////////////////////////////////////////////////////////// // This class has been automatically generated on // Mon Oct 3 10:53:30 2016 by ROOT version 5.34/30 // from TTree AnalysisxTree/Go4FileStore // found on file: clb01_0001.root ////////////////////////////////////////////////////////// #ifndef AnalysisxTree_h #define AnalysisxTree_h #include #include #include // Header file for the classes stored in the TTree if any. // Fixed size dimensions of array or collections stored in the TTree if any. const Int_t kMaxLiEvent = 1; class AnalysisxTree { public : TTree *fChain; //!pointer to the analyzed TTree or TChain Int_t fCurrent; //!current Tree number in a TChain // Declaration of leaf types //TLiEvent *LiEvent_; //TLiEvent *LiEvent_TGo4EventElement; UShort_t LiEvent_SQ11[16]; UShort_t LiEvent_SQ12[32]; UShort_t LiEvent_SQ13[16]; UShort_t LiEvent_SQ21[16]; UShort_t LiEvent_SQ22[32]; UShort_t LiEvent_SQ23[16]; UShort_t LiEvent_ANR[16]; UShort_t LiEvent_ANS[16]; UShort_t LiEvent_ANC[32]; UShort_t LiEvent_TSQ11[16]; UShort_t LiEvent_TSQ12[32]; UShort_t LiEvent_TSQ21[16]; UShort_t LiEvent_TSQ22[32]; UShort_t LiEvent_TANR[16]; UShort_t LiEvent_TANS[16]; UShort_t LiEvent_QDC[16]; UShort_t LiEvent_TDC[16]; UShort_t LiEvent_SCR[16]; UShort_t LiEvent_nx1; UShort_t LiEvent_ny1; UShort_t LiEvent_nx2; UShort_t LiEvent_ny2; UShort_t LiEvent_x1[32]; UShort_t LiEvent_y1[32]; UShort_t LiEvent_x2[32]; UShort_t LiEvent_y2[32]; UShort_t LiEvent_adc1[16]; UShort_t LiEvent_adc2[16]; UShort_t LiEvent_adc3[16]; UShort_t LiEvent_adc4[16]; UShort_t LiEvent_tdc1[32]; UShort_t LiEvent_tdc2[32]; UInt_t LiEvent_time; Int_t LiEvent_nevent; Int_t LiEvent_trigger; Int_t LiEvent_subevents; Int_t LiEvent_evsize; // List of branches TBranch *b_LiEvent_SQ11; //! TBranch *b_LiEvent_SQ12; //! TBranch *b_LiEvent_SQ13; //! TBranch *b_LiEvent_SQ21; //! TBranch *b_LiEvent_SQ22; //! TBranch *b_LiEvent_SQ23; //! TBranch *b_LiEvent_ANR; //! TBranch *b_LiEvent_ANS; //! TBranch *b_LiEvent_ANC; //! TBranch *b_LiEvent_TSQ11; //! TBranch *b_LiEvent_TSQ12; //! TBranch *b_LiEvent_TSQ21; //! TBranch *b_LiEvent_TSQ22; //! TBranch *b_LiEvent_TANR; //! TBranch *b_LiEvent_TANS; //! TBranch *b_LiEvent_QDC; //! TBranch *b_LiEvent_TDC; //! TBranch *b_LiEvent_SCR; //! TBranch *b_LiEvent_nx1; //! TBranch *b_LiEvent_ny1; //! TBranch *b_LiEvent_nx2; //! TBranch *b_LiEvent_ny2; //! TBranch *b_LiEvent_x1; //! TBranch *b_LiEvent_y1; //! TBranch *b_LiEvent_x2; //! TBranch *b_LiEvent_y2; //! TBranch *b_LiEvent_adc1; //! TBranch *b_LiEvent_adc2; //! TBranch *b_LiEvent_adc3; //! TBranch *b_LiEvent_adc4; //! TBranch *b_LiEvent_tdc1; //! TBranch *b_LiEvent_tdc2; //! TBranch *b_LiEvent_time; //! TBranch *b_LiEvent_nevent; //! TBranch *b_LiEvent_trigger; //! TBranch *b_LiEvent_subevents; //! TBranch *b_LiEvent_evsize; //! AnalysisxTree(TTree *tree=0); virtual ~AnalysisxTree(); 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 AnalysisxTree_cxx AnalysisxTree::AnalysisxTree(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("clb01_0001.root"); if (!f || !f->IsOpen()) { f = new TFile("clb01_0001.root"); } f->GetObject("AnalysisxTree",tree); } Init(tree); } AnalysisxTree::~AnalysisxTree() { if (!fChain) return; delete fChain->GetCurrentFile(); } Int_t AnalysisxTree::GetEntry(Long64_t entry) { // Read contents of entry. if (!fChain) return 0; return fChain->GetEntry(entry); } Long64_t AnalysisxTree::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 AnalysisxTree::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("LiEvent.SQ11[16]", LiEvent_SQ11, &b_LiEvent_SQ11); fChain->SetBranchAddress("LiEvent.SQ12[32]", LiEvent_SQ12, &b_LiEvent_SQ12); fChain->SetBranchAddress("LiEvent.SQ13[16]", LiEvent_SQ13, &b_LiEvent_SQ13); fChain->SetBranchAddress("LiEvent.SQ21[16]", LiEvent_SQ21, &b_LiEvent_SQ21); fChain->SetBranchAddress("LiEvent.SQ22[32]", LiEvent_SQ22, &b_LiEvent_SQ22); fChain->SetBranchAddress("LiEvent.SQ23[16]", LiEvent_SQ23, &b_LiEvent_SQ23); fChain->SetBranchAddress("LiEvent.ANR[16]", LiEvent_ANR, &b_LiEvent_ANR); fChain->SetBranchAddress("LiEvent.ANS[16]", LiEvent_ANS, &b_LiEvent_ANS); fChain->SetBranchAddress("LiEvent.ANC[32]", LiEvent_ANC, &b_LiEvent_ANC); fChain->SetBranchAddress("LiEvent.TSQ11[16]", LiEvent_TSQ11, &b_LiEvent_TSQ11); fChain->SetBranchAddress("LiEvent.TSQ12[32]", LiEvent_TSQ12, &b_LiEvent_TSQ12); fChain->SetBranchAddress("LiEvent.TSQ21[16]", LiEvent_TSQ21, &b_LiEvent_TSQ21); fChain->SetBranchAddress("LiEvent.TSQ22[32]", LiEvent_TSQ22, &b_LiEvent_TSQ22); fChain->SetBranchAddress("LiEvent.TANR[16]", LiEvent_TANR, &b_LiEvent_TANR); fChain->SetBranchAddress("LiEvent.TANS[16]", LiEvent_TANS, &b_LiEvent_TANS); fChain->SetBranchAddress("LiEvent.QDC[16]", LiEvent_QDC, &b_LiEvent_QDC); fChain->SetBranchAddress("LiEvent.TDC[16]", LiEvent_TDC, &b_LiEvent_TDC); fChain->SetBranchAddress("LiEvent.SCR[16]", LiEvent_SCR, &b_LiEvent_SCR); fChain->SetBranchAddress("LiEvent.nx1", &LiEvent_nx1, &b_LiEvent_nx1); fChain->SetBranchAddress("LiEvent.ny1", &LiEvent_ny1, &b_LiEvent_ny1); fChain->SetBranchAddress("LiEvent.nx2", &LiEvent_nx2, &b_LiEvent_nx2); fChain->SetBranchAddress("LiEvent.ny2", &LiEvent_ny2, &b_LiEvent_ny2); fChain->SetBranchAddress("LiEvent.x1[32]", LiEvent_x1, &b_LiEvent_x1); fChain->SetBranchAddress("LiEvent.y1[32]", LiEvent_y1, &b_LiEvent_y1); fChain->SetBranchAddress("LiEvent.x2[32]", LiEvent_x2, &b_LiEvent_x2); fChain->SetBranchAddress("LiEvent.y2[32]", LiEvent_y2, &b_LiEvent_y2); fChain->SetBranchAddress("LiEvent.adc1[16]", LiEvent_adc1, &b_LiEvent_adc1); fChain->SetBranchAddress("LiEvent.adc2[16]", LiEvent_adc2, &b_LiEvent_adc2); fChain->SetBranchAddress("LiEvent.adc3[16]", LiEvent_adc3, &b_LiEvent_adc3); fChain->SetBranchAddress("LiEvent.adc4[16]", LiEvent_adc4, &b_LiEvent_adc4); fChain->SetBranchAddress("LiEvent.tdc1[32]", LiEvent_tdc1, &b_LiEvent_tdc1); fChain->SetBranchAddress("LiEvent.tdc2[32]", LiEvent_tdc2, &b_LiEvent_tdc2); fChain->SetBranchAddress("LiEvent.time", &LiEvent_time, &b_LiEvent_time); fChain->SetBranchAddress("LiEvent.nevent", &LiEvent_nevent, &b_LiEvent_nevent); fChain->SetBranchAddress("LiEvent.trigger", &LiEvent_trigger, &b_LiEvent_trigger); fChain->SetBranchAddress("LiEvent.subevents", &LiEvent_subevents, &b_LiEvent_subevents); fChain->SetBranchAddress("LiEvent.evsize", &LiEvent_evsize, &b_LiEvent_evsize); Notify(); } Bool_t AnalysisxTree::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 AnalysisxTree::Show(Long64_t entry) { // Print contents of entry. // If entry is not specified, print current entry if (!fChain) return; fChain->Show(entry); } Int_t AnalysisxTree::Cut(Long64_t entry) { // This function may be called from Loop. // returns 1 if entry is accepted. // returns -1 otherwise. return 1; } #endif // #ifdef AnalysisxTree_cxx