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Date: 2024-10-10 19:51:30 Functions: 0 46 0.0 %

          Line data    Source code
       1             : //# RegriddingTVI.h: This file contains the implementation of the RegriddingTVI class.
       2             : //#
       3             : //#  CASA - Common Astronomy Software Applications (http://casa.nrao.edu/)
       4             : //#  Copyright (C) Associated Universities, Inc. Washington DC, USA 2011, All rights reserved.
       5             : //#  Copyright (C) European Southern Observatory, 2011, All rights reserved.
       6             : //#
       7             : //#  This library is free software; you can redistribute it and/or
       8             : //#  modify it under the terms of the GNU Lesser General Public
       9             : //#  License as published by the Free software Foundation; either
      10             : //#  version 2.1 of the License, or (at your option) any later version.
      11             : //#
      12             : //#  This library is distributed in the hope that it will be useful,
      13             : //#  but WITHOUT ANY WARRANTY, without even the implied warranty of
      14             : //#  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
      15             : //#  Lesser General Public License for more details.
      16             : //#
      17             : //#  You should have received a copy of the GNU Lesser General Public
      18             : //#  License along with this library; if not, write to the Free Software
      19             : //#  Foundation, Inc., 59 Temple Place, Suite 330, Boston,
      20             : //#  MA 02111-1307  USA
      21             : //# $Id: $
      22             : 
      23             : #include <mstransform/TVI/RegriddingTVI.h>
      24             : 
      25             : using namespace casacore;
      26             : namespace casa { //# NAMESPACE CASA - BEGIN
      27             : 
      28             : namespace vi { //# NAMESPACE VI - BEGIN
      29             : 
      30             : //////////////////////////////////////////////////////////////////////////
      31             : // RegriddingTVI class
      32             : //////////////////////////////////////////////////////////////////////////
      33             : 
      34             : // -----------------------------------------------------------------------
      35             : //
      36             : // -----------------------------------------------------------------------
      37           0 : RegriddingTVI::RegriddingTVI(   ViImplementation2 * inputVii,
      38           0 :                                                                 const Record &configuration):
      39           0 :                                                                 FreqAxisTVI (inputVii)
      40             : {
      41             :         // Frequency specification parameters
      42           0 :         nChan_p = -1;
      43           0 :         mode_p = String("channel");                                   // Options are: channel, frequency, velocity
      44           0 :         start_p = String("0");
      45           0 :         width_p = String("1");                                                                // -1 means use all the input channels
      46           0 :         velocityType_p = String("radio");                             // When mode is velocity options are: optical, radio
      47           0 :         restFrequency_p = String("");
      48           0 :         interpolationMethodPar_p = String("linear");  // Options are: nearest, linear, cubic, spline, fftshift
      49           0 :         outputReferenceFramePar_p = String("");                       // Options are: LSRK, LSRD, BARY, GALACTO, LGROUP, CMB, GEO, or TOPO
      50           0 :         phaseCenterPar_p = new casac::variant("");
      51           0 :         regriddingMethod_p = linear;
      52             : 
      53             :         // Sub-cases
      54           0 :         refFrameTransformation_p = false;
      55           0 :         radialVelocityCorrection_p = false;
      56           0 :         fftShift_p = 0;
      57             : 
      58             :         // SPW-indexed maps
      59           0 :     weightFactorMap_p.clear();
      60           0 :         sigmaFactorMap_p.clear();
      61           0 :         inputOutputSpwMap_p.clear();
      62           0 :         freqTransEngineRowId_p = UINT_MAX;
      63             : 
      64             :         // Parse and check configuration parameters
      65             :         // Note: if a constructor finishes by throwing an exception, the memory
      66             :         // associated with the object itself is cleaned up — there is no memory leak.
      67           0 :         if (not parseConfiguration(configuration))
      68             :         {
      69           0 :                 throw AipsError("Error parsing RegriddingTVI configuration");
      70             :         }
      71             : 
      72           0 :         initialize();
      73             : 
      74           0 :         return;
      75           0 : }
      76             : 
      77             : // -----------------------------------------------------------------------
      78             : //
      79             : // -----------------------------------------------------------------------
      80           0 : Bool RegriddingTVI::parseConfiguration(const Record &configuration)
      81             : {
      82           0 :         int exists = -1;
      83           0 :         Bool ret = true;
      84             : 
      85           0 :         exists = configuration.fieldNumber ("phasecenter");
      86           0 :         if (exists >= 0)
      87             :         {
      88             :                 //If phase center is a simple numeric value then it is taken
      89             :                 // as a FIELD_ID otherwise it is converted to a MDirection
      90           0 :         if( configuration.type(exists) == TpInt )
      91             :         {
      92           0 :                 int fieldIdForPhaseCenter = -1;
      93           0 :                 configuration.get (exists, fieldIdForPhaseCenter);
      94           0 :                 logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
      95           0 :                                 << "Field Id for phase center is " << fieldIdForPhaseCenter << LogIO::POST;
      96           0 :                 if (phaseCenterPar_p) delete phaseCenterPar_p;
      97           0 :                 phaseCenterPar_p = new casac::variant((long)fieldIdForPhaseCenter);
      98             :         }
      99             :         else
     100             :         {
     101           0 :                 String phaseCenter("");
     102           0 :                 configuration.get (exists, phaseCenter);
     103           0 :                 logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
     104           0 :                                 << "Phase center is " << phaseCenter << LogIO::POST;
     105           0 :                 if (phaseCenterPar_p) delete phaseCenterPar_p;
     106           0 :                 phaseCenterPar_p = new casac::variant(phaseCenter);
     107           0 :         }
     108             :         }
     109             : 
     110           0 :         exists = -1;
     111           0 :         exists = configuration.fieldNumber ("restfreq");
     112           0 :         if (exists >= 0)
     113             :         {
     114           0 :                 configuration.get (exists, restFrequency_p);
     115           0 :                 if (!restFrequency_p.empty())
     116             :                 {
     117           0 :                         logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
     118           0 :                                         << "Rest frequency is " << restFrequency_p << LogIO::POST;
     119             :                 }
     120             :         }
     121             : 
     122           0 :         exists = configuration.fieldNumber ("outframe");
     123           0 :         if (exists >= 0)
     124             :         {
     125           0 :                 configuration.get (exists, outputReferenceFramePar_p);
     126           0 :                 logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
     127           0 :                                 << "Output reference frame is " << outputReferenceFramePar_p << LogIO::POST;
     128             :         }
     129             : 
     130           0 :         exists = -1;
     131           0 :         exists = configuration.fieldNumber ("interpolation");
     132           0 :         if (exists >= 0)
     133             :         {
     134           0 :                 configuration.get (exists, interpolationMethodPar_p);
     135             : 
     136           0 :                 if (interpolationMethodPar_p.contains("nearest"))
     137             :                 {
     138           0 :                         regriddingMethod_p = nearestNeighbour;
     139             :                 }
     140           0 :                 else if (interpolationMethodPar_p.contains("linear"))
     141             :                 {
     142           0 :                         regriddingMethod_p = linear;
     143             :                 }
     144           0 :                 else if (interpolationMethodPar_p.contains("cubic"))
     145             :                 {
     146           0 :                         regriddingMethod_p = cubic;
     147             :                 }
     148           0 :                 else if (interpolationMethodPar_p.contains("spline"))
     149             :                 {
     150           0 :                         regriddingMethod_p = spline;
     151             :                 }
     152           0 :                 else if (interpolationMethodPar_p.contains("fftshift"))
     153             :                 {
     154           0 :                         regriddingMethod_p = fftshift;
     155             :                 }
     156             :                 else
     157             :                 {
     158           0 :                         logger_p << LogIO::SEVERE << LogOrigin("RegriddingTVI", __FUNCTION__)
     159           0 :                                         << "Interpolation method " << interpolationMethodPar_p  << " not available " << LogIO::POST;
     160             :                 }
     161             : 
     162           0 :                 logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
     163           0 :                                 << "Interpolation method is " << interpolationMethodPar_p  << LogIO::POST;
     164             :         }
     165             :         else
     166             :         {
     167           0 :                 regriddingMethod_p = linear;
     168             :         }
     169             : 
     170           0 :         exists = -1;
     171           0 :         exists = configuration.fieldNumber ("mode");
     172           0 :         if (exists >= 0)
     173             :         {
     174           0 :                 configuration.get (exists, mode_p);
     175           0 :                 logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
     176           0 :                                 << "Mode is " << mode_p<< LogIO::POST;
     177             : 
     178           0 :                 if ((mode_p == "frequency") or (mode_p == "velocity"))
     179             :                 {
     180           0 :                         start_p = String("");
     181           0 :                         width_p = String("");
     182             :                 }
     183             :         }
     184             : 
     185           0 :         exists = -1;
     186           0 :         exists = configuration.fieldNumber ("nchan");
     187           0 :         if (exists >= 0)
     188             :         {
     189           0 :                 configuration.get (exists, nChan_p);
     190           0 :                 logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
     191           0 :                                 << "Number of channels is " << nChan_p<< LogIO::POST;
     192             :         }
     193             : 
     194           0 :         exists = -1;
     195           0 :         exists = configuration.fieldNumber ("start");
     196           0 :         if (exists >= 0)
     197             :         {
     198           0 :                 configuration.get (exists, start_p);
     199           0 :                 logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
     200           0 :                                 << "Start is " << start_p << LogIO::POST;
     201             :         }
     202             : 
     203           0 :         exists = -1;
     204           0 :         exists = configuration.fieldNumber ("width");
     205           0 :         if (exists >= 0)
     206             :         {
     207           0 :                 configuration.get (exists, width_p);
     208           0 :                 logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
     209           0 :                                 << "Width is " << width_p << LogIO::POST;
     210             :         }
     211             : 
     212           0 :         exists = -1;
     213           0 :         exists = configuration.fieldNumber ("veltype");
     214           0 :         if ((exists >= 0) and (mode_p == "velocity"))
     215             :         {
     216           0 :                 configuration.get (exists, velocityType_p);
     217           0 :                 logger_p << LogIO::NORMAL << LogOrigin("RegriddingTVI", __FUNCTION__)
     218           0 :                                 << "Velocity type is " << velocityType_p << LogIO::POST;
     219             :         }
     220             : 
     221           0 :         return ret;
     222             : }
     223             : 
     224             : // -----------------------------------------------------------------------
     225             : //
     226             : // -----------------------------------------------------------------------
     227           0 : void RegriddingTVI::initialize()
     228             : {
     229             :     // Determine input reference frame from the first row in the SPW sub-table of the output (selected) MS
     230           0 :         MSSpectralWindow spwTable = getVii()->ms().spectralWindow();
     231           0 :         MSSpWindowColumns spwCols(spwTable);
     232           0 :     inputReferenceFrame_p = MFrequency::castType(spwCols.measFreqRef()(0));
     233             : 
     234             :     // Parse output reference frame
     235           0 :     refFrameTransformation_p = true;
     236           0 :     radialVelocityCorrection_p = false;
     237           0 :     if(outputReferenceFramePar_p.empty())
     238             :     {
     239           0 :         outputReferenceFrame_p = inputReferenceFrame_p;
     240             :     }
     241             :     // CAS-6778: Support for new ref. frame SOURCE that requires radial velocity correction
     242           0 :     else if (outputReferenceFramePar_p == "SOURCE")
     243             :     {
     244           0 :         outputReferenceFrame_p = MFrequency::GEO;
     245           0 :         radialVelocityCorrection_p = true;
     246             :     }
     247           0 :     else if(!MFrequency::getType(outputReferenceFrame_p, outputReferenceFramePar_p))
     248             :     {
     249           0 :         logger_p << LogIO::SEVERE << LogOrigin("RegriddingTVI", __FUNCTION__)
     250           0 :                         << "Problem parsing output reference frame:" << outputReferenceFramePar_p  << LogIO::EXCEPTION;
     251             :     }
     252             : 
     253           0 :     if (outputReferenceFrame_p == inputReferenceFrame_p) {
     254           0 :         refFrameTransformation_p = false;
     255             :     }
     256             : 
     257             : 
     258             :     // Determine observatory position from the first row in the observation sub-table of the output (selected) MS
     259           0 :     MSObservation observationTable = getVii()->ms().observation();
     260           0 :     MSObservationColumns observationCols(observationTable);
     261           0 :     String observatoryName = observationCols.telescopeName()(0);
     262           0 :     MeasTable::Observatory(observatoryPosition_p,observatoryName);
     263             : 
     264             :     // jagonzal: This conversion is needed only for cosmetic reasons
     265             :     // observatoryPosition_p=MPosition::Convert(observatoryPosition_p, MPosition::ITRF)();
     266             : 
     267             :     // Determine observation time from the first row in the selected MS
     268           0 :     selectedInputMsCols_p = new MSColumns(getVii()->ms());
     269           0 :     referenceTime_p = selectedInputMsCols_p->timeMeas()(0);
     270             : 
     271             :     // Access FIELD cols to get phase center and radial velocity
     272           0 :     MSField field = getVii()->ms().field();
     273           0 :     inputMSFieldCols_p = new MSFieldColumns(field);
     274             : 
     275             :         // Determine phase center
     276           0 :     if (phaseCenterPar_p->type() == casac::variant::INT)
     277             :     {
     278           0 :         Int fieldIdForPhaseCenter = phaseCenterPar_p->toInt();
     279             : 
     280           0 :         if (fieldIdForPhaseCenter >= (Int)inputMSFieldCols_p->nrow() || fieldIdForPhaseCenter < 0)
     281             :         {
     282           0 :                 logger_p << LogIO::SEVERE << LogOrigin("RegriddingTVI", __FUNCTION__)
     283           0 :                                 << "Selected FIELD_ID to determine phase center does not exist " << LogIO::POST;
     284             :         }
     285             :         else
     286             :         {
     287             :                 // CAS-6778: Support for new ref. frame SOURCE that requires radial velocity correction
     288           0 :                 if (radialVelocityCorrection_p)
     289             :                 {
     290           0 :                         radialVelocity_p = inputMSFieldCols_p->radVelMeas(fieldIdForPhaseCenter, referenceTime_p.get("s").getValue());
     291           0 :                         phaseCenter_p = inputMSFieldCols_p->phaseDirMeas(fieldIdForPhaseCenter,referenceTime_p.get("s").getValue());
     292             :                 }
     293             :                 else
     294             :                 {
     295           0 :                         phaseCenter_p = inputMSFieldCols_p->phaseDirMeasCol()(fieldIdForPhaseCenter)(IPosition(1,0));
     296             :                 }
     297             :         }
     298             :     }
     299             :     else
     300             :     {
     301           0 :         String phaseCenter = phaseCenterPar_p->toString(true);
     302             : 
     303             :         // Determine phase center from the first row in the FIELD sub-table of the output (selected) MS
     304           0 :         if (phaseCenter.empty())
     305             :         {
     306             :                 // CAS-6778: Support for new ref. frame SOURCE that requires radial velocity correction
     307           0 :                 if (radialVelocityCorrection_p)
     308             :                 {
     309           0 :                         radialVelocity_p = inputMSFieldCols_p->radVelMeas(0, referenceTime_p.get("s").getValue());
     310           0 :                         phaseCenter_p = inputMSFieldCols_p->phaseDirMeas(0,referenceTime_p.get("s").getValue());
     311             :                 }
     312             :                 else
     313             :                 {
     314           0 :                         phaseCenter_p = inputMSFieldCols_p->phaseDirMeasCol()(0)(IPosition(1,0));
     315             :                 }
     316             :         }
     317             :         // Parse phase center
     318             :         else
     319             :         {
     320           0 :                 if(!casaMDirection(phaseCenter, phaseCenter_p))
     321             :                 {
     322           0 :                         logger_p << LogIO::SEVERE << LogOrigin("MSTransformManager", __FUNCTION__)
     323           0 :                                         << "Cannot interpret phase center " << phaseCenter << LogIO::POST;
     324           0 :                         return;
     325             :                 }
     326             :         }
     327           0 :     }
     328             : 
     329           0 :    if (radialVelocityCorrection_p && (radialVelocity_p.getRef().getType() != MRadialVelocity::GEO))
     330             :    {
     331           0 :            logger_p << LogIO::SEVERE << LogOrigin("RegriddingTVI", __FUNCTION__)
     332             :                            << "Cannot perform radial velocity correction with ephemerides of type "
     333           0 :                            << MRadialVelocity::showType(radialVelocity_p.getRef().getType()) << ".\nType needs to be GEO."
     334           0 :                            << LogIO::EXCEPTION;
     335             :    }
     336             : 
     337           0 :    return;
     338           0 : }
     339             : 
     340             : // -----------------------------------------------------------------------
     341             : //
     342             : // -----------------------------------------------------------------------
     343           0 : void RegriddingTVI::origin()
     344             : {
     345             :     // Drive underlying ViImplementation2
     346           0 :     getVii()->origin();
     347             : 
     348             :     // Define output grid for this chunk (also defines shape)
     349           0 :     initFrequencyGrid();
     350             : 
     351             :     // Define the shapes in the VB2
     352           0 :     configureShapes();
     353             : 
     354             :     // Synchronize own VisBuffer
     355           0 :     configureNewSubchunk();
     356             : 
     357           0 :     return;
     358             : }
     359             : 
     360             : // -----------------------------------------------------------------------
     361             : //
     362             : // -----------------------------------------------------------------------
     363           0 : Int RegriddingTVI::getReportingFrameOfReference () const
     364             : {
     365           0 :         return outputReferenceFrame_p;
     366             : }
     367             : 
     368             : // -----------------------------------------------------------------------
     369             : //
     370             : // -----------------------------------------------------------------------
     371           0 : void RegriddingTVI::initFrequencyGrid()
     372             : {
     373             :         // Get input VisBuffer
     374           0 :         VisBuffer2 *vb = getVii()->getVisBuffer();
     375             : 
     376             :         // Check if frequency grid has to be initialized for this SPW
     377           0 :         Int spwId = vb->spectralWindows()(0);
     378           0 :         if (inputOutputSpwMap_p.find(spwId) == inputOutputSpwMap_p.end())
     379             :         {
     380             :                 // Get input frequencies in reporting frame of reference
     381             :                 // i.e. as they are stored in the SPW sub-table
     382           0 :                 Vector<Double> inputFreq = vb->getFrequencies(0);
     383           0 :                 Vector<Double> inputWidth(inputFreq.size(),inputFreq(1)-inputFreq(0));
     384             : 
     385             :                 // Declare output variables
     386             :                 Double weightScale;
     387           0 :                 Vector<Double> outputFreq;
     388           0 :                 Vector<Double> outputWidth;
     389             : 
     390             :                 // Use calcChanFreqs to change reference frame and regrid
     391           0 :                 MFrequency::Types inputRefFrame = static_cast<MFrequency::Types> (getVii()->getReportingFrameOfReference());
     392           0 :                 Bool ret = MSTransformRegridder::calcChanFreqs( logger_p,
     393             :                                                                                                                 outputFreq,
     394             :                                                                                                                 outputWidth,
     395             :                                                                                                                 weightScale,
     396             :                                                                                                                 inputFreq,
     397             :                                                                                                                 inputWidth,
     398           0 :                                                                                                                 phaseCenter_p,
     399             :                                                                                                                 inputRefFrame,
     400           0 :                                                                                                                 referenceTime_p,
     401           0 :                                                                                                                 observatoryPosition_p,
     402           0 :                                                                                                                 mode_p,
     403             :                                                                                                                 nChan_p,
     404           0 :                                                                                                                 start_p,
     405           0 :                                                                                                                 width_p,
     406           0 :                                                                                                                 restFrequency_p,
     407           0 :                                                                                                                 outputReferenceFramePar_p,
     408           0 :                                                                                                                 velocityType_p,
     409             :                                                                                                                 true, // verbose
     410           0 :                                                                                                                 radialVelocity_p
     411             :                                                                                                                 );
     412             : 
     413           0 :                 if (not ret)
     414             :                 {
     415           0 :                         throw AipsError("Error calculating output grid");
     416             :                 }
     417             : 
     418             :         // Add input-output SPW pair to map
     419           0 :         spwInfo inputSpw(inputFreq,inputWidth);
     420           0 :         spwInfo outputSpw(outputFreq,outputWidth);
     421           0 :         inputOutputSpwMap_p[spwId] = std::make_pair(inputSpw,outputSpw);
     422             : 
     423             :         // Store weight/sigma factors
     424           0 :         weightFactorMap_p[spwId] = weightScale;
     425           0 :         sigmaFactorMap_p[spwId] = 1 / sqrt(weightScale);
     426             : 
     427             :         // Populate nchan input-output maps
     428           0 :         spwOutChanNumMap_p[spwId] = outputSpw.NUM_CHAN;
     429           0 :         }
     430             : 
     431           0 :         return;
     432             : }
     433             : 
     434             : // -----------------------------------------------------------------------
     435             : //
     436             : // -----------------------------------------------------------------------
     437           0 : void RegriddingTVI::initFrequencyTransformationEngine() const
     438             : {
     439             :         // Get input VisBuffer
     440           0 :         VisBuffer2 *vb = getVii()->getVisBuffer();
     441             : 
     442             :         // Check if frequency transformation engine has to be re-constructed
     443           0 :         auto rowId = vb->rowIds()[0];
     444           0 :         if (freqTransEngineRowId_p != rowId)
     445             :         {
     446             :                 // Mark this rowId as the current one
     447           0 :                 freqTransEngineRowId_p = rowId;
     448             : 
     449             :                 // Get spwId to access input-output SPW map
     450           0 :                 Int spwId = vb->spectralWindows()[0];
     451             : 
     452             :                 // Get current time
     453           0 :                 ScalarMeasColumn<MEpoch> mainTimeMeasCol = selectedInputMsCols_p->timeMeas();
     454           0 :                 MEpoch currentRowTime = mainTimeMeasCol(rowId);
     455             : 
     456             :                 // Check if radial velocity correction if necessary
     457           0 :                 MDoppler radVelCorr;
     458           0 :                 MDirection inputFieldDirection;
     459           0 :                 Bool radVelSignificant = false;
     460           0 :                 if (radialVelocityCorrection_p && inputMSFieldCols_p->needInterTime(vb->fieldId()(0)))
     461             :                 {
     462           0 :                         MRadialVelocity mRV = inputMSFieldCols_p->radVelMeas(vb->fieldId()(0),vb->time()(0));
     463           0 :                         Quantity mrv = mRV.get("m/s");
     464           0 :                         Quantity offsetMrv = radialVelocity_p.get("m/s"); // the radvel by which the out SPW def was shifted
     465           0 :                         radVelCorr =  MDoppler(mrv-(Quantity(2.)*offsetMrv));
     466           0 :                         if (fabs(mrv.getValue()) > 1E-6) radVelSignificant = true;
     467             : 
     468           0 :                         inputFieldDirection = inputMSFieldCols_p->phaseDirMeas(vb->fieldId()(0), vb->time()(0));
     469           0 :                 }
     470             :                 else
     471             :                 {
     472           0 :                         inputFieldDirection = vb->phaseCenter();
     473             :                 }
     474             : 
     475             :                 // Get input Ref. Frame (can be different for each SPWs)
     476           0 :                 MFrequency::Types inputRefFrame = static_cast<MFrequency::Types> (getVii()->getReportingFrameOfReference());
     477             : 
     478             :                 // Construct reference frame transformation engine
     479             :                 MFrequency::Ref inputFrameRef = MFrequency::Ref(inputRefFrame,
     480           0 :                                                                                                                 MeasFrame(inputFieldDirection,
     481             :                                                                                                                                 observatoryPosition_p,
     482           0 :                                                                                                                                 currentRowTime));
     483             : 
     484           0 :                 MFrequency::Ref outputFrameRef = MFrequency::Ref(outputReferenceFrame_p,
     485           0 :                                                                                                                 MeasFrame(phaseCenter_p,
     486             :                                                                                                                                 observatoryPosition_p,
     487           0 :                                                                                                                                 referenceTime_p));
     488             : 
     489             :                 // Calculate new frequencies (also for FFT mode)
     490           0 :                 freqTransEngine_p = MFrequency::Convert(Hz, inputFrameRef, outputFrameRef);
     491             : 
     492           0 :             for(uInt chan_idx=0; chan_idx<inputOutputSpwMap_p[spwId].first.CHAN_FREQ.size(); chan_idx++)
     493             :             {
     494           0 :                 inputOutputSpwMap_p[spwId].first.CHAN_FREQ_aux[chan_idx] =
     495           0 :                                 freqTransEngine_p(inputOutputSpwMap_p[spwId].first.CHAN_FREQ[chan_idx]).get(Hz).getValue();
     496             :             }
     497             : 
     498             :             // Apply radial velocity correction if necessary
     499           0 :                 if (radVelSignificant)
     500             :                 {
     501           0 :                         inputOutputSpwMap_p[spwId].first.CHAN_FREQ_aux =
     502           0 :                                         radVelCorr.shiftFrequency(inputOutputSpwMap_p[spwId].first.CHAN_FREQ_aux);
     503             :                 }
     504             : 
     505             :                 // Calculate FFT shift if necessary
     506           0 :                 if (regriddingMethod_p == fftshift)
     507             :                 {
     508           0 :                         uInt centralChan = inputOutputSpwMap_p[spwId].first.CHAN_FREQ.size()/2;
     509           0 :                         Double absoluteShift = inputOutputSpwMap_p[spwId].first.CHAN_FREQ_aux[centralChan]
     510           0 :                                               -inputOutputSpwMap_p[spwId].first.CHAN_FREQ[centralChan];
     511             : 
     512           0 :                         Double chanWidth = inputOutputSpwMap_p[spwId].second.CHAN_FREQ[1]
     513           0 :                                          - inputOutputSpwMap_p[spwId].second.CHAN_FREQ[0];
     514             : 
     515           0 :                         Double bandwidth = inputOutputSpwMap_p[spwId].second.CHAN_FREQ[inputOutputSpwMap_p[spwId].second.NUM_CHAN-1]
     516           0 :                                          - inputOutputSpwMap_p[spwId].second.CHAN_FREQ[0];
     517             : 
     518           0 :                         bandwidth += chanWidth;
     519             : 
     520           0 :                         fftShift_p = - absoluteShift / bandwidth;
     521             :                 }
     522           0 :         }
     523             : 
     524           0 :         return;
     525             : }
     526             : 
     527             : // -----------------------------------------------------------------------
     528             : //
     529             : // -----------------------------------------------------------------------
     530           0 : Vector<Double> RegriddingTVI::getFrequencies (    Double time,
     531             :                                                                                                 Int frameOfReference,
     532             :                                                                                                 Int spectralWindowId,
     533             :                                                                                                 Int msId) const
     534             : {
     535           0 :         if (frameOfReference == outputReferenceFrame_p)
     536             :         {
     537           0 :                 return inputOutputSpwMap_p[spectralWindowId].second.CHAN_FREQ;
     538             :         }
     539             :         else
     540             :         {
     541             :                 // Get frequencies from input TVI
     542           0 :                 Vector<Double> inputFreq = getVii()->getFrequencies(time,frameOfReference,spectralWindowId,msId);
     543             : 
     544           0 :                 Vector<Double> inputWidth(inputFreq.size(),0);
     545           0 :                 for (uInt chan_i=0;chan_i<inputFreq.size()-1;chan_i++)
     546             :                 {
     547           0 :                         inputWidth(chan_i) = inputFreq(chan_i+1)-inputFreq(chan_i);
     548             :                 }
     549           0 :                 inputWidth(inputFreq.size()-1) =  inputWidth(inputFreq.size()-2);
     550             : 
     551             :                 // Declare output variables
     552             :                 Double weightScale;
     553           0 :                 Vector<Double> outputFreq;
     554           0 :                 Vector<Double> outputWidth;
     555             : 
     556             :                 // Use calcChanFreqs for re-gridding only (output frame = inputFrame)
     557           0 :             MFrequency::Types frameOfReferenceEnum = static_cast<MFrequency::Types> (frameOfReference);
     558           0 :                 String frameOfReferenceStr = MFrequency::showType(frameOfReferenceEnum);
     559           0 :                 MSTransformRegridder::calcChanFreqs(    logger_p,
     560             :                                                                                                 outputFreq,
     561             :                                                                                                 outputWidth,
     562             :                                                                                                 weightScale,
     563             :                                                                                                 inputFreq,
     564             :                                                                                                 inputWidth,
     565           0 :                                                                                                 phaseCenter_p,
     566             :                                                                                                 frameOfReferenceEnum,
     567           0 :                                                                                                 referenceTime_p,
     568           0 :                                                                                                 observatoryPosition_p,
     569           0 :                                                                                                 mode_p,
     570           0 :                                                                                                 nChan_p,
     571           0 :                                                                                                 start_p,
     572           0 :                                                                                                 width_p,
     573           0 :                                                                                                 restFrequency_p,
     574             :                                                                                                 frameOfReferenceStr,
     575           0 :                                                                                                 velocityType_p,
     576             :                                                                                                 false, // verbose
     577           0 :                                                                                                 radialVelocity_p
     578             :                                                                                                 );
     579             : 
     580           0 :                 return outputFreq;
     581           0 :         }
     582             : 
     583             : }
     584             : 
     585             : // -----------------------------------------------------------------------
     586             : //
     587             : // -----------------------------------------------------------------------
     588           0 : void RegriddingTVI::flag(Cube<Bool>& flagCube) const
     589             : {
     590             :         // Get input VisBuffer and SPW
     591           0 :         VisBuffer2 *vb = getVii()->getVisBuffer();
     592           0 :         Int inputSPW = vb->spectralWindows()(0);
     593             : 
     594             :         // Configure Transformation Engine
     595           0 :         initFrequencyTransformationEngine();
     596             : 
     597             :         // Reshape output data before passing it to the DataCubeHolder
     598           0 :         flagCube.resize(getVisBuffer()->getShape(),false);
     599             : 
     600             :         // Gather input data
     601           0 :         DataCubeMap inputData;
     602           0 :         DataCubeHolder<Bool> inputFlagCubeHolder(vb->flagCube());
     603           0 :         inputData.add(MS::FLAG,inputFlagCubeHolder);
     604             : 
     605             :         // Gather output data
     606           0 :         DataCubeMap outputData;
     607           0 :         DataCubeHolder<Bool> outputFlagCubeHolder(flagCube);
     608           0 :         outputData.add(MS::FLAG,outputFlagCubeHolder);
     609             : 
     610             :         // Configure kernel
     611           0 :         if (regriddingMethod_p == fftshift)
     612             :         {
     613           0 :                 DataFFTKernel<Float> kernel(regriddingMethod_p);
     614           0 :                 RegriddingTransformEngine<Float> transformer(&kernel,&inputData,&outputData);
     615           0 :                 transformFreqAxis2(vb->getShape(),transformer);
     616           0 :         }
     617             :         else
     618             :         {
     619           0 :                 Vector<Double> *inputFreq = &(inputOutputSpwMap_p[inputSPW].first.CHAN_FREQ_aux);
     620           0 :                 Vector<Double> *outputFreq = &(inputOutputSpwMap_p[inputSPW].second.CHAN_FREQ);
     621           0 :                 DataInterpolationKernel<Float> kernel(regriddingMethod_p,inputFreq,outputFreq);
     622           0 :                 RegriddingTransformEngine<Float> transformer(&kernel,&inputData,&outputData);
     623           0 :                 transformFreqAxis2(vb->getShape(),transformer);
     624           0 :         }
     625             : 
     626           0 :         return;
     627           0 : }
     628             : 
     629             : // -----------------------------------------------------------------------
     630             : //
     631             : // -----------------------------------------------------------------------
     632           0 : void RegriddingTVI::floatData (Cube<Float> & vis) const
     633             : {
     634           0 :         transformDataCube(getVii()->getVisBuffer()->visCubeFloat(),vis);
     635             : 
     636           0 :         return;
     637             : }
     638             : 
     639             : // -----------------------------------------------------------------------
     640             : //
     641             : // -----------------------------------------------------------------------
     642           0 : void RegriddingTVI::visibilityObserved (Cube<Complex> & vis) const
     643             : {
     644           0 :         transformDataCube(getVii()->getVisBuffer()->visCube(),vis);
     645             : 
     646           0 :         return;
     647             : }
     648             : 
     649             : // -----------------------------------------------------------------------
     650             : //
     651             : // -----------------------------------------------------------------------
     652           0 : void RegriddingTVI::visibilityCorrected (Cube<Complex> & vis) const
     653             : {
     654           0 :         transformDataCube(getVii()->getVisBuffer()->visCubeCorrected(),vis);
     655             : 
     656           0 :         return;
     657             : }
     658             : 
     659             : // -----------------------------------------------------------------------
     660             : //
     661             : // -----------------------------------------------------------------------
     662           0 : void RegriddingTVI::visibilityModel (Cube<Complex> & vis) const
     663             : {
     664           0 :         transformDataCube(getVii()->getVisBuffer()->visCubeModel(),vis);
     665             : 
     666           0 :         return;
     667             : }
     668             : 
     669             : // -----------------------------------------------------------------------
     670             : //
     671             : // -----------------------------------------------------------------------
     672           0 : void RegriddingTVI::weightSpectrum(Cube<Float> &weightSp) const
     673             : {
     674             :         // Get input VisBuffer and SPW
     675           0 :         VisBuffer2 *vb = getVii()->getVisBuffer();
     676           0 :         Int inputSPW = vb->spectralWindows()(0);
     677             : 
     678             :         // Transform data
     679           0 :         transformDataCube(getVii()->getVisBuffer()->weightSpectrum(),weightSp);
     680             : 
     681             :         // Apply scaling factor on weights
     682           0 :         weightSp *= weightFactorMap_p[inputSPW];
     683             : 
     684             : 
     685           0 :         return;
     686             : }
     687             : 
     688             : // -----------------------------------------------------------------------
     689             : //
     690             : // -----------------------------------------------------------------------
     691           0 : void RegriddingTVI::sigmaSpectrum (Cube<Float> &sigmaSp) const
     692             : {
     693             :         // Get input VisBuffer and SPW
     694           0 :         VisBuffer2 *vb = getVii()->getVisBuffer();
     695           0 :         Int inputSPW = vb->spectralWindows()(0);
     696             : 
     697             :         // Transform data
     698           0 :         transformDataCube(getVii()->getVisBuffer()->sigmaSpectrum(),sigmaSp);
     699             : 
     700             :         // Apply scaling factor on weights
     701           0 :         sigmaSp *= sigmaFactorMap_p[inputSPW];
     702             : 
     703           0 :         return;
     704             : }
     705             : 
     706             : // -----------------------------------------------------------------------
     707             : //
     708             : // -----------------------------------------------------------------------
     709           0 : template<class T> void RegriddingTVI::transformDataCube(  const Cube<T> &inputVis,
     710             :                                                                                                                         Cube<T> &outputVis) const
     711             : {
     712             :         // Get input VisBuffer and SPW
     713           0 :         VisBuffer2 *vb = getVii()->getVisBuffer();
     714           0 :         Int inputSPW = vb->spectralWindows()(0);
     715             : 
     716             :         // Configure Transformation Engine
     717           0 :         initFrequencyTransformationEngine();
     718             : 
     719             :         // Reshape output data before passing it to the DataCubeHolder
     720           0 :         outputVis.resize(getVisBuffer()->getShape(),false);
     721             : 
     722             :         // Gather input data
     723           0 :         DataCubeMap inputData;
     724           0 :         DataCubeHolder<Bool> inputFlagCubeHolder(vb->flagCube());
     725           0 :         DataCubeHolder<T> inputVisCubeHolder(inputVis);
     726           0 :         inputData.add(MS::FLAG,inputFlagCubeHolder);
     727           0 :         inputData.add(MS::DATA,inputVisCubeHolder);
     728             : 
     729             :         // Gather output data
     730           0 :         DataCubeMap outputData;
     731           0 :         DataCubeHolder<T> outputVisCubeHolder(outputVis);
     732           0 :         outputData.add(MS::DATA,outputVisCubeHolder);
     733             : 
     734             :         // Configure kernel
     735           0 :         if (regriddingMethod_p == fftshift)
     736             :         {
     737           0 :                 DataFFTKernel<T> kernel(regriddingMethod_p);
     738           0 :                 RegriddingTransformEngine<T> transformer(&kernel,&inputData,&outputData);
     739           0 :                 transformFreqAxis2(vb->getShape(),transformer);
     740           0 :         }
     741             :         else
     742             :         {
     743           0 :                 Vector<Double> *inputFreq = &(inputOutputSpwMap_p[inputSPW].first.CHAN_FREQ_aux);
     744           0 :                 Vector<Double> *outputFreq = &(inputOutputSpwMap_p[inputSPW].second.CHAN_FREQ);
     745           0 :                 DataInterpolationKernel<T> kernel(regriddingMethod_p,inputFreq,outputFreq);
     746           0 :                 RegriddingTransformEngine<T> transformer(&kernel,&inputData,&outputData);
     747           0 :                 transformFreqAxis2(vb->getShape(),transformer);
     748           0 :         }
     749             : 
     750           0 :         return;
     751           0 : }
     752             : 
     753             : //////////////////////////////////////////////////////////////////////////
     754             : // RegriddingTVIFactory class
     755             : //////////////////////////////////////////////////////////////////////////
     756             : 
     757             : // -----------------------------------------------------------------------
     758             : //
     759             : // -----------------------------------------------------------------------
     760           0 : RegriddingTVIFactory::RegriddingTVIFactory (Record &configuration,
     761           0 :                                                                                         ViImplementation2 *inputVii)
     762             : {
     763           0 :         inputVii_p = inputVii;
     764           0 :         configuration_p = configuration;
     765           0 : }
     766             : 
     767             : // -----------------------------------------------------------------------
     768             : //
     769             : // -----------------------------------------------------------------------
     770           0 : vi::ViImplementation2 * RegriddingTVIFactory::createVi(VisibilityIterator2 *) const
     771             : {
     772           0 :         return new RegriddingTVI(inputVii_p,configuration_p);
     773             : }
     774             : 
     775             : // -----------------------------------------------------------------------
     776             : //
     777             : // -----------------------------------------------------------------------
     778             : 
     779           0 : vi::ViImplementation2 * RegriddingTVIFactory::createVi() const
     780             : {
     781           0 :         return new RegriddingTVI(inputVii_p,configuration_p);
     782             : }
     783             : 
     784             : //////////////////////////////////////////////////////////////////////////
     785             : // RegriddingTVILayerFactory class
     786             : //////////////////////////////////////////////////////////////////////////
     787             : 
     788           0 : RegriddingTVILayerFactory::RegriddingTVILayerFactory(Record &configuration) :
     789             :   ViiLayerFactory(),
     790           0 :   configuration_p(configuration)
     791           0 : {}
     792             : 
     793             : ViImplementation2*
     794           0 : RegriddingTVILayerFactory::createInstance(ViImplementation2* vii0) const
     795             : {
     796             :   // Make the RegriddingTVi2, using supplied ViImplementation2, and return it
     797           0 :   ViImplementation2 *vii = new RegriddingTVI(vii0,configuration_p);
     798           0 :   return vii;
     799             : }
     800             : 
     801             : //////////////////////////////////////////////////////////////////////////
     802             : // RegriddingTransformEngine class
     803             : //////////////////////////////////////////////////////////////////////////
     804             : 
     805             : // -----------------------------------------------------------------------
     806             : //
     807             : // -----------------------------------------------------------------------
     808           0 : template<class T> RegriddingTransformEngine<T>::RegriddingTransformEngine(  RegriddingKernel<T> *kernel,
     809             :                                                                                                                                                         DataCubeMap *inputData,
     810             :                                                                                                                                                         DataCubeMap *outputData):
     811             :                                                                                                                                                         FreqAxisTransformEngine2<T>(inputData,
     812           0 :                                                                                                                                                                                                                 outputData)
     813             : {
     814             : 
     815           0 :         regriddingKernel_p = kernel;
     816           0 : }
     817             : 
     818             : // -----------------------------------------------------------------------
     819             : //
     820             : // -----------------------------------------------------------------------
     821           0 : template<class T> void RegriddingTransformEngine<T>::transform()
     822             : {
     823           0 :         regriddingKernel_p->kernel(inputData_p,outputData_p);
     824             : 
     825           0 :         return;
     826             : }
     827             : 
     828             : //////////////////////////////////////////////////////////////////////////
     829             : // RegriddingKernel class
     830             : //////////////////////////////////////////////////////////////////////////
     831             : 
     832             : // -----------------------------------------------------------------------
     833             : //
     834             : // -----------------------------------------------------------------------
     835           0 : template<class T> RegriddingKernel<T>::RegriddingKernel()
     836             : {
     837           0 :         inputDummyFlagVectorInitialized_p = false;
     838           0 :         outputDummyFlagVectorInitialized_p = false;
     839           0 :         inputDummyDataVectorInitialized_p = false;
     840           0 :         outputDummyDataVectorInitialized_p = false;
     841           0 : }
     842             : 
     843             : // -----------------------------------------------------------------------
     844             : //
     845             : // -----------------------------------------------------------------------
     846           0 : template<class T> Vector<Bool>& RegriddingKernel<T>::getInputFlagVector(DataCubeMap *inputData)
     847             : {
     848           0 :         if (inputData->present(MS::FLAG))
     849             :         {
     850           0 :                 return inputData->getVector<Bool>(MS::FLAG);
     851             :         }
     852           0 :         else if (not inputDummyFlagVectorInitialized_p)
     853             :         {
     854           0 :                 inputDummyFlagVectorInitialized_p = true;
     855           0 :                 inputDummyFlagVector_p.resize(inputData->getVectorShape()(0),false);
     856             :         }
     857             : 
     858           0 :         return inputDummyFlagVector_p;
     859             : }
     860             : 
     861             : // -----------------------------------------------------------------------
     862             : //
     863             : // -----------------------------------------------------------------------
     864           0 : template<class T> Vector<Bool>& RegriddingKernel<T>::getOutputFlagVector(DataCubeMap *outputData)
     865             : {
     866           0 :         if (outputData->present(MS::FLAG))
     867             :         {
     868           0 :                 return outputData->getVector<Bool>(MS::FLAG);
     869             :         }
     870           0 :         else if (not outputDummyFlagVectorInitialized_p)
     871             :         {
     872           0 :                 outputDummyFlagVectorInitialized_p = true;
     873           0 :                 outputDummyFlagVector_p.resize(outputData->getVectorShape()(0),false);
     874             :         }
     875             : 
     876           0 :         return outputDummyFlagVector_p;
     877             : }
     878             : 
     879             : // -----------------------------------------------------------------------
     880             : //
     881             : // -----------------------------------------------------------------------
     882           0 : template<class T> Vector<T>& RegriddingKernel<T>::getInputDataVector(DataCubeMap *inputData)
     883             : {
     884           0 :         if (inputData->present(MS::DATA))
     885             :         {
     886           0 :                 return inputData->getVector<T>(MS::DATA);
     887             :         }
     888           0 :         else if (not inputDummyDataVectorInitialized_p)
     889             :         {
     890           0 :                 inputDummyDataVectorInitialized_p = true;
     891           0 :                 inputDummyDataVector_p.resize(inputData->getVectorShape()(0),false);
     892             :         }
     893             : 
     894           0 :         return inputDummyDataVector_p;
     895             : }
     896             : 
     897             : // -----------------------------------------------------------------------
     898             : //
     899             : // -----------------------------------------------------------------------
     900           0 : template<class T> Vector<T>& RegriddingKernel<T>::getOutputDataVector(DataCubeMap *outputData)
     901             : {
     902           0 :         if (outputData->present(MS::DATA))
     903             :         {
     904           0 :                 return outputData->getVector<T>(MS::DATA);
     905             :         }
     906           0 :         else if (not outputDummyDataVectorInitialized_p)
     907             :         {
     908           0 :                 outputDummyDataVectorInitialized_p = true;
     909           0 :                 outputDummyDataVector_p.resize(outputData->getVectorShape()(0),false);
     910             :         }
     911             : 
     912           0 :         return outputDummyDataVector_p;
     913             : }
     914             : 
     915             : //////////////////////////////////////////////////////////////////////////
     916             : // DataInterpolationKernel class
     917             : //////////////////////////////////////////////////////////////////////////
     918             : 
     919             : // -----------------------------------------------------------------------
     920             : //
     921             : // -----------------------------------------------------------------------
     922           0 : template<class T> DataInterpolationKernel<T>::DataInterpolationKernel(      uInt interpolationMethod,
     923             :                                                                                                                                                 Vector<Double> *inputFreq,
     924           0 :                                                                                                                                                 Vector<Double> *outputFreq)
     925             : {
     926           0 :         interpolationMethod_p = interpolationMethod;
     927           0 :         inputFreq_p = inputFreq;
     928           0 :         outputFreq_p = outputFreq;
     929           0 : }
     930             : 
     931             : // -----------------------------------------------------------------------
     932             : //
     933             : // -----------------------------------------------------------------------
     934           0 : template<class T> void DataInterpolationKernel<T>::kernel(  DataCubeMap *inputData,
     935             :                                                                                                                         DataCubeMap *outputData)
     936             : {
     937           0 :         Vector<T> &inputDataVector = getInputDataVector(inputData);
     938           0 :         Vector<T> &outputDataVector = getOutputDataVector(outputData);
     939             : 
     940           0 :         if (inputDataVector.size() > 1)
     941             :         {
     942           0 :                 Vector<Bool> &inputFlagVector = getInputFlagVector(inputData);
     943           0 :                 Vector<Bool> &outputFlagVector = getOutputFlagVector(outputData);
     944             : 
     945           0 :                 InterpolateArray1D<Double,T>::interpolate(        outputDataVector, // Output data
     946             :                                                                                                         outputFlagVector, // Output flags
     947           0 :                                                                                                 *outputFreq_p, // Out chan freq
     948           0 :                                                                                                 *inputFreq_p, // In chan freq
     949             :                                                                                                 inputDataVector, // Input data
     950             :                                                                                                 inputFlagVector, // Input Flags
     951           0 :                                                                                                 interpolationMethod_p, // Interpolation method
     952             :                                                                                                 false, // A good data point has its flag set to false
     953             :                                                                                                 false // If false extrapolated data points are set flagged
     954             :                                                                                                 );
     955             :         }
     956             :         else
     957             :         {
     958           0 :                 outputDataVector = inputDataVector(0);
     959             :         }
     960             : 
     961           0 :         return;
     962             : }
     963             : 
     964             : 
     965             : 
     966             : //////////////////////////////////////////////////////////////////////////
     967             : // DataFFTKernel class
     968             : //////////////////////////////////////////////////////////////////////////
     969             : 
     970             : // -----------------------------------------------------------------------
     971             : //
     972             : // -----------------------------------------------------------------------
     973           0 : template<class T> DataFFTKernel<T>::DataFFTKernel(Double fftShift)
     974             : {
     975           0 :         fftShift_p = fftShift;
     976           0 : }
     977             : 
     978             : // -----------------------------------------------------------------------
     979             : //
     980             : // -----------------------------------------------------------------------
     981           0 : template<class T> void DataFFTKernel<T>::kernel(DataCubeMap *inputData,DataCubeMap *outputData)
     982             : {
     983           0 :         Vector<T> &inputDataVector = getInputDataVector(inputData);
     984           0 :         Vector<T> &outputDataVector = getOutputDataVector(outputData);
     985             : 
     986           0 :         if (inputDataVector.size() > 1)
     987             :         {
     988           0 :                 Vector<Bool> &inputFlagVector = getInputFlagVector(inputData);
     989           0 :                 Vector<Bool> &outputFlagVector = getOutputFlagVector(outputData);
     990             : 
     991           0 :                 fftshift(inputDataVector,inputFlagVector,outputDataVector,outputFlagVector);
     992             :         }
     993             :         else
     994             :         {
     995           0 :                 outputDataVector = inputDataVector(0);
     996             :         }
     997             : 
     998           0 :         return;
     999             : }
    1000             : 
    1001             : // -----------------------------------------------------------------------
    1002             : //
    1003             : // -----------------------------------------------------------------------
    1004           0 : template<class T> void DataFFTKernel<T>::fftshift(  Vector<Complex> &inputDataVector,
    1005             :                                                                                                         Vector<Bool> &inputFlagVector,
    1006             :                                                                                                         Vector<Complex> &outputDataVector,
    1007             :                                                                                                         Vector<Bool> &outputFlagVector)
    1008             : {
    1009           0 :         fFFTServer_p.fftshift(  outputDataVector,
    1010             :                                                         outputFlagVector,
    1011           0 :                                                 (const Vector<T>)inputDataVector,
    1012           0 :                                                 (const Vector<Bool>)inputFlagVector,
    1013           0 :                                                 (const uInt)0, // In vectors axis 0 is the only dimension
    1014           0 :                                                 (const Double)fftShift_p,
    1015             :                                                 false, // A good data point has its flag set to false
    1016             :                                                 false);
    1017             : 
    1018           0 :         return;
    1019             : }
    1020             : 
    1021             : // -----------------------------------------------------------------------
    1022             : //
    1023             : // -----------------------------------------------------------------------
    1024           0 : template<class T> void DataFFTKernel<T>::fftshift(  Vector<Float> &inputDataVector,
    1025             :                                                                                                         Vector<Bool> &inputFlagVector,
    1026             :                                                                                                         Vector<Float> &outputDataVector,
    1027             :                                                                                                         Vector<Bool> &outputFlagVector)
    1028             : {
    1029           0 :         fFFTServer_p.fftshift(  outputDataVector,
    1030             :                                                         outputFlagVector,
    1031           0 :                                                 (const Vector<T>)inputDataVector,
    1032           0 :                                                 (const Vector<Bool>)inputFlagVector,
    1033           0 :                                                 (const uInt)0, // In vectors axis 0 is the only dimension
    1034           0 :                                                 (const Double)fftShift_p,
    1035             :                                                 false); // A good data point has its flag set to false
    1036             : 
    1037           0 :         return;
    1038             : }
    1039             : 
    1040             : } //# NAMESPACE VI - END
    1041             : 
    1042             : } //# NAMESPACE CASA - END
    1043             : 
    1044             : 

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