[u/mrichter/AliRoot.git] / PHOS / AliPHOSJet.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.                  *
 **************************************************************************/

/* $Id$ */

//_________________________________________________________________________
// Class to calculate jet chararacteristics
//
// This class implements for PHOS a jet finder for PHOS. It depends on a 
// energy seed
// minimum energy, cone radius and movement of the cone.
//*-- Author :  D.Peressounko
//////////////////////////////////////////////////////////////////////////////

// --- ROOT system ---
#include "TParticle.h"

// --- Standard library ---

// --- AliRoot header files ---
#include "AliPHOSJet.h"
//  #include "AliPHOSGetter.h"

ClassImp(AliPHOSJet)
  
//____________________________________________________________________________ 
AliPHOSJet::AliPHOSJet():TObject() {
  //Inicilize members
  fNpart = 0 ;
  fList = 0 ;
  //  fMode = 0 ;
  fConeRad = 0 ;
  fMaxConeMove = 0 ;
  fMinConeMove = 0 ;
  
  fSumEnergy = 0 ;
  fSumEta = 0 ;
  fSumPhi = 0 ; 
  fEnergy = 0 ;
  fEta = 0 ;
  fPhi = 0 ; 
  fLEnergy = 0 ;
  fLEta = 0 ;
  fLPhi = 0 ; 
}

//____________________________________________________________________________ 
AliPHOSJet::~AliPHOSJet(){
  //dtor
  if(fList){
    delete fList ;
    fList = 0 ;
  }
  
}
//____________________________________________________________________________ 
void AliPHOSJet::AddParticle(const TParticle * p,const Int_t index){
  //adds particle to jet. Calculates change in jet direction, 
  //due to addition of this particle and if it is smaller, than fMaxDev, 
  //add particle, axcept new direction and return true.
  
  fSumEnergy+=p->Energy() ;
  if(p->Pt()/p->Energy() > 0.001)
    fSumEta+=p->Eta()*p->Energy() ;
  else
    fSumEta+=100.*p->Pz() ; 
  fSumPhi+=p->Phi()*p->Energy() ;    
  
  //check if this a leading particle?
  if(fLEnergy < p->Energy()){
    fLEnergy = p->Energy() ;
    if(p->Pt()/p->Energy() > 0.001)
      fLEta = p->Eta() ;
    else 
      fLEta = 100.*p->Pz()/p->Energy() ;
    fLPhi = p->Phi() ;
  }

  if(index >=0){ //add index to list of indexes
    if(!fList){
      fList = new TArrayI(100) ;
    }
    if(fList->GetSize()<=fNpart+1){
      TArrayI * tmp = new TArrayI(fNpart*2) ;
      tmp->Adopt(fList->GetSize(),fList->GetArray()) ; //note, we should not delete old array!
      fList=tmp ;
    }
    fList->AddAt(index,fNpart++) ;
  }
}
//____________________________________________________________________________ 
void AliPHOSJet::AddDigit(const Double_t e,const Double_t eta,const Double_t phi, const Int_t index){
  //adds particle to jet. Calculates change in jet direction, 
  //due to addition of this particle and if it is smaller, than fMaxDev, 
  //add particle, axcept new direction and return true.
  
  fSumEnergy+=e ;
  fSumEta+=eta*e ;
  fSumPhi+=phi*e ;    
  
  //check if this a leading particle?
  if(fLEnergy < e){
    fLEnergy = e;
    fLEta = eta ;
    fLPhi = phi ;
  }

  if(index >=0){ //add index to list of indexes
    if(!fList){
      fList = new TArrayI(100) ;
    }
    if(fList->GetSize()<=fNpart+1){
      TArrayI * tmp = new TArrayI(fNpart*2) ;
      tmp->Adopt(fList->GetSize(),fList->GetArray()) ; //note, we should not delete old array!
      fList=tmp ;
    }
    fList->AddAt(index,fNpart++) ;
  }
}
// //____________________________________________________________________________ 
// Bool_t AliPHOSJet::IsInJet(TParticle * p,Int_t mode)
// {
//   Double_t dEta ;
//   Double_t dPhi ;
//   Double_t energy ;
//   if(!fEnergy){ //Final values not calculated yet, use intermediate
//     if(fSumEnergy==0)
//       return kTRUE ; //First particle
// note p->Eta() causes fpe! 
//     dEta=(p->Eta() - fSumEta/fSumEnergy) ;
//     dPhi=(p->Phi() - fSumPhi/fSumEnergy) ;
//     energy = fSumEnergy ;
//   }
//   else{ //calculated with respect to final 
//     dEta=(p->Eta() - fEta) ;
//     dPhi=(p->Phi() - fPhi) ;
//     energy = fEnergy ;    
//   }
  
//   switch (mode){
//   case 0: 
//     return IsInCone(eta,phi) ; //pure geometrical comparison
//   case 1: 
//     return AcceptConeDeviation(dEta,dPhi,p->Energy() );
//   default:
//     Error("IsInCone","Unknown mode of cone calculation %d \n",mode );
//   }
//   return kFALSE ;
//}
//____________________________________________________________________________ 
Bool_t AliPHOSJet::AcceptConeDeviation(const TParticle * p)const
{ //Calculate cone deviation in case of inclusion of the given
  //particle to jet. 

  Double_t tmpEnergy = fSumEnergy + p->Energy() ;  
  Double_t tmpEta = fSumEta ;
  if(p->Pt()/p->Energy() >0.001)
    tmpEta+= p->Eta()*p->Energy() ;
  else
    tmpEta+= 100.*p->Pz() ;
  tmpEta = tmpEta/tmpEnergy / (fSumEta/fSumEnergy) - 1 ;
  Double_t tmpPhi = fSumPhi + p->Phi()*p->Energy() ;
  tmpPhi = tmpPhi/tmpEnergy /(fSumPhi/fSumEnergy) - 1 ;
  Double_t dev = TMath::Sqrt(tmpEta*tmpEta + tmpPhi*tmpPhi) ;
  if(dev < fMaxConeMove)
    return kTRUE ;
  else
    return kFALSE ;
}
//____________________________________________________________________________ 
Bool_t AliPHOSJet::AcceptConeDeviation(const Double_t e,const Double_t eta,const Double_t phi)const
{ //Calculate cone deviation in case of inclusion of the given
  //particle to jet. 

  Double_t tmpEnergy = fSumEnergy + e ;
  Double_t tmpEta = fSumEta + eta*e ;
  tmpEta = tmpEta/tmpEnergy / (fSumEta/fSumEnergy) ;
  Double_t tmpPhi = fSumPhi + phi*e ;
  tmpPhi = tmpPhi/tmpEnergy /(fSumPhi/fSumEnergy) ;
  Double_t dev = TMath::Sqrt(tmpEta*tmpEta + tmpPhi*tmpPhi) ;
  if(dev<fMaxConeMove && dev > fMinConeMove)
    return kTRUE ;
  else
    return kFALSE ;
}
//____________________________________________________________________________ 
Bool_t AliPHOSJet::IsInCone(const TParticle * p)const
{
  //Say if  particle is inside the defined cone
  Double_t dEta ;
  Double_t dPhi ;
  if(!fEnergy){ //Final values not calculated yet, use intermediate
    if(fSumEnergy==0)
      return kTRUE ; //First particle    
    if(p->Pt()/p->Energy() > 0.001)
      dEta=(p->Eta() - fSumEta/fSumEnergy) ;
    else
      dEta=(100.*p->Pz()/p->Energy() - fSumEta/fSumEnergy) ;
    dPhi=(p->Phi() - fSumPhi/fSumEnergy) ;
  }
  else{ //calculated with respect to final 
    if(p->Pt()/p->Energy() > 0.001)
      dEta=(p->Eta() - fEta) ;
    else
      dEta=(100.*p->Pz()/p->Energy() - fEta) ;
    dPhi=(p->Phi() - fPhi) ;
  }
  if(TMath::Sqrt(dEta*dEta + dPhi*dPhi) < fConeRad)
    return kTRUE ;
  else
    return kFALSE ;
}
//____________________________________________________________________________ 
Bool_t AliPHOSJet::IsInCone(const Double_t e,const Double_t eta,const Double_t phi)const
{
  //Says if particle is inside the defined cone
  Double_t dEta ;
  Double_t dPhi ;
  if(!fEnergy){ //Final values not calculated yet, use intermediate
    if(fSumEnergy==0)
      return kTRUE ; //First particle    
    dEta=(eta - fSumEta/fSumEnergy) ;
    dPhi=(phi - fSumPhi/fSumEnergy) ;
  }
  else{ //calculated with respect to final 
    dEta=(eta - fEta) ;
    dPhi=(phi - fPhi) ;
  }
  if(TMath::Sqrt(dEta*dEta + dPhi*dPhi) < fConeRad)
    return kTRUE ;
  else
    return kFALSE ;
}
//____________________________________________________________________________ 
Double_t AliPHOSJet::DistanceToJet(const TParticle *p)const{
  //Calculate radius 
  Double_t dEta ;
  Double_t dPhi ;
  if(!fEnergy){ //Final values not calculated yet, use intermediate
    if(fSumEnergy==0)
      return kTRUE ; //First particle    
    if(p->Pt()/p->Energy() > 0.001)
      dEta=(p->Eta() - fSumEta/fSumEnergy) ;
    else
      dEta=(100.*p->Pz()/p->Energy() - fSumEta/fSumEnergy) ;      
    dPhi=(p->Phi() - fSumPhi/fSumEnergy) ;
  }
  else{ //calculated with respect to final 
    if(p->Pt()/p->Energy() > 0.001)
      dEta=(p->Eta() - fEta) ;
    else
      dEta=(100*p->Pz()/p->Energy() - fEta) ;    
    dPhi=(p->Phi() - fPhi) ;
  }
  return TMath::Sqrt(dEta*dEta + dPhi*dPhi) ;

}
//____________________________________________________________________________ 
void AliPHOSJet::CalculateAll(void){
  //Calculate all jet parameters
  if(fSumEnergy==0)
    return  ; //Nothing to calculate    
  
  fEta = fSumEta/fSumEnergy ;
  fPhi = fSumPhi/fSumEnergy ;
  fEnergy = fSumEnergy ;
  
  fSumEnergy = 0. ;
  fSumEta = 0. ;
  fSumPhi = 0. ;
}
//____________________________________________________________________________ 
void AliPHOSJet::Print(Option_t * option){
  //Print jet parameters
  printf("-------------- AliPHOSJet ------------\n") ;
  printf(" Energy............. %f \n",fEnergy) ;
  printf(" Eta................ %f \n",fEta ) ;
  printf(" Phi................ %f \n",fPhi ) ;
  printf(" Leading Energy..... %f \n",fLEnergy) ;
  printf(" Leading Eta........ %f \n",fLEta) ;
  printf(" Leading Phi........ %f \n",fLPhi) ;
  printf(" N particles in jet  %d \n",fNpart) ;
  printf("----------------------------------\n") ;
}
Commit	Line	Data
5240525e	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
0bc3b8ed	16	/* $Id$ */
0bc3b8ed	17
5240525e	18	//_________________________________________________________________________
	19	// Class to calculate jet chararacteristics
	20	//
0bc3b8ed	21	// This class implements for PHOS a jet finder for PHOS. It depends on a
	22	// energy seed
	23	// minimum energy, cone radius and movement of the cone.
5240525e	24	//*-- Author : D.Peressounko
	25	//////////////////////////////////////////////////////////////////////////////
	26
	27	// --- ROOT system ---
	28	#include "TParticle.h"
	29
	30	// --- Standard library ---
	31
	32	// --- AliRoot header files ---
	33	#include "AliPHOSJet.h"
	34	// #include "AliPHOSGetter.h"
	35
	36	ClassImp(AliPHOSJet)
	37
	38	//____________________________________________________________________________
	39	AliPHOSJet::AliPHOSJet():TObject() {
0bc3b8ed	40	//Inicilize members
5240525e	41	fNpart = 0 ;
	42	fList = 0 ;
	43	// fMode = 0 ;
	44	fConeRad = 0 ;
	45	fMaxConeMove = 0 ;
	46	fMinConeMove = 0 ;
	47
	48	fSumEnergy = 0 ;
	49	fSumEta = 0 ;
	50	fSumPhi = 0 ;
	51	fEnergy = 0 ;
	52	fEta = 0 ;
	53	fPhi = 0 ;
	54	fLEnergy = 0 ;
	55	fLEta = 0 ;
	56	fLPhi = 0 ;
	57	}
	58
	59	//____________________________________________________________________________
	60	AliPHOSJet::~AliPHOSJet(){
0bc3b8ed	61	//dtor
5240525e	62	if(fList){
	63	delete fList ;
	64	fList = 0 ;
	65	}
	66
	67	}
	68	//____________________________________________________________________________
	69	void AliPHOSJet::AddParticle(const TParticle * p,const Int_t index){
	70	//adds particle to jet. Calculates change in jet direction,
	71	//due to addition of this particle and if it is smaller, than fMaxDev,
	72	//add particle, axcept new direction and return true.
	73
	74	fSumEnergy+=p->Energy() ;
	75	if(p->Pt()/p->Energy() > 0.001)
	76	fSumEta+=p->Eta()*p->Energy() ;
	77	else
	78	fSumEta+=100.*p->Pz() ;
	79	fSumPhi+=p->Phi()*p->Energy() ;
	80
	81	//check if this a leading particle?
	82	if(fLEnergy < p->Energy()){
	83	fLEnergy = p->Energy() ;
	84	if(p->Pt()/p->Energy() > 0.001)
	85	fLEta = p->Eta() ;
	86	else
	87	fLEta = 100.*p->Pz()/p->Energy() ;
	88	fLPhi = p->Phi() ;
	89	}
	90
	91	if(index >=0){ //add index to list of indexes
	92	if(!fList){
	93	fList = new TArrayI(100) ;
	94	}
	95	if(fList->GetSize()<=fNpart+1){
	96	TArrayI * tmp = new TArrayI(fNpart*2) ;
	97	tmp->Adopt(fList->GetSize(),fList->GetArray()) ; //note, we should not delete old array!
	98	fList=tmp ;
	99	}
	100	fList->AddAt(index,fNpart++) ;
	101	}
	102	}
	103	//____________________________________________________________________________
	104	void AliPHOSJet::AddDigit(const Double_t e,const Double_t eta,const Double_t phi, const Int_t index){
	105	//adds particle to jet. Calculates change in jet direction,
	106	//due to addition of this particle and if it is smaller, than fMaxDev,
	107	//add particle, axcept new direction and return true.
	108
	109	fSumEnergy+=e ;
	110	fSumEta+=eta*e ;
	111	fSumPhi+=phi*e ;
	112
	113	//check if this a leading particle?
	114	if(fLEnergy < e){
	115	fLEnergy = e;
	116	fLEta = eta ;
	117	fLPhi = phi ;
	118	}
	119
	120	if(index >=0){ //add index to list of indexes
	121	if(!fList){
	122	fList = new TArrayI(100) ;
	123	}
	124	if(fList->GetSize()<=fNpart+1){
	125	TArrayI * tmp = new TArrayI(fNpart*2) ;
126	tmp->Adopt(fList->GetSize(),fList->GetArray()) ; //note, we should not delete old array!
127	fList=tmp ;
128	}
129	fList->AddAt(index,fNpart++) ;
130	}
131	}
132	// //____________________________________________________________________________
133	// Bool_t AliPHOSJet::IsInJet(TParticle * p,Int_t mode)
134	// {
135	// Double_t dEta ;
136	// Double_t dPhi ;
137	// Double_t energy ;
138	// if(!fEnergy){ //Final values not calculated yet, use intermediate
139	// if(fSumEnergy==0)
140	// return kTRUE ; //First particle
141	// note p->Eta() causes fpe!
142	// dEta=(p->Eta() - fSumEta/fSumEnergy) ;
143	// dPhi=(p->Phi() - fSumPhi/fSumEnergy) ;
144	// energy = fSumEnergy ;
145	// }
146	// else{ //calculated with respect to final
147	// dEta=(p->Eta() - fEta) ;
148	// dPhi=(p->Phi() - fPhi) ;
149	// energy = fEnergy ;
150	// }
151
152	// switch (mode){
153	// case 0:
154	// return IsInCone(eta,phi) ; //pure geometrical comparison
155	// case 1:
156	// return AcceptConeDeviation(dEta,dPhi,p->Energy() );
157	// default:
158	// Error("IsInCone","Unknown mode of cone calculation %d \n",mode );
159	// }
160	// return kFALSE ;
161	//}
162	//____________________________________________________________________________
163	Bool_t AliPHOSJet::AcceptConeDeviation(const TParticle * p)const
164	{ //Calculate cone deviation in case of inclusion of the given
165	//particle to jet.
166
167	Double_t tmpEnergy = fSumEnergy + p->Energy() ;
168	Double_t tmpEta = fSumEta ;
169	if(p->Pt()/p->Energy() >0.001)
170	tmpEta+= p->Eta()*p->Energy() ;
171	else
172	tmpEta+= 100.*p->Pz() ;
173	tmpEta = tmpEta/tmpEnergy / (fSumEta/fSumEnergy) - 1 ;
174	Double_t tmpPhi = fSumPhi + p->Phi()*p->Energy() ;
175	tmpPhi = tmpPhi/tmpEnergy /(fSumPhi/fSumEnergy) - 1 ;
176	Double_t dev = TMath::Sqrt(tmpEtatmpEta + tmpPhitmpPhi) ;
177	if(dev < fMaxConeMove)
178	return kTRUE ;
179	else
180	return kFALSE ;
181	}
182	//____________________________________________________________________________
183	Bool_t AliPHOSJet::AcceptConeDeviation(const Double_t e,const Double_t eta,const Double_t phi)const
184	{ //Calculate cone deviation in case of inclusion of the given
185	//particle to jet.
186
187	Double_t tmpEnergy = fSumEnergy + e ;
188	Double_t tmpEta = fSumEta + eta*e ;
189	tmpEta = tmpEta/tmpEnergy / (fSumEta/fSumEnergy) ;
190	Double_t tmpPhi = fSumPhi + phi*e ;
191	tmpPhi = tmpPhi/tmpEnergy /(fSumPhi/fSumEnergy) ;
192	Double_t dev = TMath::Sqrt(tmpEtatmpEta + tmpPhitmpPhi) ;
193	if(dev<fMaxConeMove && dev > fMinConeMove)
194	return kTRUE ;
195	else
196	return kFALSE ;
197	}
198	//____________________________________________________________________________
199	Bool_t AliPHOSJet::IsInCone(const TParticle * p)const
0bc3b8ed	200	{
0bc3b8ed	201	//Say if particle is inside the defined cone
5240525e	202	Double_t dEta ;
	203	Double_t dPhi ;
	204	if(!fEnergy){ //Final values not calculated yet, use intermediate
	205	if(fSumEnergy==0)
	206	return kTRUE ; //First particle
	207	if(p->Pt()/p->Energy() > 0.001)
	208	dEta=(p->Eta() - fSumEta/fSumEnergy) ;
	209	else
	210	dEta=(100.*p->Pz()/p->Energy() - fSumEta/fSumEnergy) ;
	211	dPhi=(p->Phi() - fSumPhi/fSumEnergy) ;
	212	}
	213	else{ //calculated with respect to final
	214	if(p->Pt()/p->Energy() > 0.001)
	215	dEta=(p->Eta() - fEta) ;
	216	else
	217	dEta=(100.*p->Pz()/p->Energy() - fEta) ;
	218	dPhi=(p->Phi() - fPhi) ;
	219	}
	220	if(TMath::Sqrt(dEtadEta + dPhidPhi) < fConeRad)
	221	return kTRUE ;
	222	else
	223	return kFALSE ;
	224	}
	225	//____________________________________________________________________________
	226	Bool_t AliPHOSJet::IsInCone(const Double_t e,const Double_t eta,const Double_t phi)const
0bc3b8ed	227	{
0bc3b8ed	228	//Says if particle is inside the defined cone
5240525e	229	Double_t dEta ;
	230	Double_t dPhi ;
	231	if(!fEnergy){ //Final values not calculated yet, use intermediate
	232	if(fSumEnergy==0)
	233	return kTRUE ; //First particle
	234	dEta=(eta - fSumEta/fSumEnergy) ;
	235	dPhi=(phi - fSumPhi/fSumEnergy) ;
	236	}
	237	else{ //calculated with respect to final
	238	dEta=(eta - fEta) ;
	239	dPhi=(phi - fPhi) ;
	240	}
	241	if(TMath::Sqrt(dEtadEta + dPhidPhi) < fConeRad)
	242	return kTRUE ;
	243	else
	244	return kFALSE ;
	245	}
	246	//____________________________________________________________________________
	247	Double_t AliPHOSJet::DistanceToJet(const TParticle *p)const{
	248	//Calculate radius
	249	Double_t dEta ;
	250	Double_t dPhi ;
	251	if(!fEnergy){ //Final values not calculated yet, use intermediate
	252	if(fSumEnergy==0)
	253	return kTRUE ; //First particle
	254	if(p->Pt()/p->Energy() > 0.001)
	255	dEta=(p->Eta() - fSumEta/fSumEnergy) ;
	256	else
	257	dEta=(100.*p->Pz()/p->Energy() - fSumEta/fSumEnergy) ;
	258	dPhi=(p->Phi() - fSumPhi/fSumEnergy) ;
	259	}
	260	else{ //calculated with respect to final
	261	if(p->Pt()/p->Energy() > 0.001)
	262	dEta=(p->Eta() - fEta) ;
	263	else
	264	dEta=(100*p->Pz()/p->Energy() - fEta) ;
	265	dPhi=(p->Phi() - fPhi) ;
	266	}
	267	return TMath::Sqrt(dEtadEta + dPhidPhi) ;
	268
	269	}
	270	//____________________________________________________________________________
	271	void AliPHOSJet::CalculateAll(void){
0bc3b8ed	272	//Calculate all jet parameters
5240525e	273	if(fSumEnergy==0)
	274	return ; //Nothing to calculate
	275
	276	fEta = fSumEta/fSumEnergy ;
	277	fPhi = fSumPhi/fSumEnergy ;
	278	fEnergy = fSumEnergy ;
	279
	280	fSumEnergy = 0. ;
	281	fSumEta = 0. ;
	282	fSumPhi = 0. ;
	283	}
	284	//____________________________________________________________________________
	285	void AliPHOSJet::Print(Option_t * option){
0bc3b8ed	286	//Print jet parameters
5240525e	287	printf("-------------- AliPHOSJet ------------\n") ;
	288	printf(" Energy............. %f \n",fEnergy) ;
	289	printf(" Eta................ %f \n",fEta ) ;
	290	printf(" Phi................ %f \n",fPhi ) ;
	291	printf(" Leading Energy..... %f \n",fLEnergy) ;
	292	printf(" Leading Eta........ %f \n",fLEta) ;
	293	printf(" Leading Phi........ %f \n",fLPhi) ;
	294	printf(" N particles in jet %d \n",fNpart) ;
	295	printf("----------------------------------\n") ;
	296	}
0bc3b8ed	297
	298
	299