[u/mrichter/AliRoot.git] / ZDC / AliZDCPreprocessor.cxx

// --- ROOT system
#include <TFile.h>
#include <TClonesArray.h>
#include <TList.h>
#include <TObjString.h>
#include <TTimeStamp.h>

#include "AliZDCPreprocessor.h"
#include "AliCDBManager.h"
#include "AliCDBEntry.h"
#include "AliCDBMetaData.h"
#include "AliDCSValue.h"
#include "AliAlignObj.h"
#include "AliAlignObjParams.h"
#include "AliLog.h"
#include "AliZDCDataDCS.h"
#include "AliZDCPedestals.h"
#include "AliZDCCalib.h"
#include "AliZDCRecParam.h"

/////////////////////////////////////////////////////////////////////
//								   //
// Class implementing ZDC pre-processor.			   //
// It takes data from DCS and passes it to the class AliZDCDataDCS //
// The class is then written to the CDB.			   //
//								   //
/////////////////////////////////////////////////////////////////////

ClassImp(AliZDCPreprocessor)

//______________________________________________________________________________________________
AliZDCPreprocessor::AliZDCPreprocessor(AliShuttleInterface* shuttle) :
  AliPreprocessor("ZDC", shuttle),
  fData(0)
{
  // constructor
  AddRunType("STANDALONE_PEDESTAL");
  AddRunType("STANDALONE_EMD");
  AddRunType("PHYSICS");
}


//______________________________________________________________________________________________
AliZDCPreprocessor::~AliZDCPreprocessor()
{
  // destructor
}


//______________________________________________________________________________________________
void AliZDCPreprocessor::Initialize(Int_t run, UInt_t startTime,
	UInt_t endTime)
{
  // Creates AliZDCDataDCS object

  AliPreprocessor::Initialize(run, startTime, endTime);

	Log(Form("\n\tRun %d \n\tStartTime %s \n\tEndTime %s", run,
		TTimeStamp(startTime).AsString(),
		TTimeStamp(endTime).AsString()));

 	fRun = run;
        fStartTime = startTime;
        fEndTime = endTime;

	fData = new AliZDCDataDCS(fRun, fStartTime, fEndTime);
}

//______________________________________________________________________________________________
UInt_t AliZDCPreprocessor::Process(TMap* dcsAliasMap)
{
  // *************** From DCS ******************
  // Fills data into a AliZDCDataDCS object
  if(!dcsAliasMap) return 1;

  // The processing of the DCS input data is forwarded to AliZDCDataDCS
  Float_t dcsValues[28]; // DCSAliases=28
  fData->SetCalibData(dcsValues);
  fData->ProcessData(*dcsAliasMap);
  // Store DCS data for reference
  AliCDBMetaData metadata;
  metadata.SetResponsible("Chiara Oppedisano");
  metadata.SetComment("DCS data for ZDC");
  Bool_t resDCSRef = kTRUE;
  resDCSRef = StoreReferenceData("DCS","Data",fData,&metadata);
  //dcsAliasMap->Print("");
  //
  // --- Writing ZDC table positions into alignment object
  TClonesArray *array = new TClonesArray("AliAlignObjParams",10);
  TClonesArray &alobj = *array;
  AliAlignObjParams a;
  Double_t dx=0., dz=0., dpsi=0., dtheta=0., dphi=0.;
  // Vertical table position in mm from DCS
  Double_t dyZN1 = (Double_t) (dcsValues[0]/10.);
  Double_t dyZP1 = (Double_t) (dcsValues[1]/10.);
  Double_t dyZN2 = (Double_t) (dcsValues[2]/10.);
  Double_t dyZP2 = (Double_t) (dcsValues[3]/10.);
  const char *n1ZDC="ZDC/NeutronZDC1";
  const char *p1ZDC="ZDC/ProtonZDC1";
  const char *n2ZDC="ZDC/NeutronZDC2";
  const char *p2ZDC="ZDC/ProtonZDC2";
  UShort_t iIndex=0;
  AliGeomManager::ELayerID iLayer = AliGeomManager::kInvalidLayer;
  UShort_t volid = AliGeomManager::LayerToVolUID(iLayer,iIndex);
  //
  new(alobj[0]) AliAlignObjParams(n1ZDC, volid, dx, dyZN1, dz, dpsi, dtheta, dphi, kTRUE);
  new(alobj[1]) AliAlignObjParams(p1ZDC, volid, dx, dyZP1, dz, dpsi, dtheta, dphi, kTRUE);
  new(alobj[2]) AliAlignObjParams(n2ZDC, volid, dx, dyZN2, dz, dpsi, dtheta, dphi, kTRUE);
  new(alobj[3]) AliAlignObjParams(p2ZDC, volid, dx, dyZP2, dz, dpsi, dtheta, dphi, kTRUE);
  // save in CDB storage
  AliCDBMetaData md;
  md.SetResponsible("Chiara Oppedisano");
  md.SetComment("Alignment object for ZDC");
  Bool_t resultAl = kTRUE;
  resultAl = Store("Align","Data", array, &md, 0, 0);
  
// *************** From DAQ ******************
Bool_t resPedCal = kTRUE, resECal = kTRUE, resRecPar = kTRUE;
// 
const char* beamType = GetRunParameter("beamType");
TString runType = GetRunType();
printf("\n\t AliZDCPreprocessor -> beamType %s\n",beamType);
printf("\t AliZDCPreprocessor -> runType  %s\n\n",runType.Data());
//
// 
if(strcmp(beamType,"p-p")==0){
   // --- Initializing pedestal calibration object
   AliZDCCalib *eCalib = new AliZDCCalib("ZDC");
   //
   for(Int_t j=0; j<6; j++) eCalib->SetEnCalib(j,1.);
   for(Int_t j=0; j<5; j++){  
        eCalib->SetZN1EqualCoeff(j, 1.);
        eCalib->SetZP1EqualCoeff(j, 1.);
        eCalib->SetZN2EqualCoeff(j, 1.);
        eCalib->SetZP2EqualCoeff(j, 1.);  
   }
   //eCalib->Print("");
   // 
   AliCDBMetaData metaData;
   metaData.SetBeamPeriod(0);
   metaData.SetResponsible("Chiara");
   metaData.SetComment("AliZDCCalib object");  
   //
   resECal = Store("Calib","Calib",eCalib, &metaData, 0, 1);
}
// 
// *****************************************************
// [a] PEDESTALS -> Pedestal subtraction
// *****************************************************
// 
if(runType=="STANDALONE_PEDESTAL"){
  TList* daqSources = GetFileSources(kDAQ, "PEDESTALS");
  if(!daqSources){
    Log(Form("No source for STANDALONE_PEDESTAL run %d !", fRun));
    return 1;
  }
  Log("\t List of sources for STANDALONE_PEDESTAL");
  daqSources->Print();
  //
  TIter iter(daqSources);
  TObjString* source = 0;
  Int_t i=0;
  while((source = dynamic_cast<TObjString*> (iter.Next()))){
       Log(Form("\n\t Getting file #%d\n",++i));
       TString stringPedFileName = GetFile(kDAQ, "PEDESTALS", source->GetName());
       if(stringPedFileName.Length() <= 0){
          Log(Form("No PEDESTAL file from source %s!", source->GetName()));
	  return 1;
       }
       // --- Initializing pedestal calibration object
       AliZDCPedestals *pedCalib = new AliZDCPedestals("ZDC");
       // --- Reading file with pedestal calibration data
       const char* pedFileName = stringPedFileName.Data();
       // no. ADCch = (22 signal ch. + 2 reference PMs) * 2 gain chain = 48
       const Int_t knZDCch = 48;
       if(pedFileName){
         FILE *file;
         if((file = fopen(pedFileName,"r")) == NULL){
           printf("Cannot open file %s \n",pedFileName);
	   return 1;
         }
         Log(Form("File %s connected to process pedestal data", pedFileName));
         Float_t pedVal[(3*knZDCch)][3];
         for(Int_t k=0; k<(3*knZDCch); k++){
            for(Int_t j=0; j<3; j++){
               fscanf(file,"%f",&pedVal[k][j]);
	       //if(j==1) printf("pedVal[%d] -> %f, %f \n",k,pedVal[k][0],pedVal[k][1]);
            }
            if(k<knZDCch){
              pedCalib->SetMeanPed(k,pedVal[k][1]);
              pedCalib->SetMeanPedWidth(i,pedVal[k][2]);
            }
            else if(k>=knZDCch && k<(2*knZDCch)){
              pedCalib->SetOOTPed(k-knZDCch,pedVal[k][1]);
              pedCalib->SetOOTPedWidth(k-knZDCch,pedVal[k][2]);
            }
            else if(k>=(2*knZDCch) && k<(3*knZDCch)){
              pedCalib->SetPedCorrCoeff(k-(2*knZDCch),pedVal[k][1],pedVal[k][2]);
            }
         }
       }
       else{
          Log(Form("File %s not found", pedFileName));
          return 1;
       }
       //
      //pedCalib->Print("");
      // 
      AliCDBMetaData metaData;
      metaData.SetBeamPeriod(0);
      metaData.SetResponsible("Chiara");
      metaData.SetComment("Filling AliZDCPedestals object");  
      //
      resPedCal = Store("Calib","Pedestals",pedCalib, &metaData, 0, 1);
  }
  delete daqSources; daqSources = 0;
}
// *****************************************************
// [b] EMD EVENTS -> Energy calibration and equalization
// *****************************************************
else if(runType=="STANDALONE_EMD"){
  TList* daqSources = GetFileSources(kDAQ, "EMDCALIB");
  if(!daqSources){
    AliError(Form("No sources for STANDALONE_EMD run %d !", fRun));
    return 1;
  }
  Log("\t List of sources for STANDALONE_EMD");
  daqSources->Print();
  //
  TIter iter2(daqSources);
  TObjString* source = 0;
  Int_t i=0;
  while((source = dynamic_cast<TObjString*> (iter2.Next()))){
       Log(Form("\n\t Getting file #%d\n",++i));
       TString stringEMDFileName = GetFile(kDAQ, "EMDCALIB", source->GetName());
       if(stringEMDFileName.Length() <= 0){
         Log(Form("No EMDCALIB file from source %s!", source->GetName()));
	 return 1;
       }
       // --- Initializing pedestal calibration object
       AliZDCCalib *eCalib = new AliZDCCalib("ZDC");
       // --- Reading file with pedestal calibration data
       const char* emdFileName = stringEMDFileName.Data();
       if(emdFileName){
    	 FILE *file;
    	 if((file = fopen(emdFileName,"r")) == NULL){
    	   printf("Cannot open file %s \n",emdFileName);
	   return 1;
    	 }
    	 Log(Form("File %s connected to process data from EM dissociation events", emdFileName));
    	 //
	 Float_t fitValEMD[6]; Float_t equalCoeff[5][4];
	 Float_t calibVal[4];
    	 for(Int_t j=0; j<10; j++){	    
    	   if(j<6){
	     fscanf(file,"%f",&fitValEMD[j]);
             if(j<4){
	       calibVal[j] = 2.76/fitValEMD[j];
	       eCalib->SetEnCalib(j,calibVal[j]);
	     }
	     else eCalib->SetEnCalib(j,fitValEMD[j]);
	   }
	   else{
	     for(Int_t k=0; k<5; k++){
	        fscanf(file,"%f",&equalCoeff[j][k]);
	        if(j==6)      eCalib->SetZN1EqualCoeff(k, equalCoeff[j][k]);
	 	else if(j==7) eCalib->SetZP1EqualCoeff(k, equalCoeff[j][k]);
	 	else if(j==8) eCalib->SetZN2EqualCoeff(k, equalCoeff[j][k]);
	 	else if(j==9) eCalib->SetZP2EqualCoeff(k, equalCoeff[j][k]);  
             }
	   }
         }
       }
       else{
         Log(Form("File %s not found", emdFileName));
         return 1;
       }
       //eCalib->Print("");
      // 
      AliCDBMetaData metaData;
      metaData.SetBeamPeriod(0);
      metaData.SetResponsible("Chiara");
      metaData.SetComment("Filling AliZDCCalib object");  
      //
      resECal = Store("Calib","Calib",eCalib, &metaData, 0, 1);
  }
}
// ********************************************************
// [c] PHYSICS RUNS -> Parameters needed for reconstruction 
// 		NB -> ONLY IN Pb-Pb!!!!!!!
// ********************************************************
else if((runType=="PHYSICS") && (strcmp(beamType,"Pb-Pb")==0)){
  TList* daqSources = GetFileSources(kDAQ, "PHYSICS");
  if(!daqSources){
    AliError(Form("No sources for PHYSICS run %d !", fRun));
    return 1;
  }
  Log("\t List of sources for PHYSICS");
  daqSources->Print();
  //
  TIter iter2(daqSources);
  TObjString* source = 0;
  Int_t i=0;
  while((source = dynamic_cast<TObjString*> (iter2.Next()))){
       Log(Form("\n\t Getting file #%d\n",++i));
       TString stringPHYSFileName = GetFile(kDAQ, "PHYSICS", source->GetName());
       if(stringPHYSFileName.Length() <= 0){
         Log(Form("No PHYSICS file from source %s!", source->GetName()));
	 return 1;
       }
       // --- Initializing pedestal calibration object
       AliZDCRecParam *recCalib = new AliZDCRecParam("ZDC");
       // --- Reading file with pedestal calibration data
       const char* physFileName = stringPHYSFileName.Data();
       if(physFileName){
    	 FILE *file;
    	 if((file = fopen(physFileName,"r")) == NULL){
    	   printf("Cannot open file %s \n",physFileName);
	   return 1;
    	 }
    	 Log(Form("File %s connected to process data from PHYSICS runs", physFileName));
    	 //
	 Float_t physRecParam[10]; 
    	 for(Int_t j=0; j<10; j++) fscanf(file,"%f",&physRecParam[j]);
	 recCalib->SetZEMEndValue(physRecParam[0]);
	 recCalib->SetZEMCutFraction(physRecParam[1]);
	 recCalib->SetDZEMSup(physRecParam[2]);
	 recCalib->SetDZEMInf(physRecParam[3]);
	 recCalib->SetEZN1MaxValue(physRecParam[4]);
	 recCalib->SetEZP1MaxValue(physRecParam[5]);
	 recCalib->SetEZDC1MaxValue(physRecParam[6]);
	 recCalib->SetEZN2MaxValue(physRecParam[7]);
	 recCalib->SetEZP2MaxValue(physRecParam[8]);
	 recCalib->SetEZDC2MaxValue(physRecParam[9]);
       }
       else{
         Log(Form("File %s not found", physFileName));
         return 1;
       }
       //calibdata->Print("");
      // 
      AliCDBMetaData metaData;
      metaData.SetBeamPeriod(0);
      metaData.SetResponsible("Chiara");
      metaData.SetComment("Filling AliZDCCalib object");  
      //
      resRecPar = Store("Calib","RecParam",recCalib, &metaData, 0, 1);
  }
} 
else {
  Log(Form("Nothing to do: run type is %s", runType.Data()));
  return 0;
} 

  // note that the parameters are returned as character strings!
  const char* nEvents = GetRunParameter("totalEvents");
  if(nEvents) Log(Form("Number of events for run %d: %s",fRun, nEvents));
  else Log(Form("Number of events not put in logbook!"));
 
  UInt_t result = 0;
  if(resDCSRef==kFALSE || resultAl==kFALSE || 
     resPedCal==kFALSE || resECal==kFALSE || resRecPar==kFALSE){
    if(resDCSRef == kFALSE) result = 1;
    else if(resultAl == kFALSE)  result = 2;
    else if(resPedCal == kFALSE) result = 3;
    else if(resECal == kFALSE)   result = 4;
    else if(resRecPar == kFALSE) result = 5;
  }
  
  return result;
  
}
Commit	Line	Data
	1	// --- ROOT system
	2	#include <TFile.h>
	3	#include <TClonesArray.h>
	4	#include <TList.h>
	5	#include <TObjString.h>
	6	#include <TTimeStamp.h>
	7
	8	#include "AliZDCPreprocessor.h"
	9	#include "AliCDBManager.h"
	10	#include "AliCDBEntry.h"
	11	#include "AliCDBMetaData.h"
	12	#include "AliDCSValue.h"
	13	#include "AliAlignObj.h"
	14	#include "AliAlignObjParams.h"
	15	#include "AliLog.h"
	16	#include "AliZDCDataDCS.h"
	17	#include "AliZDCPedestals.h"
	18	#include "AliZDCCalib.h"
	19	#include "AliZDCRecParam.h"
	20
	21	/////////////////////////////////////////////////////////////////////
	22	// //
	23	// Class implementing ZDC pre-processor. //
	24	// It takes data from DCS and passes it to the class AliZDCDataDCS //
	25	// The class is then written to the CDB. //
	26	// //
	27	/////////////////////////////////////////////////////////////////////
	28
	29	ClassImp(AliZDCPreprocessor)
	30
	31	//______________________________________________________________________________________________
	32	AliZDCPreprocessor::AliZDCPreprocessor(AliShuttleInterface* shuttle) :
	33	AliPreprocessor("ZDC", shuttle),
	34	fData(0)
	35	{
	36	// constructor
	37	AddRunType("STANDALONE_PEDESTAL");
	38	AddRunType("STANDALONE_EMD");
	39	AddRunType("PHYSICS");
	40	}
	41
	42
	43	//______________________________________________________________________________________________
	44	AliZDCPreprocessor::~AliZDCPreprocessor()
	45	{
	46	// destructor
	47	}
	48
	49
	50	//______________________________________________________________________________________________
	51	void AliZDCPreprocessor::Initialize(Int_t run, UInt_t startTime,
	52	UInt_t endTime)
	53	{
	54	// Creates AliZDCDataDCS object
	55
	56	AliPreprocessor::Initialize(run, startTime, endTime);
	57
	58	Log(Form("\n\tRun %d \n\tStartTime %s \n\tEndTime %s", run,
	59	TTimeStamp(startTime).AsString(),
	60	TTimeStamp(endTime).AsString()));
	61
	62	fRun = run;
	63	fStartTime = startTime;
	64	fEndTime = endTime;
	65
	66	fData = new AliZDCDataDCS(fRun, fStartTime, fEndTime);
	67	}
	68
	69	//______________________________________________________________________________________________
	70	UInt_t AliZDCPreprocessor::Process(TMap* dcsAliasMap)
	71	{
	72	// ************* From DCS ****************
	73	// Fills data into a AliZDCDataDCS object
	74	if(!dcsAliasMap) return 1;
	75
	76	// The processing of the DCS input data is forwarded to AliZDCDataDCS
	77	Float_t dcsValues[28]; // DCSAliases=28
	78	fData->SetCalibData(dcsValues);
	79	fData->ProcessData(*dcsAliasMap);
	80	// Store DCS data for reference
	81	AliCDBMetaData metadata;
	82	metadata.SetResponsible("Chiara Oppedisano");
	83	metadata.SetComment("DCS data for ZDC");
	84	Bool_t resDCSRef = kTRUE;
	85	resDCSRef = StoreReferenceData("DCS","Data",fData,&metadata);
	86	//dcsAliasMap->Print("");
	87	//
	88	// --- Writing ZDC table positions into alignment object
	89	TClonesArray *array = new TClonesArray("AliAlignObjParams",10);
	90	TClonesArray &alobj = *array;
	91	AliAlignObjParams a;
	92	Double_t dx=0., dz=0., dpsi=0., dtheta=0., dphi=0.;
	93	// Vertical table position in mm from DCS
	94	Double_t dyZN1 = (Double_t) (dcsValues[0]/10.);
	95	Double_t dyZP1 = (Double_t) (dcsValues[1]/10.);
	96	Double_t dyZN2 = (Double_t) (dcsValues[2]/10.);
	97	Double_t dyZP2 = (Double_t) (dcsValues[3]/10.);
	98	const char *n1ZDC="ZDC/NeutronZDC1";
	99	const char *p1ZDC="ZDC/ProtonZDC1";
	100	const char *n2ZDC="ZDC/NeutronZDC2";
	101	const char *p2ZDC="ZDC/ProtonZDC2";
	102	UShort_t iIndex=0;
	103	AliGeomManager::ELayerID iLayer = AliGeomManager::kInvalidLayer;
	104	UShort_t volid = AliGeomManager::LayerToVolUID(iLayer,iIndex);
	105	//
	106	new(alobj[0]) AliAlignObjParams(n1ZDC, volid, dx, dyZN1, dz, dpsi, dtheta, dphi, kTRUE);
	107	new(alobj[1]) AliAlignObjParams(p1ZDC, volid, dx, dyZP1, dz, dpsi, dtheta, dphi, kTRUE);
	108	new(alobj[2]) AliAlignObjParams(n2ZDC, volid, dx, dyZN2, dz, dpsi, dtheta, dphi, kTRUE);
	109	new(alobj[3]) AliAlignObjParams(p2ZDC, volid, dx, dyZP2, dz, dpsi, dtheta, dphi, kTRUE);
	110	// save in CDB storage
	111	AliCDBMetaData md;
	112	md.SetResponsible("Chiara Oppedisano");
	113	md.SetComment("Alignment object for ZDC");
	114	Bool_t resultAl = kTRUE;
	115	resultAl = Store("Align","Data", array, &md, 0, 0);
	116
	117	// ************* From DAQ ****************
	118	Bool_t resPedCal = kTRUE, resECal = kTRUE, resRecPar = kTRUE;
	119	//
	120	const char* beamType = GetRunParameter("beamType");
	121	TString runType = GetRunType();
	122	printf("\n\t AliZDCPreprocessor -> beamType %s\n",beamType);
	123	printf("\t AliZDCPreprocessor -> runType %s\n\n",runType.Data());
	124	//
	125	//
	126	if(strcmp(beamType,"p-p")==0){
	127	// --- Initializing pedestal calibration object
	128	AliZDCCalib *eCalib = new AliZDCCalib("ZDC");
	129	//
	130	for(Int_t j=0; j<6; j++) eCalib->SetEnCalib(j,1.);
	131	for(Int_t j=0; j<5; j++){
	132	eCalib->SetZN1EqualCoeff(j, 1.);
	133	eCalib->SetZP1EqualCoeff(j, 1.);
	134	eCalib->SetZN2EqualCoeff(j, 1.);
	135	eCalib->SetZP2EqualCoeff(j, 1.);
	136	}
	137	//eCalib->Print("");
	138	//
	139	AliCDBMetaData metaData;
	140	metaData.SetBeamPeriod(0);
	141	metaData.SetResponsible("Chiara");
	142	metaData.SetComment("AliZDCCalib object");
	143	//
	144	resECal = Store("Calib","Calib",eCalib, &metaData, 0, 1);
	145	}
	146	//
	147	// *****************************************************
	148	// [a] PEDESTALS -> Pedestal subtraction
	149	// *****************************************************
	150	//
	151	if(runType=="STANDALONE_PEDESTAL"){
	152	TList* daqSources = GetFileSources(kDAQ, "PEDESTALS");
	153	if(!daqSources){
	154	Log(Form("No source for STANDALONE_PEDESTAL run %d !", fRun));
	155	return 1;
	156	}
	157	Log("\t List of sources for STANDALONE_PEDESTAL");
	158	daqSources->Print();
	159	//
	160	TIter iter(daqSources);
	161	TObjString* source = 0;
	162	Int_t i=0;
	163	while((source = dynamic_cast<TObjString*> (iter.Next()))){
	164	Log(Form("\n\t Getting file #%d\n",++i));
	165	TString stringPedFileName = GetFile(kDAQ, "PEDESTALS", source->GetName());
	166	if(stringPedFileName.Length() <= 0){
	167	Log(Form("No PEDESTAL file from source %s!", source->GetName()));
	168	return 1;
	169	}
	170	// --- Initializing pedestal calibration object
	171	AliZDCPedestals *pedCalib = new AliZDCPedestals("ZDC");
	172	// --- Reading file with pedestal calibration data
	173	const char* pedFileName = stringPedFileName.Data();
	174	// no. ADCch = (22 signal ch. + 2 reference PMs) * 2 gain chain = 48
	175	const Int_t knZDCch = 48;
	176	if(pedFileName){
	177	FILE *file;
	178	if((file = fopen(pedFileName,"r")) == NULL){
	179	printf("Cannot open file %s \n",pedFileName);
	180	return 1;
	181	}
	182	Log(Form("File %s connected to process pedestal data", pedFileName));
	183	Float_t pedVal[(3*knZDCch)][3];
	184	for(Int_t k=0; k<(3*knZDCch); k++){
	185	for(Int_t j=0; j<3; j++){
	186	fscanf(file,"%f",&pedVal[k][j]);
	187	//if(j==1) printf("pedVal[%d] -> %f, %f \n",k,pedVal[k][0],pedVal[k][1]);
	188	}
	189	if(k<knZDCch){
	190	pedCalib->SetMeanPed(k,pedVal[k][1]);
	191	pedCalib->SetMeanPedWidth(i,pedVal[k][2]);
	192	}
	193	else if(k>=knZDCch && k<(2*knZDCch)){
	194	pedCalib->SetOOTPed(k-knZDCch,pedVal[k][1]);
	195	pedCalib->SetOOTPedWidth(k-knZDCch,pedVal[k][2]);
	196	}
	197	else if(k>=(2knZDCch) && k<(3knZDCch)){
	198	pedCalib->SetPedCorrCoeff(k-(2*knZDCch),pedVal[k][1],pedVal[k][2]);
	199	}
	200	}
	201	}
	202	else{
	203	Log(Form("File %s not found", pedFileName));
	204	return 1;
	205	}
	206	//
	207	//pedCalib->Print("");
	208	//
	209	AliCDBMetaData metaData;
	210	metaData.SetBeamPeriod(0);
	211	metaData.SetResponsible("Chiara");
	212	metaData.SetComment("Filling AliZDCPedestals object");
	213	//
	214	resPedCal = Store("Calib","Pedestals",pedCalib, &metaData, 0, 1);
	215	}
	216	delete daqSources; daqSources = 0;
	217	}
	218	// *****************************************************
	219	// [b] EMD EVENTS -> Energy calibration and equalization
	220	// *****************************************************
	221	else if(runType=="STANDALONE_EMD"){
	222	TList* daqSources = GetFileSources(kDAQ, "EMDCALIB");
	223	if(!daqSources){
	224	AliError(Form("No sources for STANDALONE_EMD run %d !", fRun));
	225	return 1;
	226	}
	227	Log("\t List of sources for STANDALONE_EMD");
	228	daqSources->Print();
	229	//
	230	TIter iter2(daqSources);
	231	TObjString* source = 0;
	232	Int_t i=0;
	233	while((source = dynamic_cast<TObjString*> (iter2.Next()))){
	234	Log(Form("\n\t Getting file #%d\n",++i));
	235	TString stringEMDFileName = GetFile(kDAQ, "EMDCALIB", source->GetName());
	236	if(stringEMDFileName.Length() <= 0){
	237	Log(Form("No EMDCALIB file from source %s!", source->GetName()));
	238	return 1;
	239	}
	240	// --- Initializing pedestal calibration object
	241	AliZDCCalib *eCalib = new AliZDCCalib("ZDC");
	242	// --- Reading file with pedestal calibration data
	243	const char* emdFileName = stringEMDFileName.Data();
	244	if(emdFileName){
	245	FILE *file;
	246	if((file = fopen(emdFileName,"r")) == NULL){
	247	printf("Cannot open file %s \n",emdFileName);
	248	return 1;
	249	}
	250	Log(Form("File %s connected to process data from EM dissociation events", emdFileName));
	251	//
	252	Float_t fitValEMD[6]; Float_t equalCoeff[5][4];
	253	Float_t calibVal[4];
	254	for(Int_t j=0; j<10; j++){
	255	if(j<6){
	256	fscanf(file,"%f",&fitValEMD[j]);
	257	if(j<4){
	258	calibVal[j] = 2.76/fitValEMD[j];
	259	eCalib->SetEnCalib(j,calibVal[j]);
	260	}
	261	else eCalib->SetEnCalib(j,fitValEMD[j]);
	262	}
	263	else{
	264	for(Int_t k=0; k<5; k++){
	265	fscanf(file,"%f",&equalCoeff[j][k]);
	266	if(j==6) eCalib->SetZN1EqualCoeff(k, equalCoeff[j][k]);
	267	else if(j==7) eCalib->SetZP1EqualCoeff(k, equalCoeff[j][k]);
	268	else if(j==8) eCalib->SetZN2EqualCoeff(k, equalCoeff[j][k]);
	269	else if(j==9) eCalib->SetZP2EqualCoeff(k, equalCoeff[j][k]);
	270	}
	271	}
	272	}
	273	}
	274	else{
	275	Log(Form("File %s not found", emdFileName));
	276	return 1;
	277	}
	278	//eCalib->Print("");
	279	//
	280	AliCDBMetaData metaData;
	281	metaData.SetBeamPeriod(0);
	282	metaData.SetResponsible("Chiara");
	283	metaData.SetComment("Filling AliZDCCalib object");
	284	//
	285	resECal = Store("Calib","Calib",eCalib, &metaData, 0, 1);
	286	}
	287	}
	288	// ********************************************************
	289	// [c] PHYSICS RUNS -> Parameters needed for reconstruction
	290	// NB -> ONLY IN Pb-Pb!!!!!!!
	291	// ********************************************************
	292	else if((runType=="PHYSICS") && (strcmp(beamType,"Pb-Pb")==0)){
	293	TList* daqSources = GetFileSources(kDAQ, "PHYSICS");
	294	if(!daqSources){
	295	AliError(Form("No sources for PHYSICS run %d !", fRun));
	296	return 1;
	297	}
	298	Log("\t List of sources for PHYSICS");
	299	daqSources->Print();
	300	//
	301	TIter iter2(daqSources);
	302	TObjString* source = 0;
	303	Int_t i=0;
	304	while((source = dynamic_cast<TObjString*> (iter2.Next()))){
	305	Log(Form("\n\t Getting file #%d\n",++i));
	306	TString stringPHYSFileName = GetFile(kDAQ, "PHYSICS", source->GetName());
	307	if(stringPHYSFileName.Length() <= 0){
	308	Log(Form("No PHYSICS file from source %s!", source->GetName()));
	309	return 1;
	310	}
	311	// --- Initializing pedestal calibration object
	312	AliZDCRecParam *recCalib = new AliZDCRecParam("ZDC");
	313	// --- Reading file with pedestal calibration data
	314	const char* physFileName = stringPHYSFileName.Data();
	315	if(physFileName){
	316	FILE *file;
	317	if((file = fopen(physFileName,"r")) == NULL){
	318	printf("Cannot open file %s \n",physFileName);
	319	return 1;
	320	}
	321	Log(Form("File %s connected to process data from PHYSICS runs", physFileName));
	322	//
	323	Float_t physRecParam[10];
	324	for(Int_t j=0; j<10; j++) fscanf(file,"%f",&physRecParam[j]);
	325	recCalib->SetZEMEndValue(physRecParam[0]);
	326	recCalib->SetZEMCutFraction(physRecParam[1]);
	327	recCalib->SetDZEMSup(physRecParam[2]);
	328	recCalib->SetDZEMInf(physRecParam[3]);
	329	recCalib->SetEZN1MaxValue(physRecParam[4]);
	330	recCalib->SetEZP1MaxValue(physRecParam[5]);
	331	recCalib->SetEZDC1MaxValue(physRecParam[6]);
	332	recCalib->SetEZN2MaxValue(physRecParam[7]);
	333	recCalib->SetEZP2MaxValue(physRecParam[8]);
	334	recCalib->SetEZDC2MaxValue(physRecParam[9]);
	335	}
	336	else{
	337	Log(Form("File %s not found", physFileName));
	338	return 1;
	339	}
	340	//calibdata->Print("");
	341	//
	342	AliCDBMetaData metaData;
	343	metaData.SetBeamPeriod(0);
	344	metaData.SetResponsible("Chiara");
	345	metaData.SetComment("Filling AliZDCCalib object");
	346	//
	347	resRecPar = Store("Calib","RecParam",recCalib, &metaData, 0, 1);
	348	}
	349	}
	350	else {
	351	Log(Form("Nothing to do: run type is %s", runType.Data()));
	352	return 0;
	353	}
	354
	355	// note that the parameters are returned as character strings!
	356	const char* nEvents = GetRunParameter("totalEvents");
	357	if(nEvents) Log(Form("Number of events for run %d: %s",fRun, nEvents));
	358	else Log(Form("Number of events not put in logbook!"));
	359
	360	UInt_t result = 0;
	361	if(resDCSRef==kFALSE \|\| resultAl==kFALSE \|\|
	362	resPedCal==kFALSE \|\| resECal==kFALSE \|\| resRecPar==kFALSE){
	363	if(resDCSRef == kFALSE) result = 1;
	364	else if(resultAl == kFALSE) result = 2;
	365	else if(resPedCal == kFALSE) result = 3;
	366	else if(resECal == kFALSE) result = 4;
	367	else if(resRecPar == kFALSE) result = 5;
	368	}
	369
	370	return result;
	371
	372	}