class AliVertexer;
class AliESDVertex;
class AliESDEvent;
+class AliESDfriend;
+class AliVertexerTracks;
class TFile;
class TTree;
-class AliQADataMaker;
+class TList;
+class AliQADataMakerRec;
+class TMap;
class AliReconstruction: public TNamed {
public:
AliReconstruction(const char* gAliceFilename = "galice.root",
- const char* cdbUri = "local://$ALICE_ROOT",
const char* name = "AliReconstruction",
const char* title = "reconstruction");
AliReconstruction(const AliReconstruction& rec);
virtual ~AliReconstruction();
void SetGAliceFile(const char* fileName);
- void SetInput(const char* input) {fInput = input;};
+ void SetInput(const char* input);
+
void SetEquipmentIdMap(const char *mapFile) {fEquipIdMap = mapFile;};
void SetEventRange(Int_t firstEvent = 0, Int_t lastEvent = -1)
{fFirstEvent = firstEvent; fLastEvent = lastEvent;};
//*** Global reconstruction flag setters
void SetUniformFieldTracking(Bool_t flag=kTRUE){fUniformField=flag;}
void SetRunVertexFinder(Bool_t flag=kTRUE) {fRunVertexFinder=flag;};
+ void SetRunVertexFinderTracks(Bool_t flag=kTRUE) {fRunVertexFinderTracks=flag;};
void SetRunHLTTracking(Bool_t flag=kTRUE) {fRunHLTTracking=flag;};
void SetRunV0Finder(Bool_t flag=kTRUE) {fRunV0Finder=flag;};
void SetRunCascadeFinder(Bool_t flag=kTRUE) {fRunCascadeFinder=flag;};
void SetWriteAOD(Bool_t flag=kTRUE){fWriteAOD=flag;}
void SetFillTriggerESD(Bool_t flag=kTRUE){fFillTriggerESD=flag;}
void SetDiamondProfile(AliESDVertex *dp) {fDiamondProfile=dp;}
+ void SetDiamondProfileTPC(AliESDVertex *dp) {fDiamondProfileTPC=dp;}
+ void SetMeanVertexConstraint(Bool_t flag=kTRUE){fMeanVertexConstraint=flag;}
void SetCleanESD(Bool_t flag=kTRUE){fCleanESD=flag;}
+ void SetUseHLTData(const char* detectors){fUseHLTData=detectors;}
+ void SetV0DCAmax(Float_t d) {fV0DCAmax=d;}
+ void SetV0CsPmin(Float_t d) {fV0CsPmin=d;}
void SetDmax(Float_t d) {fDmax=d;}
void SetZmax(Float_t z) {fZmax=z;}
+ Float_t GetV0DCAmax() const {return fV0DCAmax;}
+ Float_t GetV0CsPmin() const {return fV0CsPmin;}
Float_t GetDmax() const {return fDmax;}
Float_t GetZmax() const {return fZmax;}
void SetCheckPointLevel(Int_t checkPointLevel)
{fCheckPointLevel = checkPointLevel;}
+
// CDB storage activation
- void InitCDBStorage();
void SetDefaultStorage(const char* uri);
- void SetRemoteStorage(const char* uri);
void SetSpecificStorage(const char* calibType, const char* uri);
- Bool_t SetRunNumber();
-
Bool_t MisalignGeometry(const TString& detectors);
void SetAlignObjArray(TObjArray *array)
{fAlignObjArray = array;
fLoadAlignFromCDB = kFALSE;}
+ virtual Bool_t InitRun(const char* input);
+ virtual Bool_t RunEvent(Int_t iEvent);
+ virtual Bool_t FinishRun();
virtual Bool_t Run(const char* input = NULL);
// Quality Assurance
virtual Bool_t RunQA(const char* detectors, AliESDEvent *& esd);
void SetQACycles(const char * detector, const Int_t cycles) { fQACycles[GetDetIndex(detector)] = cycles ; }
+ void SetRunQA(Bool_t flag=kTRUE) {fRunQA = flag ;}
+ void SetRunGlobalQA(Bool_t flag=kTRUE){fRunGlobalQA = flag;}
+ void SetInLoopQA(Bool_t flag=kTRUE) {fInLoopQA = flag;}
+
+ // Plane Efficiency Evaluation
+ void SetRunPlaneEff(Bool_t flag=kFALSE) {fRunPlaneEff = flag;}
private:
+ void InitCDB();
+ void SetCDBLock();
+ Bool_t SetRunNumberFromData();
Bool_t RunLocalReconstruction(const TString& detectors);
Bool_t RunLocalEventReconstruction(const TString& detectors);
Bool_t RunVertexFinder(AliESDEvent*& esd);
Bool_t ReadESD(AliESDEvent*& esd, const char* recStep) const;
void WriteESD(AliESDEvent* esd, const char* recStep) const;
- //==========================================//
- void ESDFile2AODFile(TFile* esdFile, TFile* aodFile);
-
+ //==========================================//
void WriteAlignmentData(AliESDEvent* esd);
void FillRawDataErrorLog(Int_t iEvent, AliESDEvent* esd);
//Quality Assurance
Int_t GetDetIndex(const char * detector);
- AliQADataMaker* GetQADataMaker(Int_t iDet);
+ AliQADataMakerRec* GetQADataMaker(Int_t iDet);
const Int_t GetQACycles(const char * detector) { return fQACycles[GetDetIndex(detector)] ; }
void CheckQA() ;
+ // Plane Efficiency evaluation
+ Bool_t FinishPlaneEff(); //ultimate tasks related to Plane Eff. evaluation
+ Bool_t InitPlaneEff(); // initialize what is needed for Plane Eff. evaluation
+
+ Bool_t InitAliEVE();
+ void RunAliEVE();
+
//*** Global reconstruction flags *******************
Bool_t fUniformField; // uniform field tracking flag
Bool_t fRunVertexFinder; // run the vertex finder
+ Bool_t fRunVertexFinderTracks; // run the vertex finder with tracks
Bool_t fRunHLTTracking; // run the HLT tracking
Bool_t fRunMuonTracking; // run the HLT tracking
Bool_t fRunV0Finder; // run the ESD V0 finder
//*** Clean ESD flag and parameters *******************
Bool_t fCleanESD; // clean ESD flag
+ Float_t fV0DCAmax; // max. allowed DCA between V0 daugthers
+ Float_t fV0CsPmin; // min. allowed cosine of V0 pointing angle
Float_t fDmax; // max. allowed transverse impact parameter
Float_t fZmax; // max. allowed longitudinal impact parameter
Bool_t fLoadAlignFromCDB; // Load alignment data from CDB and apply it to geometry or not
TString fLoadAlignData; // Load alignment data from CDB for these detectors
TString fESDPar; // String where the esd.par is stored, will be attached to the tree
-
+ TString fUseHLTData; // Detectors for which the HLT data is used as input
AliRunLoader* fRunLoader; //! current run loader object
AliRawReader* fRawReader; //! current raw data reader
+ AliRawReader* fParentRawReader; //! parent raw data reader in case of AliRawReaderHLT
static const Int_t fgkNDetectors = 15; //! number of detectors
static const char* fgkDetectorName[fgkNDetectors]; //! names of detectors
AliVertexer* fVertexer; //! vertexer for ITS
AliTracker* fTracker[fgkNDetectors]; //! trackers
AliESDVertex* fDiamondProfile; // (x,y) diamond profile for AliVertexerTracks
+ AliESDVertex* fDiamondProfileTPC; // (x,y) diamond profile from TPC for AliVertexerTracks
+ Bool_t fMeanVertexConstraint; // use fDiamondProfile in AliVertexerTracks
+
+ TMap* fGRPData; // Data from the GRP/GRP/Data CDB folder
TObjArray* fAlignObjArray; // array with the alignment objects to be applied to the geometry
TString fCDBUri; // Uri of the default CDB storage
- TString fRemoteCDBUri; // Uri of the remote CDB storage
TObjArray fSpecCDBUri; // Array with detector specific CDB storages
+ Bool_t fInitCDBCalled; //! flag to check if CDB storages are already initialized
+ Bool_t fSetRunNumberFromDataCalled; //! flag to check if run number is already loaded from run loader
//Quality Assurance
- AliQADataMaker * fQADataMaker[fgkNDetectors]; //! array of QA data maker objects
- Int_t fQACycles[fgkNDetectors] ; // cycle length (# events) over which QA data are accumulated
-
- ClassDef(AliReconstruction, 15) // class for running the reconstruction
+ AliQADataMakerRec *fQADataMaker[fgkNDetectors+1]; //! array of QA data makers
+ Int_t fQACycles[ fgkNDetectors];// # events over which QA data are accumulated
+ Bool_t fRunQA ; // Run QA flag
+ Bool_t fRunGlobalQA; // Run global QA flag
+ Bool_t fInLoopQA; // In-loop QA flag
+ Bool_t fSameQACycle; //! open a vew QA data file or not
+ // Plane Efficiency Evaluation
+ Bool_t fRunPlaneEff ; // Evaluate Plane Efficiency
+
+ // New members needed in order to split Run method
+ // into InitRun,RunEvent,FinishRun methods
+ AliESDEvent* fesd; //! Pointer to the ESD event object
+ AliESDEvent* fhltesd; //! Pointer to the HLT ESD event object
+ AliESDfriend* fesdf; //! Pointer to the ESD friend object
+ TFile* ffile; //! Pointer to the ESD file
+ TTree* ftree; //! Pointer to the ESD tree
+ TTree* fhlttree; //! Pointer to the HLT ESD tree
+ TFile* ffileOld; //! Pointer to the previous ESD file
+ TTree* ftreeOld; //! Pointer to the previous ESD tree
+ TTree* fhlttreeOld; //! Pointer to the previous HLT ESD tree
+ AliVertexerTracks* ftVertexer; //! Pointer to the vertexer based on ESD tracks
+ Bool_t fIsNewRunLoader; // galice.root created from scratch (real raw data case)
+ Bool_t fRunAliEVE; // Run AliEVE or not
+
+ ClassDef(AliReconstruction, 23) // class for running the reconstruction
};
#endif