/*  fwdmodel_quipss2.h - Implements (pseudo) continuous ASL for multi-echo time functional analysis

    Michael Chappell, IBME & FMRIB Image Analysis Group

    Copyright (C) 20011 University of Oxford  */

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    University, Oxford, UK
    
    
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/* fwdmodel_pcASL.h
 * Class declaration for the pcASL model used
 * with additional terms for nuisance regressors (affecting the signal). 
 * Written by Michael Chappell, 2011
 * Based on fwdmodel_quipss2.h
 * IBME & FMRIB Centre, University of Oxford
 *
 * Last modified: $Date: 2014/02/06 17:00:14 $ $Author: mwebster $ $Revision: 1.2 $
 */

#ifndef __FABBER_FWDMODEL_PCASL_H
#define __FABBER_FWDMODEL_PCASL_H 1

#include "fwdmodel.h"
#include "inference.h"
#include <string>
using namespace std;

class pcASLFwdModel : public FwdModel {
public: 
  // Virtual function overrides
  virtual void Evaluate(const ColumnVector& params, 
			      ColumnVector& result) const;
                  
  virtual void DumpParameters(const ColumnVector& vec,
                                const string& indents = "") const;
                                
  virtual void NameParams(vector<string>& names) const;     
  virtual int NumParams() const
    { return NnStart(echoTime.Ncols()+1) + (stdevT1b>0?1:0) 
        + (stdevInvEff>0?1:0) + (stdevDt>0?1:0) - 1; }
  
  virtual string ModelVersion() const;

  virtual ~pcASLFwdModel() { return; }

  virtual void HardcodedInitialDists(MVNDist& prior, MVNDist& posterior) const;

  // Constructor
  pcASLFwdModel(ArgsType& args);
  // Usage info
  static void ModelUsage();

  //  SimpleFwdModel(const SimpleFwdModel& from); // copy constructor - default ok?

protected: // Constants
  
  // parameter lookup class:
  //Quipss2FwdModelIdStruct id;
  
  // This is my own rather messy way of keeping track of all my parameters.
  // There's probably a better way of doing it... but I haven't found it yet.
  
  int Q0index() const { return 1; }
  int M0index() const { return Q0index()+Qbasis.Ncols()+1; }
  int R0index() const { return M0index()+Mbasis.Ncols()+1; }
  int NnStart(int te) const 
    { assert(te > 0 && te <= echoTime.Nrows()+1); // go one past, for getting end point
      return R0index()+Rbasis.Ncols()+(te-1)*Nbasis.Ncols() + 1; }
  int InvEffIndex() const { assert(stdevInvEff>0); return NnStart(echoTime.Ncols()+1); }
  int T1bIndex() const { assert(stdevT1b>0); 
    return NnStart(echoTime.Ncols()+ ( (stdevInvEff>0)?1:0) ); }
  int dtIndex() const { assert(stdevDt>0);
    return NnStart(echoTime.Ncols()+1) + (stdevT1b>0?1:0) + (stdevInvEff>0?1:0); }

  // Slow submatrixing... but it works.
  // In fact, it's plenty fast enough.. fwd model is a small part calculation time
  ReturnMatrix QnOf(const ColumnVector& params) const
    { return params.Rows(Q0index()+1,Q0index()+Qbasis.Ncols()).Evaluate(); }
  ReturnMatrix MnOf(const ColumnVector& params) const
    { return params.Rows(M0index()+1,M0index()+Mbasis.Ncols()).Evaluate(); }
  ReturnMatrix RnOf(const ColumnVector& params) const
    { return params.Rows(R0index()+1,R0index()+Rbasis.Ncols()).Evaluate(); }  
  ReturnMatrix NnOf(int te, const ColumnVector& params) const
    { return params.Rows(NnStart(te),NnStart(te+1)-1).Evaluate(); }

  // scan parameters
  ColumnVector rho;
  ColumnVector echoTime;
  double TI, Tau;
  
  // assumed known constants
  double fixedInvEff, fixedT1b, fixedDt;
  double stdevT1b, stdevInvEff, stdevDt; // >0 means treat these as parameters!
  
  // basis for each piece
  Matrix Qbasis; // basis in columns?
  Matrix Mbasis;
  Matrix Rbasis;
  Matrix Nbasis;
};

#endif /* __FABBER_FWDMODEL_PCASL_H */