LCOV - code coverage report
Current view: top level - singledish/SingleDish - LineFindingUtils.cc (source / functions) Hit Total Coverage
Test: ctest_coverage.info Lines: 186 210 88.6 %
Date: 2023-11-02 14:27:30 Functions: 13 14 92.9 %

          Line data    Source code
       1             : //# --------------------------------------------------------------------
       2             : //# LineFindingUtils.tcc: this defines utility functions of line finding
       3             : //# --------------------------------------------------------------------
       4             : //# Copyright (C) 2015
       5             : //# National Astronomical Observatory of Japan
       6             : //#
       7             : //# This library is free software; you can redistribute it and/or modify it
       8             : //# under the terms of the GNU Library General Public License as published by
       9             : //# the Free Software Foundation; either version 2 of the License, or (at your
      10             : //# option) any later version.
      11             : //#
      12             : //# This library is distributed in the hope that it will be useful, but WITHOUT
      13             : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
      14             : //# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Library General Public
      15             : //# License for more details.
      16             : //#
      17             : //# You should have received a copy of the GNU Library General Public License
      18             : //# along with this library; if not, write to the Free Software Foundation,
      19             : //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
      20             : //#
      21             : //# Correspondence concerning AIPS++ should be addressed as follows:
      22             : //#        Internet email: aips2-request@nrao.edu.
      23             : //#        Postal address: AIPS++ Project Office
      24             : //#                        National Radio Astronomy Observatory
      25             : //#                        520 Edgemont Road
      26             : //#                        Charlottesville, VA 22903-2475 USA
      27             : //#
      28             : //# $Id$
      29             : #include <algorithm>
      30             : #include <casacore/casa/Utilities/Assert.h>
      31             : #include <cmath>
      32             : 
      33             : #include <libsakura/sakura.h>
      34             : #include <singledish/SingleDish/LineFindingUtils.h>
      35             : 
      36             : using namespace std;
      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 { //# NAMESPACE CASA - BEGIN
      46             : 
      47             : template <typename DataType> 
      48           2 : size_t LineFinderUtils::binDataAndMask(size_t const num_in,
      49             :                                        DataType const* in_data,
      50             :                                        bool const* in_mask,
      51             :                                        size_t const bin_size,
      52             :                                        size_t const num_out,
      53             :                                        DataType* out_data,
      54             :                                        bool* out_mask,
      55             :                                        size_t const offset,
      56             :                                        bool const keepsize)
      57             : {
      58           2 :   if (offset+bin_size > num_in-1) return 0;
      59             :   // Can NOT offset (>0) when changing size (keepsize=false)
      60           2 :   AlwaysAssert((!keepsize || offset==0), AipsError);
      61           2 :   size_t num_bin = keepsize ? num_in : (num_in-offset)/bin_size;
      62           2 :   AlwaysAssert(num_bin <= num_out, AipsError);
      63           2 :   size_t num_loc_out = keepsize ? bin_size : 1;
      64           2 :   size_t out_idx = 0;
      65          15 :   for (size_t i=offset; (keepsize ? i : i+bin_size-1) < num_in && out_idx < num_bin;) {
      66          13 :     DataType data = static_cast<DataType>(0);
      67          13 :     bool mask = true;
      68          13 :     size_t iend=i+bin_size;
      69          13 :     size_t count=0;
      70          51 :     for (;i<iend && i < num_in; ++i) {
      71             :       //Sum up regardless of in_mask because
      72             :       //it will be flagged anyway if any of mask=false.
      73          38 :       data += in_data[i];
      74          38 :       mask = mask && in_mask[i];
      75          38 :       ++count;
      76             :     }
      77          13 :     data = mask ? data/static_cast<DataType>(count) : static_cast<DataType>(0);
      78          39 :     for (size_t j = 0; j < num_loc_out && out_idx < num_bin; ++j){
      79          26 :       out_mask[out_idx] = mask;
      80          26 :       out_data[out_idx] = data;
      81          26 :       ++out_idx;
      82             :     }
      83             :   }
      84           2 :   AlwaysAssert(num_bin==out_idx, AipsError);
      85           2 :   return num_bin;
      86             : }
      87             : 
      88           1 : void LineFinderUtils::calculateMAD(size_t const num_data,
      89             :                                    float const in_data[],
      90             :                                    bool const in_mask[],
      91             :                                    float mad[])
      92             : {
      93           1 :   float median_value = LineFinderUtils::maskedMedian(num_data, in_data, in_mask, 1.0);
      94             :   //cout << "median value for MAD = " << median_value << endl;
      95          21 :   for (size_t i = 0; i < num_data; ++i) {
      96          20 :     mad[i] = fabs(in_data[i]-median_value);
      97             :   }
      98           1 : }
      99             : 
     100           1 : void LineFinderUtils::createMaskByAThreshold(size_t const num_data,
     101             :                                              float const in_data[],
     102             :                                              bool const in_mask[],
     103             :                                              float const threshold,
     104             :                                              bool out_mask[])
     105             : {
     106           1 :   LIBSAKURA_SYMBOL(Status) status = LIBSAKURA_SYMBOL(SetTrueIfGreaterThanOrEqualsFloat)(num_data, in_data, threshold, out_mask);
     107           1 :   AlwaysAssert(status == LIBSAKURA_SYMBOL(Status_kOK), AipsError);
     108          21 :   for (size_t i = 0; i < num_data; ++i) {
     109          20 :     out_mask[i] = out_mask[i] && in_mask[i];
     110             :   }
     111           1 : }
     112             : 
     113           1 : void LineFinderUtils::deBinRanges(size_t const bin_size, size_t const offset,
     114             :                                   list<pair<size_t,size_t>>& range_list)
     115             : {
     116           4 :   for(list<pair<size_t,size_t>>::iterator iter=range_list.begin();
     117           4 :         iter!=range_list.end(); ++iter) {
     118           3 :     (*iter).first = (*iter).first*bin_size + offset;
     119           3 :     (*iter).second = (*iter).second*bin_size+(bin_size-1) + offset;
     120             :     }
     121           1 : }
     122             : 
     123           1 : void LineFinderUtils::extendRangeBySign(size_t num_sign, int8_t const* sign, bool const* mask,
     124             :                                         list<pair<size_t,size_t>>& range_list){
     125           4 :   for (list<pair<size_t,size_t>>::iterator iter = range_list.begin();
     126           7 :        iter!=range_list.end(); ++iter) {
     127           3 :     AlwaysAssert((*iter).first <= (*iter).second, AipsError);
     128             :     // extend left wing
     129           3 :     int8_t ref_sign = sign[(*iter).first];
     130           3 :     for (size_t i=(*iter).first-1; ; --i) {
     131           5 :       if (mask[i] && sign[i] == ref_sign) (*iter).first=i;
     132             :       else break;
     133           2 :       if (i==0) break;
     134             :     }
     135             :     // extend right wing
     136           3 :     ref_sign = sign[(*iter).second];
     137           9 :     for (size_t i=(*iter).second+1; i<num_sign; ++i) {
     138           9 :       if (mask[i] && sign[i] == ref_sign) (*iter).second=i;
     139             :       else break;
     140             :     }
     141             :   }
     142           1 : }
     143             : 
     144             : 
     145           2 : void LineFinderUtils::maskToRangesList(size_t const num_mask, bool const* mask,
     146             :                                        list<pair<size_t,size_t>>& out_range)
     147             : {
     148             :   static_assert(static_cast<int8_t>(true)==1, "cast of bool failed");
     149             :   static_assert(static_cast<int8_t>(false)==0, "cast of bool failed");
     150           2 :   out_range.clear();
     151           2 :   if (num_mask==0) return;
     152           2 :   size_t istart=num_mask;
     153           2 :   if (mask[0]) istart=0;
     154          40 :   for (size_t i=1; i<num_mask; ++i) {
     155          38 :     int8_t diff = static_cast<int8_t>(mask[i]) - static_cast<int8_t>(mask[i-1]);
     156          38 :     if (diff==1) { // start of new line
     157          10 :       AlwaysAssert(istart==num_mask, AipsError);
     158          10 :       istart=i; 
     159             :     }
     160          28 :     else if (diff==-1) { // end of line was i-1 chan
     161           9 :       AlwaysAssert(istart<num_mask, AipsError);
     162           9 :       out_range.push_back(pair<size_t,size_t>(istart, i-1));
     163           9 :       istart=num_mask;
     164             :     }
     165             :   }
     166           2 :   if (mask[num_mask-1]) {
     167           2 :     AlwaysAssert(istart<num_mask, AipsError);
     168           2 :     out_range.push_back(pair<size_t,size_t>(istart, num_mask-1));
     169             :   }
     170             : }
     171             : 
     172           2 : void LineFinderUtils::mergeGapByFalse(size_t const num_mask, bool const* mask,
     173             :                                       size_t const maxgap,
     174             :                                       list<pair<size_t,size_t>>& range_list)
     175             : {
     176           2 :   if (range_list.size() < 2) return; // nothing to do
     177           2 :   list<pair<size_t,size_t>>::iterator iter=range_list.begin();
     178           2 :   size_t from=(*iter).second+1;
     179           2 :   list<pair<size_t,size_t>> temp_list;
     180           2 :   temp_list.push_back(*iter);
     181           2 :   ++iter;
     182           4 :   for( ; iter!=range_list.end(); ++iter) {
     183           2 :     size_t to=(*iter).first;
     184           2 :     if (to-from > maxgap) { // do not merge if gap is too large
     185           1 :       temp_list.push_back(*iter);
     186           1 :       continue;
     187             :     }
     188           1 :     bool merge=true;
     189           6 :     for (size_t i=from; i<to && i < num_mask; ++i) {
     190           5 :       if (mask[i]) { // do not merge if any of channel in betwee the line 
     191           0 :         merge = false;
     192           0 :         break;
     193             :       }
     194             :     }
     195           1 :     from=(*iter).second;
     196           1 :     if (merge) {
     197           1 :       temp_list.back().second = (*iter).second;
     198             :     }
     199             :     else {
     200           0 :       temp_list.push_back(*iter);
     201             :     }
     202             :   }
     203           2 :   range_list.clear();
     204           2 :   range_list.splice(range_list.end(), temp_list);
     205             : }
     206             : 
     207           1 : float LineFinderUtils::maskedMedian(size_t num_data, float const data[],
     208             :                                      bool const mask[], float fraction)
     209             : {
     210             : 
     211           1 :   Vector<float> local_data(IPosition(1, num_data), const_cast<float *>(data), COPY);
     212             : //  for (size_t i = 0 ; i < num_data; ++i){
     213             : //    local_data.data[i] = data[i];
     214             : //  }
     215           1 :   float *local_data_p = local_data.data();
     216           1 :   size_t num_valid(num_data+1);
     217           1 :   LIBSAKURA_SYMBOL(Status) status = LIBSAKURA_SYMBOL(SortValidValuesDenselyFloat)(num_data, mask, local_data_p, &num_valid);
     218           1 :   AlwaysAssert(status == LIBSAKURA_SYMBOL(Status_kOK), AipsError);
     219           1 :   AlwaysAssert(num_valid <= num_data, AipsError);
     220           1 :   if (fraction<1.0)
     221           0 :     num_valid = static_cast<size_t>(num_valid*fraction);
     222           1 :   float median_value = LineFinderUtils::getMedianOfSorted<float>(num_valid,
     223             :                                                                  local_data_p);
     224           2 :   return median_value;
     225             :   
     226             : }
     227             : 
     228           1 : void LineFinderUtils::mergeOverlappingRanges(list<pair<size_t,size_t>>& range_list)
     229             : {
     230           1 :   if (range_list.size() < 2) return; // nothing to do
     231           1 :   list<pair<size_t,size_t>> temp_list;
     232           1 :   list<pair<size_t,size_t>>::iterator iter=range_list.begin();
     233           1 :   temp_list.push_back(*iter);
     234           1 :   ++iter;
     235           6 :   for ( ; iter!=range_list.end(); ++iter) {
     236             :     // always start searching from the begining of temp_list
     237             :     //size_t dummy_cursor = 
     238           5 :     mergeARangeToList(temp_list, (*iter));
     239             :   }
     240           1 :   range_list.clear();
     241           1 :   range_list.splice(range_list.end(), temp_list);
     242             : }
     243             : 
     244             : 
     245           2 : void LineFinderUtils::mergeOverlapInTwoLists(list<pair<size_t,size_t>>& to,
     246             :                             list<pair<size_t,size_t>>& from)
     247             : {
     248           2 :   if (from.size()==0) return; // nothing to do
     249           2 :   if (to.size()==0) { // replace from with to
     250           0 :     to.splice(to.end(), from);
     251           0 :     return;
     252             :   }
     253           2 :   size_t cursor = 0;
     254          12 :   for (list<pair<size_t,size_t>>::iterator from_iter=from.begin();
     255          12 :        from_iter!=from.end(); ++from_iter) {
     256          10 :     cursor = mergeARangeToList(to, *from_iter, cursor);
     257             :   }
     258             : }
     259             : 
     260          15 : size_t LineFinderUtils::mergeARangeToList(list<pair<size_t,size_t>>& range_list,
     261             :                                   pair<size_t,size_t>& new_range,
     262             :                                   size_t const cursor)
     263             : {
     264          15 :   AlwaysAssert(new_range.first<=new_range.second, AipsError);
     265             :   // cursor should be zero if range_list is empty
     266          15 :   AlwaysAssert(range_list.size()>0 || cursor==0, AipsError);
     267          15 :   if (range_list.size()==0) {//just add new range to range_list;
     268           0 :     range_list.push_back(new_range);
     269           0 :     return cursor;
     270             :   }
     271          15 :   AlwaysAssert(cursor < range_list.size(), AipsError);
     272             :   // add range at the end
     273          15 :   if (new_range.first > range_list.back().second) {
     274           3 :     range_list.push_back(new_range);
     275           3 :     return range_list.size()-1;
     276             :   }
     277             :   // move iterator to the start point of the search
     278          12 :   list<pair<size_t,size_t>>::iterator start_cursor = range_list.begin();
     279          12 :   if (cursor > 0) {
     280          19 :     for (size_t i=1; i<cursor; ++i) {
     281          13 :       ++start_cursor;
     282             :     }
     283           6 :     AlwaysAssert(new_range.first > (*start_cursor).second, AipsError);
     284           6 :     ++start_cursor;
     285             :   }
     286             :   // add range to the begining
     287          12 :   if (new_range.second < (*start_cursor).first) {
     288           1 :     range_list.insert(start_cursor, new_range);
     289           1 :     return cursor+1;
     290             :   }
     291          11 :   size_t out_cursor = cursor;
     292             :   // new_range is in some where after cursor position of range_list.
     293             :   // find segment in range_list (final) list where overlap starts
     294          11 :   list<pair<size_t,size_t>>::iterator insert_begin=range_list.end();
     295          11 :   bool any_overlap = false;
     296          22 :   for (list<pair<size_t,size_t>>::iterator iter=start_cursor;
     297          33 :        iter!=range_list.end(); ++iter, ++out_cursor) {
     298          22 :     if ((*iter).first > new_range.second) {
     299             :       // the range exceeded new_range. No overlap. Insert before this range.
     300           1 :       range_list.insert(iter, new_range);
     301           1 :       return out_cursor;
     302          21 :     } else if ((*iter).second < new_range.first) { //|| (*iter).first > new_range.second) {
     303             :       // still too small ranges
     304          11 :       continue;
     305             :     } else {//overlap started
     306          10 :       insert_begin = iter;
     307          10 :       any_overlap = true;
     308          10 :       break;
     309             :     }
     310             :   }
     311             :   // An overlap should be found.
     312          10 :   AlwaysAssert(any_overlap, AipsError);
     313             :   // find segment in range_list (final) list where overlap ends
     314          10 :   list<pair<size_t,size_t>>::iterator insert_end=range_list.end();
     315          23 :   for (list<pair<size_t,size_t>>::iterator iter=insert_begin;
     316          36 :        iter!=range_list.end(); ++iter) {
     317          18 :     if ((*iter).first <= new_range.second) {
     318          13 :       insert_end = iter;
     319             :     }
     320           5 :     else break; // the range exceed new_range.
     321             :   }
     322             :   // there was an overlap
     323          10 :   list<pair<size_t,size_t>> temp_list;
     324             :   // preceeding elements (including the first overlapped range)
     325          10 :   temp_list.splice(temp_list.end(), range_list, range_list.begin(), insert_begin);
     326             :   // overlaping segment
     327          10 :   pair<size_t,size_t> unified_range(std::min((*insert_begin).first, new_range.first),
     328          20 :                                     std::max((*insert_end).second, new_range.second));
     329          10 :   temp_list.push_back(unified_range);
     330             :   // trailing elements
     331          10 :   if (insert_end != range_list.end()){
     332          10 :     temp_list.splice(temp_list.end(),range_list,++insert_end, range_list.end());
     333             :   }
     334          10 :   range_list.clear();
     335          10 :   range_list.splice(range_list.end(), temp_list);
     336          10 :   return out_cursor;
     337             : }
     338             : 
     339           0 : void LineFinderUtils::mergeSmallGapByFraction(double const fraction,
     340             :                                               size_t const maxwidth,
     341             :                                               list<pair<size_t,size_t>>& range_list)
     342             : {
     343           0 :   if (range_list.size() < 2) return; // nothing to do
     344           0 :   list<pair<size_t,size_t>> temp_list;
     345           0 :   list<pair<size_t,size_t>>::iterator iter=range_list.begin();
     346           0 :   temp_list.push_back(*iter);
     347           0 :   ++iter;
     348           0 :   for (; iter != range_list.end(); ++iter) {
     349           0 :     size_t curr_width = (*iter).second - (*iter).first;
     350           0 :     size_t prev_width = temp_list.back().second - temp_list.back().first;
     351           0 :     size_t gap = (*iter).first-temp_list.back().second;
     352           0 :     if (gap < static_cast<size_t>(std::min(prev_width, curr_width)*fraction) && \
     353           0 :         (*iter).second-temp_list.back().first < maxwidth) {
     354           0 :       temp_list.back().second = (*iter).second;
     355             :     }
     356             :     else {
     357           0 :       temp_list.push_back(*iter);
     358             :     }
     359             :   }
     360           0 :   range_list.clear();
     361           0 :   range_list.splice(range_list.end(), temp_list);
     362             : }
     363             : 
     364           1 : void LineFinderUtils::rejectWideRange(size_t const maxwidth,
     365             :                                       list<pair<size_t,size_t>>& range_list)
     366             : {
     367           2 :     list<pair<size_t, size_t> >  temp_list;
     368           5 :     for(list<pair<size_t,size_t>>::iterator iter=range_list.begin();
     369           9 :         iter!=range_list.end(); ++iter) {
     370           4 :       AlwaysAssert((*iter).second >= (*iter).first, AipsError);
     371           4 :       size_t width = (*iter).second - (*iter).first + 1;
     372           4 :         if (width <= maxwidth) {
     373           3 :             temp_list.push_back(*iter);
     374             :         }
     375             :     }
     376           1 :     range_list.clear();
     377           1 :     range_list.merge(temp_list);
     378           1 : }
     379             : 
     380           1 : void LineFinderUtils::rejectNarrowRange(size_t const minwidth,
     381             :                                         list<pair<size_t,size_t>>& range_list)
     382             : {
     383           1 :   AlwaysAssert(minwidth>0, AipsError);
     384           2 :     list<pair<size_t, size_t> >  temp_list;
     385           4 :     for(list<pair<size_t,size_t>>::iterator iter=range_list.begin();
     386           7 :         iter!=range_list.end(); ++iter) {
     387           3 :       AlwaysAssert((*iter).second >= (*iter).first, AipsError);
     388           3 :       size_t width = (*iter).second - (*iter).first + 1;
     389           3 :         if (width >= minwidth) {
     390           3 :             temp_list.push_back(*iter);
     391             :         }
     392             :     }
     393           1 :     range_list.clear();
     394           1 :     range_list.merge(temp_list);
     395           1 : }
     396             : 
     397             : template size_t LineFinderUtils::binDataAndMask<float>(size_t const num_in,
     398             :                                                        float const in_data[],
     399             :                                                        bool const in_mask[],
     400             :                                                        size_t const bin_size,
     401             :                                                        size_t const num_out,
     402             :                                                        float out_data[],
     403             :                                                        bool out_mask[],
     404             :                                                        size_t const offset,
     405             :                                                        bool const keepsize);
     406             : 
     407             : } //# NAMESPACE CASA - END

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