[u/mrichter/AliRoot.git] / TPC / Rec / AliTPCRecoParam.h

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

///////////////////////////////////////////////////////////////////////////////
//                                                                           //
// Class with TPC reconstruction parameters                                  //
//                                                                           //
///////////////////////////////////////////////////////////////////////////////


#include "AliDetectorRecoParam.h"

class AliTPCRecoParam : public AliDetectorRecoParam
{
 public: 
  AliTPCRecoParam();
  virtual ~AliTPCRecoParam();
  virtual void Print(const Option_t* option="") const;
  static   Bool_t  GetUseTimeCalibration();
  static   void    SetUseTimeCalibration(Bool_t useTimeCalibration);

  void     SetUseHLTClusters(Int_t useHLTClusters){fUseHLTClusters=useHLTClusters;}
  Int_t    GetUseHLTClusters() const {return fUseHLTClusters;}
  void     SetUseHLTPreSeeding(Int_t useHLTPreSeeding){fUseHLTPreSeeding=useHLTPreSeeding;}
  Int_t    GetUseHLTPreSeeding() const {return fUseHLTPreSeeding;}
  void     SetClusterSharing(Bool_t sharing){fBClusterSharing=sharing;}
  Bool_t   GetClusterSharing() const {return fBClusterSharing;}
  Double_t GetCtgRange() const     { return fCtgRange;}
  Double_t GetMaxSnpTracker() const{ return fMaxSnpTracker;}
  Double_t GetMaxSnpTrack() const  { return fMaxSnpTrack;}
  Bool_t   GetUseOuterDetectors() const { return fUseOuterDetectors;}
  void     SetUseOuterDetectors(Bool_t flag)  { fUseOuterDetectors=flag;}
  Double_t GetCutSharedClusters(Int_t index)const { return fCutSharedClusters[index];}
  void  SetCutSharedClusters(Int_t index, Float_t value){ fCutSharedClusters[index]=value;}
  Int_t GetClusterMaxRange(Int_t index)const { return fClusterMaxRange[index];}
  void     SetClusterMaxRange(Int_t index, Int_t value){ fClusterMaxRange[index]=value;}
  //
  Bool_t   DumpSignal()     const  { return fDumpSignal;}
  void     SetTimeInterval(Int_t first, Int_t last) { fFirstBin=first, fLastBin =last;}
  Int_t    GetFirstBin() const     { return fFirstBin;}
  Int_t    GetLastBin() const      { return fLastBin;}
  void     SetTimeBinRange(Int_t first, Int_t last){ fFirstBin = first; fLastBin = last;}
  Bool_t   GetCalcPedestal()       const  { return fBCalcPedestal;}
  Bool_t   GetDoUnfold()           const  { return fBDoUnfold;}
  void     SetDoUnfold(Bool_t unfold)     { fBDoUnfold = unfold;}
  Float_t  GetDumpAmplitudeMin()   const  { return fDumpAmplitudeMin;}
  Float_t  GetMaxNoise()           const  { return fMaxNoise;}  
  //
  Int_t    GetUseOnePadCluster()   const  { return fUseOnePadCluster;}
  Bool_t   GetUseHLTOnePadCluster()const  { return fUseHLTOnePadCluster;}
  Float_t  GetMinMaxCutAbs()       const  { return fMinMaxCutAbs; }
  Float_t  GetMinLeftRightCutAbs() const  { return fMinLeftRightCutAbs;}  // minimal amplitude left right - PRF
  Float_t  GetMinUpDownCutAbs()    const  { return fMinUpDownCutAbs;}  // minimal amplitude up-down - TRF 
  Float_t  GetMinMaxCutSigma()       const  { return fMinMaxCutSigma; }
  Float_t  GetMinLeftRightCutSigma() const  { return fMinLeftRightCutSigma;}  // minimal amplitude left right - PRF
  Float_t  GetMinUpDownCutSigma()    const  { return fMinUpDownCutSigma;}  // minimal amplitude up-down - TRF 
  //
  void SetUseOnePadCluster(Int_t use)      {   fUseOnePadCluster = use;}
  void SetUseHLTOnePadCluster(Bool_t use)  {   fUseHLTOnePadCluster = use;}
  void SetMinMaxCutAbs(Float_t th)         {   fMinMaxCutAbs=th; }
  void SetMinLeftRightCutAbs(Float_t th)   {   fMinLeftRightCutAbs=th;}  // minimal amplitude left right - PRF
  void SetMinUpDownCutAbs(Float_t th)      {   fMinUpDownCutAbs=th;}  // minimal amplitude up-down - TRF 
  void SetMinMaxCutSigma(Float_t th)       {   fMinMaxCutSigma=th; }
  void SetMinLeftRightCutSigma(Float_t th) {   fMinLeftRightCutSigma=th;}  // minimal amplitude left right - PRF
  void SetMinUpDownCutSigma(Float_t th)    {   fMinUpDownCutSigma=th;}  // minimal amplitude up-down - TRF 
  void  SetUseTotCharge(Bool_t flag) {fUseTotCharge = flag;}
  void  SetCtgRange(Double_t ctgRange) {fCtgRange = ctgRange;}
  void  SetUseMultiplicityCorrectionDedx(Bool_t flag) {fUseMultiplicityCorrectionDedx = flag;}
  
  void  SetUseAlignmentTime(Bool_t flag) {fUseAlignmentTime = flag;}
  void  SetNeighborRowsDedx(Int_t nRows) {fNeighborRowsDedx = nRows;}
  void SetCorrectionHVandPTMode(Int_t value){ fGainCorrectionHVandPTMode =value;}
  void SetSkipTimeBins(Double_t value) {fSkipTimeBins=value;}
  //
  Int_t    GetLastSeedRowSec()       const  { return fLastSeedRowSec;} 
  Int_t    GetSeedGapPrim()        const  { return fSeedGapPrim;} 
  Int_t    GetSeedGapSec()         const  { return fSeedGapSec;} 
  void     SetDoKinks(Bool_t on)   { fBKinkFinder=on; }
  Bool_t   GetDoKinks() const      { return fBKinkFinder;}
  Double_t GetKinkAngleCutChi2(Int_t index) const {return fKinkAngleCutChi2[index];}
  void     SetKinkAngleCutChi2(Int_t index,Double_t value) {fKinkAngleCutChi2[index]=value;}
  void     SetSeedGapPrim(Int_t seedGapPrim)         { fSeedGapPrim = seedGapPrim;} 
  void     SetSeedGapSec(Int_t seedGapSec)          { fSeedGapSec  = seedGapSec;} 
  Float_t  GetMaxC()    const      { return fMaxC;}
  Bool_t   GetSpecialSeeding() const { return fBSpecialSeeding;}
  //
  //

  //
  // Correction setup
  //
  void  SetUseFieldCorrection(Int_t flag){fUseFieldCorrection=flag;}
  void  SetUseComposedCorrection(Bool_t flag){fUseComposedCorrection=flag;}
  void  SetUseRPHICorrection(Int_t flag){fUseRPHICorrection=flag;}
  void  SetUseRadialCorrection(Int_t flag){fUseRadialCorrection=flag;}
  void  SetUseQuadrantAlignment(Int_t flag){fUseQuadrantAlignment=flag;}
  void  SetUseSectorAlignment(Int_t flag){fUseSectorAlignment=flag;}
  void  SetUseDriftCorrectionTime(Int_t flag){fUseDriftCorrectionTime=flag;}
  void  SetUseDriftCorrectionGY(Int_t flag){fUseDriftCorrectionGY=flag;}
  void  SetUseGainCorrectionTime(Int_t flag){fUseGainCorrectionTime=flag;}
  void  SetUseExBCorrection(Int_t flag){fUseExBCorrection=flag;}
  void  SetUseTOFCorrection(Bool_t flag) {fUseTOFCorrection = flag;}
  void  SetUseIonTailCorrection(Int_t flag) {fUseIonTailCorrection = flag;}
  //
  Int_t GetUseFieldCorrection() const {return fUseFieldCorrection;}
  Int_t GetUseComposedCorrection() const {return fUseComposedCorrection;}
  Int_t GetUseRPHICorrection() const {return fUseRPHICorrection;}
  Int_t GetUseRadialCorrection() const {return fUseRadialCorrection;}
  Int_t GetUseQuadrantAlignment() const {return fUseQuadrantAlignment;}
  Int_t GetUseSectorAlignment() const {return fUseSectorAlignment;}
  Int_t GetUseDriftCorrectionTime() const {return fUseDriftCorrectionTime;}
  Int_t GetUseDriftCorrectionGY() const {return fUseDriftCorrectionGY;}
  Int_t GetUseGainCorrectionTime() const {return fUseGainCorrectionTime;}
  Int_t GetUseExBCorrection() const {return fUseExBCorrection;}
  Bool_t GetUseTOFCorrection() {return fUseTOFCorrection;}
  Int_t GetUseIonTailCorrection() const {return fUseIonTailCorrection;}

  Bool_t GetUseMultiplicityCorrectionDedx() const {return fUseMultiplicityCorrectionDedx;}
  Int_t  GetGainCorrectionHVandPTMode() const  { return   fGainCorrectionHVandPTMode;}
  Double_t  GetSkipTimeBins() const {return fSkipTimeBins;}

  Bool_t GetUseAlignmentTime() const {return fUseAlignmentTime;}
  //
  Bool_t   GetUseTotCharge() const {return fUseTotCharge;}          // switch use total or max charge
  Float_t  GetMinFraction() const {return fMinFraction;}           // truncated mean - lower threshold
  Float_t  GetMaxFraction() const {return fMaxFaction;}            // truncated mean - upper threshold
  Int_t    GetNeighborRowsDedx() const {return fNeighborRowsDedx;} 

  //
  void     SetSystematicError(Double_t *systematic){ for (Int_t i=0; i<5;i++) fSystematicErrors[i]=systematic[i];}
  const Double_t * GetSystematicError() const { return fSystematicErrors;}
  const Double_t * GetSystematicErrorClusterInner() const { return fSystematicErrorClusterInner;}

  void    SetUseSystematicCorrelation(Bool_t useCorrelation)  {fUseSystematicCorrelation=useCorrelation;}
  Bool_t  GetUseSystematicCorrelation() const { return fUseSystematicCorrelation;}

  static   AliTPCRecoParam *GetLowFluxParam();        // make reco parameters for low  flux env.
  static   AliTPCRecoParam *GetHighFluxParam();       // make reco parameters for high flux env. 
  static   AliTPCRecoParam *GetHLTParam(); // special setting for HLT  
  static   AliTPCRecoParam *GetLaserTestParam(Bool_t bPedestal);  // special setting for laser 
  static   AliTPCRecoParam *GetCosmicTestParam(Bool_t bPedestal); // special setting for cosmic  
  //
 protected:

  Int_t    fUseHLTClusters;  // allows usage of HLT clusters instead of RAW data
  Int_t    fUseHLTPreSeeding; // Usage of HLT pre-seeding 
  Bool_t   fBClusterSharing; // allows or disable cluster sharing during tracking 
  Double_t fCtgRange;        // +-fCtgRange is the ctg(Theta) window used for clusterization and tracking (MI) 
  Double_t fMaxSnpTracker;   // max sin of local angle  - for TPC tracker
  Double_t fMaxSnpTrack;     // max sin of local angle  - for track 
  Bool_t   fUseOuterDetectors; // switch - to use the outer detectors
  //
  //
  Double_t fCutSharedClusters[2]; // cut value - maximal amount  of shared clusters  
  Int_t fClusterMaxRange[2];   // neighborhood  - to define local maxima for cluster  
  //
  //   clusterer parameters
  //
  Bool_t   fDumpSignal;      // Dump Signal information flag
  Int_t    fFirstBin;        // first time bin used by cluster finder
  Int_t    fLastBin;         // last time bin  used by cluster finder 
  Bool_t   fBCalcPedestal;   // calculate Pedestal
  Bool_t   fBDoUnfold;       // do unfolding of clusters
  Float_t  fDumpAmplitudeMin; // minimal amplitude of signal to be dumped 
  Float_t  fMaxNoise;        // maximal noise sigma on pad to be used in cluster finder
  Int_t    fUseOnePadCluster; // flag - use one pad cluster -0 not use >0 use
  Bool_t   fUseHLTOnePadCluster; // flag - use one HLT pad cluster for tracking
  Float_t  fMinMaxCutAbs;    // minimal amplitude at cluster maxima
  Float_t  fMinLeftRightCutAbs;  // minimal amplitude left right - PRF
  Float_t  fMinUpDownCutAbs;  // minimal amplitude up-down - TRF 
  Float_t  fMinMaxCutSigma;    // minimal amplitude at cluster maxima
  Float_t  fMinLeftRightCutSigma;  // minimal amplitude left right - PRF
  Float_t  fMinUpDownCutSigma;  // minimal amplitude up-down - TRF 
  //
  //
  Float_t  fMaxC;            // maximal curvature for tracking
  Bool_t   fBSpecialSeeding; // special seeding with big inclination angles allowed (for Cosmic and laser)
  Bool_t   fBKinkFinder;       // do kink finder reconstruction
  Double_t fKinkAngleCutChi2[2];   // angular cut for kinks
  Int_t    fLastSeedRowSec;     // Most Inner Row to make seeding for secondaries
  Int_t    fSeedGapPrim;   // seeding gap for primary tracks
  Int_t    fSeedGapSec;   // seeding gap for secondary tracks

  //
  // Correction switches
  //
  Int_t fUseFieldCorrection;     // use field correction
  Bool_t fUseComposedCorrection; // flag to use composed correction
  Int_t fUseRPHICorrection;      // use rphi correction
  Int_t fUseRadialCorrection;    // use radial correction
  Int_t fUseQuadrantAlignment;   // use quadrant alignment
  Int_t fUseSectorAlignment;     // use sector alignment
  Int_t fUseDriftCorrectionTime; // use drift correction time
  Int_t fUseDriftCorrectionGY;   // use drif correction global y
  Int_t fUseGainCorrectionTime;  // use gain correction time
  Int_t fUseExBCorrection;       // use ExB correction
  Bool_t fUseMultiplicityCorrectionDedx; // use Dedx multiplicity correction
  Bool_t fUseAlignmentTime;              // use time dependent alignment correction
  Int_t fUseIonTailCorrection;   // use ion tail correction
  //
  // dEdx switches
  //
  Bool_t   fUseTotCharge;          // switch use total or max charge
  Float_t fMinFraction;           // truncated mean - lower threshold
  Float_t fMaxFaction;            // truncated mean - upper threshold
  Int_t   fNeighborRowsDedx;      // number of neighboring rows to identify cluster below thres in dEdx calculation 0 -> switch off
  Int_t   fGainCorrectionHVandPTMode; // switch for the usage of GainCorrectionHVandPT (see AliTPCcalibDB::GetGainCorrectionHVandPT 
  Double_t fSkipTimeBins;        // number of time bins to be skiiped (corrupted signal druing gating opening)

  Bool_t fUseTOFCorrection;  // switch - kTRUE use TOF correction kFALSE - do not use
  //
  //  misscalibration 
  //
  Double_t fSystematicErrors[5];  //systematic errors in the track parameters - to be added to TPC covariance matrix 
  Double_t fSystematicErrorClusterInner[2];  // systematic error of the cluster - used to downscale the information
  Bool_t fUseSystematicCorrelation;         // switch to use the correlation for the sys
public:   
  static Bool_t fgUseTimeCalibration; // flag usage the time dependent calibration
                                      // to be switched off for pass 0 reconstruction
                                      // Use static function, other option will be to use 
                                      // additional specific storage ?
  ClassDef(AliTPCRecoParam, 18)
};


#endif
Commit	Line	Data
669ce3c3	1	#ifndef ALITPCRECOPARAM_H
	2	#define ALITPCRECOPARAM_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	///////////////////////////////////////////////////////////////////////////////
	7	// //
	8	// Class with TPC reconstruction parameters //
	9	// //
	10	///////////////////////////////////////////////////////////////////////////////
	11
	12
b1c50d5c	13	#include "AliDetectorRecoParam.h"
669ce3c3	14
b1c50d5c	15	class AliTPCRecoParam : public AliDetectorRecoParam
669ce3c3	16	{
	17	public:
	18	AliTPCRecoParam();
	19	virtual ~AliTPCRecoParam();
90e46a63	20	virtual void Print(const Option_t* option="") const;
01e5d820	21	static Bool_t GetUseTimeCalibration();
01e5d820	22	static void SetUseTimeCalibration(Bool_t useTimeCalibration);
9abc660b	23
	24	void SetUseHLTClusters(Int_t useHLTClusters){fUseHLTClusters=useHLTClusters;}
	25	Int_t GetUseHLTClusters() const {return fUseHLTClusters;}
fa90aa2b	26	void SetUseHLTPreSeeding(Int_t useHLTPreSeeding){fUseHLTPreSeeding=useHLTPreSeeding;}
fa90aa2b	27	Int_t GetUseHLTPreSeeding() const {return fUseHLTPreSeeding;}
018e4f8a	28	void SetClusterSharing(Bool_t sharing){fBClusterSharing=sharing;}
018e4f8a	29	Bool_t GetClusterSharing() const {return fBClusterSharing;}
669ce3c3	30	Double_t GetCtgRange() const { return fCtgRange;}
	31	Double_t GetMaxSnpTracker() const{ return fMaxSnpTracker;}
	32	Double_t GetMaxSnpTrack() const { return fMaxSnpTrack;}
eba5bca1	33	Bool_t GetUseOuterDetectors() const { return fUseOuterDetectors;}
eba5bca1	34	void SetUseOuterDetectors(Bool_t flag) { fUseOuterDetectors=flag;}
6fbe1e5c	35	Double_t GetCutSharedClusters(Int_t index)const { return fCutSharedClusters[index];}
	36	void SetCutSharedClusters(Int_t index, Float_t value){ fCutSharedClusters[index]=value;}
	37	Int_t GetClusterMaxRange(Int_t index)const { return fClusterMaxRange[index];}
	38	void SetClusterMaxRange(Int_t index, Int_t value){ fClusterMaxRange[index]=value;}
669ce3c3	39	//
b127a65f	40	Bool_t DumpSignal() const { return fDumpSignal;}
34694cd5	41	void SetTimeInterval(Int_t first, Int_t last) { fFirstBin=first, fLastBin =last;}
669ce3c3	42	Int_t GetFirstBin() const { return fFirstBin;}
	43	Int_t GetLastBin() const { return fLastBin;}
	44	void SetTimeBinRange(Int_t first, Int_t last){ fFirstBin = first; fLastBin = last;}
940ed1f0	45	Bool_t GetCalcPedestal() const { return fBCalcPedestal;}
940ed1f0	46	Bool_t GetDoUnfold() const { return fBDoUnfold;}
d7a66797	47	void SetDoUnfold(Bool_t unfold) { fBDoUnfold = unfold;}
940ed1f0	48	Float_t GetDumpAmplitudeMin() const { return fDumpAmplitudeMin;}
940ed1f0	49	Float_t GetMaxNoise() const { return fMaxNoise;}
ec214961	50	//
1598ba75	51	Int_t GetUseOnePadCluster() const { return fUseOnePadCluster;}
1598ba75	52	Bool_t GetUseHLTOnePadCluster()const { return fUseHLTOnePadCluster;}
940ed1f0	53	Float_t GetMinMaxCutAbs() const { return fMinMaxCutAbs; }
	54	Float_t GetMinLeftRightCutAbs() const { return fMinLeftRightCutAbs;} // minimal amplitude left right - PRF
	55	Float_t GetMinUpDownCutAbs() const { return fMinUpDownCutAbs;} // minimal amplitude up-down - TRF
	56	Float_t GetMinMaxCutSigma() const { return fMinMaxCutSigma; }
	57	Float_t GetMinLeftRightCutSigma() const { return fMinLeftRightCutSigma;} // minimal amplitude left right - PRF
	58	Float_t GetMinUpDownCutSigma() const { return fMinUpDownCutSigma;} // minimal amplitude up-down - TRF
669ce3c3	59	//
f47588e0	60	void SetUseOnePadCluster(Int_t use) { fUseOnePadCluster = use;}
1598ba75	61	void SetUseHLTOnePadCluster(Bool_t use) { fUseHLTOnePadCluster = use;}
ec214961	62	void SetMinMaxCutAbs(Float_t th) { fMinMaxCutAbs=th; }
	63	void SetMinLeftRightCutAbs(Float_t th) { fMinLeftRightCutAbs=th;} // minimal amplitude left right - PRF
	64	void SetMinUpDownCutAbs(Float_t th) { fMinUpDownCutAbs=th;} // minimal amplitude up-down - TRF
	65	void SetMinMaxCutSigma(Float_t th) { fMinMaxCutSigma=th; }
	66	void SetMinLeftRightCutSigma(Float_t th) { fMinLeftRightCutSigma=th;} // minimal amplitude left right - PRF
	67	void SetMinUpDownCutSigma(Float_t th) { fMinUpDownCutSigma=th;} // minimal amplitude up-down - TRF
56b51ad9	68	void SetUseTotCharge(Bool_t flag) {fUseTotCharge = flag;}
	69	void SetCtgRange(Double_t ctgRange) {fCtgRange = ctgRange;}
	70	void SetUseMultiplicityCorrectionDedx(Bool_t flag) {fUseMultiplicityCorrectionDedx = flag;}
00e32b66	71
56b51ad9	72	void SetUseAlignmentTime(Bool_t flag) {fUseAlignmentTime = flag;}
6d64657a	73	void SetNeighborRowsDedx(Int_t nRows) {fNeighborRowsDedx = nRows;}
00e32b66	74	void SetCorrectionHVandPTMode(Int_t value){ fGainCorrectionHVandPTMode =value;}
efbb6a56	75	void SetSkipTimeBins(Double_t value) {fSkipTimeBins=value;}
ec214961	76	//
ec214961	77	Int_t GetLastSeedRowSec() const { return fLastSeedRowSec;}
6d1424d5	78	Int_t GetSeedGapPrim() const { return fSeedGapPrim;}
6d1424d5	79	Int_t GetSeedGapSec() const { return fSeedGapSec;}
812e76e7	80	void SetDoKinks(Bool_t on) { fBKinkFinder=on; }
669ce3c3	81	Bool_t GetDoKinks() const { return fBKinkFinder;}
eba5bca1	82	Double_t GetKinkAngleCutChi2(Int_t index) const {return fKinkAngleCutChi2[index];}
eba5bca1	83	void SetKinkAngleCutChi2(Int_t index,Double_t value) {fKinkAngleCutChi2[index]=value;}
6d1424d5	84	void SetSeedGapPrim(Int_t seedGapPrim) { fSeedGapPrim = seedGapPrim;}
6d1424d5	85	void SetSeedGapSec(Int_t seedGapSec) { fSeedGapSec = seedGapSec;}
b9cc16e4	86	Float_t GetMaxC() const { return fMaxC;}
b9cc16e4	87	Bool_t GetSpecialSeeding() const { return fBSpecialSeeding;}
6fbe1e5c	88	//
	89	//
	90
1cafd6f4	91	//
9430b11a	92	// Correction setup
9430b11a	93	//
25617779	94	void SetUseFieldCorrection(Int_t flag){fUseFieldCorrection=flag;}
cf5b0aa0	95	void SetUseComposedCorrection(Bool_t flag){fUseComposedCorrection=flag;}
25617779	96	void SetUseRPHICorrection(Int_t flag){fUseRPHICorrection=flag;}
	97	void SetUseRadialCorrection(Int_t flag){fUseRadialCorrection=flag;}
	98	void SetUseQuadrantAlignment(Int_t flag){fUseQuadrantAlignment=flag;}
	99	void SetUseSectorAlignment(Int_t flag){fUseSectorAlignment=flag;}
	100	void SetUseDriftCorrectionTime(Int_t flag){fUseDriftCorrectionTime=flag;}
	101	void SetUseDriftCorrectionGY(Int_t flag){fUseDriftCorrectionGY=flag;}
	102	void SetUseGainCorrectionTime(Int_t flag){fUseGainCorrectionTime=flag;}
07c43acb	103	void SetUseExBCorrection(Int_t flag){fUseExBCorrection=flag;}
07c43acb	104	void SetUseTOFCorrection(Bool_t flag) {fUseTOFCorrection = flag;}
fa90aa2b	105	void SetUseIonTailCorrection(Int_t flag) {fUseIonTailCorrection = flag;}
25617779	106	//
25617779	107	Int_t GetUseFieldCorrection() const {return fUseFieldCorrection;}
cf5b0aa0	108	Int_t GetUseComposedCorrection() const {return fUseComposedCorrection;}
25617779	109	Int_t GetUseRPHICorrection() const {return fUseRPHICorrection;}
	110	Int_t GetUseRadialCorrection() const {return fUseRadialCorrection;}
	111	Int_t GetUseQuadrantAlignment() const {return fUseQuadrantAlignment;}
	112	Int_t GetUseSectorAlignment() const {return fUseSectorAlignment;}
	113	Int_t GetUseDriftCorrectionTime() const {return fUseDriftCorrectionTime;}
	114	Int_t GetUseDriftCorrectionGY() const {return fUseDriftCorrectionGY;}
	115	Int_t GetUseGainCorrectionTime() const {return fUseGainCorrectionTime;}
07c43acb	116	Int_t GetUseExBCorrection() const {return fUseExBCorrection;}
fa90aa2b	117	Bool_t GetUseTOFCorrection() {return fUseTOFCorrection;}
	118	Int_t GetUseIonTailCorrection() const {return fUseIonTailCorrection;}
	119
56b51ad9	120	Bool_t GetUseMultiplicityCorrectionDedx() const {return fUseMultiplicityCorrectionDedx;}
00e32b66	121	Int_t GetGainCorrectionHVandPTMode() const { return fGainCorrectionHVandPTMode;}
efbb6a56	122	Double_t GetSkipTimeBins() const {return fSkipTimeBins;}
efbb6a56	123
56b51ad9	124	Bool_t GetUseAlignmentTime() const {return fUseAlignmentTime;}
8f4188a7	125	//
44a6a09e	126	Bool_t GetUseTotCharge() const {return fUseTotCharge;} // switch use total or max charge
	127	Float_t GetMinFraction() const {return fMinFraction;} // truncated mean - lower threshold
	128	Float_t GetMaxFraction() const {return fMaxFaction;} // truncated mean - upper threshold
6d64657a	129	Int_t GetNeighborRowsDedx() const {return fNeighborRowsDedx;}
56b51ad9	130
25617779	131	//
1cafd6f4	132	void SetSystematicError(Double_t *systematic){ for (Int_t i=0; i<5;i++) fSystematicErrors[i]=systematic[i];}
1cafd6f4	133	const Double_t * GetSystematicError() const { return fSystematicErrors;}
0b2c141b	134	const Double_t * GetSystematicErrorClusterInner() const { return fSystematicErrorClusterInner;}
0b2c141b	135
e1dadcd0	136	void SetUseSystematicCorrelation(Bool_t useCorrelation) {fUseSystematicCorrelation=useCorrelation;}
e1dadcd0	137	Bool_t GetUseSystematicCorrelation() const { return fUseSystematicCorrelation;}
1cafd6f4	138
669ce3c3	139	static AliTPCRecoParam *GetLowFluxParam(); // make reco parameters for low flux env.
669ce3c3	140	static AliTPCRecoParam *GetHighFluxParam(); // make reco parameters for high flux env.
b447cbf9	141	static AliTPCRecoParam *GetHLTParam(); // special setting for HLT
669ce3c3	142	static AliTPCRecoParam *GetLaserTestParam(Bool_t bPedestal); // special setting for laser
	143	static AliTPCRecoParam *GetCosmicTestParam(Bool_t bPedestal); // special setting for cosmic
	144	//
	145	protected:
fa90aa2b	146
9abc660b	147	Int_t fUseHLTClusters; // allows usage of HLT clusters instead of RAW data
fa90aa2b	148	Int_t fUseHLTPreSeeding; // Usage of HLT pre-seeding
018e4f8a	149	Bool_t fBClusterSharing; // allows or disable cluster sharing during tracking
669ce3c3	150	Double_t fCtgRange; // +-fCtgRange is the ctg(Theta) window used for clusterization and tracking (MI)
	151	Double_t fMaxSnpTracker; // max sin of local angle - for TPC tracker
	152	Double_t fMaxSnpTrack; // max sin of local angle - for track
eba5bca1	153	Bool_t fUseOuterDetectors; // switch - to use the outer detectors
669ce3c3	154	//
6fbe1e5c	155	//
	156	Double_t fCutSharedClusters[2]; // cut value - maximal amount of shared clusters
	157	Int_t fClusterMaxRange[2]; // neighborhood - to define local maxima for cluster
	158	//
669ce3c3	159	// clusterer parameters
669ce3c3	160	//
b127a65f	161	Bool_t fDumpSignal; // Dump Signal information flag
669ce3c3	162	Int_t fFirstBin; // first time bin used by cluster finder
	163	Int_t fLastBin; // last time bin used by cluster finder
	164	Bool_t fBCalcPedestal; // calculate Pedestal
	165	Bool_t fBDoUnfold; // do unfolding of clusters
	166	Float_t fDumpAmplitudeMin; // minimal amplitude of signal to be dumped
	167	Float_t fMaxNoise; // maximal noise sigma on pad to be used in cluster finder
1598ba75	168	Int_t fUseOnePadCluster; // flag - use one pad cluster -0 not use >0 use
1598ba75	169	Bool_t fUseHLTOnePadCluster; // flag - use one HLT pad cluster for tracking
940ed1f0	170	Float_t fMinMaxCutAbs; // minimal amplitude at cluster maxima
	171	Float_t fMinLeftRightCutAbs; // minimal amplitude left right - PRF
	172	Float_t fMinUpDownCutAbs; // minimal amplitude up-down - TRF
	173	Float_t fMinMaxCutSigma; // minimal amplitude at cluster maxima
	174	Float_t fMinLeftRightCutSigma; // minimal amplitude left right - PRF
	175	Float_t fMinUpDownCutSigma; // minimal amplitude up-down - TRF
669ce3c3	176	//
669ce3c3	177	//
b9cc16e4	178	Float_t fMaxC; // maximal curvature for tracking
b9cc16e4	179	Bool_t fBSpecialSeeding; // special seeding with big inclination angles allowed (for Cosmic and laser)
eba5bca1	180	Bool_t fBKinkFinder; // do kink finder reconstruction
eba5bca1	181	Double_t fKinkAngleCutChi2[2]; // angular cut for kinks
7d27c1df	182	Int_t fLastSeedRowSec; // Most Inner Row to make seeding for secondaries
6d1424d5	183	Int_t fSeedGapPrim; // seeding gap for primary tracks
	184	Int_t fSeedGapSec; // seeding gap for secondary tracks
	185
1cafd6f4	186	//
9430b11a	187	// Correction switches
9430b11a	188	//
07c43acb	189	Int_t fUseFieldCorrection; // use field correction
cf5b0aa0	190	Bool_t fUseComposedCorrection; // flag to use composed correction
25617779	191	Int_t fUseRPHICorrection; // use rphi correction
	192	Int_t fUseRadialCorrection; // use radial correction
	193	Int_t fUseQuadrantAlignment; // use quadrant alignment
	194	Int_t fUseSectorAlignment; // use sector alignment
	195	Int_t fUseDriftCorrectionTime; // use drift correction time
	196	Int_t fUseDriftCorrectionGY; // use drif correction global y
	197	Int_t fUseGainCorrectionTime; // use gain correction time
07c43acb	198	Int_t fUseExBCorrection; // use ExB correction
56b51ad9	199	Bool_t fUseMultiplicityCorrectionDedx; // use Dedx multiplicity correction
56b51ad9	200	Bool_t fUseAlignmentTime; // use time dependent alignment correction
fa90aa2b	201	Int_t fUseIonTailCorrection; // use ion tail correction
25617779	202	//
8f4188a7	203	// dEdx switches
	204	//
	205	Bool_t fUseTotCharge; // switch use total or max charge
	206	Float_t fMinFraction; // truncated mean - lower threshold
	207	Float_t fMaxFaction; // truncated mean - upper threshold
6d64657a	208	Int_t fNeighborRowsDedx; // number of neighboring rows to identify cluster below thres in dEdx calculation 0 -> switch off
00e32b66	209	Int_t fGainCorrectionHVandPTMode; // switch for the usage of GainCorrectionHVandPT (see AliTPCcalibDB::GetGainCorrectionHVandPT
efbb6a56	210	Double_t fSkipTimeBins; // number of time bins to be skiiped (corrupted signal druing gating opening)
25617779	211
9430b11a	212	Bool_t fUseTOFCorrection; // switch - kTRUE use TOF correction kFALSE - do not use
9430b11a	213	//
eba5bca1	214	// misscalibration
1cafd6f4	215	//
01e5d820	216	Double_t fSystematicErrors[5]; //systematic errors in the track parameters - to be added to TPC covariance matrix
0b2c141b	217	Double_t fSystematicErrorClusterInner[2]; // systematic error of the cluster - used to downscale the information
e1dadcd0	218	Bool_t fUseSystematicCorrelation; // switch to use the correlation for the sys
01e5d820	219	public:
502d13b5	220	static Bool_t fgUseTimeCalibration; // flag usage the time dependent calibration
	221	// to be switched off for pass 0 reconstruction
	222	// Use static function, other option will be to use
	223	// additional specific storage ?
aa68d009	224	ClassDef(AliTPCRecoParam, 18)
669ce3c3	225	};
	226
	227
	228	#endif