LCOV - code coverage report
Current view: top level - flagging/Flagging - RFANewMedianClip.cc (source / functions) Hit Total Coverage
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Date: 2024-10-04 18:58:15 Functions: 0 15 0.0 %

          Line data    Source code
       1             : //# RFANewMedianClip.cc: this defines RFANewMedianClip
       2             : //# Copyright (C) 2000,2001,2002,2003,2004
       3             : //# Associated Universities, Inc. Washington DC, USA.
       4             : //#
       5             : //# This library is free software; you can redistribute it and/or modify it
       6             : //# under the terms of the GNU Library General Public License as published by
       7             : //# the Free Software Foundation; either version 2 of the License, or (at your
       8             : //# option) any later version.
       9             : //#
      10             : //# This library is distributed in the hope that it will be useful, but WITHOUT
      11             : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
      12             : //# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Library General Public
      13             : //# License for more details.
      14             : //#
      15             : //# You should have received a copy of the GNU Library General Public License
      16             : //# along with this library; if not, write to the Free Software Foundation,
      17             : //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
      18             : //#
      19             : //# Correspondence concerning AIPS++ should be addressed as follows:
      20             : //#        Internet email: casa-feedback@nrao.edu.
      21             : //#        Postal address: AIPS++ Project Office
      22             : //#                        National Radio Astronomy Observatory
      23             : //#                        520 Edgemont Road
      24             : //#                        Charlottesville, VA 22903-2475 USA
      25             : //#
      26             : //# $Id$
      27             : 
      28             : #include <flagging/Flagging/RFANewMedianClip.h>
      29             : #include <casacore/casa/Arrays/ArrayMath.h>
      30             : #include <msvis/MSVis/VisBuffer.h>
      31             : #include <casacore/casa/System/PGPlotterInterface.h>
      32             : 
      33             : #include <stdio.h>
      34             : using namespace casacore;
      35             : namespace casa { //# NAMESPACE CASA - BEGIN
      36             : 
      37             : // -----------------------------------------------------------------------
      38             : // RFANewMedianClip
      39             : // Accumulator class for computing the median per channels over time.
      40             : // Internally, we store a matrix of nifr x nchan medians.
      41             : // -----------------------------------------------------------------------
      42           0 : RFANewMedianClip::RFANewMedianClip( RFChunkStats &ch,const RecordInterface &parm ) :
      43             :   RFAFlagCubeBase(ch,parm), 
      44             :   RFDataMapper(parm.asArrayString(RF_EXPR),parm.asString(RF_COLUMN)),
      45           0 :   threshold( parm.asDouble(RF_THR) )
      46             : {
      47           0 :   msl = NULL;
      48           0 : }
      49             : 
      50           0 : RFANewMedianClip::~RFANewMedianClip ()
      51             : {
      52           0 :   if( msl ) delete [] msl;
      53           0 : }
      54             : 
      55           0 : uInt RFANewMedianClip::estimateMemoryUse () 
      56             : {
      57           0 :   return RFAFlagCubeBase::estimateMemoryUse() +
      58           0 :     evalue.estimateMemoryUse(num(CHAN),num(IFR),num(TIME)) + 2;
      59             : }
      60             : 
      61             : 
      62           0 : const RecordInterface & RFANewMedianClip::getDefaults ()
      63             : {
      64           0 :   static Record rec;
      65             :   // create record description on first entry
      66           0 :   if( !rec.nfields() )
      67             :   {
      68           0 :     rec = RFAFlagCubeBase::getDefaults();
      69           0 :     rec.define(RF_NAME,"NewTimeMedian");    
      70           0 :     rec.define(RF_COLUMN,"DATA");
      71           0 :     rec.define(RF_EXPR,"+ ABS XX YY");
      72           0 :     rec.define(RF_THR,Double(5));    
      73             :     //    rec.define(RF_DEBUG,false);
      74           0 :     rec.setComment(RF_COLUMN,"Use column: [DATA|MODEL|CORRected]");
      75           0 :     rec.setComment(RF_EXPR,"Expression for deriving value (e.g. \"ABS XX\", \"+ ABS XX YY\")");
      76           0 :     rec.setComment(RF_THR,"Probability cut-off");
      77             :     //    rec.setComment(RF_DEBUG,"Set to [CHAN,IFR] to produce debugging plots");
      78             :   }
      79           0 :   return rec;
      80             : }
      81             : 
      82             : // resets for new calculation
      83           0 : Bool RFANewMedianClip::newChunk (Int &maxmem)
      84             : {
      85             :   // if disk-based flag cube, reserve 2MB for local iterator
      86             :   // compute correlations mask, return false if fails
      87           0 :   corrmask = RFDataMapper::corrMask(chunk.visIter());
      88           0 :   if( !corrmask )
      89             :   {
      90           0 :     os<<LogIO::WARN<<"missing selected correlations, ignoring this chunk\n"<<LogIO::POST;
      91           0 :     return active=false;
      92             :   }
      93             : 
      94           0 :   maxmem -= 2; 
      95           0 :   uInt halfwin = num(TIME)/2;
      96             :   // reserve memory for our bunch of median sliders
      97           0 :   maxmem -= (num(CHAN)*num(IFR)*MedianSlider::objsize(halfwin))/(1024*1024)+1;
      98             : 
      99           0 :   Int mmdiff = (Int)(1.05*evalue.estimateMemoryUse(num(CHAN),num(IFR),num(TIME))); // sufficient memory? reserve it
     100           0 :   if( maxmem>mmdiff ) 
     101           0 :     maxmem -= mmdiff;  
     102             :   else // insufficient memory: use disk-based lattice
     103             :   {
     104           0 :     mmdiff = 0;
     105           0 :     maxmem -= 2; // reserve 2Mb for the iterator anyway
     106             :   }
     107             : 
     108             :   // call parent's newChunk  
     109           0 :   if( !RFAFlagCubeBase::newChunk(maxmem) )
     110           0 :     return active=false;
     111             : 
     112             :   // create temp lattice for evalues
     113           0 :   evalue.init(num(CHAN),num(IFR),num(TIME), num(CORR), nAgent, 0, mmdiff ,2);
     114             :   //init stdev matrix
     115           0 :   stdev.resize(num(CHAN), num(IFR));
     116           0 :   stdev.set(0);
     117           0 :   stdeved = false;
     118             :   // create local flag iterator
     119           0 :   flag_iter = flag.newCustomIter();
     120           0 :   pflagiter = &flag_iter;
     121           0 :   RFAFlagCubeBase::newChunk(maxmem-=1);
     122             : 
     123           0 :   return active=true;
     124             : }
     125             : 
     126           0 : void RFANewMedianClip::endChunk ()
     127             : {
     128           0 :   RFAFlagCubeBase::endChunk();
     129             : // create local flag iterator
     130           0 :   flag_iter = FlagCubeIterator();
     131           0 :   if( msl ) delete [] msl;
     132           0 :   msl = NULL;
     133           0 : }
     134             : 
     135             : // startData
     136             : // create new median sliders at start of data pass
     137           0 : void RFANewMedianClip::startData (bool verbose)
     138             : {
     139             :   //new added
     140           0 :   evalue.reset(false,true);
     141             : 
     142           0 :   RFAFlagCubeBase::startData(verbose);
     143           0 :   flag_iter.reset();
     144             : 
     145           0 :   pflagiter = &flag.iterator();
     146           0 :   if( msl ) delete [] msl;
     147           0 :   globalsigma = 0;
     148             :   // this is a workaround for a compiler bug that we occasionally see
     149           0 :   uInt tmpnum2 = num(CHAN)*num(IFR);
     150           0 :   uInt halfwin = num(TIME)/2;
     151             :   // create nchan x nifr median sliders
     152           0 :   msl = new MedianSlider[tmpnum2];
     153           0 :   for(uInt i=0; i<num(CHAN)*num(IFR); i++)
     154           0 :     msl[i] = MedianSlider(halfwin);
     155           0 :   globalmed = MedianSlider(tmpnum2);
     156           0 : }
     157             : 
     158             : // iterTime
     159           0 : RFA::IterMode RFANewMedianClip::iterTime ( uInt it )
     160             : {
     161           0 :   evalue.advance(it);
     162           0 :   RFAFlagCubeBase::iterTime(it);
     163             :   // gets pointer to visibilities cube
     164           0 :   RFDataMapper::setVisBuffer(chunk.visBuf());
     165             :   // Advance sync flag iterator
     166           0 :   flag.advance(it,true);
     167             : 
     168           0 :   return RFA::CONT;
     169             : }
     170             : 
     171             : // -----------------------------------------------------------------------
     172             : // RFANewMedianClip::iterRow
     173             : // Processes one row of data for per-channel medians over time
     174             : // -----------------------------------------------------------------------
     175           0 : RFA::IterMode RFANewMedianClip::iterRow ( uInt irow )
     176             : {
     177           0 :   uInt iifr = chunk.ifrNum(irow);
     178           0 :   uInt it = chunk.iTime();
     179           0 :   Float val = 0;
     180             : 
     181           0 :   Bool rowfl = chunk.npass() ? flag.rowFlagged(iifr,it) 
     182           0 :                             : flag.rowPreFlagged(iifr,it);
     183           0 :   if( rowfl ) {
     184             :     // the whole row is flagged, so just advance all median sliders
     185           0 :     for( uInt i=0; i<num(CHAN); i++ ) 
     186           0 :       slider(i,iifr).next();
     187             :   } 
     188             :   else {
     189             :     // loop over channels for this spw, ifr
     190           0 :     for( uInt ich=0; ich<num(CHAN); ich++ )
     191             :       {
     192             :         // during first pass, look at pre-flags only. During subsequent passes,
     193             :         // look at all flags
     194           0 :         Bool fl = chunk.npass() ? flag.anyFlagged(ich,iifr) : flag.preFlagged(ich,iifr);
     195           0 :         val = mapValue(ich,irow);
     196           0 :         slider(ich,iifr).add( val,fl ); 
     197           0 :         if( !fl ) {     
     198           0 :           evalue(ich,iifr) = val;
     199             :         }
     200             :       }
     201             :   }
     202           0 :   return RFA::CONT;
     203             : }
     204             : 
     205             : 
     206             : // -----------------------------------------------------------------------
     207             : // RFANewMedianClip::endData
     208             : // Called at end of iteration 
     209             : // -----------------------------------------------------------------------
     210           0 : RFA::IterMode RFANewMedianClip::endData ()
     211             : {
     212           0 :   RFAFlagCubeBase::endData();
     213           0 :   return RFA::DRY;
     214             : }
     215             : 
     216             : 
     217           0 : void RFANewMedianClip::startDry (bool verbose)
     218             : {
     219           0 :   if(!stdeved) 
     220           0 :     RFAFlagCubeBase::startDry(verbose);
     221             :   // reset lattices to read-only
     222           0 :   evalue.reset(true,false);
     223           0 :   pflagiter = &flag.iterator();
     224           0 : }
     225             : 
     226             : 
     227             : 
     228             : // -----------------------------------------------------------------------
     229             : // RFANewMedianClip::iterDry
     230             : // Dry run iterator: recomputes the AAD and does flagging
     231             : // -----------------------------------------------------------------------
     232           0 : RFA::IterMode RFANewMedianClip::iterDry ( uInt it )
     233             : {
     234           0 :   RFAFlagCubeBase::iterDry(it);
     235           0 :   evalue.advance(it);
     236           0 :   Float m = globalmed.median();
     237             :   //  already got standard deviation
     238           0 :   if(stdeved) {
     239           0 :     Float upperdiff = 0;
     240           0 :     Float bottomdiff = 0;
     241           0 :     Float thr = 0;
     242           0 :     Bool asymmetry = false;
     243           0 :     for( uInt ifr=0; ifr<num(IFR); ifr++ ) // outer loop over IFRs
     244             :       {
     245           0 :         for( uInt ich=0; ich<num(CHAN); ich++ ) // loop over channels
     246             :           {
     247             :             //thr = threshold * stdev(ich, ifr);
     248             :             // globalsigma is the average of standard deviations
     249           0 :             thr = threshold * globalsigma;
     250           0 :             if( !flag.anyFlagged(ich, ifr) ) // skip if whole row is flagged
     251             :               {
     252           0 :                 Float d = evalue(ich,ifr);
     253             :                 //      Float m = slider(ich,ifr).median();
     254           0 :                 if( abs(d - m) > thr )   // should be clipped?
     255             :                   {
     256           0 :                     flag.setFlag(ich,ifr, *pflagiter);
     257             :                   }
     258             :                 else {
     259           0 :                   if(d-m > 0 && d - m > upperdiff)
     260           0 :                     upperdiff = d-m;
     261           0 :                   else if( d - m < 0 && d - m < bottomdiff)
     262           0 :                     bottomdiff = d - m;
     263             :                   //              cout << evalue(ich, ifr) << endl;
     264             :                 }
     265             :               }
     266             :           } // for(ich)
     267             :       } // for(ifr)
     268           0 :     if(abs(bottomdiff) > 1.2 * upperdiff || upperdiff > 1.2 * abs(bottomdiff))
     269           0 :       asymmetry = true; 
     270           0 :     if(asymmetry) {
     271             :       //      cout << " flag the asymmetry data" << endl;
     272           0 :       for( uInt ifr=0; ifr<num(IFR); ifr++ ) // outer loop over IFRs
     273             :         {
     274           0 :           for( uInt ich=0; ich<num(CHAN); ich++ ) // loop over channels
     275             :             {
     276             :               //            Float thr = threshold * stdev(ich, ifr);
     277             :               // try global sigma
     278           0 :               if(upperdiff < abs(bottomdiff))
     279           0 :                 thr = upperdiff;
     280             :               else {
     281           0 :                 thr = abs(bottomdiff);
     282             :               }
     283           0 :               if( !flag.anyFlagged(ich, ifr) ) // skip if whole row is flagged
     284             :                 {
     285           0 :                   Float d = evalue(ich,ifr);
     286           0 :                   if( abs(d - m) > thr )   // should be clipped?
     287             :                     {
     288           0 :                       flag.setFlag(ich,ifr, *pflagiter);
     289             :                     }
     290             :                 }
     291             :             } // for(ich)
     292             :         } // for(ifr)
     293             :     }
     294             :   } else { //compute the standard deviation
     295           0 :     for( uInt ifr=0; ifr<num(IFR); ifr++ ) // outer loop over IFRs
     296             :       {
     297           0 :         for( uInt ich=0; ich<num(CHAN); ich++ ) // loop over channels
     298             :           {
     299           0 :             Bool fl = flag.anyFlagged(ich, ifr);
     300           0 :             if(!fl) {
     301           0 :               Float diff = evalue(ich,ifr) - slider(ich,ifr).median();
     302           0 :               stdev(ich, ifr) += diff * diff;
     303             :             }
     304             :           }
     305             :       }
     306             :   } // end else
     307           0 :   return RFA::CONT;
     308             : }
     309             :     
     310           0 : RFA::IterMode RFANewMedianClip::endDry ()
     311             : {
     312           0 :   if(stdeved) {
     313             :     //    cout << " early return " << endl; 
     314           0 :     return RFA::STOP;
     315             :   }
     316           0 :   Bool dummy = false;
     317           0 :   stdeved = true;
     318           0 :   for( uInt ifr=0; ifr<num(IFR); ifr++ ) // outer loop over IFRs
     319             :     {
     320           0 :       for( uInt ich=0; ich<num(CHAN); ich++ ) // loop over channels
     321             :         {
     322           0 :           if(slider(ich, ifr).nval()){
     323           0 :             stdev(ich, ifr) /= slider(ich, ifr).nval();
     324             :             //    cout << "variance " << stdev(ich, ifr) << endl;
     325           0 :             stdev(ich, ifr) = sqrt(stdev(ich, ifr));
     326           0 :             globalmed.add(slider(ich, ifr).median(), dummy);
     327             :           } else {
     328           0 :             stdev(ich, ifr) = 0;
     329             :           }
     330             :         }
     331             :     }
     332           0 :   globalsigma = sum(stdev)/(num(CHAN) * num(IFR));
     333           0 :   return RFA::DRY;
     334             : }
     335             : 
     336             : // -----------------------------------------------------------------------
     337             : // getDesc
     338             : // -----------------------------------------------------------------------
     339           0 : String RFANewMedianClip::getDesc ()
     340             : {
     341           0 :   String desc( RFDataMapper::description()+"; " );
     342             :   char s[256];
     343           0 :   sprintf(s," %s=%f",RF_THR, threshold);
     344           0 :   desc += s;
     345           0 :   return RFAFlagCubeBase::getDesc()+s;
     346           0 : }
     347             : 
     348             : 
     349             : } //# NAMESPACE CASA - END
     350             : 

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