LCOV - code coverage report
Current view: top level - msvis/MSVis - Partition.cc (source / functions) Hit Total Coverage
Test: casacpp_coverage.info Lines: 0 737 0.0 %
Date: 2024-10-10 19:51:30 Functions: 0 26 0.0 %

          Line data    Source code
       1             : //# Partition.cc 
       2             : //# Copyright (C) 1996-2007
       3             : //# Associated Universities, Inc. Washington DC, USA.
       4             : //#
       5             : //# This library is free software; you can redistribute it and/or modify
       6             : //# it under the terms of the GNU General Public License as published by
       7             : //# the Free Software Foundation; either version 2 of the License, or
       8             : //# (at your option) any later version.
       9             : //#
      10             : //# This library is distributed in the hope that it will be useful,
      11             : //# but WITHOUT ANY WARRANTY; without even the implied warranty of
      12             : //# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
      13             : //# GNU General Public License for more details.
      14             : //# 
      15             : //# You should have received a copy of the GNU General Public License
      16             : //# along with this library; if not, write to the Free Software
      17             : //# Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
      18             : //#
      19             : //# Correspondence concerning AIPS++ should be addressed as follows:
      20             : //#        Internet email: casa-feedback@nrao.edu.
      21             : //#        Postal address: AIPS++ Project Office
      22             : //#                        National Radio Astronomy Observatory
      23             : //#                        520 Edgemont Road
      24             : //#                        Charlottesville, VA 22903-2475 USA
      25             : //#
      26             : //# $Id: $
      27             : 
      28             : // To make Timer reports in the inner loop of the simple copy,
      29             : // uncomment the following line:
      30             : //#define COPYTIMER
      31             : 
      32             : #include <msvis/MSVis/Partition.h>
      33             : #include <msvis/MSVis/SubMS.h>
      34             : #include <casacore/ms/MSSel/MSSelection.h>
      35             : //#include <ms/MSSel/MSTimeGram.h>
      36             : //#include <tables/TaQL/ExprNode.h>
      37             : #include <casacore/tables/Tables/RefRows.h>
      38             : #include <casacore/ms/MeasurementSets/MSColumns.h>
      39             : #include <casacore/ms/MeasurementSets/MSMainColumns.h>
      40             : #include <casacore/coordinates/Coordinates/CoordinateUtil.h>
      41             : #include <casacore/casa/Arrays/Matrix.h>
      42             : #include <casacore/casa/Arrays/Cube.h>
      43             : #include <casacore/casa/Arrays/ArrayMath.h>
      44             : #include <casacore/casa/Arrays/ArrayLogical.h>
      45             : #include <casacore/casa/Arrays/ArrayUtil.h>
      46             : #include <casacore/casa/Arrays/IPosition.h>
      47             : #include <casacore/casa/Arrays/Slice.h>
      48             : #include <casacore/casa/Logging/LogIO.h>
      49             : #include <casacore/casa/OS/File.h>
      50             : #include <casacore/casa/OS/HostInfo.h>
      51             : #include <casacore/casa/OS/Memory.h>              // Can be commented out along with
      52             : //                                         // Memory:: calls.
      53             : 
      54             : //#ifdef COPYTIMER
      55             : #include <casacore/casa/OS/Timer.h>
      56             : //#endif
      57             : 
      58             : #include <casacore/casa/Containers/Record.h>
      59             : #include <casacore/casa/BasicSL/String.h>
      60             : #include <casacore/casa/Utilities/Assert.h>
      61             : #include <casacore/casa/Utilities/GenSort.h>
      62             : #include <casacore/casa/System/AppInfo.h>
      63             : #include <casacore/casa/System/ProgressMeter.h>
      64             : #include <casacore/casa/Quanta/QuantumHolder.h>
      65             : #include <msvis/MSVis/VisSet.h>
      66             : #include <msvis/MSVis/VisBuffer.h>
      67             : #include <msvis/MSVis/VisChunkAverager.h>
      68             : #include <msvis/MSVis/VisIterator.h>
      69             : //#include <msvis/MSVis/VisibilityIterator.h>
      70             : #include <casacore/tables/DataMan/IncrementalStMan.h>
      71             : #include <casacore/tables/Tables/ScalarColumn.h>
      72             : #include <casacore/tables/Tables/ScaColDesc.h>
      73             : #include <casacore/tables/Tables/SetupNewTab.h>
      74             : #include <casacore/tables/DataMan/StandardStMan.h>
      75             : #include <casacore/tables/Tables/Table.h>
      76             : #include <casacore/tables/Tables/PlainTable.h>
      77             : #include <casacore/tables/Tables/TableDesc.h>
      78             : #include <casacore/tables/Tables/TableInfo.h>
      79             : #include <casacore/tables/Tables/TableLock.h>
      80             : #include <casacore/tables/Tables/TableRecord.h>
      81             : #include <casacore/tables/Tables/TableCopy.h>
      82             : #include <casacore/tables/Tables/TableRow.h>
      83             : #include <casacore/tables/DataMan/TiledColumnStMan.h>
      84             : #include <casacore/tables/DataMan/TiledShapeStMan.h>
      85             : #include <casacore/tables/DataMan/TiledDataStMan.h>
      86             : #include <casacore/tables/DataMan/TiledStManAccessor.h>
      87             : #include <casacore/ms/MeasurementSets/MSTileLayout.h>
      88             : #include <sstream>
      89             : #include <iomanip>
      90             : #include <functional>
      91             : #include <casacore/measures/Measures/MeasTable.h>
      92             : #include <casacore/casa/Quanta/MVTime.h>
      93             : 
      94             : using namespace casacore;
      95             : namespace casa {
      96             : 
      97             : //typedef ROVisibilityIterator ROVisIter;
      98             : //typedef VisibilityIterator VisIter;
      99             : 
     100           0 : Partition::Partition(String& theMS, Table::TableOption option) :
     101           0 :                   ms_p(MeasurementSet(theMS, option)),
     102           0 :                   mssel_p(ms_p),
     103           0 :                   msc_p(NULL),
     104           0 :                   mscIn_p(NULL),
     105             :                   //    sameShape_p(true),
     106           0 :                   antennaSel_p(false),
     107           0 :                   timeBin_p(-1.0),
     108           0 :                   scanString_p(""),
     109           0 :                   intentString_p(""),
     110           0 :                   obsString_p(""),
     111           0 :                   uvrangeString_p(""),
     112           0 :                   taqlString_p(""),
     113           0 :                   timeRange_p(""),
     114           0 :                   arrayExpr_p(""),
     115           0 :                   combine_p(""),
     116           0 :                   maxnchan_p(1),
     117           0 :                   maxncorr_p(1)
     118             : {
     119           0 : }
     120             : 
     121           0 : Partition::Partition(MeasurementSet& ms) :
     122           0 :                   ms_p(ms),
     123           0 :                   mssel_p(ms_p),
     124           0 :                   msc_p(NULL),
     125           0 :                   mscIn_p(NULL),
     126             :                   //sameShape_p(true),
     127           0 :                   antennaSel_p(false),
     128           0 :                   timeBin_p(-1.0),
     129           0 :                   scanString_p(""),
     130           0 :                   intentString_p(""),
     131           0 :                   obsString_p(""),
     132           0 :                   uvrangeString_p(""),
     133           0 :                   taqlString_p(""),
     134           0 :                   timeRange_p(""),
     135           0 :                   arrayExpr_p(""),
     136           0 :                   combine_p(""),
     137           0 :                   maxnchan_p(1),
     138           0 :                   maxncorr_p(1)
     139             : {
     140           0 : }
     141             : 
     142           0 : Partition::~Partition()
     143             : {
     144           0 :         if(!msOut_p.isNull())
     145           0 :                 msOut_p.flush();
     146             : 
     147           0 :         delete msc_p;
     148           0 :         msc_p = NULL;
     149             : 
     150           0 :         delete mscIn_p;
     151           0 :         mscIn_p = NULL;
     152             : 
     153           0 :         msOut_p = MeasurementSet();
     154             : 
     155             :         // parseColumnNames unavoidably has a static String and Vector<MS::PredefinedColumns>.
     156             :         // Collapse them down to free most of that memory.
     157           0 :         SubMS::parseColumnNames("None");
     158           0 : }
     159             : 
     160           0 : Bool Partition::selectSpw(const String& spwstr)
     161             : {
     162           0 :         LogIO os(LogOrigin("Partition", "selectSpw()"));
     163             : 
     164             :         // Partitioning by definition requires the output subtables to be the same as
     165             :         // the subset ones, with the side-effect that channel selection is not
     166             :         // allowed.  spw selection is OK, though, so frisk spwstr for colons.
     167           0 :         if(spwstr.contains(":")){
     168             :                 os << LogIO::SEVERE
     169             :                                 << "Partitioning does not permit selecting by channel.  (Selecting by spw is OK)\n"
     170           0 :                                 << LogIO::POST;
     171           0 :                 return false;
     172             :         }
     173             : 
     174           0 :         MSSelection mssel;
     175           0 :         String myspwstr(spwstr == "" ? "*" : spwstr);
     176             : 
     177           0 :         mssel.setSpwExpr(myspwstr);
     178             : 
     179             :         // Each row should have spw, start, stop, step
     180           0 :         Matrix<Int> chansel = mssel.getChanList(&ms_p, 1);
     181             : 
     182           0 :         if(chansel.nrow() > 0){         // Use myspwstr if it selected anything...
     183           0 :                 spw_p   = chansel.column(0);
     184             :         }
     185             :         else{                            // select everything
     186           0 :                 MSSpWindowColumns mySpwTab(ms_p.spectralWindow());
     187             : 
     188           0 :                 spw_p.resize(mySpwTab.nrow());
     189           0 :                 indgen(spw_p);
     190           0 :         }
     191             : 
     192             :         // Check for and filter out selected spws that aren't included in
     193             :         // DATA_DESCRIPTION.  (See CAS-1673 for an example.)
     194           0 :         std::set<Int> badSelSpwSlots(SubMS::findBadSpws(ms_p, spw_p));
     195           0 :         uInt nbadSelSpwSlots = badSelSpwSlots.size();
     196           0 :         if(nbadSelSpwSlots > 0){
     197           0 :                 os << LogIO::WARN << "Selected input spw(s)\n";
     198           0 :                 for(std::set<Int>::iterator bbit = badSelSpwSlots.begin();
     199           0 :                                 bbit != badSelSpwSlots.end(); ++bbit)
     200           0 :                         os << spw_p[*bbit] << " ";
     201             :                 os << "\nwere not found in DATA_DESCRIPTION and are being excluded."
     202           0 :                                 << LogIO::POST;
     203             : 
     204           0 :                 uInt nSelSpw = spw_p.nelements();
     205           0 :                 uInt ngoodSelSpwSlots = nSelSpw - nbadSelSpwSlots;
     206           0 :                 Vector<Int> spwc(ngoodSelSpwSlots);
     207           0 :                 std::set<Int>::iterator bsend = badSelSpwSlots.end();
     208             : 
     209           0 :                 uInt j = 0;
     210           0 :                 for(uInt k = 0; k < nSelSpw; ++k){
     211           0 :                         if(badSelSpwSlots.find(k) == bsend){
     212           0 :                                 spwc[j] = spw_p[k];
     213           0 :                                 ++j;
     214             :                         }
     215             :                 }
     216           0 :                 spw_p.resize(ngoodSelSpwSlots);
     217           0 :                 spw_p = spwc;
     218           0 :         }
     219           0 :         return true;
     220           0 : }
     221             : 
     222           0 : Bool Partition::setmsselect(const String& spw, const String& field,
     223             :                 const String& baseline, const String& scan,
     224             :                 const String& uvrange, const String& taql,
     225             :                 const String& subarray, const String& intent,
     226             :                 const String& obs)
     227             : {
     228           0 :         LogIO os(LogOrigin("Partition", "setmsselect()"));
     229             :         Bool  ok;
     230             : 
     231           0 :         String myspwstr(spw == "" ? "*" : spw);
     232           0 :         Record selrec = ms_p.msseltoindex(myspwstr, field);
     233             : 
     234           0 :         ok = selectSource(selrec.asArrayInt("field"));
     235             : 
     236             :         // All of the requested selection functions will be tried, even if an
     237             :         // earlier one has indicated its failure.  This allows all of the selection
     238             :         // strings to be tested, yielding more complete feedback for the user
     239             :         // (fewer retries).  This is a matter of taste, though.  If the selections
     240             :         // turn out to be slow, this function should return on the first false.
     241             : 
     242           0 :         if(!selectSpw(myspwstr)){
     243           0 :                 os << LogIO::SEVERE << "No channels selected." << LogIO::POST;
     244           0 :                 ok = false;
     245             :         }
     246             : 
     247           0 :         if(baseline != ""){
     248           0 :                 Vector<Int> antid(0);
     249           0 :                 Vector<String> antstr(1,baseline);
     250           0 :                 selectAntenna(antid, antstr);
     251           0 :         }
     252           0 :         scanString_p    = scan;
     253           0 :         intentString_p  = intent;
     254           0 :         obsString_p     = obs;
     255           0 :         uvrangeString_p = uvrange;
     256           0 :         taqlString_p    = taql;
     257             : 
     258           0 :         if(subarray != "")
     259           0 :                 selectArray(subarray);
     260             : 
     261           0 :         return ok;
     262           0 : }
     263             : 
     264           0 : Bool Partition::selectSource(const Vector<Int>& fieldid)
     265             : {
     266           0 :         LogIO os(LogOrigin("Partition", "selectSource()"));
     267           0 :         Bool cando = true;
     268             : 
     269           0 :         if(fieldid.nelements() < 1){
     270           0 :                 fieldid_p = Vector<Int>(1, -1);
     271             :         }
     272           0 :         else if(fieldid.nelements() > ms_p.field().nrow()){
     273             :                 os << LogIO::SEVERE
     274             :                                 << "More fields were requested than are in the input MS.\n"
     275           0 :                                 << LogIO::POST;
     276           0 :                 cando = false;
     277             :         }
     278           0 :         else if(max(fieldid) >= static_cast<Int>(ms_p.field().nrow())){
     279             :                 // Arriving here is very unlikely since if fieldid came from MSSelection
     280             :                 // bad fields were presumably already quietly dropped.
     281             :                 os << LogIO::SEVERE
     282             :                                 << "At least 1 field was requested that is not in the input MS.\n"
     283           0 :                                 << LogIO::POST;
     284           0 :                 cando = false;
     285             :         }
     286             :         else{
     287           0 :                 fieldid_p = fieldid;
     288             :         }
     289             : 
     290           0 :         if(fieldid_p.nelements() == 1 && fieldid_p[0] < 0){
     291           0 :                 fieldid_p.resize(ms_p.field().nrow());
     292           0 :                 indgen(fieldid_p);
     293             :         }
     294           0 :         return cando;
     295           0 : }
     296             : 
     297           0 : void Partition::selectArray(const String& subarray)
     298             : {
     299           0 :         arrayExpr_p = subarray;
     300           0 :         if(arrayExpr_p == "")      // Zap any old ones.
     301           0 :                 arrayId_p.resize();
     302             :         // else arrayId_p will get set in makeSelection().
     303           0 : }
     304             : 
     305           0 : void Partition::selectTime(Double timeBin, String timerng)
     306             : {  
     307           0 :         timeBin_p   = timeBin;
     308           0 :         timeRange_p = timerng;
     309           0 : }
     310             : 
     311             : 
     312           0 : Bool Partition::makePartition(String& msname, String& colname,
     313             :                 const Vector<Int>& tileShape, const String& combine)
     314             : {
     315           0 :         LogIO os(LogOrigin("Partition", "makePartition()"));
     316             :         try{
     317           0 :                 if((spw_p.nelements()>0) && (max(spw_p) >= Int(ms_p.spectralWindow().nrow()))){
     318             :                         os << LogIO::SEVERE
     319             :                                         << "SpectralWindow selection contains elements that do not exist in "
     320             :                                         << "this MS"
     321           0 :                                         << LogIO::POST;
     322           0 :                         ms_p=MeasurementSet();
     323           0 :                         return false;
     324             :                 }
     325             : 
     326             :                 // Watch out!  This throws an AipsError if ms_p doesn't have the
     327             :                 // requested columns.
     328             :                 const Vector<MS::PredefinedColumns> colNamesTok = SubMS::parseColumnNames(colname,
     329           0 :                                 ms_p);
     330             : 
     331           0 :                 if(!makeSelection()){
     332             :                         os << LogIO::SEVERE
     333             :                                         << "Failed on selection: the combination of spw, field, antenna, correlation, "
     334             :                                         << "and timerange may be invalid."
     335           0 :                                         << LogIO::POST;
     336           0 :                         ms_p = MeasurementSet();
     337           0 :                         return false;
     338             :                 }
     339           0 :                 mscIn_p = new MSColumns(mssel_p);
     340             :                 // Note again the parseColumnNames() a few lines back that stops setupMS()
     341             :                 // from being called if the MS doesn't have the requested columns.
     342           0 :                 MeasurementSet* outpointer=0;
     343             : 
     344           0 :                 if(tileShape.nelements() == 3){
     345           0 :                         outpointer = setupMS(msname, mssel_p, maxnchan_p, maxncorr_p,
     346             :                                         colNamesTok, tileShape);
     347             : 
     348             :                 }
     349             :                 // the following calls MSTileLayout...  disabled for now because it
     350             :                 // forces tiles to be the full spw bandwidth in width (gmoellen, 2010/11/07)
     351             :                 /*
     352             :       else if((tileShape.nelements()==1) && (tileShape[0]==0 || tileShape[0]==1)){
     353             :       outpointer = setupMS(msname, nchan_p[0], ncorr_p[0],
     354             :       mscIn_p->observation().telescopeName()(0),
     355             :       colNamesTok, tileShape[0]);
     356             :       }
     357             :                  */
     358             :                 else{
     359             : 
     360             :                         // Derive tile shape based on input dataset's tiles, borrowed
     361             :                         //  from VisSet's scr col tile shape derivation
     362             :                         //  (this may need some tweaking for averaging cases)
     363           0 :                         TableDesc td = mssel_p.actualTableDesc();
     364             : 
     365             :                         // If a non-DATA column, i.e. CORRECTED_DATA, is being written to DATA,
     366             :                         // datacolname must be set to DATA because the tile management in
     367             :                         // setupMS() will look for "TiledDATA", not "TiledCorrectedData".
     368           0 :                         String datacolname = MS::columnName(MS::DATA);
     369             :                         // But if DATA is not present in the input MS, using it would cause a
     370             :                         // segfault.
     371           0 :                         if(!td.isColumn(datacolname))
     372             :                                 // This is could be any other kind of *DATA column, including
     373             :                                 // FLOAT_DATA or LAG_DATA, but it is guaranteed to be something.
     374           0 :                                 datacolname = MS::columnName(colNamesTok[0]);
     375             : 
     376           0 :                         const ColumnDesc& cdesc = td[datacolname];
     377             : 
     378           0 :                         String dataManType = cdesc.dataManagerType();
     379           0 :                         String dataManGroup = cdesc.dataManagerGroup();
     380             : 
     381           0 :                         Bool tiled = (dataManType.contains("Tiled"));
     382             : 
     383           0 :                         if (tiled) {
     384           0 :                                 ROTiledStManAccessor tsm(mssel_p, dataManGroup);
     385           0 :                                 uInt nHyper = tsm.nhypercubes();
     386             : 
     387             :                                 // Test clause
     388             :                                 if(1){
     389             :                                         os << LogIO::DEBUG1
     390             :                                                         << datacolname << "'s max cache size: "
     391             :                                                         << tsm.maximumCacheSize() << " bytes.\n"
     392             :                                                         << "\tnhypercubes: " << nHyper << ".\n"
     393             :                                                         << "\ttshp of row 0: " << tsm.tileShape(0)
     394             :                                                         << "\n\thypercube shape of row 0: " << tsm.hypercubeShape(0)
     395           0 :                                                         << LogIO::POST;
     396             :                                 }
     397             : 
     398             : 
     399             :                                 // Find smallest tile shape
     400           0 :                                 Int highestProduct=-INT_MAX;
     401           0 :                                 Int highestId=0;
     402           0 :                                 for (uInt id=0; id < nHyper; id++) {
     403           0 :                                         IPosition tshp(tsm.getTileShape(id));
     404           0 :                                         Int product = tshp.product();
     405             : 
     406             :                                         os << LogIO::DEBUG2
     407             :                                                         << "\thypercube " << id << ":\n"
     408             :                                                         << "\t\ttshp: " << tshp << "\n"
     409             :                                                         << "\t\thypercube shape: " << tsm.getHypercubeShape(id)
     410             :                                                         << ".\n\t\tcache size: " << tsm.getCacheSize(id)
     411             :                                                         << " buckets.\n\t\tBucket size: " << tsm.getBucketSize(id)
     412             :                                                         << " bytes."
     413           0 :                                                         << LogIO::POST;
     414             : 
     415           0 :                                         if (product > 0 && (product > highestProduct)) {
     416           0 :                                                 highestProduct = product;
     417           0 :                                                 highestId = id;
     418             :                                         }
     419           0 :                                 }
     420           0 :                                 Vector<Int> dataTileShape = tsm.getTileShape(highestId).asVector();
     421             : 
     422           0 :                                 outpointer = setupMS(msname, mssel_p, maxnchan_p, maxncorr_p,
     423             :                                                 colNamesTok, dataTileShape);
     424             : 
     425           0 :                         }
     426             :                         else
     427             :                                 //Sweep all other cases of bad tileshape to a default one.
     428             :                                 //  (this probably never happens)
     429           0 :                                 outpointer = setupMS(msname, mssel_p, maxnchan_p, maxncorr_p,
     430           0 :                                                 mscIn_p->observation().telescopeName()(0),
     431             :                                                 colNamesTok, 0);
     432             : 
     433           0 :                 }
     434             : 
     435           0 :                 combine_p = combine;
     436             : 
     437           0 :                 msOut_p= *outpointer;
     438             : 
     439           0 :                 if(!fillAllTables(colNamesTok)){
     440           0 :                         delete outpointer;
     441           0 :                         os << LogIO::WARN << msname << " left unfinished." << LogIO::POST;
     442           0 :                         ms_p=MeasurementSet();
     443           0 :                         return false;
     444             :                 }
     445             : 
     446             :                 //  msOut_p.relinquishAutoLocks (true);
     447             :                 //  msOut_p.unlock();
     448             :                 //Detaching the selected part
     449           0 :                 ms_p=MeasurementSet();
     450             : 
     451           0 :                 delete outpointer;
     452           0 :                 return true;
     453           0 :         }
     454           0 :         catch(AipsError x){
     455           0 :                 ms_p=MeasurementSet();
     456           0 :                 throw(x);
     457           0 :         }
     458           0 :         catch(...){
     459           0 :                 ms_p=MeasurementSet();
     460           0 :                 throw(AipsError("Unknown exception caught"));
     461           0 :         }
     462             : 
     463           0 : }
     464             : 
     465           0 : MeasurementSet* Partition::makeScratchPartition(const String& colname,
     466             :                 const Bool forceInMemory)
     467             : {
     468           0 :         return makeScratchPartition(SubMS::parseColumnNames(colname, ms_p),
     469           0 :                         forceInMemory);
     470             : }
     471             : 
     472           0 : MeasurementSet* Partition::makeScratchPartition(const Vector<MS::PredefinedColumns>& whichDataCols,
     473             :                 const Bool forceInMemory)
     474             : {
     475           0 :         LogIO os(LogOrigin("Partition", "makeScratchPartition()"));
     476             : 
     477           0 :         if(max(fieldid_p) >= Int(ms_p.field().nrow())){
     478             :                 os << LogIO::SEVERE
     479             :                                 << "Field selection contains elements that do not exist in "
     480             :                                 << "this MS"
     481           0 :                                 << LogIO::POST;
     482           0 :                 ms_p=MeasurementSet();
     483           0 :                 return 0;
     484             :         }
     485           0 :         if(max(spw_p) >= Int(ms_p.spectralWindow().nrow())){
     486             :                 os << LogIO::SEVERE
     487             :                                 << "SpectralWindow selection contains elements that do not exist in "
     488             :                                 << "this MS"
     489           0 :                                 << LogIO::POST;
     490           0 :                 ms_p=MeasurementSet();
     491           0 :                 return 0;
     492             :         }
     493             : 
     494           0 :         if(!makeSelection()){
     495             :                 os << LogIO::SEVERE
     496             :                                 << "Failed on selection: combination of spw and/or field and/or time "
     497             :                                 << "chosen may be invalid."
     498           0 :                                 << LogIO::POST;
     499           0 :                 ms_p=MeasurementSet();
     500           0 :                 return 0;
     501             :         }
     502           0 :         mscIn_p=new MSColumns(mssel_p);
     503           0 :         Double sizeInMB= 1.5 * n_bytes() / (1024.0 * 1024.0);
     504           0 :         String msname=AppInfo::workFileName(uInt(sizeInMB), "TempPartition");
     505             : 
     506           0 :         MeasurementSet* outpointer = setupMS(msname, mssel_p, maxnchan_p, maxncorr_p,
     507           0 :                         mscIn_p->observation().telescopeName()(0),
     508             :                         whichDataCols);
     509             : 
     510           0 :         outpointer->markForDelete();
     511             :         //Hmmmmmm....memory......
     512           0 :         if(sizeInMB <  (Double)(HostInfo::memoryTotal())/(2048.0)
     513           0 :                         || forceInMemory){
     514           0 :                 MeasurementSet* a = outpointer;
     515           0 :                 outpointer= new MeasurementSet(a->copyToMemoryTable("TmpMemoryMS"));
     516           0 :                 outpointer->initRefs();
     517           0 :                 delete a;
     518             :         }
     519             : 
     520           0 :         msOut_p = *outpointer;
     521             : 
     522           0 :         if(!fillAllTables(whichDataCols)){
     523           0 :                 delete outpointer;
     524           0 :                 outpointer = 0;
     525           0 :                 ms_p = MeasurementSet();
     526           0 :                 return 0;
     527             :         }
     528             :         //Detaching the selected part
     529           0 :         ms_p=MeasurementSet();
     530           0 :         return outpointer;
     531           0 : }
     532             : 
     533           0 : Bool Partition::fillAllTables(const Vector<MS::PredefinedColumns>& datacols)
     534             : {
     535           0 :         LogIO os(LogOrigin("Partition", "fillAllTables()"));
     536           0 :         Bool success = true;
     537             : 
     538             :         // Copy the subtables before doing anything with the main table.  Otherwise
     539             :         // MSColumns won't work.
     540             : 
     541             :         // fill or update
     542           0 :         Timer timer;
     543             : 
     544             :         // Force the Measures frames for all the time type columns to have the same
     545             :         // reference as the TIME column of the main table.
     546             :         // Disable the empty table check (with false) because some of the subtables
     547             :         // (like POINTING) might already have been written.
     548             :         // However, empty tables are still empty after setting up the reference codes
     549             :         // here.
     550           0 :         msc_p = new MSMainColumns(msOut_p);
     551           0 :         msc_p->setEpochRef(MEpoch::castType(mscIn_p->timeMeas().getMeasRef().getType()),
     552             :                         false);
     553             : 
     554             :         // UVW is the only other Measures column in the main table.
     555           0 :         msc_p->uvwMeas().setDescRefCode(Muvw::castType(mscIn_p->uvwMeas().getMeasRef().getType()));
     556             : 
     557           0 :         if(timeBin_p <= 0.0)
     558           0 :                 success &= fillMainTable(datacols);
     559             :         else
     560           0 :                 success &= doTimeAver(datacols);
     561           0 :         return success;
     562           0 : }
     563             : 
     564           0 : Bool Partition::makeSelection()
     565             : {
     566           0 :         LogIO os(LogOrigin("Partition", "makeSelection()"));
     567             : 
     568             :         //VisSet/MSIter will check if the SORTED exists
     569             :         //and resort if necessary
     570             :         {
     571             :                 // Matrix<Int> noselection;
     572             :                 // VisSet vs(ms_p, noselection);
     573           0 :                 Block<Int> sort;
     574           0 :                 ROVisibilityIterator(ms_p, sort);
     575           0 :         }
     576             : 
     577             :         const MeasurementSet *elms;
     578           0 :         elms = &ms_p;
     579           0 :         MeasurementSet sorted;
     580           0 :         if(ms_p.keywordSet().isDefined("SORTED_TABLE")){
     581           0 :                 sorted = ms_p.keywordSet().asTable("SORTED_TABLE");
     582             :                 //If ms is not writable and sort is a subselection...use original ms
     583           0 :                 if(ms_p.nrow() == sorted.nrow())
     584           0 :                         elms = &sorted;
     585             :         }
     586             : 
     587           0 :         MSSelection thisSelection;
     588           0 :         if(fieldid_p.nelements() > 0)
     589           0 :                 thisSelection.setFieldExpr(MSSelection::indexExprStr(fieldid_p));
     590           0 :         if(spw_p.nelements() > 0)
     591           0 :                 thisSelection.setSpwExpr(MSSelection::indexExprStr(spw_p));
     592           0 :         if(antennaSel_p){
     593           0 :                 if(antennaId_p.nelements() > 0){
     594           0 :                         thisSelection.setAntennaExpr(MSSelection::indexExprStr( antennaId_p ));
     595             :                 }
     596           0 :                 if(antennaSelStr_p[0] != "")
     597           0 :                         thisSelection.setAntennaExpr(MSSelection::nameExprStr( antennaSelStr_p));
     598             :         }
     599           0 :         if(timeRange_p != "")
     600           0 :                 thisSelection.setTimeExpr(timeRange_p);
     601             : 
     602           0 :         thisSelection.setUvDistExpr(uvrangeString_p);
     603           0 :         thisSelection.setScanExpr(scanString_p);
     604           0 :         thisSelection.setStateExpr(intentString_p);
     605           0 :         thisSelection.setObservationExpr(obsString_p);
     606           0 :         if(arrayExpr_p != "")
     607           0 :                 thisSelection.setArrayExpr(arrayExpr_p);
     608           0 :         if(corrString_p != "")
     609           0 :                 thisSelection.setPolnExpr(corrString_p);
     610           0 :         thisSelection.setTaQLExpr(taqlString_p);
     611             : 
     612           0 :         TableExprNode exprNode = thisSelection.toTableExprNode(elms);
     613           0 :         selTimeRanges_p = thisSelection.getTimeList();
     614             : 
     615             :         // Find the maximum # of channels and correlations, for setting the
     616             :         // tileshape.  VisIterator is horrible if the tileshape is too large.
     617             :         // Partition does not use VisIterator, so the max # of chans and corrs may
     618             :         // not be optimal.  However, the # of chans and corrs for DDID 0 may be very
     619             :         // misrepresentative of the MS in general.
     620             :         {
     621           0 :                 ScalarColumn<Int> polId(elms->dataDescription(),
     622           0 :                                 MSDataDescription::columnName(MSDataDescription::POLARIZATION_ID));
     623           0 :                 ScalarColumn<Int> spwId(elms->dataDescription(),
     624           0 :                                 MSDataDescription::columnName(MSDataDescription::SPECTRAL_WINDOW_ID));
     625           0 :                 ScalarColumn<Int> ncorr(elms->polarization(),
     626           0 :                                 MSPolarization::columnName(MSPolarization::NUM_CORR));
     627           0 :                 ScalarColumn<Int> nchan(elms->spectralWindow(),
     628           0 :                                 MSSpectralWindow::columnName(MSSpectralWindow::NUM_CHAN));
     629             : 
     630           0 :                 uInt nddids = polId.nrow();
     631           0 :                 uInt nSelSpws = spw_p.nelements();
     632             : 
     633           0 :                 maxnchan_p = 1;
     634           0 :                 maxncorr_p = 1;
     635           0 :                 for(uInt ddid = 0; ddid < nddids; ++ddid){
     636           0 :                         Int spw = spwId(ddid);
     637           0 :                         for(uInt k = 0; k < nSelSpws; ++k){
     638           0 :                                 if(spw == spw_p[k]){                    // If spw is selected...
     639           0 :                                         if(nchan(spw) > maxnchan_p)
     640           0 :                                                 maxnchan_p = nchan(spw);
     641           0 :                                         if(ncorr(polId(ddid)) > maxncorr_p)
     642           0 :                                                 maxncorr_p = ncorr(polId(ddid));
     643             :                                 }
     644             :                         }
     645             :                 }
     646           0 :         }
     647             : 
     648             :         // Now remake the selected ms
     649           0 :         if(!(exprNode.isNull())){
     650           0 :                 mssel_p = MeasurementSet((*elms)(exprNode));
     651             :         }
     652             :         else{
     653             :                 // Null take all the ms ...setdata() blank means that
     654           0 :                 mssel_p = MeasurementSet((*elms));
     655             :         }
     656             :         //mssel_p.rename(ms_p.tableName()+"/SELECTED_TABLE", Table::Scratch);
     657           0 :         if(mssel_p.nrow() == 0)
     658           0 :                 return false;
     659             : 
     660           0 :         if(mssel_p.nrow() < ms_p.nrow()){
     661             :                 os << LogIO::NORMAL
     662             :                                 << mssel_p.nrow() << " out of " << ms_p.nrow() << " rows are going to be"
     663             :                                 << " considered due to the selection criteria."
     664           0 :                                 << LogIO::POST;
     665             :         }
     666           0 :         return true;
     667           0 : }
     668             : 
     669           0 : MeasurementSet* Partition::setupMS(const String& outFileName, const MeasurementSet& inms,
     670             :                 const Int nchan, const Int nCorr, const String& telescop,
     671             :                 const Vector<MS::PredefinedColumns>& colNames,
     672             :                 const Int obstype)
     673             : {
     674             :         //Choose an appropriate tileshape
     675           0 :         IPosition dataShape(2, nCorr, nchan);
     676           0 :         IPosition tileShape = MSTileLayout::tileShape(dataShape, obstype, telescop);
     677           0 :         return setupMS(outFileName, inms, nchan, nCorr, colNames, tileShape.asVector());
     678           0 : }
     679           0 : MeasurementSet* Partition::setupMS(const String& outFileName, const MeasurementSet& inms,
     680             :                 const Int nchan, const Int nCorr,
     681             :                 const Vector<MS::PredefinedColumns>& colNamesTok,
     682             :                 const Vector<Int>& tshape)
     683             : {
     684             : 
     685           0 :         if(tshape.nelements() != 3)
     686           0 :                 throw(AipsError("TileShape has to have 3 elements ") );
     687             : 
     688             :         // This is more to shush a compiler warning than to warn users.
     689           0 :         LogIO os(LogOrigin("Partition", "setupMS()"));
     690           0 :         if(tshape[0] != nCorr)
     691             :                 os << LogIO::DEBUG1
     692           0 :                 << "Warning: using " << tshape[0] << " from the tileshape instead of "
     693             :                 << nCorr << " for the number of correlations."
     694           0 :                 << LogIO::POST;
     695           0 :         if(tshape[1] != nchan)
     696             :                 os << LogIO::DEBUG1
     697           0 :                 << "Warning: using " << tshape[1] << " from the tileshape instead of "
     698             :                 << nchan << " for the number of channels."
     699           0 :                 << LogIO::POST;
     700             : 
     701             :         // Choose an appropriate tileshape
     702             :         //IPosition dataShape(2,nCorr,nchan);
     703             :         //IPosition tileShape = MSTileLayout::tileShape(dataShape,obsType, telescop);
     704             :         //////////////////
     705             : 
     706           0 :         IPosition tileShape(tshape);
     707             : 
     708             :         // Make the MS table
     709           0 :         TableDesc td = MS::requiredTableDesc();
     710             : 
     711           0 :         Vector<String> tiledDataNames;
     712             : 
     713             :         // Even though we know the data is going to be the same shape throughout I'll
     714             :         // still create a column that has a variable shape as this will permit MS's
     715             :         // with other shapes to be appended.
     716           0 :         uInt ncols = colNamesTok.nelements();
     717           0 :         const Bool mustWriteOnlyToData = SubMS::mustConvertToData(ncols, colNamesTok);
     718             : 
     719           0 :         if (mustWriteOnlyToData)
     720             :         {
     721             : 
     722           0 :                 MS::addColumnToDesc(td, MS::DATA, 2);
     723           0 :                 String hcolName=String("Tiled")+String("DATA");
     724           0 :                 td.defineHypercolumn(hcolName, 3,
     725           0 :                                 stringToVector("DATA"));
     726           0 :                 tiledDataNames.resize(1);
     727           0 :                 tiledDataNames[0] = hcolName;
     728             : 
     729           0 :         }
     730             :         else{
     731             : 
     732           0 :                 tiledDataNames.resize(ncols);
     733           0 :                 for(uInt i = 0; i < ncols; ++i){
     734             :                         // Unfortunately MS::PredefinedColumns aren't ordered so that I can just check if
     735             :                         // colNamesTok[i] is in the "data range".
     736           0 :                         if(colNamesTok[i] == MS::DATA ||
     737           0 :                                         colNamesTok[i] == MS::MODEL_DATA ||
     738           0 :                                         colNamesTok[i] == MS::CORRECTED_DATA ||
     739           0 :                                         colNamesTok[i] == MS::FLOAT_DATA ||
     740           0 :                                         colNamesTok[i] == MS::LAG_DATA)
     741           0 :                                 MS::addColumnToDesc(td, colNamesTok[i], 2);
     742             :                         else
     743           0 :                                 throw(AipsError(MS::columnName(colNamesTok[i]) +
     744           0 :                                                 " is not a recognized data column "));
     745             : 
     746           0 :                         String hcolName = String("Tiled") + MS::columnName(colNamesTok[i]);
     747           0 :                         td.defineHypercolumn(hcolName, 3,
     748           0 :                                         stringToVector(MS::columnName(colNamesTok[i])));
     749           0 :                         tiledDataNames[i] = hcolName;
     750           0 :                 }
     751             : 
     752             :         }
     753             : 
     754             :         // add this optional column because random group fits has a
     755             :         // weight per visibility
     756           0 :         MS::addColumnToDesc(td, MS::WEIGHT_SPECTRUM, 2);
     757             : 
     758             :         //     td.defineHypercolumn("TiledDATA",3,
     759             :         //                           stringToVector(MS::columnName(MS::DATA)));
     760           0 :         td.defineHypercolumn("TiledFlag",3,
     761           0 :                         stringToVector(MS::columnName(MS::FLAG)));
     762           0 :         td.defineHypercolumn("TiledFlagCategory",4,
     763           0 :                         stringToVector(MS::columnName(MS::FLAG_CATEGORY)));
     764           0 :         td.defineHypercolumn("TiledWgtSpectrum",3,
     765           0 :                         stringToVector(MS::columnName(MS::WEIGHT_SPECTRUM)));
     766           0 :         td.defineHypercolumn("TiledUVW",2,
     767           0 :                         stringToVector(MS::columnName(MS::UVW)));
     768           0 :         td.defineHypercolumn("TiledWgt",2,
     769           0 :                         stringToVector(MS::columnName(MS::WEIGHT)));
     770           0 :         td.defineHypercolumn("TiledSigma", 2,
     771           0 :                         stringToVector(MS::columnName(MS::SIGMA)));
     772             : 
     773             : 
     774           0 :         SetupNewTable newtab(outFileName, td, Table::New);
     775             : 
     776           0 :         uInt cache_val=32768;
     777             :         // Set the default Storage Manager to be the Incr one
     778           0 :         IncrementalStMan incrStMan ("ISMData",cache_val);
     779           0 :         newtab.bindAll(incrStMan, true);
     780             :         //Override the binding for specific columns
     781             : 
     782           0 :         IncrementalStMan incrStMan0("Array_ID",cache_val);
     783           0 :         newtab.bindColumn(MS::columnName(MS::ARRAY_ID), incrStMan0);
     784           0 :         IncrementalStMan incrStMan1("EXPOSURE",cache_val);
     785           0 :         newtab.bindColumn(MS::columnName(MS::EXPOSURE), incrStMan1);
     786           0 :         IncrementalStMan incrStMan2("FEED1",cache_val);
     787           0 :         newtab.bindColumn(MS::columnName(MS::FEED1), incrStMan2);
     788           0 :         IncrementalStMan incrStMan3("FEED2",cache_val);
     789           0 :         newtab.bindColumn(MS::columnName(MS::FEED2), incrStMan3);
     790           0 :         IncrementalStMan incrStMan4("FIELD_ID",cache_val);
     791           0 :         newtab.bindColumn(MS::columnName(MS::FIELD_ID), incrStMan4);
     792             :     // jagonzal (CAS-6746): Don't use IncrementalStMan with RW cols ///////////////////////////////////////////////////
     793             :     //IncrementalStMan incrStMan5("FLAG_ROW",cache_val/4);
     794             :     //newtab.bindColumn(MS::columnName(MS::FLAG_ROW), incrStMan5);
     795           0 :     StandardStMan aipsStManFlagRow("FLAG_ROW", cache_val/4);
     796           0 :     newtab.bindColumn(MS::columnName(MS::FLAG_ROW), aipsStManFlagRow);
     797             :     ///////////////////////////////////////////////////////////////////////////////////////////////////////////////////
     798           0 :         IncrementalStMan incrStMan6("INTERVAL",cache_val);
     799           0 :         newtab.bindColumn(MS::columnName(MS::INTERVAL), incrStMan6);
     800           0 :         IncrementalStMan incrStMan7("OBSERVATION_ID",cache_val);
     801           0 :         newtab.bindColumn(MS::columnName(MS::OBSERVATION_ID), incrStMan7);
     802           0 :         IncrementalStMan incrStMan8("PROCESSOR_ID",cache_val);
     803           0 :         newtab.bindColumn(MS::columnName(MS::PROCESSOR_ID), incrStMan8);
     804           0 :         IncrementalStMan incrStMan9("SCAN_NUMBER",cache_val);
     805           0 :         newtab.bindColumn(MS::columnName(MS::SCAN_NUMBER), incrStMan9);
     806           0 :         IncrementalStMan incrStMan10("STATE_ID",cache_val);
     807           0 :         newtab.bindColumn(MS::columnName(MS::STATE_ID), incrStMan10);
     808           0 :         IncrementalStMan incrStMan11("TIME",cache_val);
     809           0 :         newtab.bindColumn(MS::columnName(MS::TIME), incrStMan11);
     810           0 :         IncrementalStMan incrStMan12("TIME_CENTROID",cache_val);
     811           0 :         newtab.bindColumn(MS::columnName(MS::TIME_CENTROID), incrStMan12);
     812             : 
     813             :         // Bind ANTENNA1, ANTENNA2 and DATA_DESC_ID to the standardStMan
     814             :         // as they may change sufficiently frequently to make the
     815             :         // incremental storage manager inefficient for these columns.
     816             : 
     817             : 
     818           0 :         StandardStMan aipsStMan0("ANTENNA1", cache_val);
     819           0 :         newtab.bindColumn(MS::columnName(MS::ANTENNA1), aipsStMan0);
     820           0 :         StandardStMan aipsStMan1("ANTENNA2", cache_val);
     821           0 :         newtab.bindColumn(MS::columnName(MS::ANTENNA2), aipsStMan1);
     822           0 :         StandardStMan aipsStMan2("DATA_DESC_ID", cache_val);
     823           0 :         newtab.bindColumn(MS::columnName(MS::DATA_DESC_ID), aipsStMan2);
     824             : 
     825             : 
     826             :         //    itsLog << LogOrigin("MSFitsInput", "setupMeasurementSet");
     827             :         //itsLog << LogIO::NORMAL << "Using tile shape "<<tileShape <<" for "<<
     828             :         //  array_p<<" with obstype="<< obsType<<LogIO::POST;
     829             : 
     830             :         //    TiledShapeStMan tiledStMan1("TiledData",tileShape);
     831           0 :         TiledShapeStMan tiledStMan1f("TiledFlag",tileShape);
     832             :         TiledShapeStMan tiledStMan1fc("TiledFlagCategory",
     833           0 :                         IPosition(4,tileShape(0),tileShape(1),1,
     834           0 :                                         tileShape(2)));
     835           0 :         TiledShapeStMan tiledStMan2("TiledWgtSpectrum",tileShape);
     836           0 :         TiledColumnStMan tiledStMan3("TiledUVW",IPosition(2, 3, (tileShape(0) * tileShape(1) * tileShape(2)) / 3));
     837             :         TiledShapeStMan tiledStMan4("TiledWgt",
     838           0 :                         IPosition(2,tileShape(0), tileShape(1) * tileShape(2)));
     839             :         TiledShapeStMan tiledStMan5("TiledSigma",
     840           0 :                         IPosition(2,tileShape(0), tileShape(1) * tileShape(2)));
     841             : 
     842             :         // Bind the DATA, FLAG & WEIGHT_SPECTRUM columns to the tiled stman
     843             : 
     844           0 :         if (mustWriteOnlyToData){
     845           0 :                 TiledShapeStMan tiledStMan1Data("TiledDATA",tileShape);
     846             : 
     847           0 :                 newtab.bindColumn(MS::columnName(MS::DATA), tiledStMan1Data);
     848           0 :         }
     849             :         else{
     850           0 :                 for(uInt i = 0; i < ncols; ++i){
     851           0 :                         TiledShapeStMan tiledStMan1Data(tiledDataNames[i], tileShape);
     852             : 
     853           0 :                         newtab.bindColumn(MS::columnName(colNamesTok[i]), tiledStMan1Data);
     854           0 :                 }
     855             : 
     856             :         }
     857           0 :         newtab.bindColumn(MS::columnName(MS::FLAG),tiledStMan1f);
     858           0 :         newtab.bindColumn(MS::columnName(MS::FLAG_CATEGORY),tiledStMan1fc);
     859           0 :         newtab.bindColumn(MS::columnName(MS::WEIGHT_SPECTRUM),tiledStMan2);
     860             : 
     861           0 :         newtab.bindColumn(MS::columnName(MS::UVW),tiledStMan3);
     862           0 :         newtab.bindColumn(MS::columnName(MS::WEIGHT),tiledStMan4);
     863           0 :         newtab.bindColumn(MS::columnName(MS::SIGMA),tiledStMan5);
     864             : 
     865             :         // Copy the subtables to the output table BEFORE converting it to an MS or
     866             :         // adding (additional) locking.
     867           0 :         Table realtab(newtab);
     868           0 :         TableCopy::copySubTables(realtab, inms);
     869           0 :         realtab.flush();
     870             : 
     871             :         // avoid lock overheads by locking the table permanently
     872           0 :         TableLock lock(TableLock::AutoLocking);
     873           0 :         MeasurementSet *ms = new MeasurementSet(realtab.tableName(), lock, Table::Update);
     874             : 
     875             :         { // Set the TableInfo
     876             : 
     877           0 :                 TableInfo& info(ms->tableInfo());
     878           0 :                 info.setType(TableInfo::type(TableInfo::MEASUREMENTSET));
     879           0 :                 info.setSubType(String("UVFITS"));
     880             :                 info.readmeAddLine
     881           0 :                 ("This is a measurement set Table holding astronomical observations");
     882             : 
     883             :         }
     884             : 
     885           0 :         return ms;
     886           0 : }
     887             : 
     888             : // This method is currently not called in Partition.  It should really be called
     889             : // in setupMS, but that has been made into a static method and it cannot be
     890             : // called there.  The ms argument is unused, but it is there to preserve the
     891             : // signature, even though it causes a compiler warning.
     892             : //
     893           0 : void Partition::verifyColumns(const MeasurementSet&, // ms,
     894             :                 const Vector<MS::PredefinedColumns>& colNames)
     895             : {
     896           0 :         LogIO os(LogOrigin("Partition", "verifyColumns()"));
     897           0 :         for(uInt i = 0; i < colNames.nelements(); ++i){
     898           0 :                 if(!ms_p.tableDesc().isColumn(MS::columnName(colNames[i]))){
     899           0 :                         ostringstream ostr;
     900           0 :                         ostr << "Desired column (" << MS::columnName(colNames[i])
     901           0 :                         << ") not found in the input MS (" << ms_p.tableName() << ").";
     902           0 :                         throw(AipsError(ostr.str()));
     903           0 :                 }
     904             :         }
     905           0 : }
     906             : 
     907           0 : Bool Partition::fillAccessoryMainCols(){
     908           0 :         LogIO os(LogOrigin("Partition", "fillAccessoryMainCols()"));
     909           0 :         uInt nrows = mssel_p.nrow();
     910             : 
     911           0 :         msOut_p.addRow(nrows, true);
     912             : 
     913             :         //#ifdef COPYTIMER
     914           0 :         Timer timer;
     915           0 :         timer.mark();
     916             :         //#endif
     917           0 :         msc_p->antenna1().putColumn(mscIn_p->antenna1().getColumn());
     918           0 :         msc_p->antenna2().putColumn(mscIn_p->antenna2().getColumn());
     919             :         os << LogIO::DEBUG1
     920             :                         << "Copying ANTENNA* took " << timer.real() << "s."
     921           0 :                         << LogIO::POST;
     922             : 
     923           0 :         timer.mark();
     924           0 :         msc_p->feed1().putColumn(mscIn_p->feed1().getColumn());
     925           0 :         msc_p->feed2().putColumn(mscIn_p->feed2().getColumn());
     926             :         os << LogIO::DEBUG1
     927             :                         << "Copying FEED* took " << timer.real() << "s."
     928           0 :                         << LogIO::POST;
     929             : 
     930           0 :         timer.mark();
     931           0 :         msc_p->exposure().putColumn(mscIn_p->exposure().getColumn());
     932             :         os << LogIO::DEBUG1
     933             :                         << "Copying EXPOSURE took " << timer.real() << "s."
     934           0 :                         << LogIO::POST;
     935             : 
     936           0 :         timer.mark();
     937           0 :         msc_p->flagRow().putColumn(mscIn_p->flagRow().getColumn());
     938             :         os << LogIO::DEBUG1
     939             :                         << "Copying flagRow took " << timer.real() << "s."
     940           0 :                         << LogIO::POST;
     941             : 
     942           0 :         timer.mark();
     943           0 :         msc_p->interval().putColumn(mscIn_p->interval().getColumn());
     944             :         os << LogIO::DEBUG1
     945             :                         << "Copying INTERVAL took " << timer.real() << "s."
     946           0 :                         << LogIO::POST;
     947             : 
     948           0 :         timer.mark();
     949           0 :         msc_p->scanNumber().putColumn(mscIn_p->scanNumber().getColumn());
     950             :         os << LogIO::DEBUG1
     951             :                         << "Copying scanNumber took " << timer.real() << "s."
     952           0 :                         << LogIO::POST;
     953             : 
     954           0 :         timer.mark();
     955           0 :         msc_p->time().putColumn(mscIn_p->time().getColumn());
     956             :         os << LogIO::DEBUG1
     957             :                         << "Copying TIME took " << timer.real() << "s."
     958           0 :                         << LogIO::POST;
     959             : 
     960           0 :         timer.mark();
     961           0 :         msc_p->timeCentroid().putColumn(mscIn_p->timeCentroid().getColumn());
     962             :         os << LogIO::DEBUG1
     963             :                         << "Copying timeCentroid took " << timer.real() << "s."
     964           0 :                         << LogIO::POST;
     965             : 
     966           0 :         timer.mark();
     967           0 :         msc_p->dataDescId().putColumn(mscIn_p->dataDescId().getColumn());
     968           0 :         msc_p->fieldId().putColumn(mscIn_p->fieldId().getColumn());
     969           0 :         msc_p->arrayId().putColumn(mscIn_p->arrayId().getColumn());
     970           0 :         msc_p->stateId().putColumn(mscIn_p->stateId().getColumn());
     971           0 :         msc_p->processorId().putColumn(mscIn_p->processorId().getColumn());
     972           0 :         msc_p->observationId().putColumn(mscIn_p->observationId().getColumn());
     973             :         os << LogIO::DEBUG1
     974             :                         << "Copying DDID, FIELD, ARRAY_ID, STATE, PROC, and OBS took "
     975             :                         << timer.real() << "s."
     976           0 :                         << LogIO::POST;
     977             : 
     978             :         // ScalarMeasColumn doesn't have a putColumn() for some reason.
     979             :         //msc_p->uvwMeas().putColumn(mscIn_p->uvwMeas());
     980           0 :         timer.mark();
     981             :         //msc_p->uvw().putColumn(mscIn_p->uvw());      // 98s for 4.7e6 rows
     982             : 
     983             :         // 3.06s for 4.7e6 rows
     984             :         //RefRows refrows(0,  nrows - 1);
     985             :         //msc_p->uvw().putColumnCells(refrows, mscIn_p->uvw().getColumn());
     986             : 
     987           0 :         msc_p->uvw().putColumn(mscIn_p->uvw().getColumn());   // 2.74s for 4.7e6 rows
     988             :         os << LogIO::DEBUG1
     989             :                         << "Copying uvw took " << timer.real() << "s."
     990           0 :                         << LogIO::POST;
     991             : 
     992           0 :         timer.mark();
     993           0 :         return true;
     994           0 : }
     995             : 
     996           0 : Bool Partition::fillMainTable(const Vector<MS::PredefinedColumns>& colNames)
     997             : {  
     998           0 :         LogIO os(LogOrigin("Partition", "fillMainTable()"));
     999           0 :         Bool success = true;
    1000           0 :         Timer timer;
    1001             : 
    1002           0 :         fillAccessoryMainCols();
    1003             : 
    1004             :         //Deal with data
    1005           0 :         ArrayColumn<Complex> data;
    1006           0 :         Vector<MS::PredefinedColumns> complexCols;
    1007           0 :         const Bool doFloat = SubMS::sepFloat(colNames, complexCols);
    1008           0 :         const uInt nDataCols = complexCols.nelements();
    1009           0 :         const Bool writeToDataCol = SubMS::mustConvertToData(nDataCols, complexCols);
    1010             : 
    1011             :         // timer.mark();
    1012             :         // msc_p->weight().putColumn(mscIn_p->weight());
    1013             :         // os << LogIO::DEBUG1
    1014             :         //    << "Copying weight took " << timer.real() << "s."
    1015             :         //    << LogIO::POST;
    1016             :         // timer.mark();
    1017             :         // msc_p->sigma().putColumn(mscIn_p->sigma());
    1018             :         // os << LogIO::DEBUG1
    1019             :         //    << "Copying SIGMA took " << timer.real() << "s."
    1020             :         //    << LogIO::POST;
    1021             : 
    1022             :         // timer.mark();
    1023             :         // msc_p->flag().putColumn(mscIn_p->flag());
    1024             :         // os << LogIO::DEBUG1
    1025             :         //    << "Copying FLAG took " << timer.real() << "s."
    1026             :         //    << LogIO::POST;
    1027             : 
    1028           0 :         os << LogIO::DEBUG1;
    1029           0 :         Bool didFC = false;
    1030           0 :         timer.mark();
    1031           0 :         if(!mscIn_p->flagCategory().isNull() &&
    1032           0 :                         mscIn_p->flagCategory().isDefined(0)){
    1033           0 :                 IPosition fcshape(mscIn_p->flagCategory().shape(0));
    1034           0 :                 IPosition fshape(mscIn_p->flag().shape(0));
    1035             : 
    1036             :                 // I don't know or care how many flag categories there are.
    1037           0 :                 if(fcshape(0) == fshape(0) && fcshape(1) == fshape(1)){
    1038           0 :                         msc_p->flagCategory().putColumn(mscIn_p->flagCategory());
    1039           0 :                         os << "Copying FLAG_CATEGORY took " << timer.real() << "s.";
    1040           0 :                         didFC = true;
    1041             :                 }
    1042           0 :         }
    1043           0 :         if(!didFC)
    1044           0 :                 os << "Deciding not to copy FLAG_CATEGORY took " << timer.real() << "s.";
    1045           0 :         os << LogIO::POST;
    1046             : 
    1047           0 :         timer.mark();
    1048           0 :         copyDataFlagsWtSp(complexCols, writeToDataCol);
    1049           0 :         if(doFloat)
    1050           0 :                 msc_p->floatData().putColumn(mscIn_p->floatData());
    1051             : 
    1052             :         os << LogIO::DEBUG1
    1053             :                         << "Total data read/write time = " << timer.real()
    1054           0 :                         << LogIO::POST;
    1055             : 
    1056           0 :         return success;
    1057           0 : }
    1058             : 
    1059           0 : Bool Partition::getDataColumn(ArrayColumn<Complex>& data,
    1060             :                 const MS::PredefinedColumns colName)
    1061             : {
    1062           0 :         if(colName == MS::DATA)
    1063           0 :                 data.reference(mscIn_p->data());
    1064           0 :         else if(colName == MS::MODEL_DATA)
    1065           0 :                 data.reference(mscIn_p->modelData());
    1066           0 :         else if(colName == MS::LAG_DATA)
    1067           0 :                 data.reference(mscIn_p->lagData());
    1068             :         else                                // The honored-by-time-if-nothing-else
    1069           0 :                 data.reference(mscIn_p->correctedData()); // default.
    1070           0 :         return true;
    1071             : }
    1072             : 
    1073           0 : Bool Partition::getDataColumn(ArrayColumn<Float>& data,
    1074             :                 const MS::PredefinedColumns colName)
    1075             : {
    1076           0 :         LogIO os(LogOrigin("Partition", "getDataColumn()"));
    1077             : 
    1078           0 :         if(colName != MS::FLOAT_DATA)
    1079             :                 os << LogIO::WARN
    1080             :                 << "Using FLOAT_DATA (because it has type Float) instead of the requested "
    1081             :                 << colName
    1082           0 :                 << LogIO::POST;
    1083             : 
    1084           0 :         data.reference(mscIn_p->floatData());
    1085           0 :         return true;
    1086           0 : }
    1087             : 
    1088           0 : Bool Partition::putDataColumn(MSColumns& msc, ArrayColumn<Complex>& data, 
    1089             :                 const MS::PredefinedColumns colName,
    1090             :                 const Bool writeToDataCol)
    1091             : {
    1092           0 :         if(writeToDataCol || colName == MS::DATA)
    1093           0 :                 msc.data().putColumn(data);
    1094           0 :         else if (colName ==  MS::MODEL_DATA)
    1095           0 :                 msc.modelData().putColumn(data);
    1096           0 :         else if (colName == MS::CORRECTED_DATA)
    1097           0 :                 msc.correctedData().putColumn(data);
    1098             :         //else if(colName == MS::FLOAT_DATA)              // promotion from Float
    1099             :         //  msc.floatData().putColumn(data);              // to Complex is pvt?
    1100           0 :         else if(colName == MS::LAG_DATA)
    1101           0 :                 msc.lagData().putColumn(data);
    1102             :         else
    1103           0 :                 return false;
    1104           0 :         return true;
    1105             : }
    1106             : 
    1107           0 : Bool Partition::copyDataFlagsWtSp(const Vector<MS::PredefinedColumns>& colNames,
    1108             :                 const Bool writeToDataCol)
    1109             : {
    1110           0 :         Block<Int> columns;
    1111             :         // include scan and state iteration, for more optimal iteration
    1112           0 :         columns.resize(6);
    1113           0 :         columns[0]=MS::ARRAY_ID;
    1114           0 :         columns[1]=MS::SCAN_NUMBER;
    1115           0 :         columns[2]=MS::STATE_ID;
    1116           0 :         columns[3]=MS::FIELD_ID;
    1117           0 :         columns[4]=MS::DATA_DESC_ID;
    1118           0 :         columns[5]=MS::TIME;
    1119             : 
    1120             : #ifdef COPYTIMER
    1121             :         Timer timer;
    1122             :         timer.mark();
    1123             : 
    1124             :         Vector<Int> inscan, outscan;
    1125             : #endif
    1126             : 
    1127           0 :         ROVisIter viIn(mssel_p,columns,0.0);
    1128           0 :         VisIter viOut(msOut_p,columns,0.0);
    1129           0 :         viIn.setRowBlocking(1000);
    1130           0 :         viOut.setRowBlocking(1000);
    1131           0 :         Int iChunk(0), iChunklet(0);
    1132           0 :         Cube<Complex> data;
    1133           0 :         Cube<Bool> flag;
    1134             : 
    1135           0 :         Matrix<Float> wtmat;
    1136           0 :         viIn.originChunks();                                // Makes me feel better.
    1137           0 :         const Bool doWtSp(viIn.existsWeightSpectrum());
    1138           0 :         Cube<Float> wtsp;
    1139             : 
    1140           0 :         uInt ninrows = mssel_p.nrow();
    1141             :         ProgressMeter meter(0.0, ninrows * 1.0, "partition", "rows copied", "", "",
    1142           0 :                         true, 1);
    1143           0 :         uInt inrowsdone = 0;  // only for the meter.
    1144             : 
    1145           0 :         for (iChunk=0,viOut.originChunks(),viIn.originChunks();
    1146           0 :                         viOut.moreChunks(),viIn.moreChunks();
    1147           0 :                         viOut.nextChunk(),viIn.nextChunk(),++iChunk) {
    1148           0 :                 inrowsdone += viIn.nRowChunk();
    1149             : 
    1150             :                 // The following can help evaluable in/out index alignment
    1151             :                 /*
    1152             :       cout << "****iChunk=" << iChunk 
    1153             :       << " scn: " << viIn.scan(inscan)(0) << "/" << viOut.scan(outscan)(0) << "   "
    1154             :       << "fld: " << viIn.fieldId() << "/"  << viOut.fieldId() << "   "
    1155             :       << "ddi: " << viIn.dataDescriptionId() << "/" << viOut.dataDescriptionId() << "   "
    1156             :       << "spw: " << viIn.spectralWindow() << "/"  << viOut.spectralWindow() << "   "
    1157             :       << endl;
    1158             :                  */
    1159           0 :                 for (iChunklet=0,viIn.origin(),viOut.origin();
    1160           0 :                                 viIn.more(),viOut.more();
    1161           0 :                                 viIn++,viOut++,++iChunklet) { //
    1162             : 
    1163             :                         //      cout << "nRows = " << viIn.nRow() << "/" << viOut.nRow() << endl;
    1164             : 
    1165             : #ifdef COPYTIMER
    1166             :                         timer.mark();
    1167             : #endif
    1168           0 :                         viIn.flag(flag);
    1169           0 :                         viOut.setFlag(flag);
    1170           0 :                         viIn.weightMat(wtmat);
    1171           0 :                         viOut.setWeightMat(wtmat);
    1172           0 :                         viIn.sigmaMat(wtmat);           // Yes, I'm reusing wtmat.
    1173           0 :                         viOut.setSigmaMat(wtmat);
    1174           0 :                         if(doWtSp){
    1175           0 :                                 viIn.weightSpectrum(wtsp);
    1176           0 :                                 viOut.setWeightSpectrum(wtsp);
    1177             :                         }
    1178             : 
    1179           0 :                         for(Int colnum = colNames.nelements(); colnum--;){
    1180           0 :                                 if(writeToDataCol || colNames[colnum] == MS::DATA) {
    1181             :                                         // write DATA, MODEL_DATA, or CORRECTED_DATA to DATA
    1182           0 :                                         switch (colNames[colnum]) {
    1183           0 :                                         case MS::DATA:
    1184           0 :                                                 viIn.visibility(data,VisibilityIterator::Observed);
    1185           0 :                                                 break;
    1186           0 :                                         case MS::MODEL_DATA:
    1187           0 :                                                 viIn.visibility(data,VisibilityIterator::Model);
    1188           0 :                                                 break;
    1189           0 :                                         case MS::CORRECTED_DATA:
    1190           0 :                                                 viIn.visibility(data,VisibilityIterator::Corrected);
    1191           0 :                                                 break;
    1192           0 :                                         default:
    1193           0 :                                                 throw(AipsError("Unrecognized input column!"));
    1194             :                                                 break;
    1195             :                                         }
    1196           0 :                                         viOut.setVis(data,VisibilityIterator::Observed);
    1197             :                                 }
    1198           0 :                                 else if (colNames[colnum] ==  MS::MODEL_DATA) {
    1199             :                                         // write MODEL_DATA to MODEL_DATA
    1200           0 :                                         viIn.visibility(data,VisibilityIterator::Model);
    1201           0 :                                         viOut.setVis(data,VisibilityIterator::Model);
    1202             :                                 }
    1203           0 :                                 else if (colNames[colnum] == MS::CORRECTED_DATA) {
    1204             :                                         // write CORRECTED_DATA to CORRECTED_DATA
    1205           0 :                                         viIn.visibility(data,VisibilityIterator::Corrected);
    1206           0 :                                         viOut.setVis(data,VisibilityIterator::Corrected);
    1207             :                                 }
    1208             :                                 //else if(colNames[colnum] == MS::FLOAT_DATA)              // TBD
    1209             :                                 //      else if(colNames[colnum] == MS::LAG_DATA)      // TBD
    1210             :                                 else
    1211           0 :                                         return false;
    1212             :                         }
    1213             : 
    1214             : #ifdef COPYTIMER        
    1215             :                         Double t=timer.real();
    1216             :                         cout << "Chunk: " << iChunk << " " << iChunklet
    1217             :                                         << " scn: " << viIn.scan(inscan)(0) << "/" << viOut.scan(outscan)(0)
    1218             :                                         << "   "
    1219             :                                         << " spw: " << viIn.spectralWindow() << "/"  << viOut.spectralWindow()
    1220             :                                         << " : "
    1221             :                                         << data.nelements() << " cells = "
    1222             :                                         << data.nelements()*8.e-6 << " MB in "
    1223             :                                         << t << " sec, for " << data.nelements()*8.e-6/t << " MB/s"
    1224             :                                         << endl;
    1225             : #endif
    1226             : 
    1227             :                 }
    1228           0 :                 meter.update(inrowsdone);
    1229             :         }
    1230           0 :         msOut_p.flush();
    1231           0 :         return true;
    1232           0 : }
    1233             : 
    1234           0 : Bool Partition::putDataColumn(MSColumns& msc, ArrayColumn<Float>& data, 
    1235             :                 const MS::PredefinedColumns colName,
    1236             :                 const Bool writeToDataCol)
    1237             : {
    1238           0 :         LogIO os(LogOrigin("Partition", "putDataColumn()"));
    1239             : 
    1240           0 :         if(writeToDataCol)
    1241             :                 os << LogIO::NORMAL
    1242             :                 << "Writing to FLOAT_DATA instead of DATA."
    1243           0 :                 << LogIO::POST;
    1244             : 
    1245           0 :         if(colName == MS::FLOAT_DATA){
    1246           0 :                 msc.floatData().putColumn(data);
    1247             :         }
    1248             :         else{
    1249             :                 os << LogIO::SEVERE
    1250             :                                 << "Float data cannot be written to "
    1251             :                                 << MS::columnName(colName)
    1252           0 :                 << LogIO::POST;
    1253           0 :                 return false;
    1254             :         }
    1255           0 :         return true;
    1256           0 : }
    1257             : 
    1258           0 : Bool Partition::doTimeAver(const Vector<MS::PredefinedColumns>& dataColNames)
    1259             : {
    1260           0 :         LogIO os(LogOrigin("Partition", "doTimeAver()"));
    1261             : 
    1262             :         os << LogIO::DEBUG1 // helpdesk ticket from Oleg Smirnov (ODU-232630)
    1263             :                         << "Before msOut_p.addRow(): "
    1264           0 :                         << Memory::allocatedMemoryInBytes() / (1024.0 * 1024.0) << " MB"
    1265           0 :                         << LogIO::POST;
    1266             : 
    1267           0 :         Vector<MS::PredefinedColumns> cmplxColLabels;
    1268           0 :         const Bool doFloat = SubMS::sepFloat(dataColNames, cmplxColLabels);
    1269           0 :         const uInt nCmplx = cmplxColLabels.nelements();
    1270           0 :         if(doFloat && cmplxColLabels.nelements() > 0)           // 2010-12-14
    1271             :                 os << LogIO::WARN
    1272             :                 << "Using VisibilityIterator to average both FLOAT_DATA and another DATA column is extremely experimental."
    1273           0 :                 << LogIO::POST;
    1274             : 
    1275           0 :         ArrayColumn<Complex> *outCmplxCols = new ArrayColumn<Complex>[nCmplx];
    1276           0 :         getDataColMap(msc_p, outCmplxCols, nCmplx, cmplxColLabels);
    1277             : 
    1278             :         // We may need to watch for chunks (timebins) that should be split because of
    1279             :         // changes in scan, etc. (CAS-2401).  The old split way would have
    1280             :         // temporarily shortened timeBin, but vi.setInterval() does not work without
    1281             :         // calling vi.originChunks(), so that approach does not work with
    1282             :         // VisibilityIterator.  Instead, get VisibilityIterator's sort (which also
    1283             :         // controls how the chunks are split) to do the work.
    1284             : 
    1285             :         // Already separated by the chunking.
    1286             :         //const Bool watch_array(!combine_p.contains("arr")); // Pirate talk for "array".
    1287             : 
    1288           0 :         const Bool watch_scan(!combine_p.contains("scan"));
    1289           0 :         const Bool watch_state(!combine_p.contains("state"));
    1290           0 :         const Bool watch_obs(!combine_p.contains("obs"));
    1291           0 :         uInt n_cols_to_watch = 4;     // At least.
    1292             : 
    1293           0 :         if(watch_scan)
    1294           0 :                 ++n_cols_to_watch;
    1295           0 :         if(watch_state)
    1296           0 :                 ++n_cols_to_watch;
    1297           0 :         if(watch_obs)
    1298           0 :                 ++n_cols_to_watch;
    1299             : 
    1300           0 :         Block<Int> sort(n_cols_to_watch);
    1301           0 :         uInt colnum = 1;
    1302             : 
    1303           0 :         sort[0] = MS::ARRAY_ID;
    1304           0 :         if(watch_scan){
    1305           0 :                 sort[colnum] = MS::SCAN_NUMBER;
    1306           0 :                 ++colnum;
    1307             :         }
    1308           0 :         if(watch_state){
    1309           0 :                 sort[colnum] = MS::STATE_ID;
    1310           0 :                 ++colnum;
    1311             :         }
    1312           0 :         sort[colnum] = MS::FIELD_ID;
    1313           0 :         ++colnum;
    1314           0 :         sort[colnum] = MS::DATA_DESC_ID;
    1315           0 :         ++colnum;
    1316           0 :         sort[colnum] = MS::TIME;
    1317           0 :         ++colnum;
    1318           0 :         if(watch_obs)
    1319           0 :                 sort[colnum] = MS::OBSERVATION_ID;
    1320             : 
    1321             :         // MSIter tends to produce output INTERVALs that are longer than the
    1322             :         // requested interval length, by ~0.5 input integrations for a random
    1323             :         // timeBin_p.  Giving it timeBin_p - 0.5 * interval[0] removes the bias and
    1324             :         // brings it almost in line with binTimes() (which uses -0.5 *
    1325             :         // interval[bin_start]).
    1326             :         //
    1327             :         // late April 2011: MSIter removed the bias, which threw off the correction.
    1328             :         //
    1329           0 :         ROVisibilityIterator vi(mssel_p, sort,
    1330             :                         //timeBin_p - 0.5 * mscIn_p->interval()(0));
    1331           0 :                         timeBin_p);
    1332             :         //vi.slurp();
    1333             :         //cerr << "Finished slurping." << endl;
    1334             : 
    1335           0 :         const Bool doSpWeight = vi.existsWeightSpectrum();
    1336             : 
    1337             :         //os << LogIO::NORMAL2 << "outNrow = " << msOut_p.nrow() << LogIO::POST;
    1338           0 :         uInt rowsdone = 0;    // Output rows, used for the RefRows.
    1339             : 
    1340           0 :         uInt ninrows = mssel_p.nrow();
    1341             :         ProgressMeter meter(0.0, ninrows * 1.0, "partition", "rows averaged", "", "",
    1342           0 :                         true, 1);
    1343           0 :         uInt inrowsdone = 0;  // only for the meter.
    1344             : 
    1345           0 :         VisChunkAverager vca(dataColNames, doSpWeight);
    1346             : 
    1347             :         // Iterate through the chunks.  A timebin will have multiple chunks if it has
    1348             :         // > 1 arrays, fields, or ddids.
    1349           0 :         for(vi.originChunks(); vi.moreChunks(); vi.nextChunk()){
    1350           0 :                 vca.reset();        // Should be done at the start of each chunk.
    1351             : 
    1352           0 :                 inrowsdone += vi.nRowChunk();
    1353             : 
    1354             :                 // Fill and time average vi's current chunk.
    1355           0 :                 VisBuffer& avb(vca.average(vi));
    1356           0 :                 uInt rowsnow = avb.nRow();
    1357             : 
    1358           0 :                 if(rowsnow > 0){
    1359           0 :                         RefRows rowstoadd(rowsdone, rowsdone + rowsnow - 1);
    1360             : 
    1361             :                         // msOut_p.addRow(rowsnow, true);
    1362           0 :                         msOut_p.addRow(rowsnow);            // Try it without initialization.
    1363             : 
    1364             :                         //    relabelIDs();
    1365             : 
    1366             :                         // avb.freqAveCubes();  // Watch out, weight must currently be handled separately.
    1367             : 
    1368             :                         // // Fill in the nonaveraging values from slotv0.
    1369           0 :                         msc_p->antenna1().putColumnCells(rowstoadd, avb.antenna1());
    1370           0 :                         msc_p->antenna2().putColumnCells(rowstoadd, avb.antenna2());
    1371             : 
    1372           0 :                         Vector<Int> arrID(rowsnow);
    1373           0 :                         arrID.set(avb.arrayId());
    1374           0 :                         msc_p->arrayId().putColumnCells(rowstoadd, arrID);
    1375             : 
    1376             :                         // outCmplxCols determines whether the input column is output to DATA or not.
    1377           0 :                         for(uInt datacol = 0; datacol < nCmplx; ++datacol){
    1378           0 :                                 if(dataColNames[datacol] == MS::DATA)
    1379           0 :                                         outCmplxCols[datacol].putColumnCells(rowstoadd, avb.visCube());
    1380           0 :                                 else if(dataColNames[datacol] == MS::MODEL_DATA)
    1381           0 :                                         outCmplxCols[datacol].putColumnCells(rowstoadd, avb.modelVisCube());
    1382           0 :                                 else if(dataColNames[datacol] == MS::CORRECTED_DATA)
    1383           0 :                                         outCmplxCols[datacol].putColumnCells(rowstoadd, avb.correctedVisCube());
    1384             :                         }
    1385           0 :                         if(doFloat)
    1386           0 :                                 msc_p->floatData().putColumnCells(rowstoadd, avb.floatDataCube());
    1387             : 
    1388           0 :                         Vector<Int> ddID(rowsnow);
    1389           0 :                         ddID.set(avb.dataDescriptionId());
    1390           0 :                         msc_p->dataDescId().putColumnCells(rowstoadd, ddID);
    1391             : 
    1392           0 :                         msc_p->exposure().putColumnCells(rowstoadd, avb.exposure());
    1393           0 :                         msc_p->feed1().putColumnCells(rowstoadd, avb.feed1());
    1394           0 :                         msc_p->feed2().putColumnCells(rowstoadd, avb.feed2());
    1395             : 
    1396           0 :                         Vector<Int> fieldID(rowsnow);
    1397           0 :                         fieldID.set(avb.fieldId());
    1398           0 :                         msc_p->fieldId().putColumnCells(rowstoadd, fieldID);
    1399             : 
    1400           0 :                         msc_p->flagRow().putColumnCells(rowstoadd, avb.flagRow());
    1401           0 :                         msc_p->flag().putColumnCells(rowstoadd, avb.flagCube());
    1402           0 :                         msc_p->interval().putColumnCells(rowstoadd, avb.timeInterval());
    1403             : 
    1404           0 :                         msc_p->observationId().putColumnCells(rowstoadd, avb.observationId());
    1405           0 :                         msc_p->processorId().putColumnCells(rowstoadd, avb.processorId());
    1406             : 
    1407           0 :                         msc_p->scanNumber().putColumnCells(rowstoadd, avb.scan());
    1408           0 :                         msc_p->sigma().putColumnCells(rowstoadd, avb.sigmaMat());
    1409             : 
    1410           0 :                         msc_p->stateId().putColumnCells(rowstoadd, avb.stateId());
    1411             : 
    1412           0 :                         msc_p->time().putColumnCells(rowstoadd, avb.time());
    1413           0 :                         msc_p->timeCentroid().putColumnCells(rowstoadd, avb.timeCentroid());
    1414           0 :                         msc_p->uvw().putColumnCells(rowstoadd, avb.uvwMat());
    1415           0 :                         msc_p->weight().putColumnCells(rowstoadd, avb.weightMat());
    1416           0 :                         if(doSpWeight)
    1417           0 :                                 msc_p->weightSpectrum().putColumnCells(rowstoadd,
    1418           0 :                                                 avb.weightSpectrum());
    1419           0 :                         rowsdone += rowsnow;
    1420           0 :                 }
    1421           0 :                 meter.update(inrowsdone);
    1422             :         }   // End of for(vi.originChunks(); vi.moreChunks(); vi.nextChunk())
    1423           0 :         delete [] outCmplxCols;
    1424           0 :         os << LogIO::NORMAL << "Data binned." << LogIO::POST;
    1425             : 
    1426             :         //const ColumnDescSet& cds = mssel_p.tableDesc().columnDescSet();
    1427             :         //const ColumnDesc& cdesc = cds[MS::columnName(MS::DATA)];
    1428             :         //ROTiledStManAccessor tacc(mssel_p, cdesc.dataManagerGroup());
    1429             :         //tacc.showCacheStatistics(cerr);  // A 99.x% hit rate is good.  0% is bad.
    1430             : 
    1431             :         os << LogIO::DEBUG1 // helpdesk ticket in from Oleg Smirnov (ODU-232630)
    1432             :                         << "Post binning memory: "
    1433           0 :                         << Memory::allocatedMemoryInBytes() / (1024.0 * 1024.0) << " MB"
    1434           0 :                         << LogIO::POST;
    1435             : 
    1436           0 :         if(rowsdone < 1){
    1437             :                 os << LogIO::WARN
    1438             :                                 << "No rows were written.  Is all the selected input flagged?"
    1439           0 :                                 << LogIO::POST;
    1440           0 :                 return false;
    1441             :         }
    1442           0 :         return true;
    1443           0 : }
    1444             : 
    1445           0 : void Partition::getDataColMap(MSMainColumns* msc, ArrayColumn<Complex>* mapper,
    1446             :                 uInt ntok,
    1447             :                 const Vector<MS::PredefinedColumns>& colEnums)
    1448             : {
    1449             :         // Set up a map from dataColumn indices to ArrayColumns in the output.
    1450             :         // mapper has to be a pointer (gasp!), not a Vector, because
    1451             :         // Vector<ArrayColumn<Complex> > mapper(ntok) would implicitly call
    1452             :         // .resize(), which uses =, which is banned for ArrayColumn.
    1453             : 
    1454           0 :         if(SubMS::mustConvertToData(ntok, colEnums)){
    1455           0 :                 mapper[0].reference(msc->data());
    1456             :         }
    1457             :         else{
    1458           0 :                 for(uInt i = 0; i < ntok; ++i){
    1459           0 :                         if(colEnums[i] == MS::CORRECTED_DATA)
    1460           0 :                                 mapper[i].reference(msc->correctedData());
    1461           0 :                         else if(colEnums[i] == MS::MODEL_DATA)
    1462           0 :                                 mapper[i].reference(msc->modelData());
    1463           0 :                         else if(colEnums[i] == MS::LAG_DATA)
    1464           0 :                                 mapper[i].reference(msc->lagData());
    1465             :                         else                                  // The output default !=
    1466           0 :                                 mapper[i].reference(msc->data()); // the input default.
    1467             :                 }
    1468             :         }
    1469           0 : }
    1470             : 
    1471             : } //#End casa namespace

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