#include "AlidNdEtaCorrectionTask.h"
-#include <TROOT.h>
#include <TCanvas.h>
#include <TChain.h>
#include <TFile.h>
#include <TProfile.h>
#include <TParticle.h>
#include <TParticlePDG.h>
+#include <TDatabasePDG.h>
+#include <TRandom.h>
#include <AliLog.h>
#include <AliESDVertex.h>
#include <AliESDEvent.h>
+#include <AliESDRun.h>
#include <AliStack.h>
#include <AliHeader.h>
#include <AliGenEventHeader.h>
#include "AliESDtrackCuts.h"
#include "AliPWG0Helper.h"
-//#include "AliCorrection.h"
-//#include "AliCorrectionMatrix3D.h"
#include "dNdEta/dNdEtaAnalysis.h"
#include "dNdEta/AlidNdEtaCorrection.h"
-#include "AliVertexerTracks.h"
+#include "AliTriggerAnalysis.h"
+#include "AliPhysicsSelection.h"
ClassImp(AlidNdEtaCorrectionTask)
fESD(0),
fOutput(0),
fOption(),
- fAnalysisMode(AliPWG0Helper::kTPC),
- fTrigger(AliPWG0Helper::kMB1),
+ fAnalysisMode((AliPWG0Helper::AnalysisMode) (AliPWG0Helper::kTPC | AliPWG0Helper::kFieldOn)),
+ fTrigger(AliTriggerAnalysis::kMB1),
+ fFillPhi(kFALSE),
+ fDeltaPhiCut(-1),
+ fSymmetrize(kFALSE),
+ fMultAxisEta1(kFALSE),
+ fDiffTreatment(AliPWG0Helper::kMCFlags),
fSignMode(0),
fOnlyPrimaries(kFALSE),
+ fStatError(0),
+ fSystSkipParticles(kFALSE),
fEsdTrackCuts(0),
fdNdEtaCorrection(0),
fdNdEtaAnalysisMC(0),
fPIDParticles(0),
fPIDTracks(0),
fVertexCorrelation(0),
+ fVertexCorrelationShift(0),
fVertexProfile(0),
fVertexShift(0),
fVertexShiftNorm(0),
fEtaCorrelation(0),
+ fEtaCorrelationShift(0),
fEtaProfile(0),
fEtaResolution(0),
+ fDeltaPhiCorrelation(0),
fpTResolution(0),
fEsdTrackCutsPrim(0),
fEsdTrackCutsSec(0),
// Constructor. Initialization of pointers
//
- for (Int_t i=0; i<2; i++)
- fdNdEtaCorrectionProcessType[i] = 0;
+ for (Int_t i=0; i<4; i++)
+ fdNdEtaCorrectionSpecial[i] = 0;
for (Int_t i=0; i<8; i++)
fDeltaPhi[i] = 0;
+
+ AliLog::SetClassDebugLevel("AlidNdEtaCorrectionTask", AliLog::kWarning);
}
AlidNdEtaCorrectionTask::AlidNdEtaCorrectionTask(const char* opt) :
fESD(0),
fOutput(0),
fOption(opt),
- fAnalysisMode(AliPWG0Helper::kTPC),
- fTrigger(AliPWG0Helper::kMB1),
+ fAnalysisMode((AliPWG0Helper::AnalysisMode) (AliPWG0Helper::kTPC | AliPWG0Helper::kFieldOn)),
+ fTrigger(AliTriggerAnalysis::kMB1),
+ fFillPhi(kFALSE),
+ fDeltaPhiCut(0),
+ fSymmetrize(kFALSE),
+ fMultAxisEta1(kFALSE),
+ fDiffTreatment(AliPWG0Helper::kMCFlags),
fSignMode(0),
fOnlyPrimaries(kFALSE),
+ fStatError(0),
+ fSystSkipParticles(kFALSE),
fEsdTrackCuts(0),
fdNdEtaCorrection(0),
fdNdEtaAnalysisMC(0),
fPIDParticles(0),
fPIDTracks(0),
fVertexCorrelation(0),
+ fVertexCorrelationShift(0),
fVertexProfile(0),
fVertexShift(0),
fVertexShiftNorm(0),
fEtaCorrelation(0),
+ fEtaCorrelationShift(0),
fEtaProfile(0),
fEtaResolution(0),
+ fDeltaPhiCorrelation(0),
fpTResolution(0),
fEsdTrackCutsPrim(0),
fEsdTrackCutsSec(0),
DefineInput(0, TChain::Class());
DefineOutput(0, TList::Class());
- for (Int_t i=0; i<2; i++)
- fdNdEtaCorrectionProcessType[i] = 0;
+ for (Int_t i=0; i<4; i++)
+ fdNdEtaCorrectionSpecial[i] = 0;
for (Int_t i=0; i<8; i++)
fDeltaPhi[i] = 0;
+
+ AliLog::SetClassDebugLevel("AlidNdEtaCorrectionTask", AliLog::kWarning);
}
AlidNdEtaCorrectionTask::~AlidNdEtaCorrectionTask()
// Enable only the needed branches
esdH->SetActiveBranches("AliESDHeader Vertex");
- if (fAnalysisMode == AliPWG0Helper::kSPD)
+ if (fAnalysisMode & AliPWG0Helper::kSPD)
esdH->SetActiveBranches("AliESDHeader Vertex AliMultiplicity");
- if (fAnalysisMode == AliPWG0Helper::kTPC || fAnalysisMode == AliPWG0Helper::kTPCITS) {
+ if (fAnalysisMode & AliPWG0Helper::kTPC || fAnalysisMode & AliPWG0Helper::kTPCITS) {
esdH->SetActiveBranches("AliESDHeader Vertex Tracks");
}
}
Printf("INFO: Processing only negative particles.");
fSignMode = -1;
}
+
+ if (fOption.Contains("stat-error-1"))
+ {
+ Printf("INFO: Evaluation statistical errors. Mode: 1.");
+ fStatError = 1;
+ }
+ else if (fOption.Contains("stat-error-2"))
+ {
+ Printf("INFO: Evaluation statistical errors. Mode: 2.");
+ fStatError = 2;
+ }
fOutput = new TList;
fOutput->SetOwner();
}
if (fOption.Contains("process-types")) {
- fdNdEtaCorrectionProcessType[0] = new AlidNdEtaCorrection("dndeta_correction_ND", "dndeta_correction_ND", fAnalysisMode);
- fdNdEtaCorrectionProcessType[1] = new AlidNdEtaCorrection("dndeta_correction_SD", "dndeta_correction_SD", fAnalysisMode);
- fdNdEtaCorrectionProcessType[2] = new AlidNdEtaCorrection("dndeta_correction_DD", "dndeta_correction_DD", fAnalysisMode);
+ fdNdEtaCorrectionSpecial[0] = new AlidNdEtaCorrection("dndeta_correction_ND", "dndeta_correction_ND", fAnalysisMode);
+ fdNdEtaCorrectionSpecial[1] = new AlidNdEtaCorrection("dndeta_correction_SD", "dndeta_correction_SD", fAnalysisMode);
+ fdNdEtaCorrectionSpecial[2] = new AlidNdEtaCorrection("dndeta_correction_DD", "dndeta_correction_DD", fAnalysisMode);
- fOutput->Add(fdNdEtaCorrectionProcessType[0]);
- fOutput->Add(fdNdEtaCorrectionProcessType[1]);
- fOutput->Add(fdNdEtaCorrectionProcessType[2]);
+ fOutput->Add(fdNdEtaCorrectionSpecial[0]);
+ fOutput->Add(fdNdEtaCorrectionSpecial[1]);
+ fOutput->Add(fdNdEtaCorrectionSpecial[2]);
+ }
+
+ if (fOption.Contains("particle-species")) {
+ fdNdEtaCorrectionSpecial[0] = new AlidNdEtaCorrection("dndeta_correction_pi", "dndeta_correction_pi", fAnalysisMode);
+ fdNdEtaCorrectionSpecial[1] = new AlidNdEtaCorrection("dndeta_correction_K", "dndeta_correction_K", fAnalysisMode);
+ fdNdEtaCorrectionSpecial[2] = new AlidNdEtaCorrection("dndeta_correction_p", "dndeta_correction_p", fAnalysisMode);
+ fdNdEtaCorrectionSpecial[3] = new AlidNdEtaCorrection("dndeta_correction_other", "dndeta_correction_other", fAnalysisMode);
+
+ for (Int_t i=0; i<4; i++)
+ fOutput->Add(fdNdEtaCorrectionSpecial[i]);
}
- /*
- fTemp1 = new TH3F("fTemp1", "fTemp1 prim;b0;b1;1/pT", 200, 0, 10, 200, 0, 10, 200, 0, 10);
+
+ //fTemp1 = new TH2F("fTemp1", "fTemp1", 4, 0.5, 4.5, 101, -1.5, 99.5); // nsd study
+ fTemp1 = new TH2F("fTemp1", "fTemp1", 300, -15, 15, 80, -2.0, 2.0);
fOutput->Add(fTemp1);
- fTemp2 = new TH3F("fTemp2", "fTemp2 sec;b0;b1;1/pT", 200, 0, 10, 200, 0, 10, 200, 0, 10);
+
+ fTemp2 = new TH2F("fTemp2", "fTemp2", 300, -15, 15, 80, -2.0, 2.0);
fOutput->Add(fTemp2);
- */
fVertexCorrelation = new TH2F("fVertexCorrelation", "fVertexCorrelation;MC z-vtx;ESD z-vtx", 120, -30, 30, 120, -30, 30);
fOutput->Add(fVertexCorrelation);
+ fVertexCorrelationShift = new TH3F("fVertexCorrelationShift", "fVertexCorrelationShift;MC z-vtx;MC z-vtx - ESD z-vtx;rec. tracks", 120, -30, 30, 100, -1, 1, 100, -0.5, 99.5);
+ fOutput->Add(fVertexCorrelationShift);
fVertexProfile = new TProfile("fVertexProfile", "fVertexProfile;MC z-vtx;MC z-vtx - ESD z-vtx", 40, -20, 20);
fOutput->Add(fVertexProfile);
fVertexShift = new TH1F("fVertexShift", "fVertexShift;(MC z-vtx - ESD z-vtx);Entries", 201, -2, 2);
fOutput->Add(fVertexShift);
- fVertexShiftNorm = new TH1F("fVertexShiftNorm", "fVertexShiftNorm;(MC z-vtx - ESD z-vtx) / #sigma_{ESD z-vtx};Entries", 200, -100, 100);
+ fVertexShiftNorm = new TH2F("fVertexShiftNorm", "fVertexShiftNorm;(MC z-vtx - ESD z-vtx);rec. tracks;Entries", 200, -100, 100, 100, -0.5, 99.5);
fOutput->Add(fVertexShiftNorm);
fEtaCorrelation = new TH2F("fEtaCorrelation", "fEtaCorrelation;MC #eta;ESD #eta", 120, -3, 3, 120, -3, 3);
fOutput->Add(fEtaCorrelation);
+ fEtaCorrelationShift = new TH2F("fEtaCorrelationShift", "fEtaCorrelationShift;MC #eta;MC #eta - ESD #eta", 120, -3, 3, 100, -0.1, 0.1);
+ fOutput->Add(fEtaCorrelationShift);
fEtaProfile = new TProfile("fEtaProfile", "fEtaProfile;MC #eta;MC #eta - ESD #eta", 120, -3, 3);
fOutput->Add(fEtaProfile);
fEtaResolution = new TH1F("fEtaResolution", "fEtaResolution;MC #eta - ESD #eta", 201, -0.2, 0.2);
fOutput->Add(fEtaResolution);
- fpTResolution = new TH1F("fpTResolution", "fpTResolution;MC p_{T} - ESD p_{T}", 201, -0.2, 0.2);
+ fpTResolution = new TH2F("fpTResolution", ";MC p_{T} (GeV/c);(MC p_{T} - ESD p_{T}) / MC p_{T}", 160, 0, 20, 201, -0.2, 0.2);
fOutput->Add(fpTResolution);
fMultAll = new TH1F("fMultAll", "fMultAll", 500, -0.5, 499.5);
for (Int_t i=0; i<8; i++)
{
- fDeltaPhi[i] = new TH1F(Form("fDeltaPhi_%d", i), ";#Delta phi;Entries", 2000, -0.1, 0.1);
+ fDeltaPhi[i] = new TH2F(Form("fDeltaPhi_%d", i), ";#Delta phi;#phi;Entries", 2000, -0.1, 0.1, 18 * 5, 0, TMath::TwoPi());
fOutput->Add(fDeltaPhi[i]);
}
- fEventStats = new TH2F("fEventStats", "fEventStats;event type;status;count", 104, -3.5, 100.5, 4, -0.5, 3.5);
+ fEventStats = new TH2F("fEventStats", "fEventStats;event type;status;count", 109, -6.5, 102.5, 4, -0.5, 3.5);
fOutput->Add(fEventStats);
- fEventStats->GetXaxis()->SetBinLabel(1, "INEL"); // x = -3
- fEventStats->GetXaxis()->SetBinLabel(2, "NSD"); // x = -2
- for (Int_t i=0; i<100; i++)
- fEventStats->GetXaxis()->SetBinLabel(4+i, Form("%d", i));
+ fEventStats->GetXaxis()->SetBinLabel(1, "INEL"); // x = -5
+ fEventStats->GetXaxis()->SetBinLabel(2, "NSD"); // x = -4
+ fEventStats->GetXaxis()->SetBinLabel(3, "ND"); // x = -3
+ fEventStats->GetXaxis()->SetBinLabel(4, "SD"); // x = -2
+ fEventStats->GetXaxis()->SetBinLabel(5, "DD"); // x = -1
+
+ fEventStats->GetXaxis()->SetBinLabel(108, "INEL=0"); // x = -101
+ fEventStats->GetXaxis()->SetBinLabel(109, "INEL>0"); // x = -102
+
+ for (Int_t i=-1; i<100; i++)
+ fEventStats->GetXaxis()->SetBinLabel(7+i, Form("%d", i));
fEventStats->GetYaxis()->SetBinLabel(1, "nothing");
fEventStats->GetYaxis()->SetBinLabel(2, "trg");
if (fEsdTrackCuts)
{
fEsdTrackCuts->SetName("fEsdTrackCuts");
- fOutput->Add(fEsdTrackCuts);
+ // TODO like this we send an empty object back...
+ fOutput->Add(fEsdTrackCuts->Clone());
}
}
if (fOnlyPrimaries)
Printf("WARNING: Processing only primaries. For systematical studies only!");
+
+ if (fStatError > 0)
+ Printf("WARNING: Statistical error evaluation active!");
+
+ AliInputEventHandler* inputHandler = dynamic_cast<AliInputEventHandler*> (AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler());
+ if (!inputHandler)
+ {
+ Printf("ERROR: Could not receive input handler");
+ return;
+ }
+
+ Bool_t eventTriggered = inputHandler->IsEventSelected();
- // trigger definition
- Bool_t eventTriggered = AliPWG0Helper::IsEventTriggered(fESD->GetTriggerMask(), fTrigger);
-
+ static AliTriggerAnalysis* triggerAnalysis = 0;
+ if (!triggerAnalysis)
+ {
+ AliPhysicsSelection* physicsSelection = dynamic_cast<AliPhysicsSelection*> (inputHandler->GetEventSelection());
+ if (physicsSelection)
+ triggerAnalysis = physicsSelection->GetTriggerAnalysis();
+ }
+
+ if (eventTriggered)
+ eventTriggered = triggerAnalysis->IsTriggerFired(fESD, fTrigger);
+
if (!eventTriggered)
Printf("No trigger");
// post the data already here
PostData(0, fOutput);
-
+
// MC info
AliMCEventHandler* eventHandler = dynamic_cast<AliMCEventHandler*> (AliAnalysisManager::GetAnalysisManager()->GetMCtruthEventHandler());
if (!eventHandler) {
return;
}
- // get process type;
- Int_t processType = AliPWG0Helper::GetEventProcessType(header);
+ // get process type
+ Int_t processType = AliPWG0Helper::GetEventProcessType(fESD, header, stack, fDiffTreatment);
+
AliDebug(AliLog::kDebug+1, Form("Found process type %d", processType));
if (processType == AliPWG0Helper::kInvalidProcess)
- AliDebug(AliLog::kError, "Unknown process type.");
+ {
+ AliDebug(AliLog::kWarning, "Unknown process type. Setting to ND");
+ processType = AliPWG0Helper::kND;
+ }
// get the MC vertex
AliGenEventHeader* genHeader = header->GenEventHeader();
genHeader->PrimaryVertex(vtxMC);
// get the ESD vertex
- const AliESDVertex* vtxESD = AliPWG0Helper::GetVertex(fESD, fAnalysisMode);
-
Bool_t eventVertex = kFALSE;
- if (vtxESD)
+ Double_t vtx[3];
+ const AliESDVertex* vtxESD = AliPWG0Helper::GetVertex(fESD, fAnalysisMode);
+ if (vtxESD && AliPWG0Helper::TestVertex(vtxESD, fAnalysisMode))
{
- Double_t vtx[3];
vtxESD->GetXYZ(vtx);
eventVertex = kTRUE;
- Double_t diff = vtxMC[2] - vtx[2];
- fVertexShift->Fill(diff);
- if (vtxESD->GetZRes() > 0)
- fVertexShiftNorm->Fill(diff / vtxESD->GetZRes());
-
- if (eventTriggered)
+ // remove vertices outside +- 15 cm
+ if (TMath::Abs(vtx[2]) > 15)
{
- fVertexCorrelation->Fill(vtxMC[2], vtx[2]);
- fVertexProfile->Fill(vtxMC[2], vtxMC[2] - vtx[2]);
+ eventVertex = kFALSE;
+ vtxESD = 0;
}
}
else
- Printf("No vertex found");
-
- // fill process type
- Int_t biny = (Int_t) eventTriggered + 2 * (Int_t) eventVertex;
- // INEL
- fEventStats->Fill(-3, biny);
- // NSD
- if (processType != AliPWG0Helper::kSD)
- fEventStats->Fill(-2, biny);
-
+ vtxESD = 0;
+
// create list of (label, eta, pt) tuples
Int_t inputCount = 0;
Int_t* labelArr = 0;
Int_t* labelArr2 = 0; // only for case of SPD
Float_t* etaArr = 0;
- Float_t* ptArr = 0;
+ Float_t* thirdDimArr = 0;
Float_t* deltaPhiArr = 0;
- if (fAnalysisMode == AliPWG0Helper::kSPD)
+ if (fAnalysisMode & AliPWG0Helper::kSPD)
{
- // get tracklets
- const AliMultiplicity* mult = fESD->GetMultiplicity();
- if (!mult)
- {
- AliDebug(AliLog::kError, "AliMultiplicity not available");
- return;
- }
-
- labelArr = new Int_t[mult->GetNumberOfTracklets()];
- labelArr2 = new Int_t[mult->GetNumberOfTracklets()];
- etaArr = new Float_t[mult->GetNumberOfTracklets()];
- ptArr = new Float_t[mult->GetNumberOfTracklets()];
- deltaPhiArr = new Float_t[mult->GetNumberOfTracklets()];
-
- // get multiplicity from SPD tracklets
- for (Int_t i=0; i<mult->GetNumberOfTracklets(); ++i)
+ if (vtxESD)
{
- //printf("%d %f %f %f\n", i, mult->GetTheta(i), mult->GetPhi(i), mult->GetDeltaPhi(i));
-
- Float_t deltaPhi = mult->GetDeltaPhi(i);
- // prevent values to be shifted by 2 Pi()
- if (deltaPhi < -TMath::Pi())
- deltaPhi += TMath::Pi() * 2;
- if (deltaPhi > TMath::Pi())
- deltaPhi -= TMath::Pi() * 2;
-
- if (TMath::Abs(deltaPhi) > 1)
- printf("WARNING: Very high Delta Phi: %d %f %f %f\n", i, mult->GetTheta(i), mult->GetPhi(i), deltaPhi);
-
- if (fOnlyPrimaries)
- if (mult->GetLabel(i, 0) < 0 || mult->GetLabel(i, 0) != mult->GetLabel(i, 1) || !stack->IsPhysicalPrimary(mult->GetLabel(i, 0)))
+ // get tracklets
+ const AliMultiplicity* mult = fESD->GetMultiplicity();
+ if (!mult)
+ {
+ AliDebug(AliLog::kError, "AliMultiplicity not available");
+ return;
+ }
+
+ labelArr = new Int_t[mult->GetNumberOfTracklets()];
+ labelArr2 = new Int_t[mult->GetNumberOfTracklets()];
+ etaArr = new Float_t[mult->GetNumberOfTracklets()];
+ thirdDimArr = new Float_t[mult->GetNumberOfTracklets()];
+ deltaPhiArr = new Float_t[mult->GetNumberOfTracklets()];
+
+ Bool_t foundInEta10 = kFALSE;
+
+ // get multiplicity from SPD tracklets
+ for (Int_t i=0; i<mult->GetNumberOfTracklets(); ++i)
+ {
+ //printf("%d %f %f %f\n", i, mult->GetTheta(i), mult->GetPhi(i), mult->GetDeltaPhi(i));
+
+ Float_t phi = mult->GetPhi(i);
+ if (phi < 0)
+ phi += TMath::Pi() * 2;
+ Float_t deltaPhi = mult->GetDeltaPhi(i);
+
+ if (TMath::Abs(deltaPhi) > 1)
+ printf("WARNING: Very high Delta Phi: %d %f %f %f\n", i, mult->GetTheta(i), mult->GetPhi(i), deltaPhi);
+
+ if (fOnlyPrimaries)
+ if (mult->GetLabel(i, 0) < 0 || mult->GetLabel(i, 0) != mult->GetLabel(i, 1) || !stack->IsPhysicalPrimary(mult->GetLabel(i, 0)))
+ continue;
+
+ if (fDeltaPhiCut > 0 && (TMath::Abs(deltaPhi) > fDeltaPhiCut || TMath::Abs(mult->GetDeltaTheta(i)) > fDeltaPhiCut / 0.08 * 0.025))
continue;
-
- etaArr[inputCount] = mult->GetEta(i);
- labelArr[inputCount] = mult->GetLabel(i, 0);
- labelArr2[inputCount] = mult->GetLabel(i, 1);
- ptArr[inputCount] = 0; // no pt for tracklets
- deltaPhiArr[inputCount] = deltaPhi;
- ++inputCount;
+
+ if (fSystSkipParticles && gRandom->Uniform() < 0.0153)
+ {
+ Printf("Skipped tracklet!");
+ continue;
+ }
+
+ // TEST exclude potentially inefficient phi region
+ //if (phi > 5.70 || phi < 0.06)
+ // continue;
+
+ // we have to repeat the trigger here, because the tracklet might have been kicked out fSystSkipParticles
+ if (TMath::Abs(mult->GetEta(i)) < 1)
+ foundInEta10 = kTRUE;
+
+ etaArr[inputCount] = mult->GetEta(i);
+ if (fSymmetrize)
+ etaArr[inputCount] = TMath::Abs(etaArr[inputCount]);
+ labelArr[inputCount] = mult->GetLabel(i, 0);
+ labelArr2[inputCount] = mult->GetLabel(i, 1);
+ thirdDimArr[inputCount] = phi;
+ deltaPhiArr[inputCount] = deltaPhi;
+ ++inputCount;
+ }
+
+ /*
+ for (Int_t i=0; i<mult->GetNumberOfSingleClusters(); ++i)
+ {
+ if (TMath::Abs(TMath::Log(TMath::Tan(mult->GetThetaSingle(i)/2.))) < 1);
+ {
+ foundInEta10 = kTRUE;
+ break;
+ }
+ }
+ */
+
+ if (fSystSkipParticles && (fTrigger & AliTriggerAnalysis::kOneParticle) && !foundInEta10)
+ eventTriggered = kFALSE;
}
}
- else if (fAnalysisMode == AliPWG0Helper::kTPC || fAnalysisMode == AliPWG0Helper::kTPCITS)
+ else if (fAnalysisMode & AliPWG0Helper::kTPC || fAnalysisMode & AliPWG0Helper::kTPCITS)
{
if (!fEsdTrackCuts)
{
AliDebug(AliLog::kError, "fESDTrackCuts not available");
return;
}
-
- // get multiplicity from ESD tracks
- TObjArray* list = fEsdTrackCuts->GetAcceptedTracks(fESD, (fAnalysisMode == AliPWG0Helper::kTPC));
- Int_t nGoodTracks = list->GetEntries();
-
- Printf("Accepted %d tracks", nGoodTracks);
-
- labelArr = new Int_t[nGoodTracks];
- labelArr2 = new Int_t[nGoodTracks];
- etaArr = new Float_t[nGoodTracks];
- ptArr = new Float_t[nGoodTracks];
- deltaPhiArr = new Float_t[nGoodTracks];
-
- // loop over esd tracks
- for (Int_t i=0; i<nGoodTracks; i++)
- {
- AliESDtrack* esdTrack = dynamic_cast<AliESDtrack*> (list->At(i));
- if (!esdTrack)
- {
- AliDebug(AliLog::kError, Form("ERROR: Could not retrieve track %d.", i));
- continue;
- }
-
- etaArr[inputCount] = esdTrack->Eta();
- labelArr[inputCount] = TMath::Abs(esdTrack->GetLabel());
- labelArr2[inputCount] = labelArr[inputCount]; // no second label for tracks
- ptArr[inputCount] = esdTrack->Pt();
- deltaPhiArr[inputCount] = 0; // no delta phi for tracks
- ++inputCount;
- }
-
- delete list;
-
- if (eventTriggered && vtxESD)
+
+ Bool_t foundInEta10 = kFALSE;
+
+ if (vtxESD)
{
- // collect values for primaries and secondaries
- for (Int_t iTrack = 0; iTrack < fESD->GetNumberOfTracks(); iTrack++)
+ // get multiplicity from ESD tracks
+ TObjArray* list = fEsdTrackCuts->GetAcceptedTracks(fESD, (fAnalysisMode & AliPWG0Helper::kTPC));
+ Int_t nGoodTracks = list->GetEntries();
+
+ Printf("Accepted %d tracks", nGoodTracks);
+
+ labelArr = new Int_t[nGoodTracks];
+ labelArr2 = new Int_t[nGoodTracks];
+ etaArr = new Float_t[nGoodTracks];
+ thirdDimArr = new Float_t[nGoodTracks];
+ deltaPhiArr = new Float_t[nGoodTracks];
+
+ // loop over esd tracks
+ for (Int_t i=0; i<nGoodTracks; i++)
{
- AliESDtrack* track = 0;
-
- if (fAnalysisMode == AliPWG0Helper::kTPC)
- track = AliESDtrackCuts::GetTPCOnlyTrack(fESD, iTrack);
- else if (fAnalysisMode == AliPWG0Helper::kTPCITS)
- track = fESD->GetTrack(iTrack);
-
- if (!track)
- continue;
-
- Int_t label = TMath::Abs(track->GetLabel());
- if (!stack->Particle(label) || !stack->Particle(label)->GetPDG())
+ AliESDtrack* esdTrack = dynamic_cast<AliESDtrack*> (list->At(i));
+ if (!esdTrack)
{
- Printf("WARNING: No particle for %d", label);
- if (stack->Particle(label))
- stack->Particle(label)->Print();
+ AliDebug(AliLog::kError, Form("ERROR: Could not retrieve track %d.", i));
continue;
}
-
- if (stack->Particle(label)->GetPDG()->Charge() == 0)
+
+ if (esdTrack->Pt() < 0.15)
continue;
-
- if (stack->IsPhysicalPrimary(label))
+
+ if (fOnlyPrimaries)
{
- // primary
- if (fEsdTrackCutsPrim->AcceptTrack(track)) {
- if (track->Pt() > 0) {
- Float_t b0, b1;
- track->GetImpactParameters(b0, b1);
- if (fTemp1)
- ((TH3*) fTemp1)->Fill(b0, b1, 1.0 / track->Pt());
- //fTemp1->Fill(TMath::Sqrt(b0*b0 + b1*b1), 1.0 / track->Pt());
- }
+ Int_t label = TMath::Abs(esdTrack->GetLabel());
+ if (label == 0)
+ continue;
+
+ if (stack->IsPhysicalPrimary(label) == kFALSE)
+ continue;
+ }
+
+ // INEL>0 trigger
+ if (TMath::Abs(esdTrack->Eta()) < 1 && esdTrack->Pt() > 0.15)
+ foundInEta10 = kTRUE;
+
+ etaArr[inputCount] = esdTrack->Eta();
+ if (fSymmetrize)
+ etaArr[inputCount] = TMath::Abs(etaArr[inputCount]);
+ labelArr[inputCount] = TMath::Abs(esdTrack->GetLabel());
+ labelArr2[inputCount] = labelArr[inputCount]; // no second label for tracks
+ thirdDimArr[inputCount] = esdTrack->Pt();
+ deltaPhiArr[inputCount] = 0; // no delta phi for tracks
+ ++inputCount;
+ }
+
+ delete list;
- if (AliESDtrackCuts::GetSigmaToVertex(track) > 900)
+ // TODO this code crashes for TPCITS because particles are requested from the stack for some labels that are out of bound
+ if (0 && eventTriggered)
+ {
+ // collect values for primaries and secondaries
+ for (Int_t iTrack = 0; iTrack < fESD->GetNumberOfTracks(); iTrack++)
+ {
+ AliESDtrack* track = 0;
+
+ if (fAnalysisMode & AliPWG0Helper::kTPC)
+ track = AliESDtrackCuts::GetTPCOnlyTrack(fESD, iTrack);
+ else if (fAnalysisMode & AliPWG0Helper::kTPCITS)
+ track = fESD->GetTrack(iTrack);
+
+ if (!track)
+ continue;
+
+ Int_t label = TMath::Abs(track->GetLabel());
+ if (!stack->Particle(label) || !stack->Particle(label)->GetPDG())
+ {
+ Printf("WARNING: No particle for %d", label);
+ if (stack->Particle(label))
+ stack->Particle(label)->Print();
+ continue;
+ }
+
+ if (stack->Particle(label)->GetPDG()->Charge() == 0)
+ continue;
+
+ if (TMath::Abs(track->Eta()) < 0.8 && track->Pt() > 0.15)
+ {
+ if (stack->IsPhysicalPrimary(label))
{
- Printf("Track %d has nsigma of %f. Printing track and vertex...", iTrack, AliESDtrackCuts::GetSigmaToVertex(track));
- Float_t b[2];
- Float_t r[3];
- track->GetImpactParameters(b, r);
- Printf("Impact parameter %f %f and resolution: %f %f %f", b[0], b[1], r[0], r[1], r[2]);
- track->Print("");
- if (vtxESD)
- vtxESD->Print();
+ // primary
+ if (fEsdTrackCutsPrim->AcceptTrack(track))
+ {
+// if (AliESDtrackCuts::GetSigmaToVertex(track) > 900)
+// {
+// Printf("Track %d has nsigma of %f. Printing track and vertex...", iTrack, AliESDtrackCuts::GetSigmaToVertex(track));
+// Float_t b[2];
+// Float_t r[3];
+// track->GetImpactParameters(b, r);
+// Printf("Impact parameter %f %f and resolution: %f %f %f", b[0], b[1], r[0], r[1], r[2]);
+// track->Print("");
+// if (vtxESD)
+// vtxESD->Print();
+// }
+ }
}
- }
- }
- else
- {
- // secondary
- if (fEsdTrackCutsSec->AcceptTrack(track)) {
- if (track->Pt() > 0) {
- Float_t b0, b1;
- track->GetImpactParameters(b0, b1);
- if (fTemp2)
- ((TH3*) fTemp2)->Fill(b0, b1, 1.0 / track->Pt());
- //fTemp2->Fill(TMath::Sqrt(b0*b0 + b1*b1), 1.0 / track->Pt());
+ else
+ {
+ // secondary
+ fEsdTrackCutsSec->AcceptTrack(track);
}
}
+
+ // TODO mem leak in the continue statements above
+ if (fAnalysisMode & AliPWG0Helper::kTPC)
+ delete track;
}
-
- // TODO mem leak in the continue statements above
- if (fAnalysisMode == AliPWG0Helper::kTPC)
- delete track;
}
}
+
+ if (!foundInEta10)
+ eventTriggered = kFALSE;
}
else
return;
+ // fill process type
+ Int_t biny = (Int_t) eventTriggered + 2 * (Int_t) eventVertex;
+ // INEL
+ fEventStats->Fill(-6, biny);
+ // NSD
+ if (processType != AliPWG0Helper::kSD)
+ fEventStats->Fill(-5, biny);
+ // SD, ND, DD
+ if (processType == AliPWG0Helper::kND)
+ fEventStats->Fill(-4, biny);
+ if (processType == AliPWG0Helper::kSD)
+ fEventStats->Fill(-3, biny);
+ if (processType == AliPWG0Helper::kDD)
+ fEventStats->Fill(-2, biny);
+
// loop over mc particles
Int_t nPrim = stack->GetNprimary();
Int_t nAccepted = 0;
+ Bool_t oneParticleEvent = kFALSE;
+ for (Int_t iMc = 0; iMc < nPrim; ++iMc)
+ {
+ //Printf("Getting particle %d", iMc);
+ TParticle* particle = stack->Particle(iMc);
+
+ if (!particle)
+ continue;
+
+ if (AliPWG0Helper::IsPrimaryCharged(particle, nPrim) == kFALSE)
+ continue;
+
+ if (TMath::Abs(particle->Eta()) < 1.0)
+ {
+ oneParticleEvent = kTRUE;
+ break;
+ }
+ }
+
+ if (TMath::Abs(vtxMC[2]) < 5.5)
+ {
+ if (oneParticleEvent)
+ fEventStats->Fill(102, biny);
+ else
+ fEventStats->Fill(101, biny);
+ }
+
for (Int_t iMc = 0; iMc < nPrim; ++iMc)
{
//Printf("Getting particle %d", iMc);
if (SignOK(particle->GetPDG()) == kFALSE)
continue;
-
+
if (fPIDParticles && TMath::Abs(particle->Eta()) < 1.0)
fPIDParticles->Fill(particle->GetPdgCode());
Float_t eta = particle->Eta();
- Float_t pt = particle->Pt();
+ if (fSymmetrize)
+ eta = TMath::Abs(eta);
+
+ Float_t thirdDim = -1;
+ if (fAnalysisMode & AliPWG0Helper::kSPD)
+ {
+ if (fFillPhi)
+ {
+ thirdDim = particle->Phi();
+ }
+ else
+ thirdDim = inputCount;
+ }
+ else
+ thirdDim = particle->Pt();
- fdNdEtaCorrection->FillMCParticle(vtxMC[2], eta, pt, eventTriggered, eventVertex, processType);
+ // calculate y
+ //Float_t y = 0.5 * TMath::Log((particle->Energy() + particle->Pz()) / (particle->Energy() - particle->Pz()));
+ //fTemp1->Fill(eta);
+ //fTemp2->Fill(y);
- if (fdNdEtaCorrectionProcessType[0])
+ Int_t processType2 = processType;
+ if (oneParticleEvent)
+ processType2 |= AliPWG0Helper::kOnePart;
+ fdNdEtaCorrection->FillMCParticle(vtxMC[2], eta, thirdDim, eventTriggered, eventVertex, processType2);
+
+ if (fOption.Contains("process-types"))
{
// non diffractive
if (processType==AliPWG0Helper::kND)
- fdNdEtaCorrectionProcessType[0]->FillMCParticle(vtxMC[2], eta, pt, eventTriggered, eventVertex, processType);
+ fdNdEtaCorrectionSpecial[0]->FillMCParticle(vtxMC[2], eta, thirdDim, eventTriggered, eventVertex, processType2);
// single diffractive
if (processType==AliPWG0Helper::kSD)
- fdNdEtaCorrectionProcessType[1]->FillMCParticle(vtxMC[2], eta, pt, eventTriggered, eventVertex, processType);
+ fdNdEtaCorrectionSpecial[1]->FillMCParticle(vtxMC[2], eta, thirdDim, eventTriggered, eventVertex, processType2);
// double diffractive
if (processType==AliPWG0Helper::kDD)
- fdNdEtaCorrectionProcessType[2]->FillMCParticle(vtxMC[2], eta, pt, eventTriggered, eventVertex, processType);
+ fdNdEtaCorrectionSpecial[2]->FillMCParticle(vtxMC[2], eta, thirdDim, eventTriggered, eventVertex, processType2);
+ }
+
+ if (fOption.Contains("particle-species"))
+ {
+ Int_t id = -1;
+ switch (TMath::Abs(particle->GetPdgCode()))
+ {
+ case 211: id = 0; break;
+ case 321: id = 1; break;
+ case 2212: id = 2; break;
+ default: id = 3; break;
+ }
+ fdNdEtaCorrectionSpecial[id]->FillMCParticle(vtxMC[2], eta, thirdDim, eventTriggered, eventVertex, processType2);
}
if (eventTriggered)
if (eventVertex)
- fdNdEtaAnalysisMC->FillTrack(vtxMC[2], eta, pt);
+ fdNdEtaAnalysisMC->FillTrack(vtxMC[2], eta, thirdDim);
// TODO this value might be needed lower for the SPD study (only used for control histograms anyway)
if (TMath::Abs(eta) < 1.5) // && pt > 0.2)
nAccepted++;
}
- if (nAccepted == 0)
+ if (AliPWG0Helper::GetLastProcessType() >= -1)
fEventStats->Fill(AliPWG0Helper::GetLastProcessType(), biny);
fMultAll->Fill(nAccepted);
}
Int_t processed = 0;
+
+ Bool_t* primCount = 0;
+ if (fStatError > 0)
+ {
+ primCount = new Bool_t[nPrim];
+ for (Int_t i=0; i<nPrim; ++i)
+ primCount[i] = kFALSE;
+ }
+ Int_t nEta05 = 0;
+ Int_t nEta10 = 0;
+ for (Int_t i=0; i<inputCount; ++i)
+ {
+ if (TMath::Abs(etaArr[i]) < 0.5)
+ nEta05++;
+ if (TMath::Abs(etaArr[i]) < 1.0)
+ nEta10++;
+ }
+
for (Int_t i=0; i<inputCount; ++i)
{
Int_t label = labelArr[i];
continue;
}
- fPIDTracks->Fill(particle->GetPdgCode());
+ if (TMath::Abs(particle->Eta()) < 1.0)
+ fPIDTracks->Fill(particle->GetPdgCode());
// find particle that is filled in the correction map
// this should be the particle that has been reconstructed
processed++;
// resolutions
- fEtaResolution->Fill(particle->Eta() - etaArr[i]);
- fpTResolution->Fill(particle->Pt() - ptArr[i]);
+ if (fSymmetrize)
+ fEtaResolution->Fill(TMath::Abs(particle->Eta()) - etaArr[i]);
+ else
+ fEtaResolution->Fill(particle->Eta() - etaArr[i]);
+
+ if (fAnalysisMode & AliPWG0Helper::kTPC || fAnalysisMode & AliPWG0Helper::kTPCITS)
+ if (TMath::Abs(particle->Eta() < 0.9) && particle->Pt() > 0)
+ fpTResolution->Fill(particle->Pt(), (particle->Pt() - thirdDimArr[i]) / particle->Pt());
+
+ Float_t eta = -999;
+ Float_t thirdDim = -1;
Bool_t firstIsPrim = stack->IsPhysicalPrimary(label);
- // in case of primary the MC values are filled, otherwise (background) the reconstructed values
- if (label == label2 && firstIsPrim)
+ // in case of same label the MC values are filled, otherwise (background) the reconstructed values
+ if (label == label2)
{
- fdNdEtaCorrection->FillTrackedParticle(vtxMC[2], particle->Eta(), particle->Pt());
+ eta = particle->Eta();
+ if (fSymmetrize)
+ eta = TMath::Abs(eta);
+
+ if (fAnalysisMode & AliPWG0Helper::kSPD)
+ {
+ if (fFillPhi)
+ {
+ thirdDim = particle->Phi();
+ }
+ else
+ thirdDim = inputCount;
+ }
+ else
+ thirdDim = particle->Pt();
}
else
{
- fdNdEtaCorrection->FillTrackedParticle(vtxMC[2], etaArr[i], ptArr[i]);
+ if (fAnalysisMode & AliPWG0Helper::kSPD && !fFillPhi)
+ {
+ thirdDim = (fMultAxisEta1) ? nEta10 : inputCount;
+ }
+ else
+ thirdDim = thirdDimArr[i];
+
+ eta = etaArr[i];
}
- fEtaProfile->Fill(particle->Eta(), particle->Eta() - etaArr[i]);
- fdNdEtaAnalysisESD->FillTrack(vtxMC[2], particle->Eta(), particle->Pt());
+ Bool_t fillTrack = kTRUE;
- fEtaCorrelation->Fill(etaArr[i], particle->Eta());
+ // statistical error evaluation active?
+ if (fStatError > 0)
+ {
+ Bool_t statErrorDecision = kFALSE;
+
+ // primary and not yet counted
+ if (label == label2 && firstIsPrim && !primCount[label])
+ {
+ statErrorDecision = kTRUE;
+ primCount[label] = kTRUE;
+ }
+
+ // in case of 1 we count only unique primaries, in case of 2 all the rest
+ if (fStatError == 1)
+ {
+ fillTrack = statErrorDecision;
+ }
+ else if (fStatError == 2)
+ fillTrack = !statErrorDecision;
+ }
- if (particle->Pt() > 0.1 && particle->Pt() < 0.2)
+ if (fillTrack)
{
- fPIDTracks->Fill(particle->GetPdgCode());
+ fdNdEtaCorrection->FillTrackedParticle(vtxMC[2], eta, thirdDim);
+ fTemp2->Fill(vtxMC[2], eta);
}
+
+ // eta comparison for tracklets with the same label (others are background)
+ if (label == label2)
+ {
+ Float_t eta2 = particle->Eta();
+ if (fSymmetrize)
+ eta2 = TMath::Abs(eta2);
+
+ fEtaProfile->Fill(eta2, eta2 - etaArr[i]);
+ fEtaCorrelation->Fill(etaArr[i], eta2);
+ fEtaCorrelationShift->Fill(eta2, eta2 - etaArr[i]);
+ }
+
+ if (fSymmetrize)
+ fdNdEtaAnalysisESD->FillTrack(vtxMC[2], TMath::Abs(particle->Eta()), thirdDim);
+ else
+ fdNdEtaAnalysisESD->FillTrack(vtxMC[2], particle->Eta(), thirdDim);
- if (fdNdEtaCorrectionProcessType[0])
+ if (fOption.Contains("process-types"))
{
// non diffractive
if (processType == AliPWG0Helper::kND)
- fdNdEtaCorrectionProcessType[0]->FillTrackedParticle(vtxMC[2], particle->Eta(), particle->Pt());
+ fdNdEtaCorrectionSpecial[0]->FillTrackedParticle(vtxMC[2], eta, thirdDim);
// single diffractive
if (processType == AliPWG0Helper::kSD)
- fdNdEtaCorrectionProcessType[1]->FillTrackedParticle(vtxMC[2], particle->Eta(), particle->Pt());
+ fdNdEtaCorrectionSpecial[1]->FillTrackedParticle(vtxMC[2], eta, thirdDim);
// double diffractive
if (processType == AliPWG0Helper::kDD)
- fdNdEtaCorrectionProcessType[2]->FillTrackedParticle(vtxMC[2], particle->Eta(), particle->Pt());
+ fdNdEtaCorrectionSpecial[2]->FillTrackedParticle(vtxMC[2], eta, thirdDim);
+ }
+
+ if (fOption.Contains("particle-species"))
+ {
+ // find mother first
+ TParticle* mother = AliPWG0Helper::FindPrimaryMother(stack, label);
+
+ Int_t id = -1;
+ switch (TMath::Abs(mother->GetPdgCode()))
+ {
+ case 211: id = 0; break;
+ case 321: id = 1; break;
+ case 2212: id = 2; break;
+ default: id = 3; break;
+ }
+ fdNdEtaCorrectionSpecial[id]->FillTrackedParticle(vtxMC[2], eta, thirdDim);
}
// control histograms
Int_t hist = -1;
if (label == label2)
{
- if (firstIsPrim)
+ if (firstIsPrim)
{
- hist = 0;
+ hist = 0;
}
else
hist = 1;
else if (firstIsPrim && !secondIsPrim)
{
hist = 3;
-
+
// check if secondary is caused by the primary or it is a fake combination
//Printf("PS case --> Label 1 is %d, label 2 is %d", label, label2);
Int_t mother = label2;
else
hist = 7;
- fDeltaPhi[hist]->Fill(deltaPhiArr[i]);
+ fDeltaPhi[hist]->Fill(deltaPhiArr[i], thirdDimArr[i]);
}
}
+
+ if (primCount)
+ {
+ delete[] primCount;
+ primCount = 0;
+ }
if (processed < inputCount)
Printf("Only %d out of %d track(let)s were used", processed, inputCount);
if (eventTriggered && eventVertex)
{
- fdNdEtaAnalysisMC->FillEvent(vtxMC[2], inputCount);
- fdNdEtaAnalysisESD->FillEvent(vtxMC[2], inputCount);
+ Double_t diff = vtxMC[2] - vtx[2];
+ fVertexShift->Fill(diff);
+
+ fVertexCorrelation->Fill(vtxMC[2], vtx[2]);
+ fVertexCorrelationShift->Fill(vtxMC[2], vtxMC[2] - vtx[2], inputCount);
+ fVertexProfile->Fill(vtxMC[2], vtxMC[2] - vtx[2]);
+
+ if (vtxESD->IsFromVertexerZ() && inputCount > 0)
+ fVertexShiftNorm->Fill(diff, vtxESD->GetNContributors());
+ }
+
+ Int_t multAxis = inputCount;
+ if (fMultAxisEta1)
+ multAxis = nEta10;
+
+ if (eventTriggered && eventVertex)
+ {
+ fdNdEtaAnalysisMC->FillEvent(vtxMC[2], multAxis);
+ fdNdEtaAnalysisESD->FillEvent(vtxMC[2], multAxis);
}
- // stuff regarding the vertex reco correction and trigger bias correction
- fdNdEtaCorrection->FillEvent(vtxMC[2], inputCount, eventTriggered, eventVertex, processType);
+ Int_t processType2 = processType;
+ if (oneParticleEvent)
+ processType2 |= AliPWG0Helper::kOnePart;
+
+ // stuff regarding the vertex reco correction and trigger bias correction
+ fdNdEtaCorrection->FillEvent(vtxMC[2], multAxis, eventTriggered, eventVertex, processType2);
- if (fdNdEtaCorrectionProcessType[0])
+ if (fOption.Contains("process-types"))
{
// non diffractive
- if (processType == AliPWG0Helper::kND )
- fdNdEtaCorrectionProcessType[0]->FillEvent(vtxMC[2], inputCount, eventTriggered, eventVertex, processType);
+ if (processType == AliPWG0Helper::kND)
+ fdNdEtaCorrectionSpecial[0]->FillEvent(vtxMC[2], multAxis, eventTriggered, eventVertex, processType2);
// single diffractive
if (processType == AliPWG0Helper::kSD)
- fdNdEtaCorrectionProcessType[1]->FillEvent(vtxMC[2], inputCount, eventTriggered, eventVertex, processType);
+ fdNdEtaCorrectionSpecial[1]->FillEvent(vtxMC[2], multAxis, eventTriggered, eventVertex, processType2);
// double diffractive
if (processType == AliPWG0Helper::kDD)
- fdNdEtaCorrectionProcessType[2]->FillEvent(vtxMC[2], inputCount, eventTriggered, eventVertex, processType);
+ fdNdEtaCorrectionSpecial[2]->FillEvent(vtxMC[2], multAxis, eventTriggered, eventVertex, processType2);
}
-
- delete[] etaArr;
- delete[] labelArr;
- delete[] labelArr2;
- delete[] ptArr;
- delete[] deltaPhiArr;
+
+ if (fOption.Contains("particle-species"))
+ for (Int_t id=0; id<4; id++)
+ fdNdEtaCorrectionSpecial[id]->FillEvent(vtxMC[2], multAxis, eventTriggered, eventVertex, processType2);
+
+ if (etaArr)
+ delete[] etaArr;
+ if (labelArr)
+ delete[] labelArr;
+ if (labelArr2)
+ delete[] labelArr2;
+ if (thirdDimArr)
+ delete[] thirdDimArr;
+ if (deltaPhiArr)
+ delete[] deltaPhiArr;
}
void AlidNdEtaCorrectionTask::Terminate(Option_t *)
fdNdEtaAnalysisMC->SaveHistograms();
fdNdEtaAnalysisESD->SaveHistograms();
- fdNdEtaCorrectionProcessType[0] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_ND"));
- fdNdEtaCorrectionProcessType[1] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_SD"));
- fdNdEtaCorrectionProcessType[2] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_DD"));
- for (Int_t i=0; i<3; ++i)
- if (fdNdEtaCorrectionProcessType[i])
- fdNdEtaCorrectionProcessType[i]->SaveHistograms();
+ if (fOutput->FindObject("dndeta_correction_ND"))
+ {
+ fdNdEtaCorrectionSpecial[0] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_ND"));
+ fdNdEtaCorrectionSpecial[1] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_SD"));
+ fdNdEtaCorrectionSpecial[2] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_DD"));
+ }
+ else
+ {
+ fdNdEtaCorrectionSpecial[0] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_pi"));
+ fdNdEtaCorrectionSpecial[1] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_K"));
+ fdNdEtaCorrectionSpecial[2] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_p"));
+ fdNdEtaCorrectionSpecial[3] = dynamic_cast<AlidNdEtaCorrection*> (fOutput->FindObject("dndeta_correction_other"));
+ }
+ for (Int_t i=0; i<4; ++i)
+ if (fdNdEtaCorrectionSpecial[i])
+ fdNdEtaCorrectionSpecial[i]->SaveHistograms();
fTemp1 = dynamic_cast<TH1*> (fOutput->FindObject("fTemp1"));
if (fTemp1)
fVertexCorrelation = dynamic_cast<TH2F*> (fOutput->FindObject("fVertexCorrelation"));
if (fVertexCorrelation)
fVertexCorrelation->Write();
+ fVertexCorrelationShift = dynamic_cast<TH3F*> (fOutput->FindObject("fVertexCorrelationShift"));
+ if (fVertexCorrelationShift)
+ {
+ ((TH2*) fVertexCorrelationShift->Project3D("yx"))->FitSlicesY();
+ fVertexCorrelationShift->Write();
+ }
fVertexProfile = dynamic_cast<TProfile*> (fOutput->FindObject("fVertexProfile"));
if (fVertexProfile)
fVertexProfile->Write();
fVertexShift = dynamic_cast<TH1F*> (fOutput->FindObject("fVertexShift"));
if (fVertexShift)
fVertexShift->Write();
- fVertexShiftNorm = dynamic_cast<TH1F*> (fOutput->FindObject("fVertexShiftNorm"));
+ fVertexShiftNorm = dynamic_cast<TH2F*> (fOutput->FindObject("fVertexShiftNorm"));
if (fVertexShiftNorm)
+ {
+ fVertexShiftNorm->ProjectionX();
fVertexShiftNorm->Write();
+ }
fEtaCorrelation = dynamic_cast<TH2F*> (fOutput->FindObject("fEtaCorrelation"));
if (fEtaCorrelation)
fEtaCorrelation->Write();
+ fEtaCorrelationShift = dynamic_cast<TH2F*> (fOutput->FindObject("fEtaCorrelationShift"));
+ if (fEtaCorrelationShift)
+ {
+ fEtaCorrelationShift->FitSlicesY();
+ fEtaCorrelationShift->Write();
+ }
fEtaProfile = dynamic_cast<TProfile*> (fOutput->FindObject("fEtaProfile"));
if (fEtaProfile)
fEtaProfile->Write();
fEtaResolution = dynamic_cast<TH1F*> (fOutput->FindObject("fEtaResolution"));
if (fEtaResolution)
fEtaResolution->Write();
- fpTResolution = dynamic_cast<TH1F*> (fOutput->FindObject("fpTResolution"));
+ fpTResolution = dynamic_cast<TH2F*> (fOutput->FindObject("fpTResolution"));
if (fpTResolution)
+ {
+ fpTResolution->FitSlicesY();
fpTResolution->Write();
+ }
fMultAll = dynamic_cast<TH1F*> (fOutput->FindObject("fMultAll"));
if (fMultAll)
for (Int_t i=0; i<8; ++i)
{
- fDeltaPhi[i] = dynamic_cast<TH1F*> (fOutput->FindObject(Form("fDeltaPhi_%d", i)));
+ fDeltaPhi[i] = dynamic_cast<TH2*> (fOutput->FindObject(Form("fDeltaPhi_%d", i)));
if (fDeltaPhi[i])
fDeltaPhi[i]->Write();
}