// @(#) $Id$
#ifndef ALIHLTRECONSTRUCTOR_H
#define ALIHLTRECONSTRUCTOR_H
//* This file is property of and copyright by the ALICE HLT Project *
//* ALICE Experiment at CERN, All rights reserved. *
//* See cxx source for full Copyright notice *
/** @file AliHLTReconstructor.h
@author Matthias Richter
@date
@brief Binding class for HLT simulation in AliRoot
*/
#include "AliReconstructor.h"
#include "AliHLTReconstructorBase.h"
class AliHLTSystem;
class AliRawReader;
class AliESDEvent;
class AliHLTOUT;
class AliHLTEsdManager;
/**
* @class AliHLTReconstructor
* AliHLTReconstructor AliRoot event reconstruction plugin for the HLT.
* The AliHLTReconstructor holds an instance of the @ref AliHLTSystem
* steering class. The actual reconstruction depends on the loaded component
* libraries. Each library must implement a module agent (@ref AliHLTModuleAgent)
* in order to provide information on the supported features and the
* configurations to be run.
*
* The default component libraries which are loaded through the initialization
* are determined by the @ref AliHLTSystem::fgkHLTDefaultLibs array. The library
* loading can be overridden by an option to the AliHLTReconstructor through the
* SetOption method of AliReconstruction, e.g.
*
* AliReconstruction rec;
* rec.SetOption("HLT", "libAliHLTSample.so");
*
* will only load libAliHLTSample.so
*
* Optional arguments:
*
* \li loglevel=level
* level can be a hex number encoding the @ref AliHLTComponentLogSeverity
* \li alilog=off
* disables the logging of HLT log messages through AliLog
*
* For further information on the AliRoot reconstruction refer to the AliRoot
* documentation, namely AliReconstruction.
*/
class AliHLTReconstructor: public AliReconstructor, public AliHLTReconstructorBase {
public:
AliHLTReconstructor();
/** destructor */
virtual ~AliHLTReconstructor();
/** init the reconstructor */
void Init();
/**
* This Reconstructor function is not applicable for the AliHLTReconstructor
* as it gets a detector specific digits tree. But HLT processes all detectors.
* Furthermore it's purely simulated data.
* The function forwards to the default bahavior of AliReconstructor but gives
* a warning if there were options set, i.e. the user runs customized
* reconstruction.
*
* @note HLT reconstruction on simulated data is processed at the end of
* simulation.
*/
void Reconstruct(TTree* digitsTree, TTree* clustersTree) const;
/**
* Reconstruction from RAW data.
* The rawReader holds data for all detectors and this version of Reconstruct
* is thus applicable for the HLT. The clustersTree is just ignored.
*/
void Reconstruct(AliRawReader* rawReader, TTree* clustersTree) const;
/**
* This function treats the simulated HLTOUT data.
* Opens a handler for simulated HLTOUT data and forwards to ::ProcessHLTOUT.
*/
void FillESD(TTree* digitsTree, TTree* clustersTree, AliESDEvent* esd) const;
/**
* Process the raw HLTOUT data and fill ESD.
* Opens a handler for raw HLTOUT data and forwards to ::ProcessHLTOUT.
*/
void FillESD(AliRawReader* rawReader, TTree* clustersTree, AliESDEvent* esd) const;
/**
* Process HLTOUT data and fill ESD.
* This is the final treatment of the HLTOUT data, either simulated or real.
* HLTOUT data is stored in HOMER format, the AliHLTOUT object provides the interface
* to the individual data blocks.
*
* During reconstruction (::Reconstruct), module or user defined chains can be
* processed and may add additional data to the HLTOUT object. This data is then
* treated in the same way.
*/
void ProcessHLTOUT(AliHLTOUT* pHLTOUT, AliESDEvent* esd) const;
private:
/** copy constructor prohibited */
AliHLTReconstructor(const AliHLTReconstructor& src);
/** assignment operator prohibited */
AliHLTReconstructor& operator=(const AliHLTReconstructor& src);
/** function pointer: processing of HLTOUT data */
void* fFctProcessHLTOUT; //!transient
/** ESD manger instance for this reconstruction */
AliHLTEsdManager* fpEsdManager; //!transient
ClassDef(AliHLTReconstructor, 5) // class for the HLT reconstruction
};
typedef AliHLTReconstructor AliL3Reconstructor; // for backward compatibility
#endif