[u/mrichter/AliRoot.git] / ZDC / AliZDCCalibData.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 for ZDC calibration                                                 //
//                                                                           //
///////////////////////////////////////////////////////////////////////////////

#include "AliZDCCalibData.h"

ClassImp(AliZDCCalibData)

//________________________________________________________________
AliZDCCalibData::AliZDCCalibData()
{
  Reset();
}

//________________________________________________________________
AliZDCCalibData::AliZDCCalibData(const char* name)
{
  // Constructor
  TString namst = "Calib_";
  namst += name;
  SetName(namst.Data());
  SetTitle(namst.Data());
  Reset();
}

//________________________________________________________________
AliZDCCalibData::AliZDCCalibData(const AliZDCCalibData& calibda) :
  TNamed(calibda)
{
  // Copy constructor
  SetName(calibda.GetName());
  SetTitle(calibda.GetName());
  Reset();
  for(int t=0; t<48; t++){
     fMeanPedestal[t] = calibda.GetMeanPed(t);
     fMeanPedWidth[t] = calibda.GetMeanPedWidth(t);
     fOOTPedestal[t]  = calibda.GetOOTPed(t);
     fOOTPedWidth[t]  = calibda.GetOOTPedWidth(t);
     fPedCorrCoeff[0][t] = calibda.GetPedCorrCoeff0(t);
     fPedCorrCoeff[1][t] = calibda.GetPedCorrCoeff1(t);
  }
  for(int t=0; t<6; t++)  fEnCalibration[t] = calibda.GetEnCalib(t);
  //
  fZEMEndValue    = calibda.GetZEMEndValue();   
  fZEMCutFraction = calibda.GetZEMCutFraction();
  fDZEMSup	  = calibda.GetDZEMSup();
  fDZEMInf	  = calibda.GetDZEMInf();
}

//________________________________________________________________
AliZDCCalibData &AliZDCCalibData::operator =(const AliZDCCalibData& calibda)
{
// assignment operator
  SetName(calibda.GetName());
  SetTitle(calibda.GetName());
  Reset();
  for(int t=0; t<48; t++){
     fMeanPedestal[t] = calibda.GetMeanPed(t);
     fMeanPedWidth[t] = calibda.GetMeanPedWidth(t);
     fOOTPedestal[t]  = calibda.GetOOTPed(t);
     fOOTPedWidth[t]  = calibda.GetOOTPedWidth(t);
     fPedCorrCoeff[0][t] = calibda.GetPedCorrCoeff0(t);
     fPedCorrCoeff[1][t] = calibda.GetPedCorrCoeff1(t);
  }
  for(int t=0; t<6; t++) fEnCalibration[t] = calibda.GetEnCalib(t);
  fZEMEndValue    = calibda.GetZEMEndValue();
  fZEMCutFraction = calibda.GetZEMCutFraction();

  return *this;
}

//________________________________________________________________
AliZDCCalibData::~AliZDCCalibData()
{
}

//________________________________________________________________
void AliZDCCalibData::Reset()
{
  // Reset
  memset(fMeanPedestal,0,48*sizeof(Float_t));
  memset(fMeanPedWidth,0,48*sizeof(Float_t));
  memset(fOOTPedestal,0,48*sizeof(Float_t));
  memset(fOOTPedWidth,0,48*sizeof(Float_t));
  memset(fEnCalibration,0,6*sizeof(Float_t));
}                                                                                       


//________________________________________________________________
void  AliZDCCalibData::Print(Option_t *) const
{
   // Printing of calibration object
   printf("\n #######	In-time pedestal values (mean value, sigma)	####### \n");
   for(int t=0; t<48; t++){
     if(t==0 || t==24) printf("\n-------- ZN1 HighRes -------- \n");
     else if(t==5 || t==29) printf("\n-------- ZN1 LowRes -------- \n");
     else if(t==10 || t==34) printf("\n-------- ZP1 HighRes -------- \n");
     else if(t==15 || t==39) printf("\n-------- ZP1 LowRes -------- \n");
     else if(t==20) printf("\n-------- ZEM1 HighRes --------  \n");
     else if(t==21) printf("\n-------- ZEM1 LowRes --------  \n");
     else if(t==22) printf("\n-------- ZEM2 HighRes --------  \n");
     else if(t==23) printf("\n-------- ZEM2 LowRes --------  \n");
     printf("ADC%d (%.1f, %.1f)  ",t,fMeanPedestal[t],fMeanPedWidth[t]);
   }
   //
   printf("\n\n #######	Out-of-time pedestal values (mean value, sigma)	####### \n");
   for(int t=0; t<48; t++){
     if(t==0 || t==24) printf("\n-------- ZN1 HighRes -------- \n");
     else if(t==5 || t==29) printf("\n-------- ZN1 LowRes -------- \n");
     else if(t==10 || t==34) printf("\n-------- ZP1 HighRes -------- \n");
     else if(t==15 || t==39) printf("\n-------- ZP1 LowRes -------- \n");
     else if(t==20) printf("\n-------- ZEM1 HighRes --------  \n");
     else if(t==21) printf("\n-------- ZEM1 LowRes --------  \n");
     else if(t==22) printf("\n-------- ZEM2 HighRes --------  \n");
     else if(t==23) printf("\n-------- ZEM2 LowRes --------  \n");
     printf("ADC%d (%.1f, %.1f)  ",t,fOOTPedestal[t],fOOTPedWidth[t]);
   }
 
   printf("\n\n #######	Energy calibration coefficients #######	\n");
   printf("  ZN1 = %.4f (E[TeV]/ADCch.) \n",fEnCalibration[0]);
   printf("  ZP1 = %.4f (E[TeV]/ADCch.) \n",fEnCalibration[1]);
   printf("  ZN2 = %.4f (E[TeV]/ADCch.) \n",fEnCalibration[2]);
   printf("  ZP2 = %.4f (E[TeV]/ADCch.) \n",fEnCalibration[3]);
   printf("  ZEM1 = %.2f (E[TeV]/ADCch.) \n",fEnCalibration[4]);
   printf("  ZEM2 = %.2f (E[TeV]/ADCch.) \n",fEnCalibration[5]);
 
   printf("\n\n #######	Equalization coefficients #######	\n");
   printf("  ZN1 -> %1.2f %1.2f %1.2f %1.2f %1.2f  \n",
    fZN1EqualCoeff[0],fZN1EqualCoeff[1],fZN1EqualCoeff[2],fZN1EqualCoeff[3],fZN1EqualCoeff[4]);
   printf("  ZP1 -> %1.2f %1.2f %1.2f %1.2f %1.2f  \n",
    fZP1EqualCoeff[0],fZP1EqualCoeff[1],fZP1EqualCoeff[2],fZP1EqualCoeff[3],fZP1EqualCoeff[4]);
   printf("  ZN2 -> %1.2f %1.2f %1.2f %1.2f %1.2f  \n",
    fZN2EqualCoeff[0],fZN2EqualCoeff[1],fZN2EqualCoeff[2],fZN2EqualCoeff[3],fZN2EqualCoeff[4]);
   printf("  ZP2 -> %1.2f %1.2f %1.2f %1.2f %1.2f  \n",
    fZP2EqualCoeff[0],fZP2EqualCoeff[1],fZP2EqualCoeff[2],fZP2EqualCoeff[3],fZP2EqualCoeff[4]);
 
   printf("\n\n #######	Parameters from EZDC vs. ZEM correlation #######	\n");
   printf("  ZEMEndPoint = %1.2f, ZEMCutFraction = %1.2f \n"
     "	DZEMInf = %1.2f, DZEMSup = %1.2f\n",
     fZEMEndValue, fZEMCutFraction, fDZEMInf, fDZEMSup);
 
   printf("\n\n #######	Parameters from EZDC vs. Nspec correlation #######	\n");
   printf("  EZN1MaxValue = %1.2f, EZP1MaxValue = %1.2f, EZDC1MaxValue = %1.2f \n"
     "  EZN2MaxValue = %1.2f, EZP2MaxValue = %1.2f, EZDC2MaxValue = %1.2f \n\n",
     fEZN1MaxValue, fEZP1MaxValue, fEZDC1MaxValue,
     fEZN2MaxValue, fEZP2MaxValue, fEZDC2MaxValue);

} 

//________________________________________________________________
void AliZDCCalibData::SetMeanPed(Float_t* MeanPed)
{
  if(MeanPed) for(int t=0; t<48; t++) fMeanPedestal[t] = MeanPed[t];
  else for(int t=0; t<48; t++) fMeanPedestal[t] = 0.;
}
//________________________________________________________________
void AliZDCCalibData::SetMeanPedWidth(Float_t* MeanPedWidth)
{
  if(MeanPedWidth) for(int t=0; t<48; t++) fMeanPedWidth[t] = MeanPedWidth[t];
  else for(int t=0; t<48; t++) fMeanPedWidth[t] = 0.;
}

//________________________________________________________________
void AliZDCCalibData::SetOOTPed(Float_t* OOTPed)
{
  if(OOTPed) for(int t=0; t<48; t++) fOOTPedestal[t] = OOTPed[t];
  else for(int t=0; t<48; t++) fOOTPedestal[t] = 0.;
}

//________________________________________________________________
void AliZDCCalibData::SetOOTPedWidth(Float_t* OOTPedWidth)
{
  if(OOTPedWidth) for(int t=0; t<48; t++) fOOTPedWidth[t] = OOTPedWidth[t];
  else for(int t=0; t<48; t++) fOOTPedWidth[t] = 0.;
}

//________________________________________________________________
void AliZDCCalibData:: SetPedCorrCoeff(Float_t* PedCorrCoeff)
{
  // Set coefficients for pedestal correlations
  if(PedCorrCoeff){
    for(Int_t j=0; j<2; j++){
     for(int t=0; t<48; t++)
       fPedCorrCoeff[j][t] = PedCorrCoeff[t];
    }
  }
  else{
    for(Int_t j=0; j<2; j++){
     for(int t=0; t<48; t++)
       fPedCorrCoeff[j][t] = 0.;
    }
  }
 
}

//________________________________________________________________
void AliZDCCalibData:: SetPedCorrCoeff(Float_t* PedCorrCoeff0, Float_t* PedCorrCoeff1)
{
  // Set coefficients for pedestal correlations
  if(PedCorrCoeff0 && PedCorrCoeff1){
    for(int t=0; t<48; t++){
       fPedCorrCoeff[0][t] = PedCorrCoeff0[t];
       fPedCorrCoeff[0][t] = PedCorrCoeff1[t];
    }
  }
  else{
     for(int t=0; t<48; t++){
       fPedCorrCoeff[0][t] = 0.;
       fPedCorrCoeff[1][t] = 0.;
    }
  }
 
}

//________________________________________________________________
void AliZDCCalibData::SetEnCalib(Float_t* EnCalib) 
{
  // Set energy calibration coefficients
  if(EnCalib) for(int t=0; t<6; t++) fEnCalibration[t] = EnCalib[t];
  else for(int t=0; t<6; t++) fEnCalibration[t] = 0.;
}

//________________________________________________________________
void AliZDCCalibData::SetZN1EqualCoeff(Float_t* EqualCoeff)
{
  // Set ZN1 equalization coefficients
  if(EqualCoeff) for(int t=0; t<5; t++) fZN1EqualCoeff[t] = EqualCoeff[t];
  else for(int t=0; t<5; t++) fZN1EqualCoeff[t] = 1.;
}
 
//________________________________________________________________
void AliZDCCalibData::SetZP1EqualCoeff(Float_t* EqualCoeff)
{
  // Set ZP1 equalization coefficients
  if(EqualCoeff) for(int t=0; t<5; t++) fZP1EqualCoeff[t] = EqualCoeff[t];
  else for(int t=0; t<5; t++) fZP1EqualCoeff[t] = 1.;
}
//________________________________________________________________
void AliZDCCalibData::SetZN2EqualCoeff(Float_t* EqualCoeff)
{
  // Set ZN2 equalization coefficients
  if(EqualCoeff) for(int t=0; t<5; t++) fZN2EqualCoeff[t] = EqualCoeff[t];
  else for(int t=0; t<5; t++) fZN2EqualCoeff[t] = 1.;
}
 
//________________________________________________________________
void AliZDCCalibData::SetZP2EqualCoeff(Float_t* EqualCoeff)
{
  // Set ZN1 equalization coefficients
  if(EqualCoeff) for(int t=0; t<5; t++) fZP2EqualCoeff[t] = EqualCoeff[t];
  else for(int t=0; t<5; t++) fZP2EqualCoeff[t] = 1.;
}
Commit	Line	Data
8af17dba	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
	16	/* $Id$ */
	17
	18	///////////////////////////////////////////////////////////////////////////////
	19	// //
	20	// class for ZDC calibration //
	21	// //
	22	///////////////////////////////////////////////////////////////////////////////
	23
	24	#include "AliZDCCalibData.h"
	25
	26	ClassImp(AliZDCCalibData)
	27
	28	//________________________________________________________________
	29	AliZDCCalibData::AliZDCCalibData()
	30	{
8af17dba	31	Reset();
	32	}
	33
	34	//________________________________________________________________
	35	AliZDCCalibData::AliZDCCalibData(const char* name)
	36	{
8a2624cc	37	// Constructor
8af17dba	38	TString namst = "Calib_";
	39	namst += name;
	40	SetName(namst.Data());
	41	SetTitle(namst.Data());
8af17dba	42	Reset();
	43	}
	44
8599f95e	45	//________________________________________________________________
	46	AliZDCCalibData::AliZDCCalibData(const AliZDCCalibData& calibda) :
	47	TNamed(calibda)
	48	{
c0aec6f6	49	// Copy constructor
8599f95e	50	SetName(calibda.GetName());
	51	SetTitle(calibda.GetName());
	52	Reset();
83347831	53	for(int t=0; t<48; t++){
8831501a	54	fMeanPedestal[t] = calibda.GetMeanPed(t);
8831501a	55	fMeanPedWidth[t] = calibda.GetMeanPedWidth(t);
8831501a	56	fOOTPedestal[t] = calibda.GetOOTPed(t);
	57	fOOTPedWidth[t] = calibda.GetOOTPedWidth(t);
	58	fPedCorrCoeff[0][t] = calibda.GetPedCorrCoeff0(t);
	59	fPedCorrCoeff[1][t] = calibda.GetPedCorrCoeff1(t);
	60	}
72bde173	61	for(int t=0; t<6; t++) fEnCalibration[t] = calibda.GetEnCalib(t);
ac992fb1	62	//
646f1679	63	fZEMEndValue = calibda.GetZEMEndValue();
	64	fZEMCutFraction = calibda.GetZEMCutFraction();
	65	fDZEMSup = calibda.GetDZEMSup();
	66	fDZEMInf = calibda.GetDZEMInf();
8599f95e	67	}
	68
	69	//________________________________________________________________
	70	AliZDCCalibData &AliZDCCalibData::operator =(const AliZDCCalibData& calibda)
	71	{
	72	// assignment operator
	73	SetName(calibda.GetName());
	74	SetTitle(calibda.GetName());
	75	Reset();
83347831	76	for(int t=0; t<48; t++){
8831501a	77	fMeanPedestal[t] = calibda.GetMeanPed(t);
8831501a	78	fMeanPedWidth[t] = calibda.GetMeanPedWidth(t);
8831501a	79	fOOTPedestal[t] = calibda.GetOOTPed(t);
	80	fOOTPedWidth[t] = calibda.GetOOTPedWidth(t);
	81	fPedCorrCoeff[0][t] = calibda.GetPedCorrCoeff0(t);
	82	fPedCorrCoeff[1][t] = calibda.GetPedCorrCoeff1(t);
	83	}
72bde173	84	for(int t=0; t<6; t++) fEnCalibration[t] = calibda.GetEnCalib(t);
646f1679	85	fZEMEndValue = calibda.GetZEMEndValue();
646f1679	86	fZEMCutFraction = calibda.GetZEMCutFraction();
ac992fb1	87
8599f95e	88	return *this;
	89	}
	90
8af17dba	91	//________________________________________________________________
	92	AliZDCCalibData::~AliZDCCalibData()
	93	{
8af17dba	94	}
	95
	96	//________________________________________________________________
	97	void AliZDCCalibData::Reset()
	98	{
8a2624cc	99	// Reset
83347831	100	memset(fMeanPedestal,0,48*sizeof(Float_t));
	101	memset(fMeanPedWidth,0,48*sizeof(Float_t));
	102	memset(fOOTPedestal,0,48*sizeof(Float_t));
	103	memset(fOOTPedWidth,0,48*sizeof(Float_t));
72bde173	104	memset(fEnCalibration,0,6*sizeof(Float_t));
8af17dba	105	}
8af17dba	106
8af17dba	107
8af17dba	108	//________________________________________________________________
5bc762ca	109	void AliZDCCalibData::Print(Option_t *) const
8af17dba	110	{
8a2624cc	111	// Printing of calibration object
e1ea0c63	112	printf("\n ####### In-time pedestal values (mean value, sigma) ####### \n");
83347831	113	for(int t=0; t<48; t++){
6cd02eaf	114	if(t==0 \|\| t==24) printf("\n-------- ZN1 HighRes -------- \n");
	115	else if(t==5 \|\| t==29) printf("\n-------- ZN1 LowRes -------- \n");
	116	else if(t==10 \|\| t==34) printf("\n-------- ZP1 HighRes -------- \n");
	117	else if(t==15 \|\| t==39) printf("\n-------- ZP1 LowRes -------- \n");
e1ea0c63	118	else if(t==20) printf("\n-------- ZEM1 HighRes -------- \n");
	119	else if(t==21) printf("\n-------- ZEM1 LowRes -------- \n");
	120	else if(t==22) printf("\n-------- ZEM2 HighRes -------- \n");
	121	else if(t==23) printf("\n-------- ZEM2 LowRes -------- \n");
ac992fb1	122	printf("ADC%d (%.1f, %.1f) ",t,fMeanPedestal[t],fMeanPedWidth[t]);
31af5828	123	}
e1ea0c63	124	//
646f1679	125	printf("\n\n ####### Out-of-time pedestal values (mean value, sigma) ####### \n");
83347831	126	for(int t=0; t<48; t++){
6cd02eaf	127	if(t==0 \|\| t==24) printf("\n-------- ZN1 HighRes -------- \n");
	128	else if(t==5 \|\| t==29) printf("\n-------- ZN1 LowRes -------- \n");
	129	else if(t==10 \|\| t==34) printf("\n-------- ZP1 HighRes -------- \n");
	130	else if(t==15 \|\| t==39) printf("\n-------- ZP1 LowRes -------- \n");
e1ea0c63	131	else if(t==20) printf("\n-------- ZEM1 HighRes -------- \n");
	132	else if(t==21) printf("\n-------- ZEM1 LowRes -------- \n");
	133	else if(t==22) printf("\n-------- ZEM2 HighRes -------- \n");
	134	else if(t==23) printf("\n-------- ZEM2 LowRes -------- \n");
ac992fb1	135	printf("ADC%d (%.1f, %.1f) ",t,fOOTPedestal[t],fOOTPedWidth[t]);
8af17dba	136	}
72bde173	137
646f1679	138	printf("\n\n ####### Energy calibration coefficients ####### \n");
e1ea0c63	139	printf(" ZN1 = %.4f (E[TeV]/ADCch.) \n",fEnCalibration[0]);
	140	printf(" ZP1 = %.4f (E[TeV]/ADCch.) \n",fEnCalibration[1]);
	141	printf(" ZN2 = %.4f (E[TeV]/ADCch.) \n",fEnCalibration[2]);
	142	printf(" ZP2 = %.4f (E[TeV]/ADCch.) \n",fEnCalibration[3]);
	143	printf(" ZEM1 = %.2f (E[TeV]/ADCch.) \n",fEnCalibration[4]);
	144	printf(" ZEM2 = %.2f (E[TeV]/ADCch.) \n",fEnCalibration[5]);
ac992fb1	145
dcf60b09	146	printf("\n\n ####### Equalization coefficients ####### \n");
ac992fb1	147	printf(" ZN1 -> %1.2f %1.2f %1.2f %1.2f %1.2f \n",
	148	fZN1EqualCoeff[0],fZN1EqualCoeff[1],fZN1EqualCoeff[2],fZN1EqualCoeff[3],fZN1EqualCoeff[4]);
	149	printf(" ZP1 -> %1.2f %1.2f %1.2f %1.2f %1.2f \n",
	150	fZP1EqualCoeff[0],fZP1EqualCoeff[1],fZP1EqualCoeff[2],fZP1EqualCoeff[3],fZP1EqualCoeff[4]);
	151	printf(" ZN2 -> %1.2f %1.2f %1.2f %1.2f %1.2f \n",
	152	fZN2EqualCoeff[0],fZN2EqualCoeff[1],fZN2EqualCoeff[2],fZN2EqualCoeff[3],fZN2EqualCoeff[4]);
dcf60b09	153	printf(" ZP2 -> %1.2f %1.2f %1.2f %1.2f %1.2f \n",
ac992fb1	154	fZP2EqualCoeff[0],fZP2EqualCoeff[1],fZP2EqualCoeff[2],fZP2EqualCoeff[3],fZP2EqualCoeff[4]);
dcf60b09	155
646f1679	156	printf("\n\n ####### Parameters from EZDC vs. ZEM correlation ####### \n");
	157	printf(" ZEMEndPoint = %1.2f, ZEMCutFraction = %1.2f \n"
	158	" DZEMInf = %1.2f, DZEMSup = %1.2f\n",
	159	fZEMEndValue, fZEMCutFraction, fDZEMInf, fDZEMSup);
	160
	161	printf("\n\n ####### Parameters from EZDC vs. Nspec correlation ####### \n");
	162	printf(" EZN1MaxValue = %1.2f, EZP1MaxValue = %1.2f, EZDC1MaxValue = %1.2f \n"
	163	" EZN2MaxValue = %1.2f, EZP2MaxValue = %1.2f, EZDC2MaxValue = %1.2f \n\n",
	164	fEZN1MaxValue, fEZP1MaxValue, fEZDC1MaxValue,
	165	fEZN2MaxValue, fEZP2MaxValue, fEZDC2MaxValue);
	166
8af17dba	167	}
	168
	169	//________________________________________________________________
	170	void AliZDCCalibData::SetMeanPed(Float_t* MeanPed)
	171	{
83347831	172	if(MeanPed) for(int t=0; t<48; t++) fMeanPedestal[t] = MeanPed[t];
83347831	173	else for(int t=0; t<48; t++) fMeanPedestal[t] = 0.;
72bde173	174	}
8831501a	175	//________________________________________________________________
	176	void AliZDCCalibData::SetMeanPedWidth(Float_t* MeanPedWidth)
	177	{
83347831	178	if(MeanPedWidth) for(int t=0; t<48; t++) fMeanPedWidth[t] = MeanPedWidth[t];
83347831	179	else for(int t=0; t<48; t++) fMeanPedWidth[t] = 0.;
8831501a	180	}
72bde173	181
	182	//________________________________________________________________
	183	void AliZDCCalibData::SetOOTPed(Float_t* OOTPed)
	184	{
83347831	185	if(OOTPed) for(int t=0; t<48; t++) fOOTPedestal[t] = OOTPed[t];
83347831	186	else for(int t=0; t<48; t++) fOOTPedestal[t] = 0.;
8af17dba	187	}
8af17dba	188
6a03966b	189	//________________________________________________________________
	190	void AliZDCCalibData::SetOOTPedWidth(Float_t* OOTPedWidth)
	191	{
83347831	192	if(OOTPedWidth) for(int t=0; t<48; t++) fOOTPedWidth[t] = OOTPedWidth[t];
83347831	193	else for(int t=0; t<48; t++) fOOTPedWidth[t] = 0.;
6a03966b	194	}
6a03966b	195
8831501a	196	//________________________________________________________________
31af5828	197	void AliZDCCalibData:: SetPedCorrCoeff(Float_t* PedCorrCoeff)
	198	{
	199	// Set coefficients for pedestal correlations
	200	if(PedCorrCoeff){
	201	for(Int_t j=0; j<2; j++){
83347831	202	for(int t=0; t<48; t++)
31af5828	203	fPedCorrCoeff[j][t] = PedCorrCoeff[t];
	204	}
	205	}
	206	else{
	207	for(Int_t j=0; j<2; j++){
83347831	208	for(int t=0; t<48; t++)
31af5828	209	fPedCorrCoeff[j][t] = 0.;
	210	}
	211	}
	212
	213	}
	214
	215	//________________________________________________________________
	216	void AliZDCCalibData:: SetPedCorrCoeff(Float_t* PedCorrCoeff0, Float_t* PedCorrCoeff1)
8831501a	217	{
8a2624cc	218	// Set coefficients for pedestal correlations
31af5828	219	if(PedCorrCoeff0 && PedCorrCoeff1){
83347831	220	for(int t=0; t<48; t++){
31af5828	221	fPedCorrCoeff[0][t] = PedCorrCoeff0[t];
	222	fPedCorrCoeff[0][t] = PedCorrCoeff1[t];
	223	}
8831501a	224	}
31af5828	225	else{
83347831	226	for(int t=0; t<48; t++){
31af5828	227	fPedCorrCoeff[0][t] = 0.;
	228	fPedCorrCoeff[1][t] = 0.;
	229	}
8831501a	230	}
31af5828	231
8831501a	232	}
8831501a	233
8af17dba	234	//________________________________________________________________
	235	void AliZDCCalibData::SetEnCalib(Float_t* EnCalib)
	236	{
31af5828	237	// Set energy calibration coefficients
72bde173	238	if(EnCalib) for(int t=0; t<6; t++) fEnCalibration[t] = EnCalib[t];
72bde173	239	else for(int t=0; t<6; t++) fEnCalibration[t] = 0.;
8af17dba	240	}
8af17dba	241
6cd02eaf	242	//________________________________________________________________
	243	void AliZDCCalibData::SetZN1EqualCoeff(Float_t* EqualCoeff)
	244	{
	245	// Set ZN1 equalization coefficients
	246	if(EqualCoeff) for(int t=0; t<5; t++) fZN1EqualCoeff[t] = EqualCoeff[t];
	247	else for(int t=0; t<5; t++) fZN1EqualCoeff[t] = 1.;
	248	}
	249
	250	//________________________________________________________________
	251	void AliZDCCalibData::SetZP1EqualCoeff(Float_t* EqualCoeff)
	252	{
	253	// Set ZP1 equalization coefficients
	254	if(EqualCoeff) for(int t=0; t<5; t++) fZP1EqualCoeff[t] = EqualCoeff[t];
	255	else for(int t=0; t<5; t++) fZP1EqualCoeff[t] = 1.;
	256	}
	257	//________________________________________________________________
	258	void AliZDCCalibData::SetZN2EqualCoeff(Float_t* EqualCoeff)
	259	{
	260	// Set ZN2 equalization coefficients
	261	if(EqualCoeff) for(int t=0; t<5; t++) fZN2EqualCoeff[t] = EqualCoeff[t];
	262	else for(int t=0; t<5; t++) fZN2EqualCoeff[t] = 1.;
	263	}
	264
	265	//________________________________________________________________
	266	void AliZDCCalibData::SetZP2EqualCoeff(Float_t* EqualCoeff)
	267	{
	268	// Set ZN1 equalization coefficients
	269	if(EqualCoeff) for(int t=0; t<5; t++) fZP2EqualCoeff[t] = EqualCoeff[t];
	270	else for(int t=0; t<5; t++) fZP2EqualCoeff[t] = 1.;
	271	}
	272