[u/mrichter/AliRoot.git] / PWG4 / PartCorrBase / AliCalorimeterUtils.h

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

//_________________________________________________________________________
// Class utility for Calorimeter specific selection methods                ///
//
//
//
//-- Author: Gustavo Conesa (LPSC-Grenoble) 
//////////////////////////////////////////////////////////////////////////////

// --- ROOT system ---
#include "TObject.h" 
#include "TString.h"
#include "TObjArray.h"
class TArrayF;  
#include "TH2I.h"

//--- ANALYSIS system ---
class AliVEvent;
class AliAODPWG4Particle;
class AliVCluster;
class AliVCaloCells;
#include "AliPHOSGeoUtils.h"
#include "AliEMCALGeometry.h"
#include "AliEMCALRecoUtils.h"

class AliCalorimeterUtils : public TObject {

 public:   
  AliCalorimeterUtils() ; // ctor
  virtual ~AliCalorimeterUtils() ;//virtual dtor
 private:
  AliCalorimeterUtils(const AliCalorimeterUtils & g) ; // cpy ctor
  AliCalorimeterUtils & operator = (const AliCalorimeterUtils & g) ;//cpy assignment

 public:
  
  virtual void InitParameters();
  virtual void Print(const Option_t * opt) const;

  virtual Int_t GetDebug()         const { return fDebug ; }
  virtual void  SetDebug(Int_t d)        { fDebug = d ; }
        
  //virtual void Init();
        
  //Calorimeters Geometry Methods
  AliEMCALGeoUtils * GetEMCALGeometry() const { return fEMCALGeo;}
  TString  EMCALGeometryName()          const { return fEMCALGeoName ; }  
  void  SetEMCALGeometryName(TString name)    { fEMCALGeoName = name ; }
  void InitEMCALGeometry() ; 
  Bool_t IsEMCALGeoMatrixSet()          const { return fEMCALGeoMatrixSet; }
        
  AliPHOSGeoUtils * GetPHOSGeometry() const { return fPHOSGeo;} 
  TString  PHOSGeometryName()         const { return fPHOSGeoName ; }  
  void  SetPHOSGeometryName(TString name)   { fPHOSGeoName = name ; }
  void InitPHOSGeometry() ; 
  Bool_t IsPHOSGeoMatrixSet()         const {return fPHOSGeoMatrixSet ; }

  void SetGeometryTransformationMatrices(AliVEvent* inputEvent) ;
        
  // Bad channels
  Bool_t IsBadChannelsRemovalSwitchedOn()  const { return fRemoveBadChannels ; }
  void SwitchOnBadChannelsRemoval ()  {fRemoveBadChannels = kTRUE  ; fEMCALRecoUtils->SwitchOnBadChannelsRemoval(); InitPHOSBadChannelStatusMap();}
  void SwitchOffBadChannelsRemoval()  {fRemoveBadChannels = kFALSE ; fEMCALRecoUtils->SwitchOffBadChannelsRemoval();}
        
  void InitPHOSBadChannelStatusMap () ;

  Int_t GetEMCALChannelStatus(Int_t iSM , Int_t iCol, Int_t iRow) const { 
    return fEMCALRecoUtils->GetEMCALChannelStatus(iSM,iCol,iRow); }//Channel is ok by default

  Int_t GetPHOSChannelStatus (Int_t imod, Int_t iCol, Int_t iRow) const { 
    if(fPHOSBadChannelMap)return (Int_t) ((TH2I*)fPHOSBadChannelMap->At(imod))->GetBinContent(iCol,iRow); 
    else return 0;}//Channel is ok by default
  
  void SetEMCALChannelStatus(Int_t iSM , Int_t iCol, Int_t iRow, Double_t c = 1) { 
    fEMCALRecoUtils->SetEMCALChannelStatus(iSM,iCol,iRow,c);}
  
  void SetPHOSChannelStatus (Int_t imod, Int_t iCol, Int_t iRow, Double_t c = 1) {
        if(!fPHOSBadChannelMap) InitPHOSBadChannelStatusMap() ; 
        ((TH2I*)fPHOSBadChannelMap->At(imod))->SetBinContent(iCol,iRow,c);}
    
  TH2I * GetEMCALChannelStatusMap(Int_t iSM) const {return fEMCALRecoUtils->GetEMCALChannelStatusMap(iSM);}
  TH2I * GetPHOSChannelStatusMap(Int_t imod) const {return (TH2I*)fPHOSBadChannelMap->At(imod);}

  void SetEMCALChannelStatusMap(TObjArray *map) {fEMCALRecoUtils->SetEMCALChannelStatusMap(map);}
  void SetPHOSChannelStatusMap (TObjArray *map) {fPHOSBadChannelMap  = map;}
        
  Bool_t ClusterContainsBadChannel(TString calorimeter,UShort_t* cellList, Int_t nCells);
        
  //Calorimeter indexes information
  Int_t GetModuleNumber(AliAODPWG4Particle * particle, AliVEvent* inputEvent) const;
  Int_t GetModuleNumber(AliVCluster * cluster) const;
  Int_t GetModuleNumberCellIndexes(const Int_t absId, const TString calo, Int_t & icol, Int_t & irow, Int_t &iRCU) const ;
        
  //Modules fiducial region
  Bool_t CheckCellFiducialRegion(AliVCluster* cluster, AliVCaloCells* cells, AliVEvent * event, Int_t iev=0) const ;
  void   SetNumberOfCellsFromPHOSBorder(Int_t n)  {fNCellsFromPHOSBorder = n; }
  Int_t  GetNumberOfCellsFromPHOSBorder()  const  {return fNCellsFromPHOSBorder; }
  void   SetNumberOfCellsFromEMCALBorder(Int_t n) {fEMCALRecoUtils->SetNumberOfCellsFromEMCALBorder(n)      ;}
  Int_t  GetNumberOfCellsFromEMCALBorder() const  {return fEMCALRecoUtils->GetNumberOfCellsFromEMCALBorder();}
  void   SwitchOnNoFiducialBorderInEMCALEta0()    {fEMCALRecoUtils->SwitchOnNoFiducialBorderInEMCALEta0()   ;}
  void   SwitchOffNoFiducialBorderInEMCALEta0()   {fEMCALRecoUtils->SwitchOffNoFiducialBorderInEMCALEta0()  ;}
  Bool_t IsEMCALNoBorderAtEta0()           const  {return fEMCALRecoUtils->IsEMCALNoBorderAtEta0()          ;}
  
  // Recalibration
  Bool_t IsRecalibrationOn()  const { return fRecalibration ; }
  void SwitchOnRecalibration()    {fRecalibration = kTRUE ; InitPHOSRecalibrationFactors(); fEMCALRecoUtils->SwitchOnRecalibration();}
  void SwitchOffRecalibration()   {fRecalibration = kFALSE;fEMCALRecoUtils->SwitchOffRecalibration();}
        
  void InitPHOSRecalibrationFactors () ;
        
  Float_t GetEMCALChannelRecalibrationFactor(Int_t iSM , Int_t iCol, Int_t iRow) const { return fEMCALRecoUtils->GetEMCALChannelRecalibrationFactor(iSM , iCol, iRow);}
  
  Float_t GetPHOSChannelRecalibrationFactor (Int_t imod, Int_t iCol, Int_t iRow) const { 
    if(fPHOSRecalibrationFactors)return (Float_t) ((TH2F*)fPHOSRecalibrationFactors->At(imod))->GetBinContent(iCol,iRow); 
    else return 1;}
  
  void SetEMCALChannelRecalibrationFactor(Int_t iSM , Int_t iCol, Int_t iRow, Double_t c = 1) { 
    fEMCALRecoUtils->SetEMCALChannelRecalibrationFactor(iSM,iCol,iRow,c);}
        
  void SetPHOSChannelRecalibrationFactor (Int_t imod, Int_t iCol, Int_t iRow, Double_t c = 1) {
    if(!fPHOSRecalibrationFactors)  InitPHOSRecalibrationFactors();
    ((TH2F*)fPHOSRecalibrationFactors->At(imod))->SetBinContent(iCol,iRow,c);}
    
  void SetEMCALChannelRecalibrationFactors(Int_t iSM , TH2F* h) {fEMCALRecoUtils->SetEMCALChannelRecalibrationFactors(iSM,h);}
  void SetPHOSChannelRecalibrationFactors(Int_t imod , TH2F* h) {fPHOSRecalibrationFactors ->AddAt(h,imod);}
        
  TH2F * GetEMCALChannelRecalibrationFactors(Int_t iSM) const {return fEMCALRecoUtils->GetEMCALChannelRecalibrationFactors(iSM);}
  TH2F * GetPHOSChannelRecalibrationFactors(Int_t imod) const {return (TH2F*)fPHOSRecalibrationFactors->At(imod);}
        
  void SetEMCALChannelRecalibrationFactors(TObjArray *map) {fEMCALRecoUtils->SetEMCALChannelRecalibrationFactors(map);}
  void SetPHOSChannelRecalibrationFactors (TObjArray *map) {fPHOSRecalibrationFactors  = map;}

  Float_t RecalibrateClusterEnergy(AliVCluster* cluster, AliVCaloCells * cells);

  void SetEMCALRecoUtils(AliEMCALRecoUtils * ru) {fEMCALRecoUtils = ru;}
  AliEMCALRecoUtils* GetEMCALRecoUtils() const {return fEMCALRecoUtils;}
  
  Bool_t IsCorrectionOfClusterEnergyOn()  const    { return fCorrectELinearity ; }
  void SwitchOnCorrectClusterLinearity()         { fCorrectELinearity = kTRUE; } 
  void SwitchOffCorrectClusterLinearity()        { fCorrectELinearity = kFALSE; } 
  void CorrectClusterEnergy(AliVCluster *cl);
  
  Bool_t IsRecalculationOfClusterPositionOn()  const { return fRecalculatePosition ; }
  void SwitchOnRecalculateClusterPosition()      { fRecalculatePosition = kTRUE; } 
  void SwitchOffRecalculateClusterPosition()     { fRecalculatePosition = kFALSE; } 
  void RecalculateClusterPosition(AliVCaloCells* cells, AliVCluster* clu);
  void RecalculateClusterShowerShapeParameters(AliVCaloCells* cells, AliVCluster* clu){
    fEMCALRecoUtils->RecalculateClusterShowerShapeParameters((AliEMCALGeometry*)fEMCALGeo, cells, clu);
  }
  void RecalculateClusterPID(AliVCluster* clu) {fEMCALRecoUtils->RecalculateClusterPID(clu);}

 private:

  Int_t              fDebug;                 //  Debugging level
  TString            fEMCALGeoName;          //  Name of geometry to use for EMCAL.
  TString            fPHOSGeoName;           //  Name of geometry to use for PHOS.      
  AliEMCALGeoUtils * fEMCALGeo ;             //! EMCAL geometry pointer
  AliPHOSGeoUtils  * fPHOSGeo  ;             //! PHOS  geometry pointer  
  Bool_t             fEMCALGeoMatrixSet;     //  Check if the transformation matrix is set for EMCAL
  Bool_t             fPHOSGeoMatrixSet ;     //  Check if the transformation matrix is set for PHOS
  Bool_t             fRemoveBadChannels;     //  Check the channel status provided and remove clusters with bad channels
  TObjArray        * fPHOSBadChannelMap;     //  Array of histograms with map of bad channels, PHOS
  Int_t              fNCellsFromPHOSBorder;  //  Number of cells from PHOS  border the cell with maximum amplitude has to be.
  Bool_t             fRecalibration;         //  Switch on or off the recalibration
  TObjArray        * fPHOSRecalibrationFactors;  // Array of histograms with map of recalibration factors, PHOS
  AliEMCALRecoUtils* fEMCALRecoUtils;        //  EMCAL utils for cluster rereconstruction
  Bool_t             fRecalculatePosition;   // Recalculate cluster position
  Bool_t             fCorrectELinearity  ;   // Correct cluster energy linearity
  
  ClassDef(AliCalorimeterUtils,3)
} ;


#endif //ALICALORIMETERUTILS_H