#include <AliReconstructor.h> //base class
#include "AliHMPIDTracker.h" //CreateTracker()
#include "AliHMPIDDigit.h" //Dig2Clu(), UseDig()
+#include "AliHMPIDRecoParamV1.h"
#include <TMatrixF.h> //UseDig()
#include <TClonesArray.h> //UseDig()
#include <TObjArray.h> //SigConv()
+
class AliRawReader; //Reconstruct() with raw data
class AliHMPIDCluster; //Dig2Clu()
AliHMPIDReconstructor();
virtual ~AliHMPIDReconstructor() {delete fDig;delete fClu;}//dtor
//framework part
- AliTracker* CreateTracker (AliRunLoader* )const{return new AliHMPIDTracker;} //from AliReconstructor for clusters->PID
+ AliTracker* CreateTracker () const {return new AliHMPIDTracker;} //from AliReconstructor for clusters->PID
void ConvertDigits (AliRawReader *pRR, TTree *pDigTree) const; //from AliReconstruction for raw->digit
Bool_t HasDigitConversion() const {return kTRUE;} //HMPID digits converted with ConvertDigits
void Reconstruct (TTree* digitsTree, TTree* clustersTree) const; //from AliReconstruction for digit->cluster
- void Reconstruct (AliRunLoader *pAL,AliRawReader* pRR)const; //from AliReconstruction for raw->cluster with Digits on fly
- Bool_t HasLocalReconstruction() const {return kTRUE;} // HMPID has local reconstruction algorithm
- void FillESD (AliRunLoader* pAL,AliESD *pESD)const; //calculate pid for HMPID
-
+ void FillESD (TTree* /*digitsTree*/, TTree* /*clustersTree*/, AliESDEvent *pESD)const; //calculate pid for HMPID
+ static Int_t StreamLevel() { return fgStreamLevel;}
+ static void SetStreamLevel(Int_t level) { fgStreamLevel = level;}
+
+
using AliReconstructor::FillESD; //
using AliReconstructor::Reconstruct; //
//private part
- static void Dig2Clu (TObjArray *pDigLst,TObjArray *pCluLst,Bool_t isUnfold=kTRUE );//digits->clusters
+ static void Dig2Clu (TObjArray *pDigLst,TObjArray *pCluLst,Int_t *pUserCut,Bool_t isUnfold=kTRUE );//digits->clusters
static void FormClu (AliHMPIDCluster *pClu,AliHMPIDDigit *pDig,TClonesArray *pDigLst,TMatrixF *pPadMap);//cluster formation recursive algorithm
static inline AliHMPIDDigit* UseDig (Int_t padX,Int_t padY, TClonesArray *pDigLst,TMatrixF *pDigMap);//use this pad's digit to form a cluster
- inline Bool_t IsDigSurvive(AliHMPIDDigit *pDig )const;//check for sigma cut
+ inline Bool_t IsDigSurvive(Int_t *pUserCut, AliHMPIDDigit *pDig )const;//check for sigma cut
+ static const AliHMPIDRecoParamV1* GetRecoParam() { return dynamic_cast<const AliHMPIDRecoParamV1*>(AliReconstructor::GetRecoParam(5)); } //5 is the HMPID detector code
+
protected:
- Int_t *fUserCut; // n sigmas for pedestals decided by the User for each chamber(if in OCDB)
TObjArray *fDaqSig; // container for the pad pedestal sigmas
TObjArray *fDig; // tmp list of digits
TObjArray *fClu; // tmp list of clusters
- ClassDef(AliHMPIDReconstructor, 0) // class for the HMPID reconstruction
+//
+ private:
+ AliHMPIDReconstructor(const AliHMPIDReconstructor&); //Not implemented
+ AliHMPIDReconstructor &operator=(const AliHMPIDReconstructor&); //Not implemented
+ static Int_t fgStreamLevel; // flag for streaming - for HMPID reconstruction
+//
+ ClassDef(AliHMPIDReconstructor, 3) // class for the HMPID reconstruction
};
-//__________________________________________________________________________________________________
+//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
AliHMPIDDigit* AliHMPIDReconstructor::UseDig(Int_t padX,Int_t padY,TClonesArray *pDigLst,TMatrixF *pPadMap)
{
//Digit map contains a matrix if digit numbers.
else return 0;
}
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
-Bool_t AliHMPIDReconstructor::IsDigSurvive(AliHMPIDDigit *pDig)const
+Bool_t AliHMPIDReconstructor::IsDigSurvive(Int_t *pUserCut, AliHMPIDDigit *pDig)const
{
//Check if the current digit survive to a riapllied sigma cut
//Arguments: pDig pointer to the current digit
// Returns: kTRUE if charge > mean+n*sigma
Int_t iCh = pDig->Ch();
Int_t iDaqSigCut =(Int_t)fDaqSig->At(iCh)->GetUniqueID();
- if(fUserCut[iCh]<=iDaqSigCut) return kTRUE;
+ if(pUserCut[iCh]<=iDaqSigCut) return kTRUE;
TMatrixF *pM = (TMatrixF*)fDaqSig->At(pDig->Ch());
Float_t sig = (*pM)(pDig->PadChX(),pDig->PadChY());
- if(pDig->Q()>fUserCut[iCh]*sig) return kTRUE;
+ if(pDig->Q()>pUserCut[iCh]*sig) return kTRUE;
else return kFALSE;
}