forked from UCATLAS/xAODAnaHelpers
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JetHists.h
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JetHists.h
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#ifndef xAODAnaHelpers_JetHists_H
#define xAODAnaHelpers_JetHists_H
#include "xAODAnaHelpers/HistogramManager.h"
#include "xAODAnaHelpers/HelperClasses.h"
#include <xAODJet/JetContainer.h>
class JetHists : public HistogramManager
{
public:
JetHists(std::string name, std::string detailStr);
virtual ~JetHists() ;
bool m_debug;
StatusCode initialize();
StatusCode execute( const xAOD::JetContainer* jets, float eventWeight, int pvLoc = -1);
StatusCode execute( const xAOD::Jet* jet, float eventWeight, int pvLoc = -1 );
using HistogramManager::book; // make other overloaded version of book() to show up in subclass
using HistogramManager::execute; // overload
protected:
// holds bools that control which histograms are filled
HelperClasses::JetInfoSwitch* m_infoSwitch;
private:
//basic
TH1F* m_jetPt; //!
TH1F* m_jetEta; //!
TH1F* m_jetPhi; //!
TH1F* m_jetM; //!
TH1F* m_jetE; //!
TH1F* m_jetRapidity; //!
// kinematic
TH1F* m_jetPx; //!
TH1F* m_jetPy; //!
TH1F* m_jetPz; //!
//NLeadingJets
std::vector< TH1F* > m_NjetsPt; //!
std::vector< TH1F* > m_NjetsEta; //!
std::vector< TH1F* > m_NjetsPhi; //!
std::vector< TH1F* > m_NjetsM; //!
std::vector< TH1F* > m_NjetsE; //!
std::vector< TH1F* > m_NjetsRapidity; //!
// clean
TH1F* m_jetTime; //!
TH1F* m_LArQuality; //!
TH1F* m_hecq; //!
TH1F* m_negE; //!
TH1F* m_avLArQF; //!
TH1F* m_bchCorrCell; //!
TH1F* m_N90Const; //!
//layer
TH1F* m_PreSamplerB;
TH1F* m_EMB1;
TH1F* m_EMB2;
TH1F* m_EMB3;
TH1F* m_PreSamplerE; //!
TH1F* m_EME1; //!
TH1F* m_EME2; //!
TH1F* m_EME3; //!
TH1F* m_HEC0; //!
TH1F* m_HEC1; //!
TH1F* m_HEC2; //!
TH1F* m_HEC3; //!
TH1F* m_TileBar0; //!
TH1F* m_TileBar1; //!
TH1F* m_TileBar2; //!
TH1F* m_TileGap1; //!
TH1F* m_TileGap2; //!
TH1F* m_TileGap3; //!
TH1F* m_TileExt0; //!
TH1F* m_TileExt1; //!
TH1F* m_TileExt2; //!
TH1F* m_FCAL0; //!
TH1F* m_FCAL1; //!
TH1F* m_FCAL2; //!
// area
TH1F* m_actArea; //!
TH1F* m_chf; //!
//energy
TH1F* m_HECf; //!
TH1F* m_EMf; //!
TH1F* m_centroidR; //!
TH1F* m_fracSampMax; //!
TH1F* m_fracSampMaxIdx; //!
TH1F* m_lowEtFrac; //!
// resolution
TH1F* m_jetGhostTruthPt; //!
TH2F* m_jetPt_vs_resolution; //!
TH2F* m_jetGhostTruthPt_vs_resolution; //!
// truth jets
TH1F* m_truthLabelID; //!
TH1F* m_truthCount; //!
TH1F* m_truthPt; //!
TH1F* m_truthDr_B; //!
TH1F* m_truthDr_C; //!
TH1F* m_truthDr_T; //!
// Detailed truth jet plots
TH1F* m_truthCount_BhadFinal; //!
TH1F* m_truthCount_BhadInit ; //!
TH1F* m_truthCount_BQFinal ; //!
TH1F* m_truthPt_BhadFinal; //!
TH1F* m_truthPt_BhadInit ; //!
TH1F* m_truthPt_BQFinal ; //!
TH1F* m_truthCount_ChadFinal; //!
TH1F* m_truthCount_ChadInit ; //!
TH1F* m_truthCount_CQFinal ; //!
TH1F* m_truthPt_ChadFinal; //!
TH1F* m_truthPt_ChadInit ; //!
TH1F* m_truthPt_CQFinal ; //!
TH1F* m_truthCount_TausFinal; //!
TH1F* m_truthPt_TausFinal ; //!
// Flavor Tag
TH1F* m_MV1 ; //!
TH1F* m_MV2c00 ; //!
TH1F* m_MV2c10 ; //!
TH1F* m_MV2c20 ; //!
TH1F* m_SV1_plus_IP3D ; //!
TH1F* m_SV0 ; //!
TH1F* m_SV1 ; //!
TH1F* m_IP2D ; //!
TH1F* m_IP3D ; //!
TH1F* m_JetFitter ; //!
TH1F* m_JetFitterCombNN ; //!
TH1F* m_jf_nVTXAcc ; //!
TH1F* m_jf_nSingleTracks ; //!
TH1F* m_jf_nTracksAtVtx ; //!
TH1F* m_jf_mass ; //!
TH1F* m_jf_energyFraction ; //!
TH1F* m_jf_significance3d ; //!
TH1F* m_jf_deltaeta ; //!
TH1F* m_jf_deltaphi ; //!
TH1F* m_jf_N2Tpar ; //!
TH1F* m_jf_pb ; //!
TH1F* m_jf_pc ; //!
TH1F* m_jf_pu ; //!
};
#endif