LCOV - code coverage report
Current view: top level - synthesis/MeasurementEquations - LinearMosaic.cc (source / functions) Hit Total Coverage
Test: casacpp_coverage.info Lines: 0 204 0.0 %
Date: 2024-10-10 19:51:30 Functions: 0 12 0.0 %

          Line data    Source code
       1             : /*
       2             :  * LinearMosaic.cc
       3             :  //# Copyright (C) 2015
       4             : //# Associated Universities, Inc. Washington DC, USA.
       5             : //#
       6             : //# This program is free software; you can redistribute it and/or modify it
       7             : //# under the terms of the GNU General Public License as published by the Free
       8             : //# Software Foundation; either version 2 of the License, or (at your option)
       9             : //# any later version.
      10             : //#
      11             : //# This program is distributed in the hope that it will be useful, but WITHOUT
      12             : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
      13             : //# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
      14             : //# more details.
      15             : //#
      16             : //# You should have received a copy of the GNU General Public License along
      17             : //# with this program; if not, write to the Free Software Foundation, Inc.,
      18             : //# 675 Massachusetts Ave, Cambridge, MA 02139, USA.
      19             : //#
      20             : //# Correspondence concerning AIPS++ should be addressed as follows:
      21             : //#        Internet email: casa-feedback@nrao.edu.
      22             : //#        Postal address: AIPS++ Project Office
      23             : //#                        National Radio Astronomy Observatory
      24             : //#                        520 Edgemont Road
      25             : //#                        Charlottesville, VA 22903-2475 USA
      26             :  *  Created on: Feb 24, 2015
      27             :  *      Author: kgolap
      28             :  */
      29             : 
      30             : #include <casacore/coordinates/Coordinates/CoordinateUtil.h>
      31             : #include <casacore/coordinates/Coordinates/CoordinateSystem.h>
      32             : #include <casacore/coordinates/Coordinates/DirectionCoordinate.h>
      33             : #include <casacore/images/Images/TempImage.h>
      34             : #include <casacore/images/Images/PagedImage.h>
      35             : #include <casacore/images/Images/ImageRegrid.h>
      36             : #include <casacore/images/Images/SubImage.h>
      37             : #include <casacore/images/Regions/WCBox.h>
      38             : #include <synthesis/MeasurementEquations/Imager.h>
      39             : #include <synthesis/MeasurementEquations/LinearMosaic.h>
      40             : using namespace std;
      41             : 
      42             : using namespace casacore;
      43             : namespace casa { //# NAMESPACE CASA - BEGIN
      44             : 
      45             : 
      46           0 :         LinearMosaic::LinearMosaic (): outImage_p(NULL), outWgt_p(NULL), outImName_p(""), outWgtName_p(""), weightType_p(1), linmosType_p(2){
      47             : 
      48             : 
      49           0 :         }
      50           0 :         LinearMosaic::LinearMosaic(const String outim, const String outwgt, const MDirection& imcen, const Int nx,
      51           0 :                         const Int ny, const Quantity cellx, const Quantity celly, const Int linmostype) :outImage_p(NULL), outWgt_p(NULL), linmosType_p(linmostype) {
      52           0 :                 outImName_p=outim;
      53             :                 ///Null image so assigning same weight type as requested
      54           0 :                 imageWeightType_p=linmostype;
      55           0 :                 weightType_p=linmostype;
      56             : 
      57           0 :                 outWgtName_p= outwgt=="" ? outim+String(".weight") : outwgt;
      58           0 :                 nx_p=nx;
      59           0 :                 ny_p=ny;
      60           0 :                 imcen_p=imcen;
      61           0 :                 cellx_p=cellx;
      62           0 :                 celly_p=celly;
      63             : 
      64           0 :          }
      65           0 :         LinearMosaic::LinearMosaic(const String outim, const String outwgt, const MDirection& imcen, const Int nx, const Int ny,
      66             :                                    Vector<CountedPtr<ImageInterface<Float> > >& ims,
      67           0 :                                    Vector<CountedPtr<ImageInterface<Float> > >& wgtims, const Int linmostype) : linmosType_p(linmostype){
      68           0 :                 Int nchan=ims[0]->shape()[3];
      69           0 :                 Int npol=ims[0]->shape()[2];
      70           0 :                 for (uInt k=0; k< ims.nelements(); ++k){
      71           0 :                         if(nchan != ims[k]->shape()[3] || nchan != wgtims[k]->shape()[3])
      72           0 :                                 ThrowCc("images should have the same number of channels");
      73           0 :                         if(npol != ims[k]->shape()[2] || npol != (wgtims[k])->shape()[2])
      74           0 :                                 ThrowCc("images should have the same number of polarization planes");
      75             :                 }
      76           0 :                 CoordinateSystem cs=ims[0]->coordinates();
      77           0 :                 makeEmptyImage(outim, cs, imcen, nx, ny,npol, nchan);
      78           0 :                 makeEmptyImage(outwgt, cs, imcen, nx, ny,npol, nchan);
      79           0 :                 PagedImage<Float> outdiskim(outim);
      80           0 :                 PagedImage<Float> outdiskwgt(outwgt);
      81           0 :                 setOutImages(outdiskim, outdiskwgt, 2, 2);
      82           0 :                 makeMosaic(ims, wgtims);
      83             : 
      84           0 :         }
      85           0 :         void LinearMosaic::setlinmostype(const Int linmostype){
      86           0 :                 linmosType_p=linmostype;
      87           0 :         }
      88           0 :         Bool LinearMosaic::makeMosaic(ImageInterface<Float>& outim, ImageInterface<Float>& outwgt,
      89             :                                       Vector<CountedPtr<ImageInterface<Float> > >& ims,
      90             :                                       Vector<CountedPtr<ImageInterface<Float> > >& wgtims){
      91             : 
      92           0 :                 Bool retval=true;
      93           0 :                 if(ims.nelements() != wgtims.nelements())
      94           0 :                         ThrowCc("Unequal number of images and weight images ");
      95           0 :                 for (uInt k=0; k < ims.nelements(); ++k){
      96           0 :                         retval=retval && addOnToImage(outim, outwgt, *(ims[k]), *(wgtims[k]), (k==ims.nelements()-1));
      97             :                 }
      98           0 :                 return retval;
      99             : 
     100             :         }
     101           0 :         Bool LinearMosaic::makeMosaic(
     102             :                                           Vector<CountedPtr<ImageInterface<Float> > >& ims,
     103             :                                           Vector<CountedPtr<ImageInterface<Float> > >& wgtims){
     104             : 
     105           0 :                         Bool retval=true;
     106           0 :                         if(outImage_p.null() && outImName_p=="")
     107           0 :                                 ThrowCc("No output image or weight image defined");
     108           0 :                         if(outImage_p.null())
     109           0 :                                 createOutImages(ims[0]->coordinates(), ims[0]->shape()[2], ims[0]->shape()[3] );
     110           0 :                         if(ims.nelements() != wgtims.nelements())
     111           0 :                                 ThrowCc("Unequal number of images and weight images ");
     112           0 :                         for (uInt k=0; k < ims.nelements(); ++k){
     113           0 :                                 retval=retval && addOnToImage(*outImage_p, *outWgt_p, *(ims[k]), *(wgtims[k]), (k==ims.nelements()-1));
     114           0 :                                 ims[k]=0;
     115           0 :                                 wgtims[k]=0;
     116             :                         }
     117           0 :                         return retval;
     118             : 
     119             :                 }
     120           0 :         void LinearMosaic::setOutImages(ImageInterface<Float>& outim, ImageInterface<Float>& outwgt, const Int imageWeightType, const Int weightType){
     121           0 :                 outImage_p=CountedPtr<ImageInterface<Float> >(&outim, false);
     122           0 :                 outWgt_p = CountedPtr<ImageInterface<Float> >(&outwgt, false);
     123           0 :                 imageWeightType_p=imageWeightType;
     124           0 :                 weightType_p=weightType;
     125           0 :         }
     126           0 :         void LinearMosaic::setOutImages(const String& outim, const String& outwgt, const Int imageWeightType, const Int weightType){
     127           0 :                         outImage_p=new PagedImage<Float>(outim);
     128           0 :                         outWgt_p = new PagedImage<Float>(outwgt);
     129           0 :                         imageWeightType_p=imageWeightType;
     130           0 :                         weightType_p=weightType;
     131           0 :         }
     132           0 :         Bool LinearMosaic::addOnToImage(ImageInterface<Float>& outim, ImageInterface<Float>& outwgt, const ImageInterface<Float>& inIm,
     133             :                           const ImageInterface<Float>& inWgt, Bool unWeightOutIm){
     134             : 
     135           0 :                 if(inIm.shape() != inWgt.shape())
     136           0 :                   ThrowCc("Image "+ inIm.name() + " and Weight image "+inWgt.name() +". have to be similar...please regrid appropriately");
     137           0 :                 Double meminMB=Double(HostInfo::memoryTotal(true))/1024.0;
     138             : 
     139             :                 //if(!outImIsWeighted){
     140             :                 {
     141             :                   // cerr << "limosType " << linmosType_p << " imageWeightType " << imageWeightType_p << " weightType " << weightType_p << endl;
     142           0 :                         if(linmosType_p==2){
     143           0 :                           if(weightType_p==1)
     144           0 :                             outwgt.copyData((LatticeExpr<Float>)(outwgt*outwgt));
     145           0 :                           weightType_p=2;
     146           0 :                           if(imageWeightType_p==1)
     147           0 :                             outim.copyData((LatticeExpr<Float>)(outim*sqrt(outwgt)));
     148           0 :                           else if( imageWeightType_p==0)
     149           0 :                             outim.copyData((LatticeExpr<Float>)(outim*outwgt));
     150           0 :                           imageWeightType_p=2;
     151             :                             
     152             :                         }
     153             :                         //cerr << " imageWeightType " << imageWeightType_p << " weightType " << weightType_p << endl;
     154           0 :                         if(linmosType_p==1){
     155           0 :                                 if(weightType_p==2)
     156           0 :                                         outwgt.copyData((LatticeExpr<Float>)(sqrt(abs(outwgt))));
     157           0 :                                 weightType_p=1;
     158           0 :                                 if(imageWeightType_p==0)
     159           0 :                                         outim.copyData((LatticeExpr<Float>)(outim*outwgt));
     160           0 :                                 else if( imageWeightType_p==2)
     161           0 :                                         outim.copyData((LatticeExpr<Float>)(iif(outwgt > (0.0),
     162           0 :                                                        (outim/outwgt), 0)));
     163           0 :                                 imageWeightType_p=1;
     164             :                                
     165             :                         }
     166             :                 }
     167             : 
     168           0 :                 CoordinateSystem incs=inIm.coordinates();
     169             : 
     170             : 
     171             : 
     172           0 :                 IPosition iblc(inIm.shape().nelements(),0);
     173           0 :                 IPosition itrc=inIm.shape();
     174             :                 //              cerr << "itrc " << itrc << endl;
     175           0 :                 itrc -=1;
     176             : 
     177             : 
     178             : 
     179             :                 //cerr << "blc " << iblc << " trc " << itrc << endl;
     180           0 :                 LCBox lbox(iblc, itrc, inIm.shape());
     181           0 :                 WCBox wbox(lbox, incs);
     182             :                 //cerr << "wbox " << wbox.toRecord("") << endl;
     183           0 :                 ImageRegion imagreg(wbox );
     184           0 :                 SubImage<Float> subOutIm;
     185           0 :                 SubImage<Float> subOutWgt;
     186             :                 try{
     187             :                 
     188           0 :                   subOutIm=SubImage<Float>(outim, imagreg, true);
     189           0 :                   subOutWgt=SubImage<Float>(outwgt, imagreg, true);
     190             :                 }
     191           0 :                 catch(...){
     192             :                         //Failed to make a subimage let us use the full image
     193             :                   //cerr << "Failed to make subImage " << x.what()<< endl;
     194           0 :                         subOutIm=SubImage<Float>(outim, true);
     195           0 :                         subOutWgt=SubImage<Float>(outwgt, true);
     196             : 
     197           0 :                 }
     198           0 :                 TempImage<Float> fullImage(subOutWgt.shape(), subOutIm.coordinates(), meminMB/8.0);
     199           0 :                 TempImage<Float> fullWeight(subOutWgt.shape(), subOutIm.coordinates(), meminMB/8.0);
     200           0 :                 fullImage.set(0.0);
     201           0 :                 fullWeight.set(0.0);
     202           0 :                 ImageRegrid<Float> regridder;
     203             :                 {
     204             : 
     205           0 :                         if(linmosType_p==2){
     206           0 :                                 TempImage<Float> trueWeightIm(inWgt.shape(), inWgt.coordinates(), meminMB/8.0);
     207           0 :                                 if(inWgt.getDefaultMask() != ""){
     208           0 :                                   Imager::copyMask(trueWeightIm, inWgt,  inWgt.getDefaultMask());
     209           0 :                                   fullWeight.makeMask(inWgt.getDefaultMask(), true, true, true, true);
     210             :                                 }
     211           0 :                                 trueWeightIm.copyData((LatticeExpr<Float>)(inWgt*inWgt));
     212             :                                 
     213           0 :                                 regridder.regrid( fullWeight, Interpolate2D::LINEAR,
     214           0 :                                                 IPosition(2,0,1), trueWeightIm);
     215           0 :                                 TempImage<Float> inWeightedIm(inIm.shape(), inIm.coordinates(), meminMB/8.0);     
     216           0 :                                 if(inIm.getDefaultMask() != ""){
     217           0 :                                   Imager::copyMask(inWeightedIm, inIm,  inIm.getDefaultMask());
     218           0 :                                   fullImage.makeMask(inIm.getDefaultMask(), true, true, true, true);
     219             :                                 }
     220             :                                 
     221           0 :                                 inWeightedIm.copyData((LatticeExpr<Float>)(inIm*inWgt));
     222           0 :                                 ImageRegrid<Float> regridder;
     223           0 :                                 regridder.regrid( fullImage, Interpolate2D::LINEAR,
     224           0 :                                                 IPosition(2,0,1), inWeightedIm);
     225             : 
     226           0 :                         }
     227           0 :                         else if (linmosType_p==1){
     228           0 :                           if(inIm.getDefaultMask() != ""){
     229           0 :                                   fullImage.makeMask(inIm.getDefaultMask(), true, true, true, true);
     230             :                           }
     231           0 :                           if(inWgt.getDefaultMask() != ""){
     232           0 :                             fullWeight.makeMask(inWgt.getDefaultMask(), true, true, true, true);
     233             :                           }
     234           0 :                                 regridder.regrid( fullWeight, Interpolate2D::LINEAR,
     235           0 :                                                                                 IPosition(2,0,1), inWgt);
     236           0 :                                 regridder.regrid( fullImage, Interpolate2D::LINEAR,
     237           0 :                                                                                 IPosition(2,0,1), inIm);
     238             :                         }
     239             :                 }
     240             : 
     241           0 :                 subOutWgt.copyData((LatticeExpr<Float>)(subOutWgt+fullWeight));
     242             :                 
     243           0 :                 subOutIm.copyData((LatticeExpr<Float>)(subOutIm+fullImage));
     244             :                 //if(wMax > 0.0){
     245             :                 //      outim.copyData((LatticeExpr<Float>)(outim/wMax));
     246             :                 //      outwgt.copyData((LatticeExpr<Float>)(outwgt/wMax));
     247             :                 //}
     248           0 :                 if(unWeightOutIm){
     249             :                   //LatticeExprNode outmax0 = max( outim );
     250             :                   
     251             :                   //cerr << "Bef max of out " << outmax0.getFloat() << endl;
     252             :                   
     253           0 :                   LatticeExprNode elmax = max( outwgt );
     254             :                   
     255             :                   //Cannot trust anything below 1e-6
     256           0 :                   Float wMinLimit =  1e-6* elmax.getFloat();
     257           0 :                   outim.copyData((LatticeExpr<Float>)(iif(outwgt > (wMinLimit),
     258           0 :                                                        (outim/outwgt), 0)));
     259             :                   //LatticeExprNode outmax = max( outim );
     260             :                   
     261             :                   //cerr << "max of out " << outmax.getFloat() << endl;
     262           0 :                         imageWeightType_p=0;
     263           0 :                 }
     264             : 
     265           0 :                 return true;
     266           0 :         }
     267             : 
     268             : 
     269           0 :         void LinearMosaic::saultWeightImage(const String& outimname, const Float& fracPeakWgt){
     270           0 :                 if(outImage_p.null())
     271           0 :                         ThrowCc("Mosaic image and weight must be set");
     272           0 :                 PagedImage<Float> outdiskim(outImage_p->shape(), outImage_p->coordinates(), outimname);
     273           0 :                 LatticeExprNode elmax = max( *outWgt_p );
     274           0 :                 Float wMax =  elmax.getFloat();
     275           0 :                 wMax *=fracPeakWgt;
     276           0 :                 LatticeExpr<Float> weightMath;
     277           0 :                 if(imageWeightType_p==0){
     278           0 :                         if(weightType_p==2)
     279           0 :                                 weightMath=(LatticeExpr<Float>)(iif((*outWgt_p) > (wMax),
     280           0 :                                                                                (*outImage_p), (*outImage_p)*(*outWgt_p)));
     281           0 :                         else if(weightType_p==1)
     282           0 :                                 weightMath=(LatticeExpr<Float>)(iif((*outWgt_p) > (wMax),
     283           0 :                                                                                                                (*outImage_p), (*outImage_p)*(*outWgt_p)*(*outWgt_p)));
     284             :                 }
     285           0 :                 if(imageWeightType_p==1){
     286           0 :                         if( weightType_p==2)
     287           0 :                                 weightMath=(LatticeExpr<Float>)(iif((*outWgt_p) > (wMax),
     288           0 :                                                                                                                (*outImage_p)/sqrt(*outWgt_p), (*outImage_p)*sqrt(*outWgt_p)));
     289           0 :                         else if(weightType_p==1)
     290           0 :                                 weightMath=(LatticeExpr<Float>)(iif((*outWgt_p) > (wMax),
     291           0 :                                                                                                                                                (*outImage_p)/(*outWgt_p), (*outImage_p)*(*outWgt_p)));
     292             :                 }
     293           0 :                 if(imageWeightType_p==2){
     294           0 :                                         if( weightType_p==2)
     295           0 :                                                 weightMath=(LatticeExpr<Float>)(iif((*outWgt_p) > (wMax),
     296           0 :                                                                                                                                (*outImage_p)/(*outWgt_p), (*outImage_p)));
     297           0 :                                         else if(weightType_p==1)
     298           0 :                                                 weightMath=(LatticeExpr<Float>)(iif((*outWgt_p) > (wMax),
     299           0 :                                                                                                                                                                (*outImage_p)/((*outWgt_p)*(*outWgt_p)), (*outImage_p)));
     300             :                 }
     301             : 
     302           0 :                 outdiskim.copyData(weightMath);
     303             : 
     304             : 
     305           0 :         }
     306           0 :         void LinearMosaic::createOutImages(const CoordinateSystem& cs, const Int npol, const Int nchan ){
     307           0 :                 makeEmptyImage(outImName_p, cs, imcen_p, nx_p, ny_p, npol, nchan );
     308           0 :                 makeEmptyImage(outWgtName_p, cs, imcen_p, nx_p, ny_p, npol, nchan );
     309           0 :                 outImage_p=new PagedImage<Float>(outImName_p);
     310           0 :                 outWgt_p= new PagedImage<Float>(outWgtName_p);
     311           0 :         }
     312           0 :         void LinearMosaic::makeEmptyImage(const String imagename, const CoordinateSystem& cs, const MDirection& imcen, const Int nx, const Int ny,
     313             :                                 const Int npol, const Int nchan){
     314           0 :                 CoordinateSystem outcs=cs;
     315           0 :                 Int dirAx=outcs.findCoordinate(Coordinate::DIRECTION);
     316           0 :                 DirectionCoordinate dc=outcs.directionCoordinate(dirAx);
     317           0 :                 Vector<Double> incr=dc.increment();
     318           0 :                 String elunit=dc.worldAxisUnits()[0];
     319           0 :                 if(cellx_p.getValue() !=  0.0)
     320           0 :                         incr[0]=-cellx_p.getValue(elunit);
     321           0 :                 if(celly_p.getValue() != 0.0)
     322           0 :                         incr[1]=celly_p.getValue(elunit);
     323           0 :                 dc.setIncrement(incr);
     324           0 :                 Vector<Double> cenVec(2);
     325           0 :                 cenVec[0]=Double(nx)/2.0; cenVec[1]=Double(ny)/2.0;
     326           0 :                 dc.setReferencePixel(cenVec);
     327             :                 MDirection::Types eltype;
     328           0 :                 MDirection::getType(eltype, imcen.getRefString());
     329           0 :                 dc.setReferenceValue(imcen.getAngle().getValue(elunit));
     330           0 :                 dc.setReferenceFrame(eltype);
     331           0 :                 outcs.replaceCoordinate(dc, dirAx);
     332           0 :                 PagedImage<Float> outdiskim(IPosition(4, nx, ny, npol, nchan), outcs, imagename);
     333           0 :                 outdiskim.set(0.0);
     334           0 :         }
     335             : 
     336             : using namespace casacore;
     337             : } //end namespace casa

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