////////////////////////////////////////////////////////// // This class has been automatically generated on // Thu May 16 17:03:31 2019 by ROOT version 6.14/04 // from TTree HASCO/4-vectors + variables required for scaling factors // found on file: Data.root ////////////////////////////////////////////////////////// #ifndef ReadData_h #define ReadData_h #include #include #include // Header file for the classes stored in the TTree if any. class ReadData { public : TTree *fChain; //!pointer to the analyzed TTree or TChain Int_t fCurrent; //!current Tree number in a TChain // Fixed size dimensions of array or collections stored in the TTree if any. // Declaration of leaf types Int_t runNumber; Int_t eventNumber; Int_t channelNumber; Float_t mcWeight; Int_t pvxp_n; Float_t vxp_z; Float_t scaleFactor_PILEUP; Float_t scaleFactor_ELE; Float_t scaleFactor_MUON; Float_t scaleFactor_BTAG; Float_t scaleFactor_TRIGGER; Float_t scaleFactor_JVFSF; Float_t scaleFactor_ZVERTEX; Bool_t trigE; Bool_t trigM; Bool_t passGRL; Bool_t hasGoodVertex; UInt_t lep_n; Bool_t lep_truthMatched[5]; //[lep_n] UShort_t lep_trigMatched[5]; //[lep_n] Float_t lep_pt[5]; //[lep_n] Float_t lep_eta[5]; //[lep_n] Float_t lep_phi[5]; //[lep_n] Float_t lep_E[5]; //[lep_n] Float_t lep_z0[5]; //[lep_n] Float_t lep_charge[5]; //[lep_n] UInt_t lep_type[5]; //[lep_n] UInt_t lep_flag[5]; //[lep_n] Float_t lep_ptcone30[5]; //[lep_n] Float_t lep_etcone20[5]; //[lep_n] Float_t lep_trackd0pvunbiased[5]; //[lep_n] Float_t lep_tracksigd0pvunbiased[5]; //[lep_n] Float_t met_et; Float_t met_phi; UInt_t jet_n; UInt_t alljet_n; Float_t jet_pt[13]; //[alljet_n] Float_t jet_eta[13]; //[alljet_n] Float_t jet_phi[13]; //[alljet_n] Float_t jet_E[13]; //[alljet_n] Float_t jet_m[13]; //[alljet_n] Float_t jet_jvf[13]; //[alljet_n] Int_t jet_trueflav[13]; //[alljet_n] Int_t jet_truthMatched[13]; //[alljet_n] Float_t jet_SV0[13]; //[alljet_n] Float_t jet_MV1[13]; //[alljet_n] // List of branches TBranch *b_runNumber; //! TBranch *b_eventNumber; //! TBranch *b_channelNumber; //! TBranch *b_mcWeight; //! TBranch *b_pvxp_n; //! TBranch *b_vxp_z; //! TBranch *b_scaleFactor_PILEUP; //! TBranch *b_scaleFactor_ELE; //! TBranch *b_scaleFactor_MUON; //! TBranch *b_scaleFactor_BTAG; //! TBranch *b_scaleFactor_TRIGGER; //! TBranch *b_scaleFactor_JVFSF; //! TBranch *b_scaleFactor_ZVERTEX; //! TBranch *b_trigE; //! TBranch *b_trigM; //! TBranch *b_passGRL; //! TBranch *b_hasGoodVertex; //! TBranch *b_lep_n; //! TBranch *b_lep_truthMatched; //! TBranch *b_lep_trigMatched; //! TBranch *b_lep_pt; //! TBranch *b_lep_eta; //! TBranch *b_lep_phi; //! TBranch *b_lep_E; //! TBranch *b_lep_z0; //! TBranch *b_lep_charge; //! TBranch *b_lep_type; //! TBranch *b_lep_flag; //! TBranch *b_lep_ptcone30; //! TBranch *b_lep_etcone20; //! TBranch *b_lep_trackd0pvunbiased; //! TBranch *b_lep_tracksigd0pvunbiased; //! TBranch *b_met_et; //! TBranch *b_met_phi; //! TBranch *b_jet_n; //! TBranch *b_alljet_n; //! TBranch *b_jet_pt; //! TBranch *b_jet_eta; //! TBranch *b_jet_phi; //! TBranch *b_jet_E; //! TBranch *b_jet_m; //! TBranch *b_jet_jvf; //! TBranch *b_jet_trueflav; //! TBranch *b_jet_truthMatched; //! TBranch *b_jet_SV0; //! TBranch *b_jet_MV1; //! ReadData(TTree *tree=0); virtual ~ReadData(); virtual Int_t Cut(Long64_t entry); virtual Int_t GetEntry(Long64_t entry); virtual Long64_t LoadTree(Long64_t entry); virtual void Init(TTree *tree); virtual void Loop(); virtual Bool_t Notify(); virtual void Show(Long64_t entry = -1); }; #endif #ifdef ReadData_cxx ReadData::ReadData(TTree *tree) : fChain(0) { // if parameter tree is not specified (or zero), connect the file // used to generate this class and read the Tree. if (tree == 0) { TFile *f = (TFile*)gROOT->GetListOfFiles()->FindObject("Data.root"); if (!f || !f->IsOpen()) { f = new TFile("Data.root"); } f->GetObject("HASCO",tree); } Init(tree); } ReadData::~ReadData() { if (!fChain) return; delete fChain->GetCurrentFile(); } Int_t ReadData::GetEntry(Long64_t entry) { // Read contents of entry. if (!fChain) return 0; return fChain->GetEntry(entry); } Long64_t ReadData::LoadTree(Long64_t entry) { // Set the environment to read one entry if (!fChain) return -5; Long64_t centry = fChain->LoadTree(entry); if (centry < 0) return centry; if (fChain->GetTreeNumber() != fCurrent) { fCurrent = fChain->GetTreeNumber(); Notify(); } return centry; } void ReadData::Init(TTree *tree) { // The Init() function is called when the selector needs to initialize // a new tree or chain. Typically here the branch addresses and branch // pointers of the tree will be set. // It is normally not necessary to make changes to the generated // code, but the routine can be extended by the user if needed. // Init() will be called many times when running on PROOF // (once per file to be processed). // Set branch addresses and branch pointers if (!tree) return; fChain = tree; fCurrent = -1; fChain->SetMakeClass(1); fChain->SetBranchAddress("runNumber", &runNumber, &b_runNumber); fChain->SetBranchAddress("eventNumber", &eventNumber, &b_eventNumber); fChain->SetBranchAddress("channelNumber", &channelNumber, &b_channelNumber); fChain->SetBranchAddress("mcWeight", &mcWeight, &b_mcWeight); fChain->SetBranchAddress("pvxp_n", &pvxp_n, &b_pvxp_n); fChain->SetBranchAddress("vxp_z", &vxp_z, &b_vxp_z); fChain->SetBranchAddress("scaleFactor_PILEUP", &scaleFactor_PILEUP, &b_scaleFactor_PILEUP); fChain->SetBranchAddress("scaleFactor_ELE", &scaleFactor_ELE, &b_scaleFactor_ELE); fChain->SetBranchAddress("scaleFactor_MUON", &scaleFactor_MUON, &b_scaleFactor_MUON); fChain->SetBranchAddress("scaleFactor_BTAG", &scaleFactor_BTAG, &b_scaleFactor_BTAG); fChain->SetBranchAddress("scaleFactor_TRIGGER", &scaleFactor_TRIGGER, &b_scaleFactor_TRIGGER); fChain->SetBranchAddress("scaleFactor_JVFSF", &scaleFactor_JVFSF, &b_scaleFactor_JVFSF); fChain->SetBranchAddress("scaleFactor_ZVERTEX", &scaleFactor_ZVERTEX, &b_scaleFactor_ZVERTEX); fChain->SetBranchAddress("trigE", &trigE, &b_trigE); fChain->SetBranchAddress("trigM", &trigM, &b_trigM); fChain->SetBranchAddress("passGRL", &passGRL, &b_passGRL); fChain->SetBranchAddress("hasGoodVertex", &hasGoodVertex, &b_hasGoodVertex); fChain->SetBranchAddress("lep_n", &lep_n, &b_lep_n); fChain->SetBranchAddress("lep_truthMatched", lep_truthMatched, &b_lep_truthMatched); fChain->SetBranchAddress("lep_trigMatched", lep_trigMatched, &b_lep_trigMatched); fChain->SetBranchAddress("lep_pt", lep_pt, &b_lep_pt); fChain->SetBranchAddress("lep_eta", lep_eta, &b_lep_eta); fChain->SetBranchAddress("lep_phi", lep_phi, &b_lep_phi); fChain->SetBranchAddress("lep_E", lep_E, &b_lep_E); fChain->SetBranchAddress("lep_z0", lep_z0, &b_lep_z0); fChain->SetBranchAddress("lep_charge", lep_charge, &b_lep_charge); fChain->SetBranchAddress("lep_type", lep_type, &b_lep_type); fChain->SetBranchAddress("lep_flag", lep_flag, &b_lep_flag); fChain->SetBranchAddress("lep_ptcone30", lep_ptcone30, &b_lep_ptcone30); fChain->SetBranchAddress("lep_etcone20", lep_etcone20, &b_lep_etcone20); fChain->SetBranchAddress("lep_trackd0pvunbiased", lep_trackd0pvunbiased, &b_lep_trackd0pvunbiased); fChain->SetBranchAddress("lep_tracksigd0pvunbiased", lep_tracksigd0pvunbiased, &b_lep_tracksigd0pvunbiased); fChain->SetBranchAddress("met_et", &met_et, &b_met_et); fChain->SetBranchAddress("met_phi", &met_phi, &b_met_phi); fChain->SetBranchAddress("jet_n", &jet_n, &b_jet_n); fChain->SetBranchAddress("alljet_n", &alljet_n, &b_alljet_n); fChain->SetBranchAddress("jet_pt", jet_pt, &b_jet_pt); fChain->SetBranchAddress("jet_eta", jet_eta, &b_jet_eta); fChain->SetBranchAddress("jet_phi", jet_phi, &b_jet_phi); fChain->SetBranchAddress("jet_E", jet_E, &b_jet_E); fChain->SetBranchAddress("jet_m", jet_m, &b_jet_m); fChain->SetBranchAddress("jet_jvf", jet_jvf, &b_jet_jvf); fChain->SetBranchAddress("jet_trueflav", jet_trueflav, &b_jet_trueflav); fChain->SetBranchAddress("jet_truthMatched", jet_truthMatched, &b_jet_truthMatched); fChain->SetBranchAddress("jet_SV0", jet_SV0, &b_jet_SV0); fChain->SetBranchAddress("jet_MV1", jet_MV1, &b_jet_MV1); Notify(); } Bool_t ReadData::Notify() { // The Notify() function is called when a new file is opened. This // can be either for a new TTree in a TChain or when when a new TTree // is started when using PROOF. It is normally not necessary to make changes // to the generated code, but the routine can be extended by the // user if needed. The return value is currently not used. return kTRUE; } void ReadData::Show(Long64_t entry) { // Print contents of entry. // If entry is not specified, print current entry if (!fChain) return; fChain->Show(entry); } Int_t ReadData::Cut(Long64_t entry) { // This function may be called from Loop. // returns 1 if entry is accepted. // returns -1 otherwise. return 1; } #endif // #ifdef ReadData_cxx