#ifndef __CINT__ #include #include #include #include #endif void AddRsnPairsPhi(AliAnalysisTaskSE *task, Bool_t isMC, Bool_t isMixing, AliPID::EParticleType pType1, Int_t listID1, AliPID::EParticleType pType2, Int_t listID2, AliRsnCutSet *cutsEvent=0, AliRsnCutSet *cutsPair=0, TString suffix = "") { Printf("id1=%d id2=%d",listID1,listID2); // retrieve mass from PDG database Int_t pdg = 333; TDatabasePDG *db = TDatabasePDG::Instance(); TParticlePDG *part = db->GetParticle(pdg); Double_t mass = part->Mass(); Bool_t valid; Int_t isRsnMini = AliAnalysisManager::GetGlobalInt("rsnUseMiniPackage",valid); if (isRsnMini) { AddPairOutputMiniPhi(task,isMC,isMixing,pType1,listID1,pType2,listID2,pdg,mass,cutsPair,suffix); } else { // this function is common and it is located in RsnConfig.C // as ouptup AddPairOutputPhi from this macro will be taken AddPair(task,isMC,isMixing,pType1,listID1,pType2,listID2,pdg,mass,cutsEvent,cutsPair,suffix); } } void AddPairOutputPhi(AliRsnLoopPair *pair) { Bool_t valid; Int_t isFullOutput = AliAnalysisManager::GetGlobalInt("rsnOutputFull",valid); Int_t isPP = AliAnalysisManager::GetGlobalInt("rsnIsPP",valid); Int_t useRapidity = AliAnalysisManager::GetGlobalInt("rsnUseRapidity",valid); // axes AliRsnValuePair *axisIM = new AliRsnValuePair("IM", AliRsnValuePair::kInvMass); AliRsnValuePair *axisPt = new AliRsnValuePair("PT", AliRsnValuePair::kPt); AliRsnValuePair *axisEta = new AliRsnValuePair("ETA", AliRsnValuePair::kEta); AliRsnValuePair *axisRapidity = new AliRsnValuePair("Y", AliRsnValuePair::kY); AliRsnValueEvent *axisCentrality = 0; if (!isPP) axisCentrality = new AliRsnValueEvent("MULTI",AliRsnValueEvent::kCentralityV0); axisIM ->SetBins(300, 0.9, 1.2); // axisIM ->SetBins(1000, 0.9, 1.9); axisPt ->SetBins(120, 0.0, 12.0); // axisEta ->SetBins(400, -2.0, 2.0); axisEta ->SetBins(400, -0.5, 0.5); axisRapidity ->SetBins(10, -0.5, 0.5); if (axisCentrality) axisCentrality->SetBins(20,0,100); // output: 2D histogram of inv. mass vs. pt AliRsnListOutput *outPair = 0; if (!isFullOutput) { outPair = new AliRsnListOutput("pair", AliRsnListOutput::kHistoDefault); outPair->AddValue(axisIM); } else { outPair = new AliRsnListOutput("pair", AliRsnListOutput::kHistoSparse); outPair->AddValue(axisIM); outPair->AddValue(axisPt); if (useRapidity) outPair->AddValue(axisRapidity); else outPair->AddValue(axisEta); if (axisCentrality) outPair->AddValue(axisCentrality); } // add outputs to loop pair->AddOutput(outPair); } void AddPairOutputMiniPhi(AliAnalysisTaskSE *task, Bool_t isMC,Bool_t isMixing, AliPID::EParticleType pType1,Int_t listID1, AliPID::EParticleType pType2,Int_t listID2, Int_t pdgMother,Double_t massMother, AliRsnCutSet *cutsPair=0,TString suffix = "") { Bool_t valid; Int_t isFullOutput = AliAnalysisManager::GetGlobalInt("rsnOutputFull",valid); Int_t useMixing = AliAnalysisManager::GetGlobalInt("rsnUseMixing",valid); Int_t isPP = AliAnalysisManager::GetGlobalInt("rsnIsPP",valid); Int_t useRapidity = AliAnalysisManager::GetGlobalInt("rsnUseRapidity",valid); AliRsnMiniAnalysisTask *taskRsnMini = (AliRsnMiniAnalysisTask *)task; if (isPP) taskRsnMini->UseMultiplicity("QUALITY"); else { taskRsnMini->UseCentrality("V0M"); Int_t multID = taskRsnMini->CreateValue(AliRsnMiniValue::kMult, kFALSE); AliRsnMiniOutput *outMult = taskRsnMini->CreateOutput("eventMult", "HIST", "EVENT"); outMult->AddAxis(multID, 100, 0.0, 100.0); Int_t paID = taskRsnMini->CreateValue(AliRsnMiniValue::kPlaneAngle, kFALSE); AliRsnMiniOutput *outPa = taskRsnMini->CreateOutput("planeAngle", "HIST", "EVENT"); outPa->AddAxis(paID, 100, 0, TMath::Pi()); } /* invariant mass */ Int_t imID = taskRsnMini->CreateValue(AliRsnMiniValue::kInvMass, kFALSE); /* IM resolution */ Int_t resID = taskRsnMini->CreateValue(AliRsnMiniValue::kInvMassDiff, kTRUE); /* transv. momentum */ Int_t ptID = taskRsnMini->CreateValue(AliRsnMiniValue::kPt, kFALSE); /* centrality */ Int_t centID = taskRsnMini->CreateValue(AliRsnMiniValue::kMult, kFALSE); /* eta */ Int_t etaID = taskRsnMini->CreateValue(AliRsnMiniValue::kEta, kFALSE); /* rapidity */ Int_t yID = taskRsnMini->CreateValue(AliRsnMiniValue::kY, kFALSE); // use an array for more compact writing, which are different on mixing and charges // [0] = unlike // [1] = mixing // [2] = like ++ // [3] = like -- Bool_t use [5] = { 1 , useMixing , 1 , 1 , isMC }; TString name [5] = {"Unlike", "Mixing", "LikePP", "LikeMM", "Trues"}; TString comp [5] = {"PAIR" , "MIX" , "PAIR" , "PAIR" , "TRUE" }; Char_t charge1 [5] = {'+' , '+' , '+' , '-' , '+' }; Char_t charge2 [5] = {'-' , '-' , '+' , '-' , '-' }; // common definitions TString outputType = "HIST"; if (isFullOutput) outputType = "SPARSE"; Int_t nIM = 300; Double_t minIM = 0.9, maxIM = 1.2; // Int_t nEta = 400; Double_t minEta = -2.0, maxEta = 2.0; Int_t nEta = 400; Double_t minEta = -0.5, maxEta = 0.5; Int_t nY = 10; Double_t minY = -0.5, maxY = 0.5; // Int_t nIM = 1000; Double_t minIM = 0.9, maxIM = 1.9; Int_t nPt = 120; Double_t minPt = 0.0, maxPt = 12.0; Int_t nCent = 100; Double_t minCent = 0.0, maxCent = 100.0; Int_t nRes = 200; Double_t maxRes = 0.01; // retrieve mass from PDG database Int_t pdg = 333; TDatabasePDG *db = TDatabasePDG::Instance(); TParticlePDG *part = db->GetParticle(pdg); Printf(suffix.Data()); // create standard outputs for (Int_t i = 0; i < 5; i++) { if (!use[i]) continue; // create output AliRsnMiniOutput *out = taskRsnMini->CreateOutput(Form("%s_%s", suffix.Data(),name[i].Data() ), outputType.Data(), comp[i].Data()); // selection settings out->SetCutID(0, listID1); out->SetCutID(1, listID1); out->SetDaughter(0, AliRsnDaughter::kKaon); out->SetDaughter(1, AliRsnDaughter::kKaon); out->SetCharge(0, charge1[i]); out->SetCharge(1, charge2[i]); out->SetMotherPDG(pdg); out->SetMotherMass(part->Mass()); // pair cuts if (cutsPair) out->SetPairCuts(cutsPair); // axis X: invmass out->AddAxis(imID, nIM, minIM, maxIM); if (isFullOutput) { // axis Y: transverse momentum out->AddAxis(ptID, nPt, minPt, maxPt); if (useRapidity) out->AddAxis(yID, nY, minY, maxY); else out->AddAxis(etaID, nEta, minEta, maxEta); // axis Z: centrality if (!isPP) out->AddAxis(centID, nCent, minCent, maxCent); } } // add output for resolution if (isMC) { AliRsnMiniOutput *outRes = taskRsnMini->CreateOutput(Form("phi_Res%s", suffix.Data()), outputType.Data(), "TRUE"); // selection settings outRes->SetCutID(0, listID1); outRes->SetCutID(1, listID1); outRes->SetDaughter(0, AliRsnDaughter::kKaon); outRes->SetDaughter(1, AliRsnDaughter::kKaon); outRes->SetCharge(0, '+'); outRes->SetCharge(1, '-'); outRes->SetMotherPDG(pdg); outRes->SetMotherMass(part->Mass()); // pair cuts if (cutsPair) outRes->SetPairCuts(cutsPair); // axis X: resolution outRes->AddAxis(resID, nRes, -maxRes, maxRes); if (isFullOutput) { // axis Y: transverse momentum outRes->AddAxis(ptID, nPt, minPt, maxPt); if (useRapidity) outRes->AddAxis(yID, nY, minY, maxY); else outRes->AddAxis(etaID, nEta, minEta, maxEta); // axis Z: centrality if (!isPP) outRes->AddAxis(centID, nCent, minCent, maxCent); } } // // -- Create output for MC generated ------------------------------------------------------------ // if (isMC) { // create ouput AliRsnMiniOutput *outMC = taskRsnMini->CreateOutput(Form("phi_MCGen%s", suffix.Data()), outputType.Data(), "MOTHER"); // selection settings outMC->SetDaughter(0, AliRsnDaughter::kKaon); outMC->SetDaughter(1, AliRsnDaughter::kKaon); outMC->SetMotherPDG(pdg); outMC->SetMotherMass(part->Mass()); // pair cuts if (cutsPair) outMC->SetPairCuts(cutsPair); // axis X: invmass outMC->AddAxis(imID, nIM, minIM, maxIM); if (isFullOutput) { // axis Y: transverse momentum outMC->AddAxis(ptID, nPt, minPt, maxPt); if (useRapidity) outMC->AddAxis(yID, nY, minY, maxY); else outMC->AddAxis(etaID, nEta, minEta, maxEta); // axis Z: centrality if (!isPP) outMC->AddAxis(centID, nCent, minCent, maxCent); } } }