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https://github.com/f4exb/sdrangel.git
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236 lines
8.1 KiB
C++
236 lines
8.1 KiB
C++
///////////////////////////////////////////////////////////////////////////////////
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// Copyright (C) 2017 Edouard Griffiths, F4EXB. //
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// Copyright (C) 2021 Jon Beniston, M7RCE //
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// //
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// This program is free software; you can redistribute it and/or modify //
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// it under the terms of the GNU General Public License as published by //
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// the Free Software Foundation as version 3 of the License, or //
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// (at your option) any later version. //
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// //
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// This program is distributed in the hope that it will be useful, //
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// but WITHOUT ANY WARRANTY; without even the implied warranty of //
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
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// GNU General Public License V3 for more details. //
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// //
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// You should have received a copy of the GNU General Public License //
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// along with this program. If not, see <http://www.gnu.org/licenses/>. //
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///////////////////////////////////////////////////////////////////////////////////
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#ifndef INCLUDE_RADIOASTRONOMYSETTINGS_H
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#define INCLUDE_RADIOASTRONOMYSETTINGS_H
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#include <QByteArray>
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#include <QString>
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#include <QDateTime>
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#include "dsp/dsptypes.h"
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class Serializable;
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// Number of columns in the tables
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#define RADIOASTRONOMY_POWERTABLE_COLUMNS 32
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// Number of sensors
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#define RADIOASTRONOMY_SENSORS 2
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struct RadioAstronomySettings
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{
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int m_inputFrequencyOffset;
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int m_sampleRate;
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int m_rfBandwidth;
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int m_integration; //!< Number of samples to integrate
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int m_fftSize;
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enum FFTWindow {
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REC,
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HAN
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} m_fftWindow; //!< FFT windowing function
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QString m_filterFreqs; //!< List of channels (bin indices) to filter in FFT to remove RFI
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QString m_starTracker; //!< Name of Star Tracker plugin to link with
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QString m_rotator; //!< Name of antenna rotator
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float m_tempRX; //!< Receiver noise temperature in K (Front end NF)
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float m_tempCMB; //!< Cosmic microwave background temperature in K
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float m_tempGal; //!< Galactic background temperature in K
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float m_tempSP; //!< Spillover temperature in K
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float m_tempAtm; //!< Atmospheric temperature in K
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float m_tempAir; //!< Surface air temperature in C
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float m_zenithOpacity; //!< Opacity of atmosphere at zenith
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float m_elevation; //!< Elevation in degrees, if not using value from Star Tracker
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bool m_tempGalLink;
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bool m_tempAtmLink;
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bool m_tempAirLink;
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bool m_elevationLink;
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float m_gainVariation; //!< delta G/G
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enum SourceType {
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UNKNOWN,
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COMPACT,
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EXTENDED,
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SUN,
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CAS_A
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} m_sourceType; //!< Whether the source it smaller than the beam
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float m_omegaS; //!< Source angle
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enum AngleUnits {
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DEGREES,
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STERRADIANS
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} m_omegaSUnits;
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enum AngleUnits m_omegaAUnits;
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bool m_spectrumPeaks;
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bool m_spectrumMarkers;
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bool m_spectrumTemp;
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bool m_spectrumReverseXAxis;
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bool m_spectrumRefLine;
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bool m_spectrumLAB;
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bool m_spectrumDistance;
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bool m_spectrumLegend;
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float m_spectrumReference; //!< In dB
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float m_spectrumRange; //!< In dB
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float m_spectrumSpan; //!< In Mhz
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float m_spectrumCenterFreqOffset; //!< Offset - rather than absolute - In Mhz
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bool m_spectrumAutoscale;
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enum SpectrumYScale {
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SY_DBFS,
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SY_SNR,
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SY_DBM,
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SY_TSYS,
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SY_TSOURCE
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} m_spectrumYScale;
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enum SpectrumBaseline {
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SBL_TSYS0,
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SBL_TMIN,
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SBL_CAL_COLD
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} m_spectrumBaseline;
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bool m_recalibrate;
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float m_tCalHot; //!< Hot calibration antenna noise temperature in K (Sky + Spillover?)
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float m_tCalCold; //!< Cold calibration antenna noise temperature in K
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enum Line {
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HI,
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OH,
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DI,
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CUSTOM_LINE
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} m_line; //!< Spectral line to plot and use as Doppler reference
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float m_lineCustomFrequency; //!< Spectral line frequency when m_line==CUSTOM
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enum RefFrame {
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TOPOCENTRIC,
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BCRS,
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LSR
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} m_refFrame; //!< Reference frame for velocities
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float m_sunDistanceToGC; //!< Sun distance to Galactic Center In kpc
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float m_sunOrbitalVelocity; //!< In km/s around GC
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bool m_powerPeaks;
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bool m_powerMarkers;
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bool m_powerAvg;
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bool m_powerLegend;
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bool m_powerShowTsys0; //!< Plot total noise temperature
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bool m_powerShowAirTemp;
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bool m_powerShowGaussian;
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bool m_powerShowFiltered;
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bool m_powerShowMeasurement;
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float m_powerReference; //!< In dB
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float m_powerRange; //!< In dB
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bool m_powerAutoscale;
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enum PowerYData {
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PY_POWER,
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PY_TSYS,
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PY_TSOURCE,
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PY_FLUX,
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PY_2D_MAP
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} m_powerYData;
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enum PowerYUnits {
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PY_DBFS,
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PY_DBM,
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PY_WATTS,
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PY_KELVIN,
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PY_SFU,
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PY_JANSKY
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} m_powerYUnits;
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enum PowerFilter {
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FILT_MEDIAN,
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FILT_MOVING_AVERAGE,
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// TODO: FILT_LPF
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} m_powerFilter;
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int m_powerFilterN;
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enum SweepType {
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SWP_AZEL,
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SWP_LB,
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SWP_OFFSET
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};
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bool m_power2DLinkSweep; //<! Update setting below to match sweep parameters
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SweepType m_power2DSweepType;
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int m_power2DWidth;
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int m_power2DHeight;
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float m_power2DXMin;
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float m_power2DXMax;
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float m_power2DYMin;
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float m_power2DYMax;
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bool m_powerColourAutoscale;
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float m_powerColourScaleMin;
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float m_powerColourScaleMax;
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QString m_powerColourPalette;
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enum RunMode {
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SINGLE,
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CONTINUOUS,
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SWEEP
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} m_runMode;
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bool m_sweepStartAtTime;
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QDateTime m_sweepStartDateTime;
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SweepType m_sweepType;
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float m_sweep1Start;
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float m_sweep1Stop;
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float m_sweep1Step;
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float m_sweep1Delay; //!< Delay after rotation before a measurement
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float m_sweep2Start;
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float m_sweep2Stop;
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float m_sweep2Step;
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float m_sweep2Delay; //!< Delay after a measurement before starting the next
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QString m_sensorName[RADIOASTRONOMY_SENSORS];
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QString m_sensorDevice[RADIOASTRONOMY_SENSORS];
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QString m_sensorInit[RADIOASTRONOMY_SENSORS];
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QString m_sensorMeasure[RADIOASTRONOMY_SENSORS];
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bool m_sensorEnabled[RADIOASTRONOMY_SENSORS];
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bool m_sensorVisible[RADIOASTRONOMY_SENSORS];
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float m_sensorMeasurePeriod;
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bool m_gpioEnabled;
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int m_gpioPin;
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int m_gpioSense;
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QString m_startCalCommand;
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QString m_stopCalCommand;
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float m_calCommandDelay; //!< Delay in seconds after command before starting cal
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quint32 m_rgbColor;
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QString m_title;
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Serializable *m_channelMarker;
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Serializable *m_rollupState;
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int m_streamIndex; //!< MIMO channel. Not relevant when connected to SI (single Rx).
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bool m_useReverseAPI;
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QString m_reverseAPIAddress;
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uint16_t m_reverseAPIPort;
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uint16_t m_reverseAPIDeviceIndex;
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uint16_t m_reverseAPIChannelIndex;
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int m_workspaceIndex;
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QByteArray m_geometryBytes;
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bool m_hidden;
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int m_powerTableColumnIndexes[RADIOASTRONOMY_POWERTABLE_COLUMNS];//!< How the columns are ordered in the table
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int m_powerTableColumnSizes[RADIOASTRONOMY_POWERTABLE_COLUMNS]; //!< Size of the columns in the table
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RadioAstronomySettings();
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void resetToDefaults();
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void setChannelMarker(Serializable *channelMarker) { m_channelMarker = channelMarker; }
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void setRollupState(Serializable *rollupState) { m_rollupState = rollupState; }
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QByteArray serialize() const;
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bool deserialize(const QByteArray& data);
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};
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#endif /* INCLUDE_RADIOASTRONOMYSETTINGS_H */
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