//////////////////////////////////////////////////////////
// This class has been automatically generated on
// Wed Jan 31 10:32:10 2024 by ROOT version 6.22/06
// from TTree ntp/ntp: combined mm and bat ntuple
// found on file: Simple_4723.root
//////////////////////////////////////////////////////////

#ifndef bat_analysis_h
#define bat_analysis_h

#include <TROOT.h>
#include <TChain.h>
#include <TH1.h>
#include <TFile.h>
#include <TSelector.h>
#include <TTreeReader.h>
#include <TTreeReaderValue.h>
#include <TTreeReaderArray.h>

// Headers needed by this particular selector
#include <vector>
#include <iostream>



class bat_analysis : public TSelector {
public :
   TTreeReader     fReader;  //!the tree reader
   TTree          *fChain = 0;   //!pointer to the analyzed TTree or TChain

   // Readers to access the data (delete the ones you do not need).
   TTreeReaderValue<Int_t> bat_run = {fReader, "bat_run"};
   TTreeReaderArray<int> bat_id1x = {fReader, "bat_id1x"};
   TTreeReaderArray<int> bat_q1x = {fReader, "bat_q1x"};
   TTreeReaderArray<int> bat_id2x = {fReader, "bat_id2x"};
   TTreeReaderArray<int> bat_q2x = {fReader, "bat_q2x"};
   TTreeReaderArray<int> bat_id3x = {fReader, "bat_id3x"};
   TTreeReaderArray<int> bat_q3x = {fReader, "bat_q3x"};
   TTreeReaderArray<int> bat_id6x = {fReader, "bat_id6x"};
   TTreeReaderArray<int> bat_q6x = {fReader, "bat_q6x"};
   TTreeReaderArray<int> bat_id1y = {fReader, "bat_id1y"};
   TTreeReaderArray<int> bat_q1y = {fReader, "bat_q1y"};
   TTreeReaderArray<int> bat_id2y = {fReader, "bat_id2y"};
   TTreeReaderArray<int> bat_q2y = {fReader, "bat_q2y"};
   TTreeReaderArray<int> bat_id3y = {fReader, "bat_id3y"};
   TTreeReaderArray<int> bat_q3y = {fReader, "bat_q3y"};
   TTreeReaderArray<int> bat_id6y = {fReader, "bat_id6y"};
   TTreeReaderArray<int> bat_q6y = {fReader, "bat_q6y"};
   TTreeReaderValue<Int_t> mm_run = {fReader, "mm_run"};
   TTreeReaderValue<Int_t> mm_evt = {fReader, "mm_evt"};
   TTreeReaderValue<Float_t> mm_time = {fReader, "mm_time"};
   TTreeReaderValue<Float_t> mm_timex = {fReader, "mm_timex"};
   TTreeReaderValue<Float_t> mm_timeLowGain = {fReader, "mm_timeLowGain"};
   TTreeReaderValue<Float_t> mm_timexLowGain = {fReader, "mm_timexLowGain"};
   TTreeReaderValue<Float_t> mm_timesample = {fReader, "mm_timesample"};
   TTreeReaderValue<Float_t> mm_timexsample = {fReader, "mm_timexsample"};
   TTreeReaderValue<Int_t> mm_qmaxStrId = {fReader, "mm_qmaxStrId"};
   TTreeReaderValue<Float_t> mm_maxStrQ = {fReader, "mm_maxStrQ"};
   TTreeReaderValue<Float_t> mm_maxStrT = {fReader, "mm_maxStrT"};
   TTreeReaderArray<int> mm_higain = {fReader, "mm_higain"};
   TTreeReaderArray<int> mm_addr = {fReader, "mm_addr"};
   TTreeReaderArray<int> mm_qmaxsample = {fReader, "mm_qmaxsample"};
   TTreeReaderArray<int> mm_tqmaxsample = {fReader, "mm_tqmaxsample"};
   TTreeReaderArray<float> mm_ped = {fReader, "mm_ped"};
   TTreeReaderArray<float> mm_noise = {fReader, "mm_noise"};
   TTreeReaderArray<float> mm_strid = {fReader, "mm_strid"};
   TTreeReaderArray<float> mm_qmaxfit = {fReader, "mm_qmaxfit"};
   TTreeReaderArray<float> mm_tqmaxfit = {fReader, "mm_tqmaxfit"};
   TTreeReaderArray<float> mm_tau = {fReader, "mm_tau"};
   TTreeReaderArray<float> mm_thalf = {fReader, "mm_thalf"};
   TTreeReaderValue<Int_t> mm_nclu = {fReader, "mm_nclu"};
   TTreeReaderArray<int> mm_clsz = {fReader, "mm_clsz"};
   TTreeReaderArray<int> mm_clstr0 = {fReader, "mm_clstr0"};
   TTreeReaderArray<int> mm_clpkid = {fReader, "mm_clpkid"};
   TTreeReaderArray<float> mm_clmnpos = {fReader, "mm_clmnpos"};
   TTreeReaderArray<float> mm_clcogpos = {fReader, "mm_clcogpos"};
   TTreeReaderArray<float> mm_clchgsum = {fReader, "mm_clchgsum"};
   TTreeReaderArray<float> mm_cltime = {fReader, "mm_cltime"};
   TTreeReaderArray<float> mm_clpkchg = {fReader, "mm_clpkchg"};
   TTreeReaderArray<double> mm_newtimecorr = {fReader, "mm_newtimecorr"};


   bat_analysis(TTree * /*tree*/ =0) { }
   virtual ~bat_analysis() { }
   virtual Int_t   Version() const { return 2; }
   virtual void    Begin(TTree *tree);
   virtual void    SlaveBegin(TTree *tree);
   virtual void    Init(TTree *tree);
   virtual Bool_t  Notify();
   virtual Bool_t  Process(Long64_t entry);
   virtual Int_t   GetEntry(Long64_t entry, Int_t getall = 0) { return fChain ? fChain->GetTree()->GetEntry(entry, getall) : 0; }
   virtual void    SetOption(const char *option) { fOption = option; }
   virtual void    SetObject(TObject *obj) { fObject = obj; }
   virtual void    SetInputList(TList *input) { fInput = input; }
   virtual TList  *GetOutputList() const { return fOutput; }
   virtual void    SlaveTerminate();
   virtual void    Terminate();

   ClassDef(bat_analysis,0);

};

#endif

#ifdef bat_analysis_cxx
void bat_analysis::Init(TTree *tree)
{
   // The Init() function is called when the selector needs to initialize
   // a new tree or chain. Typically here the reader is initialized.
   // 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).

   fReader.SetTree(tree);
}

Bool_t bat_analysis::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;
}


#endif // #ifdef bat_analysis_cxx