Update of the VZERO offline trigger: 1. New slewing correction with only 2 parameters...

[u/mrichter/AliRoot.git] / TRD / AliTRDrawData.cxx

diff --git a/TRD/AliTRDrawData.cxx b/TRD/AliTRDrawData.cxx
index ebed36f421b6c29432a9c4cd58aedb46ba3c9c50..48edede3608b6060defb6e69a84d61f6350362ce 100644 (file)
--- a/TRD/AliTRDrawData.cxx
+++ b/TRD/AliTRDrawData.cxx
@@ -21,6 +21,7 @@
 //                                                                           //
 ///////////////////////////////////////////////////////////////////////////////
 
+
 #include <TMath.h>
 #include "TClass.h"
 
@@ -33,23 +34,33 @@
 #include "AliTRDrawData.h"
 #include "AliTRDdigitsManager.h"
 #include "AliTRDgeometry.h"
-#include "AliTRDdataArrayI.h"
-#include "AliTRDdataArrayS.h"
-#include "AliTRDRawStream.h"
-#include "AliTRDRawStreamV2.h"
+#include "AliTRDarrayDictionary.h"
+#include "AliTRDarrayADC.h"
+#include "AliTRDrawStreamBase.h"
 #include "AliTRDcalibDB.h"
 #include "AliTRDSignalIndex.h"
 #include "AliTRDfeeParam.h"
 #include "AliTRDmcmSim.h"
+#include "AliTRDdigitsParam.h"
 
 ClassImp(AliTRDrawData)
 
+Int_t AliTRDrawData::fgRawFormatVersion = AliTRDrawData::kRawNewFormat;
+Int_t AliTRDrawData::fgDataSuppressionLevel = 0;
+
 //_____________________________________________________________________________
 AliTRDrawData::AliTRDrawData()
   :TObject()
+  ,fRunLoader(NULL)
   ,fGeo(NULL)
   ,fFee(NULL)
   ,fNumberOfDDLs(0)
+  ,fTrackletTree(NULL)
+  ,fTrackletContainer(NULL)
+  ,fNTimeBins(0)
+  ,fSMindexPos(0)
+  ,fStackindexPos(0)
+  ,fEventCounter(0)
 {
   //
   // Default constructor
@@ -63,9 +74,16 @@ AliTRDrawData::AliTRDrawData()
 //_____________________________________________________________________________
 AliTRDrawData::AliTRDrawData(const AliTRDrawData &r)
   :TObject(r)
+  ,fRunLoader(NULL)
   ,fGeo(NULL)
   ,fFee(NULL)
   ,fNumberOfDDLs(0)
+  ,fTrackletTree(NULL)
+  ,fTrackletContainer(NULL)
+  ,fNTimeBins(0)
+  ,fSMindexPos(0)
+  ,fStackindexPos(0)
+  ,fEventCounter(0)
 {
   //
   // Copy constructor
@@ -83,10 +101,15 @@ AliTRDrawData::~AliTRDrawData()
   // Destructor
   //
 
+  if (fTrackletContainer){
+    delete fTrackletContainer;
+    fTrackletContainer = NULL;
+  }
+
 }
 
 //_____________________________________________________________________________
-Bool_t AliTRDrawData::Digits2Raw(TTree *digitsTree, TTree *tracks )
+Bool_t AliTRDrawData::Digits2Raw(TTree *digitsTree, const TTree *tracks )
 {
   //
   // Initialize necessary parameters and call one
@@ -96,7 +119,7 @@ Bool_t AliTRDrawData::Digits2Raw(TTree *digitsTree, TTree *tracks )
   // will be supported in higher version simulator.
   //
 
-  AliTRDdigitsManager* digitsManager = new AliTRDdigitsManager();
+  AliTRDdigitsManager* const digitsManager = new AliTRDdigitsManager();
 
   if (!digitsManager->ReadDigits(digitsTree)) {
     delete digitsManager;
@@ -152,16 +175,23 @@ Bool_t AliTRDrawData::Digits2Raw(AliTRDdigitsManager *digitsManager)
 
   // Buffer to temporary store half chamber data
   UInt_t     *hcBuffer    = new UInt_t[kMaxHcWords];
+  
+  // set the number of time bin 
+  fNTimeBins = digitsManager->GetDigitsParam()->GetNTimeBins(); 
+
+  Bool_t newEvent = kFALSE;  // only for correct readout tree
+  Bool_t newSM    = kFALSE;  // new SM flag, for writing SM index words
+  Bool_t newStack = kFALSE;  // new stack flag, for writing stack index words
 
   // sect is same as iDDL, so I use only sect here.
-  for (Int_t sect = 0; sect < fGeo->Nsect(); sect++) { 
+  for (Int_t sect = 0; sect < fGeo->Nsector(); sect++) { 
 
     char name[1024];
-    sprintf(name,"TRD_%d.ddl",sect + AliTRDRawStream::kDDLOffset);
+    sprintf(name,"TRD_%d.ddl",sect + AliTRDrawStreamBase::kDDLOffset);
 
     AliFstream* of = new AliFstream(name);
 
-    // Write a dummy data header
+           // Write a dummy data header
     AliRawDataHeaderSim  header;  // the event header
     UInt_t hpos = of->Tellp();
     of->WriteBuffer((char *) (& header), sizeof(header));
@@ -169,69 +199,190 @@ Bool_t AliTRDrawData::Digits2Raw(AliTRDdigitsManager *digitsManager)
     // Reset payload byte size (payload does not include header).
     Int_t npayloadbyte = 0;
 
+
+   if ( fgRawFormatVersion == 0 ){
     // GTU common data header (5x4 bytes per super module, shows link mask)
-    for( Int_t cham = 0; cham < fGeo->Ncham(); cham++ ) {
-      UInt_t gtuCdh = (UInt_t)(0xe << 28);
-      for( Int_t plan = 0; plan < fGeo->Nplan(); plan++) {
-       Int_t iDet = fGeo->GetDetector(plan, cham, sect);
-       // If chamber status is ok, we assume that the optical link is also OK.
-        // This is shown in the GTU link mask.
-       if ( AliTRDcalibDB::Instance()->GetChamberStatus(iDet) )
-         gtuCdh = gtuCdh | (3 << (2*plan));
-      }
-      of->WriteBuffer((char *) (& gtuCdh), sizeof(gtuCdh));
-      npayloadbyte += 4;
+    for( Int_t stack = 0; stack < fGeo->Nstack(); stack++ ) {
+        UInt_t gtuCdh = (UInt_t)(0xe << 28);
+        for( Int_t layer = 0; layer < fGeo->Nlayer(); layer++) {
+            Int_t iDet = fGeo->GetDetector(layer, stack, sect);
+
+            // If chamber status is ok, we assume that the optical link is also OK.
+            // This is shown in the GTU link mask.
+            if ( AliTRDcalibDB::Instance()->GetChamberStatus(iDet) )
+                gtuCdh = gtuCdh | (3 << (2*layer));
+        }
+        of->WriteBuffer((char *) (& gtuCdh), sizeof(gtuCdh));
+        npayloadbyte += 4;
+    }
+   }
+
+
+    // check the existance of the data
+    // SM index word and Stack index word
+   if ( fgRawFormatVersion == 1 ){
+    UInt_t *iwbuffer = new UInt_t[109]; // index word buffer; max 109 = 2 SM headers + 67 dummy headers + 5*8 stack headers
+    Int_t nheader = 0;
+    UInt_t bStackMask = 0x0;
+    Bool_t bStackHasData = kFALSE;
+    Bool_t bSMHasData = kFALSE;
+
+    //iwbuffer[nheader++] = 0x0001a020;   // SM index words 
+    iwbuffer[nheader++] = 0x0044a020;   // SM index words | additional SM header:48 = 1 SM header + 47 dummy words(for future use)
+    iwbuffer[nheader++] = 0x10404071;   // SM header
+    for ( Int_t i=0; i<66; i++ ) iwbuffer[nheader++] = 0x00000000;  // dummy words 
+    iwbuffer[nheader++] = 0x10000000;   // end of dummy words
+
+    for ( Int_t stack= 0; stack < fGeo->Nstack(); stack++) {
+        UInt_t linkMask = 0x0;
+        for( Int_t layer = 0; layer < fGeo->Nlayer(); layer++) {
+            Int_t iDet = fGeo->GetDetector(layer,stack,sect);
+                       AliTRDarrayADC *digits = (AliTRDarrayADC *) digitsManager->GetDigits(iDet);
+            if ( digits->HasData() ) {
+                bStackMask = bStackMask | ( 1 << stack ); // active stack mask for new stack
+                linkMask = linkMask | ( 3 << (2*layer) );    // 3 = 0011
+                bStackHasData = kTRUE;
+                bSMHasData = kTRUE;
+            } // has data
+        } // loop over layer
+
+        if ( fgDataSuppressionLevel==0 || bStackHasData ){
+            iwbuffer[nheader++] = 0x0007a000 | linkMask;    // stack index word + link masks
+            if (fgDataSuppressionLevel==0) iwbuffer[nheader-1] = 0x0007afff;  // no suppression
+            iwbuffer[nheader++] = 0x04045b01;               // stack header
+            for (Int_t i=0;i<6;i++) iwbuffer[nheader++] = 0x00000000; // 6 dummy words
+            bStackHasData = kFALSE;
+        }
+    } // loop over stack
+
+    if ( fgDataSuppressionLevel==0 || bSMHasData ){
+        iwbuffer[0] = iwbuffer[0] | bStackMask;  // add stack masks to SM index word
+        if (fgDataSuppressionLevel==0) iwbuffer[0] = 0x0044a03f;    // no suppression : all stacks are active
+        of->WriteBuffer((char *) iwbuffer, nheader*4);
+        AliDebug(11, Form("SM %d index word: %08x", iwbuffer[0]));
+        AliDebug(11, Form("SM %d header: %08x", iwbuffer[1]));
     }
+   }
+    // end of SM & stack header ------------------------------------------------------------------------
+    // -------------------------------------------------------------------------------------------------
 
     // Prepare chamber data
-    for( Int_t cham = 0; cham < fGeo->Ncham(); cham++) {
-      for( Int_t plan = 0; plan < fGeo->Nplan(); plan++) {
-
-        Int_t iDet = fGeo->GetDetector(plan,cham,sect);
-
+    for( Int_t stack = 0; stack < fGeo->Nstack(); stack++) {
+      for( Int_t layer = 0; layer < fGeo->Nlayer(); layer++) {
+
+        Int_t iDet = fGeo->GetDetector(layer,stack,sect);
+        if (iDet == 0){
+            newEvent = kTRUE; // it is expected that each event has at least one tracklet; 
+                                         // this is only needed for correct readout tree
+            fEventCounter++;
+            AliDebug(11, Form("New event!! Event counter: %d",fEventCounter));
+        }
+
+        if ( stack==0 && layer==0 ) newSM = kTRUE;  // new SM flag
+        if ( layer==0 ) newStack = kTRUE;           // new stack flag
+        AliDebug(15, Form("stack : %d, layer : %d, iDec : %d\n",stack,layer,iDet));
         // Get the digits array
-        AliTRDdataArrayS *digits = (AliTRDdataArrayS *) digitsManager->GetDigits(iDet);
-        if (digits->HasData()) {
+               AliTRDarrayADC *digits = (AliTRDarrayADC *) digitsManager->GetDigits(iDet);
+        if (fgDataSuppressionLevel==0 || digits->HasData() ) {  // second part is new!! and is for indicating a new event
+
+               if (digits->HasData()) digits->Expand();
 
-          digits->Expand();
+                       Int_t hcwords = 0;
+                       Int_t rv = fFee->GetRAWversion();
 
-          Int_t hcwords = 0;
-         Int_t rv = fFee->GetRAWversion();
 
-          // Process A side of the chamber
+       if ( fgRawFormatVersion == 0 ){
+      // Process A side of the chamber
          if ( rv >= 1 && rv <= 2 ) {
             hcwords = ProduceHcDataV1andV2(digits,0,iDet,hcBuffer,kMaxHcWords);
          }
          if ( rv == 3 ) { 
-            hcwords = ProduceHcDataV3     (digits,0,iDet,hcBuffer,kMaxHcWords);
+   
+             hcwords = ProduceHcDataV3     (digits,0,iDet,hcBuffer,kMaxHcWords,newEvent);
+             //hcwords = ProduceHcDataV3     (digits,0,iDet,hcBuffer,kMaxHcWords);
+           if(newEvent == kTRUE) newEvent = kFALSE;
          }
 
           of->WriteBuffer((char *) hcBuffer, hcwords*4);
           npayloadbyte += hcwords*4;
 
-          // Process B side of the chamber
+      // Process B side of the chamber
          if ( rv >= 1 && rv <= 2 ) {
             hcwords = ProduceHcDataV1andV2(digits,1,iDet,hcBuffer,kMaxHcWords);
          }
          if ( rv >= 3 ) {
-            hcwords = ProduceHcDataV3     (digits,1,iDet,hcBuffer,kMaxHcWords);
+          
+             hcwords = ProduceHcDataV3     (digits,1,iDet,hcBuffer,kMaxHcWords,newEvent);
+             //hcwords = ProduceHcDataV3     (digits,1,iDet,hcBuffer,kMaxHcWords);
          }
 
           of->WriteBuffer((char *) hcBuffer, hcwords*4);
           npayloadbyte += hcwords*4;
 
-       }
-
-      }
+    } else { // real data format
+
+       if (digits->HasData()){
+        // Process A side of the chamber
+        hcwords = ProduceHcData(digits,0,iDet,hcBuffer,kMaxHcWords,newEvent,newSM);
+        //if ( newStack ){
+        //  AssignStackMask(hcBuffer, stack);   // active stack mask for this stack
+        //  hcwords += AddStackIndexWords(hcBuffer, stack, hcwords);
+        //  newStack = kFALSE;
+        //}
+        //if ( newSM ) newSM = kFALSE;
+        if ( newEvent ) newEvent = kFALSE;
+        //AssignLinkMask(hcBuffer, layer);  // active link mask for this layer(2*HC)
+        of->WriteBuffer((char *) hcBuffer, hcwords*4);
+        npayloadbyte += hcwords*4;
+        //for ( Int_t i=0; i<hcwords; i++ ) AliInfo(Form("Buf : %X",hcBuffer[i]));
+
+        // Process B side of the chamber
+        hcwords = ProduceHcData(digits,1,iDet,hcBuffer,kMaxHcWords,newEvent,newSM);
+        of->WriteBuffer((char *) hcBuffer, hcwords*4);
+        npayloadbyte += hcwords*4;
+       } else {   // in case of no-suppression or NZS
+/*        
+        hcBuffer[hcwords++] = fgkEndOfTrackletMarker;
+        hcBuffer[hcwords++] = fgkEndOfTrackletMarker;
+        hcBuffer[hcwords++] = (1<<31) | (0<<24) | (0<<17) | (1<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (0<<2) | 1;
+        hcBuffer[hcwords++] = (24<<26) | (99<<10) | (15<<6) | (11<<2) | 1;
+        hcBuffer[hcwords++] = kEndofrawdatamarker;
+        hcBuffer[hcwords++] = kEndofrawdatamarker;
+        hcBuffer[hcwords++] = kEndofrawdatamarker;
+        hcBuffer[hcwords++] = kEndofrawdatamarker;
+        npayloadbyte += hcwords*4;
+
+        hcBuffer[hcwords++] = fgkEndOfTrackletMarker;
+        hcBuffer[hcwords++] = fgkEndOfTrackletMarker;
+        hcBuffer[hcwords++] = (1<<31) | (0<<24) | (0<<17) | (1<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (1<<2) | 1;
+        hcBuffer[hcwords++] = (24<<26) | (99<<10) | (15<<6) | (11<<2) | 1;
+        hcBuffer[hcwords++] = kEndofrawdatamarker;
+        hcBuffer[hcwords++] = kEndofrawdatamarker;
+        hcBuffer[hcwords++] = kEndofrawdatamarker;
+        hcBuffer[hcwords++] = kEndofrawdatamarker;
+*/        
+        hcwords = ProduceHcDataNoSuppression(0,iDet,hcBuffer,kMaxHcWords); // side 0
+        of->WriteBuffer((char *) hcBuffer, hcwords*4);
+        npayloadbyte += hcwords*4;
+
+        hcwords = ProduceHcDataNoSuppression(1,iDet,hcBuffer,kMaxHcWords); // side 1
+        of->WriteBuffer((char *) hcBuffer, hcwords*4);
+        npayloadbyte += hcwords*4;
+       }
     }
 
+    } // has data
+
+      } // loop over layer
+    } // loop over stack
+
     // Complete header
     header.fSize = UInt_t(of->Tellp()) - hpos;
     header.SetAttribute(0);  // Valid data
     of->Seekp(hpos);         // Rewind to header position
     of->WriteBuffer((char *) (& header), sizeof(header));
     delete of;
-  }
+  } // loop over sector(SM)
 
   delete [] hcBuffer;
 
@@ -240,7 +391,292 @@ Bool_t AliTRDrawData::Digits2Raw(AliTRDdigitsManager *digitsManager)
 }
 
 //_____________________________________________________________________________
-Int_t AliTRDrawData::ProduceHcDataV1andV2(AliTRDdataArrayS *digits, Int_t side
+void AliTRDrawData::ProduceSMIndexData(UInt_t *buf, Int_t& nw){
+       // 
+       // This function generates 
+       //       1) SM index words : ssssssss ssssssss vvvv rrrr r d t mmmmm
+       //          - s : size of SM header (number of header, default = 0x0001)
+       //          - v : SM header version (default = 0xa)
+       //          - r : reserved for future use (default = 00000)
+       //          - d : track data enabled bit (default = 0)
+       //          - t : tracklet data enabled bit (default = 1)
+       //          - m : stack mask (each bit corresponds a stack, default = 11111)
+       //
+       //       2) SM header : rrr c vvvv vvvvvvvv vvvv rrrr bbbbbbbb
+       //          - r : reserved for future use (default = 000)
+       //          - c : clean check out flag (default = 1)
+       //          - v : hardware design revision (default = 0x0404)
+       //          - r : reserved for future use (default = 0x0)
+       //          - b : physical board ID (default = 0x71)
+       //
+       //       3) stack index words : ssssssss ssssssss vvvv mmmm mmmmmmmm
+       //          - s : size of stack header (number of header, (default = 0x0007)
+       //          - v : header version (default = 0xa)
+       //          - m : link mask (default = 0xfff)
+       //
+       //       4) stack header : vvvvvvvv vvvvvvvv bbbbbbbb rrrr rrr c
+       //          - v : hardware design revision (default = 0x0404)
+       //          - b : physical board ID (default = 0x5b)
+       //          - r : reserved for future use (default = 0000 000)
+       //          - c : clean checkout flag (default = 1)
+       //      
+       //       and 6 dummy words(0x00000000)
+       //
+       
+    //buf[nw++] = 0x0001a03f;   // SM index words
+    fSMindexPos = nw;       // memorize position of the SM index word for re-allocating stack mask
+    buf[nw++] = 0x0001a020; // SM index words
+    buf[nw++] = 0x10404071; // SM header
+
+    fStackindexPos = nw;    // memorize position of the stack index word for future adding
+       /*  
+    for (Int_t istack=0; istack<5; istack++){
+        buf[nw++] = 0x0007afff; // stack index words
+        buf[nw++] = 0x04045b01; // stack header
+        for (Int_t i=0;i<6;i++) buf[nw++] = 0x00000000; // 6 dummy words
+    } // loop over 5 stacks
+       */
+}
+
+//_____________________________________________________________________________
+void AliTRDrawData::AssignStackMask(UInt_t *buf, Int_t nStack){
+    //
+    // This function re-assign stack mask active(from 0 to 1) in the SM index word
+    //   
+    buf[fSMindexPos] = buf[fSMindexPos] | ( 1 << nStack );
+}
+
+//_____________________________________________________________________________  
+Int_t AliTRDrawData::AddStackIndexWords(UInt_t *buf, Int_t /*nStack*/, Int_t nMax){
+    // 
+    // This function add stack index words and stack header when there is data for the stack
+    //
+    //   1) stack index words : ssssssss ssssssss vvvv mmmm mmmmmmmm 
+    //      - s : size of stack header (number of header, (default = 0x0007)       
+    //      - v : header version (default = 0xa)
+    //      - m : link mask (default = 0xfff)
+    //      - m : link mask (starting value = 0x000)
+    //
+    //   2) stack header : vvvvvvvv vvvvvvvv bbbbbbbb rrrr rrr c
+    //      - v : hardware design revision (default = 0x0404)
+    //      - b : physical board ID (default = 0x5b)
+    //      - r : reserved for future use (default = 0000 000)
+    //      - c : clean checkout flag (default = 1)
+    //  
+    //   and 6 dummy words(0x00000000)
+    //
+
+    Int_t nAddedWords = 0;  // Number of added words
+    if ( ShiftWords(buf, fStackindexPos, 8, nMax)== kFALSE ){
+        AliError("Adding stack header failed.");
+        return 0;
+    }
+
+    buf[fStackindexPos++] = 0x0007a000; // stack index words
+    buf[fStackindexPos++] = 0x04045b01; // stack header
+    for (Int_t i=0;i<6;i++) buf[fStackindexPos++] = 0x00000000; // 6 dummy words 
+    nAddedWords += 8;
+
+    return nAddedWords;
+}
+
+//_____________________________________________________________________________
+void AliTRDrawData::AssignLinkMask(UInt_t *buf, Int_t nLayer){
+    //
+    // This function re-assign link mask active(from 0 to 1) in the stack index word
+    //   
+    buf[fStackindexPos-8] = buf[fStackindexPos-8] | ( 3 << (2*nLayer) );    // 3 = 0011 
+}
+
+//_____________________________________________________________________________ 
+Bool_t AliTRDrawData::ShiftWords(UInt_t *buf, Int_t nStart, Int_t nWords, Int_t nMax){
+    //  
+    // This function shifts n words
+    //
+    //if ( nStart+nWords > sizeof(buf)/sizeof(UInt_t) ){
+    //  AliError("Words shift failed. No more buffer space.");
+    //  return kFALSE;
+    //}
+
+    for ( Int_t iw=nMax; iw>nStart-1; iw--){
+        buf[iw+nWords] = buf[iw];
+    }
+    return kTRUE;
+}
+
+//_____________________________________________________________________________
+Int_t AliTRDrawData::ProduceHcData(AliTRDarrayADC *digits, Int_t side, Int_t det, UInt_t *buf, Int_t maxSize, Bool_t /*newEvent = kFALSE*/, Bool_t /*newSM = kFALSE*/){
+       //
+       // This function can be used for both ZS and NZS data
+       //
+
+       Int_t           nw = 0;                       // Number of written    words
+       Int_t           of = 0;                       // Number of overflowed words
+       Int_t      *tempnw = 0x0;                     // Number of written    words for temp. buffer
+       Int_t      *tempof = 0x0;                     // Number of overflowed words for temp. buffer
+       Int_t        layer = fGeo->GetLayer( det );   // Layer
+       Int_t        stack = fGeo->GetStack( det );   // Stack
+       Int_t         sect = fGeo->GetSector( det );  // Sector (=iDDL)
+       const Int_t kCtype = fGeo->GetStack(det) == 2 ? 0 : 1;                       // Chamber type (0:C0, 1:C1)
+
+       Bool_t trackletOn = fFee->GetTracklet();     // tracklet simulation active?
+
+       AliDebug(1,Form("Producing raw data for sect=%d layer=%d stack=%d side=%d",sect,layer,stack,side));
+        
+       AliTRDmcmSim* mcm = new AliTRDmcmSim();
+
+       UInt_t *tempBuffer = buf; // tempBuffer used to write ADC data
+                                 // different in case of tracklet writing
+       
+       if (trackletOn) {
+         tempBuffer = new UInt_t[maxSize];
+          tempnw = new Int_t(0);
+          tempof = new Int_t(0);
+        }
+        else {
+          tempnw = &nw;
+          tempof = &of;
+        }
+
+       WriteIntermediateWordsV2(tempBuffer,*tempnw,*tempof,maxSize,det,side);  //??? no tracklet or NZS
+
+       // scanning direction such, that tracklet-words are sorted in ascending z and then in ascending y order
+       // ROB numbering on chamber and MCM numbering on ROB increase with decreasing z and increasing y
+       for (Int_t iRobRow = 0; iRobRow <= (kCtype + 3)-1; iRobRow++ ) {        // ROB number should be increasing
+          Int_t iRob = iRobRow * 2 + side;
+          // MCM on one ROB
+          for (Int_t iMcmRB = 0; iMcmRB < fGeo->MCMmax(); iMcmRB++ ) {
+            Int_t iMcm = 16 - 4*(iMcmRB/4 + 1) + (iMcmRB%4);
+            
+            mcm->Init(det, iRob, iMcm);
+            mcm->SetData(digits);     // no filtering done here (already done in digitizer)
+           if (trackletOn) {
+             mcm->Tracklet();
+              Int_t tempNw = mcm->ProduceTrackletStream(&buf[nw], maxSize - nw);
+             if(  tempNw < 0 ) {
+               of += tempNw;
+               nw += maxSize - nw;
+               AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
+             } else {
+               nw += tempNw;
+             }
+           }
+            mcm->ZSMapping();  // Calculate zero suppression mapping
+                               // at the moment it has to be rerun here
+            // Write MCM data to temp. buffer
+            Int_t tempNw = mcm->ProduceRawStream( &tempBuffer[*tempnw], maxSize - *tempnw, fEventCounter );
+            if ( tempNw < 0 ) {
+              *tempof += tempNw;
+              *tempnw += maxSize - nw;
+              AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
+            } else {
+              *tempnw += tempNw;
+            }
+          }
+       }
+
+        delete mcm;
+
+
+       // in case of tracklet writing copy temp data to final buffer
+       if (trackletOn) {
+         if (nw + *tempnw < maxSize) {
+           memcpy(&buf[nw], tempBuffer, *tempnw * sizeof(UInt_t));
+           nw += *tempnw;
+         }
+         else {
+           AliError("Buffer overflow detected");
+         }
+       }
+
+       // Write end of raw data marker
+       if (nw+3 < maxSize) {
+          buf[nw++] = fgkEndOfDataMarker; // fFee->GetRawDataEndmarker(); 
+          buf[nw++] = fgkEndOfDataMarker; // fFee->GetRawDataEndmarker(); 
+          //buf[nw++] = fgkEndOfDataMarker; // fFee->GetRawDataEndmarker(); 
+          //buf[nw++] = fgkEndOfDataMarker; // fFee->GetRawDataEndmarker(); 
+       } else {
+          of++;
+       }
+       
+        if (trackletOn) {
+          delete [] tempBuffer;
+          delete tempof;
+          delete tempnw;
+        }
+
+       if (of != 0) {
+          AliError("Buffer overflow. Data is truncated. Please increase buffer size and recompile.");
+       }
+
+       return nw;
+}
+
+//_____________________________________________________________________________
+Int_t AliTRDrawData::ProduceHcDataNoSuppression(Int_t side, Int_t det, UInt_t *buf, Int_t maxSize){
+
+    // This function generates below words for no-suppression option(same as real data format) 
+    //   1. end of tracklet marker
+    //   2. HC index word, HC header
+    //   3. MCM header, ADC mask
+    //   4. end of data marker
+    //
+
+    Int_t   nw = 0;         // number of written words
+    Int_t   of = 0;         // number of overflowed words
+    UInt_t  x  = 0;         // word buffer
+    //UInt_t *tempBuffer  = buf;   // temp buffer
+    Int_t  *tempnw      = &nw;   // temp number of written words
+    Int_t  *tempof      = &of;   // temp number of overflowed words
+
+    const Int_t kCtype = fGeo->GetStack(det) == 2 ? 0 : 1;   // Chamber type (0:C0, 1:C1)
+
+    WriteIntermediateWordsV2(buf, *tempnw, *tempof, maxSize, det, side);  // end of tracklet marker and HC headers
+
+    for (Int_t iRobRow = 0; iRobRow <= (kCtype + 3)-1; iRobRow++ ) {    // ROB number should be increasing
+        Int_t iRob = iRobRow * 2 + side;  // ROB position
+
+        for (Int_t iMcmRB = 0; iMcmRB < fGeo->MCMmax(); iMcmRB++ ) {    // MCM on ROB
+            Int_t iMcm = 16 - 4*(iMcmRB/4 + 1) + (iMcmRB%4);    // MCM position
+
+            if ( nw+2 < maxSize ){
+                x = 0;
+                x = (1<<31) | (iRob << 28) | (iMcm << 24) | ((fEventCounter % 0x100000) << 4) | 0xC;    // MCM header
+                buf[nw++] = x;
+
+                x = 0;
+                // Produce ADC mask : nncc cccm mmmm mmmm mmmm mmmm mmmm 1100
+                //                n : unused , c : ADC count, m : selected ADCs , where ccccc are inverted
+                x = x | (1 << 30) | (31 << 25) | 0xC;   // 11111 = 31
+                buf[nw++] = x;
+            } else {
+                of++;
+            }
+
+        }   // loop over MCM
+    }   // loop over ROB
+
+       // Write end of raw data marker
+       if (nw+1 < maxSize) {
+          buf[nw++] = fgkEndOfDataMarker; // fFee->GetRawDataEndmarker(); 
+          buf[nw++] = fgkEndOfDataMarker; // fFee->GetRawDataEndmarker(); 
+          //buf[nw++] = fgkEndOfDataMarker; // fFee->GetRawDataEndmarker(); 
+          //buf[nw++] = fgkEndOfDataMarker; // fFee->GetRawDataEndmarker(); 
+       } else {
+          of++;
+       }
+
+    if ( of != 0 ){     // if there is overflow
+        AliError("Buffer overflow. Data is truncated. Please increase buffer size and recompile.");
+    }
+
+    AliDebug(1, Form("Number of written words in this HC is %d",nw));
+
+    return nw;
+}
+
+//_____________________________________________________________________________
+Int_t AliTRDrawData::ProduceHcDataV1andV2(AliTRDarrayADC *digits, Int_t side
                                         , Int_t det, UInt_t *buf, Int_t maxSize)
 {
   //
@@ -264,12 +700,13 @@ Int_t AliTRDrawData::ProduceHcDataV1andV2(AliTRDdataArrayS *digits, Int_t side
 
   Int_t           nw = 0;                       // Number of written    words
   Int_t           of = 0;                       // Number of overflowed words
-  Int_t         plan = fGeo->GetPlane( det );   // Plane
-  Int_t         cham = fGeo->GetChamber( det ); // Chamber
+  Int_t        layer = fGeo->GetLayer( det );   // Layer
+  Int_t        stack = fGeo->GetStack( det );   // Stack
   Int_t         sect = fGeo->GetSector( det );  // Sector (=iDDL)
-  Int_t         nRow = fGeo->GetRowMax( plan, cham, sect );
-  Int_t         nCol = fGeo->GetColMax( plan );
-  const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
+  Int_t         nRow = fGeo->GetRowMax( layer, stack, sect );
+  Int_t         nCol = fGeo->GetColMax( layer );
+  //const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
+  const Int_t kNTBin = fNTimeBins;
   Int_t       kCtype = 0;                       // Chamber type (0:C0, 1:C1)
   Int_t          iEv = 0xA;                     // Event ID. Now fixed to 10, how do I get event id?
   UInt_t           x = 0;                       // General used number
@@ -286,8 +723,8 @@ Int_t AliTRDrawData::ProduceHcDataV1andV2(AliTRDdataArrayS *digits, Int_t side
     return 0;
   }
 
-  AliDebug(1,Form("Producing raw data for sect=%d plan=%d cham=%d side=%d"
-                 ,sect,plan,cham,side));
+  AliDebug(1,Form("Producing raw data for sect=%d layer=%d stack=%d side=%d"
+                 ,sect,layer,stack,side));
 
   // Tracklet should be processed here but not implemented yet
 
@@ -303,7 +740,7 @@ Int_t AliTRDrawData::ProduceHcDataV1andV2(AliTRDdataArrayS *digits, Int_t side
   if      ( rv == 1 ) {
     // Now it is the same version as used in SM-I commissioning.
     Int_t  dcs = det+100;      // DCS Serial (in simulation, it is meaningless
-    x = (dcs<<20) | (sect<<15) | (plan<<12) | (cham<<9) | (side<<8) | 1;
+    x = (dcs<<20) | (sect<<15) | (layer<<12) | (stack<<9) | (side<<8) | 1;
     if (nw < maxSize) {
       buf[nw++] = x; 
     }
@@ -315,7 +752,7 @@ Int_t AliTRDrawData::ProduceHcDataV1andV2(AliTRDdataArrayS *digits, Int_t side
     // h[0] (there are 3 HC header)
     Int_t minorv = 0;      // The minor version number
     Int_t add    = 2;      // The number of additional header words to follow
-    x = (1<<31) | (rv<<24) | (minorv<<17) | (add<<14) | (sect<<9) | (plan<<6) | (cham<<3) | (side<<2) | 1;
+    x = (1<<31) | (rv<<24) | (minorv<<17) | (add<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (side<<2) | 1;
     if (nw < maxSize) {
       buf[nw++] = x; 
     }
@@ -369,14 +806,14 @@ Int_t AliTRDrawData::ProduceHcDataV1andV2(AliTRDdataArrayS *digits, Int_t side
       // ADC data
       for (Int_t iAdc = 0; iAdc < 21; iAdc++ ) {
        Int_t padcol = fFee->GetPadColFromADC(iRob, iMcm, iAdc);
-       UInt_t aa = !(iAdc & 1) + 2;
+       UInt_t aa = !(iAdc & 1) + 2;    // 3 for the even ADC channel , 2 for the odd ADC channel
         UInt_t *a = new UInt_t[kNTBin+2];
         // 3 timebins are packed into one 32 bits word
         for (Int_t iT = 0; iT < kNTBin; iT+=3) { 
           if ((padcol >=    0) && (padcol <  nCol)) {
-           a[iT  ] = ((iT    ) < kNTBin ) ? digits->GetDataUnchecked(padrow,padcol,iT    ) : 0;
-           a[iT+1] = ((iT + 1) < kNTBin ) ? digits->GetDataUnchecked(padrow,padcol,iT + 1) : 0;
-           a[iT+2] = ((iT + 2) < kNTBin ) ? digits->GetDataUnchecked(padrow,padcol,iT + 2) : 0; 
+           a[iT  ] = ((iT    ) < kNTBin ) ? digits->GetData(padrow,padcol,iT    ) : 0;
+           a[iT+1] = ((iT + 1) < kNTBin ) ? digits->GetData(padrow,padcol,iT + 1) : 0;
+           a[iT+2] = ((iT + 2) < kNTBin ) ? digits->GetData(padrow,padcol,iT + 2) : 0; 
          } 
          else {
            a[iT] = a[iT+1] = a[iT+2] = 0; // This happenes at the edge of chamber (should be pedestal! How?)
@@ -425,8 +862,9 @@ Int_t AliTRDrawData::ProduceHcDataV1andV2(AliTRDdataArrayS *digits, Int_t side
 }
 
 //_____________________________________________________________________________
-Int_t AliTRDrawData::ProduceHcDataV3(AliTRDdataArrayS *digits, Int_t side
-                                  , Int_t det, UInt_t *buf, Int_t maxSize)
+
+//Int_t AliTRDrawData::ProduceHcDataV3(AliTRDarrayADC *digits, Int_t side , Int_t det, UInt_t *buf, Int_t maxSize)
+Int_t AliTRDrawData::ProduceHcDataV3(AliTRDarrayADC *digits, Int_t side , Int_t det, UInt_t *buf, Int_t maxSize, Bool_t newEvent = kFALSE)
 {
   //
   // This function simulates: Raw Version == 3 (Zero Suppression Prototype)
@@ -434,16 +872,19 @@ Int_t AliTRDrawData::ProduceHcDataV3(AliTRDdataArrayS *digits, Int_t side
 
   Int_t           nw = 0;                       // Number of written    words
   Int_t           of = 0;                       // Number of overflowed words
-  Int_t         plan = fGeo->GetPlane( det );   // Plane
-  Int_t         cham = fGeo->GetChamber( det ); // Chamber
+  Int_t        layer = fGeo->GetLayer( det );   // Layer
+  Int_t        stack = fGeo->GetStack( det );   // Stack
   Int_t         sect = fGeo->GetSector( det );  // Sector (=iDDL)
-  Int_t         nRow = fGeo->GetRowMax( plan, cham, sect );
-  Int_t         nCol = fGeo->GetColMax( plan );
-  const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
+  Int_t         nRow = fGeo->GetRowMax( layer, stack, sect );
+  Int_t         nCol = fGeo->GetColMax( layer );
+  //const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
+  const Int_t kNTBin = fNTimeBins;
   Int_t       kCtype = 0;                       // Chamber type (0:C0, 1:C1)
   //Int_t          iEv = 0xA;                     // Event ID. Now fixed to 10, how do I get event id?
-  UInt_t           x = 0;                       // General used number
-  Int_t           rv = fFee->GetRAWversion();
+
+ 
+
+  Bool_t trackletOn = fFee->GetTracklet();     // **new**
 
   // Check the nCol and nRow.
   if ((nCol == 144) && 
@@ -456,98 +897,121 @@ Int_t AliTRDrawData::ProduceHcDataV3(AliTRDdataArrayS *digits, Int_t side
     return 0;
   }
 
-  AliDebug(1,Form("Producing raw data for sect=%d plan=%d cham=%d side=%d"
-                 ,sect,plan,cham,side));
+  AliDebug(1,Form("Producing raw data for sect=%d layer=%d stack=%d side=%d"
+                 ,sect,layer,stack,side));
 
-  // Tracklet should be processed here but not implemented yet
+  AliTRDmcmSim** mcm = new AliTRDmcmSim*[(kCtype + 3)*(fGeo->MCMmax())];
 
-  // Write end of tracklet marker
-  if (nw < maxSize) {
-    buf[nw++] = kEndoftrackletmarker;
-  } 
-  else {
-    of++;
+  // in case no tracklet-words are processed: write the tracklet-endmarker as well as all additional words immediately and write 
+  // raw-data in one go; if tracklet-processing is enabled, first all tracklet-words of a half-chamber have to be processed before the
+  // additional words (tracklet-endmarker,headers,...)are written. Raw-data is written in a second loop;
+  
+  if (!trackletOn) {
+      WriteIntermediateWords(buf,nw,of,maxSize,det,side); 
   }
-
-  // Half Chamber header
-  // h[0] (there are 3 HC header)
-  Int_t minorv = 0;    // The minor version number
-  Int_t add    = 2;    // The number of additional header words to follow
-  x = (1<<31) | (rv<<24) | (minorv<<17) | (add<<14) | (sect<<9) | (plan<<6) | (cham<<3) | (side<<2) | 1;
-  if (nw < maxSize) {
-    buf[nw++] = x; 
-  }
-  else {
-    of++;
-  }
-  // h[1]
-  Int_t bcCtr   = 99; // bunch crossing counter. Here it is set to 99 always for no reason
-  Int_t ptCtr   = 15; // pretrigger counter. Here it is set to 15 always for no reason
-  Int_t ptPhase = 11; // pretrigger phase. Here it is set to 11 always for no reason
-  x = (bcCtr<<16) | (ptCtr<<12) | (ptPhase<<8) | ((kNTBin-1)<<2) | 1;
-  if (nw < maxSize) {
-    buf[nw++] = x; 
-  }
-  else {
-    of++;
-  }
-  // h[2]
-  Int_t pedSetup       = 1;  // Pedestal filter setup (0:1). Here it is always 1 for no reason
-  Int_t gainSetup      = 1;  // Gain filter setup (0:1). Here it is always 1 for no reason
-  Int_t tailSetup      = 1;  // Tail filter setup (0:1). Here it is always 1 for no reason
-  Int_t xtSetup        = 0;  // Cross talk filter setup (0:1). Here it is always 0 for no reason
-  Int_t nonlinSetup    = 0;  // Nonlinearity filter setup (0:1). Here it is always 0 for no reason
-  Int_t bypassSetup    = 0;  // Filter bypass (for raw data) setup (0:1). Here it is always 0 for no reason
-  Int_t commonAdditive = 10; // Digital filter common additive (0:63). Here it is always 10 for no reason
-  x = (pedSetup<<31) | (gainSetup<<30) | (tailSetup<<29) | (xtSetup<<28) | (nonlinSetup<<27)
-    | (bypassSetup<<26) | (commonAdditive<<20) | 1;
-  if (nw < maxSize) {
-    buf[nw++] = x; 
-  }
-  else {
-    of++;
-  }
-
+  
   // Scan for ROB and MCM
-  for (Int_t iRobRow = 0; iRobRow < (kCtype + 3); iRobRow++ ) {
+  // scanning direction such, that tracklet-words are sorted in ascending z and then in ascending y order
+  // ROB numbering on chamber and MCM numbering on ROB increase with decreasing z and increasing y
+  for (Int_t iRobRow =  (kCtype + 3)-1; iRobRow >= 0; iRobRow-- ) {
     Int_t iRob = iRobRow * 2 + side;
-    for (Int_t iMcm = 0; iMcm < fGeo->MCMmax(); iMcm++ ) {
-
-      AliTRDmcmSim *mcm = new AliTRDmcmSim();
-      mcm->Init( det, iRob, iMcm );
-      Int_t padrow = mcm->GetRow();
+    // MCM on one ROB
+    for (Int_t iMcmRB = 0; iMcmRB < fGeo->MCMmax(); iMcmRB++ ) {
+       Int_t iMcm = 16 - 4*(iMcmRB/4 + 1) + (iMcmRB%4);
+       Int_t entry = iRobRow*(fGeo->MCMmax()) + iMcm;
+       
+       mcm[entry] = new AliTRDmcmSim();
+       mcm[entry]->Init( det, iRob, iMcm , newEvent);
+       //mcm[entry]->Init( det, iRob, iMcm);
+       if (newEvent == kTRUE) newEvent = kFALSE; // only one mcm is concerned with new event
+       Int_t padrow = mcm[entry]->GetRow();
+
+       // Copy ADC data to MCM simulator
+       for (Int_t iAdc = 0; iAdc < 21; iAdc++ ) {
+           Int_t padcol = mcm[entry]->GetCol( iAdc );
+           if ((padcol >=    0) && (padcol <  nCol)) {
+               for (Int_t iT = 0; iT < kNTBin; iT++) { 
+                 mcm[entry]->SetData( iAdc, iT, digits->GetData( padrow, padcol, iT) );
+               } 
+           } 
+           else {  // this means it is out of chamber, and masked ADC
+               mcm[entry]->SetDataPedestal( iAdc );
+           }
+       }
 
-      // Copy ADC data to MCM simulator
-      for (Int_t iAdc = 0; iAdc < 21; iAdc++ ) {
-       Int_t padcol = mcm->GetCol( iAdc );
-       if ((padcol >=    0) && (padcol <  nCol)) {
-         for (Int_t iT = 0; iT < kNTBin; iT++) { 
-           mcm->SetData( iAdc, iT, digits->GetDataUnchecked( padrow, padcol, iT) );
-         } 
-       } else {  // this means it is out of chamber, and masked ADC
-         mcm->SetDataPedestal( iAdc );
+       // Simulate process in MCM
+       mcm[entry]->Filter();     // Apply filter
+       mcm[entry]->ZSMapping();  // Calculate zero suppression mapping
+//jkl  mcm[entry]->CopyArrays();
+//jkl  mcm[entry]->GeneratefZSM1Dim();
+//jkl  mcm[entry]->RestoreZeros();
+
+       if (trackletOn) {
+           mcm[entry]->Tracklet(); 
+           Int_t tempNw =  mcm[entry]->ProduceTrackletStream( &buf[nw], maxSize - nw );
+           //Int_t tempNw = 0;
+           if( tempNw < 0 ) {
+               of += tempNw;
+               nw += maxSize - nw;
+               AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
+           } else {
+               nw += tempNw;
+           }
        }
-      }
-      // Simulate process in MCM
-      mcm->Filter();     // Apply filter
-      mcm->ZSMapping();  // Calculate zero suppression mapping
-      //mcm->DumpData( "trdmcmdata.txt", "RFZS" ); // debugging purpose
-
-      // Write MCM data to buffer
-      Int_t tempNw =  mcm->ProduceRawStream( &buf[nw], maxSize - nw );
-      if( tempNw < 0 ) {
-       of += tempNw;
-       nw += maxSize - nw;
-       AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
-      } else {
-       nw += tempNw;
-      }
+       // no tracklets: write raw-data already in this loop
+       else {
+            // Write MCM data to buffer
+           Int_t tempNw =  mcm[entry]->ProduceRawStream( &buf[nw], maxSize - nw );
+           if( tempNw < 0 ) {
+               of += tempNw;
+               nw += maxSize - nw;
+               AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
+           } else {
+               nw += tempNw;
+           }
+           
+           delete mcm[entry];
+       }
+           
+       
 
-      delete mcm;
 
+       //mcm->DumpData( "trdmcmdata.txt", "RFZS" ); // debugging purpose
     }
   }
 
+  // if tracklets are switched on, raw-data can be written only after all tracklets
+  if (trackletOn) {
+      WriteIntermediateWords(buf,nw,of,maxSize,det,side); 
+  
+  
+      // Scan for ROB and MCM
+      for (Int_t iRobRow =  (kCtype + 3)-1; iRobRow >= 0; iRobRow-- ) {
+         //Int_t iRob = iRobRow * 2 + side;
+         // MCM on one ROB
+         for (Int_t iMcmRB = 0; iMcmRB < fGeo->MCMmax(); iMcmRB++ ) {
+             Int_t iMcm = 16 - 4*(iMcmRB/4 + 1) + (iMcmRB%4);
+             
+             Int_t entry = iRobRow*(fGeo->MCMmax()) + iMcm; 
+             
+             // Write MCM data to buffer
+             Int_t tempNw =  mcm[entry]->ProduceRawStream( &buf[nw], maxSize - nw );
+             if( tempNw < 0 ) {
+                 of += tempNw;
+                 nw += maxSize - nw;
+                 AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
+             } else {
+                 nw += tempNw;
+             }
+             
+             delete mcm[entry];
+         
+         }
+      }
+  }
+
+  delete [] mcm;
+  
   // Write end of raw data marker
   if (nw < maxSize) {
     buf[nw++] = kEndofrawdatamarker; 
@@ -559,6 +1023,7 @@ Int_t AliTRDrawData::ProduceHcDataV3(AliTRDdataArrayS *digits, Int_t side
     AliError("Buffer overflow. Data is truncated. Please increase buffer size and recompile.");
   }
 
+
   return nw;
 
 }
@@ -570,92 +1035,280 @@ AliTRDdigitsManager *AliTRDrawData::Raw2Digits(AliRawReader *rawReader)
   // Vx of the raw data reading
   //
 
-  AliTRDdataArrayS *digits = 0;
-  AliTRDdataArrayI *track0 = 0;
-  AliTRDdataArrayI *track1 = 0;
-  AliTRDdataArrayI *track2 = 0; 
+  rawReader->Select("TRD"); //[mj]
+
+  AliTRDarrayADC *digits = 0;
+  AliTRDarrayDictionary *track0 = 0;
+  AliTRDarrayDictionary *track1 = 0;
+  AliTRDarrayDictionary *track2 = 0;  
 
-  AliTRDSignalIndex *indexes = 0;
+  //AliTRDSignalIndex *indexes = 0;
   // Create the digits manager
   AliTRDdigitsManager* digitsManager = new AliTRDdigitsManager();
   digitsManager->CreateArrays();
 
-  //AliTRDRawStream input(rawReader);
-  AliTRDRawStreamV2 input(rawReader);
-  input.SetRawVersion( fFee->GetRAWversion() );
-  input.Init();
+  if (!fTrackletContainer) {
+  //if (!fTrackletContainer && ( fReconstructor->IsWritingTracklets() || fReconstructor->IsProcessingTracklets() )) {
+    // maximum tracklets for one HC
+    const Int_t kTrackletChmb=256;
+    fTrackletContainer = new UInt_t *[2];
+    fTrackletContainer[0] = new UInt_t[kTrackletChmb];
+    fTrackletContainer[1] = new UInt_t[kTrackletChmb];
+  }
+
+  AliTRDrawStreamBase *pinput = AliTRDrawStreamBase::GetRawStream(rawReader);
+  AliTRDrawStreamBase &input = *pinput;
+  input.SetRawVersion( fFee->GetRAWversion() ); //<= ADDED by MinJung
 
   AliInfo(Form("Stream version: %s", input.IsA()->GetName()));
 
   // Loop through the digits
-  Int_t lastdet = -1;
   Int_t det    = 0;
-  Int_t it = 0;
-  while (input.Next()) {
 
-      det    = input.GetDet();
+  while (det >= 0)
+    {
+      //det = input.NextChamber(digitsManager);
+      det = input.NextChamber(digitsManager,fTrackletContainer);
 
-      if (det != lastdet) { // If new detector found
-       
-         lastdet = det;
+    //if (!fReconstructor->IsWritingTracklets()) continue;
+    if (*(fTrackletContainer[0]) > 0 || *(fTrackletContainer[1]) > 0) WriteTracklets(det);
 
-         if (digits) digits->Compress(1,0);
-         if (track0) track0->Compress(1,0);
-         if (track1) track1->Compress(1,0);
-         if (track2) track2->Compress(1,0);
-       
-         // Add a container for the digits of this detector
-         digits = (AliTRDdataArrayS *) digitsManager->GetDigits(det);
-         track0 = (AliTRDdataArrayI *) digitsManager->GetDictionary(det,0);
-         track1 = (AliTRDdataArrayI *) digitsManager->GetDictionary(det,1);
-         track2 = (AliTRDdataArrayI *) digitsManager->GetDictionary(det,2);
-
-         // Allocate memory space for the digits buffer
-         if (digits->GetNtime() == 0) 
-           {
-             digits->Allocate(input.GetMaxRow(),input.GetMaxCol(), input.GetNumberOfTimeBins());
-             track0->Allocate(input.GetMaxRow(),input.GetMaxCol(), input.GetNumberOfTimeBins());
-             track1->Allocate(input.GetMaxRow(),input.GetMaxCol(), input.GetNumberOfTimeBins());
-             track2->Allocate(input.GetMaxRow(),input.GetMaxCol(), input.GetNumberOfTimeBins());
-           }
-
-         indexes = digitsManager->GetIndexes(det);
-         indexes->SetSM(input.GetSM());
-         indexes->SetStack(input.GetStack());
-         indexes->SetLayer(input.GetLayer());
-         indexes->SetDetNumber(det);
-         if (indexes->IsAllocated() == kFALSE)
-           indexes->Allocate(input.GetMaxRow(), input.GetMaxCol(), input.GetNumberOfTimeBins());
-       }
-    
-      // 3 timebin data are stored per word
-      for (it = 0; it < 3; it++)
+      if (det >= 0)
        {
-         if ( input.GetTimeBin() + it < input.GetNumberOfTimeBins() )
-           {
-             if (input.GetSignals()[it] > 0)
-               {
-                 digits->SetDataUnchecked(input.GetRow(), input.GetCol(),
-                                          input.GetTimeBin() + it, input.GetSignals()[it]);
-
-                 indexes->AddIndexTBin(input.GetRow(), input.GetCol(),
-                                       input.GetTimeBin() + it);
-                 track0->SetDataUnchecked(input.GetRow(), input.GetCol(),
-                                          input.GetTimeBin() + it, 0);
-                 track1->SetDataUnchecked(input.GetRow(), input.GetCol(),
-                                          input.GetTimeBin() + it, 0);
-                 track2->SetDataUnchecked(input.GetRow(), input.GetCol(),
-                                          input.GetTimeBin() + it, 0);
-               }
-           }
+         // get...
+         digits = (AliTRDarrayADC *) digitsManager->GetDigits(det);
+         track0 = (AliTRDarrayDictionary *) digitsManager->GetDictionary(det,0);
+         track1 = (AliTRDarrayDictionary *) digitsManager->GetDictionary(det,1);
+         track2 = (AliTRDarrayDictionary *) digitsManager->GetDictionary(det,2);
+         // and compress
+         if (digits) digits->Compress();  
+         if (track0) track0->Compress();   
+         if (track1) track1->Compress();     
+         if (track2) track2->Compress();
        }
+    }
+
+  if (fTrackletContainer){
+    delete [] fTrackletContainer[0];
+    delete [] fTrackletContainer[1];
+    delete [] fTrackletContainer;
+    fTrackletContainer = NULL;
   }
 
-  if (digits) digits->Compress(1,0);
-  if (track0) track0->Compress(1,0);
-  if (track1) track1->Compress(1,0);
-  if (track2) track2->Compress(1,0);
+  delete pinput;
+  pinput = NULL;
 
   return digitsManager;
+}
+
+//_____________________________________________________________________________
+void AliTRDrawData::WriteIntermediateWords(UInt_t* buf, Int_t& nw, Int_t& of, const Int_t& maxSize, const Int_t& det, const Int_t& side) {
+    //
+    // write half-chamber headers 
+    //
+    
+    Int_t        layer = fGeo->GetLayer( det );   // Layer
+    Int_t        stack = fGeo->GetStack( det );   // Stack
+    Int_t         sect = fGeo->GetSector( det );  // Sector (=iDDL)
+    Int_t           rv = fFee->GetRAWversion();
+    //const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
+    const Int_t kNTBin = fNTimeBins;
+    UInt_t           x = 0;
+
+    // Write end of tracklet marker
+    if (nw < maxSize) {
+       buf[nw++] = kEndoftrackletmarker;
+    } 
+    else {
+       of++;
+    }
+    
+  // Half Chamber header
+  // h[0] (there are 3 HC header)
+    Int_t minorv = 0;    // The minor version number
+    Int_t add    = 2;    // The number of additional header words to follow
+    x = (1<<31) | (rv<<24) | (minorv<<17) | (add<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (side<<2) | 1;
+    if (nw < maxSize) {
+       buf[nw++] = x; 
+    }
+    else {
+       of++;
+    }
+    // h[1]
+    Int_t bcCtr   = 99; // bunch crossing counter. Here it is set to 99 always for no reason
+    Int_t ptCtr   = 15; // pretrigger counter. Here it is set to 15 always for no reason
+    Int_t ptPhase = 11; // pretrigger phase. Here it is set to 11 always for no reason
+    x = (bcCtr<<16) | (ptCtr<<12) | (ptPhase<<8) | ((kNTBin-1)<<2) | 1;
+    if (nw < maxSize) {
+       buf[nw++] = x; 
+    }
+    else {
+       of++;
+    }
+    // h[2]
+    Int_t pedSetup       = 1;  // Pedestal filter setup (0:1). Here it is always 1 for no reason
+    Int_t gainSetup      = 1;  // Gain filter setup (0:1). Here it is always 1 for no reason
+    Int_t tailSetup      = 1;  // Tail filter setup (0:1). Here it is always 1 for no reason
+    Int_t xtSetup        = 0;  // Cross talk filter setup (0:1). Here it is always 0 for no reason
+    Int_t nonlinSetup    = 0;  // Nonlinearity filter setup (0:1). Here it is always 0 for no reason
+    Int_t bypassSetup    = 0;  // Filter bypass (for raw data) setup (0:1). Here it is always 0 for no reason
+    Int_t commonAdditive = 10; // Digital filter common additive (0:63). Here it is always 10 for no reason
+    x = (pedSetup<<31) | (gainSetup<<30) | (tailSetup<<29) | (xtSetup<<28) | (nonlinSetup<<27)
+       | (bypassSetup<<26) | (commonAdditive<<20) | 1;
+    if (nw < maxSize) {
+       buf[nw++] = x; 
+    }
+    else {
+       of++;
+    } 
+}
 
+//_____________________________________________________________________________
+void AliTRDrawData::WriteIntermediateWordsV2(UInt_t* buf, Int_t& nw, Int_t& of, const Int_t& maxSize, const Int_t& det, const Int_t& side) {
+    // 
+    // write tracklet end marker(0x10001000) 
+    // and half chamber headers(H[0] and H[1])
+    //
+    
+    Int_t        layer = fGeo->GetLayer( det );   // Layer
+    Int_t        stack = fGeo->GetStack( det );   // Stack
+    Int_t         sect = fGeo->GetSector( det );  // Sector (=iDDL)
+    Int_t           rv = fFee->GetRAWversion();
+    //const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();    // old method, fetch the info from OCDB
+    const Int_t kNTBin = fNTimeBins;
+    Bool_t  trackletOn = fFee->GetTracklet();
+    UInt_t           x = 0;
+
+    // Write end of tracklet marker
+       if (nw < maxSize){
+        buf[nw++] = fgkEndOfTrackletMarker;
+        buf[nw++] = fgkEndOfTrackletMarker;     // the number of tracklet end marker should be more than 2
+    }
+    else {
+        of++;
+    }
+
+   
+       // Half Chamber header
+       // h[0] (there are 2 HC headers) xmmm mmmm nnnn nnnq qqss sssp ppcc ci01
+       //      , where  x : Raw version speacial number (=1)
+       //                   m : Raw version major number (test pattern, ZS, disable tracklet, 0, options)
+       //                   n : Raw version minor number
+       //                   q : number of addtional header words (default = 1)
+       //                   s : SM sector number (ALICE numbering)
+       //                   p : plane(layer) number
+       //                       c : chamber(stack) number
+       //                       i : side number (0:A, 1:B)
+       Int_t majorv = 0;       // The major version number 
+    Int_t minorv = 0;  // The minor version number
+    Int_t add    = 1;  // The number of additional header words to follow : now 1, previous 2
+       Int_t tp         = 0;   // test pattern (default=0)
+       Int_t zs         = (rv==3) ? 1 : 0;                     // zero suppression
+       Int_t dt         = (trackletOn) ? 0 : 1;        // disable tracklet 
+
+       majorv = (tp<<6) | (zs<<5) | (dt<<4) | 1;       // major version
+
+    x = (1<<31) | (majorv<<24) | (minorv<<17) | (add<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (side<<2) | 1;
+    if (nw < maxSize) buf[nw++] = x; else of++;
+   
+    // h[1]            tttt ttbb bbbb bbbb bbbb bbpp pphh hh01
+       // , where  t : number of time bins
+       //          b : bunch crossing number
+       //          p : pretrigger counter
+       //          h : pretrigger phase
+    Int_t bcCtr   = 99; // bunch crossing counter. Here it is set to 99 always for no reason
+    Int_t ptCtr   = 15; // pretrigger counter. Here it is set to 15 always for no reason
+    Int_t ptPhase = 11; // pretrigger phase. Here it is set to 11 always for no reason
+    //x = (bcCtr<<16) | (ptCtr<<12) | (ptPhase<<8) | ((kNTBin-1)<<2) | 1;      // old format
+    x = ((kNTBin)<<26) | (bcCtr<<10) | (ptCtr<<6) | (ptPhase<<2) | 1;
+    if (nw < maxSize) buf[nw++] = x; else of++;
+  
 }
+
+//_____________________________________________________________________________
+Bool_t AliTRDrawData::WriteTracklets(Int_t det)
+{
+  //
+  // Write the raw data tracklets into seperate file
+  //
+
+  UInt_t **leaves = new UInt_t *[2];
+  for (Int_t i=0; i<2 ;i++){
+    leaves[i] = new UInt_t[258];
+    leaves[i][0] = det; // det
+    leaves[i][1] = i;   // side
+    memcpy(leaves[i]+2, fTrackletContainer[i], sizeof(UInt_t) * 256);
+  }
+
+  if (!fTrackletTree){
+    AliDataLoader *dl = fRunLoader->GetLoader("TRDLoader")->GetDataLoader("tracklets");
+    dl->MakeTree();
+    fTrackletTree = dl->Tree();
+  }
+
+  TBranch *trkbranch = fTrackletTree->GetBranch("trkbranch");
+  if (!trkbranch) {
+    trkbranch = fTrackletTree->Branch("trkbranch",leaves[0],"det/i:side/i:tracklets[256]/i");
+  }
+
+  for (Int_t i=0; i<2; i++){
+    if (leaves[i][2]>0) {
+      trkbranch->SetAddress(leaves[i]);
+      fTrackletTree->Fill();
+    }
+  }
+
+  AliDataLoader *dl = fRunLoader->GetLoader("TRDLoader")->GetDataLoader("tracklets");
+  dl->WriteData("OVERWRITE");
+  //dl->Unload();
+  delete [] leaves;
+
+  return kTRUE;
+
+}
+
+//_____________________________________________________________________________
+Bool_t AliTRDrawData::OpenOutput()
+{
+  //
+  // Connect the output tree
+  //
+
+  // tracklet writing
+  if (1){
+  //if (fReconstructor->IsWritingTracklets()){
+    TString evfoldname = AliConfig::GetDefaultEventFolderName();
+    fRunLoader         = AliRunLoader::GetRunLoader(evfoldname);
+
+    if (!fRunLoader) {
+      fRunLoader = AliRunLoader::Open("galice.root");
+    }
+    if (!fRunLoader) {
+      AliError(Form("Can not open session for file galice.root."));
+      return kFALSE;
+    }
+
+    UInt_t **leaves = new UInt_t *[2];
+    AliDataLoader *dl = fRunLoader->GetLoader("TRDLoader")->GetDataLoader("tracklets");
+    if (!dl) {
+      AliError("Could not get the tracklets data loader!");
+      dl = new AliDataLoader("TRD.Tracklets.root","tracklets", "tracklets");
+      fRunLoader->GetLoader("TRDLoader")->AddDataLoader(dl);
+    }
+    fTrackletTree = dl->Tree();
+    if (!fTrackletTree)
+      {
+       dl->MakeTree();
+       fTrackletTree = dl->Tree();
+      }
+    TBranch *trkbranch = fTrackletTree->GetBranch("trkbranch");
+    if (!trkbranch)
+      fTrackletTree->Branch("trkbranch",leaves[0],"det/i:side/i:tracklets[256]/i");
+  }
+  return kTRUE;
+
+}
+
+
+
+