[u/mrichter/AliRoot.git] / HMPID / AliHMPIDDigit.h

#ifndef AliHMPIDDigit_h
#define AliHMPIDDigit_h
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

// Class of HMPID to manage digits ---> pads
//.
//.
//.

#include <AliDigit.h>      //base class  
#include <AliRawReader.h>
#include <AliLog.h>
#include "TMath.h"         //Mathieson()
#include <AliBitPacking.h> //Raw()
#include "AliHMPIDParam.h"

class TClonesArray;        //Hit2Sdi()
  
class AliHMPIDDigit :public AliDigit //TObject-AliDigit-AliHMPIDDigit
{
public:
    
//ctor&dtor    
  AliHMPIDDigit(                          ):AliDigit( ),fPad(AliHMPIDParam::Abs(-1,-1,-1,-1)),fQ(-1)  {}                         //default ctor
  AliHMPIDDigit(Int_t pad,Int_t q,Int_t *t):AliDigit(t),fPad(pad             ),fQ(q )  {if(fQ>4095)fQ=4095;}                     //digit ctor
  AliHMPIDDigit(Int_t pad,Int_t q         ):AliDigit( ),fPad(pad             ),fQ(q )  {if(fQ>4095)fQ=4095;}                     //digit ctor
  AliHMPIDDigit(const AliHMPIDDigit &d    ):AliDigit(d),fPad(d.fPad),fQ(d.fQ)          {}                                        //copy ctor
  virtual ~AliHMPIDDigit()                                                             {}                         //dtor   
//framework part    
         Bool_t  IsSortable  (                               )const{return kTRUE;}                                                     //provision to use TObject::Sort() 
  inline Int_t   Compare     (const TObject *pObj            )const;                                                                   //provision to use TObject::Sort()
         void    Draw        (Option_t *opt=""               );                                                                        //TObject::Draw() overloaded
         void    Print       (Option_t *opt=""               )const;                                                                   //TObject::Print() overloaded
//private part  

         void    AddTidOffset(Int_t offset                   )     {for (Int_t i=0; i<3; i++) if (fTracks[i]>0) fTracks[i]+=offset;  } //needed for merging
         Int_t   Ch          (                               )const{return AliHMPIDParam::A2C(fPad);                                                } //chamber number
 
         Float_t LorsX       (                               )const{return AliHMPIDParam::LorsX(AliHMPIDParam::A2P(fPad),AliHMPIDParam::A2X(fPad));                               } //center of the pad x, [cm]

         Float_t LorsY       (                               )const{return AliHMPIDParam::LorsY(AliHMPIDParam::A2P(fPad),AliHMPIDParam::A2Y(fPad));                               } //center of the pad y, [cm]
//  
  inline Float_t Mathieson   (Float_t x                      )const;                                                                   //Mathieson distribution 
  inline Float_t IntPartMathi(Float_t z, Int_t axis          )const;                                                                   //integral in 1-dim of Mathieson
  inline Float_t IntMathieson(Float_t x,Float_t y            )const;                                                                   //integral in 2-dim of Mathieson  
         Int_t   PadPcX      (                               )const{return AliHMPIDParam::A2X(fPad);}                                                 //pad pc x # 0..79
         Int_t   PadPcY      (                               )const{return AliHMPIDParam::A2Y(fPad);}                                                 //pad pc y # 0..47
         Int_t   PadChX      (                               )const{return (Pc()%2)*AliHMPIDParam::kPadPcX+PadPcX();}                                 //pad ch x # 0..159
         Int_t   PadChY      (                               )const{return (Pc()/2)*AliHMPIDParam::kPadPcY+PadPcY();}                                 //pad ch y # 0..143
         Int_t   Pad         (                               )const{return fPad;}                                                      //absolute id of this pad
         Int_t   Pc          (                               )const{return AliHMPIDParam::A2P(fPad);}                                                 //PC position number
         Float_t Q           (                               )const{return fQ;}                                                        //charge, [QDC]
  inline void    Raw(UInt_t &w32,Int_t &ddl,Int_t &r,Int_t &d,Int_t &a)const;
  inline Bool_t  Set         (Int_t c,Int_t p,Int_t x,Int_t y,Int_t tid=0);                                                            //manual creation 
         void    SetQ        (Float_t q                      )     {fQ=q;if(fQ>4095)fQ=4095;}                                          //manual creation 

 
protected:                                                                   //AliDigit has fTracks[3]
                                                                               

  Int_t    fPad;                                                                                                                       //absolute pad number
  Float_t  fQ;                                                               //QDC value, fractions are permitted for summable procedure  
  ClassDef(AliHMPIDDigit,4)                                                  //HMPID digit class       
};//class AliHMPIDDigit

//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

Int_t AliHMPIDDigit::Compare(const TObject *pObj) const
{
// Used in Sort() method to compare to objects. Note that abs pad structure is first x then y, hence will be sorted on column basis.
// This feature is used in digitizer to facilitate finding of sdigits for the same pad since they all will come together after sorting.
// Arguments: pObj - pointer to object to compare with
//   Retunrs: -1 if AbsPad less then in pObj, 1 if more and 0 if they are the same      
  if     (fPad==((AliHMPIDDigit*)pObj)->Pad()) return  0;
  else if(fPad >((AliHMPIDDigit*)pObj)->Pad()) return  1;
  else                                         return -1;
}
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

Float_t AliHMPIDDigit::Mathieson(Float_t x)const
{
// Mathieson function.
// This is the answer to electrostatic problem of charge distrubution in MWPC described elsewhere. (NIM A370(1988)602-603)
// Arguments: x- position of the center of Mathieson distribution
//  Returns: value of the Mathieson function
  Float_t  kK1=0.28278795,kK2=0.96242952, kSqrtK3 =0.77459667, kD=0.445;
  Float_t lambda = x/kD;
  Float_t a=1-TMath::TanH(kK2*lambda)*TMath::TanH(kK2*lambda);
  Float_t b=1+kSqrtK3*kSqrtK3*TMath::TanH(kK2*lambda)*TMath::TanH(kK2*lambda);
  Float_t mathi = kK1*a/b;
  return mathi;
}
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

Float_t AliHMPIDDigit::IntPartMathi(Float_t z, Int_t axis)const
{
// Integration of Mathieson.
// This is the answer to electrostatic problem of charge distrubution in MWPC described elsewhere. (NIM A370(1988)602-603)
// Arguments: x,y- position of the center of Mathieson distribution
//  Returns: a charge fraction [0-1] imposed into the pad
  Float_t shift1,shift2;
  if(axis==1) {
    shift1 = -LorsX()+0.5*AliHMPIDParam::SizePadX();
    shift2 = -LorsX()-0.5*AliHMPIDParam::SizePadX();
  } else {
    shift1 = -LorsY()+0.5*AliHMPIDParam::SizePadY();
    shift2 = -LorsY()-0.5*AliHMPIDParam::SizePadY();
  }
    
  Float_t  kK2=0.96242952, kSqrtK3 =0.77459667,  kK4=0.37932926, kD=0.445;

  Float_t ux1=kSqrtK3*TMath::TanH(kK2*(z+shift1)/kD);
  Float_t ux2=kSqrtK3*TMath::TanH(kK2*(z+shift2)/kD);
  
  return kK4*(TMath::ATan(ux2)-TMath::ATan(ux1));
}
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

Float_t AliHMPIDDigit::IntMathieson(Float_t x,Float_t y)const
{
// Integration of Mathieson.
// This is the answer to electrostatic problem of charge distrubution in MWPC described elsewhere. (NIM A370(1988)602-603)
// Arguments: x,y- position of the center of Mathieson distribution
//  Returns: a charge fraction [0-1] imposed into the pad

  Float_t xm = IntPartMathi(x,1);
  Float_t ym = IntPartMathi(y,2);
  return 4*xm*ym;
}
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
void AliHMPIDDigit::Raw(UInt_t &w32,Int_t &ddl,Int_t &r,Int_t &d,Int_t &a)const
{
// Convert digit structure to raw word format
// Arguments: w32,ddl,r,d,a where to write the results
//   Returns: none
  Int_t y2a[6]={5,3,1,0,2,4};

  ddl=2*Ch()+Pc()%2;                    //DDL# 0..13
  Int_t tmp=1+Pc()/2*8+PadPcY()/6;  r=(Pc()%2)? tmp:25-tmp;               //row r=1..24
  d=1+PadPcX()/8;                       //DILOGIC# 1..10
  a=y2a[PadPcY()%6]+6*(7-PadPcX()%8);   //ADDRESS 0..47        
    
  w32=0;   
  //Printf("+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++");
  //
  //Printf("AliHMPIDDigit::Raw ddl: %d r: %d d: %d a: %d",ddl,r,d,a);
  //Printf("+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++");
//  Bool_t isOK=kTRUE; isOK=
  AliBitPacking::PackWord((UInt_t)fQ,w32, 0,11);                      // 0000 0rrr rrdd ddaa aaaa qqqq qqqq qqqq        Qdc               bits (00..11) counts (0..4095)
  assert(0<=a&&a<=47);AliBitPacking::PackWord(        a ,w32,12,17);  // 3322 2222 2222 1111 1111 1000 0000 0000        DILOGIC address   bits (12..17) counts (0..47)
  assert(1<=d&&d<=10);AliBitPacking::PackWord(        d ,w32,18,21);  // 1098 7654 3210 9876 5432 1098 7654 3210        DILOGIC number    bits (18..21) counts (1..10)
  assert(1<=r&&r<=24);AliBitPacking::PackWord(        r ,w32,22,26);  //                                                Row number        bits (22..26) counts (1..24)  
                      AliBitPacking::PackWord((UInt_t)0, w32,27,27);  //To make sure set the 27th bit to Zero so we can distinguis it from the EoE
}
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Bool_t AliHMPIDDigit::Set(Int_t ch,Int_t pc,Int_t px,Int_t py,Int_t tid)
{
// Manual creation of digit
// Arguments: ch,pc,px,py,qdc,tid  
//   Returns: kTRUE if wrong digit
  if(px<AliHMPIDParam::kMinPx || px>AliHMPIDParam::kMaxPx) return kTRUE;
  if(py<AliHMPIDParam::kMinPy || py>AliHMPIDParam::kMaxPy) return kTRUE;

  fPad=AliHMPIDParam::Abs(ch,pc,px,py);fTracks[0]=tid;
  fQ=0;
  return kFALSE;
}
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

#endif
Commit	Line	Data
d3da6dc4	1	#ifndef AliHMPIDDigit_h
	2	#define AliHMPIDDigit_h
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
ea925242	6	// Class of HMPID to manage digits ---> pads
1b10372c	7	//.
	8	//.
	9	//.
ea925242	10
d3da6dc4	11	#include <AliDigit.h> //base class
49dfd67a	12	#include <AliRawReader.h>
49dfd67a	13	#include <AliLog.h>
ea925242	14	#include "TMath.h" //Mathieson()
d3da6dc4	15	#include <AliBitPacking.h> //Raw()
ae5a42aa	16	#include "AliHMPIDParam.h"
d3da6dc4	17
d3da6dc4	18	class TClonesArray; //Hit2Sdi()
3c6274c1	19
d3da6dc4	20	class AliHMPIDDigit :public AliDigit //TObject-AliDigit-AliHMPIDDigit
	21	{
	22	public:
ae5a42aa	23
d3da6dc4	24	//ctor&dtor
ae5a42aa	25	AliHMPIDDigit( ):AliDigit( ),fPad(AliHMPIDParam::Abs(-1,-1,-1,-1)),fQ(-1) {} //default ctor
260a8dc4	26	AliHMPIDDigit(Int_t pad,Int_t q,Int_t *t):AliDigit(t),fPad(pad ),fQ(q ) {if(fQ>4095)fQ=4095;} //digit ctor
	27	AliHMPIDDigit(Int_t pad,Int_t q ):AliDigit( ),fPad(pad ),fQ(q ) {if(fQ>4095)fQ=4095;} //digit ctor
	28	AliHMPIDDigit(const AliHMPIDDigit &d ):AliDigit(d),fPad(d.fPad),fQ(d.fQ) {} //copy ctor
1d4857c5	29	virtual ~AliHMPIDDigit() {} //dtor
d3da6dc4	30	//framework part
	31	Bool_t IsSortable ( )const{return kTRUE;} //provision to use TObject::Sort()
	32	inline Int_t Compare (const TObject *pObj )const; //provision to use TObject::Sort()
d1bf51e1	33	void Draw (Option_t *opt="" ); //TObject::Draw() overloaded
d3da6dc4	34	void Print (Option_t *opt="" )const; //TObject::Print() overloaded
d3da6dc4	35	//private part
ae5a42aa	36
1d4857c5	37	void AddTidOffset(Int_t offset ) {for (Int_t i=0; i<3; i++) if (fTracks[i]>0) fTracks[i]+=offset; } //needed for merging
ae5a42aa	38	Int_t Ch ( )const{return AliHMPIDParam::A2C(fPad); } //chamber number
	39
	40	Float_t LorsX ( )const{return AliHMPIDParam::LorsX(AliHMPIDParam::A2P(fPad),AliHMPIDParam::A2X(fPad)); } //center of the pad x, [cm]
	41
	42	Float_t LorsY ( )const{return AliHMPIDParam::LorsY(AliHMPIDParam::A2P(fPad),AliHMPIDParam::A2Y(fPad)); } //center of the pad y, [cm]
	43	//
76fd1a96	44	inline Float_t Mathieson (Float_t x )const; //Mathieson distribution
	45	inline Float_t IntPartMathi(Float_t z, Int_t axis )const; //integral in 1-dim of Mathieson
	46	inline Float_t IntMathieson(Float_t x,Float_t y )const; //integral in 2-dim of Mathieson
ae5a42aa	47	Int_t PadPcX ( )const{return AliHMPIDParam::A2X(fPad);} //pad pc x # 0..79
	48	Int_t PadPcY ( )const{return AliHMPIDParam::A2Y(fPad);} //pad pc y # 0..47
	49	Int_t PadChX ( )const{return (Pc()%2)*AliHMPIDParam::kPadPcX+PadPcX();} //pad ch x # 0..159
	50	Int_t PadChY ( )const{return (Pc()/2)*AliHMPIDParam::kPadPcY+PadPcY();} //pad ch y # 0..143
d3da6dc4	51	Int_t Pad ( )const{return fPad;} //absolute id of this pad
ae5a42aa	52	Int_t Pc ( )const{return AliHMPIDParam::A2P(fPad);} //PC position number
da08475b	53	Float_t Q ( )const{return fQ;} //charge, [QDC]
21f61e25	54	inline void Raw(UInt_t &w32,Int_t &ddl,Int_t &r,Int_t &d,Int_t &a)const;
f3bae3e2	55	inline Bool_t Set (Int_t c,Int_t p,Int_t x,Int_t y,Int_t tid=0); //manual creation
260a8dc4	56	void SetQ (Float_t q ) {fQ=q;if(fQ>4095)fQ=4095;} //manual creation
ae5a42aa	57
21f61e25	58
c5c19d6a	59	protected: //AliDigit has fTracks[3]
ae5a42aa	60
ae5a42aa	61
1b10372c	62	Int_t fPad; //absolute pad number
c5c19d6a	63	Float_t fQ; //QDC value, fractions are permitted for summable procedure
	64	ClassDef(AliHMPIDDigit,4) //HMPID digit class
	65	};//class AliHMPIDDigit
cf7e313e	66
d3da6dc4	67	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
ae5a42aa	68
d3da6dc4	69	Int_t AliHMPIDDigit::Compare(const TObject *pObj) const
	70	{
	71	// Used in Sort() method to compare to objects. Note that abs pad structure is first x then y, hence will be sorted on column basis.
	72	// This feature is used in digitizer to facilitate finding of sdigits for the same pad since they all will come together after sorting.
	73	// Arguments: pObj - pointer to object to compare with
	74	// Retunrs: -1 if AbsPad less then in pObj, 1 if more and 0 if they are the same
	75	if (fPad==((AliHMPIDDigit*)pObj)->Pad()) return 0;
	76	else if(fPad >((AliHMPIDDigit*)pObj)->Pad()) return 1;
da08475b	77	else return -1;
d3da6dc4	78	}
d3da6dc4	79	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
ae5a42aa	80
76fd1a96	81	Float_t AliHMPIDDigit::Mathieson(Float_t x)const
	82	{
	83	// Mathieson function.
	84	// This is the answer to electrostatic problem of charge distrubution in MWPC described elsewhere. (NIM A370(1988)602-603)
	85	// Arguments: x- position of the center of Mathieson distribution
	86	// Returns: value of the Mathieson function
	87	Float_t kK1=0.28278795,kK2=0.96242952, kSqrtK3 =0.77459667, kD=0.445;
	88	Float_t lambda = x/kD;
	89	Float_t a=1-TMath::TanH(kK2lambda)TMath::TanH(kK2*lambda);
	90	Float_t b=1+kSqrtK3kSqrtK3TMath::TanH(kK2lambda)TMath::TanH(kK2*lambda);
	91	Float_t mathi = kK1*a/b;
	92	return mathi;
	93	}
	94	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
	95
	96	Float_t AliHMPIDDigit::IntPartMathi(Float_t z, Int_t axis)const
	97	{
	98	// Integration of Mathieson.
	99	// This is the answer to electrostatic problem of charge distrubution in MWPC described elsewhere. (NIM A370(1988)602-603)
	100	// Arguments: x,y- position of the center of Mathieson distribution
	101	// Returns: a charge fraction [0-1] imposed into the pad
	102	Float_t shift1,shift2;
	103	if(axis==1) {
	104	shift1 = -LorsX()+0.5*AliHMPIDParam::SizePadX();
	105	shift2 = -LorsX()-0.5*AliHMPIDParam::SizePadX();
	106	} else {
	107	shift1 = -LorsY()+0.5*AliHMPIDParam::SizePadY();
	108	shift2 = -LorsY()-0.5*AliHMPIDParam::SizePadY();
	109	}
	110
	111	Float_t kK2=0.96242952, kSqrtK3 =0.77459667, kK4=0.37932926, kD=0.445;
	112
	113	Float_t ux1=kSqrtK3TMath::TanH(kK2(z+shift1)/kD);
	114	Float_t ux2=kSqrtK3TMath::TanH(kK2(z+shift2)/kD);
	115
	116	return kK4*(TMath::ATan(ux2)-TMath::ATan(ux1));
	117	}
	118	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
	119
c5c19d6a	120	Float_t AliHMPIDDigit::IntMathieson(Float_t x,Float_t y)const
d3da6dc4	121	{
c5c19d6a	122	// Integration of Mathieson.
d3da6dc4	123	// This is the answer to electrostatic problem of charge distrubution in MWPC described elsewhere. (NIM A370(1988)602-603)
	124	// Arguments: x,y- position of the center of Mathieson distribution
	125	// Returns: a charge fraction [0-1] imposed into the pad
d3da6dc4	126
76fd1a96	127	Float_t xm = IntPartMathi(x,1);
	128	Float_t ym = IntPartMathi(y,2);
	129	return 4xmym;
d3da6dc4	130	}
d3da6dc4	131	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
1d4857c5	132	void AliHMPIDDigit::Raw(UInt_t &w32,Int_t &ddl,Int_t &r,Int_t &d,Int_t &a)const
d3da6dc4	133	{
d3da6dc4	134	// Convert digit structure to raw word format
1d4857c5	135	// Arguments: w32,ddl,r,d,a where to write the results
	136	// Returns: none
	137	Int_t y2a[6]={5,3,1,0,2,4};
	138
74075fbf	139	ddl=2*Ch()+Pc()%2; //DDL# 0..13
74075fbf	140	Int_t tmp=1+Pc()/2*8+PadPcY()/6; r=(Pc()%2)? tmp:25-tmp; //row r=1..24
74075fbf	141	d=1+PadPcX()/8; //DILOGIC# 1..10
08801509	142	a=y2a[PadPcY()%6]+6*(7-PadPcX()%8); //ADDRESS 0..47
409d1dee	143
21f61e25	144	w32=0;
	145	//Printf("+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++");
	146	//
	147	//Printf("AliHMPIDDigit::Raw ddl: %d r: %d d: %d a: %d",ddl,r,d,a);
	148	//Printf("+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++");
	149	// Bool_t isOK=kTRUE; isOK=
260a8dc4	150	AliBitPacking::PackWord((UInt_t)fQ,w32, 0,11); // 0000 0rrr rrdd ddaa aaaa qqqq qqqq qqqq Qdc bits (00..11) counts (0..4095)
21f61e25	151	assert(0<=a&&a<=47);AliBitPacking::PackWord( a ,w32,12,17); // 3322 2222 2222 1111 1111 1000 0000 0000 DILOGIC address bits (12..17) counts (0..47)
	152	assert(1<=d&&d<=10);AliBitPacking::PackWord( d ,w32,18,21); // 1098 7654 3210 9876 5432 1098 7654 3210 DILOGIC number bits (18..21) counts (1..10)
	153	assert(1<=r&&r<=24);AliBitPacking::PackWord( r ,w32,22,26); // Row number bits (22..26) counts (1..24)
	154	AliBitPacking::PackWord((UInt_t)0, w32,27,27); //To make sure set the 27th bit to Zero so we can distinguis it from the EoE
d3da6dc4	155	}
d3da6dc4	156	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
f3bae3e2	157	Bool_t AliHMPIDDigit::Set(Int_t ch,Int_t pc,Int_t px,Int_t py,Int_t tid)
1d4857c5	158	{
	159	// Manual creation of digit
	160	// Arguments: ch,pc,px,py,qdc,tid
f3bae3e2	161	// Returns: kTRUE if wrong digit
ae5a42aa	162	if(px<AliHMPIDParam::kMinPx \|\| px>AliHMPIDParam::kMaxPx) return kTRUE;
ae5a42aa	163	if(py<AliHMPIDParam::kMinPy \|\| py>AliHMPIDParam::kMaxPy) return kTRUE;
1d4857c5	164
ae5a42aa	165	fPad=AliHMPIDParam::Abs(ch,pc,px,py);fTracks[0]=tid;
f3bae3e2	166	fQ=0;
1d4857c5	167	return kFALSE;
1d4857c5	168	}
21f61e25	169	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
21f61e25	170
d3da6dc4	171	#endif