classes for customized class that do some sort of analysis on the
various types of data produced by the FMD.
*/
-#include <TObject.h>
+#include <TNamed.h>
#ifndef ROOT_TString
# include <TString.h>
#endif
+#ifndef ROOT_TArrayF
+# include <TArrayF.h>
+#endif
+class AliTrackReference;
class AliRunLoader;
class AliLoader;
class AliStack;
class AliRun;
class AliRawReader;
+class AliFMDRawReader;
class AliFMD;
class AliFMDHit;
class AliFMDDigit;
class AliFMDRecPoint;
class AliESDEvent;
class AliESDFMD;
+class AliHeader;
class TString;
class TClonesArray;
class TTree;
various scripts in @c FMD/scripts.
@ingroup FMD_util
*/
-class AliFMDInput : public TObject
+class AliFMDInput : public TNamed
{
public:
/** The kinds of data that can be read in. */
kESD, // Load ESD's
kRaw, // Read raw data
kGeometry, // Not really a tree
- kTracks // Hits and tracs - for BG study
+ kTrackRefs, // Track references - also for BG study
+ kRawCalib, // Read raws and calibrate them
+ kUser
};
/** CTOR */
AliFMDInput();
virtual Bool_t Finish() { return kTRUE; }
/** Run a full job.
@return @c false on error */
- virtual Bool_t Run();
+ virtual Bool_t Run(UInt_t maxEvents=0);
/** Loop over all hits, and call ProcessHit with that hit, and
optionally the corresponding kinematics track.
@return @c false on error */
virtual Bool_t ProcessHits();
+ /** Loop over all track refs, and call ProcessTrackRef with that hit, and
+ optionally the corresponding kinematics track.
+ @return @c false on error */
+ virtual Bool_t ProcessTrackRefs();
/** Loop over all tracks, and call ProcessTrack with each hit for
that track
@return @c false on error */
virtual Bool_t ProcessTracks();
+ /** Loop over all tracks, and call ProcessTrack with each hit for
+ that track
+ @return @c false on error */
+ virtual Bool_t ProcessStack();
/** Loop over all digits, and call ProcessDigit for each digit.
@return @c false on error */
virtual Bool_t ProcessDigits();
ProcessRawDigit for each digit.
@return @c false on error */
virtual Bool_t ProcessRawDigits();
+ /** Loop over all digits read from raw data files, and call
+ ProcessRawDigit for each digit.
+ @return @c false on error */
+ virtual Bool_t ProcessRawCalibDigits();
/** Loop over all reconstructed points, and call ProcessRecPoint for
each reconstructed point.
@return @c false on error */
/** Loop over all ESD data, and call ProcessESD for each entry.
@return @c false on error */
virtual Bool_t ProcessESDs();
+ /** Loop over all strips and ask user routine to supply the data.
+ @return @c false on error */
+ virtual Bool_t ProcessUsers();
/** Process one hit, and optionally it's corresponding kinematics
track. Users should over this to process each hit.
@param p Associated track
@return @c false on error */
virtual Bool_t ProcessHit(AliFMDHit* h, TParticle* p);
+ /** Process one track reference, and optionally it's corresponding kinematics
+ track. Users should overload this to process each track reference.
+ @param trackRef Track Reference
+ @param track Associated track
+ @return @c false on error */
+ virtual Bool_t ProcessTrackRef(AliTrackReference* trackRef, TParticle* track);
/** Process one hit per track. Users should over this to process
each hit.
@param i Track number
@param h Associated Hit
@return @c false on error */
virtual Bool_t ProcessTrack(Int_t i, TParticle* p, AliFMDHit* h);
+ /** Process stack particle
+ @param i Track number
+ @param p Track
+ @return @c false on error */
+ virtual Bool_t ProcessParticle(Int_t i , TParticle* p);
/** Process one digit. Users should over this to process each
digit.
@param digit Digit
@param digit Raw digit
@return @c false on error */
virtual Bool_t ProcessRawDigit(AliFMDDigit* digit);
+ /** Process one digit from raw data files. Users should over this
+ to process each raw digit.
+ @param digit Raw digit
+ @return @c false on error */
+ virtual Bool_t ProcessRawCalibDigit(AliFMDDigit* digit);
/** Process one reconstructed point. Users should over this to
process each reconstructed point.
@param point Reconstructed point
@param eta Psuedo-rapidity
@param mult Psuedo-multiplicity
@return @c false on error */
- virtual Bool_t ProcessESD(UShort_t, Char_t, UShort_t, UShort_t,
- Float_t, Float_t);
-
+ virtual Bool_t ProcessESD(UShort_t d, Char_t r, UShort_t s, UShort_t t,
+ Float_t eta, Float_t mult);
+ /** Process User data for the FMD. Users should overload this to
+ deal with ESD data.
+ @param d Detector number (1-3)
+ @param r Ring identifier ('I' or 'O')
+ @param s Sector number (0-19, or 0-39)
+ @param t Strip number (0-511, or 0-255)
+ @param v Value
+ @return @c false on error */
+ virtual Bool_t ProcessUser(UShort_t d, Char_t r, UShort_t s, UShort_t t,
+ Float_t v);
+ /** Service function to make a logarithmic axis.
+ @param n Number of bins
+ @param min Minimum of axis
+ @param max Maximum of axis.
+ @return An array with the bin boundaries. */
+ static TArrayF MakeLogScale(Int_t n, Double_t min, Double_t max);
+
+ /** Set the raw data input
+ @param file File name - if empty, assume simulated raw. */
+ void SetRawFile(const char* file) { if (file) fRawFile = file; }
+
protected:
/** Copy ctor
@param o Object to copy from */
AliFMDInput(const AliFMDInput& o)
- : TObject(o),
+ : TNamed(o),
fGAliceFile(""),
fLoader(0),
fRun(0),
fStack(0),
fFMDLoader(0),
fReader(0),
+ fFMDReader(0),
fFMD(0),
fESD(0),
fESDEvent(0),
fTreeE(0),
fTreeH(0),
+ fTreeTR(0),
fTreeD(0),
fTreeS(0),
fTreeR(0),
fChainE(0),
fArrayE(0),
fArrayH(0),
+ fArrayTR(0),
fArrayD(0),
fArrayS(0),
fArrayR(0),
fArrayA(0),
+ fHeader(0),
fGeoManager(0),
fTreeMask(0),
- fIsInit(kFALSE)
+ fRawFile(""),
+ fIsInit(kFALSE),
+ fEventCount(0),
+ fNEvents(-1)
{}
/** Assignement operator
@return REference to this */
AliFMDInput& operator=(const AliFMDInput&) { return *this; }
+ /**
+ * Get user supplued data
+ *
+ * @param d Detector
+ * @param r Ring
+ * @param s Sector
+ * @param t Strip
+ *
+ * @return Value
+ */
+ virtual Float_t GetSignal(UShort_t d, Char_t r, UShort_t s, UShort_t t);
- TString fGAliceFile; // File name of gAlice file
- AliRunLoader* fLoader; // Loader of FMD data
- AliRun* fRun; // Run information
- AliStack* fStack; // Stack of particles
- AliLoader* fFMDLoader; // Loader of FMD data
- AliRawReader* fReader; // Raw data reader
- AliFMD* fFMD; // FMD object
- AliESDFMD* fESD; // FMD ESD data
- AliESDEvent* fESDEvent; // ESD Event object.
- TTree* fTreeE; // Header tree
- TTree* fTreeH; // Hits tree
- TTree* fTreeD; // Digit tree
- TTree* fTreeS; // SDigit tree
- TTree* fTreeR; // RecPoint tree
- TTree* fTreeA; // Raw data tree
- TChain* fChainE; // Chain of ESD's
- TClonesArray* fArrayE; // Event info array
- TClonesArray* fArrayH; // Hit info array
- TClonesArray* fArrayD; // Digit info array
- TClonesArray* fArrayS; // SDigit info array
- TClonesArray* fArrayR; // Rec points info array
- TClonesArray* fArrayA; // Raw data (digits) info array
- TGeoManager* fGeoManager; // Geometry manager
- Int_t fTreeMask; // Which tree's to load
- Bool_t fIsInit; // Have we been initialized
+ TString fGAliceFile; // File name of gAlice file
+ AliRunLoader* fLoader; // Loader of FMD data
+ AliRun* fRun; // Run information
+ AliStack* fStack; // Stack of particles
+ AliLoader* fFMDLoader; // Loader of FMD data
+ AliRawReader* fReader; // Raw data reader
+ AliFMDRawReader* fFMDReader; // FMD raw reader
+ AliFMD* fFMD; // FMD object
+ AliESDFMD* fESD; // FMD ESD data
+ AliESDEvent* fESDEvent; // ESD Event object.
+ TTree* fTreeE; // Header tree
+ TTree* fTreeH; // Hits tree
+ TTree* fTreeTR; // Track Reference tree
+ TTree* fTreeD; // Digit tree
+ TTree* fTreeS; // SDigit tree
+ TTree* fTreeR; // RecPoint tree
+ TTree* fTreeA; // Raw data tree
+ TChain* fChainE; // Chain of ESD's
+ TClonesArray* fArrayE; // Event info array
+ TClonesArray* fArrayH; // Hit info array
+ TClonesArray* fArrayTR; // Hit info array
+ TClonesArray* fArrayD; // Digit info array
+ TClonesArray* fArrayS; // SDigit info array
+ TClonesArray* fArrayR; // Rec points info array
+ TClonesArray* fArrayA; // Raw data (digits) info array
+ AliHeader* fHeader; // Header
+ TGeoManager* fGeoManager; // Geometry manager
+ Int_t fTreeMask; // Which tree's to load
+ TString fRawFile; // Raw input file
+ Bool_t fIsInit; // Have we been initialized
+ Int_t fEventCount; // Event counter
+ Int_t fNEvents; // The maximum number of events
ClassDef(AliFMDInput,0) //Hits for detector FMD
};
inline Bool_t AliFMDInput::ProcessHit(AliFMDHit*,TParticle*) { return kTRUE; }
+inline Bool_t AliFMDInput::ProcessTrackRef(AliTrackReference*,
+ TParticle*) { return kTRUE; }
inline Bool_t AliFMDInput::ProcessTrack(Int_t,TParticle*,
AliFMDHit*) { return kTRUE; }
+inline Bool_t AliFMDInput::ProcessParticle(Int_t,TParticle*) { return kTRUE; }
inline Bool_t AliFMDInput::ProcessDigit(AliFMDDigit*) { return kTRUE; }
inline Bool_t AliFMDInput::ProcessSDigit(AliFMDSDigit*) { return kTRUE; }
inline Bool_t AliFMDInput::ProcessRawDigit(AliFMDDigit*) { return kTRUE; }
+inline Bool_t AliFMDInput::ProcessRawCalibDigit(AliFMDDigit*) { return kTRUE; }
inline Bool_t AliFMDInput::ProcessRecPoint(AliFMDRecPoint*) { return kTRUE; }
inline Bool_t AliFMDInput::ProcessESD(UShort_t,Char_t,UShort_t,UShort_t,
Float_t,Float_t) { return kTRUE; }
+inline Bool_t AliFMDInput::ProcessUser(UShort_t,Char_t,UShort_t,UShort_t,
+ Float_t) { return kTRUE; }
+inline Float_t AliFMDInput::GetSignal(UShort_t, Char_t, UShort_t, UShort_t) {
+ return 0.; }
#endif