-#ifndef __CINT__\r
-#include <AliRsnValuePair.h>\r
-#endif\r
-\r
-void AddRsnPairsRho(AliAnalysisTaskSE *task,\r
- Bool_t isMC,\r
- Bool_t isMixing,\r
- AliPID::EParticleType pType1,\r
- Int_t listID1,\r
- AliPID::EParticleType pType2,\r
- Int_t listID2,\r
- AliRsnCutSet *cutsEvent=0,\r
- AliRsnCutSet *cutsPair=0,\r
- TString suffix = "") {\r
-\r
- Printf("id1=%d id2=%d",listID1,listID2);\r
-\r
- // retrieve mass from PDG database\r
-\r
- // pdg rho = 133\r
- // pdg omega = 223\r
- // pdg eta = 221\r
- // pdg eta' = 331\r
- // pdg kshort = 310\r
-\r
- Int_t pdg = 113;\r
- TDatabasePDG *db = TDatabasePDG::Instance();\r
- TParticlePDG *part = db->GetParticle(pdg);\r
- Double_t mass = part->Mass();\r
- Bool_t valid;\r
- Int_t isRsnMini = AliRsnTrainManager::GetGlobalInt("IsRsnMini",valid);\r
-\r
- if (isRsnMini) {\r
- AddPairOutputMiniRho(task,isMC,isMixing,pType1,listID1,pType2,listID2,pdg,mass,cutsPair,suffix);\r
- } else {\r
- // this function is common and it is located in RsnConfig.C\r
- // as ouptup AddPairOutputPhi from this macro will be taken\r
- AddPair(task,isMC,isMixing,pType1,listID1,pType2,listID2,pdg,mass,cutsEvent,cutsPair,suffix);\r
- }\r
-}\r
-void AddPairOutputRho(AliRsnLoopPair *pair)\r
-{\r
- Bool_t valid;\r
- Int_t isFullOutput = AliRsnTrainManager::GetGlobalInt("RsnOutputFull",valid);\r
-\r
- // axes\r
- AliRsnValuePair *axisIM = new AliRsnValuePair("IM", AliRsnValuePair::kInvMass);\r
- AliRsnValuePair *axisPt = new AliRsnValuePair("PT", AliRsnValuePair::kPt);\r
- AliRsnValuePair *axisEta = new AliRsnValuePair("ETA", AliRsnValuePair::kEta);\r
- axisIM ->SetBins(180, 0.2, 2.0);\r
-// axisIM ->SetBins(1000, 0.9, 1.9);\r
- axisPt ->SetBins(100, 0.0, 12.0);\r
- axisEta ->SetBins(100, -2.0, 2.0);\r
- axisY ->SetBins(100,-2.0, 2.0);\r
-\r
- // output: 2D histogram of inv. mass vs. pt\r
- AliRsnListOutput *outPair = 0;\r
- if (!isFullOutput) {\r
- outPair = new AliRsnListOutput("pair", AliRsnListOutput::kHistoDefault);\r
- outPair->AddValue(axisIM);\r
- } else {\r
- outPair = new AliRsnListOutput("pair", AliRsnListOutput::kHistoSparse);\r
- outPair->AddValue(axisIM);\r
- outPair->AddValue(axisPt);\r
- outPair->AddValue(axisEta);\r
- outPair->AddValue(axisY);\r
- }\r
- // add outputs to loop\r
- pair->AddOutput(outPair);\r
-}\r
-\r
-void AddPairOutputMiniRho(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 = "") {\r
-\r
- Bool_t valid;\r
- Int_t isFullOutput = AliRsnTrainManager::GetGlobalInt("RsnOutputFull",valid);\r
- Int_t useMixing = AliRsnTrainManager::GetGlobalInt("IsMixing",valid);\r
- Int_t collisionType = AliRsnTrainManager::GetGlobalInt("IsCollisionType",valid);\r
-\r
- AliRsnMiniAnalysisTask *taskRsnMini = (AliRsnMiniAnalysisTask *)task;\r
-\r
- /* invariant mass */ Int_t imID = taskRsnMini->CreateValue(AliRsnMiniValue::kInvMass, kFALSE);\r
- /* IM resolution */ Int_t resID = taskRsnMini->CreateValue(AliRsnMiniValue::kInvMassDiff, kTRUE);\r
- /* transv. momentum */ Int_t ptID = taskRsnMini->CreateValue(AliRsnMiniValue::kPt, kFALSE);\r
- /* centrality */ Int_t centID = taskRsnMini->CreateValue(AliRsnMiniValue::kMult, kFALSE);\r
- /* eta */ Int_t etaID = taskRsnMini->CreateValue(AliRsnMiniValue::kEta, kFALSE);\r
- /* y */ Int_t yID = taskRsnMini->CreateValue(AliRsnMiniValue::kY, kFALSE);\r
-\r
-\r
- // use an array for more compact writing, which are different on mixing and charges\r
- // [0] = unlike\r
- // [1] = mixing\r
- // [2] = like ++\r
- // [3] = like --\r
- Bool_t use [5] = { 1 , useMixing , 1 , 1 , isMC };\r
- TString name [5] = {"Unlike", "Mixing", "LikePP", "LikeMM", "Trues"};\r
- TString comp [5] = {"PAIR" , "MIX" , "PAIR" , "PAIR" , "TRUE" };\r
- Char_t charge1 [5] = {'+' , '+' , '+' , '-' , '+' };\r
- Char_t charge2 [5] = {'-' , '-' , '+' , '-' , '-' };\r
-\r
- // common definitions\r
- TString outputType = "HIST";\r
- if (isFullOutput) outputType = "SPARSE";\r
-\r
- Int_t nIM = 1000; Double_t minIM = 0.2, maxIM = 1.2;\r
- Int_t nEta = 100; Double_t minEta = -2.0, maxEta = 2.0;\r
- Int_t nY = 100; Double_t minY = -2.0,maxY = 2.0;\r
-// Int_t nIM = 1000; Double_t minIM = 0.9, maxIM = 1.9;\r
- Int_t nPt = 100; Double_t minPt = 0.0, maxPt = 12.0;\r
- Int_t nCent = 100; Double_t minCent = 0.0, maxCent = 100.0;\r
- Int_t nRes = 200; Double_t maxRes = 0.01;\r
-\r
- // retrieve mass from PDG database\r
- Int_t pdg = 113;\r
- TDatabasePDG *db = TDatabasePDG::Instance();\r
- TParticlePDG *part = db->GetParticle(pdg);\r
-\r
-\r
- Printf(suffix.Data());\r
- // create standard outputs\r
- for (Int_t i = 0; i < 5; i++) {\r
- if (!use[i]) continue;\r
- // create output\r
- AliRsnMiniOutput *out = taskRsnMini->CreateOutput(Form("%s_%s", suffix.Data(),name[i].Data() ), outputType.Data(), comp[i].Data());\r
- // selection settings\r
- out->SetCutID(0, listID1);\r
- out->SetCutID(1, listID1);\r
- out->SetDaughter(0, AliRsnDaughter::kPion);\r
- out->SetDaughter(1, AliRsnDaughter::kPion);\r
- out->SetCharge(0, charge1[i]);\r
- out->SetCharge(1, charge2[i]);\r
- out->SetMotherPDG(pdg);\r
- out->SetMotherMass(part->Mass());\r
- // pair cuts\r
- if (cutsPair) out->SetPairCuts(cutsPair);\r
- // axis X: invmass\r
- out->AddAxis(imID, nIM, minIM, maxIM);\r
-\r
- if (isFullOutput) {\r
- // axis Y: transverse momentum\r
- out->AddAxis(ptID, nPt, minPt, maxPt);\r
- out->AddAxis(etaID, nEta, minEta, maxEta);\r
- out->AddAxis(yID, nY, minY, maxY);\r
-\r
- // axis Z: centrality\r
- if (collisionType==1) out->AddAxis(centID, nCent, minCent, maxCent);\r
- }\r
- }\r
-\r
- // add output for resolution\r
- if (isMC) {\r
- AliRsnMiniOutput *outRes = taskRsnMini->CreateOutput(Form("rho_Res%s", suffix.Data()), outputType.Data(), "TRUE");\r
- // selection settings\r
- outRes->SetCutID(0, listID1);\r
- outRes->SetCutID(1, listID1);\r
- outRes->SetDaughter(0, AliRsnDaughter::kPion);\r
- outRes->SetDaughter(1, AliRsnDaughter::kPion);\r
- outRes->SetCharge(0, '+');\r
- outRes->SetCharge(1, '-');\r
- outRes->SetMotherPDG(pdg);\r
- outRes->SetMotherMass(part->Mass());\r
- // pair cuts\r
- if (cutsPair) outRes->SetPairCuts(cutsPair);\r
- // axis X: resolution\r
- outRes->AddAxis(resID, nRes, -maxRes, maxRes);\r
-\r
- if (isFullOutput) {\r
- // axis Y: transverse momentum\r
- outRes->AddAxis(ptID, nPt, minPt, maxPt);\r
- outRes->AddAxis(etaID, nEta, minEta, maxEta);\r
- // axis Z: centrality\r
- if (collisionType==1) outRes->AddAxis(centID, nCent, minCent, maxCent);\r
- }\r
- }\r
-\r
- //\r
- // -- Create output for MC generated ------------------------------------------------------------\r
- //\r
-\r
- if (isMC) {\r
- // create ouput\r
- AliRsnMiniOutput *outMC = taskRsnMini->CreateOutput(Form("rho_MCGen%s", suffix.Data()), outputType.Data(), "MOTHER");\r
- // selection settings\r
- outMC->SetDaughter(0, AliRsnDaughter::kPion);\r
- outMC->SetDaughter(1, AliRsnDaughter::kPion);\r
- outMC->SetMotherPDG(pdg);\r
- outMC->SetMotherMass(part->Mass());\r
- // pair cuts\r
- if (cutsPair) outMC->SetPairCuts(cutsPair);\r
- // axis X: invmass\r
- outMC->AddAxis(imID, nIM, minIM, maxIM);\r
- if (isFullOutput) {\r
- // axis Y: transverse momentum\r
- outMC->AddAxis(ptID, nPt, minPt, maxPt);\r
- outMC->AddAxis(etaID, nEta, minEta, maxEta);\r
- outRes->AddAxis(yID, nY, minY, maxY);\r
- // axis Z: centrality\r
- if (collisionType==1) outMC->AddAxis(centID, nCent, minCent, maxCent);\r
- }\r
- }\r
-\r
-\r
-}\r
+#ifndef __CINT__
+#include <AliRsnValuePair.h>
+#endif
+
+void AddRsnPairsRho(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
+
+ // pdg rho = 133
+ // pdg omega = 223
+ // pdg eta = 221
+ // pdg eta' = 331
+ // pdg kshort = 310
+
+ Int_t pdg = 113;
+ TDatabasePDG *db = TDatabasePDG::Instance();
+ TParticlePDG *part = db->GetParticle(pdg);
+ Double_t mass = part->Mass();
+ Bool_t valid;
+ Int_t isRsnMini = AliRsnTrainManager::GetGlobalInt("IsRsnMini",valid);
+
+ if (isRsnMini) {
+ AddPairOutputMiniRho(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 AddPairOutputRho(AliRsnLoopPair *pair)
+{
+ Bool_t valid;
+ Int_t isFullOutput = AliRsnTrainManager::GetGlobalInt("RsnOutputFull",valid);
+
+ // axes
+ AliRsnValuePair *axisIM = new AliRsnValuePair("IM", AliRsnValuePair::kInvMass);
+ AliRsnValuePair *axisPt = new AliRsnValuePair("PT", AliRsnValuePair::kPt);
+ AliRsnValuePair *axisEta = new AliRsnValuePair("ETA", AliRsnValuePair::kEta);
+ axisIM ->SetBins(180, 0.2, 2.0);
+// axisIM ->SetBins(1000, 0.9, 1.9);
+ axisPt ->SetBins(100, 0.0, 12.0);
+ axisEta ->SetBins(100, -2.0, 2.0);
+ axisY ->SetBins(100,-2.0, 2.0);
+
+ // 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);
+ outPair->AddValue(axisEta);
+ outPair->AddValue(axisY);
+ }
+ // add outputs to loop
+ pair->AddOutput(outPair);
+}
+
+void AddPairOutputMiniRho(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 = AliRsnTrainManager::GetGlobalInt("RsnOutputFull",valid);
+ Int_t useMixing = AliRsnTrainManager::GetGlobalInt("IsMixing",valid);
+ Int_t collisionType = AliRsnTrainManager::GetGlobalInt("IsCollisionType",valid);
+
+ AliRsnMiniAnalysisTask *taskRsnMini = (AliRsnMiniAnalysisTask *)task;
+
+ /* 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);
+ /* y */ 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 = 1000; Double_t minIM = 0.2, maxIM = 1.2;
+ Int_t nEta = 100; Double_t minEta = -2.0, maxEta = 2.0;
+ Int_t nY = 100; Double_t minY = -2.0,maxY = 2.0;
+// Int_t nIM = 1000; Double_t minIM = 0.9, maxIM = 1.9;
+ Int_t nPt = 100; 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 = 113;
+ 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::kPion);
+ out->SetDaughter(1, AliRsnDaughter::kPion);
+ 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);
+ out->AddAxis(etaID, nEta, minEta, maxEta);
+ out->AddAxis(yID, nY, minY, maxY);
+
+ // axis Z: centrality
+ if (collisionType==1) out->AddAxis(centID, nCent, minCent, maxCent);
+ }
+ }
+
+ // add output for resolution
+ if (isMC) {
+ AliRsnMiniOutput *outRes = taskRsnMini->CreateOutput(Form("rho_Res%s", suffix.Data()), outputType.Data(), "TRUE");
+ // selection settings
+ outRes->SetCutID(0, listID1);
+ outRes->SetCutID(1, listID1);
+ outRes->SetDaughter(0, AliRsnDaughter::kPion);
+ outRes->SetDaughter(1, AliRsnDaughter::kPion);
+ 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);
+ outRes->AddAxis(etaID, nEta, minEta, maxEta);
+ // axis Z: centrality
+ if (collisionType==1) outRes->AddAxis(centID, nCent, minCent, maxCent);
+ }
+ }
+
+ //
+ // -- Create output for MC generated ------------------------------------------------------------
+ //
+
+ if (isMC) {
+ // create ouput
+ AliRsnMiniOutput *outMC = taskRsnMini->CreateOutput(Form("rho_MCGen%s", suffix.Data()), outputType.Data(), "MOTHER");
+ // selection settings
+ outMC->SetDaughter(0, AliRsnDaughter::kPion);
+ outMC->SetDaughter(1, AliRsnDaughter::kPion);
+ 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);
+ outMC->AddAxis(etaID, nEta, minEta, maxEta);
+ outRes->AddAxis(yID, nY, minY, maxY);
+ // axis Z: centrality
+ if (collisionType==1) outMC->AddAxis(centID, nCent, minCent, maxCent);
+ }
+ }
+
+
+}