CalorimeterLevel2/inc/CaloProcessing.h

/**
 * \file inc/CaloProcessing.h
 * \author Emiliano Mocchiutti
**/
#ifndef CaloProcessing_h
#define CaloProcessing_h
#include <TObject.h>
#include <TROOT.h>
//
// YODA headers
//
#include <PamelaRun.h>
#include <RegistryEvent.h>
#include <physics/calorimeter/CalorimeterEvent.h>
#include <CalibCalPedEvent.h>
//
#include <CaloCore.h>
#include <CaloLevel2.h>

/**
 * \brief Class needed to calibrate calorimeter data.
 *
 * Calibrates data and connects to fortran routines using structures.
 *
**/
class CaloProcessing : public TObject {

 private:
    Bool_t debug; ///< debugging flag
    Bool_t verbose; ///< verbose flag
    //
    // variables in which it is stored the calibration information for the four sections
    //
    ULong64_t idcalib[4]; ///< ID of root file containing calibrations (one per section)
    ULong64_t fromtime[4]; ///< lower validity time limit
    ULong64_t totime[4]; ///< upper validity time limit
    Int_t calibno[4]; ///< entry of the file
    TString fcalname[4]; ///< filename of calibrations
    //
    // variables needed to open level0 files
    //
    TTree *l0tr; ///< level0 tree
    TBranch *l0calo; ///< level0 calorimeter branch
    pamela::calorimeter::CalorimeterEvent *de; ///< level0 calorimeter object
    //
    //
    // variables from the calorimeter online calibration
    //
    Float_t calped[2][22][96]; ///< pedestals
    Float_t calgood[2][22][96]; ///< used or not in the common noise calculation
    Float_t calthr[2][22][6]; ///< thresholds
    Float_t calrms[2][22][96]; ///< rms
    Float_t calbase[2][22][6]; ///< baselines (common noise) during calibration
    Float_t calvar[2][22][6]; ///< variance
    Float_t cstwerr[4]; ///< status word
    Float_t cperror[4]; ///< unpacking error flag
    //
    // variables needed to calibrate the calorimeter event by event basis
    //
    Float_t dexy[2][22][96]; ///< compressed ADC data
    Float_t dexyc[2][22][96]; ///< RAW ADC data
    Float_t base[2][22][6]; ///< baselines for this event
    Float_t sbase[2][22][6]; ///< saved baselines from previous events
    //
    // Energy vector
    //
    Int_t istrip; ///< number of strip above threshold
    Float_t svstrip[4224]; ///< saved calibrated energy
    //
    // Variables needed to handle parameters files
    //
    Bool_t calopar1; ///< boolean, is true if parameter set number 1 has already been loaded
    Bool_t calopar2; ///< boolean, is true if parameter set number 2 has already been loaded
    ULong64_t ftcalopar1; ///< parameter set 1 lower limit validity
    ULong64_t ttcalopar1; ///< parameter set 1 upper limit validity
    ULong64_t ftcalopar2; ///< parameter set 2 lower limit validity
    ULong64_t ttcalopar2; ///< parameter set 2 upper limit validity
    //
    // private methods
    //
/**
 * \param s calorimeter section.
**/
    void ClearCalibVals(Int_t s); ///< clear calibration values for section s
    void ClearCommonVar(); ///< clear common variables
    void ClearTrkVar();  ///< clear track-related variables
    void FindBaseRaw(Int_t l, Int_t m, Int_t pre); ///< calculate baselines starting from RAW data
    Int_t Update(TSQLServer *dbc, ULong64_t atime, Int_t s); ///< update calibration for this event
    Int_t LoadCalib(Int_t s); ///< load calibrations

 public:
    //
    // ADC to MIP conversion values
    //
    Float_t mip[2][22][96]; ///< ADC to MIP conversion values
    Float_t emin; ///< Offline threshold to separate noise from signal
    //
    // Structures to pass data from/to F77
    //
    struct FlCaLevel1 *clevel1; ///< input structure
    struct FlCaLevel2 *clevel2; ///< output structure
    //
    //
    //
    Int_t trkseqno; ///< tracker track sequential number (-1 if calorimeter selftrigger)
    //
    // useful methods
    //
    Int_t ChkParam(TSQLServer *dbc, ULong64_t runheader); ///< check and load parameters data
    Int_t ChkCalib(TSQLServer *dbc, ULong64_t atime); ///< check and load calibration data
    Int_t Calibrate(Int_t ei); ///< perform data calibration
    void GetCommonVar(); ///< call fortran common variables program
    void GetTrkVar(); ///< call fortran track-related variables program
    void ClearStructs(); ///< clear input and output structures 
    void FillCommonVar(CaloLevel2 *ca); ///< copy common variables from structure to class
    void FillTrkVar(CaloLevel2 *ca, Int_t nutrk); ///< copy track-related variables from structure to class
    void RunClose(); ///< clear variables which could change from one run to another
    //
    // constructor
    //
    CaloProcessing(); ///< contructor
    void ProcessingInit(TSQLServer *dbc, ULong64_t hs, Int_t &sgnl, TTree *l0tree, Bool_t debug, Bool_t verbose); ///< initialize caloprocessing object
    //
    // virtual destructor
    //
    virtual ~CaloProcessing();
    //
};

#endif
1	mocchiut	1.1	/**
2			* \file inc/CaloProcessing.h
3			* \author Emiliano Mocchiutti
4			**/
5			#ifndef CaloProcessing_h
6			#define CaloProcessing_h
7			#include <TObject.h>
8			#include <TROOT.h>
9			//
10			// YODA headers
11			//
12			#include <PamelaRun.h>
13			#include <RegistryEvent.h>
14			#include <physics/calorimeter/CalorimeterEvent.h>
15			#include <CalibCalPedEvent.h>
16			//
17			#include <CaloCore.h>
18			#include <CaloLevel2.h>
19
20			/**
21			* \brief Class needed to calibrate calorimeter data.
22			*
23			* Calibrates data and connects to fortran routines using structures.
24			*
25			**/
26			class CaloProcessing : public TObject {
27
28			private:
29			Bool_t debug; ///< debugging flag
30			Bool_t verbose; ///< verbose flag
31			//
32			// variables in which it is stored the calibration information for the four sections
33			//
34			ULong64_t idcalib[4]; ///< ID of root file containing calibrations (one per section)
35			ULong64_t fromtime[4]; ///< lower validity time limit
36			ULong64_t totime[4]; ///< upper validity time limit
37			Int_t calibno[4]; ///< entry of the file
38			TString fcalname[4]; ///< filename of calibrations
39			//
40			// variables needed to open level0 files
41			//
42			TTree *l0tr; ///< level0 tree
43			TBranch *l0calo; ///< level0 calorimeter branch
44			pamela::calorimeter::CalorimeterEvent *de; ///< level0 calorimeter object
45			//
46			//
47			// variables from the calorimeter online calibration
48			//
49			Float_t calped[2][22][96]; ///< pedestals
50			Float_t calgood[2][22][96]; ///< used or not in the common noise calculation
51			Float_t calthr[2][22][6]; ///< thresholds
52			Float_t calrms[2][22][96]; ///< rms
53			Float_t calbase[2][22][6]; ///< baselines (common noise) during calibration
54			Float_t calvar[2][22][6]; ///< variance
55			Float_t cstwerr[4]; ///< status word
56			Float_t cperror[4]; ///< unpacking error flag
57			//
58			// variables needed to calibrate the calorimeter event by event basis
59			//
60			Float_t dexy[2][22][96]; ///< compressed ADC data
61			Float_t dexyc[2][22][96]; ///< RAW ADC data
62			Float_t base[2][22][6]; ///< baselines for this event
63			Float_t sbase[2][22][6]; ///< saved baselines from previous events
64			//
65			// Energy vector
66			//
67			Int_t istrip; ///< number of strip above threshold
68			Float_t svstrip[4224]; ///< saved calibrated energy
69			//
70			// Variables needed to handle parameters files
71			//
72			Bool_t calopar1; ///< boolean, is true if parameter set number 1 has already been loaded
73			Bool_t calopar2; ///< boolean, is true if parameter set number 2 has already been loaded
74			ULong64_t ftcalopar1; ///< parameter set 1 lower limit validity
75			ULong64_t ttcalopar1; ///< parameter set 1 upper limit validity
76			ULong64_t ftcalopar2; ///< parameter set 2 lower limit validity
77			ULong64_t ttcalopar2; ///< parameter set 2 upper limit validity
78			//
79			// private methods
80			//
81			/**
82			* \param s calorimeter section.
83			**/
84			void ClearCalibVals(Int_t s); ///< clear calibration values for section s
85			void ClearCommonVar(); ///< clear common variables
86			void ClearTrkVar(); ///< clear track-related variables
87			void FindBaseRaw(Int_t l, Int_t m, Int_t pre); ///< calculate baselines starting from RAW data
88			Int_t Update(TSQLServer *dbc, ULong64_t atime, Int_t s); ///< update calibration for this event
89			Int_t LoadCalib(Int_t s); ///< load calibrations
90
91			public:
92			//
93			// ADC to MIP conversion values
94			//
95			Float_t mip[2][22][96]; ///< ADC to MIP conversion values
96			Float_t emin; ///< Offline threshold to separate noise from signal
97			//
98			// Structures to pass data from/to F77
99			//
100			struct FlCaLevel1 *clevel1; ///< input structure
101			struct FlCaLevel2 *clevel2; ///< output structure
102			//
103			//
104			//
105			Int_t trkseqno; ///< tracker track sequential number (-1 if calorimeter selftrigger)
106			//
107			// useful methods
108			//
109			Int_t ChkParam(TSQLServer *dbc, ULong64_t runheader); ///< check and load parameters data
110			Int_t ChkCalib(TSQLServer *dbc, ULong64_t atime); ///< check and load calibration data
111			Int_t Calibrate(Int_t ei); ///< perform data calibration
112			void GetCommonVar(); ///< call fortran common variables program
113			void GetTrkVar(); ///< call fortran track-related variables program
114			void ClearStructs(); ///< clear input and output structures
115			void FillCommonVar(CaloLevel2 *ca); ///< copy common variables from structure to class
116			void FillTrkVar(CaloLevel2 *ca, Int_t nutrk); ///< copy track-related variables from structure to class
117			void RunClose(); ///< clear variables which could change from one run to another
118			//
119			// constructor
120			//
121			CaloProcessing(); ///< contructor
122	mocchiut	1.2	void ProcessingInit(TSQLServer dbc, ULong64_t hs, Int_t &sgnl, TTree l0tree, Bool_t debug, Bool_t verbose); ///< initialize caloprocessing object
123	mocchiut	1.1	//
124			// virtual destructor
125			//
126			virtual ~CaloProcessing();
127			//
128			};
129
130			#endif