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//# Copyright (C) 2000
//# Associated Universities, Inc. Washington DC, USA.
//#
//# This library is free software; you can redistribute it and/or modify it
//# under the terms of the GNU Library General Public License as published by
//# the Free Software Foundation; either version 2 of the License, or (at your
//# option) any later version.
//#
//# This library 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 Library General Public
//# License for more details.
//#
//# You should have received a copy of the GNU Library General Public License
//# along with this library; if not, write to the Free Software Foundation,
//# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
//#
//# Correspondence concerning AIPS++ should be addressed as follows:
//# Internet email: aips2-request@nrao.edu.
//# Postal address: AIPS++ Project Office
//# National Radio Astronomy Observatory
//# 520 Edgemont Road
//# Charlottesville, VA 22903-2475 USA
//#
//# $Id$
#ifndef MS_MSMAINCOLUMNS_H
#define MS_MSMAINCOLUMNS_H
#include <casacore/casa/aips.h>
#include <casacore/measures/Measures/MEpoch.h>
#include <casacore/measures/Measures/Muvw.h>
#include <casacore/measures/Measures/MCEpoch.h>
#include <casacore/measures/Measures/MCuvw.h>
#include <casacore/tables/Tables/ScalarColumn.h>
#include <casacore/tables/Tables/ArrayColumn.h>
#include <casacore/measures/TableMeasures/ScalarMeasColumn.h>
#include <casacore/measures/TableMeasures/ScalarQuantColumn.h>
#include <casacore/measures/TableMeasures/ArrayQuantColumn.h>
namespace casacore { //# NAMESPACE CASACORE - BEGIN
class MeasurementSet;
class String;
template <class T> class Vector;
// <summary>
// A class for easy read-only access to MeasurementSet main table columns
// </summary>
// <use visibility=export>
// <reviewed reviewer="Bob Garwood" date="1997/02/01" tests="" demos="">
// </reviewed>
// <prerequisite>
// <li> MeasurementSet
// <li> ArrayColumn
// <li> ScalarColumn
// </prerequisite>
//
// <etymology>
// ROMSColumns stands for Read-Only MeasurementSet Table columns.
// </etymology>
//
// <synopsis>
// This class provides read-only access to the columns in the MeasurementSet.
// It does the declaration of all the Scalar and ArrayColumns with the
// correct types, so the application programmer doesn't have to
// worry about getting those right. There is an access function
// for every predefined column. Access to non-predefined columns will still
// have to be done with explicit declarations.
// <note role=warning> The Table that is used to construct this class must not
// be destroyed (or go out of scope) before this class does. Otherwise the
// scalar and array columns use by this class will be left dangling.</note>
// </synopsis>
// </synopsis>
//
// <example>
// <srcblock>
// // use as follows
// MeasurementSet ms("myMS");
// ROMSColumns msc(ms);
// // show data from row 5
// cout << msc.data()(5);
// // show name of antenna on row 3 in antenna table
// cout << msc.antenna().name();
// </srcblock>
// </example>
//
// <motivation>
// See <linkto class=MSColumns> MSColumns</linkto> for the motivation.
// </motivation>
//
// <todo asof="1997/02/01">
// <li> We might decide to merge all the MSColumn classes with the
// corresponding MeasurementSet classes.
// </todo>
class ROMSMainColumns
{
public:
// Create a columns object that accesses the data in the specified Table
ROMSMainColumns(const MeasurementSet& ms);
// The desctructor does nothing special
~ROMSMainColumns();
// Access to required columns
// <group>
const ROScalarColumn<Int>& antenna1() const {return antenna1_p;}
const ROScalarColumn<Int>& antenna2() const {return antenna2_p;}
const ROScalarColumn<Int>& arrayId() const {return arrayId_p;}
const ROScalarColumn<Int>& dataDescId() const {return dataDescId_p;}
const ROScalarColumn<Double>& exposure() const {return exposure_p;}
const ROScalarQuantColumn<Double>& exposureQuant() const {
return exposureQuant_p;}
const ROScalarColumn<Int>& feed1() const {return feed1_p;}
const ROScalarColumn<Int>& feed2() const {return feed2_p;}
const ROScalarColumn<Int>& fieldId() const {return fieldId_p;}
const ROArrayColumn<Bool>& flag() const {return flag_p;}
const ROArrayColumn<Bool>& flagCategory() const {return flagCategory_p;}
const ROScalarColumn<Bool>& flagRow() const {return flagRow_p;}
const ROScalarColumn<Double>& interval() const {return interval_p;}
const ROScalarQuantColumn<Double>& intervalQuant() const {
return intervalQuant_p;}
const ROScalarColumn<Int>& observationId() const {return observationId_p;}
const ROScalarColumn<Int>& processorId() const {return processorId_p;}
const ROScalarColumn<Int>& scanNumber() const {return scanNumber_p;}
const ROArrayColumn<Float>& sigma() const {return sigma_p;}
const ROScalarColumn<Int>& stateId() const {return stateId_p;}
const ROScalarColumn<Double>& time() const {return time_p;}
const ROScalarQuantColumn<Double>& timeQuant() const {
return timeQuant_p;}
const ROScalarMeasColumn<MEpoch>& timeMeas() const {
return timeMeas_p;}
const ROScalarColumn<Double>& timeCentroid() const {return timeCentroid_p;}
const ROScalarQuantColumn<Double>& timeCentroidQuant() const {
return timeCentroidQuant_p;}
const ROScalarMeasColumn<MEpoch>& timeCentroidMeas() const {
return timeCentroidMeas_p;}
const ROArrayColumn<Double>& uvw() const {return uvw_p;}
const ROArrayQuantColumn<Double>& uvwQuant() const {
return uvwQuant_p;}
const ROScalarMeasColumn<Muvw>& uvwMeas() const {
return uvwMeas_p;}
const ROArrayColumn<Float>& weight() const {return weight_p;}
// </group>
// Access to optional columns
// <group>
const ROScalarColumn<Int>& antenna3() const {return antenna3_p;}
const ROScalarColumn<Bool>& baselineRef() const {return baselineRef_p;}
const ROArrayColumn<Complex>& correctedData() const {return correctedData_p;}
const ROArrayColumn<Complex>& data() const {return data_p;}
const ROScalarColumn<Int>& feed3() const {return feed3_p;}
const ROArrayColumn<Float>& floatData() const {return floatData_p;}
const ROArrayColumn<Float>& imagingWeight() const {return imagingWeight_p;}
const ROArrayColumn<Complex>& lagData() const {return lagData_p;}
const ROArrayColumn<Complex>& modelData() const {return modelData_p;}
const ROScalarColumn<Int>& phaseId() const {return phaseId_p;}
const ROScalarColumn<Int>& pulsarBin() const {return pulsarBin_p;}
const ROScalarColumn<Int>& pulsarGateId() const {return pulsarGateId_p;}
const ROArrayColumn<Float>& sigmaSpectrum() const {return sigmaSpectrum_p;}
const ROScalarColumn<Double>& timeExtraPrec() const {return timeExtraPrec_p;}
const ROScalarQuantColumn<Double>& timeExtraPrecQuant() const {
return timeExtraPrecQuant_p;}
const ROArrayColumn<Double>& uvw2() const {return uvw2_p;}
const ROScalarMeasColumn<Muvw>& uvw2Meas() const {
return uvw2Meas_p;}
const ROArrayQuantColumn<Double>& uvw2Quant() const {
return uvw2Quant_p;}
const ROArrayColumn<Complex>& videoPoint() const {return videoPoint_p;}
const ROArrayColumn<Float>& weightSpectrum() const {return weightSpectrum_p;}
const ROArrayColumn<Float>& weightSpectrumCorrected() const {return weightSpectrumCorrected_p;}
// </group>
// Convenience function that returns the number of rows in any of the columns
uInt nrow() const {return antenna1_p.nrow();}
// Returns the category labels for the FLAG_CATEGORY column.
Vector<String> flagCategories() const;
protected:
//# default constructor creates a object that is not usable. Use the attach
//# function correct this.
ROMSMainColumns();
//# attach this object to the supplied table.
void attach(const MeasurementSet& ms);
private:
//# Make the assignment operator and the copy constructor private to prevent
//# any compiler generated one from being used.
ROMSMainColumns(const ROMSMainColumns&);
ROMSMainColumns& operator=(const ROMSMainColumns&);
//# Check if any optional columns exist and if so attach them.
void attachOptionalCols(const MeasurementSet& ms);
//# required columns
ROScalarColumn<Int> antenna1_p;
ROScalarColumn<Int> antenna2_p;
ROScalarColumn<Int> arrayId_p;
ROScalarColumn<Int> dataDescId_p;
ROScalarColumn<Double> exposure_p;
ROScalarColumn<Int> feed1_p;
ROScalarColumn<Int> feed2_p;
ROScalarColumn<Int> fieldId_p;
ROArrayColumn<Bool> flag_p;
ROArrayColumn<Bool> flagCategory_p;
ROScalarColumn<Bool> flagRow_p;
ROScalarColumn<Double> interval_p;
ROScalarColumn<Int> observationId_p;
ROScalarColumn<Int> processorId_p;
ROScalarColumn<Int> scanNumber_p;
ROArrayColumn<Float> sigma_p;
ROScalarColumn<Int> stateId_p;
ROScalarColumn<Double> time_p;
ROScalarColumn<Double> timeCentroid_p;
ROArrayColumn<Double> uvw_p;
ROArrayColumn<Float> weight_p;
//# optional columns
ROScalarColumn<Int> antenna3_p;
ROScalarColumn<Bool> baselineRef_p;
ROArrayColumn<Complex> data_p;
ROScalarColumn<Int> feed3_p;
ROArrayColumn<Float> floatData_p;
ROArrayColumn<Complex> lagData_p;
ROScalarColumn<Int> phaseId_p;
ROScalarColumn<Int> pulsarBin_p;
ROScalarColumn<Int> pulsarGateId_p;
ROArrayColumn<Float> sigmaSpectrum_p;
ROScalarColumn<Double> timeExtraPrec_p;
ROArrayColumn<Double> uvw2_p;
ROArrayColumn<Complex> videoPoint_p;
ROArrayColumn<Float> weightSpectrum_p;
ROArrayColumn<Float> weightSpectrumCorrected_p;
//# columns required for synthesis applications - all optional
ROArrayColumn<Complex> correctedData_p;
ROArrayColumn<Float> imagingWeight_p;
ROArrayColumn<Complex> modelData_p;
//# Access to Measure columns
ROScalarMeasColumn<MEpoch> timeMeas_p;
ROScalarMeasColumn<MEpoch> timeCentroidMeas_p;
ROScalarMeasColumn<Muvw> uvwMeas_p;
//# optional Measure columns
ROScalarMeasColumn<Muvw> uvw2Meas_p;
//# Access to Quantum columns
ROScalarQuantColumn<Double> exposureQuant_p;
ROScalarQuantColumn<Double> intervalQuant_p;
ROScalarQuantColumn<Double> timeQuant_p;
ROScalarQuantColumn<Double> timeCentroidQuant_p;
ROArrayQuantColumn<Double> uvwQuant_p;
//# optional Quantum columns
ROScalarQuantColumn<Double> timeExtraPrecQuant_p;
ROArrayQuantColumn<Double> uvw2Quant_p;
};
// <summary>
// A class for easy read-write access to MeasurementSet main table columns
// </summary>
// <use visibility=export>
// <reviewed reviewer="Bob Garwood" date="1997/02/01" tests="" demos="">
// </reviewed>
// <prerequisite>
// <li> MeasurementSet
// <li> ArrayColumn
// <li> ScalarColumn
// </prerequisite>
//
// <etymology>
// MSMainColumns stands for MeasurementSet main Table columns.
// </etymology>
//
// <synopsis>
// This class provides access to the columns in the MeasurementSet.
// It does the declaration of all the Scalar and ArrayColumns with the
// correct types, so the application programmer doesn't have to
// worry about getting those right. There is an access function
// for every predefined column. Access to non-predefined columns will still
// have to be done with explicit declarations.
// <note role=warning> The Table that is used to construct this class must not
// be destroyed (or go out of scope) before this class does. Otherwise the
// scalar and array columns use by this class will be left dangling.</note>
// </synopsis>
// </synopsis>
//
// <example>
// <srcblock>
// // use as follows
// MeasurementSet ms("myMS",Table::Update);
// MSColumns msc(ms);
// // show data from row 5
// cout << msc.data()(5);
// // change name of antenna on row 3 in antenna table
// msc.antenna().name().put(3,"NewAnt-3");
// </srcblock>
// </example>
//
// <motivation>
// Having to type long lists of Scalar and Array column declarations gets
// very tedious. This class attempts to relieve some of that tedium, while
// at the same time concentrating all the declarations in one place,
// making Type errors in the column declaration (only caught at run-time) less
// probable. Type errors in the use of the columns is caught at compile
// time.
// </motivation>
//
// <todo asof="1997/02/01">
// <li> We might decide to merge this class with the MeasurementSet
// </todo>
class MSMainColumns: public ROMSMainColumns
{
public:
// Create a columns object that accesses the data in the specified Table
MSMainColumns(MeasurementSet& ms);
// The desctructor does nothing special
~MSMainColumns();
// Read-write access to required columns
// <group>
ScalarColumn<Int>& antenna1() {return antenna1_p;}
ScalarColumn<Int>& antenna2() {return antenna2_p;}
ScalarColumn<Int>& arrayId() {return arrayId_p;}
ScalarColumn<Int>& dataDescId() {return dataDescId_p;}
ScalarColumn<Double>& exposure() {return exposure_p;}
ScalarQuantColumn<Double>& exposureQuant() {
return exposureQuant_p;}
ScalarColumn<Int>& feed1() {return feed1_p;}
ScalarColumn<Int>& feed2() {return feed2_p;}
ScalarColumn<Int>& fieldId() {return fieldId_p;}
ArrayColumn<Bool>& flag() {return flag_p;}
ArrayColumn<Bool>& flagCategory() {return flagCategory_p;}
ScalarColumn<Bool>& flagRow() {return flagRow_p;}
ScalarColumn<Double>& interval() {return interval_p;}
ScalarQuantColumn<Double>& intervalQuant() {
return intervalQuant_p;}
ScalarColumn<Int>& observationId() {return observationId_p;}
ScalarColumn<Int>& processorId() {return processorId_p;}
ScalarColumn<Int>& scanNumber() {return scanNumber_p;}
ArrayColumn<Float>& sigma() {return sigma_p;}
ScalarColumn<Int>& stateId() {return stateId_p;}
ScalarColumn<Double>& time() {return time_p;}
ScalarQuantColumn<Double>& timeQuant() {
return timeQuant_p;}
ScalarMeasColumn<MEpoch>& timeMeas() {
return timeMeas_p;}
ScalarColumn<Double>& timeCentroid() {return timeCentroid_p;}
ScalarQuantColumn<Double>& timeCentroidQuant() {
return timeCentroidQuant_p;}
ScalarMeasColumn<MEpoch>& timeCentroidMeas() {
return timeCentroidMeas_p;}
ArrayColumn<Double>& uvw() {return uvw_p;}
ArrayQuantColumn<Double>& uvwQuant() {
return uvwQuant_p;}
ScalarMeasColumn<Muvw>& uvwMeas() {
return uvwMeas_p;}
ArrayColumn<Float>& weight() {return weight_p;}
// </group>
// Read-write access to optional columns
// <group>
ScalarColumn<Int>& antenna3() {return antenna3_p;}
ScalarColumn<Bool>& baselineRef() {return baselineRef_p;}
ArrayColumn<Complex>& correctedData() {return correctedData_p;}
ArrayColumn<Complex>& data() {return data_p;}
ScalarColumn<Int>& feed3() {return feed3_p;}
ArrayColumn<Float>& floatData() {return floatData_p;}
ArrayColumn<Float>& imagingWeight() {return imagingWeight_p;}
ArrayColumn<Complex>& lagData() {return lagData_p;}
ArrayColumn<Complex>& modelData() {return modelData_p;}
ScalarColumn<Int>& phaseId() {return phaseId_p;}
ScalarColumn<Int>& pulsarBin() {return pulsarBin_p;}
ScalarColumn<Int>& pulsarGateId() {return pulsarGateId_p;}
ArrayColumn<Float>& sigmaSpectrum() {return sigmaSpectrum_p;}
ScalarColumn<Double>& timeExtraPrec() {return timeExtraPrec_p;}
ScalarQuantColumn<Double>& timeExtraPrecQuant() {
return timeExtraPrecQuant_p;}
ArrayColumn<Double>& uvw2() {return uvw2_p;}
ScalarMeasColumn<Muvw>& uvw2Meas() {
return uvw2Meas_p;}
ArrayQuantColumn<Double>& uvw2Quant() {
return uvw2Quant_p;}
ArrayColumn<Complex>& videoPoint() {return videoPoint_p;}
ArrayColumn<Float>& weightSpectrum() {return weightSpectrum_p;}
ArrayColumn<Float>& weightSpectrumCorrected() {return weightSpectrumCorrected_p;}
// </group>
// Read-only access to required columns
// <group>
const ROScalarColumn<Int>& antenna1() const {
return ROMSMainColumns::antenna1();}
const ROScalarColumn<Int>& antenna2() const {
return ROMSMainColumns::antenna2();}
const ROScalarColumn<Int>& arrayId() const {
return ROMSMainColumns::arrayId();}
const ROScalarColumn<Int>& dataDescId() const {
return ROMSMainColumns::dataDescId();}
const ROScalarColumn<Double>& exposure() const {
return ROMSMainColumns::exposure();}
const ROScalarQuantColumn<Double>& exposureQuant() const {
return ROMSMainColumns::exposureQuant();}
const ROScalarColumn<Int>& feed1() const {
return ROMSMainColumns::feed1();}
const ROScalarColumn<Int>& feed2() const {
return ROMSMainColumns::feed2();}
const ROScalarColumn<Int>& fieldId() const {
return ROMSMainColumns::fieldId();}
const ROArrayColumn<Bool>& flag() const {
return ROMSMainColumns::flag();}
const ROArrayColumn<Bool>& flagCategory() const {
return ROMSMainColumns::flagCategory();}
const ROScalarColumn<Bool>& flagRow() const {
return ROMSMainColumns::flagRow();}
const ROScalarColumn<Double>& interval() const {
return ROMSMainColumns::interval();}
const ROScalarQuantColumn<Double>& intervalQuant() const {
return ROMSMainColumns::intervalQuant();}
const ROScalarColumn<Int>& observationId() const {
return ROMSMainColumns::observationId();}
const ROScalarColumn<Int>& processorId() const {
return ROMSMainColumns::processorId();}
const ROScalarColumn<Int>& scanNumber() const {
return ROMSMainColumns::scanNumber();}
const ROArrayColumn<Float>& sigma() const {
return ROMSMainColumns::sigma();}
const ROScalarColumn<Int>& stateId() const {
return ROMSMainColumns::stateId();}
const ROScalarColumn<Double>& time() const {
return ROMSMainColumns::time();}
const ROScalarQuantColumn<Double>& timeQuant() const {
return ROMSMainColumns::timeQuant();}
const ROScalarMeasColumn<MEpoch>& timeMeas() const {
return ROMSMainColumns::timeMeas();}
const ROScalarColumn<Double>& timeCentroid() const {
return ROMSMainColumns::timeCentroid();}
const ROScalarQuantColumn<Double>& timeCentroidQuant() const {
return ROMSMainColumns::timeCentroidQuant();}
const ROScalarMeasColumn<MEpoch>& timeCentroidMeas() const {
return ROMSMainColumns::timeCentroidMeas();}
const ROArrayColumn<Double>& uvw() const {
return ROMSMainColumns::uvw();}
const ROArrayQuantColumn<Double>& uvwQuant() const {
return ROMSMainColumns::uvwQuant();}
const ROScalarMeasColumn<Muvw>& uvwMeas() const {
return ROMSMainColumns::uvwMeas();}
const ROArrayColumn<Float>& weight() const {
return ROMSMainColumns::weight();}
// </group>
// Read-only access to optional columns
// <group>
const ROScalarColumn<Int>& antenna3() const {
return ROMSMainColumns::antenna3();}
const ROScalarColumn<Bool>& baselineRef() const {
return ROMSMainColumns::baselineRef();}
const ROArrayColumn<Complex>& correctedData() const {
return ROMSMainColumns::correctedData();}
const ROArrayColumn<Complex>& data() const {
return ROMSMainColumns::data();}
const ROScalarColumn<Int>& feed3() const {
return ROMSMainColumns::feed3();}
const ROArrayColumn<Float>& floatData() const {
return ROMSMainColumns::floatData();}
const ROArrayColumn<Float>& imagingWeight() const {
return ROMSMainColumns::imagingWeight();}
const ROArrayColumn<Complex>& lagData() const {
return ROMSMainColumns::lagData();}
const ROArrayColumn<Complex>& modelData() const {
return ROMSMainColumns::modelData();}
const ROScalarColumn<Int>& phaseId() const {
return ROMSMainColumns::phaseId();}
const ROScalarColumn<Int>& pulsarBin() const {
return ROMSMainColumns::pulsarBin();}
const ROScalarColumn<Int>& pulsarGateId() const {
return ROMSMainColumns::pulsarGateId();}
const ROArrayColumn<Float>& sigmaSpectrum() const {
return ROMSMainColumns::sigmaSpectrum();}
const ROScalarColumn<Double>& timeExtraPrec() const {
return ROMSMainColumns::timeExtraPrec();}
const ROScalarQuantColumn<Double>& timeExtraPrecQuant() const {
return ROMSMainColumns::timeExtraPrecQuant();}
const ROArrayColumn<Double>& uvw2() const {
return ROMSMainColumns::uvw2();}
const ROScalarMeasColumn<Muvw>& uvw2Meas() const {
return ROMSMainColumns::uvw2Meas();}
const ROArrayQuantColumn<Double>& uvw2Quant() const {
return ROMSMainColumns::uvw2Quant();}
const ROArrayColumn<Complex>& videoPoint() const {
return ROMSMainColumns::videoPoint();}
const ROArrayColumn<Float>& weightSpectrum() const {
return ROMSMainColumns::weightSpectrum();}
const ROArrayColumn<Float>& weightSpectrumCorrected() const {
return ROMSMainColumns::weightSpectrumCorrected();}
// </group>
// set the epoch type for the TIME and TIME_CENTROID columns.
// <note role=tip>
// In principle this function can only be used if the table is empty,
// otherwise already written values may thereafter have an incorrect
// reference, offset, or unit. However, it is possible that part of the
// table gets written before these values are known. In that case the
// reference, offset, or units can be set by using a False
// <src>tableMustBeEmpty</src> argument.
// </note>
void setEpochRef(MEpoch::Types ref, Bool tableMustBeEmpty=True);
// set the UVW reference type for the UVW and UVW2 (if defined) columns. This
// can only be done when the table has no rows. Trying to do so at other
// times will throw an exception.
void setUVWRef(Muvw::Types ref);
// Set the flag category labels to the supplied values (in the CATEGORY
// keyword of the FLAG_CATEGORY column). Throws an exception, when compiled
// in Debug mode, if the length of the supplied Vector is not the same as the
// length of the third dimension of the FLAG_CATEGORY column.
void setFlagCategories(const Vector<String>& categories);
protected:
//# default constructor creates a object that is not usable. Use the attach
//# function correct this.
MSMainColumns();
//# attach this object to the supplied table.
void attach(MeasurementSet& ms);
private:
//# Make the assignment operator and the copy constructor private to prevent
//# any compiler generated one from being used.
MSMainColumns(const MSMainColumns&);
MSMainColumns& operator=(const MSMainColumns&);
//# Check if any optional columns exist and if so attach them.
void attachOptionalCols(MeasurementSet& ms);
//# required columns
ScalarColumn<Int> antenna1_p;
ScalarColumn<Int> antenna2_p;
ScalarColumn<Int> arrayId_p;
ScalarColumn<Int> dataDescId_p;
ScalarColumn<Double> exposure_p;
ScalarColumn<Int> feed1_p;
ScalarColumn<Int> feed2_p;
ScalarColumn<Int> fieldId_p;
ArrayColumn<Bool> flag_p;
ArrayColumn<Bool> flagCategory_p;
ScalarColumn<Bool> flagRow_p;
ScalarColumn<Double> interval_p;
ScalarColumn<Int> observationId_p;
ScalarColumn<Int> processorId_p;
ScalarColumn<Int> scanNumber_p;
ArrayColumn<Float> sigma_p;
ScalarColumn<Int> stateId_p;
ScalarColumn<Double> time_p;
ScalarColumn<Double> timeCentroid_p;
ArrayColumn<Double> uvw_p;
ArrayColumn<Float> weight_p;
//# optional columns
ScalarColumn<Int> antenna3_p;
ScalarColumn<Bool> baselineRef_p;
ArrayColumn<Complex> data_p;
ScalarColumn<Int> feed3_p;
ArrayColumn<Float> floatData_p;
ArrayColumn<Complex> lagData_p;
ScalarColumn<Int> phaseId_p;
ScalarColumn<Int> pulsarBin_p;
ScalarColumn<Int> pulsarGateId_p;
ArrayColumn<Float> sigmaSpectrum_p;
ScalarColumn<Double> timeExtraPrec_p;
ArrayColumn<Double> uvw2_p;
ArrayColumn<Complex> videoPoint_p;
ArrayColumn<Float> weightSpectrum_p;
ArrayColumn<Float> weightSpectrumCorrected_p;
//# columns required for synthesis applications - all optional
ArrayColumn<Complex> correctedData_p;
ArrayColumn<Float> imagingWeight_p;
ArrayColumn<Complex> modelData_p;
//# Access to Measure columns
ScalarMeasColumn<MEpoch> timeMeas_p;
ScalarMeasColumn<MEpoch> timeCentroidMeas_p;
ScalarMeasColumn<Muvw> uvwMeas_p;
//# optional Measure columns
ScalarMeasColumn<Muvw> uvw2Meas_p;
//# Access to Quantum columns
ScalarQuantColumn<Double> exposureQuant_p;
ScalarQuantColumn<Double> intervalQuant_p;
ScalarQuantColumn<Double> timeQuant_p;
ScalarQuantColumn<Double> timeCentroidQuant_p;
ArrayQuantColumn<Double> uvwQuant_p;
//# optional Quantum columns
ScalarQuantColumn<Double> timeExtraPrecQuant_p;
ArrayQuantColumn<Double> uvw2Quant_p;
};
} //# NAMESPACE CASACORE - END
#endif
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