LCOV - code coverage report
Current view: top level - flagging/Flagging - RFDataMapper.cc (source / functions) Hit Total Coverage
Test: casa_coverage.info Lines: 0 120 0.0 %
Date: 2023-10-25 08:47:59 Functions: 0 21 0.0 %

          Line data    Source code
       1             : 
       2             : //# RFDataMapper.cc: this defines RFDataMapper
       3             : //# Copyright (C) 2000,2001
       4             : //# Associated Universities, Inc. Washington DC, USA.
       5             : //#
       6             : //# This library is free software; you can redistribute it and/or modify it
       7             : //# under the terms of the GNU Library General Public License as published by
       8             : //# the Free Software Foundation; either version 2 of the License, or (at your
       9             : //# option) any later version.
      10             : //#
      11             : //# This library is distributed in the hope that it will be useful, but WITHOUT
      12             : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
      13             : //# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Library General Public
      14             : //# License for more details.
      15             : //#
      16             : //# You should have received a copy of the GNU Library General Public License
      17             : //# along with this library; if not, write to the Free Software Foundation,
      18             : //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
      19             : //#
      20             : //# Correspondence concerning AIPS++ should be addressed as follows:
      21             : //#        Internet email: aips2-request@nrao.edu.
      22             : //#        Postal address: AIPS++ Project Office
      23             : //#                        National Radio Astronomy Observatory
      24             : //#                        520 Edgemont Road
      25             : //#                        Charlottesville, VA 22903-2475 USA
      26             : //#
      27             : //# $Id$
      28             : #include <flagging/Flagging/RFDataMapper.h> 
      29             : #include <casacore/casa/Arrays/Slice.h>
      30             : #include <casacore/casa/Arrays/Cube.h>
      31             : #include <casacore/casa/Arrays/ArrayMath.h>
      32             : #include <casacore/casa/Exceptions/Error.h>
      33             : #include <casacore/casa/BasicMath/Math.h>
      34             : #include <casacore/casa/BasicSL/Constants.h>
      35             : #include <msvis/MSVis/VisBuffer.h>
      36             : #include <msvis/MSVis/VisibilityIterator.h>
      37             : #include <casacore/measures/Measures/MDirection.h>
      38             : 
      39             : using namespace casacore;
      40             : namespace casa { //# NAMESPACE CASA - BEGIN
      41             : 
      42             : /*
      43             : // Define functions for mapping a VisBuffer to obsevred, model and corrected
      44             : // visibility cubes
      45             : #define CubeMapper(name,method) \
      46             :   static Cube<Complex> * CubeMap##name ( VisBuffer &vb ) \
      47             :   { return &vb.method(); }
      48             : CubeMapper(Obs,visCube);
      49             : CubeMapper(Model,modelVisCube);
      50             : CubeMapper(Corrected,correctedVisCube);
      51             : #undef CubeMapper
      52             : 
      53             : // Define functions for mapping a VisBuffer to residual
      54             : // visibility cube
      55             : 
      56             : #define CubeMapper1(name,method1,method2) \
      57             :   static Cube<Complex> * CubeMap##name ( VisBuffer &vb ) \
      58             :   { return &(vb.method1() - vb.method2()); }
      59             : CubeMapper(ResCorrected,correctedVisCube,modelVisCube);
      60             : CubeMapper(ResObs,visCube,modelVisCube);
      61             : #undef CubeMapper1
      62             : */
      63             : 
      64             : /// before assigning pviscube..
      65             : /*  vb.visCube() = vb.correctedVisCube() - vb.modelVisCube() */
      66           0 : static Cube<Complex> * CubeMapObs ( VisBuffer &vb ){ return &vb.visCube(); }
      67           0 : static Cube<Complex> * CubeMapModel ( VisBuffer &vb ){ return &vb.modelVisCube(); }
      68           0 : static Cube<Complex> * CubeMapCorrected ( VisBuffer &vb ){ return &vb.correctedVisCube(); }
      69           0 : static Cube<Complex> * CubeMapResCorrected ( VisBuffer &vb )
      70           0 :                                           { vb.visCube() = vb.correctedVisCube() - vb.modelVisCube();
      71           0 :                                             return &vb.visCube(); }
      72             :                                           //{ return &(vb.correctedVisCube() - vb.modelVisCube()); }
      73           0 : static Cube<Complex> * CubeMapResObs ( VisBuffer &vb )
      74           0 :                                           { vb.visCube() = vb.visCube() - vb.modelVisCube();
      75           0 :                                             return &vb.visCube(); }
      76             :                                           //{ return &(vb.visCube() - vb.modelVisCube()); }
      77             : 
      78             : 
      79             : // a dummyRowMapper for uninitialized row mappings
      80           0 : Float RFDataMapper::dummyRowMapper (uInt)
      81             : {
      82           0 :   throw( AipsError("DataMapper: call to unititialized RowMapper") );
      83             : }
      84             : 
      85             : // define a bunch of row mapper for various UVW stuff
      86             : #define UVW ((*puvw)(ir))
      87             : #define UVRowMapper(name,expr) \
      88             :   Float RFDataMapper::name##_RowMapper (uInt ir) \
      89             :   { return expr; }
      90           0 : UVRowMapper(U,UVW(0));
      91           0 : UVRowMapper(V,UVW(1));
      92           0 : UVRowMapper(W,UVW(2));
      93           0 : UVRowMapper(AbsU,abs(UVW(0)));
      94           0 : UVRowMapper(AbsV,abs(UVW(1)));
      95           0 : UVRowMapper(AbsW,abs(UVW(2)));
      96           0 : UVRowMapper(UVD,sqrt(UVW(0)*UVW(0)+UVW(1)*UVW(1)));
      97           0 : UVRowMapper(UVA,atan2(UVW(0),UVW(1))/C::pi*180);
      98           0 : UVRowMapper(HA,sin_dec!=0 ? atan2(UVW(1)/sin_dec,UVW(0))/C::pi*180 : 0 );
      99             : 
     100             : // these arrays define a mapping between column names and cube mappers
     101             : const String 
     102             :        COL_ID[] = { "OBS", "DATA", "MODEL",
     103             :                     "CORR", "CORRECTED",
     104             :                     "RES",
     105             :                     "RES_CORR", "RES_CORRECTED",
     106             :                     "RES_OBS", "RES_DATA"};
     107             : const RFDataMapper::CubeMapperFunc 
     108             :        COL_MAP[] = { &CubeMapObs, &CubeMapObs, &CubeMapModel,
     109             :                      &CubeMapCorrected, &CubeMapCorrected,
     110             :                      &CubeMapResCorrected,
     111             :                      &CubeMapResCorrected, &CubeMapResCorrected,
     112             :                      &CubeMapResObs, &CubeMapResObs};
     113             : 
     114             : // -----------------------------------------------------------------------
     115             : // RFDataMapper::getCubeMapper
     116             : // Maps column name to a cube mapper function
     117             : // -----------------------------------------------------------------------
     118           0 : RFDataMapper::CubeMapperFunc RFDataMapper::getCubeMapper( const String &column,Bool throw_excp )
     119             : { 
     120             : // setup cube mapper
     121           0 :   if( !column.length() )
     122           0 :     return COL_MAP[0];
     123           0 :   String col( upcase(column) );
     124           0 :   for( uInt i=0; i<sizeof(COL_ID)/sizeof(COL_ID[0]); i++ ) {
     125           0 :     if( col.matches(COL_ID[i]) )
     126           0 :       return COL_MAP[i];
     127             :   }
     128           0 :   if( throw_excp )
     129           0 :     throw( AipsError("DataMapper: unknown column "+column) );
     130           0 :   return NULL;
     131             : }
     132             : 
     133             : 
     134             : // -----------------------------------------------------------------------
     135             : // Constructor 1
     136             : // For visibility expressions
     137             : // -----------------------------------------------------------------------
     138           0 : RFDataMapper::RFDataMapper ( const String &colmn,DDMapper *map )
     139             :   : desc(""),
     140             :     ddm(map),
     141             : //    rowmapper(NULL),
     142           0 :     cubemap(getCubeMapper(colmn,true)),
     143           0 :     mytype(MAPCORR)
     144             : { 
     145           0 :   sin_dec = -10;    // need not be computed by default, so set to <-1
     146           0 :   full_cycle = cycle_base = 0;   // by default, mapped values are not cyclic
     147           0 :   rowmapper = &RFDataMapper::dummyRowMapper;
     148           0 : }
     149             : 
     150             : // -----------------------------------------------------------------------
     151             : // Constructor 2
     152             : // For visibility expressions, with explicit column specification
     153             : // -----------------------------------------------------------------------
     154           0 : RFDataMapper::RFDataMapper ( const Vector<String> &expr0,const String &defcol )
     155             :   : expr_desc(""),
     156             :     ddm(NULL),
     157             :     cubemap(NULL),
     158             : //    rowmapper(dummyRowMapper),
     159           0 :     mytype(MAPCORR)
     160             : {
     161           0 :   sin_dec = -10;    // need not be computed by default, so set to <-1
     162           0 :   full_cycle = cycle_base = 0;   // by default, mapped values are not cyclic
     163           0 :   rowmapper = &RFDataMapper::dummyRowMapper;
     164           0 :   Vector<String> expr( splitExpression(expr0) );
     165             : // first, check for per-row expressions (i.e., UVW, etc.)
     166             : // at this point, assume we have a per-row expression (i.e. UVW, etc.)
     167           0 :   Bool absof=false;
     168           0 :   String el = upcase(expr(0));
     169           0 :   if( el == "ABS" ) 
     170             :   {
     171           0 :     absof=true;
     172           0 :     if( expr.nelements()<2 )
     173           0 :       throw(AipsError("DataMapper: illegal expression "+expr(0)));
     174           0 :     el = upcase( expr(1) );
     175             :   } 
     176           0 :   else if( el.matches("ABS",0) )
     177             :   {
     178           0 :     absof = true;
     179           0 :     el = el.after(3);
     180             :   }
     181             : 
     182           0 :   if( el == "U" )
     183           0 :     rowmapper = absof ? &RFDataMapper::AbsU_RowMapper : &RFDataMapper::U_RowMapper;
     184           0 :   else if( el == "V" )
     185           0 :     rowmapper = absof ? &RFDataMapper::AbsV_RowMapper : &RFDataMapper::V_RowMapper;
     186           0 :   else if( el == "W" )
     187           0 :     rowmapper = absof ? &RFDataMapper::AbsW_RowMapper : &RFDataMapper::W_RowMapper;
     188           0 :   else if( el == "UVD" || el == "UVDIST" )
     189           0 :     rowmapper = &RFDataMapper::UVD_RowMapper;
     190           0 :   else if( el == "UVA" || el == "UVANGLE" )
     191             :   {
     192           0 :     rowmapper = &RFDataMapper::UVA_RowMapper;
     193           0 :     full_cycle = 360;   // mapping into angles
     194           0 :     cycle_base = -180;
     195             :   }
     196           0 :   else if( el == "HA" || el == "HANGLE" )
     197             :   {
     198           0 :     sin_dec = 0; // will need to be computed
     199           0 :     rowmapper = &RFDataMapper::HA_RowMapper;
     200           0 :     full_cycle = 360;   // mapping into angles
     201           0 :     cycle_base = -180;
     202             :   }
     203             :   else
     204           0 :     rowmapper = NULL;
     205             : // have we set up a valid row mapper? Return then
     206           0 :   if( rowmapper )
     207             :   {
     208           0 :     desc = absof ? "|"+el+"|" : el;
     209           0 :     expr_desc = desc;
     210           0 :     mytype = MAPROW;
     211           0 :     return;
     212             :   }
     213             : // at this point, it must be a valid correlation expression
     214           0 :   String column(defcol);
     215             : 
     216             : // see if expression starts with a non-empty column specification, if so,
     217             : // remember the column, and shift it out of the expression vector
     218           0 :   CubeMapperFunc cm = getCubeMapper(expr(0));
     219             : 
     220           0 :   if( cm && expr(0).length() )
     221             :   {
     222           0 :     column = expr(0);
     223           0 :     expr = expr(Slice(1,expr.nelements()-1));
     224             :   }
     225             : 
     226             : // check if it parses to a valid DDMapper expression
     227           0 :   ddm = DDFunc::getMapper(expr_desc,expr);
     228             : // valid expression? Set ourselves up as a correlation mapper then
     229             : 
     230           0 :   if( ddm )
     231             :   {
     232           0 :     if( !cm ) // set column from defcol if not set above
     233           0 :       cm = getCubeMapper(defcol,true);
     234           0 :     cubemap = cm;
     235           0 :     desc = (column.length() ? "("+upcase(column)+")" : String("") )+expr_desc;
     236           0 :     mytype = MAPCORR;
     237             : 
     238           0 :     return;
     239             :   }
     240             : 
     241             : // invalid expression, so throw an exception
     242           0 :   String s;
     243           0 :   for( uInt i=0; i<expr.nelements(); i++ )
     244             :   {
     245           0 :     if( i )
     246           0 :       s+=" ";
     247           0 :     s+=expr(i);
     248             :   }
     249           0 :   throw(AipsError("DataMapper: illegal expression "+s));
     250             : }
     251             : 
     252           0 : RFDataMapper::~RFDataMapper () 
     253             : { 
     254           0 :   if( ddm ) 
     255           0 :     delete ddm; 
     256           0 : };
     257             : 
     258             : // computes a correlations mask
     259           0 : RFlagWord RFDataMapper::corrMask ( const VisibilityIterator &vi )
     260             : {
     261           0 :   Vector<Int> corr;
     262           0 :   vi.corrType(corr);
     263             : // for a visibilities mapper, ask the DDMapper
     264           0 :   if( mytype == MAPCORR )
     265             :   {
     266           0 :     if( !ddm->reset( corr ) )
     267           0 :       return 0;
     268           0 :     return (RFlagWord) ddm->corrMask();
     269             :   }
     270             : // for a row mapper, flag all correlations
     271           0 :   else if( mytype == MAPROW )
     272             :   {
     273           0 :     return (1<<corr.nelements())-1;
     274             :   }
     275             :   else // paranoid case
     276           0 :     throw( AipsError( "DataMapper: unknown mytype") );
     277             : }
     278             : 
     279             : // sets up for a visbuffer
     280           0 : void RFDataMapper::setVisBuffer ( VisBuffer &vb )
     281             : { 
     282           0 :   if( mytype == MAPCORR )
     283           0 :     pviscube = (*cubemap)(vb); 
     284           0 :   else if( mytype == MAPROW )
     285           0 :     puvw = &vb.uvw();
     286             :   else
     287           0 :     throw( AipsError( "DataMapper: unknown mytype") );
     288             :   // extract sine of declination, if needed
     289           0 :   if( sin_dec>=-1 )
     290             :   {
     291           0 :     sin_dec = sin( MDirection::Convert( vb.phaseCenter(),
     292           0 :                                              MDirection::Ref(MDirection::J2000)
     293           0 :                       )().getAngle().getBaseValue()(1) );
     294             :   }
     295           0 : }
     296             : 
     297             : 
     298             : 
     299             : } //# NAMESPACE CASA - END
     300             : 

Generated by: LCOV version 1.16