// that is the base for AliTPCtrack, AliITStrackV2 and AliTRDtrack
// Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
//-------------------------------------------------------------------------
+#include <TGeoManager.h>
#include "AliKalmanTrack.h"
-#include "AliPDG.h"
-#include "TPDGCode.h"
-#include "TDatabasePDG.h"
ClassImp(AliKalmanTrack)
-Double_t AliKalmanTrack::fgConvConst;
-
//_______________________________________________________________________
-AliKalmanTrack::AliKalmanTrack():
- fLab(-3141593),
+ AliKalmanTrack::AliKalmanTrack():AliExternalTrackParam(),
+ fFakeRatio(0),
fChi2(0),
- fMass(0.13957),
- fN(0)
+ fMass(AliPID::ParticleMass(AliPID::kPion)),
+ fLab(-3141593),
+ fN(0),
+ fStartTimeIntegral(kFALSE),
+ fIntegratedLength(0)
{
//
// Default constructor
//
- if (fgConvConst==0)
- Fatal("AliKalmanTrack()","The magnetic field has not been set !\n");
-
- fStartTimeIntegral = kFALSE;
- fIntegratedLength = 0;
- for(Int_t i=0; i<5; i++) fIntegratedTime[i] = 0;
+
+ for(Int_t i=0; i<AliPID::kSPECIES; i++) fIntegratedTime[i] = 0;
}
-//_______________________________________________________________________
AliKalmanTrack::AliKalmanTrack(const AliKalmanTrack &t):
- TObject(t),
- fLab(t.fLab),
+ AliExternalTrackParam(t),
+ fFakeRatio(t.fFakeRatio),
fChi2(t.fChi2),
fMass(t.fMass),
- fN(t.fN)
+ fLab(t.fLab),
+ fN(t.fN),
+ fStartTimeIntegral(t.fStartTimeIntegral),
+ fIntegratedLength(t.fIntegratedLength)
{
//
// Copy constructor
//
- if (fgConvConst==0)
- Fatal("AliKalmanTrack(const AliKalmanTrack&)",
- "The magnetic field has not been set !\n");
-
- fStartTimeIntegral = t.fStartTimeIntegral;
- fIntegratedLength = t.fIntegratedLength;
- for (Int_t i=0; i<5; i++)
- fIntegratedTime[i] = t.fIntegratedTime[i];
-}
-
-//_______________________________________________________________________
-Double_t AliKalmanTrack::GetX() const
-{
- Warning("GetX()","Method must be overloaded !\n");
- return 0.;
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::GetdEdx() const
-{
- Warning("GetdEdx()","Method must be overloaded !\n");
- return 0.;
-}
-
-//_______________________________________________________________________
-Double_t AliKalmanTrack::GetY() const
-{
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- return par[0];
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::GetZ() const
-{
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- return par[1];
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::GetSnp() const
-{
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- return par[2];
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::GetTgl() const
-{
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- return par[3];
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::Get1Pt() const
-{
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- return par[4];
-}
-
-//_______________________________________________________________________
-Double_t AliKalmanTrack::Phi() const
-{
-// return global phi of track
-
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- Double_t phi = TMath::ASin(par[2]) + GetAlpha();
- while (phi < 0) phi += TMath::TwoPi();
- while (phi > TMath::TwoPi()) phi -= TMath::TwoPi();
- return phi;
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::SigmaPhi() const
-{
-// return error of global phi of track
-
- Double_t par[5];
- Double_t cov[15];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- GetExternalCovariance(cov);
- return TMath::Sqrt(TMath::Abs(cov[5] / (1. - par[2]*par[2])));
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::Theta() const
-{
-// return global theta of track
-
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- return TMath::Pi()/2. - TMath::ATan(par[3]);
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::SigmaTheta() const
-{
-// return error of global theta of track
-
- Double_t par[5];
- Double_t cov[15];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- GetExternalCovariance(cov);
- return TMath::Sqrt(TMath::Abs(cov[5])) / (1. + par[3]*par[3]);
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::Px() const
-{
-// return x component of track momentum
-
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- Double_t phi = TMath::ASin(par[2]) + GetAlpha();
- return TMath::Cos(phi) / TMath::Abs(par[4]);
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::Py() const
-{
-// return y component of track momentum
-
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- Double_t phi = TMath::ASin(par[2]) + GetAlpha();
- return TMath::Sin(phi) / TMath::Abs(par[4]);
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::Pz() const
-{
-// return z component of track momentum
-
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- return par[3] / TMath::Abs(par[4]);
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::Pt() const
-{
-// return transverse component of track momentum
-
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- return 1. / TMath::Abs(par[4]);
-}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::SigmaPt() const
-{
-// return error of transverse component of track momentum
-
- Double_t par[5];
- Double_t cov[15];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- GetExternalCovariance(cov);
- return TMath::Sqrt(cov[14]) / TMath::Abs(par[4]);
+ for (Int_t i=0; i<AliPID::kSPECIES; i++)
+ fIntegratedTime[i] = t.fIntegratedTime[i];
+}
+
+AliKalmanTrack& AliKalmanTrack::operator=(const AliKalmanTrack&o){
+ if(this!=&o){
+ AliExternalTrackParam::operator=(o);
+ fLab = o.fLab;
+ fFakeRatio = o.fFakeRatio;
+ fChi2 = o.fChi2;
+ fMass = o.fMass;
+ fN = o.fN;
+ fStartTimeIntegral = o.fStartTimeIntegral;
+ for(Int_t i = 0;i<AliPID::kSPECIES;++i)fIntegratedTime[i] = o.fIntegratedTime[i];
+ fIntegratedLength = o.fIntegratedLength;
+ }
+ return *this;
}
-//_______________________________________________________________________
-Double_t AliKalmanTrack::P() const
-{
-// return total track momentum
- Double_t par[5];
- Double_t localX = GetX();
- GetExternalParameters(localX, par);
- return 1. / TMath::Abs(par[4] * TMath::Sin(TMath::ATan(par[3])));
-}
//_______________________________________________________________________
void AliKalmanTrack::StartTimeIntegral()
{
//
//if (fStartTimeIntegral)
- // Warning("StartTimeIntegral", "Reseting Recorded Time.");
+ // AliWarning("Reseting Recorded Time.");
fStartTimeIntegral = kTRUE;
- for(Int_t i=0; i<fgkTypes; i++) fIntegratedTime[i] = 0;
+ for(Int_t i=0; i<AliPID::kSPECIES; i++) fIntegratedTime[i] = 0;
fIntegratedLength = 0;
}
+
//_______________________________________________________________________
void AliKalmanTrack:: AddTimeStep(Double_t length)
{
fIntegratedLength += length;
- static Int_t pdgCode[fgkTypes] = {kElectron, kMuonMinus, kPiPlus, kKPlus, kProton};
- TDatabasePDG *db = TDatabasePDG::Instance();
-
Double_t xr, param[5];
Double_t pt, tgl;
if (length > 100) return;
- for (Int_t i=0; i<fgkTypes; i++) {
+ for (Int_t i=0; i<AliPID::kSPECIES; i++) {
- Double_t mass = db->GetParticle(pdgCode[i])->Mass();
+ Double_t mass = AliPID::ParticleMass(i);
Double_t correction = TMath::Sqrt( pt*pt * (1 + tgl*tgl) + mass * mass ) / p;
Double_t time = length * correction / kcc;
- //cout << mass << "\t" << pt << "\t" << p << "\t"
- // << correction << endl;
-
fIntegratedTime[i] += time;
}
}
//_______________________________________________________________________
-
Double_t AliKalmanTrack::GetIntegratedTime(Int_t pdg) const
{
// Sylwester Radomski, GSI
if (!fStartTimeIntegral) {
- Warning("GetIntegratedTime","Time integration not started");
+ AliWarning("Time integration not started");
return 0.;
}
- static Int_t pdgCode[fgkTypes] = {kElectron, kMuonMinus, kPiPlus, kKPlus, kProton};
-
- for (Int_t i=0; i<fgkTypes; i++)
- if (pdgCode[i] == TMath::Abs(pdg)) return fIntegratedTime[i];
+ for (Int_t i=0; i<AliPID::kSPECIES; i++)
+ if (AliPID::ParticleCode(i) == TMath::Abs(pdg)) return fIntegratedTime[i];
- Warning(":GetIntegratedTime","Particle type [%d] not found", pdg);
+ AliWarning(Form("Particle type [%d] not found", pdg));
return 0;
}
void AliKalmanTrack::GetIntegratedTimes(Double_t *times) const {
- for (Int_t i=0; i<fgkTypes; i++) times[i]=fIntegratedTime[i];
+ for (Int_t i=0; i<AliPID::kSPECIES; i++) times[i]=fIntegratedTime[i];
}
void AliKalmanTrack::SetIntegratedTimes(const Double_t *times) {
- for (Int_t i=0; i<fgkTypes; i++) fIntegratedTime[i]=times[i];
+ for (Int_t i=0; i<AliPID::kSPECIES; i++) fIntegratedTime[i]=times[i];
}
-//_______________________________________________________________________
-
-void AliKalmanTrack::PrintTime() const
-{
- // Sylwester Radomski, GSI
- // S.Radomski@gsi.de
- //
- // For testing
- // Prints time for all hypothesis
- //
-
- static Int_t pdgCode[fgkTypes] = {kElectron, kMuonMinus, kPiPlus, kKPlus, kProton};
-
- for (Int_t i=0; i<fgkTypes; i++)
- printf("%d: %.2f ", pdgCode[i], fIntegratedTime[i]);
- printf("\n");
-}
-
-static void External2Helix(const AliKalmanTrack *t, Double_t helix[6]) {
- //--------------------------------------------------------------------
- // External track parameters -> helix parameters
- //--------------------------------------------------------------------
- Double_t alpha,x,cs,sn;
- t->GetExternalParameters(x,helix); alpha=t->GetAlpha();
-
- cs=TMath::Cos(alpha); sn=TMath::Sin(alpha);
- helix[5]=x*cs - helix[0]*sn; // x0
- helix[0]=x*sn + helix[0]*cs; // y0
-//helix[1]= // z0
- helix[2]=TMath::ASin(helix[2]) + alpha; // phi0
-//helix[3]= // tgl
- helix[4]=helix[4]/t->GetConvConst(); // C
-}
-
-static void Evaluate(const Double_t *h, Double_t t,
- Double_t r[3], //radius vector
- Double_t g[3], //first defivatives
- Double_t gg[3]) //second derivatives
-{
- //--------------------------------------------------------------------
- // Calculate position of a point on a track and some derivatives
- //--------------------------------------------------------------------
- Double_t phase=h[4]*t+h[2];
- Double_t sn=TMath::Sin(phase), cs=TMath::Cos(phase);
-
- r[0] = h[5] + (sn - h[6])/h[4];
- r[1] = h[0] - (cs - h[7])/h[4];
- r[2] = h[1] + h[3]*t;
-
- g[0] = cs; g[1]=sn; g[2]=h[3];
-
- gg[0]=-h[4]*sn; gg[1]=h[4]*cs; gg[2]=0.;
-}
-
-Double_t AliKalmanTrack::
-GetDCA(const AliKalmanTrack *p, Double_t &xthis, Double_t &xp) const {
- //------------------------------------------------------------
- // Returns the (weighed !) distance of closest approach between
- // this track and the track passed as the argument.
- // Other returned values:
- // xthis, xt - coordinates of tracks' reference planes at the DCA
- //-----------------------------------------------------------
- Double_t dy2=GetSigmaY2() + p->GetSigmaY2();
- Double_t dz2=GetSigmaZ2() + p->GetSigmaZ2();
- Double_t dx2=dy2;
-
- //dx2=dy2=dz2=1.;
-
- Double_t p1[8]; External2Helix(this,p1);
- p1[6]=TMath::Sin(p1[2]); p1[7]=TMath::Cos(p1[2]);
- Double_t p2[8]; External2Helix(p,p2);
- p2[6]=TMath::Sin(p2[2]); p2[7]=TMath::Cos(p2[2]);
-
-
- Double_t r1[3],g1[3],gg1[3]; Double_t t1=0.;
- Evaluate(p1,t1,r1,g1,gg1);
- Double_t r2[3],g2[3],gg2[3]; Double_t t2=0.;
- Evaluate(p2,t2,r2,g2,gg2);
-
- Double_t dx=r2[0]-r1[0], dy=r2[1]-r1[1], dz=r2[2]-r1[2];
- Double_t dm=dx*dx/dx2 + dy*dy/dy2 + dz*dz/dz2;
-
- Int_t max=27;
- while (max--) {
- Double_t gt1=-(dx*g1[0]/dx2 + dy*g1[1]/dy2 + dz*g1[2]/dz2);
- Double_t gt2=+(dx*g2[0]/dx2 + dy*g2[1]/dy2 + dz*g2[2]/dz2);
- Double_t h11=(g1[0]*g1[0] - dx*gg1[0])/dx2 +
- (g1[1]*g1[1] - dy*gg1[1])/dy2 +
- (g1[2]*g1[2] - dz*gg1[2])/dz2;
- Double_t h22=(g2[0]*g2[0] + dx*gg2[0])/dx2 +
- (g2[1]*g2[1] + dy*gg2[1])/dy2 +
- (g2[2]*g2[2] + dz*gg2[2])/dz2;
- Double_t h12=-(g1[0]*g2[0]/dx2 + g1[1]*g2[1]/dy2 + g1[2]*g2[2]/dz2);
-
- Double_t det=h11*h22-h12*h12;
-
- Double_t dt1,dt2;
- if (TMath::Abs(det)<1.e-33) {
- //(quasi)singular Hessian
- dt1=-gt1; dt2=-gt2;
- } else {
- dt1=-(gt1*h22 - gt2*h12)/det;
- dt2=-(h11*gt2 - h12*gt1)/det;
- }
-
- if ((dt1*gt1+dt2*gt2)>0) {dt1=-dt1; dt2=-dt2;}
-
- //check delta(phase1) ?
- //check delta(phase2) ?
-
- if (TMath::Abs(dt1)/(TMath::Abs(t1)+1.e-3) < 1.e-4)
- if (TMath::Abs(dt2)/(TMath::Abs(t2)+1.e-3) < 1.e-4) {
- if ((gt1*gt1+gt2*gt2) > 1.e-4/dy2/dy2)
- Warning("GetDCA"," stopped at not a stationary point !\n");
- Double_t lmb=h11+h22; lmb=lmb-TMath::Sqrt(lmb*lmb-4*det);
- if (lmb < 0.)
- Warning("GetDCA"," stopped at not a minimum !\n");
- break;
- }
-
- Double_t dd=dm;
- for (Int_t div=1 ; ; div*=2) {
- Evaluate(p1,t1+dt1,r1,g1,gg1);
- Evaluate(p2,t2+dt2,r2,g2,gg2);
- dx=r2[0]-r1[0]; dy=r2[1]-r1[1]; dz=r2[2]-r1[2];
- dd=dx*dx/dx2 + dy*dy/dy2 + dz*dz/dz2;
- if (dd<dm) break;
- dt1*=0.5; dt2*=0.5;
- if (div>512) {
- Warning("GetDCA"," overshoot !\n"); break;
- }
- }
- dm=dd;
-
- t1+=dt1;
- t2+=dt2;
-
- }
-
- if (max<=0) Warning("GetDCA"," too many iterations !\n");
-
- Double_t cs=TMath::Cos(GetAlpha());
- Double_t sn=TMath::Sin(GetAlpha());
- xthis=r1[0]*cs + r1[1]*sn;
-
- cs=TMath::Cos(p->GetAlpha());
- sn=TMath::Sin(p->GetAlpha());
- xp=r2[0]*cs + r2[1]*sn;
-
- return TMath::Sqrt(dm*TMath::Sqrt(dy2*dz2));
-}
-
-Double_t AliKalmanTrack::
-PropagateToDCA(AliKalmanTrack *p, Double_t d, Double_t x0) {
- //--------------------------------------------------------------
- // Propagates this track and the argument track to the position of the
- // distance of closest approach.
- // Returns the (weighed !) distance of closest approach.
- //--------------------------------------------------------------
- Double_t xthis,xp;
- Double_t dca=GetDCA(p,xthis,xp);
-
- if (!PropagateTo(xthis,d,x0)) {
- //Warning("PropagateToDCA"," propagation failed !\n");
- return 1e+33;
- }
-
- if (!p->PropagateTo(xp,d,x0)) {
- //Warning("PropagateToDCA"," propagation failed !\n";
- return 1e+33;
- }
-
- return dca;
-}