Merge branch 'feature-movesplit'

[u/mrichter/AliRoot.git] / PWGGA / GammaConv / macros / AddTask_GammaCalo_pPb.C

void AddTask_GammaCalo_pPb(  
                                                        Int_t trainConfig = 1,  //change different set of cuts
                                                        Bool_t isMC   = kFALSE, //run MC
                                                        Int_t enableQAMesonTask = 0, //enable QA in AliAnalysisTaskGammaConvV1
                                                        Int_t enableQAClusterTask = 0, // enable additional QA task
                                                        TString fileNameInputForWeighting = "MCSpectraInput.root", // path to file for weigting input
                                                        Int_t doWeightingPart = 0,  //enable Weighting
                                                        TString generatorName = "DPMJET",
                            TString cutnumberAODBranch = "8000000060084000001500000", // cutnumber for AOD branch
                            Bool_t isUsingTHnSparse = kTRUE //enable or disable usage of THnSparses for background estimation
                                                   ) {

        // ================= Load Librariers =================================
        gSystem->Load("libCore");  
        gSystem->Load("libTree");
        gSystem->Load("libGeom");
        gSystem->Load("libVMC");
        gSystem->Load("libPhysics");
        gSystem->Load("libMinuit");
        gSystem->Load("libSTEERBase");
        gSystem->Load("libESD");
        gSystem->Load("libAOD");
        gSystem->Load("libANALYSIS");
        gSystem->Load("libANALYSISalice");  
        gSystem->Load("libCDB");
        gSystem->Load("libSTEER");
        gSystem->Load("libSTEERBase");
        gSystem->Load("libTender");
        gSystem->Load("libTenderSupplies");
        gSystem->Load("libPWGflowBase");
        gSystem->Load("libPWGflowTasks");
        gSystem->Load("libPWGGAGammaConv");

        Int_t isHeavyIon = 2;
        
        // ================== GetAnalysisManager ===============================
        AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
        if (!mgr) {
                Error(Form("AddTask_GammaConvV1_%i",trainConfig), "No analysis manager found.");
                return ;
        }

        // ================== GetInputEventHandler =============================
        AliVEventHandler *inputHandler=mgr->GetInputEventHandler();
        
        //========= Add PID Reponse to ANALYSIS manager ====
        if(!(AliPIDResponse*)mgr->GetTask("PIDResponseTask")){
                gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPIDResponse.C");
                AddTaskPIDResponse(isMC);
        }
        
        Printf("here \n");
        
        //=========  Set Cutnumber for V0Reader ================================
        TString cutnumberPhoton = "060000084001001500000000";
        TString cutnumberEvent = "8000000";
        Bool_t doEtaShift = kFALSE;
        AliAnalysisDataContainer *cinput = mgr->GetCommonInputContainer();

        //========= Add V0 Reader to  ANALYSIS manager if not yet existent =====
        if( !(AliV0ReaderV1*)mgr->GetTask("V0ReaderV1") ){
                AliV0ReaderV1 *fV0ReaderV1 = new AliV0ReaderV1("V0ReaderV1");
                
                fV0ReaderV1->SetUseOwnXYZCalculation(kTRUE);
                fV0ReaderV1->SetCreateAODs(kFALSE);// AOD Output
                fV0ReaderV1->SetUseAODConversionPhoton(kTRUE);

                if (!mgr) {
                        Error("AddTask_V0ReaderV1", "No analysis manager found.");
                        return;
                }
                AliConvEventCuts *fEventCuts=NULL;
                if(cutnumberEvent!=""){
                        fEventCuts= new AliConvEventCuts(cutnumberEvent.Data(),cutnumberEvent.Data());
                        fEventCuts->SetPreSelectionCutFlag(kTRUE);
                        if(fEventCuts->InitializeCutsFromCutString(cutnumberEvent.Data())){
                                fEventCuts->DoEtaShift(doEtaShift);
                                fV0ReaderV1->SetEventCuts(fEventCuts);
                                fEventCuts->SetFillCutHistograms("",kTRUE);
                        }
                }
                // Set AnalysisCut Number
                AliConversionPhotonCuts *fCuts=NULL;
                if(cutnumberPhoton!=""){
                        fCuts= new AliConversionPhotonCuts(cutnumberPhoton.Data(),cutnumberPhoton.Data());
                        fCuts->SetPreSelectionCutFlag(kTRUE);
                        fCuts->SetIsHeavyIon(isHeavyIon);
                        if(fCuts->InitializeCutsFromCutString(cutnumberPhoton.Data())){
                                fV0ReaderV1->SetConversionCuts(fCuts);
                                fCuts->SetFillCutHistograms("",kTRUE);
                        }
                }
                if(inputHandler->IsA()==AliAODInputHandler::Class()){
                // AOD mode
                        fV0ReaderV1->SetDeltaAODBranchName(Form("GammaConv_%s_gamma",cutnumberAODBranch.Data()));
                }
                fV0ReaderV1->Init();

                AliLog::SetGlobalLogLevel(AliLog::kFatal);

                //connect input V0Reader
                mgr->AddTask(fV0ReaderV1);
                mgr->ConnectInput(fV0ReaderV1,0,cinput);
        }

        //================================================
        //========= Add task to the ANALYSIS manager =====
        //================================================
        AliAnalysisTaskGammaCalo *task=NULL;
        task= new AliAnalysisTaskGammaCalo(Form("GammaCalo_%i",trainConfig));
        task->SetIsHeavyIon(isHeavyIon);
        task->SetIsMC(isMC);
        // Cut Numbers to use in Analysis
        Int_t numberOfCuts = 2;
        if (trainConfig == 2 || trainConfig == 4 ){ numberOfCuts = 6;}
        if (trainConfig == 5 || trainConfig == 6 ){ numberOfCuts = 5;}
        if (trainConfig == 7 || trainConfig == 8 || trainConfig == 32 || trainConfig == 33){ numberOfCuts = 1;}
        
        TString *eventCutArray = new TString[numberOfCuts];
        TString *clusterCutArray = new TString[numberOfCuts];
        TString *mesonCutArray = new TString[numberOfCuts];

        // cluster cuts
        // 0 "ClusterType",  1 "EtaMin", 2 "EtaMax", 3 "PhiMin", 4 "PhiMax", 5 "DistanceToBadChannel", 6 "Timing", 7 "TrackMatching", 8 "ExoticCell",
        // 9 "MinEnergy", 10 "MinNCells", 11 "MinM02", 12 "MaxM02", 13 "MinM20", 14 "MaxM20", 15 "MaximumDispersion", 16 "NLM"
        
        //************************************************ EMCAL clusters *************************************************
        if (trainConfig == 1){ // min energy = 0.3 GeV/c
                eventCutArray[ 0] = "8000001"; clusterCutArray[0] = "10000040022030000"; mesonCutArray[0] = "01631031000000"; //standart cut, kINT7 // EMCAL clusters
                eventCutArray[ 1] = "8005201"; clusterCutArray[1] = "10000040022030000"; mesonCutArray[1] = "01631031000000"; //standard cut, kEMC7 // EMCAL clusters
        } else if (trainConfig == 2){  // min energy = 0.3 GeV/c
                eventCutArray[ 0] = "8008101"; clusterCutArray[0] = "10000040022030000"; mesonCutArray[0] = "01631031000000"; //standart cut, kEMCEGA based on INT7 // EMCAL clusters
                eventCutArray[ 1] = "8008301"; clusterCutArray[1] = "10000040022030000"; mesonCutArray[1] = "01631031000000"; //standard cut, kEMCEG1 based on INT7 // EMCAL clusters
                eventCutArray[ 2] = "8008501"; clusterCutArray[2] = "10000040022030000"; mesonCutArray[2] = "01631031000000"; //standard cut, kEMCEG2 based on INT7 // EMCAL clusters
                eventCutArray[ 3] = "8009101"; clusterCutArray[3] = "10000040022030000"; mesonCutArray[3] = "01631031000000"; //standard cut, kEMCEJE based on INT7 // EMCAL clusters
                eventCutArray[ 4] = "8009301"; clusterCutArray[4] = "10000040022030000"; mesonCutArray[4] = "01631031000000"; //standard cut, kEMCEJ1 based on INT7 // EMCAL clusters
                eventCutArray[ 5] = "8009501"; clusterCutArray[5] = "10000040022030000"; mesonCutArray[5] = "01631031000000"; //standard cut, kEMCEG2 based on INT7 // EMCAL clusters
        } else if (trainConfig == 3){ // min energy = 0.4 GeV/c
                eventCutArray[ 0] = "8000001"; clusterCutArray[0] = "10000040032030000"; mesonCutArray[0] = "01631031000000"; //standart cut, kINT7 // EMCAL clusters
                eventCutArray[ 1] = "8005201"; clusterCutArray[1] = "10000040032030000"; mesonCutArray[1] = "01631031000000"; //standard cut, kEMC7 // EMCAL clusters   
        } else if (trainConfig == 4){ // min energy = 0.4 GeV/c
                eventCutArray[ 0] = "8008101"; clusterCutArray[0] = "10000040032030000"; mesonCutArray[0] = "01631031000000"; //standart cut, kEMCEGA based on INT7 // EMCAL clusters
                eventCutArray[ 1] = "8008301"; clusterCutArray[1] = "10000040032030000"; mesonCutArray[1] = "01631031000000"; //standard cut, kEMCEG1 based on INT7 // EMCAL clusters
                eventCutArray[ 2] = "8008501"; clusterCutArray[2] = "10000040032030000"; mesonCutArray[2] = "01631031000000"; //standard cut, kEMCEG2 based on INT7 // EMCAL clusters
                eventCutArray[ 3] = "8009101"; clusterCutArray[3] = "10000040032030000"; mesonCutArray[3] = "01631031000000"; //standard cut, kEMCEJE based on INT7 // EMCAL clusters
                eventCutArray[ 4] = "8009301"; clusterCutArray[4] = "10000040032030000"; mesonCutArray[4] = "01631031000000"; //standard cut, kEMCEJ1 based on INT7 // EMCAL clusters
                eventCutArray[ 5] = "8009501"; clusterCutArray[5] = "10000040032030000"; mesonCutArray[5] = "01631031000000"; //standard cut, kEMCEG2 based on INT7 // EMCAL clusters           
        } else if (trainConfig == 5){ //EMCAL minEnergy variation
                eventCutArray[ 0] = "8000001"; clusterCutArray[0] = "10000040012030000"; mesonCutArray[0] = "01631031000000"; //0.2 GeV/c
                eventCutArray[ 1] = "8000001"; clusterCutArray[1] = "10000040022030000"; mesonCutArray[1] = "01631031000000"; //0.3 GeV/c
                eventCutArray[ 2] = "8000001"; clusterCutArray[2] = "10000040032030000"; mesonCutArray[2] = "01631031000000"; //0.4 GeV/c default
                eventCutArray[ 3] = "8000001"; clusterCutArray[3] = "10000040042030000"; mesonCutArray[3] = "01631031000000"; //0.5 GeV/c
                eventCutArray[ 4] = "8000001"; clusterCutArray[4] = "10000040052030000"; mesonCutArray[4] = "01631031000000"; //0.6 GeV/c
        } else if (trainConfig == 6){ //EMCAL minNCells variation
                eventCutArray[ 0] = "8000001"; clusterCutArray[0] = "10000040031030000"; mesonCutArray[0] = "01631031000000"; //n cells >= 1
                eventCutArray[ 1] = "8000001"; clusterCutArray[1] = "10000040033030000"; mesonCutArray[1] = "01631031000000"; //n cells >= 3
                eventCutArray[ 2] = "8000001"; clusterCutArray[2] = "10000040032000000"; mesonCutArray[2] = "01631031000000"; //no M02 cut
                eventCutArray[ 3] = "8000001"; clusterCutArray[3] = "10021040032030000"; mesonCutArray[3] = "01631031000000"; //only modules with TRD infront
                eventCutArray[ 4] = "8000001"; clusterCutArray[4] = "10013040032030000"; mesonCutArray[4] = "01631031000000"; //no modules with TRD infront             
        } else if (trainConfig == 7){ // Validation EMCAL
                eventCutArray[ 0] = "8000001"; clusterCutArray[0] = "10000040032000000"; mesonCutArray[0] = "01631031000000";   
        } else if (trainConfig == 8){ // Validation EMCAL, only added signals
                eventCutArray[ 0] = "8000002"; clusterCutArray[0] = "10000040032000000"; mesonCutArray[0] = "01631031000000";   
                
        //************************************************ PHOS clusters *************************************************
        } else if (trainConfig == 31) { // min energy = 0.3 GeV/c
                eventCutArray[ 0] = "8000001"; clusterCutArray[0] = "20000040033200000"; mesonCutArray[0] = "01631031000000"; //standart cut, kINT7 // PHOS clusters
                eventCutArray[ 1] = "8006201"; clusterCutArray[1] = "20000040033200000"; mesonCutArray[1] = "01631031000000"; //standard cut, kPHI7     // PHOS clusters        
        } else if (trainConfig == 32){ // Validation PHOS
                eventCutArray[ 0] = "8000001"; clusterCutArray[0] = "20000040053200000"; mesonCutArray[0] = "01631031000000";   
        } else if (trainConfig == 33){ // Validation PHOS, only added signals
                eventCutArray[ 0] = "8000002"; clusterCutArray[0] = "20000040053200000"; mesonCutArray[0] = "01631031000000";   

                
        } else {
                Error(Form("GammaCalo_%i",trainConfig), "wrong trainConfig variable no cuts have been specified for the configuration");
                return;
        }

        TList *EventCutList = new TList();
        TList *ClusterCutList = new TList();
        TList *MesonCutList = new TList();

        TList *HeaderList = new TList();
        if (doWeightingPart==1) {
                TObjString *Header1 = new TObjString("pi0_1");
                HeaderList->Add(Header1);
        }
        if (doWeightingPart==2){
                TObjString *Header3 = new TObjString("eta_2");
                HeaderList->Add(Header3);
        }
        if (doWeightingPart==3) {
                TObjString *Header1 = new TObjString("pi0_1");
                HeaderList->Add(Header1);
                TObjString *Header3 = new TObjString("eta_2");
                HeaderList->Add(Header3);
        }

        EventCutList->SetOwner(kTRUE);
        AliConvEventCuts **analysisEventCuts = new AliConvEventCuts*[numberOfCuts];
        ClusterCutList->SetOwner(kTRUE);
        AliCaloPhotonCuts **analysisClusterCuts = new AliCaloPhotonCuts*[numberOfCuts];
        MesonCutList->SetOwner(kTRUE);
        AliConversionMesonCuts **analysisMesonCuts = new AliConversionMesonCuts*[numberOfCuts];

        for(Int_t i = 0; i<numberOfCuts; i++){
                analysisEventCuts[i] = new AliConvEventCuts();   
                analysisEventCuts[i]->InitializeCutsFromCutString(eventCutArray[i].Data());
                EventCutList->Add(analysisEventCuts[i]);
                analysisEventCuts[i]->SetFillCutHistograms("",kFALSE);
                        
                analysisClusterCuts[i] = new AliCaloPhotonCuts();
                analysisClusterCuts[i]->InitializeCutsFromCutString(clusterCutArray[i].Data());
                ClusterCutList->Add(analysisClusterCuts[i]);
                analysisClusterCuts[i]->SetFillCutHistograms("");
                
                analysisMesonCuts[i] = new AliConversionMesonCuts();
                analysisMesonCuts[i]->InitializeCutsFromCutString(mesonCutArray[i].Data());
                MesonCutList->Add(analysisMesonCuts[i]);
                analysisMesonCuts[i]->SetFillCutHistograms("");
                analysisEventCuts[i]->SetAcceptedHeader(HeaderList);
        }
        task->SetEventCutList(numberOfCuts,EventCutList);
        task->SetCaloCutList(numberOfCuts,ClusterCutList);
        task->SetMesonCutList(numberOfCuts,MesonCutList);
        task->SetDoMesonAnalysis(kTRUE);
        task->SetDoMesonQA(enableQAMesonTask); //Attention new switch for Pi0 QA
        task->SetDoClusterQA(enableQAClusterTask);  //Attention new switch small for Cluster QA
    task->SetUseTHnSparse(isUsingTHnSparse);

        //connect containers
        AliAnalysisDataContainer *coutput =
                mgr->CreateContainer(Form("GammaCalo_%i",trainConfig), TList::Class(),
                                                        AliAnalysisManager::kOutputContainer,Form("GammaCalo_%i.root",trainConfig));

        mgr->AddTask(task);
        mgr->ConnectInput(task,0,cinput);
        mgr->ConnectOutput(task,1,coutput);

        return;

}