[u/mrichter/AliRoot.git] / ZDC / AliZDCRawStream.h

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

/* $Id$ */

//////////////////////////////////////////////////
//						//
//  Class to provide access to ZDC raw data	//
//  Author: Chiara Oppedisano			//
//						//
//////////////////////////////////////////////////

#include <TObject.h>
#include "AliCDBManager.h"
#include "AliCDBStorage.h"
#include "AliZDCChMap.h"

class AliRawReader;
class AliRawDataHeader;


class AliZDCRawStream: public TObject {
  public :
    
    // Module type codes
    enum ZDCModules{kV965=1, kV830=2, kTRG=3, kTRGI=4, kPU=5, KV1290=6, kV775N=7}; 
    
    // Module type codes
    enum ZDCGeoAddr{kFirstADCGeo=0, kLastADCGeo=3, kADDADCGeo=5,
  	 kTDCFakeGeo=8, kZDCTDCGeo=4, kADDTDCGeo=6,
	 kScalerGeo=16, kPUGeo=29, kTrigScales=30, kTrigHistory=31};
    
    // Signal codes for ZDC 
    // Same codes used in DAQ configuration file
    // To be changed ONLY IF this file is changed!!! 
    // **** DO NOT CHANGE THE FOLLOWING LINES!!! ****
    enum ZDCSignal{
         kNotConnected=0, kVoid=1,
	 kZNAC=2, kZNA1=3, kZNA2=4, kZNA3=5, kZNA4=6,
	 kZPAC=7, kZPA1=8, kZPA2=9, kZPA3=10, kZPA4=11,
	 kZNCC=12, kZNC1=13, kZNC2=14, kZNC3=15, kZNC4=16,
	 kZPCC=17, kZPC1=18, kZPC2=19, kZPC3=20, kZPC4=21,
	 kZEM1=22, kZEM2=23,
	 kZDCAMon=24, kZDCCMon=25,
	 kZNACoot=26, kZNA1oot=27, kZNA2oot=28, kZNA3oot=29, kZNA4oot=30,
	 kZPACoot=31, kZPA1oot=32, kZPA2oot=33, kZPA3oot=34, kZPA4oot=35,
	 kZNCCoot=36, kZNC1oot=37, kZNC2oot=38, kZNC3oot=39, kZNC4oot=40,
	 kZPCCoot=41, kZPC1oot=42, kZPC2oot=43, kZPC3oot=44, kZPC4oot=45,
	 kZEM1oot=46, kZEM2oot=47,
	 kZDCAMonoot=48, kZDCCMonoot=49,
	 kL1MBI=50, kL1CNI=51, kL1SCI=52, kL1EMDI=53, kL0I=54, 
	 kL1MBO=55, kL1CNO=56, kL1SCO=57, kL1EMDO=58, 
	 kHMBCN=59, kHSCEMD=60,
	 kZNACD=61, kZNA1D=62, kZNA2D=63, kZNA3D=64, kZNA4D=65,
	 kZPACD=66, kZPA1D=67, kZPA2D=68, kZPA3D=69, kZPA4D=70,
	 kZNCCD=71, kZNC1D=72, kZNC2D=73, kZNC3D=74, kZNC4D=75,
	 kZPCCD=76, kZPC1D=77, kZPC2D=78, kZPC3D=79, kZPC4D=80,
	 kZEM1D=81, kZEM2D=82,
	 kZDCAMonD=83, kZDCCMonD=84,
	 kZNAD=85, kZPAD=86, kZNCD=87, kZPCD=88, kZEMD=89,
         kZNA0D=90, kZPA0D=91, kZNC0D=92, kZPC0D=93, k1kHzD=94, kGate=95, kAD=96, kCD=97, 
	 kAorCD=98, kAandCD=99, kZEMORD=100, kAorCorZEMORD=101, kAorCorZEMD=102, kAD0=103, kAD1=104, kAD2=105, 
	 kAD3=106, kAD4=107, kAD5=108, kAD6=109, kAD7=110, kAD8=111, kAD9=112, kAD10=113, 
	 kAD11=114, kAD12=115, kAD13=116, kAD14=117, kAD15=118, kAD0D=119, kAD1D=120, kAD2D=121,
	 kAD3D=122, kAD4D=123, kAD5D=124, kAD6D=125, kAD7D=126, kAD8D=127, kAD9D=128, kAD10D=129,
	 kAD11D=130, kAD12D=131, kAD13D=132, kAD14D=133, kAD15D=134
	 };
    
    // Error codes in raw data streaming
    enum EZDCRawStreamError{
       kCDHError = 1,
       kDARCError = 2,
       kZDCDataError = 3,
       kInvalidADCModule = 4,
       kInvalidSector = 5};
	 
    AliZDCRawStream(AliRawReader* rawReader); 
    virtual ~AliZDCRawStream();
    virtual Bool_t   Next();
    
    virtual void ReadChMap();

    virtual void ReadCDHHeader();

    UInt_t GetRawBuffer()      const {return fBuffer;}
    Int_t  GetReadOutCard()    const {return fReadOutCard;}
    
    Int_t  GetDeadfaceOffset() const {return fDeadfaceOffset;}
    Int_t  GetDeadbeefOffset() const {return fDeadbeefOffset;}
    Int_t  GetDataOffset()     const {return fDataOffset;}

    Int_t  GetSector(Int_t i) const {return fSector[i];}
    Int_t  GetModType()       const {return fModType;}
    Int_t  GetADCModule()     const {return fADCModule;}
    Int_t  GetADCNChannels()  const {return fADCNChannels;}
    Int_t  GetADCChannel()    const {return fADCChannel;}
    Int_t  GetADCValue()      const {return fADCValue;}
    Int_t  GetADCGain()       const {return fADCGain;}

    Int_t  GetModuleGEO()     const {return fADCModule;}
    Int_t  GetChannel()       const {return fADCChannel;}
    
    Bool_t IsZDCTDCHeader()   const {return fIsZDCTDCHeader;}
    Bool_t IsZDCTDCDatum()    const {return fIsZDCTDCdatum;}
    Int_t  GetZDCTDCDatum()   const {return fZDCTDCdatum;}
    
    Bool_t IsADDADCChannel()  const {return fIsADDChannel;}
    Int_t  GetADDADCDatum()   const {return fADDADCdatum;}
    Bool_t IsADDTDCdatum()    const {return fIsADDTDCdatum;}
    Int_t  GetADDTDCDatum()   const {return fADDTDCdatum;}
    
    AliCDBStorage *SetStorage(const char* uri);

    // Map from OCDB
    AliZDCChMap   *GetChMap() const;
    //  ADC map
    Int_t  GetNChannelsOn()	       const {return fNChannelsOn;}
    Int_t  GetCabledSignal()           const {return fCabledSignal;}
    Int_t  GetADCModFromMap(Int_t i)   const {return fMapADC[i][0];}
    Int_t  GetADCChFromMap(Int_t i)    const {return fMapADC[i][1];}
    Int_t  GetADCSignFromMap(Int_t i)  const {return fMapADC[i][2];}
    Int_t  GetDetectorFromMap(Int_t i) const {return fMapADC[i][3];}
    Int_t  GetTowerFromMap(Int_t i)    const {return fMapADC[i][4];}
    //  Scaler map
    Int_t  GetScalerModFromMap(Int_t i)  const {return fScalerMap[i][0];}
    Int_t  GetScalerChFromMap(Int_t i)   const {return fScalerMap[i][1];}
    Int_t  GetScalerSignFromMap(Int_t i) const {return fScalerMap[i][2];}
    Int_t  GetScDetectorFromMap(Int_t i) const {return fScalerMap[i][3];}
    Int_t  GetScTowerFromMap(Int_t i)    const {return fScalerMap[i][4];}
    
    Bool_t IsCalibration()   const {return fIsCalib;}
    Bool_t IsDARCHeader()    const {return fIsDARCHeader;}
    Bool_t IsHeaderMapping() const {return fIsHeaderMapping;}
    Bool_t IsChMapping()     const {return fIsChMapping;}
    Bool_t IsADCDataWord()   const {return fIsADCDataWord;}
    Bool_t IsADCHeader()     const {return fIsADCHeader;}
    Bool_t IsADCEOB()	     const {return fIsADCEOB;}
    Bool_t IsUnderflow()     const {return fIsUnderflow;}
    Bool_t IsOverflow()      const {return fIsOverflow;}
    
    UInt_t GetScGeo()           const {return fScGeo;}	    
    UInt_t GetScNWords()        const {return fScNWords;}	    
    UInt_t GetScTriggerSource() const {return fScTriggerSource;}	    
    UInt_t GetTriggerNumber()   const {return fScTriggerNumber;}
    UInt_t GetTriggerCount()    const {return fScEvCounter;}
    Bool_t IsScHeaderRead()     const {return fIsScHeaderRead;}
    Bool_t IsScEventGood()      const {return fIsScEventGood;}
    Bool_t IsScalerWord()       const {return fIsScalerWord;}
    
    UInt_t GetDetectorPattern() const {return fDetPattern;}
    
    Bool_t IstriggerHistoryWord() const {return fIsTriggerHistory;}
    Int_t  GetTriggerInput2CTP() const {return *fCPTInput;}
    Bool_t IsCPTInputMBTrigger() 
    	{if(fCPTInput[0]==1) return kTRUE; else return kFALSE;}
    Bool_t IsCPTInputCentralTrigger()
    	{if(fCPTInput[1]==1) return kTRUE; else return kFALSE;}
    Bool_t IsCPTInputSemiCentralTrigger()
    	{if(fCPTInput[2]==1) return kTRUE; else return kFALSE;}
    Bool_t IsCPTInputEMDTrigger()
    	{if(fCPTInput[3]==1) return kTRUE; else return kFALSE;}
    
    Bool_t IsADCEventGood() const {return fIsADCEventGood;} 
    Bool_t IsL0BitSet()     const {return fIsL0BitSet;}  
    Bool_t IsPileUpEvent()  const {return fIsPileUpEvent;} 
    
    void SetNChannelsOn(Int_t val) {fNChannelsOn = val;}
    void SetSector(Int_t i, Int_t val) {fSector[i] = val;}
    void SetMapADCMod(Int_t iraw, Int_t imod) {fMapADC[iraw][0]=imod;}
    void SetMapADCCh(Int_t iraw, Int_t ich)   {fMapADC[iraw][1]=ich;}
    void SetMapADCSig(Int_t iraw, Int_t isig) {fMapADC[iraw][2]=isig;}
    void SetMapDet(Int_t iraw, Int_t idet)    {fMapADC[iraw][3]=idet;}
    void SetMapTow(Int_t iraw, Int_t itow)    {fMapADC[iraw][4]=itow;}
    
    void SetSODReading(Bool_t iset) {fSODReading = iset;}
     
  private :
    AliZDCRawStream(const AliZDCRawStream& stream);
    AliZDCRawStream& operator = (const AliZDCRawStream& stream);

    AliRawReader* fRawReader;    // object for reading the raw data
    
    // Data for buffer decoding
    UInt_t fBuffer;	      // [DARC header +] ADC buffer
    Int_t  fReadOutCard;      // 0 for DARC, 1 for ZRC
    UInt_t fEvType;	      // Event type
    Int_t  fPosition;	      // bit position in buffer data word
    
    // Boolean variables indicating data type
    Bool_t fIsCalib;	      // True when calibration run
    Bool_t fIsDARCHeader;     // True when DARC header
    Bool_t fIsHeaderMapping;  // True when reading header mapping
    Bool_t fIsChMapping;      // True when reading ch. mapping
    Bool_t fIsADCDataWord;    // True when data word
    Bool_t fIsADCHeader;      // True when ADC header
    Bool_t fIsADCEOB;	      // True when EOB
    Bool_t fSODReading;	      // True when reading SOD (DA)
    Bool_t fIsMapRead; 	      // True if map is already read
    
    Int_t  fDeadfaceOffset;   // deadface offset
    Int_t  fDeadbeefOffset;   // deadbeef offset
    Int_t  fDataOffset;       // data offset
        
    // ADC signal
    Int_t  fSector[2];    // [detector, sector]
    Int_t  fModType;	  // Module type
    Int_t  fADCModule;    // ADC module = GEO address for scaler, trigger card, P.U.
    Int_t  fADCNChannels; // number of ADC ch.
    Int_t  fADCChannel;   // ADC channel = ch. for scaler, trigger card, P.U.
    Int_t  fADCValue;	  // ADC channel
    Int_t  fADCGain;	  // ADC gain (0=high range; 1=low range)
    Bool_t fIsUnderflow;  // ADC underflow
    Bool_t fIsOverflow;   // ADC overflow
    
    // Scaler
    UInt_t fScGeo;           // scaler GEO address
    UInt_t fScNWords;        // no. of words in scaler event
    UInt_t fScTriggerSource; // Trigger source 
    UInt_t fScTriggerNumber; // no. of triggers
    Bool_t fIsScEventGood;   // true if scaler event is good
    Bool_t fIsScHeaderRead;  // true if scaler header is read
    Int_t  fScStartCounter;  // position in the buffer where scaler data begins
    UInt_t fScEvCounter;     // event counter
    Bool_t fIsScalerWord;    // is scaler word (not header)
    
    // Pattern Unit
    UInt_t fDetPattern;  // word from the pattern unit
    
    // Trigger card
    // (1) trigger counts
    Int_t  fTrigCountNWords;  // no. of words to read from trigger card scalers
    Bool_t fIsTriggerScaler;  // Trigger card scalers - 1st word read
    Int_t  fTrigCountStart;   // Trigger card scalers - counter
    Int_t  fMBTrigInput;      // MB          trigger input to trigger card
    Int_t  fCentralTrigInput; // CENTRAL     trigger input to trigger card
    Int_t  fSCentralTrigInput;// SEMICENTRAL trigger input to trigger card
    Int_t  fEMDTrigInput;     // EMD	     trigger input to trigger card
    Int_t  fL0Received;       // L0 received by the trigger card
    Int_t  fMBtrig2CTP;       // trigger input to the CTP for MB
    Int_t  fCentralTrig2CTP;  // trigger input to the CTP for CENTRAL
    Int_t  fSCentralTrig2CTP; // trigger input to the CTP for SEMICENTRAL
    Int_t  fEMDTrig2CTP;      // trigger input to the CTP for EMD
    // (2) trigger history
    Int_t  fTrigHistNWords;   // no. of words to read from trigger history data
    Bool_t fIsTriggerHistory; // Trigger history - 1st word read
    Int_t  fTrigHistStart;    // Trigger card history - counter
    Int_t  fPileUpBit1stWord; // Pile up bit from 1st word
    Int_t  fL0Bit1stWord;     // L0 bit from 1st word
    UInt_t fCentralTrigHist;  // history for CENTRAL trigger
    UInt_t fMBTrigHist;       // history for CENTRAL trigger
    Int_t  fPileUpBit2ndWord; // Pile up bit from 2nd word
    Int_t  fL0Bit2ndWord;     // L0 bit from 2nd word
    UInt_t fSCentralTrigHist; // history for SEMICENTRAL trigger
    UInt_t fEMDTrigHist;      // history for EMD trigger
    Int_t  fCPTInput[4];      // Trigger sent to the CTP
    
    // Channel mapping 
    Int_t fNChannelsOn;      // No. of signals/ADC ch. used
    Int_t fCurrentCh;	     // current mapped ADC ch.
    Int_t fCabledSignal;     // physics signal (from enum)
    Int_t fMapADC[48][5];    // ADC map {ADC mod., ch., signal, det., sec.}
    Int_t fCurrScCh;	     // current mapped scaler ch.
    Int_t fScalerMap[32][5]; // Scaler map {Scaler mod., ch., signal, det., sec.}
    
    // Checks over raw data event quality
    Bool_t fIsADCEventGood; // true if not valid datum not corrupted
    Bool_t fIsL0BitSet;     // true if L0 bit in history words = 1 
    Bool_t fIsPileUpEvent;  // true if pile up bits in history words = 0
    
    // ADD ADC
    Bool_t fIsADDChannel;   // true if datum is an ADD ADC channel
    Int_t  fADDADCdatum;    // ADD ADC datum
    
    // TDCs
    Bool_t fIsTDCHeaderRead; // true when streaming one of the 2 TDCs
    Int_t  fTDCStartCounter; // counts after a TDC header
    //
    Bool_t fIsZDCTDCHeader;  // true if datum is a ZDC TDC header
    Bool_t fIsZDCTDCdatum;   // true if the current is a TDC datum
    Int_t  fZDCTDCdatum;     // datum for ZDC TDC
    //
    Bool_t fIsADDTDCHeader;  // true if datum is an ADD TDC channel
    Bool_t fIsADDTDCdatum;   // true when streaming ADD TDC data
    Int_t  fADDTDCdatum;     // datum for ADD TDC
   
    ClassDef(AliZDCRawStream, 19)    // class for reading ZDC raw data
};

#endif
Commit	Line	Data
	1	#ifndef ALIZDCRAWSTREAM_H
	2	#define ALIZDCRAWSTREAM_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/* $Id$ */
	7
	8	//////////////////////////////////////////////////
	9	// //
	10	// Class to provide access to ZDC raw data //
	11	// Author: Chiara Oppedisano //
	12	// //
	13	//////////////////////////////////////////////////
	14
	15	#include <TObject.h>
	16	#include "AliCDBManager.h"
	17	#include "AliCDBStorage.h"
	18	#include "AliZDCChMap.h"
	19
	20	class AliRawReader;
	21	class AliRawDataHeader;
	22
	23
	24	class AliZDCRawStream: public TObject {
	25	public :
	26
	27	// Module type codes
	28	enum ZDCModules{kV965=1, kV830=2, kTRG=3, kTRGI=4, kPU=5, KV1290=6, kV775N=7};
	29
	30	// Module type codes
	31	enum ZDCGeoAddr{kFirstADCGeo=0, kLastADCGeo=3, kADDADCGeo=5,
	32	kTDCFakeGeo=8, kZDCTDCGeo=4, kADDTDCGeo=6,
	33	kScalerGeo=16, kPUGeo=29, kTrigScales=30, kTrigHistory=31};
	34
	35	// Signal codes for ZDC
	36	// Same codes used in DAQ configuration file
	37	// To be changed ONLY IF this file is changed!!!
	38	// ** DO NOT CHANGE THE FOLLOWING LINES!!! **
	39	enum ZDCSignal{
	40	kNotConnected=0, kVoid=1,
	41	kZNAC=2, kZNA1=3, kZNA2=4, kZNA3=5, kZNA4=6,
	42	kZPAC=7, kZPA1=8, kZPA2=9, kZPA3=10, kZPA4=11,
	43	kZNCC=12, kZNC1=13, kZNC2=14, kZNC3=15, kZNC4=16,
	44	kZPCC=17, kZPC1=18, kZPC2=19, kZPC3=20, kZPC4=21,
	45	kZEM1=22, kZEM2=23,
	46	kZDCAMon=24, kZDCCMon=25,
	47	kZNACoot=26, kZNA1oot=27, kZNA2oot=28, kZNA3oot=29, kZNA4oot=30,
	48	kZPACoot=31, kZPA1oot=32, kZPA2oot=33, kZPA3oot=34, kZPA4oot=35,
	49	kZNCCoot=36, kZNC1oot=37, kZNC2oot=38, kZNC3oot=39, kZNC4oot=40,
	50	kZPCCoot=41, kZPC1oot=42, kZPC2oot=43, kZPC3oot=44, kZPC4oot=45,
	51	kZEM1oot=46, kZEM2oot=47,
	52	kZDCAMonoot=48, kZDCCMonoot=49,
	53	kL1MBI=50, kL1CNI=51, kL1SCI=52, kL1EMDI=53, kL0I=54,
	54	kL1MBO=55, kL1CNO=56, kL1SCO=57, kL1EMDO=58,
	55	kHMBCN=59, kHSCEMD=60,
	56	kZNACD=61, kZNA1D=62, kZNA2D=63, kZNA3D=64, kZNA4D=65,
	57	kZPACD=66, kZPA1D=67, kZPA2D=68, kZPA3D=69, kZPA4D=70,
	58	kZNCCD=71, kZNC1D=72, kZNC2D=73, kZNC3D=74, kZNC4D=75,
	59	kZPCCD=76, kZPC1D=77, kZPC2D=78, kZPC3D=79, kZPC4D=80,
	60	kZEM1D=81, kZEM2D=82,
	61	kZDCAMonD=83, kZDCCMonD=84,
	62	kZNAD=85, kZPAD=86, kZNCD=87, kZPCD=88, kZEMD=89,
	63	kZNA0D=90, kZPA0D=91, kZNC0D=92, kZPC0D=93, k1kHzD=94, kGate=95, kAD=96, kCD=97,
	64	kAorCD=98, kAandCD=99, kZEMORD=100, kAorCorZEMORD=101, kAorCorZEMD=102, kAD0=103, kAD1=104, kAD2=105,
	65	kAD3=106, kAD4=107, kAD5=108, kAD6=109, kAD7=110, kAD8=111, kAD9=112, kAD10=113,
	66	kAD11=114, kAD12=115, kAD13=116, kAD14=117, kAD15=118, kAD0D=119, kAD1D=120, kAD2D=121,
	67	kAD3D=122, kAD4D=123, kAD5D=124, kAD6D=125, kAD7D=126, kAD8D=127, kAD9D=128, kAD10D=129,
	68	kAD11D=130, kAD12D=131, kAD13D=132, kAD14D=133, kAD15D=134
	69	};
	70
	71	// Error codes in raw data streaming
	72	enum EZDCRawStreamError{
	73	kCDHError = 1,
	74	kDARCError = 2,
	75	kZDCDataError = 3,
	76	kInvalidADCModule = 4,
	77	kInvalidSector = 5};
	78
	79	AliZDCRawStream(AliRawReader* rawReader);
	80	virtual ~AliZDCRawStream();
	81	virtual Bool_t Next();
	82
	83	virtual void ReadChMap();
	84
	85	virtual void ReadCDHHeader();
	86
	87	UInt_t GetRawBuffer() const {return fBuffer;}
	88	Int_t GetReadOutCard() const {return fReadOutCard;}
	89
	90	Int_t GetDeadfaceOffset() const {return fDeadfaceOffset;}
	91	Int_t GetDeadbeefOffset() const {return fDeadbeefOffset;}
	92	Int_t GetDataOffset() const {return fDataOffset;}
	93
	94	Int_t GetSector(Int_t i) const {return fSector[i];}
	95	Int_t GetModType() const {return fModType;}
	96	Int_t GetADCModule() const {return fADCModule;}
	97	Int_t GetADCNChannels() const {return fADCNChannels;}
	98	Int_t GetADCChannel() const {return fADCChannel;}
	99	Int_t GetADCValue() const {return fADCValue;}
	100	Int_t GetADCGain() const {return fADCGain;}
	101
	102	Int_t GetModuleGEO() const {return fADCModule;}
	103	Int_t GetChannel() const {return fADCChannel;}
	104
	105	Bool_t IsZDCTDCHeader() const {return fIsZDCTDCHeader;}
	106	Bool_t IsZDCTDCDatum() const {return fIsZDCTDCdatum;}
	107	Int_t GetZDCTDCDatum() const {return fZDCTDCdatum;}
	108
	109	Bool_t IsADDADCChannel() const {return fIsADDChannel;}
	110	Int_t GetADDADCDatum() const {return fADDADCdatum;}
	111	Bool_t IsADDTDCdatum() const {return fIsADDTDCdatum;}
	112	Int_t GetADDTDCDatum() const {return fADDTDCdatum;}
	113
	114	AliCDBStorage SetStorage(const char uri);
	115
	116	// Map from OCDB
	117	AliZDCChMap *GetChMap() const;
	118	// ADC map
	119	Int_t GetNChannelsOn() const {return fNChannelsOn;}
	120	Int_t GetCabledSignal() const {return fCabledSignal;}
	121	Int_t GetADCModFromMap(Int_t i) const {return fMapADC[i][0];}
	122	Int_t GetADCChFromMap(Int_t i) const {return fMapADC[i][1];}
	123	Int_t GetADCSignFromMap(Int_t i) const {return fMapADC[i][2];}
	124	Int_t GetDetectorFromMap(Int_t i) const {return fMapADC[i][3];}
	125	Int_t GetTowerFromMap(Int_t i) const {return fMapADC[i][4];}
	126	// Scaler map
	127	Int_t GetScalerModFromMap(Int_t i) const {return fScalerMap[i][0];}
	128	Int_t GetScalerChFromMap(Int_t i) const {return fScalerMap[i][1];}
	129	Int_t GetScalerSignFromMap(Int_t i) const {return fScalerMap[i][2];}
	130	Int_t GetScDetectorFromMap(Int_t i) const {return fScalerMap[i][3];}
	131	Int_t GetScTowerFromMap(Int_t i) const {return fScalerMap[i][4];}
	132
	133	Bool_t IsCalibration() const {return fIsCalib;}
	134	Bool_t IsDARCHeader() const {return fIsDARCHeader;}
	135	Bool_t IsHeaderMapping() const {return fIsHeaderMapping;}
	136	Bool_t IsChMapping() const {return fIsChMapping;}
	137	Bool_t IsADCDataWord() const {return fIsADCDataWord;}
	138	Bool_t IsADCHeader() const {return fIsADCHeader;}
	139	Bool_t IsADCEOB() const {return fIsADCEOB;}
	140	Bool_t IsUnderflow() const {return fIsUnderflow;}
	141	Bool_t IsOverflow() const {return fIsOverflow;}
	142
	143	UInt_t GetScGeo() const {return fScGeo;}
	144	UInt_t GetScNWords() const {return fScNWords;}
	145	UInt_t GetScTriggerSource() const {return fScTriggerSource;}
	146	UInt_t GetTriggerNumber() const {return fScTriggerNumber;}
	147	UInt_t GetTriggerCount() const {return fScEvCounter;}
	148	Bool_t IsScHeaderRead() const {return fIsScHeaderRead;}
	149	Bool_t IsScEventGood() const {return fIsScEventGood;}
	150	Bool_t IsScalerWord() const {return fIsScalerWord;}
	151
	152	UInt_t GetDetectorPattern() const {return fDetPattern;}
	153
	154	Bool_t IstriggerHistoryWord() const {return fIsTriggerHistory;}
	155	Int_t GetTriggerInput2CTP() const {return *fCPTInput;}
	156	Bool_t IsCPTInputMBTrigger()
	157	{if(fCPTInput[0]==1) return kTRUE; else return kFALSE;}
	158	Bool_t IsCPTInputCentralTrigger()
	159	{if(fCPTInput[1]==1) return kTRUE; else return kFALSE;}
	160	Bool_t IsCPTInputSemiCentralTrigger()
	161	{if(fCPTInput[2]==1) return kTRUE; else return kFALSE;}
	162	Bool_t IsCPTInputEMDTrigger()
	163	{if(fCPTInput[3]==1) return kTRUE; else return kFALSE;}
	164
	165	Bool_t IsADCEventGood() const {return fIsADCEventGood;}
	166	Bool_t IsL0BitSet() const {return fIsL0BitSet;}
	167	Bool_t IsPileUpEvent() const {return fIsPileUpEvent;}
	168
	169	void SetNChannelsOn(Int_t val) {fNChannelsOn = val;}
	170	void SetSector(Int_t i, Int_t val) {fSector[i] = val;}
	171	void SetMapADCMod(Int_t iraw, Int_t imod) {fMapADC[iraw][0]=imod;}
	172	void SetMapADCCh(Int_t iraw, Int_t ich) {fMapADC[iraw][1]=ich;}
	173	void SetMapADCSig(Int_t iraw, Int_t isig) {fMapADC[iraw][2]=isig;}
	174	void SetMapDet(Int_t iraw, Int_t idet) {fMapADC[iraw][3]=idet;}
	175	void SetMapTow(Int_t iraw, Int_t itow) {fMapADC[iraw][4]=itow;}
	176
	177	void SetSODReading(Bool_t iset) {fSODReading = iset;}
	178
	179	private :
	180	AliZDCRawStream(const AliZDCRawStream& stream);
	181	AliZDCRawStream& operator = (const AliZDCRawStream& stream);
	182
	183	AliRawReader* fRawReader; // object for reading the raw data
	184
	185	// Data for buffer decoding
	186	UInt_t fBuffer; // [DARC header +] ADC buffer
	187	Int_t fReadOutCard; // 0 for DARC, 1 for ZRC
	188	UInt_t fEvType; // Event type
	189	Int_t fPosition; // bit position in buffer data word
	190
	191	// Boolean variables indicating data type
	192	Bool_t fIsCalib; // True when calibration run
	193	Bool_t fIsDARCHeader; // True when DARC header
	194	Bool_t fIsHeaderMapping; // True when reading header mapping
	195	Bool_t fIsChMapping; // True when reading ch. mapping
	196	Bool_t fIsADCDataWord; // True when data word
	197	Bool_t fIsADCHeader; // True when ADC header
	198	Bool_t fIsADCEOB; // True when EOB
	199	Bool_t fSODReading; // True when reading SOD (DA)
	200	Bool_t fIsMapRead; // True if map is already read
	201
	202	Int_t fDeadfaceOffset; // deadface offset
	203	Int_t fDeadbeefOffset; // deadbeef offset
	204	Int_t fDataOffset; // data offset
	205
	206	// ADC signal
	207	Int_t fSector[2]; // [detector, sector]
	208	Int_t fModType; // Module type
	209	Int_t fADCModule; // ADC module = GEO address for scaler, trigger card, P.U.
	210	Int_t fADCNChannels; // number of ADC ch.
	211	Int_t fADCChannel; // ADC channel = ch. for scaler, trigger card, P.U.
	212	Int_t fADCValue; // ADC channel
	213	Int_t fADCGain; // ADC gain (0=high range; 1=low range)
	214	Bool_t fIsUnderflow; // ADC underflow
	215	Bool_t fIsOverflow; // ADC overflow
	216
	217	// Scaler
	218	UInt_t fScGeo; // scaler GEO address
	219	UInt_t fScNWords; // no. of words in scaler event
	220	UInt_t fScTriggerSource; // Trigger source
	221	UInt_t fScTriggerNumber; // no. of triggers
	222	Bool_t fIsScEventGood; // true if scaler event is good
	223	Bool_t fIsScHeaderRead; // true if scaler header is read
	224	Int_t fScStartCounter; // position in the buffer where scaler data begins
	225	UInt_t fScEvCounter; // event counter
	226	Bool_t fIsScalerWord; // is scaler word (not header)
	227
	228	// Pattern Unit
	229	UInt_t fDetPattern; // word from the pattern unit
	230
	231	// Trigger card
	232	// (1) trigger counts
	233	Int_t fTrigCountNWords; // no. of words to read from trigger card scalers
	234	Bool_t fIsTriggerScaler; // Trigger card scalers - 1st word read
	235	Int_t fTrigCountStart; // Trigger card scalers - counter
	236	Int_t fMBTrigInput; // MB trigger input to trigger card
	237	Int_t fCentralTrigInput; // CENTRAL trigger input to trigger card
	238	Int_t fSCentralTrigInput;// SEMICENTRAL trigger input to trigger card
	239	Int_t fEMDTrigInput; // EMD trigger input to trigger card
	240	Int_t fL0Received; // L0 received by the trigger card
	241	Int_t fMBtrig2CTP; // trigger input to the CTP for MB
	242	Int_t fCentralTrig2CTP; // trigger input to the CTP for CENTRAL
	243	Int_t fSCentralTrig2CTP; // trigger input to the CTP for SEMICENTRAL
	244	Int_t fEMDTrig2CTP; // trigger input to the CTP for EMD
	245	// (2) trigger history
	246	Int_t fTrigHistNWords; // no. of words to read from trigger history data
	247	Bool_t fIsTriggerHistory; // Trigger history - 1st word read
	248	Int_t fTrigHistStart; // Trigger card history - counter
	249	Int_t fPileUpBit1stWord; // Pile up bit from 1st word
	250	Int_t fL0Bit1stWord; // L0 bit from 1st word
	251	UInt_t fCentralTrigHist; // history for CENTRAL trigger
	252	UInt_t fMBTrigHist; // history for CENTRAL trigger
	253	Int_t fPileUpBit2ndWord; // Pile up bit from 2nd word
	254	Int_t fL0Bit2ndWord; // L0 bit from 2nd word
	255	UInt_t fSCentralTrigHist; // history for SEMICENTRAL trigger
	256	UInt_t fEMDTrigHist; // history for EMD trigger
	257	Int_t fCPTInput[4]; // Trigger sent to the CTP
	258
	259	// Channel mapping
	260	Int_t fNChannelsOn; // No. of signals/ADC ch. used
	261	Int_t fCurrentCh; // current mapped ADC ch.
	262	Int_t fCabledSignal; // physics signal (from enum)
	263	Int_t fMapADC[48][5]; // ADC map {ADC mod., ch., signal, det., sec.}
	264	Int_t fCurrScCh; // current mapped scaler ch.
	265	Int_t fScalerMap[32][5]; // Scaler map {Scaler mod., ch., signal, det., sec.}
	266
	267	// Checks over raw data event quality
	268	Bool_t fIsADCEventGood; // true if not valid datum not corrupted
	269	Bool_t fIsL0BitSet; // true if L0 bit in history words = 1
	270	Bool_t fIsPileUpEvent; // true if pile up bits in history words = 0
	271
	272	// ADD ADC
	273	Bool_t fIsADDChannel; // true if datum is an ADD ADC channel
	274	Int_t fADDADCdatum; // ADD ADC datum
	275
	276	// TDCs
	277	Bool_t fIsTDCHeaderRead; // true when streaming one of the 2 TDCs
	278	Int_t fTDCStartCounter; // counts after a TDC header
	279	//
	280	Bool_t fIsZDCTDCHeader; // true if datum is a ZDC TDC header
	281	Bool_t fIsZDCTDCdatum; // true if the current is a TDC datum
	282	Int_t fZDCTDCdatum; // datum for ZDC TDC
	283	//
	284	Bool_t fIsADDTDCHeader; // true if datum is an ADD TDC channel
	285	Bool_t fIsADDTDCdatum; // true when streaming ADD TDC data
	286	Int_t fADDTDCdatum; // datum for ADD TDC
	287
	288	ClassDef(AliZDCRawStream, 19) // class for reading ZDC raw data
	289	};
	290
	291	#endif