[u/mrichter/AliRoot.git] / ITS / AliITSRawStreamSDD.cxx

/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

/* $Id$ */

///////////////////////////////////////////////////////////////////////////////
///
/// This class provides access to ITS SDD digits in raw data.
///
///////////////////////////////////////////////////////////////////////////////

#include "AliITSRawStreamSDD.h"
#include "AliRawReader.h"

ClassImp(AliITSRawStreamSDD)

const Int_t AliITSRawStreamSDD::fgkDDLModuleMap[kDDLsNumber][kModulesPerDDL] = {
 
  {240,241,242,246,247,248,252,253,254,258,259,260},
  {264,265,266,270,271,272,276,277,278,282,283,284},
  {288,289,290,294,295,296,300,301,302,306,307,308},
  {312,313,314,318,319,320,-1,-1,-1,-1,-1,-1},
  {243,244,245,249,250,251,255,256,257,261,262,263},
  {267,268,269,273,274,275,279,280,281,285,286,287},
  {291,292,293,297,298,299,303,304,305,309,310,311},
  {315,316,317,321,322,323,-1,-1,-1,-1,-1,-1},
  {324,325,326,327,332,333,334,335,340,341,342,343},
  {348,349,350,351,356,357,358,359,364,365,366,367},
  {372,373,374,375,380,381,382,383,388,389,390,391},
  {396,397,398,399,404,405,406,407,412,413,414,415},
  {420,421,422,423,428,429,430,431,436,437,438,439},
  {444,445,446,447,452,453,454,455,460,461,462,463},
  {468,469,470,471,476,477,478,479,484,485,486,487},
  {492,493,494,495,-1,-1,-1,-1,-1,-1,-1,-1},
  {328,329,330,331,336,337,338,339,344,345,346,347},
  {352,353,354,355,360,361,362,363,368,369,370,371},
  {376,377,378,379,384,385,386,387,392,393,394,395},
  {400,401,402,403,408,409,410,411,416,417,418,419},
  {424,425,426,427,432,433,434,435,440,441,442,443},
  {448,449,450,451,456,457,458,459,464,465,466,467},
  {472,473,474,475,480,481,482,483,488,489,490,491},
  {496,497,498,499,-1,-1,-1,-1,-1,-1,-1,-1}};
  
const UInt_t AliITSRawStreamSDD::fgkCodeLength[8] =  {8, 18, 2, 3, 4, 5, 6, 7};

AliITSRawStreamSDD::AliITSRawStreamSDD(AliRawReader* rawReader) :
  AliITSRawStream(rawReader),
fData(0),
fCarlosId(0),
fEventId(0),
fChannel(0),
fJitter(0),
fNCarlos(kModulesPerDDL),
fNfifo0(0),
fNfifo1(0),
fNfifo2(0),
fNfifo3(0),
fDDL(0){
// create an object to read ITS SDD raw digits
  
  for(Int_t i=0;i<2;i++){
    for(Int_t ic=0;ic<kModulesPerDDL;ic++){
      fChannelData[ic][i]=0;
      fLastBit[ic][i]=0;
      fChannelCode[ic][i]=0;
      fReadCode[ic][i]=kFALSE;
      fReadBits[ic][i]=0;
      fTimeBin[ic][i]=0;
      fAnode[ic][i]=0;     
    }
    fLowThreshold[i]=0;
  }
  for(Int_t i=0;i<kDDLsNumber;i++) fSkip[i]=0;
  fRawReader->Reset();
  fRawReader->Select("ITSSDD");

  //fRawReader->SelectEquipment(17, 101, 101);//select this for test data
  //fNCarlos = 8; //select this for test data
}

UInt_t AliITSRawStreamSDD::ReadBits()
{
// read bits from the given channel

  UInt_t result = (fChannelData[fCarlosId][fChannel] & ((1<<fReadBits[fCarlosId][fChannel]) - 1));
  fChannelData[fCarlosId][fChannel] >>= fReadBits[fCarlosId][fChannel]; 
  fLastBit[fCarlosId][fChannel] -= fReadBits[fCarlosId][fChannel];
  return result;
}

Int_t AliITSRawStreamSDD::DecompAmbra(Int_t value) const
{
  // AMBRA decompression (from 8 to 10 bit)
  
  if ((value & 0x80) == 0) {
    return value & 0x7f;
  } else if ((value & 0x40) == 0) {
    return 0x081 + ((value & 0x3f) << 1);
  } else if ((value & 0x20) == 0) {
    return 0x104 + ((value & 0x1f) << 3);
  } else {
    return 0x208 + ((value & 0x1f) << 4);
  }
  
}

Bool_t AliITSRawStreamSDD::Next()
{
// read the next raw digit
// returns kFALSE if there is no digit left

  fPrevModuleID = fModuleID;
  fDDL=fRawReader->GetDDLID();
  Int_t ddln = fRawReader->GetDDLID();
  if(ddln <0) ddln=0;
  while (fSkip[ddln] < 9) {
    if (!fRawReader->ReadNextInt(fData)) return kFALSE;
    if ((fData >> 30) == 0x01) continue;  // JTAG word
    fSkip[ddln]++;
  }
  

  Int_t countFoot[kModulesPerDDL];
  for(Int_t i=0;i<kModulesPerDDL;i++) countFoot[i]=0;
  while (kTRUE) {
    if ((fChannel < 0) || (fLastBit[fCarlosId][fChannel] < fReadBits[fCarlosId][fChannel])) {

      if (!fRawReader->ReadNextInt(fData)) return kFALSE;  // read next word 
      ddln = fRawReader->GetDDLID();
      if(ddln!=fDDL){
	Reset();
	for(Int_t icr=0;icr<kModulesPerDDL;icr++) countFoot[icr]=0;
      }
      if(ddln < 0 || ddln > (kDDLsNumber-1)) ddln  = 0;
      while (fSkip[ddln] < 9) {
	if (!fRawReader->ReadNextInt(fData)) return kFALSE;
	if ((fData >> 30) == 0x01) continue;  // JTAG word
	fSkip[ddln]++;
      }

      fChannel = -1;
      
      
      if( ((fData << 4) >> 4) == 0){
	fCarlosId = 0;fNfifo0 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 1){
	fCarlosId = 1;fNfifo0 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 2){
	fCarlosId = 2;
	if(fNCarlos == 8) fNfifo1 = fCarlosId;
	else fNfifo0 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 3){
	fCarlosId = 3;fNfifo1 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 4){
	fCarlosId = 4;
	if(fNCarlos == 8) fNfifo2 = fCarlosId;
	else fNfifo1 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 5){
	fCarlosId = 5;
	if(fNCarlos == 8) fNfifo2 = fCarlosId;
	else fNfifo1 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 6){
	fCarlosId = 6;
	if(fNCarlos == 8) fNfifo3 = fCarlosId;
	else fNfifo2 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 7){
	fCarlosId = 7;
	if(fNCarlos == 8) fNfifo3 = fCarlosId;
	else fNfifo2 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 8){
	fCarlosId = 8;fNfifo2 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 9){
	fCarlosId = 9;fNfifo3 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 10){
	fCarlosId = 10;fNfifo3 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 11){
	fCarlosId = 11;fNfifo3 = fCarlosId;
      }
      else if (((fData << 4) >> 4) == 16){
	fCarlosId = fNfifo0;
      }
      else if (((fData << 4) >> 4) == 17){
	fCarlosId = fNfifo1;
      }
      else if (((fData << 4) >> 4) == 18){
	fCarlosId = fNfifo2;
      }
      else if (((fData << 4) >> 4) == 19){
	fCarlosId = fNfifo3;
      }
      if(fData==1059004191) continue;
      if (fNCarlos == 8 && (fCarlosId == 8 || fCarlosId == 9 || 
			    fCarlosId ==10 || fCarlosId == 11))continue;
      
      fModuleID = fgkDDLModuleMap[fRawReader->GetDDLID()][fCarlosId];
      
      if ((fData >> 28) == 0x02) {           // header
	fEventId = (fData >> 3) & 0x07FF;
      } else if ((fData >> 28) == 0x03) {    // footer
        countFoot[fCarlosId]++; // stop before the last word (last word=jitter)
        if(countFoot[fCarlosId]==3){
	  return kFALSE;
	}	 
      } else if ((fData >> 29) == 0x00) {    // error

	if ((fData & 0x00000163) != 0) {
	 
	  Error("Next", "error codes = %8.8x",fData);
	  return kFALSE; 
	  
	}
      } else if ((fData >> 30) == 0x01) {    // JTAG word
	// ignored
      } else if ((fData >> 30) == 0x02) {    // channel 0 data
	
	fChannel = 0;
      } else if ((fData >> 30) == 0x03) {    // channel 1 data
	fChannel = 1;
      } else {                               // unknown data format
	Error("Next", "invalid data: %8.8x\n", fData);
	return kFALSE;
      }
      
      if (fChannel >= 0) {   // add read word to the data
	fChannelData[fCarlosId][fChannel] += 
	  (ULong64_t(fData & 0x3FFFFFFF) << fLastBit[fCarlosId][fChannel]);
	fLastBit[fCarlosId][fChannel] += 30;
      }

    } else {  // decode data

      if (fReadCode[fCarlosId][fChannel]) {// read the next code word
	fChannelCode[fCarlosId][fChannel] = ReadBits();
	fReadCode[fCarlosId][fChannel] = kFALSE;
	fReadBits[fCarlosId][fChannel] = fgkCodeLength[fChannelCode[fCarlosId][fChannel]];

      } else {                      // read the next data word
	UInt_t data = ReadBits();
	fReadCode[fCarlosId][fChannel] = kTRUE;
	fReadBits[fCarlosId][fChannel] = 3;
	if (fChannelCode[fCarlosId][fChannel] == 0) {         // set the time bin	  
	  fTimeBin[fCarlosId][fChannel] = data;
	} else if (fChannelCode[fCarlosId][fChannel] == 1) {  // next anode
	  fTimeBin[fCarlosId][fChannel] = 0;
	  fAnode[fCarlosId][fChannel]++;

	}else {                                   // ADC signal data
	  fSignal = DecompAmbra(data + (1 << fChannelCode[fCarlosId][fChannel]) + fLowThreshold[fChannel]);
	  fCoord1 = fAnode[fCarlosId][fChannel];
	  fCoord2 = fTimeBin[fCarlosId][fChannel];
	  fTimeBin[fCarlosId][fChannel]++;
	  return kTRUE;
	}
      }
    }
  }
  return kFALSE;  

}

void AliITSRawStreamSDD::Reset(){
  //reset data member for a new ddl
  
  for(Int_t i=0;i<2;i++){
    for(Int_t ic=0;ic<kModulesPerDDL;ic++){
      fChannelData[ic][i]=0;
      fLastBit[ic][i]=0;
      fChannelCode[ic][i]=0;
      fReadCode[ic][i]=kFALSE;
      fReadBits[ic][i]=0;
      fTimeBin[ic][i]=0;
      fAnode[ic][i]=0;     
    }
    fLowThreshold[i]=0;
  }
  fChannel=-1;
  fDDL=fRawReader->GetDDLID();
}
Commit	Line	Data
2906f4c2	1	/**************************************************************************
	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15
	16	/* $Id$ */
	17
	18	///////////////////////////////////////////////////////////////////////////////
	19	///
	20	/// This class provides access to ITS SDD digits in raw data.
	21	///
	22	///////////////////////////////////////////////////////////////////////////////
	23
	24	#include "AliITSRawStreamSDD.h"
	25	#include "AliRawReader.h"
	26
	27	ClassImp(AliITSRawStreamSDD)
	28
2906f4c2	29	const Int_t AliITSRawStreamSDD::fgkDDLModuleMap[kDDLsNumber][kModulesPerDDL] = {
a97b3678	30
	31	{240,241,242,246,247,248,252,253,254,258,259,260},
	32	{264,265,266,270,271,272,276,277,278,282,283,284},
	33	{288,289,290,294,295,296,300,301,302,306,307,308},
	34	{312,313,314,318,319,320,-1,-1,-1,-1,-1,-1},
	35	{243,244,245,249,250,251,255,256,257,261,262,263},
	36	{267,268,269,273,274,275,279,280,281,285,286,287},
	37	{291,292,293,297,298,299,303,304,305,309,310,311},
	38	{315,316,317,321,322,323,-1,-1,-1,-1,-1,-1},
	39	{324,325,326,327,332,333,334,335,340,341,342,343},
	40	{348,349,350,351,356,357,358,359,364,365,366,367},
	41	{372,373,374,375,380,381,382,383,388,389,390,391},
	42	{396,397,398,399,404,405,406,407,412,413,414,415},
	43	{420,421,422,423,428,429,430,431,436,437,438,439},
	44	{444,445,446,447,452,453,454,455,460,461,462,463},
	45	{468,469,470,471,476,477,478,479,484,485,486,487},
	46	{492,493,494,495,-1,-1,-1,-1,-1,-1,-1,-1},
	47	{328,329,330,331,336,337,338,339,344,345,346,347},
	48	{352,353,354,355,360,361,362,363,368,369,370,371},
	49	{376,377,378,379,384,385,386,387,392,393,394,395},
	50	{400,401,402,403,408,409,410,411,416,417,418,419},
	51	{424,425,426,427,432,433,434,435,440,441,442,443},
	52	{448,449,450,451,456,457,458,459,464,465,466,467},
	53	{472,473,474,475,480,481,482,483,488,489,490,491},
	54	{496,497,498,499,-1,-1,-1,-1,-1,-1,-1,-1}};
1ba0280f	55
1ba0280f	56	const UInt_t AliITSRawStreamSDD::fgkCodeLength[8] = {8, 18, 2, 3, 4, 5, 6, 7};
2906f4c2	57
2906f4c2	58	AliITSRawStreamSDD::AliITSRawStreamSDD(AliRawReader* rawReader) :
e56160b8	59	AliITSRawStream(rawReader),
e56160b8	60	fData(0),
e56160b8	61	fCarlosId(0),
a97b3678	62	fEventId(0),
e56160b8	63	fChannel(0),
a97b3678	64	fJitter(0),
	65	fNCarlos(kModulesPerDDL),
	66	fNfifo0(0),
	67	fNfifo1(0),
	68	fNfifo2(0),
	69	fNfifo3(0),
	70	fDDL(0){
2906f4c2	71	// create an object to read ITS SDD raw digits
1ba0280f	72
1ba0280f	73	for(Int_t i=0;i<2;i++){
a97b3678	74	for(Int_t ic=0;ic<kModulesPerDDL;ic++){
	75	fChannelData[ic][i]=0;
	76	fLastBit[ic][i]=0;
	77	fChannelCode[ic][i]=0;
	78	fReadCode[ic][i]=kFALSE;
	79	fReadBits[ic][i]=0;
	80	fTimeBin[ic][i]=0;
	81	fAnode[ic][i]=0;
	82	}
1ba0280f	83	fLowThreshold[i]=0;
1ba0280f	84	}
a97b3678	85	for(Int_t i=0;i<kDDLsNumber;i++) fSkip[i]=0;
a97b3678	86	fRawReader->Reset();
362c9d61	87	fRawReader->Select("ITSSDD");
1ba0280f	88
a97b3678	89	//fRawReader->SelectEquipment(17, 101, 101);//select this for test data
a97b3678	90	//fNCarlos = 8; //select this for test data
1ba0280f	91	}
	92
	93	UInt_t AliITSRawStreamSDD::ReadBits()
	94	{
	95	// read bits from the given channel
	96
a97b3678	97	UInt_t result = (fChannelData[fCarlosId][fChannel] & ((1<<fReadBits[fCarlosId][fChannel]) - 1));
	98	fChannelData[fCarlosId][fChannel] >>= fReadBits[fCarlosId][fChannel];
	99	fLastBit[fCarlosId][fChannel] -= fReadBits[fCarlosId][fChannel];
1ba0280f	100	return result;
2906f4c2	101	}
2906f4c2	102
1ba0280f	103	Int_t AliITSRawStreamSDD::DecompAmbra(Int_t value) const
1ba0280f	104	{
a97b3678	105	// AMBRA decompression (from 8 to 10 bit)
a97b3678	106
1ba0280f	107	if ((value & 0x80) == 0) {
	108	return value & 0x7f;
	109	} else if ((value & 0x40) == 0) {
	110	return 0x081 + ((value & 0x3f) << 1);
	111	} else if ((value & 0x20) == 0) {
	112	return 0x104 + ((value & 0x1f) << 3);
	113	} else {
	114	return 0x208 + ((value & 0x1f) << 4);
	115	}
a97b3678	116
1ba0280f	117	}
2906f4c2	118
	119	Bool_t AliITSRawStreamSDD::Next()
	120	{
	121	// read the next raw digit
	122	// returns kFALSE if there is no digit left
	123
	124	fPrevModuleID = fModuleID;
a97b3678	125	fDDL=fRawReader->GetDDLID();
	126	Int_t ddln = fRawReader->GetDDLID();
	127	if(ddln <0) ddln=0;
	128	while (fSkip[ddln] < 9) {
	129	if (!fRawReader->ReadNextInt(fData)) return kFALSE;
	130	if ((fData >> 30) == 0x01) continue; // JTAG word
	131	fSkip[ddln]++;
	132	}
	133
	134
	135	Int_t countFoot[kModulesPerDDL];
	136	for(Int_t i=0;i<kModulesPerDDL;i++) countFoot[i]=0;
	137	while (kTRUE) {
	138	if ((fChannel < 0) \|\| (fLastBit[fCarlosId][fChannel] < fReadBits[fCarlosId][fChannel])) {
	139
	140	if (!fRawReader->ReadNextInt(fData)) return kFALSE; // read next word
	141	ddln = fRawReader->GetDDLID();
	142	if(ddln!=fDDL){
	143	Reset();
	144	for(Int_t icr=0;icr<kModulesPerDDL;icr++) countFoot[icr]=0;
	145	}
	146	if(ddln < 0 \|\| ddln > (kDDLsNumber-1)) ddln = 0;
	147	while (fSkip[ddln] < 9) {
	148	if (!fRawReader->ReadNextInt(fData)) return kFALSE;
	149	if ((fData >> 30) == 0x01) continue; // JTAG word
	150	fSkip[ddln]++;
	151	}
	152
	153	fChannel = -1;
	154
	155
	156	if( ((fData << 4) >> 4) == 0){
	157	fCarlosId = 0;fNfifo0 = fCarlosId;
	158	}
	159	else if (((fData << 4) >> 4) == 1){
	160	fCarlosId = 1;fNfifo0 = fCarlosId;
	161	}
	162	else if (((fData << 4) >> 4) == 2){
	163	fCarlosId = 2;
	164	if(fNCarlos == 8) fNfifo1 = fCarlosId;
	165	else fNfifo0 = fCarlosId;
	166	}
	167	else if (((fData << 4) >> 4) == 3){
	168	fCarlosId = 3;fNfifo1 = fCarlosId;
	169	}
	170	else if (((fData << 4) >> 4) == 4){
	171	fCarlosId = 4;
	172	if(fNCarlos == 8) fNfifo2 = fCarlosId;
	173	else fNfifo1 = fCarlosId;
	174	}
	175	else if (((fData << 4) >> 4) == 5){
	176	fCarlosId = 5;
	177	if(fNCarlos == 8) fNfifo2 = fCarlosId;
	178	else fNfifo1 = fCarlosId;
	179	}
	180	else if (((fData << 4) >> 4) == 6){
	181	fCarlosId = 6;
	182	if(fNCarlos == 8) fNfifo3 = fCarlosId;
	183	else fNfifo2 = fCarlosId;
	184	}
	185	else if (((fData << 4) >> 4) == 7){
	186	fCarlosId = 7;
	187	if(fNCarlos == 8) fNfifo3 = fCarlosId;
	188	else fNfifo2 = fCarlosId;
189	}
190	else if (((fData << 4) >> 4) == 8){
191	fCarlosId = 8;fNfifo2 = fCarlosId;
192	}
193	else if (((fData << 4) >> 4) == 9){
194	fCarlosId = 9;fNfifo3 = fCarlosId;
195	}
196	else if (((fData << 4) >> 4) == 10){
197	fCarlosId = 10;fNfifo3 = fCarlosId;
198	}
199	else if (((fData << 4) >> 4) == 11){
200	fCarlosId = 11;fNfifo3 = fCarlosId;
201	}
202	else if (((fData << 4) >> 4) == 16){
203	fCarlosId = fNfifo0;
204	}
205	else if (((fData << 4) >> 4) == 17){
206	fCarlosId = fNfifo1;
207	}
208	else if (((fData << 4) >> 4) == 18){
209	fCarlosId = fNfifo2;
210	}
211	else if (((fData << 4) >> 4) == 19){
212	fCarlosId = fNfifo3;
213	}
214	if(fData==1059004191) continue;
215	if (fNCarlos == 8 && (fCarlosId == 8 \|\| fCarlosId == 9 \|\|
216	fCarlosId ==10 \|\| fCarlosId == 11))continue;
217
218	fModuleID = fgkDDLModuleMap[fRawReader->GetDDLID()][fCarlosId];
219
220	if ((fData >> 28) == 0x02) { // header
221	fEventId = (fData >> 3) & 0x07FF;
222	} else if ((fData >> 28) == 0x03) { // footer
223	countFoot[fCarlosId]++; // stop before the last word (last word=jitter)
224	if(countFoot[fCarlosId]==3){
225	return kFALSE;
226	}
227	} else if ((fData >> 29) == 0x00) { // error
2906f4c2	228
a97b3678	229	if ((fData & 0x00000163) != 0) {
	230
	231	Error("Next", "error codes = %8.8x",fData);
	232	return kFALSE;
	233
	234	}
	235	} else if ((fData >> 30) == 0x01) { // JTAG word
	236	// ignored
	237	} else if ((fData >> 30) == 0x02) { // channel 0 data
	238
	239	fChannel = 0;
	240	} else if ((fData >> 30) == 0x03) { // channel 1 data
	241	fChannel = 1;
	242	} else { // unknown data format
	243	Error("Next", "invalid data: %8.8x\n", fData);
	244	return kFALSE;
	245	}
	246
	247	if (fChannel >= 0) { // add read word to the data
	248	fChannelData[fCarlosId][fChannel] +=
	249	(ULong64_t(fData & 0x3FFFFFFF) << fLastBit[fCarlosId][fChannel]);
	250	fLastBit[fCarlosId][fChannel] += 30;
	251	}
	252
	253	} else { // decode data
	254
	255	if (fReadCode[fCarlosId][fChannel]) {// read the next code word
	256	fChannelCode[fCarlosId][fChannel] = ReadBits();
	257	fReadCode[fCarlosId][fChannel] = kFALSE;
	258	fReadBits[fCarlosId][fChannel] = fgkCodeLength[fChannelCode[fCarlosId][fChannel]];
	259
	260	} else { // read the next data word
	261	UInt_t data = ReadBits();
	262	fReadCode[fCarlosId][fChannel] = kTRUE;
	263	fReadBits[fCarlosId][fChannel] = 3;
	264	if (fChannelCode[fCarlosId][fChannel] == 0) { // set the time bin
	265	fTimeBin[fCarlosId][fChannel] = data;
	266	} else if (fChannelCode[fCarlosId][fChannel] == 1) { // next anode
	267	fTimeBin[fCarlosId][fChannel] = 0;
	268	fAnode[fCarlosId][fChannel]++;
	269
	270	}else { // ADC signal data
	271	fSignal = DecompAmbra(data + (1 << fChannelCode[fCarlosId][fChannel]) + fLowThreshold[fChannel]);
	272	fCoord1 = fAnode[fCarlosId][fChannel];
	273	fCoord2 = fTimeBin[fCarlosId][fChannel];
	274	fTimeBin[fCarlosId][fChannel]++;
	275	return kTRUE;
	276	}
	277	}
	278	}
	279	}
	280	return kFALSE;
2906f4c2	281
2906f4c2	282	}
1ba0280f	283
a97b3678	284	void AliITSRawStreamSDD::Reset(){
	285	//reset data member for a new ddl
	286
	287	for(Int_t i=0;i<2;i++){
	288	for(Int_t ic=0;ic<kModulesPerDDL;ic++){
	289	fChannelData[ic][i]=0;
	290	fLastBit[ic][i]=0;
	291	fChannelCode[ic][i]=0;
	292	fReadCode[ic][i]=kFALSE;
	293	fReadBits[ic][i]=0;
	294	fTimeBin[ic][i]=0;
	295	fAnode[ic][i]=0;
	296	}
	297	fLowThreshold[i]=0;
	298	}
	299	fChannel=-1;
	300	fDDL=fRawReader->GetDDLID();
	301	}