X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=TOF%2FAliTOFDDLRawData.cxx;h=40fc4583a164be1c58f4911eb72d5e427d8ce14c;hb=4c7053339a37d71887aa9ac44b9a3686bfbe56f2;hp=2397b66491f29d5066e1ff654495090ee00fed9a;hpb=344f25d27e104af04aaad2a5e6079365c05657cf;p=u%2Fmrichter%2FAliRoot.git diff --git a/TOF/AliTOFDDLRawData.cxx b/TOF/AliTOFDDLRawData.cxx index 2397b66491f..40fc4583a16 100644 --- a/TOF/AliTOFDDLRawData.cxx +++ b/TOF/AliTOFDDLRawData.cxx @@ -14,296 +14,1494 @@ **************************************************************************/ /* +$Log$ +Revision 1.19 2007/06/22 11:37:47 cvetan +Fixes in order to write correct raw-data on big-endian platforms (Marco) + +Revision 1.18 2007/05/21 13:26:19 decaro +Correction on matching_window control and bug fixing (R.Preghenella) + +Revision 1.17 2007/05/10 09:29:34 hristov +Last moment fixes and changes from v4-05-Release (Silvia) + +Revision 1.16 2007/05/03 09:07:22 decaro +Double digit in the same TDC channel. Wrong sequence during the raw data writing in unpacked mode: solved + +Revision 1.15 2007/04/23 16:51:39 decaro +Digits-to-raw_data conversion: correction for a more real description (A.De Caro, R.Preghenella) + +Revision 1.14 2007/03/28 10:50:33 decaro +Rounding off problem in rawData coding/decoding: solved + +Revision 1.13 2007/02/20 15:57:00 decaro +Raw data update: to read the TOF raw data defined in UNPACKED mode + +Revision 1.12 2006/08/22 13:29:42 arcelli +removal of effective c++ warnings (C.Zampolli) + +Revision 1.11 2006/08/10 14:46:54 decaro +TOF raw data format: updated version + +Revision 1.10.1 2006/06/28 A.De Caro + Update TOF raw data format + according to the final version + (see ALICE internal note in preparation + 'ALICE TOF raw data format') + +Revision 0.02 2005/7/25 A.De Caro + Update number of bits allocated for time-of-flight + and 'charge' measurements + Revision 0.01 2004/6/11 A.De Caro, S.B.Sellitto, R.Silvestri First implementation: global methods RawDataTOF GetDigits */ -// -// This class contains the methods to create the Raw Data files -// for the TOF detector starting from the Digits. -// In this preliminary implementation, we defined the structure -// of the ALICE-TOF raw data starting from the current format -// for the TOF digits and the TOF raw data. -// - -#include -#include -#include -#include -#include -#include "AliTOF.h" -#include "AliTOFGeometry.h" -#include "AliTOFdigit.h" -#include "AliTOFDDLRawData.h" -#include "AliRawDataHeader.h" + +//////////////////////////////////////////////////////////////////// +// // +// This class contains the methods to create the Raw Data files // +// for the TOF detector starting from the Digits. // +// In this implementation, we defined the structure // +// of the ALICE-TOF raw data (according to the // +// ALICE technical note, in preparation) // +// starting from the TOF digit format. // +// // +//////////////////////////////////////////////////////////////////// + +#include "Riostream.h" + +#include "TBranch.h" +#include "TClonesArray.h" +#include "TMath.h" +#include "TRandom.h" + #include "AliBitPacking.h" +#include "AliDAQ.h" +#include "AliLog.h" +//#include "AliRawDataHeader.h" +#include "AliRawDataHeaderSim.h" + +#include "AliTOFDDLRawData.h" +#include "AliTOFDigitMap.h" +#include "AliTOFdigit.h" +#include "AliTOFGeometry.h" +#include "AliTOFRawStream.h" +#include "AliFstream.h" + +extern TRandom *gRandom; ClassImp(AliTOFDDLRawData) -//---------------------------------------------------------------------------------------- -AliTOFDDLRawData::AliTOFDDLRawData() +//--------------------------------------------------------------------------- +AliTOFDDLRawData::AliTOFDDLRawData(): + fVerbose(0), + fIndex(-1), + fPackedAcquisition(kTRUE), + fFakeOrphaneProduction(kFALSE), + fMatchingWindow(8192), + fTOFdigitMap(new AliTOFDigitMap()), + fTOFdigitArray(0x0), + fTOFrawStream(new AliTOFRawStream()) { //Default constructor - fIndex=-1; - fVerbose=0; } - -//---------------------------------------------------------------------------------------- - -AliTOFDDLRawData::AliTOFDDLRawData(const AliTOFDDLRawData &source) : - TObject(source){ +//---------------------------------------------------------------------------- +AliTOFDDLRawData::AliTOFDDLRawData(const AliTOFDDLRawData &source) : + TObject(source), + fVerbose(0), + fIndex(-1), + fPackedAcquisition(kTRUE), + fFakeOrphaneProduction(kFALSE), + fMatchingWindow(8192), + fTOFdigitMap(new AliTOFDigitMap()), + fTOFdigitArray(0x0), + fTOFrawStream(new AliTOFRawStream()) + { //Copy Constructor this->fIndex=source.fIndex; this->fVerbose=source.fVerbose; + this->fPackedAcquisition=source.fPackedAcquisition; + this->fFakeOrphaneProduction=source.fFakeOrphaneProduction; + this->fMatchingWindow=source.fMatchingWindow; + this->fTOFdigitMap=source.fTOFdigitMap; + this->fTOFdigitArray=source.fTOFdigitArray; + this->fTOFrawStream=source.fTOFrawStream; return; } -//--------------------------------------------------------------------------------------- - -AliTOFDDLRawData& AliTOFDDLRawData::operator=(const AliTOFDDLRawData &source){ +//---------------------------------------------------------------------------- +AliTOFDDLRawData& AliTOFDDLRawData::operator=(const AliTOFDDLRawData &source) { //Assigment operator this->fIndex=source.fIndex; this->fVerbose=source.fVerbose; + this->fPackedAcquisition=source.fPackedAcquisition; + this->fFakeOrphaneProduction=source.fFakeOrphaneProduction; + this->fMatchingWindow=source.fMatchingWindow; + this->fTOFdigitMap=source.fTOFdigitMap; + this->fTOFdigitArray=source.fTOFdigitArray; + this->fTOFrawStream=source.fTOFrawStream; return *this; } -//--------------------------------------------------------------------------------------- +//---------------------------------------------------------------------------- +AliTOFDDLRawData::~AliTOFDDLRawData() +{ + delete fTOFdigitMap; + delete fTOFrawStream; +} +//---------------------------------------------------------------------------- +Int_t AliTOFDDLRawData::RawDataTOF(TBranch* branch) +{ + // + // This method creates the Raw data files for TOF detector + // + + const Int_t kSize = 5000; //max number of digits per DDL file times 2 + + UInt_t buf[kSize]; + + fIndex = -1; + + fTOFdigitArray = * (TClonesArray**) branch->GetAddress(); + + char fileName[15]; + AliFstream* outfile; // logical name of the output file + + //AliRawDataHeader header; + AliRawDataHeaderSim header; + + UInt_t sizeRawData = 0; + + branch->GetEvent(); + + GetDigits(); + + Int_t jj = -1; + Int_t iDDL = -1; + Int_t nDDL = -1; + Int_t nTRM = 0; + Int_t iChain = -1; + + UInt_t nWordsPerTRM = 0; + + //loop over TOF DDL files + for (nDDL=0; nDDLGetDDLnumberPerSector(nDDL); + + // write Dummy DATA HEADER + UInt_t dataHeaderPosition = outfile->Tellp(); + outfile->WriteBuffer((char*)(&header),sizeof(header)); + + // DRM section: trailer + MakeDRMtrailer(buf); + + // LTM section + fIndex++; + buf[fIndex] = MakeFiller(); + MakeLTMtrailer(buf); + MakeLTMdata(buf); + MakeLTMheader(buf); + + // loop on TRM number per DRM + for (nTRM=AliTOFGeometry::NTRM(); nTRM>=3; nTRM--) { + + nWordsPerTRM = 0; + + // the slot number 3 of the even DRM (i.e. right) doesn't contain TDC digit data + if (iDDL%2==0 && nTRM==3) continue; + + // TRM global trailer + MakeTRMtrailer(buf); + + // loop on TRM chain number per TRM + for (iChain=AliTOFGeometry::NChain()-1; iChain>=0; iChain--) { + + // TRM chain trailer + MakeTRMchainTrailer(iChain, buf); + nWordsPerTRM++; + + // TRM TDC digits + MakeTDCdigits(nDDL, nTRM, iChain, buf, nWordsPerTRM); + + // TRM chain header + MakeTRMchainHeader(nTRM, iChain, buf); + nWordsPerTRM++; + + } // end loop on iChain + + // TRM global header + MakeTRMheader(nTRM, buf); + + // TRM filler in case where TRM data number is odd + if (nWordsPerTRM%2!=0) MakeTRMfiller(buf, nWordsPerTRM); + + } // end loop on nTRM + + // DRM section: in + MakeDRMheader(nDDL, buf); + + ReverseArray(buf, fIndex+1); + + outfile->WriteBuffer((char *)buf,((fIndex+1)*sizeof(UInt_t))); + + for (jj=0; jj<(fIndex+1); jj++) buf[jj]=0; + fIndex = -1; + + //Write REAL DATA HEADER + UInt_t currentFilePosition = outfile->Tellp(); + sizeRawData = currentFilePosition - dataHeaderPosition - sizeof(header); + header.fSize = currentFilePosition - dataHeaderPosition; + header.SetAttribute(0); // valid data + outfile->Seekp(dataHeaderPosition); + outfile->WriteBuffer((char*)(&header),sizeof(header)); + outfile->Seekp(currentFilePosition); + + delete outfile; + + } //end loop on DDL file number + + return 0; + +} + +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::GetDigits() +{ + // + // Fill the TOF volumes' map with the TOF digit indices + // + + Int_t vol[5] = {-1,-1,-1,-1,-1}; + + Int_t digit = -1; + Int_t ndigits = fTOFdigitArray->GetEntries(); + + AliTOFdigit *digs; + + // loop on TOF digits + for (digit=0; digitUncheckedAt(digit); + + vol[0] = digs->GetSector(); // Sector Number (0-17) + vol[1] = digs->GetPlate(); // Plate Number (0-4) + vol[2] = digs->GetStrip(); // Strip Number (0-14/18) + vol[3] = digs->GetPadx(); // Pad Number in x direction (0-47) + vol[4] = digs->GetPadz(); // Pad Number in z direction (0-1) + + fTOFdigitMap->AddDigit(vol, digit); + + } // close loop on digit del TOF + +} + +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeDRMheader(Int_t nDDL, UInt_t *buf) +{ + // + // DRM global header + // + + Int_t iDDL = fTOFrawStream->GetDDLnumberPerSector(nDDL); + + Int_t iSector = fTOFrawStream->GetSectorNumber(nDDL); + + UInt_t baseWord=0; + UInt_t word; + + // DRM event CRC + baseWord=0; + word = 1; // 0001 -> DRM data are coming from the VME slot number 1 + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // event CRC + AliBitPacking::PackWord(word,baseWord, 4,19); + word = 0; // reserved for future use + AliBitPacking::PackWord(word,baseWord,20,27); + word = 4; // 0100 -> DRM header ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; + + // DRM status header 4 + baseWord=0; + word = 1; // 0001 -> DRM data are coming from the VME slot number 1 + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // temperature + AliBitPacking::PackWord(word,baseWord, 4,13); + word = 0; // zero + AliBitPacking::PackWord(word,baseWord, 14,14); + word = 0; // ACK + AliBitPacking::PackWord(word,baseWord, 15,15); + word = 0; // Sens AD + AliBitPacking::PackWord(word,baseWord, 16,18); + word = 0; // zero + AliBitPacking::PackWord(word,baseWord, 19,19); + word = 0; // reserved for future use + AliBitPacking::PackWord(word,baseWord, 20,27); + word = 4; // 0100 -> DRM header ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; + + // DRM status header 3 + baseWord=0; + word = 1; // 0001 -> DRM data are coming from the VME slot number 1 + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // L0 BCID + AliBitPacking::PackWord(word,baseWord, 4,15); + word = 0; // Run Time info + AliBitPacking::PackWord(word,baseWord, 16,27); + word = 4; // 0100 -> DRM header ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; + + // DRM status header 2 + baseWord=0; + word = 1; // 0001 -> DRM data are coming from the VME slot number 1 + AliBitPacking::PackWord(word,baseWord, 0, 3); + + if (iDDL%2==1) { + word = 2047; // enable ID: [00000000000;11111111111] for odd + // (i.e. right) crates + AliBitPacking::PackWord(word,baseWord, 4,14); + } else { + word = 2045; // enable ID: [00000000000;11111111101] for even + // (i.e. left) crates + AliBitPacking::PackWord(word,baseWord, 4,14); + } + + word = 0; // + AliBitPacking::PackWord(word,baseWord,15,15); + word = 0; // fault ID + AliBitPacking::PackWord(word,baseWord,16,26); + word = 0; // RTO + AliBitPacking::PackWord(word,baseWord,27,27); + word = 4; // 0100 -> DRM header ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; + + // DRM status header 1 + baseWord=0; + word = 1; // 0001 -> DRM data are coming from the VME slot number 1 + AliBitPacking::PackWord(word,baseWord, 0, 3); + + if (iDDL%2==1) { + word = 2047; // slot ID: [00000000000;11111111111] for odd + // (i.e. right) crates + AliBitPacking::PackWord(word,baseWord, 4,14); + } else { + word = 2045; // slot ID: [00000000000;11111111101] for even + // (i.e. left) crates + AliBitPacking::PackWord(word,baseWord, 4,14); + } + + word = 1; // LHC clock status: 1/0 + AliBitPacking::PackWord(word,baseWord,15,15); + word = 0; // Vers ID + AliBitPacking::PackWord(word,baseWord,16,20); + word = 0; // DRMH size + AliBitPacking::PackWord(word,baseWord,21,24); + word = 0; // reserved for future use + AliBitPacking::PackWord(word,baseWord,25,27); + word = 4; // 0100 -> DRM header ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; + + // DRM global header + baseWord=0; + word = 1; // 0001 -> DRM data are coming from the VME slot number 1 + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = fIndex+1 + 1; // event words + AliBitPacking::PackWord(word,baseWord, 4,20); + word = iDDL; // crate ID [0;3] + AliBitPacking::PackWord(word,baseWord,21,22); + word = iSector; // sector ID [0;17] + AliBitPacking::PackWord(word,baseWord,23,27); + word = 4; // 0100 -> DRM header ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; + +} -void AliTOFDDLRawData::GetDigits(TClonesArray *TOFdigits,Int_t nDDL,UInt_t *buf) +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeDRMtrailer(UInt_t *buf) { - //This method packs the TOF digits in a proper 32 bits structure - Int_t iDDL=(Int_t)((nDDL/4.-(Int_t)(nDDL/4.))*4); - Int_t iSector=(Int_t)(nDDL/4.); - Int_t iTRM=0; - Int_t iTDC=0; - Int_t iCH=-1; - Int_t sector; - Int_t plate; - Int_t strip; - Int_t padx; - Int_t padz; - Int_t totCharge; - Int_t timeOfFlight; - Int_t error=0; - Int_t eureka; + // + // DRM global trailer + // + + UInt_t baseWord; UInt_t word; + + baseWord=0; + word = 1; // 0001 -> DRM data are coming from the VME slot number 1 + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // local event counter + AliBitPacking::PackWord(word,baseWord, 4,15); + word = 0; // reserved for future use + AliBitPacking::PackWord(word,baseWord,16,27); + word = 5; // 0101 -> DRM trailer ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; + +} + +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeLTMheader(UInt_t *buf) +{ + // + // LTM header + // + UInt_t baseWord; - Int_t ndigits = TOFdigits->GetEntries(); - AliTOFdigit *digs; - ofstream ftxt; - if(!ndigits) - { - Error("GetDigits", "No found TOF digits\n"); - return; - } + UInt_t word; + + baseWord=0; + word = 2; // 0010 -> LTM data are coming from the VME slot number 2 + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 35; // event words + AliBitPacking::PackWord(word,baseWord, 4,16); + word = 0; // crc error + AliBitPacking::PackWord(word,baseWord,17,17); + word = 0; // fault + AliBitPacking::PackWord(word,baseWord,18,23); + word = 0; + AliBitPacking::PackWord(word,baseWord,24,27); + word = 4; // 0100 -> LTM header ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; - if (fVerbose==2) ftxt.open("TOFdigits.txt",ios::app); - for (Int_t digit=0;digitUncheckedAt(digit); - sector=digs->GetSector(); // Sector Number (0-17) - plate=digs->GetPlate(); // Plate Number (0-4) - strip=digs->GetStrip(); // Strip Number (0-14/18/19) - padx=digs->GetPadx(); // Pad Number in x direction (0-47) - padz=digs->GetPadz(); // Pad Number in z direction (0-1) - eureka=digs->GetTotPad(); // Global Pad Number inside a Sector - totCharge = (Int_t)digs->GetAdc(); - timeOfFlight = (Int_t)digs->GetTdc(); - /* - Int_t istriPlate=0; - switch (plate) - { - case 0: - break; - case 1: - istriPlate = AliTOFGeometry::NStripC(); - break; - case 2: - istriPlate = AliTOFGeometry::NStripC()+AliTOFGeometry::NStripB(); - break; - case 3: - istriPlate = AliTOFGeometry::NStripC()+AliTOFGeometry::NStripB()+AliTOFGeometry::NStripA(); - break; - case 4: - istriPlate = AliTOFGeometry::NStripC()+2*AliTOFGeometry::NStripB()+AliTOFGeometry::NStripA(); - break; - } +} - eureka=2*padx+padz+AliTOFGeometry::NpadXStrip()*(strip+istriPlate); - - if (eureka!=digs->GetTotPad()) printf(" eureka = %d AND digs->GetTotPad() = %d",eureka,digs->GetTotPad()); - */ - if (sector!=iSector || (Int_t)((Float_t)eureka/AliTOF::NPadXTRM()/AliTOF::NTRM())!=iDDL) continue; - - if (fVerbose==2) ftxt <<" Sector: "< 4 X 25 degree (environment temperature) + AliBitPacking::PackWord(word,baseWord, 0, 9); + word = 100; // Local temperature in LTM6 -> 4 X 25 degree (environment temperature) + AliBitPacking::PackWord(word,baseWord,10,19); + word = 100; // Local temperature in LTM7 -> 4 X 25 degree (environment temperature) + AliBitPacking::PackWord(word,baseWord,20,29); + word = 0; + AliBitPacking::PackWord(word,baseWord,30,31); - return; + fIndex++; + buf[fIndex]=baseWord; -}//end GetDigits + // Local temperature in LTM2, LMT3, LTM4 -> 4 X 25 degree (environment temperature) + fIndex++; + buf[fIndex]=baseWord; -//--------------------------------------------------------------------------------------- + // Local temperature in FEAC7, FEAC8, LTM1 -> 4 X 25 degree (environment temperature) + fIndex++; + buf[fIndex]=baseWord; -Int_t AliTOFDDLRawData::RawDataTOF(TBranch* branch){ - //This method creates the Raw data files for TOF detector - const Int_t kSize=5000; //2*AliTOFGeometry::NpadXSector() - //max number of digits per DDL file times 2 - UInt_t buf[kSize]; + // Local temperature in FEAC4, FEAC5, FEAC6 -> 4 X 25 degree (environment temperature) + fIndex++; + buf[fIndex]=baseWord; + + // Local temperature in FEAC1, FEAC2, FEAC3 -> 4 X 25 degree (environment temperature) + fIndex++; + buf[fIndex]=baseWord; + + baseWord=0; + word = 0; // GND-FEAC15 -> Voltage drop between GND and FEAC15 + AliBitPacking::PackWord(word,baseWord, 0, 9); + word = 0; // VTH16 -> Thereshould voltage for FEAC16 + AliBitPacking::PackWord(word,baseWord,10,19); + word = 0; // GND-FEAC16 -> Voltage drop between GND and FEAC16 + AliBitPacking::PackWord(word,baseWord,20,29); + word = 0; + AliBitPacking::PackWord(word,baseWord,30,31); + + fIndex++; + buf[fIndex]=baseWord; + + // VTH14 -> Thereshould voltage for FEAC14 + // GND-FEAC14 -> Voltage drop between GND and FEAC14 + // VTH15 -> Thereshould voltage for FEAC15 + fIndex++; + buf[fIndex]=baseWord; + + // GND-FEAC12 -> Voltage drop between GND and FEAC12 + // VTH13 -> Thereshould voltage for FEAC13 + // GND-FEAC13 -> Voltage drop between GND and FEAC13 + fIndex++; + buf[fIndex]=baseWord; + + // VTH11 -> Thereshould voltage for FEAC11 + // GND-FEAC11 -> Voltage drop between GND and FEAC11 + // VTH12 -> Thereshould voltage for FEAC12 + fIndex++; + buf[fIndex]=baseWord; + + // GND-FEAC9 -> Voltage drop between GND and FEAC9 + // VTH10 -> Thereshould voltage for FEAC10 + // GND-FEAC10 -> Voltage drop between GND and FEAC10 + fIndex++; + buf[fIndex]=baseWord; + + // VTH8 -> Thereshould voltage for FEAC8 + // GND-FEAC8 -> Voltage drop between GND and FEAC8 + // VTH9 -> Thereshould voltage for FEAC9 + fIndex++; + buf[fIndex]=baseWord; + + // GND-FEAC6 -> Voltage drop between GND and FEAC6 + // VTH7 -> Thereshould voltage for FEAC7 + // GND-FEAC7 -> Voltage drop between GND and FEAC7 + fIndex++; + buf[fIndex]=baseWord; + + // VTH5 -> Thereshould voltage for FEAC5 + // GND-FEAC5 -> Voltage drop between GND and FEAC5 + // VTH6 -> Thereshould voltage for FEAC6 + fIndex++; + buf[fIndex]=baseWord; + + // GND-FEAC3 -> Voltage drop between GND and FEAC3 + // VTH4 -> Thereshould voltage for FEAC4 + // GND-FEAC4 -> Voltage drop between GND and FEAC4 + fIndex++; + buf[fIndex]=baseWord; + + // VTH2 -> Thereshould voltage for FEAC2 + // GND-FEAC2 -> Voltage drop between GND and FEAC2 + // VTH3 -> Thereshould voltage for FEAC3 + fIndex++; + buf[fIndex]=baseWord; + + // LV16 -> Low Voltage measured by FEAC16 + // GND-FEAC1 -> Voltage drop between GND and FEAC1 + // VTH1 -> Thereshould voltage for FEAC1 + fIndex++; + buf[fIndex]=baseWord; + + // Low Voltage measured by FEAC13, FEAC14, FEAC15 + fIndex++; + buf[fIndex]=baseWord; + + // Low Voltage measured by FEAC10, FEAC11, FEAC12 + fIndex++; + buf[fIndex]=baseWord; + + // Low Voltage measured by FEAC7, FEAC8, FEAC9 + fIndex++; + buf[fIndex]=baseWord; + + // Low Voltage measured by FEAC4, FEAC5, FEAC6 + fIndex++; + buf[fIndex]=baseWord; + + // Low Voltage measured by FEAC1, FEAC2, FEAC3 + fIndex++; + buf[fIndex]=baseWord; + + + baseWord=0; + word = 0; // PDL45 -> Delay Line setting for PDL45 + AliBitPacking::PackWord(word,baseWord, 0, 7); + word = 0; // PDL46 -> Delay Line setting for PDL46 + AliBitPacking::PackWord(word,baseWord, 8,15); + word = 0; // PDL47 -> Delay Line setting for PDL47 + AliBitPacking::PackWord(word,baseWord,16,23); + word = 0; // PDL48 -> Delay Line setting for PDL48 + AliBitPacking::PackWord(word,baseWord,24,31); + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL41, PDL42, PDL43, PDL44 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL37, PDL38, PDL39, PDL40 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL33, PDL34, PDL35, PDL36 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL29, PDL30, PDL31, PDL32 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL25, PDL26, PDL27, PDL28 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL21, PDL22, PDL23, PDL24 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL17, PDL18, PDL19, PDL20 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL13, PDL14, PDL15, PDL16 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL9, PDL10, PDL11, PDL12 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL5, PDL6, PDL7, PDL8 + fIndex++; + buf[fIndex]=baseWord; + + // Delay Line setting for PDL1, PDL2, PDL3, PDL4 + fIndex++; + buf[fIndex]=baseWord; + +} + +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeLTMtrailer(UInt_t *buf) +{ + // + // LTM trailer + // + UInt_t baseWord; UInt_t word; + + baseWord=0; + word = 2; // 0010 -> LTM data are coming from the VME slot number 2 + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // event crc + AliBitPacking::PackWord(word,baseWord, 4,15); + word = 0; // event number + AliBitPacking::PackWord(word,baseWord,16,27); + word = 5; // 0101 -> LTM trailer ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; - fIndex=-1; +} - TClonesArray*& digits = * (TClonesArray**) branch->GetAddress(); - char fileName[15]; - ofstream outfile; // logical name of the output file - AliRawDataHeader header; +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeTRMheader(Int_t nTRM, UInt_t *buf) +{ + // + // TRM header for the TRM number nTRM [ 3;12] + // - //loop over TOF DDL files - for(Int_t i=0;i<72;i++){ - sprintf(fileName,"TOF_%d.ddl",i+kDDLOffset); //The name of the output file -#ifndef __DECCXX - outfile.open(fileName,ios::binary); -#else - outfile.open(fileName); -#endif - //write Dummy DATA HEADER - UInt_t dataHeaderPosition=outfile.tellp(); - outfile.write((char*)(&header),sizeof(header)); - - baseWord=0; - word=i; - AliBitPacking::PackWord(word,baseWord,0, 31); // Number of DDL file + if (nTRM<3 || nTRM>12) { + AliWarning(Form(" TRM number is out of the right range [3;12] (nTRM = %3i",nTRM)); + return; + } - fIndex++; - buf[fIndex]=baseWord; + UInt_t baseWord; + UInt_t word; - branch->GetEvent(); + baseWord = 0; + word = nTRM; // TRM data coming from the VME slot number nTRM + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // event words + AliBitPacking::PackWord(word,baseWord, 4,16); - //For each DDL file, buf contains the array of data words in Binary format - //fIndex gives the number of 32 bits words in the buffer for each DDL file - GetDigits(digits,i,buf); - outfile.write((char *)buf,((fIndex+1)*sizeof(UInt_t))); + if (fPackedAcquisition) + word = 0; // ACQuisition mode: [0;3] see document + else + word = 3; // ACQuisition mode: [0;3] see document + AliBitPacking::PackWord(word,baseWord,17,18); + word = 0; // description of a SEU inside LUT tables for INL compensation; + // the data are unaffected + AliBitPacking::PackWord(word,baseWord,19,19); + word = 0; // Must Be Zero (MBZ) + AliBitPacking::PackWord(word,baseWord,20,27); + word = 4; // 0100 -> TRM header ID + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; - for(Int_t ii=0;ii<(fIndex+1);ii++) buf[ii]=0; - fIndex=-1; - - //Write REAL DATA HEADER - UInt_t currentFilePosition=outfile.tellp(); - outfile.seekp(dataHeaderPosition); - header.fSize=currentFilePosition-dataHeaderPosition; - header.SetAttribute(0); // valid data - outfile.write((char*)(&header),sizeof(header)); - outfile.close(); +} - }//end for +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeTRMtrailer(UInt_t *buf) +{ + // + // TRM trailer + // + + UInt_t baseWord; + UInt_t word; + + baseWord=0; + word = 15; // 1111 -> TRM trailer ID 1 + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // event CRC + AliBitPacking::PackWord(word,baseWord, 4,15); + word = 0; // local event counter == DRM local event counter + AliBitPacking::PackWord(word,baseWord,16,27); + word = 5; // 0101 -> TRM trailer ID 2 + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; + +} + +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeTRMchainHeader(Int_t nTRM, Int_t iChain, + UInt_t *buf) +{ + // + // TRM chain header + // - return 0; + UInt_t baseWord; + UInt_t word; + + if (nTRM<3 || nTRM>12) { + AliWarning(Form(" TRM number is out of the right range [3;12] (nTRM = %3i", nTRM)); + return; + } + + if (iChain<0 || iChain>1) { + AliWarning(Form(" Chain number is out of the right range [0;1] (iChain = %3i", iChain)); + return; + } + + baseWord=0; + word = nTRM; // TRM data coming from the VME slot ID nTRM + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // bunch ID + AliBitPacking::PackWord(word,baseWord, 4,15); + word = 100; // PB24 temperature -> 4 X 25 degree (environment temperature) + AliBitPacking::PackWord(word,baseWord,16,23); + word = (Int_t)(5 * gRandom->Rndm()); // PB24 ID [0;4] + AliBitPacking::PackWord(word,baseWord,24,26); + word = 0; // TS + AliBitPacking::PackWord(word,baseWord,27,27); + switch (iChain) { + case 0: + word = 0; // 0000 -> TRM chain 0 ID + break; + case 1: + word = 2; // 0010 -> TRM chain 1 ID + break; + } + AliBitPacking::PackWord(word,baseWord,28,31); + fIndex++; + buf[fIndex]=baseWord; + } -//----------------------------------------------------------------------------------------- -/* -void AliTOFDDLRawData::WriteChipHeader(Int_t ChipAddr,Int_t EventCnt,UInt_t &BaseWord) +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeTRMfiller(UInt_t *buf, UInt_t nWordsPerTRM) { - //This method writes a chip header - BaseWord=0; - PackWord(BaseWord,ChipAddr,0,3); - PackWord(BaseWord,EventCnt,4,10); - PackWord(BaseWord,0x7,11,13); - PackWord(BaseWord,0x1,14,15); - return; -}//end WriteChipHeader -*/ -//---------------------------------------------------------------------------------------- -/* -void AliTOFDDLRawData::ReadChipHeader(Int_t &ChipAddr,Int_t &EventCnt,UInt_t BaseWord) + // + // TRM filler + // + + Int_t jj = -1; + + fIndex++; + for (jj=fIndex; jj>fIndex-(Int_t)nWordsPerTRM; jj--) { + buf[jj] = buf[jj-1]; + } + + buf[fIndex-nWordsPerTRM] = MakeFiller(); + +} + +//---------------------------------------------------------------------------- +UInt_t AliTOFDDLRawData::MakeFiller() { - //This method reads a chip header - UInt_t temp=0; - UnpackWord(BaseWord,0,3,temp); - ChipAddr=(Int_t)temp; - UnpackWord(BaseWord,4,10,temp); - EventCnt=(Int_t)temp; - if(fVerbose) - Info("ReadChipHeader", "Chip:&d Half Stave module:%d",ChipAddr,EventCnt); - return; -}//end ReadChipHeader -*/ -//---------------------------------------------------------------------------------------- -/* -void AliTOFDDLRawData::WriteChipTrailer(UInt_t *buf,Int_t ChipHitCount,UInt_t &BaseWord) + // + // Filler word definition: to make even the number of words per TRM/LTM + // + + UInt_t baseWord; + UInt_t word; + + baseWord=0; + word = 0; // 0000 -> filler ID 1 + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // MBZ + AliBitPacking::PackWord(word,baseWord, 4,27); + word = 7; // 0111 -> filler ID 2 + AliBitPacking::PackWord(word,baseWord, 28,31); + + return baseWord; + +} + +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeTRMchainTrailer(Int_t iChain, UInt_t *buf) { - //This method writes a chip trailer - //pixel fill word - if((ChipHitCount%2)!=0){ - PackWord(BaseWord,0xFEDC,0,15); + // + // TRM chain trailer + // + + if (iChain<0 || iChain>1) { + AliWarning(Form(" Chain number is out of the right range [0;1] (iChain = %3i", iChain)); + return; } - PackWord(BaseWord,ChipHitCount,16,28); - PackWord(BaseWord,0x0,30,31); + + UInt_t baseWord; + UInt_t word; + + baseWord=0; + word = 0; // status + AliBitPacking::PackWord(word,baseWord, 0, 3); + word = 0; // MBZ + AliBitPacking::PackWord(word,baseWord, 4,15); + word = 0; // event counter + AliBitPacking::PackWord(word,baseWord,16,27); + switch (iChain) { + case 0: + word = 1; // 0001 -> TRM chain 0 trailer ID + break; + case 1: + word = 3; // 0011 -> TRM chain 1 trailer ID + break; + } + AliBitPacking::PackWord(word,baseWord,28,31); fIndex++; - buf[fIndex]=BaseWord; - BaseWord=0; - return; -}//end WriteChipTrailer -*/ -//------------------------------------------------------------------------------------------ -/* -void AliTOFDDLRawData::ReadChipTrailer(Int_t &ChipHitCount,UInt_t BaseWord) + buf[fIndex]=baseWord; + +} + +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::MakeTDCdigits(Int_t nDDL, Int_t nTRM, Int_t iChain, + UInt_t *buf, UInt_t &nWordsPerTRM) +{ + // + // TRM TDC digit + // + + const Double_t kOneMoreFilledCell = 1./(AliTOFGeometry::NPadXSector()*AliTOFGeometry::NSectors()); + Double_t percentFilledCells = Double_t(fTOFdigitMap->GetFilledCellNumber())/(AliTOFGeometry::NPadXSector()*AliTOFGeometry::NSectors()); + + if (nDDL<0 || nDDL>71) { + AliWarning(Form(" DDL number is out of the right range [0;71] (nDDL = %3i", nDDL)); + return; + } + + if (nTRM<3 || nTRM>12) { + AliWarning(Form(" TRM number is out of the right range [3;12] (nTRM = %3i", nTRM)); + return; + } + + if (iChain<0 || iChain>1) { + AliWarning(Form(" Chain number is out of the right range [0;1] (iChain = %3i", iChain)); + return; + } + + Int_t psArray[1000]; + UInt_t localBuffer[1000]; + Int_t localIndex = -1; + + Int_t iDDL = nDDL%AliTOFGeometry::NDDL(); + + Int_t volume[5] = {-1, -1, -1, -1, -1}; + Int_t indexDigit[3] = {-1, -1, -1}; + + Int_t totCharge = -1; + Int_t timeOfFlight = -1; + + Int_t trailingSpurious = -1; + Int_t leadingSpurious = -1; + + AliTOFdigit *digs; + + UInt_t baseWord=0; + UInt_t word=0; + + Int_t jj = -1; + Int_t nTDC = -1; + Int_t iCH = -1; + + //Int_t numberOfMeasuresPerChannel = 0; + //Int_t maxMeasuresPerChannelInTDC = 0; + + Bool_t outOut = HeadOrTail(); + + ofstream ftxt; + + if (fVerbose==2) ftxt.open("TOFdigits.txt",ios::app); + + for (jj=0; jj<5; jj++) volume[jj] = -1; + + // loop on TDC number + for (nTDC=AliTOFGeometry::NTdc()-1; nTDC>=0; nTDC--) { + + // the DRM odd (i.e. left) slot number 3 doesn't contain TDC digit data + // for TDC numbers 3-14 + if (iDDL%2==1 && nTRM==3 && (Int_t)(nTDC/3.)!=0) continue; + + // loop on TDC channel number + for (iCH=AliTOFGeometry::NCh()-1; iCH>=0; iCH--) { + + //numberOfMeasuresPerChannel = 0; + + fTOFrawStream->EquipmentId2VolumeId(nDDL, nTRM, iChain, nTDC, iCH, volume); + + if (volume[0]==-1 || volume[1]==-1 || volume[2]==-1 || + volume[3]==-1 || volume[4]==-1) continue; + + for (jj=0; jj<3; jj++) indexDigit[jj] = -1; + + fTOFdigitMap->GetDigitIndex(volume, indexDigit); + + if (indexDigit[0]<0) { + + trailingSpurious = Int_t(2097152*gRandom->Rndm()); + leadingSpurious = Int_t(2097152*gRandom->Rndm()); + + if ( fFakeOrphaneProduction && + ( ( fPackedAcquisition && percentFilledCells<0.12 && gRandom->Rndm()<(0.12-percentFilledCells) ) || + (!fPackedAcquisition && percentFilledCells<0.24 && gRandom->Rndm()<(0.24-percentFilledCells) ) ) ) { + + percentFilledCells+=kOneMoreFilledCell; + + Int_t dummyPS = 0; + + if (outOut) { + word = trailingSpurious; // trailing edge measurement + dummyPS = 2; + } + else { + word = leadingSpurious; // leading edge measurement + dummyPS = 1; + } + + if (fVerbose==2) { + if (nDDL<10) ftxt << " " << nDDL; + else ftxt << " " << nDDL; + if (nTRM<10) ftxt << " " << nTRM; + else ftxt << " " << nTRM; + ftxt << " " << iChain; + if (nTDC<10) ftxt << " " << nTDC; + else ftxt << " " << nTDC; + ftxt << " " << iCH; + if (volume[0]<10) ftxt << " -> " << volume[0]; + else ftxt << " -> " << volume[0]; + ftxt << " " << volume[1]; + if (volume[2]<10) ftxt << " " << volume[2]; + else ftxt << " " << volume[2]; + ftxt << " " << volume[4]; + if (volume[3]<10) ftxt << " " << volume[3]; + else ftxt << " " << volume[3]; + ftxt << " " << -1; + if (word<10) ftxt << " " << word; + else if (word>=10 && word<100) ftxt << " " << word; + else if (word>=100 && word<1000) ftxt << " " << word; + else if (word>=1000 && word<10000) ftxt << " " << word; + else if (word>=10000 && word<100000) ftxt << " " << word; + else if (word>=100000 && word<1000000) ftxt << " " << word; + else ftxt << " " << word; + ftxt << " " << dummyPS << endl; + } + + AliBitPacking::PackWord(word,baseWord, 0,20); + word = iCH; // TDC channel ID [0;7] + AliBitPacking::PackWord(word,baseWord,21,23); + word = nTDC; // TDC ID [0;14] + AliBitPacking::PackWord(word,baseWord,24,27); + word = 0; // error flag + AliBitPacking::PackWord(word,baseWord,28,28); + word = dummyPS; // Packing Status [0;3] + AliBitPacking::PackWord(word,baseWord,29,30); + word = 1; // TRM TDC digit ID + AliBitPacking::PackWord(word,baseWord,31,31); + + localIndex++; + localBuffer[localIndex]=baseWord; + psArray[localIndex]=dummyPS; + + nWordsPerTRM++; + baseWord=0; + + } // if ( fFakeOrphaneProduction && ( ( fPackedAcquisition && percentFilledCells<0.12 && gRandom->Rndm()<(0.12-percentFilledCells) ) or ... ) ) + } // if (indexDigit[0]<0) + + for (jj=0; jj<3;jj++) { + + if (indexDigit[jj]<0) continue; + + digs = (AliTOFdigit*)fTOFdigitArray->UncheckedAt(indexDigit[jj]); + + if (digs->GetSector()!=volume[0] || + digs->GetPlate() !=volume[1] || + digs->GetStrip() !=volume[2] || + digs->GetPadx() !=volume[3] || + digs->GetPadz() !=volume[4]) AliWarning(" --- ERROR --- "); + + timeOfFlight = (Int_t)(digs->GetTdc()); + + if (timeOfFlight>=fMatchingWindow) continue; + + //numberOfMeasuresPerChannel++; + + // totCharge = (Int_t)digs->GetAdc(); //Use realistic ToT, for Standard production with no miscalibration/Slewing it == fAdC in digit (see AliTOFDigitizer) + totCharge = (Int_t)(digs->GetToT()); + // temporary control + if (totCharge<0) totCharge = 0;//TMath::Abs(totCharge); + + if (fPackedAcquisition) { + + if (fVerbose==2) { + if (nDDL<10) ftxt << " " << nDDL; + else ftxt << " " << nDDL; + if (nTRM<10) ftxt << " " << nTRM; + else ftxt << " " << nTRM; + ftxt << " " << iChain; + if (nTDC<10) ftxt << " " << nTDC; + else ftxt << " " << nTDC; + ftxt << " " << iCH; + if (volume[0]<10) ftxt << " -> " << volume[0]; + else ftxt << " -> " << volume[0]; + ftxt << " " << volume[1]; + if (volume[2]<10) ftxt << " " << volume[2]; + else ftxt << " " << volume[2]; + ftxt << " " << volume[4]; + if (volume[3]<10) ftxt << " " << volume[3]; + else ftxt << " " << volume[3]; + if (totCharge<10) ftxt << " " << totCharge; + else if (totCharge>=10 && totCharge<100) ftxt << " " << totCharge; + else ftxt << " " << totCharge; + if (timeOfFlight<10) ftxt << " " << timeOfFlight << endl; + else if (timeOfFlight>=10 && timeOfFlight<100) ftxt << " " << timeOfFlight << endl; + else if (timeOfFlight>=100 && timeOfFlight<1000) ftxt << " " << timeOfFlight << endl; + else ftxt << " " << timeOfFlight << endl; + } + + word = timeOfFlight%8192; // time-of-fligth measurement + AliBitPacking::PackWord(word,baseWord, 0,12); + + if (totCharge>=256) totCharge = 255; + word = totCharge; // time-over-threshould measurement + AliBitPacking::PackWord(word,baseWord,13,20); + + word = iCH; // TDC channel ID [0;7] + AliBitPacking::PackWord(word,baseWord,21,23); + word = nTDC; // TDC ID [0;14] + AliBitPacking::PackWord(word,baseWord,24,27); + word = 0; // error flag + AliBitPacking::PackWord(word,baseWord,28,28); + word = 0; // Packing Status [0;3] + AliBitPacking::PackWord(word,baseWord,29,30); + word = 1; // TRM TDC digit ID + AliBitPacking::PackWord(word,baseWord,31,31); + + localIndex++; + localBuffer[localIndex]=baseWord; + + nWordsPerTRM++; + baseWord=0; + + if ( fFakeOrphaneProduction && + percentFilledCells<0.12 && gRandom->Rndm()<(0.12-percentFilledCells) ) { + + percentFilledCells+=kOneMoreFilledCell; + + trailingSpurious = Int_t(2097152*gRandom->Rndm()); + leadingSpurious = Int_t(2097152*gRandom->Rndm()); + + Int_t dummyPS = 0; + + if (outOut) { + word = trailingSpurious; // trailing edge measurement + dummyPS = 2; + } + else { + word = leadingSpurious; // leading edge measurement + dummyPS = 1; + } + + if (fVerbose==2) { + if (nDDL<10) ftxt << " " << nDDL; + else ftxt << " " << nDDL; + if (nTRM<10) ftxt << " " << nTRM; + else ftxt << " " << nTRM; + ftxt << " " << iChain; + if (nTDC<10) ftxt << " " << nTDC; + else ftxt << " " << nTDC; + ftxt << " " << iCH; + if (volume[0]<10) ftxt << " -> " << volume[0]; + else ftxt << " -> " << volume[0]; + ftxt << " " << volume[1]; + if (volume[2]<10) ftxt << " " << volume[2]; + else ftxt << " " << volume[2]; + ftxt << " " << volume[4]; + if (volume[3]<10) ftxt << " " << volume[3]; + else ftxt << " " << volume[3]; + ftxt << " " << -1; + if (word<10) ftxt << " " << word; + else if (word>=10 && word<100) ftxt << " " << word; + else if (word>=100 && word<1000) ftxt << " " << word; + else if (word>=1000 && word<10000) ftxt << " " << word; + else if (word>=10000 && word<100000) ftxt << " " << word; + else if (word>=100000 && word<1000000) ftxt << " " << word; + else ftxt << " " << word; + ftxt << " " << dummyPS << endl; + } + + AliBitPacking::PackWord(word,baseWord, 0,20); + word = iCH; // TDC channel ID [0;7] + AliBitPacking::PackWord(word,baseWord,21,23); + word = nTDC; // TDC ID [0;14] + AliBitPacking::PackWord(word,baseWord,24,27); + word = 0; // error flag + AliBitPacking::PackWord(word,baseWord,28,28); + word = dummyPS; // Packing Status [0;3] + AliBitPacking::PackWord(word,baseWord,29,30); + word = 1; // TRM TDC digit ID + AliBitPacking::PackWord(word,baseWord,31,31); + + localIndex++; + localBuffer[localIndex]=baseWord; + psArray[localIndex]=dummyPS; + + nWordsPerTRM++; + baseWord=0; + + } // if ( fFakeOrphaneProduction && percentFilledCells<0.12 && gRandom->Rndm()<(0.12-percentFilledCells) ) + + + } // if (fPackedAcquisition) + else { // if (!fPackedAcquisition) + + if ( fFakeOrphaneProduction && + percentFilledCells<0.24 && gRandom->Rndm()<(0.24-percentFilledCells) && outOut ) { + + percentFilledCells+=kOneMoreFilledCell; + + trailingSpurious = Int_t(2097152*gRandom->Rndm()); + word = trailingSpurious; + Int_t dummyPS = 2; + + if (fVerbose==2) { + if (nDDL<10) ftxt << " " << nDDL; + else ftxt << " " << nDDL; + if (nTRM<10) ftxt << " " << nTRM; + else ftxt << " " << nTRM; + ftxt << " " << iChain; + if (nTDC<10) ftxt << " " << nTDC; + else ftxt << " " << nTDC; + ftxt << " " << iCH; + if (volume[0]<10) ftxt << " -> " << volume[0]; + else ftxt << " -> " << volume[0]; + ftxt << " " << volume[1]; + if (volume[2]<10) ftxt << " " << volume[2]; + else ftxt << " " << volume[2]; + ftxt << " " << volume[4]; + if (volume[3]<10) ftxt << " " << volume[3]; + else ftxt << " " << volume[3]; + ftxt << " " << -1; + if (word<10) ftxt << " " << word; + else if (word>=10 && word<100) ftxt << " " << word; + else if (word>=100 && word<1000) ftxt << " " << word; + else if (word>=1000 && word<10000) ftxt << " " << word; + else if (word>=10000 && word<100000) ftxt << " " << word; + else if (word>=100000 && word<1000000) ftxt << " " << word; + else ftxt << " " << word; + ftxt << " " << dummyPS << endl; + } + + AliBitPacking::PackWord(word,baseWord, 0,20); + word = iCH; // TDC channel ID [0;7] + AliBitPacking::PackWord(word,baseWord,21,23); + word = nTDC; // TDC ID [0;14] + AliBitPacking::PackWord(word,baseWord,24,27); + word = 0; // error flag + AliBitPacking::PackWord(word,baseWord,28,28); + word = dummyPS; // Packing Status [0;3] + AliBitPacking::PackWord(word,baseWord,29,30); + word = 1; // TRM TDC digit ID + AliBitPacking::PackWord(word,baseWord,31,31); + + localIndex++; + localBuffer[localIndex]=baseWord; + psArray[localIndex]=dummyPS; + + nWordsPerTRM++; + baseWord=0; + + } // if ( fFakeOrphaneProduction && percentFilledCells<0.24 && gRandom->Rndm()<(0.24-percentFilledCells) && outOut ) + + + word = (timeOfFlight + Int_t(totCharge*AliTOFGeometry::ToTBinWidth()/AliTOFGeometry::TdcBinWidth()))%2097152; // trailing edge measurement + + if (fVerbose==2) { + if (nDDL<10) ftxt << " " << nDDL; + else ftxt << " " << nDDL; + if (nTRM<10) ftxt << " " << nTRM; + else ftxt << " " << nTRM; + ftxt << " " << iChain; + if (nTDC<10) ftxt << " " << nTDC; + else ftxt << " " << nTDC; + ftxt << " " << iCH; + if (volume[0]<10) ftxt << " -> " << volume[0]; + else ftxt << " -> " << volume[0]; + ftxt << " " << volume[1]; + if (volume[2]<10) ftxt << " " << volume[2]; + else ftxt << " " << volume[2]; + ftxt << " " << volume[4]; + if (volume[3]<10) ftxt << " " << volume[3]; + else ftxt << " " << volume[3]; + ftxt << " " << -1; + if (word<10) ftxt << " " << word; + else if (word>=10 && word<100) ftxt << " " << word; + else if (word>=100 && word<1000) ftxt << " " << word; + else if (word>=1000 && word<10000) ftxt << " " << word; + else if (word>=10000 && word<100000) ftxt << " " << word; + else if (word>=100000 && word<1000000) ftxt << " " << word; + else ftxt << " " << word; + ftxt << " " << 2 << endl; + } + + AliBitPacking::PackWord(word,baseWord, 0,20); + + word = iCH; // TDC channel ID [0;7] + AliBitPacking::PackWord(word,baseWord,21,23); + word = nTDC; // TDC ID [0;14] + AliBitPacking::PackWord(word,baseWord,24,27); + word = 0; // error flag + AliBitPacking::PackWord(word,baseWord,28,28); + word = 2; // Packing Status [0;3] + AliBitPacking::PackWord(word,baseWord,29,30); + word = 1; // TRM TDC digit ID + AliBitPacking::PackWord(word,baseWord,31,31); + + localIndex++; + localBuffer[localIndex]=baseWord; + psArray[localIndex]=2; + + nWordsPerTRM++; + baseWord=0; + + word = timeOfFlight%2097152; // leading edge measurement + + if (fVerbose==2) { + if (nDDL<10) ftxt << " " << nDDL; + else ftxt << " " << nDDL; + if (nTRM<10) ftxt << " " << nTRM; + else ftxt << " " << nTRM; + ftxt << " " << iChain; + if (nTDC<10) ftxt << " " << nTDC; + else ftxt << " " << nTDC; + ftxt << " " << iCH; + if (volume[0]<10) ftxt << " -> " << volume[0]; + else ftxt << " -> " << volume[0]; + ftxt << " " << volume[1]; + if (volume[2]<10) ftxt << " " << volume[2]; + else ftxt << " " << volume[2]; + ftxt << " " << volume[4]; + if (volume[3]<10) ftxt << " " << volume[3]; + else ftxt << " " << volume[3]; + ftxt << " " << -1; + if (word<10) ftxt << " " << word; + else if (word>=10 && word<100) ftxt << " " << word; + else if (word>=100 && word<1000) ftxt << " " << word; + else if (word>=1000 && word<10000) ftxt << " " << word; + else if (word>=10000 && word<100000) ftxt << " " << word; + else if (word>=100000 && word<1000000) ftxt << " " << word; + else ftxt << " " << word; + ftxt << " " << 1 << endl; + } + + AliBitPacking::PackWord(word,baseWord, 0,20); + + word = iCH; // TDC channel ID [0;7] + AliBitPacking::PackWord(word,baseWord,21,23); + word = nTDC; // TDC ID [0;14] + AliBitPacking::PackWord(word,baseWord,24,27); + word = 0; // error flag + AliBitPacking::PackWord(word,baseWord,28,28); + word = 1; // Packing Status [0;3] + AliBitPacking::PackWord(word,baseWord,29,30); + word = 1; // TRM TDC digit ID + AliBitPacking::PackWord(word,baseWord,31,31); + + localIndex++; + localBuffer[localIndex]=baseWord; + psArray[localIndex]=1; + + nWordsPerTRM++; + baseWord=0; + + + if ( fFakeOrphaneProduction && + percentFilledCells<0.24 && gRandom->Rndm()<(0.24-percentFilledCells) && !outOut ) { + + percentFilledCells+=kOneMoreFilledCell; + + leadingSpurious = Int_t(2097152*gRandom->Rndm()); + word = leadingSpurious; + Int_t dummyPS = 1; + + if (fVerbose==2) { + if (nDDL<10) ftxt << " " << nDDL; + else ftxt << " " << nDDL; + if (nTRM<10) ftxt << " " << nTRM; + else ftxt << " " << nTRM; + ftxt << " " << iChain; + if (nTDC<10) ftxt << " " << nTDC; + else ftxt << " " << nTDC; + ftxt << " " << iCH; + if (volume[0]<10) ftxt << " -> " << volume[0]; + else ftxt << " -> " << volume[0]; + ftxt << " " << volume[1]; + if (volume[2]<10) ftxt << " " << volume[2]; + else ftxt << " " << volume[2]; + ftxt << " " << volume[4]; + if (volume[3]<10) ftxt << " " << volume[3]; + else ftxt << " " << volume[3]; + ftxt << " " << -1; + if (word<10) ftxt << " " << word; + else if (word>=10 && word<100) ftxt << " " << word; + else if (word>=100 && word<1000) ftxt << " " << word; + else if (word>=1000 && word<10000) ftxt << " " << word; + else if (word>=10000 && word<100000) ftxt << " " << word; + else if (word>=100000 && word<1000000) ftxt << " " << word; + else ftxt << " " << word; + ftxt << " " << dummyPS << endl; + } + + AliBitPacking::PackWord(word,baseWord, 0,20); + word = iCH; // TDC channel ID [0;7] + AliBitPacking::PackWord(word,baseWord,21,23); + word = nTDC; // TDC ID [0;14] + AliBitPacking::PackWord(word,baseWord,24,27); + word = 0; // error flag + AliBitPacking::PackWord(word,baseWord,28,28); + word = dummyPS; // Packing Status [0;3] + AliBitPacking::PackWord(word,baseWord,29,30); + word = 1; // TRM TDC digit ID + AliBitPacking::PackWord(word,baseWord,31,31); + + localIndex++; + localBuffer[localIndex]=baseWord; + psArray[localIndex]=dummyPS; + + nWordsPerTRM++; + baseWord=0; + + } // if ( fFakeOrphaneProduction && percentFilledCells<0.24 && gRandom->Rndm()<(0.24-percentFilledCells) && !outOut ) + + + } // if (!fPackedAcquisition) + + } //end loop on digits in the same volume + + //if (numberOfMeasuresPerChannel>maxMeasuresPerChannelInTDC) + //maxMeasuresPerChannelInTDC = numberOfMeasuresPerChannel; + + } // end loop on TDC channel number + + //AliInfo(Form(" TDC number %2i: numberOfMeasuresPerChannel = %2i --- maxMeasuresPerChannelInTDC = %2i ", nTDC, numberOfMeasuresPerChannel, maxMeasuresPerChannelInTDC)); + + if (localIndex==-1) continue; + + if (fPackedAcquisition) { + + for (Int_t jj=0; jj<=localIndex; jj++) { + fIndex++; + buf[fIndex] = localBuffer[jj]; + localBuffer[jj] = 0; + psArray[jj] = -1; + } + + } + else { + /* + if (maxMeasuresPerChannelInTDC = 1) { + + for (Int_t jj=0; jj<=localIndex; jj++) { + if (psArray[jj]==2) { + fIndex++; + buf[fIndex] = localBuffer[jj]; + localBuffer[jj] = 0; + psArray[jj] = -1; + } + } + for (Int_t jj=0; jj<=localIndex; jj++) { + if (psArray[jj]==1) { + fIndex++; + buf[fIndex] = localBuffer[jj]; + localBuffer[jj] = 0; + psArray[jj] = -1; + } + } + + } // if (maxMeasuresPerChannelInTDC = 1) + else if (maxMeasuresPerChannelInTDC>1) { + + AliInfo(Form(" In the TOF DDL %2i, TRM %2i, TDC %2i, chain %1i, the maximum number of t.o.f. good measurements per channel is %2i", + nDDL, nTRM, iChain, nTDC, iCH, maxMeasuresPerChannelInTDC)); + */ + for (Int_t jj=0; jj<=localIndex; jj++) { + fIndex++; + buf[fIndex] = localBuffer[jj]; + localBuffer[jj] = 0; + psArray[jj] = -1; + } + + //} // else if (maxMeasuresPerChannelInTDC>1) + + } // else (!fPackedAcquisition) + + localIndex = -1; + + //maxMeasuresPerChannelInTDC = 0; + + } // end loop on TDC number + + + if (fVerbose==2) ftxt.close(); + +} + +//---------------------------------------------------------------------------- +void AliTOFDDLRawData::ReverseArray(UInt_t a[], Int_t n) const { - //This method reads a chip trailer - UInt_t temp=0; - UnpackWord(BaseWord,16,28,temp); - ChipHitCount=(Int_t)temp; + // + // Reverses the n elements of array a + // + + Int_t ii, temp; + + for (ii=0; iiRndm(); + + if (dummy<0.5) return kFALSE; + else return kTRUE; + +}