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1 : //# VisEquation.h: Interface definition for Vis Equation 2 : //# Copyright (C) 1996,1997,1999,2000,2001,2002,2003 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 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 : #ifndef SYNTHESIS_VISEQUATION_H 29 : #define SYNTHESIS_VISEQUATION_H 30 : 31 : #include <casacore/casa/aips.h> 32 : #include <casacore/casa/BasicSL/Complex.h> 33 : #include <casacore/casa/Arrays/Array.h> 34 : #include <casacore/casa/Arrays/Cube.h> 35 : #include <msvis/MSVis/VisBuffer.h> 36 : #include <msvis/MSVis/VisBuffer2.h> 37 : #include <synthesis/MeasurementComponents/VisCal.h> 38 : #include <synthesis/MeasurementComponents/SolvableVisCal.h> 39 : 40 : namespace casa { //# NAMESPACE CASA - BEGIN 41 : 42 : // <summary> 43 : // Visibility Measurement Equation 44 : // </summary> 45 : 46 : // <use visibility=export> 47 : 48 : // <reviewed reviewer="" date="" tests="" demos=""> 49 : 50 : // <prerequisite> 51 : // <li> <linkto module="MeasurementComponents">MeasurementComponents</linkto> module 52 : // </prerequisite> 53 : // 54 : // <etymology> 55 : // Visibility Equation describes a model for measurements from a 56 : // generic synthesis telescope 57 : // </etymology> 58 : // 59 : // <synopsis> 60 : // This is responsible for the Measurement Equation of the Generic 61 : // Interferometer due to Hamaker, Bregman and Sault and later extended 62 : // by Noordam, and Cornwell. 63 : // 64 : // See <linkto module="MeasurementEquations">MeasurementEquations</linkto> 65 : // for more details of the form of the VisEquation. 66 : // 67 : // VisEquation provides the following: 68 : // <ul> 69 : // <li> Sorting of calibration terms (VisCals) in the Visibility Equation 70 : // <li> Application of calibration terms to data (via delegation to VisCals) 71 : // <li> Delivery of other evaluations of the VisEquation, e.g., (differentiated) residuals 72 : // </ul> 73 : // </synopsis> 74 : // 75 : // <example> 76 : // <srcblock> 77 : // 78 : // </srcblock> 79 : // </example> 80 : // 81 : // <motivation> 82 : // VisEquation is part of a framework of classes that are 83 : // designed for synthesis calibration and imaging. The others are the 84 : // <linkto module=MeasurementComponents>MeasurementComponents</linkto>. 85 : // </motivation> 86 : // 87 : // <todo asof=""> 88 : // </todo> 89 : 90 : class SolveDataBuffer; // VI2 91 : 92 : class VisEquation { 93 : public: 94 : 95 : // Contructor 96 : VisEquation(); 97 : 98 : // Copy ctor 99 : VisEquation(const VisEquation& other); 100 : 101 : // Destructor 102 : virtual ~VisEquation(); 103 : 104 : // Assignment 105 : VisEquation& operator=(const VisEquation& other); 106 : 107 : // Arrange for apply of a VisCal list (i.e., sort them into the correct order) 108 : void setapply(casacore::PtrBlock<VisCal*>& vcin); 109 : 110 : // Arrange for solve of a single SolvableVisCal 111 : void setsolve(SolvableVisCal& svc); 112 : 113 : // Arrange a pivot point for evaluating the equation in collapseForSim 114 : void setPivot(VisCal::Type pivot); 115 : 116 : // Where is the pivot? 117 32 : VisCal::Type pivot() const { return pivot_; }; 118 : 119 : // Arrange the model to use for calibration 120 : void setModel(const casacore::Vector<casacore::Float>& stokes); 121 : inline void unSetModel() { useInternalModel_=false; }; 122 : 123 : // How many terms are arranged for apply? 124 0 : inline casacore::Int nTerms() const { return napp_; }; 125 : 126 : // casacore::List the terms 127 : casacore::Vector<VisCal::Type> listTypes() const; 128 : 129 : // Report if spw has solutions available from all applied tables 130 : // To be deprecated in favor of VBOKforCalApply 131 : casacore::Bool spwOK(const casacore::Int& spw); 132 : 133 : // Report if VB can be calibrated by all supplied 134 : // calibration. If not, we can't ask it to! 135 : // Modern replacement for spwOK(spw) which is sensitive 136 : // to obs, fld, and intent, and which supports 137 : // per-caltable agnosticism (see SVC::VBOKforCalApply) 138 : casacore::Bool VBOKforCalApply(vi::VisBuffer2& vb); 139 : 140 : // Correct in place the OBSERVED visibilities in a VisBuffer 141 : // with the apply-able VisCals 142 : void correct(VisBuffer& vb, casacore::Bool trial=false); 143 : void correct2(vi::VisBuffer2& vb, casacore::Bool trial=false, casacore::Bool doWtSp=false); 144 : 145 : // Report flag-by-cal statistics 146 : casacore::Record actionRec(); 147 : 148 : // Corrupt in place the MODEL visibilities in a VisBuffer 149 : // with the apply-able VisCals 150 : void corrupt(VisBuffer& vb); 151 : void corrupt2(vi::VisBuffer2& vb); 152 : 153 : // Correct/Corrupt in place the OBSERVED/MODEL visibilities in a VisBuffer 154 : // with the apply-able VisCals on either side of the SolvableVisCal 155 : void collapse(VisBuffer& vb); 156 : void collapse2(vi::VisBuffer2& vb); // VB2 version 157 : 158 : 159 : // This collapse avoids I/O (assumes the vb data/model are ready), 160 : // and uses a generic pivot (see setPivot) rather than the svc 161 : // void collapseForSim(VisBuffer& vb); 162 : void collapseForSim(VisBuffer& vb); 163 : 164 : // Calculate residuals 165 : // (optionally for specific chan) 166 : void residuals(VisBuffer& vb, 167 : casacore::Cube<casacore::Complex>& R, 168 : const casacore::Int chan=-1); 169 : 170 : // Calculate residuals and differentiated residuals 171 : // (optionally for specific chan) 172 : void diffResiduals(CalVisBuffer& cvb); 173 : void diffResiduals(VisBuffer& vb, 174 : casacore::Cube<casacore::Complex>& R, 175 : casacore::Array<casacore::Complex>& dR, 176 : casacore::Matrix<casacore::Bool>& Rflg); 177 : void diffResiduals(VisBuffer& R, 178 : VisBuffer& dR0, 179 : VisBuffer& dR1, 180 : casacore::Matrix<casacore::Bool>& Rflg); 181 : 182 : // SolveDataBuffer version 183 : void differentiate(SolveDataBuffer& sdb); // VI2 184 : 185 : // Differentiate w.r.t. MODEL Stokes Params 186 : // I.e., _corrupt_ dM/d(I,Q,U,V) 187 : // NB: results stored in the sdb 188 : void diffModelStokes(vi::VisBuffer2& vb, std::map<casacore::String,casacore::Cube<casacore::Complex> > dMdS); 189 : 190 : // Report the VisEq's state 191 : void state(); 192 : 193 : // Set the print level 194 47 : inline void setPrtlev(const casacore::Int& prtlev) { prtlev_=prtlev; }; 195 : 196 : protected: 197 : 198 : casacore::Bool ok(); 199 : 200 : // Access to the PB of apply terms 201 1059402 : inline casacore::PtrBlock<VisCal*>& vc() { return (*vcpb_); }; 202 : 203 : // Access to SVC 204 1305941 : inline SolvableVisCal& svc() { return *svc_; }; 205 : 206 : // Detect freq dependence along the Vis Equation 207 : void setFreqDep(); 208 : 209 : // Divide corr data by model (per correlation) 210 : void divideCorrByModel(vi::VisBuffer2& vb); 211 : 212 : // Divide corr data by Stokes I model 213 : void divideByStokesIModel(vi::VisBuffer2& vb); 214 : 215 : 216 : private: 217 : 218 : // Diagnostic print level access 219 838531 : inline casacore::Int& prtlev() { return prtlev_; }; 220 : 221 : // A local copy of the list of VisCal (pointers) for applying 222 : // (No ownership responsibilities) 223 : casacore::PtrBlock<VisCal*>* vcpb_; 224 : 225 : // Number of apply VisCals in vc_ 226 : casacore::Int napp_; 227 : 228 : // Frequency dependence indices 229 : casacore::Int lfd_; // Right-most freq-dep term on LEFT side 230 : casacore::Int rfd_; // Left-most freq-dep term on RIGHT side 231 : 232 : // Trap for frequency averaging in collapse 233 : casacore::Bool freqAveOK_; 234 : 235 : // VisCal with solving interface 236 : // (No ownership responsibilities) 237 : SolvableVisCal* svc_; 238 : 239 : // The pivot point used by collapse2 240 : VisCal::Type pivot_; 241 : 242 : // An internal (global) point source model 243 : casacore::Bool useInternalModel_; 244 : casacore::Vector<casacore::Float> stokesModel_; 245 : 246 : // Keep count of total visibilities processed 247 : // NB: this is Sum-over-spws(ncorr*nchan*nrow) 248 : casacore::Int nVisTotal_; 249 : 250 : // Diagnostic print level 251 : casacore::Int prtlev_; 252 : 253 : }; 254 : 255 : } //# NAMESPACE CASA - END 256 : 257 : #endif