Bug #92237 fixed as Barth suggested

[u/mrichter/AliRoot.git] / MUON / AliMUONAlignment.h

#ifndef ALIMUONALIGNMENT_H
#define ALIMUONALIGNMENT_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

/* $Id$ */

/// \ingroup rec
/// \class AliMUONAlignment
/// \brief Class for alignment of muon spectrometer
//
// Authors: Bruce Becker, Javier Castillo

#include <TObject.h>
#include <TString.h>

#include "AliMUONAlignmentRecord.h"

class TGeoCombiTrans;
class TClonesArray;
class AliMillepede;
class AliMUONGeometryTransformer;
class AliMUONTrack;
class AliMUONTrackParam;
class AliMUONVCluster;

class AliMUONAlignment:public TObject
{

  public:


  /// constructor
  AliMUONAlignment();
	/// rootio constructor
	AliMUONAlignment(TRootIOCtor* dummy);

  /// destructor
  virtual ~AliMUONAlignment();

  /// process track for alignment minimization
  /**
  returns the alignment records for this track.
  They can be stored in some output for later reprocessing.
  */
  AliMUONAlignmentTrackRecord* ProcessTrack(AliMUONTrack *track, Bool_t doAlignment );

  /// process track record
  void ProcessTrack( AliMUONAlignmentTrackRecord*, Bool_t doAlignment = kTRUE );

  /// returns current track record
  AliMUONAlignmentTrackRecord* GetTrackRecord( void )
  { return &fTrackRecord; }

  /// Set geometry transformer
  void SetGeometryTransformer(AliMUONGeometryTransformer * transformer)
  { fTransform = transformer; }

  /// Set flag for Magnetic field On/Off
  void SetBFieldOn(Bool_t bBFieldOn)
  { fBFieldOn =  bBFieldOn; }

  /// Define chambers to align
  void SetChOnOff(Bool_t *bChOnOff)
  {
    for(int iCh=0; iCh<10; iCh++)
    { fChOnOff[iCh] =  bChOnOff[iCh]; }
  }

  /// Possibility to align only one side of the detector
  void SetSpecLROnOff(Bool_t *bSpecLROnOff)
  {
    fSpecLROnOff[0] =  bSpecLROnOff[0];
    fSpecLROnOff[1] =  bSpecLROnOff[1];
  }

  void FixStation(Int_t iSt);

  void FixChamber(Int_t iCh);

  void FixDetElem(Int_t iDetElemId, TString sVarXYT = "XYTZ");

  void FixHalfSpectrometer(const Bool_t* bChOnOff, const Bool_t* bSpecLROnOff);

  void AllowVariations( const Bool_t* );

  void SetNonLinear(const Bool_t *bChOnOff, const Bool_t *bVarXYT);

  void AddConstraints(const Bool_t *bChOnOff, const Bool_t *bVarXYT);

  void AddConstraints(const Bool_t *bChOnOff, const Bool_t *bVarXYT, const Bool_t *bDetTLBR, const Bool_t *bSpecLROnOff);

  void ResetConstraints();

  void FixParameter(Int_t param, Double_t value);

  void SetNonLinear(Int_t param);

  void AddConstraint(Double_t *factor, Double_t value );

  void InitGlobalParameters(Double_t *par);

  void SetSigmaXY(Double_t sigmaX, Double_t sigmaY);

  /// Set array of local derivatives
  void SetLocalDerivative(Int_t index, Double_t value)
  { fLocalDerivatives[index] = value; }

  /// Set array of global derivatives
  void SetGlobalDerivative(Int_t index, Double_t value)
  { fGlobalDerivatives[index] = value; }

  void LocalFit(Int_t iTrack, Double_t *lTrackParam, Int_t lSingleFit);

  void GlobalFit(Double_t *parameters,Double_t *errors,Double_t *pulls);

  void PrintGlobalParameters();

  Double_t GetParError(Int_t iPar);

  AliMUONGeometryTransformer* ReAlign(const AliMUONGeometryTransformer * transformer, const double *misAlignments, Bool_t verbose);

  void SetAlignmentResolution(const TClonesArray* misAlignArray, Int_t chId, Double_t chResX, Double_t chResY, Double_t deResX, Double_t deResY);

  private:

  /// Not implemented
  AliMUONAlignment(const AliMUONAlignment& right);

  /// Not implemented
  AliMUONAlignment&  operator = (const AliMUONAlignment& right);

  void Init(Int_t nGlobal, Int_t nLocal, Int_t nStdDev);

  void ConstrainT(Int_t lDetElem, Int_t lCh, Double_t *lConstraintT, Int_t iVar, Double_t lWeight=1.0) const;

  void ConstrainL(Int_t lDetElem, Int_t lCh, Double_t *lConstraintL, Int_t iVar, Double_t lWeight=1.0) const;

  void ConstrainB(Int_t lDetElem, Int_t lCh, Double_t *lConstraintB, Int_t iVar, Double_t lWeight=1.0) const;

  void ConstrainR(Int_t lDetElem, Int_t lCh, Double_t *lConstraintR, Int_t iVar, Double_t lWeight=1.0) const;

  void FillDetElemData();

  void FillRecPointData();

  void FillTrackParamData();

  void ResetLocalEquation();

  /// local equation along X
  void LocalEquationX( Bool_t doAlignment = kTRUE );

  /// local equation along Y
  void LocalEquationY( Bool_t doAlignment = kTRUE );

  /// local equation using cluster alignment record
  void LocalEquation( const AliMUONAlignmentClusterRecord& );

  TGeoCombiTrans ReAlign(const TGeoCombiTrans& transform, const double *detElemMisAlignment) const;

  /// Flag for Magnetic filed On/Off
  Bool_t fBFieldOn;

  /// Flags for chamber On/Off
  Bool_t fChOnOff[10];

  /// Flags for left right On/Off
  Bool_t fSpecLROnOff[2];

  /// Flags degrees of freedom to align (x,y,phi)
  Bool_t fDoF[4];

  /// "Encouraged" variation for degrees of freedom
  Double_t fAllowVar[4];

  /// Initial value for chi2 cut
  /** if > 1 Iterations in AliMillepede are turned on */
  Double_t fStartFac;

  /// Cut on residual for first iteration
  Double_t fResCutInitial;

  /// Cut on residual for other iterations
  Double_t fResCut;

  /// Detector independent alignment class
  AliMillepede *fMillepede;

  /// AliMUONTrack
  AliMUONTrack *fTrack;

  /// AliMUONVCluster
  AliMUONVCluster *fCluster;

  ///< Track parameters
  AliMUONTrackParam *fTrackParam;

  Int_t fNGlobal;  ///< Number of global parameters
  Int_t fNLocal;   ///< Number of local parameters
  Int_t fNStdDev;  ///< Number of standard deviations for chi2 cut
  Double_t fClustPos[3];    ///< Cluster position
  Double_t fClustPosLoc[3]; ///< Cluster position in local coordinates
  Double_t fTrackSlope0[2]; ///< Track slope at reference point
  Double_t fTrackSlope[2];  ///< Track slope at current point
  Double_t fTrackPos0[3];   ///< Track intersection at reference point
  Double_t fTrackPos[3];    ///< Track intersection at current point
  Double_t fTrackPosLoc[3]; ///< Track intersection at current point in local coordinates
  Double_t fMeas[2];        ///< Current measurement (depend on B field On/Off)
  Double_t fSigma[2];       ///< Estimated resolution on measurement

  Double_t fGlobalDerivatives[624]; ///< Array of global derivatives
  Double_t fLocalDerivatives[4];    ///< Array of local derivatives

  Double_t fConstraintX[624];   ///< Array for constraint equation all X
  Double_t fConstraintY[624];   ///< Array for constraint equation all Y
  Double_t fConstraintP[624];   ///< Array for constraint equation all P
  Double_t fConstraintXT[624];  ///< Array for constraint equation X Top half
  Double_t fConstraintYT[624];  ///< Array for constraint equation Y Top half
  Double_t fConstraintPT[624];  ///< Array for constraint equation P Top half
  Double_t fConstraintXZT[624];  ///< Array for constraint equation X vs Z Top half
  Double_t fConstraintYZT[624];  ///< Array for constraint equation Y vs Z Top half
  Double_t fConstraintPZT[624];  ///< Array for constraint equation P vs Z Top half
  Double_t fConstraintXYT[624];  ///< Array for constraint equation X vs Y Top half
  Double_t fConstraintYYT[624];  ///< Array for constraint equation Y vs Y Top half
  Double_t fConstraintPYT[624];  ///< Array for constraint equation P vs Y Top half
  Double_t fConstraintXB[624];  ///< Array for constraint equation X Bottom half
  Double_t fConstraintYB[624];  ///< Array for constraint equation Y Bottom half
  Double_t fConstraintPB[624];  ///< Array for constraint equation P Bottom half
  Double_t fConstraintXZB[624];  ///< Array for constraint equation X vs Z Bottom half
  Double_t fConstraintYZB[624];  ///< Array for constraint equation Y vs Z Bottom half
  Double_t fConstraintPZB[624];  ///< Array for constraint equation P vs Z Bottom half
  Double_t fConstraintXYB[624];  ///< Array for constraint equation X vs Y Bottom half
  Double_t fConstraintYYB[624];  ///< Array for constraint equation Y vs Y Bottom half
  Double_t fConstraintPYB[624];  ///< Array for constraint equation P vs Y Bottom half
  Double_t fConstraintXR[624];  ///< Array for constraint equation X Right half
  Double_t fConstraintYR[624];  ///< Array for constraint equation Y Right half
  Double_t fConstraintPR[624];  ///< Array for constraint equation P Right half
  Double_t fConstraintXZR[624];  ///< Array for constraint equation X vs Z Right half
  Double_t fConstraintYZR[624];  ///< Array for constraint equation Y vs Z Right half
  Double_t fConstraintPZR[624];  ///< Array for constraint equation P vs Z Right half
  Double_t fConstraintXYR[624];  ///< Array for constraint equation X vs Y Right half
  Double_t fConstraintYYR[624];  ///< Array for constraint equation Y vs Y Right half
  Double_t fConstraintPYR[624];  ///< Array for constraint equation P vs Y Right half
  Double_t fConstraintXL[624];  ///< Array for constraint equation X Left half
  Double_t fConstraintYL[624];  ///< Array for constraint equation Y Left half
  Double_t fConstraintPL[624];  ///< Array for constraint equation P Left half
  Double_t fConstraintXZL[624];  ///< Array for constraint equation X vs Z Left half
  Double_t fConstraintYZL[624];  ///< Array for constraint equation Y vs Z Left half
  Double_t fConstraintPZL[624];  ///< Array for constraint equation P vs Z Left half
  Double_t fConstraintXYL[624];  ///< Array for constraint equation X vs Y Left half
  Double_t fConstraintYYL[624];  ///< Array for constraint equation Y vs Y Left half
  Double_t fConstraintPYL[624];  ///< Array for constraint equation P vs Y Left half
  Double_t fConstraintX3[624];  ///< Array for constraint equation St3 X
  Double_t fConstraintY3[624];  ///< Array for constraint equation St3 Y
  Double_t fConstraintX4[624];  ///< Array for constraint equation St4 X
  Double_t fConstraintY4[624];  ///< Array for constraint equation St4 Y
  Double_t fConstraintP4[624];  ///< Array for constraint equation St4 P
  Double_t fConstraintX5[624];  ///< Array for constraint equation St5 X
  Double_t fConstraintY5[624];  ///< Array for constraint equation St5 Y

  Int_t fDetElemId;        ///< Detection element id
  Int_t fDetElemNumber;    ///< Detection element number
  Double_t fPhi;           ///< Azimuthal tilt of detection element
  Double_t fCosPhi;        ///< Cosine of fPhi
  Double_t fSinPhi;        ///< Sine of fPhi
  Double_t fDetElemPos[3]; ///< Position of detection element

  /// running Track record
  AliMUONAlignmentTrackRecord fTrackRecord;

  /// Geometry transformation
  AliMUONGeometryTransformer *fTransform;

  static Int_t fgNSt;            ///< Number tracking stations
  static Int_t fgNCh;            ///< Number tracking chambers
  static Int_t fgNTrkMod;        ///< Number of tracking modules (4 ch + 6*2 half-ch)
  static Int_t fgNParCh;         ///< Number of degrees of freedom per chamber
  static Int_t fgNDetElem;       ///< Total number of detection elements
  static Int_t fgNDetElemCh[10]; ///< Number of detection elements per chamber
  static Int_t fgSNDetElemCh[10];///< Sum of detection elements up to this chamber (inc)

  ClassDef(AliMUONAlignment, 2)

};

#endif