forked from UCATLAS/xAODAnaHelpers
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ElectronCalibrator.h
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/
ElectronCalibrator.h
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#ifndef xAODAnaHelpers_ElectronCalibrator_H
#define xAODAnaHelpers_ElectronCalibrator_H
// CP interface includes
#include "PATInterfaces/SystematicRegistry.h"
#include "PATInterfaces/SystematicSet.h"
#include "PATInterfaces/SystematicsUtil.h"
#include "PATInterfaces/SystematicVariation.h"
#include "PATInterfaces/SystematicCode.h"
// external tools include(s):
#include "ElectronPhotonFourMomentumCorrection/EgammaCalibrationAndSmearingTool.h"
#include "IsolationCorrections/IsolationCorrectionTool.h"
// algorithm wrapper
#include "xAODAnaHelpers/Algorithm.h"
class ElectronCalibrator : public xAH::Algorithm
{
// put your configuration variables here as public variables.
// that way they can be set directly from CINT and python.
public:
// configuration variables
std::string m_inContainerName;
std::string m_outContainerName;
// sort after calibration
bool m_sort;
// systematics
std::string m_inputAlgoSystNames; // this is the name of the vector of names of the systematically varied containers produced by the
// upstream algo (e.g., the SC containers with calibration systematics)
std::string m_outputAlgoSystNames; // this is the name of the vector of names of the systematically varied containers produced by THIS
// algo ( these will be the m_inputAlgoSystNames of the algo downstream
float m_systVal;
std::string m_systName;
std::string m_esModel;
std::string m_decorrelationModel;
/** @brief Force AFII flag in calibration, in case metadata is broken */
bool m_setAFII;
// for calo based isolation vars leakage correction
bool m_useDataDrivenLeakageCorr;
private:
int m_numEvent; //!
int m_numObject; //!
bool m_isMC; //!
std::string m_outAuxContainerName;
std::string m_outSCContainerName;
std::string m_outSCAuxContainerName;
std::vector<CP::SystematicSet> m_systList; //!
// tools
CP::EgammaCalibrationAndSmearingTool *m_EgammaCalibrationAndSmearingTool; //!
CP::IsolationCorrectionTool *m_IsolationCorrectionTool; //! /* apply leakage correction to calo based isolation variables for electrons */
// variables that don't get filled at submission time should be
// protected from being send from the submission node to the worker
// node (done by the //!)
public:
// Tree *myTree; //!
// TH1 *myHist; //!
// this is a standard constructor
ElectronCalibrator (std::string className = "ElectronCalibrator");
// these are the functions inherited from Algorithm
virtual EL::StatusCode setupJob (EL::Job& job);
virtual EL::StatusCode fileExecute ();
virtual EL::StatusCode histInitialize ();
virtual EL::StatusCode changeInput (bool firstFile);
virtual EL::StatusCode initialize ();
virtual EL::StatusCode execute ();
virtual EL::StatusCode postExecute ();
virtual EL::StatusCode finalize ();
virtual EL::StatusCode histFinalize ();
/// @cond
// this is needed to distribute the algorithm to the workers
ClassDef(ElectronCalibrator, 1);
/// @endcond
};
#endif