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Date: 2024-12-11 20:54:31 Functions: 0 7 0.0 %

          Line data    Source code
       1             : //# MFMSCleanImageSkyModel.cc: Implementation of MFMSCleanImageSkyModel class
       2             : //# Copyright (C) 1996,1997,1998,1999,2000,2001,2002,2003
       3             : //# Associated Universities, Inc. Washington DC, USA.
       4             : //#
       5             : //# This library is free software; you can redistribute it and/or modify it
       6             : //# under the terms of the GNU Library General Public License as published by
       7             : //# the Free Software Foundation; either version 2 of the License, or (at your
       8             : //# option) any later version.
       9             : //#
      10             : //# This library is distributed in the hope that it will be useful, but WITHOUT
      11             : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
      12             : //# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Library General Public
      13             : //# License for more details.
      14             : //#
      15             : //# You should have received a copy of the GNU Library General Public License
      16             : //# along with this library; if not, write to the Free Software Foundation,
      17             : //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
      18             : //#
      19             : //# Correspondence concerning AIPS++ should be addressed as follows:
      20             : //#        Internet email: casa-feedback@nrao.edu.
      21             : //#        Postal address: AIPS++ Project Office
      22             : //#                        National Radio Astronomy Observatory
      23             : //#                        520 Edgemont Road
      24             : //#                        Charlottesville, VA 22903-2475 USA
      25             : //#
      26             : //# $Id$
      27             : 
      28             : #include <casacore/casa/Arrays/ArrayMath.h>
      29             : #include <synthesis/MeasurementComponents/MFMSCleanImageSkyModel.h>
      30             : #include <casacore/images/Images/PagedImage.h>
      31             : #include <casacore/casa/OS/File.h>
      32             : #include <casacore/lattices/LEL/LatticeExpr.h>
      33             : #include <casacore/lattices/LEL/LatticeExprNode.h>
      34             : #include <casacore/images/Images/SubImage.h>
      35             : #include <casacore/casa/Arrays/IPosition.h>
      36             : #include <casacore/lattices/LRegions/LCBox.h>
      37             : #include <synthesis/MeasurementEquations/ImageMSCleaner.h>
      38             : #include <synthesis/MeasurementEquations/SkyEquation.h>
      39             : #include <casacore/casa/Exceptions/Error.h>
      40             : #include <casacore/casa/BasicSL/String.h>
      41             : #include <casacore/casa/Utilities/Assert.h>
      42             : #include <casacore/casa/Quanta/Quantum.h>
      43             : 
      44             : #include <sstream>
      45             : #include <casacore/casa/Logging/LogMessage.h>
      46             : #include <casacore/casa/Logging/LogSink.h>
      47             : #include <casacore/casa/Logging/LogIO.h>
      48             : 
      49             : #include <synthesis/MeasurementEquations/LatConvEquation.h>
      50             : 
      51             : using namespace casacore;
      52             : namespace casa {
      53             : 
      54             : 
      55             : // Some constructors
      56             : 
      57           0 : MFMSCleanImageSkyModel::MFMSCleanImageSkyModel()
      58           0 : :  method_p(NSCALES), nscales_p(4), progress_p(0), 
      59           0 :    stopLargeNegatives_p(2), stopPointMode_p(-1)
      60             : {
      61             : 
      62           0 :   donePSF_p=false;
      63           0 :   modified_p=true;
      64           0 :   getScales();
      65             : 
      66           0 : };
      67             : 
      68           0 : MFMSCleanImageSkyModel::MFMSCleanImageSkyModel(const Int nscales, 
      69             :                                                const Int sln,
      70             :                                                const Int spm,
      71           0 :                                                const Float inbias)
      72           0 : : method_p(NSCALES), nscales_p(nscales), progress_p(0),
      73           0 :   stopLargeNegatives_p(sln), stopPointMode_p(spm),smallScaleBias_p(inbias)
      74             : {
      75             : 
      76           0 :   donePSF_p=false;
      77           0 :   modified_p=true;
      78           0 :   getScales();
      79             : 
      80           0 : };
      81             : 
      82           0 : MFMSCleanImageSkyModel::MFMSCleanImageSkyModel(const Vector<Float>& userScaleSizes, 
      83             :                                                const Int sln,
      84             :                                                const Int spm,
      85           0 :                                                const Float inbias)
      86           0 : : method_p(USERVECTOR), userScaleSizes_p(userScaleSizes), progress_p(0),
      87           0 :   stopLargeNegatives_p(sln), stopPointMode_p(spm), smallScaleBias_p(inbias)
      88             : {
      89             : 
      90           0 :   donePSF_p=false;
      91           0 :   modified_p=true;
      92           0 :   getScales();
      93             : 
      94           0 : };
      95             : 
      96           0 : MFMSCleanImageSkyModel::~MFMSCleanImageSkyModel()
      97             : {
      98           0 :   if (progress_p) {
      99           0 :     delete progress_p;
     100             :   }
     101             : 
     102           0 :   if(componentList_p) delete componentList_p; componentList_p=0;
     103           0 :   for (Int thismodel=0;thismodel<nmodels_p;thismodel++) {
     104           0 :     if(residualImage_p[thismodel]) delete residualImage_p[thismodel]; 
     105           0 :     residualImage_p[thismodel]=0;
     106           0 :     if(cimage_p[thismodel]) delete cimage_p[thismodel]; 
     107           0 :     cimage_p[thismodel]=0;
     108           0 :     for(Int numXFR=0;numXFR<maxNumXFR_p;numXFR++) {
     109           0 :       if(cxfr_p[thismodel*maxNumXFR_p+numXFR])
     110           0 :         delete cxfr_p[thismodel*maxNumXFR_p+numXFR];
     111           0 :       cxfr_p[thismodel*maxNumXFR_p+numXFR]=0;
     112             :     }
     113           0 :     if(gS_p[thismodel]) delete gS_p[thismodel]; gS_p[thismodel]=0;
     114           0 :     if(psf_p[thismodel]) delete psf_p[thismodel]; psf_p[thismodel]=0;
     115           0 :     if(ggS_p[thismodel]) delete ggS_p[thismodel]; ggS_p[thismodel]=0;
     116           0 :     if(fluxScale_p[thismodel]) delete fluxScale_p[thismodel]; 
     117           0 :     fluxScale_p[thismodel]=0;
     118           0 :     if(work_p[thismodel]) delete work_p[thismodel]; work_p[thismodel]=0;
     119           0 :     if(deltaimage_p[thismodel]) delete deltaimage_p[thismodel]; 
     120           0 :     deltaimage_p[thismodel]=0;
     121           0 :     if(weight_p[thismodel]) delete weight_p[thismodel]; weight_p[thismodel]=0;
     122           0 :     if(beam_p[thismodel]) delete beam_p[thismodel]; beam_p[thismodel]=0;
     123             :   }
     124             : 
     125           0 : };
     126             : 
     127             : 
     128             : // Clean solver
     129           0 : Bool MFMSCleanImageSkyModel::solve(SkyEquation& se) {
     130             : 
     131           0 :   LogIO os(LogOrigin("MFMSCleanImageSkyModel","solve"));
     132             :   /*backed out for now
     133             :   if(modified_p){
     134             :     makeNewtonRaphsonStep(se, false);
     135             :   }
     136             :   
     137             :   if(numberIterations() < 1){
     138             :     return true;
     139             :   }
     140             :   */
     141             :   //Make the PSFs, one per field
     142           0 :   if(!donePSF_p){
     143             :     os << LogIO::NORMAL         // Loglevel PROGRESS
     144           0 :        << "Making approximate PSFs" << LogIO::POST;
     145           0 :     makeApproxPSFs(se);
     146             :   }
     147             : 
     148           0 :   Int converged=true;
     149           0 :   Int converging=0;
     150             :   
     151             :   // Validate PSFs for each field
     152           0 :   Vector<Float> psfmax(numberOfModels()); psfmax=0.0;
     153           0 :   Vector<Float> psfmin(numberOfModels()); psfmin=1.0;
     154           0 :   Vector<Float> resmax(numberOfModels());
     155           0 :   Vector<Float> resmin(numberOfModels());
     156             : 
     157           0 :   Float maxSidelobe=0.0;
     158             :   Int model;
     159           0 :   for (model=0;model<numberOfModels();model++) {
     160           0 :     if(isSolveable(model)) {
     161           0 :       IPosition blc(PSF(model).shape().nelements(), 0);
     162           0 :       IPosition trc(PSF(model).shape()-1);
     163           0 :       blc(2) = 0;  trc(2) = 0;
     164           0 :       blc(3) = 0;  trc(3) = 0;
     165             : 
     166           0 :       SubImage<Float> subPSF;
     167           0 :       Int k =0;
     168           0 :       Int numchan= PSF(model).shape()(3);
     169             :       //PSF of first non zero plane
     170           0 :       while(psfmax(model) < 0.1 && k< numchan){
     171           0 :         blc(3)= k;
     172           0 :         trc(3)=k;
     173           0 :         LCBox onePlane(blc, trc, PSF(model).shape());
     174             : 
     175           0 :         subPSF=SubImage<Float> ( PSF(model), onePlane, true);
     176             :         {
     177           0 :           LatticeExprNode node = max(subPSF);
     178           0 :           psfmax(model) = node.getFloat();
     179           0 :         }
     180           0 :         ++k;
     181           0 :       }
     182             :       {
     183           0 :         LatticeExprNode node = min(subPSF);
     184           0 :         psfmin(model) = node.getFloat();
     185           0 :       }
     186             :       os << LogIO::NORMAL    // Loglevel INFO
     187             :          << "Model " << model+1 << ": max, min PSF = "
     188           0 :          << psfmax(model) << ", " << psfmin(model) << endl;
     189           0 :       if(abs(psfmin(model))>maxSidelobe) maxSidelobe=abs(psfmin(model));
     190           0 :     }
     191             :   }
     192           0 :   os << LogIO::POST;
     193             :         
     194           0 :   Float absmax=threshold();
     195           0 :   Block< Matrix<Int> > iterations(numberOfModels());
     196           0 :   Int maxIterations=0;
     197           0 :   Int oldMaxIterations=-1;
     198             :     
     199             :   // Loop over major cycles
     200             :   /*if (displayProgress_p) {
     201             :     if(progress_p) delete progress_p;
     202             :     progress_p=0;
     203             :     progress_p = new LatticeCleanProgress( pgplotter_p );
     204             :     }*/
     205             : 
     206           0 :   Block<CountedPtr<ImageMSCleaner > > cleaner(numberOfModels());
     207           0 :   cleaner=0;
     208             : 
     209           0 :   Int cycle=0;
     210           0 :   Bool stop=false;
     211           0 :   Bool lastCycleWriteModel=false;
     212             : 
     213           0 :   while(absmax>=threshold()&&maxIterations<numberIterations()&&!stop) {
     214             : 
     215             :     os << LogIO::NORMAL    // Loglevel PROGRESS
     216           0 :        << "*** Starting major cycle " << cycle+1 << LogIO::POST;
     217           0 :     cycle++;
     218             : 
     219             : 
     220             :     // Make the residual images. We do an incremental update
     221             :     // for cycles after the first one. If we have only one
     222             :     // model then we use convolutions to speed the processing
     223           0 :     Bool incremental(cycle>1);
     224           0 :     if(modified_p){
     225           0 :       if (!incremental||(itsSubAlgorithm == "full")) {
     226             :         
     227             :         os << LogIO::NORMAL1    // Loglevel INFO
     228             :            << "Using visibility-subtraction for residual calculation"
     229           0 :            << LogIO::POST;
     230           0 :         makeNewtonRaphsonStep(se, false, (numberIterations()<1)?true:False);
     231             :         
     232             :       }
     233             :       else {
     234             :         os << LogIO::NORMAL1    // Loglevel INFO
     235             :            << "Using XFR-based shortcut for residual calculation"
     236           0 :            << LogIO::POST;
     237           0 :         makeNewtonRaphsonStep(se, true);
     238             :       }
     239             :     
     240             :     }
     241           0 :     if(numberIterations() < 1){
     242             :       // Why waste the time to set up
     243           0 :       return true;
     244             :     }
     245             : 
     246           0 :     absmax=maxField(resmax, resmin);
     247             : 
     248           0 :     for (model=0;model<numberOfModels();model++) {
     249             :       os << LogIO::NORMAL    // Loglevel INFO
     250             :          << "Model " << model+1 << ": max, min residuals (over all pixels) = "
     251           0 :          << resmax(model) << ", " << resmin(model) << endl;
     252             :     }
     253           0 :     os << LogIO::POST;
     254             : 
     255             :     // Can we stop?
     256           0 :     if(absmax<threshold()) {
     257             :       os << LogIO::NORMAL    // Loglevel PROGRESS?
     258             :          << "Reached stopping peak point source residual = "
     259           0 :          << absmax << LogIO::POST;
     260           0 :       stop=true;
     261           0 :       if(cycle >1)
     262           0 :         lastCycleWriteModel=true;
     263             :     }
     264             :     else {
     265             :       // Calculate the threshold for this cycle. Add a safety factor
     266           0 :       Float fudge = cycleFactor_p*maxSidelobe;
     267           0 :       if (fudge > 0.8) fudge = 0.8;   // painfully slow!
     268           0 :       Quantity fThreshold(fudge*100, "%");
     269           0 :       Quantity aThreshold(threshold(), "Jy");
     270             :       os << LogIO::NORMAL    // Loglevel INFO
     271           0 :          << "Maximum point source residual = " << absmax << LogIO::POST;
     272             :       os << LogIO::NORMAL    // Loglevel INFO
     273             :          << "Cleaning scale flux down to maximum of " << fThreshold.getValue("%")
     274           0 :          << " % and " << aThreshold.getValue("Jy") << " Jy" << LogIO::POST;
     275             :       
     276           0 :       for (model=0;model<numberOfModels();model++) {
     277             : 
     278           0 :         Int nchan=image(model).shape()(3);
     279           0 :         Int npol=image(model).shape()(2);
     280             :  
     281           0 :         IPosition blcDirty(image(model).shape().nelements(), 0);
     282           0 :         IPosition trcDirty(image(model).shape()-1);
     283             :   
     284           0 :         if(cycle==1) {
     285           0 :           iterations[model].resize(nchan,npol);
     286           0 :           iterations[model]=0;
     287             :         }
     288             :         
     289             :         // Initialize delta image
     290           0 :         deltaImage(model).set(0.0);
     291             :           
     292             :         // Only process solveable models
     293           0 :         if(isSolveable(model)) {
     294             :           
     295             :           os << LogIO::NORMAL    // Loglevel PROGRESS
     296           0 :              << "Processing model " << model+1 << LogIO::POST;
     297             :           
     298             :           // If mask exists, use it;
     299             :           // If not, use the fluxScale image to figure out
     300           0 :           Bool doMask = false;
     301           0 :           Bool mustDeleteMask = false;
     302           0 :           ImageInterface<Float> *maskPointer = 0;
     303             :           
     304           0 :           if (hasMask(model)) {
     305           0 :             doMask = true;
     306           0 :             maskPointer = &mask(model);
     307           0 :           } else if (doFluxScale(model)) {
     308           0 :             doMask = true;
     309           0 :             mustDeleteMask = true;
     310             :             
     311           0 :             maskPointer = new TempImage<Float> ( fluxScale(model).shape(),
     312           0 :                                                  fluxScale(model).coordinates());
     313           0 :             maskPointer->copyData( (LatticeExpr<Float>)
     314           0 :                                    (iif( (fluxScale(model) > 0.0), 1.0, 0.0)) );
     315             :           }
     316             :           
     317             :           // Now clean each channel and each pol
     318           0 :           for (Int chan=0; chan<nchan; chan++) {
     319           0 :             if(psfmax(model)>0.0) {
     320             :               // We could keep a cleaner per channel but for the moment
     321             :               // we simply make a new one for each channel
     322           0 :               if(nchan>1) {
     323             :                 os << LogIO::NORMAL    // Loglevel PROGRESS
     324           0 :                    <<"Processing channel "<<chan<<" of 0 to "<<nchan-1<<LogIO::POST;
     325           0 :                 if(!cleaner[model].null()) cleaner[model]=0;
     326             :               }
     327             :               
     328           0 :               blcDirty(3) = chan;
     329           0 :               trcDirty(3) = chan;
     330           0 :               blcDirty(2) = 0; trcDirty(2) = 0;
     331           0 :               LCBox firstPlane(blcDirty, trcDirty, image(model).shape());
     332           0 :               SubImage<Float> subPSF( PSF(model), firstPlane);
     333             :               
     334           0 :               for (Int pol=0; pol<npol; pol++) {
     335           0 :                 blcDirty(2) = pol; trcDirty(2) = pol;
     336             :                 // The PSF should be the same for each polarization so we
     337             :                 // can use the existing cleaner (unlike the spectral case)
     338           0 :                 if(npol>1) {
     339             :                   os << LogIO::NORMAL    // Loglevel PROGRESS
     340             :                      <<"Processing polarization "<<pol+1<<" of "<< npol
     341           0 :                      <<LogIO::POST;
     342             :                 }
     343           0 :                 LCBox onePlane(blcDirty, trcDirty, image(model).shape());
     344             :                 
     345           0 :                 SubImage<Float> subImage( image(model), onePlane, true);
     346           0 :                 SubImage<Float> subResid( residual(model), onePlane);
     347           0 :                 SubImage<Float> subDeltaImage( deltaImage(model), onePlane, true);
     348           0 :                 SubImage<Float>  subMask;
     349           0 :                 Bool skipThisPlane=false;
     350           0 :                 if (doMask) {
     351           0 :                   subMask = SubImage<Float> ( *maskPointer, onePlane, true);
     352           0 :                   if(max(subMask).getFloat() <= 0.0){
     353           0 :                     skipThisPlane=true;
     354             :                   }
     355             :                 }
     356           0 :                 if(!skipThisPlane){
     357           0 :                   if(!cleaner[model].null()) {
     358             :                     os << LogIO::NORMAL2    // Loglevel PROGRESS
     359             :                        << "Updating multiscale cleaner with new residual images"
     360           0 :                        << LogIO::POST;
     361           0 :                     cleaner[model]->update(subResid);
     362             :                   }
     363             :                   else {
     364             :                     os << LogIO::NORMAL2    // Loglevel PROGRESS
     365             :                        << "Creating multiscale cleaner with psf and residual images"
     366           0 :                        << LogIO::POST;
     367           0 :                     cleaner[model]=new ImageMSCleaner(subPSF, subResid);
     368             :                     //setScales(*(cleaner[model]));
     369           0 :                     cleaner[model]->setscales(userScaleSizes_p);
     370           0 :                     cleaner[model]->setSmallScaleBias(smallScaleBias_p);
     371           0 :                     if (doMask) {                 
     372           0 :                       cleaner[model]->setMask(subMask);
     373             :                     }
     374             :                   }
     375           0 :                   subDeltaImage.set(0.0);
     376             :                   
     377           0 :                   cleaner[model]->setcontrol(CleanEnums::MULTISCALE, numberIterations(), gain(), 
     378             :                                       aThreshold, fThreshold);
     379             :                   
     380           0 :                   if (cycleSpeedup_p > 1) {
     381             :                     os << LogIO::NORMAL    // Loglevel INFO
     382           0 :                        << "cycleSpeedup is " << cycleSpeedup_p << LogIO::POST;
     383           0 :                     cleaner[model]->speedup(cycleSpeedup_p);
     384             :                   }
     385           0 :                   cleaner[model]->startingIteration( iterations[model](chan,pol) );
     386           0 :                   if (cycle <= stopLargeNegatives_p) {
     387           0 :                     cleaner[model]->stopAtLargeScaleNegative();
     388             :                   }
     389           0 :                   cleaner[model]->stopPointMode(stopPointMode_p);
     390           0 :                   cleaner[model]->ignoreCenterBox(true);
     391           0 :                   converging=cleaner[model]->clean(subDeltaImage, "fullmsclean", numberIterations(), gain(), aThreshold, fThreshold, displayProgress_p );
     392             :                   //diverging
     393           0 :                   if(converging==-3)
     394           0 :                     stop=true;
     395             :                   //reduce scales on main field only
     396           0 :                   if(converging==-2 && model==0){
     397           0 :                     if(userScaleSizes_p.nelements() > 1){
     398           0 :                        userScaleSizes_p.resize(userScaleSizes_p.nelements()-1, true);
     399           0 :                        cleaner[model]->setscales(userScaleSizes_p); 
     400             :                     }
     401             :                     else
     402           0 :                       stop=true;
     403             :                   }
     404           0 :                   iterations[model](chan,pol)=cleaner[model]->numberIterations();
     405           0 :                   maxIterations=(iterations[model](chan,pol)>maxIterations) ?
     406           0 :                     iterations[model](chan,pol) : maxIterations;
     407             :                   os << LogIO::NORMAL    // Loglevel INFO
     408           0 :                      << "Clean used " << iterations[model](chan,pol)
     409             :                      << " iterations" 
     410           0 :                      << LogIO::POST;
     411           0 :                   modified_p=true;
     412             :                   
     413           0 :                   subImage.copyData( LatticeExpr<Float>( subImage + subDeltaImage));
     414             :                  
     415           0 :                   if (cleaner[model]->queryStopPointMode()) {
     416           0 :                     stop = true;                
     417             :                     os << LogIO::NORMAL    // Loglevel INFO
     418             :                        << "MSClean terminating because we hit " 
     419             :                        << stopPointMode_p
     420           0 :                        << " consecutive compact sources" << LogIO::POST;
     421             :                   }
     422             :                   //if (doMask) {                 
     423             :                   //  delete subMaskPointer;
     424             :                   //}
     425             :                 }
     426           0 :               }
     427           0 :             }
     428             :           }
     429           0 :           if (mustDeleteMask) {
     430           0 :             delete maskPointer;
     431             :           }
     432             :         } // if solveable
     433           0 :       } // for model
     434           0 :       if(maxIterations==oldMaxIterations){
     435             :          os << LogIO::NORMAL    // Loglevel INFO
     436             :                        << "MSClean terminating because components search stopped " 
     437           0 :                        << LogIO::POST;
     438           0 :         stop=true;
     439             :       }
     440             :       else{
     441           0 :         oldMaxIterations=maxIterations; 
     442             :       }
     443           0 :     }
     444             :   }
     445             : 
     446           0 :   if(modified_p || lastCycleWriteModel) {
     447             :     os << LogIO::NORMAL    // Loglevel PROGRESS?
     448           0 :        << "Finalizing residual images for all fields" << LogIO::POST;
     449           0 :     makeNewtonRaphsonStep(se, false, true);
     450           0 :     Float finalabsmax=maxField(resmax, resmin);
     451           0 :     setNumberIterations(numberIterations()-maxIterations);
     452           0 :     converged=(finalabsmax < 1.05 * threshold());
     453           0 :     setThreshold(finalabsmax);
     454             :       os << LogIO::NORMAL    // Loglevel INFO
     455           0 :          << "Final maximum residual = " << finalabsmax << LogIO::POST;
     456             :       
     457           0 :     for (model=0;model<numberOfModels();model++) {
     458             :       os << LogIO::NORMAL    // Loglevel INFO
     459             :          << "Model " << model+1 << ": max, min residuals (over all pixels) = "
     460           0 :          << resmax(model) << ", " << resmin(model) << endl;
     461             :     }
     462           0 :     os << LogIO::POST;
     463           0 :   }
     464             :   else {
     465           0 :     os << "Residual images for all fields are up-to-date" << LogIO::POST;
     466             :   }
     467             : 
     468             :   //if(cleaner) delete cleaner; cleaner=0;
     469             : 
     470           0 :   return(converged);
     471           0 : };
     472             :   
     473             : 
     474             : void
     475           0 : MFMSCleanImageSkyModel::getScales()
     476             : {
     477           0 :   LogIO os(LogOrigin("MFCleanImageSkyModel", "getScales"));
     478           0 :   if (method_p == USERVECTOR) {
     479           0 :     if (userScaleSizes_p.nelements() <= 0) {
     480             :       os << LogIO::SEVERE 
     481             :          << "Need at least one scale for method uservector"
     482           0 :          << LogIO::POST;
     483             :     }
     484           0 :     os << "Creating scales from uservector method: " << LogIO::POST;
     485             :   }
     486             :   else {
     487           0 :     if (nscales_p <= 0) nscales_p = 1;
     488           0 :     Vector<Float> scaleSizes(nscales_p);  
     489             :     os << "Creating " << nscales_p << 
     490           0 :       " scales from powerlaw nscales method" << LogIO::POST;
     491           0 :     scaleSizes(0) = 0.0;
     492           0 :     Float scaleInc = 2.0;
     493           0 :     for(uInt scale = 1; scale < nscales_p; ++scale)
     494           0 :       scaleSizes[scale] = scaleInc * pow(10.0, (Float(scale) - 2.0)/2.0);
     495             :   
     496             :     //store the scales as user setscales..in case we need to reduce scales
     497           0 :     userScaleSizes_p.resize();
     498           0 :     userScaleSizes_p=scaleSizes;
     499           0 :     method_p=USERVECTOR;
     500           0 :   }
     501             : 
     502           0 :   for(uInt scale = 0; scale < userScaleSizes_p.nelements(); ++scale)
     503             :     os << LogIO::NORMAL << 
     504           0 :       "scale " << scale+1 << " = " << userScaleSizes_p(scale)
     505             :        << " pixels"
     506           0 :        << LogIO::POST;
     507           0 : };
     508             : 
     509             :  /*
     510             : // Inlined here and not in the .h because the .h doesn't #include LatticeCleaner.
     511             : inline void MFMSCleanImageSkyModel::setScales(LatticeCleaner<Float>& cleaner)
     512             : { 
     513             :   cleaner.setscales(userScaleSizes_p);
     514             : }
     515             : 
     516             : */
     517             : } //#End casa namespace

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