[u/mrichter/AliRoot.git] / HBTAN / AliHBTPair.h

#ifndef ALIHBTPAIR_H
#define ALIHBTPAIR_H

#include <TObject.h>


#include "AliHBTParticle.h"
//class implements pair of particles and taking care of caluclation (almost)
//all of pair properties (Qinv, InvMass,...)
//more info: http://alisoft.cern.ch/people/skowron/analyzer/index.html

class AliHBTPair: public TObject
{
 public:
   AliHBTPair(Bool_t rev = kFALSE); //contructor
   AliHBTPair(AliHBTParticle* part1, AliHBTParticle* part2, Bool_t rev = kFALSE); //contructor
   virtual ~AliHBTPair(){}
   void SetParticles(AliHBTParticle*,AliHBTParticle*); //sets particles in the pair
   AliHBTPair* GetSwapedPair() {return fSwapedPair;} //returns pair with swapped particles
   
   AliHBTParticle* Particle1() const {return fPart1;} //returns pointer to first particle
   AliHBTParticle* Particle2() const {return fPart2;} //returns pointer to decond particle
   
   void Changed();
   //Center Mass System - Longitudinally Comoving
   
   Double_t GetInvMass(); //returns invariant mass of the pair
    
  
   Double_t GetQInv(); //returns Q invariant
   Double_t GetQSideCMSLC(); //returns Q Side CMS longitudionally co-moving
   Double_t GetQOutCMSLC(); //returns Q out CMS longitudionally co-moving
   Double_t GetQLongCMSLC(); //returns Q Long CMS longitudionally co-moving
   
   
   Double_t GetKt();  //returns K transverse
   Double_t GetKStar();
   
   Double_t GetDeltaP(); //return difference of momenta
   Double_t GetDeltaPx();
   Double_t GetDeltaPy();
   Double_t GetDeltaPz();
   
 protected:
   AliHBTParticle* fPart1;  //pointer to first particle
   AliHBTParticle* fPart2;  //pointer to second particle
  
   AliHBTPair* fSwapedPair; //pointer to swapped pair
   
/************************************************************/
/************CMS (LC) Q's   *********************************/
/************************************************************/
   //Center Mass System - Longitudinally Comoving
   
   Double_t fQSideCMSLC;  //value of Q side CMS longitudially co-moving
   Bool_t   fQSideCMSLCNotCalc; //flag indicating if fQSideCMSLC is already calculated for this pair
   
   Double_t fQOutCMSLC; //value of Q out CMS longitudially co-moving
   Bool_t   fQOutCMSLCNotCalc;//flag indicating if fQOutCMSLC is already calculated for this pair
   
   Double_t fQLongCMSLC; //value of Q long CMS longitudially co-moving
   Bool_t   fQLongCMSLCNotCalc;//flag indicating if fQLongCMSLC is already calculated for this pair
/************************************************************/
/************************************************************/
   Double_t fQInv;  //half of differnece of 4-momenta
   Bool_t   fQInvNotCalc;//flag indicating if fQInv is already calculated for this pair
   
   Double_t fInvMass;  //invariant mass
   Bool_t   fInvMassNotCalc;//flag indicating if fInvMass is already calculated for this pair
   
   Double_t fKt; //K == sum vector of particle's momenta. Kt transverse component
   Bool_t   fKtNotCalc;//flag indicating if fKt is already calculated for this pair
   
   Double_t fKStar; //
   Bool_t   fKStarNotCalc;
   
   Double_t fPInv;  //invariant momentum
   Double_t fQSide; //Q Side
   Double_t fOut;//Q Out
   Double_t fQLong;//Q Long

   
   Double_t fInvMassSqr;//squre of invariant mass
   Bool_t   fMassSqrNotCalc; //
   void     CalculateInvMassSqr();
   
   Double_t fQInvL;
   Bool_t   fQInvLNotCalc;
   void     CalculateQInvL();
   
   Double_t fPxSum;
   Double_t fPySum;
   Double_t fPzSum;
   Double_t fESum;
   Bool_t   fSumsNotCalc;
   void     CalculateSums();
   
   Double_t fPxDiff;
   Double_t fPyDiff;
   Double_t fPzDiff;
   Double_t fEDiff;
   Bool_t   fDiffsNotCalc;
   void     CalculateDiffs();
   
   
   /***************************************************/
   void CalculateBase();
   Bool_t fChanged;
   
   
 private:
 public:
  ClassDef(AliHBTPair,1)
};
/****************************************************************/
inline
void AliHBTPair::SetParticles(AliHBTParticle* p1,AliHBTParticle* p2)
{
 //sets the particle to the pair
 
 fPart1 = p1;
 fPart2 = p2;
 if (fSwapedPair) //if we have Swaped (so we are not)
   fSwapedPair->SetParticles(p2,p1); //set particles for him too
 Changed();
 //and do nothing until will be asked for
} 
/****************************************************************/

inline
void AliHBTPair::Changed()
{
 // Resel all calculations (flags)
 fChanged           = kTRUE;
 fSumsNotCalc       = kTRUE;
 fDiffsNotCalc      = kTRUE;
 fMassSqrNotCalc    = kTRUE;
 fInvMassNotCalc    = kTRUE;
 fQInvNotCalc       = kTRUE;
 fQSideCMSLCNotCalc = kTRUE;
 fQOutCMSLCNotCalc  = kTRUE;
 fQLongCMSLCNotCalc = kTRUE;
 fKtNotCalc         = kTRUE;
 fKStarNotCalc      = kTRUE;
 fQInvLNotCalc      = kTRUE;
}
/****************************************************************/
inline 
void AliHBTPair::CalculateInvMassSqr()
 {
  if (fMassSqrNotCalc)
   {
     CalculateSums();
 
     Double_t fPart12s= (fPxSum*fPxSum) + (fPySum*fPySum) + (fPzSum*fPzSum);
 
     fInvMassSqr=fESum*fESum-fPart12s;

     fMassSqrNotCalc = kFALSE;
   }
 }
/****************************************************************/
inline 
void AliHBTPair::CalculateQInvL()
 {
 //Calculates square root of Qinv
  if (fQInvLNotCalc)
  {
   CalculateDiffs();
   fQInvL = fEDiff*fEDiff - ( fPxDiff*fPxDiff + fPyDiff*fPyDiff + fPzDiff*fPzDiff );
   fQInvLNotCalc = kFALSE;
  }
 }
/****************************************************************/ 
inline 
void AliHBTPair::CalculateSums()
 {
   if(fSumsNotCalc)
    {
     fPxSum = fPart1->Px()+fPart2->Px();
     fPySum = fPart1->Py()+fPart2->Py();
     fPzSum = fPart1->Pz()+fPart2->Pz();
     fESum  = fPart1->Energy() + fPart2->Energy();
     fSumsNotCalc = kFALSE;
    }
 }
/****************************************************************/
inline 
void AliHBTPair::CalculateDiffs()
 {
   if(fDiffsNotCalc)
    {
     fPxDiff = fPart1->Px()-fPart2->Px();
     fPyDiff = fPart1->Py()-fPart2->Py();
     fPzDiff = fPart1->Pz()-fPart2->Pz();
     fEDiff  = fPart1->Energy() - fPart2->Energy();
     fDiffsNotCalc = kFALSE;
    }
 }

/****************************************************************/
inline 
Double_t AliHBTPair::GetDeltaP() //return difference of momenta
{
 CalculateDiffs();
 return TMath::Sqrt(fPxDiff*fPxDiff + fPyDiff*fPyDiff + fPzDiff*fPzDiff);
}
/****************************************************************/
inline 
Double_t AliHBTPair::GetDeltaPx()
 {
   CalculateDiffs();
   return fPxDiff;
 }
/****************************************************************/
inline 
Double_t AliHBTPair::GetDeltaPy()
 {
   CalculateDiffs();
   return fPyDiff;
 }

/****************************************************************/
inline 
Double_t AliHBTPair::GetDeltaPz()
 {
   CalculateDiffs();
   return fPzDiff;
 }


#endif
Commit	Line	Data
1b446896	1	#ifndef ALIHBTPAIR_H
	2	#define ALIHBTPAIR_H
	3
	4	#include <TObject.h>
	5
	6
	7	#include "AliHBTParticle.h"
	8	//class implements pair of particles and taking care of caluclation (almost)
	9	//all of pair properties (Qinv, InvMass,...)
	10	//more info: http://alisoft.cern.ch/people/skowron/analyzer/index.html
	11
	12	class AliHBTPair: public TObject
	13	{
	14	public:
	15	AliHBTPair(Bool_t rev = kFALSE); //contructor
ec6e4013	16	AliHBTPair(AliHBTParticle* part1, AliHBTParticle* part2, Bool_t rev = kFALSE); //contructor
4ca0f301	17	virtual ~AliHBTPair(){}
1b446896	18	void SetParticles(AliHBTParticle,AliHBTParticle); //sets particles in the pair
	19	AliHBTPair* GetSwapedPair() {return fSwapedPair;} //returns pair with swapped particles
	20
	21	AliHBTParticle* Particle1() const {return fPart1;} //returns pointer to first particle
	22	AliHBTParticle* Particle2() const {return fPart2;} //returns pointer to decond particle
	23
ec6e4013	24	void Changed();
1b446896	25	//Center Mass System - Longitudinally Comoving
	26
	27	Double_t GetInvMass(); //returns invariant mass of the pair
ec6e4013	28
ec6e4013	29
bf94f9a5	30	Double_t GetQInv(); //returns Q invariant
1b446896	31	Double_t GetQSideCMSLC(); //returns Q Side CMS longitudionally co-moving
	32	Double_t GetQOutCMSLC(); //returns Q out CMS longitudionally co-moving
	33	Double_t GetQLongCMSLC(); //returns Q Long CMS longitudionally co-moving
	34
	35
	36	Double_t GetKt(); //returns K transverse
	37	Double_t GetKStar();
	38
7836ee94	39	Double_t GetDeltaP(); //return difference of momenta
	40	Double_t GetDeltaPx();
	41	Double_t GetDeltaPy();
	42	Double_t GetDeltaPz();
1b446896	43
	44	protected:
	45	AliHBTParticle* fPart1; //pointer to first particle
	46	AliHBTParticle* fPart2; //pointer to second particle
	47
	48	AliHBTPair* fSwapedPair; //pointer to swapped pair
	49
	50	/************************************************************/
	51	/**********CMS (LC) Q's *******************************/
	52	/************************************************************/
	53	//Center Mass System - Longitudinally Comoving
	54
	55	Double_t fQSideCMSLC; //value of Q side CMS longitudially co-moving
	56	Bool_t fQSideCMSLCNotCalc; //flag indicating if fQSideCMSLC is already calculated for this pair
	57
	58	Double_t fQOutCMSLC; //value of Q out CMS longitudially co-moving
	59	Bool_t fQOutCMSLCNotCalc;//flag indicating if fQOutCMSLC is already calculated for this pair
	60
	61	Double_t fQLongCMSLC; //value of Q long CMS longitudially co-moving
	62	Bool_t fQLongCMSLCNotCalc;//flag indicating if fQLongCMSLC is already calculated for this pair
	63	/************************************************************/
	64	/************************************************************/
	65	Double_t fQInv; //half of differnece of 4-momenta
	66	Bool_t fQInvNotCalc;//flag indicating if fQInv is already calculated for this pair
	67
	68	Double_t fInvMass; //invariant mass
	69	Bool_t fInvMassNotCalc;//flag indicating if fInvMass is already calculated for this pair
	70
	71	Double_t fKt; //K == sum vector of particle's momenta. Kt transverse component
	72	Bool_t fKtNotCalc;//flag indicating if fKt is already calculated for this pair
	73
30025bb4	74	Double_t fKStar; //
1b446896	75	Bool_t fKStarNotCalc;
	76
	77	Double_t fPInv; //invariant momentum
	78	Double_t fQSide; //Q Side
	79	Double_t fOut;//Q Out
	80	Double_t fQLong;//Q Long
	81
	82
	83	Double_t fInvMassSqr;//squre of invariant mass
	84	Bool_t fMassSqrNotCalc; //
	85	void CalculateInvMassSqr();
	86
	87	Double_t fQInvL;
	88	Bool_t fQInvLNotCalc;
	89	void CalculateQInvL();
	90
	91	Double_t fPxSum;
	92	Double_t fPySum;
	93	Double_t fPzSum;
	94	Double_t fESum;
	95	Bool_t fSumsNotCalc;
	96	void CalculateSums();
	97
	98	Double_t fPxDiff;
	99	Double_t fPyDiff;
	100	Double_t fPzDiff;
	101	Double_t fEDiff;
	102	Bool_t fDiffsNotCalc;
	103	void CalculateDiffs();
	104
	105
	106	/***************************************************/
	107	void CalculateBase();
	108	Bool_t fChanged;
	109
	110
	111	private:
	112	public:
	113	ClassDef(AliHBTPair,1)
	114	};
	115	/****************************************************************/
	116	inline
	117	void AliHBTPair::SetParticles(AliHBTParticle* p1,AliHBTParticle* p2)
	118	{
	119	//sets the particle to the pair
	120
	121	fPart1 = p1;
	122	fPart2 = p2;
	123	if (fSwapedPair) //if we have Swaped (so we are not)
	124	fSwapedPair->SetParticles(p2,p1); //set particles for him too
ec6e4013	125	Changed();
	126	//and do nothing until will be asked for
	127	}
	128	/****************************************************************/
1b446896	129
ec6e4013	130	inline
	131	void AliHBTPair::Changed()
	132	{
	133	// Resel all calculations (flags)
1b446896	134	fChanged = kTRUE;
	135	fSumsNotCalc = kTRUE;
	136	fDiffsNotCalc = kTRUE;
	137	fMassSqrNotCalc = kTRUE;
	138	fInvMassNotCalc = kTRUE;
	139	fQInvNotCalc = kTRUE;
	140	fQSideCMSLCNotCalc = kTRUE;
	141	fQOutCMSLCNotCalc = kTRUE;
	142	fQLongCMSLCNotCalc = kTRUE;
	143	fKtNotCalc = kTRUE;
	144	fKStarNotCalc = kTRUE;
	145	fQInvLNotCalc = kTRUE;
1b446896	146	}
1b446896	147	/****************************************************************/
1b446896	148	inline
	149	void AliHBTPair::CalculateInvMassSqr()
	150	{
	151	if (fMassSqrNotCalc)
	152	{
	153	CalculateSums();
	154
	155	Double_t fPart12s= (fPxSumfPxSum) + (fPySumfPySum) + (fPzSum*fPzSum);
	156
	157	fInvMassSqr=fESum*fESum-fPart12s;
	158
	159	fMassSqrNotCalc = kFALSE;
	160	}
	161	}
	162	/****************************************************************/
	163	inline
	164	void AliHBTPair::CalculateQInvL()
	165	{
7836ee94	166	//Calculates square root of Qinv
1b446896	167	if (fQInvLNotCalc)
	168	{
	169	CalculateDiffs();
	170	fQInvL = fEDifffEDiff - ( fPxDifffPxDiff + fPyDifffPyDiff + fPzDifffPzDiff );
	171	fQInvLNotCalc = kFALSE;
	172	}
	173	}
	174	/****************************************************************/
	175	inline
	176	void AliHBTPair::CalculateSums()
	177	{
	178	if(fSumsNotCalc)
	179	{
	180	fPxSum = fPart1->Px()+fPart2->Px();
	181	fPySum = fPart1->Py()+fPart2->Py();
	182	fPzSum = fPart1->Pz()+fPart2->Pz();
	183	fESum = fPart1->Energy() + fPart2->Energy();
	184	fSumsNotCalc = kFALSE;
	185	}
	186	}
	187	/****************************************************************/
	188	inline
	189	void AliHBTPair::CalculateDiffs()
	190	{
	191	if(fDiffsNotCalc)
	192	{
	193	fPxDiff = fPart1->Px()-fPart2->Px();
	194	fPyDiff = fPart1->Py()-fPart2->Py();
	195	fPzDiff = fPart1->Pz()-fPart2->Pz();
	196	fEDiff = fPart1->Energy() - fPart2->Energy();
	197	fDiffsNotCalc = kFALSE;
	198	}
	199	}
	200
7836ee94	201	/****************************************************************/
	202	inline
	203	Double_t AliHBTPair::GetDeltaP() //return difference of momenta
	204	{
	205	CalculateDiffs();
	206	return TMath::Sqrt(fPxDifffPxDiff + fPyDifffPyDiff + fPzDiff*fPzDiff);
	207	}
	208	/****************************************************************/
	209	inline
	210	Double_t AliHBTPair::GetDeltaPx()
	211	{
	212	CalculateDiffs();
	213	return fPxDiff;
	214	}
	215	/****************************************************************/
	216	inline
	217	Double_t AliHBTPair::GetDeltaPy()
	218	{
	219	CalculateDiffs();
	220	return fPyDiff;
	221	}
	222
	223	/****************************************************************/
	224	inline
	225	Double_t AliHBTPair::GetDeltaPz()
	226	{
	227	CalculateDiffs();
	228	return fPzDiff;
	229	}
	230
	231
1b446896	232	#endif