[u/mrichter/AliRoot.git] / ITS / AliITSVertexer3D.h

#ifndef ALIITSVERTEXER3D_H
#define ALIITSVERTEXER3D_H

#include<AliITSVertexer.h>

///////////////////////////////////////////////////////////////////
//                                                               //
// Class for primary vertex finding  (3D reconstruction)         //
//                                                               //
///////////////////////////////////////////////////////////////////

/* $Id$ */

#include <TClonesArray.h>
#include <TRandom3.h>
#include <AliESDVertex.h>
#include <TH3F.h>
#include <TBits.h>

class AliITSVertexer3D : public AliITSVertexer {

 public:

  AliITSVertexer3D();
  virtual ~AliITSVertexer3D();
  virtual AliESDVertex* FindVertexForCurrentEvent(TTree *itsClusterTree);
  void FindVertex3DIterative();
  void FindVertex3DIterativeMM();
  void FindVertex3D(TTree *itsClusterTree);
  AliESDVertex GetVertex3D() const {return fVert3D;}
  //  Double_t *Get3DPeak() {return f3DPeak;}
  virtual void PrintStatus() const;
  static Bool_t DistBetweenVertices(AliESDVertex &a, AliESDVertex &b, Double_t test, Double_t &dist);
  void SetWideFiducialRegion(Double_t dz = 40.0, Double_t dr=2.5){
    SetCoarseMaxRCut(dr);
    SetZCutDiamond(dz);
  }
  void SetNarrowFiducialRegion(Double_t dz = 0.5, Double_t dr=0.5){
    SetMaxRCut(dr);
    SetMaxZCut(dz);
  }
  void SetDeltaPhiCuts(Double_t dphiloose=0.5, Double_t dphitight=0.025){
    SetCoarseDiffPhiCut(dphiloose);
    SetDiffPhiMax(dphitight);
  }
  void SetCoarseDiffPhiCut(Double_t dphi = 0.5){fCoarseDiffPhiCut=dphi;}
  void SetFineDiffPhiCut(Double_t dphi = 0.05){fFineDiffPhiCut=dphi;}
  void SetCutOnPairs(Double_t cp = 0.15){fCutOnPairs = cp;}
  void SetCoarseMaxRCut(Double_t rad = 2.5){fCoarseMaxRCut=rad;}
  void SetMaxRCut(Double_t rad = 0.5){fMaxRCut=rad;}
  void SetMaxRCutAlgo2(Double_t rad = 0.2){fMaxRCut2=rad;}
  void SetZCutDiamond(Double_t zcut = 40.0){fZCutDiamond=zcut;}
  void SetMaxZCut(Double_t dz = 0.5){fMaxZCut=dz;}
  void SetDCACut(Double_t dca=0.1){fDCAcut=dca;} 
  void SetDiffPhiMax(Double_t pm = 0.025){fDiffPhiMax = pm;}
  void SetMeanPSelTracks(Double_t pGeV=0.875){fMeanPSelTrk = pGeV;}
  void SetMeanPtSelTracks(Double_t ptGeV=0.630){fMeanPtSelTrk = ptGeV;}
  void SetMeanPPtSelTracks(Double_t fieldTesla);
  void SetMinDCAforPileup(Double_t mindist=0.1) {fDCAforPileup=mindist;}
  void SetDeltaPhiforPileup(Double_t dphi=0.01) {fDiffPhiforPileup=dphi;}
  void SetPileupAlgo(UShort_t optalgo=1){fPileupAlgo=optalgo;}
  void SetBinSizeR(Double_t siz=0.1){fBinSizeR=siz;}
  void SetBinSizeZ(Double_t siz=0.8){fBinSizeZ=siz;}
  void SetHighMultAlgo(UChar_t n){
    if(n<2) fHighMultAlgo=n;
    else AliError("Only algos 0 and 1 implemented");
  }
  void SetHighMultDownscalingAlgo(){fHighMultAlgo=0;}
  void SetHighMultTracesAlgo(){fHighMultAlgo=1;}

  void SetMaxNumOfClustersForHighMult(Int_t ncl){fMaxNumOfCl=ncl;}
  void SetMaxNumOfClustersForDownScale(Int_t ncl){fMaxNumOfClForDownScale=ncl;}
  void SetMaxNumOfClustersForRebin(Int_t ncl){fMaxNumOfClForRebin=ncl;}
  Int_t GetMaxNumOfClustersForHighMult() const {return fMaxNumOfCl;}
  Int_t GetMaxNumOfClustersForDownScale() const {return fMaxNumOfClForDownScale;}
  Int_t GetMaxNumOfClustersForRebin() const {return fMaxNumOfClForRebin;}

protected:
  AliITSVertexer3D(const AliITSVertexer3D& vtxr);
  AliITSVertexer3D& operator=(const AliITSVertexer3D& /* vtxr */);
  Int_t FindTracklets(TTree *itsClusterTree, Int_t optCuts);
  Int_t Prepare3DVertex(Int_t optCuts);
  Int_t Prepare3DVertexPbPb();
  void ResetVert3D();
  void FindPeaks(TH3F* histo, Double_t *peak, Int_t &nOfTracklets, Int_t &nOfTimes);
  void PileupFromZ();
  void MarkUsedClusters();
  Int_t RemoveTracklets();
  void  FindOther3DVertices(TTree *itsClusterTree);
  Double_t GetFraction(Int_t itr) const;

  enum {kMaxCluPerMod=250};
  enum {kMaxPileupVertices=10};
  TClonesArray fLines;      //! array of tracklets
  AliESDVertex fVert3D;        // 3D Vertex
  Double_t fCoarseDiffPhiCut; // loose cut on DeltaPhi for RecPoint matching
  Double_t fFineDiffPhiCut; // tight value of DeltaPhi for RP matching (2nd method) 
  Double_t fCutOnPairs; //cut on distance between pairs of tracklets 
  Double_t fCoarseMaxRCut; // cut on tracklet DCA to Z axis
  Double_t fMaxRCut;     // cut on tracklet DCA to beam axis
  Double_t fMaxRCut2;    // cut on tracklet DCA to beam axis - algo2
  Double_t fZCutDiamond;   // cut on +-Z of the diamond
  Double_t fMaxZCut;   // cut on Z distance from estimated vertex
  Double_t fDCAcut; // cut on tracklet to tracklet and tracklet to vertex DCA
  Double_t fDiffPhiMax;     // Maximum delta phi allowed among corr. pixels
  Double_t fMeanPSelTrk; // GeV, mean P for tracks with dphi<0.01 rad
  Double_t fMeanPtSelTrk; // GeV, mean Pt for tracks with dphi<0.01 rad
  TBits   fUsedCluster;  // flag for used clusters in vertex calculation
  TH1F *fZHisto;           //! histogram with coarse z distribution
  Double_t  fDCAforPileup;  // Minimum DCA to 1st vertex for pileup tracklets 
  Double_t  fDiffPhiforPileup;  // Cut on delta phi for pileup 
  Double_t  fBinSizeR;      // Histo3D bin size along radius
  Double_t  fBinSizeZ;      // Histo3D bin size along z
  UShort_t fPileupAlgo;    // Algo for pileup identification
                           // 0->VertexerZ pileup algo
                           // 1->Unused RecPoints algo
  Int_t fMaxNumOfCl;          // max n. of clusters on L1 or L2 for high mult definition
  Int_t fMaxNumOfClForRebin;  // max n. of clusters on L1 or L2 for rebin
  Int_t fMaxNumOfClForDownScale;  // max n. of clusters on L1 or L2 for downscale
  Int_t  fNRecPLay1;       // number of rec ponts on SPD layer 1
  Int_t  fNRecPLay2;       // number of rec ponts on SPD layer 2
  Float_t f3DBinSize;           // Size of the 3D bins
  Bool_t fDoDownScale;     // Control downscaling of tracklets in high mult
  TRandom3 *fGenerForDownScale; // randomnumber generator fordownscaling
  Double_t f3DPeak[3];           // TH3F peak coords
  UChar_t fHighMultAlgo;    // algorithm used for high mult. events
  Bool_t fSwitchAlgorithm; // Switch between two algoritms in testing phase

  static const Int_t fgkMaxNumOfClDefault;      // Default max n. of clusters for downscale
  static const Int_t fgkMaxNumOfClRebinDefault; // Default max n. of clusters for rebin
  static const Int_t fgkMaxNumOfClDownscaleDefault; // Default max n. of clusters for rebin
  static const Float_t fgk3DBinSizeDefault;  // Default 3D bins size

  ClassDef(AliITSVertexer3D,15);

};

#endif
Commit	Line	Data
70c95f95	1	#ifndef ALIITSVERTEXER3D_H
	2	#define ALIITSVERTEXER3D_H
	3
27167524	4	#include<AliITSVertexer.h>
70c95f95	5
	6	///////////////////////////////////////////////////////////////////
	7	// //
	8	// Class for primary vertex finding (3D reconstruction) //
	9	// //
	10	///////////////////////////////////////////////////////////////////
	11
6a0d56b8	12	/* $Id$ */
6a0d56b8	13
f5f6da22	14	#include <TClonesArray.h>
507265fd	15	#include <TRandom3.h>
6a0d56b8	16	#include <AliESDVertex.h>
7340864d	17	#include <TH3F.h>
cd1c2af1	18	#include <TBits.h>
70c95f95	19
	20	class AliITSVertexer3D : public AliITSVertexer {
	21
	22	public:
	23
	24	AliITSVertexer3D();
70c95f95	25	virtual ~AliITSVertexer3D();
308c2f7c	26	virtual AliESDVertex* FindVertexForCurrentEvent(TTree *itsClusterTree);
6b4d9537	27	void FindVertex3DIterative();
87104b06	28	void FindVertex3DIterativeMM();
6b4d9537	29	void FindVertex3D(TTree *itsClusterTree);
6a0d56b8	30	AliESDVertex GetVertex3D() const {return fVert3D;}
efe6147d	31	// Double_t *Get3DPeak() {return f3DPeak;}
70c95f95	32	virtual void PrintStatus() const;
6b4d9537	33	static Bool_t DistBetweenVertices(AliESDVertex &a, AliESDVertex &b, Double_t test, Double_t &dist);
242c8025	34	void SetWideFiducialRegion(Double_t dz = 40.0, Double_t dr=2.5){
7203e11a	35	SetCoarseMaxRCut(dr);
	36	SetZCutDiamond(dz);
	37	}
242c8025	38	void SetNarrowFiducialRegion(Double_t dz = 0.5, Double_t dr=0.5){
7203e11a	39	SetMaxRCut(dr);
	40	SetMaxZCut(dz);
	41	}
242c8025	42	void SetDeltaPhiCuts(Double_t dphiloose=0.5, Double_t dphitight=0.025){
7203e11a	43	SetCoarseDiffPhiCut(dphiloose);
	44	SetDiffPhiMax(dphitight);
	45	}
242c8025	46	void SetCoarseDiffPhiCut(Double_t dphi = 0.5){fCoarseDiffPhiCut=dphi;}
242c8025	47	void SetFineDiffPhiCut(Double_t dphi = 0.05){fFineDiffPhiCut=dphi;}
87104b06	48	void SetCutOnPairs(Double_t cp = 0.15){fCutOnPairs = cp;}
242c8025	49	void SetCoarseMaxRCut(Double_t rad = 2.5){fCoarseMaxRCut=rad;}
242c8025	50	void SetMaxRCut(Double_t rad = 0.5){fMaxRCut=rad;}
87104b06	51	void SetMaxRCutAlgo2(Double_t rad = 0.2){fMaxRCut2=rad;}
199775b9	52	void SetZCutDiamond(Double_t zcut = 40.0){fZCutDiamond=zcut;}
242c8025	53	void SetMaxZCut(Double_t dz = 0.5){fMaxZCut=dz;}
	54	void SetDCACut(Double_t dca=0.1){fDCAcut=dca;}
	55	void SetDiffPhiMax(Double_t pm = 0.025){fDiffPhiMax = pm;}
	56	void SetMeanPSelTracks(Double_t pGeV=0.875){fMeanPSelTrk = pGeV;}
	57	void SetMeanPtSelTracks(Double_t ptGeV=0.630){fMeanPtSelTrk = ptGeV;}
0496a544	58	void SetMeanPPtSelTracks(Double_t fieldTesla);
242c8025	59	void SetMinDCAforPileup(Double_t mindist=0.1) {fDCAforPileup=mindist;}
c238ba33	60	void SetDeltaPhiforPileup(Double_t dphi=0.01) {fDiffPhiforPileup=dphi;}
87104b06	61	void SetPileupAlgo(UShort_t optalgo=1){fPileupAlgo=optalgo;}
242c8025	62	void SetBinSizeR(Double_t siz=0.1){fBinSizeR=siz;}
242c8025	63	void SetBinSizeZ(Double_t siz=0.8){fBinSizeZ=siz;}
efe6147d	64	void SetHighMultAlgo(UChar_t n){
	65	if(n<2) fHighMultAlgo=n;
	66	else AliError("Only algos 0 and 1 implemented");
	67	}
	68	void SetHighMultDownscalingAlgo(){fHighMultAlgo=0;}
	69	void SetHighMultTracesAlgo(){fHighMultAlgo=1;}
	70
	71	void SetMaxNumOfClustersForHighMult(Int_t ncl){fMaxNumOfCl=ncl;}
	72	void SetMaxNumOfClustersForDownScale(Int_t ncl){fMaxNumOfClForDownScale=ncl;}
	73	void SetMaxNumOfClustersForRebin(Int_t ncl){fMaxNumOfClForRebin=ncl;}
	74	Int_t GetMaxNumOfClustersForHighMult() const {return fMaxNumOfCl;}
	75	Int_t GetMaxNumOfClustersForDownScale() const {return fMaxNumOfClForDownScale;}
	76	Int_t GetMaxNumOfClustersForRebin() const {return fMaxNumOfClForRebin;}
70c95f95	77
	78	protected:
	79	AliITSVertexer3D(const AliITSVertexer3D& vtxr);
	80	AliITSVertexer3D& operator=(const AliITSVertexer3D& /* vtxr */);
308c2f7c	81	Int_t FindTracklets(TTree *itsClusterTree, Int_t optCuts);
05d1294c	82	Int_t Prepare3DVertex(Int_t optCuts);
efe6147d	83	Int_t Prepare3DVertexPbPb();
27167524	84	void ResetVert3D();
7340864d	85	void FindPeaks(TH3F* histo, Double_t *peak, Int_t &nOfTracklets, Int_t &nOfTimes);
cd1c2af1	86	void PileupFromZ();
	87	void MarkUsedClusters();
	88	Int_t RemoveTracklets();
	89	void FindOther3DVertices(TTree *itsClusterTree);
efe6147d	90	Double_t GetFraction(Int_t itr) const;
70c95f95	91
cd1c2af1	92	enum {kMaxCluPerMod=250};
72756d8d	93	enum {kMaxPileupVertices=10};
f5f6da22	94	TClonesArray fLines; //! array of tracklets
6a0d56b8	95	AliESDVertex fVert3D; // 3D Vertex
242c8025	96	Double_t fCoarseDiffPhiCut; // loose cut on DeltaPhi for RecPoint matching
	97	Double_t fFineDiffPhiCut; // tight value of DeltaPhi for RP matching (2nd method)
	98	Double_t fCutOnPairs; //cut on distance between pairs of tracklets
	99	Double_t fCoarseMaxRCut; // cut on tracklet DCA to Z axis
87104b06	100	Double_t fMaxRCut; // cut on tracklet DCA to beam axis
87104b06	101	Double_t fMaxRCut2; // cut on tracklet DCA to beam axis - algo2
242c8025	102	Double_t fZCutDiamond; // cut on +-Z of the diamond
	103	Double_t fMaxZCut; // cut on Z distance from estimated vertex
	104	Double_t fDCAcut; // cut on tracklet to tracklet and tracklet to vertex DCA
	105	Double_t fDiffPhiMax; // Maximum delta phi allowed among corr. pixels
	106	Double_t fMeanPSelTrk; // GeV, mean P for tracks with dphi<0.01 rad
	107	Double_t fMeanPtSelTrk; // GeV, mean Pt for tracks with dphi<0.01 rad
cd1c2af1	108	TBits fUsedCluster; // flag for used clusters in vertex calculation
cd1c2af1	109	TH1F *fZHisto; //! histogram with coarse z distribution
242c8025	110	Double_t fDCAforPileup; // Minimum DCA to 1st vertex for pileup tracklets
c238ba33	111	Double_t fDiffPhiforPileup; // Cut on delta phi for pileup
242c8025	112	Double_t fBinSizeR; // Histo3D bin size along radius
242c8025	113	Double_t fBinSizeZ; // Histo3D bin size along z
cd1c2af1	114	UShort_t fPileupAlgo; // Algo for pileup identification
	115	// 0->VertexerZ pileup algo
	116	// 1->Unused RecPoints algo
efe6147d	117	Int_t fMaxNumOfCl; // max n. of clusters on L1 or L2 for high mult definition
	118	Int_t fMaxNumOfClForRebin; // max n. of clusters on L1 or L2 for rebin
	119	Int_t fMaxNumOfClForDownScale; // max n. of clusters on L1 or L2 for downscale
	120	Int_t fNRecPLay1; // number of rec ponts on SPD layer 1
	121	Int_t fNRecPLay2; // number of rec ponts on SPD layer 2
	122	Float_t f3DBinSize; // Size of the 3D bins
507265fd	123	Bool_t fDoDownScale; // Control downscaling of tracklets in high mult
507265fd	124	TRandom3 *fGenerForDownScale; // randomnumber generator fordownscaling
efe6147d	125	Double_t f3DPeak[3]; // TH3F peak coords
	126	UChar_t fHighMultAlgo; // algorithm used for high mult. events
	127	Bool_t fSwitchAlgorithm; // Switch between two algoritms in testing phase
6a0d56b8	128
efe6147d	129	static const Int_t fgkMaxNumOfClDefault; // Default max n. of clusters for downscale
	130	static const Int_t fgkMaxNumOfClRebinDefault; // Default max n. of clusters for rebin
	131	static const Int_t fgkMaxNumOfClDownscaleDefault; // Default max n. of clusters for rebin
	132	static const Float_t fgk3DBinSizeDefault; // Default 3D bins size
9801e044	133
efe6147d	134	ClassDef(AliITSVertexer3D,15);
70c95f95	135
	136	};
	137
	138	#endif