[u/mrichter/AliRoot.git] / EMCAL / AliEMCALTriggerData.h

#ifndef ALIEMCALTRIGGERDATA_H
#define ALIEMCALTRIGGERDATA_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

/*
EMCal trigger data container
for persistency of produced data presently stored in TTreeD
Author: R. GUERNANE LPSC Grenoble CNRS/IN2P3
*/

#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 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 SetL0Peaks(Int_t v, Int_t arr[96][2] ) { for (Int_t i=0;i<96;i++) for (Int_t j=0;j<2;j++) fL0Peaks[v][i][j] = arr[i][j]; }
	
	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          L0Peaks(    Int_t arr[32][96][2]       ) const { 
		for (Int_t i=0;i<32;i++) for (Int_t j=0;j<96;j++) for (Int_t k=0;k<2;k++) arr[i][j][k] = fL0Peaks[i][j][k]; }

	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 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          fL0Peaks[32][96][2];   // max & pos of the max for ADC channels
	
	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 
	
	ClassDef(AliEMCALTriggerData,1)
};

#endif
Commit	Line	Data
916f1e76	1	#ifndef ALIEMCALTRIGGERDATA_H
	2	#define ALIEMCALTRIGGERDATA_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/*
	7	EMCal trigger data container
	8	for persistency of produced data presently stored in TTreeD
	9	Author: R. GUERNANE LPSC Grenoble CNRS/IN2P3
	10	*/
	11
	12	#include <TObject.h>
	13	#include <TVector2.h>
	14
	15	//#include <TObjArray.h>
	16	//#include <Riostream.h>
	17
	18	#include <TClonesArray.h>
	19
	20	class AliEMCALTriggerData : public TObject
	21	{
	22
	23	public:
	24	AliEMCALTriggerData();
	25	virtual ~AliEMCALTriggerData();
	26
	27	virtual void SetL0Patches(Int_t i, const TClonesArray& patches);
	28	virtual void SetL0RegionSize( TVector2 size ) { fL0RegionSize = size; }
	29	virtual void SetL0SubRegionSize( TVector2 size ) { fL0SubRegionSize = size; }
	30	virtual void SetL0PatchSize( TVector2 size ) { fL0PatchSize = size; }
	31	virtual void SetL0Peaks(Int_t v, Int_t arr[96][2] ) { for (Int_t i=0;i<96;i++) for (Int_t j=0;j<2;j++) fL0Peaks[v][i][j] = arr[i][j]; }
	32
	33	virtual void SetL1GammaPatches(const TClonesArray& patches);
	34	virtual void SetL1JetPatches(const TClonesArray& patches);
	35
	36	virtual void SetL1Region(Int_t**& region);
	37	virtual void SetL1V0(const Int_t*& arr);
	38
	39	virtual void SetL1RegionSize( TVector2 size ) { fL1RegionSize = size; }
	40	virtual void SetL1GammaPatchSize( TVector2 size ) { fL1GammaPatchSize = size; }
	41	virtual void SetL1GammaSubRegionSize( TVector2 size ) { fL1GammaSubRegionSize = size; }
	42	virtual void SetL1JetPatchSize( TVector2 size ) { fL1JetPatchSize = size; }
	43	virtual void SetL1JetSubRegionSize( TVector2 size ) { fL1JetSubRegionSize = size; }
	44
	45	virtual void L0Patches( TClonesArray& patches ) const { patches = *fL0Patches; }
	46	virtual TClonesArray* L0Patches( ) const { return fL0Patches; }
	47	virtual void L0RegionSize( TVector2 size ) const { size = fL0RegionSize; }
	48	virtual TVector2 L0RegionSize( ) const { return fL0RegionSize; }
	49	virtual void L0PatchSize( TVector2 size ) const { size = fL0PatchSize; }
	50	virtual TVector2 L0PatchSize( ) const { return fL0PatchSize; }
	51	virtual void L0SubRegionSize( TVector2 size ) const { size = fL0SubRegionSize; }
	52	virtual TVector2 L0SubRegionSize( ) const { return fL0SubRegionSize; }
	53	virtual void L0NPatches( Int_t arr[32] ) const { for (Int_t i=0;i<32;i++) arr[i] = fL0NPatches[i]; }
	54	virtual void L0Peaks( Int_t arr[32][96][2] ) const {
	55	for (Int_t i=0;i<32;i++) for (Int_t j=0;j<96;j++) for (Int_t k=0;k<2;k++) arr[i][j][k] = fL0Peaks[i][j][k]; }
	56
	57	virtual void L1GammaPatches( TClonesArray& patches ) const { patches = *fL1GammaPatches; }
	58	virtual TClonesArray* L1GammaPatches( ) const { return fL1GammaPatches; }
	59	virtual void L1JetPatches( TClonesArray& patches ) const { patches = *fL1JetPatches; }
	60	virtual TClonesArray* L1JetPatches( ) const { return fL1JetPatches; }
	61	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]; } }
	62	virtual Int_t* L1V0( ) { return &fL1V0[0]; }
	63	virtual void L1RegionSize( TVector2& size ) const { size = fL1RegionSize; }
	64	virtual TVector2 L1RegionSize( ) const { return fL1RegionSize; }
65	virtual void L1GammaPatchSize( TVector2& size ) const { size = fL1GammaPatchSize; }
66	virtual TVector2 L1GammaPatchSize( ) const { return fL1GammaPatchSize; }
67	virtual void L1GammaSubRegionSize( TVector2& size ) const { size = fL1GammaSubRegionSize; }
68	virtual TVector2 L1GammaSubRegionSize( ) const { return fL1GammaSubRegionSize; }
69	virtual void L1JetPatchSize( TVector2& size ) const { size = fL1JetPatchSize; }
70	virtual TVector2 L1JetPatchSize( ) const { return fL1JetPatchSize; }
71	virtual void L1JetSubRegionSize( TVector2& size ) const { size = fL1JetSubRegionSize; }
72	virtual TVector2 L1JetSubRegionSize( ) const { return fL1JetSubRegionSize; }
73
74	virtual void Scan() const;
75
76	virtual void Reset();
77
78	private:
79
80	AliEMCALTriggerData(const AliEMCALTriggerData& rhs); // NOT implemented
81	AliEMCALTriggerData& operator=(const AliEMCALTriggerData& rhs); // NOT implemented
82
83	TClonesArray* fL0Patches; // array of patches
84	Int_t fL0NPatches[32];
85	TVector2 fL0RegionSize; // region size in units of fast or
86	TVector2 fL0SubRegionSize; // subregion size in units of fast or
87	TVector2 fL0PatchSize; // patch size in units of subregion
88	Int_t fL0Peaks[32][96][2]; // max & pos of the max for ADC channels
89
90	TClonesArray* fL1GammaPatches; // array of patches
91	TClonesArray* fL1JetPatches; // array of patches
92	Int_t fL1Region[48][64]; // STU FastOR 48-by-124
93	Int_t fL1V0[2]; // V0A V0C multiplicity estimates
94	TVector2 fL1RegionSize; // region size in units of fast or
95	TVector2 fL1GammaPatchSize; // patch size in units of subregion
96	TVector2 fL1GammaSubRegionSize; // subregion size in units of fast or
97	TVector2 fL1JetPatchSize; // patch size in units of subregion
98	TVector2 fL1JetSubRegionSize; // subregion size in units of fast or
99
100	ClassDef(AliEMCALTriggerData,1)
101	};
102
103	#endif