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sdrangel/plugins/channelrx/radioastronomy/radioastronomygui.h

721 lines
26 KiB
C++

///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2016 Edouard Griffiths, F4EXB //
// Copyright (C) 2021-2024 Jon Beniston, M7RCE //
// //
// This program is free software; you can redistribute it and/or modify //
// it under the terms of the GNU General Public License as published by //
// the Free Software Foundation as version 3 of the License, or //
// (at your option) any later version. //
// //
// This program is distributed in the hope that it will be useful, //
// but WITHOUT ANY WARRANTY; without even the implied warranty of //
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
// GNU General Public License V3 for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
#ifndef INCLUDE_RADIOASTRONOMYGUI_H
#define INCLUDE_RADIOASTRONOMYGUI_H
#include <QTableWidgetItem>
#include <QPushButton>
#include <QToolButton>
#include <QHBoxLayout>
#include <QMenu>
#include <QtCharts>
#include <QNetworkAccessManager>
#include <QNetworkReply>
#include <QDebug>
#include "channel/channelgui.h"
#include "dsp/channelmarker.h"
#include "util/messagequeue.h"
#include "util/httpdownloadmanager.h"
#include "settings/rollupstate.h"
#include "radioastronomysettings.h"
#include "radioastronomy.h"
class PluginAPI;
class DeviceUISet;
class BasebandSampleSink;
class RadioAstronomy;
class RadioAstronomyGUI;
namespace Ui {
class RadioAstronomyGUI;
}
class RadioAstronomyGUI;
#if QT_VERSION < QT_VERSION_CHECK(6, 0, 0)
using namespace QtCharts;
#endif
class RadioAstronomyGUI : public ChannelGUI {
Q_OBJECT
struct FFTMeasurement {
QDateTime m_dateTime;
qint64 m_centerFrequency;
int m_sampleRate;
int m_integration;
int m_rfBandwidth;
int m_fftSize;
Real* m_fftData;
Real* m_db; // dBFS
Real* m_snr; // SNR (noise is cold cal data)
Real* m_temp; // Temp in Kelvin base on hot/cold cal data
Real m_totalPower; // Total power based on sum of fftData (i.e unknown units)
Real m_totalPowerdBFS; // m_totalPower in dB
Real m_totalPowerdBm; // Total power in dBm
Real m_totalPowerWatts; // Total power in Watts
Real m_tSys; // Total temp in K
Real m_tSys0; // Total unwanted noise (E.g. Trx+Tgal..) in K
Real m_tSource; // Estimated source temp (tSys-tSys0) in K
Real m_flux; // Average spectral flux density of source in W m^-2 Hz^-1
Real m_sigmaT; // Temperature variation
Real m_sigmaS; // Flux variation
Real m_tempMin; // Minimum value in m_temp array
RadioAstronomySettings::SpectrumBaseline m_baseline;
float m_omegaA;
float m_omegaS;
bool m_coordsValid; //!< Whether follow variables are valid
float m_ra;
float m_dec;
float m_azimuth;
float m_elevation;
float m_l;
float m_b;
float m_vBCRS;
float m_vLSR;
float m_solarFlux;
float m_airTemp;
float m_skyTemp;
float m_sensor[RADIOASTRONOMY_SENSORS];
bool m_rotValid;
float m_rotAz;
float m_rotEl;
float m_rotAzOff;
float m_rotElOff;
int m_sweepIndex;
FFTMeasurement() :
m_fftSize(0),
m_fftData(nullptr),
m_db(nullptr),
m_snr(nullptr),
m_temp(nullptr),
m_totalPower(0.0f),
m_totalPowerdBFS(0.0f),
m_totalPowerdBm(0.0f),
m_totalPowerWatts(0.0f),
m_tSys(0.0f),
m_tSys0(0.0f),
m_tSource(0.0f),
m_flux(0.0f),
m_sigmaT(0.0f),
m_sigmaS(0.0f),
m_tempMin(0.0f),
m_baseline(RadioAstronomySettings::SBL_TSYS0),
m_coordsValid(false),
m_airTemp(0.0),
m_skyTemp(0.0),
m_rotValid(false),
m_rotAz(0.0),
m_rotEl(0.0),
m_rotAzOff(0.0),
m_rotElOff(0.0),
m_sweepIndex(0)
{
}
~FFTMeasurement()
{
delete[] m_fftData;
delete[] m_db;
delete[] m_snr;
delete[] m_temp;
}
};
struct LABData {
float m_l;
float m_b;
QList<Real> m_vlsr;
QList<Real> m_temp;
LABData() :
m_l(0.0f),
m_b(0.0f)
{
}
void read(QFile* file, float l, float b);
void toSeries(QLineSeries *series);
};
struct SensorMeasurement {
QDateTime m_dateTime;
double m_value;
SensorMeasurement(QDateTime dateTime, double value) :
m_dateTime(dateTime),
m_value(value)
{
}
};
class SensorMeasurements {
QLineSeries* m_series;
QValueAxis* m_yAxis;
double m_max;
double m_min;
QList<SensorMeasurement *> m_measurements;
public:
SensorMeasurements() :
m_series(nullptr),
m_yAxis(nullptr)
{
}
void init(const QString& name, bool visible);
void setName(const QString& name);
void clicked(bool checked);
void append(SensorMeasurement *measurement);
void addToSeries(SensorMeasurement *measurement);
void addAllToSeries();
void clear();
void addToChart(QChart* chart, QDateTimeAxis* xAxis);
void setPen(const QPen& pen);
QValueAxis* yAxis() const;
qreal lastValue();
};
public:
static RadioAstronomyGUI* create(PluginAPI* pluginAPI, DeviceUISet *deviceUISet, BasebandSampleSink *rxChannel);
virtual void destroy();
void resetToDefaults();
QByteArray serialize() const;
bool deserialize(const QByteArray& data);
virtual MessageQueue *getInputMessageQueue() { return &m_inputMessageQueue; }
virtual void setWorkspaceIndex(int index) { m_settings.m_workspaceIndex = index; };
virtual int getWorkspaceIndex() const { return m_settings.m_workspaceIndex; };
virtual void setGeometryBytes(const QByteArray& blob) { m_settings.m_geometryBytes = blob; };
virtual QByteArray getGeometryBytes() const { return m_settings.m_geometryBytes; };
virtual QString getTitle() const { return m_settings.m_title; };
virtual QColor getTitleColor() const { return m_settings.m_rgbColor; };
virtual void zetHidden(bool hidden) { m_settings.m_hidden = hidden; }
virtual bool getHidden() const { return m_settings.m_hidden; }
virtual ChannelMarker& getChannelMarker() { return m_channelMarker; }
virtual int getStreamIndex() const { return m_settings.m_streamIndex; }
virtual void setStreamIndex(int streamIndex) { m_settings.m_streamIndex = streamIndex; }
public slots:
void channelMarkerChangedByCursor();
void channelMarkerHighlightedByCursor();
private:
Ui::RadioAstronomyGUI* ui;
PluginAPI* m_pluginAPI;
DeviceUISet* m_deviceUISet;
ChannelMarker m_channelMarker;
RollupState m_rollupState;
RadioAstronomySettings m_settings;
bool m_doApplySettings;
int m_basebandSampleRate;
quint64 m_centerFrequency;
RadioAstronomy* m_radioAstronomy;
uint32_t m_tickCount;
MessageQueue m_inputMessageQueue;
QMenu *powerTableMenu; // Column select context menu
QMenu *copyMenu;
QChart *m_powerChart;
QLineSeries *m_powerSeries;
QDateTimeAxis *m_powerXAxis;
bool m_powerXAxisSameDay;
QValueAxis *m_powerYAxis;
QScatterSeries *m_powerPeakSeries;
QScatterSeries *m_powerMarkerSeries;
QLineSeries *m_powerTsys0Series;
QLineSeries *m_powerGaussianSeries;
QLineSeries *m_powerFilteredSeries;
double m_powerMin; // For axis autoscale
double m_powerMax;
bool m_powerPeakValid;
qreal m_powerMinX; // For min peak
qreal m_powerMinY;
qreal m_powerMaxX; // For max peak
qreal m_powerMaxY;
QChart *m_2DChart;
QValueAxis *m_2DXAxis;
QValueAxis *m_2DYAxis;
float *m_2DMapIntensity;
float m_2DMapMax;
float m_2DMapMin;
QImage m_2DMap;
int m_sweepIndex;
SensorMeasurements m_airTemps;
SensorMeasurements m_sensors[RADIOASTRONOMY_SENSORS];
QChart *m_calChart;
QValueAxis *m_calXAxis;
QValueAxis *m_calYAxis;
QLineSeries *m_calHotSeries;
QLineSeries *m_calColdSeries;
FFTMeasurement* m_calHot;
FFTMeasurement* m_calCold;
double *m_calG;
QChart *m_fftChart;
QLineSeries *m_fftSeries;
QLineSeries *m_fftHlineSeries;
QScatterSeries *m_fftPeakSeries;
QScatterSeries *m_fftMarkerSeries;
QLineSeries *m_fftGaussianSeries;
QLineSeries *m_fftLABSeries;
QValueAxis *m_fftXAxis;
QValueAxis *m_fftYAxis;
QValueAxis *m_fftDopplerAxis;
QList<FFTMeasurement*> m_fftMeasurements;
// Markers
bool m_powerM1Valid;
bool m_powerM2Valid;
qreal m_powerM1X;
qreal m_powerM1Y;
qreal m_powerM2X;
qreal m_powerM2Y;
bool m_spectrumM1Valid;
bool m_spectrumM2Valid;
qreal m_spectrumM1X;
qreal m_spectrumM1Y;
qreal m_spectrumM2X;
qreal m_spectrumM2Y;
// Target received from Star Tracker
bool m_coordsValid;
float m_ra;
float m_dec;
float m_azimuth;
float m_elevation;
float m_l;
float m_b;
float m_vBCRS;
float m_vLSR;
float m_solarFlux;
float m_skyTemp;
float m_beamWidth;
float m_lLAB; // Galactic coords for current LAB data
float m_bLAB;
QString m_filenameLAB;
bool m_downloadingLAB;
QList<LABData *> m_dataLAB;
// Circular buffer to filtering power series data
qreal *m_window;
qreal *m_windowSorted;
int m_windowIdx;
int m_windowCount;
QNetworkAccessManager *m_networkManager;
QNetworkRequest m_networkRequest;
HttpDownloadManager m_dlm;
explicit RadioAstronomyGUI(PluginAPI* pluginAPI, DeviceUISet *deviceUISet, BasebandSampleSink *rxChannel, QWidget* parent = 0);
virtual ~RadioAstronomyGUI();
void blockApplySettings(bool block);
void applySettings(bool force = false);
void displaySettings();
void displaySpectrumLineFrequency();
void displayRunModeSettings();
void updateAvailableFeatures(const AvailableChannelOrFeatureList& availableFeatures, const QStringList& renameFrom, const QStringList& renameTo);
void updateRotatorList(const AvailableChannelOrFeatureList& rotators, const QStringList& renameFrom, const QStringList& renameTo);
bool handleMessage(const Message& message);
void makeUIConnections();
void updateAbsoluteCenterFrequency();
double degreesToSteradian(double deg) const;
double hpbwToSteradians(double hpbw) const;
double calcOmegaA() const;
double calcOmegaS() const;
double beamFillingFactor() const;
void updateOmegaA();
void powerMeasurementReceived(FFTMeasurement *fft, bool skipCalcs);
void calCompletetReceived(const RadioAstronomy::MsgCalComplete& measurement);
void calcFFTPower(FFTMeasurement* fft);
void calcFFTTotalPower(FFTMeasurement* fft);
void calcFFTTemperatures(FFTMeasurement* fft);
void calcFFTTotalTemperature(FFTMeasurement* fft);
void calcFFTMinTemperature(FFTMeasurement* fft);
void addFFT(FFTMeasurement *fft, bool skipCalcs=false);
void fftMeasurementReceived(const RadioAstronomy::MsgFFTMeasurement& measurement);
void addToPowerSeries(FFTMeasurement *fft, bool skipCalcs=false);
void plotPowerGaussian();
void plotSpectrum();
void plotCalSpectrum();
void plotCalMeasurements();
void plotFFTMeasurement(int index);
void plotFFTMeasurement();
void plotTempGaussian(double startFreq, double freqStep, int steps);
void plotRefLine(FFTMeasurement *fft);
void plotLAB();
void plotLAB(float l, float b, float beamWidth);
LABData* parseLAB(QFile* file, float l, float b);
int fftSizeToIndex(int size);
double dopplerToVelocity(double centre, double f, FFTMeasurement *fft);
QHash<QString,int> csvHeadersToHash(QStringList cols);
QString csvData(QHash<QString,int> hash, QStringList cols, QString col);
bool hasNeededFFTData(QHash<QString,int> hash);
void saveFFT(QTextStream& out, const FFTMeasurement* fft);
FFTMeasurement* loadFFT(QHash<QString,int> hash, QStringList cols);
void clearData();
void clearCalData();
bool deleteRow(int row);
void deleteRowsComplete(bool deletedCurrent, int next);
void calcCalibrationScaleFactors();
void calibrate();
void recalibrate();
void calcGalacticBackgroundTemp();
void calcAtmosphericTemp();
void calcCalAvgDiff();
void calcCalTrx();
void calcCalTsp();
void calcAverages();
void calcFWHM();
void calcHPBWFromFWHM();
void calcFHWMFromHPBW();
void calcColumnDensity();
qreal calcSeriesFloor(QXYSeries *series, int percent=10);
void calcVrAndDistanceToPeak(double freq, FFTMeasurement *fft, int row);
int calcDistanceToPeak(double vr, float l, float b, double& r, double &d1, double &d2);
void calcDistances();
void clearLoSMarker(const QString& name);
void updateLoSMarker(const QString& name, float l, float b, float d);
bool losMarkerEnabled(const QString& name);
void showLoSMarker(const QString& name);
void showLoSMarker(int row);
void sensorMeasurementReceived(const RadioAstronomy::MsgSensorMeasurement& measurement);
void updateSpectrumMarkerTableVisibility();
void updatePowerMarkerTableVisibility();
void updatePowerChartWidgetsVisibility();
void updateSpectrumChartWidgetsVisibility();
void updateSpectrumSelect();
void updatePowerSelect();
void spectrumAutoscale();
void powerAutoscale();
void powerAutoscaleY(bool adjustAxis);
void calcSpectrumMarkerDelta();
void calcPowerMarkerDelta();
void calcPowerPeakDelta();
QRgb intensityToColor(float intensity);
void set2DAxisTitles();
void update2DSettingsFromSweep();
void create2DImage();
void update2DImage(FFTMeasurement* fft, bool skipCalcs);
void recolour2DImage();
void power2DAutoscale();
void powerColourAutoscale();
void updatePowerColourScaleStep();
void updateSpectrumMinMax(qreal x, qreal y);
RadioAstronomyGUI::FFTMeasurement* currentFFT();
void spectrumUpdateXRange(FFTMeasurement* fft = nullptr);
void spectrumUpdateYRange(FFTMeasurement* fft = nullptr);
void updateDistanceColumns();
void updateBWLimits();
void updateIntegrationTime();
void updateTSys0();
double calcTSys0() const;
double calcTau() const;
double calcTau(const FFTMeasurement* fft) const;
double calcSigmaT(double tSys) const;
double calcSigmaS(double tSys) const;
double calcSigmaT(const FFTMeasurement* fft) const;
double calcSigmaS(const FFTMeasurement* fft) const;
double calcFlux(double Ta, const FFTMeasurement *fft) const;
double calcTSource(FFTMeasurement *fft) const;
void updatePowerColumns(int row, FFTMeasurement* fft);
void calcPowerChartTickCount(int width);
void calcSpectrumChartTickCount(QValueAxis *axis, int width);
int powerYUnitsToIndex(RadioAstronomySettings::PowerYUnits units);
void setColumnPrecisionFromRotator();
void getRotatorData(FFTMeasurement *fft);
void leaveEvent(QEvent*);
void enterEvent(EnterEventType*);
void resizePowerTable();
void resizePowerMarkerTable();
void resizeSpectrumMarkerTable();
QAction *createCheckableItem(QString& text, int idx, bool checked, const char *slot);
enum PowerTableCol {
POWER_COL_DATE,
POWER_COL_TIME,
POWER_COL_POWER,
POWER_COL_POWER_DB,
POWER_COL_POWER_DBM,
POWER_COL_TSYS,
POWER_COL_TSYS0,
POWER_COL_TSOURCE,
POWER_COL_TB,
POWER_COL_TSKY,
POWER_COL_FLUX,
POWER_COL_SIGMA_T,
POWER_COL_SIGMA_S,
POWER_COL_OMEGA_A,
POWER_COL_OMEGA_S,
POWER_COL_RA,
POWER_COL_DEC,
POWER_COL_GAL_LON,
POWER_COL_GAL_LAT,
POWER_COL_AZ,
POWER_COL_EL,
POWER_COL_VBCRS,
POWER_COL_VLSR,
POWER_COL_SOLAR_FLUX,
POWER_COL_AIR_TEMP,
POWER_COL_SENSOR_1,
POWER_COL_SENSOR_2,
POWER_COL_UTC,
POWER_COL_ROT_AZ,
POWER_COL_ROT_EL,
POWER_COL_ROT_AZ_OFF,
POWER_COL_ROT_EL_OFF
};
enum PowerMarkerTable {
POWER_MARKER_COL_NAME,
POWER_MARKER_COL_DATE,
POWER_MARKER_COL_TIME,
POWER_MARKER_COL_VALUE,
POWER_MARKER_COL_DELTA_X,
POWER_MARKER_COL_DELTA_Y,
POWER_MARKER_COL_DELTA_TO
};
enum PowerMarkerRow {
POWER_MARKER_ROW_PEAK_MAX,
POWER_MARKER_ROW_PEAK_MIN,
POWER_MARKER_ROW_M1,
POWER_MARKER_ROW_M2,
POWER_MARKER_ROWS
};
enum SpectrumMarkerTable {
SPECTRUM_MARKER_COL_NAME,
SPECTRUM_MARKER_COL_FREQ,
SPECTRUM_MARKER_COL_VALUE,
SPECTRUM_MARKER_COL_DELTA_X,
SPECTRUM_MARKER_COL_DELTA_Y,
SPECTRUM_MARKER_COL_DELTA_TO,
SPECTRUM_MARKER_COL_VR,
SPECTRUM_MARKER_COL_R,
SPECTRUM_MARKER_COL_D,
SPECTRUM_MARKER_COL_PLOT_MAX,
SPECTRUM_MARKER_COL_R_MIN,
SPECTRUM_MARKER_COL_V
};
enum SpecrumMarkerRow {
SPECTRUM_MARKER_ROW_PEAK,
SPECTRUM_MARKER_ROW_M1,
SPECTRUM_MARKER_ROW_M2,
SPECTRUM_MARKER_ROWS
};
protected:
void resizeEvent(QResizeEvent* size);
private slots:
void on_deltaFrequency_changed(qint64 value);
void on_sampleRate_changed(qint64 index);
void on_rfBW_changed(qint64 index);
void on_integration_changed(qint64 value);
void on_fftSize_currentIndexChanged(int index);
void on_fftWindow_currentIndexChanged(int index);
void on_filterFreqs_editingFinished();
void on_starTracker_currentTextChanged(const QString& text);
void on_rotator_currentTextChanged(const QString& text);
void on_showSensors_clicked();
void on_tempRXSelect_currentIndexChanged(int value);
void on_tempRX_valueChanged(double value);
void on_tempCMB_valueChanged(double value);
void on_tempGal_valueChanged(double value);
void on_tempSP_valueChanged(double value);
void on_tempAtm_valueChanged(double value);
void on_tempAir_valueChanged(double value);
void on_zenithOpacity_valueChanged(double value);
void on_elevation_valueChanged(double value);
void on_tempAtmLink_toggled(bool checked);
void on_tempAirLink_toggled(bool checked);
void on_tempGalLink_toggled(bool checked);
void on_elevationLink_toggled(bool checked);
void on_gainVariation_valueChanged(double value);
void on_omegaAUnits_currentIndexChanged(int index);
void on_sourceType_currentIndexChanged(int index);
void on_omegaS_valueChanged(double value);
void on_omegaSUnits_currentIndexChanged(int index);
void on_spectrumChartSelect_currentIndexChanged(int index);
void on_showCalSettings_clicked();
void on_startCalHot_clicked();
void on_startCalCold_clicked();
void on_recalibrate_toggled(bool checked=false);
void on_spectrumShowLegend_toggled(bool checked);
void on_spectrumShowRefLine_toggled(bool checked);
void on_spectrumTemp_toggled(bool checked);
void on_spectrumMarker_toggled(bool checked);
void on_spectrumPeak_toggled(bool checked);
void on_spectrumReverseXAxis_toggled(bool checked);
void on_savePowerData_clicked();
void on_savePowerChartImage_clicked();
void on_saveSpectrumData_clicked();
void on_loadSpectrumData_clicked();
void on_saveSpectrumChartImage_clicked();
void on_saveSpectrumChartImages_clicked();
void on_clearData_clicked();
void on_clearCal_clicked();
void spectrumSeries_clicked(const QPointF &point);
void on_spectrumAutoscale_toggled(bool checked=false);
void on_spectrumAutoscaleX_clicked();
void on_spectrumAutoscaleY_clicked();
void on_spectrumReference_valueChanged(double value);
void on_spectrumRange_valueChanged(double value);
void on_spectrumCenterFreq_valueChanged(double value);
void on_spectrumSpan_valueChanged(double value);
void on_spectrumYUnits_currentIndexChanged(int index);
void on_spectrumBaseline_currentIndexChanged(int index);
void on_spectrumIndex_valueChanged(int value);
void on_spectrumLine_currentIndexChanged(int value);
void on_spectrumLineFrequency_valueChanged(double value);
void on_refFrame_currentIndexChanged(int value);
void on_sunDistanceToGC_valueChanged(double value);
void on_sunOrbitalVelocity_valueChanged(double value);
void spectrumMarkerTableItemChanged(QTableWidgetItem *item);
void on_spectrumGaussianFreq_valueChanged(double value);
void on_spectrumGaussianAmp_valueChanged(double value);
void on_spectrumGaussianFloor_valueChanged(double value);
void on_spectrumGaussianFWHM_valueChanged(double value);
void on_spectrumGaussianTurb_valueChanged(double value);
void on_spectrumTemperature_valueChanged(double t);
void on_spectrumShowLAB_toggled(bool checked=false);
void on_spectrumShowDistance_toggled(bool checked=false);
void on_tCalHotSelect_currentIndexChanged(int index);
void on_tCalHot_valueChanged(double value);
void on_tCalColdSelect_currentIndexChanged(int index);
void on_tCalCold_valueChanged(double value);
void on_powerChartSelect_currentIndexChanged(int index);
void on_powerYUnits_currentIndexChanged(int index);
void on_powerShowMarker_toggled(bool checked);
void on_powerShowTsys0_toggled(bool checked);
void on_powerShowAirTemp_toggled(bool checked);
void on_powerShowSensor1_toggled(bool checked);
void on_powerShowSensor2_toggled(bool checked);
void on_powerShowPeak_toggled(bool checked);
void on_powerShowAvg_toggled(bool checked);
void on_powerShowLegend_toggled(bool checked);
void powerSeries_clicked(const QPointF &point);
void on_powerAutoscale_toggled(bool checked);
void on_powerAutoscaleY_clicked();
void on_powerAutoscaleX_clicked();
void on_powerReference_valueChanged(double value);
void on_powerRange_valueChanged(double value);
void on_powerStartTime_dateTimeChanged(QDateTime value);
void on_powerEndTime_dateTimeChanged(QDateTime value);
void on_powerShowGaussian_clicked(bool checked=false);
void on_powerGaussianCenter_dateTimeChanged(QDateTime dateTime);
void on_powerGaussianAmp_valueChanged(double value);
void on_powerGaussianFloor_valueChanged(double value);
void on_powerGaussianFWHM_valueChanged(double value);
void on_powerGaussianHPBW_valueChanged(double value);
void plotPowerFiltered();
void addToPowerFilter(qreal y, qreal x);
void on_powerShowFiltered_clicked(bool checked=false);
void on_powerFilter_currentIndexChanged(int index);
void on_powerFilterN_valueChanged(int value);
void on_powerShowMeasurement_clicked(bool checked=false);
void on_runMode_currentIndexChanged(int index);
void on_sweepType_currentIndexChanged(int index);
void on_startStop_clicked(bool checked=false);
void on_sweepStartAtTime_currentIndexChanged(int index);
void on_sweepStartDateTime_dateTimeChanged(const QDateTime& dateTime);
void on_sweep1Start_valueChanged(double value);
void on_sweep1Stop_valueChanged(double value);
void on_sweep1Step_valueChanged(double value);
void on_sweep1Delay_valueChanged(double value);
void on_sweep2Start_valueChanged(double value);
void on_sweep2Stop_valueChanged(double value);
void on_sweep2Step_valueChanged(double value);
void on_sweep2Delay_valueChanged(double value);
void on_power2DLinkSweep_toggled(bool checked=false);
void on_power2DAutoscale_clicked();
void on_power2DSweepType_currentIndexChanged(int index);
void on_power2DWidth_valueChanged(int value);
void on_power2DHeight_valueChanged(int value);
void on_power2DXMin_valueChanged(double value);
void on_power2DXMax_valueChanged(double value);
void on_power2DYMin_valueChanged(double value);
void on_power2DYMax_valueChanged(double value);
void on_powerColourAutoscale_toggled(bool checked=false);
void on_powerColourScaleMin_valueChanged(double value);
void on_powerColourScaleMax_valueChanged(double value);
void on_powerColourPalette_currentIndexChanged(int index);
void powerTable_sectionMoved(int logicalIndex, int oldVisualIndex, int newVisualIndex);
void powerTable_sectionResized(int logicalIndex, int oldSize, int newSize);
void powerTableColumnSelectMenu(QPoint pos);
void powerTableColumnSelectMenuChecked(bool checked = false);
void on_powerTable_cellDoubleClicked(int row, int column);
void plotPowerChart();
void plotPowerVsTimeChart();
void plot2DChart();
void plotAreaChanged(const QRectF& plotArea);
void customContextMenuRequested(QPoint point);
void onWidgetRolled(QWidget* widget, bool rollDown);
void onMenuDialogCalled(const QPoint& p);
void handleInputMessages();
void tick();
void networkManagerFinished(QNetworkReply *reply);
void downloadFinished(const QString& filename, bool success);
};
#endif // INCLUDE_RADIOASTRONOMYGUI_H