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Date: 2024-10-29 13:38:20 Functions: 0 9 0.0 %

          Line data    Source code
       1             : //# ClarkCleanProgress.cc: Abstract base class to monitor progress in lattice operations
       2             : //# Copyright (C) 1997,1998,1999,2000,2001,2003
       3             : //# Associated Universities, Inc. Washington DC, USA.
       4             : //#
       5             : //# This library is free software; you can redistribute it and/or modify it
       6             : //# under the terms of the GNU Library General Public License as published by
       7             : //# the Free Software Foundation; either version 2 of the License, or (at your
       8             : //# option) any later version.
       9             : //#
      10             : //# This library is distributed in the hope that it will be useful, but WITHOUT
      11             : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
      12             : //# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Library General Public
      13             : //# License for more details.
      14             : //#
      15             : //# You should have received a copy of the GNU Library General Public License
      16             : //# along with this library; if not, write to the Free Software Foundation,
      17             : //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
      18             : //#
      19             : //# Correspondence concerning AIPS++ should be addressed as follows:
      20             : //#        Internet email: casa-feedback@nrao.edu.
      21             : //#        Postal address: AIPS++ Project Office
      22             : //#                        National Radio Astronomy Observatory
      23             : //#                        520 Edgemont Road
      24             : //#                        Charlottesville, VA 22903-2475 USA
      25             : //#
      26             : //# $Id$
      27             : 
      28             : 
      29             : //# Includes
      30             : #include <synthesis/MeasurementEquations/ClarkCleanProgress.h>
      31             : #include <casacore/images/Images/TempImage.h>
      32             : #include <casacore/casa/System/PGPlotter.h>
      33             : #include <casacore/casa/BasicMath/Math.h>
      34             : #include <casacore/casa/Exceptions/Error.h>
      35             : 
      36             : #include <sstream>
      37             : 
      38             : 
      39             : using namespace casacore;
      40             : namespace casa { //# NAMESPACE CASA - BEGIN
      41             : 
      42           0 : ClarkCleanProgress::ClarkCleanProgress(PGPlotter* pgplotter, Int inc)
      43           0 :   : itsPgplotter(pgplotter),
      44           0 :     currentIndex(0),
      45           0 :     currentTotalIterations(0),
      46           0 :     currentFluxScale(0.0),
      47           0 :     currentMaxResidual(0.0),
      48           0 :     currentMinResidual(0.0),
      49           0 :     plottingIncrement(inc),
      50           0 :     baseFlux(0.0)
      51             : {
      52           0 :   iterationNumber.resize(100);
      53           0 :   maxResiduals.resize(100);  
      54           0 :   posResiduals.resize(100);
      55           0 :   negResiduals.resize(100);
      56           0 :   totalFluxes.resize(100);  
      57             : 
      58             :   // to prevent trailing vector elements from being plotted
      59           0 :   iterationNumber = 99999999;
      60           0 : }
      61             : 
      62             : 
      63           0 : ClarkCleanProgress::~ClarkCleanProgress()
      64             : {
      65           0 : }
      66             : 
      67             : 
      68             : // Call back function
      69           0 : Bool ClarkCleanProgress::info(const Bool lastcall,
      70             :                               const Int iteration,
      71             :                               const Int numberIterations,
      72             :                               const Float& maxResid,
      73             :                               const IPosition& posMaxResid,
      74             :                               const Float& totalFlux0,
      75             :                               const Bool majorIteration,
      76             :                               const Bool resetBaseFlux) 
      77             : {
      78           0 :   LogIO os(LogOrigin("ClarkCleanProgress", "info()", WHERE));
      79             : 
      80           0 :   if(currentIndex == 0) {
      81           0 :     if(hasPGPlotter()) {      
      82           0 :       currentFluxScale = 1.5*maxResid;
      83           0 :       currentMinFluxScale = 0.0;
      84           0 :       currentMaxResidual = 1.5*maxResid;
      85           0 :       currentMinResidual = currentMaxResidual/100;
      86           0 :       currentTotalIterations = numberIterations;
      87           0 :       basicSetUp(numberIterations);
      88             :     }
      89             :   }
      90             : 
      91           0 :   if (resetBaseFlux && currentIndex != 0) {
      92           0 :     baseFlux = totalFluxes(currentIndex-1);
      93             :   }
      94           0 :   Float totalFlux = totalFlux0 + baseFlux;
      95             : 
      96             :   // resize if required
      97           0 :   if (currentIndex >= totalFluxes.nelements() ) {
      98           0 :     uInt nn = totalFluxes.nelements(); 
      99           0 :     totalFluxes.resize(2*nn+1, true);
     100           0 :     maxResiduals.resize(2*nn+1, true);
     101           0 :     negResiduals.resize(2*nn+1, true);
     102           0 :     posResiduals.resize(2*nn+1, true);
     103           0 :     iterationNumber.resize(2*nn+1, true);
     104             :     // Do this so trailing (ie, unfilled) elements don't get plotted
     105           0 :     for (uInt i=nn; i < 2*nn+1; i++) {
     106           0 :       iterationNumber(i) = 9999999;
     107             :     }
     108             :   }
     109             : 
     110           0 :   totalFluxes(currentIndex) = totalFlux;
     111           0 :   maxResiduals(currentIndex) = maxResid;
     112           0 :   iterationNumber(currentIndex) = iteration+1;
     113             : 
     114           0 :   if (maxResid > 0) {
     115           0 :     posResiduals(currentIndex) = log10(maxResid);
     116           0 :     negResiduals(currentIndex) = -20;  // ie, out of range
     117           0 :   } else if (maxResid < 0) {
     118           0 :     negResiduals(currentIndex) = log10(abs(maxResid));
     119           0 :     posResiduals(currentIndex) = -20;
     120             :   }
     121           0 :   Float myMinFlux = min (0.0, totalFlux);
     122             : 
     123           0 :   currentIndex++;
     124             : 
     125           0 :   if(hasPGPlotter()) {
     126           0 :     if ( lastcall || ( (iteration) % plottingIncrement) == 0) {
     127             :       // Then we get to do a plot
     128             : 
     129           0 :       Bool redrawBox = false;
     130             : 
     131           0 :       if ( totalFlux > (0.9*currentFluxScale)) {
     132           0 :         currentFluxScale = abs(3.0 * currentFluxScale);
     133           0 :         redrawBox = true;
     134             :       }
     135           0 :       if (myMinFlux < currentMinFluxScale) {
     136           0 :         currentMinFluxScale = -abs( 3.0 * myMinFlux);
     137           0 :         redrawBox = true;
     138             :       }
     139           0 :       if (abs(maxResid) < (1.2*currentMinResidual)) {
     140           0 :         currentMinResidual /= 3.0;
     141           0 :         redrawBox = true;
     142             :       }
     143           0 :       if ( numberIterations > (Int)currentTotalIterations) {
     144           0 :         currentTotalIterations = numberIterations;
     145           0 :         redrawBox = true;
     146             :       }
     147             : 
     148           0 :       if (redrawBox || lastcall || resetBaseFlux) {
     149           0 :         basicSetUp(true);      
     150           0 :         plotVectors();
     151             :       } else {
     152           0 :         plotOne(iteration+1, maxResid, totalFlux);
     153             :       }
     154             :     }
     155             :   }
     156             : 
     157           0 :   if (majorIteration) {
     158           0 :     os << "Max Resid = " << maxResid << " at "
     159           0 :        <<  posMaxResid << endl;
     160             :     os << "Iteration " << iteration+1 << 
     161           0 :       "   flux [Jy] = " << totalFlux << endl;
     162             :   }
     163             : 
     164           0 :   return true;
     165           0 : };
     166             : 
     167             : // Call back function
     168           0 : Bool ClarkCleanProgress::finalize()
     169             : 
     170             : {
     171           0 :   LogIO os(LogOrigin("ClarkCleanProgress", "info()", WHERE));
     172             : 
     173           0 :   basicSetUp(true);      
     174           0 :   plotVectors();
     175             : 
     176           0 :   os << "Max Resid = " << maxResiduals(currentIndex-1)<<  endl;
     177           0 :   os << "Iteration " <<  iterationNumber(currentIndex-1) << 
     178           0 :     "   flux [Jy] = " << totalFluxes(currentIndex-1) << endl;
     179             : 
     180           0 :   return true;
     181           0 : };
     182             : 
     183             : // checks to see if the pointer is non null;
     184             : // also checks to see if it is attached to a plot, and
     185             : // checks to see if the PGPlotter pointer is dangling
     186           0 : Bool ClarkCleanProgress::hasPGPlotter() 
     187             : {
     188           0 :   if (itsPgplotter == 0) {
     189           0 :     return false;
     190             :   } else {
     191             :     try {
     192           0 :       if (itsPgplotter->isAttached()) {
     193           0 :         return true;
     194             :       } else {
     195           0 :         return false;
     196             :       }
     197           0 :     } catch (AipsError x) {
     198           0 :       return false;
     199           0 :     } 
     200             :   }
     201             :   return false;
     202             : };
     203             : 
     204             : 
     205           0 : void  ClarkCleanProgress::basicSetUp(Bool doPlot)
     206             : {
     207             : 
     208           0 :   Float logMinRes = log10(abs(currentMinResidual));
     209           0 :   Float logMaxRes = log10(abs(currentMaxResidual));
     210           0 :   Float deltaY = abs(logMaxRes - logMinRes);
     211           0 :   logMaxRes += 0.05*deltaY;
     212           0 :   logMinRes -= 0.05*deltaY;
     213           0 :   Float xMax = Float(currentTotalIterations)*1.15;
     214           0 :   Float xMin = -0.05*Float(currentTotalIterations);
     215             : 
     216           0 :   if(itsPgplotter){
     217             : 
     218           0 :   itsPgplotter->sch(0.6);
     219           0 :   itsPgplotter->sci(1);
     220           0 :   itsPgplotter->page();
     221           0 :   itsPgplotter->svp(0.06, 0.94, 0.64, 0.92);
     222           0 :   itsPgplotter->swin(xMin, xMax, logMinRes, logMaxRes);
     223           0 :   itsPgplotter->box("BCST", 0, 0, "BCNLST", 0, 0);
     224           0 :   itsPgplotter->lab(" ", "+ Peak Resid (Jy)", "Components subtracted");
     225           0 :   itsPgplotter->iden();
     226             :   {
     227           0 :     itsPgplotter->sci(1);
     228           0 :     ostringstream oos;
     229           0 :     oos << "MaxRes ";
     230           0 :     itsPgplotter->text(0.85*xMax,
     231           0 :                        (logMaxRes - 0.1*deltaY),
     232             :                        oos);
     233           0 :   }
     234           0 :   if (doPlot) {
     235           0 :     itsPgplotter->pt(iterationNumber, posResiduals, 2);
     236             :   }
     237             : 
     238             : 
     239             :   // middle graph
     240           0 :   itsPgplotter->sci(1);
     241           0 :   itsPgplotter->svp(0.06, 0.94, 0.36, 0.64);
     242           0 :   itsPgplotter->swin(xMin, xMax, logMaxRes, logMinRes);
     243           0 :   itsPgplotter->box("BCST", 0, 0, "BCNLST", 0, 0);
     244           0 :   itsPgplotter->lab(" ", "- Peak Resid (Jy)", " ");
     245             :   {
     246           0 :     ostringstream oos;
     247           0 :     oos << "-MaxNegRes ";
     248           0 :     itsPgplotter->text(0.85*xMax,
     249           0 :                        (logMaxRes - 0.1*deltaY),
     250             :                        oos);
     251           0 :   }
     252           0 :   if (doPlot) {
     253           0 :     itsPgplotter->pt(iterationNumber, negResiduals, 2);
     254             :   }
     255             : 
     256             :   // lower graph
     257           0 :   itsPgplotter->sci(3);
     258           0 :   itsPgplotter->svp(0.06, 0.94, 0.09, 0.36);
     259           0 :   itsPgplotter->swin(xMin, xMax, currentMinFluxScale, currentFluxScale);
     260           0 :   itsPgplotter->box("BCNST", 0, 0, "BCNST", 0, 0);
     261           0 :   itsPgplotter->lab("Number of iterations", "Total Flux", " ");
     262           0 :   if (doPlot) {
     263           0 :     itsPgplotter->pt(iterationNumber, totalFluxes, 2);
     264             :   }
     265             : 
     266             :   }
     267             : 
     268           0 : };
     269             : 
     270           0 : void ClarkCleanProgress::plotVectors()
     271             : {
     272           0 :   Float logMinRes = log10(abs(currentMinResidual));
     273           0 :   Float logMaxRes = log10(abs(currentMaxResidual));
     274           0 :   Float deltaY = abs(logMaxRes - logMinRes);
     275           0 :   logMaxRes += 0.05*deltaY;
     276           0 :   logMinRes -= 0.05*deltaY;
     277           0 :   Float xMax = Float(currentTotalIterations)*1.15;
     278           0 :   Float xMin = -0.05*Float(currentTotalIterations);
     279             : 
     280           0 :   if(itsPgplotter){
     281           0 :   itsPgplotter->sch(0.6);
     282             : 
     283             :     // top graph
     284           0 :     itsPgplotter->sci(1);
     285           0 :     itsPgplotter->svp(0.06, 0.94, 0.64, 0.92);
     286           0 :     itsPgplotter->swin(xMin, xMax, logMinRes, logMaxRes);
     287           0 :     itsPgplotter->pt(iterationNumber, posResiduals, 2);
     288             : 
     289             :     // middle graph
     290           0 :     itsPgplotter->sci(1);
     291           0 :     itsPgplotter->svp(0.06, 0.94, 0.36, 0.64);
     292           0 :     itsPgplotter->swin(xMin, xMax, logMaxRes, logMinRes);
     293           0 :     itsPgplotter->pt(iterationNumber, negResiduals, 2);
     294             : 
     295             : 
     296             :   // lower graph
     297           0 :   itsPgplotter->sci(3);
     298           0 :   itsPgplotter->svp(0.06, 0.94, 0.09, 0.36);
     299           0 :   itsPgplotter->swin(xMin, xMax, 0.0, currentFluxScale);
     300           0 :   itsPgplotter->pt(iterationNumber, totalFluxes, 2);
     301             :   }
     302           0 : };
     303             : 
     304             : 
     305             : 
     306           0 : void  ClarkCleanProgress::plotOne(const Int iteration, 
     307             :                                   const Float resid, const Float flux)
     308             : {
     309             : 
     310           0 :   Float logMinRes = log10(abs(currentMinResidual));
     311           0 :   Float logMaxRes = log10(abs(currentMaxResidual));
     312           0 :   Float deltaY = abs(logMaxRes - logMinRes);
     313           0 :   logMaxRes += 0.05*deltaY;
     314           0 :   logMinRes -= 0.05*deltaY;
     315           0 :   Float xMax = Float(currentTotalIterations)*1.15;
     316           0 :   Float xMin = -0.05*Float(currentTotalIterations);
     317             : 
     318           0 :   Vector<Float> x(1);
     319           0 :   Vector<Float> y(1);
     320           0 :   x(0) = iteration;
     321           0 :   if(itsPgplotter){
     322           0 :   itsPgplotter->sch(0.6);
     323           0 :   if (resid > 0) {
     324             :     // top graph
     325           0 :     itsPgplotter->sci(1);
     326           0 :     itsPgplotter->svp(0.06, 0.94, 0.64, 0.92);
     327           0 :     itsPgplotter->swin(xMin, xMax, logMinRes, logMaxRes);
     328           0 :     y(0) = log10(resid);
     329           0 :     itsPgplotter->pt(x,y,2);
     330           0 :   } else if (resid < 0) {
     331             :     // middle graph
     332           0 :     itsPgplotter->sci(1);
     333           0 :     itsPgplotter->svp(0.06, 0.94, 0.36, 0.64);
     334           0 :     itsPgplotter->swin(xMin, xMax, logMaxRes, logMinRes);
     335           0 :     y(0) = log10(abs(resid));
     336           0 :     itsPgplotter->pt(x,y,2);
     337             :   }
     338             : 
     339             :   // lower graph
     340           0 :   itsPgplotter->sci(3);
     341           0 :   itsPgplotter->svp(0.06, 0.94, 0.09, 0.36);
     342           0 :   itsPgplotter->swin(xMin, xMax, 0.0, currentFluxScale);
     343           0 :   y(0) = flux;
     344           0 :   itsPgplotter->pt(x,y,2);
     345             :   }
     346           0 : };
     347             : 
     348             : 
     349             : } //# NAMESPACE CASA - END
     350             : 

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