[u/mrichter/AliRoot.git] / ITS / AliITStrackV2.cxx

/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

/* $Id$ */

///////////////////////////////////////////////////////////////////////////
//                Implementation of the ITS track class
//
//          Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
//     dEdx analysis by: Boris Batyunya, JINR, Boris.Batiounia@cern.ch
///////////////////////////////////////////////////////////////////////////
#include <TMath.h>

#include "AliCluster.h"
#include "AliTracker.h"
#include "AliESDtrack.h"
#include "AliITStrackV2.h"

const Int_t AliITStrackV2::fgkWARN = 5;

ClassImp(AliITStrackV2)


//____________________________________________________________________________
AliITStrackV2::AliITStrackV2() : AliKalmanTrack(),
  fdEdx(0),
  fESDtrack(0)
{
  for(Int_t i=0; i<2*AliITSgeomTGeo::kNLayers; i++) {fIndex[i]=-1; fModule[i]=-1;}
  for(Int_t i=0; i<4; i++) fdEdxSample[i]=0;
}


//____________________________________________________________________________
AliITStrackV2::AliITStrackV2(AliESDtrack& t,Bool_t c) throw (const Char_t *) :
  AliKalmanTrack(),
  fdEdx(t.GetITSsignal()),
  fESDtrack(&t)
{
  //------------------------------------------------------------------
  // Conversion ESD track -> ITS track.
  // If c==kTRUE, create the ITS track out of the constrained params.
  //------------------------------------------------------------------
  const AliExternalTrackParam *par=&t;
  if (c) {
    par=t.GetConstrainedParam();
    if (!par) throw "AliITStrackV2: conversion failed !\n";
  }
  Set(par->GetX(),par->GetAlpha(),par->GetParameter(),par->GetCovariance());

  //if (!Invariant()) throw "AliITStrackV2: conversion failed !\n";

  SetLabel(t.GetLabel());
  SetMass(t.GetMass());
  SetNumberOfClusters(t.GetITSclusters(fIndex));

  if (t.GetStatus()&AliESDtrack::kTIME) {
    StartTimeIntegral();
    Double_t times[10]; t.GetIntegratedTimes(times); SetIntegratedTimes(times);
    SetIntegratedLength(t.GetIntegratedLength());
  }

  for(Int_t i=0; i<4; i++) fdEdxSample[i]=0;
}

void AliITStrackV2::UpdateESDtrack(ULong_t flags) const {
  fESDtrack->UpdateTrackParams(this,flags);
  // copy the module indices
  for(Int_t i=0;i<12;i++) {
    //   printf("     %d\n",GetModuleIndex(i));
    fESDtrack->SetITSModuleIndex(i,GetModuleIndex(i));
  }
}

//____________________________________________________________________________
AliITStrackV2::AliITStrackV2(const AliITStrackV2& t) : 
  AliKalmanTrack(t),
  fdEdx(t.fdEdx),
  fESDtrack(t.fESDtrack) 
{
  //------------------------------------------------------------------
  //Copy constructor
  //------------------------------------------------------------------
  Int_t i;
  for (i=0; i<4; i++) fdEdxSample[i]=t.fdEdxSample[i];
  for (i=0; i<2*AliITSgeomTGeo::GetNLayers(); i++) {
    fIndex[i]=t.fIndex[i];
    fModule[i]=t.fModule[i];
  }
}

//_____________________________________________________________________________
Int_t AliITStrackV2::Compare(const TObject *o) const {
  //-----------------------------------------------------------------
  // This function compares tracks according to the their curvature
  //-----------------------------------------------------------------
  AliITStrackV2 *t=(AliITStrackV2*)o;
  //Double_t co=OneOverPt();
  //Double_t c =OneOverPt();
  Double_t co=t->GetSigmaY2()*t->GetSigmaZ2();
  Double_t c =GetSigmaY2()*GetSigmaZ2();
  if (c>co) return 1;
  else if (c<co) return -1;
  return 0;
}

//____________________________________________________________________________
Bool_t 
AliITStrackV2::PropagateToVertex(const AliESDVertex *v,Double_t d,Double_t x0) 
{
  //------------------------------------------------------------------
  //This function propagates a track to the minimal distance from the origin
  //------------------------------------------------------------------  
  Double_t bz=GetBz();
  if (PropagateToDCA(v,bz,kVeryBig)) {
    Double_t xOverX0,xTimesRho; 
    xOverX0 = d; xTimesRho = d*x0;
    if (CorrectForMeanMaterial(xOverX0,xTimesRho,kTRUE)) return kTRUE;
  }
  return kFALSE;
}

//____________________________________________________________________________
Bool_t AliITStrackV2::
GetGlobalXYZat(Double_t xloc, Double_t &x, Double_t &y, Double_t &z) const {
  //------------------------------------------------------------------
  //This function returns a track position in the global system
  //------------------------------------------------------------------
  Double_t r[3];
  Bool_t rc=GetXYZAt(xloc, AliTracker::GetBz(), r);
  x=r[0]; y=r[1]; z=r[2]; 
  return rc;
}

//_____________________________________________________________________________
Double_t AliITStrackV2::GetPredictedChi2(const AliCluster *c) const {
  //-----------------------------------------------------------------
  // This function calculates a predicted chi2 increment.
  //-----------------------------------------------------------------
  Double_t p[2]={c->GetY(), c->GetZ()};
  Double_t cov[3]={c->GetSigmaY2(), 0., c->GetSigmaZ2()};
  return AliExternalTrackParam::GetPredictedChi2(p,cov);
}

//____________________________________________________________________________
Bool_t AliITStrackV2::PropagateTo(Double_t xk, Double_t d, Double_t x0) {
  //------------------------------------------------------------------
  //This function propagates a track
  //------------------------------------------------------------------

  Double_t oldX=GetX(), oldY=GetY(), oldZ=GetZ();
  
  Double_t bz=GetBz();
  if (!AliExternalTrackParam::PropagateTo(xk,bz)) return kFALSE;
  Double_t xOverX0,xTimesRho; 
  xOverX0 = d; xTimesRho = d*x0;
  if (!CorrectForMeanMaterial(xOverX0,xTimesRho,kTRUE)) return kFALSE;

  Double_t x=GetX(), y=GetY(), z=GetZ();
  if (IsStartedTimeIntegral() && x>oldX) {
    Double_t l2 = (x-oldX)*(x-oldX) + (y-oldY)*(y-oldY) + (z-oldZ)*(z-oldZ);
    AddTimeStep(TMath::Sqrt(l2));
  }

  return kTRUE;
}

//____________________________________________________________________________
Bool_t AliITStrackV2::PropagateToTGeo(Double_t xToGo, Int_t nstep, Double_t &xOverX0, Double_t &xTimesRho) {
  //-------------------------------------------------------------------
  //  Propagates the track to a reference plane x=xToGo in n steps.
  //  These n steps are only used to take into account the curvature.
  //  The material is calculated with TGeo. (L.Gaudichet)
  //-------------------------------------------------------------------
  
  Double_t startx = GetX(), starty = GetY(), startz = GetZ();
  Double_t sign = (startx<xToGo) ? -1.:1.;
  Double_t step = (xToGo-startx)/TMath::Abs(nstep);

  Double_t start[3], end[3], mparam[7], bz = GetBz();
  Double_t x = startx;
  
  for (Int_t i=0; i<nstep; i++) {
    
    GetXYZ(start);   //starting global position
    x += step;
    if (!GetXYZAt(x, bz, end)) return kFALSE;
    if (!AliExternalTrackParam::PropagateTo(x, bz)) return kFALSE;
    AliTracker::MeanMaterialBudget(start, end, mparam);
    if (mparam[1]<900000) {
      xTimesRho = sign*mparam[4]*mparam[0];
      xOverX0   = mparam[1];
      if (!AliExternalTrackParam::CorrectForMeanMaterial(xOverX0,
				      xTimesRho,GetMass())) return kFALSE;
    }
  }

  if (IsStartedTimeIntegral() && GetX()>startx) {
    Double_t l2 = ( (GetX()-startx)*(GetX()-startx) +
		    (GetY()-starty)*(GetY()-starty) +
		    (GetZ()-startz)*(GetZ()-startz) );
    AddTimeStep(TMath::Sqrt(l2));
  }

  return kTRUE;
}

//____________________________________________________________________________
Bool_t AliITStrackV2::Update(const AliCluster* c, Double_t chi2, Int_t index) 
{
  //------------------------------------------------------------------
  //This function updates track parameters
  //------------------------------------------------------------------
  Double_t p[2]={c->GetY(), c->GetZ()};
  Double_t cov[3]={c->GetSigmaY2(), 0., c->GetSigmaZ2()};

  if (!AliExternalTrackParam::Update(p,cov)) return kFALSE;

  if (!Invariant()) {
     AliWarning("Wrong invariant !");
     return kFALSE;
  }

  if (chi2<0) return kTRUE;

  Int_t n=GetNumberOfClusters();
  fIndex[n]=index;
  SetNumberOfClusters(n+1);
  SetChi2(GetChi2()+chi2);

  return kTRUE;
}

Bool_t AliITStrackV2::Invariant() const {
  //------------------------------------------------------------------
  // This function is for debugging purpose only
  //------------------------------------------------------------------
  Int_t n=GetNumberOfClusters();

  Double_t sP2=GetParameter()[2];
  if (TMath::Abs(sP2) >= kAlmost1){
     if (n>fgkWARN) Warning("Invariant","fP2=%f\n",sP2);
     return kFALSE;
  }
  Double_t sC00=GetCovariance()[0];
  if (sC00<=0 || sC00>9.) {
     if (n>fgkWARN) Warning("Invariant","fC00=%f\n",sC00); 
     return kFALSE;
  }
  Double_t sC11=GetCovariance()[2];
  if (sC11<=0 || sC11>9.) {
     if (n>fgkWARN) Warning("Invariant","fC11=%f\n",sC11); 
     return kFALSE;
  }
  Double_t sC22=GetCovariance()[5];
  if (sC22<=0 || sC22>1.) {
     if (n>fgkWARN) Warning("Invariant","fC22=%f\n",sC22); 
     return kFALSE;
  }
  Double_t sC33=GetCovariance()[9];
  if (sC33<=0 || sC33>1.) {
     if (n>fgkWARN) Warning("Invariant","fC33=%f\n",sC33); 
     return kFALSE;
  }
  Double_t sC44=GetCovariance()[14];
  if (sC44<=0 /*|| sC44>6e-5*/) {
     if (n>fgkWARN) Warning("Invariant","fC44=%f\n",sC44);
     return kFALSE;
  }

  return kTRUE;
}

//____________________________________________________________________________
Bool_t AliITStrackV2::Propagate(Double_t alp,Double_t xk) {
  //------------------------------------------------------------------
  //This function propagates a track
  //------------------------------------------------------------------
  Double_t bz=GetBz();
  if (!AliExternalTrackParam::Propagate(alp,xk,bz)) return kFALSE;

  if (!Invariant()) {
     AliWarning("Wrong invariant !");
     return kFALSE;
  }

  return kTRUE;
}

Bool_t AliITStrackV2::MeanBudgetToPrimVertex(Double_t xyz[3], Double_t step, Double_t &d) const {

  //-------------------------------------------------------------------
  //  Get the mean material budget between the actual point and the
  //  primary vertex. (L.Gaudichet)
  //-------------------------------------------------------------------

  Double_t cs=TMath::Cos(GetAlpha()), sn=TMath::Sin(GetAlpha());
  Double_t vertexX = xyz[0]*cs + xyz[1]*sn;

  Int_t nstep = Int_t((GetX()-vertexX)/step);
  if (nstep<1) nstep = 1;
  step = (GetX()-vertexX)/nstep;

  //  Double_t mparam[7], densMean=0, radLength=0, length=0;
  Double_t mparam[7];
  Double_t p1[3], p2[3], x = GetX(), bz = GetBz();
  GetXYZ(p1);

  d=0.;

  for (Int_t i=0; i<nstep; i++) {
    x  += step;
    if (!GetXYZAt(x, bz, p2)) return kFALSE;
    AliTracker::MeanMaterialBudget(p1, p2, mparam);
    if (mparam[1]>900000) return kFALSE;
    d  += mparam[1];

    p1[0] = p2[0];
    p1[1] = p2[1];
    p1[2] = p2[2];
  }

  return kTRUE;
}

Bool_t AliITStrackV2::Improve(Double_t x0,Double_t xyz[3],Double_t ers[3]) {
  //------------------------------------------------------------------
  //This function improves angular track parameters
  //------------------------------------------------------------------
  Double_t cs=TMath::Cos(GetAlpha()), sn=TMath::Sin(GetAlpha());
//Double_t xv = xyz[0]*cs + xyz[1]*sn; // vertex
  Double_t yv =-xyz[0]*sn + xyz[1]*cs; // in the
  Double_t zv = xyz[2];                // local frame

  Double_t dy = Par(0) - yv, dz = Par(1) - zv;
  Double_t r2=GetX()*GetX() + dy*dy;
  Double_t p2=(1.+ GetTgl()*GetTgl())/(GetSigned1Pt()*GetSigned1Pt());
  Double_t beta2=p2/(p2 + GetMass()*GetMass());
  x0*=TMath::Sqrt((1.+ GetTgl()*GetTgl())/(1.- GetSnp()*GetSnp()));
  Double_t theta2=14.1*14.1/(beta2*p2*1e6)*x0;
  //Double_t theta2=1.0259e-6*14*14/28/(beta2*p2)*x0*9.36*2.33;

  Double_t cnv=GetBz()*kB2C;
  {
    Double_t dummy = 4/r2 - GetC()*GetC();
    if (dummy < 0) return kFALSE;
    Double_t parp = 0.5*(GetC()*GetX() + dy*TMath::Sqrt(dummy));
    Double_t sigma2p = theta2*(1.- GetSnp()*GetSnp())*(1. + GetTgl()*GetTgl());
    sigma2p += Cov(0)/r2*(1.- dy*dy/r2)*(1.- dy*dy/r2);
    sigma2p += ers[1]*ers[1]/r2;
    sigma2p += 0.25*Cov(14)*cnv*cnv*GetX()*GetX();
    Double_t eps2p=sigma2p/(Cov(5) + sigma2p);
    Par(0) += Cov(3)/(Cov(5) + sigma2p)*(parp - GetSnp());
    Par(2)  = eps2p*GetSnp() + (1 - eps2p)*parp;
    Cov(5) *= eps2p;
    Cov(3) *= eps2p;
  }
  {
    Double_t parl=0.5*GetC()*dz/TMath::ASin(0.5*GetC()*TMath::Sqrt(r2));
    Double_t sigma2l=theta2;
    sigma2l += Cov(2)/r2 + Cov(0)*dy*dy*dz*dz/(r2*r2*r2);
    sigma2l += ers[2]*ers[2]/r2;
    Double_t eps2l = sigma2l/(Cov(9) + sigma2l);
    Par(1) += Cov(7 )/(Cov(9) + sigma2l)*(parl - Par(3));
    Par(4) += Cov(13)/(Cov(9) + sigma2l)*(parl - Par(3));
    Par(3)  = eps2l*Par(3) + (1-eps2l)*parl;
    Cov(9) *= eps2l; 
    Cov(13)*= eps2l; 
    Cov(7) *= eps2l; 
  }
  if (!Invariant()) return kFALSE;

  return kTRUE;
}

void AliITStrackV2::CookdEdx(Double_t low, Double_t up) {
  //-----------------------------------------------------------------
  // This function calculates dE/dX within the "low" and "up" cuts.
  // Origin: Boris Batyunya, JINR, Boris.Batiounia@cern.ch 
  //-----------------------------------------------------------------
  // The clusters order is: SSD-2, SSD-1, SDD-2, SDD-1, SPD-2, SPD-1

  Int_t i;
  Int_t nc=0;
  for (i=0; i<GetNumberOfClusters(); i++) {
    Int_t idx=GetClusterIndex(i);
    idx=(idx&0xf0000000)>>28;
    if (idx>1) nc++; // Take only SSD and SDD
  }

  Int_t swap;//stupid sorting
  do {
    swap=0;
    for (i=0; i<nc-1; i++) {
      if (fdEdxSample[i]<=fdEdxSample[i+1]) continue;
      Float_t tmp=fdEdxSample[i];
      fdEdxSample[i]=fdEdxSample[i+1]; fdEdxSample[i+1]=tmp;
      swap++;
    }
  } while (swap);

  Int_t nl=Int_t(low*nc), nu=Int_t(up*nc); //b.b. to take two lowest dEdX
                                           // values from four ones choose
                                           // nu=2
  Float_t dedx=0;
  for (i=nl; i<nu; i++) dedx += fdEdxSample[i];
  if (nu-nl>0) dedx /= (nu-nl);

  SetdEdx(dedx);
}

Double_t AliITStrackV2::GetBz() const {
  //
  // returns Bz component of the magnetic field (kG)
  //
  if (AliTracker::UniformField()) return AliTracker::GetBz();
  Double_t r[3]; GetXYZ(r); 
  return AliTracker::GetBz(r);
}

//____________________________________________________________________________
Bool_t AliITStrackV2::
GetPhiZat(Double_t r, Double_t &phi, Double_t &z) const {
  //------------------------------------------------------------------
  // This function returns the global cylindrical (phi,z) of the track 
  // position estimated at the radius r. 
  // The track curvature is neglected.
  //------------------------------------------------------------------
  Double_t d=GetD(0.,0.);
  if (TMath::Abs(d) > r) return kFALSE; 

  Double_t rcurr=TMath::Sqrt(GetX()*GetX() + GetY()*GetY());
  if (TMath::Abs(d) > rcurr) return kFALSE; 
  Double_t phicurr=GetAlpha()+TMath::ASin(GetSnp());

  phi=phicurr+TMath::ASin(d/r)-TMath::ASin(d/rcurr);
  z=GetZ()+GetTgl()*(TMath::Sqrt(r*r-d*d) - TMath::Sqrt(rcurr*rcurr-d*d));

  return kTRUE;
}
//____________________________________________________________________________
Bool_t AliITStrackV2::
GetLocalXat(Double_t r,Double_t &xloc) const {
  //------------------------------------------------------------------
  // This function returns the local x of the track 
  // position estimated at the radius r. 
  // The track curvature is neglected.
  //------------------------------------------------------------------
  Double_t d=GetD(0.,0.);
  if (TMath::Abs(d) > r) return kFALSE; 

  Double_t rcurr=TMath::Sqrt(GetX()*GetX() + GetY()*GetY());
  Double_t phicurr=GetAlpha()+TMath::ASin(GetSnp());
  Double_t phi=phicurr+TMath::ASin(d/r)-TMath::ASin(d/rcurr);

  xloc=r*(TMath::Cos(phi)*TMath::Cos(GetAlpha())
         +TMath::Sin(phi)*TMath::Sin(GetAlpha())); 

  return kTRUE;
}
Commit	Line	Data
006b5f7f	1	/**************************************************************************
	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15
ae00569a	16	/* $Id$ */
ae00569a	17
66e811e2	18	///////////////////////////////////////////////////////////////////////////
006b5f7f	19	// Implementation of the ITS track class
	20	//
	21	// Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
a9a2d814	22	// dEdx analysis by: Boris Batyunya, JINR, Boris.Batiounia@cern.ch
66e811e2	23	///////////////////////////////////////////////////////////////////////////
006b5f7f	24	#include <TMath.h>
006b5f7f	25
006b5f7f	26	#include "AliCluster.h"
6c94f330	27	#include "AliTracker.h"
83d73500	28	#include "AliESDtrack.h"
006b5f7f	29	#include "AliITStrackV2.h"
006b5f7f	30
8602c008	31	const Int_t AliITStrackV2::fgkWARN = 5;
8602c008	32
1aedd96e	33	ClassImp(AliITStrackV2)
8676d691	34
e43c066c	35
22b13da0	36	//____________________________________________________________________________
6c94f330	37	AliITStrackV2::AliITStrackV2() : AliKalmanTrack(),
22b13da0	38	fdEdx(0),
83d73500	39	fESDtrack(0)
e43c066c	40	{
ae00569a	41	for(Int_t i=0; i<2*AliITSgeomTGeo::kNLayers; i++) {fIndex[i]=-1; fModule[i]=-1;}
ae00569a	42	for(Int_t i=0; i<4; i++) fdEdxSample[i]=0;
e43c066c	43	}
e43c066c	44
83d73500	45
83d73500	46	//____________________________________________________________________________
67c3dcbe	47	AliITStrackV2::AliITStrackV2(AliESDtrack& t,Bool_t c) throw (const Char_t *) :
6c94f330	48	AliKalmanTrack(),
	49	fdEdx(t.GetITSsignal()),
	50	fESDtrack(&t)
	51	{
83d73500	52	//------------------------------------------------------------------
67c3dcbe	53	// Conversion ESD track -> ITS track.
67c3dcbe	54	// If c==kTRUE, create the ITS track out of the constrained params.
83d73500	55	//------------------------------------------------------------------
6c94f330	56	const AliExternalTrackParam *par=&t;
6c94f330	57	if (c) {
6c4ef2ed	58	par=t.GetConstrainedParam();
6c94f330	59	if (!par) throw "AliITStrackV2: conversion failed !\n";
	60	}
	61	Set(par->GetX(),par->GetAlpha(),par->GetParameter(),par->GetCovariance());
	62
	63	//if (!Invariant()) throw "AliITStrackV2: conversion failed !\n";
	64
83d73500	65	SetLabel(t.GetLabel());
83d73500	66	SetMass(t.GetMass());
6c94f330	67	SetNumberOfClusters(t.GetITSclusters(fIndex));
006b5f7f	68
83d73500	69	if (t.GetStatus()&AliESDtrack::kTIME) {
	70	StartTimeIntegral();
	71	Double_t times[10]; t.GetIntegratedTimes(times); SetIntegratedTimes(times);
	72	SetIntegratedLength(t.GetIntegratedLength());
	73	}
e43c066c	74
68b8060b	75	for(Int_t i=0; i<4; i++) fdEdxSample[i]=0;
006b5f7f	76	}
006b5f7f	77
15dd636f	78	void AliITStrackV2::UpdateESDtrack(ULong_t flags) const {
83d73500	79	fESDtrack->UpdateTrackParams(this,flags);
ae00569a	80	// copy the module indices
	81	for(Int_t i=0;i<12;i++) {
	82	// printf(" %d\n",GetModuleIndex(i));
	83	fESDtrack->SetITSModuleIndex(i,GetModuleIndex(i));
	84	}
83d73500	85	}
83d73500	86
006b5f7f	87	//____________________________________________________________________________
6c94f330	88	AliITStrackV2::AliITStrackV2(const AliITStrackV2& t) :
	89	AliKalmanTrack(t),
	90	fdEdx(t.fdEdx),
	91	fESDtrack(t.fESDtrack)
	92	{
006b5f7f	93	//------------------------------------------------------------------
	94	//Copy constructor
	95	//------------------------------------------------------------------
ef7253ac	96	Int_t i;
ef7253ac	97	for (i=0; i<4; i++) fdEdxSample[i]=t.fdEdxSample[i];
ae00569a	98	for (i=0; i<2*AliITSgeomTGeo::GetNLayers(); i++) {
	99	fIndex[i]=t.fIndex[i];
	100	fModule[i]=t.fModule[i];
	101	}
006b5f7f	102	}
a9a2d814	103
006b5f7f	104	//_____________________________________________________________________________
	105	Int_t AliITStrackV2::Compare(const TObject *o) const {
	106	//-----------------------------------------------------------------
	107	// This function compares tracks according to the their curvature
	108	//-----------------------------------------------------------------
7f6ddf58	109	AliITStrackV2 t=(AliITStrackV2)o;
6c23ffed	110	//Double_t co=OneOverPt();
6c23ffed	111	//Double_t c =OneOverPt();
15dd636f	112	Double_t co=t->GetSigmaY2()*t->GetSigmaZ2();
15dd636f	113	Double_t c =GetSigmaY2()*GetSigmaZ2();
006b5f7f	114	if (c>co) return 1;
	115	else if (c<co) return -1;
	116	return 0;
	117	}
	118
006b5f7f	119	//____________________________________________________________________________
6c94f330	120	Bool_t
	121	AliITStrackV2::PropagateToVertex(const AliESDVertex *v,Double_t d,Double_t x0)
	122	{
006b5f7f	123	//------------------------------------------------------------------
006b5f7f	124	//This function propagates a track to the minimal distance from the origin
6c94f330	125	//------------------------------------------------------------------
6c94f330	126	Double_t bz=GetBz();
e50912db	127	if (PropagateToDCA(v,bz,kVeryBig)) {
	128	Double_t xOverX0,xTimesRho;
	129	xOverX0 = d; xTimesRho = d*x0;
	130	if (CorrectForMeanMaterial(xOverX0,xTimesRho,kTRUE)) return kTRUE;
	131	}
6c94f330	132	return kFALSE;
006b5f7f	133	}
	134
	135	//____________________________________________________________________________
6c94f330	136	Bool_t AliITStrackV2::
e50912db	137	GetGlobalXYZat(Double_t xloc, Double_t &x, Double_t &y, Double_t &z) const {
006b5f7f	138	//------------------------------------------------------------------
	139	//This function returns a track position in the global system
	140	//------------------------------------------------------------------
6c94f330	141	Double_t r[3];
e50912db	142	Bool_t rc=GetXYZAt(xloc, AliTracker::GetBz(), r);
6c94f330	143	x=r[0]; y=r[1]; z=r[2];
6c94f330	144	return rc;
006b5f7f	145	}
	146
	147	//_____________________________________________________________________________
6c94f330	148	Double_t AliITStrackV2::GetPredictedChi2(const AliCluster *c) const {
006b5f7f	149	//-----------------------------------------------------------------
	150	// This function calculates a predicted chi2 increment.
	151	//-----------------------------------------------------------------
6c94f330	152	Double_t p[2]={c->GetY(), c->GetZ()};
	153	Double_t cov[3]={c->GetSigmaY2(), 0., c->GetSigmaZ2()};
	154	return AliExternalTrackParam::GetPredictedChi2(p,cov);
a9a2d814	155	}
	156
	157	//____________________________________________________________________________
6c94f330	158	Bool_t AliITStrackV2::PropagateTo(Double_t xk, Double_t d, Double_t x0) {
006b5f7f	159	//------------------------------------------------------------------
	160	//This function propagates a track
	161	//------------------------------------------------------------------
afd25725	162
6c94f330	163	Double_t oldX=GetX(), oldY=GetY(), oldZ=GetZ();
006b5f7f	164
6c94f330	165	Double_t bz=GetBz();
6c94f330	166	if (!AliExternalTrackParam::PropagateTo(xk,bz)) return kFALSE;
e50912db	167	Double_t xOverX0,xTimesRho;
	168	xOverX0 = d; xTimesRho = d*x0;
	169	if (!CorrectForMeanMaterial(xOverX0,xTimesRho,kTRUE)) return kFALSE;
006b5f7f	170
dd44614b	171	Double_t x=GetX(), y=GetY(), z=GetZ();
6c94f330	172	if (IsStartedTimeIntegral() && x>oldX) {
6c94f330	173	Double_t l2 = (x-oldX)(x-oldX) + (y-oldY)(y-oldY) + (z-oldZ)*(z-oldZ);
f29dbb4b	174	AddTimeStep(TMath::Sqrt(l2));
f29dbb4b	175	}
f29dbb4b	176
6c94f330	177	return kTRUE;
006b5f7f	178	}
006b5f7f	179
afd25725	180	//____________________________________________________________________________
e50912db	181	Bool_t AliITStrackV2::PropagateToTGeo(Double_t xToGo, Int_t nstep, Double_t &xOverX0, Double_t &xTimesRho) {
afd25725	182	//-------------------------------------------------------------------
	183	// Propagates the track to a reference plane x=xToGo in n steps.
	184	// These n steps are only used to take into account the curvature.
	185	// The material is calculated with TGeo. (L.Gaudichet)
	186	//-------------------------------------------------------------------
	187
	188	Double_t startx = GetX(), starty = GetY(), startz = GetZ();
	189	Double_t sign = (startx<xToGo) ? -1.:1.;
	190	Double_t step = (xToGo-startx)/TMath::Abs(nstep);
	191
	192	Double_t start[3], end[3], mparam[7], bz = GetBz();
	193	Double_t x = startx;
	194
	195	for (Int_t i=0; i<nstep; i++) {
	196
	197	GetXYZ(start); //starting global position
	198	x += step;
	199	if (!GetXYZAt(x, bz, end)) return kFALSE;
	200	if (!AliExternalTrackParam::PropagateTo(x, bz)) return kFALSE;
	201	AliTracker::MeanMaterialBudget(start, end, mparam);
afd25725	202	if (mparam[1]<900000) {
e50912db	203	xTimesRho = signmparam[4]mparam[0];
e50912db	204	xOverX0 = mparam[1];
afd25725	205	if (!AliExternalTrackParam::CorrectForMeanMaterial(xOverX0,
e50912db	206	xTimesRho,GetMass())) return kFALSE;
afd25725	207	}
	208	}
	209
	210	if (IsStartedTimeIntegral() && GetX()>startx) {
	211	Double_t l2 = ( (GetX()-startx)*(GetX()-startx) +
	212	(GetY()-starty)*(GetY()-starty) +
	213	(GetZ()-startz)*(GetZ()-startz) );
	214	AddTimeStep(TMath::Sqrt(l2));
	215	}
	216
	217	return kTRUE;
	218	}
	219
006b5f7f	220	//____________________________________________________________________________
6c94f330	221	Bool_t AliITStrackV2::Update(const AliCluster* c, Double_t chi2, Int_t index)
6c94f330	222	{
006b5f7f	223	//------------------------------------------------------------------
	224	//This function updates track parameters
	225	//------------------------------------------------------------------
6c94f330	226	Double_t p[2]={c->GetY(), c->GetZ()};
6c94f330	227	Double_t cov[3]={c->GetSigmaY2(), 0., c->GetSigmaZ2()};
006b5f7f	228
6c94f330	229	if (!AliExternalTrackParam::Update(p,cov)) return kFALSE;
006b5f7f	230
006b5f7f	231	if (!Invariant()) {
6c94f330	232	AliWarning("Wrong invariant !");
6c94f330	233	return kFALSE;
006b5f7f	234	}
006b5f7f	235
6c94f330	236	if (chi2<0) return kTRUE;
67c3dcbe	237
006b5f7f	238	Int_t n=GetNumberOfClusters();
	239	fIndex[n]=index;
	240	SetNumberOfClusters(n+1);
	241	SetChi2(GetChi2()+chi2);
	242
6c94f330	243	return kTRUE;
006b5f7f	244	}
006b5f7f	245
6c94f330	246	Bool_t AliITStrackV2::Invariant() const {
006b5f7f	247	//------------------------------------------------------------------
	248	// This function is for debugging purpose only
	249	//------------------------------------------------------------------
7f6ddf58	250	Int_t n=GetNumberOfClusters();
6c94f330	251
	252	Double_t sP2=GetParameter()[2];
	253	if (TMath::Abs(sP2) >= kAlmost1){
8602c008	254	if (n>fgkWARN) Warning("Invariant","fP2=%f\n",sP2);
6c94f330	255	return kFALSE;
a9a2d814	256	}
6c94f330	257	Double_t sC00=GetCovariance()[0];
6c94f330	258	if (sC00<=0 \|\| sC00>9.) {
8602c008	259	if (n>fgkWARN) Warning("Invariant","fC00=%f\n",sC00);
6c94f330	260	return kFALSE;
a9a2d814	261	}
6c94f330	262	Double_t sC11=GetCovariance()[2];
6c94f330	263	if (sC11<=0 \|\| sC11>9.) {
8602c008	264	if (n>fgkWARN) Warning("Invariant","fC11=%f\n",sC11);
6c94f330	265	return kFALSE;
a9a2d814	266	}
6c94f330	267	Double_t sC22=GetCovariance()[5];
6c94f330	268	if (sC22<=0 \|\| sC22>1.) {
8602c008	269	if (n>fgkWARN) Warning("Invariant","fC22=%f\n",sC22);
6c94f330	270	return kFALSE;
a9a2d814	271	}
6c94f330	272	Double_t sC33=GetCovariance()[9];
6c94f330	273	if (sC33<=0 \|\| sC33>1.) {
8602c008	274	if (n>fgkWARN) Warning("Invariant","fC33=%f\n",sC33);
6c94f330	275	return kFALSE;
a9a2d814	276	}
6c94f330	277	Double_t sC44=GetCovariance()[14];
6c94f330	278	if (sC44<=0 /\|\| sC44>6e-5/) {
8602c008	279	if (n>fgkWARN) Warning("Invariant","fC44=%f\n",sC44);
6c94f330	280	return kFALSE;
14825d5a	281	}
6c94f330	282
6c94f330	283	return kTRUE;
006b5f7f	284	}
	285
	286	//____________________________________________________________________________
6c94f330	287	Bool_t AliITStrackV2::Propagate(Double_t alp,Double_t xk) {
006b5f7f	288	//------------------------------------------------------------------
	289	//This function propagates a track
	290	//------------------------------------------------------------------
6c94f330	291	Double_t bz=GetBz();
6c94f330	292	if (!AliExternalTrackParam::Propagate(alp,xk,bz)) return kFALSE;
006b5f7f	293
006b5f7f	294	if (!Invariant()) {
6c94f330	295	AliWarning("Wrong invariant !");
6c94f330	296	return kFALSE;
791f9a2a	297	}
791f9a2a	298
6c94f330	299	return kTRUE;
a9a2d814	300	}
006b5f7f	301
afd25725	302	Bool_t AliITStrackV2::MeanBudgetToPrimVertex(Double_t xyz[3], Double_t step, Double_t &d) const {
	303
	304	//-------------------------------------------------------------------
	305	// Get the mean material budget between the actual point and the
	306	// primary vertex. (L.Gaudichet)
	307	//-------------------------------------------------------------------
	308
	309	Double_t cs=TMath::Cos(GetAlpha()), sn=TMath::Sin(GetAlpha());
	310	Double_t vertexX = xyz[0]cs + xyz[1]sn;
	311
	312	Int_t nstep = Int_t((GetX()-vertexX)/step);
	313	if (nstep<1) nstep = 1;
	314	step = (GetX()-vertexX)/nstep;
	315
c7719399	316	// Double_t mparam[7], densMean=0, radLength=0, length=0;
c7719399	317	Double_t mparam[7];
afd25725	318	Double_t p1[3], p2[3], x = GetX(), bz = GetBz();
	319	GetXYZ(p1);
	320
	321	d=0.;
	322
	323	for (Int_t i=0; i<nstep; i++) {
	324	x += step;
	325	if (!GetXYZAt(x, bz, p2)) return kFALSE;
	326	AliTracker::MeanMaterialBudget(p1, p2, mparam);
	327	if (mparam[1]>900000) return kFALSE;
	328	d += mparam[1];
	329
	330	p1[0] = p2[0];
	331	p1[1] = p2[1];
	332	p1[2] = p2[2];
	333	}
	334
	335	return kTRUE;
	336	}
	337
6c94f330	338	Bool_t AliITStrackV2::Improve(Double_t x0,Double_t xyz[3],Double_t ers[3]) {
babd135a	339	//------------------------------------------------------------------
6c94f330	340	//This function improves angular track parameters
babd135a	341	//------------------------------------------------------------------
6c94f330	342	Double_t cs=TMath::Cos(GetAlpha()), sn=TMath::Sin(GetAlpha());
	343	//Double_t xv = xyz[0]cs + xyz[1]sn; // vertex
	344	Double_t yv =-xyz[0]sn + xyz[1]cs; // in the
	345	Double_t zv = xyz[2]; // local frame
babd135a	346
6c94f330	347	Double_t dy = Par(0) - yv, dz = Par(1) - zv;
6c94f330	348	Double_t r2=GetX()GetX() + dydy;
6c23ffed	349	Double_t p2=(1.+ GetTgl()GetTgl())/(GetSigned1Pt()GetSigned1Pt());
a9a2d814	350	Double_t beta2=p2/(p2 + GetMass()*GetMass());
a9a2d814	351	x0=TMath::Sqrt((1.+ GetTgl()GetTgl())/(1.- GetSnp()*GetSnp()));
8676d691	352	Double_t theta2=14.114.1/(beta2p21e6)x0;
8676d691	353	//Double_t theta2=1.0259e-61414/28/(beta2p2)x09.362.33;
6c94f330	354
6c94f330	355	Double_t cnv=GetBz()*kB2C;
a9a2d814	356	{
6c94f330	357	Double_t dummy = 4/r2 - GetC()*GetC();
	358	if (dummy < 0) return kFALSE;
	359	Double_t parp = 0.5(GetC()GetX() + dy*TMath::Sqrt(dummy));
	360	Double_t sigma2p = theta2(1.- GetSnp()GetSnp())(1. + GetTgl()GetTgl());
	361	sigma2p += Cov(0)/r2(1.- dydy/r2)(1.- dydy/r2);
	362	sigma2p += ers[1]*ers[1]/r2;
	363	sigma2p += 0.25Cov(14)cnvcnvGetX()*GetX();
00709873	364	Double_t eps2p=sigma2p/(Cov(5) + sigma2p);
6c94f330	365	Par(0) += Cov(3)/(Cov(5) + sigma2p)*(parp - GetSnp());
	366	Par(2) = eps2pGetSnp() + (1 - eps2p)parp;
	367	Cov(5) *= eps2p;
	368	Cov(3) *= eps2p;
a9a2d814	369	}
a9a2d814	370	{
6c94f330	371	Double_t parl=0.5GetC()dz/TMath::ASin(0.5GetC()TMath::Sqrt(r2));
	372	Double_t sigma2l=theta2;
	373	sigma2l += Cov(2)/r2 + Cov(0)dydydzdz/(r2r2r2);
	374	sigma2l += ers[2]*ers[2]/r2;
	375	Double_t eps2l = sigma2l/(Cov(9) + sigma2l);
	376	Par(1) += Cov(7 )/(Cov(9) + sigma2l)*(parl - Par(3));
	377	Par(4) += Cov(13)/(Cov(9) + sigma2l)*(parl - Par(3));
	378	Par(3) = eps2lPar(3) + (1-eps2l)parl;
	379	Cov(9) *= eps2l;
00709873	380	Cov(13)*= eps2l;
6c94f330	381	Cov(7) *= eps2l;
a9a2d814	382	}
6c94f330	383	if (!Invariant()) return kFALSE;
14825d5a	384
6c94f330	385	return kTRUE;
14825d5a	386	}
23efe5f1	387
	388	void AliITStrackV2::CookdEdx(Double_t low, Double_t up) {
	389	//-----------------------------------------------------------------
a9a2d814	390	// This function calculates dE/dX within the "low" and "up" cuts.
a9a2d814	391	// Origin: Boris Batyunya, JINR, Boris.Batiounia@cern.ch
23efe5f1	392	//-----------------------------------------------------------------
23efe5f1	393	// The clusters order is: SSD-2, SSD-1, SDD-2, SDD-1, SPD-2, SPD-1
c0dd5278	394
	395	Int_t i;
	396	Int_t nc=0;
	397	for (i=0; i<GetNumberOfClusters(); i++) {
	398	Int_t idx=GetClusterIndex(i);
	399	idx=(idx&0xf0000000)>>28;
	400	if (idx>1) nc++; // Take only SSD and SDD
	401	}
23efe5f1	402
a9a2d814	403	Int_t swap;//stupid sorting
23efe5f1	404	do {
	405	swap=0;
	406	for (i=0; i<nc-1; i++) {
	407	if (fdEdxSample[i]<=fdEdxSample[i+1]) continue;
	408	Float_t tmp=fdEdxSample[i];
	409	fdEdxSample[i]=fdEdxSample[i+1]; fdEdxSample[i+1]=tmp;
	410	swap++;
	411	}
	412	} while (swap);
	413
a9a2d814	414	Int_t nl=Int_t(lownc), nu=Int_t(upnc); //b.b. to take two lowest dEdX
	415	// values from four ones choose
	416	// nu=2
23efe5f1	417	Float_t dedx=0;
a9a2d814	418	for (i=nl; i<nu; i++) dedx += fdEdxSample[i];
c0dd5278	419	if (nu-nl>0) dedx /= (nu-nl);
23efe5f1	420
23efe5f1	421	SetdEdx(dedx);
23efe5f1	422	}
c7bafca9	423
6c94f330	424	Double_t AliITStrackV2::GetBz() const {
	425	//
	426	// returns Bz component of the magnetic field (kG)
	427	//
	428	if (AliTracker::UniformField()) return AliTracker::GetBz();
	429	Double_t r[3]; GetXYZ(r);
	430	return AliTracker::GetBz(r);
5773defd	431	}
6c94f330	432
8602c008	433	//____________________________________________________________________________
8602c008	434	Bool_t AliITStrackV2::
e50912db	435	GetPhiZat(Double_t r, Double_t &phi, Double_t &z) const {
	436	//------------------------------------------------------------------
	437	// This function returns the global cylindrical (phi,z) of the track
	438	// position estimated at the radius r.
	439	// The track curvature is neglected.
	440	//------------------------------------------------------------------
	441	Double_t d=GetD(0.,0.);
	442	if (TMath::Abs(d) > r) return kFALSE;
	443
	444	Double_t rcurr=TMath::Sqrt(GetX()GetX() + GetY()GetY());
	445	if (TMath::Abs(d) > rcurr) return kFALSE;
	446	Double_t phicurr=GetAlpha()+TMath::ASin(GetSnp());
	447
	448	phi=phicurr+TMath::ASin(d/r)-TMath::ASin(d/rcurr);
	449	z=GetZ()+GetTgl()(TMath::Sqrt(rr-dd) - TMath::Sqrt(rcurrrcurr-d*d));
	450
	451	return kTRUE;
	452	}
	453	//____________________________________________________________________________
	454	Bool_t AliITStrackV2::
	455	GetLocalXat(Double_t r,Double_t &xloc) const {
8602c008	456	//------------------------------------------------------------------
e50912db	457	// This function returns the local x of the track
e50912db	458	// position estimated at the radius r.
8602c008	459	// The track curvature is neglected.
	460	//------------------------------------------------------------------
	461	Double_t d=GetD(0.,0.);
e50912db	462	if (TMath::Abs(d) > r) return kFALSE;
8602c008	463
e50912db	464	Double_t rcurr=TMath::Sqrt(GetX()GetX() + GetY()GetY());
	465	Double_t phicurr=GetAlpha()+TMath::ASin(GetSnp());
	466	Double_t phi=phicurr+TMath::ASin(d/r)-TMath::ASin(d/rcurr);
8602c008	467
e50912db	468	xloc=r(TMath::Cos(phi)TMath::Cos(GetAlpha())
e50912db	469	+TMath::Sin(phi)*TMath::Sin(GetAlpha()));
8602c008	470
	471	return kTRUE;
	472	}
	473