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Current view: top level - synthesis/MeasurementComponents - TsysGainCal.cc (source / functions) Hit Total Coverage
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Date: 2024-10-10 11:40:37 Functions: 0 20 0.0 %

          Line data    Source code
       1             : //# TsysGainCal.cc: Implementation of Tsys calibration
       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             : 
      27             : #include <synthesis/MeasurementComponents/TsysGainCal.h>
      28             : 
      29             : #include <synthesis/MeasurementComponents/MSMetaInfoForCal.h>
      30             : // not yet: #include <synthesis/MeasurementComponents/CalCorruptor.h>
      31             : 
      32             : #include <casacore/ms/MeasurementSets/MSColumns.h>
      33             : #include <casacore/casa/BasicMath/Math.h>
      34             : #include <casacore/tables/Tables/Table.h>
      35             : #include <casacore/tables/Tables/TableIter.h>
      36             : #include <synthesis/CalTables/CTGlobals.h>
      37             : 
      38             : #include <casacore/casa/Arrays/MaskArrMath.h>
      39             : #include <casacore/casa/BasicSL/String.h>
      40             : #include <casacore/casa/Utilities/Assert.h>
      41             : #include <casacore/casa/Utilities/GenSort.h>
      42             : #include <casacore/casa/Exceptions/Error.h>
      43             : #include <casacore/casa/System/Aipsrc.h>
      44             : 
      45             : #include <sstream>
      46             : 
      47             : #include <casacore/casa/Logging/LogMessage.h>
      48             : #include <casacore/casa/Logging/LogSink.h>
      49             : // math.h ?
      50             : 
      51             : using namespace casacore;
      52             : namespace casa { //# NAMESPACE CASA - BEGIN
      53             : 
      54             : 
      55             : // **********************************************************
      56             : //  StandardTsys Implementations
      57             : //
      58             : 
      59           0 : StandardTsys::StandardTsys(VisSet& vs) :
      60             :   VisCal(vs),             // virtual base
      61             :   VisMueller(vs),         // virtual base
      62             :   BJones(vs),              // immediate parent
      63           0 :   sysCalTabName_(vs.sysCalTableName()),
      64           0 :   freqDepCalWt_(false),
      65           0 :   freqDepTsys_(true)
      66             : {
      67           0 :   if (prtlev()>2) cout << "StandardTsys::StandardTsys(vs)" << endl;
      68             : 
      69             :   // TBD: get these directly from the MS
      70           0 :   nChanParList()=vs.numberChan();
      71           0 :   startChanList()=vs.startChan();  // should be 0?
      72             :   
      73           0 : }
      74             : 
      75           0 : StandardTsys::StandardTsys(String msname,Int MSnAnt,Int MSnSpw) :
      76             :   VisCal(msname,MSnAnt,MSnSpw),             // virtual base
      77             :   VisMueller(msname,MSnAnt,MSnSpw),         // virtual base
      78             :   BJones(msname,MSnAnt,MSnSpw),              // immediate parent
      79           0 :   sysCalTabName_(""),
      80           0 :   freqDepCalWt_(false),
      81           0 :   freqDepTsys_(true)
      82             : {
      83           0 :   if (prtlev()>2) cout << "StandardTsys::StandardTsys(msname,MSnAnt,MSnSpw)" << endl;
      84             : 
      85             :   // Set the SYSCAL table name
      86           0 :   MeasurementSet ms(msname);
      87           0 :   sysCalTabName_ = ms.sysCalTableName();
      88             : 
      89             :   // OK?
      90           0 :   MSColumns mscol(ms);
      91           0 :   const MSSpWindowColumns& spwcols = mscol.spectralWindow();
      92           0 :   nChanParList()=spwcols.numChan().getColumn();
      93           0 :   startChanList().set(0);
      94             : 
      95           0 : }
      96             : 
      97           0 : StandardTsys::StandardTsys(const MSMetaInfoForCal& msmc) :
      98             :   VisCal(msmc),             // virtual base
      99             :   VisMueller(msmc),         // virtual base
     100             :   BJones(msmc),              // immediate parent
     101           0 :   sysCalTabName_(""),
     102           0 :   freqDepCalWt_(false),
     103           0 :   freqDepTsys_(true)
     104             : {
     105           0 :   if (prtlev()>2) cout << "StandardTsys::StandardTsys(msmc)" << endl;
     106             : 
     107             :   // Set the SYSCAL table name
     108           0 :   MeasurementSet ms(this->msmc().msname());
     109           0 :   sysCalTabName_ = ms.sysCalTableName();
     110             : 
     111             :   // OK?
     112           0 :   MSColumns mscol(ms);
     113           0 :   const MSSpWindowColumns& spwcols = mscol.spectralWindow();
     114           0 :   nChanParList()=spwcols.numChan().getColumn();
     115           0 :   startChanList().set(0);
     116             : 
     117           0 : }
     118             : 
     119           0 : StandardTsys::StandardTsys(const Int& nAnt) :
     120             :   VisCal(nAnt), 
     121             :   VisMueller(nAnt),
     122           0 :   BJones(nAnt)
     123             : {
     124           0 :   if (prtlev()>2) cout << "StandardTsys::StandardTsys(nAnt)" << endl;
     125           0 : }
     126             : 
     127           0 : StandardTsys::~StandardTsys() {
     128           0 :   if (prtlev()>2) cout << "StandardTsys::~StandardTsys()" << endl;
     129           0 : }
     130             : 
     131           0 : void StandardTsys::setSpecify(const Record& specify) {
     132             : 
     133           0 :   LogMessage message(LogOrigin("StandardTsys","setSpecify"));
     134             : 
     135             :   // Escape if SYSCAL table absent
     136           0 :   if (!Table::isReadable(sysCalTabName_))
     137           0 :     throw(AipsError("The SYSCAL subtable is not present in the specified MS."));
     138             : 
     139             :   // Not actually applying or solving
     140           0 :   setSolved(false);
     141           0 :   setApplied(false);
     142             : 
     143             :   // Collect Cal table parameters
     144           0 :   if (specify.isDefined("caltable")) {
     145           0 :     calTableName()=specify.asString("caltable");
     146             : 
     147           0 :     if (Table::isReadable(calTableName()))
     148             :       logSink() << "FYI: We are going to overwrite an existing CalTable: "
     149           0 :                 << calTableName()
     150           0 :                 << LogIO::POST;
     151             :   }
     152             : 
     153             :   // we are creating a table from scratch
     154           0 :   logSink() << "Creating " << typeName()
     155             :             << " table from MS SYSCAL subtable."
     156           0 :             << LogIO::POST;
     157             :   
     158             : 
     159           0 :   Table sysCalTab(sysCalTabName_,Table::Old);
     160             : 
     161             :   // Verify required columns in SYSCAL
     162             :   {
     163           0 :     MSSysCal mssc(sysCalTab);
     164           0 :     MSSysCalColumns sscol(mssc);
     165           0 :     if ( (sscol.spectralWindowId().isNull() || 
     166           0 :           !sscol.spectralWindowId().isDefined(0)) ||
     167           0 :          (sscol.time().isNull() || 
     168           0 :           !sscol.time().isDefined(0)) ||
     169           0 :          (sscol.interval().isNull() || 
     170           0 :           !sscol.interval().isDefined(0)) ||
     171           0 :          (sscol.antennaId().isNull() || 
     172           0 :           !sscol.antennaId().isDefined(0)) )
     173           0 :       throw(AipsError("SYSCAL table is incomplete. Cannot proceed."));
     174             : 
     175           0 :     if ( !sscol.tsysSpectrum().isNull() && sscol.tsysSpectrum().isDefined(0) )
     176           0 :       freqDepTsys_ = True;
     177           0 :     else if ( !sscol.tsys().isNull() && sscol.tsys().isDefined(0) )
     178           0 :       freqDepTsys_ = False;
     179             :     else
     180           0 :       throw(AipsError("SYSCAL table has no Tsys measurements. Cannot proceed."));
     181           0 :   }
     182             : 
     183           0 :   if (!freqDepTsys_)
     184           0 :     nChanParList() = 1;
     185             : 
     186             :   // Create a new caltable to fill up
     187           0 :   createMemCalTable();
     188             : 
     189             :   // Setup shape of solveAllRPar
     190           0 :   initSolvePar();
     191             : 
     192           0 : }
     193             : 
     194             : 
     195             : 
     196           0 : void StandardTsys::specify(const Record& specify) {
     197             : 
     198             :   // Escape if SYSCAL table absent
     199           0 :   if (!Table::isReadable(sysCalTabName_))
     200           0 :     throw(AipsError("The SYSCAL subtable is not present in the specified MS. Tsys unavailable."));
     201             : 
     202             :   // Keep a count of the number of Tsys found per spw/ant
     203           0 :   Matrix<Int> tsyscount(nSpw(),nAnt(),0);
     204           0 :   Matrix<Int> negTsys(nSpw(),nAnt(),0);
     205             : 
     206           0 :   Block<String> columns(2);
     207           0 :   columns[0] = "TIME";
     208           0 :   columns[1] = "SPECTRAL_WINDOW_ID";
     209           0 :   Table sysCalTab(sysCalTabName_,Table::Old);
     210           0 :   TableIterator sysCalIter(sysCalTab,columns);
     211             : 
     212             :   // Iterate
     213           0 :   while (!sysCalIter.pastEnd()) {
     214             : 
     215             :     // First extract info from SYSCAL
     216           0 :     MSSysCal mssc(sysCalIter.table());
     217           0 :     MSSysCalColumns sccol(mssc);
     218             : 
     219           0 :     Int ispw=sccol.spectralWindowId()(0);
     220           0 :     currSpw()=ispw; // registers everything else!
     221           0 :     Double timestamp=sccol.time()(0);
     222           0 :     Double interval=sccol.interval()(0);
     223             : 
     224           0 :     Vector<Int> ants;
     225           0 :     sccol.antennaId().getColumn(ants);
     226             : 
     227           0 :     Cube<Float> tsys;
     228           0 :     if (freqDepTsys_) {
     229           0 :       sccol.tsysSpectrum().getColumn(tsys);
     230             :     } else {
     231           0 :       Array<Float> tmp;
     232           0 :       sccol.tsys().getColumn(tmp);
     233           0 :       IPosition shape=tmp.shape();
     234           0 :       tsys=tmp.reform(IPosition(3, shape(0), 1, shape(1)));
     235           0 :     }
     236           0 :     IPosition tsysshape(tsys.shape());
     237             : 
     238             :     // Insist only that channel axis matches
     239           0 :     if (tsysshape(1)!=nChanPar())
     240           0 :       throw(AipsError("SYSCAL Tsys Spectrum channel axis shape doesn't match data! Cannot proceed."));
     241             : 
     242             :     //  ...and that tsys pol axis makes sense
     243           0 :     if (tsysshape(0)>2)
     244           0 :       throw(AipsError("Tsys pol axis is implausible"));
     245             : 
     246             :     // Now prepare to store in a caltable
     247           0 :     currSpw()=ispw; // registers everything else!
     248           0 :     refTime()=timestamp-interval/2.0;
     249           0 :     currField()=msmc().fieldIdAtTime(refTime());
     250           0 :     currScan()=msmc().scanNumberAtTime(refTime());
     251             : 
     252             :     // Initialize solveAllRPar, etc.
     253           0 :     solveAllRPar()=0.0;
     254           0 :     solveAllParOK()=true;  // Assume all ok
     255           0 :     solveAllParErr()=0.1;  // what should we use here?  ~1/bandwidth?
     256           0 :     solveAllParSNR()=1.0;
     257             : 
     258           0 :     Int npol=tsysshape(0);
     259           0 :     IPosition blc(3,0,0,0), trc(3,npol-1,nChanPar()-1,0);
     260           0 :     for (uInt iant=0;iant<ants.nelements();++iant) {
     261           0 :       Int thisant=ants(iant);
     262           0 :       blc(2)=trc(2)=thisant; // the MS antenna index (not loop index)
     263           0 :       Array<Float> currtsys(tsys.xyPlane(iant));
     264           0 :       solveAllRPar()(blc,trc).nonDegenerate(2)=currtsys;
     265           0 :       solveAllParOK()(blc,trc)=true;
     266             : 
     267             :       // Increment tsys counter
     268           0 :       ++tsyscount(ispw,thisant);
     269             : 
     270           0 :       negTsys(ispw,thisant)+=nfalse(currtsys>=FLT_MIN);
     271             : 
     272             :       // Issue warnings for completely bogus Tsys spectra (per pol)
     273           0 :       for (Int ipol=0;ipol<npol;++ipol) {
     274           0 :         if (ntrue(Matrix<Float>(currtsys).row(ipol)>=FLT_MIN)==0)
     275             :           logSink() << "  Tsys data for ant id=" 
     276             :                     << thisant << " (pol=" << ipol<< ")"
     277             :                     << " in spw " << ispw
     278           0 :                     << " at t=" << MVTime(refTime()/C::day).string(MVTime::YMD,7) 
     279             :                     << " are all negative or zero will be entirely flagged."
     280           0 :                     << LogIO::WARN << LogIO::POST;
     281             :       }
     282           0 :     }
     283             :     // Flag any Tsys<=0.0
     284             :     
     285           0 :     LogicalArray mask((solveAllRPar()>=FLT_MIN));
     286           0 :     MaskedArray<Bool> negs(solveAllParOK(),!mask);
     287           0 :     negs=false;
     288             : 
     289           0 :     Bool uniform=True;
     290           0 :     if (specify.isDefined("uniform"))
     291           0 :       uniform=specify.asBool("uniform");
     292             : 
     293           0 :     if (uniform)
     294           0 :       keepNCT();
     295             :     else
     296           0 :       keepNCT(ants);
     297             : 
     298           0 :     sysCalIter.next();
     299           0 :   }
     300             : 
     301             :   // Assign scan and fieldid info
     302             :   // 2016Aug23 (gmoellen): restore ad hoc method, since 
     303             :   //  Tsys timestamps are quirky
     304           0 :   assignCTScanField(*ct_,msName());
     305             : 
     306           0 :   logSink() << "Tsys spectra counts per spw for antenna Ids 0-"<<nElem()-1<<" (per pol):" << LogIO::POST;
     307           0 :   for (Int ispw=0;ispw<nSpw();++ispw) {
     308           0 :     Vector<Int> tsyscountspw(tsyscount.row(ispw));
     309           0 :     if (sum(tsyscountspw)>0) {
     310             :       logSink() << "Spw " << ispw << ": " << tsyscountspw 
     311             :                 << " (=" << sum(tsyscountspw) << " spectra;" 
     312           0 :                 << " " << nChanParList()(ispw) << " chans per spectra, per pol)" 
     313           0 :                 << LogIO::POST;
     314           0 :       for (Int iant=0;iant<nAnt();++iant) {
     315           0 :         if (negTsys(ispw,iant)>0)
     316           0 :           logSink() << "  (Found and flagged " << negTsys(ispw,iant) 
     317             :                     << " spurious negative (or zero) Tsys channels for ant id=" 
     318             :                     << iant << " in spw " << ispw << ".)"
     319           0 :                     << LogIO::POST;
     320             :       }
     321             :     }
     322             :     //    else
     323             :     //      logSink() << "Spw " << ispw << ": NONE." << LogIO::POST;
     324           0 :   }
     325             : 
     326           0 : }
     327             : 
     328           0 : void StandardTsys::keepNCT(const Vector<Int>& ants) {
     329             : 
     330           0 :   for (uInt iant=0;iant<ants.nelements();++iant) {
     331           0 :     Int thisant=ants(iant);
     332             : 
     333           0 :     ct_->addRow(1);
     334             : 
     335           0 :     CTMainColumns ncmc(*ct_);
     336             : 
     337             :     // We are adding to the most-recently added row
     338           0 :     Int row=ct_->nrow()-1;
     339             : 
     340             :     // Meta-info
     341           0 :     ncmc.time().put(row,refTime());
     342           0 :     ncmc.fieldId().put(row,currField());
     343           0 :     ncmc.spwId().put(row,currSpw());
     344           0 :     ncmc.scanNo().put(row,currScan());
     345           0 :     ncmc.obsId().put(row,currObs());
     346           0 :     ncmc.interval().put(row,0.0);
     347           0 :     ncmc.antenna1().put(row,thisant);
     348           0 :     ncmc.antenna2().put(row,-1);
     349             : 
     350             :     // Params
     351           0 :     ncmc.fparam().put(row,solveAllRPar().xyPlane(thisant));
     352             : 
     353             :     // Stats
     354           0 :     ncmc.paramerr().put(row,solveAllParErr().xyPlane(thisant));
     355           0 :     ncmc.snr().put(row,solveAllParErr().xyPlane(thisant));
     356           0 :     ncmc.flag().put(row,!solveAllParOK().xyPlane(thisant));
     357           0 :   }
     358             : 
     359             :   // This spw now has some solutions in it
     360           0 :   spwOK_(currSpw())=True;
     361           0 : }
     362             : 
     363           0 : void StandardTsys::correct2(vi::VisBuffer2& vb, Bool trial, 
     364             :                             Bool doWtSp, Bool dosync) {
     365             : 
     366             :   // Signal channelized weight calibration downstream
     367           0 :   freqDepCalWt_=doWtSp;
     368             : 
     369             :   // Call parent:
     370           0 :   BJones::correct2(vb,trial,doWtSp,dosync);
     371           0 : }
     372             : 
     373             : 
     374             : // Specialized calcPar that does some sanity checking
     375           0 : void StandardTsys::calcPar() {
     376             : 
     377             :   // Call parent (this drives generalized interpolation)
     378           0 :   SolvableVisCal::calcPar();
     379             : 
     380             :   // Since some interpolation types may unwittingly yield
     381             :   //  negative Tsys, we'll trap that here by flagging and zeroing them
     382           0 :   Cube<Bool> mask(currRPar()<Float(0.0));
     383           0 :   currParOK()(mask)=false;
     384           0 :   currRPar()(mask)=0.0;  // avoids NaN generation in sqrt, even for flagged points
     385           0 : }
     386             : 
     387             : 
     388             : 
     389             : // Specialized Jones Matrix calculation
     390           0 : void StandardTsys::calcAllJones() {
     391             :   
     392             :   // Antenna-based factors are the sqrt(Tsys)
     393           0 :   convertArray(currJElem(),sqrt(currRPar()));
     394           0 :   currJElemOK()=currParOK();
     395             : 
     396           0 : }
     397             : 
     398           0 : void StandardTsys::syncWtScale() {
     399             : 
     400             :   //  cout << "VJ::syncWtScale (" << typeName() << ")" << endl;
     401             : 
     402           0 :   if (freqDepCalWt_) {
     403             : 
     404             :     // We _will_ do a channelized weight calibration, so shape currWtScale() appropriately
     405             : 
     406             :     // Ensure proper size according to Jones matrix type
     407           0 :     switch (this->jonesType()) {
     408           0 :     case Jones::Scalar: 
     409             :     case Jones::Diagonal: {
     410           0 :       currWtScale().resize(currRPar().shape());  // same as Tsys cube
     411           0 :       currWtScale()=0.0;
     412           0 :       break;
     413             :     }
     414           0 :     default: {
     415             :       // Only diag and scalar versions can adjust weights
     416             :       //    cout<< "Turning off calWt()" << endl;
     417           0 :       calWt()=false;
     418           0 :       return;
     419             :       break;
     420             :     }
     421             :     }
     422             : 
     423             :     // Calculate the weight scale factors spectrally
     424           0 :     calcWtScale2();
     425             : 
     426             : 
     427             :   //  cout << "VJ::syncWtScale: currWtScale() = " << currWtScale() << endl;
     428             : 
     429             : 
     430             :   }
     431             :   else
     432             : 
     433             :     // Just do the single-chan thing
     434           0 :     BJones::syncWtScale();
     435             : 
     436             : }
     437             : 
     438             : 
     439             : // Calculate weight update
     440           0 : void StandardTsys::calcWtScale() {
     441             : 
     442             :   // Initialize  to 1.0
     443             :   //   (will only be replaced if a valid calculation is possible)
     444           0 :   currWtScale().set(1.0);
     445             : 
     446           0 :   IPosition ash(currRPar().shape());
     447           0 :   ash(1)=1;  // only on channel weight (so far)
     448           0 :   Cube<Float> cWS(currWtScale());
     449             : 
     450             :   // For each pol and antenna, form 1/mean(Tsys(f))
     451           0 :   IPosition it3(2,0,2);
     452           0 :   ArrayIterator<Float> Tsys(currRPar(),it3,false);
     453           0 :   ArrayIterator<Bool> Tok(currParOK(),it3,false);
     454           0 :   ArrayIterator<Float> cWSi(cWS,it3,false);
     455             : 
     456           0 :   while (!Tsys.pastEnd()) {
     457             : 
     458             :     // mask out flagged channels
     459           0 :     MaskedArray<Float> Tsysm(Tsys.array()(Tok.array()));
     460             : 
     461             :     // If any good Tsys this ant/pol, calc the wt scale (else it remains 1.0)
     462           0 :     if (Tsysm.nelementsValid()>0) {
     463           0 :       Float meanTsys=mean(Tsysm);
     464           0 :       if (meanTsys>0.0)
     465           0 :         cWSi.array().set(1./meanTsys);
     466             :     }
     467             : 
     468           0 :     Tsys.next();
     469           0 :     Tok.next();
     470           0 :     cWSi.next();
     471           0 :   }
     472             : 
     473           0 : }
     474             : 
     475             : // Calculate weight update
     476           0 : void StandardTsys::calcWtScale2() {
     477             : 
     478             :   // 1/Tsys (only where ok)
     479           0 :   currWtScale()(currParOK())=1.f/currRPar()(currParOK());
     480             : 
     481           0 : }
     482             : 
     483             : } //# NAMESPACE CASA - END

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