/************************************************************************** * 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. * **************************************************************************/ /* $Id$ */ /** @file AliFMDRawReader.cxx @author Christian Holm Christensen @date Mon Mar 27 12:45:23 2006 @brief Class to read raw data @ingroup FMD_rec */ //____________________________________________________________________ // // Class to read ADC values from a AliRawReader object. // // This class uses the AliFMDRawStreamer class to read the ALTRO // formatted data. // // +-------+ // | TTask | // +-------+ // ^ // | // +-----------------+ <> +--------------+ // | AliFMDRawReader |<>----------------| AliRawReader | // +-----------------+ +--------------+ // | ^ // | <> | // V | // +-----------------+ <> | // | AliFMDRawStream |------------------------+ // +-----------------+ // | // V // +----------------+ // | AliAltroStream | // +----------------+ // // #include // ALILOG_H #include "AliFMDDebug.h" // Better debug macros #include "AliFMDParameters.h" // ALIFMDPARAMETERS_H #include "AliFMDDigit.h" // ALIFMDDIGIT_H #include "AliFMDSDigit.h" // ALIFMDSDIGIT_H // #include "AliFMDRawStream.h" // ALIFMDRAWSTREAM_H #include "AliRawReader.h" // ALIRAWREADER_H #include "AliFMDRawReader.h" // ALIFMDRAWREADER_H #include "AliFMDDebug.h" #include "AliFMDCalibSampleRate.h" #include "AliFMDCalibStripRange.h" #include "AliFMDAltroMapping.h" // #include "AliFMDAltroIO.h" // ALIFMDALTROIO_H #include "AliAltroRawStreamV3.h" #include // ROOT_TArrayS #include // ROOT_TTree #include // ROOT_TClonesArray #include #include #include // #include //____________________________________________________________________ ClassImp(AliFMDRawReader) #if 0 ; // This is here to keep Emacs for indenting the next line #endif //____________________________________________________________________ AliFMDRawReader::AliFMDRawReader(AliRawReader* reader, TTree* tree) : TTask("FMDRawReader", "Reader of Raw ADC values from the FMD"), fTree(tree), fReader(reader), // fSampleRate(1), fData(0), fNbytes(0), fMinStrip(0), fMaxStrip(127), fPreSamp(14+5), fSeen(0) { // Default CTOR for (Int_t i = 0; i < 3; i++) { fSampleRate[i] = 0; fZeroSuppress[i] = kFALSE; fNoiseFactor[i] = 1; } } //____________________________________________________________________ void AliFMDRawReader::Exec(Option_t*) { // Read the data TClonesArray* array = new TClonesArray("AliFMDDigit"); if (!fTree) { AliError("No tree"); return; } fTree->Branch("FMD", &array); ReadAdcs(array); Int_t nWrite = fTree->Fill(); AliFMDDebug(1, ("Got a grand total of %d digits, wrote %d bytes to tree", array->GetEntriesFast(), nWrite)); } //____________________________________________________________________ Int_t AliFMDRawReader::NewDDL(AliAltroRawStreamV3& input, UShort_t& det) { // Process a new DDL. Sets the internal data members fZeroSuppress, // fSampleRate, and fNoiseFactor based on information in the RCU trailer. // // Parameters: // input Input stream // det On return, the detector number // // Return value: // negative value in case of problems, the DDL number otherwise // Get the DDL number UInt_t ddl = input.GetDDLNumber(); AliFMDDebug(2, ("DDL number %d", ddl)); // Get zero suppression flag fZeroSuppress[ddl] = input.GetZeroSupp(); AliFMDDebug(3, ("RCU @ DDL %d zero suppression: %s", ddl, (fZeroSuppress[ddl] ? "yes" : "no"))); // WARNING: We store the noise factor in the 2nd baseline // filters excluded post samples, since we'll never use that // mode. fNoiseFactor[ddl] = input.GetNPostsamples(); AliFMDDebug(3, ("RCU @ DDL %d noise factor: %d", ddl,fNoiseFactor[ddl])); // WARNING: We store the sample rate in the number of pre-trigger // samples, since we'll never use that mode. fSampleRate[ddl] = input.GetNPretriggerSamples(); AliFMDDebug(3, ("RCU @ DDL %d sample rate: %d", ddl,fSampleRate[ddl])); // Get Errors seen Int_t nChAddrMismatch = input.GetNChAddrMismatch(); Int_t nChLenMismatch = input.GetNChLengthMismatch(); if (nChAddrMismatch != 0) AliWarning(Form("Got %d channels with address mis-matches for 0x%03x", nChAddrMismatch, ddl)); if (nChLenMismatch != 0) AliWarning(Form("Got %d channels with length mis-matches for 0x%03x", nChLenMismatch, ddl)); // Map DDL number to the detector number AliFMDParameters* pars = AliFMDParameters::Instance(); AliFMDAltroMapping* map = pars->GetAltroMap(); if (map->DDL2Detector(ddl) < 0) return -1; det = map->DDL2Detector(ddl); if (AliLog::GetDebugLevel("FMD", 0) > 5) input.PrintRCUTrailer(); return ddl; } //____________________________________________________________________ Int_t AliFMDRawReader::NewChannel(AliAltroRawStreamV3& input, UShort_t det, Char_t& ring, UShort_t& sec, Short_t& strbase) { // Processs a new channel. Sets the internal data members // fMinStrip, fMaxStrip, and fPreSamp. // // Parameter: // input Input stream // ring On return, the ring identifier // sec On return, the sector number // strbase On return, the strip base // // Return value // negative value in case of problems, hardware address otherwise // Get the hardware address, and map that to detector coordinates UShort_t board, chip, channel; Int_t ddl = input.GetDDLNumber(); Int_t hwaddr = input.GetHWAddress(); if (input.IsChannelBad()) { AliError(Form("Channel 0x%03x is marked as bad!", hwaddr)); } AliFMDParameters* pars = AliFMDParameters::Instance(); AliFMDAltroMapping* map = pars->GetAltroMap(); // Map to hardware stuff map->ChannelAddress(hwaddr, board, chip, channel); // Then try to map to detector address if (!map->Channel2StripBase(board, chip, channel, ring, sec, strbase)) { AliError(Form("Failed to get detector id from DDL %d, " "hardware address 0x%03x", ddl, hwaddr)); return -1; } AliFMDDebug(3, ("Board: 0x%02x, Altro: 0x%x, Channel: 0x%x", board, chip, channel)); // Get the 'conditions' fMinStrip = pars->GetMinStrip(det, ring, sec, strbase); fMaxStrip = pars->GetMaxStrip(det, ring, sec, strbase); fPreSamp = pars->GetPreSamples(det, ring, sec, strbase); if (fSampleRate[ddl] == 0) fSampleRate[ddl] = pars->GetSampleRate(det, ring, sec, strbase); return hwaddr; } //____________________________________________________________________ Int_t AliFMDRawReader::NewSample(AliAltroRawStreamV3& input, Int_t i, UShort_t t, UShort_t sec, UShort_t strbase, Short_t& str, UShort_t& samp) { // Process a new timebin // // Parameters: // input Input stream // i Index into bunch data // t Time // strbase Base of strip numbers for this channel // str On return, the strip number // samp On return, the sample number // // Return value // negative value in case of problems, ADC value otherwise if (t < fPreSamp) return -1; Int_t ddl = input.GetDDLNumber(); Int_t hwa = input.GetHWAddress(); const UShort_t* data = input.GetSignals(); Short_t adc = data[i]; AliFMDDebug(10, ("0x%04x/0x%03x/%04d %4d", ddl, hwa, t, adc)); AliFMDParameters* pars = AliFMDParameters::Instance(); AliFMDAltroMapping* map = pars->GetAltroMap(); samp = 0; Short_t stroff = 0; map->Timebin2Strip(sec, t, fPreSamp, fSampleRate[ddl], stroff, samp); str = strbase + stroff; AliFMDDebug(20, ("0x%04x/0x%03x/%04d=%4d maps to strip %3d sample %d " "(pre: %d, min: %d, max: %d, rate: %d)", ddl, hwa, t, adc, str, samp, fPreSamp, fMinStrip, fMaxStrip, fSampleRate[ddl])); if (str < 0) { AliFMDDebug(10, ("Got presamples at timebin %d", i)); return -1; } // VA1 Local strip number Short_t lstrip = (t - fPreSamp) / fSampleRate[ddl] + fMinStrip; AliFMDDebug(15, ("Checking if strip %d (%d) in range [%d,%d]", lstrip, str, fMinStrip, fMaxStrip)); if (lstrip < fMinStrip || lstrip > fMaxStrip) { AliFMDDebug(10, ("Strip %03d-%d (%d,%d) from t=%d out of range (%3d->%3d)", str, samp, lstrip, stroff, t, fMinStrip, fMaxStrip)); adc = -1; } // Possibly do pedestal subtraction of signal if (adc > 1023) AliWarning(Form("ADC value out of range: %4d", adc)); return adc; } //____________________________________________________________________ Bool_t AliFMDRawReader::NextSample(UShort_t& det, Char_t& rng, UShort_t& sec, UShort_t& str, UShort_t& sam, UShort_t& rat, Short_t& adc, Bool_t& zs, UShort_t& fac) { // Scan current event for next signal. It returns kFALSE when // there's no more data in the event. static AliAltroRawStreamV3 stream(fReader); // = 0; static Int_t ddl = -1; static UShort_t tdet = 0; static Char_t trng = '\0'; static UShort_t tsec = 0; static Short_t tstr = 0; static Short_t bstr = -1; static UShort_t tsam = 0; static UInt_t trate = 0; static Int_t hwaddr = -1; static UShort_t start = 0; static UShort_t length = 0; static Short_t t = -1; static Int_t i = 0; // First entry! if (stream.GetDDLNumber() < 0) { fReader->Select("FMD"); // Reset variables ddl = -1; trate = 0; tdet = 0; trng = '\0'; tsec = 0; tstr = 0; tsam = -1; hwaddr = -1; } do { if (t < start - length + 1) { if (!stream.NextBunch()) { if (!stream.NextChannel()) { if (!stream.NextDDL()) { stream.Reset(); return kFALSE; } ddl = NewDDL(stream, tdet); } hwaddr = NewChannel(stream, tdet, trng, tsec, bstr); } start = stream.GetStartTimeBin(); length = stream.GetBunchLength(); t = start; i = 0; } Int_t tadc = NewSample(stream, i, t, tsec, bstr, tstr, tsam); if (tadc >= 0) { det = tdet; rng = trng; sec = tsec; str = tstr; sam = tsam; adc = tadc; rat = fSampleRate[ddl]; zs = fZeroSuppress[ddl]; fac = fNoiseFactor[ddl]; t--; i++; break; } } while (true); return kTRUE; } //____________________________________________________________________ Bool_t AliFMDRawReader::NextSignal(UShort_t& det, Char_t& rng, UShort_t& sec, UShort_t& str, Short_t& adc, Bool_t& zs, UShort_t& fac) { do { UShort_t samp, rate; if (!NextSample(det, rng, sec, str, samp, rate, adc, zs, fac)) return kFALSE; Bool_t take = kFALSE; switch (rate) { case 1: take = kTRUE; break; case 2: if (samp == 1) take = kTRUE; break; case 3: if (samp == 1) take = kTRUE; break; case 4: if (samp == 2) take = kTRUE; break; default: if (samp == rate-2) take = kTRUE; break; } if (!take) continue; break; } while (true); return kTRUE; } //____________________________________________________________________ Bool_t AliFMDRawReader::SelectSample(UShort_t samp, UShort_t rate) { // Check if the passed sample is the one we need Bool_t take = kFALSE; switch (rate) { case 1: take = kTRUE; break; case 2: if (samp == 1) take = kTRUE; break; case 3: if (samp == 1) take = kTRUE; break; case 4: if (samp == 2) take = kTRUE; break; default: if (samp == rate-2) take = kTRUE; break; } return take; } //____________________________________________________________________ Bool_t AliFMDRawReader::ReadAdcs(TClonesArray* array) { // Read ADC values from raw input into passed TClonesArray of AliFMDDigit // objects. AliFMDDebug(2, ("Reading ADC values into a TClonesArray")); // Read raw data into the digits array, using AliFMDAltroReader. if (!array) { AliError("No TClonesArray passed"); return kFALSE; } const UShort_t kUShortMax = (1 << 16) - 1; fSeen.Reset(kUShortMax); AliAltroRawStreamV3 input(fReader); input.Reset(); input.SelectRawData("FMD"); // Loop over input RORCs while (input.NextDDL()) { UShort_t det = 0; Int_t ddl = NewDDL(input, det); if (ddl < 0) break; while (input.NextChannel()) { // Get the hardware address, and map that to detector coordinates Char_t ring; UShort_t sec; Short_t strbase; Int_t hwaddr = NewChannel(input, det, ring, sec, strbase); if (hwaddr < 0) break; // Loop over bunches while (input.NextBunch()) { // Get Lenght of bunch, and pointer to the data const UShort_t* data = input.GetSignals(); UShort_t start = input.GetStartTimeBin(); UShort_t length = input.GetBunchLength(); // Loop over the data and store it. for (Int_t i = 0; i < length; i++) { // Time Short_t str; UShort_t samp; Int_t t = start - i; Int_t adc = NewSample(input, i, t, sec, strbase, str, samp); if (adc < 0) continue; UShort_t counts = adc; AliFMDDebug(10, ("FMD%d%c[%02d,%03d]-%d: %4d", det, ring, sec, str, samp, counts)); // Check the cache of indicies Int_t idx = fSeen(det, ring, sec, str); AliFMDDigit* digit = 0; if (idx == kUShortMax) { // We haven't seen this strip yet. fSeen(det, ring, sec, str) = idx = array->GetEntriesFast(); AliFMDDebug(7,("making digit for FMD%d%c[%2d,%3d]-%d " "from timebin %4d", det, ring, sec, str, samp, t)); digit = new ((*array)[idx]) AliFMDDigit(det, ring, sec, str); digit->SetDefaultCounts(fSampleRate[ddl]); } else digit = static_cast(array->At(idx)); AliFMDDebug(10, ("Setting FMD%d%c[%2d,%3d]-%d " "from timebin %4d=%4d (%4d)", det, ring, sec, str, samp, t, counts, data[i])); digit->SetCount(samp, counts); } // for (i) } // while (bunch) } // while (channel) } // while (ddl) return kTRUE; } //____________________________________________________________________ Bool_t AliFMDRawReader::ReadSODevent(AliFMDCalibSampleRate* sampleRate, AliFMDCalibStripRange* stripRange, TArrayS &pulseSize, TArrayS &pulseLength, Bool_t* detectors) { AliFMDDebug(0, ("Start of SOD/EOD")); UInt_t shift_clk[18]; UInt_t sample_clk[18]; UInt_t strip_low[18]; UInt_t strip_high[18]; UInt_t pulse_size[18]; UInt_t pulse_length[18]; AliFMDParameters* param = AliFMDParameters::Instance(); AliFMDAltroMapping* map = param->GetAltroMap(); AliAltroRawStreamV3 streamer(fReader); streamer.Reset(); streamer.SelectRawData("FMD"); //fReader->GetDDLID(); //Int_t detID = fReader->GetDetectorID(); // while(fReader->ReadNextData(fData)) { /* Int_t ddl = fReader->GetDDLID(); Int_t detID = fReader->GetDetectorID(); if (detectors) detectors[map->DDL2Detector(ddl)-1] = kTRUE; AliFMDDebug(0, (" From reader: DDL number is %d , det ID is %d",ddl,detID)); fNbytes = fReader->GetDataSize(); ULong_t nWords = GetNwords(); UInt_t trailerLast = Get32bitWord(nWords); AliFMDDebug(20, (" # Bytes: %d, # Words: %d, Last word: 0x%08x", fNbytes, nWords, trailerLast)); if ((trailerLast & 0xFFFF0000) != 0xAAAA0000) { AliWarning(Form("Last word 0x%08x does not match RCU II trailer", trailerLast)); //return kFALSE; } // 7 last bits is size of trailer ULong_t nTrailerWords = trailerLast & 0x7f; ULong_t nPayloadWords = Get32bitWord(nWords - nTrailerWords+1); AliFMDDebug(20, (" # trailer words: %d, # payload words: %d", nTrailerWords, nPayloadWords)); ULong_t nPayloadWords = streamer.GetSOD...(); UInt_t payloadWords* = streamer.GetSOD...(); */ while (streamer.NextDDL()) { Int_t ddl = streamer.GetDDLNumber(); Int_t detID = fReader->GetDetectorID(); if (detectors) detectors[map->DDL2Detector(ddl)-1] = kTRUE; AliFMDDebug(0, (" From reader: DDL number is %d , det ID is %d",ddl,detID)); ULong_t nPayloadWords = streamer.GetRCUPayloadSizeInSOD(); UChar_t* payloadData = streamer.GetRCUPayloadInSOD(); UInt_t* payloadWords = reinterpret_cast(payloadData); //UInt_t* payloadWords = streamer.GetRCUPayloadInSOD(); std::cout<> 21) & 0xf); UInt_t error = ((address >> 20) & 0x1); UInt_t bcast = ((address >> 18) & 0x1); UInt_t bc_not_altro = ((address >> 17) & 0x1); UInt_t board = ((address >> 12) & 0x1f); UInt_t instruction = 0; UInt_t chip = 0; UInt_t channel = 0; if(bc_not_altro) instruction = address & 0xfff; else { chip = ((address >> 9) & 0x7); channel = ((address >> 5) & 0x5); instruction = (address & 0x1f); } Bool_t readDataWord = kFALSE; switch(type) { case 0x0: // Fec read readDataWord = kTRUE; case 0x1: // Fec cmd case 0x2: // Fec write i++; payloadWords++; break; case 0x4: // Loop case 0x5: // Wait break; case 0x6: // End sequence case 0x7: // End Mem i = nPayloadWords + 1; break; default: break; } //Don't read unless we have a FEC_RD if(!readDataWord) continue; UInt_t dataWord = *payloadWords;//Get32bitWord(i); UInt_t data = (0xFFFFF & dataWord) ; //UInt_t data = (0xFFFF & dataWord) ; if(error) { AliWarning(Form("error bit detected at Word 0x%06x; " "error % d, type %d, bc_not_altro %d, " "bcast %d, board 0x%02x, chip 0x%x, " "channel 0x%02x, instruction 0x%03x", address, error, type, bc_not_altro, bcast,board,chip,channel,instruction)); //process error continue; } switch(instruction) { case 0x01: break; // First ADC T case 0x02: break; // I 3.3 V case 0x03: break; // I 2.5 V altro digital case 0x04: break; // I 2.5 V altro analog case 0x05: break; // I 2.5 V VA case 0x06: break; // First ADC T case 0x07: break; // I 3.3 V case 0x08: break; // I 2.5 V altro digital case 0x09: break; // I 2.5 V altro analog case 0x0A: break; // I 2.5 V VA case 0x2D: break; // Second ADC T case 0x2E: break; // I 1.5 V VA case 0x2F: break; // I -2.0 V case 0x30: break; // I -2.0 V VA case 0x31: break; // 2.5 V Digital driver case 0x32: break; // Second ADC T case 0x33: break; // I 1.5 V VA case 0x34: break; // I -2.0 V case 0x35: break; // I -2.0 V VA case 0x36: break; // 2.5 V Digital driver case 0x37: break; // Third ADC T case 0x38: break; // Temperature sens. 1 case 0x39: break; // Temperature sens. 2 case 0x3A: break; // U 2.5 altro digital (m) case 0x3B: break; // U 2.5 altro analog (m) case 0x3C: break; // Third ADC T case 0x3D: break; // Temperature sens. 1 case 0x3E: break; // Temperature sens. 2 case 0x3F: break; // U 2.5 altro digital (m) case 0x40: break; // U 2.5 altro analog (m) case 0x41: break; // Forth ADC T case 0x42: break; // U 2.5 VA (m) case 0x43: break; // U 1.5 VA (m) case 0x44: break; // U -2.0 VA (m) case 0x45: break; // U -2.0 (m) case 0x46: break; // Forth ADC T case 0x47: break; // U 2.5 VA (m) case 0x48: break; // U 1.5 VA (m) case 0x49: break; // U -2.0 VA (m) case 0x4A: break; // U -2.0 (m) // Counters case 0x0B: break; // L1 trigger CouNTer case 0x0C: break; // L2 trigger CouNTer case 0x0D: break; // Sampling CLK CouNTer case 0x0E: break; // DSTB CouNTer // Test mode case 0x0F: break; // Test mode word case 0x10: break; // Undersampling ratio. // Configuration and status case 0x11: break; // Config/Status Register 0 case 0x12: break; // Config/Status Register 1 case 0x13: break; // Config/Status Register 2 case 0x14: break; // Config/Status Register 3 case 0x15: break; // Free // Comands: case 0x16: break; // Latch L1, L2, SCLK Counters case 0x17: break; // Clear counters case 0x18: break; // Clear CSR1 case 0x19: break; // rstb ALTROs case 0x1A: break; // rstb BC case 0x1B: break; // Start conversion case 0x1C: break; // Scan event length case 0x1D: break; // Read event length case 0x1E: break; // Start test mode case 0x1F: break; // Read acquisition memory // FMD case 0x20: break; // FMDD status case 0x21: break; // L0 counters case 0x22: break; // FMD: Wait to hold case 0x23: break; // FMD: L1 timeout case 0x24: break; // FMD: L2 timeout case 0x25: // FMD: Shift clk shift_clk[board] = ((data >> 8 ) & 0xFF); break; case 0x26: // FMD: Strips strip_low[board] = ((data >> 0 ) & 0xFF); strip_high[board] = ((data >> 8 ) & 0xFF); break; case 0x27: // FMD: Cal pulse pulse_size[board] = ((data >> 8 ) & 0xFF); break; case 0x28: break; // FMD: Shape bias case 0x29: break; // FMD: Shape ref case 0x2A: break; // FMD: Preamp ref case 0x2B: // FMD: Sample clk sample_clk[board] = ((data >> 8 ) & 0xFF); break; case 0x2C: break; // FMD: Commands case 0x4B: // FMD: Cal events pulse_length[board] = ((data >> 0 ) & 0xFF); break; default: break; } AliFMDDebug(50, ("instruction 0x%x, dataword 0x%x", instruction,dataWord)); } // End of loop over Result memory event UShort_t det,sector; Short_t strip; Char_t ring; const UInt_t boards[4] = {0,1,16,17}; for(Int_t i=0;i<4;i++) { if(ddl==0 && (i==1 || i==3)) continue; UInt_t chip =0, channel=0; det = map->DDL2Detector(ddl); map->Channel2StripBase(boards[i], chip, channel, ring, sector, strip); UInt_t samplerate = 1; if(sample_clk[boards[i]] == 0) { if(ddl == 0) { Int_t sample1 = sample_clk[boards[0]]; Int_t sample2 = sample_clk[boards[2]]; if(sample1) sample_clk[boards[i]] = sample1; else sample_clk[boards[i]] = sample2; } else { Int_t sample1 = sample_clk[boards[0]]; Int_t sample2 = sample_clk[boards[1]]; Int_t sample3 = sample_clk[boards[2]]; Int_t sample4 = sample_clk[boards[3]]; Int_t agreement = 0; if(sample1 == sample2) agreement++; if(sample1 == sample3) agreement++; if(sample1 == sample4) agreement++; if(sample2 == sample3) agreement++; if(sample2 == sample4) agreement++; if(sample3 == sample4) agreement++; Int_t idx = 0; if(i<3) idx = i+1; else idx = i-1; if(agreement == 3) { sample_clk[boards[i]] = sample_clk[boards[idx]]; shift_clk[boards[i]] = shift_clk[boards[idx]]; strip_low[boards[i]] = strip_low[boards[idx]]; strip_high[boards[i]] = strip_high[boards[idx]]; pulse_length[boards[i]] = pulse_length[boards[idx]]; pulse_size[boards[i]] = pulse_size[boards[idx]]; AliFMDDebug(0, ("Vote taken for ddl %d, board 0x%x", ddl,boards[i])); } } } if(sample_clk[boards[i]]) samplerate = shift_clk[boards[i]]/sample_clk[boards[i]]; sampleRate->Set(det,ring,sector,0,samplerate); stripRange->Set(det,ring,sector,0, strip_low[boards[i]],strip_high[boards[i]]); AliFMDDebug(20, ("det %d, ring %c, ",det,ring)); pulseLength.AddAt(pulse_length[boards[i]], GetHalfringIndex(det,ring,boards[i]/16)); pulseSize.AddAt(pulse_size[boards[i]], GetHalfringIndex(det,ring,boards[i]/16)); AliFMDDebug(20, (": Board: 0x%02x\n" "\tstrip_low %3d, strip_high %3d\n" "\tshift_clk %3d, sample_clk %3d\n" "\tpulse_size %3d, pulse_length %3d", boards[i], strip_low[boards[i]], strip_high[boards[i]], shift_clk[boards[i]], sample_clk[boards[i]], pulse_size[boards[i]],pulse_length[boards[i]])); } } AliFMDParameters::Instance()->SetSampleRate(sampleRate); AliFMDParameters::Instance()->SetStripRange(stripRange); AliFMDDebug(0, ("End of SOD/EOD")); return kTRUE; } //____________________________________________________________________ UInt_t AliFMDRawReader::Get32bitWord(Int_t idx) { // This method returns the 32 bit word at a given // position inside the raw data payload. // The 'index' points to the beginning of the next word. // The method is supposed to be endian (platform) // independent. if (!fData) { AliFatal("Raw data paylod buffer is not yet initialized !"); } Int_t index = 4*idx; if (index < 4) { // fRawReader->AddFatalErrorLog(k32bitWordReadErr,Form("pos = %d",index)); // PrintDebug(); AliWarning(Form("Invalid raw data payload position (%d) !",index)); } UInt_t word = 0; word = fData[--index] << 24; word |= fData[--index] << 16; word |= fData[--index] << 8; word |= fData[--index] << 0 ; return word; } //_____________________________________________________________________ Int_t AliFMDRawReader::GetHalfringIndex(UShort_t det, Char_t ring, UShort_t board) { UShort_t iring = (ring == 'I' ? 1 : 0); Int_t index = (((det-1) << 2) | (iring << 1) | (board << 0)); return index-2; } //____________________________________________________________________ // // EOF //