#include "TH2I.h"
#include "TH1F.h"
#include "TH2F.h"
+#include "TH2S.h"
#include "TList.h"
#include "TMath.h"
#include "TObject.h"
#include "TStyle.h"
#include "TLine.h"
#include "TIterator.h"
+#include "TLinearFitter.h"
+#include "TVectorD.h"
#include "AliAnalysisTask.h"
#include "AliAnalysisManager.h"
+#include "AliExternalTrackParam.h"
#include "AliESDVertex.h"
#include "AliESDEvent.h"
#include "AliESDfriend.h"
+#include "AliCentrality.h"
#include "AliESDInputHandler.h"
#include "AliESDtrack.h"
#include "AliESDfriendTrack.h"
fListHist(0),
fTRDCalibraFillHisto(0),
fNEvents(0),
+ fNEventsInput(0),
fNbTRDTrack(0),
fNbTRDTrackOffline(0),
fNbTRDTrackStandalone(0),
fNbTPCTRDtrack(0),
+ fNbGoodTracks(0),
fNbTimeBin(0),
fNbTimeBinOffline(0),
fNbTimeBinStandalone(0),
fPH2dSum(0),
fCH2dSM(0),
fPH2dSM(0),
+ fCH2dTest(0),
+ fPH2dTest(0),
+ fLinearVdriftTest(0),
+ fOnInstance(kTRUE),
fHisto2d(kTRUE),
fVector2d(kFALSE),
fVdriftLinear(kTRUE),
fVtxSPD(kFALSE),
fMinNbContributors(0),
fRangePrimaryVertexZ(9999999.0),
+ fMinNbTracks(9),
+ fMaxNbTracks(500),
fLow(0),
fHigh(30),
fFillZero(kFALSE),
fNbMaxCluster(2),
fOfflineTracks(kFALSE),
fStandaloneTracks(kFALSE),
+ fFirstRunGain(-1),
fVersionGainUsed(-1),
fSubVersionGainUsed(-1),
+ fFirstRunGainLocal(-1),
fVersionGainLocalUsed(-1),
fSubVersionGainLocalUsed(-1),
+ fFirstRunVdrift(-1),
fVersionVdriftUsed(-1),
fSubVersionVdriftUsed(-1),
fCalDetGain(0x0),
// Pointeur
if(fNEvents) delete fNEvents;
+ if(fNEventsInput) delete fNEventsInput;
if(fNbTRDTrack) delete fNbTRDTrack;
if(fNbTRDTrackOffline) delete fNbTRDTrackOffline;
if(fNbTRDTrackStandalone) delete fNbTRDTrackStandalone;
if(fNbTPCTRDtrack) delete fNbTPCTRDtrack;
+ if(fNbGoodTracks) delete fNbGoodTracks;
if(fNbTimeBin) delete fNbTimeBin;
if(fNbTimeBinOffline) delete fNbTimeBinOffline;
if(fNbTimeBinStandalone) delete fNbTimeBinStandalone;
if(fPH2dSum) delete fPH2dSum;
if(fCH2dSM) delete fCH2dSM;
if(fPH2dSM) delete fPH2dSM;
+ if(fCH2dTest) delete fCH2dTest;
+ if(fPH2dTest) delete fPH2dTest;
+ if(fLinearVdriftTest) delete fLinearVdriftTest;
if(fCalDetGain) delete fCalDetGain;
if(fSelectedTrigger) {
}
-/*
-//________________________________________________________________________
-void AliTRDCalibTask::ConnectInputData(Option_t *)
-{
- // Connect ESD or AOD here
- // Called once per event
-
- cout << "AliTRDCalibTask::ConnectInputData() IN" << endl;
-
-
- // TTree* tree = dynamic_cast<TTree*> (GetInputData(0)); //pointer wird "umgecastet" auf anderen Variablentyp
- // if (!tree) {
- //Printf("ERROR: Could not read chain from input slot 0");
- // } else {
-
- AliESDInputHandler *esdH = dynamic_cast<AliESDInputHandler*> (AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler());
-
- if (!esdH) {
- //Printf("ERROR: Could not get ESDInputHandler");
- } else {
- fESD = esdH->GetEvent();
- // esdH->SetActiveBranches("ESDfriend*");
- if ((esdH->GetTree())->GetBranch("ESDfriend.")) fESDfriend = esdH->GetESDfriend();
- //else printf("No friend ESD\n");
- //Printf("*** CONNECTED NEW EVENT ****");
- }
-
-
- // }
- //cout << "AliTRDCalibTask::ConnectInputData() OUT" << endl;
-
-}
-*/
-
//________________________________________________________________________
void AliTRDCalibTask::UserCreateOutputObjects()
{
}
}
+ // output list
+ fListHist = new TList();
+ fListHist->SetOwner();
+
// instance calibration
fTRDCalibraFillHisto = AliTRDCalibraFillHisto::Instance();
- fTRDCalibraFillHisto->SetHisto2d(fHisto2d); // choose to use histograms
- fTRDCalibraFillHisto->SetVector2d(fVector2d); // choose to use vectors
- fTRDCalibraFillHisto->SetCH2dOn(); // choose to calibrate the gain
- fTRDCalibraFillHisto->SetPH2dOn(); // choose to calibrate the drift velocity
- fTRDCalibraFillHisto->SetPRF2dOn(); // choose to look at the PRF
- fTRDCalibraFillHisto->SetLinearFitterOn(fVdriftLinear); // Other possibility vdrift VDRIFT
- fTRDCalibraFillHisto->SetLinearFitterDebugOn(fVdriftLinear); // Other possibility vdrift
- for(Int_t k = 0; k < 3; k++){
- if(((fNz[k] != 10) && (fNrphi[k] != 10)) && ((fNz[k] != 100) && (fNrphi[k] != 100))) {
- fTRDCalibraFillHisto->SetNz(k,fNz[k]); // Mode calibration
- fTRDCalibraFillHisto->SetNrphi(k,fNrphi[k]); // Mode calibration
- }
- else {
- if((fNz[k] == 100) && (fNrphi[k] == 100)) {
- if(fVector2d) AliInfo("The mode all together is not supported by the vector method");
- fTRDCalibraFillHisto->SetAllTogether(k);
+ if(fOnInstance) {
+ fTRDCalibraFillHisto->SetHisto2d(fHisto2d); // choose to use histograms
+ fTRDCalibraFillHisto->SetVector2d(fVector2d); // choose to use vectors
+ fTRDCalibraFillHisto->SetCH2dOn(); // choose to calibrate the gain
+ fTRDCalibraFillHisto->SetPH2dOn(); // choose to calibrate the drift velocity
+ fTRDCalibraFillHisto->SetPRF2dOn(); // choose to look at the PRF
+ fTRDCalibraFillHisto->SetLinearFitterOn(fVdriftLinear); // Other possibility vdrift VDRIFT
+ fTRDCalibraFillHisto->SetLinearFitterDebugOn(fVdriftLinear); // Other possibility vdrift
+ for(Int_t k = 0; k < 3; k++){
+ if(((fNz[k] != 10) && (fNrphi[k] != 10)) && ((fNz[k] != 100) && (fNrphi[k] != 100))) {
+ fTRDCalibraFillHisto->SetNz(k,fNz[k]); // Mode calibration
+ fTRDCalibraFillHisto->SetNrphi(k,fNrphi[k]); // Mode calibration
}
- if((fNz[k] == 10) && (fNrphi[k] == 10)) {
- if(fVector2d) AliInfo("The mode per supermodule is not supported by the vector method");
- fTRDCalibraFillHisto->SetPerSuperModule(k);
+ else {
+ if((fNz[k] == 100) && (fNrphi[k] == 100)) {
+ if(fVector2d) AliInfo("The mode all together is not supported by the vector method");
+ fTRDCalibraFillHisto->SetAllTogether(k);
+ }
+ if((fNz[k] == 10) && (fNrphi[k] == 10)) {
+ if(fVector2d) AliInfo("The mode per supermodule is not supported by the vector method");
+ fTRDCalibraFillHisto->SetPerSuperModule(k);
+ }
}
}
- }
- // Variables for how to fill
- fTRDCalibraFillHisto->SetFillWithZero(fFillZero);
- fTRDCalibraFillHisto->SetNormalizeNbOfCluster(fNormalizeNbOfCluster);
- fTRDCalibraFillHisto->SetMaxCluster(fMaxCluster);
- fTRDCalibraFillHisto->SetNbMaxCluster(fNbMaxCluster);
+ // Variables for how to fill
+ fTRDCalibraFillHisto->SetFillWithZero(fFillZero);
+ fTRDCalibraFillHisto->SetNormalizeNbOfCluster(fNormalizeNbOfCluster);
+ fTRDCalibraFillHisto->SetMaxCluster(fMaxCluster);
+ fTRDCalibraFillHisto->SetNbMaxCluster(fNbMaxCluster);
- // Init with 30 timebins
- fTRDCalibraFillHisto->Init2Dhistos(fNbTimeBins); // initialise the histos
- fTRDCalibraFillHisto->SetNumberClusters(fLow); // At least 11 clusters
- fTRDCalibraFillHisto->SetNumberClustersf(fHigh); // At least 11 clusters
+ // Init with 30 timebins
+ fTRDCalibraFillHisto->Init2Dhistos(fNbTimeBins); // initialise the histos
+ fTRDCalibraFillHisto->SetNumberClusters(fLow); // At least 11 clusters
+ fTRDCalibraFillHisto->SetNumberClustersf(fHigh); // At least 11 clusters
+
+ // For testing only
+ if(fDebug > 2) fTRDCalibraFillHisto->SetDebugLevel(1); //debug stuff
+
+ if(fHisto2d) {
+ fListHist->Add(fTRDCalibraFillHisto->GetCH2d());
+ fListHist->Add(fTRDCalibraFillHisto->GetPH2d());
+ fListHist->Add(fTRDCalibraFillHisto->GetPRF2d());
+ }
+ if(fVdriftLinear) fListHist->Add((TObject *)fTRDCalibraFillHisto->GetVdriftLinearFit());
+ if(fVector2d) fListHist->Add((TObject *) fTRDCalibraFillHisto->GetCalibraVector()); //calibra vector
+ }
fRelativeScale = fTRDCalibraFillHisto->GetRelativeScale(); // Get the relative scale for the gain
- // For testing only
- if(fDebug > 2) fTRDCalibraFillHisto->SetDebugLevel(1); //debug stuff
-
- // output list
- fListHist = new TList();
- fListHist->SetOwner();
- if(fHisto2d) {
- fListHist->Add(fTRDCalibraFillHisto->GetCH2d());
- fListHist->Add(fTRDCalibraFillHisto->GetPH2d());
- fListHist->Add(fTRDCalibraFillHisto->GetPRF2d());
- }
- if(fVdriftLinear) fListHist->Add((TObject *) fTRDCalibraFillHisto->GetVdriftLinearFit());
- if(fVector2d) fListHist->Add((TObject *) fTRDCalibraFillHisto->GetCalibraVector()); //calibra vector
- fNEvents = new TH1I("NEvents","NEvents", 2, 0, 2);
+ fNEvents = new TH1I(Form("NEvents_%s",(const char*)fName),"NEvents", 2, 0, 2);
fListHist->Add(fNEvents);
+ fNEventsInput = new TH1I(Form("NEventsInput_%s",(const char*)fName),"NEventsInput", 2, 0, 2);
+ fListHist->Add(fNEventsInput);
// absolute gain calibration even without AliESDfriend
Int_t nBinsPt = 25;
for(Int_t i=0; i<=nBinsPt; i++) binLimLogPt[i]=(Double_t)TMath::Log10(minPt) + (TMath::Log10(maxPt)-TMath::Log10(minPt))/nBinsPt*(Double_t)i ;
for(Int_t i=0; i<=nBinsPt; i++) binLimPt[i]=(Double_t)TMath::Power(10,binLimLogPt[i]);
- fAbsoluteGain = new TH2F("AbsoluteGain","AbsoluteGain", 200, 0.0, 700.0, nBinsPt, binLimPt);
+ fAbsoluteGain = new TH2F(Form("AbsoluteGain_%s",(const char*)fName),"AbsoluteGain", 200, 0.0, 700.0, nBinsPt, binLimPt);
fAbsoluteGain->SetYTitle("Momentum at TRD");
fAbsoluteGain->SetXTitle("charge deposit [a.u]");
fAbsoluteGain->SetZTitle("counts");
fAbsoluteGain->Sumw2();
fListHist->Add(fAbsoluteGain);
-
-
/////////////////////////////////////////
// First debug level
///////////////////////////////////////
if(fDebug > 0) {
+
+ fLinearVdriftTest = new TH2S(Form("LFDV0testversion_%s",(const char*)fName),"LFDV0testversion",36,-0.9,0.9,48,-1.2,1.2);
+ fLinearVdriftTest->SetXTitle("tan(phi_{track})");
+ fLinearVdriftTest->SetYTitle("dy/dt");
+ fLinearVdriftTest->SetZTitle("Number of tracklets");
+ fLinearVdriftTest->SetStats(0);
+ fLinearVdriftTest->SetDirectory(0);
// Standart with AliESDfriend
- fPH2dSM = new TProfile2D("PH2dSM","Nz10Nrphi10"
+ fPH2dTest = new TProfile2D(Form("PH2dTest_%s",(const char*)fName),"Nz0Nrphi0"
+ ,fNbTimeBins,-0.05,(Double_t)((fNbTimeBins-0.5)/10.0)
+ ,540,0,540);
+ fPH2dTest->SetYTitle("Det/pad groups");
+ fPH2dTest->SetXTitle("time [#mus]");
+ fPH2dTest->SetZTitle("<PH> [a.u.]");
+ fPH2dTest->SetStats(0);
+ //
+ fCH2dTest = new TH2I(Form("CH2dTest_%s",(const char*)fName),"Nz0Nrphi0",50,0,300,540,0,540);
+ fCH2dTest->SetYTitle("Det/pad groups");
+ fCH2dTest->SetXTitle("charge deposit [a.u]");
+ fCH2dTest->SetZTitle("counts");
+ fCH2dTest->SetStats(0);
+ fCH2dTest->Sumw2();
+
+ //
+ fPH2dSM = new TProfile2D(Form("PH2dSM_%s",(const char*)fName),"Nz10Nrphi10"
,fNbTimeBins,-0.05,(Double_t)((fNbTimeBins-0.5)/10.0)
,18,0,18);
fPH2dSM->SetYTitle("Det/pad groups");
fPH2dSM->SetZTitle("<PH> [a.u.]");
fPH2dSM->SetStats(0);
//
- fCH2dSM = new TH2I("CH2dSM","Nz10Nrphi10",50,0,300,18,0,18);
+ fCH2dSM = new TH2I(Form("CH2dSM_%s",(const char*)fName),"Nz10Nrphi10",50,0,300,18,0,18);
fCH2dSM->SetYTitle("Det/pad groups");
fCH2dSM->SetXTitle("charge deposit [a.u]");
fCH2dSM->SetZTitle("counts");
fCH2dSM->SetStats(0);
fCH2dSM->Sumw2();
//
- fPH2dSum = new TProfile2D("PH2dSum","Nz100Nrphi100"
+ fPH2dSum = new TProfile2D(Form("PH2dSum_%s",(const char*)fName),"Nz100Nrphi100"
,fNbTimeBins,-0.05,(Double_t)((fNbTimeBins-0.5)/10.0)
,1,0,1);
fPH2dSum->SetYTitle("Det/pad groups");
fPH2dSum->SetZTitle("<PH> [a.u.]");
fPH2dSum->SetStats(0);
//
- fCH2dSum = new TH2I("CH2dSum","Nz100Nrphi100",50,0,300,1,0,1);
+ fCH2dSum = new TH2I(Form("CH2dSum_%s",(const char*)fName),"Nz100Nrphi100",50,0,300,1,0,1);
fCH2dSum->SetYTitle("Det/pad groups");
fCH2dSum->SetXTitle("charge deposit [a.u]");
fCH2dSum->SetZTitle("counts");
fCH2dSum->SetStats(0);
fCH2dSum->Sumw2();
+
// Add them
+ fListHist->Add(fLinearVdriftTest);
+ fListHist->Add(fPH2dTest);
+ fListHist->Add(fCH2dTest);
fListHist->Add(fPH2dSM);
fListHist->Add(fCH2dSM);
fListHist->Add(fPH2dSum);
fListHist->Add(fCH2dSum);
+
}
/////////////////////////////////////////
///////////////////////////////////////
if(fDebug > 1) {
- fNbTRDTrack = new TH1F("TRDTrack","TRDTrack",50,0,50);
+ fNbGoodTracks = new TH2F(Form("NbGoodTracks_%s",(const char*)fName),"NbGoodTracks",500,0.0,2500.0,200,0.0,100.0);
+ fNbGoodTracks->SetXTitle("Nb of good tracks");
+ fNbGoodTracks->SetYTitle("Centrality");
+ fNbGoodTracks->SetStats(0);
+
+ fNbTRDTrack = new TH1F(Form("TRDTrack_%s",(const char*)fName),"TRDTrack",50,0,50);
fNbTRDTrack->Sumw2();
- fNbTRDTrackOffline = new TH1F("TRDTrackOffline","TRDTrackOffline",50,0,50);
+ fNbTRDTrackOffline = new TH1F(Form("TRDTrackOffline_%s",(const char*)fName),"TRDTrackOffline",50,0,50);
fNbTRDTrackOffline->Sumw2();
- fNbTRDTrackStandalone = new TH1F("TRDTrackStandalone","TRDTrackStandalone",50,0,50);
+ fNbTRDTrackStandalone = new TH1F(Form("TRDTrackStandalone_%s",(const char*)fName),"TRDTrackStandalone",50,0,50);
fNbTRDTrackStandalone->Sumw2();
- fNbTPCTRDtrack = new TH2F("NbTPCTRDtrack","NbTPCTRDtrack",100,0,100,100,0,100);
+ fNbTPCTRDtrack = new TH2F(Form("NbTPCTRDtrack_%s",(const char*)fName),"NbTPCTRDtrack",100,0,100,100,0,100);
fNbTPCTRDtrack->Sumw2();
//
- fNbTimeBin = new TH1F("NbTimeBin","NbTimeBin",35,0,35);
+ fNbTimeBin = new TH1F(Form("NbTimeBin_%s",(const char*)fName),"NbTimeBin",35,0,35);
fNbTimeBin->Sumw2();
- fNbTimeBinOffline = new TH1F("NbTimeBinOffline","NbTimeBinOffline",35,0,35);
+ fNbTimeBinOffline = new TH1F(Form("NbTimeBinOffline_%s",(const char*)fName),"NbTimeBinOffline",35,0,35);
fNbTimeBinOffline->Sumw2();
- fNbTimeBinStandalone = new TH1F("NbTimeBinStandalone","NbTimeBinStandalone",35,0,35);
+ fNbTimeBinStandalone = new TH1F(Form("NbTimeBinStandalone_%s",(const char*)fName),"NbTimeBinStandalone",35,0,35);
fNbTimeBinStandalone->Sumw2();
//
- fNbClusters = new TH1F("NbClusters","",35,0,35);
+ fNbClusters = new TH1F(Form("NbClusters_%s",(const char*)fName),"",35,0,35);
fNbClusters->Sumw2();
- fNbClustersOffline = new TH1F("NbClustersOffline","",35,0,35);
+ fNbClustersOffline = new TH1F(Form("NbClustersOffline_%s",(const char*)fName),"",35,0,35);
fNbClustersOffline->Sumw2();
- fNbClustersStandalone = new TH1F("NbClustersStandalone","",35,0,35);
+ fNbClustersStandalone = new TH1F(Form("NbClustersStandalone_%s",(const char*)fName),"",35,0,35);
fNbClustersStandalone->Sumw2();
//
- fNbTracklets = new TH1F("NbTracklets","NbTracklets",540,0.,540.);
+ fNbTracklets = new TH1F(Form("NbTracklets_%s",(const char*)fName),"NbTracklets",540,0.,540.);
fNbTracklets->Sumw2();
- fNbTrackletsOffline = new TH1F("NbTrackletsOffline","NbTrackletsOffline",540,0.,540.);
+ fNbTrackletsOffline = new TH1F(Form("NbTrackletsOffline_%s",(const char*)fName),"NbTrackletsOffline",540,0.,540.);
fNbTrackletsOffline->Sumw2();
- fNbTrackletsStandalone = new TH1F("NbTrackletsStandalone","NbTrackletsStandalone",540,0.,540.);
+ fNbTrackletsStandalone = new TH1F(Form("NbTrackletsStandalone_%s",(const char*)fName),"NbTrackletsStandalone",540,0.,540.);
fNbTrackletsStandalone->Sumw2();
+ fListHist->Add(fNbGoodTracks);
+
fListHist->Add(fNbTRDTrack);
fListHist->Add(fNbTRDTrackOffline);
fListHist->Add(fNbTRDTrackStandalone);
delete [] binLimLogPt;
delete [] binLimPt;
+ PostData(1,fListHist);
+
//cout << "AliTRDCalibTask::UserCreateOutputObjects() OUT" << endl;
}
//cout << "AliTRDCalibTask::Exec() IN" << endl;
// Init Versions and subversions used
- if((fVersionGainUsed==-1) || (fSubVersionGainUsed==-1) || (fVersionGainLocalUsed==-1) || (fSubVersionGainLocalUsed==-1) || (fVersionVdriftUsed==-1) || (fSubVersionVdriftUsed==-1)) {
+ if((fFirstRunGain==-1) || (fVersionGainUsed==-1) || (fSubVersionGainUsed==-1) || (fFirstRunGainLocal==-1) || (fVersionGainLocalUsed==-1) || (fSubVersionGainLocalUsed==-1) || (fFirstRunVdrift==-1) || (fVersionVdriftUsed==-1) || (fSubVersionVdriftUsed==-1)) {
if(!SetVersionSubversion()) {
- fVersionGainUsed=0;
- fSubVersionGainUsed=0;
- fVersionGainLocalUsed=0;
- fSubVersionGainLocalUsed=0;
- fVersionVdriftUsed=0;
- fSubVersionVdriftUsed=0;
+ PostData(1, fListHist);
+ return;
}
}
if(fCounter==0) {
- fTRDCalibraFillHisto->SetVersionGainUsed(fVersionGainUsed); // Gain Used
- fTRDCalibraFillHisto->SetSubVersionGainUsed(fSubVersionGainUsed); // Gain Used
- fTRDCalibraFillHisto->SetVersionGainLocalUsed(fVersionGainLocalUsed); // Gain Used
- fTRDCalibraFillHisto->SetSubVersionGainLocalUsed(fSubVersionGainLocalUsed); // Gain Used
- fTRDCalibraFillHisto->SetVersionVdriftUsed(fVersionVdriftUsed); // Vdrift Used
- fTRDCalibraFillHisto->SetSubVersionVdriftUsed(fSubVersionVdriftUsed); // Vdrift Used
- fTRDCalibraFillHisto->InitCalDet();
+ if(fOnInstance) {
+ fTRDCalibraFillHisto->SetFirstRunGain(fFirstRunGain); // Gain Used
+ fTRDCalibraFillHisto->SetVersionGainUsed(fVersionGainUsed); // Gain Used
+ fTRDCalibraFillHisto->SetSubVersionGainUsed(fSubVersionGainUsed); // Gain Used
+ fTRDCalibraFillHisto->SetFirstRunGainLocal(fFirstRunGainLocal); // Gain Used
+ fTRDCalibraFillHisto->SetVersionGainLocalUsed(fVersionGainLocalUsed); // Gain Used
+ fTRDCalibraFillHisto->SetSubVersionGainLocalUsed(fSubVersionGainLocalUsed); // Gain Used
+ fTRDCalibraFillHisto->SetFirstRunVdrift(fFirstRunVdrift); // Vdrift Used
+ fTRDCalibraFillHisto->SetVersionVdriftUsed(fVersionVdriftUsed); // Vdrift Used
+ fTRDCalibraFillHisto->SetSubVersionVdriftUsed(fSubVersionVdriftUsed); // Vdrift Used
+ fTRDCalibraFillHisto->InitCalDet();
+ }
+ if(fDebug > 1){
+ // title CH2dTest
+ TString name("Ver");
+ name += fVersionGainUsed;
+ name += "Subver";
+ name += fSubVersionGainUsed;
+ name += "FirstRun";
+ name += fFirstRunGain;
+ name += "Nz0Nrphi0";
+ fCH2dTest->SetTitle(name);
+ // title PH2dTest
+ TString namee("Ver");
+ namee += fVersionVdriftUsed;
+ namee += "Subver";
+ namee += fSubVersionVdriftUsed;
+ namee += "FirstRun";
+ namee += fFirstRunVdrift;
+ namee += "Nz0Nrphi0";
+ fPH2dTest->SetTitle(namee);
+ }
}
// AliLog::SetGlobalLogLevel(AliLog::kError);
PostData(1, fListHist);
return;
}
+
+ const char* type = fESD->GetBeamType();
+
//printf("Counter %d\n",fCounter);
fCounter++;
+ fNEventsInput->Fill(1);
+
//cout << "maxEvent = " << fMaxEvent << endl;
//if(fCounter%100==0) cout << "fCounter = " << fCounter << endl;
- if((fMaxEvent != 0) && (fMaxEvent < fCounter)) return;
+ if((fMaxEvent != 0) && (fMaxEvent < fCounter)) {
+ PostData(1, fListHist);
+ return;
+ }
//if(fCounter%100==0) cout << "fCounter1 = " << fCounter << endl;
//cout << "event = " << fCounter << endl;
// Check trigger
///////////////////
Bool_t pass = kTRUE;
- Int_t numberOfTriggerSelected = fSelectedTrigger->GetEntriesFast();
- //printf("numberofTriggerSelected %d\n",numberOfTriggerSelected);
- if(fRejected) {
- pass = kTRUE;
- for(Int_t k = 0; k < numberOfTriggerSelected; k++){
- const TObjString *const obString=(TObjString*)fSelectedTrigger->At(k);
- const TString tString=obString->GetString();
- if(fESD->IsTriggerClassFired((const char*)tString)) {
- pass = kFALSE;
+
+ if (strstr(type,"p-p")) {
+
+ //printf("Will check the triggers\n");
+
+ Int_t numberOfTriggerSelected = fSelectedTrigger->GetEntriesFast();
+ //printf("numberofTriggerSelected %d\n",numberOfTriggerSelected);
+ if(fRejected) {
+ pass = kTRUE;
+ for(Int_t k = 0; k < numberOfTriggerSelected; k++){
+ const TObjString *const obString=(TObjString*)fSelectedTrigger->At(k);
+ const TString tString=obString->GetString();
+ if(fESD->IsTriggerClassFired((const char*)tString)) {
+ pass = kFALSE;
+ }
}
}
- }
- else {
- pass = kFALSE;
- for(Int_t k = 0; k < numberOfTriggerSelected; k++){
- const TObjString *const obString=(TObjString*)fSelectedTrigger->At(k);
- const TString tString=obString->GetString();
- if(fESD->IsTriggerClassFired((const char*)tString)) {
- pass = kTRUE;
+ else {
+ pass = kFALSE;
+ for(Int_t k = 0; k < numberOfTriggerSelected; k++){
+ const TObjString *const obString=(TObjString*)fSelectedTrigger->At(k);
+ const TString tString=obString->GetString();
+ if(fESD->IsTriggerClassFired((const char*)tString)) {
+ pass = kTRUE;
+ }
}
}
+ if(!pass) {
+ PostData(1, fListHist);
+ return;
+ }
+
}
- if(!pass) {
- PostData(1, fListHist);
- return;
- }
+
//printf("Class Fired %s\n",(const char*)fESD->GetFiredTriggerClasses());
//printf("Trigger passed\n");
//printf("Primary vertex passed\n");
+ //////////////////////////////////////
+ // Requirement on number of good tracks
+ //////////////////////////////////////
+ Int_t nGoodParticles = 0;
+ Double_t nbTracks = fESD->GetNumberOfTracks();
+ for(Int_t itrack = 0; itrack < nbTracks; itrack++) {
+ if(ParticleGood(itrack)) nGoodParticles++;
+ }
+ if(fDebug > 1) {
+ // Centrality
+ AliCentrality *esdCentrality = fESD->GetCentrality();
+ Float_t centrality = esdCentrality->GetCentralityPercentile("V0M");
+ //Float_t centralityb = esdCentrality->GetCentralityPercentile("CL1");
+ fNbGoodTracks->Fill(nGoodParticles,centrality);
+ //printf("centrality %f, centralityb %f\n",centrality,centralityb);
+ }
+
+ if (strstr(type,"Pb-Pb")) {
+ //printf("Will check the number of good tracks\n");
+ if((nGoodParticles < fMinNbTracks) || (nGoodParticles > fMaxNbTracks)) {
+ PostData(1, fListHist);
+ return;
+ }
+ }
+
fNEvents->Fill(1);
// In total
// TPC
Int_t nbtrackTPC = 0;
- Double_t nbTracks = fESD->GetNumberOfTracks();
- //printf("Number of tracks %f\n",nbTracks);
+
if (nbTracks <= 0.0) {
PostData(1, fListHist);
return;
}
+
+ if(fESDfriend->TestSkipBit()) {
+ PostData(1, fListHist);
+ return;
+ }
//printf("has friends\n");
- /*
- ////////////////////////////////////
- // Check the number of TPC tracks
- ///////////////////////////////////
- //printf("Nb of tracks %f\n",nbTracks);
- for(Int_t itrk = 0; itrk < nbTracks; itrk++){
- // Get ESD track
- fkEsdTrack = fESD->GetTrack(itrk);
- ULong_t status = fkEsdTrack->GetStatus();
- if(status&(AliESDtrack::kTPCout)) nbtrackTPC++;
- if((status&(AliESDtrack::kTRDout)) && (!(status&(AliESDtrack::kTRDin)))) {
- nbTrdTracks++;
- nbTrdTracksStandalone++;
- }
- if((status&(AliESDtrack::kTRDin))) {
- nbTrdTracks++;
- nbTrdTracksOffline++;
- }
- }
-
- if((nbtrackTPC>0) && (nbTrdTracks > (3.0*nbtrackTPC))) pass = kFALSE;
-
- if(fDebug > 1) {
-
- fNbTRDTrack->Fill(nbTrdTracks);
- fNbTRDTrackStandalone->Fill(nbTrdTracksStandalone);
- fNbTRDTrackOffline->Fill(nbTrdTracksOffline);
- fNbTPCTRDtrack->Fill(nbTrdTracks,nbtrackTPC);
-
- }
-
- if(!pass) {
- PostData(1, fListHist);
- return;
- }
- */
-
/////////////////////////////////////
// Loop on AliESDtrack
////////////////////////////////////
// First Absolute gain calibration
Int_t trdNTracklets = (Int_t) fkEsdTrack->GetTRDntracklets();
Int_t trdNTrackletsPID = (Int_t) fkEsdTrack->GetTRDntrackletsPID();
+ //printf("Number of trd tracklets %d and PID trd tracklets %d\n",trdNTracklets,trdNTrackletsPID);
if((trdNTracklets > 0) && (trdNTrackletsPID > 0)) {
for(Int_t iPlane = 0; iPlane < 6; ++iPlane){
//Double_t slide = fkEsdTrack->GetTRDslice(iPlane);
}
fTrdTrack = (AliTRDtrackV1 *)fCalibObject;
- if(good) {
+ if(good && fOnInstance) {
//cout << "good" << endl;
fTRDCalibraFillHisto->UpdateHistogramsV1(fTrdTrack);
//printf("Fill fTRDCalibraFillHisto\n");
else fNbClustersOffline->Fill(nbclusters);
}
- if(fDebug > 0) {
- if((nbclusters > fLow) && (nbclusters < fHigh)){
- if(fRelativeScale > 0.0) sum = sum/fRelativeScale;
- fCH2dSM->Fill(sum,sector+0.5);
- fCH2dSum->Fill(sum,0.5);
- Bool_t checknoise = kTRUE;
- if(fMaxCluster > 0) {
- if(phtb[0] > fMaxCluster) checknoise = kFALSE;
- if(fNbTimeBins > fNbMaxCluster) {
- for(Int_t k = (fNbTimeBins-fNbMaxCluster); k < fNbTimeBins; k++){
- if(phtb[k] > fMaxCluster) checknoise = kFALSE;
- }
+ if((nbclusters > fLow) && (nbclusters < fHigh)){
+ if(fRelativeScale > 0.0) sum = sum/fRelativeScale;
+ fCH2dTest->Fill(sum,detector+0.5);
+ fCH2dSM->Fill(sum,sector+0.5);
+ fCH2dSum->Fill(sum,0.5);
+ Bool_t checknoise = kTRUE;
+ if(fMaxCluster > 0) {
+ if(phtb[0] > fMaxCluster) checknoise = kFALSE;
+ if(fNbTimeBins > fNbMaxCluster) {
+ for(Int_t k = (fNbTimeBins-fNbMaxCluster); k < fNbTimeBins; k++){
+ if(phtb[k] > fMaxCluster) checknoise = kFALSE;
}
}
- if(checknoise) {
- for(int ic=0; ic<fNbTimeBins; ic++){
- if(fFillZero) {
- fPH2dSum->Fill((Double_t)(ic/10.0),0.5,(Double_t)phtb[ic]);
+ }
+ if(checknoise) {
+ for(int ic=0; ic<fNbTimeBins; ic++){
+ if(fFillZero) {
+ fPH2dTest->Fill((Double_t)(ic/10.0),detector+0.5,(Double_t)phtb[ic]);
+ fPH2dSum->Fill((Double_t)(ic/10.0),0.5,(Double_t)phtb[ic]);
+ fPH2dSM->Fill((Double_t)(ic/10.0),sector+0.5,(Double_t)phtb[ic]);
+ }
+ else {
+ if(phtb[ic] > 0.0) {
+ fPH2dTest->Fill((Double_t)(ic/10.0),detector+0.5,(Double_t)phtb[ic]);
+ fPH2dSum->Fill((Double_t)(ic/10.0),0.0,(Double_t)phtb[ic]);
fPH2dSM->Fill((Double_t)(ic/10.0),sector+0.5,(Double_t)phtb[ic]);
}
- else {
- if(phtb[ic] > 0.0) {
- fPH2dSum->Fill((Double_t)(ic/10.0),0.0,(Double_t)phtb[ic]);
- fPH2dSM->Fill((Double_t)(ic/10.0),sector+0.5,(Double_t)phtb[ic]);
- }
- }
}
}
}
}
+ if(detector == 0) FindP1TrackPHtrackletV1Test(tracklet,nbclusters);
+
} // loop on tracklets
+
} // debug
if(!listcalibTask) return;
TH1I *nEvents = (TH1I *) listcalibTask->FindObject("NEvents");
+ TH1I *nEventsInput = (TH1I *) listcalibTask->FindObject("NEventsInput");
TH2F *absoluteGain = (TH2F *) listcalibTask->FindObject("AbsoluteGain");
TH1F *trdTrack = (TH1F *) listcalibTask->FindObject("TRDTrack");
//
+ TH1I *inEventsInput = (TH1I *) fListHist->FindObject("NEventsInput");
TH1I *inEvents = (TH1I *) fListHist->FindObject("NEvents");
TH2F *iabsoluteGain = (TH2F *) fListHist->FindObject("AbsoluteGain");
// Add
+
+ if(nEventsInput) {
+ if(inEventsInput) {
+ inEventsInput->Add(nEventsInput);
+ //printf("Add Events\n");
+ }
+ else {
+ //printf("Create new Events\n");
+ inEventsInput = new TH1I(*nEventsInput);
+ fListHist->Add(inEventsInput);
+ }
+ }
if(nEvents) {
if(inEvents) {
if(os->GetString().Contains("TRD/Calib/ChamberGainFactor")){
// Get Old gain calibration
AliCDBId *id=AliCDBId::MakeFromString(os->GetString());
+ fFirstRunGain = id->GetFirstRun();
fVersionGainUsed = id->GetVersion();
fSubVersionGainUsed = id->GetSubVersion();
} else if(os->GetString().Contains("TRD/Calib/ChamberVdrift")){
// Get Old drift velocity calibration
AliCDBId *id=AliCDBId::MakeFromString(os->GetString());
+ fFirstRunVdrift = id->GetFirstRun();
fVersionVdriftUsed = id->GetVersion();
fSubVersionVdriftUsed = id->GetSubVersion();
} else if(os->GetString().Contains("TRD/Calib/LocalGainFactor")){
// Get Old drift velocity calibration
AliCDBId *id=AliCDBId::MakeFromString(os->GetString());
+ fFirstRunGainLocal = id->GetFirstRun();
fVersionGainLocalUsed = id->GetVersion();
fSubVersionGainLocalUsed = id->GetSubVersion();
}
//printf("VersionGain %d, SubversionGain %d, VersionLocalGain %d, Subversionlocalgain %d, Versionvdrift %d, Subversionvdrift %d\n",fVersionGainUsed,fSubVersionGainUsed,fVersionGainLocalUsed,fSubVersionGainLocalUsed,fVersionVdriftUsed,fSubVersionVdriftUsed);
// Check
- if((fVersionGainUsed < 0) || (fVersionGainLocalUsed < 0) || (fSubVersionGainUsed < 0) || (fSubVersionGainLocalUsed < 0) || (fVersionVdriftUsed < 0) || (fSubVersionVdriftUsed < 0)) {
+ if((fFirstRunGain < 0) ||
+ (fFirstRunGainLocal < 0) ||
+ (fFirstRunVdrift < 0) ||
+ (fVersionGainUsed < 0) ||
+ (fVersionGainLocalUsed < 0) ||
+ (fSubVersionGainUsed < 0) ||
+ (fSubVersionGainLocalUsed < 0) ||
+ (fVersionVdriftUsed < 0) ||
+ (fSubVersionVdriftUsed < 0)) {
AliError("No recent calibration found");
return kFALSE;
}
else return kTRUE;
}
+//_________________________________________________________________________________________________________________________
+Bool_t AliTRDCalibTask::ParticleGood(int i) const {
+
+ //
+ // Definition of good tracks
+ //
+
+ AliESDtrack *track = fESD->GetTrack(i);
+ if (!track->IsOn(AliESDtrack::kTPCrefit)) return 0; // TPC refit
+ if (track->GetTPCNcls() < 90) return 0; // number of TPC clusters
+ if (fabs(track->Eta())>0.8) return 0; // fiducial pseudorapidity
+ Float_t r,z;
+ track->GetImpactParametersTPC(r,z);
+ if (fabs(z)>2.0) return 0; // impact parameter in z
+ if (fabs(r)>2.0) return 0; // impact parameter in xy
+ if (r==0) return 0;
+ return 1;
+
+
+}
+//______________________________________________________________________________________________________________________
+Bool_t AliTRDCalibTask::FindP1TrackPHtrackletV1Test(const AliTRDseedV1 *tracklet, Int_t nbclusters)
+{
+ //
+ // Drift velocity calibration:
+ // Fit the clusters with a straight line
+ // From the slope find the drift velocity
+ //
+
+ ////////////////////////////////////////////////
+ //Number of points: if less than 3 return kFALSE
+ /////////////////////////////////////////////////
+ if(nbclusters <= 2) return kFALSE;
+
+ ////////////
+ //Variables
+ ////////////
+ // results of the linear fit
+ Double_t dydt = 0.0; // dydt tracklet after straight line fit
+ Double_t errorpar = 0.0; // error after straight line fit on dy/dt
+ Double_t pointError = 0.0; // error after straight line fit
+ // pad row problemes: avoid tracklet that cross pad rows, tilting angle in the constant
+ Int_t crossrow = 0; // if it crosses a pad row
+ Int_t rowp = -1; // if it crosses a pad row
+ Float_t tnt = tracklet->GetTilt(); // tan tiltingangle
+ TLinearFitter linearFitterTracklet(2,"pol1");
+ linearFitterTracklet.StoreData(kTRUE);
+
+
+ ///////////////////////////////////////////
+ // Take the parameters of the track
+ //////////////////////////////////////////
+ // take now the snp, tnp and tgl from the track
+ Double_t snp = tracklet->GetSnp(); // sin dy/dx at the end of the chamber
+ Double_t tnp = 0.0; // dy/dx at the end of the chamber
+ if( TMath::Abs(snp) < 1.){
+ tnp = snp / TMath::Sqrt((1.-snp)*(1.+snp));
+ }
+ Double_t tgl = tracklet->GetTgl(); // dz/dl
+ Double_t dzdx = tgl*TMath::Sqrt(1+tnp*tnp); // dz/dx calculated from dz/dl
+ // at the entrance
+ //Double_t tnp = tracklet->GetYref(1); // dy/dx at the entrance of the chamber
+ //Double_t tgl = tracklet->GetZref(1); // dz/dl at the entrance of the chamber
+ //Double_t dzdx = tgl; //*TMath::Sqrt(1+tnp*tnp); // dz/dx from dz/dl
+ // at the end with correction due to linear fit
+ //Double_t tnp = tracklet->GetYfit(1); // dy/dx at the end of the chamber after fit correction
+ //Double_t tgl = tracklet->GetZfit(1); // dz/dl at the end of the chamber after fit correction
+
+
+ ////////////////////////////
+ // loop over the clusters
+ ////////////////////////////
+ Int_t nbli = 0;
+ AliTRDcluster *cl = 0x0;
+ //////////////////////////////
+ // Check no shared clusters
+ //////////////////////////////
+ for(int icc=AliTRDseedV1::kNtb; icc<AliTRDseedV1::kNclusters; icc++){
+ cl = tracklet->GetClusters(icc);
+ if(cl) crossrow = 1;
+ }
+ //////////////////////////////////
+ // Loop clusters
+ //////////////////////////////////
+ for(int ic=0; ic<AliTRDseedV1::kNtb; ic++){
+ if(!(cl = tracklet->GetClusters(ic))) continue;
+ //if((fLimitChargeIntegration) && (!cl->IsInChamber())) continue;
+
+ Double_t ycluster = cl->GetY();
+ Int_t time = cl->GetPadTime();
+ Double_t timeis = time/10.0;
+ //See if cross two pad rows
+ Int_t row = cl->GetPadRow();
+ if(rowp==-1) rowp = row;
+ if(row != rowp) crossrow = 1;
+
+ linearFitterTracklet.AddPoint(&timeis,ycluster,1);
+ nbli++;
+
+
+ }
+
+ ////////////////////////////////////
+ // Do the straight line fit now
+ ///////////////////////////////////
+ if(nbli <= 2){
+ linearFitterTracklet.ClearPoints();
+ return kFALSE;
+ }
+ TVectorD pars;
+ linearFitterTracklet.Eval();
+ linearFitterTracklet.GetParameters(pars);
+ pointError = TMath::Sqrt(linearFitterTracklet.GetChisquare()/(nbli-2));
+ errorpar = linearFitterTracklet.GetParError(1)*pointError;
+ dydt = pars[1];
+ //printf("chis %f, nbli %d, pointError %f, parError %f, errorpar %f\n",linearFitterTracklet->GetChisquare(),nbli,pointError,linearFitterTracklet->GetParError(1),errorpar);
+ linearFitterTracklet.ClearPoints();
+
+ /////////////////////////
+ // Cuts quality
+ ////////////////////////
+
+ if(nbclusters < fLow) return kFALSE;
+ if(nbclusters > fHigh) return kFALSE;
+ if(pointError >= 0.3) return kFALSE;
+ if(crossrow == 1) return kTRUE;
+
+ ///////////////////////
+ // Fill
+ //////////////////////
+
+ if(fDebug > 0){
+ //Add to the linear fitter of the detector
+ if( TMath::Abs(snp) < 1.){
+ Double_t x = tnp-dzdx*tnt;
+ //if(!fLinearVdriftTest) printf("Not there\n");
+ Double_t nbentries = fLinearVdriftTest->GetEntries();
+ if(nbentries < (5.0*32767)) fLinearVdriftTest->Fill(x,dydt);
+ }
+ }
+
+ return kTRUE;
+}