[u/mrichter/AliRoot.git] / RALICE / AliEvent.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: AliEvent.cxx,v 1.10 2003/02/03 13:19:44 nick Exp $

///////////////////////////////////////////////////////////////////////////
// Class AliEvent
// Creation and investigation of an Alice physics event.
// An AliEvent can be constructed by adding AliTracks, Alivertices, AliJets
// and/or AliCalorimeters.
//
// The basic functionality of AliEvent is identical to the one of AliVertex.
// So, an AliEvent may be used as the primary vertex with some additional
// functionality compared to AliVertex.
//
// To provide maximal flexibility to the user, the two modes of track/jet/vertex
// storage as described in AliJet and AliVertex can be used.
// In addition an identical structure is provided for the storage of AliCalorimeter
// objects, which can be selected by means of the memberfunction SetCalCopy().
//
// a) SetCalCopy(0) (which is the default).
//    Only the pointers of the 'added' calorimeters are stored.
//    This mode is typically used by making cal. studies based on a fixed set
//    of calorimeters which stays under user control or is kept on an external
//    file/tree. 
//    In this way the AliEvent just represents a 'logical structure' for the
//    physics analysis.
//
//    Note :
//    Modifications made to the original calorimeters also affect the AliCalorimeter
//    objects which are stored in the AliEvent. 
//
// b) SetCalCopy(1).
//    Of every 'added' calorimeter a private copy will be made of which the pointer
//    will be stored.
//    In this way the AliEvent represents an entity on its own and modifications
//    made to the original calorimeters do not affect the AliCalorimeter objects
//    which are stored in the AliEvent. 
//    This mode will allow 'adding' many different AliCalorimeters into an AliEvent by
//    creating only one AliCalorimeter instance in the main programme and using the
//    AliCalorimeter::Reset() and AliCalorimeter parameter setting memberfunctions.
//
// See also the documentation provided for the memberfunction SetOwner(). 
//
// Coding example to make an event consisting of a primary vertex,
// 2 secondary vertices and a calorimeter.
// --------------------------------------------------------------
// vp contains the tracks 1,2,3 and 4 (primary vertex)
// v1 contains the tracks 5,6 and 7   (sec. vertex)
// v2 contains the jets 1 and 2       (sec. vertex)
//
//        AliEvent evt;
//
// Specify the event object as the repository of all objects
// for the event building and physics analysis.
// 
//        evt.SetCalCopy(1);
//        evt.SetTrackCopy(1);
//
// Fill the event structure with the basic objects
// 
//        AliCalorimeter emcal;
//         ...
//         ... // code to fill the calorimeter data
//         ...
//
//        evt.AddCalorimeter(emcal);
//
//        AliTrack* tx=new AliTrack();
//        for (Int_t i=0; i<10; i++)
//        {
//         ...
//         ... // code to fill the track data
//         ...
//         evt.AddTrack(tx);
//         tx->Reset(); 
//        }
//
//        if (tx)
//        {
//         delete tx;
//         tx=0;
//        }
//
// Build the event structure (vertices, jets, ...) for physics analysis
// based on the basic objects from the event repository.
//
//        AliJet j1,j2;
//        for (Int_t i=0; i<evt.GetNtracks(); i++)
//        {
//         tx=evt.GetTrack(i);
//         ...
//         ... // code to fill the jet data
//         ...
//        }
//
//        AliVertex vp;
//        tx=evt.GetTrack(1);
//        vp.AddTrack(tx);
//        tx=evt.GetTrack(2);
//        vp.AddTrack(tx);
//        tx=evt.GetTrack(3);
//        vp.AddTrack(tx);
//        tx=evt.GetTrack(4);
//        vp.AddTrack(tx);
//
//        Float_t rp[3]={2.4,0.1,-8.5};
//        vp.SetPosition(rp,"car");
//
//        AliVertex v1;
//        tx=evt.GetTrack(5);
//        v1.AddTrack(tx);
//        tx=evt.GetTrack(6);
//        v1.AddTrack(tx);
//        tx=evt.GetTrack(7);
//        v1.AddTrack(tx);
//
//        Float_t r1[3]={1.6,-3.2,5.7};
//        v1.SetPosition(r1,"car");
//
//
//        AliVertex v2;
//        v2.SetJetCopy(1);
//        v2.AddJet(j1);
//        v2.AddJet(j2);
//
//        Float_t r2[3]={6.2,4.8,1.3};
//        v2.SetPosition(r2,"car");
//
// Specify the vertices v1 and v2 as secondary vertices of the primary
//
//        vp.SetVertexCopy(1);
//        vp.AddVertex(v1);
//        vp.AddVertex(v2);
//
// Enter the physics structures into the event
//        evt.SetVertexCopy(1);
//        evt.AddVertex(vp,0);
//
// The jets j1 and j2 are already available via sec. vertex v2,
// but can be made available also from the event itself if desired.
//        AliJet* jx;
//        jx=v2.GetJet(1);
//        evt.AddJet(jx,0); 
//        jx=v2.GetJet(2);
//        evt.AddJet(jx,0); 
// 
//        evt.Data("sph");
//        v1.ListAll();
//        v2.List("cyl");
//
//        Float_t etot=evt.GetEnergy();
//        Ali3Vector ptot=evt.Get3Momentum();
//        Float_t loc[3];
//        evt.GetPosition(loc,"sph");
//        AliPosition r=v1.GetPosition();
//        r.Data(); 
//        Int_t nt=v2.GetNtracks();
//        AliTrack* tv=v2.GetTrack(1); // Access track number 1 of Vertex v2
//
//        evt.List();
//
//        Int_t nv=evt.GetNvtx();
//        AliVertex* vx=evt.GetVertex(1); // Access primary vertex
//        Float_t e=vx->GetEnergy();
//
//        Float_t M=evt.GetInvmass(); 
//
// Reconstruct the event from scratch
//
//        evt.Reset();
//        evt.SetNvmax(25); // Increase initial no. of sec. vertices
//        ...
//        ... // code to create tracks etc... 
//        ...
//
// Note : All quantities are in GeV, GeV/c or GeV/c**2
//
//--- Author: Nick van Eijndhoven 27-may-2001 UU-SAP Utrecht
//- Modified: NvE $Date: 2003/02/03 13:19:44 $ UU-SAP Utrecht
///////////////////////////////////////////////////////////////////////////

#include "AliEvent.h"
 
ClassImp(AliEvent) // Class implementation to enable ROOT I/O
 
AliEvent::AliEvent()
{
// Default constructor.
// All variables initialised to default values.
 fDaytime.Set();
 fRun=0;
 fEvent=0;
 fAproj=0;
 fZproj=0;
 fPnucProj=0;
 fIdProj=0;
 fAtarg=0;
 fZtarg=0;
 fPnucTarg=0;
 fIdTarg=0;
 fNcals=0;
 fCalorimeters=0;
 fCalCopy=0;
}
///////////////////////////////////////////////////////////////////////////
AliEvent::AliEvent(Int_t n): AliVertex(n)
{
// Create an event to hold initially a maximum of n tracks
// All variables initialised to default values
 fDaytime.Set();
 fRun=0;
 fEvent=0;
 fAproj=0;
 fZproj=0;
 fPnucProj=0;
 fIdProj=0;
 fAtarg=0;
 fZtarg=0;
 fPnucTarg=0;
 fIdTarg=0;
 fNcals=0;
 fCalorimeters=0;
 fCalCopy=0;
}
///////////////////////////////////////////////////////////////////////////
AliEvent::~AliEvent()
{
// Default destructor
 if (fCalorimeters)
 {
  delete fCalorimeters;
  fCalorimeters=0;
 }
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::Reset()
{
// Reset all variables to default values
// The max. number of tracks is set to the initial value again
// The max. number of vertices is set to the default value again
// Note : The CalCopy mode is maintained as it was set by the user before.
 fDaytime.Set();
 fRun=0;
 fEvent=0;
 fAproj=0;
 fZproj=0;
 fPnucProj=0;
 fIdProj=0;
 fAtarg=0;
 fZtarg=0;
 fPnucTarg=0;
 fIdTarg=0;

 fNcals=0;
 if (fCalorimeters)
 {
  delete fCalorimeters;
  fCalorimeters=0;
 }

 AliVertex::Reset();
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::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 (fCalorimeters) fCalorimeters->SetOwner(own);
 fCalCopy=mode;

 AliVertex::SetOwner(own);
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::SetDayTime(TDatime& stamp)
{
// Set the date and time stamp for this event
 fDaytime=stamp;
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::SetRunNumber(Int_t run)
{
// Set the run number for this event
 fRun=run;
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::SetEventNumber(Int_t evt)
{
// Set the event number for this event
 fEvent=evt;
}
///////////////////////////////////////////////////////////////////////////
TDatime AliEvent::GetDayTime()
{
// Provide the date and time stamp for this event
 return fDaytime;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetRunNumber()
{
// Provide the run number for this event
 return fRun;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetEventNumber()
{
// Provide the event number for this event
 return fEvent;
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::SetProjectile(Int_t a,Int_t z,Double_t pnuc,Int_t id)
{
// Set the projectile A, Z, momentum per nucleon and user defined particle ID.
// By default the particle ID is set to zero.
 fAproj=a;
 fZproj=z;
 fPnucProj=pnuc;
 fIdProj=id;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetProjectileA()
{
// Provide the projectile A value.
 return fAproj;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetProjectileZ()
{
// Provide the projectile Z value.
 return fZproj;
}
///////////////////////////////////////////////////////////////////////////
Double_t AliEvent::GetProjectilePnuc()
{
// Provide the projectile momentum value per nucleon.
 return fPnucProj;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetProjectileId()
{
// Provide the user defined particle ID of the projectile.
 return fIdProj;
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::SetTarget(Int_t a,Int_t z,Double_t pnuc,Int_t id)
{
// Set the target A, Z, momentum per nucleon and user defined particle ID.
// By default the particle ID is set to zero.
 fAtarg=a;
 fZtarg=z;
 fPnucTarg=pnuc;
 fIdTarg=id;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetTargetA()
{
// Provide the target A value.
 return fAtarg;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetTargetZ()
{
// Provide the target Z value.
 return fZtarg;
}
///////////////////////////////////////////////////////////////////////////
Double_t AliEvent::GetTargetPnuc()
{
// Provide the target momentum value per nucleon.
 return fPnucTarg;
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetTargetId()
{
// Provide the user defined particle ID of the target.
 return fIdTarg;
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::HeaderData()
{
// Provide event header information
 cout << " *AliEvent::Data* Run : " << fRun << " Event : " << fEvent
      << " Date : " << fDaytime.AsString() << endl;

 ShowCalorimeters();
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::Data(TString f)
{
// Provide event information within the coordinate frame f
 HeaderData();
 AliVertex::Data(f);
} 
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetNcalorimeters()
{
// Provide the number of stored calorimeter systems
 return fNcals;
} 
///////////////////////////////////////////////////////////////////////////
void AliEvent::AddCalorimeter(AliCalorimeter& c)
{
// Add a calorimeter system to the event
 if (!fCalorimeters)
 {
  fCalorimeters=new TObjArray();
  if (fCalCopy) fCalorimeters->SetOwner();
 }
 
 // Add the calorimeter system to this event
 fNcals++;
 if (fCalCopy)
 {
  fCalorimeters->AddLast((AliCalorimeter*)c.Clone());
 }
 else
 {
  fCalorimeters->AddLast(&c);
 }
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::SetCalCopy(Int_t j)
{
// (De)activate the creation of private copies of the added calorimeters.
// j=0 ==> No private copies are made; pointers of original cals. are stored.
// j=1 ==> Private copies of the cals. are made and these pointers are stored.
//
// Note : Once the storage contains pointer(s) to AliCalorimeter(s) one cannot
//        change the CalCopy mode anymore.
//        To change the CalCopy mode for an existing AliEvent containing
//        calorimeters one first has to invoke Reset().
 if (!fCalorimeters)
 {
  if (j==0 || j==1)
  {
   fCalCopy=j;
  }
  else
  {
   cout << "*AliEvent::SetCalCopy* Invalid argument : " << j << endl;
  }
 }
 else
 {
  cout << "*AliEvent::SetCalCopy* Storage already contained calorimeters."
       << "  ==> CalCopy mode not changed." << endl; 
 }
}
///////////////////////////////////////////////////////////////////////////
Int_t AliEvent::GetCalCopy()
{
// Provide value of the CalCopy mode.
// 0 ==> No private copies are made; pointers of original cals. are stored.
// 1 ==> Private copies of the cals. are made and these pointers are stored.
 return fCalCopy;
}
///////////////////////////////////////////////////////////////////////////
AliCalorimeter* AliEvent::GetCalorimeter(Int_t i)
{
// Return the i-th calorimeter of this event
 if (!fCalorimeters)
 {
  cout << " *AliEvent::GetCalorimeter* No calorimeters present." << endl;
  return 0;
 }
 else
 {
  if (i<=0 || i>fNcals)
  {
   cout << " *AliEvent::GetCalorimeter* Invalid argument i : " << i
        << " Ncals = " << fNcals << endl;
   return 0;
  }
  else
  {
   return (AliCalorimeter*)fCalorimeters->At(i-1);
  }
 }
}
///////////////////////////////////////////////////////////////////////////
AliCalorimeter* AliEvent::GetCalorimeter(TString name)
{
// Return the calorimeter with name tag "name"
 if (!fCalorimeters)
 {
  cout << " *AliEvent::GetCalorimeter* No calorimeters present." << endl;
  return 0;
 }
 else
 {
  AliCalorimeter* cx;
  TString s;
  for (Int_t i=0; i<fNcals; i++)
  {
   cx=(AliCalorimeter*)fCalorimeters->At(i);
   if (cx)
   {
    s=cx->GetName();
    if (s == name) return cx;
   }
  }

  return 0; // No matching name found
 }
}
///////////////////////////////////////////////////////////////////////////
void AliEvent::ShowCalorimeters()
{
// Provide an overview of the available calorimeter systems.
 if (fNcals>0)
 {
  cout << " The following " << fNcals << " calorimeter systems are available :" << endl; 
  for (Int_t i=1; i<=fNcals; i++)
  {
   AliCalorimeter* cal=GetCalorimeter(i);
   if (cal) cout << " Calorimeter number : " << i << " Name : " << cal->GetName() << endl;
  }
 }
 else
 {
  cout << " No calorimeters present for this event." << endl;
 }
}
///////////////////////////////////////////////////////////////////////////
Commit	Line	Data
d16062ac	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
1ce8a857	16	// $Id: AliEvent.cxx,v 1.10 2003/02/03 13:19:44 nick Exp $
d16062ac	17
	18	///////////////////////////////////////////////////////////////////////////
	19	// Class AliEvent
	20	// Creation and investigation of an Alice physics event.
7849a8ab	21	// An AliEvent can be constructed by adding AliTracks, Alivertices, AliJets
7849a8ab	22	// and/or AliCalorimeters.
d16062ac	23	//
d16062ac	24	// The basic functionality of AliEvent is identical to the one of AliVertex.
35044448	25	// So, an AliEvent may be used as the primary vertex with some additional
35044448	26	// functionality compared to AliVertex.
d16062ac	27	//
7849a8ab	28	// To provide maximal flexibility to the user, the two modes of track/jet/vertex
	29	// storage as described in AliJet and AliVertex can be used.
	30	// In addition an identical structure is provided for the storage of AliCalorimeter
	31	// objects, which can be selected by means of the memberfunction SetCalCopy().
	32	//
	33	// a) SetCalCopy(0) (which is the default).
	34	// Only the pointers of the 'added' calorimeters are stored.
	35	// This mode is typically used by making cal. studies based on a fixed set
	36	// of calorimeters which stays under user control or is kept on an external
	37	// file/tree.
	38	// In this way the AliEvent just represents a 'logical structure' for the
	39	// physics analysis.
35044448	40	//
35044448	41	// Note :
7849a8ab	42	// Modifications made to the original calorimeters also affect the AliCalorimeter
7849a8ab	43	// objects which are stored in the AliEvent.
35044448	44	//
7849a8ab	45	// b) SetCalCopy(1).
	46	// Of every 'added' calorimeter a private copy will be made of which the pointer
	47	// will be stored.
	48	// In this way the AliEvent represents an entity on its own and modifications
	49	// made to the original calorimeters do not affect the AliCalorimeter objects
	50	// which are stored in the AliEvent.
	51	// This mode will allow 'adding' many different AliCalorimeters into an AliEvent by
	52	// creating only one AliCalorimeter instance in the main programme and using the
	53	// AliCalorimeter::Reset() and AliCalorimeter parameter setting memberfunctions.
	54	//
8e8e6c7f	55	// See also the documentation provided for the memberfunction SetOwner().
8e8e6c7f	56	//
7849a8ab	57	// Coding example to make an event consisting of a primary vertex,
7849a8ab	58	// 2 secondary vertices and a calorimeter.
d16062ac	59	// --------------------------------------------------------------
7849a8ab	60	// vp contains the tracks 1,2,3 and 4 (primary vertex)
	61	// v1 contains the tracks 5,6 and 7 (sec. vertex)
	62	// v2 contains the jets 1 and 2 (sec. vertex)
	63	//
7849a8ab	64	// AliEvent evt;
	65	//
	66	// Specify the event object as the repository of all objects
	67	// for the event building and physics analysis.
	68	//
	69	// evt.SetCalCopy(1);
	70	// evt.SetTrackCopy(1);
	71	//
	72	// Fill the event structure with the basic objects
	73	//
35044448	74	// AliCalorimeter emcal;
	75	// ...
	76	// ... // code to fill the calorimeter data
	77	// ...
	78	//
7849a8ab	79	// evt.AddCalorimeter(emcal);
7849a8ab	80	//
35044448	81	// AliTrack* tx=new AliTrack();
7849a8ab	82	// for (Int_t i=0; i<10; i++)
7849a8ab	83	// {
d16062ac	84	// ...
	85	// ... // code to fill the track data
	86	// ...
7849a8ab	87	// evt.AddTrack(tx);
	88	// tx->Reset();
	89	// }
	90	//
35044448	91	// if (tx)
	92	// {
	93	// delete tx;
	94	// tx=0;
	95	// }
	96	//
7849a8ab	97	// Build the event structure (vertices, jets, ...) for physics analysis
7849a8ab	98	// based on the basic objects from the event repository.
d16062ac	99	//
d16062ac	100	// AliJet j1,j2;
7849a8ab	101	// for (Int_t i=0; i<evt.GetNtracks(); i++)
	102	// {
	103	// tx=evt.GetTrack(i);
d16062ac	104	// ...
	105	// ... // code to fill the jet data
	106	// ...
7849a8ab	107	// }
d16062ac	108	//
7849a8ab	109	// AliVertex vp;
35044448	110	// tx=evt.GetTrack(1);
7849a8ab	111	// vp.AddTrack(tx);
35044448	112	// tx=evt.GetTrack(2);
7849a8ab	113	// vp.AddTrack(tx);
35044448	114	// tx=evt.GetTrack(3);
7849a8ab	115	// vp.AddTrack(tx);
35044448	116	// tx=evt.GetTrack(4);
7849a8ab	117	// vp.AddTrack(tx);
d16062ac	118	//
7849a8ab	119	// Float_t rp[3]={2.4,0.1,-8.5};
7849a8ab	120	// vp.SetPosition(rp,"car");
d16062ac	121	//
7849a8ab	122	// AliVertex v1;
35044448	123	// tx=evt.GetTrack(5);
7849a8ab	124	// v1.AddTrack(tx);
35044448	125	// tx=evt.GetTrack(6);
7849a8ab	126	// v1.AddTrack(tx);
35044448	127	// tx=evt.GetTrack(7);
7849a8ab	128	// v1.AddTrack(tx);
d16062ac	129	//
	130	// Float_t r1[3]={1.6,-3.2,5.7};
	131	// v1.SetPosition(r1,"car");
	132	//
d16062ac	133	//
7849a8ab	134	// AliVertex v2;
7849a8ab	135	// v2.SetJetCopy(1);
d16062ac	136	// v2.AddJet(j1);
	137	// v2.AddJet(j2);
	138	//
	139	// Float_t r2[3]={6.2,4.8,1.3};
	140	// v2.SetPosition(r2,"car");
	141	//
7849a8ab	142	// Specify the vertices v1 and v2 as secondary vertices of the primary
	143	//
	144	// vp.SetVertexCopy(1);
	145	// vp.AddVertex(v1);
	146	// vp.AddVertex(v2);
	147	//
	148	// Enter the physics structures into the event
	149	// evt.SetVertexCopy(1);
	150	// evt.AddVertex(vp,0);
	151	//
	152	// The jets j1 and j2 are already available via sec. vertex v2,
	153	// but can be made available also from the event itself if desired.
	154	// AliJet* jx;
	155	// jx=v2.GetJet(1);
	156	// evt.AddJet(jx,0);
	157	// jx=v2.GetJet(2);
	158	// evt.AddJet(jx,0);
	159	//
84bb7c66	160	// evt.Data("sph");
d16062ac	161	// v1.ListAll();
	162	// v2.List("cyl");
	163	//
	164	// Float_t etot=evt.GetEnergy();
	165	// Ali3Vector ptot=evt.Get3Momentum();
	166	// Float_t loc[3];
	167	// evt.GetPosition(loc,"sph");
	168	// AliPosition r=v1.GetPosition();
84bb7c66	169	// r.Data();
d16062ac	170	// Int_t nt=v2.GetNtracks();
	171	// AliTrack* tv=v2.GetTrack(1); // Access track number 1 of Vertex v2
	172	//
d16062ac	173	// evt.List();
	174	//
	175	// Int_t nv=evt.GetNvtx();
7849a8ab	176	// AliVertex* vx=evt.GetVertex(1); // Access primary vertex
d16062ac	177	// Float_t e=vx->GetEnergy();
	178	//
	179	// Float_t M=evt.GetInvmass();
	180	//
	181	// Reconstruct the event from scratch
	182	//
	183	// evt.Reset();
	184	// evt.SetNvmax(25); // Increase initial no. of sec. vertices
7849a8ab	185	// ...
	186	// ... // code to create tracks etc...
	187	// ...
d16062ac	188	//
	189	// Note : All quantities are in GeV, GeV/c or GeV/c**2
	190	//
	191	//--- Author: Nick van Eijndhoven 27-may-2001 UU-SAP Utrecht
1ce8a857	192	//- Modified: NvE $Date: 2003/02/03 13:19:44 $ UU-SAP Utrecht
d16062ac	193	///////////////////////////////////////////////////////////////////////////
	194
	195	#include "AliEvent.h"
	196
	197	ClassImp(AliEvent) // Class implementation to enable ROOT I/O
	198
	199	AliEvent::AliEvent()
	200	{
	201	// Default constructor.
	202	// All variables initialised to default values.
	203	fDaytime.Set();
	204	fRun=0;
	205	fEvent=0;
4575fcea	206	fAproj=0;
	207	fZproj=0;
	208	fPnucProj=0;
da17f667	209	fIdProj=0;
4575fcea	210	fAtarg=0;
	211	fZtarg=0;
	212	fPnucTarg=0;
da17f667	213	fIdTarg=0;
7849a8ab	214	fNcals=0;
	215	fCalorimeters=0;
	216	fCalCopy=0;
d16062ac	217	}
d16062ac	218	///////////////////////////////////////////////////////////////////////////
81508922	219	AliEvent::AliEvent(Int_t n): AliVertex(n)
d16062ac	220	{
	221	// Create an event to hold initially a maximum of n tracks
	222	// All variables initialised to default values
	223	fDaytime.Set();
	224	fRun=0;
	225	fEvent=0;
4575fcea	226	fAproj=0;
	227	fZproj=0;
	228	fPnucProj=0;
da17f667	229	fIdProj=0;
4575fcea	230	fAtarg=0;
	231	fZtarg=0;
	232	fPnucTarg=0;
da17f667	233	fIdTarg=0;
7849a8ab	234	fNcals=0;
	235	fCalorimeters=0;
	236	fCalCopy=0;
d16062ac	237	}
	238	///////////////////////////////////////////////////////////////////////////
	239	AliEvent::~AliEvent()
	240	{
	241	// Default destructor
7849a8ab	242	if (fCalorimeters)
7849a8ab	243	{
7849a8ab	244	delete fCalorimeters;
	245	fCalorimeters=0;
	246	}
d16062ac	247	}
	248	///////////////////////////////////////////////////////////////////////////
	249	void AliEvent::Reset()
	250	{
	251	// Reset all variables to default values
	252	// The max. number of tracks is set to the initial value again
	253	// The max. number of vertices is set to the default value again
8e8e6c7f	254	// Note : The CalCopy mode is maintained as it was set by the user before.
d16062ac	255	fDaytime.Set();
	256	fRun=0;
	257	fEvent=0;
4575fcea	258	fAproj=0;
	259	fZproj=0;
	260	fPnucProj=0;
da17f667	261	fIdProj=0;
4575fcea	262	fAtarg=0;
	263	fZtarg=0;
	264	fPnucTarg=0;
da17f667	265	fIdTarg=0;
d16062ac	266
7849a8ab	267	fNcals=0;
	268	if (fCalorimeters)
	269	{
7849a8ab	270	delete fCalorimeters;
	271	fCalorimeters=0;
	272	}
	273
d16062ac	274	AliVertex::Reset();
	275	}
	276	///////////////////////////////////////////////////////////////////////////
8e8e6c7f	277	void AliEvent::SetOwner(Bool_t own)
	278	{
	279	// Set ownership of all added objects.
	280	// The default parameter is own=kTRUE.
	281	//
	282	// Invokation of this memberfunction also sets all the copy modes
	283	// (e.g. TrackCopy & co.) according to the value of own.
	284	//
	285	// This function (with own=kTRUE) is particularly useful when reading data
	286	// from a tree/file, since Reset() will then actually remove all the
	287	// added objects from memory irrespective of the copy mode settings
	288	// during the tree/file creation process. In this way it provides a nice way
	289	// of preventing possible memory leaks in the reading/analysis process.
	290	//
	291	// In addition this memberfunction can also be used as a shortcut to set all
	292	// copy modes in one go during a tree/file creation process.
	293	// However, in this case the user has to take care to only set/change the
	294	// ownership (and copy mode) for empty objects (e.g. newly created objects
	295	// or after invokation of the Reset() memberfunction) otherwise it will
	296	// very likely result in inconsistent destructor behaviour.
	297
	298	Int_t mode=1;
	299	if (!own) mode=0;
	300	if (fCalorimeters) fCalorimeters->SetOwner(own);
	301	fCalCopy=mode;
	302
	303	AliVertex::SetOwner(own);
	304	}
	305	///////////////////////////////////////////////////////////////////////////
d16062ac	306	void AliEvent::SetDayTime(TDatime& stamp)
	307	{
	308	// Set the date and time stamp for this event
	309	fDaytime=stamp;
	310	}
	311	///////////////////////////////////////////////////////////////////////////
	312	void AliEvent::SetRunNumber(Int_t run)
	313	{
	314	// Set the run number for this event
	315	fRun=run;
	316	}
	317	///////////////////////////////////////////////////////////////////////////
	318	void AliEvent::SetEventNumber(Int_t evt)
	319	{
	320	// Set the event number for this event
	321	fEvent=evt;
	322	}
	323	///////////////////////////////////////////////////////////////////////////
	324	TDatime AliEvent::GetDayTime()
	325	{
	326	// Provide the date and time stamp for this event
	327	return fDaytime;
	328	}
	329	///////////////////////////////////////////////////////////////////////////
	330	Int_t AliEvent::GetRunNumber()
	331	{
	332	// Provide the run number for this event
	333	return fRun;
	334	}
	335	///////////////////////////////////////////////////////////////////////////
	336	Int_t AliEvent::GetEventNumber()
	337	{
	338	// Provide the event number for this event
	339	return fEvent;
	340	}
	341	///////////////////////////////////////////////////////////////////////////
da17f667	342	void AliEvent::SetProjectile(Int_t a,Int_t z,Double_t pnuc,Int_t id)
4575fcea	343	{
da17f667	344	// Set the projectile A, Z, momentum per nucleon and user defined particle ID.
da17f667	345	// By default the particle ID is set to zero.
4575fcea	346	fAproj=a;
	347	fZproj=z;
	348	fPnucProj=pnuc;
da17f667	349	fIdProj=id;
4575fcea	350	}
	351	///////////////////////////////////////////////////////////////////////////
	352	Int_t AliEvent::GetProjectileA()
	353	{
	354	// Provide the projectile A value.
	355	return fAproj;
	356	}
	357	///////////////////////////////////////////////////////////////////////////
	358	Int_t AliEvent::GetProjectileZ()
	359	{
	360	// Provide the projectile Z value.
	361	return fZproj;
	362	}
	363	///////////////////////////////////////////////////////////////////////////
	364	Double_t AliEvent::GetProjectilePnuc()
	365	{
	366	// Provide the projectile momentum value per nucleon.
	367	return fPnucProj;
	368	}
	369	///////////////////////////////////////////////////////////////////////////
da17f667	370	Int_t AliEvent::GetProjectileId()
4575fcea	371	{
da17f667	372	// Provide the user defined particle ID of the projectile.
	373	return fIdProj;
	374	}
	375	///////////////////////////////////////////////////////////////////////////
	376	void AliEvent::SetTarget(Int_t a,Int_t z,Double_t pnuc,Int_t id)
	377	{
	378	// Set the target A, Z, momentum per nucleon and user defined particle ID.
	379	// By default the particle ID is set to zero.
4575fcea	380	fAtarg=a;
	381	fZtarg=z;
	382	fPnucTarg=pnuc;
da17f667	383	fIdTarg=id;
4575fcea	384	}
	385	///////////////////////////////////////////////////////////////////////////
	386	Int_t AliEvent::GetTargetA()
	387	{
	388	// Provide the target A value.
	389	return fAtarg;
	390	}
	391	///////////////////////////////////////////////////////////////////////////
	392	Int_t AliEvent::GetTargetZ()
	393	{
	394	// Provide the target Z value.
	395	return fZtarg;
	396	}
	397	///////////////////////////////////////////////////////////////////////////
	398	Double_t AliEvent::GetTargetPnuc()
	399	{
	400	// Provide the target momentum value per nucleon.
	401	return fPnucTarg;
	402	}
	403	///////////////////////////////////////////////////////////////////////////
da17f667	404	Int_t AliEvent::GetTargetId()
	405	{
	406	// Provide the user defined particle ID of the target.
	407	return fIdTarg;
	408	}
	409	///////////////////////////////////////////////////////////////////////////
84bb7c66	410	void AliEvent::HeaderData()
d16062ac	411	{
d16062ac	412	// Provide event header information
1ce8a857	413	cout << " AliEvent::Data Run : " << fRun << " Event : " << fEvent
1ce8a857	414	<< " Date : " << fDaytime.AsString() << endl;
d16062ac	415
1ce8a857	416	ShowCalorimeters();
d16062ac	417	}
d16062ac	418	///////////////////////////////////////////////////////////////////////////
84bb7c66	419	void AliEvent::Data(TString f)
d16062ac	420	{
d16062ac	421	// Provide event information within the coordinate frame f
84bb7c66	422	HeaderData();
84bb7c66	423	AliVertex::Data(f);
d16062ac	424	}
d16062ac	425	///////////////////////////////////////////////////////////////////////////
7849a8ab	426	Int_t AliEvent::GetNcalorimeters()
	427	{
	428	// Provide the number of stored calorimeter systems
	429	return fNcals;
	430	}
	431	///////////////////////////////////////////////////////////////////////////
	432	void AliEvent::AddCalorimeter(AliCalorimeter& c)
	433	{
	434	// Add a calorimeter system to the event
6516b62d	435	if (!fCalorimeters)
	436	{
	437	fCalorimeters=new TObjArray();
	438	if (fCalCopy) fCalorimeters->SetOwner();
	439	}
7849a8ab	440
	441	// Add the calorimeter system to this event
	442	fNcals++;
	443	if (fCalCopy)
	444	{
6516b62d	445	fCalorimeters->AddLast((AliCalorimeter*)c.Clone());
7849a8ab	446	}
	447	else
	448	{
	449	fCalorimeters->AddLast(&c);
	450	}
	451	}
	452	///////////////////////////////////////////////////////////////////////////
	453	void AliEvent::SetCalCopy(Int_t j)
	454	{
	455	// (De)activate the creation of private copies of the added calorimeters.
	456	// j=0 ==> No private copies are made; pointers of original cals. are stored.
	457	// j=1 ==> Private copies of the cals. are made and these pointers are stored.
	458	//
	459	// Note : Once the storage contains pointer(s) to AliCalorimeter(s) one cannot
	460	// change the CalCopy mode anymore.
	461	// To change the CalCopy mode for an existing AliEvent containing
	462	// calorimeters one first has to invoke Reset().
	463	if (!fCalorimeters)
	464	{
	465	if (j==0 \|\| j==1)
	466	{
	467	fCalCopy=j;
	468	}
	469	else
	470	{
	471	cout << "AliEvent::SetCalCopy Invalid argument : " << j << endl;
	472	}
	473	}
	474	else
	475	{
	476	cout << "AliEvent::SetCalCopy Storage already contained calorimeters."
	477	<< " ==> CalCopy mode not changed." << endl;
	478	}
	479	}
	480	///////////////////////////////////////////////////////////////////////////
	481	Int_t AliEvent::GetCalCopy()
	482	{
	483	// Provide value of the CalCopy mode.
	484	// 0 ==> No private copies are made; pointers of original cals. are stored.
	485	// 1 ==> Private copies of the cals. are made and these pointers are stored.
	486	return fCalCopy;
	487	}
	488	///////////////////////////////////////////////////////////////////////////
	489	AliCalorimeter* AliEvent::GetCalorimeter(Int_t i)
	490	{
	491	// Return the i-th calorimeter of this event
	492	if (!fCalorimeters)
	493	{
	494	cout << " AliEvent::GetCalorimeter No calorimeters present." << endl;
	495	return 0;
	496	}
	497	else
	498	{
	499	if (i<=0 \|\| i>fNcals)
	500	{
	501	cout << " AliEvent::GetCalorimeter Invalid argument i : " << i
	502	<< " Ncals = " << fNcals << endl;
	503	return 0;
	504	}
	505	else
	506	{
	507	return (AliCalorimeter*)fCalorimeters->At(i-1);
	508	}
	509	}
510	}
511	///////////////////////////////////////////////////////////////////////////
512	AliCalorimeter* AliEvent::GetCalorimeter(TString name)
513	{
514	// Return the calorimeter with name tag "name"
515	if (!fCalorimeters)
516	{
517	cout << " AliEvent::GetCalorimeter No calorimeters present." << endl;
518	return 0;
519	}
520	else
521	{
522	AliCalorimeter* cx;
523	TString s;
524	for (Int_t i=0; i<fNcals; i++)
525	{
526	cx=(AliCalorimeter*)fCalorimeters->At(i);
35044448	527	if (cx)
	528	{
	529	s=cx->GetName();
	530	if (s == name) return cx;
	531	}
7849a8ab	532	}
	533
	534	return 0; // No matching name found
	535	}
	536	}
	537	///////////////////////////////////////////////////////////////////////////
1ce8a857	538	void AliEvent::ShowCalorimeters()
	539	{
	540	// Provide an overview of the available calorimeter systems.
	541	if (fNcals>0)
	542	{
	543	cout << " The following " << fNcals << " calorimeter systems are available :" << endl;
	544	for (Int_t i=1; i<=fNcals; i++)
	545	{
	546	AliCalorimeter* cal=GetCalorimeter(i);
	547	if (cal) cout << " Calorimeter number : " << i << " Name : " << cal->GetName() << endl;
	548	}
	549	}
	550	else
	551	{
	552	cout << " No calorimeters present for this event." << endl;
	553	}
	554	}
	555	///////////////////////////////////////////////////////////////////////////
d16062ac	556