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

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

/* $Id$ */

//____________________________________________________________________
// 
// AliITSTrackleterSPDEff - find SPD chips efficiencies by using tracklets.
// 
// This class has been derived from AliITSMultReconstructor (see
// it for more details). It is the class for the Trackleter used to estimate
// SPD plane efficiency.
// The trackleter prediction is built using the vertex and 1 cluster.

//
// 
//  Author :  Giuseppe Eugenio Bruno, based on the skeleton of Reconstruct method  provided by Tiziano Virgili
//  email:    giuseppe.bruno@ba.infn.it
//  
//____________________________________________________________________

class AliStack;
#include "AliITSMultReconstructor.h"
#include "AliITSPlaneEffSPD.h"

class AliITSTrackleterSPDEff : public AliITSMultReconstructor 
{
public:
  AliITSTrackleterSPDEff();
  virtual ~AliITSTrackleterSPDEff();
  // Main method to perform the trackleter and the SPD efficiency evaluation
  void Reconstruct(TTree* tree, Float_t* vtx, Float_t* vtxRes, AliStack* pStack=0x0);

  void SetPhiWindowL1(Float_t w=0.08) {fPhiWindowL1=w;}  // method to set the cuts in the interpolation
  void SetZetaWindowL1(Float_t w=1.) {fZetaWindowL1=w;}  // phase; use method of the base class for extrap.
  void SetOnlyOneTrackletPerC1(Bool_t b = kTRUE) {fOnlyOneTrackletPerC1 = b;} // as in the base class but 
									      // for the inner layer
  
  AliITSPlaneEffSPD* GetPlaneEff() const {return fPlaneEffSPD;}  // return a pointer to the AliITSPlaneEffSPD
  
  void SetMC(Bool_t mc=kTRUE) {fMC=mc; InitPredictionMC(); return;}  // switch on access to MC true 
  Bool_t GetMC() const {return fMC;}  // check the access to MC true
  // Only for MC: use only "primary" particles (according to PrimaryTrackChecker) for the tracklet prediction
  void SetUseOnlyPrimaryForPred(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlyPrimaryForPred = flag; } 
  // Only for MC: use only "secondary" particles (according to PrimaryTrackChecker) for the tracklet prediction
  void SetUseOnlySecondaryForPred(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlySecondaryForPred = flag;}
  // Only for MC: associate a cluster to the tracklet prediction if  from the same particle
  void SetUseOnlySameParticle(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlySameParticle = flag;}
  // Only for MC: associate a cluster to the tracklet prediction if  from different particles
  void SetUseOnlyDifferentParticle(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlyDifferentParticle = flag;}
  //  Only for MC: re-define "primary" a particle if it is also "stable" (according to definition in method DecayingTrackChecker)
  void SetUseOnlyStableParticle(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlyStableParticle = flag;}
  // only for MC: Getters relative to the above setters
  Bool_t GetUseOnlyPrimaryForPred() const {CallWarningMC(); return fUseOnlyPrimaryForPred; }
  Bool_t GetUseOnlySecondaryForPred() const {CallWarningMC(); return fUseOnlySecondaryForPred;}
  Bool_t GetUseOnlySameParticle() const {CallWarningMC(); return fUseOnlySameParticle;}
  Bool_t GetUseOnlyDifferentParticle() const {CallWarningMC(); return fUseOnlyDifferentParticle;}
  Bool_t GetUseOnlyStableParticle() const {CallWarningMC(); return fUseOnlyStableParticle;}
  // Getters for the data members related to MC true statisitcs (see below)
  Int_t GetPredictionPrimary(const UInt_t key) const;
  Int_t GetPredictionSecondary(const UInt_t key) const;
  Int_t GetClusterPrimary(const UInt_t key) const;
  Int_t GetClusterSecondary(const UInt_t key) const;
  Int_t GetPredictionPrimary(const UInt_t mod, const UInt_t chip) const
        {return GetPredictionPrimary(fPlaneEffSPD->GetKey(mod,chip));};
  Int_t GetPredictionSecondary(const UInt_t mod, const UInt_t chip) const
        {return GetPredictionSecondary(fPlaneEffSPD->GetKey(mod,chip));};
  Int_t GetClusterPrimary(const UInt_t mod, const UInt_t chip) const
        {return GetClusterPrimary(fPlaneEffSPD->GetKey(mod,chip));};
  Int_t GetClusterSecondary(const UInt_t mod, const UInt_t chip) const
        {return GetClusterSecondary(fPlaneEffSPD->GetKey(mod,chip));};
  // methods to write/reas cuts and MC statistics into/from file
  void SavePredictionMC(TString filename="TrackletsMCpred.txt") const;
  void ReadPredictionMC(TString filename="TrackletsMCpred.txt");
  // Print some class info in ascii form to stream (cut values and MC statistics)
  virtual void PrintAscii(ostream *os)const;
  // Read some class info in ascii form from stream (cut values and MC statistics)
  virtual void ReadAscii(istream *is);
  Bool_t GetHistOn() const {return fHistOn;}; // return status of histograms
  // write histograms into a root file on disk
  Bool_t WriteHistosToFile(TString filename="TrackleterSPDHistos.root",Option_t* option = "RECREATE");
  // switch on/off the extra histograms
  void SetHistOn(Bool_t his=kTRUE) {AliITSMultReconstructor::SetHistOn(his); 
         if(GetHistOn()) {DeleteHistos(); BookHistos();} else DeleteHistos(); return;}

protected:
  AliITSTrackleterSPDEff(const AliITSTrackleterSPDEff& mr); // protected method: no copy allowed from outside
  AliITSTrackleterSPDEff& operator=(const AliITSTrackleterSPDEff& mr);

  Bool_t*       fAssociationFlag1;    // flag for the associations (Layer 1)
  UInt_t*       fChipPredOnLay2;      // prediction for the chip traversed by the tracklet 
                                      // based on vtx and ClusterLay1 (to be used in extrapolation)
  UInt_t*       fChipPredOnLay1;      // prediction for the chip traversed by the tracklet 
                                      // based on vtx and ClusterLay2 (to be used in interpolation)
  Int_t         fNTracklets1;   // Number of tracklets layer 1
  Float_t       fPhiWindowL1;     // Search window in phi (Layer 1)
  Float_t       fZetaWindowL1;    // SEarch window in zeta (Layer 1)
  Bool_t        fOnlyOneTrackletPerC1; // only one tracklet per cluster in L. 1
  AliITSPlaneEffSPD* fPlaneEffSPD; // pointer to SPD plane efficiency class
  Bool_t   fMC; // Boolean to access Kinematics (only for MC events )
  Bool_t   fUseOnlyPrimaryForPred; // Only for MC: if this is true, build tracklet prediction using only primary particles
  Bool_t   fUseOnlySecondaryForPred; // Only for MC: if this is true build tracklet prediction using only secondary particles
  Bool_t   fUseOnlySameParticle; // Only for MC: if this is true, assign a success only if clusters from same particles 
                                 // (i.e. PP or SS) otherwise ignore the combination
  Bool_t   fUseOnlyDifferentParticle; // Only for MC: if this is true, assign a success only if clusters from different particles 
                                      // (i.e. PP' or PS or SS') otherwise ignore the combination
  Bool_t   fUseOnlyStableParticle; // Only for MC: if this is kTRUE then method PrimaryTrackChecker return kTRUE only 
                                //              for particles decaying (eventually) after pixel layers
  Int_t *fPredictionPrimary;  // those for correction of bias from secondaries
  Int_t *fPredictionSecondary; // chip_by_chip: number of Prediction built with primaries/secondaries
  Int_t *fClusterPrimary;  //   number of clusters on a given chip fired by (at least) a primary
  Int_t *fClusterSecondary; //  number of clusters on a given chip fired by (only) secondaries
 // extra histograms with respect to the base class AliITSMultReconstructor
  TH1F*         fhClustersDPhiInterpAcc;   // Phi2 - Phi1 for tracklets (interpolation phase)
  TH1F*         fhClustersDThetaInterpAcc; // Theta2 - Theta1 for tracklets (interpolation phase)
  TH1F*         fhClustersDZetaInterpAcc;  // z2 - z1projected for tracklets (interpolation phase)
  TH1F*         fhClustersDPhiInterpAll;   // Phi2 - Phi1 all the combinations (interpolation phase)
  TH1F*         fhClustersDThetaInterpAll; // Theta2 - Theta1 all the combinations (interpolation phase)
  TH1F*         fhClustersDZetaInterpAll;  // z2 - z1projected all the combinations (interpolation phase)
  TH2F*         fhDPhiVsDThetaInterpAll; // 2D plot for all the combinations
  TH2F*         fhDPhiVsDThetaInterpAcc; // same plot for tracklets
  TH2F*         fhDPhiVsDZetaInterpAll;  // 2d plot for all the combination
  TH2F*         fhDPhiVsDZetaInterpAcc;  // same plot for tracklets
  TH1F*         fhetaClustersLay2; // Pseudorapidity distr. for Clusters L. 2
  TH1F*         fhphiClustersLay2; // Azimuthal (Phi) distr. for Clusters L. 2
//
  Double_t GetRLayer(Int_t layer); // return average radius of layer (0,1) from Geometry
  Bool_t PrimaryTrackChecker(Int_t ipart,AliStack* stack=0x0);  // check if a MC particle is primary (need AliStack)
  Int_t DecayingTrackChecker(Int_t ipart,AliStack* stack=0x0);  // For a primary particle, check if it is stable (see cxx)
  void InitPredictionMC();
  // method to locate a chip using current vtx and polar coordinate od tracklet w.r.t. to vtx (zVtx may not be given)
  Bool_t FindChip(UInt_t &key, Int_t layer,  Float_t* vtx, Float_t thetaVtx, Float_t phiVtx, Float_t zVtx=999.); 
  // method to transform from Global Cilindrical coordinate to local (module) Cartesian coordinate
  Bool_t FromGloCilToLocCart(Int_t ilayer,Int_t idet, Double_t r, Double_t phi, Double_t z,
                           Float_t &xloc, Float_t &zloc);
  // method to obtain the module (detector) index using global coordinates
  Int_t FindDetectorIndex(Int_t layer, Double_t phi, Double_t z);
  // this method gives you the intersections between a line and a circle (centred in the origin) 
  // using polar coordinates
  Bool_t FindIntersectionPolar(Double_t vtx[2],Double_t phiVtx, Double_t R,Double_t &phi);
  Bool_t SetAngleRange02Pi(Double_t &angle); // set the range of angle in [0,2pi[ 
  Bool_t SetAngleRange02Pi(Float_t  &angle) 
  {Double_t tmp=(Double_t)angle; Bool_t ret=SetAngleRange02Pi(tmp);angle=(Float_t)tmp;return ret;};  
  void CallWarningMC() const {if(!fMC) AliWarning("You can use this method only for MC! Call SetMC() first");}
  Bool_t SaveHists();
  void BookHistos(); // booking of extra histograms w.r.t. base class
  void DeleteHistos(); //delete histos from memory

  ClassDef(AliITSTrackleterSPDEff,1)
};
// Input and output function for standard C++ input/output (for the cut values and MC statistics).
ostream &operator<<(ostream &os,const AliITSTrackleterSPDEff &s);
istream &operator>>(istream &is, AliITSTrackleterSPDEff &s);
#endif
Commit	Line	Data
275a301c	1	#ifndef ALIITSTRACKLETERSPDEFF_H
	2	#define ALIITSTRACKLETERSPDEFF_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/* $Id$ */
	7
	8	//____________________________________________________________________
	9	//
	10	// AliITSTrackleterSPDEff - find SPD chips efficiencies by using tracklets.
	11	//
	12	// This class has been derived from AliITSMultReconstructor (see
	13	// it for more details). It is the class for the Trackleter used to estimate
	14	// SPD plane efficiency.
	15	// The trackleter prediction is built using the vertex and 1 cluster.
	16
	17	//
	18	//
	19	// Author : Giuseppe Eugenio Bruno, based on the skeleton of Reconstruct method provided by Tiziano Virgili
	20	// email: giuseppe.bruno@ba.infn.it
	21	//
	22	//____________________________________________________________________
	23
84161aec	24	class AliStack;
275a301c	25	#include "AliITSMultReconstructor.h"
	26	#include "AliITSPlaneEffSPD.h"
	27
275a301c	28	class AliITSTrackleterSPDEff : public AliITSMultReconstructor
	29	{
	30	public:
	31	AliITSTrackleterSPDEff();
	32	virtual ~AliITSTrackleterSPDEff();
84161aec	33	// Main method to perform the trackleter and the SPD efficiency evaluation
275a301c	34	void Reconstruct(TTree* tree, Float_t* vtx, Float_t* vtxRes, AliStack* pStack=0x0);
275a301c	35
84161aec	36	void SetPhiWindowL1(Float_t w=0.08) {fPhiWindowL1=w;} // method to set the cuts in the interpolation
	37	void SetZetaWindowL1(Float_t w=1.) {fZetaWindowL1=w;} // phase; use method of the base class for extrap.
	38	void SetOnlyOneTrackletPerC1(Bool_t b = kTRUE) {fOnlyOneTrackletPerC1 = b;} // as in the base class but
	39	// for the inner layer
275a301c	40
84161aec	41	AliITSPlaneEffSPD* GetPlaneEff() const {return fPlaneEffSPD;} // return a pointer to the AliITSPlaneEffSPD
275a301c	42
84161aec	43	void SetMC(Bool_t mc=kTRUE) {fMC=mc; InitPredictionMC(); return;} // switch on access to MC true
	44	Bool_t GetMC() const {return fMC;} // check the access to MC true
	45	// Only for MC: use only "primary" particles (according to PrimaryTrackChecker) for the tracklet prediction
	46	void SetUseOnlyPrimaryForPred(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlyPrimaryForPred = flag; }
	47	// Only for MC: use only "secondary" particles (according to PrimaryTrackChecker) for the tracklet prediction
275a301c	48	void SetUseOnlySecondaryForPred(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlySecondaryForPred = flag;}
84161aec	49	// Only for MC: associate a cluster to the tracklet prediction if from the same particle
275a301c	50	void SetUseOnlySameParticle(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlySameParticle = flag;}
84161aec	51	// Only for MC: associate a cluster to the tracklet prediction if from different particles
275a301c	52	void SetUseOnlyDifferentParticle(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlyDifferentParticle = flag;}
84161aec	53	// Only for MC: re-define "primary" a particle if it is also "stable" (according to definition in method DecayingTrackChecker)
275a301c	54	void SetUseOnlyStableParticle(Bool_t flag=kTRUE) {CallWarningMC(); fUseOnlyStableParticle = flag;}
84161aec	55	// only for MC: Getters relative to the above setters
275a301c	56	Bool_t GetUseOnlyPrimaryForPred() const {CallWarningMC(); return fUseOnlyPrimaryForPred; }
	57	Bool_t GetUseOnlySecondaryForPred() const {CallWarningMC(); return fUseOnlySecondaryForPred;}
	58	Bool_t GetUseOnlySameParticle() const {CallWarningMC(); return fUseOnlySameParticle;}
	59	Bool_t GetUseOnlyDifferentParticle() const {CallWarningMC(); return fUseOnlyDifferentParticle;}
	60	Bool_t GetUseOnlyStableParticle() const {CallWarningMC(); return fUseOnlyStableParticle;}
84161aec	61	// Getters for the data members related to MC true statisitcs (see below)
275a301c	62	Int_t GetPredictionPrimary(const UInt_t key) const;
	63	Int_t GetPredictionSecondary(const UInt_t key) const;
	64	Int_t GetClusterPrimary(const UInt_t key) const;
	65	Int_t GetClusterSecondary(const UInt_t key) const;
	66	Int_t GetPredictionPrimary(const UInt_t mod, const UInt_t chip) const
	67	{return GetPredictionPrimary(fPlaneEffSPD->GetKey(mod,chip));};
	68	Int_t GetPredictionSecondary(const UInt_t mod, const UInt_t chip) const
	69	{return GetPredictionSecondary(fPlaneEffSPD->GetKey(mod,chip));};
	70	Int_t GetClusterPrimary(const UInt_t mod, const UInt_t chip) const
	71	{return GetClusterPrimary(fPlaneEffSPD->GetKey(mod,chip));};
	72	Int_t GetClusterSecondary(const UInt_t mod, const UInt_t chip) const
	73	{return GetClusterSecondary(fPlaneEffSPD->GetKey(mod,chip));};
84161aec	74	// methods to write/reas cuts and MC statistics into/from file
275a301c	75	void SavePredictionMC(TString filename="TrackletsMCpred.txt") const;
	76	void ReadPredictionMC(TString filename="TrackletsMCpred.txt");
	77	// Print some class info in ascii form to stream (cut values and MC statistics)
	78	virtual void PrintAscii(ostream *os)const;
	79	// Read some class info in ascii form from stream (cut values and MC statistics)
	80	virtual void ReadAscii(istream *is);
	81	Bool_t GetHistOn() const {return fHistOn;}; // return status of histograms
84161aec	82	// write histograms into a root file on disk
275a301c	83	Bool_t WriteHistosToFile(TString filename="TrackleterSPDHistos.root",Option_t* option = "RECREATE");
84161aec	84	// switch on/off the extra histograms
275a301c	85	void SetHistOn(Bool_t his=kTRUE) {AliITSMultReconstructor::SetHistOn(his);
	86	if(GetHistOn()) {DeleteHistos(); BookHistos();} else DeleteHistos(); return;}
	87
	88	protected:
84161aec	89	AliITSTrackleterSPDEff(const AliITSTrackleterSPDEff& mr); // protected method: no copy allowed from outside
275a301c	90	AliITSTrackleterSPDEff& operator=(const AliITSTrackleterSPDEff& mr);
	91
	92	Bool_t* fAssociationFlag1; // flag for the associations (Layer 1)
	93	UInt_t* fChipPredOnLay2; // prediction for the chip traversed by the tracklet
	94	// based on vtx and ClusterLay1 (to be used in extrapolation)
	95	UInt_t* fChipPredOnLay1; // prediction for the chip traversed by the tracklet
	96	// based on vtx and ClusterLay2 (to be used in interpolation)
	97	Int_t fNTracklets1; // Number of tracklets layer 1
	98	Float_t fPhiWindowL1; // Search window in phi (Layer 1)
	99	Float_t fZetaWindowL1; // SEarch window in zeta (Layer 1)
	100	Bool_t fOnlyOneTrackletPerC1; // only one tracklet per cluster in L. 1
	101	AliITSPlaneEffSPD* fPlaneEffSPD; // pointer to SPD plane efficiency class
	102	Bool_t fMC; // Boolean to access Kinematics (only for MC events )
	103	Bool_t fUseOnlyPrimaryForPred; // Only for MC: if this is true, build tracklet prediction using only primary particles
	104	Bool_t fUseOnlySecondaryForPred; // Only for MC: if this is true build tracklet prediction using only secondary particles
	105	Bool_t fUseOnlySameParticle; // Only for MC: if this is true, assign a success only if clusters from same particles
	106	// (i.e. PP or SS) otherwise ignore the combination
	107	Bool_t fUseOnlyDifferentParticle; // Only for MC: if this is true, assign a success only if clusters from different particles
	108	// (i.e. PP' or PS or SS') otherwise ignore the combination
	109	Bool_t fUseOnlyStableParticle; // Only for MC: if this is kTRUE then method PrimaryTrackChecker return kTRUE only
	110	// for particles decaying (eventually) after pixel layers
	111	Int_t *fPredictionPrimary; // those for correction of bias from secondaries
	112	Int_t *fPredictionSecondary; // chip_by_chip: number of Prediction built with primaries/secondaries
	113	Int_t *fClusterPrimary; // number of clusters on a given chip fired by (at least) a primary
	114	Int_t *fClusterSecondary; // number of clusters on a given chip fired by (only) secondaries
	115	// extra histograms with respect to the base class AliITSMultReconstructor
	116	TH1F* fhClustersDPhiInterpAcc; // Phi2 - Phi1 for tracklets (interpolation phase)
	117	TH1F* fhClustersDThetaInterpAcc; // Theta2 - Theta1 for tracklets (interpolation phase)
	118	TH1F* fhClustersDZetaInterpAcc; // z2 - z1projected for tracklets (interpolation phase)
	119	TH1F* fhClustersDPhiInterpAll; // Phi2 - Phi1 all the combinations (interpolation phase)
	120	TH1F* fhClustersDThetaInterpAll; // Theta2 - Theta1 all the combinations (interpolation phase)
	121	TH1F* fhClustersDZetaInterpAll; // z2 - z1projected all the combinations (interpolation phase)
	122	TH2F* fhDPhiVsDThetaInterpAll; // 2D plot for all the combinations
	123	TH2F* fhDPhiVsDThetaInterpAcc; // same plot for tracklets
	124	TH2F* fhDPhiVsDZetaInterpAll; // 2d plot for all the combination
	125	TH2F* fhDPhiVsDZetaInterpAcc; // same plot for tracklets
	126	TH1F* fhetaClustersLay2; // Pseudorapidity distr. for Clusters L. 2
	127	TH1F* fhphiClustersLay2; // Azimuthal (Phi) distr. for Clusters L. 2
	128	//
	129	Double_t GetRLayer(Int_t layer); // return average radius of layer (0,1) from Geometry
	130	Bool_t PrimaryTrackChecker(Int_t ipart,AliStack* stack=0x0); // check if a MC particle is primary (need AliStack)
	131	Int_t DecayingTrackChecker(Int_t ipart,AliStack* stack=0x0); // For a primary particle, check if it is stable (see cxx)
	132	void InitPredictionMC();
	133	// method to locate a chip using current vtx and polar coordinate od tracklet w.r.t. to vtx (zVtx may not be given)
	134	Bool_t FindChip(UInt_t &key, Int_t layer, Float_t* vtx, Float_t thetaVtx, Float_t phiVtx, Float_t zVtx=999.);
	135	// method to transform from Global Cilindrical coordinate to local (module) Cartesian coordinate
	136	Bool_t FromGloCilToLocCart(Int_t ilayer,Int_t idet, Double_t r, Double_t phi, Double_t z,
	137	Float_t &xloc, Float_t &zloc);
	138	// method to obtain the module (detector) index using global coordinates
	139	Int_t FindDetectorIndex(Int_t layer, Double_t phi, Double_t z);
	140	// this method gives you the intersections between a line and a circle (centred in the origin)
	141	// using polar coordinates
	142	Bool_t FindIntersectionPolar(Double_t vtx[2],Double_t phiVtx, Double_t R,Double_t &phi);
	143	Bool_t SetAngleRange02Pi(Double_t &angle); // set the range of angle in [0,2pi[
	144	Bool_t SetAngleRange02Pi(Float_t &angle)
	145	{Double_t tmp=(Double_t)angle; Bool_t ret=SetAngleRange02Pi(tmp);angle=(Float_t)tmp;return ret;};
	146	void CallWarningMC() const {if(!fMC) AliWarning("You can use this method only for MC! Call SetMC() first");}
	147	Bool_t SaveHists();
	148	void BookHistos(); // booking of extra histograms w.r.t. base class
	149	void DeleteHistos(); //delete histos from memory
	150
	151	ClassDef(AliITSTrackleterSPDEff,1)
	152	};
	153	// Input and output function for standard C++ input/output (for the cut values and MC statistics).
154	ostream &operator<<(ostream &os,const AliITSTrackleterSPDEff &s);
155	istream &operator>>(istream &is, AliITSTrackleterSPDEff &s);
156	#endif