_mainCore->m_settings.getPresetCount(); ++i)
// {
// treeItem = addPresetToTree(m_mainCore->m_settings.getPreset(i));
// if (i == middleIndex) {
// ui->presetTree->setCurrentItem(treeItem);
// }
// }
// m_mainCore->m_settings.sortCommands();
// ui->commandTree->clear();
// for (int i = 0; i < m_mainCore->m_settings.getCommandCount(); ++i) {
// treeItem = addCommandToTree(m_mainCore->m_settings.getCommand(i));
// }
m_mainCore->setLoggingOptions();
}
bool MainWindow::handleMessage(const Message& cmd)
{
if (MainCore::MsgLoadPreset::match(cmd))
{
MainCore::MsgLoadPreset& notif = (MainCore::MsgLoadPreset&) cmd;
int deviceSetIndex = notif.getDeviceSetIndex();
const Preset *preset = notif.getPreset();
if (deviceSetIndex < (int) m_deviceUIs.size())
{
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
deviceUISet->loadDeviceSetSettings(preset, m_pluginManager->getPluginAPI(), &m_workspaces, nullptr);
}
return true;
}
else if (MainCore::MsgSavePreset::match(cmd))
{
MainCore::MsgSavePreset& notif = (MainCore::MsgSavePreset&) cmd;
saveDeviceSetPresetSettings(notif.getPreset(), notif.getDeviceSetIndex());
m_mainCore->m_settings.sortPresets();
m_mainCore->m_settings.save();
return true;
}
else if (MainCore::MsgLoadFeatureSetPreset::match(cmd))
{
if (m_workspaces.size() > 0)
{
MainCore::MsgLoadFeatureSetPreset& notif = (MainCore::MsgLoadFeatureSetPreset&) cmd;
loadFeatureSetPresetSettings(notif.getPreset(), notif.getFeatureSetIndex(), m_workspaces[0]);
}
return true;
}
else if (MainCore::MsgSaveFeatureSetPreset::match(cmd))
{
MainCore::MsgSaveFeatureSetPreset& notif = (MainCore::MsgSaveFeatureSetPreset&) cmd;
saveFeatureSetPresetSettings(notif.getPreset(), notif.getFeatureSetIndex());
m_mainCore->m_settings.sortFeatureSetPresets();
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::MsgLoadConfiguration::match(cmd))
{
MainCore::MsgLoadConfiguration& notif = (MainCore::MsgLoadConfiguration&) cmd;
const Configuration *configuration = notif.getConfiguration();
loadConfiguration(configuration, false);
return true;
}
else if (MainCore::MsgSaveConfiguration::match(cmd))
{
MainCore::MsgSaveConfiguration& notif = (MainCore::MsgSaveConfiguration&) cmd;
Configuration *configuration = notif.getConfiguration();
saveConfiguration(configuration);
return true;
}
else if (MainCore::MsgDeleteConfiguration::match(cmd))
{
MainCore::MsgDeleteConfiguration& notif = (MainCore::MsgDeleteConfiguration&) cmd;
const Configuration *configurationToDelete = notif.getConfiguration();
// remove configuration from settings
m_mainCore->m_settings.deleteConfiguration(configurationToDelete);
return true;
}
else if (MainCore::MsgDeleteEmptyWorkspaces::match(cmd))
{
removeEmptyWorkspaces();
return true;
}
else if (MainCore::MsgAddWorkspace::match(cmd))
{
addWorkspace();
return true;
}
else if (MainCore::MsgDeleteFeatureSetPreset::match(cmd))
{
MainCore::MsgDeleteFeatureSetPreset& notif = (MainCore::MsgDeleteFeatureSetPreset&) cmd;
const FeatureSetPreset *presetToDelete = notif.getPreset();
// remove preset from settings
m_mainCore->m_settings.deleteFeatureSetPreset(presetToDelete);
return true;
}
else if (MainCore::MsgAddDeviceSet::match(cmd))
{
MainCore::MsgAddDeviceSet& notif = (MainCore::MsgAddDeviceSet&) cmd;
int direction = notif.getDirection();
if (m_workspaces.size() > 0)
{
if (direction == 1) { // Single stream Tx
sampleSinkAdd(m_workspaces[0], m_workspaces[0], -1); // create with file output device by default
} else if (direction == 0) { // Single stream Rx
sampleSourceAdd(m_workspaces[0], m_workspaces[0], -1); // create with file input device by default
} else if (direction == 2) { // MIMO
sampleMIMOAdd(m_workspaces[0], m_workspaces[0], -1); // create with testMI MIMO device by default
}
}
return true;
}
else if (MainCore::MsgRemoveLastDeviceSet::match(cmd))
{
if (m_deviceUIs.size() > 0) {
removeLastDeviceSet();
}
return true;
}
else if (MainCore::MsgSetDevice::match(cmd))
{
MainCore::MsgSetDevice& notif = (MainCore::MsgSetDevice&) cmd;
int deviceSetIndex = notif.getDeviceSetIndex();
if ((deviceSetIndex >= 0) && (deviceSetIndex < (int) m_deviceUIs.size()))
{
Workspace *workspace = m_workspaces[m_deviceUIs[deviceSetIndex]->m_deviceGUI->getWorkspaceIndex()];
sampleDeviceChange(notif.getDeviceType(), notif.getDeviceSetIndex(), notif.getDeviceIndex(), workspace);
}
return true;
}
else if (MainCore::MsgAddChannel::match(cmd))
{
MainCore::MsgAddChannel& notif = (MainCore::MsgAddChannel&) cmd;
int deviceSetIndex = notif.getDeviceSetIndex();
if ((deviceSetIndex >= 0) && (deviceSetIndex < (int) m_deviceUIs.size()))
{
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
int deviceWorkspaceIndex = deviceUISet->m_deviceGUI->getWorkspaceIndex();
deviceWorkspaceIndex = deviceWorkspaceIndex < m_workspaces.size() ? deviceWorkspaceIndex : 0;
int channelRegistrationIndex;
if (deviceUISet->m_deviceMIMOEngine)
{
int nbMIMOChannels = deviceUISet->getNumberOfAvailableMIMOChannels();
int nbRxChannels = deviceUISet->getNumberOfAvailableRxChannels();
int direction = notif.getDirection();
if (direction == 2) {
channelRegistrationIndex = notif.getChannelRegistrationIndex();
} else if (direction == 0) {
channelRegistrationIndex = nbMIMOChannels + notif.getChannelRegistrationIndex();
} else {
channelRegistrationIndex = nbMIMOChannels + nbRxChannels + notif.getChannelRegistrationIndex();
}
}
else
{
channelRegistrationIndex = notif.getChannelRegistrationIndex();
}
channelAddClicked(m_workspaces[deviceWorkspaceIndex], deviceSetIndex, channelRegistrationIndex);
}
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;
if (m_workspaces.size() > 0) {
featureAddClicked(m_workspaces[0], notif.getFeatureRegistrationIndex());
}
return true;
}
else if (MainCore::MsgDeleteFeature::match(cmd))
{
MainCore::MsgDeleteFeature& notif = (MainCore::MsgDeleteFeature&) cmd;
deleteFeature(0, notif.getFeatureIndex());
return true;
}
else if (MainCore::MsgMoveDeviceUIToWorkspace::match(cmd))
{
MainCore::MsgMoveDeviceUIToWorkspace& notif = (MainCore::MsgMoveDeviceUIToWorkspace&) cmd;
int deviceSetIndex = notif.getDeviceSetIndex();
if (deviceSetIndex < (int) m_deviceUIs.size())
{
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
DeviceGUI *gui = deviceUISet->m_deviceGUI;
deviceMove(gui, notif.getWorkspaceIndex());
}
return true;
}
else if (MainCore::MsgMoveMainSpectrumUIToWorkspace::match(cmd))
{
MainCore::MsgMoveMainSpectrumUIToWorkspace& notif = (MainCore::MsgMoveMainSpectrumUIToWorkspace&) cmd;
int deviceSetIndex = notif.getDeviceSetIndex();
if (deviceSetIndex < (int) m_deviceUIs.size())
{
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
MainSpectrumGUI *gui = deviceUISet->m_mainSpectrumGUI;
mainSpectrumMove(gui, notif.getWorkspaceIndex());
}
return true;
}
else if (MainCore::MsgMoveFeatureUIToWorkspace::match(cmd))
{
MainCore::MsgMoveFeatureUIToWorkspace& notif = (MainCore::MsgMoveFeatureUIToWorkspace&) cmd;
int featureIndex = notif.getFeatureIndex();
if (featureIndex < (int) m_featureUIs[0]->getNumberOfFeatures())
{
FeatureGUI *gui = m_featureUIs[0]->getFeatureGuiAt(featureIndex);
featureMove(gui, notif.getWorkspaceIndex());
}
return true;
}
else if (MainCore::MsgMoveChannelUIToWorkspace::match(cmd))
{
MainCore::MsgMoveChannelUIToWorkspace& notif = (MainCore::MsgMoveChannelUIToWorkspace&) cmd;
int deviceSetIndex = notif.getDeviceSetIndex();
if (deviceSetIndex < (int) m_deviceUIs.size())
{
int channelIndex = notif.getChannelIndex();
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
if (channelIndex < deviceUISet->getNumberOfChannels())
{
ChannelGUI *gui = deviceUISet->getChannelGUIAt(channelIndex);
channelMove(gui, notif.getWorkspaceIndex());
}
}
return true;
}
else if (MainCore::MsgApplySettings::match(cmd))
{
applySettings();
return true;
}
else if (MainCore::MsgDVSerial::match(cmd))
{
// MainCore::MsgDVSerial& notif = (MainCore::MsgDVSerial&) cmd;
// ui->action_DV_Serial->setChecked(notif.getActive());
return true;
}
return false;
}
void MainWindow::handleMessages()
{
Message* message;
while ((message = m_inputMessageQueue.pop()) != 0)
{
qDebug("MainWindow::handleMessages: message: %s", message->getIdentifier());
handleMessage(*message);
delete message;
}
}
void MainWindow::handleWorkspaceVisibility(Workspace *workspace, bool visibility)
{
qDebug("MainWindow::handleWorkspaceHasFocus: index: %d %s",
workspace->getIndex(), visibility ? "visible" : "non visible");
m_currentWorkspace = workspace;
}
void MainWindow::addWorkspace()
{
int workspaceIndex = m_workspaces.size();
Workspace *workspace = new Workspace(workspaceIndex);
m_workspaces.push_back(workspace);
if (workspace->getMenuButton()) {
createMenuBar(workspace->getMenuButton());
}
QStringList featureNames;
m_pluginManager->listFeatures(featureNames);
m_workspaces.back()->addAvailableFeatures(featureNames);
this->addDockWidget(Qt::LeftDockWidgetArea, m_workspaces.back());
QObject::connect(
m_workspaces.back(),
&Workspace::addRxDevice,
this,
[=](Workspace *inWorkspace, int deviceIndex) { this->sampleSourceAdd(inWorkspace, inWorkspace, deviceIndex); }
);
QObject::connect(
m_workspaces.back(),
&Workspace::addTxDevice,
this,
[=](Workspace *inWorkspace, int deviceIndex) { this->sampleSinkAdd(inWorkspace, inWorkspace, deviceIndex); }
);
QObject::connect(
m_workspaces.back(),
&Workspace::addMIMODevice,
this,
[=](Workspace *inWorkspace, int deviceIndex) { this->sampleMIMOAdd(inWorkspace, inWorkspace, deviceIndex); }
);
QObject::connect(
m_workspaces.back(),
&Workspace::addFeature,
this,
&MainWindow::featureAddClicked
);
QObject::connect(
m_workspaces.back(),
&Workspace::featurePresetsDialogRequested,
this,
&MainWindow::openFeaturePresetsDialog
);
QObject::connect(
m_workspaces.back(),
&Workspace::configurationPresetsDialogRequested,
this,
&MainWindow::on_action_Configurations_triggered
);
QObject::connect(
m_workspaces.back(),
&Workspace::startAllDevices,
this,
&MainWindow::startAllDevices
);
QObject::connect(
m_workspaces.back(),
&Workspace::stopAllDevices,
this,
&MainWindow::stopAllDevices
);
if (m_workspaces.size() > 1)
{
for (int i = 1; i < m_workspaces.size(); i++) {
tabifyDockWidget(m_workspaces[0], m_workspaces[i]);
}
m_workspaces.back()->show();
m_workspaces.back()->raise();
// QList tabBars = findChildren();
// if (tabBars.size() > 0) {
// tabBars.back()->setStyleSheet("QTabBar::tab:selected { background: rgb(128,70,0); }"); // change text color so it is visible
// }
}
}
void MainWindow::viewAllWorkspaces()
{
for (const auto& workspace : m_workspaces)
{
if (workspace->isHidden()) {
workspace->show();
}
}
}
void MainWindow::removeEmptyWorkspaces()
{
QList::iterator it = m_workspaces.begin();
while (it != m_workspaces.end())
{
if ((*it)->getNumberOfSubWindows() == 0)
{
removeDockWidget(*it);
it = m_workspaces.erase(it);
}
else
{
++it;
}
}
// Renumerate
for (int i = 0; i < m_workspaces.size(); i++)
{
Workspace *workspace = m_workspaces[i];
workspace->setIndex(i);
QList subWindows = workspace->getSubWindowList();
for (auto& subWindow : subWindows)
{
if (qobject_cast(subWindow)) {
qobject_cast(subWindow)->setWorkspaceIndex(i);
}
if (qobject_cast(subWindow)) {
qobject_cast(subWindow)->setWorkspaceIndex(i);
}
if (qobject_cast(subWindow)) {
qobject_cast(subWindow)->setWorkspaceIndex(i);
}
if (qobject_cast(subWindow)) {
qobject_cast(subWindow)->setWorkspaceIndex(i);
}
}
}
#ifdef ANDROID
// Need at least one workspace on Android, as no menus without
if (m_workspaces.size() == 0) {
addWorkspace();
}
#endif
}
#ifdef ANDROID
void MainWindow::on_action_View_KeepScreenOn_toggled(bool checked)
{
if (checked) {
Android::acquireScreenLock();
} else {
Android::releaseScreenLock();
}
}
#endif
void MainWindow::on_action_View_Fullscreen_toggled(bool checked)
{
if(checked) {
showFullScreen();
} else {
showNormal();
}
}
void MainWindow::commandKeysConnect(QObject *object, const char *slot)
{
setFocus();
connect(
m_commandKeyReceiver,
SIGNAL(capturedKey(Qt::Key, Qt::KeyboardModifiers, bool)),
object,
slot
);
}
void MainWindow::commandKeysDisconnect(QObject *object, const char *slot)
{
disconnect(
m_commandKeyReceiver,
SIGNAL(capturedKey(Qt::Key, Qt::KeyboardModifiers, bool)),
object,
slot
);
}
void MainWindow::on_action_saveAll_triggered()
{
saveConfiguration(m_mainCore->m_settings.getWorkingConfiguration());
m_mainCore->m_settings.save();
QMessageBox::information(this, tr("Done"), tr("All current settings saved"));
}
void MainWindow::on_action_Quick_Start_triggered()
{
QDesktopServices::openUrl(QUrl("https://github.com/f4exb/sdrangel/wiki/Quick-start"));
}
void MainWindow::on_action_Main_Window_triggered()
{
QDesktopServices::openUrl(QUrl("https://github.com/f4exb/sdrangel/blob/master/sdrgui/readme.md"));
}
void MainWindow::on_action_Loaded_Plugins_triggered()
{
PluginsDialog pluginsDialog(m_pluginManager, this);
pluginsDialog.exec();
}
void MainWindow::on_action_Configurations_triggered()
{
openConfigurationDialog(false);
}
void MainWindow::openConfigurationDialog(bool openOnly)
{
ConfigurationsDialog dialog(openOnly, this);
dialog.setConfigurations(m_mainCore->m_settings.getConfigurations());
dialog.populateTree();
QObject::connect(
&dialog,
&ConfigurationsDialog::saveConfiguration,
this,
&MainWindow::saveConfiguration
);
QObject::connect(
&dialog,
&ConfigurationsDialog::loadConfiguration,
this,
[=](const Configuration* configuration) { this->loadConfiguration(configuration, true); }
);
new DialogPositioner(&dialog, true);
dialog.exec();
}
void MainWindow::on_action_Audio_triggered()
{
AudioDialogX audioDialog(m_dspEngine->getAudioDeviceManager(), this);
new DialogPositioner(&audioDialog, true);
audioDialog.exec();
}
void MainWindow::on_action_Graphics_triggered()
{
GraphicsDialog graphicsDialog(m_mainCore->m_settings, this);
new DialogPositioner(&graphicsDialog, true);
graphicsDialog.exec();
}
void MainWindow::on_action_Logging_triggered()
{
LoggingDialog loggingDialog(m_mainCore->m_settings, this);
new DialogPositioner(&loggingDialog, true);
loggingDialog.exec();
m_mainCore->setLoggingOptions();
}
void MainWindow::on_action_My_Position_triggered()
{
MyPositionDialog myPositionDialog(m_mainCore->m_settings, this);
new DialogPositioner(&myPositionDialog, true);
myPositionDialog.exec();
}
void MainWindow::on_action_DeviceUserArguments_triggered()
{
qDebug("MainWindow::on_action_DeviceUserArguments_triggered");
DeviceUserArgsDialog deviceUserArgsDialog(DeviceEnumerator::instance(), m_mainCore->m_settings.getDeviceUserArgs(), this);
new DialogPositioner(&deviceUserArgsDialog, true);
deviceUserArgsDialog.exec();
}
void MainWindow::on_action_commands_triggered()
{
qDebug("MainWindow::on_action_commands_triggered");
CommandsDialog commandsDialog(this);
commandsDialog.setApiHost(m_apiServer->getHost());
commandsDialog.setApiPort(m_apiServer->getPort());
commandsDialog.setCommandKeyReceiver(m_commandKeyReceiver);
commandsDialog.populateTree();
new DialogPositioner(&commandsDialog, true);
commandsDialog.exec();
}
void MainWindow::on_action_FFT_triggered()
{
qDebug("MainWindow::on_action_FFT_triggered");
if (m_fftWisdomProcess)
{
QMessageBox::information(this, "FFTW Wisdom", QString("Process %1 is already running").arg(m_fftWisdomProcess->processId()));
return;
}
m_fftWisdomProcess = new QProcess(this);
connect(m_fftWisdomProcess,
SIGNAL(finished(int, QProcess::ExitStatus)),
this,
SLOT(fftWisdomProcessFinished(int, QProcess::ExitStatus)));
FFTWisdomDialog fftWisdomDialog(m_fftWisdomProcess, this);
new DialogPositioner(&fftWisdomDialog, true);
if (fftWisdomDialog.exec() == QDialog::Rejected)
{
disconnect(m_fftWisdomProcess,
SIGNAL(finished(int, QProcess::ExitStatus)),
this,
SLOT(fftWisdomProcessFinished(int, QProcess::ExitStatus)));
delete m_fftWisdomProcess;
m_fftWisdomProcess = nullptr;
}
else
{
QMessageBox::information(this, "FFTW Wisdom", QString("Process %1 started").arg(m_fftWisdomProcess->processId()));
}
}
void MainWindow::fftWisdomProcessFinished(int exitCode, QProcess::ExitStatus exitStatus)
{
qDebug("MainWindow::fftWisdomProcessFinished: process finished rc=%d (%d)", exitCode, (int) exitStatus);
if ((exitCode != 0) || (exitStatus != QProcess::NormalExit))
{
QMessageBox::critical(this, "FFTW Wisdom", "fftwf-widdsom program failed");
}
else
{
QString log = m_fftWisdomProcess->readAllStandardOutput();
QMessageBox::information(this, "FFTW Wisdom", QString("Success\n%1").arg(log));
}
delete m_fftWisdomProcess;
m_fftWisdomProcess = nullptr;
}
void MainWindow::samplingDeviceChangeHandler(DeviceGUI *deviceGUI, int newDeviceIndex)
{
int deviceType = (int) deviceGUI->getDeviceType();
int deviceSetIndex = deviceGUI->getIndex();
Workspace *workspace = m_workspaces[deviceGUI->getWorkspaceIndex()];
sampleDeviceChange(deviceType, deviceSetIndex, newDeviceIndex, workspace);
}
void MainWindow::sampleDeviceChange(int deviceType, int deviceSetIndex, int newDeviceIndex, Workspace *workspace)
{
qDebug("MainWindow::sampleDeviceChange: deviceType: %d deviceSetIndex: %d newDeviceIndex: %d",
deviceType, deviceSetIndex, newDeviceIndex);
if (deviceType == 0) {
sampleSourceChange(deviceSetIndex, newDeviceIndex, workspace);
} else if (deviceType == 1) {
sampleSinkChange(deviceSetIndex, newDeviceIndex, workspace);
} else if (deviceType == 2) {
sampleMIMOChange(deviceSetIndex, newDeviceIndex, workspace);
}
emit MainCore::instance()->deviceChanged(deviceSetIndex);
}
void MainWindow::sampleSourceChange(int deviceSetIndex, int newDeviceIndex, Workspace *workspace)
{
if (deviceSetIndex >= 0)
{
qDebug("MainWindow::sampleSourceChange: deviceSet %d workspace: %d", deviceSetIndex, workspace->getIndex());
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
QPoint p = deviceUISet->m_deviceGUI->pos();
workspace->removeFromMdiArea(deviceUISet->m_deviceGUI);
// deviceUI->m_deviceAPI->saveSamplingDeviceSettings(m_mainCore->m_settings.getWorkingPreset()); // save old API settings
deviceUISet->m_deviceAPI->stopDeviceEngine();
// deletes old UI and input object
deviceUISet->m_deviceAPI->getSampleSource()->setMessageQueueToGUI(nullptr); // have source stop sending messages to the GUI
deviceUISet->m_deviceGUI->destroy();
deviceUISet->m_deviceAPI->resetSamplingDeviceId();
deviceUISet->m_deviceAPI->getPluginInterface()->deleteSampleSourcePluginInstanceInput(deviceUISet->m_deviceAPI->getSampleSource());
deviceUISet->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
sampleSourceCreate(deviceSetIndex, newDeviceIndex, deviceUISet);
deviceUISet->m_deviceGUI->setWorkspaceIndex(workspace->getIndex());
workspace->addToMdiArea(deviceUISet->m_deviceGUI);
deviceUISet->m_deviceGUI->move(p);
QObject::connect(
deviceUISet->m_deviceGUI,
&DeviceGUI::addChannelEmitted,
this,
[=](int channelPluginIndex){ this->channelAddClicked(workspace, deviceSetIndex, channelPluginIndex); }
);
}
}
void MainWindow::sampleSinkChange(int deviceSetIndex, int newDeviceIndex, Workspace *workspace)
{
if (deviceSetIndex >= 0)
{
qDebug("MainWindow::sampleSinkChange: deviceSet %d workspace: %d", deviceSetIndex, workspace->getIndex());
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
QPoint p = deviceUISet->m_deviceGUI->pos();
workspace->removeFromMdiArea(deviceUISet->m_deviceGUI);
deviceUISet->m_deviceAPI->saveSamplingDeviceSettings(m_mainCore->m_settings.getWorkingPreset()); // save old API settings
deviceUISet->m_deviceAPI->stopDeviceEngine();
// deletes old UI and output object
deviceUISet->m_deviceAPI->getSampleSink()->setMessageQueueToGUI(nullptr); // have sink stop sending messages to the GUI
m_deviceUIs[deviceSetIndex]->m_deviceGUI->destroy();
deviceUISet->m_deviceAPI->resetSamplingDeviceId();
deviceUISet->m_deviceAPI->getPluginInterface()->deleteSampleSinkPluginInstanceOutput(deviceUISet->m_deviceAPI->getSampleSink());
deviceUISet->m_deviceAPI->clearBuddiesLists(); // clear old API buddies lists
sampleSinkCreate(deviceSetIndex, newDeviceIndex, deviceUISet);
deviceUISet->m_deviceGUI->setWorkspaceIndex(workspace->getIndex());
workspace->addToMdiArea(deviceUISet->m_deviceGUI);
deviceUISet->m_deviceGUI->move(p);
QObject::connect(
deviceUISet->m_deviceGUI,
&DeviceGUI::addChannelEmitted,
this,
[=](int channelPluginIndex){ this->channelAddClicked(workspace, deviceSetIndex, channelPluginIndex); }
);
}
}
void MainWindow::sampleMIMOChange(int deviceSetIndex, int newDeviceIndex, Workspace *workspace)
{
if (deviceSetIndex >= 0)
{
qDebug("MainWindow::sampleSinkChange: deviceSet %d workspace: %d", deviceSetIndex, workspace->getIndex());
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
QPoint p = deviceUISet->m_deviceGUI->pos();
workspace->removeFromMdiArea(deviceUISet->m_deviceGUI);
deviceUISet->m_deviceAPI->saveSamplingDeviceSettings(m_mainCore->m_settings.getWorkingPreset()); // save old API settings
deviceUISet->m_deviceAPI->stopDeviceEngine();
// deletes old UI and output object
deviceUISet->m_deviceAPI->getSampleMIMO()->setMessageQueueToGUI(nullptr); // have sink stop sending messages to the GUI
deviceUISet->m_deviceGUI->destroy();
deviceUISet->m_deviceAPI->resetSamplingDeviceId();
deviceUISet->m_deviceAPI->getPluginInterface()->deleteSampleMIMOPluginInstanceMIMO(deviceUISet->m_deviceAPI->getSampleMIMO());
sampleMIMOCreate(deviceSetIndex, newDeviceIndex, deviceUISet);
deviceUISet->m_deviceGUI->setWorkspaceIndex(workspace->getIndex());
workspace->addToMdiArea(deviceUISet->m_deviceGUI);
deviceUISet->m_deviceGUI->move(p);
QObject::connect(
deviceUISet->m_deviceGUI,
&DeviceGUI::addChannelEmitted,
this,
[=](int channelPluginIndex){ this->channelAddClicked(workspace, deviceSetIndex, channelPluginIndex); }
);
}
}
void MainWindow::channelMoveToDeviceSet(ChannelGUI *gui, int dsIndexDestination)
{
int deviceSetIndex = gui->getDeviceSetIndex();
int channelIndex = gui->getIndex();
qDebug("MainWindow::channelMoveToDeviceSet: %s at %d:%d to %d",
qPrintable(gui->getTitle()), deviceSetIndex, channelIndex, dsIndexDestination);
if ((deviceSetIndex < (int) m_deviceUIs.size()) && (dsIndexDestination < (int) m_deviceUIs.size()))
{
DeviceUISet *deviceUI = m_deviceUIs[deviceSetIndex];
DeviceUISet *destDeviceUI = m_deviceUIs[dsIndexDestination];
ChannelAPI *channelAPI = deviceUI->getChannelAt(channelIndex);
deviceUI->unregisterChannelInstanceAt(channelIndex);
if (deviceUI->m_deviceSourceEngine) // source devices
{
destDeviceUI->registerRxChannelInstance(channelAPI, gui);
}
else if (deviceUI->m_deviceSinkEngine) // sink devices
{
destDeviceUI->registerTxChannelInstance(channelAPI, gui);
}
else if (deviceUI->m_deviceMIMOEngine) // MIMO devices
{
destDeviceUI->registerChannelInstance(channelAPI, gui);
}
gui->setIndex(channelAPI->getIndexInDeviceSet());
gui->setDeviceSetIndex(dsIndexDestination);
DeviceAPI *destDeviceAPI = destDeviceUI->m_deviceAPI;
gui->setIndexToolTip(destDeviceAPI->getSamplingDeviceDisplayName());
channelAPI->setDeviceAPI(destDeviceAPI);
deviceUI->removeChannelMarker(&gui->getChannelMarker());
destDeviceUI->addChannelMarker(&gui->getChannelMarker());
}
}
void MainWindow::channelDuplicate(ChannelGUI *sourceChannelGUI)
{
channelDuplicateToDeviceSet(sourceChannelGUI, sourceChannelGUI->getDeviceSetIndex()); // Duplicate in same device set
}
void MainWindow::channelDuplicateToDeviceSet(ChannelGUI *sourceChannelGUI, int dsIndexDestination)
{
int dsIndexSource = sourceChannelGUI->getDeviceSetIndex();
int sourceChannelIndex = sourceChannelGUI->getIndex();
qDebug("MainWindow::channelDuplicateToDeviceSet: %s at %d:%d to %d in workspace %d",
qPrintable(sourceChannelGUI->getTitle()), dsIndexSource, sourceChannelIndex, dsIndexDestination, sourceChannelGUI->getWorkspaceIndex());
if ((dsIndexSource < (int) m_deviceUIs.size()) && (dsIndexDestination < (int) m_deviceUIs.size()))
{
DeviceUISet *sourceDeviceUI = m_deviceUIs[dsIndexSource];
ChannelAPI *sourceChannelAPI = sourceDeviceUI->getChannelAt(sourceChannelIndex);
ChannelGUI *destChannelGUI = nullptr;
DeviceUISet *destDeviceUI = m_deviceUIs[dsIndexDestination];
if (destDeviceUI->m_deviceSourceEngine) // source device => Rx channels
{
PluginAPI::ChannelRegistrations *channelRegistrations = m_pluginManager->getRxChannelRegistrations();
PluginInterface *pluginInterface = nullptr;
for (const auto& channelRegistration : *channelRegistrations)
{
if (channelRegistration.m_channelIdURI == sourceChannelAPI->getURI())
{
pluginInterface = channelRegistration.m_plugin;
break;
}
}
if (pluginInterface)
{
ChannelAPI *channelAPI;
BasebandSampleSink *rxChannel;
pluginInterface->createRxChannel(destDeviceUI->m_deviceAPI, &rxChannel, &channelAPI);
destChannelGUI = pluginInterface->createRxChannelGUI(destDeviceUI, rxChannel);
destDeviceUI->registerRxChannelInstance(channelAPI, destChannelGUI);
destChannelGUI->setDeviceType(ChannelGUI::DeviceRx);
destChannelGUI->setIndex(channelAPI->getIndexInDeviceSet());
QByteArray b = sourceChannelGUI->serialize();
destChannelGUI->deserialize(b);
}
}
else if (destDeviceUI->m_deviceSinkEngine) // sink device => Tx channels
{
PluginAPI::ChannelRegistrations *channelRegistrations = m_pluginManager->getTxChannelRegistrations(); // Available channel plugins
PluginInterface *pluginInterface = nullptr;
for (const auto& channelRegistration : *channelRegistrations)
{
if (channelRegistration.m_channelIdURI == sourceChannelAPI->getURI())
{
pluginInterface = channelRegistration.m_plugin;
break;
}
}
if (pluginInterface)
{
ChannelAPI *channelAPI;
BasebandSampleSource *txChannel;
pluginInterface->createTxChannel(destDeviceUI->m_deviceAPI, &txChannel, &channelAPI);
destChannelGUI = pluginInterface->createTxChannelGUI(destDeviceUI, txChannel);
destDeviceUI->registerTxChannelInstance(channelAPI, destChannelGUI);
destChannelGUI->setDeviceType(ChannelGUI::DeviceTx);
destChannelGUI->setIndex(channelAPI->getIndexInDeviceSet());
QByteArray b = sourceChannelGUI->serialize();
destChannelGUI->deserialize(b);
}
}
else if (destDeviceUI->m_deviceMIMOEngine) // MIMO device => Any type of channel is possible
{
PluginAPI::ChannelRegistrations *rxChannelRegistrations = m_pluginManager->getRxChannelRegistrations();
PluginAPI::ChannelRegistrations *txChannelRegistrations = m_pluginManager->getTxChannelRegistrations();
PluginAPI::ChannelRegistrations *mimoChannelRegistrations = m_pluginManager->getMIMOChannelRegistrations();
PluginInterface *pluginInterface = nullptr;
for (const auto& channelRegistration : *rxChannelRegistrations)
{
if (channelRegistration.m_channelIdURI == sourceChannelAPI->getURI())
{
pluginInterface = channelRegistration.m_plugin;
break;
}
}
if (pluginInterface) // Rx channel
{
ChannelAPI *channelAPI;
BasebandSampleSink *rxChannel;
pluginInterface->createRxChannel(destDeviceUI->m_deviceAPI, &rxChannel, &channelAPI);
destChannelGUI = pluginInterface->createRxChannelGUI(destDeviceUI, rxChannel);
destDeviceUI->registerRxChannelInstance(channelAPI, destChannelGUI);
destChannelGUI->setDeviceType(ChannelGUI::DeviceMIMO);
destChannelGUI->setIndex(channelAPI->getIndexInDeviceSet());
QByteArray b = sourceChannelGUI->serialize();
destChannelGUI->deserialize(b);
}
else
{
for (const auto& channelRegistration : *txChannelRegistrations)
{
if (channelRegistration.m_channelIdURI == sourceChannelAPI->getURI())
{
pluginInterface = channelRegistration.m_plugin;
break;
}
}
if (pluginInterface) // Tx channel
{
ChannelAPI *channelAPI;
BasebandSampleSource *txChannel;
pluginInterface->createTxChannel(destDeviceUI->m_deviceAPI, &txChannel, &channelAPI);
destChannelGUI = pluginInterface->createTxChannelGUI(destDeviceUI, txChannel);
destDeviceUI->registerTxChannelInstance(channelAPI, destChannelGUI);
destChannelGUI->setDeviceType(ChannelGUI::DeviceMIMO);
destChannelGUI->setIndex(channelAPI->getIndexInDeviceSet());
QByteArray b = sourceChannelGUI->serialize();
destChannelGUI->deserialize(b);
}
else
{
for (const auto& channelRegistration : *mimoChannelRegistrations)
{
if (channelRegistration.m_channelIdURI == sourceChannelAPI->getURI())
{
pluginInterface = channelRegistration.m_plugin;
break;
}
}
if (pluginInterface)
{
ChannelAPI *channelAPI;
MIMOChannel *mimoChannel;
pluginInterface->createMIMOChannel(destDeviceUI->m_deviceAPI, &mimoChannel, &channelAPI);
destChannelGUI = pluginInterface->createMIMOChannelGUI(destDeviceUI, mimoChannel);
destDeviceUI->registerChannelInstance(channelAPI, destChannelGUI);
destChannelGUI->setDeviceType(ChannelGUI::DeviceMIMO);
destChannelGUI->setIndex(channelAPI->getIndexInDeviceSet());
QByteArray b = sourceChannelGUI->serialize();
destChannelGUI->deserialize(b);
}
}
}
}
DeviceAPI *destDeviceAPI = destDeviceUI->m_deviceAPI;
int workspaceIndex = sourceChannelGUI->getWorkspaceIndex();
Workspace *workspace = workspaceIndex < m_workspaces.size() ? m_workspaces[sourceChannelGUI->getWorkspaceIndex()] : nullptr;
if (destChannelGUI && workspace)
{
QObject::connect(
destChannelGUI,
&ChannelGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->channelMove(destChannelGUI, wsIndexDest); }
);
QObject::connect(
destChannelGUI,
&ChannelGUI::duplicateChannelEmitted,
this,
[=](){ this->channelDuplicate(destChannelGUI); }
);
QObject::connect(
destChannelGUI,
&ChannelGUI::moveToDeviceSet,
this,
[=](int dsIndexDest){ this->channelMoveToDeviceSet(destChannelGUI, dsIndexDest); }
);
destChannelGUI->setDeviceSetIndex(dsIndexDestination);
destChannelGUI->setIndexToolTip(destDeviceAPI->getSamplingDeviceDisplayName());
destChannelGUI->setWorkspaceIndex(workspace->getIndex());
qDebug("MainWindow::channelDuplicate: adding %s to workspace #%d",
qPrintable(destChannelGUI->getTitle()), workspace->getIndex());
workspace->addToMdiArea((QMdiSubWindow*) destChannelGUI);
}
}
}
void MainWindow::channelAddClicked(Workspace *workspace, int deviceSetIndex, int channelPluginIndex)
{
if (deviceSetIndex < (int) m_deviceUIs.size())
{
DeviceUISet *deviceUI = m_deviceUIs[deviceSetIndex];
ChannelGUI *gui = nullptr;
DeviceAPI *deviceAPI = deviceUI->m_deviceAPI;
if (deviceUI->m_deviceSourceEngine) // source device => Rx channels
{
PluginAPI::ChannelRegistrations *channelRegistrations = m_pluginManager->getRxChannelRegistrations(); // Available channel plugins
PluginInterface *pluginInterface = (*channelRegistrations)[channelPluginIndex].m_plugin;
ChannelAPI *channelAPI;
BasebandSampleSink *rxChannel;
pluginInterface->createRxChannel(deviceUI->m_deviceAPI, &rxChannel, &channelAPI);
gui = pluginInterface->createRxChannelGUI(deviceUI, rxChannel);
deviceUI->registerRxChannelInstance(channelAPI, gui);
gui->setDeviceType(ChannelGUI::DeviceRx);
gui->setIndex(channelAPI->getIndexInDeviceSet());
gui->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName);
}
else if (deviceUI->m_deviceSinkEngine) // sink device => Tx channels
{
PluginAPI::ChannelRegistrations *channelRegistrations = m_pluginManager->getTxChannelRegistrations(); // Available channel plugins
PluginInterface *pluginInterface = (*channelRegistrations)[channelPluginIndex].m_plugin;
ChannelAPI *channelAPI;
BasebandSampleSource *txChannel;
pluginInterface->createTxChannel(deviceUI->m_deviceAPI, &txChannel, &channelAPI);
gui = pluginInterface->createTxChannelGUI(deviceUI, txChannel);
deviceUI->registerTxChannelInstance(channelAPI, gui);
gui->setDeviceType(ChannelGUI::DeviceTx);
gui->setIndex(channelAPI->getIndexInDeviceSet());
gui->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName);
}
else if (deviceUI->m_deviceMIMOEngine) // MIMO device => all possible channels. Depends on index range
{
int nbMIMOChannels = deviceUI->getNumberOfAvailableMIMOChannels();
int nbRxChannels = deviceUI->getNumberOfAvailableRxChannels();
int nbTxChannels = deviceUI->getNumberOfAvailableTxChannels();
qDebug("MainWindow::channelAddClicked: MIMO: dev %d : nbMIMO: %d nbRx: %d nbTx: %d selected: %d",
deviceSetIndex, nbMIMOChannels, nbRxChannels, nbTxChannels, channelPluginIndex);
if (channelPluginIndex < nbMIMOChannels)
{
PluginAPI::ChannelRegistrations *channelRegistrations = m_pluginManager->getMIMOChannelRegistrations(); // Available channel plugins
PluginInterface *pluginInterface = (*channelRegistrations)[channelPluginIndex].m_plugin;
ChannelAPI *channelAPI;
MIMOChannel *mimoChannel;
pluginInterface->createMIMOChannel(deviceUI->m_deviceAPI, &mimoChannel, &channelAPI);
gui = pluginInterface->createMIMOChannelGUI(deviceUI, mimoChannel);
deviceUI->registerChannelInstance(channelAPI, gui);
gui->setIndex(channelAPI->getIndexInDeviceSet());
gui->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName);
}
else if (channelPluginIndex < nbMIMOChannels + nbRxChannels) // Rx
{
PluginAPI::ChannelRegistrations *channelRegistrations = m_pluginManager->getRxChannelRegistrations(); // Available channel plugins
PluginInterface *pluginInterface = (*channelRegistrations)[channelPluginIndex - nbMIMOChannels].m_plugin;
ChannelAPI *channelAPI;
BasebandSampleSink *rxChannel;
pluginInterface->createRxChannel(deviceUI->m_deviceAPI, &rxChannel, &channelAPI);
gui = pluginInterface->createRxChannelGUI(deviceUI, rxChannel);
deviceUI->registerRxChannelInstance(channelAPI, gui);
gui->setIndex(channelAPI->getIndexInDeviceSet());
gui->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName);
}
else if (channelPluginIndex < nbMIMOChannels + nbRxChannels + nbTxChannels)
{
PluginAPI::ChannelRegistrations *channelRegistrations = m_pluginManager->getTxChannelRegistrations(); // Available channel plugins
PluginInterface *pluginInterface = (*channelRegistrations)[channelPluginIndex - nbMIMOChannels - nbRxChannels].m_plugin;
ChannelAPI *channelAPI;
BasebandSampleSource *txChannel;
pluginInterface->createTxChannel(deviceUI->m_deviceAPI, &txChannel, &channelAPI);
gui = pluginInterface->createTxChannelGUI(deviceUI, txChannel);
deviceUI->registerTxChannelInstance(channelAPI, gui);
gui->setIndex(channelAPI->getIndexInDeviceSet());
gui->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName);
}
gui->setDeviceType(ChannelGUI::DeviceMIMO);
}
if (gui)
{
QObject::connect(
gui,
&ChannelGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->channelMove(gui, wsIndexDest); }
);
QObject::connect(
gui,
&ChannelGUI::duplicateChannelEmitted,
this,
[=](){ this->channelDuplicate(gui); }
);
QObject::connect(
gui,
&ChannelGUI::moveToDeviceSet,
this,
[=](int dsIndexDest){ this->channelMoveToDeviceSet(gui, dsIndexDest); }
);
gui->setDeviceSetIndex(deviceSetIndex);
gui->setIndexToolTip(deviceAPI->getSamplingDeviceDisplayName());
gui->setWorkspaceIndex(workspace->getIndex());
qDebug("MainWindow::channelAddClicked: adding %s to workspace #%d",
qPrintable(gui->getTitle()), workspace->getIndex());
workspace->addToMdiArea((QMdiSubWindow*) gui);
//gui->restoreGeometry(gui->getGeometryBytes());
}
}
}
void MainWindow::featureAddClicked(Workspace *workspace, int featureIndex)
{
qDebug("MainWindow::featureAddClicked: W%d feature at %d", workspace->getIndex(), featureIndex);
int currentFeatureSetIndex = 0; // Do it in the unique set
FeatureUISet *featureUISet = m_featureUIs[currentFeatureSetIndex];
qDebug("MainWindow::featureAddClicked: m_apiAdapter: %p", m_apiAdapter);
PluginAPI::FeatureRegistrations *featureRegistrations = m_pluginManager->getFeatureRegistrations(); // Available feature plugins
PluginInterface *pluginInterface = (*featureRegistrations)[featureIndex].m_plugin;
Feature *feature = pluginInterface->createFeature(m_apiAdapter);
FeatureGUI *gui = pluginInterface->createFeatureGUI(featureUISet, feature);
featureUISet->registerFeatureInstance(gui, feature);
gui->setIndex(feature->getIndexInFeatureSet());
gui->setWorkspaceIndex(workspace->getIndex());
gui->setDisplayedame(pluginInterface->getPluginDescriptor().displayedName);
workspace->addToMdiArea((QMdiSubWindow*) gui);
QObject::connect(
gui,
&FeatureGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->featureMove(gui, wsIndexDest); }
);
}
void MainWindow::featureMove(FeatureGUI *gui, int wsIndexDestnation)
{
int wsIndexOrigin = gui->getWorkspaceIndex();
if (wsIndexOrigin == wsIndexDestnation) {
return;
}
m_workspaces[wsIndexOrigin]->removeFromMdiArea(gui);
gui->setWorkspaceIndex(wsIndexDestnation);
m_workspaces[wsIndexDestnation]->addToMdiArea(gui);
}
void MainWindow::deviceMove(DeviceGUI *gui, int wsIndexDestnation)
{
int wsIndexOrigin = gui->getWorkspaceIndex();
qDebug("MainWindow::deviceMove: %s from %d to %d",
qPrintable(gui->getTitle()), wsIndexOrigin, wsIndexDestnation);
if (wsIndexOrigin == wsIndexDestnation) {
return;
}
m_workspaces[wsIndexOrigin]->removeFromMdiArea(gui);
gui->setWorkspaceIndex(wsIndexDestnation);
m_workspaces[wsIndexDestnation]->addToMdiArea(gui);
}
void MainWindow::channelMove(ChannelGUI *gui, int wsIndexDestnation)
{
int wsIndexOrigin = gui->getWorkspaceIndex();
if (wsIndexOrigin == wsIndexDestnation) {
return;
}
m_workspaces[wsIndexOrigin]->removeFromMdiArea(gui);
gui->setWorkspaceIndex(wsIndexDestnation);
m_workspaces[wsIndexDestnation]->addToMdiArea(gui);
}
void MainWindow::mainSpectrumMove(MainSpectrumGUI *gui, int wsIndexDestnation)
{
int wsIndexOrigin = gui->getWorkspaceIndex();
qDebug("MainWindow::mainSpectrumMove: %s from %d to %d",
qPrintable(gui->getTitle()), wsIndexOrigin, wsIndexDestnation);
if (wsIndexOrigin == wsIndexDestnation) {
return;
}
m_workspaces[wsIndexOrigin]->removeFromMdiArea(gui);
gui->setWorkspaceIndex(wsIndexDestnation);
m_workspaces[wsIndexDestnation]->addToMdiArea(gui);
}
void MainWindow::mainSpectrumShow(int deviceSetIndex)
{
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
deviceUISet->m_mainSpectrumGUI->show();
deviceUISet->m_mainSpectrumGUI->raise();
}
void MainWindow::mainSpectrumRequestDeviceCenterFrequency(int deviceSetIndex, qint64 deviceCenterFrequency)
{
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
DeviceAPI *deviceAPI = deviceUISet->m_deviceAPI;
if (deviceAPI->getSampleSource()) {
deviceAPI->getSampleSource()->setCenterFrequency(deviceCenterFrequency);
} else if (deviceAPI->getSampleSink()) {
deviceAPI->getSampleSink()->setCenterFrequency(deviceCenterFrequency);
}
// Not implemented for MIMO
}
void MainWindow::showAllChannels(int deviceSetIndex)
{
DeviceUISet *deviceUISet = m_deviceUIs[deviceSetIndex];
for (int i = 0; i < deviceUISet->getNumberOfChannels(); i++)
{
deviceUISet->getChannelGUIAt(i)->show();
deviceUISet->getChannelGUIAt(i)->raise();
}
}
// Start all devices in the workspace
void MainWindow::startAllDevices(Workspace *workspace)
{
int workspaceIndex = workspace->getIndex();
for (auto deviceUI : m_deviceUIs)
{
if (deviceUI->m_deviceAPI->getWorkspaceIndex() == workspaceIndex)
{
// We use WebAPI rather than call deviceUI->m_deviceAPI->startDeviceEngine();
// so that the start/stop button in the Device GUI is correctly updated
int deviceIndex = deviceUI->m_deviceAPI->getDeviceSetIndex();
ChannelWebAPIUtils::run(deviceIndex);
}
}
}
// Stop all devices in the workspace
void MainWindow::stopAllDevices(Workspace *workspace)
{
int workspaceIndex = workspace->getIndex();
for (auto deviceUI : m_deviceUIs)
{
if (deviceUI->m_deviceAPI->getWorkspaceIndex() == workspaceIndex)
{
int deviceIndex = deviceUI->m_deviceAPI->getDeviceSetIndex();
ChannelWebAPIUtils::stop(deviceIndex);
}
}
}
void MainWindow::deviceStateChanged(DeviceAPI *deviceAPI)
{
emit m_mainCore->deviceStateChanged(deviceAPI->getDeviceSetIndex(), deviceAPI);
}
void MainWindow::openFeaturePresetsDialog(QPoint p, Workspace *workspace)
{
FeaturePresetsDialog dialog;
dialog.setFeatureUISet(m_featureUIs[0]);
dialog.setPresets(m_mainCore->m_settings.getFeatureSetPresets());
dialog.setPluginAPI(m_pluginManager->getPluginAPI());
dialog.setWebAPIAdapter(m_apiAdapter);
dialog.setCurrentWorkspace(workspace);
dialog.setWorkspaces(&m_workspaces);
dialog.populateTree();
dialog.move(p);
new DialogPositioner(&dialog, true);
dialog.exec();
if (dialog.wasPresetLoaded())
{
for (int i = 0; i < m_featureUIs[0]->getNumberOfFeatures(); i++)
{
FeatureGUI *gui = m_featureUIs[0]->getFeatureGuiAt(i);
QObject::connect(
gui,
&FeatureGUI::moveToWorkspace,
this,
[=](int wsIndexDest){ this->featureMove(gui, wsIndexDest); }
);
}
}
}
void MainWindow::openDeviceSetPresetsDialog(QPoint p, DeviceGUI *deviceGUI)
{
Workspace *workspace = m_workspaces[deviceGUI->getWorkspaceIndex()];
DeviceUISet *deviceUISet = m_deviceUIs[deviceGUI->getIndex()];
DeviceSetPresetsDialog dialog;
dialog.setDeviceUISet(deviceUISet);
dialog.setPresets(m_mainCore->m_settings.getPresets());
dialog.setPluginAPI(m_pluginManager->getPluginAPI());
dialog.setCurrentWorkspace(workspace);
dialog.setWorkspaces(&m_workspaces);
dialog.populateTree((int) deviceGUI->getDeviceType());
dialog.move(p);
new DialogPositioner(&dialog, true);
dialog.exec();
}
void MainWindow::deleteFeature(int featureSetIndex, int featureIndex)
{
if ((featureSetIndex >= 0) && (featureSetIndex < (int) m_featureUIs.size()))
{
FeatureUISet *featureUISet = m_featureUIs[featureSetIndex];
featureUISet->deleteFeature(featureIndex);
}
}
void MainWindow::on_action_About_triggered()
{
AboutDialog dlg(m_apiHost.isEmpty() ? "127.0.0.1" : m_apiHost, m_apiPort, m_mainCore->m_settings, this);
dlg.exec();
}
void MainWindow::updateStatus()
{
if (m_dateTimeWidget) {
m_dateTimeWidget->setText(QDateTime::currentDateTime().toString("yyyy-MM-dd HH:mm:ss t"));
}
}
void MainWindow::commandKeyPressed(Qt::Key key, Qt::KeyboardModifiers keyModifiers, bool release)
{
qDebug("MainWindow::commandKeyPressed: key: %x mod: %x %s", (int) key, (int) keyModifiers, release ? "release" : "press");
int currentDeviceSetIndex = 0;
for (int i = 0; i < m_mainCore->m_settings.getCommandCount(); ++i)
{
const Command* command = m_mainCore->m_settings.getCommand(i);
if (command->getAssociateKey()
&& (command->getRelease() == release)
&& (command->getKey() == key)
&& (command->getKeyModifiers() == keyModifiers))
{
Command* command_mod = const_cast(command);
command_mod->run(m_apiServer->getHost(), m_apiServer->getPort(), currentDeviceSetIndex);
}
}
}
void MainWindow::keyPressEvent(QKeyEvent* event)
{
#ifdef ANDROID
if (event->key() == Qt::Key_Back)
{
// On Android, we don't want to exit when back key is pressed, just run in the background
Android::moveTaskToBack();
}
else
#endif
{
QMainWindow::keyPressEvent(event);
}
}
void MainWindow::orientationChanged(Qt::ScreenOrientation orientation)
{
#ifdef ANDROID
// Adjust workspace tab position, to leave max space for MDI windows
if ((orientation == Qt::LandscapeOrientation) || (orientation == Qt::InvertedLandscapeOrientation)) {
setTabPosition(Qt::LeftDockWidgetArea, QTabWidget::West);
} else {
setTabPosition(Qt::LeftDockWidgetArea, QTabWidget::South);
}
#else
(void) orientation;
#endif
}