LCOV - code coverage report
Current view: top level - synthesis/MeasurementEquations - VisEquation.cc (source / functions) Hit Total Coverage
Test: casacpp_coverage.info Lines: 21 475 4.4 %
Date: 2024-10-10 19:51:30 Functions: 3 31 9.7 %

          Line data    Source code
       1             : //# VisEquation:  Vis Equation
       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: VisEquation.cc,v 19.18 2006/01/13 01:06:55 gmoellen Exp $
      27             : 
      28             : 
      29             : #include <synthesis/MeasurementEquations/VisEquation.h>
      30             : #include <synthesis/MeasurementComponents/SolveDataBuffer.h>
      31             : #include <casacore/casa/Arrays/ArrayMath.h>
      32             : #include <casacore/casa/Arrays/ArrayPartMath.h>
      33             : #include <casacore/casa/Utilities/Assert.h>
      34             : #include <casacore/casa/BasicSL/String.h>
      35             : 
      36             : #include <casacore/casa/Exceptions/Error.h>
      37             : #include <msvis/MSVis/VisBuffer.h>
      38             : //#include <casa/Quanta/MVTime.h>
      39             : #include <iostream>
      40             : 
      41             : #include <casacore/casa/OS/Timer.h>
      42             : 
      43             : #define VISEQPRTLEV 0
      44             : 
      45             : using namespace casacore;
      46             : namespace casa { //# NAMESPACE CASA - BEGIN
      47             : 
      48             : // ***************************************************************************
      49             : // ********************  Start of public member functions ********************
      50             : // ***************************************************************************
      51             : 
      52             : //----------------------------------------------------------------------
      53           2 : VisEquation::VisEquation() :
      54           2 :   vcpb_(NULL), 
      55           2 :   napp_(0),
      56           2 :   lfd_(-1),
      57           2 :   rfd_(9999),
      58           2 :   freqAveOK_(false),
      59           2 :   svc_(NULL),
      60           2 :   pivot_(VisCal::ALL),  // at the sky
      61             :   //  spwOK_(),
      62           2 :   useInternalModel_(false),
      63           2 :   nVisTotal_(0),
      64           2 :   prtlev_(VISEQPRTLEV)
      65             : {
      66           2 :   if (prtlev()>0) cout << "VE::VE()" << endl;
      67           2 : };
      68             : 
      69             : //----------------------------------------------------------------------
      70           2 : VisEquation::~VisEquation() {};
      71             : 
      72             : //---------------------------------------------------------------------- 
      73           0 : VisEquation& VisEquation::operator=(const VisEquation& other)
      74             : {
      75           0 :   if(this!=&other) {
      76           0 :     vcpb_=other.vcpb_;
      77           0 :     napp_=other.napp_;
      78           0 :     svc_=other.svc_;
      79             :   };
      80           0 :   return *this;
      81             : };
      82             : 
      83             : //----------------------------------------------------------------------
      84           0 : VisEquation::VisEquation(const VisEquation& other)
      85             : {
      86           0 :   operator=(other);
      87           0 : }
      88             : 
      89             : 
      90             : //----------------------------------------------------------------------
      91           2 : void VisEquation::setapply(PtrBlock<VisCal*>& vcin) {
      92             : 
      93           2 :   if (prtlev()>0) cout << "VE::setapply()" << endl;
      94             : 
      95             :   // Be sure internal pointer points to same PB
      96           2 :   vcpb_ = &vcin;
      97             : 
      98             :   // How many VisCals in list?
      99           2 :   napp_=vc().nelements();
     100             : 
     101             :   // only if at least one VisCal in list
     102           2 :   if (napp_>0) {
     103             : 
     104             :     // only sort if a non-trivial list
     105           0 :     if (napp_>1) {
     106             :       
     107             :       // A temporary local copy for sorting:
     108           0 :       PtrBlock<VisCal*> lvc;
     109           0 :       lvc.resize(napp_,true,true);
     110           0 :       lvc=vc();
     111             :       
     112             :       // Sorted index will go here
     113           0 :       Vector<uInt> order(napp_,0);
     114             :       
     115             :       // Fill in the sort key
     116           0 :       Vector<Int> key(napp_,0);
     117           0 :       for (Int i=0;i<napp_;i++)
     118           0 :         key(i)=Int(vc()[i]->type());
     119             :       
     120             :       // Do the sort
     121             :       {
     122           0 :         Sort sort;
     123           0 :         sort.sortKey(&key(0),TpInt);
     124           0 :         sort.sort(order,uInt(napp_));
     125           0 :       }
     126             :       
     127             :       // Assign VisCals in sorted order
     128           0 :       if (prtlev()>2) cout << "Sorted VisCals:" << endl;
     129           0 :       vc().set(NULL);
     130           0 :       for (Int i=0;i<napp_;i++) {
     131           0 :         vc()[i]=lvc[order(i)];
     132             :         
     133           0 :         if (prtlev()>2) cout << vc()[i]->typeName() << " (" << vc()[i]->type() << ")" << endl;
     134           0 :         vc()[i]->initCalFlagCount();
     135             :       }
     136             :       
     137           0 :     }
     138             :   }
     139             : 
     140             :   // Set up freq-dependence of the Vis Equation
     141             :   //  (for currently specified solve/apply types)
     142             :   //  TBD: only needed in setsolve?
     143             :   //  setFreqDep();
     144             : 
     145             :   // Initialize visibility counter
     146           2 :   nVisTotal_=0;
     147             : 
     148           2 : }
     149             : 
     150             : //----------------------------------------------------------------------
     151           0 : void VisEquation::setsolve(SolvableVisCal& svc) {
     152             : 
     153           0 :   if (prtlev()>0) cout << "VE::setsolve()" << endl;
     154             :   
     155             :   // VE's own pointer to solvable component
     156           0 :   svc_=&svc;
     157             :   
     158             :   // Set up freq-dependence of the Vis Equation
     159             :   //  (for currently specified solve/apply components)
     160           0 :   setFreqDep();
     161             : 
     162           0 : }
     163             : 
     164             : 
     165             : //----------------------------------------------------------------------
     166           0 : void VisEquation::setPivot(VisCal::Type pivot) {
     167             : 
     168           0 :   if (prtlev()>0) cout << "VE::setPivot()" << endl;
     169             :   
     170           0 :   pivot_ = pivot;
     171             : 
     172           0 : }
     173             :   
     174             : 
     175             : //----------------------------------------------------------------------
     176           0 : void VisEquation::setModel(const Vector<Float>& stokes) {
     177             : 
     178           0 :   if (prtlev()>0) cout << "VE::setModel()" << endl;
     179             : 
     180             :   // Set the internal point source model
     181           0 :   useInternalModel_=true;
     182           0 :   stokesModel_.resize(4);
     183           0 :   stokesModel_.set(0.0);
     184           0 :   stokesModel_(Slice(0,stokes.nelements(),1))=stokes;
     185             : 
     186           0 : }
     187             : 
     188             : //----------------------------------------------------------------------
     189             : // List the terms
     190           0 : Vector<VisCal::Type> VisEquation::listTypes() const {
     191             : 
     192           0 :   Vector<VisCal::Type> typelist(nTerms());
     193           0 :   for (Int i=0;i<napp_;++i)
     194           0 :     typelist(i)=(*vcpb_)[i]->type();
     195             : 
     196           0 :   return typelist;
     197             : 
     198           0 : }
     199             : 
     200             : 
     201             : //----------------------------------------------------------------------
     202             : // Get spwOK for a single spw by aggregating from the vc's
     203           0 : Bool VisEquation::spwOK(const Int& spw) {
     204           0 :   if (napp_<1) return true;  // if there are none, all is ok
     205             :   // otherwise, accumulate from the VisCals
     206           0 :   Bool spwok=vc()[0]->spwOK(spw);
     207           0 :   for (Int i=1;i<napp_;++i) 
     208           0 :     spwok = spwok && vc()[i]->spwOK(spw);
     209           0 :   return spwok;
     210             : }
     211             : 
     212             : 
     213             : //----------------------------------------------------------------------
     214             : // Report if calibration is collectively calibrateable by all VCs 
     215             : //   (including possible agnosticism by somein CalLibrary context; 
     216             : //    see SolvableVisCal::VBOKforCalApply)
     217           0 : Bool VisEquation::VBOKforCalApply(vi::VisBuffer2& vb) {
     218             : 
     219           0 :   Bool okForCal(True); // nominal
     220           0 :   for (Int i=0;i<napp_;++i) 
     221           0 :     okForCal = okForCal && vc()[i]->VBOKforCalApply(vb);
     222             :     
     223           0 :   return okForCal;
     224             : 
     225             : }
     226             : 
     227             : 
     228             : 
     229             : //----------------------------------------------------------------------
     230             : // Correct in place the OBSERVED visibilities in a VisBuffer
     231           0 : void VisEquation::correct(VisBuffer& vb, Bool trial) {
     232             : 
     233           0 :   if (prtlev()>0) cout << "VE::correct()" << endl;
     234             : 
     235           0 :   AlwaysAssert(ok(),AipsError);
     236             : 
     237           0 :   if (napp_==0) throw(AipsError("Nothing to Apply"));
     238             : 
     239             :   // Ensure correlations in canonical order
     240             :   // (this is a no-op if no sort necessary)
     241           0 :   vb.sortCorr();
     242             : 
     243             :   // Accumulate visibility count
     244           0 :   nVisTotal_+=(vb.nCorr()*vb.nChannel()*vb.nRow());
     245             : 
     246             :   // Apply each VisCal in left-to-right order 
     247           0 :   for (Int iapp=0;iapp<napp_;iapp++)
     248           0 :     vc()[iapp]->correct(vb,trial);
     249             : 
     250             :   // Ensure correlations restored to original order
     251             :   // (this is a no-op if no sort necessary)
     252           0 :   vb.unSortCorr();
     253             :   
     254           0 : }
     255             : //----------------------------------------------------------------------
     256             : // Correct in place the OBSERVED visibilities in a VisBuffer
     257           0 : void VisEquation::correct2(vi::VisBuffer2& vb, Bool trial, Bool doWtSp) {
     258             : 
     259           0 :   if (prtlev()>0) cout << "VE::correct2()" << endl;
     260             : 
     261           0 :   AlwaysAssert(ok(),AipsError);
     262             : 
     263           0 :   if (napp_==0) throw(AipsError("Nothing to Apply"));
     264             : 
     265             :   // Accumulate visibility count
     266           0 :   nVisTotal_+=(vb.nCorrelations()*vb.nChannels()*vb.nRows());
     267             : 
     268             :   // Apply each VisCal in left-to-right order 
     269           0 :   for (Int iapp=0;iapp<napp_;iapp++)
     270           0 :     vc()[iapp]->correct2(vb,trial,doWtSp);
     271             : 
     272           0 : }
     273             : 
     274             : //----------------------------------------------------------------------
     275             : // Report action record info (derived from consituent VisCals
     276           0 : Record VisEquation::actionRec() {
     277           0 :   Record cf;
     278             :   // Add in each VisCal's record
     279           0 :   for (Int iapp=0;iapp<napp_;iapp++)
     280           0 :     cf.defineRecord(iapp,vc()[iapp]->actionRec());
     281             : 
     282             :   // The TOTAL number of visibilities that passed through the VisEquationp
     283           0 :   cf.define("nVisTotal",nVisTotal_);
     284             : 
     285           0 :   return cf;
     286           0 : }
     287             : 
     288             : //----------------------------------------------------------------------
     289             : // Corrupt in place the MODEL visibilities in a VisBuffer
     290           0 : void VisEquation::corrupt(VisBuffer& vb) {
     291             : 
     292           0 :   if (prtlev()>0) cout << "VE::corrupt()" << endl;
     293             : 
     294           0 :   AlwaysAssert(ok(),AipsError);
     295             : 
     296           0 :   if (napp_==0) throw(AipsError("Nothing to Apply"));
     297             : 
     298             :   // Ensure correlations in canonical order
     299             :   // (this is a no-op if no sort necessary)
     300           0 :   vb.sortCorr();
     301             : 
     302             :   // Apply each VisCal in right-to-left order
     303           0 :   for (Int iapp=(napp_-1);iapp>-1;iapp--)
     304           0 :     vc()[iapp]->corrupt(vb);
     305             : 
     306             :   // Ensure correlations restored to original order
     307             :   // (this is a no-op if no sort necessary)
     308           0 :   vb.unSortCorr();
     309             : 
     310           0 : }
     311             : 
     312             : //----------------------------------------------------------------------
     313             : // Corrupt in place the MODEL visibilities in a VisBuffer
     314           0 : void VisEquation::corrupt2(vi::VisBuffer2& vb) {
     315             : 
     316           0 :   if (prtlev()>0) cout << "VE::corrupt2(VB2)" << endl;
     317             : 
     318           0 :   AlwaysAssert(ok(),AipsError);
     319             : 
     320           0 :   if (napp_==0) throw(AipsError("Nothing to Apply"));
     321             : 
     322             :   // Apply each VisCal in right-to-left order
     323           0 :   for (Int iapp=(napp_-1);iapp>-1;iapp--)
     324           0 :     vc()[iapp]->corrupt2(vb);
     325             : 
     326           0 : }
     327             : 
     328             : //----------------------------------------------------------------------
     329           0 : void VisEquation::collapse(VisBuffer& vb) {
     330             : 
     331           0 :   if (prtlev()>0) cout << "VE::collapse()" << endl;
     332             : 
     333             :   // Handle origin of model data here:
     334           0 :   if (useInternalModel_)
     335           0 :     vb.setModelVisCube(stokesModel_);
     336             :   else
     337           0 :     vb.modelVisCube();
     338             : 
     339             :   // Ensure required columns are present!
     340           0 :   vb.visCube();
     341           0 :   vb.weightMat();
     342             :   
     343             :   // Re-calculate weights from sigma column
     344             :   // TBD: somehow avoid if not necessary?
     345           0 :   vb.resetWeightMat();
     346             : 
     347             :   // Ensure correlations in canonical order
     348             :   // (this is a no-op if no sort necessary)
     349             :   // TBD: optimize in combo with model origination?
     350           0 :   vb.sortCorr();
     351             : 
     352             :   // If we are solving for the polarization:
     353             :   //  1. Normalize data and model by I model
     354             :   //  2. Set cross-hands to (1,0) so P factors multiplying them
     355             :   //     are propogated, and we can solve for pol factors
     356           0 :   if (svc().solvePol())
     357           0 :     svc().setUpForPolSolve(vb);
     358             : 
     359             :   // TBD: When warranted, do freqAve before setUpForPolSolve?
     360             :   
     361             :   // initialize LHS/RHS indices
     362           0 :   Int lidx=0;
     363           0 :   Int ridx=napp_-1;
     364             : 
     365             :   // If solve NOT freqDep, and data is, we want
     366             :   //  to freqAve as soon as possible before solve;
     367             :   //   apply any freqDep cal first
     368           0 :   if ( freqAveOK_ && !svc().freqDepMat() && vb.nChannel()>1 ) {
     369             :     
     370             :     // Correct OBSERVED data up to last freqDep term on LHS
     371             :     //  (type(lfd_) guaranteed < type(svc))
     372           0 :     while (lidx<napp_ && lidx <= lfd_) {
     373           0 :       vc()[lidx]->correct(vb);
     374           0 :       lidx++;
     375             :     }
     376             :     
     377             :     // Corrupt MODEL  data down to last freqDep term on RHS
     378             :     //  (type(rfd_) guaranteed >= type(svc))
     379           0 :     while (ridx>-1 && ridx >= rfd_) {
     380           0 :       vc()[ridx]->corrupt(vb);
     381           0 :       ridx--;
     382             :     }
     383             :     
     384             :     // All freq-dep cal has been applied, now freqAve
     385           0 :     vb.freqAveCubes();  // BOTH sides (if present)!
     386             :     
     387             :   }
     388             :   
     389             :   // Correct DATA up to solved-for term
     390           0 :   while (lidx<napp_ && vc()[lidx]->type() < svc().type()) {
     391           0 :     vc()[lidx]->correct(vb);
     392           0 :     lidx++;
     393             :   }
     394             :   
     395             :   // Corrupt MODEL down to solved-for term (incl. same type as solved-for term)
     396           0 :   while (ridx>-1    && vc()[ridx]->type() >= svc().type()) {
     397           0 :     vc()[ridx]->corrupt(vb);
     398           0 :     ridx--;
     399             :   }
     400             :   
     401           0 : }
     402             : 
     403             : //----------------------------------------------------------------------
     404           0 : void VisEquation::diffModelStokes(vi::VisBuffer2& vb, std::map<String,Cube<Complex> > dMdS) {
     405             : 
     406           0 :   Int nCorr(vb.nCorrelations());
     407           0 :   if (nCorr<4)
     408           0 :     throw(AipsError("Cannot differentiate w.r.t. Model Stokes unless data has four correlations"));
     409             : 
     410           0 :   Int nChan(vb.nChannels());
     411           0 :   Int nRow(vb.nRows());
     412             : 
     413             :   // Incoming map should be empty
     414           0 :   dMdS.clear();
     415             : 
     416             :   // Basis-dependent indexing
     417           0 :   Slice Isl(0,2,3);  // not basis-specific
     418           0 :   Slice Qsl0,Qsl1,Usl0,Usl1,Vsl0,Vsl1;
     419           0 :   Bool doCirc(true);
     420           0 :   if (vb.correlationTypes()(0)==5) {
     421             :     // Circular
     422           0 :     doCirc=true;  
     423           0 :     Qsl0=Slice(1);  // cross-hand
     424           0 :     Qsl1=Slice(2);
     425           0 :     Usl0=Slice(1);  // cross-hand
     426           0 :     Usl1=Slice(2);
     427           0 :     Vsl0=Slice(0);  // parallel-hand
     428           0 :     Vsl1=Slice(3);
     429             :   }
     430           0 :   else if (vb.correlationTypes()(0)==9) {
     431             :     // Linear
     432           0 :     doCirc=false;  
     433           0 :     Qsl0=Slice(0);  // parallel-hand
     434           0 :     Qsl1=Slice(3);
     435           0 :     Usl0=Slice(1);  // cross-hand
     436           0 :     Usl1=Slice(2);
     437           0 :     Vsl0=Slice(1);  // cross-hand
     438           0 :     Vsl1=Slice(2);
     439             :   }
     440             :   else
     441           0 :     throw(AipsError("Cannot differentiate w.r.t. Model Stokes for unrecognized polarization basis"));
     442             : 
     443           0 :   Complex cOne(1,0), cIm(0,1);
     444             : 
     445           0 :   String I("I");
     446           0 :   dMdS[I]=Cube<Complex>(nCorr,nChan,nRow,0.0);
     447           0 :   Cube<Complex>& dMdI(dMdS[I]);
     448           0 :   dMdI(Isl,Slice(),Slice()).set(cOne);  // not basis-specific
     449             : 
     450           0 :   String Q("Q");
     451           0 :   dMdS[Q]=Cube<Complex>(nCorr,nChan,nRow,0.0);
     452           0 :   Cube<Complex>& dMdQ(dMdS[Q]);
     453           0 :   dMdQ(Qsl0,Slice(),Slice()).set(cOne);
     454           0 :   dMdQ(Qsl1,Slice(),Slice()).set( (doCirc ? cOne : -cOne) );
     455             : 
     456           0 :   String U("U");
     457           0 :   dMdS[U]=Cube<Complex>(nCorr,nChan,nRow,0.0);
     458           0 :   Cube<Complex>& dMdU(dMdS[U]);
     459           0 :   dMdU(Usl0,Slice(),Slice()).set( (doCirc ? cIm : cOne) );
     460           0 :   dMdU(Usl1,Slice(),Slice()).set( (doCirc ? -cIm : cOne) );
     461             : 
     462           0 :   String V("V");
     463           0 :   dMdS[V]=Cube<Complex>(nCorr,nChan,nRow,0.0);
     464           0 :   Cube<Complex>& dMdV(dMdS[V]);
     465           0 :   dMdV(Vsl0,Slice(),Slice()).set( (doCirc ? cOne : cIm) );
     466           0 :   dMdV(Vsl1,Slice(),Slice()).set( (doCirc ? -cOne : -cIm) );
     467             : 
     468           0 :   Int ridx=napp_-1;
     469             :  
     470             :   // Corrupt MODEL down to solved-for term (incl. same type as solved-for term)
     471           0 :   while (ridx>-1    && vc()[ridx]->type() >= svc().type()) {
     472           0 :     vc()[ridx]->corrupt2(vb,dMdI);
     473           0 :     vc()[ridx]->corrupt2(vb,dMdQ);
     474           0 :     vc()[ridx]->corrupt2(vb,dMdU);
     475           0 :     vc()[ridx]->corrupt2(vb,dMdV);
     476           0 :     ridx--;
     477             :   }
     478             : 
     479           0 : }
     480             : 
     481             : 
     482             : 
     483             : 
     484             : 
     485             : //----------------------------------------------------------------------
     486           0 : void VisEquation::collapse2(vi::VisBuffer2& vb) {
     487             : 
     488           0 :   if (prtlev()>0) cout << "VE::collapse2(VB2)" << endl;
     489             : 
     490             :   // Trap case of unavailable calibration in any vc we intend to apply below
     491             :   //   In the solve context, if we can't pre-cal, we flag it
     492             :   //    NB: this assumes only one spw in the VB2!
     493             :   //if (!this->spwOK(vb.spectralWindows()(0))) {
     494             :   // Use new VBOKforCalApply, which is f(obs,fld,intent,spw) (not just f(spw))
     495           0 :   if (!this->VBOKforCalApply(vb)) {
     496             : 
     497             :     //cout << "UNCALIBRATEABLE VB2 in VE::collapse2" << endl;
     498             : 
     499           0 :     Cube<Bool> fl(vb.flagCube());          fl.set(true);
     500           0 :     Cube<Float> wtsp(vb.weightSpectrum()); wtsp.set(0.0f);
     501           0 :     Matrix<Float> wt(vb.weight());         wt.set(0.0f);
     502           0 :     return;
     503           0 :   }    
     504             : 
     505             :   // Handle origin of model data here:
     506           0 :   if (useInternalModel_)
     507             :     // Use specified (point-source) stokes model
     508           0 :     vb.setVisCubeModel(stokesModel_);
     509             :   else
     510             :     // from MS
     511           0 :     vb.visCubeModel();
     512             : 
     513             :   // If we are solving for the polarization:
     514             :   //  1. Normalize data and model by I model
     515             :   //  2. Set cross-hands to (1,0) so P factors multiplying them
     516             :   //     are propogated, and we can solve for pol factors
     517           0 :   if (svc().solvePol())
     518           0 :     svc().setUpForPolSolve(vb);
     519             : 
     520             :   // initialize LHS/RHS indices
     521           0 :   Int lidx=0;
     522           0 :   Int ridx=napp_-1;
     523             : 
     524             :   // Correct DATA up to solved-for term
     525           0 :   while (lidx<napp_ && vc()[lidx]->type() < svc().type()) {
     526           0 :     vc()[lidx]->correct2(vb,False,True);
     527           0 :     lidx++;
     528             :   }
     529             :   
     530             :   // Corrupt MODEL down to solved-for term (incl. same type as solved-for term)
     531           0 :   while (ridx>-1    && vc()[ridx]->type() >= svc().type()) {
     532           0 :     vc()[ridx]->corrupt2(vb);
     533           0 :     ridx--;
     534             :   }
     535             : 
     536           0 :   if (svc().normalizable())
     537           0 :     divideCorrByModel(vb);
     538             :   
     539             : 
     540             :   // Make fractional visibilities, if appropriate 
     541             :   // (e.g., for some polarization calibration solves on point-like calibrators)
     542           0 :   if (svc().divideByStokesIModelForSolve())
     543           0 :     divideByStokesIModel(vb);
     544             : 
     545             : 
     546             : }
     547             : 
     548           0 : void VisEquation::divideCorrByModel(vi::VisBuffer2& vb) {
     549             : 
     550             :   // This divides corrected data by model 
     551             :   //  ... and updates weightspec accordingly
     552             : 
     553           0 :   Cube<Complex> c(vb.visCubeCorrected());
     554           0 :   Cube<Complex> m(vb.visCubeModel());
     555           0 :   Cube<Bool> fl(vb.flagCube());
     556           0 :   Cube<Float> w(vb.weightSpectrum());
     557             : 
     558           0 :   Complex cOne(1.0);
     559             : 
     560           0 :   for (rownr_t irow=0;irow<vb.nRows();++irow) {
     561           0 :     if (vb.flagRow()(irow)) {
     562             :       // Row flagged, make sure cube also flagged, weight/data zeroed
     563           0 :       c(Slice(),Slice(),Slice(irow,1,1))=0.0f;
     564           0 :       w(Slice(),Slice(),Slice(irow,1,1))=0.0f;
     565           0 :       fl(Slice(),Slice(),Slice(irow,1,1))=True;
     566             :     }
     567             :     else {
     568           0 :       Bool *flp=&fl(0,0,irow);
     569           0 :       Float *wtp=&w(0,0,irow);
     570           0 :       Complex *cvp=&c(0,0,irow);
     571           0 :       Complex *mvp=&m(0,0,irow);
     572             : 
     573           0 :       for (Int ichan=0;ichan<vb.nChannels();++ichan) {
     574           0 :         for (Int icorr=0;icorr<vb.nCorrelations();++icorr) {
     575           0 :           Bool& Fl(*flp);
     576           0 :           Float& W(*wtp);
     577             :           //Bool& Fl(fl(icorr,ichan,irow));
     578             :           //Float& W(w(icorr,ichan,irow));
     579           0 :           if (!Fl) {
     580             :             // Not flagged...
     581           0 :             Float A=abs(*mvp);
     582             :             //Float A=abs(m(icorr,ichan,irow));
     583           0 :             if (A >0.0f) {
     584             :               // ...and model non-zero
     585           0 :               Complex& C(*cvp);
     586           0 :               Complex& M(*mvp);
     587             :               //Complex& C(c(icorr,ichan,irow));
     588             :               //Complex& M(m(icorr,ichan,irow));
     589             : 
     590             :               // divide corr data by model
     591             :               // NB: Use of DComplex here increased cost of this calculation by ~33%
     592           0 :               C=Complex(DComplex(C)/DComplex(M));  
     593             :               //C=C/M;  
     594             : 
     595           0 :               W*=square(A);                        // multiply weight by model**2
     596           0 :               M=cOne;                              // divide model by itself
     597             : 
     598             :             }
     599             :           }
     600             :           else {
     601             :             // be sure it is flagged and weightless
     602           0 :             Fl=True;
     603           0 :             W=0.0f;
     604             :           }
     605           0 :           ++cvp;
     606           0 :           ++mvp;
     607           0 :           ++flp;
     608           0 :           ++wtp;
     609             :         } // icorr
     610             :       } // ichan  
     611             :     } // !flagRow
     612             :   } // irow
     613             :   
     614             :   // Set unchan'd weight, in case someone wants it
     615             :   // NB: Use of median increases cost by ~100%
     616             :   // NB: use of mean increases cost by ~50%
     617             :   //  ...but both are inaccurate if some channels flagged,
     618             :   //  and it should not be necessary to do this here
     619           0 :   vb.setWeight(partialMedians(vb.weightSpectrum(),IPosition(1,1),True));
     620             :   //vb.setWeight(partialMeans(vb.weightSpectrum(),IPosition(1,1)));
     621             : 
     622           0 : }
     623             : 
     624           0 : void VisEquation::divideByStokesIModel(vi::VisBuffer2& vb) {
     625             : 
     626           0 :   Int nCorr(vb.nCorrelations());
     627             : 
     628             :   // This divides corrected data and model by the Stokes I model 
     629             :   //  ... and updates weightspec accordingly
     630             : 
     631           0 :   Cube<Complex> c(vb.visCubeCorrected());
     632           0 :   Cube<Complex> m(vb.visCubeModel());
     633           0 :   Cube<Bool> fl(vb.flagCube());
     634           0 :   Cube<Float> w(vb.weightSpectrum());
     635             : 
     636             :   //Complex cOne(1.0);
     637             : 
     638           0 :   for (rownr_t irow=0;irow<vb.nRows();++irow) {
     639           0 :     if (vb.flagRow()(irow)) {
     640             :       // Row flagged, make sure cube also flagged, weight/data zeroed
     641           0 :       c(Slice(),Slice(),Slice(irow,1,1))=0.0f;
     642           0 :       w(Slice(),Slice(),Slice(irow,1,1))=0.0f;
     643           0 :       fl(Slice(),Slice(),Slice(irow,1,1))=True;
     644             :     }
     645             :     else {
     646             :       // Bool *flp=&fl(0,0,irow);
     647           0 :       Float *wtp=&w(0,0,irow);
     648           0 :       Complex *cvp=&c(0,0,irow);
     649           0 :       Complex *mvp=&m(0,0,irow);
     650             : 
     651           0 :       for (Int ichan=0;ichan<vb.nChannels();++ichan) {
     652           0 :         Complex Imod(0.0);
     653           0 :         Float Iamp2(1.0);
     654           0 :         if (!fl(0,ichan,irow) && !fl(nCorr-1,ichan,irow)) {
     655           0 :           Imod=(m(0,ichan,irow) + m(nCorr-1,ichan,irow))/2.0f;
     656           0 :           Iamp2=real(Imod*conj(Imod));  // squared model amp (for weight adjust)
     657           0 :           if (Iamp2>0.0f) {
     658           0 :             for (Int icorr=0;icorr<nCorr;++icorr) {
     659           0 :               Float& W(*wtp);
     660           0 :               Complex& C(*cvp);
     661           0 :               Complex& M(*mvp);
     662           0 :               C/=Imod;
     663           0 :               M/=Imod;
     664           0 :               W*=Iamp2;
     665           0 :               ++cvp;
     666           0 :               ++mvp;
     667           0 :               ++wtp;
     668             :             } // icorr
     669             :           } // non-zero Imod
     670             :         } // parallel hands not flagged
     671             :       } // ichan  
     672             :     } // !flagRow
     673             :   } // irow
     674             :   
     675             :   // Set unchan'd weight, in case someone wants it
     676             :   // NB: Use of median increases cost by ~100%
     677             :   // NB: use of mean increases cost by ~50%
     678             :   //  ...but both are inaccurate if some channels flagged,
     679             :   //  and it should not be necessary to do this here
     680           0 :   vb.setWeight(partialMedians(vb.weightSpectrum(),IPosition(1,1),True));
     681             :   //vb.setWeight(partialMeans(vb.weightSpectrum(),IPosition(1,1)));
     682             : 
     683           0 : }
     684             : 
     685             : 
     686             : 
     687             : 
     688             : //----------------------------------------------------------------------
     689             : // void VisEquation::collapseForSim(VisBuffer& vb) {
     690           0 : void VisEquation::collapseForSim(VisBuffer& vb) {
     691             : 
     692           0 :   if (prtlev()>0) cout << "VE::collapseforSim()" << endl;
     693             : 
     694             :   // Handle origin of model data here (?):
     695             : 
     696             :   // Ensure correlations in canonical order
     697             :   // (this is a no-op if no sort necessary)
     698             :   // TBD: optimize in combo with model origination?
     699           0 :   vb.sortCorr();
     700             : 
     701             :   // initialize LHS/RHS indices
     702           0 :   Int lidx=0;
     703           0 :   Int ridx=napp_-1;
     704             : 
     705             : #ifdef RI_DEBUG
     706             :   cout << "vb.visCube    original: " << vb.visCube()(0,0,500) <<  vb.visCube()(0,0,1216) <<  vb.visCube()(0,0,1224) << endl;
     707             :   cout << "vb.model      original: " << vb.modelVisCube()(0,0,500) <<  vb.modelVisCube()(0,0,1216) <<  vb.modelVisCube()(0,0,1224) << endl;
     708             : #endif
     709             : 
     710             :   // copy data to model, to be corrupted in place there.
     711             :   // 20091030 RI changed skyequation to use Observed.  the below 
     712             :   // should not require scratch columns 
     713           0 :   vb.setModelVisCube(vb.visCube());
     714             : 
     715             :   // zero the data. correct will operate in place on data, so 
     716             :   // if we don't have an AMueller we don't get anything from this.  
     717           0 :   vb.setVisCube(0.0);
     718             :    
     719             : #ifdef RI_DEBUG
     720             :   cout << "vb.visCube before crct: " << vb.visCube()(0,0,500) <<  vb.visCube()(0,0,1216) <<  vb.visCube()(0,0,1224) << endl;
     721             : #endif
     722             : 
     723             :   // Correct DATA up to pivot 
     724           0 :   while (lidx<napp_ && vc()[lidx]->type() < pivot_) {
     725           0 :     if (prtlev()>2) cout << vc()[lidx]->typeName();
     726           0 :     if (vc()[ridx]->extraTag()!="NoiseScale" or vc()[lidx]->type()!=VisCal::T) {
     727           0 :       vc()[lidx]->correct(vb);
     728           0 :       if (prtlev()>2) cout << " -> correct";
     729             :     }
     730           0 :     if (prtlev()>2) cout << endl;
     731           0 :     lidx++;
     732             :   }
     733             : 
     734             : #ifdef RI_DEBUG
     735             :   cout << "vb.visCube  after crct: " << vb.visCube()(0,0,500) <<  vb.visCube()(0,0,1216) <<  vb.visCube()(0,0,1224) << endl;
     736             :   cout << "vb.model   before crpt: " << vb.modelVisCube()(0,0,500) <<  vb.modelVisCube()(0,0,1216) <<  vb.modelVisCube()(0,0,1224) << endl;
     737             : #endif
     738             : 
     739             :   // Corrupt Model down to (and including) the pivot
     740           0 :   while (ridx>-1    && vc()[ridx]->type() >= pivot_) {
     741           0 :     if (prtlev()>2) cout << vc()[lidx]->typeName();
     742             :     // manually pick off a T intended to be noise scaling T:
     743           0 :     if (pivot_ <= VisCal::T and vc()[ridx]->type()==VisCal::T) {
     744           0 :       if (vc()[ridx]->extraTag()=="NoiseScale") {
     745           0 :         vc()[ridx]->correct(vb);  // correct DATA
     746           0 :         if (prtlev()>2) cout << " -> correct";
     747             :       } else {
     748           0 :         vc()[ridx]->corrupt(vb);
     749           0 :         if (prtlev()>2) cout << " -> corrupt";
     750             :       }
     751             :     } else { 
     752           0 :       vc()[ridx]->corrupt(vb);
     753           0 :       if (prtlev()>2) cout << " -> corrupt";
     754             :     }
     755           0 :     if (prtlev()>2) cout << endl;
     756           0 :     ridx--;
     757             :   }
     758             :   
     759             : #ifdef RI_DEBUG
     760             :   cout << "vb.model    after crpt: " << vb.modelVisCube()(0,0,500) <<  vb.modelVisCube()(0,0,1216) <<  vb.modelVisCube()(0,0,1224) << endl;
     761             :   cout << "vb.visCube  after crpt: " << vb.visCube()(0,0,500) <<  vb.visCube()(0,0,1216) <<  vb.visCube()(0,0,1224) << endl << endl;
     762             : #endif
     763             : 
     764             :   // add corrected/scaled data (e.g. noise) to corrupted model
     765             :   // vb.modelVisCube()+=vb.visCube();
     766             : 
     767             :   // add corrupted Model to corrected/scaled data (i.e.. noise)
     768           0 :   vb.visCube()+=vb.modelVisCube();
     769             : 
     770             :   // Put correlations back in original order
     771             :   //  (~no-op if already canonical)
     772           0 :   vb.unSortCorr();
     773             : 
     774           0 : }
     775             : 
     776           0 : void VisEquation::state() {
     777             : 
     778           0 :   if (prtlev()>0) cout << "VE::state()" << endl;
     779             : 
     780           0 :   cout << boolalpha;
     781             : 
     782             :   // Order in which DATA is corrected
     783           0 :   cout << "Correct order:" << endl;
     784           0 :   if (napp_>0) {
     785           0 :     for (Int iapp=0;iapp<napp_;iapp++)
     786           0 :       cout << "  " << iapp << " " 
     787           0 :            << vc()[iapp]->typeName() << " (" 
     788           0 :            << vc()[iapp]->type() << ")" << endl;
     789             :   }
     790             :   else
     791           0 :     cout << " <none>" << endl;
     792             :   
     793           0 :   cout << endl;
     794             :   
     795           0 :   cout << "Corrupt order:" << endl;
     796           0 :   if (napp_>0) {
     797           0 :     for (Int iapp=(napp_-1);iapp>-1;iapp--)
     798           0 :       cout << "  " << iapp << " " 
     799           0 :            << vc()[iapp]->typeName() << " (" 
     800           0 :            << vc()[iapp]->type() << ")" << endl;
     801             :   }
     802             :   else
     803           0 :     cout << " <none>" << endl;
     804             :   
     805           0 :   cout << endl;
     806             : 
     807           0 :   cout << "Source model:" << endl;
     808           0 :   cout << "  useInternalModel_ = " << useInternalModel_ << endl;
     809           0 :   if (useInternalModel_)
     810           0 :     cout << "  Stokes = " << stokesModel_ << endl;
     811             :   else
     812           0 :     cout << "  <using MODEL_DATA column>" << endl;
     813           0 :   cout << endl;
     814             : 
     815           0 :   cout << "Collapse order:" << endl;
     816           0 :   cout << "  freqAveOK_ = " << freqAveOK_ << endl;
     817             :   
     818           0 :   if (svc_) {
     819           0 :     Int lidx=0;
     820           0 :     Int ridx=napp_-1;
     821             : 
     822           0 :     if ( freqAveOK_ && !svc().freqDepMat() ) {
     823             :       // Correct DATA up to last freqDep term on LHS
     824           0 :       cout << " LHS (pre-freqAve):" << endl;
     825           0 :       if (lidx <= lfd_) 
     826           0 :         while (lidx <= lfd_) {  // up to and including the lfd_th term
     827           0 :           cout << "  " << lidx << " " 
     828           0 :                << vc()[lidx]->typeName() << " (" 
     829           0 :                << vc()[lidx]->type() << ")" 
     830           0 :                << " (freqDep correct)"
     831           0 :                << endl;
     832           0 :           lidx++;
     833             :         }
     834             :       else
     835           0 :         cout << "  <none>" << endl;
     836             :       
     837             :       // Corrupt MODEL down to last freqDep term on RHS
     838           0 :       cout << " RHS (pre-freqAve):" << endl;
     839           0 :       if (ridx >= rfd_) 
     840           0 :         while (ridx >= rfd_) {  // down to and including the rfd_th term
     841           0 :           cout << "  " << (ridx) << " " 
     842           0 :                << vc()[ridx]->typeName() << " (" 
     843           0 :                << vc()[ridx]->type() << ")" 
     844           0 :                << " (freqDep corrupt)"
     845           0 :                << endl;
     846           0 :           ridx--;
     847             :         }
     848             :       else
     849           0 :         cout << "  <none>" << endl;
     850             :       
     851           0 :       cout << " Frequency average both sides" << endl;
     852             :     }
     853             :     
     854           0 :     cout << " LHS:" << endl;
     855           0 :     if (lidx<napp_ && vc()[lidx]->type() < svc().type()) 
     856           0 :       while (lidx<napp_ && vc()[lidx]->type() < svc().type()) {
     857           0 :         cout << "  " << (lidx) << " " 
     858           0 :              << vc()[lidx]->typeName() << " (" 
     859           0 :              << vc()[lidx]->type() << ")" 
     860           0 :              << endl;
     861           0 :         lidx++;
     862             :       }
     863             :     else
     864           0 :       cout << "  <none>" << endl;
     865             :     
     866           0 :     cout << " RHS:" << endl;
     867           0 :     if (ridx>-1 && vc()[ridx]->type() >= svc().type())
     868           0 :       while (ridx>-1 && vc()[ridx]->type() >= svc().type()) {
     869           0 :         cout << "  " << (ridx) << " " 
     870           0 :              << vc()[ridx]->typeName() << " (" 
     871           0 :              << vc()[ridx]->type() << ")" 
     872           0 :              << endl;
     873           0 :         ridx--;
     874             :       }
     875             :     else
     876           0 :       cout << "  <none>" << endl;
     877             : 
     878             :     
     879           0 :     cout << "Ready to solve for " << svc().typeName() << " (" << svc().type() << ")" << endl;
     880             : 
     881             :   }
     882             :   else
     883           0 :     cout << " <Nothing to solve for>" << endl;
     884             : 
     885           0 : }
     886             : 
     887             : 
     888             : 
     889             : //----------------------------------------------------------------------
     890             : // Determine residuals of VisBuffer data w.r.t. svc_
     891           0 : void VisEquation::residuals(VisBuffer& vb,
     892             :                             Cube<Complex>& R,
     893             :                             const Int chan) {
     894             : 
     895             : 
     896           0 :   if (prtlev()>3) cout << "VE::residuals()" << endl;
     897           0 :   if (prtlev()>13)                              // Here only to shush a
     898           0 :     cout << "vb.nRow(): " << vb.nRow()          // compiler warning about
     899           0 :          << "\nR.shape(): " << R.shape()        // unused variables.
     900           0 :          << "\nchan: " << chan
     901           0 :          << endl;
     902             : 
     903             :   // Trap unspecified solvable term
     904           0 :   if (!svc_)
     905           0 :     throw(AipsError("No calibration term to differentiate."));
     906             : 
     907             :   // TBD: support for public non-in-place corruption and
     908             :   //        corrupt for specific channel
     909             : 
     910           0 :   throw(AipsError("Simple residual calculation NYI."));
     911             : 
     912             : }
     913             : 
     914             : 
     915             : // Calculate residuals and differentiated residuals
     916           0 : void VisEquation::diffResiduals(CalVisBuffer& cvb) {
     917             : 
     918           0 :   if (prtlev()>3) cout << "VE::diffResiduals(CVB)" << endl;
     919             : 
     920             :   // Trap unspecified solvable term
     921           0 :   if (!svc_)
     922           0 :     throw(AipsError("No calibration term to differentiate."));
     923             : 
     924             :   // Delegate to the SVC
     925           0 :   svc().differentiate(cvb);
     926             :   
     927           0 : }
     928             : 
     929             : // Calculate residuals and differentiated residuals
     930           0 : void VisEquation::differentiate(SolveDataBuffer& sdb) {
     931             : 
     932           0 :   if (prtlev()>3) cout << "VE::differentiate(SDB)" << endl;
     933             : 
     934             :   // Trap unspecified solvable term
     935           0 :   if (!svc_)
     936           0 :     throw(AipsError("No calibration term to differentiate."));
     937             : 
     938             :   // Delegate to the SVC
     939           0 :   svc().differentiate(sdb);
     940             :   
     941           0 : }
     942             : 
     943             : 
     944             : // Calculate residuals and differentiated residuals
     945           0 : void VisEquation::diffResiduals(VisBuffer& vb, 
     946             :                                 Cube<Complex>& R, 
     947             :                                 Array<Complex>& dR,
     948             :                                 Matrix<Bool>& Rflg) {
     949             : 
     950           0 :   if (prtlev()>3) cout << "VE::diffResiduals()" << endl;
     951             : 
     952             :   // Trap unspecified solvable term
     953           0 :   if (!svc_)
     954           0 :     throw(AipsError("No calibration term to differentiate."));
     955             : 
     956             :   // Get trial model corrupt and differentiation from the SVC
     957             :   //   (R, dR, and Rflg will be sized by svc_)
     958           0 :   svc().differentiate(vb,R,dR,Rflg);
     959             : 
     960             :   // Now, subtract obs'd data from trial model corruption
     961             : 
     962             :   // Shape info
     963           0 :   Int nCorr(vb.corrType().nelements());
     964           0 :   Int& nChan(vb.nChannel());
     965           0 :   Int& nRow(vb.nRow());
     966           0 :   IPosition blc(3,0,0,0);
     967           0 :   IPosition trc(3,nCorr-1,nChan-1,nRow-1);
     968             : 
     969             :   // Slice if specific channel requested
     970           0 :   if (svc().freqDepPar()) 
     971           0 :     blc(1)=trc(1)=svc().focusChan();
     972             : 
     973             :   // If shapes match, subtract, else throw
     974             :   //  TBD: avoid subtraction in flagged channels?
     975           0 :   Cube<Complex> Vo(vb.visCube()(blc,trc));
     976           0 :   if (R.shape()==Vo.shape())
     977           0 :     R-=Vo;
     978             :   else
     979           0 :     throw(AipsError("Shape mismatch in residual calculation"));
     980             :   
     981           0 : }
     982             : 
     983           0 : void VisEquation::diffResiduals(VisBuffer& R,
     984             :                                 VisBuffer& dR0,
     985             :                                 VisBuffer& dR1,
     986             :                                 Matrix<Bool>& Rflg)
     987             : {
     988           0 :   if (prtlev()>3) cout << "VE::diffResiduals()" << endl;
     989             : 
     990             :   // Trap unspecified solvable term
     991           0 :   if (!svc_)
     992           0 :     throw(AipsError("No calibration term to differentiate."));
     993             : 
     994             :   // Get trial model corrupt and differentiation from the SVC
     995             :   //   (R, dR, and Rflg will be sized by svc_)
     996           0 :   svc().differentiate(R,dR0,dR1, Rflg);
     997             : 
     998             :   // Now, subtract obs'd data from trial model corruption
     999             : 
    1000             :   // Shape info
    1001           0 :   Int nCorr(R.corrType().nelements());
    1002           0 :   Int& nChan(R.nChannel());
    1003           0 :   Int& nRow(R.nRow());
    1004           0 :   IPosition blc(3,0,0,0);
    1005           0 :   IPosition trc(3,nCorr-1,nChan-1,nRow-1);
    1006             : 
    1007             :   // Slice if specific channel requested
    1008           0 :   if (svc().freqDepPar())
    1009           0 :     blc(1)=trc(1)=svc().focusChan();
    1010             :  // If shapes match, subtract, else throw
    1011             :   //  TBD: avoid subtraction in flagged channels?
    1012             :   //  Cube<Complex> Vo(R.visCube()(blc,trc));
    1013             : //   cout << R.correctedVisCube().shape() << " "
    1014             : //        << R.visCube().shape() << " "
    1015             : //        << blc << " " << trc << endl;
    1016             : //  Cube<Complex> Vo(R.correctedVisCube()(blc,trc));
    1017           0 :   Cube<Complex> Vo(R.visCube()(blc,trc));
    1018           0 :   Cube<Complex> Res;Res.reference(R.modelVisCube());
    1019             :   /*
    1020             :   for(Int i=0;i<Res.shape()(2);i++)
    1021             :     {
    1022             :       cout << i
    1023             :            << " " << Res(0,0,i)
    1024             :            << " " << Res(3,0,i)
    1025             :            << " " << R.visCube()(0,0,i)
    1026             :            << " " << R.visCube()(3,0,i)
    1027             :            << " " << R.flag()(0,i)
    1028             :            << " " << R.flag()(3,i)
    1029             :            << " " << R.antenna1()(i)
    1030             :            << " " << R.antenna2()(i)
    1031             :            << " " << R.flagRow()(i)
    1032             :            << endl;
    1033             :     }
    1034             :   exit(0);
    1035             :   */
    1036           0 :   if (Res.shape()==Vo.shape())
    1037           0 :     Res-=Vo;
    1038             :   else
    1039           0 :     throw(AipsError("Shape mismatch in residual calculation"));
    1040           0 : }
    1041             : 
    1042             : 
    1043             : //----------------------------------------------------------------------
    1044             : // ***************************************************************************
    1045             : // ********************  Start of protected member functions *****************
    1046             : // ***************************************************************************
    1047             : 
    1048             : 
    1049           0 : void VisEquation::setFreqDep() {
    1050             : 
    1051           0 :   if (prtlev()>2) cout << "VE::setFreqDep()" << endl;
    1052             : 
    1053             :   // Nominal freq-dep is none on either side
    1054           0 :   lfd_=-1;      // right-most freq-dep term on LHS
    1055           0 :   rfd_=napp_;   // left-most freq-dep term on RHS
    1056             : 
    1057             :   // Nominally averaging in frequency before normalization is NOT OK
    1058             :   //  (we will revise this when we can assert constant MODEL_DATA)
    1059           0 :   freqAveOK_=false;
    1060             : 
    1061             :   // Only if there are both apply-able and solve-able terms
    1062           0 :   if (svc_ && napp_>0) {
    1063             : 
    1064             :     // freqdep to LEFT of solvable type
    1065           0 :     for (Int idx=0;         (idx<napp_ && vc()[idx]->type()<svc().type()); idx++)
    1066           0 :       if (vc()[idx]->freqDepMat()) lfd_=idx;
    1067             :     
    1068             :     // freqdep to RIGHT of solvable type
    1069           0 :     for (Int idx=(napp_-1); (idx>-1    && vc()[idx]->type()>=svc().type()); idx--)
    1070           0 :       if (vc()[idx]->freqDepMat()) {
    1071           0 :         rfd_=idx;
    1072             :         // If we will corrupt the model with something freqdep, we can't
    1073             :         //  frequency average in collapse
    1074           0 :         freqAveOK_=false;
    1075             :       }
    1076             : 
    1077             :   }
    1078             :   
    1079             : 
    1080           0 : }
    1081             : 
    1082           0 : Bool VisEquation::ok() {
    1083             : 
    1084           0 :   if (napp_ != Int(vc().nelements()))
    1085           0 :     return false;
    1086             : 
    1087           0 :   return(true);
    1088             : }
    1089             : 
    1090             : 
    1091             : } //# NAMESPACE CASA - END
    1092             : 

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