#include <TNamed.h>
+#include "AliTRDgeometry.h"
+
class TFile;
class TTree;
class TClonesArray;
class AliTRD;
class AliTRDcluster;
+class AliTRDrawStream;
class AliTRDarrayADC;
class AliTRDarraySignal;
class AliTRDdigitsManager;
class AliTRDCalROC;
class AliTRDReconstructor;
class AliTRDCalSingleChamberStatus;
-class AliTRDrawStreamBase;
+class AliTRDrecoParam;
+class AliTRDCalOnlineGainTableROC;
class AliTRDclusterizer : public TNamed
{
public:
// steering flags
+ // bits from 0-13 are reserved by ROOT (see TObject.h)
enum{
- kTrOwner= BIT(13) // toggle online tracklets ownership
- ,kClOwner= BIT(14) // toggle cluster ownership
- ,kLabels = BIT(15) // toggle MC labels for clusters
- ,kHLT = BIT(16) // HLT mode
- ,kLUT = BIT(17) // using look up table for cluster's r-phi position
- ,kGAUS = BIT(18) // using gauss approx. for cluster's r-phi position
- ,knewDM = BIT(19) // was the digitsmanger created by raw2clusters?
+ kTrOwner = BIT(14) // toggle online tracklets ownership
+ ,kClOwner= BIT(15) // toggle cluster ownership
+ ,kLabels = BIT(16) // toggle MC labels for clusters
+ ,kSkipTrafo = BIT(17) // skip the coordinate transformation of clusters?
+ ,kLUT = BIT(18) // using look up table for cluster's r-phi position
+ ,kGAUS = BIT(19) // using gauss approx. for cluster's r-phi position
+ ,knewDM = BIT(20) // was the digitsmanger created by raw2clusters?
+ ,kTracksOwner = BIT(21) // toggle GTU track ownership
+ ,kRawSignal = BIT(22) // toggle storage of raw signals in clusters
};
struct MaxStruct
Int_t row; // row of the current cluster candidate
Int_t col; // col of the current cluster candidate
Int_t time; // time -"-
- Short_t signals[3]; // signals of the maximum pad and it's twon neigbours
+ Float_t signals[3]; // signals of the maximum pad and it's twon neigbours
UChar_t padStatus; // padStatus of the current cluster candidate
Bool_t fivePad; // is this cluster candidate part of a 5 pad cluster (two overlaping clusters)?
MaxStruct():row(-1),col(0),time(0),padStatus(0),fivePad(kFALSE)
- {memset(signals, 0, 3*sizeof(Short_t));}
+ {memset(signals, 0, 3*sizeof(Float_t));}
MaxStruct &operator=(const MaxStruct &a)
{memcpy(this, &a, sizeof(MaxStruct)); return *this;}
};
Bool_t OpenInput(Int_t nEvent = 0);
Bool_t OpenOutput();
Bool_t OpenOutput(TTree *const clusterTree);
- Bool_t OpenTrackletOutput();
Bool_t ReadDigits();
Bool_t ReadDigits(AliRawReader *rawReader);
Bool_t ReadDigits(TTree *digitsTree);
+ Bool_t ReadTracklets();
+ Bool_t ReadTracks();
+
Bool_t WriteClusters(Int_t det);
- void ResetRecPoints();
+ void ResetRecPoints() { fNoOfClusters = 0;}
virtual TClonesArray *RecPoints();
- virtual TClonesArray *TrackletsArray();
- Bool_t WriteTracklets(Int_t det);
+ virtual TClonesArray *TrackletsArray(const TString &trkltype = "");
+ virtual TClonesArray *TracksArray();
Bool_t Raw2Clusters(AliRawReader *rawReader);
Bool_t Raw2ClustersChamber(AliRawReader *rawReader);
Int_t GetAddedClusters() const {return fNoOfClusters;}
Int_t GetNTimeBins() const {return fTimeTotal;}
- Bool_t IsClustersOwner() const {return TestBit(kClOwner);}
+ Bool_t IsClustersOwner() const {return TestBit(kClOwner);}
virtual void SetClustersOwner(Bool_t own=kTRUE) {SetBit(kClOwner, own); if(!own) {fRecPoints = 0x0; fNoOfClusters=0;} }
- void SetTrackletsOwner(Bool_t own=kTRUE) {SetBit(kTrOwner, own); if(!own) {fTracklets = 0x0; } }
+ void SetTrackletsOwner(Bool_t own=kTRUE) {SetBit(kTrOwner, own); if(!own) {fTracklets = 0x0; } }
+ void SetTracksOwner(Bool_t own=kTRUE) {SetBit(kTracksOwner, own); if(!own) {fTracks = 0x0; } }
+ void SetSkipTransform(Bool_t b=kTRUE) {SetBit(kSkipTrafo, b); }
+ void SetStoreRawSignals(Bool_t b=kTRUE) {SetBit(kRawSignal, b); }
+
+ UInt_t GetTriggerFlags(const Int_t sector) const { return fTrgFlags[sector]; }
protected:
- void DeConvExp (const Double_t *const source, Double_t *const target
- ,const Int_t nTimeTotal, const Int_t nexp);
- void TailCancelation();
+ void ApplyTCTM(Short_t *const arr, const Int_t nTime, const Int_t nexp);
+ void DeConvExp (Short_t *const arr, const Int_t nTime, const Int_t nexp);
+ void ConvExp(Short_t *const arr, const Int_t nTime);
+ void TailCancelation(const AliTRDrecoParam* const recoParam);
- Float_t Unfold(Double_t eps, Int_t layer, const Double_t *const padSignal) const;
+ Float_t Unfold(Double_t eps, Int_t layer, const Double_t *const padSignal) const;
void SetPadStatus(const UChar_t status, UChar_t &encoding) const;
UChar_t GetPadStatus(UChar_t encoding) const;
Int_t GetCorruption(UChar_t encoding) const;
- Bool_t IsMaximum(const MaxStruct &Max, UChar_t &padStatus, Short_t *const Signals); //for const correctness reasons not const parameters are given separately
+ Bool_t IsMaximum(const MaxStruct &Max, UChar_t &padStatus, Float_t *const Signals); //for const correctness reasons not const parameters are given separately
Bool_t FivePadCluster(MaxStruct &ThisMax, MaxStruct &NeighbourMax);
void CreateCluster(const MaxStruct &Max);
virtual void AddClusterToArray(AliTRDcluster* cluster);
- virtual void AddTrackletsToArray();
+
+ const AliTRDReconstructor *fReconstructor; //! reconstructor
+ AliRunLoader *fRunLoader; //! Run Loader
+ TTree *fClusterTree; //! Tree with the cluster
+ TClonesArray *fRecPoints; //! Array of clusters
+ TClonesArray *fTracklets; //! Array of online tracklets
+ TClonesArray *fTracks; //! Array of GTU tracks
+
+ AliTRDdigitsManager *fDigitsManager; //! TRD digits manager
+
+ Int_t fRawVersion; // Expected raw version of the data - default is 2
+
+ AliTRDtransform *fTransform; //! Transforms the reconstructed space points
+
+ AliTRDarrayADC *fDigits; // Array holding the digits
+ AliTRDarrayADC *fDigitsRaw; // Array holding the raw digits if requested
+ AliTRDSignalIndex *fIndexes; // Array holding the indexes to the digits
+ Float_t fMaxThresh; // Threshold value for the maximum
+ Float_t fMaxThreshTest; // Threshold value for the maximum to test agains
+ Float_t fSigThresh; // Threshold value for the digit signal
+ Float_t fMinMaxCutSigma; // Threshold value for the maximum (cut noise)
+ Float_t fMinLeftRightCutSigma; // Threshold value for the sum pad (cut noise)
+ Int_t fLayer; // Current layer of the detector
+ Int_t fDet; // Current detecor
+ UShort_t fVolid; // Volume ID
+ Int_t fColMax; // Number of Colums in one detector
+ Int_t fTimeTotal; // Number of time bins
+ AliTRDCalROC *fCalGainFactorROC; // Calibration object with pad wise values for the gain factors
+ Float_t fCalGainFactorDetValue; // Calibration value for chamber wise noise
+ AliTRDCalROC *fCalNoiseROC; // Calibration object with pad wise values for the noise
+ Float_t fCalNoiseDetValue; // Calibration value for chamber wise noise
+ AliTRDCalSingleChamberStatus *fCalPadStatusROC; // Calibration object with the pad status
+ AliTRDCalOnlineGainTableROC *fCalOnlGainROC; // Calibration table of online gain factors
+ Int_t fClusterROC; // The index to the first cluster of a given ROC
+ Int_t firstClusterROC; // The number of cluster in a given ROC
+ Int_t fNoOfClusters; // Number of Clusters already processed and still owned by the clusterizer
+ Int_t fBaseline; // Baseline of the ADC values
+ AliTRDrawStream *fRawStream; // Raw data streamer
+ UInt_t fTrgFlags[AliTRDgeometry::kNsector]; // trigger flags
private:
inline void CalcAdditionalInfo(const MaxStruct &Max, Short_t *const signals, Int_t &nPadCount);
-protected:
- const AliTRDReconstructor *fReconstructor; //! reconstructor
- AliRunLoader *fRunLoader; //! Run Loader
- TTree *fClusterTree; //! Tree with the cluster
- TClonesArray *fRecPoints; //! Array of clusters
- TClonesArray *fTracklets; //! Array of online tracklets
-
- TTree *fTrackletTree; //! Tree for tracklets
-
- AliTRDdigitsManager *fDigitsManager; //! TRD digits manager
-
- UInt_t **fTrackletContainer; //! tracklet container
-
- Int_t fRawVersion; // Expected raw version of the data - default is 2
-
- AliTRDtransform *fTransform; //! Transforms the reconstructed space points
-
- AliTRDarrayADC *fDigits; // Array holding the digits
- AliTRDSignalIndex *fIndexes; // Array holding the indexes to the digits
- Float_t fMaxThresh; // Threshold value for the maximum
- Float_t fSigThresh; // Threshold value for the digit signal
- Float_t fMinMaxCutSigma; // Threshold value for the maximum (cut noise)
- Float_t fMinLeftRightCutSigma; // Threshold value for the sum pad (cut noise)
- Int_t fLayer; // Current layer of the detector
- Int_t fDet; // Current detecor
- UShort_t fVolid; // Volume ID
- Int_t fColMax; // Number of Colums in one detector
- Int_t fTimeTotal; // Number of time bins
- AliTRDCalROC *fCalGainFactorROC; // Calibration object with pad wise values for the gain factors
- Float_t fCalGainFactorDetValue;// Calibration value for chamber wise noise
- AliTRDCalROC *fCalNoiseROC; // Calibration object with pad wise values for the noise
- Float_t fCalNoiseDetValue; // Calibration value for chamber wise noise
- AliTRDCalSingleChamberStatus *fCalPadStatusROC; // Calibration object with the pad status
- Int_t fClusterROC; // The index to the first cluster of a given ROC
- Int_t firstClusterROC; // The number of cluster in a given ROC
- Int_t fNoOfClusters; // Number of Clusters already processed and still owned by the clusterizer
- Int_t fBaseline; // Baseline of the ADC values
- AliTRDrawStreamBase *fRawStream; // Currently used RawStream
-
- ClassDef(AliTRDclusterizer,6) // TRD clusterfinder
+ ClassDef(AliTRDclusterizer,6) // TRD clusterfinder
};