LCOV - code coverage report
Current view: top level - synthesis/CalTables - RIorAParray.cc (source / functions) Hit Total Coverage
Test: casacpp_coverage.info Lines: 0 125 0.0 %
Date: 2024-10-10 15:00:01 Functions: 0 14 0.0 %

          Line data    Source code
       1             : //# RIorAParray.cc: Implementation of RI/AP on-demand converter
       2             : //# Copyright (C) 2012                                     
       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 adressed 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             : //#                                                                                           
      27             : 
      28             : #include <synthesis/CalTables/RIorAParray.h>
      29             : 
      30             : #include <casacore/casa/aips.h>
      31             : #include <casacore/casa/BasicSL/Constants.h>
      32             : #include <casacore/casa/Arrays/Array.h>
      33             : #include <casacore/casa/IO/ArrayIO.h>
      34             : #include <casacore/casa/Arrays/ArrayIter.h>
      35             : #include <casacore/casa/Arrays/Matrix.h>
      36             : #include <casacore/casa/Arrays/ArrayMath.h>
      37             : #include <casacore/casa/Logging/LogMessage.h>
      38             : #include <casacore/casa/Logging/LogSink.h>
      39             : 
      40             : #define RIORAPVERB false
      41             : 
      42             : using namespace casacore;
      43             : namespace casa { //# NAMESPACE CASA - BEGIN                                                   
      44             : 
      45             : 
      46             : // Construct empty
      47           0 : RIorAPArray::RIorAPArray() :
      48           0 :   c_ok_(false),
      49           0 :   f_ok_(false),
      50           0 :   phaseTracked_(false),
      51           0 :   c_(),
      52           0 :   f_()
      53           0 : {}
      54             : 
      55             : // Construct from external Complex Array
      56           0 : RIorAPArray::RIorAPArray(const Array<Complex>& c) :
      57           0 :   c_ok_(false),
      58           0 :   f_ok_(false),
      59           0 :   phaseTracked_(false),
      60           0 :   c_(),
      61           0 :   f_()
      62             : {
      63             :   if (RIORAPVERB) cout << "ctor(A<Complex>))" << endl;
      64             : 
      65             :   // Delegate to setData
      66           0 :   this->setData(c);
      67           0 : }
      68             : 
      69             : // Construct from external Float Array
      70           0 : RIorAPArray::RIorAPArray(const Array<Float>& f) :
      71           0 :   c_ok_(false),
      72           0 :   f_ok_(false),
      73           0 :   phaseTracked_(false),
      74           0 :   c_(),
      75           0 :   f_()
      76             : {
      77             :   if (RIORAPVERB) cout << "ctor(A<Float>))" << endl;
      78             : 
      79             :   // Delegate to setData
      80           0 :   setData(f);
      81           0 : }
      82             : 
      83             : // Destructor
      84           0 : RIorAPArray::~RIorAPArray() {};
      85             : 
      86             : 
      87           0 : void RIorAPArray::setData(const Array<Complex>& c) {
      88             : 
      89             :   // Discard any existing float part; will be created on-demand, if nec.
      90           0 :   f_.resize();
      91           0 :   f_ok_=false;
      92             :   // Reference incoming data array
      93           0 :   if (c.ndim()==1) {
      94           0 :     IPosition ip=c.shape();
      95           0 :     ip.prepend(IPosition(1,1));
      96           0 :     c_.reference(c.reform(ip));
      97           0 :   }
      98             :   else
      99           0 :     c_.reference(c);
     100             :   // Complex version now ok
     101           0 :   c_ok_=true;
     102           0 : }
     103             : 
     104           0 : void RIorAPArray::setData(const Array<Float>& f) {
     105             : 
     106             :   // Discard any existing complex part; will be created on-demand, if nec.
     107           0 :   c_.resize();
     108           0 :   c_ok_=false;
     109             : 
     110             :   // Insist that incoming Float Array has ndim>1
     111           0 :   if (f.ndim()<2)
     112           0 :     throw(AipsError("RIorAPArray: Input Float Array must be at least 2D."));
     113             : 
     114             :   // Reference incoming data array
     115           0 :   f_.reference(f);
     116           0 :   f_ok_=true;
     117           0 : }
     118             : 
     119             : // State
     120           0 : void RIorAPArray::state(Bool verbose) {
     121             : 
     122           0 :   cout << boolalpha;
     123           0 :   cout << "--state--" << endl;
     124           0 :   cout << "f_: ok=" << f_ok_ << " &=" << f_.data() << " sh=" << f_.shape() << " nrefs=" << f_.nrefs() << endl;
     125           0 :   cout << "c_: ok=" << c_ok_ << " &=" << c_.data() << " sh=" << c_.shape() << " nrefs=" << c_.nrefs() << endl;
     126             : 
     127           0 :   if (verbose) {
     128           0 :     cout.precision(10);
     129           0 :     cout << "f_ = " << f_ << endl;
     130           0 :     cout << "c_ = " << c_ << endl;
     131             :   }
     132           0 :   cout << "---------" << endl;
     133             : 
     134           0 : }
     135             : 
     136             : 
     137             : // Render Complex version (calc from Float, if necessary)
     138           0 : Array<Complex> RIorAPArray::c() {
     139           0 :   if (!c_ok_) { // not already calculated
     140           0 :     resizec_();
     141           0 :     calc_c();    // calc internally
     142             :   }
     143           0 :   return c_;  // return the array
     144             : }
     145             : 
     146             : 
     147             : // Render Float version (calc from Complex, if necessary)
     148           0 : Array<Float> RIorAPArray::f(Bool trackphase) {
     149             :   // form it, if not already calculated or phase needs tracking
     150             :   //  TBD optimize already-calc'd/needs phasetracked case
     151           0 :   if (!f_ok_ || (trackphase && !phaseTracked_)) { 
     152           0 :     resizef_();
     153           0 :     calc_f(trackphase);
     154             :   }
     155           0 :   return f_;                 // return the array
     156             : }
     157             : 
     158           0 : void RIorAPArray::resizec_() {
     159             :   if (RIORAPVERB) cout << "resizec_()" << endl;
     160           0 :   IPosition cip(f_.shape());
     161           0 :   cip(0)/=2;  // First axis float->complex (half as long)
     162           0 :   c_.resize(cip);
     163           0 : }
     164           0 : void RIorAPArray::resizef_() {
     165             :   if (RIORAPVERB) cout << "resizef_()" << endl;
     166           0 :   IPosition fip(c_.shape());
     167           0 :   fip(0)*=2;  // First axis complex->float (twice as long)
     168           0 :   f_.resize(fip);
     169             : 
     170             :   // Ensure that at least 2 axes...
     171           0 :   if (fip.size()<2)
     172           0 :     throw(AipsError("RIorAPArray: Internal Float array, f_, must have ndim>1"));
     173           0 : }
     174             : 
     175             : // Calc Complex version from Float info
     176             : //   (assumes c_ already correct size)
     177           0 : void RIorAPArray::calc_c() {
     178             : 
     179             :   if (RIORAPVERB) cout << "calc_c()" << endl;
     180             :   
     181           0 :   if (!f_ok_) 
     182           0 :     throw(AipsError("RIorAParray::f(): Can't calculate complex version from absent float version."));
     183             : 
     184           0 :   Int ndim=f_.ndim();
     185           0 :   Array<Float> amp;
     186           0 :   Array<Float> ph;
     187           0 :   IPosition blc(ndim,0),trc(f_.endPosition()),stp(ndim,1);
     188           0 :   stp(0)=2;  // by 2 in first axis
     189           0 :   amp=f_(blc,trc,stp);
     190           0 :   blc(0)=1;   // phase is 2nd value on first axis
     191           0 :   ph=f_(blc,trc,stp);
     192             : 
     193             :   // Form Float array with real/imag parts (not amp/phase)
     194           0 :   Array<Float> ftmp(f_.shape());
     195           0 :   blc(0)=0;
     196           0 :   ftmp(blc,trc,stp)=amp*cos(ph);
     197           0 :   blc(0)=1;
     198           0 :   ftmp(blc,trc,stp)=amp*sin(ph);
     199             : 
     200             :   // Convert Float R/I array to Complex array
     201             :   //  c_=RealToComplex(ftmp);
     202           0 :   RealToComplex(c_,ftmp);
     203           0 :   c_ok_=true;
     204             : 
     205           0 : }
     206             : 
     207             : // Calc Float version from Complex info
     208             : //   (assumes f_ already correct size)
     209           0 : void RIorAPArray::calc_f(Bool trackphase) {
     210             : 
     211             :   if (RIORAPVERB) cout << "calc_f(" << boolalpha << trackphase << ")" << endl;
     212             : 
     213           0 :   if (!c_ok_) 
     214           0 :     throw(AipsError("RIorAParray::f(): Can't calculate float version from absent complex version."));
     215             : 
     216           0 :   Int ndim=f_.ndim();
     217           0 :   IPosition blc(ndim,0),trc(f_.endPosition()),stp(ndim,1);
     218           0 :   stp(0)=2;  // by 2 in first axis
     219           0 :   Array<Float> amp(f_(blc,trc,stp));
     220           0 :   blc(0)=1;   // phase is 2nd value on first axis
     221           0 :   Array<Float> ph(f_(blc,trc,stp));
     222             : 
     223           0 :   amp=amplitude(c_).reform(amp.shape());
     224           0 :   ph=phase(c_).reform(amp.shape());
     225           0 :   f_ok_=true;
     226             : 
     227           0 :   phaseTracked_=false;
     228             : 
     229           0 :   if (trackphase) 
     230           0 :     trackPhase(ph);
     231             : 
     232           0 : }
     233             : 
     234             : // Track phase _on_last_axis_
     235           0 : void RIorAPArray::trackPhase(Array<Float>& ph) {
     236             : 
     237             :   if (RIORAPVERB) cout << "trackPhase()" << endl;
     238             : 
     239           0 :   IPosition phsh(ph.shape());
     240           0 :   ArrayIterator<Float> phiter(ph,IPosition(1,ph.ndim()-1));
     241           0 :   Vector<Float> ph1;
     242           0 :   while (!phiter.pastEnd()) {
     243           0 :     ph1.reference(phiter.array());
     244           0 :     for (uInt j=1;j<ph1.nelements();++j) {
     245           0 :       if (ph1(j)>ph1(j-1)) 
     246           0 :         while (ph1(j)>(ph1(j-1)+C::pi)) ph1(j)-=C::_2pi;
     247           0 :       if (ph1(j)<ph1(j-1)) 
     248           0 :         while (ph1(j)<(ph1(j-1)-C::pi)) ph1(j)+=C::_2pi;
     249             :     }
     250           0 :     phiter.next();
     251             :   }
     252             : 
     253           0 :   phaseTracked_=true;
     254             : 
     255           0 : }
     256             : 
     257             : 
     258             : 
     259             : /*
     260             : 
     261             : ****TBD: Handle filling supplied arrays?  (to avoid copies)
     262             : 
     263             : 
     264             : // Render Complex version onto supplied Array (calc from Float, if necessary)
     265             : void RIorAPArray::c(Array<Complex>& c) {
     266             : 
     267             :   
     268             :   if (c_ok_) { // Already calculated internally
     269             :     if (c.conform(c_))
     270             :       c=c_;
     271             :   }
     272             :   else {       // Do the calculation
     273             : 
     274             :     // f_ *must* be ok if we are going to calculate c_
     275             :     if (!f_ok_) 
     276             :       throw(AipsError("RIorAParray::c(): Can't serve complex version from absent float version."));
     277             :     
     278             :     // Resize supplied storage
     279             :     IPosition cip(f_.shape());
     280             :     cip.getLast(cip.nelements()-1);
     281             :     c.resize(cip);   // the _supplied_ array (could be external)
     282             :     if (&c_!=&c)
     283             :       c_.reference(c); // no-op if c_ and c are same array?
     284             :     // Do the calculation    
     285             :     calc_c();
     286             :   }
     287             : 
     288             : }
     289             : 
     290             : // Render Float version onto supplied Array(calc from Complex, if necessary)
     291             : void RIorAPArray::f(Array<Float>& f,Bool trackphase) {
     292             :   // c_ must be ok if we are going to calculate f_
     293             :   if (!c_ok_) 
     294             :     throw(AipsError("RIorAParray::c(): Can't serve complex version from absent float version."));
     295             : 
     296             :   // Resize storage
     297             :   IPosition fip(c_.shape());
     298             :   fip.prepend(IPosition(1,2));
     299             :   f.resize(fip);    // the supplied array (could be external)
     300             :   f_.reference(f);  // no-op if f_ and f are same array?
     301             : 
     302             :   // Do the calculation
     303             :   calc_f(trackphase);
     304             : }
     305             : */
     306             : 
     307             : } //# NAMESPACE CASA - END

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