From: majanik Date: Mon, 24 Jun 2013 13:57:27 +0000 (+0000) Subject: changes in the PID of protons + new config for the proton femtoscopy train X-Git-Url: http://git.uio.no/git/?p=u%2Fmrichter%2FAliRoot.git;a=commitdiff_plain;h=af797f5b4adac1e7db929bf93b5a2f543b7bf23b;hp=7aed730423fac3a48b58f46178e005e315f95d93 changes in the PID of protons + new config for the proton femtoscopy train --- diff --git a/PWGCF/FEMTOSCOPY/AliFemtoUser/AliFemtoESDTrackCut.cxx b/PWGCF/FEMTOSCOPY/AliFemtoUser/AliFemtoESDTrackCut.cxx index f2b64445c4f..f0a9c78c864 100644 --- a/PWGCF/FEMTOSCOPY/AliFemtoUser/AliFemtoESDTrackCut.cxx +++ b/PWGCF/FEMTOSCOPY/AliFemtoUser/AliFemtoESDTrackCut.cxx @@ -377,12 +377,16 @@ bool AliFemtoESDTrackCut::Pass(const AliFemtoTrack* track) } } - else if (fMostProbable == 4) { // proton nsigma-PID required contour adjusting (in LHC10h) - if ( IsProtonNSigma(track->P().Mag(), track->NSigmaTPCP(), track->NSigmaTOFP()) && (TMath::Abs(track->NSigmaTPCP()) < TMath::Abs(track->NSigmaTPCPi())) && (TMath::Abs(track->NSigmaTPCP()) < TMath::Abs(track->NSigmaTPCK())) && (TMath::Abs(track->NSigmaTOFP()) < TMath::Abs(track->NSigmaTOFPi())) && (TMath::Abs(track->NSigmaTOFP()) < TMath::Abs(track->NSigmaTOFK())) - // && IsProtonTPCdEdx(track->P().Mag(), track->TPCsignal()) - ) + else if (fMostProbable == 4) { // proton nsigma-PID required contour adjusting (in LHC10h) + if ( IsProtonNSigma(track->P().Mag(), track->NSigmaTPCP(), track->NSigmaTOFP()) // && (TMath::Abs(track->NSigmaTPCP()) < TMath::Abs(track->NSigmaTPCPi())) && (TMath::Abs(track->NSigmaTPCP()) < TMath::Abs(track->NSigmaTPCK())) && (TMath::Abs(track->NSigmaTOFP()) < TMath::Abs(track->NSigmaTOFPi())) && (TMath::Abs(track->NSigmaTOFP()) < TMath::Abs(track->NSigmaTOFK())) + // && IsProtonTPCdEdx(track->P().Mag(), track->TPCsignal()) + ) imost = 4; } + else if (fMostProbable == 5) { // no-protons + if ( !IsProtonNSigma(track->P().Mag(), track->NSigmaTPCP(), track->NSigmaTOFP()) ) + imost = 5; + } } diff --git a/PWGCF/FEMTOSCOPY/AliFemtoUser/AliFemtoESDTrackCut.h b/PWGCF/FEMTOSCOPY/AliFemtoUser/AliFemtoESDTrackCut.h index 9518ec2d322..01da48863e8 100644 --- a/PWGCF/FEMTOSCOPY/AliFemtoUser/AliFemtoESDTrackCut.h +++ b/PWGCF/FEMTOSCOPY/AliFemtoUser/AliFemtoESDTrackCut.h @@ -62,6 +62,7 @@ class AliFemtoESDTrackCut : public AliFemtoTrackCut void SetMostProbablePion(); void SetMostProbableKaon(); void SetMostProbableProton(); + void SetLeastProbableProton(); void SetNoMostProbable(); void SetPIDMethod(ReadPIDMethodType newMethod); void SetNsigmaTPCTOF(Bool_t); @@ -165,6 +166,7 @@ inline void AliFemtoESDTrackCut::SetminITScls(const int& minITScls){fminITScls=m inline void AliFemtoESDTrackCut::SetMostProbablePion() { fMostProbable = 2; } inline void AliFemtoESDTrackCut::SetMostProbableKaon() { fMostProbable = 3; } inline void AliFemtoESDTrackCut::SetMostProbableProton() { fMostProbable = 4; } +inline void AliFemtoESDTrackCut::SetLeastProbableProton() { fMostProbable = 5; } inline void AliFemtoESDTrackCut::SetNoMostProbable() { fMostProbable = 0; } inline void AliFemtoESDTrackCut::SetMaxITSChiNdof(const float& maxchi) { fMaxITSchiNdof = maxchi; } inline void AliFemtoESDTrackCut::SetMaxTPCChiNdof(const float& maxchi) { fMaxTPCchiNdof = maxchi; } diff --git a/PWGCF/FEMTOSCOPY/macros/Train/ProtonFemtoscopy/SHnoTTC/ConfigFemtoAnalysis.C b/PWGCF/FEMTOSCOPY/macros/Train/ProtonFemtoscopy/SHnoTTC/ConfigFemtoAnalysis.C new file mode 100644 index 00000000000..83f7abbac87 --- /dev/null +++ b/PWGCF/FEMTOSCOPY/macros/Train/ProtonFemtoscopy/SHnoTTC/ConfigFemtoAnalysis.C @@ -0,0 +1,447 @@ +/********************************************************************* + * * + * Configfemtoanalysis.C - configuration macro for the femtoscopic * + * analysis, meant as a QA process for two-particle effects * + * * + * Author: Adam Kisiel (Adam.Kisiel@cern.ch) * + * * + *********************************************************************/ + +#if !defined(__CINT__) || defined(__MAKECINT_) +#include "AliFemtoManager.h" +#include "AliFemtoEventReaderESDChain.h" +#include "AliFemtoEventReaderESDChainKine.h" +#include "AliFemtoEventReaderAODChain.h" +#include "AliFemtoSimpleAnalysis.h" +#include "AliFemtoBasicEventCut.h" +#include "AliFemtoESDTrackCut.h" +#include "AliFemtoCorrFctn.h" +#include "AliFemtoCutMonitorParticleYPt.h" +#include "AliFemtoCutMonitorParticleVertPos.h" +#include "AliFemtoCutMonitorParticleMomRes.h" +#include "AliFemtoCutMonitorParticlePID.h" +#include "AliFemtoCutMonitorEventMult.h" +#include "AliFemtoCutMonitorEventVertex.h" +#include "AliFemtoShareQualityTPCEntranceSepPairCut.h" +#include "AliFemtoPairCutAntiGamma.h" +#include "AliFemtoPairCutRadialDistance.h" +#include "AliFemtoQinvCorrFctn.h" +#include "AliFemtoCorrFctnNonIdDR.h" +#include "AliFemtoShareQualityCorrFctn.h" +#include "AliFemtoTPCInnerCorrFctn.h" +#include "AliFemtoVertexMultAnalysis.h" +#include "AliFemtoCorrFctn3DSpherical.h" +#include "AliFemtoChi2CorrFctn.h" +#include "AliFemtoCorrFctnTPCNcls.h" +#include "AliFemtoBPLCMS3DCorrFctn.h" +#include "AliFemtoCorrFctn3DLCMSSym.h" +#include "AliFemtoModelBPLCMSCorrFctn.h" +#include "AliFemtoModelCorrFctn3DSpherical.h" +#include "AliFemtoModelGausLCMSFreezeOutGenerator.h" +#include "AliFemtoModelGausRinvFreezeOutGenerator.h" +#include "AliFemtoModelManager.h" +#include "AliFemtoModelWeightGeneratorBasic.h" +#include "AliFemtoModelWeightGeneratorLednicky.h" +#include "AliFemtoCorrFctnDirectYlm.h" +#include "AliFemtoModelCorrFctnDirectYlm.h" +#include "AliFemtoModelCorrFctnSource.h" +#include "AliFemtoCutMonitorParticlePtPDG.h" +#include "AliFemtoKTPairCut.h" +#include "AliFemtoAvgSepCorrFctn.h" +#endif + +//________________________________________________________________________ +AliFemtoManager* ConfigFemtoAnalysis() { + + double PionMass = 0.13956995; + double KaonMass = 0.493677; + double ProtonMass = 0.938272013; + + // double psi = TMath::Pi()/2.; + // double psid = TMath::Pi()/6.; + + // int runepvzero[7] = {1, 1, 1, 1, 1, 1, 1}; + // double epvzerobins[7] = {-psi, -psi+psid, -psi+2*psid, -psi+3*psid, -psi+4*psid, -psi+5*psid, -psi+6*psid}; + + double psi = TMath::Pi()/2.; + double psid = TMath::Pi()/3.; + + int runepvzero[4] = {0, 0, 0, 1}; + double epvzerobins[4] = {-psi, -psi+psid, -psi+2*psid, -psi+3*psid}; + + int runmults[10] = {1, 1, 0, 0, 0, 0, 0, 0, 0, 0}; + int multbins[11] = {0.001, 50, 100, 200, 300, 400, 500, 600, 700, 800, 900}; + + int runch[3] = {1, 1, 1}; + const char *chrgs[3] = { "PP", "APAP", "PAP" }; + + int runktdep = 1; + double ktrng[3] = {0.01, 1.0, 5.0}; + + int numOfMultBins = 10; + int numOfChTypes = 3; + int numOfkTbins = 2; + int numOfEPvzero = 4; + + int runqinv = 1; + int runshlcms = 0;// 0:PRF(PAP), 1:LCMS(PP,APAP) + + int runtype = 2; // Types 0 - global, 1 - ITS only, 2 - TPC Inner + int isrealdata = 1; + + // int gammacut = 1; + + double shqmax = 1.0; + int nbinssh = 100; + + AliFemtoEventReaderAODChain *Reader = new AliFemtoEventReaderAODChain(); + Reader->SetFilterBit(7); + Reader->SetCentralityPreSelection(0.001, 510); + Reader->SetEPVZERO(kTRUE); + + AliFemtoManager* Manager = new AliFemtoManager(); + Manager->SetEventReader(Reader); + + AliFemtoVertexMultAnalysis *anetaphitpc[10*3*2]; + AliFemtoBasicEventCut *mecetaphitpc[10*3*2]; + AliFemtoCutMonitorEventMult *cutPassEvMetaphitpc[50]; + AliFemtoCutMonitorEventMult *cutFailEvMetaphitpc[50]; + // AliFemtoCutMonitorEventVertex *cutPassEvVetaphitpc[50]; + // AliFemtoCutMonitorEventVertex *cutFailEvVetaphitpc[50]; + AliFemtoESDTrackCut *dtc1etaphitpc[50]; + AliFemtoESDTrackCut *dtc2etaphitpc[50]; + AliFemtoCutMonitorParticleYPt *cutPass1YPtetaphitpc[50]; + AliFemtoCutMonitorParticleYPt *cutFail1YPtetaphitpc[50]; + AliFemtoCutMonitorParticlePID *cutPass1PIDetaphitpc[50]; + AliFemtoCutMonitorParticlePID *cutFail1PIDetaphitpc[50]; + AliFemtoCutMonitorParticleYPt *cutPass2YPtetaphitpc[50]; + AliFemtoCutMonitorParticleYPt *cutFail2YPtetaphitpc[50]; + AliFemtoCutMonitorParticlePID *cutPass2PIDetaphitpc[50]; + AliFemtoCutMonitorParticlePID *cutFail2PIDetaphitpc[50]; + // AliFemtoPairCutAntiGamma *sqpcetaphitpcdiff[10*3]; + // AliFemtoShareQualityTPCEntranceSepPairCut *sqpcetaphitpcsame[10*3]; + //AliFemtoPairCutAntiGamma *sqpcetaphitpc[10*3]; + AliFemtoPairCutRadialDistance *sqpcetaphitpc[50]; + // AliFemtoChi2CorrFctn *cchiqinvetaphitpc[20*2]; + AliFemtoKTPairCut *ktpcuts[50*2]; + AliFemtoCorrFctnDirectYlm *cylmtpc[50]; + AliFemtoCorrFctnDirectYlm *cylmkttpc[50*2]; + AliFemtoCorrFctnDirectYlm *cylmetaphitpc[10*3]; + AliFemtoQinvCorrFctn *cqinvkttpc[50*2]; + AliFemtoQinvCorrFctn *cqinvtpc[50]; + AliFemtoCorrFctnNonIdDR *ckstartpc[50]; + AliFemtoCorrFctnNonIdDR *ckstarkttpc[50*2]; + AliFemtoCorrFctnDEtaDPhi *cdedpetaphi[50*2]; + AliFemtoAvgSepCorrFctn *cAvgSeptpc[50]; + + // AliFemtoCorrFctn3DLCMSSym *cq3dlcmskttpc[20*2]; + // AliFemtoCorrFctnTPCNcls *cqinvnclstpc[20]; + // AliFemtoShareQualityCorrFctn *cqinvsqtpc[20*10]; + // AliFemtoChi2CorrFctn *cqinvchi2tpc[20]; + AliFemtoTPCInnerCorrFctn *cqinvinnertpc[50]; + + // *** Third QA task - HBT analysis with all pair cuts off, TPC only *** + // *** Begin pion-pion (positive) analysis *** + int aniter = 0; + + for (int imult = 0; imult < numOfMultBins; imult++) { + if (runmults[imult]) { + + for (int ichg = 0; ichg < numOfChTypes; ichg++) { + if (runch[ichg]) { + + for (int iepvzero = 0; iepvzero < numOfEPvzero; iepvzero++) { + if (runepvzero[iepvzero]) { + + aniter = imult * numOfChTypes + ichg * numOfEPvzero + iepvzero; + // aniter = ichg * numOfMultBins + imult * numOfEPvzero + iepvzero; + + // cout << "aniter = " << aniter << endl; + // aniter = ichg * numOfMultBins + imult; + + // if (ichg == 2) + // runshlcms = 0; + // else + // runshlcms = 1; + + + //________________________ + + anetaphitpc[aniter] = new AliFemtoVertexMultAnalysis(8, -8.0, 8.0, 4, multbins[imult], multbins[imult+1]); + anetaphitpc[aniter]->SetNumEventsToMix(10); + anetaphitpc[aniter]->SetMinSizePartCollection(1); + anetaphitpc[aniter]->SetVerboseMode(kFALSE); + + mecetaphitpc[aniter] = new AliFemtoBasicEventCut(); + mecetaphitpc[aniter]->SetEventMult(0.001,100000); + mecetaphitpc[aniter]->SetVertZPos(-8,8); + + if (iepvzero == 3) + mecetaphitpc[aniter]->SetEPVZERO(epvzerobins[0],epvzerobins[3]); + else + mecetaphitpc[aniter]->SetEPVZERO(epvzerobins[iepvzero],epvzerobins[iepvzero+1]); + + // if (isrealdata) + // mecetaphitpc[aniter]->SetAcceptOnlyPhysics(kTRUE); + + // cutPassEvMetaphitpc[aniter] = new AliFemtoCutMonitorEventMult(Form("cutPass%stpcM%iPsi%i", chrgs[ichg], imult, iepvzero)); + // cutFailEvMetaphitpc[aniter] = new AliFemtoCutMonitorEventMult(Form("cutFail%stpcM%iPsi%i", chrgs[ichg], imult, iepvzero)); + // mecetaphitpc[aniter]->AddCutMonitor(cutPassEvMetaphitpc[aniter], cutFailEvMetaphitpc[aniter]); + + // cutPassEvVetaphitpc[aniter] = new AliFemtoCutMonitorEventVertex(Form("cutPass%stpcM%i", chrgs[ichg], imult)); + // cutFailEvVetaphitpc[aniter] = new AliFemtoCutMonitorEventVertex(Form("cutFail%stpcM%i", chrgs[ichg], imult)); + // mecetaphitpc[aniter]->AddCutMonitor(cutPassEvVetaphitpc[aniter], cutFailEvVetaphitpc[aniter]); + + dtc1etaphitpc[aniter] = new AliFemtoESDTrackCut(); + dtc2etaphitpc[aniter] = new AliFemtoESDTrackCut(); + + if (ichg == 0) { + dtc1etaphitpc[aniter]->SetCharge(1.0); + dtc1etaphitpc[aniter]->SetPt(0.7,4.0); + } + else if (ichg == 1) { + dtc1etaphitpc[aniter]->SetCharge(-1.0); + dtc1etaphitpc[aniter]->SetPt(0.7,4.0); + } + else if (ichg == 2) { + dtc1etaphitpc[aniter]->SetCharge(-1.0); + dtc2etaphitpc[aniter]->SetCharge(1.0); + dtc1etaphitpc[aniter]->SetPt(0.7,4.0); + dtc2etaphitpc[aniter]->SetPt(0.7,4.0); + } + + dtc1etaphitpc[aniter]->SetEta(-0.8,0.8); + dtc1etaphitpc[aniter]->SetMass(ProtonMass); + dtc1etaphitpc[aniter]->SetMostProbableProton(); + dtc1etaphitpc[aniter]->SetNsigma(3.0); + //dtc1etaphitpc[aniter]->SetNsigma(2.0); + dtc1etaphitpc[aniter]->SetNsigmaTPCTOF(kTRUE); + //dtc1etaphitpc[aniter]->SetNsigmaTPConly(kTRUE); + + if (ichg == 2) { + dtc2etaphitpc[aniter]->SetEta(-0.8,0.8); + dtc2etaphitpc[aniter]->SetMass(ProtonMass); + dtc2etaphitpc[aniter]->SetMostProbableProton(); + dtc2etaphitpc[aniter]->SetNsigma(3.0); + //dtc2etaphitpc[aniter]->SetNsigma(2.0); + dtc2etaphitpc[aniter]->SetNsigmaTPCTOF(kTRUE); + //dtc2etaphitpc[aniter]->SetNsigmaTPConly(kTRUE); + + } + + // Track quality cuts + + if (runtype == 0) { + dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit|AliESDtrack::kITSrefit); + // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit); + // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kITSrefit); + dtc1etaphitpc[aniter]->SetminTPCncls(80); + dtc1etaphitpc[aniter]->SetRemoveKinks(kTRUE); + dtc1etaphitpc[aniter]->SetLabel(kFALSE); + // dtc1etaphitpc[aniter]->SetMaxITSChiNdof(6.0); + dtc1etaphitpc[aniter]->SetMaxTPCChiNdof(4.0); + dtc1etaphitpc[aniter]->SetMaxImpactXY(0.2); + // dtc1etaphitpc[aniter]->SetMaxImpactXYPtDep(0.0182, 0.0350, -1.01); + dtc1etaphitpc[aniter]->SetMaxImpactZ(0.15); + // dtc1etaphitpc[aniter]->SetMaxSigmaToVertex(6.0); + } + else if (runtype == 1) { + // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit|AliESDtrack::kITSrefit); + // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit); + // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kITSrefit|AliESDtrack::kITSpureSA); + // dtc1etaphitpc[aniter]->SetminTPCncls(70); + dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kITSrefit); + dtc1etaphitpc[aniter]->SetRemoveKinks(kTRUE); + dtc1etaphitpc[aniter]->SetLabel(kFALSE); + // dtc1etaphitpc[aniter]->SetMaxITSChiNdof(6.0); + // dtc1etaphitpc[aniter]->SetMaxTPCChiNdof(6.0); + dtc1etaphitpc[aniter]->SetMaxImpactXY(0.2); + dtc1etaphitpc[aniter]->SetMaxImpactZ(0.25); + // dtc1etaphitpc[aniter]->SetMaxSigmaToVertex(6.0); + } + else if (runtype == 2) { + //dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit|AliESDtrack::kITSrefit); + dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCin); + dtc1etaphitpc[aniter]->SetminTPCncls(80); + dtc1etaphitpc[aniter]->SetRemoveKinks(kTRUE); + dtc1etaphitpc[aniter]->SetLabel(kFALSE); + dtc1etaphitpc[aniter]->SetMaxTPCChiNdof(4.0); + //dtc1etaphitpc[aniter]->SetMaxImpactXY(0.1); // 2.4 0.1 + // dtc1etaphitpc[aniter]->SetMaxImpactXYPtDep(0.0205, 0.035, -1.1); // DCA xy + dtc1etaphitpc[aniter]->SetMaxImpactXYPtDep(0.018, 0.035, -1.01); // DCA xy + dtc1etaphitpc[aniter]->SetMaxImpactZ(0.15); // 2.0 0.1 + + if (ichg == 2) { + //dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit|AliESDtrack::kITSrefit); + dtc2etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCin); + dtc2etaphitpc[aniter]->SetminTPCncls(80); + dtc2etaphitpc[aniter]->SetRemoveKinks(kTRUE); + dtc2etaphitpc[aniter]->SetLabel(kFALSE); + dtc2etaphitpc[aniter]->SetMaxTPCChiNdof(4.0); + //dtc2etaphitpc[aniter]->SetMaxImpactXY(0.1); // 2.4 0.1 + // dtc2etaphitpc[aniter]->SetMaxImpactXYPtDep(0.0205, 0.035, -1.1); // DCA xy + dtc2etaphitpc[aniter]->SetMaxImpactXYPtDep(0.018, 0.035, -1.01); // DCA xy + dtc2etaphitpc[aniter]->SetMaxImpactZ(0.15); // 2.0 0.1 + } + + } + + // cutPass1YPtetaphitpc[aniter] = new AliFemtoCutMonitorParticleYPt(Form("cutPass1%stpcM%iPsi%i", chrgs[ichg], imult, iepvzero),ProtonMass); + // cutFail1YPtetaphitpc[aniter] = new AliFemtoCutMonitorParticleYPt(Form("cutFail1%stpcM%iPsi%i", chrgs[ichg], imult, iepvzero),ProtonMass); + // dtc1etaphitpc[aniter]->AddCutMonitor(cutPass1YPtetaphitpc[aniter], cutFail1YPtetaphitpc[aniter]); + + // cutPass1PIDetaphitpc[aniter] = new AliFemtoCutMonitorParticlePID(Form("cutPass1%stpcM%iPsi%i", chrgs[ichg], imult, iepvzero),2);//0-pion,1-kaon,2-proton + // cutFail1PIDetaphitpc[aniter] = new AliFemtoCutMonitorParticlePID(Form("cutFail1%stpcM%iPsi%i", chrgs[ichg], imult , iepvzero),2); + // dtc1etaphitpc[aniter]->AddCutMonitor(cutPass1PIDetaphitpc[aniter], cutFail1PIDetaphitpc[aniter]); + + // if (ichg == 2){ + // cutPass2PIDetaphitpc[aniter] = new AliFemtoCutMonitorParticlePID(Form("cutPass2%stpcM%i", chrgs[ichg], imult),2);//0-pion,1-kaon,2-proton + // cutFail2PIDetaphitpc[aniter] = new AliFemtoCutMonitorParticlePID(Form("cutFail2%stpcM%i", chrgs[ichg], imult),2); + // dtc2etaphitpc[aniter]->AddCutMonitor(cutPass2PIDetaphitpc[aniter], cutFail2PIDetaphitpc[aniter]); + // } + + // sqpcetaphitpc[aniter] = new AliFemtoPairCutAntiGamma(); + sqpcetaphitpc[aniter] = new AliFemtoPairCutRadialDistance(); + + if (runtype == 0) { + sqpcetaphitpc[aniter]->SetShareQualityMax(1.0); + sqpcetaphitpc[aniter]->SetShareFractionMax(0.05); + sqpcetaphitpc[aniter]->SetRemoveSameLabel(kFALSE); + // sqpcetaphitpc[aniter]->SetMaxEEMinv(0.0); + // sqpcetaphitpc[aniter]->SetMaxThetaDiff(0.0); + // sqpcetaphitpc[aniter]->SetTPCEntranceSepMinimum(1.5); + //sqpcetaphitpc[aniter]->SetRadialDistanceMinimum(0.12, 0.03); + // sqpcetaphitpc[aniter]->SetEtaDifferenceMinimum(0.02); + } + else if (runtype == 1) { + sqpcetaphitpc[aniter]->SetShareQualityMax(1.0); + sqpcetaphitpc[aniter]->SetShareFractionMax(1.05); + sqpcetaphitpc[aniter]->SetRemoveSameLabel(kFALSE); + // sqpcetaphitpc[aniter]->SetMaxEEMinv(0.002); + // sqpcetaphitpc[aniter]->SetMaxThetaDiff(0.008); + // sqpcetaphitpc[aniter]->SetTPCEntranceSepMinimum(5.0); + //sqpcetaphitpc[aniter]->SetRadialDistanceMinimum(1.2, 0.03); + // sqpcetaphitpc[aniter]->SetEtaDifferenceMinimum(0.02); + } + else if (runtype == 2) { + //sqpcetaphitpc[aniter]->SetUseAOD(kTRUE); + + sqpcetaphitpc[aniter]->SetShareQualityMax(1.0); + sqpcetaphitpc[aniter]->SetShareFractionMax(0.05); + sqpcetaphitpc[aniter]->SetRemoveSameLabel(kFALSE); + + // if (gammacut == 0) { + //sqpcetaphitpc[aniter]->SetMaxEEMinv(0.0); + //sqpcetaphitpc[aniter]->SetMaxThetaDiff(0.0); + //} + //else if (gammacut == 1) { + //sqpcetaphitpc[aniter]->SetMaxEEMinv(0.002); + //sqpcetaphitpc[aniter]->SetMaxThetaDiff(0.008); + //} + + // sqpcetaphitpc[aniter]->SetMagneticFieldSign(-1); // field1 -1, field3 +1 + // sqpcetaphitpc[aniter]->SetMinimumRadius(0.8); // biggest inefficiency for R=1.1 m (checked on small sample) + + // sqpcetaphitpc[aniter]->SetMinimumRadius(1.2); //0.8 + // sqpcetaphitpc[aniter]->SetPhiStarMin(kFALSE); + // sqpcetaphitpc[aniter]->SetPhiStarDifferenceMinimum(0.045); // 0.012 - pions, 0.017 - kaons, 0.018 + // sqpcetaphitpc[aniter]->SetEtaDifferenceMinimum(0.01); // 0.017 - pions, 0.015 - kaons + + } + + anetaphitpc[aniter]->SetEventCut(mecetaphitpc[aniter]); + + if (ichg == 2) { + anetaphitpc[aniter]->SetFirstParticleCut(dtc1etaphitpc[aniter]); + anetaphitpc[aniter]->SetSecondParticleCut(dtc2etaphitpc[aniter]); + } + else { + anetaphitpc[aniter]->SetFirstParticleCut(dtc1etaphitpc[aniter]); + anetaphitpc[aniter]->SetSecondParticleCut(dtc1etaphitpc[aniter]); + } + + anetaphitpc[aniter]->SetPairCut(sqpcetaphitpc[aniter]); + + + if (ichg == 2) { + ckstartpc[aniter] = new AliFemtoCorrFctnNonIdDR(Form("ckstar%stpcM%iPsi%i", chrgs[ichg], imult, iepvzero),nbinssh,0.0,shqmax); + anetaphitpc[aniter]->AddCorrFctn(ckstartpc[aniter]); + } + else { + + cqinvtpc[aniter] = new AliFemtoQinvCorrFctn(Form("cqinv%stpcM%iPsi%i", chrgs[ichg], imult, iepvzero),2*nbinssh,0.0,2*shqmax); + anetaphitpc[aniter]->AddCorrFctn(cqinvtpc[aniter]); + + } + + cylmtpc[aniter] = new AliFemtoCorrFctnDirectYlm(Form("cylm%stpcM%i", chrgs[ichg], imult),2,nbinssh, 0.0,shqmax,runshlcms); + anetaphitpc[aniter]->AddCorrFctn(cylmtpc[aniter]); + + + cAvgSeptpc[aniter] = new AliFemtoAvgSepCorrFctn(Form("cAvgSep%stpcM%iPsi%i", chrgs[ichg], imult, iepvzero),4*nbinssh,0.0,200); + anetaphitpc[aniter]->AddCorrFctn(cAvgSeptpc[aniter]); + + cqinvinnertpc[aniter] = new AliFemtoTPCInnerCorrFctn(Form("cqinvinner%stpcM%d", chrgs[ichg], imult),nbinssh,0.0,shqmax); + cqinvinnertpc[aniter]->SetRadius(1.2); + anetaphitpc[aniter]->AddCorrFctn(cqinvinnertpc[aniter]); + + + if (runktdep) { + int ktm; + for (int ikt=0; iktSetPairSelectionCut(ktpcuts[ktm]); + anetaphitpc[aniter]->AddCorrFctn(cylmkttpc[ktm]); + + if (ichg == 2) { + ckstarkttpc[ktm] = new AliFemtoCorrFctnNonIdDR(Form("ckstar%stpcM%iPsi%ikT%i", chrgs[ichg], imult, iepvzero, ikt),nbinssh,0.0,shqmax); + ckstarkttpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]); + anetaphitpc[aniter]->AddCorrFctn(ckstarkttpc[ktm]); + + + } + else { + cqinvkttpc[ktm] = new AliFemtoQinvCorrFctn(Form("cqinv%stpcM%iPsi%ikT%i", chrgs[ichg], imult, iepvzero, ikt),2*nbinssh,0.0,2*shqmax); + cqinvkttpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]); + anetaphitpc[aniter]->AddCorrFctn(cqinvkttpc[ktm]); + } + + // cqinvsqtpc[ktm] = new AliFemtoShareQualityCorrFctn(Form("cqinvsq%stpcM%ikT%i", chrgs[ichg], imult, ikt),nbinssh,0.0,shqmax); + // cqinvsqtpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]); + // anetaphitpc[aniter]->AddCorrFctn(cqinvsqtpc[ktm]); + + // cqinvinnertpc[ktm] = new AliFemtoTPCInnerCorrFctn(Form("cqinvinner%stpcM%ikT%i", chrgs[ichg], imult, ikt),nbinssh,0.0,shqmax); + // cqinvinnertpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]); + // cqinvinnertpc[ktm]->SetRadius(1.2); + // anetaphitpc[aniter]->AddCorrFctn(cqinvinnertpc[ktm]); + + // if (run3d) { + // cq3dlcmskttpc[ktm] = new AliFemtoCorrFctn3DLCMSSym(Form("cq3d%stpcM%ikT%i", chrgs[ichg], imult, ikt),60,(imult>3)?((imult>6)?((imult>7)?0.6:0.4):0.25):0.15); + // cq3dlcmskttpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]); + // anetaphitpc[aniter]->AddCorrFctn(cq3dlcmskttpc[ktm]); + // } + } + } + + // cdedpetaphi[aniter] = new AliFemtoCorrFctnDEtaDPhi(Form("cdedp%stpcM%i", chrgs[ichg], imult),240, 240); + // anetaphitpc[aniter]->AddCorrFctn(cdedpetaphi[aniter]); + + Manager->AddAnalysis(anetaphitpc[aniter]); + } + } + } + } + } + } + + +// *** End pion-pion (positive) analysis + + + return Manager; +}