/************************************************************************** * 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. * **************************************************************************/ // $Id$ /////////////////////////////////////////////////////////////////////////// // Class AliVertex // Creation and investigation of an AliVertex. // An AliVertex can be constructed by adding AliTracks and/or AliJets. // // Note : Also (secondary) vertices can be added to a vertex. // // To provide maximal flexibility to the user, two modes of vertex storage // are provided by means of the memberfunction SetVertexCopy(). // The same holds for the storage of jets via SetJetCopy(). // // a) SetVertexCopy(0) (which is the default). // Only the pointers of the 'added' vertices are stored. // This mode is typically used by making vertex studies based on a fixed list // of vertices which stays under user control or is contained for instance // in an AliEvent. // In this way the AliVertex just represents a 'logical structure' for the // physics analysis which can be embedded in e.g. an AliEvent or AliVertex. // // Note : // Modifications made to the original vertices also affect the AliVertex objects // which are stored. // // b) SetVertexCopy(1). // Of every 'added' vertex a private copy will be made of which the pointer // will be stored. // In this way the AliVertex represents an entity on its own and modifications // made to the original vertices do not affect the AliVertex objects which are // stored. // This mode will allow 'adding' many different AliVertex objects by // creating only one AliVertex instance in the main programme and using the // AliVertex::Reset, AliVertex::AddTrack and parameter setting memberfunctions. // // See also the documentation provided for the memberfunction SetOwner(). // // Coding example to make 3 vertices v1, v2 and v3. // ------------------------------------------------ // v1 contains the tracks 1,2,3 and 4 // v2 contains many different tracks // v3 contains the jets 1 and 2 // // AliTrack t1,t2,t3,t4; // ... // ... // code to fill the track data // ... // // AliJet j1,j2; // ... // ... // code to fill the jet data // ... // // AliVertex v1; // v1.SetVertexCopy(1); // // v1.AddTrack(t1); // v1.AddTrack(t2); // v1.AddTrack(t3); // v1.AddTrack(t4); // // Float_t r1[3]={2.4,0.1,-8.5}; // v1.SetPosition(r1,"car"); // // AliVertex v2; // v2.SetTrackCopy(1); // // AliTrack* tx=new AliTrack(); // for (Int_t i=0; i<10; i++) // { // ... // ... // code to fill the track data // ... // v2.AddTrack(tx); // tx->Reset(); // } // // Float_t r2[3]={1.6,-3.2,5.7}; // v2.SetPosition(r2,"car"); // // AliVertex v3; // // v3.AddJet(j1); // v3.AddJet(j2); // // Float_t r3[3]={6.2,4.8,1.3}; // v3.SetPosition(r3,"car"); // // v1.Data("sph"); // v2.ListAll(); // v3.List("cyl"); // // Float_t e1=v1.GetEnergy(); // Ali3Vector p1=v1.Get3Momentum(); // Float_t loc[3]; // v1.GetPosition(loc,"sph"); // AliPosition r=v2.GetPosition(); // r.Data(); // Int_t nt=v2.GetNtracks(); // AliTrack* tv=v2.GetTrack(1); // Access track number 1 of Vertex v2 // // Specify the vertices v2 and v3 as secondary vertices of v1 // // v1.AddVertex(v2); // v1.AddVertex(v3); // // v1.List(); // // Int_t nv=v1.GetNvtx(); // AliVertex* vx=v1.GetVertex(1); // Access 1st secondary vertex of v1 // Float_t e=vx->GetEnergy(); // // Float_t M=v1.GetInvmass(); // // Reconstruct Vertex v1 from scratch // // v1.Reset(); // v1.SetNvmax(25); // Increase initial no. of sec. vertices // v1.AddTrack(t3); // v1.AddTrack(t4); // v1.AddJet(j2); // Float_t pos[3]={7,9,4}; // v1.SetPosition(pos,"car"); // // Note : All quantities are in GeV, GeV/c or GeV/c**2 // //--- Author: Nick van Eijndhoven 04-apr-1998 UU-SAP Utrecht //- Modified: NvE $Date$ UU-SAP Utrecht /////////////////////////////////////////////////////////////////////////// #include "AliVertex.h" #include "Riostream.h" ClassImp(AliVertex) // Class implementation to enable ROOT I/O AliVertex::AliVertex() : AliJet(),AliPosition() { // Default constructor. // All variables initialised to 0. // Initial maximum number of tracks is set to the default value. // Initial maximum number of sec. vertices is set to the default value. Init(); Reset(); SetNvmax(); SetNjmax(); } /////////////////////////////////////////////////////////////////////////// void AliVertex::Init() { // Initialisation of pointers etc... fNvmax=0; fVertices=0; fConnects=0; fVertexCopy=0; fNjmax=0; fJets=0; fJetTracks=0; fJetCopy=0; fLines=0; } /////////////////////////////////////////////////////////////////////////// AliVertex::AliVertex(Int_t n) : AliJet(n),AliPosition() { // Create a vertex to hold initially a maximum of n tracks // All variables initialised to 0 if (n<=0) { cout << " *** This AliJet initialisation was invoked via the AliVertex ctor." << endl; } Init(); Reset(); SetNvmax(); SetNjmax(); } /////////////////////////////////////////////////////////////////////////// AliVertex::~AliVertex() { // Default destructor if (fVertices) { delete fVertices; fVertices=0; } if (fConnects) { delete fConnects; fConnects=0; } if (fJets) { delete fJets; fJets=0; } if (fJetTracks) { delete fJetTracks; fJetTracks=0; } if (fLines) { delete fLines; fLines=0; } } /////////////////////////////////////////////////////////////////////////// void AliVertex::SetOwner(Bool_t own) { // Set ownership of all added objects. // The default parameter is own=kTRUE. // // Invokation of this memberfunction also sets all the copy modes // (e.g. TrackCopy & co.) according to the value of own. // // This function (with own=kTRUE) is particularly useful when reading data // from a tree/file, since Reset() will then actually remove all the // added objects from memory irrespective of the copy mode settings // during the tree/file creation process. In this way it provides a nice way // of preventing possible memory leaks in the reading/analysis process. // // In addition this memberfunction can also be used as a shortcut to set all // copy modes in one go during a tree/file creation process. // However, in this case the user has to take care to only set/change the // ownership (and copy mode) for empty objects (e.g. newly created objects // or after invokation of the Reset() memberfunction) otherwise it will // very likely result in inconsistent destructor behaviour. Int_t mode=1; if (!own) mode=0; if (fVertices) fVertices->SetOwner(own); fVertexCopy=mode; if (fJets) fJets->SetOwner(own); fJetCopy=mode; AliJet::SetOwner(own); } /////////////////////////////////////////////////////////////////////////// AliVertex::AliVertex(const AliVertex& v) : AliJet(v.fNtinit),AliPosition(v) { // Copy constructor Init(); fNvtx=0; fNjets=0; SetNvmax(v.fNvmax); SetNjmax(v.fNjmax); SetTrackCopy(v.GetTrackCopy()); SetVertexCopy(v.GetVertexCopy()); SetJetCopy(v.GetJetCopy()); SetId(v.GetId()); // Copy all tracks except the ones coming from jets AliTrack* tx=0; Int_t jetflag=0,connect=0; AliTrack* tx2=0; for (Int_t it=1; it<=v.fNtrk; it++) { tx=v.GetTrack(it); if (tx) { jetflag=v.IsJetTrack(tx); connect=v.IsConnectTrack(tx); if (!jetflag && !connect) AddTrack(tx); if (connect) { if (!fConnects) { fConnects=new TObjArray(fNvmax); if (!fTrackCopy) fConnects->SetOwner(); } tx2=new AliTrack(*tx); fConnects->Add(tx2); AddTrack(tx2,0); } } } // Copy all the (secondary) vertices without re-creating connecting tracks // The connecting tracks have already been copied above AliVertex* vx=0; for (Int_t iv=1; iv<=v.GetNvertices(); iv++) { vx=v.GetVertex(iv); if (vx) AddVertex(vx,0); } // Copy all the jets including the jet tracks for these jets for which // this was also the case in the original vertex AliJet* jx=0; for (Int_t ij=1; ij<=v.GetNjets(); ij++) { jx=v.GetJet(ij); if (jx) { jetflag=0; if (jx->GetNtracks()) { tx=jx->GetTrack(1); if (tx) { jetflag=v.IsJetTrack(tx); } } AddJet(jx,jetflag); } } } /////////////////////////////////////////////////////////////////////////// void AliVertex::SetNvmax(Int_t n) { // Set the initial maximum number of (secondary) vertices if (n > 0) { fNvmax=n; } else { fNvmax=1; } if (fVertices) { delete fVertices; fVertices=0; } } /////////////////////////////////////////////////////////////////////////// void AliVertex::SetNjmax(Int_t n) { // Set the initial maximum number of jets if (n > 0) { fNjmax=n; } else { fNjmax=1; } if (fJets) { delete fJets; fJets=0; } } /////////////////////////////////////////////////////////////////////////// void AliVertex::Reset() { // Reset all variables to 0 and reset all stored vertex and jet lists. // The max. number of tracks is set to the initial value again // The max. number of vertices is set to the default value again // The max. number of jets is set to the default value again AliJet::Reset(); Double_t a[3]={0,0,0}; SetPosition(a,"sph"); SetPositionErrors(a,"car"); fNvtx=0; if (fNvmax>0) SetNvmax(fNvmax); if (fConnects) { delete fConnects; fConnects=0; } fNjets=0; if (fNjmax>0) SetNjmax(fNjmax); if (fJetTracks) { delete fJetTracks; fJetTracks=0; } if (fLines) { delete fLines; fLines=0; } } /////////////////////////////////////////////////////////////////////////// void AliVertex::ResetVertices() { // Reset the stored vertex list and delete all connecting tracks which // were generated automatically via connect=1 in AddVertex(). // The max. number of vertices is set to the default value again. // All physics quantities are updated according to the removal of the // connecting tracks. AliTrack* t; if (fConnects) { for (Int_t i=0; i<=fConnects->GetLast(); i++) { t=(AliTrack*)fConnects->At(i); AliTrack* test=(AliTrack*)fTracks->Remove(t); if (test) { fNtrk--; (Ali4Vector&)(*this)-=(Ali4Vector&)(*t); fQ-=t->GetCharge(); if (fTrackCopy) delete t; } } fTracks->Compress(); } fNvtx=0; if (fNvmax>0) SetNvmax(fNvmax); if (fConnects) { delete fConnects; fConnects=0; } } /////////////////////////////////////////////////////////////////////////// void AliVertex::AddJet(AliJet& j,Int_t tracks) { // Add a jet (and its tracks) to the vertex // In case the maximum number of jets has been reached, // the array space will be extended automatically // // Note : By default the tracks of the jet are added to the current (primary) // vertex. // The automatic addition of the tracks of the jet can be suppressed // by specifying tracks=0. In this case only the AliJet object will // be stored according to the mode specified by SetJetCopy(). // The latter will enable jet studies based on a fixed list of tracks // as contained e.g. in an AliVertex or AliEvent. // // In case a private copy is made, this is performed via the Clone() memberfunction. // All AliJet and derived classes have the default TObject::Clone() memberfunction. // However, derived classes generally contain an internal data structure which may // include pointers to other objects. Therefore it is recommended to provide // for all derived classes a specific copy constructor and override the default Clone() // memberfunction using this copy constructor. // An example for this may be seen from AliJet. if (!fJets) { fJets=new TObjArray(fNjmax); if (fJetCopy) fJets->SetOwner(); } if (fNjets == fNjmax) // Check if maximum jet number is reached { fNjmax++; fJets->Expand(fNjmax); } // Add the jet to the list AliJet* jx=&j; if (fJetCopy) jx=(AliJet*)j.Clone(); if (jx) { fNjets++; fJets->Add(jx); } // Add the tracks of the jet to this vertex if (tracks) { if (!fJetTracks) { fJetTracks=new TObjArray(); } Int_t copy=1-(jx->GetTrackCopy()); AliTrack* tj; for (Int_t i=1; i<=jx->GetNtracks(); i++) { tj=jx->GetTrack(i); if (tj) { AddTrack(tj,copy); fJetTracks->Add(tj); } } } } /////////////////////////////////////////////////////////////////////////// void AliVertex::AddVertex(AliVertex& v,Int_t connect) { // Add a (secondary) vertex to the current vertex. // In case the maximum number of (secondary) vertices has been reached, // the array space will be extended automatically // // Note : By default the 4-momentum and charge of the current (primary) vertex // are updated by automatically creating the track connecting // both vertices. The track parameters are taken from the // 4-momentum and charge of the secondary vertex. // The automatic creation of the connecting track and updating // of the (primary) vertex 4-momentum and charge can be suppressed // by specifying connect=0. In this case, however, the user // has to introduce the connecting track lateron by hand // explicitly in order to match the kinematics and charge. // // In case a private copy is made, this is performed via the Clone() memberfunction. // All AliVertex and derived classes have the default TObject::Clone() memberfunction. // However, derived classes generally contain an internal data structure which may // include pointers to other objects. Therefore it is recommended to provide // for all derived classes a specific copy constructor and override the default Clone() // memberfunction using this copy constructor. // An example for this may be seen from AliVertex. if (!fVertices) { fVertices=new TObjArray(fNvmax); if (fVertexCopy) fVertices->SetOwner(); } if (fNvtx == fNvmax) // Check if maximum vertex number is reached { fNvmax++; fVertices->Expand(fNvmax); } // Add the linked (secondary) vertex to the list AliVertex* vx=&v; if (fVertexCopy) vx=(AliVertex*)v.Clone(); if (vx) { fNvtx++; fVertices->Add(vx); } // Create connecting track and update 4-momentum and charge for current vertex if (connect) { AliTrack* t=new AliTrack(); t->SetBeginPoint(GetPosition()); t->SetEndPoint(v.GetPosition()); t->SetCharge(v.GetCharge()); t->Set4Momentum((Ali4Vector&)v); AddTrack(t,0); if (!fConnects) { fConnects=new TObjArray(fNvmax); if (!fTrackCopy) fConnects->SetOwner(); } fConnects->Add(t); } } /////////////////////////////////////////////////////////////////////////// void AliVertex::Data(TString f) { // Provide vertex information within the coordinate frame f const char* name=GetName(); const char* title=GetTitle(); cout << " *AliVertex::Data*"; if (strlen(name)) cout << " Name : " << GetName(); if (strlen(title)) cout << " Title : " << GetTitle(); cout << endl; cout << " Id : " << fUserId << " Invmass : " << GetInvmass() << " Charge : " << GetCharge() << " Momentum : " << GetMomentum() << " Ntracks : " << GetNtracks() << " Nvertices : " << fNvtx << " Njets : " << fNjets << endl; cout << " "; Ali4Vector::Data(f); cout << " Position"; AliPosition::Data(f); } /////////////////////////////////////////////////////////////////////////// void AliVertex::List(TString f) { // Provide primary track and sec. vertex information within the coordinate frame f Data(f); // Information of the current vertex // The tracks of this vertex AliTrack* t; for (Int_t it=1; it<=GetNtracks(); it++) { t=GetTrack(it); if (t) { cout << " ---Track no. " << it << endl; cout << " "; t->Data(f); } else { cout << " *AliVertex::List* Error : No track present." << endl; } } // The secondary vertices of this vertex AliVertex* v; for (Int_t iv=1; iv<=GetNvertices(); iv++) { v=GetVertex(iv); if (v) { cout << " ---Level 1 sec. vertex no. " << iv << endl; cout << " "; v->Data(f); } else { cout << " *AliVertex::List* Error : No sec. vertex present." << endl; } } } /////////////////////////////////////////////////////////////////////////// void AliVertex::ListAll(TString f) { // Provide complete (sec) vertex and (decay) track info within the coordinate frame f Data(f); // Information of the current vertex // The tracks of this vertex AliTrack* t; for (Int_t it=1; it<=GetNtracks(); it++) { t=GetTrack(it); if (t) { cout << " ---Track no. " << it << endl; cout << " "; t->ListAll(f); } else { cout << " *AliVertex::ListAll* Error : No track present." << endl; } } AliVertex* v=this; Dumps(v,1,f); // Information of all sec. vertices } ////////////////////////////////////////////////////////////////////////// void AliVertex::Dumps(AliVertex* v,Int_t n,TString f) { // Recursively provide the info of all secondary vertices of this vertex AliVertex* vs; for (Int_t iv=1; iv<=v->GetNvertices(); iv++) { vs=v->GetVertex(iv); if (vs) { cout << " ---Level " << n << " sec. vertex no. " << iv << endl; cout << " "; vs->Data(f); // The tracks of this vertex AliTrack* t; for (Int_t it=1; it<=vs->GetNtracks(); it++) { t=vs->GetTrack(it); if (t) { cout << " ---Track no. " << it << endl; cout << " "; t->ListAll(f); } else { cout << " *AliVertex::Dumps* Error : No track present." << endl; } } // Go for next sec. vertex level of this sec. vertex recursively Dumps(vs,n+1,f); } else { cout << " *AliVertex::Dumps* Error : No sec. vertex present." << endl; } } } ////////////////////////////////////////////////////////////////////////// Int_t AliVertex::GetNvertices() const { // Return the current number of (secondary) vertices return fNvtx; } /////////////////////////////////////////////////////////////////////////// AliVertex* AliVertex::GetVertex(Int_t i) const { // Return the i-th (secondary) vertex of the current vertex if (!fVertices) { cout << " *AliVertex*::GetVertex* No (secondary) vertices present." << endl; return 0; } else { if (i<=0 || i>fNvtx) { cout << " *AliVertex*::GetVertex* Invalid argument i : " << i << " Nvtx = " << fNvtx << endl; return 0; } else { return (AliVertex*)fVertices->At(i-1); } } } /////////////////////////////////////////////////////////////////////////// AliVertex* AliVertex::GetIdVertex(Int_t id) const { // Return the (sec.) vertex with user identifier "id" AliVertex* vx=0; AliVertex* v=0; if (!fVertices) { cout << " *AliVertex*::GetIdVertex* No (secondary) vertices present." << endl; return 0; } else { for (Int_t i=0; iAt(i); if (id == vx->GetId()) v=vx; } return v; } } /////////////////////////////////////////////////////////////////////////// void AliVertex::SetVertexCopy(Int_t j) { // (De)activate the creation of private copies of the added vertices. // j=0 ==> No private copies are made; pointers of original vertices are stored. // j=1 ==> Private copies of the vertices are made and these pointers are stored. // // Note : Once the storage contains pointer(s) to AliVertex objects one cannot // change the VertexCopy mode anymore. // To change the VertexCopy mode for an existing AliVertex containing // vertices one first has to invoke Reset(). if (!fVertices) { if (j==0 || j==1) { fVertexCopy=j; } else { cout << "*AliVertex::SetVertexCopy* Invalid argument : " << j << endl; } } else { cout << "*AliVertex::SetVertexCopy* Storage already contained vertices." << " ==> VertexCopy mode not changed." << endl; } } /////////////////////////////////////////////////////////////////////////// Int_t AliVertex::GetVertexCopy() const { // Provide value of the VertexCopy mode. // 0 ==> No private copies are made; pointers of original vertices are stored. // 1 ==> Private copies of the vertices are made and these pointers are stored. return fVertexCopy; } /////////////////////////////////////////////////////////////////////////// Int_t AliVertex::GetNjets() const { // Return the current number of jets return fNjets; } /////////////////////////////////////////////////////////////////////////// AliJet* AliVertex::GetJet(Int_t i) const { // Return the i-th jet of the current vertex if (!fJets) { cout << " *AliVertex*::GetJet* No jets present." << endl; return 0; } else { if (i<=0 || i>fNjets) { cout << " *AliVertex*::GetJet* Invalid argument i : " << i << " Njets = " << fNjets << endl; return 0; } else { return (AliJet*)fJets->At(i-1); } } } /////////////////////////////////////////////////////////////////////////// AliJet* AliVertex::GetIdJet(Int_t id) const { // Return the jet with user identifier "id" AliJet* jx=0; AliJet* j=0; if (!fJets) { cout << " *AliVertex*::GetIdJet* No jets present." << endl; return 0; } else { for (Int_t i=0; iAt(i); if (id == jx->GetId()) j=jx; } return j; } } /////////////////////////////////////////////////////////////////////////// void AliVertex::SetJetCopy(Int_t j) { // (De)activate the creation of private copies of the added jets. // j=0 ==> No private copies are made; pointers of original jets are stored. // j=1 ==> Private copies of the jets are made and these pointers are stored. // // Note : Once the storage contains pointer(s) to AliJet objects one cannot // change the JetCopy mode anymore. // To change the JetCopy mode for an existing AliVertex containing // jets one first has to invoke Reset(). if (!fJets) { if (j==0 || j==1) { fJetCopy=j; } else { cout << "*AliVertex::SetJetCopy* Invalid argument : " << j << endl; } } else { cout << "*AliVertex::SetJetCopy* Storage already contained jets." << " ==> JetCopy mode not changed." << endl; } } /////////////////////////////////////////////////////////////////////////// Int_t AliVertex::GetJetCopy() const { // Provide value of the JetCopy mode. // 0 ==> No private copies are made; pointers of original jets are stored. // 1 ==> Private copies of the jets are made and these pointers are stored. return fJetCopy; } /////////////////////////////////////////////////////////////////////////// Int_t AliVertex::IsConnectTrack(AliTrack* t) const { // Indicate whether a track from the tracklist was created via the // connection of a (secondary) vertex or not. // In case the track was the result of (secondary) vertex addition the // return value is 1, otherwise the value 0 will be returned. Int_t connect=0; if (fConnects) { if (fConnects->FindObject(t)) connect=1; } return connect; } /////////////////////////////////////////////////////////////////////////// Int_t AliVertex::IsJetTrack(AliTrack* t) const { // Indicate whether a track from the tracklist was created via the // addition of a jet or not. // In case the track was the result of jet addition the return value is 1, // otherwise the value 0 will be returned. Int_t jetflag=0; if (fJetTracks) { if (fJetTracks->FindObject(t)) jetflag=1; } return jetflag; } /////////////////////////////////////////////////////////////////////////// void AliVertex::Draw(Int_t secs,Int_t cons,Int_t jets) { // 3-Dimensional visualisation of an AliVertex with its attributes. // The displayed tracklength is proportional to the momentum of the track. // // Color conventions : // ------------------- // positive track : red // neutral track : green // negative track : blue // jet-track : magenta (if explicit marking selected) // // secs = 1 --> Draw secondary vertices. (Default) // 0 --> Don't draw secondary vertices. // // cons = 1 --> Draw (auto generated) connecting tracks. (Default) // 0 --> Don't draw (auto generated) connecting tracks. // // jets = 1 --> Mark tracks belonging to jets. // 0 --> Don't mark jet-tracks. (Default) // // Notes : // ------- // Auto generated connecting tracks will be drawn as thin lines. // Tracks belonging to jets will be marked as somewhat thinner magenta lines. // This memberfunction is used recursively. // Double_t vec[3]={0,0,0}; AliTrack* tx=0; AliVertex* vx=0; AliPosition* r=0; Ali3Vector p; Float_t charge; AliPosition dummy; if (fLines) delete fLines; fLines=new TObjArray(); fLines->SetOwner(); Int_t ntk=GetNtracks(); for (Int_t jtk=1; jtk<=ntk; jtk++) { tx=GetTrack(jtk); if (!tx) continue; charge=tx->GetCharge(); TPolyLine3D* line=new TPolyLine3D(); fLines->Add(line); if (IsConnectTrack(tx)) { if (cons==1) { r=tx->GetBeginPoint(); if (!r) r=&dummy; r->GetPosition(vec,"car"); line->SetNextPoint(vec[0],vec[1],vec[2]); r=tx->GetEndPoint(); if (!r) r=&dummy; r->GetPosition(vec,"car"); line->SetNextPoint(vec[0],vec[1],vec[2]); line->SetLineWidth(1); } } else { r=tx->GetClosestPoint(); if (!r) r=&dummy; r->GetPosition(vec,"car"); line->SetNextPoint(vec[0],vec[1],vec[2]); p=tx->Get3Momentum(); p=p+(*r); p.GetVector(vec,"car"); line->SetNextPoint(vec[0],vec[1],vec[2]); line->SetLineWidth(3); } line->SetLineColor(kGreen); // Neutral track if (charge>0) line->SetLineColor(kRed); // Positive track if (charge<0) line->SetLineColor(kBlue); // Negative track // Mark tracks belonging to jets if (IsJetTrack(tx)) { if (jets==1) { line->SetLineWidth(2); line->SetLineColor(kMagenta); } } line->Draw(); } // Go for secondary vertices if selected if (secs==1) { Int_t nvtx=GetNvertices(); for (Int_t jvtx=1; jvtx<=nvtx; jvtx++) { vx=GetVertex(jvtx); if (vx) vx->Draw(secs,cons,jets); } } } /////////////////////////////////////////////////////////////////////////// TObject* AliVertex::Clone(const char* name) const { // Make a deep copy of the current object and provide the pointer to the copy. // This memberfunction enables automatic creation of new objects of the // correct type depending on the object type, a feature which may be very useful // for containers when adding objects in case the container owns the objects. // This feature allows e.g. AliEvent to store either AliVertex objects or // objects derived from AliVertex via the AddVertex memberfunction, provided // these derived classes also have a proper Clone memberfunction. AliVertex* vtx=new AliVertex(*this); if (name) { if (strlen(name)) vtx->SetName(name); } return vtx; } ///////////////////////////////////////////////////////////////////////////