/*
$Log$
+Revision 1.19 2007/05/18 13:07:53 decaro
+Error messages stored in the global raw-reader error log (Cvetan, Chiara)
+
+Revision 1.18 2007/05/08 11:53:29 arcelli
+Improved class flexibility for further use (R.Preghenella)
+
+Revision 1.17 2007/05/03 08:53:50 decaro
+Coding convention: RS3 violation -> suppression
+
+Revision 1.16 2007/05/03 08:22:22 decaro
+Coding convention: RN17 violation -> suppression
+
+Revision 1.15 2007/04/30 15:22:06 arcelli
+Change TOF digit Time, Tot etc to int type
+
+Revision 1.14 2007/04/27 11:11:53 arcelli
+updates for the new decoder
+
+Revision 1.13 2007/03/16 11:46:35 decaro
+Coding convention: RN17 rule violation -> suppression
+
+Revision 1.12 2007/02/22 09:43:45 decaro
+Added AliTOFRawStream::GetIndex method for online calibration (C.Zampolli)
+
+Revision 1.11 2007/02/20 15:57:00 decaro
+Raw data update: to read the TOF raw data defined in UNPACKED mode
+
+Revision 1.10 2006/12/15 14:01:38 cvetan
+Memory leak fixed
+
+Revision 1.9 2006/10/13 11:22:27 arcelli
+remove warnings due to uninitialized AliTOFtdcDigit data members
+
+Revision 1.8 2006/08/22 13:30:17 arcelli
+removal of effective c++ warnings (C.Zampolli)
+
Revision 1.7 2006/08/10 14:46:54 decaro
TOF raw data format: updated version
// //
////////////////////////////////////////////////////////////////////////
+
+#include "Riostream.h"
+
+#include "TClonesArray.h"
+
+#include "AliDAQ.h"
#include "AliLog.h"
#include "AliRawReader.h"
#include "AliTOFGeometry.h"
-#include "AliTOFGeometryV5.h"
+#include "AliTOFrawData.h"
+#include "AliTOFRawMap.h"
#include "AliTOFRawStream.h"
-
-/******************************************
-GENERAL DATA FORMAT
-******************************************/
-
-//filler
-#define FILLER 0x70000000
-
-//word type mask/position
-#define WORD_TYPE_MASK 0xf0000000
-#define WORD_TYPE_POSITION 28
-
-//global header word required bit pattern
-#define GLOBAL_HEADER 0x40000000
-
-//global trailer word required bit pattern
-#define GLOBAL_TRAILER 0x50000000
-
-//error word required bit pattern
-#define ERROR 0x30000000
-
-//header slot ID mask/position
-#define HEADER_SLOT_ID_MASK 0x0000000f
-#define HEADER_SLOT_ID_POSITION 0
-
-//word types
-#define GLOBAL_HEADER_TYPE 4
-#define GLOBAL_TRAILER_TYPE 5
-#define ERROR_TYPE 6
-#define FILLER_TYPE 7
-#define TRM_CHAIN0_HEADER_TYPE 0
-#define TRM_CHAIN0_TRAILER_TYPE 1
-#define TRM_CHAIN1_HEADER_TYPE 2
-#define TRM_CHAIN1_TRAILER_TYPE 3
-
-//slot types
-#define DRM_ID_NUMBER 1
-#define LTM_ID_NUMBER 2
-
-
-/******************************************
-DRM DATA FORMAT
-******************************************/
-
-//DRM global header word required bit pattern
-#define DRM_GLOBAL_HEADER 0x40000001
-
-//DRM event words mask/position
-#define DRM_EVENT_WORDS_MASK 0x001ffff0
-#define DRM_EVENT_WORDS_POSITION 4
-
-//DRM DRM ID mask/position
-#define DRM_DRM_ID_MASK 0x0fe00000
-#define DRM_DRM_ID_POSITION 21
-
-//DRM status header 1 word required bit pattern
-#define DRM_STATUS_HEADER_1 0x40000001
-
-//DRM slot ID mask/position
-#define DRM_SLOT_ID_MASK 0x00007ff0
-#define DRM_SLOT_ID_POSITION 4
-
-//DRM C-bit mask/position
-#define DRM_C_BIT_MASK 0x00008000
-#define DRM_C_BIT_POSITION 15
-
-//DRM status header 2 word required bit pattern
-#define DRM_STATUS_HEADER_2 0x40000001
-
-//DRM enable ID mask/position
-#define DRM_ENABLE_ID_MASK 0x00007ff0
-#define DRM_ENABLE_ID_POSITION 4
-
-//DRM fault ID mask/position
-#define DRM_FAULT_ID_MASK 0x07ff0000
-#define DRM_FAULT_ID_POSITION 16
-
-//DRM status header 3 word required bit pattern
-#define DRM_STATUS_HEADER_3 0x40000001
-
-//DRM TTC event counter mask/position
-#define DRM_TTC_EVENT_COUNTER_MASK 0x0ffffff0
-#define DRM_TTC_EVENT_COUNTER_POSITION 4
-
-//DRM event CRC mask/position
-//#define DRM_EVENT_CRC_MASK 0x001ffff0
-#define DRM_EVENT_CRC_MASK 0x000ffff0
-#define DRM_EVENT_CRC_POSITION 4
-
-//DRM global trailer word required bit pattern
-#define DRM_GLOBAL_TRAILER 0x50000001
-
-//DRM local event counter mask/position
-#define DRM_LOCAL_EVENT_COUNTER_MASK 0x0000fff0
-#define DRM_LOCAL_EVENT_COUNTER_POSITION 4
-
-
-/******************************************
-TRM DATA FORMAT
-******************************************/
-
-//TRM global header word required bit pattern
-#define TRM_GLOBAL_HEADER 0x40000000
-
-//TRM slot ID mask/position
-#define TRM_SLOT_ID_MASK 0x0000000f
-#define TRM_SLOT_ID_POSITION 0
-
-//TRM event words mask/position
-#define TRM_EVENT_WORDS_MASK 0x0001fff0
-#define TRM_EVENT_WORDS_POSITION 4
-
-//TRM ACQ-bits mask/position
-#define TRM_ACQ_BITS_MASK 0x00060000
-#define TRM_ACQ_BITS_POSITION 17
-
-//TRM L-bit mask/position
-#define TRM_L_BIT_MASK 0x00080000
-#define TRM_L_BIT_POSITION 19
-
-//TRM chain-0 header word required bit pattern
-#define TRM_CHAIN_0_HEADER 0x00000000
-
-//TRM chain-1 header word required bit pattern
-#define TRM_CHAIN_1_HEADER 0x20000000
-
-//TRM bunch ID mask/position
-#define TRM_BUNCH_ID_MASK 0x0000fff0
-#define TRM_BUNCH_ID_POSITION 4
-
-//TRM PB24 temp mask/position
-#define TRM_PB24_TEMP_MASK 0x00ff0000
-#define TRM_PB24_TEMP_POSITION 16
-
-//TRM PB24 ID mask/position
-#define TRM_PB24_ID_MASK 0x07000000
-#define TRM_PB24_ID_POSITION 24
-
-//TRM TS-bit mask/position
-#define TRM_TS_BIT_MASK 0x08000000
-#define TRM_TS_BIT_POSITION 27
-
-//TRM chain-0 trailer word required bit pattern
-#define TRM_CHAIN_0_TRAILER 0x10000000
-
-//TRM chain-1 trailer word required bit pattern
-#define TRM_CHAIN_1_TRAILER 0x30000000
-
-//TRM status mask/position
-#define TRM_STATUS_MASK 0x0000000f
-#define TRM_STATUS_POSITION 0
-
-
-//TDC digit
-
-//TRM TDC digit word required bit pattern
-#define TRM_TDC_DIGIT 0x8000000
-
-//TRM digit time mask/position
-#define TRM_DIGIT_TIME_MASK 0x00001fff
-#define TRM_DIGIT_TIME_POSITION 0
-
-//TRM long digit time mask/position
-#define TRM_LONG_DIGIT_TIME_MASK 0x001fffff
-#define TRM_LONG_DIGIT_TIME_POSITION 0
-
-//TRM TOT width mask/position
-#define TRM_TOT_WIDTH_MASK 0x001fe000
-#define TRM_TOT_WIDTH_POSITION 13
-
-//TRM chan mask/position
-#define TRM_CHAN_MASK 0x00e00000
-#define TRM_CHAN_POSITION 21
-
-//TRM TDC ID mask/position
-#define TRM_TDC_ID_MASK 0x0f000000
-#define TRM_TDC_ID_POSITION 24
-
-//TRM E-bit mask/position
-#define TRM_E_BIT_MASK 0x10000000
-#define TRM_E_BIT_POSITION 28
-
-//TRM PS-bits mask/position
-#define TRM_PS_BITS_MASK 0x60000000
-#define TRM_PS_BITS_POSITION 29
-
-
-//TRM errors
-
-//TRM TDC error word required bit pattern
-#define TRM_TDC_ERROR 0x6000000
-
-//TRM TDC diagnostic error word required bit pattern
-#define TRM_TDC_DIAGNOSTIC_ERROR 0x6f00000
-
-//TRM TDC error flags mask/position
-#define TRM_TDC_ERROR_FLAGS_MASK 0x00007fff
-#define TRM_TDC_ERROR_FLAGS_POSITION 0
-
-//TRM TDC error TDC ID mask/position
-#define TRM_TDC_ERROR_TDC_ID_MASK 0x0f00000
-#define TRM_TDC_ERROR_TDC_ID_POSITION 24
-
-//TRM TDC fault chip flag ID mask/position
-#define TRM_TDC_ERROR_FAULT_CHIP_FLAG_ID_MASK 0x00007fff
-#define TRM_TDC_ERROR_FAULT_CHIP_FLAG_ID_POSITION 0
-
-//TRM TDC error C-bit mask/position
-#define TRM_TDC_ERROR_C_BIT_MASK 0x00008000
-#define TRM_TDC_ERROR_C_BIT_POSITION 15
-
-//TRM TDC JTAG error code mask/position
-#define TRM_TDC_ERROR_JTAG_ERROR_CODE_MASK 0x000007ff
-#define TRM_TDC_ERROR_JTAG_ERROR_CODE_POSITION 0
-
-//TRM TDC disgnostic error TDC ID mask/position
-#define TRM_TDC_DIAGNOSTIC_ERROR_TDC_ID_MASK 0x00007800
-#define TRM_TDC_DIAGNOSTIC_ERROR_TDC_ID_POSITION 11
-
-//TRM global trailer word required bit pattern
-//#define TRM_GLOBAL_TRAILER 0x50000000
-#define TRM_GLOBAL_TRAILER 0x5000000f
-
-//TRM event CRC mask/position
-#define TRM_EVENT_CRC_MASK 0x0000fff0
-#define TRM_EVENT_CRC_POSITION 4
-
-//TRM event counter mask/position
-#define TRM_EVENT_COUNTER_MASK 0x0fff0000
-#define TRM_EVENT_COUNTER_POSITION 16
-
-
-/******************************************
-LTM DATA FORMAT
-******************************************/
-
-//LTM global header word required bit pattern
-#define LTM_GLOBAL_HEADER 0x40000002
-
-//LTM event words mask/position
-#define LTM_EVENT_WORDS_MASK 0x0001fff0
-#define LTM_EVENT_WORDS_POSITION 4
-
-//LTM C-bit mask/position
-#define LTM_C_BIT_MASK 0x00020000
-#define LTM_C_BIT_POSITION 17
-
-//LTM fault mask/position
-#define LTM_FAULT_MASK 0x00fc0000
-#define LTM_FAULT_POSITION 18
-
-//PDL data
-
-//PDL value 1 mask/position
-#define LTM_PDL_VALUE_1_MASK 0x000000ff
-#define LTM_PDL_VALUE_1_POSITION 0
-
-//PDL value 2 mask/position
-#define LTM_PDL_VALUE_2_MASK 0x0000ff00
-#define LTM_PDL_VALUE_2_POSITION 8
-
-//PDL value 3 mask/position
-#define LTM_PDL_VALUE_3_MASK 0x00ff0000
-#define LTM_PDL_VALUE_3_POSITION 16
-
-//PDL value 4 mask/position
-#define LTM_PDL_VALUE_4_MASK 0xff000000
-#define LTM_PDL_VALUE_4_POSITION 24
-
-//ADC data
-
-//ADC value 1 mask/position
-#define LTM_ADC_VALUE_1_MASK 0x000003ff
-#define LTM_ADC_VALUE_1_POSITION 0
-
-//ADC value 2 mask/position
-#define LTM_ADC_VALUE_2_MASK 0x000ffc00
-#define LTM_ADC_VALUE_2_POSITION 10
-
-//ADC value 3 mask/position
-#define LTM_ADC_VALUE_3_MASK 0x3ff00000
-#define LTM_ADC_VALUE_3_POSITION 20
-
-//LTM global trailer word required bit pattern
-#define LTM_GLOBAL_TRAILER 0x50000002
-
-//LTM event CRC mask/position
-#define LTM_EVENT_CRC_MASK 0x0000fff0
-#define LTM_EVENT_CRC_POSITION 4
-
-//LTM event number mask/position
-#define LTM_EVENT_NUMBER_MASK 0x0fff0000
-#define LTM_EVENT_NUMBER_POSITION 16
-
+#include "AliTOFHitData.h"
ClassImp(AliTOFRawStream)
//_____________________________________________________________________________
AliTOFRawStream::AliTOFRawStream(AliRawReader* rawReader):
- fRawReader(0x0),
+ fRawReader(rawReader),
+ fTOFrawData(0x0),
+ fDecoder(new AliTOFDecoder()),
fDDL(-1),
fTRM(-1),
- fTDC(-1),
fTRMchain(-1),
+ fTDC(-1),
fTDCchannel(-1),
- fTof(-1),
+ fTime(-1),
fToT(-1),
+ fLeadingEdge(-1),
+ fTrailingEdge(-1),
fErrorFlag(-1),
-
fSector(-1),
fPlate(-1),
fStrip(-1),
fPadX(-1),
fPadZ(-1),
- fTOFGeometry(new AliTOFGeometryV5()),
+ fPackedDigits(0),
fWordType(-1),
fSlotID(-1),
fACQ(-1),
fPSbit(-1),
- fTime(-1),
fTDCerrorFlag(-1),
fInsideDRM(kFALSE),
fInsideTRM(kFALSE),
fInsideLTM(kFALSE),
fInsideTRMchain0(kFALSE),
- fInsideTRMchain1(kFALSE),
- fLeadingOrphane(kFALSE)
+ fInsideTRMchain1(kFALSE)
{
//
// create an object to read TOF raw digits
//
- fRawReader = rawReader;
- /*
- fDDL = -1;
- fTRM = -1;
- fTDC = -1;
- fTRMchain = -1;
- fTDCchannel = -1;
- fTof = -1;
- fToT = -1;
- fErrorFlag = -1;
-
- fSector = -1;
- fPlate = -1;
- fStrip = -1;
- fPadX = -1;
- fPadZ = -1;
- fTOFGeometry = new AliTOFGeometryV5();
- */
+ for (Int_t i=0;i<AliDAQ::NumberOfDdls("TOF");i++){
+ fDataBuffer[i]=new AliTOFHitDataBuffer();
+ fPackedDataBuffer[i]=new AliTOFHitDataBuffer();
+ }
+
+ fTOFrawData = new TClonesArray("AliTOFrawData",1000);
+ fTOFrawData->SetOwner();
+
+ fRawReader->Reset();
fRawReader->Select("TOF");
- /*
- fWordType = -1;
- fSlotID = -1;
- fACQ = -1;
- fPSbit = -1;
- fTime = -1;
- fTDCerrorFlag = -1;
- fInsideDRM = kFALSE;
- fInsideTRM = kFALSE;
- fInsideLTM = kFALSE;
- fInsideTRMchain0 = kFALSE;
- fInsideTRMchain1 = kFALSE;
- fLeadingOrphane = kFALSE;
- */
}
//_____________________________________________________________________________
AliTOFRawStream::AliTOFRawStream():
- fRawReader(0x0),
+ fRawReader(0x0),
+ fTOFrawData(0x0),
+ fDecoder(new AliTOFDecoder()),
fDDL(-1),
fTRM(-1),
- fTDC(-1),
fTRMchain(-1),
+ fTDC(-1),
fTDCchannel(-1),
- fTof(-1),
+ fTime(-1),
fToT(-1),
+ fLeadingEdge(-1),
+ fTrailingEdge(-1),
fErrorFlag(-1),
-
fSector(-1),
fPlate(-1),
fStrip(-1),
fPadX(-1),
fPadZ(-1),
- fTOFGeometry(new AliTOFGeometryV5()),
+ fPackedDigits(0),
fWordType(-1),
fSlotID(-1),
fACQ(-1),
fPSbit(-1),
- fTime(-1),
fTDCerrorFlag(-1),
fInsideDRM(kFALSE),
fInsideTRM(kFALSE),
fInsideLTM(kFALSE),
fInsideTRMchain0(kFALSE),
- fInsideTRMchain1(kFALSE),
- fLeadingOrphane(kFALSE)
+ fInsideTRMchain1(kFALSE)
{
//
// default ctr
//
- /*
- fRawReader = 0x0;
- fDDL = -1;
- fTRM = -1;
- fTDC = -1;
- fTRMchain = -1;
- fTDCchannel = -1;
- fTof = -1;
- fToT = -1;
- fErrorFlag = -1;
-
- fSector = -1;
- fPlate = -1;
- fStrip = -1;
- fPadX = -1;
- fPadZ = -1;
- fTOFGeometry = new AliTOFGeometryV5();
- fWordType = -1;
- fSlotID = -1;
- fACQ = -1;
- fPSbit = -1;
- fTime = -1;
- fTDCerrorFlag = -1;
- fInsideDRM = kFALSE;
- fInsideTRM = kFALSE;
- fInsideLTM = kFALSE;
- fInsideTRMchain0 = kFALSE;
- fInsideTRMchain1 = kFALSE;
- fLeadingOrphane = kFALSE;
- */
+ for (Int_t i=0;i<AliDAQ::NumberOfDdls("TOF");i++){
+ fDataBuffer[i]=new AliTOFHitDataBuffer();
+ fPackedDataBuffer[i]=new AliTOFHitDataBuffer();
+ }
+
+ fTOFrawData = new TClonesArray("AliTOFrawData",1000);
+ fTOFrawData->SetOwner();
}
//_____________________________________________________________________________
AliTOFRawStream::AliTOFRawStream(const AliTOFRawStream& stream) :
TObject(stream),
fRawReader(0x0),
+ fTOFrawData(0x0),
+ fDecoder(new AliTOFDecoder()),
fDDL(-1),
fTRM(-1),
- fTDC(-1),
fTRMchain(-1),
+ fTDC(-1),
fTDCchannel(-1),
- fTof(-1),
+ fTime(-1),
fToT(-1),
+ fLeadingEdge(-1),
+ fTrailingEdge(-1),
fErrorFlag(-1),
-
fSector(-1),
fPlate(-1),
fStrip(-1),
fPadX(-1),
fPadZ(-1),
- fTOFGeometry(new AliTOFGeometryV5()),
+ fPackedDigits(0),
fWordType(-1),
fSlotID(-1),
fACQ(-1),
fPSbit(-1),
- fTime(-1),
fTDCerrorFlag(-1),
fInsideDRM(kFALSE),
fInsideTRM(kFALSE),
fInsideLTM(kFALSE),
fInsideTRMchain0(kFALSE),
- fInsideTRMchain1(kFALSE),
- fLeadingOrphane(kFALSE)
+ fInsideTRMchain1(kFALSE)
{
//
// copy constructor
//
fRawReader = stream.fRawReader;
+
+ fTOFrawData = stream.fTOFrawData;
+
fDDL = stream.fDDL;
fTRM = stream.fTRM;
- fTDC = stream.fTDC;
fTRMchain = stream.fTRMchain;
+ fTDC = stream.fTDC;
fTDCchannel = stream.fTDCchannel;
- fTof = stream.fTof;
+ fTime = stream.fTime;
fToT = stream.fToT;
+ fLeadingEdge = stream.fLeadingEdge;
+ fTrailingEdge = stream.fTrailingEdge;
+
fErrorFlag = stream.fErrorFlag;
fSector = stream.fSector;
fPadX = stream.fPadX;
fPadZ = stream.fPadZ;
- fTOFGeometry = stream.fTOFGeometry;
+ fPackedDigits = stream.fPackedDigits;
fWordType = stream.fWordType;
fSlotID = stream.fSlotID;
fACQ = stream.fACQ;
fPSbit = stream.fPSbit;
- fTime = stream.fTime;
fTDCerrorFlag = stream.fTDCerrorFlag;
fInsideDRM = stream.fInsideDRM;
fInsideTRM = stream.fInsideTRM;
fInsideLTM = stream.fInsideLTM;
fInsideTRMchain0 = stream.fInsideTRMchain0;
fInsideTRMchain1 = stream.fInsideTRMchain1;
- fLeadingOrphane = stream.fLeadingOrphane;
+ for (Int_t i=0;i<AliDAQ::NumberOfDdls("TOF");i++){
+ fDataBuffer[i]= new AliTOFHitDataBuffer(*stream.fDataBuffer[i]);
+ fPackedDataBuffer[i]= new AliTOFHitDataBuffer(*stream.fPackedDataBuffer[i]);
+ }
+
+ fTOFrawData = new TClonesArray(*stream.fTOFrawData);
+
}
//_____________________________________________________________________________
//
fRawReader = stream.fRawReader;
+
+ fTOFrawData = stream.fTOFrawData;
+
fDDL = stream.fDDL;
fTRM = stream.fTRM;
- fTDC = stream.fTDC;
fTRMchain = stream.fTRMchain;
+ fTDC = stream.fTDC;
fTDCchannel = stream.fTDCchannel;
- fTof = stream.fTof;
+ fTime = stream.fTime;
fToT = stream.fToT;
+ fLeadingEdge = stream.fLeadingEdge;
+ fTrailingEdge = stream.fTrailingEdge;
fErrorFlag = stream.fErrorFlag;
fSector = stream.fSector;
fPadX = stream.fPadX;
fPadZ = stream.fPadZ;
- fTOFGeometry = stream.fTOFGeometry;
+ fPackedDigits = stream.fPackedDigits;
fWordType = stream.fWordType;
fSlotID = stream.fSlotID;
fACQ = stream.fACQ;
fPSbit = stream.fPSbit;
- fTime = stream.fTime;
fTDCerrorFlag = stream.fTDCerrorFlag;
fInsideDRM = stream.fInsideDRM;
fInsideTRM = stream.fInsideTRM;
fInsideLTM = stream.fInsideLTM;
fInsideTRMchain0 = stream.fInsideTRMchain0;
fInsideTRMchain1 = stream.fInsideTRMchain1;
- fLeadingOrphane = stream.fLeadingOrphane;
-
+
+ for (Int_t i=0;i<AliDAQ::NumberOfDdls("TOF");i++){
+ fDataBuffer[i] = stream.fDataBuffer[i];
+ fPackedDataBuffer[i] = stream.fPackedDataBuffer[i];
+ }
+
+ fTOFrawData = stream.fTOFrawData;
+
return *this;
}
{
// destructor
- fTOFGeometry = 0;
+ fPackedDigits = 0;
+
+ for (Int_t i=0;i<72;i++){
+ delete fDataBuffer[i];
+ delete fPackedDataBuffer[i];
+ }
+
+ delete fDecoder;
+ fTOFrawData->Clear();
+ delete fTOFrawData;
}
+//_____________________________________________________________________________
+
+void AliTOFRawStream::LoadRawData(Int_t indexDDL)
+{
+ //
+ // To load raw data
+ //
+
+ fTOFrawData->Clear();
+
+ TClonesArray &arrayTofRawData = *fTOFrawData;
+
+ fPackedDigits = 0;
+
+ // create raw data map
+ AliTOFRawMap *rawMap = new AliTOFRawMap(fTOFrawData);
+ rawMap->Clear();
+
+ Int_t slot[4] = {-1, -1, -1, -1};
+
+ fRawReader->Reset();
+ fRawReader->Select("TOF", indexDDL, indexDDL);
+
+ Bool_t signal = kFALSE;
+
+ AliTOFrawData *rawDigit = NULL;
+
+ while(Next()) {
+
+ signal = (fSector!=-1 && fPlate!=-1 && fStrip!=-1 && fPadZ!=-1 && fPadX!=-1);
+ if (signal) {
+ AliDebug(2,Form(" %2i %1i %2i %1i %2i \n", fSector, fPlate, fStrip, fPadZ, fPadX));
+
+ slot[0] = fTRM;
+ slot[1] = fTRMchain;
+ slot[2] = fTDC;
+ slot[3] = fTDCchannel;
+
+ if (rawMap->TestHit(slot) != kEmpty) {
+
+ rawDigit = static_cast<AliTOFrawData*>(rawMap->GetHit(slot));
+
+ if (rawDigit->GetLeading()!=-1 && rawDigit->GetTrailing()==-1 &&
+ fLeadingEdge==-1 && fTrailingEdge!=-1) {
+
+ rawDigit->Update(fTime, fToT, fLeadingEdge, fTrailingEdge, fPSbit, fACQ, fErrorFlag);
+ }
+ else if ( ((rawDigit->GetTOF()!=-1 || rawDigit->GetLeading()!=-1 || rawDigit->GetTrailing()!=-1) &&
+ (fLeadingEdge!=-1 || fTrailingEdge!=-1 || fTime!=-1) )
+
+ )
+ {
+
+ new (arrayTofRawData[fPackedDigits++]) AliTOFrawData(fTRM, fTRMchain, fTDC, fTDCchannel, fTime, fToT, fLeadingEdge, fTrailingEdge, fPSbit, fACQ, fErrorFlag);
+
+ rawMap->SetHit(slot);
+
+ }
+
+
+ }
+ else {
+
+ new (arrayTofRawData[fPackedDigits++]) AliTOFrawData(fTRM, fTRMchain, fTDC, fTDCchannel, fTime, fToT, fLeadingEdge, fTrailingEdge, fPSbit, fACQ, fErrorFlag);
+
+ rawMap->SetHit(slot);
+
+ } // else if (rawMap->TestHit(slot) == kEmpty)
+
+ } // if (signal)
+
+ } // closed -> while (Next())
+
+ rawMap->Delete();
+
+}
+
//_____________________________________________________________________________
Bool_t AliTOFRawStream::Next()
{
if (fSector!=-1 && fPlate!=-1 && fStrip!=-1 && fPadZ!=-1 && fPadX!=-1) {
fSector = -1;
- fPlate = -1;
- fStrip = -1;
- fPadZ = -1;
- fPadX = -1;
+ fPlate = -1;
+ fStrip = -1;
+ fPadZ = -1;
+ fPadX = -1;
+ fTime = -1;
+ fToT = -1;
+ fLeadingEdge = -1;
+ fTrailingEdge = -1;
}
-
fDDL = fRawReader->GetDDLID();
- // orphane digits
- AliTOFtdcDigit orphaneLeadingDigit;
-
fWordType = GetField(data,WORD_TYPE_MASK,WORD_TYPE_POSITION);
switch (fWordType) { // switch word type
fInsideLTM = kFALSE;
fInsideTRMchain0 = kFALSE;
fInsideTRMchain1 = kFALSE;
- fLeadingOrphane = kFALSE;
fSector = -1;
- fPlate = -1;
- fStrip = -1;
- fPadZ = -1;
- fPadX = -1;
- fDDL = -1;
- fTRM = -1;
- fTDC = -1;
- fTRMchain = -1;
+ fPlate = -1;
+ fStrip = -1;
+ fPadZ = -1;
+ fPadX = -1;
+ fDDL = -1;
+ fTRM = -1;
+ fTDC = -1;
+ fTRMchain = -1;
fTDCchannel = -1;
- fTof = -1;
- fToT = -1;
+ fTime = -1;
+ fToT = -1;
+ fLeadingEdge = -1;
+ fTrailingEdge = -1;
fErrorFlag = -1;
- fACQ = -1;
+ fACQ = -1;
fPSbit = -1;
- fTime = -1;
fTDCerrorFlag = -1;
break;
case LTM_ID_NUMBER: // LTM global trailer
case ERROR_TYPE: // TDC error
- fTDC = GetField(data,TRM_TDC_ERROR_TDC_ID_MASK,TRM_TDC_ERROR_TDC_ID_POSITION);
+ fTDC = GetField(data,TRM_TDC_ERROR_TDC_ID_MASK,TRM_TDC_ERROR_TDC_ID_POSITION);
fTDCerrorFlag = GetField(data,TRM_TDC_ERROR_FLAGS_MASK,TRM_TDC_ERROR_FLAGS_POSITION);
break;
&& fWordType!=TRM_CHAIN0_HEADER_TYPE && fWordType!=TRM_CHAIN0_TRAILER_TYPE
&& fWordType!=TRM_CHAIN1_HEADER_TYPE && fWordType!=TRM_CHAIN1_TRAILER_TYPE
){ // inside TRM chains
- fPSbit = GetField(data,TRM_PS_BITS_MASK,TRM_PS_BITS_POSITION);
- fTDC = GetField(data,TRM_TDC_ID_MASK,TRM_TDC_ID_POSITION);
+
+ fPSbit = GetField(data,TRM_PS_BITS_MASK,TRM_PS_BITS_POSITION);
+ fTDC = GetField(data,TRM_TDC_ID_MASK,TRM_TDC_ID_POSITION);
fTDCchannel = GetField(data,TRM_CHAN_MASK,TRM_CHAN_POSITION);
+ fErrorFlag = GetField(data,TRM_E_BIT_MASK,TRM_E_BIT_POSITION);
+
+ SetSector();
+ SetPlate();
+ SetStrip();
+ SetPadZ();
+ SetPadX();
+
switch (fPSbit) { // switch fPSbit bits inside TRM chains
- case 0: // packing ok, digit time and tot
- fToT = GetField(data,TRM_TOT_WIDTH_MASK,TRM_TOT_WIDTH_POSITION);
+
+ case 0: // packing ok, digit time and TOT
+ fToT = GetField(data,TRM_TOT_WIDTH_MASK, TRM_TOT_WIDTH_POSITION);
fTime = GetField(data,TRM_DIGIT_TIME_MASK,TRM_DIGIT_TIME_POSITION);
- fTof = fTime;
- SetSector();
- SetPlate();
- SetStrip();
- SetPadZ();
- SetPadX();
break;
case 1: // leading edge digit, long digit time, no TOT
- fToT = -1;
- fTime = GetField(data,TRM_LONG_DIGIT_TIME_MASK,TRM_LONG_DIGIT_TIME_POSITION);
- fTof = fTime;
- SetSector();
- SetPlate();
- SetStrip();
- SetPadZ();
- SetPadX();
- // always set it as orphane leading
- fLeadingOrphane=1;
- orphaneLeadingDigit.fSlotID = fSlotID;
- orphaneLeadingDigit.fChain = fTRMchain;
- orphaneLeadingDigit.fPS = fPSbit;
- orphaneLeadingDigit.fTDC = fTDC;
- orphaneLeadingDigit.fChannel = fTDCchannel;
- orphaneLeadingDigit.fTOT = fToT;
- orphaneLeadingDigit.fTime = fTime;
+ //fToT = -1;
+ //fTime = -1;
+ fLeadingEdge = GetField(data,TRM_LONG_DIGIT_TIME_MASK,TRM_LONG_DIGIT_TIME_POSITION);
break;
case 2: // trailing edge digit, long digit time, no TOT
- fToT = -1;
- fTime = GetField(data,TRM_LONG_DIGIT_TIME_MASK,TRM_LONG_DIGIT_TIME_POSITION);
- fTof = fTime;
- SetSector();
- SetPlate();
- SetStrip();
- SetPadZ();
- SetPadX();
- if (fACQ!=3) // check if packing is disabled
- break;
- if (!fLeadingOrphane) // check for a orphane leading edge
- break;
- if (orphaneLeadingDigit.fSlotID != fSlotID ||
- orphaneLeadingDigit.fChain != fTRMchain ||
- orphaneLeadingDigit.fTDC != fTDC ||
- orphaneLeadingDigit.fChannel != fTDCchannel) // check leading edge compatibility (fSlotID, fTRMchain, fTDC, fTDCchannel)
- break;
- fLeadingOrphane = 0; // orphane leading is no longer orphane
- SetSector();
- SetPlate();
- SetStrip();
- SetPadZ();
- SetPadX();
+ //fToT = -1;
+ //fTime = -1;
+ fTrailingEdge = GetField(data,TRM_LONG_DIGIT_TIME_MASK,TRM_LONG_DIGIT_TIME_POSITION);
break;
+
case 3: // TOT overflow
- fToT = GetField(data,TRM_TOT_WIDTH_MASK,TRM_TOT_WIDTH_POSITION);
+ fToT = GetField(data,TRM_TOT_WIDTH_MASK, TRM_TOT_WIDTH_POSITION);
fTime = GetField(data,TRM_DIGIT_TIME_MASK,TRM_DIGIT_TIME_POSITION);
- fTof = fTime;
- SetSector();
- SetPlate();
- SetStrip();
- SetPadZ();
- SetPadX();
break;
- } // end switch fPSbit bits inside TRM chains
+ } // end switch PS bits inside TRM chains
} // end if is inside TRM chains
} // end switch on fWordType
- return kTRUE;
+ return kTRUE;
+
}
//_____________________________________________________________________________
// corresponding to the TOF equipment IDs:
// fDDL -> [ 0;71]
// fTRM -> [ 3;12]
- // fTRMchain -> [0; 1]
+ // fTRMchain -> [ 0; 1]
// fTDC -> [ 0;14]
// fTDCchannel -> [ 0; 7]
//
// corresponding to the TOF equipment IDs:
// fDDL -> [ 0;71]
// fTRM -> [ 3;12]
- // fTRMchain -> [0; 1]
+ // fTRMchain -> [ 0; 1]
// fTDC -> [ 0;14]
// fTDCchannel -> [ 0; 7]
//
// corresponding to the TOF equipment IDs:
// fDDL -> [ 0;71]
// fTRM -> [ 3;12]
- // fTRMchain -> [0; 1]
+ // fTRMchain -> [ 0; 1]
// fTDC -> [ 0;14]
// fTDCchannel -> [ 0; 7]
//
// corresponding to the TOF equipment IDs:
// fDDL -> [ 0;71]
// fTRM -> [ 3;12]
- // fTRMchain -> [0; 1]
+ // fTRMchain -> [ 0; 1]
// fTDC -> [ 0;14]
// fTDCchannel -> [ 0; 7]
//
// corresponding to the TOF equipment IDs:
// fDDL -> [ 0;71]
// fTRM -> [ 3;12]
- // fTRMchain -> [0; 1]
+ // fTRMchain -> [ 0; 1]
// fTDC -> [ 0;14]
// fTDCchannel -> [ 0; 7]
//
}
//----------------------------------------------------------------------------
-Int_t AliTOFRawStream::Equip2VolNplate(Int_t iDDL, Int_t nTRM, Int_t nTDC) const
+Int_t AliTOFRawStream::Equip2VolNplate(Int_t iDDL, Int_t nTRM, Int_t nTDC)
{
//
// Returns the TOF plate number [0;4]
}
//----------------------------------------------------------------------------
-Int_t AliTOFRawStream::Equip2VolNstrip(Int_t iDDL, Int_t nTRM, Int_t nTDC) const
+Int_t AliTOFRawStream::Equip2VolNstrip(Int_t iDDL, Int_t nTRM, Int_t nTDC)
{
//
// Returns the TOF strip number per module:
//----------------------------------------------------------------------------
Int_t AliTOFRawStream::Equip2VolNpad(Int_t iDDL, Int_t iChain, Int_t nTDC,
- Int_t iCH) const
+ Int_t iCH)
{
//
// Returns the TOF pad number per strip [0;95]
iPadAlongTheStrip = iTDClocal*AliTOFGeometry::NCh() + iCHlocal;
if (((iDDL==1 || iDDL==2) && iPadAlongTheStrip< AliTOFGeometry::NpadX()) ||
- ((iDDL==0 || iDDL==3) && iPadAlongTheStrip>=AliTOFGeometry::NpadX()))
- AliError("Problems with the padX number!");
-
+ ((iDDL==0 || iDDL==3) && iPadAlongTheStrip>=AliTOFGeometry::NpadX())) {
+ std::cerr << "Problems with the padX number!" << endl;
+ //AliWarning("Problems with the padX number!");
+ }
return iPadAlongTheStrip;
}
}
+//----------------------------------------------------------------------------
+void AliTOFRawStream::EquipmentId2VolumeId(AliTOFHitData *hitData, Int_t *volume) const
+{
+ EquipmentId2VolumeId(hitData->GetDDLID(),hitData->GetSlotID(),hitData->GetChain(),hitData->GetTDC(),hitData->GetChan(),volume);
+}
//----------------------------------------------------------------------------
void AliTOFRawStream::EquipmentId2VolumeId(Int_t nDDL, Int_t nTRM, Int_t iChain,
Int_t nTDC, Int_t iCH,
Int_t iSector = GetSectorNumber(nDDL);
Int_t iPlate = Equip2VolNplate(iDDL, nTRM, nTDC);
- if (iPlate==-1) AliError("Problems with the plate number!");
+ if (iPlate==-1) {
+ if (fRawReader)
+ fRawReader->AddMajorErrorLog(kPlateError,"plate = -1");
+ AliWarning("Problems with the plate number!");
+ }
Int_t iStrip = Equip2VolNstrip(iDDL, nTRM, nTDC);
- if (iStrip==-1) AliError("Problems with the strip number!");
+ if (iStrip==-1) {
+ if (fRawReader)
+ fRawReader->AddMajorErrorLog(kStripError,"strip = -1");
+ AliWarning("Problems with the strip number!");
+ }
Int_t iPadAlongTheStrip = Equip2VolNpad(iDDL, iChain, nTDC, iCH);
- if (iPadAlongTheStrip==-1)
- AliError("Problems with the pad number along the strip!");
-
+ if (iPadAlongTheStrip==-1){
+ if (fRawReader)
+ fRawReader->AddMajorErrorLog(kPadAlongStripError,"pad = -1");
+ AliWarning("Problems with the pad number along the strip!");
+ }
+
Int_t iPadX = (Int_t)(iPadAlongTheStrip/(Float_t(AliTOFGeometry::NpadZ())));
Int_t iPadZ = iPadAlongTheStrip%AliTOFGeometry::NpadZ();
-
+
volume[0] = iSector;
volume[1] = iPlate;
volume[2] = iStrip;
volume[4] = iPadZ;
}
+//-----------------------------------------------------------------------------
+Bool_t AliTOFRawStream::DecodeDDL(Int_t nDDLMin, Int_t nDDLMax, Int_t verbose = 0) {
+ //
+ // To decode raw data for DDL number in [nDDLmin; nDDLmax]
+ //
+
+ //check and fix valid DDL range
+ if (nDDLMin < 0){
+ nDDLMin = 0;
+ fRawReader->AddMinorErrorLog(kDDLMinError);
+ AliWarning("Wrong DDL range: setting first DDL ID to 0");
+ }
+ if (nDDLMax > 71){
+ nDDLMax = 71;
+ fRawReader->AddMinorErrorLog(kDDLMaxError);
+ AliWarning("Wrong DDL range: setting last DDL ID to 71");
+ }
+
+ //select required DDLs
+ fRawReader->Select("TOF", nDDLMin, nDDLMax);
+
+ if (verbose)
+ AliInfo(Form("Selected TOF DDL range: %d-%d", nDDLMin, nDDLMax));
+
+ return(Decode(verbose));
+}
+//-----------------------------------------------------------------------------
+Bool_t AliTOFRawStream::Decode(Int_t verbose = 0) {
+ //
+ // New decoder method
+ //
+
+ Int_t currentEquipment;
+ Int_t currentDDL;
+
+ //pointers
+ UChar_t *data = 0x0;
+
+ //loop and read DDL headers
+ while(fRawReader->ReadHeader()){
+
+ //memory leak prevention (actually data should be always 0x0 here)
+ if (data != 0x0)
+ delete [] data;
+
+ //get equipment infos
+ currentEquipment = fRawReader->GetEquipmentId();
+ currentDDL = fRawReader->GetDDLID();
+ const Int_t kDataSize = fRawReader->GetDataSize();
+ const Int_t kDataWords = kDataSize / 4;
+ data = new UChar_t[kDataSize];
+
+ if (verbose)
+ AliInfo(Form("Found equipment # %d header (DDL # %d): %d bytes (%d words)", currentEquipment, currentDDL, kDataSize, kDataWords));
+
+ if (verbose)
+ AliInfo(Form("Reading equipment #%d (DDL # %d) data...", currentEquipment, currentDDL));
+
+ //read equipment payload
+ if (!fRawReader->ReadNext(data, kDataSize))
+ {
+ fRawReader->AddMajorErrorLog(kDDLdataReading);
+ if (verbose)
+ AliWarning("Error while reading DDL data. Go to next equipment");
+ delete [] data;
+ data = 0x0;
+ continue;
+ }
+
+ if (verbose)
+ AliInfo(Form("Equipment # %d (DDL # %d) data has been readed", currentEquipment, currentDDL));
+
+
+ //set up the decoder
+ fDecoder->SetVerbose(verbose);
+ fDecoder->SetDataBuffer(fDataBuffer[currentDDL]);
+ fDecoder->SetPackedDataBuffer(fPackedDataBuffer[currentDDL]);
+
+ //start decoding
+ if (fDecoder->Decode((UInt_t *)data, kDataWords) == kTRUE) {
+ fRawReader->AddMajorErrorLog(kDDLDecoder,Form("DDL # = %d",currentDDL));
+ AliWarning(Form("Error while decoding DDL # %d: decoder returned with errors", currentDDL));
+ }
+
+ delete [] data;
+ data = 0x0;
+ }
+
+ //reset reader
+ fRawReader->Reset();
+
+ if (verbose)
+ AliInfo("All done");
+
+ return kFALSE;
+
+}
+//---------------------------------------------------------------------------
+void
+AliTOFRawStream::ResetBuffers()
+{
+ //
+ // To reset the buffers
+ //
+
+ for (Int_t iDDL = 0; iDDL < AliDAQ::NumberOfDdls("TOF"); iDDL++){
+ ResetDataBuffer(iDDL);
+ ResetPackedDataBuffer(iDDL);
+ }
+}
+
+//---------------------------------------------------------------------------
+Bool_t
+AliTOFRawStream::LoadRawDataBuffers(Int_t indexDDL, Int_t verbose)
+{
+ //
+ // To load the buffers
+ //
+
+ fTOFrawData->Clear();
+ fPackedDigits = 0;
+
+ if (verbose > 0)
+ AliInfo(Form("Decoding raw data for DDL # %d ...", indexDDL));
+
+ if (DecodeDDL(indexDDL, indexDDL, verbose) != 0){ //decode DDL
+ fRawReader->AddMajorErrorLog(kDDLDecoder,Form("DDL # = %d",indexDDL));
+ AliWarning(Form("Error while decoding DDL # %d", indexDDL));
+ return kTRUE;
+ }
+
+ if (verbose > 0)
+ AliInfo(Form("Done. %d packed %s been found.", fPackedDataBuffer[indexDDL]->GetEntries(), fPackedDataBuffer[indexDDL]->GetEntries() > 1 ? "hits have" : "hit has"));
+
+ AliTOFHitData *hitData; //hit data pointer
+
+ if (verbose > 0)
+ AliInfo("Filling TClonesArray ...");
+
+ //loop over DDL packed hits
+ for (Int_t iHit = 0; iHit < fPackedDataBuffer[indexDDL]->GetEntries(); iHit++){
+ hitData = fPackedDataBuffer[indexDDL]->GetHit(iHit); //get hit data
+ Int_t hitACQ = hitData->GetACQ();
+ Int_t hitPS = hitData->GetPS();
+ Int_t hitSlotID = hitData->GetSlotID();
+ Int_t hitChain = hitData->GetChain();
+ Int_t hitTDC = hitData->GetTDC();
+ Int_t hitChan = hitData->GetChan();
+ Int_t hitTimeBin = hitData->GetTimeBin();
+ Int_t hitTOTBin = hitData->GetTOTBin();
+
+ Int_t hitLeading = hitData->GetTimeBin();//-1; // adc
+ Int_t hitTrailing = -1;
+ Int_t hitError = -1;
+
+ TClonesArray &arrayTofRawData = *fTOFrawData;
+ new (arrayTofRawData[fPackedDigits++]) AliTOFrawData(hitSlotID, hitChain, hitTDC, hitChan, hitTimeBin, hitTOTBin, hitLeading, hitTrailing, hitPS, hitACQ, hitError);
+ }
+
+ if (verbose > 0)
+ AliInfo("Done.");
+
+ if (verbose > 0)
+ AliInfo("Resetting buffers ...");
+
+ fDataBuffer[indexDDL]->Reset();
+ fPackedDataBuffer[indexDDL]->Reset();
+
+ if (verbose > 0)
+ AliInfo("Done.");
+
+ return kFALSE;
+}
+