LCOV - code coverage report
Current view: top level - singledish/SingleDish - BLParameterParser.cc (source / functions) Hit Total Coverage
Test: casacpp_coverage.info Lines: 0 272 0.0 %
Date: 2024-10-10 15:00:01 Functions: 0 17 0.0 %

          Line data    Source code
       1             : //# BLParameterParser.cc: this code perses baseline fitting parameters
       2             : //# Copyright (C) 2015
       3             : //# National Astronomical Observatory of Japan
       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             : #include <fstream>
      28             : #include <iostream>
      29             : #include <regex>
      30             : 
      31             : #include <casacore/casa/Utilities/Assert.h>
      32             : #include <singledish/SingleDish/BLParameterParser.h>
      33             : 
      34             : using namespace std;
      35             : 
      36             : #define _ORIGIN LogOrigin("BLParameterParser", __func__, WHERE)
      37             : 
      38             : using namespace casacore;
      39             : using namespace casacore;
      40             : using namespace casacore;
      41             : using namespace casacore;
      42             : using namespace casacore;
      43             : using namespace casacore;
      44             : using namespace casacore;
      45             : namespace casa {
      46             : 
      47           0 : BLParameterParser::BLParameterParser(string const file_name)
      48             : {
      49           0 :   initialize();
      50           0 :   parse(file_name);
      51           0 :   blparam_file_ = file_name;
      52           0 : }
      53             : 
      54           0 : BLParameterParser::~BLParameterParser()
      55             : {
      56           0 :   Clearup();
      57           0 : }
      58             : 
      59           0 : void BLParameterParser::Clearup()
      60             : {
      61           0 :   if (!bl_parameters_.empty()) {
      62             :     map<const pair<size_t, size_t> , BLParameterSet*>::iterator
      63           0 :       iter = bl_parameters_.begin();
      64           0 :     while (iter != bl_parameters_.end()) {
      65           0 :       delete (*iter).second;
      66           0 :       ++iter;
      67             :     }
      68           0 :     bl_parameters_.clear();
      69             :   }
      70           0 : }
      71             : 
      72           0 : void BLParameterParser::initialize()
      73             : {
      74           0 :   if (!bl_parameters_.empty()) Clearup();
      75           0 :   baseline_types_.resize(0);
      76             :   // initialize max orders
      77           0 :   size_t num_type = BaselineType_kNumElements;
      78           0 :   for (size_t i=0; i<num_type; ++i) {
      79           0 :     max_orders_[i] = 0;
      80             :   }
      81           0 : }
      82             : 
      83           0 : uint16_t BLParameterParser::get_max_order(size_t const bltype)
      84             : {
      85             :   
      86           0 :   for (size_t i = 0; i < baseline_types_.size(); ++i) {
      87           0 :     if (bltype == baseline_types_[i]) {
      88             :       //bltype is in file
      89           0 :       return max_orders_[bltype];
      90             :     }
      91             :   }
      92             :   // bltype is not in file
      93           0 :   throw(AipsError("The baseline type is not in file."));
      94             : }
      95             : 
      96           0 : void BLParameterParser::parse(string const file_name)
      97             : {
      98           0 :   LogIO os(_ORIGIN);
      99           0 :   ifstream ifs(file_name.c_str(),ifstream::in);
     100           0 :   AlwaysAssert(!ifs.fail(), AipsError);
     101           0 :   string linestr;
     102           0 :   while (getline(ifs, linestr)) {
     103             :     // parse line here to construct BLParameterSet
     104             :     // The order should be
     105             :     // ROW,POL,MASK,NITERATION,CLIP_THRES,LF,LF_THRES,LEDGE,REDGE,CHANAVG,BL_TYPE,ORDER,N_PIECE,NWAVE
     106             :     // size_t,1,string,uint16_t,float,bool,float,size_t,size_t,size_t,sinusoidal,uint16_t,size_t,vector<size_t>
     107             :     //skip line starting with '#'
     108           0 :     if (linestr.empty() || linestr[0]=='#') continue;
     109           0 :     BLParameterSet *bl_param = new BLParameterSet();
     110             :     size_t row_idx, pol_idx;
     111           0 :     ConvertLineToParam(linestr, row_idx, pol_idx, *bl_param);
     112           0 :     bl_parameters_[make_pair(row_idx, pol_idx)] = bl_param;
     113             :     //Parameter summary output (Debugging purpose only)
     114             :     if (false) {
     115             :       os << "Summary of parsed Parameter" << LogIO::POST;
     116             :       os << "[ROW" << row_idx << ", POL" << pol_idx << "]" << LogIO::POST;
     117             :       bl_param->PrintSummary();
     118             :     }
     119             :     // update bealine_types_ list
     120           0 :     size_t curr_type_idx = static_cast<size_t>(bl_param->baseline_type);
     121           0 :     bool new_type = true;
     122           0 :     for (size_t i=0; i<baseline_types_.size(); ++i){
     123           0 :       if (bl_param->baseline_type==baseline_types_[i]){
     124           0 :         new_type = false;
     125           0 :         break;
     126             :       }
     127             :     }
     128           0 :     if (new_type) baseline_types_.push_back(bl_param->baseline_type);
     129             :     // update max_orders_
     130           0 :     size_t curr_order = GetTypeOrder(*bl_param);
     131           0 :     if (curr_order > max_orders_[curr_type_idx])
     132           0 :       max_orders_[curr_type_idx] = curr_order;
     133             :   }
     134           0 : }
     135             : 
     136           0 : void BLParameterParser::SplitLine(string const &linestr,
     137             :                                   char const separator,
     138             :                                   vector<string> &strvec)
     139             : {
     140           0 :   istringstream iss(linestr);
     141           0 :   string selem;
     142           0 :   size_t ielem(0);
     143           0 :   while(getline(iss, selem, separator)) {
     144           0 :     if (ielem >= strvec.size()) {
     145           0 :       strvec.resize(ielem+1);
     146             :     }
     147           0 :     strvec[ielem] = selem;
     148           0 :     ++ielem;
     149             :   }
     150           0 : }
     151             : 
     152           0 : void BLParameterParser::ConvertLineToParam(string const &linestr,
     153             :                                            size_t &rowid, size_t &polid,
     154             :                                            BLParameterSet &paramset){
     155             :   //split a line by ',' and make a vector of strings
     156           0 :   std::vector<string> svec(BLParameters_kNumElements,"");
     157           0 :   SplitLine(linestr,',', svec);
     158             :   // parse mandatory data
     159           0 :   rowid = ConvertString<size_t>(svec[BLParameters_kRow]);
     160           0 :   polid = ConvertString<size_t>(svec[BLParameters_kPol]);
     161           0 :   paramset.baseline_mask = svec[BLParameters_kMask];
     162           0 :   size_t num_piece=USHRT_MAX;//SIZE_MAX;
     163           0 :   string const bltype_str = svec[BLParameters_kBaselineType];
     164           0 :   if (bltype_str == "cspline")
     165             :   {
     166           0 :     if (svec[BLParameters_kNPiece].size()==0)
     167           0 :       throw(AipsError("Baseline type 'cspline' requires num_piece value."));
     168           0 :     num_piece = ConvertString<size_t>(svec[BLParameters_kNPiece]);
     169             :     // CreateBaselineContext does not supoort elements number > max(uint16_t)
     170           0 :     if (num_piece > USHRT_MAX)
     171           0 :       throw(AipsError("num_piece is larger than max of uint16_t"));
     172           0 :     paramset.npiece = num_piece;
     173           0 :     paramset.baseline_type = static_cast<LIBSAKURA_SYMBOL(LSQFitType)>(BaselineType_kCubicSpline);
     174             :   }
     175           0 :   else if (bltype_str == "sinusoid")
     176             :   {
     177             :     //Find the occurrence of "[n1,n2...]"
     178           0 :     std::regex pattern("\\[(\\d+(?:,\\d+)*)\\]");
     179           0 :     std::smatch matches;
     180           0 :     std::regex_search(linestr, matches, pattern);
     181           0 :     if (matches.size()< 1)
     182           0 :       throw(AipsError("Incorrect format or empty nwave list given: " + 
     183           0 :       std::string(matches[0]) + 
     184           0 :       ". Please refer the sdbaseline documentation. Ex. [1,2]"));
     185             :     // Split, convert and fill in the paramset_nwave
     186           0 :     std::vector<string> tmp_nwave;
     187             :     // regex result: matches[0] is the entire match 
     188             :     // matches[1] is the content inside the square brackets
     189           0 :     SplitLine(matches[1], ',', tmp_nwave);
     190           0 :     for(const auto& i : tmp_nwave)
     191           0 :       paramset.nwave.emplace_back(ConvertString<size_t>(i));
     192             :     //Sort just in case and erase duplicates
     193           0 :     std::sort(paramset.nwave.begin(), paramset.nwave.end());
     194           0 :     paramset.nwave.erase(std::unique(paramset.nwave.begin(),paramset.nwave.end()), paramset.nwave.end());
     195           0 :     paramset.baseline_type = static_cast<LIBSAKURA_SYMBOL(LSQFitType)>(BaselineType_kSinusoid);
     196           0 :   }
     197             :   else
     198             :   { // poly or chebyshev
     199           0 :     if (svec[BLParameters_kOrder].size()==0)
     200           0 :       throw(AipsError("Baseline type 'poly' and 'chebyshev' require order value."));
     201           0 :     paramset.baseline_type = bltype_str == "chebyshev" ?
     202             :       static_cast<LIBSAKURA_SYMBOL(LSQFitType)>(BaselineType_kChebyshev) :
     203             :       static_cast<LIBSAKURA_SYMBOL(LSQFitType)>(BaselineType_kPolynomial);
     204           0 :     paramset.order = ConvertString<uint16_t>(svec[BLParameters_kOrder]);
     205             :   }
     206             :   // parse clipping parameters
     207           0 :   if (svec[BLParameters_kNumIteration].size() == 0)
     208           0 :     throw(AipsError("Number of maximum clip iteration is mandatory"));
     209           0 :   paramset.num_fitting_max = ConvertString<uint16_t>(svec[BLParameters_kNumIteration]) + 1;
     210           0 :   if (svec[BLParameters_kClipThreshold].size()>0)
     211             :     paramset.clip_threshold_sigma
     212           0 :       = ConvertString<float>(svec[BLParameters_kClipThreshold]);
     213             :   // parse line finder parameter
     214           0 :   LineFinderParameter &lf_param = paramset.line_finder;
     215           0 :   lf_param.use_line_finder = svec[BLParameters_kLineFinder]=="true" ? true : false;;
     216           0 :   if (lf_param.use_line_finder)
     217             :   { // use line finder
     218           0 :     if (svec[BLParameters_kLFThreshold].size()>0)
     219             :     {
     220           0 :       lf_param.threshold = ConvertString<float>(svec[BLParameters_kLFThreshold]);
     221             :     }
     222           0 :     vector<size_t> edge(2,0);
     223           0 :     if (svec[BLParameters_kLeftEdge].size() > 0)
     224           0 :       lf_param.edge[0] = ConvertString<size_t>(svec[BLParameters_kLeftEdge]);
     225           0 :     if (svec[BLParameters_kRightEdge].size() > 0)
     226           0 :       lf_param.edge[1] = ConvertString<size_t>(svec[BLParameters_kRightEdge]);
     227           0 :     if (svec[BLParameters_kChanAverageLim].size()>0)
     228             :     {
     229           0 :       lf_param.chan_avg_limit = ConvertString<size_t>(svec[BLParameters_kChanAverageLim]);
     230             :     }
     231           0 :   }
     232           0 : }
     233             : 
     234           0 : uint16_t BLParameterParser::GetTypeOrder(BLParameterSet const &bl_param)
     235             : {
     236           0 :   size_t const type = static_cast<size_t>(bl_param.baseline_type);
     237           0 :   switch (type)
     238             :   {
     239           0 :   case BaselineType_kPolynomial:
     240             :   case BaselineType_kChebyshev:
     241           0 :     return bl_param.order;
     242             :     break;
     243           0 :   case BaselineType_kCubicSpline:
     244           0 :     AlwaysAssert(bl_param.npiece<=USHRT_MAX, AipsError);//UINT16_MAX);
     245           0 :     return static_cast<uint16_t>(bl_param.npiece);
     246             :     break;
     247           0 :   case BaselineType_kSinusoid:
     248           0 :     return static_cast<uint16_t>(bl_param.nwave[bl_param.nwave.size() - 1]); //<== must be max of nwave elements
     249             :     break;
     250           0 :   default:
     251           0 :     throw(AipsError("Unsupported baseline type."));
     252             :   }
     253             : }
     254             : 
     255           0 : bool BLParameterParser::GetFitParameter(size_t const rowid,size_t const polid, BLParameterSet &bl_param)
     256             : {
     257             :   map<const pair<size_t, size_t> ,BLParameterSet*>::iterator
     258           0 :     iter = bl_parameters_.begin();
     259           0 :   iter = bl_parameters_.find(make_pair(rowid, polid));
     260           0 :   if (iter==bl_parameters_.end()) {
     261             :     // no matching element
     262           0 :     return false;
     263             :   }
     264           0 :   bl_param = *(*iter).second;
     265           0 :   return true;
     266             : }
     267             : 
     268           0 : BLTableParser::BLTableParser(string const file_name) : BLParameterParser(file_name)
     269             : {
     270           0 :   initialize();
     271           0 :   blparam_file_ = file_name;
     272           0 :   bt_ = new BaselineTable(file_name);
     273           0 :   parse();
     274           0 : }
     275             : 
     276           0 : BLTableParser::~BLTableParser()
     277             : {
     278           0 :   delete bt_;
     279           0 :   bt_ = 0;
     280           0 : }
     281             : 
     282           0 : void BLTableParser::initialize()
     283             : {
     284           0 :   baseline_types_.resize(0);
     285             :   // initialize max orders
     286           0 :   size_t num_type = BaselineType_kNumElements;
     287           0 :   for (size_t i = 0; i < num_type; ++i) {
     288           0 :     max_orders_[i] = 0;
     289             :   }
     290           0 : }
     291             : 
     292           0 : uint16_t BLTableParser::GetTypeOrder(size_t const &baseline_type, 
     293             :                                      uInt const irow, uInt const ipol)
     294             : {
     295           0 :   switch (baseline_type)
     296             :   {
     297           0 :   case BaselineType_kPolynomial:
     298             :   case BaselineType_kChebyshev:
     299             :     {
     300           0 :       return static_cast<uint16_t>(bt_->getFPar(irow, ipol));
     301             :       break;
     302             :     }
     303           0 :   case BaselineType_kCubicSpline:
     304             :     {
     305           0 :       uInt npiece = bt_->getFPar(irow, ipol);
     306           0 :       AlwaysAssert(npiece <= USHRT_MAX, AipsError);//UINT16_MAX);
     307           0 :       return static_cast<uint16_t>(npiece);
     308             :       break;
     309             :     }
     310           0 :   case BaselineType_kSinusoid:
     311             :   {
     312             :     // TODO: revisit this line in CAS-13671
     313           0 :     return static_cast<uint16_t>(bt_->getFPar(irow, ipol));
     314             :     break;
     315             :   }
     316             : // Previous comment:
     317             : //   case BaselineType_kSinusoidal:
     318             : //     return static_cast<size_t>(nwave.size());
     319             : //     break;
     320           0 :   default:
     321           0 :     throw(AipsError("Unsupported baseline type."));
     322             :   }
     323             : }
     324             : 
     325           0 : void BLTableParser::parse()
     326             : {
     327           0 :   uInt const npol = 2;
     328           0 :   size_t nrow = bt_->nrow();
     329           0 :   std::map<string, std::map<double, uInt> > sorted;
     330           0 :   for (uInt irow = 0; irow < nrow; ++irow) {
     331           0 :     stringstream ss;
     332           0 :     ss << bt_->getSpw(irow) << "," 
     333           0 :        << bt_->getAntenna(irow) << "," 
     334           0 :        << bt_->getBeam(irow);
     335           0 :     sorted[ss.str()][bt_->getTime(irow)] = irow;
     336           0 :     for (uInt ipol = 0; ipol < npol; ++ipol) {
     337           0 :       if (!bt_->getApply(irow, ipol)) continue;
     338             :       LIBSAKURA_SYMBOL(LSQFitType) curr_type_idx = 
     339           0 :         static_cast<LIBSAKURA_SYMBOL(LSQFitType)>(bt_->getBaselineType(irow, ipol));
     340           0 :       bool new_type = true;
     341           0 :       for (size_t i = 0; i < baseline_types_.size(); ++i){
     342           0 :         if (curr_type_idx == baseline_types_[i]){
     343           0 :           new_type = false;
     344           0 :           break;
     345             :         }
     346             :       }
     347           0 :       if (new_type) baseline_types_.push_back(curr_type_idx);
     348             :       // update max_orders_
     349           0 :       size_t curr_order = GetTypeOrder(curr_type_idx, irow, ipol);
     350           0 :       if (curr_order > max_orders_[curr_type_idx]) {
     351           0 :               max_orders_[curr_type_idx] = curr_order;
     352             :       }
     353             :     }
     354           0 :   }
     355             : 
     356           0 :   for (std::map<string, std::map<double, uInt> >::iterator it = sorted.begin(); it != sorted.end(); ++it) {
     357           0 :     sortedTimes_[it->first].clear();
     358           0 :     timeSortedIdx_[it->first].clear();
     359           0 :     numRows_[it->first] = 0;
     360           0 :     size_t num_rows = 0;
     361           0 :     for (std::map<double, uInt>::iterator it0 = sorted[it->first].begin(); it0 != sorted[it->first].end(); ++it0) {
     362           0 :       sortedTimes_[it->first].push_back(it0->first);
     363           0 :       timeSortedIdx_[it->first].push_back(it0->second);
     364           0 :       num_rows++;
     365             :     }
     366           0 :     numRows_[it->first] = num_rows;
     367             :   }
     368           0 : }
     369             : 
     370           0 : bool BLTableParser::GetFitParameterIdx(double const time, double const interval, 
     371             :                                        size_t const scanid, size_t const beamid, 
     372             :                                        size_t const antid, size_t const spwid, 
     373             :                                        size_t &idx)
     374             : {
     375           0 :   bool found = false;
     376           0 :   stringstream ss;
     377           0 :   ss << spwid << "," << antid << "," << beamid;
     378           0 :   string key = ss.str();
     379           0 :   if (numRows_.count(key) == 0) {
     380           0 :     return false;
     381             :   }
     382           0 :   uInt idx_top = 0;
     383           0 :   uInt idx_end = numRows_[key] - 1;
     384           0 :   uInt idx_mid = (idx_top + idx_end)/2;
     385           0 :   double time_top = sortedTimes_[key][idx_top];
     386           0 :   double time_end = sortedTimes_[key][idx_end];
     387           0 :   double time_mid = sortedTimes_[key][idx_mid];
     388           0 :   if ((time < time_top)||(time_end < time)) { // out of range.
     389           0 :     return false;
     390             :   }
     391           0 :   size_t idx0 = 0;
     392             :   //binary search in time-sorted table.
     393           0 :   while (idx_end - idx_top > 1) {
     394           0 :     if (time_top == time) {
     395           0 :       idx0 = idx_top;
     396           0 :       found = true;
     397           0 :       break;
     398           0 :     } else if (time_mid == time) {
     399           0 :       idx0 = idx_mid;
     400           0 :       found = true;
     401           0 :       break;
     402           0 :     } else if (time_end == time) {
     403           0 :       idx0 = idx_end;
     404           0 :       found = true;
     405           0 :       break;
     406           0 :     } else if (time_mid < time) {
     407           0 :       idx_top = idx_mid;
     408           0 :       time_top = time_mid;
     409             :     } else {
     410           0 :       idx_end = idx_mid;
     411           0 :       time_end = time_mid;
     412             :     }
     413           0 :     idx_mid = (idx_top + idx_end)/2;
     414           0 :     time_mid = sortedTimes_[key][idx_mid];
     415             :   }
     416           0 :   if (!found) {
     417             :     //only one or two candidates should exist now. 
     418             :     //check if there is one with time identical to the specified time
     419           0 :     for (size_t i = idx_top; i <= idx_end; ++i) {
     420           0 :       if ((time - interval < sortedTimes_[key][i])&&
     421           0 : (sortedTimes_[key][i] < time + interval)) {
     422           0 :         idx0 = i;
     423           0 :         found = true;
     424           0 :         break;
     425             :       }
     426             :     }
     427           0 :     if (!found) {
     428           0 :       return false;
     429             :     }
     430             :   }
     431             :   //finally, validate the candidate using its ids.
     432           0 :   idx = timeSortedIdx_[key][idx0];
     433           0 :   found = (scanid == bt_->getScan(idx))&&
     434           0 :           (beamid == bt_->getBeam(idx))&&
     435           0 :           (spwid  == bt_->getSpw(idx));
     436             : 
     437           0 :   return found;
     438           0 : }
     439             : 
     440             : /*
     441             : //simply search from the first line. not using binary search.
     442             : bool BLTableParser::GetFitParameterIdx(double const time, double const interval, 
     443             :                                        size_t const scanid, size_t const beamid, 
     444             :                                        size_t const spwid, size_t &idx)
     445             : {
     446             :   bool found = false;
     447             :   uInt idx_end = bt_->nrow() - 1;
     448             :   double bt_time;
     449             :   uInt bt_scanid;
     450             :   uInt bt_beamid;
     451             :   uInt bt_spwid;
     452             :   for (uInt i = 0; i <= idx_end; ++i) {
     453             :     bt_time = bt_->getTime(i);
     454             :     bt_scanid = bt_->getScan(i);
     455             :     bt_beamid = bt_->getBeam(i);
     456             :     bt_spwid = bt_->getSpw(i);
     457             :     if ((bt_time-interval < time) && (time < bt_time+interval) &&
     458             :         (scanid == bt_scanid) && (beamid == bt_beamid) &&
     459             :         (spwid == bt_spwid)) {
     460             :       idx = i;
     461             :       found = true;
     462             :       break;
     463             :     }
     464             :   }
     465             :   return found;
     466             : }
     467             : */
     468             : 
     469           0 : void BLTableParser::GetFitParameterByIdx(size_t const idx, size_t const ipol, 
     470             :                                          bool &apply,
     471             :                                          Vector<double> &coeff,
     472             :                                          Vector<size_t> &boundary,
     473             :                                          std::vector<bool> &masklist,
     474             :                                          BLParameterSet &bl_param)
     475             : {
     476           0 :   apply = bt_->getApply(idx, ipol);
     477           0 :   if (!apply) return;
     478           0 :   size_t const type = bt_->getBaselineType(idx, ipol);
     479           0 :   bl_param.baseline_type = type;
     480           0 :   Vector<Int> fpar(bt_->getFuncParam(idx)[0]);
     481           0 :   switch (type) {
     482           0 :   case BaselineType_kPolynomial:
     483             :   case BaselineType_kChebyshev:
     484           0 :     bl_param.order = fpar[ipol];
     485           0 :     coeff.resize(bl_param.order + 1);
     486           0 :     for (size_t i = 0; i < coeff.size(); ++i) {
     487           0 :       coeff[i] = bt_->getResult(idx).row(ipol)[i];
     488             :     }
     489           0 :     break;
     490           0 :   case BaselineType_kCubicSpline:
     491           0 :     bl_param.npiece = fpar[ipol];
     492           0 :     boundary.resize(bl_param.npiece + 1);
     493           0 :     for (size_t i = 0; i < boundary.size(); ++i) {
     494           0 :       boundary[i] = bt_->getFuncFParam(idx).row(ipol)[i];
     495             :     }
     496           0 :     coeff.resize(bl_param.npiece * 4);
     497           0 :     for (size_t i = 0; i < coeff.size(); ++i) {
     498           0 :       coeff[i] = bt_->getResult(idx).row(ipol)[i];
     499             :     }
     500           0 :     break;
     501           0 :   default:
     502           0 :     throw(AipsError("Unsupported baseline type."));
     503             :   }
     504           0 :   masklist = bt_->getMask(idx, ipol);
     505           0 : }
     506             : 
     507             : 
     508             : } //# NAMESPACE CASA - END

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