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       1             : //# IncCEMemModel.h: this defines IncCEMemModel
       2             : //# Copyright (C) 1996,1997,1998,1999,2000
       3             : //# Associated Universities, Inc. Washington DC, USA.
       4             : //#
       5             : //# This library is free software; you can redistribute it and/or modify it
       6             : //# under the terms of the GNU Library General Public License as published by
       7             : //# the Free Software Foundation; either version 2 of the License, or (at your
       8             : //# option) any later version.
       9             : //#
      10             : //# This library is distributed in the hope that it will be useful, but WITHOUT
      11             : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
      12             : //# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Library General Public
      13             : //# License for more details.
      14             : //#
      15             : //# You should have received a copy of the GNU Library General Public License
      16             : //# along with this library; if not, write to the Free Software Foundation,
      17             : //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
      18             : //#
      19             : //# Correspondence concerning AIPS++ should be addressed as follows:
      20             : //#        Internet email: aips2-request@nrao.edu.
      21             : //#        Postal address: AIPS++ Project Office
      22             : //#                        National Radio Astronomy Observatory
      23             : //#                        520 Edgemont Road
      24             : //#                        Charlottesville, VA 22903-2475 USA
      25             : //#
      26             : //# $Id$
      27             : 
      28             : #ifndef SYNTHESIS_INCCEMEMMODEL_H
      29             : #define SYNTHESIS_INCCEMEMMODEL_H
      30             : 
      31             : 
      32             : #include <casacore/casa/aips.h>
      33             : #include <casacore/casa/Arrays/Matrix.h>
      34             : #include <casacore/casa/Arrays/Vector.h>
      35             : #include <casacore/casa/Arrays/Array.h>
      36             : #include <casacore/lattices/Lattices/Lattice.h>
      37             : #include <casacore/images/Images/PagedImage.h>
      38             : #include <synthesis/MeasurementEquations/IncEntropy.h>
      39             : #include <synthesis/MeasurementEquations/LinearEquation.h>
      40             : #include <synthesis/MeasurementEquations/LinearModel.h>
      41             : #include <casacore/casa/Logging/LogIO.h>
      42             : 
      43             : 
      44             : namespace casa { //# NAMESPACE CASA - BEGIN
      45             : 
      46             : // Forward declaration
      47             : class LatConvEquation;
      48             : class CEMemProgress;
      49             : 
      50             : 
      51             : // <summary> performs MEM algorithm incrementally </summary>
      52             : 
      53             : // <use visibility=export>
      54             : 
      55             : // <reviewed reviewer="" date="yyyy/mm/dd" tests="" demos="">
      56             : // </reviewed>
      57             : 
      58             : // <prerequisite> 
      59             : // <li> ResidualEquation/ConvolutionEquation 
      60             : // <li> LinearModel/LinearEquation Paradigm 
      61             : // </prerequisite>
      62             : //
      63             : // <etymology>
      64             : // This class is called CEMemModel because it uses the Cornwell and
      65             : // Evans MEM algorithm to deconvolve the model.  The "Inc" is from Incremental,
      66             : // as the gradient is calculated from an incremental dirty image, but the
      67             : // entropy is calculated from the previous model plus the deltaModel
      68             : // </etymology>
      69             : //
      70             : // <synopsis>
      71             : // This class is used to perform the  Cornwell and Evans MEM Algorithm on an
      72             : // Array. Only the deconvolved model of the sky are directly stored by this
      73             : // class. The point spread function (psf) and convolved (dirty) image are
      74             : // stored in a companion class which is must be derived from
      75             : // ResidualEquation. 
      76             : // 
      77             : // The deconvolution works like this. The user constructs a CEMemModel by
      78             : // specifying an initial model of the sky. This can by be
      79             : // one,two,three... dimensional depending on the dimension of the psf (see
      80             : // below). The user then constructs a class which implements the forward
      81             : // equation between the model and the dirty image. Typically this will be
      82             : // the ConvolutionEquation class, although any class which has a
      83             : // ResidualEquation interface will work (but perhaps very slowly, as the
      84             : // ConvolutionEquation class has member functions optimised for CLEAN and MEM)
      85             : //
      86             : // The user then calls the solve() function (with the appropriate equation
      87             : // class as an arguement), and this class will perform the MEM deconvolution.
      88             : // The various MEM parameters are set (prior to calling solve) using the
      89             : // functions derived from the Iterate class, in particular
      90             : // setNumberIterations().
      91             : // 
      92             : // The solve() function does not return either the deconvolved model or the
      93             : // residuals. The solved model can be obtained using the getModel() function
      94             : // (derived from ArrayModel()) and the residual can be obtained using the
      95             : // residual() member function of the Convolution/Residual Equation Class.
      96             : // 
      97             : // The size and shape of the model used in this class MUST be the same as
      98             : // the convolved data (Dirty Image), stored in the companion
      99             : // ResidualEquation Class. However the model (and convolved data) can have
     100             : // more dimensions than the psf, as well as a different size (either larger
     101             : // or smaller). When the dimensionality is different the deconvolution is done
     102             : // independendtly in each "plane" of the model. (Note this has not
     103             : // been implemented yet but is relatively simple to do if necessary). 
     104             : //
     105             : // StokesVectors are not yet implemented.
     106             : //
     107             : // A companion class to this one is MaskedCEMemModel. This provides
     108             : // the same functionality but is used with MaskedArrays which indicate which
     109             : // regions of the NewtonRaphson (residual) image to apply when forming the
     110             : // step image (MaskedCEMemModel is not yet implemented).
     111             : //
     112             : // </synopsis>
     113             : //
     114             : // <example>
     115             : // <srcblock>
     116             : // casacore::Matrix<casacore::Float> psf(12,12), dirty(10,10), initialModel(10,10);
     117             : // ...put appropriate values into psf, dirty, & initialModel....
     118             : // CEMemModel<casacore::Float> deconvolvedModel(initialModel); 
     119             : // ConvolutionEquation convEqn(psf, dirty);
     120             : // deconvolvedModel.setSigma(0.001); 
     121             : // deconvolvedModel.setTargetFlux(-2.500); 
     122             : // deconvolvedModel.setNumberIterations(30);
     123             : // casacore::Bool convWorked = deconvolvedModel.solve(convEqn);
     124             : // casacore::Array<casacore::Float> finalModel, residuals;
     125             : // if (convWorked){
     126             : //   finalModel = deconvolvedModel.getModel();
     127             : //   ConvEqn.residual(deconvolvedModel, finalResidual);
     128             : // }
     129             : // </srcblock> 
     130             : // </example>
     131             : //
     132             : // <motivation>
     133             : // This class is needed to deconvolve extended images.  
     134             : // In time, the MEM algorithm will be a principle player in the 
     135             : // mosaicing stuff.
     136             : // </motivation>
     137             : //
     138             : // <templating arg=T>
     139             : //    For testing:
     140             : //    <li> casacore::Float: lets try it first
     141             : //    <li> StokesVector: will require lots more work
     142             : // </templating>
     143             : //
     144             : // <todo asof="1998/12/02">
     145             : //   <li> We need to implement soft Masking
     146             : // </todo>
     147             : 
     148             : class IncCEMemModel: public LinearModel< casacore::Lattice<casacore::Float> > 
     149             : {
     150             : 
     151             :   // Any new entropies derived from Entropy must sign the friend list:
     152             : friend class IncEntropy;
     153             : friend class IncEntropyI;
     154             : friend class IncEntropyEmptiness;
     155             : 
     156             : 
     157             : public:
     158             : 
     159             :   // Construct the CEMemModel object and initialise the model.
     160             :   IncCEMemModel(IncEntropy &ent, 
     161             :                 casacore::Lattice<casacore::Float> & model,      // previous model, logically const
     162             :                 casacore::Lattice<casacore::Float> & deltaModel, // this one changes 
     163             :                 casacore::uInt nIntegrations = 10,
     164             :                 casacore::Float sigma = 0.001,
     165             :                 casacore::Float targetFlux = 1.0,
     166             :                 casacore::Bool useFluxConstraint = false,
     167             :                 casacore::Bool initializeModel = true,
     168             :                 casacore::Bool imagePlane = false);
     169             : 
     170             :   // Construct the CEMemModel object, initialise the model and Prior images.
     171             :   IncCEMemModel(IncEntropy &ent, 
     172             :                 casacore::Lattice<casacore::Float> & model,
     173             :                 casacore::Lattice<casacore::Float> & deltaModel,
     174             :                 casacore::Lattice<casacore::Float> & prior,
     175             :                 casacore::uInt nIntegrations = 10,
     176             :                 casacore::Float sigma = 0.001,
     177             :                 casacore::Float targetFlux = 1.0,
     178             :                 casacore::Bool useFluxConstraint = false,
     179             :                 casacore::Bool initializeModel = true,
     180             :                 casacore::Bool imagePlane = false);
     181             :   
     182             :   // Construct the CEMemModel object, initialise the model and 
     183             :   // and mask images.
     184             :   IncCEMemModel(IncEntropy &ent, 
     185             :                 casacore::Lattice<casacore::Float> & model, 
     186             :                 casacore::Lattice<casacore::Float> & deltaModel, 
     187             :                 casacore::uInt nIntegrations,
     188             :                 casacore::Lattice<casacore::Float> & mask,
     189             :                 casacore::Float sigma = 0.001,
     190             :                 casacore::Float targetFlux = 1.0,
     191             :                 casacore::Bool useFluxConstraint = false,
     192             :                 casacore::Bool initializeModel = true,
     193             :                 casacore::Bool imagePlane = false);
     194             : 
     195             :   // Construct the CEMemModel object, initialise the model, Prior,
     196             :   // and mask images.
     197             :   IncCEMemModel(IncEntropy &ent, 
     198             :                 casacore::Lattice<casacore::Float> & model, 
     199             :                 casacore::Lattice<casacore::Float> & deltaModel, 
     200             :                 casacore::Lattice<casacore::Float> & prior,
     201             :                 casacore::Lattice<casacore::Float> & mask,
     202             :                 casacore::uInt nIntegrations = 10,
     203             :                 casacore::Float sigma = 0.001,
     204             :                 casacore::Float targetFlux = 1.0,
     205             :                 casacore::Bool useFluxConstraint = false,
     206             :                 casacore::Bool initializeModel = true,
     207             :                 casacore::Bool imagePlane = false);
     208             : 
     209             : 
     210             :   // destructor
     211             :   virtual ~IncCEMemModel();
     212             : 
     213             :   
     214             :   // solve the convolution equation
     215             :   // returns true if converged
     216             : 
     217             :   // Gives information about the state of the CEMem
     218             :   // (ie, using mask image, using prior image; more work here!)
     219             :   void state();
     220             : 
     221             : 
     222             :   //  This needs to be "ResidualEquation", using LatConvEquation as
     223             :   //  polymorphism is broken
     224             :   casacore::Bool solve(ResidualEquation<casacore::Lattice<casacore::Float> >  & eqn);
     225             : 
     226             :   // Set and get various state images and classes
     227             :   // <group>
     228             :   // set or get the Entropy class
     229             :   void setEntropy(IncEntropy &myEntropy ) {itsEntropy_ptr = &myEntropy;}
     230             :   void getEntropy(IncEntropy &myEntropy ) {myEntropy = *itsEntropy_ptr;}
     231             : 
     232             :   // set or get the Model image
     233           0 :   casacore::Lattice<casacore::Float>& getModel() const 
     234           0 :     { return (*(itsDeltaModel_ptr)); }
     235           0 :   void setModel(const casacore::Lattice<casacore::Float> & model)
     236           0 :     { itsDeltaModel_ptr = model.clone(); }
     237             : 
     238             :   // set or get the Prior image
     239             :   casacore::Lattice<casacore::Float>& getPrior() const 
     240             :     { return (*(itsPrior_ptr->clone())); }
     241             :   void setPrior(casacore::Lattice<casacore::Float> & prior);
     242             : 
     243             :   // set or get the Mask image
     244             :   casacore::Lattice<casacore::Float>& getMask() const 
     245             :     { return (*(itsMask_ptr->clone())); }
     246             :   void setMask(casacore::Lattice<casacore::Float> & mask);
     247             :   // </group>
     248             : 
     249             : 
     250             :   // set and get alpha, beta, and Q
     251             :   // <group>
     252           0 :   casacore::Float getAlpha() const { return itsAlpha; }
     253           0 :   casacore::Float getBeta() const { return itsBeta; }
     254           0 :   void setAlpha(casacore::Float alpha) {itsAlpha = alpha; }
     255           0 :   void setBeta(casacore::Float beta) {itsBeta = beta; }
     256             :   // </group>
     257             : 
     258             :   // Set various controlling parameters
     259             :   // (The most popular controlling parameters are 
     260             :   // set in the constructor)
     261             :   // <group>
     262             :   casacore::Float getTolerance() {return itsTolerance; }
     263             :   void  setTolerance(casacore::Float x) { itsTolerance = x; }
     264           0 :   casacore::Float getQ() {return itsQ; }
     265           0 :   void  setQ(casacore::Float x) { itsQ= x; }
     266             :   casacore::Float getGain() {return itsGain; }
     267           0 :   void  setGain(casacore::Float x) { itsGain = x; }
     268             :   casacore::Float getMaxNormGrad() {return itsMaxNormGrad; }
     269             :   void  setMaxNormGrad(casacore::Float x) { itsMaxNormGrad = x; }
     270             :   casacore::Int getInitialNumberIterations() {return itsFirstIteration; }
     271           0 :   void  setInitialNumberIterations(casacore::Int x) { itsFirstIteration = x; }
     272             :   // </group>
     273             : 
     274             :   // The convergence can also be in terms of the maximum residual
     275             :   // (ie, for use in stopping in a major cycle).
     276           0 :   void setThreshold (const casacore::Float x ) { itsThreshold0 = x; }
     277             :   // Thresh doubles in iter iterations
     278           0 :   void setThresholdSpeedup (const casacore::Float iter) {itsThresholdSpeedup = iter; }
     279             :   casacore::Float getThreshold();
     280             : 
     281             :   // Set/get the progress display 
     282             :   // <group>
     283           0 :   virtual void setProgress(CEMemProgress& ccp) { itsProgressPtr = &ccp; }
     284           0 :   virtual CEMemProgress& getProgress() { return *itsProgressPtr; }
     285             :   // </group>
     286             : 
     287             :   // return the number of iterations completed
     288           0 :   casacore::Int numberIterations () { return itsIteration; }
     289             : 
     290             : protected:
     291             : 
     292             : 
     293             :   // Perform One Iteration
     294             :   void oneIteration();
     295             : 
     296             :   // apply mask to a lattice; returns true if mask is available, 
     297             :   // false if not
     298             :   casacore::Bool applyMask( casacore::Lattice<casacore::Float> & lat );
     299             : 
     300             :   // Helper functions that interface with Entropy routines
     301             :   // Access to the entropy should be through this interface; the
     302             :   // points at which the Entropy is mentioned is then limited to
     303             :   // these lines right here, and to the constructors which set the
     304             :   // Entropy.  The entropy should not ever change the private
     305             :   // 
     306             :   // <group>
     307           0 :   void formEntropy() { itsEntropy = itsEntropy_ptr->formEntropy(); }
     308             : 
     309           0 :   void  formGDG() { itsEntropy_ptr->formGDG( itsGDG ); }
     310             : 
     311           0 :   void  formGDGStep() { itsEntropy_ptr->formGDGStep( itsGDG ); }
     312             : 
     313           0 :   void formGDS() { itsGradDotStep1=itsEntropy_ptr->formGDS(); }
     314             : 
     315             :   void entropyType(casacore::String &str) { itsEntropy_ptr->entropyType(str); }
     316             : 
     317           0 :   void relaxMin() { itsRequiredModelMin = itsEntropy_ptr->relaxMin(); }
     318             : 
     319             :   casacore::Bool testConvergence() { return itsEntropy_ptr->testConvergence(); }
     320             : 
     321             :   // </group>
     322             : 
     323             : 
     324             :   // protected generic constrcutor: DON'T USE IT!
     325             :   IncCEMemModel();
     326             : 
     327             :   // Set entropy pointer to zero: called by Entropy's destructor
     328             :   void letEntropyDie() { itsEntropy_ptr = 0; }
     329             : 
     330             :   // initialize itsStep and itsResidual and other stuff
     331             :   casacore::Bool initStuff();
     332             : 
     333             : 
     334             :   // controls how to change Alpha and Beta
     335             :   // <group>
     336             :   void changeAlphaBeta ();
     337             :   // initialize Alpha-Beta (called by changeAlphaBeta)
     338             :   void initializeAlphaBeta();
     339             :   // update Alpha-Beta (called by changeAlphaBeta)
     340             :   void updateAlphaBeta();
     341             :   // </group>
     342             : 
     343             : 
     344             : 
     345             : 
     346             :   // Generic utility functions
     347             :   // <group>
     348             :   // check that a single image is onf plausible shape
     349             :   casacore::Bool checkImage(const casacore::Lattice<casacore::Float> *);
     350             :   // check that the lattices and the underlying tile sizes are consistent
     351             :   casacore::Bool checkImages(const casacore::Lattice<casacore::Float> *one, const casacore::Lattice<casacore::Float> *other);
     352             :   // check that all is well in Denmark:
     353             :   //     ensure all images are the same size,
     354             :   //     ensure we have an entropy,
     355             :   //     ensure state variables have reasonable values
     356             :   casacore::Bool ok();
     357             :   // </group>
     358             :   
     359             : 
     360             : 
     361             : 
     362             :   // Helper functions for oneIteration:
     363             :   // <group>
     364             :   // calculate size of step
     365             :   void calculateStep();
     366             : 
     367             :   // take one step: clipped addition of
     368             :   // wt1*itsModel + wt2*itsStep
     369             :   void takeStep(casacore::Float wt1, casacore::Float wt2);
     370             : 
     371             :   // Calculate the flux, itsModMin, and itsModMax
     372             :   casacore::Float formFlux();
     373             :   // </group>
     374             : 
     375             :   // Determine if the peak residual is less than the getThreshold()
     376             :   casacore::Bool testConvergenceThreshold();
     377             : 
     378             :   // ------------Private Member casacore::Data---------------------
     379             :   // functional form of the entropy
     380             :   IncEntropy  *itsEntropy_ptr;   
     381             : 
     382             :   // form of the Residual method
     383             :   ResidualEquation< casacore::Lattice<casacore::Float> > * itsResidualEquation_ptr;
     384             : 
     385             :   // Images:
     386             :   casacore::Lattice<casacore::Float> * itsModel_ptr;
     387             :   casacore::Lattice<casacore::Float> * itsDeltaModel_ptr;
     388             :   casacore::Lattice<casacore::Float> * itsPrior_ptr;
     389             :   casacore::Lattice<casacore::Float> * itsMask_ptr;
     390             :   // Our OWN internal temp images; delete these upon destruction
     391             :   casacore::Lattice<casacore::Float> * itsStep_ptr;
     392             :   casacore::Lattice<casacore::Float> * itsResidual_ptr;
     393             : 
     394             : 
     395             :   // Controlling parameters
     396             :   // <group>
     397             :   casacore::Bool itsInitializeModel;
     398             :   casacore::uInt itsNumberIterations;
     399             :   casacore::Bool  itsDoInit;
     400             :   casacore::Float itsSigma;
     401             :   casacore::Float itsTargetFlux;  
     402             :   casacore::Float itsDefaultLevel;
     403             :   casacore::Float itsTargetChisq;
     404             :   // tolerance for convergence
     405             :   casacore::Float itsTolerance; 
     406             :   // N points per beam
     407             :   casacore::Float itsQ;         
     408             :   // gain for adding step image
     409             :   casacore::Float itsGain;      
     410             :   casacore::Float itsMaxNormGrad;
     411             :   // constrain flux or not?
     412             :   casacore::Bool  itsUseFluxConstraint;  
     413             :   // is this an image plane problem (like Single Dish or Optical?)
     414             :   casacore::Bool  itsDoImagePlane;
     415             :   casacore::Float itsThreshold0;
     416             :   casacore::Float itsThresholdSpeedup;
     417             :   // </group>
     418             : 
     419             :   // State variables
     420             :   // <group>  
     421             :   casacore::Float itsAlpha;
     422             :   casacore::Float itsBeta;
     423             :   casacore::Float itsNormGrad;
     424             :   // note that            itsModelFlux + itsDeltaFlux = itsFlux
     425             :   casacore::Float itsFlux;       // this is the total Flux
     426             :   casacore::Float itsModelFlux;  // this is the flux of image itsModel_ptr
     427             :   casacore::Float itsDeltaFlux;  // this is the flux of image itsDeltaModel_ptr
     428             :   casacore::Float itsChisq;
     429             :   // sqrt( chi^2/target_chi^2 )
     430             :   casacore::Float itsFit;              
     431             :   // sqrt( chi^2/ Npixels )
     432             :   casacore::Float itsAFit;       
     433             :   // numerical value of entropy
     434             :   casacore::Float itsEntropy;    
     435             :   // Model is constrained to be >= itsNewMin
     436             :   casacore::Float itsRequiredModelMin; 
     437             :   // maximum pixel value in model
     438             :   casacore::Float itsModelMax;   
     439             :   // minimum pixel value n model
     440             :   casacore::Float itsModelMin;   
     441             :   casacore::Float itsLength;
     442             :   casacore::Double itsGradDotStep0;
     443             :   casacore::Double itsGradDotStep1;
     444             :   casacore::uInt   itsIteration;
     445             :   casacore::uInt   itsFirstIteration;
     446             :   // matrix of gradient dot products
     447             :   casacore::Matrix<casacore::Double> itsGDG;  
     448             :   casacore::Float itsCurrentPeakResidual;
     449             :   // </group>
     450             :   casacore::Float itsNumberPixels;
     451             : 
     452             : 
     453             :   // Accesories
     454             :   // <group>  
     455             :   casacore::Bool itsChoose;
     456             :   casacore::LogIO itsLog;
     457             :   // </group>  
     458             : 
     459             :   // Enumerate the different Gradient subscript types
     460             :   enum GradientType {
     461             :     // Entropy
     462             :     H=0,
     463             :     // Chi_sq
     464             :     C=1,
     465             :     // Flux
     466             :     F=2,
     467             :     // Objective function J
     468             :     J=3
     469             :   };
     470             : 
     471             :   CEMemProgress* itsProgressPtr;
     472             :  
     473             : 
     474             : };
     475             : 
     476             : 
     477             : 
     478             : } //# NAMESPACE CASA - END
     479             : 
     480             : #endif
     481             : 

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