#include "AliT0Reconstructor.h"
#include "AliT0Parameters.h"
#include "AliT0Calibrator.h"
+#include "AliESDfriend.h"
+#include "AliESDTZEROfriend.h"
+#include "AliLog.h"
+#include "AliCDBEntry.h"
+#include "AliCDBManager.h"
+#include "AliCTPTimeParams.h"
+#include "AliLHCClockPhase.h"
+#include "AliT0CalibSeasonTimeShift.h"
+#include "AliESDRun.h"
#include <TArrayI.h>
#include <TGraph.h>
#include <TMath.h>
+#include <Riostream.h>
ClassImp(AliT0Reconstructor)
fdZonC(0),
fZposition(0),
fParam(NULL),
- fAmpLEDrec()
+ fAmpLEDrec(),
+ fQTC(0),
+ fAmpLED(0),
+ fCalib(),
+ fLatencyHPTDC(9000),
+ fLatencyL1(0),
+ fLatencyL1A(0),
+ fLatencyL1C(0),
+ fGRPdelays(0),
+ fTimeMeanShift(0x0),
+ fTimeSigmaShift(0x0),
+ fESDTZEROfriend(NULL)
+
{
+
+
//constructor
+ AliCDBEntry *entry = AliCDBManager::Instance()->Get("GRP/CTP/CTPtiming");
+ if (!entry) AliFatal("CTP timing parameters are not found in OCDB !");
+ AliCTPTimeParams *ctpParams = (AliCTPTimeParams*)entry->GetObject();
+ Float_t l1Delay = (Float_t)ctpParams->GetDelayL1L0()*25.0;
+
+ AliCDBEntry *entry1 = AliCDBManager::Instance()->Get("GRP/CTP/TimeAlign");
+ if (!entry1) AliFatal("CTP time-alignment is not found in OCDB !");
+ AliCTPTimeParams *ctpTimeAlign = (AliCTPTimeParams*)entry1->GetObject();
+ l1Delay += ((Float_t)ctpTimeAlign->GetDelayL1L0()*25.0);
+
+ AliCDBEntry *entry4 = AliCDBManager::Instance()->Get("GRP/Calib/LHCClockPhase");
+ if (!entry4) AliFatal("LHC clock-phase shift is not found in OCDB !");
+ AliLHCClockPhase *phase = (AliLHCClockPhase*)entry4->GetObject();
+
+ fGRPdelays = l1Delay - phase->GetMeanPhase();
+
+ AliCDBEntry *entry5 = AliCDBManager::Instance()->Get("T0/Calib/TimeAdjust");
+ if (entry5) {
+ AliT0CalibSeasonTimeShift *timeshift = (AliT0CalibSeasonTimeShift*)entry5->GetObject();
+ fTimeMeanShift = timeshift->GetT0Means();
+ fTimeSigmaShift = timeshift->GetT0Sigmas();
+ }
+ else
+ AliWarning("Time Adjust is not found in OCDB !");
- AliDebug(1,"Start reconstructor ");
-
fParam = AliT0Parameters::Instance();
fParam->Init();
+
for (Int_t i=0; i<24; i++){
- TGraph* gr = fParam ->GetAmpLEDRec(i);
- fAmpLEDrec.AddAtAndExpand(gr,i) ;
-// fTime0vertex[i]= fParam->GetTimeV0(i);
+ TGraph* gr = fParam ->GetAmpLEDRec(i);
+ if (gr) fAmpLEDrec.AddAtAndExpand(gr,i) ;
+ TGraph* gr1 = fParam ->GetAmpLED(i);
+ if (gr1) fAmpLED.AddAtAndExpand(gr1,i) ;
+ TGraph* gr2 = fParam ->GetQTC(i);
+ if (gr2) fQTC.AddAtAndExpand(gr2,i) ;
}
- fdZonC = TMath::Abs(fParam->GetZPositionShift("T0/C/PMT1"));
- fdZonA = TMath::Abs(fParam->GetZPositionShift("T0/A/PMT15"));
-
-}
-//____________________________________________________________________
-
-AliT0Reconstructor::AliT0Reconstructor(const AliT0Reconstructor &r):
- AliReconstructor(r),
- fdZonA(0),
- fdZonC(0),
- fZposition(0),
- fParam(NULL),
- fAmpLEDrec()
- {
- //
- // AliT0Reconstructor copy constructor
- //
- ((AliT0Reconstructor &) r).Copy(*this);
-
-}
-
-//_____________________________________________________________________________
-AliT0Reconstructor &AliT0Reconstructor::operator=(const AliT0Reconstructor &r)
-{
- //
- // Assignment operator
- //
+ fLatencyL1 = fParam->GetLatencyL1();
+ fLatencyL1A = fParam->GetLatencyL1A();
+ fLatencyL1C = fParam->GetLatencyL1C();
+ fLatencyHPTDC = fParam->GetLatencyHPTDC();
+ AliDebug(2,Form(" LatencyL1 %f latencyL1A %f latencyL1C %f latencyHPTDC %f \n",fLatencyL1, fLatencyL1A, fLatencyL1C, fLatencyHPTDC));
+
+ // fdZonC = TMath::Abs(fParam->GetZPositionShift("T0/C/PMT1"));
+ //fdZonA = TMath::Abs(fParam->GetZPositionShift("T0/A/PMT15"));
+ //here real Z position
+ fdZonC = TMath::Abs(fParam->GetZPosition("T0/C/PMT1"));
+ fdZonA = TMath::Abs(fParam->GetZPosition("T0/A/PMT15"));
- if (this != &r) ((AliT0Reconstructor &) r).Copy(*this);
- return *this;
+ fCalib = new AliT0Calibrator();
+ fESDTZEROfriend = new AliESDTZEROfriend();
}
//_____________________________________________________________________________
-
void AliT0Reconstructor::Reconstruct(TTree*digitsTree, TTree*clustersTree) const
-
{
// T0 digits reconstruction
- // T0RecPoint writing
+ Int_t refAmp = Int_t (GetRecoParam()->GetRefAmp());
-
TArrayI * timeCFD = new TArrayI(24);
TArrayI * timeLED = new TArrayI(24);
TArrayI * chargeQT0 = new TArrayI(24);
TArrayI * chargeQT1 = new TArrayI(24);
- AliT0Calibrator *calib=new AliT0Calibrator();
-
- // Int_t mV2Mip = param->GetmV2Mip();
- //mV2Mip = param->GetmV2Mip();
+
Float_t channelWidth = fParam->GetChannelWidth() ;
- Int_t meanT0 = fParam->GetMeanT0();
+ Float_t meanVertex = fParam->GetMeanVertex();
+ Float_t c = 0.0299792; // cm/ps
+ Double32_t vertex = 9999999;
+ Double32_t timeDiff=999999, meanTime=999999, timeclock=999999;
+
AliDebug(1,Form("Start DIGITS reconstruction "));
+ Float_t lowAmpThreshold = GetRecoParam()->GetLow(200);
+ Float_t highAmpThreshold = GetRecoParam()->GetHigh(200);
+ Int_t badpmt = GetRecoParam()->GetRefPoint();
+
TBranch *brDigits=digitsTree->GetBranch("T0");
AliT0digit *fDigits = new AliT0digit() ;
if (brDigits) {
fDigits->GetTimeLED(*timeLED);
fDigits->GetQT0(*chargeQT0);
fDigits->GetQT1(*chargeQT1);
+ Int_t onlineMean = fDigits->MeanTime();
+ Bool_t tr[5];
+ for (Int_t i=0; i<5; i++) tr[i]=false;
- Float_t besttimeA=999999;
- Float_t besttimeC=999999;
+ Double32_t besttimeA=999999;
+ Double32_t besttimeC=999999;
Int_t pmtBestA=99999;
Int_t pmtBestC=99999;
- Float_t timeDiff=999999, meanTime=0;
-
-
AliT0RecPoint* frecpoints= new AliT0RecPoint ();
- clustersTree->Branch( "T0", "AliT0RecPoint" ,&frecpoints, 405,1);
+ clustersTree->Branch( "T0", "AliT0RecPoint" ,&frecpoints);
- Float_t time[24], adc[24];
+ Float_t time[24], adc[24], adcmip[24];
for (Int_t ipmt=0; ipmt<24; ipmt++) {
- if(timeCFD->At(ipmt)>0 ){
- Double_t qt0 = Double_t(chargeQT0->At(ipmt));
- Double_t qt1 = Double_t(chargeQT1->At(ipmt));
- if((qt1-qt0)>0) adc[ipmt] = TMath::Exp( Double_t (channelWidth*(qt1-qt0)/1000));
- time[ipmt] = calib-> WalkCorrection( ipmt,Int_t(qt1) , timeCFD->At(ipmt), "pdc" ) ;
+ if(timeCFD->At(ipmt)>0 && ipmt != badpmt) {
+ if(( chargeQT1->At(ipmt) - chargeQT0->At(ipmt))>0)
+ adc[ipmt] = chargeQT1->At(ipmt) - chargeQT0->At(ipmt);
+ else
+ adc[ipmt] = 0;
+
+ time[ipmt] = fCalib-> WalkCorrection(refAmp, ipmt, Int_t(adc[ipmt]), timeCFD->At(ipmt)) ;
+
+ Double_t sl = Double_t(timeLED->At(ipmt) - timeCFD->At(ipmt));
+ // time[ipmt] = fCalib-> WalkCorrection( refAmp,ipmt, Int_t(sl), timeCFD->At(ipmt) ) ;
+ AliDebug(5,Form(" ipmt %i QTC %i , time in chann %i (led-cfd) %i ",
+ ipmt, Int_t(adc[ipmt]) ,Int_t(time[ipmt]),Int_t( sl)));
+
+ Double_t ampMip =((TGraph*)fAmpLED.At(ipmt))->Eval(sl);
+ Double_t qtMip = ((TGraph*)fQTC.At(ipmt))->Eval(adc[ipmt]);
+ AliDebug(5,Form(" Amlitude in MIPS LED %f , QTC %f in channels %f\n ",ampMip,qtMip, adc[ipmt]));
+
+ frecpoints->SetTime(ipmt, Float_t(time[ipmt]) );
+ frecpoints->SetAmpLED(ipmt, Float_t( ampMip)); //for cosmic &pp beam
+ frecpoints->SetAmp(ipmt, Float_t(qtMip));
+ adcmip[ipmt]=qtMip;
- //LED
- Double_t sl = (timeLED->At(ipmt) - time[ipmt])*channelWidth;
- Double_t qt=((TGraph*)fAmpLEDrec.At(ipmt))->Eval(sl/1000.);
- frecpoints->SetTime(ipmt,time[ipmt]);
- frecpoints->SetAmp(ipmt,adc[ipmt]);
- frecpoints->SetAmpLED(ipmt,qt);
}
else {
time[ipmt] = 0;
}
for (Int_t ipmt=0; ipmt<12; ipmt++){
- if(time[ipmt] > 1 ) {
+ if(time[ipmt] > 1 && ipmt != badpmt && adcmip[ipmt]>lowAmpThreshold && adcmip[ipmt]<highAmpThreshold) {
if(time[ipmt]<besttimeC){
besttimeC=time[ipmt]; //timeC
pmtBestC=ipmt;
}
}
for ( Int_t ipmt=12; ipmt<24; ipmt++){
- if(time[ipmt] > 1) {
+ if(time[ipmt] > 1 && ipmt != badpmt && adcmip[ipmt]>lowAmpThreshold && adcmip[ipmt]<highAmpThreshold) {
if(time[ipmt]<besttimeA) {
besttimeA=time[ipmt]; //timeA
pmtBestA=ipmt;}
}
}
- if(besttimeA !=999999) frecpoints->SetTimeBestA(Int_t(besttimeA));
- if( besttimeC != 999999 ) frecpoints->SetTimeBestC(Int_t(besttimeC));
- AliDebug(1,Form(" besttimeA %f ps, besttimeC %f ps",besttimeA, besttimeC));
- Float_t c = 0.0299792; // cm/ps
- Float_t vertex = 0;
- if(besttimeA !=999999 && besttimeC != 999999 ){
- timeDiff =(besttimeC - besttimeA)*channelWidth;
- meanTime = (meanT0 - (besttimeA + besttimeC)/2) * channelWidth;
- vertex = c*(timeDiff)/2. + (fdZonA - fdZonC)/2; //-(lenr-lenl))/2;
- AliDebug(1,Form(" timeDiff %f ps, meanTime %f ps, vertex %f cm",timeDiff, meanTime,vertex ));
- frecpoints->SetVertex(vertex);
- frecpoints->SetMeanTime(Int_t(meanTime));
-
+ if(besttimeA < 999999) {
+ frecpoints->SetTimeBestA(Int_t(besttimeA *channelWidth - fdZonA/c));
+ tr[1]=true;
}
- //time in each channel as time[ipmt]-MeanTimeinThisChannel(with vertex=0)
- for (Int_t ipmt=0; ipmt<24; ipmt++) {
- if(time[ipmt]>1) {
-// time[ipmt] = (time[ipmt] - fTime0vertex[ipmt])*channelWidth;
- time[ipmt] = time[ipmt] * channelWidth;
- frecpoints->SetTime(ipmt,time[ipmt]);
- }
+ if( besttimeC < 999999 ) {
+ frecpoints->SetTimeBestC(Int_t(besttimeC *channelWidth - fdZonA/c));
+ tr[2]=true;
+ }
+ AliDebug(5,Form(" besttimeA %f ch, besttimeC %f ch",besttimeA, besttimeC));
+ if(besttimeA <999999 && besttimeC < 999999 ){
+ // timeDiff = (besttimeC - besttimeA)*channelWidth;
+ timeDiff = (besttimeA - besttimeC)*channelWidth;
+ meanTime = (besttimeA + besttimeC)/2;// * channelWidth);
+ timeclock = meanTime *channelWidth -fdZonA/c ;
+ vertex = meanVertex - c*(timeDiff)/2.;// + (fdZonA - fdZonC)/2;
+ tr[0]=true;
}
+ frecpoints->SetVertex(vertex);
+ frecpoints->SetMeanTime(meanTime);
+ frecpoints->SetT0clock(timeclock);
+ frecpoints->SetT0Trig(tr);
+
+ AliDebug(5,Form("T0 triggers %d %d %d %d %d",tr[0],tr[1],tr[2],tr[3],tr[4]));
+
+ //online mean
+ frecpoints->SetOnlineMean(Int_t(onlineMean));
+ AliDebug(10,Form(" timeDiff %f #channel, meanTime %f #channel, vertex %f cm online mean %i timeclock %f ps",timeDiff, meanTime,vertex, Int_t(onlineMean), timeclock));
+
+
+
+
+
clustersTree->Fill();
delete timeCFD;
void AliT0Reconstructor::Reconstruct(AliRawReader* rawReader, TTree*recTree) const
{
// T0 raw ->
- // T0RecPoint writing
-
- //Q->T-> coefficients !!!! should be measured!!!
- Int_t allData[110][50];
-
- TArrayI * timeCFD = new TArrayI(24);
- TArrayI * timeLED = new TArrayI(24);
- TArrayI * chargeQT0 = new TArrayI(24);
- TArrayI * chargeQT1 = new TArrayI(24);
+ //
+ // reference amplitude and time ref. point from reco param
- TString option = GetOption();
- AliDebug(1,Form("Option: %s\n", option.Data()));
+ Float_t refAmp = GetRecoParam()->GetRefAmp();
- for (Int_t i0=0; i0<105; i0++)
- {
- for (Int_t j0=0; j0<50; j0++) allData[i0][j0]=0;
- }
-
+ // Int_t refPoint = 0;
- AliDebug(10," before read data ");
- AliT0RawReader myrawreader(rawReader);
- if (!myrawreader.Next())
- AliDebug(1,Form(" no raw data found!! %i", myrawreader.Next()));
+ //Bad channel
+ Int_t badpmt = GetRecoParam()->GetRefPoint();
+
+ Int_t low[500], high[500];
- for (Int_t i=0; i<105; i++) {
- for (Int_t iHit=0; iHit<50; iHit++)
- {
- allData[i][iHit] = myrawreader.GetData(i,iHit);
- }
- }
- AliT0Calibrator *calib = new AliT0Calibrator();
+ Int_t allData[110][5];
- // Int_t mV2Mip = param->GetmV2Mip();
- //mV2Mip = param->GetmV2Mip();
- Float_t channelWidth = fParam->GetChannelWidth() ;
-
- Int_t meanT0 = fParam->GetMeanT0();
-
- for (Int_t in=0; in<24; in++)
+ Int_t timeCFD[24], timeLED[24], chargeQT0[24], chargeQT1[24];
+ Double32_t timeDiff=999999, meanTime=999999, timeclock=9999999;
+ Float_t c = 29.9792458; // cm/ns
+ Double32_t vertex = 9999999;
+ Int_t onlineMean=0;
+ // Float_t meanVertex = fParam->GetMeanVertex();
+ Float_t meanVertex = 0;
+ for (Int_t i0=0; i0<110; i0++)
{
- timeLED->AddAt(allData[in+1][0],in);
- timeCFD->AddAt(allData[in+25][0],in);
- chargeQT1->AddAt(allData[in+57][0],in);
- chargeQT0->AddAt(allData[in+80][0],in);
- AliDebug(10, Form(" readed Raw %i %i %i %i %i", in, timeLED->At(in),timeCFD->At(in),chargeQT0->At(in),chargeQT1->At(in)));
- }
-
- Float_t besttimeA=9999999;
- Float_t besttimeC=9999999;
+ for (Int_t j0=0; j0<5; j0++) allData[i0][j0]=0;
+ low[i0] = Int_t (GetRecoParam()->GetLow(i0));
+ high[i0] = Int_t (GetRecoParam()->GetHigh(i0));
+ }
+ Float_t lowAmpThreshold = GetRecoParam()->GetLow(200);
+ Float_t highAmpThreshold = GetRecoParam()->GetHigh(200);
+ printf(" lowAmpThreshold %f highAmpThreshold %f \n",lowAmpThreshold, highAmpThreshold);
+
+ Double32_t besttimeA=9999999;
+ Double32_t besttimeC=9999999;
Int_t pmtBestA=99999;
Int_t pmtBestC=99999;
- Float_t timeDiff=9999999, meanTime=0;
-
-
+
AliT0RecPoint* frecpoints= new AliT0RecPoint ();
-
- recTree->Branch( "T0", "AliT0RecPoint" ,&frecpoints, 405,1);
+ recTree->Branch( "T0", "AliT0RecPoint" ,&frecpoints);
+
+ AliDebug(10," before read data ");
+ AliT0RawReader myrawreader(rawReader);
- Float_t time[24], adc[24];
- for (Int_t ipmt=0; ipmt<24; ipmt++) {
- if(timeCFD->At(ipmt)>0 ){
-
- if(option == "pdc"){
- Double_t qt0 = Double_t(chargeQT0->At(ipmt));
- Double_t qt1 = Double_t(chargeQT1->At(ipmt));
- if((qt1-qt0)>0) adc[ipmt] = TMath::Exp( Double_t (channelWidth*(qt1-qt0)/1000));
- // time[ipmt] = channelWidth * (calib-> WalkCorrection( ipmt,qt1 , timeCFD->At(ipmt) ) ) ;
- time[ipmt] = calib-> WalkCorrection( ipmt,Int_t(qt1) , timeCFD->At(ipmt) ) ;
- Double_t sl = (timeLED->At(ipmt) - time[ipmt])*channelWidth;
- Double_t qt=((TGraph*)fAmpLEDrec.At(ipmt))->Eval(sl/1000.);
- frecpoints->SetTime(ipmt,time[ipmt]);
- frecpoints->SetAmp(ipmt,adc[ipmt]);
- frecpoints->SetAmpLED(ipmt,qt);
- AliDebug(1,Form(" QTC %f mv, QTC %f MIPS time in chann %f time %f ",adc[ipmt], adc[ipmt]/50.,time[ipmt], time[ipmt]*channelWidth));
- }
- if(option == "cosmic") {
- Float_t qt0 = Float_t(chargeQT0->At(ipmt));
- Float_t qt1 = Float_t(chargeQT1->At(ipmt));
- if((qt0-qt1)>0) adc[ipmt] = qt0-qt1;
- time[ipmt] = calib-> WalkCorrection( ipmt, Int_t(adc[ipmt]), timeCFD->At(ipmt) ) ;
- Double_t sl = timeLED->At(ipmt) - time[ipmt];
- Double_t qt=((TGraph*)fAmpLEDrec.At(ipmt))->Eval(sl);
- frecpoints->SetTime(ipmt,time[ipmt]);
- frecpoints->SetAmp(ipmt,adc[ipmt]);
- frecpoints->SetAmpLED(ipmt,qt);
- AliDebug(10,Form(" QTC %i , time in chann %i led %i ",
- Int_t(adc[ipmt]) ,Int_t(time[ipmt]),Int_t( qt)));
- }
-
- }
- else {
- time[ipmt] = 0;
- adc[ipmt] = 0;
+ UInt_t type =rawReader->GetType();
+
+ if (!myrawreader.Next())
+ AliDebug(1,Form(" no raw data found!!"));
+ else
+ {
+ for (Int_t i=0; i<24; i++)
+ {
+ timeCFD[i]=0; timeLED[i]=0; chargeQT0[i]=0; chargeQT1[i]=0;
}
- }
-
- for (Int_t ipmt=0; ipmt<12; ipmt++){
- if(time[ipmt] > 1 ) {
- if(time[ipmt]<besttimeC){
- besttimeC=time[ipmt]; //timeC
- pmtBestC=ipmt;
+ Int_t fBCID=Int_t (rawReader->GetBCID());
+ Int_t trmbunch= myrawreader.GetTRMBunchID();
+ AliDebug(10,Form(" CDH BC ID %i, TRM BC ID %i \n", fBCID, trmbunch ));
+
+ if(type == 7 ) { //only physics
+ for (Int_t i=0; i<107; i++) {
+ for (Int_t iHit=0; iHit<5; iHit++)
+ {
+ allData[i][iHit] = myrawreader.GetData(i,iHit);
+ }
+ }
+ Int_t ref=0;
+
+ // if (refPoint>0)
+ // ref = allData[refPoint][0]-5000;
+
+
+ Float_t channelWidth = fParam->GetChannelWidth() ;
+
+ // Int_t meanT0 = fParam->GetMeanT0();
+
+ for (Int_t in=0; in<12; in++)
+ {
+ for (Int_t iHit=0; iHit<5; iHit++)
+ {
+ if(allData[in+1][iHit] > low[in+1] &&
+ allData[in+1][iHit] < high[in+1])
+ {
+ timeCFD[in] = allData[in+1][iHit] ;
+ break;
+ }
+ }
+ for (Int_t iHit=0; iHit<5; iHit++)
+ {
+ if(allData[in+12+1][iHit] > low[in+12+1] &&
+ allData[in+1+12][iHit] < high[in+12+1])
+ {
+ timeLED[in] = allData[in+12+1][iHit] ;
+ break;
+ }
+ }
+ for (Int_t iHit=0; iHit<5; iHit++)
+ {
+ if(allData[in+1+56][iHit] > low[in+1+56] &&
+ allData[in+1+56][iHit] < high[in+1+56])
+ {
+ timeCFD[in+12] = allData[in+56+1][iHit] ;
+ break;
+ }
+ }
+
+ for (Int_t iHit=0; iHit<5; iHit++)
+ {
+ if(allData[in+1+68][iHit] > low[in+1+68] &&
+ allData[in+1+68][iHit] < high[in+1+68])
+ {
+
+ timeLED[in+12] = allData[in+68+1][iHit] ;
+ break;
+ }
+ }
+ AliDebug(5, Form(" readed i %i cfdC %i cfdA %i ledC %i ledA%i ",
+ in, timeCFD[in],timeCFD[in+12],timeLED[in],
+ timeLED[in+12]));
+
+ }
+
+
+ for (Int_t in=0; in<12; in++)
+ {
+ chargeQT0[in]=allData[2*in+25][0];
+ chargeQT1[in]=allData[2*in+26][0];
+ AliDebug(10, Form(" readed Raw %i %i %i",
+ in, chargeQT0[in],chargeQT1[in]));
+ }
+ for (Int_t in=12; in<24; in++)
+ {
+ chargeQT0[in]=allData[2*in+57][0];
+ chargeQT1[in]=allData[2*in+58][0];
+ AliDebug(10, Form(" readed Raw %i %i %i",
+ in, chargeQT0[in],chargeQT1[in]));
+
+ }
+
+ for (Int_t iHit=0; iHit<5; iHit++)
+ {
+ if(allData[49][iHit] > low[49] &&
+ allData[49][iHit] < high[49]){
+ onlineMean = allData[49][iHit];
+ break;
+ }
+ }
+ Double32_t time[24], adc[24], adcmip[24], noncalibtime[24];
+ for (Int_t ipmt=0; ipmt<24; ipmt++) {
+ if(timeCFD[ipmt]>0 && ipmt != badpmt ){
+ //for simulated data
+ //for physics data
+ if(( chargeQT0[ipmt] - chargeQT1[ipmt])>0) {
+ adc[ipmt] = chargeQT0[ipmt] - chargeQT1[ipmt];
+ }
+ else
+ adc[ipmt] = 0;
+ time[ipmt] = fCalib-> WalkCorrection(Int_t (refAmp), ipmt, Int_t(adc[ipmt]), timeCFD[ipmt] ) ;
+
+ Double_t sl = timeLED[ipmt] - timeCFD[ipmt];
+ // time[ipmt] = fCalib-> WalkCorrection( refAmp,ipmt, Int_t(sl), timeCFD[ipmt] ) ;
+ AliDebug(5,Form(" ipmt %i QTC %i , time in chann %i (led-cfd) %i ",
+ ipmt, Int_t(adc[ipmt]) ,Int_t(time[ipmt]),Int_t( sl)));
+ Double_t ampMip =( (TGraph*)fAmpLED.At(ipmt))->Eval(sl);
+ Double_t qtMip = ((TGraph*)fQTC.At(ipmt))->Eval(adc[ipmt]);
+ AliDebug(10,Form(" Amlitude in MIPS LED %f ; QTC %f; in channels %f\n ",ampMip,qtMip, adc[ipmt]));
+ //bad peak removing
+ frecpoints->SetTime(ipmt, Float_t(time[ipmt]) );
+ // frecpoints->SetTime(ipmt,Double32_t(timeCFD[ipmt]));
+ frecpoints->SetAmp(ipmt, Double32_t( qtMip));
+ adcmip[ipmt]=qtMip;
+ frecpoints->SetAmpLED(ipmt, Double32_t(ampMip));
+ noncalibtime[ipmt]= Double32_t (timeCFD[ipmt]);
+ }
+ else {
+ time[ipmt] = 0;
+ adc[ipmt] = 0;
+ noncalibtime[ipmt] = 0;
+ }
+ }
+ fESDTZEROfriend->SetT0timeCorr(noncalibtime) ;
+ for (Int_t ipmt=0; ipmt<12; ipmt++){
+ if(time[ipmt] > 1 && ipmt != badpmt && adcmip[ipmt]>lowAmpThreshold && adcmip[ipmt]<highAmpThreshold )
+ {
+ if(time[ipmt]<besttimeC){
+ besttimeC=time[ipmt]; //timeC
+ pmtBestC=ipmt;
+ }
+ }
+ }
+ for ( Int_t ipmt=12; ipmt<24; ipmt++)
+ {
+ if(time[ipmt] > 1 && ipmt != badpmt && adcmip[ipmt]>lowAmpThreshold && adcmip[ipmt]<highAmpThreshold)
+ {
+ if(time[ipmt]<besttimeA) {
+ besttimeA=time[ipmt]; //timeA
+ pmtBestA=ipmt;
+ }
+ }
+ }
+ if(besttimeA < 999999)
+ frecpoints->SetTimeBestA(besttimeA * channelWidth - 1000.*fLatencyHPTDC + 1000.*fLatencyL1A - 1000.*fGRPdelays - fTimeMeanShift[1]);
+
+ if( besttimeC < 999999 )
+ frecpoints->SetTimeBestC(besttimeC * channelWidth - 1000.*fLatencyHPTDC +1000.*fLatencyL1C - 1000.*fGRPdelays - fTimeMeanShift[2]);
+ AliDebug(5,Form(" pmtA %i besttimeA %f shift A %f ps, pmtC %i besttimeC %f shiftC %f ps",
+ pmtBestA,besttimeA, fTimeMeanShift[1],
+
+ pmtBestC, besttimeC,fTimeMeanShift[2]));
+ if(besttimeA <999999 && besttimeC < 999999 ){
+ timeDiff = ( besttimeA - besttimeC)* 0.001* channelWidth + fLatencyL1A - fLatencyL1C;
+ timeclock = channelWidth * Float_t( besttimeA+besttimeC)/2. - 1000.*fLatencyHPTDC + 1000.*fLatencyL1 - 1000.*fGRPdelays - fTimeMeanShift[0];
+ meanTime = (besttimeA+besttimeC-2.*Float_t(ref))/2.;
+ vertex = meanVertex - c*(timeDiff)/2. ; //+ (fdZonA - fdZonC)/2;
+ }
+ } //if phys event
+ AliDebug(10,Form(" timeDiff %f #channel, meanTime %f #channel, TOFmean%f vertex %f cm meanVertex %f online mean %i \n",timeDiff, meanTime,timeclock, vertex,meanVertex, onlineMean));
+ frecpoints->SetT0clock(timeclock);
+ frecpoints->SetVertex(vertex);
+ frecpoints->SetMeanTime(meanTime);
+ frecpoints->SetOnlineMean(Int_t(onlineMean));
+ // Set triggers
+
+ Bool_t tr[5];
+ Int_t trchan[5]= {50,51,52,55,56};
+ for (Int_t i=0; i<5; i++) tr[i]=false;
+ for (Int_t itr=0; itr<5; itr++) {
+ for (Int_t iHit=0; iHit<5; iHit++)
+ {
+ Int_t trr=trchan[itr];
+ if( allData[trr][iHit] > 0) tr[itr]=true;
+ }
}
- }
- }
- for ( Int_t ipmt=12; ipmt<24; ipmt++){
- if(time[ipmt] > 1) {
- if(time[ipmt]<besttimeA) {
- besttimeA=time[ipmt]; //timeA
- pmtBestA=ipmt;}
- }
- }
- if(besttimeA !=9999999) frecpoints->SetTimeBestA(Int_t(besttimeA));
- if( besttimeC != 9999999 ) frecpoints->SetTimeBestC(Int_t(besttimeC));
- AliDebug(1,Form(" besttimeA %f ps, besttimeC %f ps",besttimeA, besttimeC));
- Float_t c = 0.0299792; // cm/ps
- Float_t vertex = 99999;
- if(besttimeA <9999999 && besttimeC < 9999999 ){
- timeDiff =( besttimeC - besttimeA) *channelWidth;
- if(option == "pdc")
- meanTime = (meanT0 - (besttimeA + besttimeC)/2) * channelWidth;
- if(option == "cosmic") meanTime = (besttimeA + besttimeC)/2;
- vertex = c*(timeDiff)/2. + (fdZonA - fdZonC)/2;
- AliDebug(1,Form(" timeDiff %f ps, meanTime %f ps, vertex %f cm",timeDiff, meanTime,vertex ));
- frecpoints->SetVertex(vertex);
- frecpoints->SetMeanTime(Int_t(meanTime));
-
- }
- //time in each channel as time[ipmt]-MeanTimeinThisChannel(with vertex=0)
- /*
- for (Int_t ipmt=0; ipmt<24; ipmt++) {
- if(time[ipmt]>1) {
- time[ipmt] = (time[ipmt] - fTime0vertex[ipmt])*channelWidth;
- frecpoints->SetTime(ipmt,time[ipmt]);
- }
- }
- */
+ frecpoints->SetT0Trig(tr);
+
+ //Set MPD
+ if(allData[53][0]>0 && allData[54][0])
+ frecpoints->SetMultA(allData[53][0]-allData[54][0]);
+ if(allData[105][0]>0 && allData[106][0])
+ frecpoints->SetMultC(allData[105][0]-allData[106][0]);
+
+
+ } // if (else )raw data
recTree->Fill();
-
-
- delete timeCFD;
- delete timeLED;
- delete chargeQT0;
- delete chargeQT1;
-
+ if(frecpoints) delete frecpoints;
}
-//____________________________________________________________
-
-void AliT0Reconstructor::FillESD(TTree */*digitsTree*/, TTree *clustersTree, AliESDEvent *pESD) const
-{
+
+
+ //____________________________________________________________
+
+ void AliT0Reconstructor::FillESD(TTree */*digitsTree*/, TTree *clustersTree, AliESDEvent *pESD) const
+ {
/***************************************************
Resonstruct digits to vertex position
****************************************************/
AliDebug(1,Form("Start FillESD T0"));
+ pESD ->SetT0spread(fTimeSigmaShift);
+
+ Float_t channelWidth = fParam->GetChannelWidth() ;
+ Float_t c = 0.0299792458; // cm/ps
+ Float_t currentVertex=0, shift=0;
+ Int_t ncont=-1;
+ const AliESDVertex* vertex = pESD->GetPrimaryVertex();
+ if (!vertex) vertex = pESD->GetPrimaryVertexSPD();
+ if (!vertex) vertex = pESD->GetPrimaryVertexTPC();
+ if (!vertex) vertex = pESD->GetVertex();
+
+ if (vertex) {
+ AliDebug(2, Form("Got %s (%s) from ESD: %f",
+ vertex->GetName(), vertex->GetTitle(), vertex->GetZ()));
+ currentVertex = vertex->GetZ();
+
+ ncont = vertex->GetNContributors();
+ // cout<<"@@ spdver "<<spdver<<" ncont "<<ncont<<endl;
+ if(ncont>0 ) {
+ shift = currentVertex/c;
+ }
+ }
TTree *treeR = clustersTree;
- AliT0RecPoint* frecpoints= new AliT0RecPoint ();
- if (!frecpoints) {
+ AliT0RecPoint* frecpoints= new AliT0RecPoint ();
+ if (!frecpoints) {
AliError("Reconstruct Fill ESD >> no recpoints found");
return;
}
AliError(Form("EXEC Branch T0 rec not found"));
return;
}
+
+ brRec->GetEntry(0);
+ Double32_t amp[24], time[24], ampQTC[24], timecorr[24];
+ Double32_t* tcorr;
+ for(Int_t i=0; i<24; i++)
+ amp[i]=time[i]=ampQTC[i]=timecorr[i]=0;
+
+
+ Double32_t timeClock[3];
+ Double32_t zPosition = frecpoints -> GetVertex();
+ Double32_t timeStart = frecpoints -> GetMeanTime();
+ timeClock[0] = frecpoints -> GetT0clock() ;
+ timeClock[1] = frecpoints -> GetBestTimeA() + shift;
+ timeClock[2] = frecpoints -> GetBestTimeC() - shift;
+ for ( Int_t i=0; i<24; i++) {
+ time[i] = frecpoints -> GetTime(i); // ps to ns
+ if ( time[i] >1) {
+ ampQTC[i] = frecpoints -> GetAmp(i);
+ amp[i] = frecpoints -> AmpLED(i);
+ AliDebug(1,Form("T0: time %f ampQTC %f ampLED %f \n", time[i], ampQTC[i], amp[i]));
+ }
+ }
+ Int_t trig= frecpoints ->GetT0Trig();
+ pESD->SetT0Trig(trig);
+
+ pESD->SetT0zVertex(zPosition); //vertex Z position
+
+ Double32_t multA=frecpoints ->GetMultA();
+ Double32_t multC=frecpoints ->GetMultC();
+ // pESD->SetT0MultC(multC); // multiplicity Cside
+ // pESD->SetT0MultA(multA); // multiplicity Aside
+ pESD->SetT0(multA); // for backward compatubility
+ pESD->SetT0clock(multC); // for backward compatubility
+
+ for(Int_t i=0; i<3; i++)
+ pESD->SetT0TOF(i,timeClock[i]); // interaction time (ns)
+ pESD->SetT0time(time); // best TOF on each PMT
+ pESD->SetT0amplitude(ampQTC); // number of particles(MIPs) on each PMT
+
+ AliDebug(1,Form("T0: Vertex %f (T0A+T0C)/2 %f #channels T0signal %f ns OrA %f ns OrC %f T0trig %i\n",zPosition, timeStart, timeClock[0], timeClock[1], timeClock[2], trig));
+
+ if (pESD) {
- brRec->GetEntry(0);
- Float_t amp[24], time[24];
- Float_t zPosition = frecpoints -> GetVertex();
- Float_t timeStart = frecpoints -> GetMeanTime() ;
- for ( Int_t i=0; i<24; i++) {
- time[i] = Float_t (frecpoints -> GetTime(i)); // ps to ns
- amp[i] = frecpoints -> GetAmp(i);
+ AliESDfriend *fr = (AliESDfriend*)pESD->FindListObject("AliESDfriend");
+ if (fr) {
+ AliDebug(1, Form("Writing TZERO friend data to ESD tree"));
+
+ // if (ncont>2) {
+ tcorr = fESDTZEROfriend->GetT0timeCorr();
+ for ( Int_t i=0; i<24; i++) {
+ if(i<12 && time[i]>1) timecorr[i] = tcorr[i] - shift/channelWidth;
+ if(i>11 && time[i]>1) timecorr[i] = tcorr[i] + shift/channelWidth;
+ if(time[i]>1) AliDebug(10,Form("T0 friend : time %f ampQTC %f ampLED %f \n", timecorr[i], ampQTC[i], amp[i]));
+ }
+ fESDTZEROfriend->SetT0timeCorr( timecorr) ;
+ fESDTZEROfriend->SetT0ampLEDminCFD(amp);
+ fESDTZEROfriend->SetT0ampQTC(ampQTC);
+ fr->SetTZEROfriend(fESDTZEROfriend);
+ // }//
}
- pESD->SetT0zVertex(zPosition); //vertex Z position
- pESD->SetT0(timeStart); // interaction time
- pESD->SetT0time(time); // best TOF on each PMT
- pESD->SetT0amplitude(amp); // number of particles(MIPs) on each PMT
-
- AliDebug(1,Form(" Z position %f cm, T0 %f ps",zPosition , timeStart));
+ }
+
+
} // vertex in 3 sigma