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///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2023-2024 Jon Beniston, M7RCE //
// Copyright (C) 2020 Edouard Griffiths, F4EXB //
// //
// This program is free software; you can redistribute it and/or modify //
// it under the terms of the GNU General Public License as published by //
// the Free Software Foundation as version 3 of the License, or //
// (at your option) any later version. //
// //
// This program is distributed in the hope that it will be useful, //
// but WITHOUT ANY WARRANTY; without even the implied warranty of //
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
// GNU General Public License V3 for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
# include <QDesktopServices>
# include <QAction>
# include <QClipboard>
# include <QMediaPlayer>
# include <QVideoWidget>
# include "feature/featureuiset.h"
# include "feature/featurewebapiutils.h"
# include "channel/channelwebapiutils.h"
# include "gui/crightclickenabler.h"
# include "gui/basicfeaturesettingsdialog.h"
# include "gui/dialogpositioner.h"
# include "util/csv.h"
# include "util/astronomy.h"
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# include "util/vlftransmitters.h"
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# include "maincore.h"
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# include "ui_sidgui.h"
# include "sid.h"
# include "sidgui.h"
# include "sidsettingsdialog.h"
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# include "sidaddchannelsdialog.h"
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# include "SWGMapItem.h"
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SIDGUI * SIDGUI : : create ( PluginAPI * pluginAPI , FeatureUISet * featureUISet , Feature * feature )
{
SIDGUI * gui = new SIDGUI ( pluginAPI , featureUISet , feature ) ;
return gui ;
}
void SIDGUI : : destroy ( )
{
delete this ;
}
void SIDGUI : : resetToDefaults ( )
{
m_settings . resetToDefaults ( ) ;
displaySettings ( ) ;
applyAllSettings ( ) ;
}
QByteArray SIDGUI : : serialize ( ) const
{
return m_settings . serialize ( ) ;
}
bool SIDGUI : : deserialize ( const QByteArray & data )
{
if ( m_settings . deserialize ( data ) )
{
m_feature - > setWorkspaceIndex ( m_settings . m_workspaceIndex ) ;
displaySettings ( ) ;
applyAllSettings ( ) ;
return true ;
}
else
{
resetToDefaults ( ) ;
return false ;
}
}
bool SIDGUI : : handleMessage ( const Message & message )
{
if ( SIDMain : : MsgConfigureSID : : match ( message ) )
{
qDebug ( " SIDGUI::handleMessage: SID::MsgConfigureSID " ) ;
const SIDMain : : MsgConfigureSID & cfg = ( SIDMain : : MsgConfigureSID & ) message ;
if ( cfg . getForce ( ) ) {
m_settings = cfg . getSettings ( ) ;
} else {
m_settings . applySettings ( cfg . getSettingsKeys ( ) , cfg . getSettings ( ) ) ;
}
blockApplySettings ( true ) ;
displaySettings ( ) ;
blockApplySettings ( false ) ;
return true ;
}
else if ( SIDMain : : MsgMeasurement : : match ( message ) )
{
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// Measurements from SIDWorker
const SIDMain : : MsgMeasurement & measurementsMsg = ( SIDMain : : MsgMeasurement & ) message ;
QDateTime dt = measurementsMsg . getDateTime ( ) ;
const QStringList & ids = measurementsMsg . getIds ( ) ;
const QList < double > & measurements = measurementsMsg . getMeasurements ( ) ;
for ( int i = 0 ; i < ids . size ( ) ; i + + ) {
addMeasurement ( ids [ i ] , dt , measurements [ i ] ) ;
}
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return true ;
}
return false ;
}
void SIDGUI : : handleInputMessages ( )
{
Message * message ;
while ( ( message = getInputMessageQueue ( ) - > pop ( ) ) )
{
if ( handleMessage ( * message ) ) {
delete message ;
}
}
}
void SIDGUI : : onWidgetRolled ( QWidget * widget , bool rollDown )
{
( void ) widget ;
( void ) rollDown ;
RollupContents * rollupContents = getRollupContents ( ) ;
rollupContents - > saveState ( m_rollupState ) ;
applySetting ( " rollupState " ) ;
}
SIDGUI : : SIDGUI ( PluginAPI * pluginAPI , FeatureUISet * featureUISet , Feature * feature , QWidget * parent ) :
FeatureGUI ( parent ) ,
ui ( new Ui : : SIDGUI ) ,
m_pluginAPI ( pluginAPI ) ,
m_featureUISet ( featureUISet ) ,
m_doApplySettings ( true ) ,
m_lastFeatureState ( 0 ) ,
m_fileDialog ( nullptr , " Select CSV file " , " " , " *.csv " ) ,
m_chartXAxis ( nullptr ) ,
m_chartY1Axis ( nullptr ) ,
m_chartY2Axis ( nullptr ) ,
m_minMeasurement ( std : : numeric_limits < double > : : quiet_NaN ( ) ) ,
m_maxMeasurement ( std : : numeric_limits < double > : : quiet_NaN ( ) ) ,
m_xRayChartXAxis ( nullptr ) ,
m_xRayChartYAxis ( nullptr ) ,
m_goesXRay ( nullptr ) ,
m_solarDynamicsObservatory ( nullptr ) ,
m_player ( nullptr ) ,
m_grb ( nullptr ) ,
m_grbSeries ( nullptr ) ,
m_stix ( nullptr ) ,
m_stixSeries ( nullptr ) ,
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m_availableFeatureHandler ( { " sdrangel.feature.map " } ) ,
m_availableChannelHandler ( { } , " RM " )
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{
m_feature = feature ;
setAttribute ( Qt : : WA_DeleteOnClose , true ) ;
m_helpURL = " plugins/feature/sid/readme.md " ;
RollupContents * rollupContents = getRollupContents ( ) ;
ui - > setupUi ( rollupContents ) ;
rollupContents - > arrangeRollups ( ) ;
connect ( rollupContents , SIGNAL ( widgetRolled ( QWidget * , bool ) ) , this , SLOT ( onWidgetRolled ( QWidget * , bool ) ) ) ;
m_sid = reinterpret_cast < SIDMain * > ( feature ) ;
m_sid - > setMessageQueueToGUI ( & m_inputMessageQueue ) ;
connect ( this , SIGNAL ( customContextMenuRequested ( const QPoint & ) ) , this , SLOT ( onMenuDialogCalled ( const QPoint & ) ) ) ;
connect ( getInputMessageQueue ( ) , SIGNAL ( messageEnqueued ( ) ) , this , SLOT ( handleInputMessages ( ) ) ) ;
ui - > startDateTime - > blockSignals ( true ) ;
ui - > endDateTime - > blockSignals ( true ) ;
ui - > startDateTime - > setDateTime ( QDateTime ( QDate : : currentDate ( ) , QTime ( 0 , 0 , 0 ) ) ) ;
ui - > endDateTime - > setDateTime ( QDateTime ( QDate : : currentDate ( ) . addDays ( 1 ) , QTime ( 0 , 0 , 0 ) ) ) ;
ui - > startDateTime - > blockSignals ( false ) ;
ui - > endDateTime - > blockSignals ( false ) ;
// Intialise chart
ui - > chart - > setRenderHint ( QPainter : : Antialiasing ) ;
ui - > xRayChart - > setRenderHint ( QPainter : : Antialiasing ) ;
connect ( & m_statusTimer , & QTimer : : timeout , this , & SIDGUI : : updateStatus ) ;
m_statusTimer . start ( 250 ) ;
connect ( & m_autosaveTimer , & QTimer : : timeout , this , & SIDGUI : : autosave ) ;
m_settings . setRollupState ( & m_rollupState ) ;
CRightClickEnabler * autoscaleXRightClickEnabler = new CRightClickEnabler ( ui - > autoscaleX ) ;
connect ( autoscaleXRightClickEnabler , & CRightClickEnabler : : rightClick , this , & SIDGUI : : autoscaleXRightClicked ) ;
CRightClickEnabler * autoscaleYRightClickEnabler = new CRightClickEnabler ( ui - > autoscaleY ) ;
connect ( autoscaleYRightClickEnabler , & CRightClickEnabler : : rightClick , this , & SIDGUI : : autoscaleYRightClicked ) ;
CRightClickEnabler * todayRightClickEnabler = new CRightClickEnabler ( ui - > today ) ;
connect ( todayRightClickEnabler , & CRightClickEnabler : : rightClick , this , & SIDGUI : : todayRightClicked ) ;
makeUIConnections ( ) ; // Enable connections before displaySettings, so autoscaling works
displaySettings ( ) ;
applyAllSettings ( ) ;
m_resizer . enableChildMouseTracking ( ) ;
// Intialisation for Solar Dynamics Observatory image/video display
ui - > sdoEnabled - > setChecked ( true ) ;
ui - > sdoProgressBar - > setVisible ( false ) ;
ui - > sdoImage - > setStyleSheet ( " background-color: black; " ) ;
ui - > sdoVideo - > setStyleSheet ( " background-color: black; " ) ;
m_solarDynamicsObservatory = SolarDynamicsObservatory : : create ( ) ;
if ( m_solarDynamicsObservatory )
{
m_player = new QMediaPlayer ( ) ;
# if (QT_VERSION < QT_VERSION_CHECK(6, 0, 0))
connect ( m_player , qOverload < QMediaPlayer : : Error > ( & QMediaPlayer : : error ) , this , & SIDGUI : : sdoVideoError ) ;
connect ( m_player , & QMediaPlayer : : bufferStatusChanged , this , & SIDGUI : : sdoBufferStatusChanged ) ;
# else
connect ( m_player , & QMediaPlayer : : errorOccurred , this , & SIDGUI : : sdoVideoError ) ;
connect ( m_player , & QMediaPlayer : : bufferProgressChanged , this , & SIDGUI : : sdoBufferProgressChanged ) ;
# endif
connect ( m_player , & QMediaPlayer : : mediaStatusChanged , this , & SIDGUI : : sdoVideoStatusChanged ) ;
m_player - > setVideoOutput ( ui - > sdoVideo ) ;
ui - > sdoData - > blockSignals ( true ) ;
connect ( m_solarDynamicsObservatory , & SolarDynamicsObservatory : : imageUpdated , this , & SIDGUI : : sdoImageUpdated ) ;
for ( const auto & name : SolarDynamicsObservatory : : getImageNames ( ) ) {
ui - > sdoData - > addItem ( name ) ;
}
ui - > sdoData - > blockSignals ( false ) ;
ui - > sdoData - > setCurrentIndex ( 1 ) ;
m_settings . m_sdoData = ui - > sdoData - > currentText ( ) ;
}
// Intialisation for GOES X-Ray data
m_goesXRay = GOESXRay : : create ( ) ;
if ( m_goesXRay )
{
connect ( m_goesXRay , & GOESXRay : : xRayDataUpdated , this , & SIDGUI : : xRayDataUpdated ) ;
connect ( m_goesXRay , & GOESXRay : : protonDataUpdated , this , & SIDGUI : : protonDataUpdated ) ;
m_goesXRay - > getDataPeriodically ( ) ;
}
// Get Gamma Ray Bursts
m_grb = GRB : : create ( ) ;
if ( m_grb )
{
connect ( m_grb , & GRB : : dataUpdated , this , & SIDGUI : : grbDataUpdated ) ;
m_grb - > getDataPeriodically ( ) ;
}
// Get STIX Solar Flare data
m_stix = STIX : : create ( ) ;
if ( m_stix )
{
connect ( m_stix , & STIX : : dataUpdated , this , & SIDGUI : : stixDataUpdated ) ;
m_stix - > getDataPeriodically ( ) ;
}
plotChart ( ) ;
QObject : : connect (
& m_availableFeatureHandler ,
& AvailableChannelOrFeatureHandler : : channelsOrFeaturesChanged ,
this ,
& SIDGUI : : featuresChanged
) ;
m_availableFeatureHandler . scanAvailableChannelsAndFeatures ( ) ;
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QObject : : connect (
& m_availableChannelHandler ,
& AvailableChannelOrFeatureHandler : : channelsOrFeaturesChanged ,
this ,
& SIDGUI : : channelsChanged
) ;
m_availableChannelHandler . scanAvailableChannelsAndFeatures ( ) ;
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QObject : : connect ( ui - > chartSplitter , & QSplitter : : splitterMoved , this , & SIDGUI : : chartSplitterMoved ) ;
QObject : : connect ( ui - > sdoSplitter , & QSplitter : : splitterMoved , this , & SIDGUI : : sdoSplitterMoved ) ;
}
SIDGUI : : ~ SIDGUI ( )
{
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delete m_grb ;
delete m_stix ;
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m_statusTimer . stop ( ) ;
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clearFromMap ( ) ;
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delete m_goesXRay ;
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if ( m_solarDynamicsObservatory )
{
delete m_player ;
delete m_solarDynamicsObservatory ;
}
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delete ui ;
}
void SIDGUI : : connectDataUpdates ( )
{
if ( m_goesXRay )
{
connect ( m_goesXRay , & GOESXRay : : xRayDataUpdated , this , & SIDGUI : : xRayDataUpdated ) ;
connect ( m_goesXRay , & GOESXRay : : protonDataUpdated , this , & SIDGUI : : protonDataUpdated ) ;
}
}
void SIDGUI : : disconnectDataUpdates ( )
{
if ( m_goesXRay )
{
disconnect ( m_goesXRay , & GOESXRay : : xRayDataUpdated , this , & SIDGUI : : xRayDataUpdated ) ;
disconnect ( m_goesXRay , & GOESXRay : : protonDataUpdated , this , & SIDGUI : : protonDataUpdated ) ;
}
}
void SIDGUI : : getData ( )
{
if ( m_goesXRay ) {
m_goesXRay - > getData ( ) ;
}
}
void SIDGUI : : setWorkspaceIndex ( int index )
{
m_settings . m_workspaceIndex = index ;
m_feature - > setWorkspaceIndex ( index ) ;
m_settingsKeys . append ( " workspaceIndex " ) ;
}
void SIDGUI : : blockApplySettings ( bool block )
{
m_doApplySettings = ! block ;
}
void SIDGUI : : displaySettings ( )
{
setTitleColor ( m_settings . m_rgbColor ) ;
setWindowTitle ( m_settings . m_title ) ;
setTitle ( m_settings . m_title ) ;
blockApplySettings ( true ) ;
ui - > samples - > setValue ( m_settings . m_samples ) ;
ui - > separateCharts - > setChecked ( m_settings . m_separateCharts ) ;
ui - > displayLegend - > setChecked ( m_settings . m_displayLegend ) ;
ui - > plotXRayLongPrimary - > setChecked ( m_settings . m_plotXRayLongPrimary ) ;
ui - > plotXRayLongSecondary - > setChecked ( m_settings . m_plotXRayLongSecondary ) ;
ui - > plotXRayShortPrimary - > setChecked ( m_settings . m_plotXRayShortPrimary ) ;
ui - > plotXRayShortSecondary - > setChecked ( m_settings . m_plotXRayShortSecondary ) ;
ui - > plotGRB - > setChecked ( m_settings . m_plotGRB ) ;
ui - > plotSTIX - > setChecked ( m_settings . m_plotSTIX ) ;
ui - > plotProton - > setChecked ( m_settings . m_plotProton ) ;
ui - > autoscaleX - > setChecked ( m_settings . m_autoscaleX ) ;
ui - > autoscaleY - > setChecked ( m_settings . m_autoscaleY ) ;
ui - > startDateTime - > clearMaximumDateTime ( ) ;
ui - > endDateTime - > clearMinimumDateTime ( ) ;
if ( m_settings . m_startDateTime . isValid ( ) ) {
ui - > startDateTime - > setDateTime ( m_settings . m_startDateTime ) ;
}
if ( m_settings . m_endDateTime . isValid ( ) ) {
ui - > endDateTime - > setDateTime ( m_settings . m_endDateTime ) ;
}
ui - > startDateTime - > setMaximumDateTime ( ui - > endDateTime - > dateTime ( ) ) ;
ui - > endDateTime - > setMinimumDateTime ( ui - > startDateTime - > dateTime ( ) ) ;
ui - > y1Min - > setValue ( m_settings . m_y1Min ) ;
ui - > y1Max - > setValue ( m_settings . m_y1Max ) ;
setAutoscaleX ( ) ;
setAutoscaleY ( ) ;
setXAxisRange ( ) ;
setY1AxisRange ( ) ;
setAutosaveTimer ( ) ;
ui - > sdoEnabled - > setChecked ( m_settings . m_sdoEnabled ) ;
ui - > sdoVideoEnabled - > setChecked ( m_settings . m_sdoVideoEnabled ) ;
ui - > sdoData - > setCurrentText ( m_settings . m_sdoData ) ;
ui - > sdoNow - > setChecked ( m_settings . m_sdoNow ) ;
ui - > sdoDateTime - > setEnabled ( ! m_settings . m_sdoNow ) ;
ui - > mapLabel - > setEnabled ( ! m_settings . m_sdoNow ) ;
ui - > map - > setEnabled ( ! m_settings . m_sdoNow ) ;
ui - > sdoDateTime - > setDateTime ( m_settings . m_sdoDateTime ) ;
ui - > map - > setCurrentText ( m_settings . m_map ) ;
applySDO ( ) ;
applyDateTime ( ) ;
if ( m_settings . m_autoload ) {
readCSV ( m_settings . m_filename , true ) ;
}
getRollupContents ( ) - > restoreState ( m_rollupState ) ;
if ( m_settings . m_chartSplitterSizes . size ( ) > 0 ) {
ui - > chartSplitter - > setSizes ( m_settings . m_chartSplitterSizes ) ;
}
if ( m_settings . m_sdoSplitterSizes . size ( ) > 0 ) {
ui - > sdoSplitter - > setSizes ( m_settings . m_sdoSplitterSizes ) ;
}
blockApplySettings ( false ) ;
getRollupContents ( ) - > arrangeRollups ( ) ;
}
void SIDGUI : : setAutosaveTimer ( )
{
if ( m_settings . m_autosave ) {
m_autosaveTimer . start ( 1000 * 60 * m_settings . m_autosavePeriod ) ;
} else {
m_autosaveTimer . stop ( ) ;
}
}
void SIDGUI : : onMenuDialogCalled ( const QPoint & p )
{
if ( m_contextMenuType = = ContextMenuChannelSettings )
{
BasicFeatureSettingsDialog dialog ( this ) ;
dialog . setTitle ( m_settings . m_title ) ;
dialog . setUseReverseAPI ( m_settings . m_useReverseAPI ) ;
dialog . setReverseAPIAddress ( m_settings . m_reverseAPIAddress ) ;
dialog . setReverseAPIPort ( m_settings . m_reverseAPIPort ) ;
dialog . setReverseAPIFeatureSetIndex ( m_settings . m_reverseAPIFeatureSetIndex ) ;
dialog . setReverseAPIFeatureIndex ( m_settings . m_reverseAPIFeatureIndex ) ;
dialog . setDefaultTitle ( m_displayedName ) ;
dialog . move ( p ) ;
new DialogPositioner ( & dialog , false ) ;
dialog . exec ( ) ;
m_settings . m_title = dialog . getTitle ( ) ;
m_settings . m_useReverseAPI = dialog . useReverseAPI ( ) ;
m_settings . m_reverseAPIAddress = dialog . getReverseAPIAddress ( ) ;
m_settings . m_reverseAPIPort = dialog . getReverseAPIPort ( ) ;
m_settings . m_reverseAPIFeatureSetIndex = dialog . getReverseAPIFeatureSetIndex ( ) ;
m_settings . m_reverseAPIFeatureIndex = dialog . getReverseAPIFeatureIndex ( ) ;
setTitle ( m_settings . m_title ) ;
setTitleColor ( m_settings . m_rgbColor ) ;
QStringList settingsKeys ( {
" rgbColor " ,
" title " ,
" useReverseAPI " ,
" reverseAPIAddress " ,
" reverseAPIPort " ,
" reverseAPIDeviceIndex " ,
" reverseAPIChannelIndex "
} ) ;
applySettings ( m_settingsKeys ) ;
}
resetContextMenuType ( ) ;
}
void SIDGUI : : applySetting ( const QString & settingsKey )
{
applySettings ( { settingsKey } ) ;
}
void SIDGUI : : applySettings ( const QStringList & settingsKeys , bool force )
{
m_settingsKeys . append ( settingsKeys ) ;
if ( m_doApplySettings )
{
SIDMain : : MsgConfigureSID * message = SIDMain : : MsgConfigureSID : : create ( m_settings , m_settingsKeys , force ) ;
m_sid - > getInputMessageQueue ( ) - > push ( message ) ;
m_settingsKeys . clear ( ) ;
}
m_settingsKeys . clear ( ) ;
}
void SIDGUI : : applyAllSettings ( )
{
applySettings ( QStringList ( ) , true ) ;
}
void SIDGUI : : chartSplitterMoved ( int pos , int index )
{
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( void ) pos ;
( void ) index ;
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m_settings . m_chartSplitterSizes = ui - > chartSplitter - > sizes ( ) ;
applySetting ( " chartSplitterSizes " ) ;
}
void SIDGUI : : sdoSplitterMoved ( int pos , int index )
{
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( void ) pos ;
( void ) index ;
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m_settings . m_sdoSplitterSizes = ui - > sdoSplitter - > sizes ( ) ;
applySetting ( " chartSplitterSizes " ) ;
}
void SIDGUI : : on_samples_valueChanged ( int value )
{
m_settings . m_samples = value ;
applySetting ( " samples " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_separateCharts_toggled ( bool checked )
{
m_settings . m_separateCharts = checked ;
applySetting ( " separateCharts " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_displayLegend_toggled ( bool checked )
{
m_settings . m_displayLegend = checked ;
applySetting ( " displayLegend " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_plotXRayLongPrimary_toggled ( bool checked )
{
m_settings . m_plotXRayLongPrimary = checked ;
applySetting ( " plotXRayLongPrimary " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_plotXRayLongSecondary_toggled ( bool checked )
{
m_settings . m_plotXRayLongSecondary = checked ;
applySetting ( " plotXRayLongSecondary " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_plotXRayShortPrimary_toggled ( bool checked )
{
m_settings . m_plotXRayShortPrimary = checked ;
applySetting ( " plotXRayShortPrimary " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_plotXRayShortSecondary_toggled ( bool checked )
{
m_settings . m_plotXRayShortSecondary = checked ;
applySetting ( " plotXRayShortSecondary " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_plotGRB_toggled ( bool checked )
{
m_settings . m_plotGRB = checked ;
applySetting ( " plotGRB " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_plotSTIX_toggled ( bool checked )
{
m_settings . m_plotSTIX = checked ;
applySetting ( " plotSTIX " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_plotProton_toggled ( bool checked )
{
m_settings . m_plotProton = checked ;
applySetting ( " plotProton " ) ;
plotChart ( ) ;
}
void SIDGUI : : on_startStop_toggled ( bool checked )
{
if ( m_doApplySettings )
{
SIDMain : : MsgStartStop * message = SIDMain : : MsgStartStop : : create ( checked ) ;
m_sid - > getInputMessageQueue ( ) - > push ( message ) ;
}
}
void SIDGUI : : createGRBSeries ( QChart * chart , QDateTimeAxis * xAxis , QLogValueAxis * yAxis )
{
bool secondaryAxis = plotAnyXRay ( ) | | m_settings . m_plotSTIX ;
yAxis - > setLabelFormat ( " %.0e " ) ;
yAxis - > setGridLineVisible ( ! secondaryAxis ) ;
yAxis - > setTitleText ( " GRB Fluence (erg/cm<sup>2</sup>) " ) ;
yAxis - > setTitleVisible ( m_settings . m_displayAxisTitles ) ;
yAxis - > setVisible ( ! secondaryAxis | | m_settings . m_displaySecondaryAxis ) ;
if ( m_settings . m_plotGRB )
{
m_grbSeries = new QScatterSeries ( ) ;
m_grbSeries - > setName ( " GRB " ) ;
m_grbSeries - > setColor ( m_settings . m_grbColor ) ;
m_grbSeries - > setBorderColor ( m_settings . m_grbColor ) ;
m_grbSeries - > setMarkerSize ( 8 ) ;
for ( int i = 0 ; i < m_grbData . size ( ) ; i + + )
{
float value = m_grbData [ i ] . m_fluence ;
if ( ( value < = 0.0f ) | | std : : isnan ( value ) ) {
value = m_grbMin ; // <= 0 will result in series not being plotted, as log axis used
}
m_grbSeries - > append ( m_grbData [ i ] . m_dateTime . toMSecsSinceEpoch ( ) , value ) ;
}
yAxis - > setMin ( m_grbMin ) ;
yAxis - > setMax ( m_grbMax ) ;
chart - > addSeries ( m_grbSeries ) ;
m_grbSeries - > attachAxis ( xAxis ) ;
m_grbSeries - > attachAxis ( yAxis ) ;
}
else
{
m_grbSeries = nullptr ;
}
}
void SIDGUI : : createFlareAxis ( QCategoryAxis * yAxis )
{
// Solar flare classification
yAxis - > setMin ( - 8 ) ;
yAxis - > setMax ( - 3 ) ;
yAxis - > setStartValue ( - 8 ) ;
yAxis - > append ( " A " , - 7 ) ;
yAxis - > append ( " B " , - 6 ) ;
yAxis - > append ( " C " , - 5 ) ;
yAxis - > append ( " M " , - 4 ) ;
yAxis - > append ( " X " , - 3 ) ;
yAxis - > setTitleText ( " Flare Class " ) ;
yAxis - > setTitleVisible ( m_settings . m_displayAxisTitles ) ;
yAxis - > setLineVisible ( m_settings . m_displaySecondaryAxis ) ;
yAxis - > setGridLineVisible ( m_settings . m_separateCharts ) ;
}
void SIDGUI : : createXRaySeries ( QChart * chart , QDateTimeAxis * xAxis , QCategoryAxis * yAxis )
{
createFlareAxis ( yAxis ) ;
for ( int i = 0 ; i < 2 ; i + + )
{
QString name = i = = 0 ? " Primary " : " Secondary " ;
if ( ( ( i = = 0 ) & & m_settings . m_plotXRayShortPrimary ) | | ( ( i = = 1 ) & & m_settings . m_plotXRayShortSecondary ) )
{
m_xrayShortMeasurements [ i ] . m_series = new QLineSeries ( ) ;
m_xrayShortMeasurements [ i ] . m_series - > setName ( QString ( " 0.05-0.4nm X-Ray %1 " ) . arg ( name ) ) ;
m_xrayShortMeasurements [ i ] . m_series - > setColor ( m_settings . m_xrayShortColors [ i ] ) ;
for ( int j = 0 ; j < m_xrayShortMeasurements [ i ] . m_measurements . size ( ) ; j + + ) {
m_xrayShortMeasurements [ i ] . m_series - > append ( m_xrayShortMeasurements [ i ] . m_measurements [ j ] . m_dateTime . toMSecsSinceEpoch ( ) , m_xrayShortMeasurements [ i ] . m_measurements [ j ] . m_measurement ) ;
}
chart - > addSeries ( m_xrayShortMeasurements [ i ] . m_series ) ;
m_xrayShortMeasurements [ i ] . m_series - > attachAxis ( xAxis ) ;
m_xrayShortMeasurements [ i ] . m_series - > attachAxis ( yAxis ) ;
}
else
{
m_xrayShortMeasurements [ i ] . m_series = nullptr ;
}
if ( ( ( i = = 0 ) & & m_settings . m_plotXRayLongPrimary ) | | ( ( i = = 1 ) & & m_settings . m_plotXRayLongSecondary ) )
{
m_xrayLongMeasurements [ i ] . m_series = new QLineSeries ( ) ;
m_xrayLongMeasurements [ i ] . m_series - > setName ( QString ( " 0.1-0.8nm X-Ray %1 " ) . arg ( name ) ) ;
m_xrayLongMeasurements [ i ] . m_series - > setColor ( m_settings . m_xrayLongColors [ i ] ) ;
for ( int j = 0 ; j < m_xrayLongMeasurements [ i ] . m_measurements . size ( ) ; j + + ) {
m_xrayLongMeasurements [ i ] . m_series - > append ( m_xrayLongMeasurements [ i ] . m_measurements [ j ] . m_dateTime . toMSecsSinceEpoch ( ) , m_xrayLongMeasurements [ i ] . m_measurements [ j ] . m_measurement ) ;
}
chart - > addSeries ( m_xrayLongMeasurements [ i ] . m_series ) ;
m_xrayLongMeasurements [ i ] . m_series - > attachAxis ( xAxis ) ;
m_xrayLongMeasurements [ i ] . m_series - > attachAxis ( yAxis ) ;
}
else
{
m_xrayLongMeasurements [ i ] . m_series = nullptr ;
}
}
}
const QStringList SIDGUI : : m_protonEnergies = { " 10 MeV " , " 50 MeV " , " 100 MeV " , " 500 MeV " } ;
void SIDGUI : : createProtonSeries ( QChart * chart , QDateTimeAxis * xAxis , QLogValueAxis * yAxis )
{
bool secondaryAxis = plotAnyXRay ( ) | | m_settings . m_plotSTIX | | m_settings . m_plotGRB ;
yAxis - > setLabelFormat ( " %.0e " ) ;
yAxis - > setMin ( 0.01 ) ;
yAxis - > setMax ( 1000.0 ) ;
yAxis - > setGridLineVisible ( ! secondaryAxis ) ;
yAxis - > setTitleText ( " Proton Flux (Particles / (cm<sup>2</sup> s sr)) " ) ;
yAxis - > setTitleVisible ( m_settings . m_displayAxisTitles ) ;
yAxis - > setVisible ( ! secondaryAxis | | m_settings . m_displaySecondaryAxis ) ;
for ( int i = 0 ; i < 4 ; i + = 2 ) // Only plot 10 and 100 MeV so graph isn't too cluttered
//for (int i = 0; i < 4; i++)
{
m_protonMeasurements [ i ] . m_series = new QLineSeries ( ) ;
m_protonMeasurements [ i ] . m_series - > setName ( QString ( " %1 Proton " ) . arg ( SIDGUI : : m_protonEnergies [ i ] ) ) ;
m_protonMeasurements [ i ] . m_series - > setColor ( m_settings . m_protonColors [ i ] ) ;
for ( int j = 0 ; j < m_protonMeasurements [ i ] . m_measurements . size ( ) ; j + + )
{
double value = m_protonMeasurements [ i ] . m_measurements [ j ] . m_measurement ;
if ( value > = 0.0 ) {
m_protonMeasurements [ i ] . m_series - > append ( m_protonMeasurements [ i ] . m_measurements [ j ] . m_dateTime . toMSecsSinceEpoch ( ) , value ) ;
}
}
chart - > addSeries ( m_protonMeasurements [ i ] . m_series ) ;
m_protonMeasurements [ i ] . m_series - > attachAxis ( xAxis ) ;
m_protonMeasurements [ i ] . m_series - > attachAxis ( yAxis ) ;
}
}
void SIDGUI : : createSTIXSeries ( QChart * chart , QDateTimeAxis * xAxis , QCategoryAxis * yAxis )
{
createFlareAxis ( yAxis ) ;
if ( m_settings . m_plotSTIX )
{
m_stixSeries = new QScatterSeries ( ) ;
m_stixSeries - > setName ( " STIX " ) ;
m_stixSeries - > setColor ( m_settings . m_stixColor ) ;
m_stixSeries - > setBorderColor ( m_settings . m_stixColor ) ;
m_stixSeries - > setMarkerSize ( 5 ) ;
for ( int i = 0 ; i < m_stixData . size ( ) ; i + + )
{
double value = m_stixData [ i ] . m_flux ;
if ( value = = 0.0 )
{
value = - 8 ;
}
else
{
value = log10 ( value ) ;
}
m_stixSeries - > append ( m_stixData [ i ] . m_startDateTime . toMSecsSinceEpoch ( ) , value ) ;
}
chart - > addSeries ( m_stixSeries ) ;
m_stixSeries - > attachAxis ( xAxis ) ;
m_stixSeries - > attachAxis ( yAxis ) ;
}
else
{
m_stixSeries = nullptr ;
}
}
void SIDGUI : : plotChart ( )
{
QChart * oldChart = ui - > chart - > chart ( ) ;
QChart * chart ;
chart = new QChart ( ) ;
chart - > layout ( ) - > setContentsMargins ( 0 , 0 , 0 , 0 ) ;
chart - > setMargins ( QMargins ( 1 , 1 , 1 , 1 ) ) ;
chart - > setTheme ( QChart : : ChartThemeDark ) ;
chart - > legend ( ) - > setVisible ( m_settings . m_displayLegend ) ;
chart - > legend ( ) - > setAlignment ( m_settings . m_legendAlignment ) ;
m_chartXAxis = new QDateTimeAxis ( ) ;
m_chartY1Axis = new QValueAxis ( ) ;
m_chartY2Axis = nullptr ;
m_chartY3Axis = nullptr ;
m_chartProtonAxis = nullptr ;
if ( ! m_settings . m_separateCharts )
{
// XRay flux
if ( plotAnyXRay ( ) | | m_settings . m_plotSTIX )
{
m_chartY2Axis = new QCategoryAxis ( ) ;
chart - > addAxis ( m_chartY2Axis , Qt : : AlignRight ) ;
}
// GRB fluence
if ( m_settings . m_plotGRB )
{
m_chartY3Axis = new QLogValueAxis ( ) ;
chart - > addAxis ( m_chartY3Axis , Qt : : AlignRight ) ;
}
// Proton flux
if ( m_settings . m_plotProton )
{
m_chartProtonAxis = new QLogValueAxis ( ) ;
chart - > addAxis ( m_chartProtonAxis , Qt : : AlignRight ) ;
}
}
chart - > addAxis ( m_chartXAxis , Qt : : AlignBottom ) ;
chart - > addAxis ( m_chartY1Axis , Qt : : AlignLeft ) ;
m_chartY1Axis - > setTitleText ( " Power (dB) " ) ;
m_chartY1Axis - > setTitleVisible ( m_settings . m_displayAxisTitles ) ;
// Power measurements
for ( auto & measurement : m_channelMeasurements )
{
SIDSettings : : ChannelSettings * channelSettings = m_settings . getChannelSettings ( measurement . m_id ) ;
if ( ! channelSettings ) {
qDebug ( ) < < " SIDGUI::plotChart: No settings for channel " < < measurement . m_id ;
}
if ( channelSettings & & channelSettings - > m_enabled )
{
QLineSeries * series = new QLineSeries ( ) ;
series - > setName ( channelSettings - > m_label ) ;
series - > setColor ( channelSettings - > m_color ) ;
measurement . newSeries ( series , m_settings . m_samples ) ;
for ( int i = 0 ; i < measurement . m_measurements . size ( ) ; i + + )
{
measurement . appendSeries ( measurement . m_measurements [ i ] . m_dateTime , measurement . m_measurements [ i ] . m_measurement ) ;
updateMeasurementRange ( measurement . m_measurements [ i ] . m_measurement ) ;
updateTimeRange ( measurement . m_measurements [ i ] . m_dateTime ) ;
}
chart - > addSeries ( measurement . m_series ) ;
measurement . m_series - > attachAxis ( m_chartXAxis ) ;
measurement . m_series - > attachAxis ( m_chartY1Axis ) ;
}
}
for ( int i = 0 ; i < 2 ; i + + )
{
m_xrayShortMeasurements [ i ] . m_series = nullptr ;
m_xrayLongMeasurements [ i ] . m_series = nullptr ;
}
m_grbSeries = nullptr ;
m_stixSeries = nullptr ;
for ( int i = 0 ; i < 4 ; i + + ) {
m_protonMeasurements [ i ] . m_series = nullptr ;
}
if ( ! m_settings . m_separateCharts )
{
// XRay
if ( plotAnyXRay ( ) ) {
createXRaySeries ( chart , m_chartXAxis , m_chartY2Axis ) ;
}
// GRB
if ( m_settings . m_plotGRB ) {
createGRBSeries ( chart , m_chartXAxis , m_chartY3Axis ) ;
}
// STIX flares
if ( m_settings . m_plotSTIX ) {
createSTIXSeries ( chart , m_chartXAxis , m_chartY2Axis ) ;
}
// Proton flux
if ( m_settings . m_plotProton ) {
createProtonSeries ( chart , m_chartXAxis , m_chartProtonAxis ) ;
}
}
autoscaleX ( ) ;
autoscaleY ( ) ;
setXAxisRange ( ) ;
setY1AxisRange ( ) ;
ui - > chart - > setChart ( chart ) ;
ui - > chart - > installEventFilter ( this ) ;
delete oldChart ;
const auto markers = chart - > legend ( ) - > markers ( ) ;
for ( QLegendMarker * marker : markers )
{
connect ( marker , & QLegendMarker : : clicked , this , & SIDGUI : : legendMarkerClicked ) ;
}
for ( const auto series : chart - > series ( ) )
{
QXYSeries * s = qobject_cast < QXYSeries * > ( series ) ;
if ( s ) {
connect ( s , & QXYSeries : : clicked , this , & SIDGUI : : seriesClicked ) ;
}
}
if ( m_settings . m_separateCharts )
{
ui - > xRayChart - > setVisible ( true ) ;
plotXRayChart ( ) ;
}
else
{
ui - > xRayChart - > setVisible ( false ) ;
}
}
bool SIDGUI : : plotAnyXRay ( ) const
{
return m_settings . m_plotXRayLongPrimary | | m_settings . m_plotXRayLongSecondary
| | m_settings . m_plotXRayShortPrimary | | m_settings . m_plotXRayShortSecondary ;
}
void SIDGUI : : plotXRayChart ( )
{
QChart * oldChart = ui - > xRayChart - > chart ( ) ;
QChart * chart ;
chart = new QChart ( ) ;
chart - > layout ( ) - > setContentsMargins ( 0 , 0 , 0 , 0 ) ;
chart - > setMargins ( QMargins ( 1 , 1 , 1 , 1 ) ) ;
chart - > setTheme ( QChart : : ChartThemeDark ) ;
chart - > legend ( ) - > setVisible ( m_settings . m_displayLegend ) ;
chart - > legend ( ) - > setAlignment ( m_settings . m_legendAlignment ) ;
m_xRayChartXAxis = new QDateTimeAxis ( ) ;
chart - > addAxis ( m_xRayChartXAxis , Qt : : AlignBottom ) ;
if ( plotAnyXRay ( ) | | m_settings . m_plotSTIX )
{
m_xRayChartYAxis = new QCategoryAxis ( ) ;
chart - > addAxis ( m_xRayChartYAxis , Qt : : AlignLeft ) ;
}
if ( m_settings . m_plotGRB )
{
m_chartY3Axis = new QLogValueAxis ( ) ;
chart - > addAxis ( m_chartY3Axis , ( plotAnyXRay ( ) | | m_settings . m_plotSTIX ) ? Qt : : AlignRight : Qt : : AlignLeft ) ;
}
if ( m_settings . m_plotProton )
{
m_chartProtonAxis = new QLogValueAxis ( ) ;
chart - > addAxis ( m_chartProtonAxis , ( plotAnyXRay ( ) | | m_settings . m_plotSTIX | | m_settings . m_plotGRB ) ? Qt : : AlignRight : Qt : : AlignLeft ) ;
}
// XRay
if ( plotAnyXRay ( ) ) {
createXRaySeries ( chart , m_xRayChartXAxis , m_xRayChartYAxis ) ;
}
// GRB
if ( m_settings . m_plotGRB ) {
createGRBSeries ( chart , m_xRayChartXAxis , m_chartY3Axis ) ;
}
// STIX flares
if ( m_settings . m_plotSTIX ) {
createSTIXSeries ( chart , m_xRayChartXAxis , m_xRayChartYAxis ) ;
}
// Proton flux
if ( m_settings . m_plotProton ) {
createProtonSeries ( chart , m_xRayChartXAxis , m_chartProtonAxis ) ;
}
setXAxisRange ( ) ;
ui - > xRayChart - > setChart ( chart ) ;
ui - > xRayChart - > installEventFilter ( this ) ;
delete oldChart ;
const auto markers = chart - > legend ( ) - > markers ( ) ;
for ( QLegendMarker * marker : markers ) {
connect ( marker , & QLegendMarker : : clicked , this , & SIDGUI : : legendMarkerClicked ) ;
}
for ( const auto series : chart - > series ( ) )
{
QXYSeries * s = qobject_cast < QXYSeries * > ( series ) ;
if ( s ) {
connect ( s , & QXYSeries : : clicked , this , & SIDGUI : : seriesClicked ) ;
}
}
if ( ! ( plotAnyXRay ( ) | | m_settings . m_plotGRB | | m_settings . m_plotSTIX | | m_settings . m_plotProton ) )
{
ui - > xRayChart - > setVisible ( false ) ; // Hide empty chart
}
}
void SIDGUI : : legendMarkerClicked ( )
{
QLegendMarker * marker = qobject_cast < QLegendMarker * > ( sender ( ) ) ;
marker - > series ( ) - > setVisible ( ! marker - > series ( ) - > isVisible ( ) ) ;
marker - > setVisible ( true ) ;
// Dim the marker, if series is not visible
qreal alpha = 1.0 ;
if ( ! marker - > series ( ) - > isVisible ( ) ) {
alpha = 0.5 ;
}
QColor color ;
QBrush brush = marker - > labelBrush ( ) ;
color = brush . color ( ) ;
color . setAlphaF ( alpha ) ;
brush . setColor ( color ) ;
marker - > setLabelBrush ( brush ) ;
brush = marker - > brush ( ) ;
color = brush . color ( ) ;
color . setAlphaF ( alpha ) ;
brush . setColor ( color ) ;
marker - > setBrush ( brush ) ;
QPen pen = marker - > pen ( ) ;
color = pen . color ( ) ;
color . setAlphaF ( alpha ) ;
pen . setColor ( color ) ;
marker - > setPen ( pen ) ;
}
void SIDGUI : : seriesClicked ( const QPointF & point )
{
QDateTime dt = QDateTime : : fromMSecsSinceEpoch ( point . x ( ) ) ;
ui - > sdoDateTime - > setDateTime ( dt ) ;
}
static qreal distance ( const QPointF & a , const QPointF & b )
{
qreal dx = a . x ( ) - b . x ( ) ;
qreal dy = a . y ( ) - b . y ( ) ;
return qSqrt ( dx * dx + dy * dy ) ;
}
qreal SIDGUI : : pixelDistance ( QChart * chart , QAbstractSeries * series , QPointF a , QPointF b )
{
a = chart - > mapToPosition ( a , series ) ;
b = chart - > mapToPosition ( b , series ) ;
return distance ( a , b ) ;
}
void SIDGUI : : sendToSkyMap ( const AvailableChannelOrFeature & skymap , float ra , float dec )
{
QString target = QString ( " %1 %2 " ) . arg ( ra ) . arg ( dec ) ;
FeatureWebAPIUtils : : skyMapFind ( target , skymap . m_superIndex , skymap . m_index ) ;
}
void SIDGUI : : showGRBContextMenu ( QContextMenuEvent * contextEvent , QChartView * chartView , int closestPoint )
{
QMenu * contextMenu = new QMenu ( chartView ) ;
connect ( contextMenu , & QMenu : : aboutToHide , contextMenu , & QMenu : : deleteLater ) ;
contextMenu - > addSection ( m_grbData [ closestPoint ] . m_name ) ;
// Display GRB Fermi data
QString url = m_grbData [ closestPoint ] . getFermiURL ( ) ;
if ( ! url . isEmpty ( ) )
{
QAction * fermiDataAction = new QAction ( " View Fermi data directory... " , contextMenu ) ;
connect ( fermiDataAction , & QAction : : triggered , this , [ url ] ( ) - > void {
QDesktopServices : : openUrl ( QUrl ( url ) ) ;
} ) ;
contextMenu - > addAction ( fermiDataAction ) ;
QString plotURL = m_grbData [ closestPoint ] . getFermiPlotURL ( ) ;
QAction * fermiPlotAction = new QAction ( " View Fermi data plot... " , contextMenu ) ;
connect ( fermiPlotAction , & QAction : : triggered , this , [ plotURL ] ( ) - > void {
QDesktopServices : : openUrl ( QUrl ( plotURL ) ) ;
} ) ;
contextMenu - > addAction ( fermiPlotAction ) ;
QString mapURL = m_grbData [ closestPoint ] . getFermiSkyMapURL ( ) ;
QAction * fermiMapDataAction = new QAction ( " View Fermi sky map... " , contextMenu ) ;
connect ( fermiMapDataAction , & QAction : : triggered , this , [ mapURL ] ( ) - > void {
QDesktopServices : : openUrl ( QUrl ( mapURL ) ) ;
} ) ;
contextMenu - > addAction ( fermiMapDataAction ) ;
}
// Display Swift link
if ( ! m_grbData [ closestPoint ] . m_name . endsWith ( " * " ) )
{
QAction * swiftDataAction = new QAction ( " View Swift data... " , contextMenu ) ;
QString switftURL = m_grbData [ closestPoint ] . getSwiftURL ( ) ;
connect ( swiftDataAction , & QAction : : triggered , this , [ switftURL ] ( ) - > void {
QDesktopServices : : openUrl ( QUrl ( switftURL ) ) ;
} ) ;
contextMenu - > addAction ( swiftDataAction ) ;
}
// View GRB ra/dec in SkyMap
AvailableChannelOrFeatureHandler skymaps ( { " sdrangel.feature.skymap " } ) ;
skymaps . scanAvailableChannelsAndFeatures ( ) ;
if ( skymaps . getAvailableChannelOrFeatureList ( ) . size ( ) > 0 )
{
for ( const auto & skymap : skymaps . getAvailableChannelOrFeatureList ( ) )
{
QString label = QString ( " View coords in %1... " ) . arg ( skymap . getLongId ( ) ) ;
QAction * skyMapAction = new QAction ( label , contextMenu ) ;
float ra = m_grbData [ closestPoint ] . m_ra ;
float dec = m_grbData [ closestPoint ] . m_dec ;
connect ( skyMapAction , & QAction : : triggered , this , [ this , skymap , ra , dec ] ( ) - > void {
sendToSkyMap ( skymap , ra , dec ) ;
} ) ;
contextMenu - > addAction ( skyMapAction ) ;
}
}
else
{
QAction * skyMapAction = new QAction ( " View coords in SkyMap... " , contextMenu ) ;
float ra = m_grbData [ closestPoint ] . m_ra ;
float dec = m_grbData [ closestPoint ] . m_dec ;
QString target = QString ( " %1 %2 " ) . arg ( ra ) . arg ( dec ) ;
connect ( skyMapAction , & QAction : : triggered , this , [ target ] ( ) - > void {
FeatureWebAPIUtils : : openSkyMapAndFind ( target ) ;
} ) ;
contextMenu - > addAction ( skyMapAction ) ;
}
contextMenu - > popup ( chartView - > viewport ( ) - > mapToGlobal ( contextEvent - > pos ( ) ) ) ;
}
void SIDGUI : : showStixContextMenu ( QContextMenuEvent * contextEvent , QChartView * chartView , int closestPoint )
{
QMenu * contextMenu = new QMenu ( chartView ) ;
connect ( contextMenu , & QMenu : : aboutToHide , contextMenu , & QMenu : : deleteLater ) ;
contextMenu - > addSection ( m_stixData [ closestPoint ] . m_id ) ;
// Display GRB Fermi data
QString lcURL = m_stixData [ closestPoint ] . getLightCurvesURL ( ) ;
QAction * lcAction = new QAction ( " View light curves... " , contextMenu ) ;
connect ( lcAction , & QAction : : triggered , this , [ lcURL ] ( ) - > void {
QDesktopServices : : openUrl ( QUrl ( lcURL ) ) ;
} ) ;
contextMenu - > addAction ( lcAction ) ;
QString dataURL = m_stixData [ closestPoint ] . getDataURL ( ) ;
QAction * stixDataAction = new QAction ( " View STIX data... " , contextMenu ) ;
connect ( stixDataAction , & QAction : : triggered , this , [ dataURL ] ( ) - > void {
QDesktopServices : : openUrl ( QUrl ( dataURL ) ) ;
} ) ;
contextMenu - > addAction ( stixDataAction ) ;
contextMenu - > popup ( chartView - > viewport ( ) - > mapToGlobal ( contextEvent - > pos ( ) ) ) ;
}
bool SIDGUI : : findClosestPoint ( QContextMenuEvent * contextEvent , QChart * chart , QScatterSeries * series , int & closestPoint )
{
QPointF point = chart - > mapToValue ( contextEvent - > pos ( ) , series ) ;
QDateTime dt = QDateTime : : fromMSecsSinceEpoch ( point . x ( ) ) ;
// Find nearest point - GRB/Stix data is ordered newest first
QVector < QPointF > points = series - > pointsVector ( ) ;
if ( points . size ( ) > 0 )
{
qint64 startTime = m_settings . m_startDateTime . toMSecsSinceEpoch ( ) ;
qreal closestDistance = pixelDistance ( chart , series , point , points [ 0 ] ) ;
closestPoint = 0 ;
for ( int i = 1 ; i < points . size ( ) ; i + + )
{
qreal d = pixelDistance ( chart , series , point , points [ i ] ) ;
if ( d < closestDistance )
{
closestDistance = d ;
closestPoint = i ;
}
if ( points [ i ] . x ( ) < startTime ) {
break ;
}
}
return closestDistance < = series - > markerSize ( ) ;
}
else
{
return false ;
}
}
void SIDGUI : : showContextMenu ( QContextMenuEvent * contextEvent )
{
QChartView * chartView ;
if ( m_settings . m_separateCharts ) {
chartView = ui - > xRayChart ;
} else {
chartView = ui - > chart ;
}
if ( chartView )
{
int closestPoint ;
if ( m_grbSeries & & findClosestPoint ( contextEvent , chartView - > chart ( ) , m_grbSeries , closestPoint ) ) {
showGRBContextMenu ( contextEvent , chartView , closestPoint ) ;
} else if ( m_stixSeries & & findClosestPoint ( contextEvent , chartView - > chart ( ) , m_stixSeries , closestPoint ) ) {
showStixContextMenu ( contextEvent , chartView , closestPoint ) ;
}
}
}
bool SIDGUI : : eventFilter ( QObject * obj , QEvent * event )
{
if ( ( obj = = ui - > chart ) | | ( obj = = ui - > xRayChart ) )
{
if ( event - > type ( ) = = QEvent : : ContextMenu )
{
2024-04-05 12:30:39 -04:00
// Show context menu on chart for GRBs/Flares
2024-04-02 11:13:01 -04:00
QContextMenuEvent * contextEvent = static_cast < QContextMenuEvent * > ( event ) ;
showContextMenu ( contextEvent ) ;
contextEvent - > accept ( ) ;
return true ;
}
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else if ( event - > type ( ) = = QEvent : : Wheel )
{
// Use wheel to zoom in / out of X axis or Y axis if shift held
QWheelEvent * wheelEvent = static_cast < QWheelEvent * > ( event ) ;
int delta = wheelEvent - > angleDelta ( ) . y ( ) ; // delta is typically 120 for one click of wheel
if ( wheelEvent - > modifiers ( ) & Qt : : ShiftModifier )
{
double min = ui - > y1Min - > value ( ) ;
double max = ui - > y1Max - > value ( ) ;
double adj = ( max - min ) * 0.20 * delta / 120.0 ;
min + = adj ;
max - = adj ;
ui - > y1Min - > setValue ( min ) ;
ui - > y1Max - > setValue ( max ) ;
}
else
{
QDateTime start = ui - > startDateTime - > dateTime ( ) ;
QDateTime end = ui - > endDateTime - > dateTime ( ) ;
qint64 startMS = start . toMSecsSinceEpoch ( ) ;
qint64 endMS = end . toMSecsSinceEpoch ( ) ;
qint64 diff = endMS - startMS ;
qint64 adj = diff * 0.20 * delta / 120.0 ;
endMS - = adj ;
startMS + = adj ;
start = QDateTime : : fromMSecsSinceEpoch ( startMS ) ;
end = QDateTime : : fromMSecsSinceEpoch ( endMS ) ;
ui - > startDateTime - > setDateTime ( start ) ;
ui - > endDateTime - > setDateTime ( end ) ;
}
wheelEvent - > accept ( ) ;
return true ;
}
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}
return FeatureGUI : : eventFilter ( obj , event ) ;
}
void SIDGUI : : updateMeasurementRange ( double measurement )
{
if ( std : : isnan ( m_minMeasurement ) ) {
m_minMeasurement = measurement ;
} else {
m_minMeasurement = std : : min ( m_minMeasurement , measurement ) ;
}
if ( std : : isnan ( m_maxMeasurement ) ) {
m_maxMeasurement = measurement ;
} else {
m_maxMeasurement = std : : max ( m_maxMeasurement , measurement ) ;
}
}
void SIDGUI : : updateTimeRange ( QDateTime dateTime )
{
if ( ! m_minDateTime . isValid ( ) | | ( dateTime < m_minDateTime ) ) {
m_minDateTime = dateTime ;
}
if ( ! m_maxDateTime . isValid ( ) | | ( dateTime > m_maxDateTime ) ) {
m_maxDateTime = dateTime ;
}
}
void SIDGUI : : setXAxisRange ( )
{
if ( m_chartXAxis ) {
m_chartXAxis - > setRange ( m_settings . m_startDateTime , m_settings . m_endDateTime ) ;
}
if ( m_xRayChartXAxis ) {
m_xRayChartXAxis - > setRange ( m_settings . m_startDateTime , m_settings . m_endDateTime ) ;
}
}
void SIDGUI : : setY1AxisRange ( )
{
if ( m_chartY1Axis ) {
m_chartY1Axis - > setRange ( m_settings . m_y1Min , m_settings . m_y1Max ) ;
}
}
void SIDGUI : : setButtonBackground ( QToolButton * button , bool checked )
{
if ( ! checked )
{
button - > setStyleSheet ( " " ) ;
}
else
{
button - > setStyleSheet ( QString ( " QToolButton{ background-color: %1; } " )
. arg ( palette ( ) . highlight ( ) . color ( ) . darker ( 150 ) . name ( ) ) ) ;
}
}
void SIDGUI : : setAutoscaleX ( )
{
setButtonBackground ( ui - > autoscaleX , m_settings . m_autoscaleX ) ;
}
void SIDGUI : : setAutoscaleY ( )
{
setButtonBackground ( ui - > autoscaleY , m_settings . m_autoscaleY ) ;
}
void SIDGUI : : on_autoscaleX_clicked ( )
{
ui - > startDateTime - > clearMaximumDateTime ( ) ;
ui - > endDateTime - > clearMinimumDateTime ( ) ;
if ( m_minDateTime . isValid ( ) )
{
ui - > startDateTime - > setDateTime ( m_minDateTime ) ;
}
if ( m_maxDateTime . isValid ( ) )
{
ui - > endDateTime - > setDateTime ( m_maxDateTime ) ;
}
ui - > startDateTime - > setMaximumDateTime ( ui - > endDateTime - > dateTime ( ) ) ;
ui - > endDateTime - > setMinimumDateTime ( ui - > startDateTime - > dateTime ( ) ) ;
}
void SIDGUI : : on_autoscaleY_clicked ( )
{
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if ( ! std : : isnan ( m_minMeasurement ) & & ! std : : isnan ( m_maxMeasurement ) & & ( m_minMeasurement = = m_maxMeasurement ) )
{
// Graph doesn't display properly if min is the same as max
ui - > y1Min - > setValue ( m_minMeasurement * 0.99 ) ;
ui - > y1Max - > setValue ( m_maxMeasurement * 1.01 ) ;
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}
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else
{
if ( ! std : : isnan ( m_minMeasurement ) ) {
ui - > y1Min - > setValue ( m_minMeasurement ) ;
}
if ( ! std : : isnan ( m_maxMeasurement ) ) {
ui - > y1Max - > setValue ( m_maxMeasurement ) ;
}
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}
}
void SIDGUI : : on_today_clicked ( )
{
QDate today = QDate : : currentDate ( ) ;
QDateTime start = QDateTime ( today , QTime ( 0 , 0 ) ) ;
QDateTime end = QDateTime ( today . addDays ( 1 ) , QTime ( 0 , 0 ) ) ;
ui - > startDateTime - > clearMaximumDateTime ( ) ;
ui - > endDateTime - > clearMinimumDateTime ( ) ;
ui - > startDateTime - > setDateTime ( start ) ;
ui - > endDateTime - > setDateTime ( end ) ;
ui - > startDateTime - > setMaximumDateTime ( ui - > endDateTime - > dateTime ( ) ) ;
ui - > endDateTime - > setMinimumDateTime ( ui - > startDateTime - > dateTime ( ) ) ;
}
void SIDGUI : : todayRightClicked ( )
{
float stationLatitude = MainCore : : instance ( ) - > getSettings ( ) . getLatitude ( ) ;
float stationLongitude = MainCore : : instance ( ) - > getSettings ( ) . getLongitude ( ) ;
QDate today = QDate : : currentDate ( ) ;
QDateTime sunRise , sunSet ;
Astronomy : : sunrise ( today , stationLatitude , stationLongitude , sunRise , sunSet ) ;
ui - > startDateTime - > clearMaximumDateTime ( ) ;
ui - > endDateTime - > clearMinimumDateTime ( ) ;
ui - > startDateTime - > setDateTime ( sunRise ) ;
ui - > endDateTime - > setDateTime ( sunSet ) ;
ui - > startDateTime - > setMaximumDateTime ( ui - > endDateTime - > dateTime ( ) ) ;
ui - > endDateTime - > setMinimumDateTime ( ui - > startDateTime - > dateTime ( ) ) ;
}
void SIDGUI : : on_prevDay_clicked ( )
{
ui - > startDateTime - > clearMaximumDateTime ( ) ;
ui - > endDateTime - > clearMinimumDateTime ( ) ;
ui - > startDateTime - > setDateTime ( ui - > startDateTime - > dateTime ( ) . addDays ( - 1 ) ) ;
ui - > endDateTime - > setDateTime ( ui - > endDateTime - > dateTime ( ) . addDays ( - 1 ) ) ;
ui - > startDateTime - > setMaximumDateTime ( ui - > endDateTime - > dateTime ( ) ) ;
ui - > endDateTime - > setMinimumDateTime ( ui - > startDateTime - > dateTime ( ) ) ;
}
void SIDGUI : : on_nextDay_clicked ( )
{
ui - > startDateTime - > clearMaximumDateTime ( ) ;
ui - > endDateTime - > clearMinimumDateTime ( ) ;
ui - > endDateTime - > setDateTime ( ui - > endDateTime - > dateTime ( ) . addDays ( 1 ) ) ;
ui - > startDateTime - > setDateTime ( ui - > startDateTime - > dateTime ( ) . addDays ( 1 ) ) ;
ui - > startDateTime - > setMaximumDateTime ( ui - > endDateTime - > dateTime ( ) ) ;
ui - > endDateTime - > setMinimumDateTime ( ui - > startDateTime - > dateTime ( ) ) ;
}
void SIDGUI : : autoscaleXRightClicked ( )
{
m_settings . m_autoscaleX = ! m_settings . m_autoscaleX ;
applySetting ( " autoscaleX " ) ;
setAutoscaleX ( ) ;
}
void SIDGUI : : autoscaleYRightClicked ( )
{
m_settings . m_autoscaleY = ! m_settings . m_autoscaleY ;
applySetting ( " autoscaleY " ) ;
setAutoscaleY ( ) ;
}
void SIDGUI : : on_startDateTime_dateTimeChanged ( QDateTime value )
{
m_settings . m_startDateTime = value ;
applySetting ( " startDateTime " ) ;
setXAxisRange ( ) ;
ui - > endDateTime - > setMinimumDateTime ( value ) ;
}
void SIDGUI : : on_endDateTime_dateTimeChanged ( QDateTime value )
{
m_settings . m_endDateTime = value ;
applySetting ( " endDateTime " ) ;
setXAxisRange ( ) ;
ui - > startDateTime - > setMaximumDateTime ( value ) ;
}
void SIDGUI : : on_y1Min_valueChanged ( double value )
{
m_settings . m_y1Min = ( float ) value ;
applySetting ( " y1Min " ) ;
setY1AxisRange ( ) ;
}
void SIDGUI : : on_y1Max_valueChanged ( double value )
{
m_settings . m_y1Max = ( float ) value ;
applySetting ( " y1Max " ) ;
setY1AxisRange ( ) ;
}
void SIDGUI : : clearMinMax ( )
{
m_minDateTime = QDateTime ( ) ;
m_maxDateTime = QDateTime ( ) ;
m_minMeasurement = std : : numeric_limits < double > : : quiet_NaN ( ) ;
m_maxMeasurement = std : : numeric_limits < double > : : quiet_NaN ( ) ;
}
void SIDGUI : : clearAllData ( )
{
m_channelMeasurements . clear ( ) ;
for ( int i = 0 ; i < 2 ; i + + )
{
m_xrayShortMeasurements [ i ] . clear ( ) ;
m_xrayLongMeasurements [ i ] . clear ( ) ;
}
for ( int i = 0 ; i < 4 ; i + + ) {
m_protonMeasurements [ i ] . clear ( ) ;
}
clearMinMax ( ) ;
}
void SIDGUI : : on_deleteAll_clicked ( )
{
clearAllData ( ) ;
plotChart ( ) ;
getData ( ) ;
}
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void SIDGUI : : on_addChannels_clicked ( )
{
SIDAddChannelsDialog dialog ( & m_settings ) ;
new DialogPositioner ( & dialog , true ) ;
dialog . exec ( ) ;
}
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void SIDGUI : : on_settings_clicked ( )
{
SIDSettingsDialog dialog ( & m_settings ) ;
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QObject : : connect (
& dialog ,
& SIDSettingsDialog : : removeChannels ,
this ,
& SIDGUI : : removeChannels
) ;
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new DialogPositioner ( & dialog , true ) ;
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if ( dialog . exec ( ) = = QDialog : : Accepted )
{
setAutosaveTimer ( ) ;
QStringList settingsKeys ;
settingsKeys . append ( " period " ) ;
settingsKeys . append ( " autosave " ) ;
settingsKeys . append ( " autoload " ) ;
settingsKeys . append ( " filename " ) ;
settingsKeys . append ( " autosavePeriod " ) ;
settingsKeys . append ( " legendAlignment " ) ;
settingsKeys . append ( " displayAxisTitles " ) ;
settingsKeys . append ( " displayAxisLabels " ) ;
settingsKeys . append ( " channelSettings " ) ;
settingsKeys . append ( " xrayShortColors " ) ;
settingsKeys . append ( " xrayLongColors " ) ;
settingsKeys . append ( " protonColors " ) ;
settingsKeys . append ( " grbColor " ) ;
settingsKeys . append ( " stixColor " ) ;
applySettings ( settingsKeys ) ;
plotChart ( ) ;
}
}
void SIDGUI : : updateStatus ( )
{
int state = m_sid - > getState ( ) ;
if ( m_lastFeatureState ! = state )
{
// We set checked state of start/stop button, in case it was changed via API
bool oldState ;
switch ( state )
{
case Feature : : StNotStarted :
ui - > startStop - > setStyleSheet ( " QToolButton { background:rgb(79,79,79); } " ) ;
break ;
case Feature : : StIdle :
oldState = ui - > startStop - > blockSignals ( true ) ;
ui - > startStop - > setChecked ( false ) ;
ui - > startStop - > blockSignals ( oldState ) ;
ui - > startStop - > setStyleSheet ( " QToolButton { background-color : blue; } " ) ;
break ;
case Feature : : StRunning :
oldState = ui - > startStop - > blockSignals ( true ) ;
ui - > startStop - > setChecked ( true ) ;
ui - > startStop - > blockSignals ( oldState ) ;
ui - > startStop - > setStyleSheet ( " QToolButton { background-color : green; } " ) ;
break ;
case Feature : : StError :
ui - > startStop - > setStyleSheet ( " QToolButton { background-color : red; } " ) ;
QMessageBox : : critical ( this , m_settings . m_title , m_sid - > getErrorMessage ( ) ) ;
break ;
default :
break ;
}
m_lastFeatureState = state ;
}
}
void SIDGUI : : makeUIConnections ( )
{
QObject : : connect ( ui - > startStop , & ButtonSwitch : : toggled , this , & SIDGUI : : on_startStop_toggled ) ;
QObject : : connect ( ui - > samples , QOverload < int > : : of ( & QSpinBox : : valueChanged ) , this , & SIDGUI : : on_samples_valueChanged ) ;
QObject : : connect ( ui - > separateCharts , & ButtonSwitch : : toggled , this , & SIDGUI : : on_separateCharts_toggled ) ;
QObject : : connect ( ui - > displayLegend , & ButtonSwitch : : toggled , this , & SIDGUI : : on_displayLegend_toggled ) ;
QObject : : connect ( ui - > plotXRayLongPrimary , & ButtonSwitch : : toggled , this , & SIDGUI : : on_plotXRayLongPrimary_toggled ) ;
QObject : : connect ( ui - > plotXRayLongSecondary , & ButtonSwitch : : toggled , this , & SIDGUI : : on_plotXRayLongSecondary_toggled ) ;
QObject : : connect ( ui - > plotXRayShortPrimary , & ButtonSwitch : : toggled , this , & SIDGUI : : on_plotXRayShortPrimary_toggled ) ;
QObject : : connect ( ui - > plotXRayShortSecondary , & ButtonSwitch : : toggled , this , & SIDGUI : : on_plotXRayShortSecondary_toggled ) ;
QObject : : connect ( ui - > plotGRB , & ButtonSwitch : : toggled , this , & SIDGUI : : on_plotGRB_toggled ) ;
QObject : : connect ( ui - > plotSTIX , & ButtonSwitch : : toggled , this , & SIDGUI : : on_plotSTIX_toggled ) ;
QObject : : connect ( ui - > plotProton , & ButtonSwitch : : toggled , this , & SIDGUI : : on_plotProton_toggled ) ;
QObject : : connect ( ui - > sdoEnabled , & ButtonSwitch : : toggled , this , & SIDGUI : : on_sdoEnabled_toggled ) ;
QObject : : connect ( ui - > sdoVideoEnabled , & ButtonSwitch : : toggled , this , & SIDGUI : : on_sdoVideoEnabled_toggled ) ;
QObject : : connect ( ui - > sdoData , qOverload < int > ( & QComboBox : : currentIndexChanged ) , this , & SIDGUI : : on_sdoData_currentIndexChanged ) ;
QObject : : connect ( ui - > sdoNow , & ButtonSwitch : : toggled , this , & SIDGUI : : on_sdoNow_toggled ) ;
QObject : : connect ( ui - > sdoDateTime , & WrappingDateTimeEdit : : dateTimeChanged , this , & SIDGUI : : on_sdoDateTime_dateTimeChanged ) ;
QObject : : connect ( ui - > showSats , & QToolButton : : clicked , this , & SIDGUI : : on_showSats_clicked ) ;
QObject : : connect ( ui - > map , & QComboBox : : currentTextChanged , this , & SIDGUI : : on_map_currentTextChanged ) ;
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QObject : : connect ( ui - > showPaths , & QToolButton : : clicked , this , & SIDGUI : : on_showPaths_clicked ) ;
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QObject : : connect ( ui - > autoscaleX , & QPushButton : : clicked , this , & SIDGUI : : on_autoscaleX_clicked ) ;
QObject : : connect ( ui - > autoscaleY , & QPushButton : : clicked , this , & SIDGUI : : on_autoscaleY_clicked ) ;
QObject : : connect ( ui - > today , & QPushButton : : clicked , this , & SIDGUI : : on_today_clicked ) ;
QObject : : connect ( ui - > prevDay , & QPushButton : : clicked , this , & SIDGUI : : on_prevDay_clicked ) ;
QObject : : connect ( ui - > nextDay , & QPushButton : : clicked , this , & SIDGUI : : on_nextDay_clicked ) ;
QObject : : connect ( ui - > startDateTime , & WrappingDateTimeEdit : : dateTimeChanged , this , & SIDGUI : : on_startDateTime_dateTimeChanged ) ;
QObject : : connect ( ui - > endDateTime , & WrappingDateTimeEdit : : dateTimeChanged , this , & SIDGUI : : on_endDateTime_dateTimeChanged ) ;
QObject : : connect ( ui - > y1Min , QOverload < double > : : of ( & QDoubleSpinBox : : valueChanged ) , this , & SIDGUI : : on_y1Min_valueChanged ) ;
QObject : : connect ( ui - > y1Max , QOverload < double > : : of ( & QDoubleSpinBox : : valueChanged ) , this , & SIDGUI : : on_y1Max_valueChanged ) ;
QObject : : connect ( ui - > deleteAll , & QToolButton : : clicked , this , & SIDGUI : : on_deleteAll_clicked ) ;
QObject : : connect ( ui - > saveData , & QToolButton : : clicked , this , & SIDGUI : : on_saveData_clicked ) ;
QObject : : connect ( ui - > loadData , & QToolButton : : clicked , this , & SIDGUI : : on_loadData_clicked ) ;
QObject : : connect ( ui - > saveChartImage , & QToolButton : : clicked , this , & SIDGUI : : on_saveChartImage_clicked ) ;
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QObject : : connect ( ui - > addChannels , & QToolButton : : clicked , this , & SIDGUI : : on_addChannels_clicked ) ;
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QObject : : connect ( ui - > settings , & QToolButton : : clicked , this , & SIDGUI : : on_settings_clicked ) ;
}
SIDGUI : : ChannelMeasurement & SIDGUI : : addMeasurements ( const QString & id )
{
ChannelMeasurement measurements = ChannelMeasurement ( id , m_settings . m_samples ) ;
m_channelMeasurements . append ( measurements ) ;
return m_channelMeasurements . last ( ) ;
}
SIDGUI : : ChannelMeasurement & SIDGUI : : getMeasurements ( const QString & id )
{
for ( int i = 0 ; i < m_channelMeasurements . size ( ) ; i + + )
{
if ( m_channelMeasurements [ i ] . m_id = = id )
{
return m_channelMeasurements [ i ] ;
}
}
return addMeasurements ( id ) ;
}
void SIDGUI : : addMeasurement ( const QString & id , QDateTime dateTime , double measurement )
{
ChannelMeasurement & measurements = getMeasurements ( id ) ;
measurements . append ( dateTime , measurement ) ;
if ( m_chartXAxis )
{
if ( measurements . m_series )
{
updateMeasurementRange ( measurement ) ;
updateTimeRange ( dateTime ) ;
autoscaleX ( ) ;
autoscaleY ( ) ;
}
else
{
qDebug ( ) < < " addMeasurement - measurement has no series calling plotChart " ;
plotChart ( ) ;
}
}
else
{
qDebug ( ) < < " addMeasurement with no m_chartXAxis - calling plotChart " ;
plotChart ( ) ;
}
}
void SIDGUI : : autoscaleX ( )
{
if ( m_settings . m_autoscaleX )
{
if ( m_maxDateTime . isValid ( ) & & ( ! m_settings . m_endDateTime . isValid ( ) | | ( m_maxDateTime > m_settings . m_endDateTime ) ) ) {
ui - > endDateTime - > setDateTime ( m_maxDateTime ) ;
}
if ( m_minDateTime . isValid ( ) & & ( ! m_settings . m_startDateTime . isValid ( ) | | ( m_minDateTime < m_settings . m_startDateTime ) ) ) {
ui - > startDateTime - > setDateTime ( m_minDateTime ) ;
}
}
}
void SIDGUI : : autoscaleY ( )
{
if ( m_settings . m_autoscaleY )
{
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if ( ! std : : isnan ( m_minMeasurement ) & & ! std : : isnan ( m_maxMeasurement ) & & ( m_minMeasurement = = m_maxMeasurement ) )
{
// Graph doesn't display properly if min is the same as max
ui - > y1Min - > setValue ( m_minMeasurement * 0.99 ) ;
ui - > y1Max - > setValue ( m_maxMeasurement * 1.01 ) ;
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}
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else
{
if ( ! std : : isnan ( m_minMeasurement ) & & ( m_minMeasurement ! = m_settings . m_y1Min ) ) {
ui - > y1Min - > setValue ( m_minMeasurement ) ;
}
if ( ! std : : isnan ( m_maxMeasurement ) & & ( m_maxMeasurement ! = m_settings . m_y1Max ) ) {
ui - > y1Max - > setValue ( m_maxMeasurement ) ;
}
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}
}
}
void SIDGUI : : xRayDataUpdated ( const QList < GOESXRay : : XRayData > & data , bool primary )
{
// Data is at 1-minute intervals, for last 6 hours, so we want to merge with data with already have
// Assuems oldest data is first in the array
QDateTime start ;
int idx = primary ? 0 : 1 ;
if ( m_xrayShortMeasurements [ idx ] . m_measurements . size ( ) > 0 ) {
start = m_xrayShortMeasurements [ idx ] . m_measurements . last ( ) . m_dateTime ;
}
for ( const auto & measurement : data )
{
if ( ! start . isValid ( ) | | ( measurement . m_dateTime > start ) )
{
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ChannelMeasurement * measurements ;
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switch ( measurement . m_band )
{
case GOESXRay : : XRayData : : SHORT :
measurements = & m_xrayShortMeasurements [ idx ] ;
break ;
case GOESXRay : : XRayData : : LONG :
measurements = & m_xrayLongMeasurements [ idx ] ;
break ;
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default :
measurements = nullptr ;
break ;
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}
// Ignore flux measurements of 0, as log10(0) is -Inf
if ( measurements & & ( measurement . m_flux ! = 0.0 ) )
{
double logFlux = log10 ( measurement . m_flux ) ;
measurements - > append ( measurement . m_dateTime , logFlux ) ;
}
}
}
plotChart ( ) ;
}
void SIDGUI : : protonDataUpdated ( const QList < GOESXRay : : ProtonData > & data , bool primary )
{
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( void ) primary ;
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QDateTime start ;
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if ( m_protonMeasurements [ 0 ] . m_measurements . size ( ) > 0 ) {
start = m_protonMeasurements [ 0 ] . m_measurements . last ( ) . m_dateTime ;
}
for ( const auto & measurement : data )
{
if ( ! start . isValid ( ) | | ( measurement . m_dateTime > start ) )
{
ChannelMeasurement * measurements = nullptr ;
switch ( measurement . m_energy )
{
case 10 :
measurements = & m_protonMeasurements [ 0 ] ;
break ;
case 50 :
measurements = & m_protonMeasurements [ 1 ] ;
break ;
case 100 :
measurements = & m_protonMeasurements [ 2 ] ;
break ;
case 500 :
measurements = & m_protonMeasurements [ 3 ] ;
break ;
}
if ( measurements ) {
measurements - > append ( measurement . m_dateTime , measurement . m_flux ) ;
}
}
}
plotChart ( ) ;
}
void SIDGUI : : stixDataUpdated ( const QList < STIX : : FlareData > & data )
{
m_stixData = data ;
plotChart ( ) ;
}
void SIDGUI : : grbDataUpdated ( const QList < GRB : : Data > & data )
{
m_grbData = data ;
// Calculate min/max of data
if ( m_grbData . size ( ) > 0 )
{
m_grbMin = std : : numeric_limits < float > : : max ( ) ;
m_grbMax = std : : numeric_limits < float > : : min ( ) ;
for ( int i = 0 ; i < m_grbData . size ( ) ; i + + )
{
if ( ( m_grbData [ i ] . m_fluence ! = 0.0f ) & & ( m_grbData [ i ] . m_fluence ! = - 999.0f ) )
{
m_grbMin = std : : min ( m_grbMin , m_grbData [ i ] . m_fluence ) ;
m_grbMax = std : : max ( m_grbMax , m_grbData [ i ] . m_fluence ) ;
}
}
}
plotChart ( ) ;
}
void SIDGUI : : sdoImageUpdated ( const QImage & image )
{
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bool setSize = ui - > sdoImage - > pixmap ( Qt : : ReturnByValueConstant ( ) ) . isNull ( ) ;
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QPixmap pixmap ;
pixmap . convertFromImage ( image ) ;
ui - > sdoImage - > setPixmap ( pixmap ) ;
if ( setSize )
{
QList < int > sizes = ui - > sdoSplitter - > sizes ( ) ;
if ( ! ( ( sizes [ 0 ] = = 0 ) & & ( sizes [ 1 ] = = 0 ) ) )
{
sizes [ 1 ] = std : : max ( sizes [ 1 ] , 256 ) ; // Default size can be a bit small
ui - > sdoSplitter - > setSizes ( sizes ) ;
}
}
}
void SIDGUI : : on_sdoEnabled_toggled ( bool checked )
{
m_settings . m_sdoEnabled = checked ;
ui - > sdoData - > setVisible ( checked ) ;
ui - > sdoVideoEnabled - > setVisible ( checked ) ;
ui - > sdoContainer - > setVisible ( checked ) ;
ui - > sdoNow - > setVisible ( checked ) ;
ui - > sdoDateTime - > setVisible ( checked ) ;
applySetting ( " sdoEnabled " ) ;
applySDO ( ) ;
}
void SIDGUI : : on_sdoVideoEnabled_toggled ( bool checked )
{
m_settings . m_sdoVideoEnabled = checked ;
applySetting ( " sdoVideoEnabled " ) ;
QString currentText = ui - > sdoData - > currentText ( ) ;
ui - > sdoData - > blockSignals ( true ) ;
ui - > sdoData - > clear ( ) ;
if ( checked )
{
for ( const auto & name : SolarDynamicsObservatory : : getVideoNames ( ) ) {
ui - > sdoData - > addItem ( name ) ;
}
}
else
{
for ( const auto & name : SolarDynamicsObservatory : : getImageNames ( ) ) {
ui - > sdoData - > addItem ( name ) ;
}
}
ui - > sdoData - > blockSignals ( false ) ;
int idx = ui - > sdoData - > findText ( currentText ) ;
if ( idx ! = - 1 ) {
ui - > sdoData - > setCurrentIndex ( idx ) ;
} else {
ui - > sdoData - > setCurrentIndex ( 0 ) ;
}
applySDO ( ) ;
}
void SIDGUI : : on_sdoNow_toggled ( bool checked )
{
m_settings . m_sdoNow = checked ;
applySetting ( " sdoNow " ) ;
ui - > sdoDateTime - > setEnabled ( ! m_settings . m_sdoNow ) ;
ui - > mapLabel - > setEnabled ( ! m_settings . m_sdoNow ) ;
ui - > map - > setEnabled ( ! m_settings . m_sdoNow ) ;
applySDO ( ) ;
applyDateTime ( ) ;
}
void SIDGUI : : on_sdoData_currentIndexChanged ( int index )
{
( void ) index ;
m_settings . m_sdoData = ui - > sdoData - > currentText ( ) ;
applySetting ( " sdoData " ) ;
applySDO ( ) ;
}
void SIDGUI : : on_sdoDateTime_dateTimeChanged ( QDateTime value )
{
m_settings . m_sdoDateTime = value ;
applySetting ( " sdoDateTime " ) ;
if ( ! m_settings . m_sdoNow )
{
applySDO ( ) ;
applyDateTime ( ) ;
}
}
void SIDGUI : : applySDO ( )
{
if ( m_solarDynamicsObservatory )
{
ui - > sdoImage - > setVisible ( ! m_settings . m_sdoVideoEnabled ) ;
ui - > sdoVideo - > setVisible ( m_settings . m_sdoVideoEnabled ) ;
if ( m_player ) {
m_player - > stop ( ) ;
}
if ( m_settings . m_sdoVideoEnabled )
{
QString videoURL = SolarDynamicsObservatory : : getVideoURL ( m_settings . m_sdoData ) ;
if ( ! videoURL . isEmpty ( ) & & m_player )
{
# if (QT_VERSION < QT_VERSION_CHECK(6, 0, 0))
m_player - > setMedia ( QUrl ( videoURL ) ) ;
# else
m_player - > setSource ( QUrl ( videoURL ) ) ;
# endif
m_player - > play ( ) ;
}
// Stop image updates
m_solarDynamicsObservatory - > getImagePeriodically ( m_settings . m_sdoData , 512 , 0 ) ;
}
else
{
if ( m_settings . m_sdoNow ) {
m_solarDynamicsObservatory - > getImagePeriodically ( m_settings . m_sdoData ) ;
} else {
m_solarDynamicsObservatory - > getImage ( m_settings . m_sdoData , m_settings . m_sdoDateTime ) ;
}
}
}
}
# if (QT_VERSION < QT_VERSION_CHECK(6, 0, 0))
// This doesn't seem to get called on Qt5 on Windows
void SIDGUI : : sdoBufferStatusChanged ( int percentFilled )
{
ui - > sdoProgressBar - > setValue ( percentFilled ) ;
}
# else
void SIDGUI : : sdoBufferProgressChanged ( float filled )
{
ui - > sdoProgressBar - > setValue ( ( int ) std : : round ( filled * 100.0f ) ) ;
}
# endif
void SIDGUI : : sdoVideoError ( QMediaPlayer : : Error error )
{
qWarning ( ) < < " SIDGUI::sdoVideoError: " < < error < < m_player - > errorString ( ) ;
# ifdef _MSC_VER
// Qt5/Windows doesn't support mp4 by default, so suggest K-Lite codecs
// Qt6 doesn't need these
if ( error = = QMediaPlayer : : FormatError ) {
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QMessageBox : : warning ( this , " Video Error " , " Unable to play video. Please try installing mp4/h264 codec, such as: <a href='https://www.codecguide.com/download_k-lite_codec_pack_basic.htm'>K-Lite codedcs</a>. " ) ;
}
# elif LINUX
if ( error = = QMediaPlayer : : FormatError ) {
QMessageBox : : warning ( this , " Video Error " , " Unable to play video. Please try installing mp4/h264 codec, such as gstreamer libav. " ) ;
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}
# else
if ( error = = QMediaPlayer : : FormatError ) {
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QMessageBox : : warning ( this , " Video Error " , " Unable to play video. Please try installing an mp4/h264 codec. " ) ;
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}
# endif
}
void SIDGUI : : sdoVideoStatusChanged ( QMediaPlayer : : MediaStatus status )
{
if ( status = = QMediaPlayer : : LoadingMedia )
{
ui - > sdoProgressBar - > setValue ( 0 ) ;
ui - > sdoProgressBar - > setVisible ( true ) ;
}
else if ( status = = QMediaPlayer : : BufferedMedia )
{
ui - > sdoProgressBar - > setValue ( 100 ) ;
ui - > sdoProgressBar - > setVisible ( false ) ;
}
else if ( status = = QMediaPlayer : : EndOfMedia )
{
m_player - > setPosition ( 0 ) ;
m_player - > play ( ) ;
}
}
void SIDGUI : : applyDateTime ( )
{
if ( ! m_settings . m_map . isEmpty ( ) & & ( m_settings . m_map ! = " None " ) )
{
if ( m_settings . m_sdoNow ) {
FeatureWebAPIUtils : : mapSetDateTime ( QDateTime : : currentDateTime ( ) ) ;
} else {
FeatureWebAPIUtils : : mapSetDateTime ( m_settings . m_sdoDateTime ) ;
}
}
}
void SIDGUI : : on_showSats_clicked ( )
{
// Create a Satellite Tracker feature
MainCore * mainCore = MainCore : : instance ( ) ;
PluginAPI : : FeatureRegistrations * featureRegistrations = mainCore - > getPluginManager ( ) - > getFeatureRegistrations ( ) ;
int nbRegistrations = featureRegistrations - > size ( ) ;
int index = 0 ;
for ( ; index < nbRegistrations ; index + + )
{
if ( featureRegistrations - > at ( index ) . m_featureId = = " SatelliteTracker " ) {
break ;
}
}
if ( index < nbRegistrations )
{
connect ( mainCore , & MainCore : : featureAdded , this , & SIDGUI : : onSatTrackerAdded ) ;
MainCore : : MsgAddFeature * msg = MainCore : : MsgAddFeature : : create ( 0 , index ) ;
mainCore - > getMainMessageQueue ( ) - > push ( msg ) ;
}
else
{
QMessageBox : : warning ( this , " Error " , " Satellite Tracker feature not available " ) ;
}
}
void SIDGUI : : onSatTrackerAdded ( int featureSetIndex , Feature * feature )
{
if ( feature - > getURI ( ) = = " sdrangel.feature.satellitetracker " )
{
disconnect ( MainCore : : instance ( ) , & MainCore : : featureAdded , this , & SIDGUI : : onSatTrackerAdded ) ;
QJsonArray sats = { " SDO " , " GOES 16 " , " GOES-18 " } ;
ChannelWebAPIUtils : : patchFeatureSetting ( featureSetIndex , feature - > getIndexInFeatureSet ( ) , " satellites " , sats ) ;
ChannelWebAPIUtils : : patchFeatureSetting ( featureSetIndex , feature - > getIndexInFeatureSet ( ) , " target " , " SDO " ) ;
ChannelWebAPIUtils : : runFeature ( featureSetIndex , feature - > getIndexInFeatureSet ( ) ) ;
}
}
void SIDGUI : : on_map_currentTextChanged ( const QString & text )
{
m_settings . m_map = text ;
applySetting ( " map " ) ;
applyDateTime ( ) ;
}
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// Plot paths from transmitters to receivers on map
void SIDGUI : : on_showPaths_clicked ( )
{
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clearFromMap ( ) ;
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for ( int i = 0 ; i < m_settings . m_channelSettings . size ( ) ; i + + )
{
unsigned int deviceSetIndex ;
unsigned int channelIndex ;
if ( MainCore : : getDeviceAndChannelIndexFromId ( m_settings . m_channelSettings [ i ] . m_id , deviceSetIndex , channelIndex ) )
{
// Get position of device, defaulting to My Position
QGeoCoordinate rxPosition ;
if ( ! ChannelWebAPIUtils : : getDevicePosition ( deviceSetIndex , rxPosition ) )
{
rxPosition . setLatitude ( MainCore : : instance ( ) - > getSettings ( ) . getLatitude ( ) ) ;
rxPosition . setLongitude ( MainCore : : instance ( ) - > getSettings ( ) . getLongitude ( ) ) ;
rxPosition . setAltitude ( MainCore : : instance ( ) - > getSettings ( ) . getAltitude ( ) ) ;
}
// Get position of transmitter
if ( VLFTransmitters : : m_callsignHash . contains ( m_settings . m_channelSettings [ i ] . m_label ) )
{
const VLFTransmitters : : Transmitter * transmitter = VLFTransmitters : : m_callsignHash . value ( m_settings . m_channelSettings [ i ] . m_label ) ;
QGeoCoordinate txPosition ;
txPosition . setLatitude ( transmitter - > m_latitude ) ;
txPosition . setLongitude ( transmitter - > m_longitude ) ;
txPosition . setAltitude ( 0 ) ;
// Calculate mid point for position of label
qreal distance = txPosition . distanceTo ( rxPosition ) ;
qreal az = txPosition . azimuthTo ( rxPosition ) ;
QGeoCoordinate midPoint = txPosition . atDistanceAndAzimuth ( distance / 2.0 , az ) ;
// Create a path from transmitter to receiver
QList < ObjectPipe * > mapPipes ;
MainCore : : instance ( ) - > getMessagePipes ( ) . getMessagePipes ( m_sid , " mapitems " , mapPipes ) ;
if ( mapPipes . size ( ) > 0 )
{
for ( const auto & pipe : mapPipes )
{
MessageQueue * messageQueue = qobject_cast < MessageQueue * > ( pipe - > m_element ) ;
SWGSDRangel : : SWGMapItem * swgMapItem = new SWGSDRangel : : SWGMapItem ( ) ;
QString deviceId = QString ( " %1%2 " ) . arg ( m_settings . m_channelSettings [ i ] . m_id [ 0 ] ) . arg ( deviceSetIndex ) ;
QString name = QString ( " SID %1 to %2 " ) . arg ( m_settings . m_channelSettings [ i ] . m_label ) . arg ( deviceId ) ;
QString details = QString ( " %1<br>Distance: %2 km " ) . arg ( name ) . arg ( ( int ) std : : round ( distance / 1000.0 ) ) ;
swgMapItem - > setName ( new QString ( name ) ) ;
swgMapItem - > setLatitude ( midPoint . latitude ( ) ) ;
swgMapItem - > setLongitude ( midPoint . longitude ( ) ) ;
swgMapItem - > setAltitude ( midPoint . altitude ( ) ) ;
QString image = QString ( " none " ) ;
swgMapItem - > setImage ( new QString ( image ) ) ;
swgMapItem - > setImageRotation ( 0 ) ;
swgMapItem - > setText ( new QString ( details ) ) ; // Not used - label is used instead for now
swgMapItem - > setFixedPosition ( true ) ;
swgMapItem - > setLabel ( new QString ( details ) ) ;
swgMapItem - > setAltitudeReference ( 0 ) ;
QList < SWGSDRangel : : SWGMapCoordinate * > * coords = new QList < SWGSDRangel : : SWGMapCoordinate * > ( ) ;
SWGSDRangel : : SWGMapCoordinate * c = new SWGSDRangel : : SWGMapCoordinate ( ) ;
c - > setLatitude ( rxPosition . latitude ( ) ) ;
c - > setLongitude ( rxPosition . longitude ( ) ) ;
c - > setAltitude ( rxPosition . altitude ( ) ) ;
coords - > append ( c ) ;
c = new SWGSDRangel : : SWGMapCoordinate ( ) ;
c - > setLatitude ( txPosition . latitude ( ) ) ;
c - > setLongitude ( txPosition . longitude ( ) ) ;
c - > setAltitude ( txPosition . altitude ( ) ) ;
coords - > append ( c ) ;
swgMapItem - > setColorValid ( 1 ) ;
swgMapItem - > setColor ( m_settings . m_channelSettings [ i ] . m_color . rgba ( ) ) ;
swgMapItem - > setCoordinates ( coords ) ;
swgMapItem - > setType ( 3 ) ;
MainCore : : MsgMapItem * msg = MainCore : : MsgMapItem : : create ( m_sid , swgMapItem ) ;
messageQueue - > push ( msg ) ;
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m_mapItemNames . append ( name ) ;
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}
}
}
}
}
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}
void SIDGUI : : clearFromMap ( )
{
QList < ObjectPipe * > mapPipes ;
MainCore : : instance ( ) - > getMessagePipes ( ) . getMessagePipes ( m_sid , " mapitems " , mapPipes ) ;
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for ( const auto & name : m_mapItemNames )
{
for ( const auto & pipe : mapPipes )
{
MessageQueue * messageQueue = qobject_cast < MessageQueue * > ( pipe - > m_element ) ;
SWGSDRangel : : SWGMapItem * swgMapItem = new SWGSDRangel : : SWGMapItem ( ) ;
swgMapItem - > setName ( new QString ( name ) ) ;
swgMapItem - > setImage ( new QString ( " " ) ) ;
swgMapItem - > setType ( 3 ) ;
MainCore : : MsgMapItem * msg = MainCore : : MsgMapItem : : create ( m_sid , swgMapItem ) ;
messageQueue - > push ( msg ) ;
}
}
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}
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void SIDGUI : : featuresChanged ( const QStringList & renameFrom , const QStringList & renameTo )
{
const AvailableChannelOrFeatureList availableFeatures = m_availableFeatureHandler . getAvailableChannelOrFeatureList ( ) ;
if ( renameFrom . contains ( m_settings . m_map ) )
{
m_settings . m_map = renameTo [ renameFrom . indexOf ( m_settings . m_map ) ] ;
applySetting ( " map " ) ;
}
ui - > map - > blockSignals ( true ) ;
ui - > map - > clear ( ) ;
ui - > map - > addItem ( " None " ) ;
for ( const auto & map : availableFeatures ) {
ui - > map - > addItem ( map . getId ( ) ) ;
}
int idx = ui - > map - > findText ( m_settings . m_map ) ;
if ( idx > = 0 ) {
ui - > map - > setCurrentIndex ( idx ) ;
} else {
ui - > map - > setCurrentIndex ( - 1 ) ;
}
ui - > map - > blockSignals ( false ) ;
// If no setting, default to first available map
if ( m_settings . m_map . isEmpty ( ) & & ( ui - > map - > count ( ) > = 2 ) ) {
ui - > map - > setCurrentIndex ( 1 ) ;
}
}
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void SIDGUI : : channelsChanged ( const QStringList & renameFrom , const QStringList & renameTo , const QStringList & removed , const QStringList & added )
{
removeChannels ( removed ) ;
// Rename measurements and settings that have had their id changed
for ( int i = 0 ; i < renameFrom . size ( ) ; i + + )
{
for ( int j = 0 ; j < m_channelMeasurements . size ( ) ; j + + )
{
if ( m_channelMeasurements [ j ] . m_id = = renameFrom [ i ] ) {
m_channelMeasurements [ j ] . m_id = renameTo [ i ] ;
}
}
for ( int j = 0 ; j < m_settings . m_channelSettings . size ( ) ; j + + )
{
if ( m_settings . m_channelSettings [ j ] . m_id = = renameFrom [ i ] ) {
m_settings . m_channelSettings [ j ] . m_id = renameTo [ i ] ;
}
}
}
// Create settings for any new channels
// Don't call createChannelSettings when channels are removed, as ids might not have been updated yet
if ( added . size ( ) > 0 )
{
if ( m_settings . createChannelSettings ( ) ) {
applySetting ( " channelSettings " ) ;
}
}
}
void SIDGUI : : removeChannels ( const QStringList & ids )
{
for ( int i = 0 ; i < ids . size ( ) ; i + + )
{
for ( int j = 0 ; j < m_channelMeasurements . size ( ) ; j + + )
{
if ( ids [ i ] = = m_channelMeasurements [ j ] . m_id )
{
m_channelMeasurements . removeAt ( j ) ;
break ;
}
}
for ( int j = 0 ; j < m_settings . m_channelSettings . size ( ) ; j + + )
{
if ( ids [ i ] = = m_settings . m_channelSettings [ j ] . m_id )
{
m_settings . m_channelSettings . removeAt ( j ) ;
break ;
}
}
}
}
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void SIDGUI : : autosave ( )
{
qDebug ( ) < < " SIDGUI::autosave start " ;
writeCSV ( m_settings . m_filename ) ;
qDebug ( ) < < " SIDGUI::autosave done " ;
}
void SIDGUI : : on_saveData_clicked ( )
{
m_fileDialog . setAcceptMode ( QFileDialog : : AcceptSave ) ;
if ( m_fileDialog . exec ( ) )
{
QStringList fileNames = m_fileDialog . selectedFiles ( ) ;
if ( fileNames . size ( ) > 0 ) {
writeCSV ( fileNames [ 0 ] ) ;
}
}
}
void SIDGUI : : on_loadData_clicked ( )
{
m_fileDialog . setAcceptMode ( QFileDialog : : AcceptOpen ) ;
if ( m_fileDialog . exec ( ) )
{
QStringList fileNames = m_fileDialog . selectedFiles ( ) ;
if ( fileNames . size ( ) > 0 ) {
readCSV ( fileNames [ 0 ] , false ) ;
}
}
}
void SIDGUI : : writeCSV ( const QString & filename )
{
if ( m_channelMeasurements . size ( ) < 1 ) {
return ;
}
QFile file ( filename ) ;
if ( ! file . open ( QIODevice : : WriteOnly | QIODevice : : Text ) )
{
QMessageBox : : critical ( this , " SID " , QString ( " Failed to open file %1 " ) . arg ( filename ) ) ;
return ;
}
QTextStream out ( & file ) ;
// Create a CSV file from the values in the table
QList < int > idx ;
QList < ChannelMeasurement * > measurements ;
out < < " Date and Time, " ;
for ( int i = 0 ; i < m_channelMeasurements . size ( ) ; i + + )
{
SIDSettings : : ChannelSettings * channelSettings = m_settings . getChannelSettings ( m_channelMeasurements [ i ] . m_id ) ;
QString name = m_channelMeasurements [ i ] . m_id ;
if ( channelSettings )
{
name . append ( " - " ) ;
name . append ( channelSettings - > m_label ) ;
}
out < < name < < " , " ;
measurements . append ( & m_channelMeasurements [ i ] ) ;
idx . append ( 0 ) ;
}
out < < " X-Ray Primary Short, " ;
measurements . append ( & m_xrayShortMeasurements [ 0 ] ) ;
idx . append ( 0 ) ;
out < < " X-Ray Primary Long, " ;
measurements . append ( & m_xrayLongMeasurements [ 0 ] ) ;
idx . append ( 0 ) ;
out < < " X-Ray Secondary Short, " ;
measurements . append ( & m_xrayShortMeasurements [ 1 ] ) ;
idx . append ( 0 ) ;
out < < " X-Ray Secondary Long, " ;
measurements . append ( & m_xrayLongMeasurements [ 1 ] ) ;
idx . append ( 0 ) ;
for ( int i = 0 ; i < 4 ; i + + )
{
out < < QString ( " %1 Proton, " ) . arg ( SIDGUI : : m_protonEnergies [ i ] ) ;
measurements . append ( & m_protonMeasurements [ i ] ) ;
idx . append ( 0 ) ;
}
out < < " \n " ;
// Find earliest time
QDateTime t ;
for ( int i = 0 ; i < measurements . size ( ) ; i + + )
{
ChannelMeasurement * cm = measurements [ i ] ;
Measurement * m = & cm - > m_measurements [ idx [ i ] ] ;
if ( ! t . isValid ( ) | | ( m - > m_dateTime < t ) ) {
t = m - > m_dateTime ;
}
}
bool done = false ;
while ( ! done )
{
out < < t . toUTC ( ) . toString ( Qt : : ISODateWithMs ) ;
out < < " , " ;
// Output data at this time
for ( int i = 0 ; i < measurements . size ( ) ; i + + )
{
ChannelMeasurement * cm = measurements [ i ] ;
if ( cm - > m_measurements . size ( ) > idx [ i ] )
{
Measurement * m = & cm - > m_measurements [ idx [ i ] ] ;
if ( m - > m_dateTime = = t )
{
out < < m - > m_measurement ;
idx [ i ] + + ;
}
}
out < < " , " ;
}
out < < " \n " ;
// Find next time
t = QDateTime ( ) ;
for ( int i = 0 ; i < measurements . size ( ) ; i + + )
{
ChannelMeasurement * cm = measurements [ i ] ;
if ( cm - > m_measurements . size ( ) > idx [ i ] )
{
Measurement * m = & cm - > m_measurements [ idx [ i ] ] ;
if ( ! t . isValid ( ) | | ( m - > m_dateTime < t ) ) {
t = m - > m_dateTime ;
}
}
}
if ( ! t . isValid ( ) ) {
done = true ;
}
}
}
void SIDGUI : : readCSV ( const QString & filename , bool autoload )
{
QFile file ( filename ) ;
if ( ! file . open ( QIODevice : : ReadOnly | QIODevice : : Text ) )
{
if ( ! autoload ) {
QMessageBox : : critical ( this , " SID " , QString ( " Failed to open file %1 " ) . arg ( filename ) ) ;
}
return ;
}
QTextStream in ( & file ) ;
// Prevent data updates while reading CSV
disconnectDataUpdates ( ) ;
// Delete existing data
clearAllData ( ) ;
// Get list of colors to use
QList < QRgb > colors = SIDSettings : : m_defaultColors ;
for ( const auto & channelSettings : m_settings . m_channelSettings ) {
colors . removeAll ( channelSettings . m_color . rgb ( ) ) ;
}
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bool channelSettingsChanged = false ;
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QStringList colNames ;
if ( CSV : : readRow ( in , & colNames ) )
{
QList < ChannelMeasurement * > measurements ;
for ( int i = 0 ; i < colNames . size ( ) - 1 ; i + + ) {
measurements . append ( nullptr ) ;
}
for ( int i = 1 ; i < colNames . size ( ) ; i + + )
{
QString name = colNames [ i ] ;
if ( name = = " X-Ray Primary Short " )
{
measurements [ i - 1 ] = & m_xrayShortMeasurements [ 0 ] ;
}
else if ( name = = " X-Ray Primary Long " )
{
measurements [ i - 1 ] = & m_xrayLongMeasurements [ 0 ] ;
}
else if ( name = = " X-Ray Secondary Short " )
{
measurements [ i - 1 ] = & m_xrayShortMeasurements [ 1 ] ;
}
else if ( name = = " X-Ray Secondary Long " )
{
measurements [ i - 1 ] = & m_xrayLongMeasurements [ 1 ] ;
}
else if ( name . endsWith ( " Proton " ) )
{
for ( int j = 0 ; j < m_protonEnergies . size ( ) ; j + + )
{
if ( name . startsWith ( m_protonEnergies [ j ] ) )
{
measurements [ i - 1 ] = & m_protonMeasurements [ j ] ;
break ;
}
}
}
else if ( name . contains ( " : " ) )
{
QString id ;
int idx = name . indexOf ( ' - ' ) ;
if ( idx > = 0 ) {
id = name . left ( idx ) ;
} else {
id = name ;
}
measurements [ i - 1 ] = & addMeasurements ( id ) ;
// Create settings, if we don't have them
SIDSettings : : ChannelSettings * channelSettings = m_settings . getChannelSettings ( id ) ;
if ( ! channelSettings )
{
if ( colors . size ( ) = = 0 ) {
colors = SIDSettings : : m_defaultColors ;
}
SIDSettings : : ChannelSettings newSettings ;
newSettings . m_id = id ;
newSettings . m_enabled = true ;
newSettings . m_label = name . mid ( idx + 1 ) ;
newSettings . m_color = colors . takeFirst ( ) ;
m_settings . m_channelSettings . append ( newSettings ) ;
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channelSettingsChanged = true ;
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}
}
}
QMessageBox dialog ( this ) ;
dialog . setText ( " Reading data " ) ;
dialog . addButton ( QMessageBox : : Cancel ) ;
dialog . show ( ) ;
QApplication : : processEvents ( ) ;
bool cancelled = false ;
QStringList cols ;
int row = 1 ;
while ( ! cancelled & & CSV : : readRow ( in , & cols ) )
{
if ( cols . size ( ) = = measurements . size ( ) + 1 )
{
QDateTime dateTime = QDateTime : : fromString ( cols [ 0 ] , Qt : : ISODateWithMs ) ;
for ( int i = 0 ; i < measurements . size ( ) ; i + + )
{
QString valueStr = cols [ i + 1 ] ;
if ( ! valueStr . isEmpty ( ) )
{
double value = valueStr . toDouble ( ) ;
measurements [ i ] - > append ( dateTime , value , false ) ;
}
}
}
else
{
qDebug ( ) < < " SIDGUI::readCSV: Not enough data on row " < < row ;
}
if ( row % 10000 = = 0 )
{
QApplication : : processEvents ( ) ;
if ( dialog . clickedButton ( ) ) {
cancelled = true ;
}
}
row + + ;
}
dialog . close ( ) ;
autoscaleX ( ) ;
autoscaleY ( ) ;
plotChart ( ) ;
connectDataUpdates ( ) ;
getData ( ) ;
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if ( channelSettingsChanged ) {
applySetting ( " channelSettings " ) ;
}
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}
}
void SIDGUI : : on_saveChartImage_clicked ( )
{
QFileDialog fileDialog ( nullptr , " Select file to save image to " , " " , " *.png *.jpg *.jpeg *.bmp *.ppm *.xbm *.xpm " ) ;
fileDialog . setAcceptMode ( QFileDialog : : AcceptSave ) ;
if ( fileDialog . exec ( ) )
{
QStringList fileNames = fileDialog . selectedFiles ( ) ;
if ( fileNames . size ( ) > 0 )
{
QImage image ( ui - > chart - > size ( ) , QImage : : Format_ARGB32 ) ;
image . fill ( Qt : : transparent ) ;
QPainter painter ( & image ) ;
ui - > chart - > render ( & painter ) ;
if ( ! image . save ( fileNames [ 0 ] ) ) {
QMessageBox : : critical ( this , " SID " , QString ( " Failed to save image to %1 " ) . arg ( fileNames [ 0 ] ) ) ;
}
}
}
}