small correction for error calculation

[u/mrichter/AliRoot.git] / TRD / AliTRDrawStream.h

#ifndef ALITRDRAWSTREAM_H\r
#define ALITRDRAWSTREAM_H\r
\r
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *\r
 * See cxx source for full Copyright notice                               */\r
\r
/* $Id: AliTRDrawStream.h 27696 2008-07-31 09:18:53Z cblume $ */\r
\r
///////////////////////////////////////////////////////////////////////////////\r
//                                                                           //\r
// This class provides access to TRD digits in raw data.                     //\r
//                                                                           //\r
///////////////////////////////////////////////////////////////////////////////\r
\r
#include "TObject.h"\r
#include "TString.h"\r
#include "AliTRDrawStreamBase.h"\r
\r
class AliTRDgeometry;\r
class AliRawReader;\r
class AliTRDdigitsManager;\r
class TTreeSRedirector;\r
class AliTRDfeeParam;\r
\r
\r
class AliTRDrawStream : public AliTRDrawStreamBase\r
{ // class def begin\r
\r
 public:\r
    \r
  //--------------------------------------------------------\r
\r
  // THE STRUCTURES\r
  \r
  //--------------------------------------------------------\r
\r
  struct AliTRDrawADC\r
  {//adc struct\r
\r
    UInt_t             *fPos;                    //! position of ADC 1st word in the buffer\r
    Short_t             fADCnumber;              // number of the ADC 0 .. 20\r
    Short_t             fCOL;                    // column - row from MCM\r
    Int_t               fSignals[TRD_MAX_TBINS]; // signals for this adc\r
    Bool_t              fIsShared;               // is pad chared between MCMs\r
    Short_t             fCorrupted;              // is adc word corrupted\r
\r
    AliTRDrawADC()\r
      : fPos(0)\r
      , fADCnumber(0)\r
      , fCOL(0)\r
      , fSignals()\r
      , fIsShared(kFALSE)\r
      , fCorrupted(0)\r
    {\r
      // default constructor\r
    };\r
\r
    AliTRDrawADC(const AliTRDrawADC& p): \r
        fPos(p.fPos)\r
      , fADCnumber(p.fADCnumber)\r
      , fCOL(p.fCOL)\r
      , fSignals()\r
      , fIsShared(p.fIsShared)\r
      , fCorrupted(p.fCorrupted)\r
    {\r
      // copy constructor\r
    };\r
\r
    AliTRDrawADC &operator=(const AliTRDrawADC &) \r
    {\r
      // assignment operator\r
      // not implemented\r
      return *this;\r
    };\r
\r
  };\r
  \r
  //--------------------------------------------------------\r
\r
  struct AliTRDrawMCM\r
  { // mcm struct\r
    Int_t               fROB;                     // ROB number\r
    Int_t               fMCM;                     // MCM number\r
    Int_t               fROW;                     // row number filed during decoding\r
      \r
    UInt_t              fEvCounter;               // MCM event counter\r
    UInt_t              fADCMask;                 // ADC mask\r
    UInt_t              fADCMaskWord;             // word with ADC mask in\r
    UInt_t              fADCchannel[TRD_MAX_ADC]; // channels to be decoded accrording to ADC mask\r
      \r
    Int_t               fADCmax;                  // number of ADCs fired\r
    Int_t               fADCcount;                // number of ADCs fired from double checking bit\r
    Int_t               fMCMADCWords;             // mcm words to expect\r
    Int_t               fSingleADCwords;          // n of words per ADC\r
      \r
    Int_t               fMCMhdCorrupted;          // is mcm header corrupted\r
    Int_t               fADCmaskCorrupted;        // is mcm adc mask corrupted\r
    Int_t               fCorrupted;               // is mcm data missing\r
      \r
    UInt_t             *fPos;                     //! position of mcm header in the buffer\r
    UInt_t             *fAdcDataPos;              //! start of ADC data for this mcm\r
\r
    Int_t               fADCcounter;              // count the adcs decoded\r
    AliTRDrawADC        fADCs[TRD_MAX_ADC];       // 21 adcs\r
      \r
    AliTRDrawMCM()\r
      : fROB(-1)\r
      , fMCM(-1)\r
      , fROW(-1)\r
      , fEvCounter(0)\r
      , fADCMask(0)\r
      , fADCMaskWord(0)\r
      , fADCchannel()      \r
      , fADCmax(0)\r
      , fADCcount(0)\r
      , fMCMADCWords(0)      \r
      , fSingleADCwords(0)\r
      , fMCMhdCorrupted(0)      \r
      , fADCmaskCorrupted(0)      \r
      , fCorrupted(0)      \r
      , fPos(0)\r
      , fAdcDataPos(0)\r
      , fADCcounter(0)\r
      , fADCs()\r
    {\r
      // default constructor\r
    };\r
\r
    AliTRDrawMCM(const AliTRDrawMCM & p):\r
        fROB(p.fROB)\r
      , fMCM(p.fMCM)\r
      , fROW(p.fROW)\r
      , fEvCounter(p.fEvCounter)\r
      , fADCMask(p.fADCMask)\r
      , fADCMaskWord(p.fADCMaskWord)\r
      , fADCchannel()      \r
      , fADCmax(p.fADCmax)\r
      , fADCcount(p.fADCcount)\r
      , fMCMADCWords(p.fMCMADCWords)      \r
      , fSingleADCwords(p.fSingleADCwords)\r
      , fMCMhdCorrupted(p.fMCMhdCorrupted)      \r
      , fADCmaskCorrupted(p.fADCmaskCorrupted)      \r
      , fCorrupted(p.fCorrupted)      \r
      , fPos(p.fPos)\r
      , fAdcDataPos(p.fAdcDataPos)\r
      , fADCcounter(p.fADCcounter)\r
      , fADCs()\r
    {\r
      // copy constructor\r
    };\r
\r
    AliTRDrawMCM &operator=(const AliTRDrawMCM &)\r
    {\r
      // assignment operator\r
      // not implemented\r
      return *this;\r
    };\r
\r
  };\r
\r
  //--------------------------------------------------------\r
\r
  struct AliTRDrawHC\r
  { // hc struct\r
      \r
    //tacklet words of given HC\r
    UInt_t              fTrackletWords[MAX_TRACKLETS_PERHC]; // array to keep tracklet words [mj]\r
    Short_t             fTrackletError;                      // tracklet error \r
    Short_t             fNTracklets;                    // number of tracklet  \r
\r
    // header word 0\r
    Int_t               fSpecialRawV;       // Raw data version\r
    Int_t               fRawVMajor;         // Raw data version\r
    Int_t               fRawVMajorOpt;      // Raw data version\r
    Int_t               fRawVMinor;         // Raw data version\r
    Int_t               fNExtraWords;       // N extra HC header words\r
    Int_t               fDCSboard;          // DCS board number\r
    Int_t               fSM;                // Super Module number\r
    Int_t               fStack;             // Stack number (some people might call it a chamber)\r
    Int_t               fLayer;             // Layer number (some people might call it a plane)\r
    Int_t               fSide;              // Side of HC\r
      \r
    // header word 1\r
    Int_t               fTimeBins;          // N of t bins\r
    UInt_t              fBunchCrossCounter; // Bunch crossing counter\r
    UInt_t              fPreTriggerCounter; // Pre Trigger counter\r
    UInt_t              fPreTriggerPhase;   // Pre Trigger phase\r
      \r
    // error \r
    Int_t               fH0Corrupted;       // is hc header 0 corrupted \r
    Int_t               fH1Corrupted;       // is hc header 1 corrupted\r
    Int_t               fCorrupted;         // is hc data corrupted \r
\r
    UInt_t             *fPos[2];            //! position of the header words in buffer\r
      \r
    Int_t               fDET;               // filled while decoding\r
    Int_t               fROC;               // filled while decoding\r
    Int_t               fRowMax;            // filled while decoding\r
    Int_t               fColMax;            // filled while decoding\r
\r
    // hc data\r
    Int_t               fMCMmax;            // number of mcm found\r
    AliTRDrawMCM        fMCMs[TRD_MAX_MCM]; // 4 ROBS 16 each \r
\r
    AliTRDrawHC()\r
      : fTrackletWords() //[mj]\r
      , fTrackletError(0)\r
      , fNTracklets(0)\r
      , fSpecialRawV(0)\r
      , fRawVMajor(0)\r
      , fRawVMajorOpt(0)\r
      , fRawVMinor(0)\r
      , fNExtraWords(0)\r
      , fDCSboard(-1)\r
      , fSM(-1)\r
      , fStack(-1)\r
      , fLayer(-1)\r
      , fSide(-1)\r
      , fTimeBins(0)\r
      , fBunchCrossCounter(0)\r
      , fPreTriggerCounter(0)\r
      , fPreTriggerPhase(0)\r
      , fH0Corrupted(0)\r
      , fH1Corrupted(0)\r
      , fCorrupted(0)\r
      , fPos()\r
      , fDET(-1)\r
      , fROC(-1)\r
      , fRowMax(-1)\r
      , fColMax(-1)\r
      , fMCMmax(0)\r
      , fMCMs()\r
    {\r
      // default constructor hc info \r
    };\r
\r
    AliTRDrawHC(const AliTRDrawHC & p):\r
        fTrackletWords() //[mj]\r
      , fTrackletError(p.fTrackletError)\r
      , fNTracklets(p.fNTracklets)\r
      , fSpecialRawV(p.fSpecialRawV)\r
      , fRawVMajor(p.fRawVMajor)\r
      , fRawVMajorOpt(p.fRawVMajorOpt)\r
      , fRawVMinor(p.fRawVMinor)\r
      , fNExtraWords(p.fNExtraWords)\r
      , fDCSboard(p.fDCSboard)\r
      , fSM(p.fSM)\r
      , fStack(p.fStack)\r
      , fLayer(p.fLayer)\r
      , fSide(p.fSide)\r
      , fTimeBins(p.fTimeBins)\r
      , fBunchCrossCounter(p.fBunchCrossCounter)\r
      , fPreTriggerCounter(p.fPreTriggerCounter)\r
      , fPreTriggerPhase(p.fPreTriggerPhase)\r
      , fH0Corrupted(p.fH0Corrupted)\r
      , fH1Corrupted(p.fH1Corrupted)\r
      , fCorrupted(p.fCorrupted)\r
      , fPos()\r
      , fDET(p.fDET)\r
      , fROC(p.fROC)\r
      , fRowMax(p.fRowMax)\r
      , fColMax(p.fColMax)\r
      , fMCMmax(p.fMCMmax)\r
      , fMCMs()\r
    {\r
      // copy constructor\r
    };\r
\r
    AliTRDrawHC &operator=(const AliTRDrawHC &)\r
    {\r
      // assignment operator\r
      // not implemented\r
      return *this;\r
    };\r
\r
  };\r
\r
  //--------------------------------------------------------\r
    \r
  struct AliTRDrawStack\r
  {\r
    UInt_t           fHeaderSize;            // header size of the stack info\r
    Bool_t           fLinksActive[12];       // data links active - 1 per half chamber\r
    Short_t          fLinksDataType[12];     // 0 indicating real data for the front-end electronics \r
    Short_t          fLinksMonitor[12];      // 0 indicating properly operating link \r
    Short_t          fLinkMonitorError[12];  // record link monitor error\r
    Int_t            fActiveLinks;           // number of active links\r
    UInt_t          *fPos;                   //! position in the buffer\r
	            \r
    AliTRDrawHC      fHalfChambers[12];      // 12 half chambers in a stack\r
      \r
    AliTRDrawStack()\r
      : fHeaderSize(0)\r
      , fLinksActive()\r
      , fLinksDataType()\r
      , fLinksMonitor()\r
      , fLinkMonitorError()\r
      , fActiveLinks(0)\r
      , fPos(0)\r
      , fHalfChambers()\r
    {\r
      // default constructor\r
    };      \r
\r
    AliTRDrawStack(const AliTRDrawStack & p):\r
        fHeaderSize(p.fHeaderSize)\r
      , fLinksActive()\r
      , fLinksDataType()\r
      , fLinksMonitor()\r
      , fLinkMonitorError()\r
      , fActiveLinks(p.fActiveLinks)\r
      , fPos(p.fPos)\r
      , fHalfChambers()\r
    {\r
      // copy constructor\r
    };\r
\r
    AliTRDrawStack &operator=(const AliTRDrawStack &)\r
    {\r
      // assignment operator\r
      // not implemented\r
      return *this;\r
    };\r
\r
  };\r
\r
  //--------------------------------------------------------\r
\r
  struct AliTRDrawSM\r
  {\r
    UInt_t            fHeaderSize;            // size of the header in words\r
    Bool_t            fTrackletEnable;        // tracklet enable bit\r
    Bool_t            fStackActive[5];        // map of active/expected stacks\r
    Int_t             fActiveStacks;          // number of active stacks\r
    Int_t             fCorrupted;             // is sm info corrupted\r
    Int_t             fNexpectedHalfChambers; // number of half chambers to be read out in this sm\r
    Bool_t            fClean;                 // true if everything went OK - false is some error occured\r
    UInt_t           *fPos;                   // location of the sm info - should be the first word (after CDH if not DDL buffer)\r
\r
    AliTRDrawStack    fStacks[5];             \r
\r
    AliTRDrawSM()\r
      : fHeaderSize(0)\r
      , fTrackletEnable(0)\r
      , fStackActive()\r
      , fActiveStacks(0)\r
      , fCorrupted(0)\r
      , fNexpectedHalfChambers(0)\r
      , fClean(kTRUE)\r
      , fPos(0)\r
      , fStacks()\r
      {\r
	// Default constructor\r
      };      \r
\r
    AliTRDrawSM(const AliTRDrawSM & p):\r
        fHeaderSize(p.fHeaderSize)\r
      , fTrackletEnable(p.fTrackletEnable)\r
      , fStackActive()\r
      , fActiveStacks(p.fActiveStacks)\r
      , fCorrupted(p.fCorrupted)\r
      , fNexpectedHalfChambers(p.fNexpectedHalfChambers)\r
      , fClean(p.fClean)\r
      , fPos(p.fPos)\r
      , fStacks()\r
    {\r
      // copy constructor\r
    };\r
\r
    AliTRDrawSM &operator=(const AliTRDrawSM &)\r
    {\r
      // assignment operator\r
      // not implemented\r
      return *this;\r
    };\r
\r
  };\r
  \r
  //--------------------------------------------------------\r
     \r
  AliTRDrawStream();\r
  AliTRDrawStream(AliRawReader *rawReader);\r
  virtual ~AliTRDrawStream();\r
\r
  //--------------------------------------------------------\r
\r
  virtual Bool_t       Next();                           // read the next data in the memory\r
  //virtual Int_t      NextChamber(AliTRDdigitsManager *man); // read next chamber data in the momory\r
  virtual Int_t        NextChamber(AliTRDdigitsManager *man, UInt_t **trackletContainer); // read next chamber data in the memory\r
  virtual Bool_t       Init();                           // initialize some internal variables\r
\r
  Int_t    NextBuffer(); // go and init next buffer if available - check the implementation file for return values\r
\r
  Bool_t   SetRawVersion(Int_t fraw); // set the raw version - used for backward compat.\r
  \r
  Bool_t   IsCurrentPadShared() const {return fADC->fIsShared;} // is current pad shared between mcms\r
  void     SetSharedPadReadout(Bool_t fv) {fSharedPadsOn = fv;} // set the flag on if the reader should return the shared pads\r
  \r
  Bool_t   DecodeSM(void *buffer, UInt_t length); // decode a buffer\r
  Int_t    DecodeSM();                            // used with raw reader\r
  Int_t    DecodeSM(AliRawReader *reader);        // used with raw reader\r
	   \r
  Bool_t   SetReader(AliRawReader *reader); // set the raw reader to use\r
    	   \r
  // info from Supermodule Index Word\r
  Bool_t    IsTrackletEnableBitSet() const {return fSM.fTrackletEnable;} // get status of tracklet enable bit\r
  Bool_t    IsStackActive(Int_t is) const {return fSM.fStackActive[is];} // get status of stack enable bit\r
  Int_t     GetNofActiveStacks() const {return fSM.fActiveStacks;}       // get number of active stacks from stack mask\r
  UInt_t   *GetGTUheaderWords() const {return fSM.fPos;}       // get number of active stacks from stack mask\r
\r
  // info from Stack Index Word\r
  Int_t     GetNexpectedHalfChambers() const {return fSM.fNexpectedHalfChambers;}                    // get number of expected HC in a sm\r
  Int_t     GetNofActiveLinksInStack(Int_t is) const {return fSM.fStacks[is].fActiveLinks;}          // get number of active links in a stack\r
  Bool_t    IsLinkActiveInStack(Int_t is, Int_t il) const {return fSM.fStacks[is].fLinksActive[il];} // check whether the link is active\r
\r
  // info from Stack Header Word\r
  Short_t    GetLinkMonitorError(Int_t is, Int_t il) const {return fSM.fStacks[is].fLinkMonitorError[il];} // get link monitor error\r
\r
  // info from Tracklet Data\r
  Int_t     GetTrackletErrorCode(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fTrackletError;}\r
  Int_t     GetNTracklets(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fNTracklets;} // get number of tracklets \r
\r
  // info from HC Header Word\r
  Int_t     GetSM(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fSM;}\r
  Int_t     GetLayer(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fLayer;}\r
  Int_t     GetStack(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fStack;}\r
  Int_t     GetSide(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fSide;}\r
  Int_t     GetH0ErrorCode(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fH0Corrupted;}\r
  Int_t     GetH1ErrorCode(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fH1Corrupted;}\r
  Int_t     GetNumberOfTimeBins(Int_t is, Int_t il) const { return fSM.fStacks[is].fHalfChambers[il].fTimeBins;}\r
  UInt_t   *GetTrackletWords(Int_t is, Int_t il) { return fSM.fStacks[is].fHalfChambers[il].fTrackletWords;}\r
\r
  // info from HC data\r
  Int_t     GetHCErrorCode(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fCorrupted;}\r
  Int_t     GetHCMCMmax(Int_t is, Int_t il) const {return fSM.fStacks[is].fHalfChambers[il].fMCMmax;}\r
\r
  // from MCM Header Word\r
  // rob and mcm ordering\r
  // side 0(even link) - ROB: 0 2 4 6  MCM: 12 13 14 15 8 9 10 11 4 5 6 7 0 1 2 3  \r
  // side 1( odd link) - ROB: 1 3 5 7  MCM: 12 13 14 15 8 9 10 11 4 5 6 7 0 1 2 3  \r
  Int_t     GetMCM(Int_t stack, Int_t link, Int_t mcm) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fMCM;}\r
  Int_t     GetROB(Int_t stack, Int_t link, Int_t mcm) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fROB;}\r
  Int_t     GetMCMhdErrorCode(Int_t stack, Int_t link, Int_t mcm) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fMCMhdCorrupted;}\r
  Int_t     GetMCMADCMaskErrorCode(Int_t stack, Int_t link, Int_t mcm) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fADCmaskCorrupted;}\r
  Int_t     GetEventNumber(Int_t stack, Int_t link, Int_t mcm) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fEvCounter;}\r
  Int_t     GetADCcount(Int_t stack, Int_t link, Int_t mcm) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fADCcount;}\r
\r
  // info from MCM data words\r
  Int_t     GetMCMErrorCode(Int_t stack, Int_t link, Int_t mcm) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fCorrupted;} // get MCM data error code\r
  Int_t     GetADCErrorCode(Int_t stack, Int_t link, Int_t mcm, Int_t adc) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fADCs[adc].fCorrupted;} // get ADC error code\r
  Int_t     GetADCnumber(Int_t stack, Int_t link, Int_t mcm, Int_t adc) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fADCs[adc].fADCnumber;} // get ADC error code\r
\r
  Int_t     GetRow(Int_t stack, Int_t link, Int_t mcm) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fROW;}         // get current row number\r
  Int_t     GetCol(Int_t stack, Int_t link, Int_t mcm, Int_t adc) const {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fADCs[adc].fCOL;}         // get current column number\r
\r
  // info from ADC data words\r
  Int_t    *GetSignalDirect(Int_t stack, Int_t link, Int_t mcm, Int_t adc) {return fSM.fStacks[stack].fHalfChambers[link].fMCMs[mcm].fADCs[adc].fSignals;}\r
\r
\r
  // from here, only works with returning ADC channel pointer using Next() \r
  UInt_t   *GetTrackletWords() const { return fHC->fTrackletWords;}                 // return tracklet words pointer per hc [mj]\r
  Int_t     GetTrackletErrorCode() const {return fHC ? fHC->fTrackletError : -1;}   // get tracklet error code\r
  Int_t     GetNTracklets() const {return fHC ? fHC->fNTracklets : -1;}             // get number of tracklets \r
\r
  Int_t     GetSpecialRawVersion() const {return fHC ? fHC->fSpecialRawV : -1;}     // return special raw version\r
  Int_t     GetMajorRawVersion() const {return fHC ? fHC->fRawVMajor : -1;}         // major raw version getter\r
  Int_t     GetRawVersion() const {return fHC ? fHC->fRawVMajor : -1;}              // compatibility see funtion above\r
  Int_t     GetMinorRawVersion() const {return fHC ? fHC->fRawVMinor : -1;}         // minor raw version\r
\r
  Int_t     GetSM() const {return fHC ? fHC->fSM : -1;}                              //  SM Position of CURRENT half chamber in full TRD\r
  Int_t     GetLayer() const {return fHC ? fHC->fLayer : -1;}                        //  Layer Position of CURRENT half chamber in full TRD\r
  Int_t     GetStack() const {return fHC ? fHC->fStack : -1;}                        //  Stack Position of CURRENT half chamber in full TRD\r
  Int_t     GetSide() const {return fHC ? fHC->fSide : -1;}                          // get side\r
  Int_t     GetDCS() const { return fHC ? fHC->fDCSboard : -1;}                      //  DCS board number read from data (HC header)\r
  Int_t     GetROC() const { return fHC ? fHC->fROC : -1;}                           //  ROB Position of CURRENT half chamber in full TRD\r
  Int_t     GetNumberOfTimeBins() const { return fHC ? fHC->fTimeBins : 0;}          // Get Ntime bins\r
  UInt_t    GetBunchCrossCounter() const {return fHC ? fHC->fBunchCrossCounter : 0;} // get bunch cross counter\r
  UInt_t    GetPreTriggerCounter() const {return fHC ? fHC->fPreTriggerCounter : 0;} // get pre trigger info\r
  UInt_t    GetPreTriggerPhase() const {return fHC ? fHC->fPreTriggerPhase : 0;}     // get trigger phase\r
\r
  Int_t     GetRow() const {return fMCM ? fMCM->fROW : -1;}         // get current row number\r
  Int_t     GetCol() const {return fADC ? fADC->fCOL : -1;}         // get current column number\r
  Int_t     GetRowMax() const { return fHC ? fHC->fRowMax : -1;}    // Get maximum rows in the current HC\r
  Int_t     GetColMax() const { return fHC ? fHC->fColMax : -1;}    // Get maximum cols in the current HC\r
  // compatibility\r
  Int_t     GetMaxRow() const { return fHC ? fHC->fRowMax : -1;}    // Get maximum rows in the current HC\r
  Int_t     GetMaxCol() const { return fHC ? fHC->fColMax : -1;}    // Get maximum cols in the current HC\r
\r
  UInt_t    GetHCword0() const {return fHC ? *fHC->fPos[0] : 0;}    // get the HC word 0\r
  UInt_t    GetHCword1() const {return fHC ? *fHC->fPos[1] : 0;}    // get the HC word 1\r
	    \r
  Int_t     GetDET() const {return fHC ? fHC->fDET : -1;}           // get current det number\r
  Int_t     GetDet() const {return fHC ? fHC->fDET : -1;}           // get current det number\r
    	    \r
  Int_t     GetROB() const {return fMCM ? fMCM->fROB : -1;}         // get current ROB number\r
  Int_t     GetMCM() const {return fMCM ? fMCM->fMCM : -1;}         // get current MCM number\r
  Int_t     GetEventNumber() const { return fMCM->fEvCounter;}      //  MCM Event number and position of current MCM on TRD chamber\r
\r
  Int_t     GetADC() const { return fADC ? fADC->fADCnumber : -1;}  //  MCM ADC channel and Time Bin of word 1\r
  Int_t     GetTimeBin() const { return 0;}                         //  MCM ADC channel and Time Bin of word 1\r
  Int_t    *GetSignals() const { return fADC ? fADC->fSignals : (Int_t *)fgEmptySignals;} // signals in the n-time bins from data word\r
\r
  Int_t     GetHCErrorCode() const {return fHC ? fHC->fCorrupted : -1;}    // get HC error code\r
  Int_t     GetH0ErrorCode() const {return fHC ? fHC->fH0Corrupted : -1;}  // get HC header word0 error code\r
  Int_t     GetH1ErrorCode() const {return fHC ? fHC->fH1Corrupted : -1;}  // get HC header word1 error code\r
  Int_t     GetMCMErrorCode() const {return fMCM ? fMCM->fCorrupted : -1;} // get MCM data error code\r
  Int_t     GetADCErrorCode() const {return fADC ? fADC->fCorrupted : -1;} // get ADC data error code\r
  Int_t     GetMCMhdErrorCode() const {return fMCM ? fMCM->fMCMhdCorrupted: -1;} // get MCM header word error code\r
  Int_t     GetMCMADCMaskErrorCode() const {return fMCM ? fMCM->fADCmaskCorrupted: -1;} // get MCM adc mask error code\r
\r
  UInt_t   *GetSMstreamPosition() const {return fSM.fPos;} // get position of the SM index word in the buffer\r
\r
  Bool_t    IsSMbufferClean() const {return fSM.fClean;}   // is data clean\r
\r
  //----------------------------------------------------------\r
 \r
  static void    SetNoDebug() {fgDebugFlag = kFALSE;} // allow debug info\r
  static void    EnableMemoryReset() {fgEnableMemoryReset = kTRUE;} // allow memory reset\r
  static void    SetNoErrorWarning() {fgWarnError = kFALSE;} // disable warning and error info\r
  static void    SetForceCleanDataOnly() {fgCleanDataOnly = kTRUE;} // clean data only\r
  static void    AllowCorruptedData() {fgCleanDataOnly = kFALSE;} // accept corrupted data\r
\r
  static void    SetExtraWordsFix() {fgExtraSkip = kTRUE;} // extra skip of 24 32-bit words \r
  static void    SetSkipCDH() {fgSkipCDH = kTRUE;} // skip of 8 32-bit words \r
  static void    SetDumpHead(Int_t iv) {fgDumpHead = iv;}\r
  static void    DisableStackNumberChecker() {fgStackNumberChecker = kFALSE;}  // set false to cleanroom data \r
  static void    DisableStackLinkNumberChecker() {fgStackLinkNumberChecker = kFALSE;}  \r
  static void    DisableSkipData() {fgSkipData = kFALSE;} // keep reading next words even previous words were corrupted - debugging purpose  \r
  static void    SetDumpingEnable() {fgDumpingEnable = kTRUE;} \r
  static void    SetDumpingMCM(Int_t sm, Int_t stack, Int_t layer, Int_t rob, Int_t mcm) {fgDumpingSM = sm; fgDumpingStack = stack; fgDumpingLayer = layer; fgDumpingROB = rob; fgDumpingMCM = mcm;}\r
\r
  // this is a temporary solution!\r
  // baseline should come with the HC header word 2 (count from 0!)\r
  static void    SetSubtractBaseline(Int_t baseline) {fgCommonAdditive = baseline;}\r
  Int_t          GetCommonAdditive() const {return fgCommonAdditive;}           // return the common additive\r
\r
  static void    EnableDecodeConfigData() {fgEnableDecodeConfigData = kTRUE;} // allow configuration data decoding\r
  static Bool_t fgEnableDecodeConfigData;\r
\r
\r
  //--------------------------------------------------------\r
  // Decoding functions\r
  //--------------------------------------------------------\r
\r
  void DecodeSMInfo(const UInt_t *word, struct AliTRDrawSM *sm) const ;\r
  const char *DumpSMInfo(const struct AliTRDrawSM *sm);\r
  void DecodeStackInfo(const UInt_t *word, struct AliTRDrawStack *st) const;\r
  void DecodeStackHeader(const UInt_t *word, struct AliTRDrawStack *st, Int_t iword) const;\r
  const char *DumpStackInfo(const struct AliTRDrawStack *st);\r
  Bool_t DecodeHCwordH0(const UInt_t *word, struct AliTRDrawHC *hc) const;\r
  Bool_t DecodeHCwordH1(const UInt_t *word, struct AliTRDrawHC *hc) const;\r
  const char *DumpHCinfoH0(const struct AliTRDrawHC *hc);\r
  const char *DumpHCinfoH1(const struct AliTRDrawHC *hc);\r
  void DecodeMCMheader(const UInt_t *word, struct AliTRDrawMCM *mcm) const;\r
  UInt_t GetMCMadcMask(const UInt_t *word, struct AliTRDrawMCM *mcm) const;\r
  void DecodeMask(const UInt_t *word, struct AliTRDrawMCM *mcm) const;\r
  void MCMADCwordsWithTbins(UInt_t fTbins, struct AliTRDrawMCM *mcm) const;\r
  const char *DumpMCMinfo(const struct AliTRDrawMCM *mcm);\r
  const char *DumpMCMadcMask(const struct AliTRDrawMCM *mcm);\r
\r
\r
 protected:\r
\r
  Bool_t InitBuffer(void *buffer, UInt_t length); // init the buffer - called by DecodeSM(void*, UInt_t)\r
  Bool_t DumpWords(UInt_t *px, UInt_t iw, UInt_t marker = 0); // dump some words onto the screen\r
\r
  void   SwapOnEndian();         // swap if endian is BIG\r
  Bool_t SkipWords(UInt_t iw);   // skip number of words\r
  Bool_t DecodeGTUheader();      // decode data in GTU header\r
  Bool_t DecodeTracklets();      // decode tracklets\r
  Bool_t DecodeHC();             // decode data in HC\r
\r
  Bool_t DecodeADC();            // decode 10 ADC words\r
\r
  Bool_t DecodeHCheader();       // decode HC  header\r
  Bool_t SeekEndOfData();        // go to next end of raw data marker (actually 1 word after)\r
  Bool_t SkipMCMdata(UInt_t iw);  // skip this mcm data due to mcm header corruption\r
  Bool_t SeekNextMCMheader();    // go to next mcm header\r
  Bool_t DecodeMCMheader();      // decode mcm header\r
\r
  Bool_t IsRowValid();       // check if row within the range\r
  Bool_t IsHCheaderOK();     // check if current hc header data make sense\r
  Bool_t IsMCMheaderOK();    // check if current mcm header data make sense\r
    \r
  void   ResetCounters();    // reset some counters\r
  void   ResetIterators();   // needed for Next()\r
  void   ResetPerSM();       // reset every SM \r
  void   ResetPerStack();    // reset every Stack \r
  void   ResetPerHC();       // reset every HC \r
  void   ResetPerMCM();      // reset every MCM  \r
  void   ResetPerADC();      // reset every ADC  \r
  void   ResetMemory();      // reset all data members\r
\r
  AliTRDrawStream(const AliTRDrawStream& st);\r
  AliTRDrawStream &operator=(const AliTRDrawStream &);\r
\r
  // ----------------- DATA MEMBERS START\r
\r
  struct AliTRDrawSM       fSM;    // one SM per buffer\r
  struct AliTRDrawStack   *fStack; //! pointer to the current stack\r
  struct AliTRDrawHC      *fHC;    //! current HC\r
  struct AliTRDrawMCM     *fMCM;   //! current MCM\r
  struct AliTRDrawADC     *fADC;   //! current ADC\r
  \r
  UInt_t *fpPos;   // current position in the buffer\r
  UInt_t *fpBegin; // begin - pointer to the buffer word 0\r
  UInt_t *fpEnd;   // end of the buffer\r
\r
  UInt_t  fWordLength;  // length of the buffer in 32bit words\r
\r
  Int_t   fStackNumber;     // current stack number\r
  Int_t   fStackLinkNumber; // current link in the stack\r
\r
  Int_t   fhcMCMcounter;    // mcm counter inside single hc - used in Next()  \r
  Int_t   fmcmADCcounter;   // adc counrer inside single adc - used in Next() \r
\r
  Int_t   fLinkTrackletCounter; // count the tracklets in the current HC\r
  Int_t   fEndOfTrackletCount;  // count link by link (hc by hc) used for debug\r
  Int_t   fNWordsCounter;       // counts words of given hc having link monitor error\r
\r
  UInt_t  fMaskADCword; // temp mask when decoding adcs\r
  UInt_t  fTbinADC;     // temp adc \r
  Int_t   fDecodedADCs; // counter of decoded adcs [mj] do we need?\r
\r
  UInt_t  fEventCounter;     // stores the valid/current MCM event counter\r
  UInt_t  fLastEventCounter; // last known event counter of MCM\r
\r
  Bool_t  fSharedPadsOn; // do we want to output shared pads - default is off\r
  Int_t   fMaxADCgeom;   // maximum ADC channels per mcm\r
\r
  Bool_t  fBufferRead;\r
\r
  AliTRDgeometry *fGeometry;  //! TRD geometry\r
  AliRawReader   *fRawReader; //! raw reader    \r
\r
  AliTRDfeeParam      *fTRDfeeParam; // pointer to the fee params\r
\r
  // STATIC \r
\r
  static Bool_t fgExtraSkip; // whether we should skip the leading 24 words\r
  static Bool_t fgSkipCDH; // whether we should skip CDH (8 words)\r
  static Bool_t fgWarnError; // no errors no warnings\r
  static Bool_t fgCleanDataOnly; // release only clean events = no errors\r
  static Bool_t fgDebugFlag; // allow debugging info\r
  static Bool_t fgEnableMemoryReset; // allow memory reset\r
  static Bool_t fgStackNumberChecker; // decide if we check stack number insanity - set false to cleanroom data\r
  static Bool_t fgStackLinkNumberChecker; // decide if we check stack link number insanity - debuging purpose\r
  static Bool_t fgSkipData; // decide if we skip corrupted data of given HC\r
  static Int_t fgDumpHead; // number of words to dump (from the start of the buffer) on each Init\r
  static Int_t  fgEmptySignals[30]; // empty signals in case of ADC pointer = NULL\r
  static Short_t  fgMCMordering[16]; // mcm number odering for mcm header corruption check\r
  static Short_t  fgROBordering[16]; // mcm number odering for mcm header corruption check\r
  static Int_t  fgLastHC; \r
  static Int_t  fgLastROB; \r
  static Int_t  fgLastIndex; \r
\r
  static Bool_t fgDumpingEnable; \r
\r
  static Int_t  fgDumpingSM;\r
  static Int_t  fgDumpingStack;\r
  static Int_t  fgDumpingLayer;\r
  static Int_t  fgDumpingROB;\r
  static Int_t  fgDumpingMCM;\r
\r
  // this is a temporary solution!\r
  // baseline should come with the HC header word 2 (count from 0!)\r
  static Int_t   fgCommonAdditive; // common additive  - should be decoded! from HC word2\r
\r
  // ----------------- DATA MEMBERS STOP\r
\r
  enum ETRDzRawStreamError \r
    {\r
      kDecodeStackInfo          = 1 //\r
      , kMissingData	        = 2 //\r
      , kLinkDataMissing        = 3 //\r
      , kHCdataMissing	        = 4 //\r
      , kTrackletOverflow       = 5 //\r
      , kEOTrackeltsMissing     = 6 //\r
      , kWrongPadrow	        = 7 //\r
      , kMCMheaderCorrupted     = 8 //\r
      , kWrongMCMorROB	        = 9 //\r
      , kMCMeventMissmatch      = 10 //\r
      , kMCMADCMaskMissing      = 11 //\r
      , kHCHeaderCorrupt        = 12 //\r
      , kHCHeaderWrongStack     = 13 //\r
      , kHCHeaderWrongLayer     = 14 //\r
      , kHCHeaderWrongSide      = 15 //\r
      , kHCHeaderWrongSM        = 16 //\r
      , kHCHeaderWrongDet       = 17 //\r
      , kHCHeaderWrongROC       = 18 //\r
      , kHCWordMissing	        = 19 //\r
      , kMCMdataMissing	        = 20 //\r
      , kMCMoverflow	        = 21 //\r
      , kADCdataMissing	        = 22 //\r
      , kADCmaskMissmatch       = 23 //\r
      , kWrongPadcolumn	        = 24 //\r
    };			       \r
\r
  ClassDef(AliTRDrawStream, 0)\r
}; //clas def end\r
\r
#endif\r