* See cxx source for full Copyright notice */
/*
-EMCal trigger data container
-for persistency of produced data presently stored in TTreeD
+EMCal trigger data container: can be used independently of the data stream (simulation or raw data)
+for transient storage of trigger data
Author: R. GUERNANE LPSC Grenoble CNRS/IN2P3
*/
+#include "AliEMCALTriggerTypes.h"
+
#include <TObject.h>
#include <TVector2.h>
-
-//#include <TObjArray.h>
-//#include <Riostream.h>
-
#include <TClonesArray.h>
class AliEMCALTriggerData : public TObject
public:
AliEMCALTriggerData();
virtual ~AliEMCALTriggerData();
+
+ virtual void SetMode(Int_t i) {fMode = i;}
- virtual void SetL0Patches(Int_t i, const TClonesArray& patches);
- virtual void SetL0RegionSize( TVector2 size ) { fL0RegionSize = size; }
- virtual void SetL0SubRegionSize( TVector2 size ) { fL0SubRegionSize = size; }
- virtual void SetL0PatchSize( TVector2 size ) { fL0PatchSize = size; }
+ virtual void SetL0Trigger( Int_t i, Int_t j, Int_t k) { fL0Trigger[i][j] = k; }
- virtual void SetL1GammaPatches(const TClonesArray& patches);
- virtual void SetL1JetPatches(const TClonesArray& patches);
-
- virtual void SetL1Region(Int_t**& region);
- virtual void SetL1V0(const Int_t*& arr);
-
- virtual void SetL1RegionSize( TVector2 size ) { fL1RegionSize = size; }
- virtual void SetL1GammaPatchSize( TVector2 size ) { fL1GammaPatchSize = size; }
- virtual void SetL1GammaSubRegionSize( TVector2 size ) { fL1GammaSubRegionSize = size; }
- virtual void SetL1JetPatchSize( TVector2 size ) { fL1JetPatchSize = size; }
- virtual void SetL1JetSubRegionSize( TVector2 size ) { fL1JetSubRegionSize = size; }
-
- virtual void L0Patches( TClonesArray& patches ) const { patches = *fL0Patches; }
- virtual TClonesArray* L0Patches( ) const { return fL0Patches; }
- virtual void L0RegionSize( TVector2 size ) const { size = fL0RegionSize; }
- virtual TVector2 L0RegionSize( ) const { return fL0RegionSize; }
- virtual void L0PatchSize( TVector2 size ) const { size = fL0PatchSize; }
- virtual TVector2 L0PatchSize( ) const { return fL0PatchSize; }
- virtual void L0SubRegionSize( TVector2 size ) const { size = fL0SubRegionSize; }
- virtual TVector2 L0SubRegionSize( ) const { return fL0SubRegionSize; }
- virtual void L0NPatches( Int_t arr[32] ) const { for (Int_t i=0;i<32;i++) arr[i] = fL0NPatches[i]; }
+ virtual void SetL1GammaThreshold(int i, int v) {fL1GammaThreshold[i] = v;}
+ virtual void SetL1JetThreshold( int i, int v) { fL1JetThreshold[i] = v;}
+ virtual void SetL1V0( Int_t* v) {for (int i = 0; i < 2; i++) fL1V0[i] = v[i];}
+ virtual void SetL1FrameMask( Int_t v) { fL1FrameMask = v;}
+ virtual void SetL1TriggerType( Int_t* v) {for (int i = 0; i < 15; i++) fL1TriggerType[i] = v[i];}
- virtual void L1GammaPatches( TClonesArray& patches ) const { patches = *fL1GammaPatches; }
- virtual TClonesArray* L1GammaPatches( ) const { return fL1GammaPatches; }
- virtual void L1JetPatches( TClonesArray& patches ) const { patches = *fL1JetPatches; }
- virtual TClonesArray* L1JetPatches( ) const { return fL1JetPatches; }
- virtual void L1Region( Int_t arr[][64] ) const { for (Int_t i=0;i<48;i++) for (Int_t j=0;j<64;j++) { arr[i][j] = fL1Region[i][j]; } }
- virtual Int_t* L1V0( ) { return &fL1V0[0]; }
- virtual void L1RegionSize( TVector2& size ) const { size = fL1RegionSize; }
- virtual TVector2 L1RegionSize( ) const { return fL1RegionSize; }
- virtual void L1GammaPatchSize( TVector2& size ) const { size = fL1GammaPatchSize; }
- virtual TVector2 L1GammaPatchSize( ) const { return fL1GammaPatchSize; }
- virtual void L1GammaSubRegionSize( TVector2& size ) const { size = fL1GammaSubRegionSize; }
- virtual TVector2 L1GammaSubRegionSize( ) const { return fL1GammaSubRegionSize; }
- virtual void L1JetPatchSize( TVector2& size ) const { size = fL1JetPatchSize; }
- virtual TVector2 L1JetPatchSize( ) const { return fL1JetPatchSize; }
- virtual void L1JetSubRegionSize( TVector2& size ) const { size = fL1JetSubRegionSize; }
- virtual TVector2 L1JetSubRegionSize( ) const { return fL1JetSubRegionSize; }
+ virtual void SetL1DataDecoded( Int_t v) { fL1DataDecoded = v;}
+ virtual void SetL1RawData( Int_t v) { fL1RawData = v;}
- virtual void Scan() const;
+ virtual void GetL0Trigger( Int_t i, Int_t j, Int_t& k ) const { k = fL0Trigger[i][j];}
+ virtual Int_t GetL0Trigger( Int_t i, Int_t j ) const {return fL0Trigger[i][j];}
+
+ virtual Int_t GetL1GammaThreshold(int i) const {return fL1GammaThreshold[i];}
+ virtual Int_t GetL1JetThreshold( int i) const {return fL1JetThreshold[i];}
+ virtual void GetL1V0( Int_t v[]) const {for (int i = 0; i < 2; i++) v[i] = fL1V0[i];}
+ virtual Int_t GetL1FrameMask( ) const {return fL1FrameMask;}
+ virtual void GetL1TriggerType( Int_t v[]) const {for (int i = 0; i < 15; i++) v[i] = fL1TriggerType[i];}
+
+ virtual Int_t GetL1DataDecoded( ) const {return fL1DataDecoded;}
+ virtual Int_t GetL1RawData( ) const {return fL1RawData;}
- virtual void Reset();
+ virtual Int_t GetMode() const {return fMode;}
+
+ virtual void Scan() const;
+ virtual void Reset();
private:
AliEMCALTriggerData(const AliEMCALTriggerData& rhs); // NOT implemented
AliEMCALTriggerData& operator=(const AliEMCALTriggerData& rhs); // NOT implemented
- TClonesArray* fL0Patches; // array of patches
- Int_t fL0NPatches[32];
- TVector2 fL0RegionSize; // region size in units of fast or
- TVector2 fL0SubRegionSize; // subregion size in units of fast or
- TVector2 fL0PatchSize; // patch size in units of subregion
+ Int_t fMode; // Simulation/Raw
- TClonesArray* fL1GammaPatches; // array of patches
- TClonesArray* fL1JetPatches; // array of patches
- Int_t fL1Region[48][64]; // STU FastOR 48-by-124
- Int_t fL1V0[2]; // V0A V0C multiplicity estimates
- TVector2 fL1RegionSize; // region size in units of fast or
- TVector2 fL1GammaPatchSize; // patch size in units of subregion
- TVector2 fL1GammaSubRegionSize; // subregion size in units of fast or
- TVector2 fL1JetPatchSize; // patch size in units of subregion
- TVector2 fL1JetSubRegionSize; // subregion size in units of fast or
+ Int_t fL0Trigger[2][32]; // Triggering TRU
+
+ Int_t fL1GammaThreshold[2]; // L1-g threshold
+ Int_t fL1JetThreshold[2]; // L1-j threshold
+
+ Int_t fL1V0[2]; // V0 charges
+ Int_t fL1FrameMask; // Frame mask
+ Int_t fL1TriggerType[15]; // Trigger type
- ClassDef(AliEMCALTriggerData,1)
+ Int_t fL1DataDecoded; // Raw data decoded
+ Int_t fL1RawData; // Raw data
+
+ ClassDef(AliEMCALTriggerData,2)
};
#endif