LCOV - code coverage report
Current view: top level - imageanalysis/ImageAnalysis - ImageStatsCalculator.tcc (source / functions) Hit Total Coverage
Test: casacpp_coverage.info Lines: 0 192 0.0 %
Date: 2024-10-12 00:35:29 Functions: 0 7 0.0 %

          Line data    Source code
       1             : //# Copyright (C) 1998,1999,2000,2001,2003
       2             : //# Associated Universities, Inc. Washington DC, USA.
       3             : //#
       4             : //# This program is free software; you can redistribute it and/or modify it
       5             : //# under the terms of the GNU General Public License as published by the Free
       6             : //# Software Foundation; either version 2 of the License, or (at your option)
       7             : //# any later version.
       8             : //#
       9             : //# This program is distributed in the hope that it will be useful, but WITHOUT
      10             : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
      11             : //# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
      12             : //# more details.
      13             : //#
      14             : //# You should have received a copy of the GNU General Public License along
      15             : //# with this program; if not, write to the Free Software Foundation, Inc.,
      16             : //# 675 Massachusetts Ave, Cambridge, MA 02139, USA.
      17             : //#
      18             : //# Correspondence concerning AIPS++ should be addressed as follows:
      19             : //#        Internet email: casa-feedback@nrao.edu.
      20             : //#        Postal address: AIPS++ Project Office
      21             : //#                        National Radio Astronomy Observatory
      22             : //#                        520 Edgemont Road
      23             : //#                        Charlottesville, VA 22903-2475 USA
      24             : //#
      25             : 
      26             : #ifndef IMAGEANALYSIS_IMAGESTATSCALCULATOR_TCC
      27             : #define IMAGEANALYSIS_IMAGESTATSCALCULATOR_TCC
      28             : 
      29             : #include <imageanalysis/ImageAnalysis/ImageStatsCalculator.h>
      30             : 
      31             : #include <casacore/casa/BasicSL/String.h>
      32             : #include <casacore/images/Images/ImageUtilities.h>
      33             : #include <imageanalysis/ImageAnalysis/SubImageFactory.h>
      34             : 
      35             : #include <iomanip>
      36             : 
      37             : using namespace casacore;
      38             : namespace casa {
      39             : 
      40             : template <class T>
      41             : const String ImageStatsCalculator<T>::_class = "ImageStatsCalculator";
      42             : 
      43             : template <class T>
      44             : const String ImageStatsCalculator<T>::SIGMA = "sigma";
      45             : 
      46           0 : template <class T> ImageStatsCalculator<T>::ImageStatsCalculator(
      47             :     const SPCIIT image,
      48             :     const Record *const &regionPtr,
      49             :     const String& maskInp,
      50             :     Bool beVerboseDuringConstruction
      51             : ) : ImageStatsBase<T>(
      52             :         image, regionPtr, maskInp
      53           0 :     ) {
      54           0 :     this->_construct(beVerboseDuringConstruction);
      55           0 : }
      56             : 
      57           0 : template <class T> ImageStatsCalculator<T>::~ImageStatsCalculator() {}
      58             : 
      59             : template <class T> Record ImageStatsCalculator<T>::calculate() {
      60             :     *this->_getLog() << LogOrigin(_class, __func__);
      61             :     std::unique_ptr<std::vector<String> > messageStore(
      62             :         this->_getLogFile() ? new std::vector<String>() : nullptr
      63             :     );
      64             :     Record retval = statistics(messageStore.get());
      65             :     Bool writeFile = this->_openLogfile();
      66             :     if (_verbose || writeFile) {
      67             :         if (writeFile) {
      68             :             for (
      69             :                 auto iter = messageStore->begin();
      70             :                 iter != messageStore->end(); ++iter
      71             :             ) {
      72             :                 this->_writeLogfile("# " + *iter, false, false);
      73             :             }
      74             :         }
      75             :         IPosition shape = _axes.empty() ? IPosition(_subImage->ndim(), 1)
      76             :             : _subImage->shape();
      77             :         for (const auto& axis: _axes) {
      78             :             shape[axis] = 1;
      79             :         }
      80             :         Record r;
      81             :         auto csys = _subImage->coordinates();
      82             :         csys.save(r, "");
      83             :         try {
      84             :             auto tempIm = ImageFactory::fromShape<T>(casacore::String(""), shape.asVector(), r);
      85             :             _reportDetailedStats(tempIm, retval);
      86             :         }
      87             :         catch (const AipsError& x) {
      88             :             *this->_getLog() << LogIO::WARN << "Unable to collapse image "
      89             :                 << "so detailed per plane statistics reporting is not "
      90             :                 << "possible. The exception message was " << x.getMesg()
      91             :                 << LogIO::POST;
      92             :         }
      93             :     }
      94             :     _sanitizeDueToRegionSelection(retval);
      95             :     return retval;
      96             : }
      97             : 
      98             : template <class T> void
      99             : ImageStatsCalculator<T>::_sanitizeDueToRegionSelection(Record& retval) const {
     100             :     if (_axes.empty()) {
     101             :         return;
     102             :     }
     103             :     if (! this->_getRegion() || this->_getRegion()->empty()) {
     104             :         // no region selection, nothing to sanitize
     105             :         return;
     106             :     }
     107             :     // create subimage template based on region only
     108             :     TempImage<T> tempIm(this->_getImage()->shape(), this->_getImage()->coordinates());
     109             :     auto subim = SubImageFactory<T>::createSubImageRO(
     110             :         tempIm, *this->_getRegion(), "", nullptr, AxesSpecifier(), False
     111             :     );
     112             :     if (! subim->isMasked()) {
     113             :         // no pixels masked because of region selection
     114             :         return;
     115             :     }
     116             :     auto ndim = subim->ndim();
     117             :     auto allAxes = IPosition::makeAxisPath(ndim);
     118             :     IPosition cursor;
     119             :     for (auto a: _axes) {
     120             :         cursor.append(IPosition(1, a));
     121             :     }
     122             :     auto displayAxes = allAxes.otherAxes(ndim, cursor);
     123             :     // key is axis number, value is set of planes that are completely masked
     124             :     std::map<uInt, std::set<uInt>> excludePlanes;
     125             :     Bool mustExclude = False;
     126             :     for (auto d: displayAxes) {
     127             :         excludePlanes[d] = std::set<uInt>();
     128             :         IPosition cursorShape = subim->shape();
     129             :         cursorShape[d] = 1;
     130             :         RO_MaskedLatticeIterator<T> lattIter(*subim, cursorShape);
     131             :         uInt planeNum = 0;
     132             :         for (lattIter.atStart(); ! lattIter.atEnd(); ++lattIter, ++planeNum) {
     133             :             if (! anyTrue(lattIter.getMask())) {
     134             :                 excludePlanes[d].insert(planeNum);
     135             :                 mustExclude = True;
     136             :             }
     137             :         }
     138             :     }
     139             :     if (! mustExclude) {
     140             :         // no planes to exclude
     141             :         return;
     142             :     }
     143             :     auto nfields = retval.nfields();
     144             :     // n is the index of the axis within the displayAxes
     145             :     uInt n = 0;
     146             :     for (auto d: displayAxes) {
     147             :         if (excludePlanes[d].empty()) {
     148             :             // no planes to exclude for this axis
     149             :             continue;
     150             :         }
     151             :         for (uInt i=0; i<nfields; ++i) {
     152             :             auto fieldName = retval.name(i);
     153             :             if (fieldName == "blc" || fieldName == "trc") {
     154             :                 continue;
     155             :             }
     156             :             if (isArray(retval.dataType(i))) {
     157             :                 switch (retval.dataType(i)) {
     158             :                 case TpArrayDouble: {
     159             :                     auto x = retval.asArrayDouble(i);
     160             :                     _removePlanes(x, n, excludePlanes[d]);
     161             :                     retval.define(i, x);
     162             :                     break;
     163             :                 }
     164             :                 case TpArrayInt: {
     165             :                     auto x = retval.asArrayInt(i);
     166             :                     _removePlanes(x, n, excludePlanes[d]);
     167             :                     retval.define(i, x);
     168             :                     break;
     169             :                 }
     170             :                 default:
     171             :                     ThrowCc("Unhandled data type");
     172             :                     break;
     173             :                 }
     174             :             }
     175             :         }
     176             :         ++n;
     177             :     }
     178             : }
     179             : 
     180             : template <class T> template <class U>
     181             : void ImageStatsCalculator<T>::_removePlanes(
     182             :     Array<U>& arr, uInt axis, const std::set<uInt>& planes
     183             : ) const {
     184             :     IPosition oldShape = arr.shape();
     185             :     IPosition newShape = oldShape;
     186             :     newShape[axis] -= planes.size();
     187             :     Array<U> newArray(newShape);
     188             :     // do a plane by plane copy into the new array
     189             :     auto nOldPlanes = oldShape[axis];
     190             :     auto begin = planes.begin();
     191             :     auto end = planes.end();
     192             :     auto ndim = arr.ndim();
     193             :     IPosition newSliceStart(ndim, 0);
     194             :     IPosition newSliceEnd = newShape - 1;
     195             :     newSliceEnd[axis] = 0;
     196             :     IPosition oldSliceStart(ndim, 0);
     197             :     IPosition oldSliceEnd = oldShape - 1;
     198             :     oldSliceEnd[axis] = 0;
     199             :     Slicer newSlice(newSliceStart, newSliceEnd, Slicer::endIsLast);
     200             :     Slicer oldSlice(oldSliceStart, oldSliceEnd, Slicer::endIsLast);
     201             :     for (uInt i=0; i<nOldPlanes; ++i, ++oldSliceStart[axis], ++oldSliceEnd[axis]) {
     202             :         if (std::find(begin, end, i) == end) {
     203             :             newSlice.setStart(newSliceStart);
     204             :             newSlice.setEnd(newSliceEnd);
     205             :             oldSlice.setStart(oldSliceStart);
     206             :             oldSlice.setEnd(oldSliceEnd);
     207             :             newArray(newSlice) = arr(oldSlice);
     208             :             ++newSliceStart[axis];
     209             :             ++newSliceEnd[axis];
     210             :         }
     211             :     }
     212             :     arr.assign(newArray);
     213             : }
     214             : 
     215             : template <class T> void ImageStatsCalculator<T>::setVerbose(Bool v) {
     216             :     if (_verbose != v) {
     217             :         this->_resetStats();
     218             :     }
     219             :     _verbose = v;
     220             : }
     221             : 
     222             : template <class T> void ImageStatsCalculator<T>::setDisk(Bool d) {
     223             :     if (_disk != d) {
     224             :         this->_resetStats();
     225             :     }
     226             :     _disk = d;
     227             : }
     228             : 
     229             : template <class T> void ImageStatsCalculator<T>::_reportDetailedStats(
     230             :     const SPCIIT tempIm, const Record& retval
     231             : ) {
     232             :     auto nptsArr = retval.asArrayDouble("npts");
     233             :     if (nptsArr.empty()) {
     234             :         auto msg = "NO UNMASKED POINTS FOUND, NO STATISTICS WERE COMPUTED";
     235             :         *this->_getLog() << LogIO::NORMAL << msg << LogIO::POST;
     236             :         if (this->_getLogFile()) {
     237             :             this->_writeLogfile(msg, false, false);
     238             :         }
     239             :         this->_closeLogfile();
     240             :         return;
     241             :     }
     242             :     const CoordinateSystem& csys = tempIm->coordinates();
     243             :     auto worldAxes = csys.worldAxisNames();
     244             :     auto imShape = tempIm->shape();
     245             :     vector<uInt> colwidth;
     246             :     Int stokesCol = -1;
     247             :     Int freqCol = -1;
     248             :     Int raCol = -1;
     249             :     Int decCol = -1;
     250             :     IPosition otherCol;
     251             :     for (Int i=worldAxes.size()-1; i>=0; i--) {
     252             :         auto gg = worldAxes[i];
     253             :         gg.upcase();
     254             :         if (gg == "RIGHT ASCENSION") {
     255             :             raCol = i;
     256             :         }
     257             :         else if (gg == "DECLINATION") {
     258             :             decCol = i;
     259             :         }
     260             :         else if (gg == "FREQUENCY") {
     261             :             freqCol = i;
     262             :         }
     263             :         else if (gg == "STOKES") {
     264             :             stokesCol = i;
     265             :         }
     266             :         else {
     267             :             otherCol.append(IPosition(1, i));
     268             :         }
     269             :     }
     270             :     IPosition idx(worldAxes.size(), 0);
     271             :     uInt myloc = 0;
     272             :     IPosition reportAxes;
     273             :     if (stokesCol >= 0) {
     274             :         idx[myloc] = stokesCol;
     275             :         if (imShape[stokesCol] > 1) {
     276             :             reportAxes.prepend(IPosition(1, stokesCol));
     277             :         }
     278             :         ++myloc;
     279             :     }
     280             :     if (freqCol >= 0) {
     281             :         idx[myloc] = freqCol;
     282             :         if (imShape[freqCol] > 1) {
     283             :             reportAxes.prepend(IPosition(1, freqCol));
     284             :         }
     285             :         ++myloc;
     286             :     }
     287             :     if (decCol >= 0) {
     288             :         idx[myloc] = decCol;
     289             :         if (imShape[decCol] > 1) {
     290             :             reportAxes.prepend(IPosition(1, decCol));
     291             :         }
     292             :         ++myloc;
     293             :     }
     294             :     if (raCol >= 0) {
     295             :         idx[myloc] = raCol;
     296             :         if (imShape[raCol] > 1) {
     297             :             reportAxes.prepend(IPosition(1, raCol));
     298             :         }
     299             :         myloc++;
     300             :     }
     301             :     if (otherCol.size() > 0) {
     302             :         for (uInt i=0; i<otherCol.nelements(); ++i) {
     303             :             idx[myloc] = otherCol[i];
     304             :             ++myloc;
     305             :             if (imShape[otherCol[i]] > 1) {
     306             :                 reportAxes.append(IPosition(1, otherCol[i]));
     307             :             }
     308             :         }
     309             :     }
     310             :     Bool doVelocity = csys.hasSpectralAxis()
     311             :         && csys.spectralCoordinate().restFrequency() > 0;
     312             :     ostringstream oss;
     313             :     // CSSC wants "#" in log file but not in logger output, sigh
     314             :     for (auto ax : reportAxes) {
     315             :         if (ax == freqCol) {
     316             :             if (doVelocity) {
     317             :                 oss << "VELOCITY column unit = "
     318             :                     << csys.spectralCoordinate().velocityUnit() << endl;
     319             :             }
     320             :             else {
     321             :                 oss << "FREQUENCY column unit = "
     322             :                     << csys.spectralCoordinate().worldAxisUnits()[0] << endl;
     323             :             }
     324             :             if (_verbose) {
     325             :                 *this->_getLog() << LogIO::NORMAL << oss.str() << LogIO::POST;
     326             :             }
     327             :             if (this->_getLogFile()) {
     328             :                 this->_writeLogfile("#" + oss.str(), false, false);
     329             :             }
     330             :             oss.str("");
     331             :         }
     332             :     }
     333             :     auto bUnit = this->_getImage()->units().getName();
     334             :     const auto alg = this->_getAlgorithm();
     335             :     const auto doBiweight = alg == StatisticsData::BIWEIGHT;
     336             :     if (_verbose) {
     337             :         oss.str("");
     338             :         if (! doBiweight) {
     339             :             oss << "Sum column unit = " << bUnit << endl;
     340             :         }
     341             :         oss << "Mean column unit = " << bUnit << endl;
     342             :         oss << "Std_dev column unit = " << bUnit << endl;
     343             :         oss << "Minimum column unit = " << bUnit << endl;
     344             :         oss << "Maximum column unit = " << bUnit << endl;
     345             :         *this->_getLog() << LogIO::NORMAL << oss.str() << LogIO::POST;
     346             :         oss.str("");
     347             :     }
     348             :     if (this->_getLogFile()) {
     349             :         oss.str("");
     350             :         if (! doBiweight) {
     351             :             oss << "#Sum column unit = " << bUnit << endl;
     352             :         }
     353             :         oss << "#Mean column unit = " << bUnit << endl;
     354             :         oss << "#Std_dev column unit = " << bUnit << endl;
     355             :         oss << "#Minimum column unit = " << bUnit << endl;
     356             :         oss << "#Maximum column unit = " << bUnit << endl;
     357             :         this->_writeLogfile(oss.str(), false, false);
     358             :         oss.str("");
     359             :     }
     360             :     for (auto ax : reportAxes) {
     361             :         String gg = worldAxes[ax];
     362             :         gg.upcase();
     363             :         uInt width = gg == "STOKES" ? 6 : gg == "FREQUENCY"?  16: 15;
     364             :         if (
     365             :             gg == "FREQUENCY" && doVelocity
     366             :         ) {
     367             :             gg = "VELOCITY";
     368             :         }
     369             :         colwidth.push_back(width);
     370             :         oss << setw(width) << gg << "  "
     371             :             << gg << "(Plane)" << " ";
     372             :         width = gg.size() + 8;
     373             :         colwidth.push_back(width);
     374             :     }
     375             :     Vector<Int> axesMap = reportAxes.asVector();
     376             :     GenSort<Int>::sort(axesMap);
     377             :     if (doBiweight) {
     378             :         oss << "Npts          Mean          Std_dev       Minimum       Maximum     ";
     379             :     }
     380             :     else {
     381             :         oss << "Npts          Sum           Mean          Rms           Std_dev       Minimum       Maximum     ";
     382             :     }
     383             :     std::map<String, uInt> chauvIters;
     384             :     const auto& stats = this->_getImageStats();
     385             :     if (alg == StatisticsData::CHAUVENETCRITERION) {
     386             :         chauvIters = stats->getChauvenetNiter();
     387             :         oss << "  N Iter";
     388             :     }
     389             :     oss << endl;
     390             :     if (_verbose) {
     391             :         *this->_getLog() << LogIO::NORMAL << oss.str() << LogIO::POST;
     392             :     }
     393             :     if (this->_getLogFile()) {
     394             :         this->_writeLogfile("#" + oss.str(), false, false);
     395             :     }
     396             :     oss.str("");
     397             :     for (uInt i=0; i<7; ++i) {
     398             :         colwidth.push_back(12);
     399             :     }
     400             :     if (alg == StatisticsData::CHAUVENETCRITERION) {
     401             :         colwidth.push_back(6);
     402             :     }
     403             :     TileStepper ts(
     404             :         tempIm->niceCursorShape(),
     405             :         IPosition(tempIm->ndim(), 1), idx
     406             :     );
     407             :     RO_MaskedLatticeIterator<T> inIter(
     408             :         *tempIm, ts
     409             :     );
     410             :     Vector<Double> world;
     411             :     IPosition arrayIndex(axesMap.nelements(), 0);
     412             :     IPosition blc = stats->getBlc();
     413             :     IPosition position(tempIm->ndim());
     414             :     uInt width = 13;
     415             :     Vector<Vector<String> > coords(reportAxes.size());
     416             :     auto i = 0;
     417             :     for (const auto& axis: reportAxes) {
     418             :         Vector<Double> indices = indgen(imShape[axis], 0.0, 1.0);
     419             :         uInt prec = axis == freqCol ? 9 : 5;
     420             :         if (doVelocity && reportAxes[i] == freqCol) {
     421             :             const SpectralCoordinate& spc = csys.spectralCoordinate();
     422             :             Vector<Double> vels;
     423             :             spc.pixelToVelocity(vels, indices);
     424             :             vector<String> sv;
     425             :             for (const auto& v : vels) {
     426             :                 ostringstream oss;
     427             :                 oss << setprecision(prec) << v;
     428             :                 sv.push_back(oss.str());
     429             :             }
     430             :             coords[i] = Vector<String>(sv);
     431             :         }
     432             :         else {
     433             :             ImageUtilities::pixToWorld(
     434             :                 coords[i], csys, axis, _axes,
     435             :                 IPosition(imShape.size(),0), imShape-1, indices, prec,
     436             :                 true
     437             :             );
     438             :         }
     439             :         ++i;
     440             :     }
     441             :     uInt count = 0;
     442             :     for (inIter.reset(); ! inIter.atEnd(); ++inIter) {
     443             :         oss << std::scientific;
     444             :         uInt colNum = 0;
     445             :         position = inIter.position();
     446             :         csys.toWorld(world, position);
     447             :         if (axesMap.empty()) {
     448             :             arrayIndex = IPosition(1, 0);
     449             :         }
     450             :         else {
     451             :             auto n = axesMap.nelements();
     452             :             for (uInt i=0; i<n; ++i) {
     453             :                 arrayIndex[i] = position[axesMap[i]];
     454             :             }
     455             :         }
     456             :         auto npts = nptsArr(arrayIndex);
     457             :         if (npts == 0) {
     458             :             // CAS-10183, do not log planes for which there are no good points
     459             :             continue;
     460             :         }
     461             :         for (uInt i=0; i<reportAxes.nelements(); ++i) {
     462             :             oss << setw(colwidth[colNum]);
     463             :             oss    << coords[i][position[reportAxes[i]]];
     464             :             ++colNum;
     465             :             oss << " " << setw(colwidth[colNum])
     466             :                 << (position[reportAxes[i]] + blc[reportAxes[i]]) << " ";
     467             :             ++colNum;
     468             :         }
     469             :         oss << std::setw(width) << npts << " ";
     470             :         if (alg != StatisticsData::BIWEIGHT) {
     471             :             oss << std::setw(width) << retval.asArrayDouble("sum")(arrayIndex) << " ";
     472             :         }
     473             :         oss << std::setw(width) << retval.asArrayDouble("mean")(arrayIndex) << " ";
     474             :         if (alg != StatisticsData::BIWEIGHT) {
     475             :             oss << std::setw(width) << retval.asArrayDouble("rms")(arrayIndex) << " ";
     476             :         }
     477             :         oss << std::setw(width) << retval.asArrayDouble(SIGMA)(arrayIndex) << " "
     478             :             << std::setw(width) << retval.asArrayDouble("min")(arrayIndex) << " "
     479             :             << std::setw(width) << retval.asArrayDouble("max")(arrayIndex);
     480             :         if (alg == StatisticsData::CHAUVENETCRITERION) {
     481             :             ostringstream pos;
     482             :             pos << position;
     483             :             oss << std::setw(6) << " " << chauvIters[pos.str()];
     484             :             ++count;
     485             :         }
     486             :         oss << endl;
     487             :         if (_verbose) {
     488             :             *this->_getLog() << LogIO::NORMAL << oss.str() << LogIO::POST;
     489             :         }
     490             :         // add a space at the beginning of the line to account for the
     491             :         // "#" in the column header
     492             :         this->_writeLogfile(" " + oss.str(), false, false);
     493             :         oss.str("");
     494             :     }
     495             :     this->_closeLogfile();
     496             : }
     497             : 
     498           0 : template <class T> Record ImageStatsCalculator<T>::statistics(
     499             :     std::vector<String> *const &messageStore
     500             : ) {
     501           0 :     LogOrigin myOrigin(_class, __func__);
     502           0 :     *this->_getLog() << myOrigin;
     503           0 :     CountedPtr<ImageRegion> region, mask;
     504           0 :     String mtmp = this->_getMask();
     505           0 :     if (mtmp == "false" || mtmp == "[]") {
     506           0 :         mtmp = "";
     507             :     }
     508           0 :     _subImage = SubImageFactory<T>::createSubImageRO(
     509           0 :         region, mask, *this->_getImage(), *this->_getRegion(), mtmp,
     510           0 :         (_verbose ? this->_getLog().get() : 0), AxesSpecifier(),
     511           0 :         this->_getStretch()
     512             :     );
     513           0 :     *this->_getLog() << myOrigin;
     514             :     // Find BLC of _subImage in pixels and world coords, and output the
     515             :     // information to the logger.
     516             :     // NOTE: ImageStatitics can't do this because it only gets the _subImage
     517             :     //       not a region and the full image.
     518           0 :     IPosition shape = _subImage->shape();
     519           0 :     IPosition blc(_subImage->ndim(), 0);
     520           0 :     IPosition trc(shape - 1);
     521           0 :     if (region) {
     522           0 :         LatticeRegion latRegion = region->toLatticeRegion(
     523           0 :             this->_getImage()->coordinates(), this->_getImage()->shape()
     524             :         );
     525           0 :         Slicer sl = latRegion.slicer();
     526           0 :         blc = sl.start();
     527           0 :         trc = sl.end();
     528           0 :     }
     529             :     // for precision
     530           0 :     CoordinateSystem csys = this->_getImage()->coordinates();
     531           0 :     Int precis = -1;
     532           0 :     if (csys.hasDirectionCoordinate()) {
     533           0 :         DirectionCoordinate dirCoord = csys.directionCoordinate();
     534           0 :         Vector<String> dirUnits = dirCoord.worldAxisUnits();
     535           0 :         Vector<Double> dirIncs = dirCoord.increment();
     536           0 :         for (uInt i=0; i< dirUnits.size(); ++i) {
     537           0 :             Quantity inc(dirIncs[i], dirUnits[i]);
     538           0 :             inc.convert("s");
     539           0 :             Int newPrecis = abs(int(floor(log10(inc.getValue()))));
     540           0 :             precis = (newPrecis > 2 && newPrecis > precis) ? newPrecis : precis;
     541             :         }
     542           0 :     }
     543           0 :     String blcf, trcf;
     544           0 :     blcf = CoordinateUtil::formatCoordinate(blc, csys, precis);
     545           0 :     trcf = CoordinateUtil::formatCoordinate(trc, csys, precis);
     546           0 :     auto& stats = this->_getImageStats();
     547           0 :     if (! stats) {
     548           0 :         this->_resetStats(
     549           0 :             _verbose
     550           0 :             ? new ImageStatistics<T> (*_subImage, *this->_getLog(), true, _disk)
     551           0 :             : new ImageStatistics<T> (*_subImage, true, _disk)
     552             :         );
     553             :     }
     554             :     else {
     555           0 :         stats->resetError();
     556           0 :         if (
     557           0 :             _haveRegionsChanged(
     558             :                 region.get(), mask.get(),
     559             :                 _oldStatsRegion.get(), _oldStatsMask.get()
     560             :             )
     561             :         ) {
     562           0 :             stats->setNewImage(*_subImage);
     563             :         }
     564             :     }
     565             :     // prevent the table of stats we no longer use from being logged
     566           0 :     stats->setListStats(false);
     567           0 :     auto myAlg = this->_configureAlgorithm();
     568           0 :     _logStartup(
     569             :         messageStore, myAlg, blc, trc, blcf, trcf
     570             :     );
     571           0 :     auto doBiweight = this->_getAlgorithm() == StatisticsData::BIWEIGHT;
     572           0 :     if (_robust && doBiweight) {
     573           0 :         *this->_getLog() << LogIO::WARN << "The biweight algorithm does not "
     574             :             << "support the computation of quantile-like statistics. "
     575           0 :             << "These will not be computed" << LogIO::POST;
     576           0 :         _robust = False;
     577             :     }
     578           0 :     stats->setComputeQuantiles(_robust);
     579           0 :     if (messageStore) {
     580           0 :         stats->recordMessages(true);
     581             :     }
     582           0 :     stats->setPrecision(precis);
     583           0 :     stats->setBlc(blc);
     584             :     // Assign old regions to current regions
     585           0 :     _oldStatsMask.reset();
     586           0 :     _oldStatsRegion = region;
     587           0 :     _oldStatsMask = mask;
     588             :     // Set cursor axes
     589           0 :     *this->_getLog() << myOrigin;
     590           0 :     ThrowIf(! stats->setAxes(_axes), stats->errorMessage());
     591           0 :     ThrowIf(
     592             :         !stats->setInExCludeRange(_includepix, _excludepix, false),
     593             :         stats->errorMessage()
     594             :     );
     595             :     // Tell what to list
     596           0 :     ThrowIf(
     597             :         !stats->setList(_list),
     598             :         stats->errorMessage()
     599             :     );
     600             :     // Recover statistics
     601           0 :     Array<Double> npts, sum, sumsquared, min, max, mean, sigma;
     602           0 :     Array<Double> rms, fluxDensity, med, medAbsDevMed, quartile, q1, q3;
     603           0 :     Bool ok = true;
     604           0 :     auto doFlux = ! doBiweight;
     605           0 :     if (doFlux && this->_getImage()->imageInfo().hasMultipleBeams()) {
     606           0 :         if (csys.hasSpectralAxis() || csys.hasPolarizationCoordinate()) {
     607           0 :             Int spAxis = csys.spectralAxisNumber();
     608           0 :             Int poAxis = csys.polarizationAxisNumber();
     609           0 :             for (Int i=0; i<(Int)_axes.size(); ++i) {
     610           0 :                 if (_axes[i] == spAxis || _axes[i] == poAxis) {
     611           0 :                     *this->_getLog() << LogIO::WARN << "At least one cursor axis contains multiple beams. "
     612             :                         << "You should thus use care in interpreting these statistics. Flux densities "
     613           0 :                         << "will not be computed." << LogIO::POST;
     614           0 :                     doFlux = false;
     615           0 :                     break;
     616             :                 }
     617             :             }
     618             :         }
     619             :     }
     620           0 :     if (_robust) {
     621           0 :         ok = stats->getStatistic(med, LatticeStatsBase::MEDIAN)
     622           0 :             && stats->getStatistic(
     623             :                 medAbsDevMed, LatticeStatsBase::MEDABSDEVMED
     624             :             )
     625           0 :             && stats->getStatistic(
     626             :                 quartile, LatticeStatsBase::QUARTILE
     627             :             )
     628           0 :             && stats->getStatistic(
     629             :                 q1, LatticeStatsBase::Q1
     630             :             )
     631           0 :             && stats->getStatistic(
     632             :                 q3, LatticeStatsBase::Q3
     633             :             );
     634             :     }
     635           0 :     ok = ok && stats->getStatistic(npts, LatticeStatsBase::NPTS)
     636           0 :         && stats->getStatistic(min, LatticeStatsBase::MIN)
     637           0 :         && stats->getStatistic(max, LatticeStatsBase::MAX)
     638           0 :         && stats->getStatistic(mean, LatticeStatsBase::MEAN)
     639           0 :         && stats->getStatistic(sigma, LatticeStatsBase::SIGMA);
     640           0 :     if (! doBiweight) {
     641           0 :         ok = ok && stats->getStatistic(sum, LatticeStatsBase::SUM)
     642           0 :             && stats->getStatistic(sumsquared, LatticeStatsBase::SUMSQ)
     643           0 :             && stats->getStatistic(rms, LatticeStatsBase::RMS);
     644             :     }
     645           0 :     ThrowIf(! ok, stats->errorMessage());
     646           0 :     Record statsout;
     647           0 :     statsout.define("npts", npts);
     648           0 :     statsout.define("min", min);
     649           0 :     statsout.define("max", max);
     650           0 :     statsout.define("mean", mean);
     651           0 :     statsout.define(SIGMA, sigma);
     652           0 :     if (! doBiweight) {
     653           0 :         statsout.define("sum", sum);
     654           0 :         statsout.define("sumsq", sumsquared);
     655           0 :         statsout.define("rms", rms);
     656             :     }
     657           0 :     if (_robust) {
     658           0 :         statsout.define("median", med);
     659           0 :         statsout.define("medabsdevmed", medAbsDevMed);
     660           0 :         statsout.define("quartile", quartile);
     661           0 :         statsout.define("q1", q1);
     662           0 :         statsout.define("q3", q3);
     663             :     }
     664           0 :     if (
     665             :         doFlux
     666           0 :         && stats->getStatistic(
     667             :             fluxDensity, LatticeStatsBase::FLUX
     668             :         )
     669             :     ) {
     670           0 :         statsout.define("flux", fluxDensity);
     671             :     }
     672           0 :     statsout.define("blc", blc.asVector());
     673           0 :     statsout.define("blcf", blcf);
     674           0 :     statsout.define("trc", trc.asVector());
     675           0 :     statsout.define("trcf", trcf);
     676           0 :     String tmp;
     677           0 :     IPosition minPos, maxPos;
     678           0 :     if (! doBiweight && stats->getMinMaxPos(minPos, maxPos)) {
     679           0 :         if (minPos.nelements() > 0) {
     680           0 :             statsout.define("minpos", (blc + minPos).asVector());
     681           0 :             tmp = CoordinateUtil::formatCoordinate(blc + minPos, csys, precis);
     682           0 :             statsout.define("minposf", tmp);
     683             :         }
     684           0 :         if (maxPos.nelements() > 0) {
     685           0 :             statsout.define("maxpos", (blc + maxPos).asVector());
     686           0 :             tmp = CoordinateUtil::formatCoordinate(blc + maxPos, csys, precis);
     687           0 :             statsout.define("maxposf", tmp);
     688             :         }
     689             :     }
     690           0 :     if (_list) {
     691           0 :         stats->showRobust(_robust);
     692           0 :         ThrowIf(
     693             :             ! stats->display(),
     694             :             stats->errorMessage()
     695             :         );
     696             :     }
     697           0 :     if (messageStore) {
     698           0 :         std::vector<String> messages = stats->getMessages();
     699           0 :         for (
     700           0 :             std::vector<String>::const_iterator iter=messages.begin();
     701           0 :             iter!=messages.end(); ++iter
     702             :         ) {
     703           0 :             messageStore->push_back(*iter + "\n");
     704             :         }
     705           0 :         stats->clearMessages();
     706           0 :     }
     707           0 :     return statsout;
     708           0 : }
     709             : 
     710           0 : template <class T> void ImageStatsCalculator<T>::_logStartup(
     711             :     std::vector<String> *const &messageStore, const String& myAlg,
     712             :     const casacore::IPosition& blc, const casacore::IPosition& trc,
     713             :     const casacore::String& blcf, const casacore::String trcf
     714             : ) const {
     715           0 :     if (! _list) {
     716           0 :         return;
     717             :     }
     718           0 :     LogOrigin myOrigin(_class, __func__);
     719           0 :     *this->_getLog() << myOrigin << LogIO::NORMAL;
     720           0 :     String algInfo = "Statistics calculated using "
     721             :         + myAlg + " algorithm";
     722           0 :     *this->_getLog() << algInfo << LogIO::POST;
     723           0 :     if (messageStore) {
     724           0 :         messageStore->push_back(algInfo + "\n");
     725             :     }
     726             :     // Only write to the logger if the user wants it displayed.
     727           0 :     Vector<String> x(5);
     728           0 :     ostringstream y;
     729           0 :     x[0] = "Regions --- ";
     730           0 :     y << "         -- bottom-left corner (pixel) [blc]:  " << blc;
     731           0 :     x[1] = y.str();
     732           0 :     y.str("");
     733           0 :     y << "         -- top-right corner (pixel) [trc]:    " << trc;
     734           0 :     x[2] = y.str();
     735           0 :     y.str("");
     736           0 :     y << "         -- bottom-left corner (world) [blcf]: " << blcf;
     737           0 :     x[3] = y.str();
     738           0 :     y.str("");
     739           0 :     y << "         -- top-right corner (world) [trcf]:   " << trcf;
     740           0 :     x[4] = y.str();
     741           0 :     for (uInt i=0; i<x.size(); ++i) {
     742           0 :         *this->_getLog() << x[i] << LogIO::POST;
     743           0 :         if (messageStore != 0) {
     744           0 :             messageStore->push_back(x[i] + "\n");
     745             :         }
     746             :     }
     747           0 : }
     748             : 
     749           0 : template <class T> void ImageStatsCalculator<T>::setRobust(Bool b) {
     750           0 :     _robust = b;
     751           0 : }
     752             : 
     753           0 : template <class T> casacore::Bool ImageStatsCalculator<T>::_haveRegionsChanged(
     754             :     ImageRegion* newRegion,
     755             :     ImageRegion* newMask, ImageRegion* oldRegion,
     756             :     ImageRegion* oldMask
     757             : ) {
     758           0 :     Bool regionChanged = (
     759           0 :             newRegion != 0 && oldRegion != 0
     760           0 :             && (*newRegion) != (*oldRegion)
     761             :         )
     762           0 :         || (newRegion == 0 && oldRegion != 0)
     763           0 :         || (newRegion != 0 && oldRegion == 0
     764             :     );
     765           0 :     Bool maskChanged = (
     766           0 :             newMask != 0 && oldMask != 0
     767           0 :             && (*newMask) != (*oldMask)
     768             :         )
     769           0 :         || (newMask == 0 && oldMask != 0)
     770           0 :         || (newMask != 0 && oldMask == 0
     771             :     );
     772           0 :     return (regionChanged || maskChanged);
     773             : }
     774             : 
     775             : }
     776             : 
     777             : #endif

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