[u/mrichter/AliRoot.git] / AD / AliADRawStream.h

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

///////////////////////////////////////////////////////////////////////////////
///
/// This is a class for reading the AD DDL raw data
/// The format of the raw data corresponds to the one
/// implemented in AliADBuffer class.
///
/// PLEASE NOTE that Int_t channel is here the FEE channel from 0 to 16 in the 
/// not yet defined order which may be not the same order as the order 
/// defined in aliroot by the naming and numbering conventions.
/// Therefore one has to go from FEE_Channel to AliRoot_Channel using 
/// GetOfflineChannel(Int_t channel)  when going from Online to Offline !!!
///
///////////////////////////////////////////////////////////////////////////////

#include <TObject.h>
#include <TMath.h>

class AliRawReader;

class AliADRawStream: public TObject {
  public :
    AliADRawStream(AliRawReader* rawReader);
    virtual ~AliADRawStream();

    virtual void      Reset();
    virtual Bool_t    Next();

// Getters of various scalers and Minimum Bias flags :

   ULong64_t          GetBBScalers(Int_t channel) const  
      { return        fBBScalers[channel]; }
   ULong64_t          GetBGScalers(Int_t channel) const  
      { return        fBGScalers[channel]; }
   UInt_t             GetTriggerScalers(Int_t num_scaler) const 
      { return        fScalers[num_scaler]; }
   UInt_t             GetBunchNumbersMB(Int_t num_bunch) const 
      { return        fBunchNumbers[num_bunch]; }
   UShort_t           GetChargeMB(Int_t channel, Int_t num_bunch) const  
      { return        fChargeMB[channel][num_bunch]; } 
   Bool_t             GetIntMBFlag(Int_t channel, Int_t num_bunch) const   
      { return        fIsIntMB[channel][num_bunch]; } 
   Bool_t             GetBBMBFlag(Int_t channel, Int_t num_bunch) const   
      { return        fIsBBMB[channel][num_bunch]; }  
   Bool_t             GetBGMBFlag(Int_t channel, Int_t num_bunch) const   
      { return        fIsBGMB[channel][num_bunch]; }      
       
// Getters of ADC signals, ADC pedestals, time information and corresponding flags :

    Short_t           GetADC(Int_t channel) const
      { return TMath::MaxElement(kNEvOfInt, fADC[channel]); }    // maximum value instead of central clock
//    { return fADC[channel][kNEvOfInt/2]; }
            
    Short_t           GetPedestal(Int_t channel, Int_t event) const
      { return fADC[channel][event]; }
    Bool_t            GetIntegratorFlag(Int_t channel, Int_t event) const
      { return fIsInt[channel][event]; }
    Bool_t            GetBBFlag(Int_t channel, Int_t event) const
      { return fIsBB[channel][event]; } 
    Bool_t            GetBGFlag(Int_t channel, Int_t event) const
      { return fIsBG[channel][event]; }   
    Short_t           GetTime(Int_t channel) const
      { return fTime[channel]; }
    Short_t           GetWidth(Int_t channel) const
      { return fWidth[channel]; }

    UShort_t          GetTriggerInputs() const
      { return fTrigger; }
    UShort_t          GetTriggerInputsMask() const
      { return fTriggerMask; }

// Getter of Offline Channel number as used in aliroot (defined by aliroot 
// numbering convention) from FEE channel (electronic channel number given 
// by the V0 electronics readout) - See comment above - 

    Int_t              GetOfflineChannel(Int_t channel)  const
      { Int_t  fOfflineChannel[16] = {0,1,2,3,4,5,6,7,
      				      8,9,10,11,12,13,14,15};
               return fOfflineChannel[channel]; }	

    enum EADRawDataParams {
      kNChannels = 16, // number of electronic channels in AD (FEE numbering)
      kNEvOfInt  = 21, // number of events of interest
      kNScalers  = 16, // number of scalers
      kNBunches  = 10  // number of bunches used in Minimum Bias information 
    };

    enum EADRawStreamError {
      kRawDataSizeErr = 1
    };

  private:

    AliADRawStream(const AliADRawStream& stream);
    AliADRawStream& operator = (const AliADRawStream& stream);

    UInt_t GetNextWord();
    UShort_t GetNextShort();

    ULong64_t     fBBScalers[kNChannels];        // 'Beam-Beam' scalers for all channels
    ULong64_t     fBGScalers[kNChannels];        // 'Beam-Gas' scalers for all channels
    UInt_t        fScalers[kNScalers];           // Trigger scalers
    UInt_t        fBunchNumbers[kNBunches];      // Bunch numbers for the previous 10 MB events
    UShort_t      fChargeMB[kNChannels][kNBunches]; // ADC counts for all channels for the previous 10 MB events
    Bool_t        fIsIntMB[kNChannels][kNBunches];  // 'Integrator' flag for all channels for the previous 10 MB events
    Bool_t        fIsBBMB[kNChannels][kNBunches];   // 'Beam-Beam' flag for all channels for the previous 10 MB events
    Bool_t        fIsBGMB[kNChannels][kNBunches];   // 'Beam-Gas' for all channels for the previous 10 MB events

    Short_t       fADC[kNChannels][kNEvOfInt];   // ADC counts for all channels and all events of interest
    Bool_t        fIsInt[kNChannels][kNEvOfInt]; // 'Integrator' flag for all channels 
    Bool_t        fIsBB[kNChannels][kNEvOfInt];  // 'Beam-Beam' flag for all channels
    Bool_t        fIsBG[kNChannels][kNEvOfInt];  // 'Beam-Gas' flag for all channels
    Short_t       fTime[kNChannels];             // leading time for all channels - from HPTDC - in HPTDC units
    Short_t       fWidth[kNChannels];            // pulse width for all channels - from HPTDC - in HPTDC units

    UShort_t      fTrigger;        // AD trigger inputs
    UShort_t      fTriggerMask;    // AD trigger inputs mask

    Int_t         fPosition;       // current position in the raw-data payload
    

    AliRawReader* fRawReader;      // object for reading the raw data

    UChar_t*      fData;           // pointer to raw data payload

    ClassDef(AliADRawStream, 0) // class for reading AD DDL raw data
};

#endif
Commit	Line	Data
8484394b	1	#ifndef ALIADRAWSTREAM_H
	2	#define ALIADRAWSTREAM_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	///////////////////////////////////////////////////////////////////////////////
	7	///
	8	/// This is a class for reading the AD DDL raw data
	9	/// The format of the raw data corresponds to the one
	10	/// implemented in AliADBuffer class.
	11	///
	12	/// PLEASE NOTE that Int_t channel is here the FEE channel from 0 to 16 in the
	13	/// not yet defined order which may be not the same order as the order
	14	/// defined in aliroot by the naming and numbering conventions.
	15	/// Therefore one has to go from FEE_Channel to AliRoot_Channel using
	16	/// GetOfflineChannel(Int_t channel) when going from Online to Offline !!!
	17	///
	18	///////////////////////////////////////////////////////////////////////////////
	19
	20	#include <TObject.h>
	21	#include <TMath.h>
	22
	23	class AliRawReader;
	24
	25	class AliADRawStream: public TObject {
	26	public :
	27	AliADRawStream(AliRawReader* rawReader);
	28	virtual ~AliADRawStream();
	29
	30	virtual void Reset();
	31	virtual Bool_t Next();
	32
	33	// Getters of various scalers and Minimum Bias flags :
	34
	35	ULong64_t GetBBScalers(Int_t channel) const
	36	{ return fBBScalers[channel]; }
	37	ULong64_t GetBGScalers(Int_t channel) const
	38	{ return fBGScalers[channel]; }
	39	UInt_t GetTriggerScalers(Int_t num_scaler) const
	40	{ return fScalers[num_scaler]; }
	41	UInt_t GetBunchNumbersMB(Int_t num_bunch) const
	42	{ return fBunchNumbers[num_bunch]; }
	43	UShort_t GetChargeMB(Int_t channel, Int_t num_bunch) const
	44	{ return fChargeMB[channel][num_bunch]; }
	45	Bool_t GetIntMBFlag(Int_t channel, Int_t num_bunch) const
	46	{ return fIsIntMB[channel][num_bunch]; }
	47	Bool_t GetBBMBFlag(Int_t channel, Int_t num_bunch) const
	48	{ return fIsBBMB[channel][num_bunch]; }
	49	Bool_t GetBGMBFlag(Int_t channel, Int_t num_bunch) const
	50	{ return fIsBGMB[channel][num_bunch]; }
	51
	52	// Getters of ADC signals, ADC pedestals, time information and corresponding flags :
	53
	54	Short_t GetADC(Int_t channel) const
	55	{ return TMath::MaxElement(kNEvOfInt, fADC[channel]); } // maximum value instead of central clock
	56	// { return fADC[channel][kNEvOfInt/2]; }
	57
	58	Short_t GetPedestal(Int_t channel, Int_t event) const
	59	{ return fADC[channel][event]; }
	60	Bool_t GetIntegratorFlag(Int_t channel, Int_t event) const
	61	{ return fIsInt[channel][event]; }
	62	Bool_t GetBBFlag(Int_t channel, Int_t event) const
	63	{ return fIsBB[channel][event]; }
	64	Bool_t GetBGFlag(Int_t channel, Int_t event) const
65	{ return fIsBG[channel][event]; }
66	Short_t GetTime(Int_t channel) const
67	{ return fTime[channel]; }
68	Short_t GetWidth(Int_t channel) const
69	{ return fWidth[channel]; }
70
71	UShort_t GetTriggerInputs() const
72	{ return fTrigger; }
73	UShort_t GetTriggerInputsMask() const
74	{ return fTriggerMask; }
75
76	// Getter of Offline Channel number as used in aliroot (defined by aliroot
77	// numbering convention) from FEE channel (electronic channel number given
78	// by the V0 electronics readout) - See comment above -
79
80	Int_t GetOfflineChannel(Int_t channel) const
81	{ Int_t fOfflineChannel[16] = {0,1,2,3,4,5,6,7,
82	8,9,10,11,12,13,14,15};
83	return fOfflineChannel[channel]; }
84
85	enum EADRawDataParams {
86	kNChannels = 16, // number of electronic channels in AD (FEE numbering)
87	kNEvOfInt = 21, // number of events of interest
88	kNScalers = 16, // number of scalers
89	kNBunches = 10 // number of bunches used in Minimum Bias information
90	};
91
92	enum EADRawStreamError {
93	kRawDataSizeErr = 1
94	};
95
96	private:
97
98	AliADRawStream(const AliADRawStream& stream);
99	AliADRawStream& operator = (const AliADRawStream& stream);
100
101	UInt_t GetNextWord();
102	UShort_t GetNextShort();
103
104	ULong64_t fBBScalers[kNChannels]; // 'Beam-Beam' scalers for all channels
105	ULong64_t fBGScalers[kNChannels]; // 'Beam-Gas' scalers for all channels
106	UInt_t fScalers[kNScalers]; // Trigger scalers
107	UInt_t fBunchNumbers[kNBunches]; // Bunch numbers for the previous 10 MB events
108	UShort_t fChargeMB[kNChannels][kNBunches]; // ADC counts for all channels for the previous 10 MB events
109	Bool_t fIsIntMB[kNChannels][kNBunches]; // 'Integrator' flag for all channels for the previous 10 MB events
110	Bool_t fIsBBMB[kNChannels][kNBunches]; // 'Beam-Beam' flag for all channels for the previous 10 MB events
111	Bool_t fIsBGMB[kNChannels][kNBunches]; // 'Beam-Gas' for all channels for the previous 10 MB events
112
113	Short_t fADC[kNChannels][kNEvOfInt]; // ADC counts for all channels and all events of interest
114	Bool_t fIsInt[kNChannels][kNEvOfInt]; // 'Integrator' flag for all channels
115	Bool_t fIsBB[kNChannels][kNEvOfInt]; // 'Beam-Beam' flag for all channels
116	Bool_t fIsBG[kNChannels][kNEvOfInt]; // 'Beam-Gas' flag for all channels
117	Short_t fTime[kNChannels]; // leading time for all channels - from HPTDC - in HPTDC units
118	Short_t fWidth[kNChannels]; // pulse width for all channels - from HPTDC - in HPTDC units
119
120	UShort_t fTrigger; // AD trigger inputs
121	UShort_t fTriggerMask; // AD trigger inputs mask
122
123	Int_t fPosition; // current position in the raw-data payload
124
125
126	AliRawReader* fRawReader; // object for reading the raw data
127
128	UChar_t* fData; // pointer to raw data payload
129
130	ClassDef(AliADRawStream, 0) // class for reading AD DDL raw data
131	};
132
133	#endif