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CSCDCCUnpacker Class Reference
Inheritance diagram for CSCDCCUnpacker:
edm::stream::EDProducer<>

Public Member Functions

 CSCDCCUnpacker (const edm::ParameterSet &pset)
 Constructor. More...
 
void produce (edm::Event &e, const edm::EventSetup &c) override
 Produce digis out of raw data. More...
 
void visual_raw (int hl, int id, int run, int event, bool fedshort, bool fDump, short unsigned int *buf) const
 Visualization of raw data in FED-less events (Robert Harr and Alexander Sakharov) More...
 
 ~CSCDCCUnpacker () override
 Destructor. More...
 
- Public Member Functions inherited from edm::stream::EDProducer<>
 EDProducer ()=default
 
 EDProducer (const EDProducer &)=delete
 
bool hasAbilityToProduceInBeginLumis () const final
 
bool hasAbilityToProduceInBeginProcessBlocks () const final
 
bool hasAbilityToProduceInBeginRuns () const final
 
bool hasAbilityToProduceInEndLumis () const final
 
bool hasAbilityToProduceInEndProcessBlocks () const final
 
bool hasAbilityToProduceInEndRuns () const final
 
const EDProduceroperator= (const EDProducer &)=delete
 

Static Public Member Functions

static void fillDescriptions (edm::ConfigurationDescriptions &descriptions)
 

Private Attributes

int b904dmb
 
bool b904Setup
 
int b904vmecrate
 
edm::ESGetToken< CSCCrateMap, CSCCrateMapRcdcrateToken
 
edm::ESGetToken< CSCChamberMap, CSCChamberMapRcdcscmapToken
 
bool debug
 
bool disableMappingCheck
 
unsigned int errorMask
 
unsigned int examinerMask
 
bool formatedEventDump
 
bool goodEvent
 
edm::EDGetTokenT< FEDRawDataCollectioni_token
 Token for consumes interface & access to data. More...
 
bool instantiateDQM
 
CSCMonitorInterfacemonitor
 
int numOfEvents
 
bool printEventNumber
 
bool SuppressZeroLCT
 Suppress zeros LCTs. More...
 
bool unpackStatusDigis
 
bool useCSCShowers_
 option to unpack CSC shower data More...
 
bool useExaminer
 
bool useFormatStatus
 
bool useGEMs_
 option to unpack GEM cluster data More...
 
bool useRPCs_
 option to unpack RPC data More...
 
bool useSelectiveUnpacking
 
bool visualFEDInspect
 Visualization of raw data. More...
 
bool visualFEDShort
 

Additional Inherited Members

- Public Types inherited from edm::stream::EDProducer<>
using CacheTypes = CacheContexts< T... >
 
using GlobalCache = typename CacheTypes::GlobalCache
 
using HasAbility = AbilityChecker< T... >
 
using InputProcessBlockCache = typename CacheTypes::InputProcessBlockCache
 
using LuminosityBlockCache = typename CacheTypes::LuminosityBlockCache
 
using LuminosityBlockContext = LuminosityBlockContextT< LuminosityBlockCache, RunCache, GlobalCache >
 
using LuminosityBlockSummaryCache = typename CacheTypes::LuminosityBlockSummaryCache
 
using RunCache = typename CacheTypes::RunCache
 
using RunContext = RunContextT< RunCache, GlobalCache >
 
using RunSummaryCache = typename CacheTypes::RunSummaryCache
 

Detailed Description

Author
Alex Tumanov

Definition at line 67 of file CSCDCCUnpacker.cc.

Constructor & Destructor Documentation

◆ CSCDCCUnpacker()

CSCDCCUnpacker::CSCDCCUnpacker ( const edm::ParameterSet pset)

Constructor.

Selective unpacking mode will skip only troublesome CSC blocks and not whole DCC/DDU block

Enable Format Status Digis

Visualization of raw data

Suppress zeros LCTs

Definition at line 116 of file CSCDCCUnpacker.cc.

References b904dmb, b904Setup, b904vmecrate, crateToken, cscmapToken, debug, disableMappingCheck, errorMask, examinerMask, formatedEventDump, i_token, instantiateDQM, monitor, Utilities::operator, printEventNumber, muonDTDigis_cfi::pset, CSCDCCEventData::setDebug(), CSCRPCData::setDebug(), CSCDDUEventData::setDebug(), CSCALCTHeader::setDebug(), CSCComparatorData::setDebug(), CSCTMBData::setDebug(), CSCEventData::setDebug(), CSCTMBHeader::setDebug(), CSCDDUEventData::setErrorMask(), SuppressZeroLCT, unpackStatusDigis, useCSCShowers_, useExaminer, useFormatStatus, useGEMs_, useRPCs_, useSelectiveUnpacking, visualFEDInspect, and visualFEDShort.

116  : numOfEvents(0) {
117  // Tracked
118  i_token = consumes<FEDRawDataCollection>(pset.getParameter<edm::InputTag>("InputObjects"));
119  crateToken = esConsumes<CSCCrateMap, CSCCrateMapRcd>();
120  cscmapToken = esConsumes<CSCChamberMap, CSCChamberMapRcd>();
121 
122  useExaminer = pset.getParameter<bool>("UseExaminer");
123  examinerMask = pset.getParameter<unsigned int>("ExaminerMask");
125  useSelectiveUnpacking = pset.getParameter<bool>("UseSelectiveUnpacking");
126  errorMask = pset.getParameter<unsigned int>("ErrorMask");
127  unpackStatusDigis = pset.getParameter<bool>("UnpackStatusDigis");
129  useFormatStatus = pset.getParameter<bool>("UseFormatStatus");
130 
131  useRPCs_ = pset.getParameter<bool>("useRPCs");
132  useGEMs_ = pset.getParameter<bool>("useGEMs");
133  useCSCShowers_ = pset.getParameter<bool>("useCSCShowers");
134 
135  // Untracked
136  printEventNumber = pset.getUntrackedParameter<bool>("PrintEventNumber", true);
137  debug = pset.getUntrackedParameter<bool>("Debug", false);
138  instantiateDQM = pset.getUntrackedParameter<bool>("runDQM", false);
139 
140  // Disable FED/DDU to chamber mapping inconsistency check
141  disableMappingCheck = pset.getUntrackedParameter<bool>("DisableMappingCheck", false);
142  // Make aware the unpacker that B904 test setup is used (disable mapping inconsistency check)
143  b904Setup = pset.getUntrackedParameter<bool>("B904Setup", false);
144  b904vmecrate = pset.getUntrackedParameter<int>("B904vmecrate", 1);
145  b904dmb = pset.getUntrackedParameter<int>("B904dmb", 3);
146 
148  visualFEDInspect = pset.getUntrackedParameter<bool>("VisualFEDInspect", false);
149  visualFEDShort = pset.getUntrackedParameter<bool>("VisualFEDShort", false);
150  formatedEventDump = pset.getUntrackedParameter<bool>("FormatedEventDump", false);
151 
153  SuppressZeroLCT = pset.getUntrackedParameter<bool>("SuppressZeroLCT", true);
154 
155  if (instantiateDQM) {
157  }
158 
159  produces<CSCWireDigiCollection>("MuonCSCWireDigi");
160  produces<CSCStripDigiCollection>("MuonCSCStripDigi");
161  produces<CSCComparatorDigiCollection>("MuonCSCComparatorDigi");
162  produces<CSCALCTDigiCollection>("MuonCSCALCTDigi");
163  produces<CSCCLCTDigiCollection>("MuonCSCCLCTDigi");
164  produces<CSCCorrelatedLCTDigiCollection>("MuonCSCCorrelatedLCTDigi");
165 
166  if (unpackStatusDigis) {
167  produces<CSCCFEBStatusDigiCollection>("MuonCSCCFEBStatusDigi");
168  produces<CSCTMBStatusDigiCollection>("MuonCSCTMBStatusDigi");
169  produces<CSCDMBStatusDigiCollection>("MuonCSCDMBStatusDigi");
170  produces<CSCALCTStatusDigiCollection>("MuonCSCALCTStatusDigi");
171  produces<CSCDDUStatusDigiCollection>("MuonCSCDDUStatusDigi");
172  produces<CSCDCCStatusDigiCollection>("MuonCSCDCCStatusDigi");
173  }
174 
175  if (useFormatStatus) {
176  produces<CSCDCCFormatStatusDigiCollection>("MuonCSCDCCFormatStatusDigi");
177  }
178 
179  if (useRPCs_) {
180  produces<CSCRPCDigiCollection>("MuonCSCRPCDigi");
181  }
182 
183  if (useGEMs_) {
184  produces<GEMPadDigiClusterCollection>("MuonGEMPadDigiCluster");
185  }
186 
187  if (useCSCShowers_) {
188  produces<CSCShowerDigiCollection>("MuonCSCShowerDigi");
189  produces<CSCShowerDigiCollection>("MuonCSCShowerDigiAnode");
190  produces<CSCShowerDigiCollection>("MuonCSCShowerDigiCathode");
191  produces<CSCShowerDigiCollection>("MuonCSCShowerDigiAnodeALCT");
192  }
193 
194  //CSCAnodeData::setDebug(debug);
204 }
bool SuppressZeroLCT
Suppress zeros LCTs.
edm::ESGetToken< CSCChamberMap, CSCChamberMapRcd > cscmapToken
static void setDebug(bool value)
CSCMonitorInterface * monitor
bool useRPCs_
option to unpack RPC data
bool visualFEDInspect
Visualization of raw data.
static void setDebug(const bool value)
edm::ESGetToken< CSCCrateMap, CSCCrateMapRcd > crateToken
static void setDebug(const bool value)
Definition: CSCTMBHeader.h:118
static void setDebug(const bool value)
Definition: CSCTMBData.h:35
static void setErrorMask(unsigned int value)
static void setDebug(bool value)
bool useCSCShowers_
option to unpack CSC shower data
edm::EDGetTokenT< FEDRawDataCollection > i_token
Token for consumes interface & access to data.
unsigned int errorMask
unsigned int examinerMask
static void setDebug(bool value)
to access data by via status digis
Definition: CSCALCTHeader.h:31
bool useSelectiveUnpacking
bool useGEMs_
option to unpack GEM cluster data
static void setDebug(const bool value)
Definition: CSCEventData.h:42
static void setDebug(bool debugValue)
Definition: CSCRPCData.h:26

◆ ~CSCDCCUnpacker()

CSCDCCUnpacker::~CSCDCCUnpacker ( )
override

Destructor.

Definition at line 206 of file CSCDCCUnpacker.cc.

206  {
207  //fill destructor here
208 }

Member Function Documentation

◆ fillDescriptions()

void CSCDCCUnpacker::fillDescriptions ( edm::ConfigurationDescriptions descriptions)
static

Definition at line 210 of file CSCDCCUnpacker.cc.

References edm::ConfigurationDescriptions::add(), submitPVResolutionJobs::desc, ProducerED_cfi::InputTag, and edm::ConfigurationDescriptions::setComment().

210  {
212  desc.add<edm::InputTag>("InputObjects", edm::InputTag("rawDataCollector"))
213  ->setComment("# Define input to the unpacker");
214  desc.add<bool>("UseExaminer", true)
215  ->setComment("# Use CSC examiner to check for corrupt or semi-corrupt data & avoid unpacker crashes");
216  desc.add<unsigned int>("ExaminerMask", 535557110)->setComment("# This mask is needed by the examiner");
217  desc.add<bool>("UseSelectiveUnpacking", true)
218  ->setComment("# Use Examiner to unpack good chambers and skip only bad ones");
219  desc.add<unsigned int>("ErrorMask", 0)->setComment("# This mask simply reduces error reporting");
220  desc.add<bool>("UnpackStatusDigis", false)->setComment("# Unpack general status digis?");
221  desc.add<bool>("UseFormatStatus", true)->setComment("# Unpack FormatStatus digi?");
222  desc.add<bool>("useRPCs", false)->setComment("Unpack RPC data");
223  desc.add<bool>("useGEMs", true)->setComment("Unpack GEM trigger data");
224  desc.add<bool>("useCSCShowers", true)->setComment("Unpack CSCShower trigger data");
225  desc.addUntracked<bool>("Debug", false)->setComment("# Turn on lots of output");
226  desc.addUntracked<bool>("PrintEventNumber", false);
227  desc.addUntracked<bool>("runDQM", false);
228  desc.addUntracked<bool>("VisualFEDInspect", false)->setComment("# Visualization of raw data in corrupted events");
229  desc.addUntracked<bool>("VisualFEDShort", false)->setComment("# Visualization of raw data in corrupted events");
230  desc.addUntracked<bool>("FormatedEventDump", false);
231  desc.addUntracked<bool>("SuppressZeroLCT", true);
232  desc.addUntracked<bool>("DisableMappingCheck", false)
233  ->setComment("# Disable FED/DDU to chamber mapping inconsistency check");
234  desc.addUntracked<bool>("B904Setup", false)->setComment("# Make the unpacker aware of B904 test setup configuration");
235  desc.addUntracked<int>("B904vmecrate", 1)->setComment("# Set vmecrate number for chamber used in B904 test setup");
236  desc.addUntracked<int>("B904dmb", 3)->setComment("# Set dmb slot for chamber used in B904 test setup");
237  descriptions.add("muonCSCDCCUnpacker", desc);
238  descriptions.setComment(" This is the generic cfi file for CSC unpacking");
239 }
void setComment(std::string const &value)
void add(std::string const &label, ParameterSetDescription const &psetDescription)

◆ produce()

void CSCDCCUnpacker::produce ( edm::Event e,
const edm::EventSetup c 
)
override

Produce digis out of raw data.

access database for mapping

Get a handle to the FED data collection

create the collections of CSC digis

uncomment this for regional unpacking if (id!=SOME_ID) continue;
































Take a reference to this FED's data

if fed has data then unpack it

examine event for integrity

If we have DCC or only DDU FED by checking FED ID set examiner to uswe DCC or DDU mode

Visualization of raw data

get a pointer to data and pass it to constructor for unpacking

set default detid to that for E=+z, S=1, R=1, C=1, L=1

get a reference to dduData

DCC Trailer 2 added to dcc status product (to access TTS from DCC)

skip the DDU if its data has serious errors define a mask for serious errors






















DDU Trailer 0 added to ddu status product (to access TTS from DDU)

get a reference to chamber data

first process chamber-wide digis such as LCT

default value for all digis not related to cfebs

layer=0 flags entire chamber

For Post-LS1 readout only. Check Chamber->FED/DDU mapping consistency. Skip chambers (special case of data corruption), which report wrong ID and pose as different chamber
















Do not skip chamber data if mapping check is disabled or b904 setup data file is used

check alct data integrity

fill alct digi

fill Run3 anode HMT Shower digis anode shower digis vector per ALCT BX from ALCT data












check tmb data integrity

fill correlatedlct and clct digis

fill Run3 HMT Shower digis

(O)TMB Shower digi sent to MPC LCT trigger data

anode shower digis from OTMB header data

cathode shower digis from OTMB header data

fill CSC-RPC or CSC-GEMs digis

fill CSC-GEM GEMPadCluster digis

fill cfeb status digi

loop over status digis

fill dmb status digi

fill wire, strip and comparator digis...

set layer, dmb and vme are valid because already checked in line 240

Definition at line 241 of file CSCDCCUnpacker.cc.

References b904dmb, b904Setup, b904vmecrate, visDQMUpload::buf, DummyCfis::c, RPCNoise_example::check, CSCDCCExaminer::check(), crateToken, CSCDCCExaminer::crcALCT(), CSCDCCExaminer::crcCFEB(), CSCDCCExaminer::crcTMB(), cscmapToken, FEDRawData::data(), data, CSCChamberMap::ddu(), debug, CSCCrateMap::detId(), disableMappingCheck, MillePedeFileConverter_cfg::e, CSCDCCExaminer::errName(), errorMask, CSCDCCExaminer::errors(), CSCDCCExaminer::errorsDetailed(), CSCDCCExaminer::errorsDetailedDDU(), examinerMask, FEDRawDataCollection::FEDData(), formatedEventDump, CSCDCCExaminer::getMask(), goodEvent, RecoTauValidation_cfi::header, mps_fire::i, i_token, l1ctLayer2EG_cff::id, hcalRecHitTable_cff::ieta, instantiateDQM, createfilelist::int, CSCShowerDigi::isValid(), sistrip::SpyUtilities::isValid(), nano_mu_digi_cff::layer, LogTrace, CSCConstants::MAX_CFEBS_RUN2, FEDNumbering::MAXCSCDDUFEDID, FEDNumbering::MAXCSCFEDID, CSCDetId::maxLayerId(), FEDNumbering::MINCSCDDUFEDID, FEDNumbering::MINCSCFEDID, CSCDetId::minLayerId(), CSCDCCExaminer::modeDDU(), monitor, eostools::move(), CSCDCCExaminer::nERRORS, numOfEvents, CSCDCCExaminer::payloadDetailed(), printEventNumber, CSCMonitorInterface::process(), edm::ESHandle< T >::product(), CSCDCCExaminer::setMask(), FEDRawData::size(), CSCDCCExaminer::statusDetailed(), SuppressZeroLCT, unpackStatusDigis, useCSCShowers_, useExaminer, useFormatStatus, useGEMs_, useRPCs_, useSelectiveUnpacking, visual_raw(), visualFEDInspect, and visualFEDShort.

241  {
243  // Do we really have to do this every event???
244  // ... Yes, because framework is more efficient than you are at caching :)
245  // (But if you want to actually DO something specific WHEN the mapping changes, check out ESWatcher)
246  edm::ESHandle<CSCCrateMap> hcrate = c.getHandle(crateToken);
247  const CSCCrateMap* pcrate = hcrate.product();
248 
249  // Need access to CSCChamberMap for chamber<->FED/DDU mapping consistency checks
251  const CSCChamberMap* cscmapping = cscmap.product();
252 
253  if (printEventNumber)
254  ++numOfEvents;
255 
258  e.getByToken(i_token, rawdata);
259 
261  auto wireProduct = std::make_unique<CSCWireDigiCollection>();
262  auto stripProduct = std::make_unique<CSCStripDigiCollection>();
263  auto alctProduct = std::make_unique<CSCALCTDigiCollection>();
264  auto clctProduct = std::make_unique<CSCCLCTDigiCollection>();
265  auto comparatorProduct = std::make_unique<CSCComparatorDigiCollection>();
266  auto rpcProduct = std::make_unique<CSCRPCDigiCollection>();
267  auto corrlctProduct = std::make_unique<CSCCorrelatedLCTDigiCollection>();
268  auto cfebStatusProduct = std::make_unique<CSCCFEBStatusDigiCollection>();
269  auto dmbStatusProduct = std::make_unique<CSCDMBStatusDigiCollection>();
270  auto tmbStatusProduct = std::make_unique<CSCTMBStatusDigiCollection>();
271  auto dduStatusProduct = std::make_unique<CSCDDUStatusDigiCollection>();
272  auto dccStatusProduct = std::make_unique<CSCDCCStatusDigiCollection>();
273  auto alctStatusProduct = std::make_unique<CSCALCTStatusDigiCollection>();
274 
275  auto formatStatusProduct = std::make_unique<CSCDCCFormatStatusDigiCollection>();
276 
277  auto gemProduct = std::make_unique<GEMPadDigiClusterCollection>();
278 
279  auto lctShowerProduct =
280  std::make_unique<CSCShowerDigiCollection>(); // HMT shower objects from OTMB/MPC LCT trigger data frames
281  auto anodeShowerProductOTMB =
282  std::make_unique<CSCShowerDigiCollection>(); // anode HMT shower objects from (O)TMB header data (matched at OTMB)
283  auto cathodeShowerProductOTMB =
284  std::make_unique<CSCShowerDigiCollection>(); // cathode HMT shower objects from (O)TMB header data
285  auto anodeShowerProductALCT = std::make_unique<
286  CSCShowerDigiCollection>(); // anode HMT shower objects from ALCT data (vector of HMT shower objects per ALCT BX)
287 
288  // If set selective unpacking mode
289  // hardcoded examiner mask below to check for DCC and DDU level errors will be used first
290  // then examinerMask for CSC level errors will be used during unpacking of each CSC block
291  unsigned long dccBinCheckMask = 0x06080016;
292 
293  // Post-LS1 FED/DDU ID mapping fix
294  const unsigned postLS1_map[] = {841, 842, 843, 844, 845, 846, 847, 848, 849, 831, 832, 833,
295  834, 835, 836, 837, 838, 839, 861, 862, 863, 864, 865, 866,
296  867, 868, 869, 851, 852, 853, 854, 855, 856, 857, 858, 859};
297 
298  // For new CSC readout layout, which wont include DCCs need to loop over DDU FED IDs. DCC IDs are included for backward compatibility with old data
299  std::vector<unsigned int> cscFEDids;
300 
301  for (unsigned int id = FEDNumbering::MINCSCFEDID; id <= FEDNumbering::MAXCSCFEDID; ++id) // loop over DCCs
302  {
303  cscFEDids.push_back(id);
304  }
305 
306  for (unsigned int id = FEDNumbering::MINCSCDDUFEDID; id <= FEDNumbering::MAXCSCDDUFEDID; ++id) // loop over DDUs
307  {
308  cscFEDids.push_back(id);
309  }
310 
311  for (unsigned int i = 0; i < cscFEDids.size(); i++) // loop over all CSC FEDs (DCCs and DDUs)
312  {
313  unsigned int id = cscFEDids[i];
314  bool isDDU_FED = ((id >= FEDNumbering::MINCSCDDUFEDID) && (id <= FEDNumbering::MAXCSCDDUFEDID)) ? true : false;
315 
318 
320  const FEDRawData& fedData = rawdata->FEDData(id);
321  unsigned long length = fedData.size();
322 
323  if (length >= 32)
324  {
325  CSCDCCExaminer* examiner = nullptr;
326  goodEvent = true;
327  if (useExaminer)
328  {
329  // CSCDCCExaminer examiner;
330  examiner = new CSCDCCExaminer();
331  if (examinerMask & 0x40000)
332  examiner->crcCFEB(true);
333  if (examinerMask & 0x8000)
334  examiner->crcTMB(true);
335  if (examinerMask & 0x0400)
336  examiner->crcALCT(true);
337  examiner->setMask(examinerMask);
338 
340  if (isDDU_FED) {
341  if (examiner != nullptr)
342  examiner->modeDDU(true);
343  }
344 
345  const short unsigned int* data = (short unsigned int*)fedData.data();
346 
347  LogTrace("badData") << "Length: " << length / 2;
348  // Event data hex dump
349  /*
350  short unsigned * buf = (short unsigned int *)fedData.data();
351  std::cout <<std::endl<<length/2<<" words of data:"<<std::endl;
352  for (short unsigned int i=0;i<length/2;i++) {
353  printf("%04x %04x %04x %04x\n",buf[i+3],buf[i+2],buf[i+1],buf[i]);
354  i+=3;
355  }
356  */
357 
358  int res = examiner->check(data, long(fedData.size() / 2));
359  if (res < 0) {
360  goodEvent = false;
361  } else {
363  goodEvent = !(examiner->errors() & dccBinCheckMask);
364  else
365  goodEvent = !(examiner->errors() & examinerMask);
366  }
367 
368  /*
369  std::cout << "FED" << std::dec << id << " size:" << fedData.size() << " good:" << goodEvent << " errs 0x"
370  << std::hex << examiner->errors() << std::dec << std::endl;
371  */
372 
373  // Fill Format status digis per FED
374  // Remove examiner->errors() != 0 check if we need to put status digis for every event
375  if (useFormatStatus && (examiner->errors() != 0))
376  // formatStatusProduct->insertDigi(CSCDetId(1,1,1,1,1), CSCDCCFormatStatusDigi(id,examiner,dccBinCheckMask));
377  formatStatusProduct->insertDigi(CSCDetId(1, 1, 1, 1, 1),
379  dccBinCheckMask,
380  examiner->getMask(),
381  examiner->errors(),
382  examiner->errorsDetailedDDU(),
383  examiner->errorsDetailed(),
384  examiner->payloadDetailed(),
385  examiner->statusDetailed()));
386  }
387 
390  if (!goodEvent || formatedEventDump) {
391  short unsigned* buf = (short unsigned int*)fedData.data();
392  visual_raw(length / 2, id, (int)e.id().run(), (int)e.id().event(), visualFEDShort, formatedEventDump, buf);
393  }
394  }
395 
396  if (goodEvent) {
398 
399  CSCDCCExaminer* ptrExaminer = examiner;
401  ptrExaminer = nullptr;
402 
403  std::vector<CSCDDUEventData> fed_Data;
404  std::vector<CSCDDUEventData>* ptr_fedData = &fed_Data;
405 
407  CSCDetId layer(1, 1, 1, 1, 1);
408 
409  if (isDDU_FED) // Use new DDU FED readout mode
410  {
411  CSCDDUEventData single_dduData((short unsigned int*)fedData.data(), ptrExaminer);
412  fed_Data.push_back(single_dduData);
413 
414  // if(instantiateDQM) monitor->process(examiner, &single_dduData);
415 
416  } else // Use old DCC FED readout mode
417  {
418  CSCDCCEventData dccData((short unsigned int*)fedData.data(), ptrExaminer);
419 
420  //std::cout << " DCC Size [UNPK] " << dccData.sizeInWords() << std::endl;
421 
422  if (instantiateDQM)
423  monitor->process(examiner, &dccData);
424 
426  // const std::vector<CSCDDUEventData> & dduData = dccData.dduData();
427  // ptr_fedData = &(dccData.dduData());
428  fed_Data = dccData.dduData();
429 
430  if (unpackStatusDigis) {
432  short unsigned* bufForDcc = (short unsigned int*)fedData.data();
433 
434  //std::cout << "FED Length: " << std::dec << length/2 <<
435  //" Trailer 2: " << std::hex << bufForDcc[length/2-4] << std::endl;
436 
437  dccStatusProduct->insertDigi(layer,
438  CSCDCCStatusDigi(dccData.dccHeader().data(),
439  dccData.dccTrailer().data(),
440  examiner->errors(),
441  bufForDcc[length / 2 - 4]));
442  }
443  }
444 
445  const std::vector<CSCDDUEventData>& dduData = *ptr_fedData;
446 
447  for (unsigned int iDDU = 0; iDDU < dduData.size(); ++iDDU) // loop over DDUs
448  {
451  if (dduData[iDDU].trailer().errorstat() & errorMask) {
452  LogTrace("CSCDCCUnpacker|CSCRawToDigi")
453  << "FED ID" << id << " DDU# " << iDDU << " has serious error - no digis unpacked! " << std::hex
454  << dduData[iDDU].trailer().errorstat();
455  continue; // to next iteration of DDU loop
456  }
457 
458  if (unpackStatusDigis)
459  dduStatusProduct->insertDigi(
460  layer,
461  CSCDDUStatusDigi(dduData[iDDU].header().data(),
462  dduData[iDDU].trailer().data(),
464  dduData[iDDU].trailer0()));
465 
467  const std::vector<CSCEventData>& cscData = dduData[iDDU].cscData();
468 
469  // if (cscData.size() != 0) std::cout << "FED" << id << " DDU Source ID: " << dduData[iDDU].header().source_id() << " firmware version: " << dduData[iDDU].header().format_version() << std::endl;
470 
471  for (unsigned int iCSC = 0; iCSC < cscData.size(); ++iCSC) // loop over CSCs
472  {
474 
475  int vmecrate = b904Setup ? b904vmecrate : cscData[iCSC].dmbHeader()->crateID();
476  int dmb = b904Setup ? b904dmb : cscData[iCSC].dmbHeader()->dmbID();
477 
478  int icfeb = 0;
479  int ilayer = 0;
480 
481  if (debug)
482  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << "crate = " << vmecrate << "; dmb = " << dmb;
483 
484  if ((vmecrate >= 1) && (vmecrate <= 60) && (dmb >= 1) && (dmb <= 10) && (dmb != 6)) {
485  layer = pcrate->detId(vmecrate, dmb, icfeb, ilayer);
486  } else {
487  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << " detID input out of range!!! ";
488  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << " skipping chamber vme= " << vmecrate << " dmb= " << dmb;
489  continue; // to next iteration of iCSC loop
490  }
491 
494  if (isDDU_FED) {
495  unsigned int dduid = cscmapping->ddu(layer);
496  if ((dduid >= 1) && (dduid <= 36)) {
497  dduid = postLS1_map[dduid - 1]; // Fix for Post-LS1 FED/DDU IDs mappings
498  // std::cout << "CSC " << layer << " -> " << id << ":" << dduid << ":" << vmecrate << ":" << dmb << std::endl;
499  }
500 
502  if ((!disableMappingCheck) && (!b904Setup) && (id != dduid)) {
503  LogTrace("CSCDDUUnpacker|CSCRawToDigi") << " CSC->FED/DDU mapping inconsistency!!! ";
504  LogTrace("CSCDCCUnpacker|CSCRawToDigi")
505  << "readout FED/DDU ID=" << id << " expected ID=" << dduid << ", skipping chamber " << layer
506  << " vme= " << vmecrate << " dmb= " << dmb;
507  continue;
508  }
509  }
510 
512  int nalct = cscData[iCSC].dmbHeader()->nalct();
513  bool goodALCT = false;
514  //if (nalct&&(cscData[iCSC].dataPresent>>6&0x1)==1) {
515  if (nalct && cscData[iCSC].alctHeader()) {
516  if (cscData[iCSC].alctHeader()->check()) {
517  goodALCT = true;
518  } else {
519  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << "not storing ALCT digis; alct is bad or not present";
520  }
521  } else {
522  if (debug)
523  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << "nALCT==0 !!!";
524  }
525 
527  if (goodALCT) {
528  std::vector<CSCALCTDigi> alctDigis = cscData[iCSC].alctHeader()->ALCTDigis();
529  if (SuppressZeroLCT) {
530  std::vector<CSCALCTDigi> alctDigis_0;
531  for (int unsigned i = 0; i < alctDigis.size(); ++i) {
532  if (alctDigis[i].isValid()) {
533  if (debug)
534  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << alctDigis[i] << std::endl;
535  alctDigis_0.push_back(alctDigis[i]);
536  }
537  }
538  alctProduct->move(std::make_pair(alctDigis_0.begin(), alctDigis_0.end()), layer);
539  } else
540  alctProduct->move(std::make_pair(alctDigis.begin(), alctDigis.end()), layer);
541 
544  if (useCSCShowers_) {
545  std::vector<CSCShowerDigi> anodeShowerDigisALCT = cscData[iCSC].alctHeader()->alctShowerDigis();
546  anodeShowerProductALCT->move(std::make_pair(anodeShowerDigisALCT.begin(), anodeShowerDigisALCT.end()),
547  layer);
548  }
549  }
550 
552  int nclct = cscData[iCSC].dmbHeader()->nclct();
553  bool goodTMB = false;
554  // if (nclct&&(cscData[iCSC].dataPresent>>5&0x1)==1) {
555  if (nclct && cscData[iCSC].tmbData()) {
556  if (cscData[iCSC].tmbHeader()->check()) {
557  if (cscData[iCSC].comparatorData()->check())
558  goodTMB = true;
559  } else {
560  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << "one of TMB checks failed! not storing TMB digis ";
561  }
562  } else {
563  if (debug)
564  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << "nCLCT==0 !!!";
565  }
566 
568  if (goodTMB) {
569  std::vector<CSCCorrelatedLCTDigi> correlatedlctDigis =
570  cscData[iCSC].tmbHeader()->CorrelatedLCTDigis(layer.rawId());
571  if (SuppressZeroLCT) {
572  std::vector<CSCCorrelatedLCTDigi> correlatedlctDigis_0;
573  for (int unsigned i = 0; i < correlatedlctDigis.size(); ++i) {
574  if (correlatedlctDigis[i].isValid()) {
575  if (debug)
576  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << correlatedlctDigis[i] << std::endl;
577  correlatedlctDigis_0.push_back(correlatedlctDigis[i]);
578  }
579  }
580  corrlctProduct->move(std::make_pair(correlatedlctDigis_0.begin(), correlatedlctDigis_0.end()), layer);
581  } else
582  corrlctProduct->move(std::make_pair(correlatedlctDigis.begin(), correlatedlctDigis.end()), layer);
583 
584  std::vector<CSCCLCTDigi> clctDigis = cscData[iCSC].tmbHeader()->CLCTDigis(layer.rawId());
585  if (SuppressZeroLCT) {
586  std::vector<CSCCLCTDigi> clctDigis_0;
587  for (int unsigned i = 0; i < clctDigis.size(); ++i) {
588  if (clctDigis[i].isValid()) {
589  if (debug)
590  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << clctDigis[i] << std::endl;
591  clctDigis_0.push_back(clctDigis[i]);
592  }
593  }
594  clctProduct->move(std::make_pair(clctDigis_0.begin(), clctDigis_0.end()), layer);
595  } else
596  clctProduct->move(std::make_pair(clctDigis.begin(), clctDigis.end()), layer);
597 
599  if (useCSCShowers_) {
601  CSCShowerDigi lctShowerDigi = cscData[iCSC].tmbHeader()->showerDigi(layer.rawId());
602  if (lctShowerDigi.isValid()) {
603  std::vector<CSCShowerDigi> lctShowerDigis;
604  lctShowerDigis.push_back(lctShowerDigi);
605  lctShowerProduct->move(std::make_pair(lctShowerDigis.begin(), lctShowerDigis.end()), layer);
606  }
607 
609  CSCShowerDigi anodeShowerDigiOTMB = cscData[iCSC].tmbHeader()->anodeShowerDigi(layer.rawId());
610  if (anodeShowerDigiOTMB.isValid()) {
611  std::vector<CSCShowerDigi> anodeShowerDigis;
612  anodeShowerDigis.push_back(anodeShowerDigiOTMB);
613  anodeShowerProductOTMB->move(std::make_pair(anodeShowerDigis.begin(), anodeShowerDigis.end()), layer);
614  }
615 
617  CSCShowerDigi cathodeShowerDigiOTMB = cscData[iCSC].tmbHeader()->cathodeShowerDigi(layer.rawId());
618  if (cathodeShowerDigiOTMB.isValid()) {
619  std::vector<CSCShowerDigi> cathodeShowerDigis;
620  cathodeShowerDigis.push_back(cathodeShowerDigiOTMB);
621  cathodeShowerProductOTMB->move(std::make_pair(cathodeShowerDigis.begin(), cathodeShowerDigis.end()),
622  layer);
623  }
624  }
625 
627  if (cscData[iCSC].tmbData()->checkSize()) {
628  if (useRPCs_ && cscData[iCSC].tmbData()->hasRPC()) {
629  std::vector<CSCRPCDigi> rpcDigis = cscData[iCSC].tmbData()->rpcData()->digis();
630  rpcProduct->move(std::make_pair(rpcDigis.begin(), rpcDigis.end()), layer);
631  }
632 
634  if (useGEMs_ && cscData[iCSC].tmbData()->hasGEM()) {
635  for (int unsigned igem = 0; igem < (int unsigned)(cscData[iCSC].tmbData()->gemData()->numGEMs());
636  ++igem) {
637  int gem_chamber = layer.chamber();
638  int gem_region = (layer.endcap() == 1) ? 1 : -1;
639  // Loop over GEM layer eta/rolls
640  for (unsigned ieta = 0; ieta < 8; ieta++) {
641  // GE11 eta/roll collection addressing according to GEMDetID definition is 1-8 (eta 8 being closest to beampipe)
642  GEMDetId gemid(gem_region, layer.ring(), layer.station(), igem + 1, gem_chamber, ieta + 1);
643  // GE11 trigger data format reports eta/rolls in 0-7 range (eta 0 being closest to beampipe)
644  // mapping agreement is that real data eta needs to be reversed from 0-7 to 8-1 for GEMDetId collection convention
645  std::vector<GEMPadDigiCluster> gemDigis = cscData[iCSC].tmbData()->gemData()->etaDigis(
646  igem, 7 - ieta, cscData[iCSC].tmbHeader()->ALCTMatchTime());
647  if (!gemDigis.empty()) {
648  gemProduct->move(std::make_pair(gemDigis.begin(), gemDigis.end()), gemid);
649  }
650  }
651  }
652  }
653  } else
654  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << " TMBData check size failed!";
655  }
656 
658  if (unpackStatusDigis) {
659  for (icfeb = 0; icfeb < CSCConstants::MAX_CFEBS_RUN2; ++icfeb)
660  {
661  if (cscData[iCSC].cfebData(icfeb) != nullptr)
662  cfebStatusProduct->insertDigi(layer, cscData[iCSC].cfebData(icfeb)->statusDigi());
663  }
665  dmbStatusProduct->insertDigi(
666  layer, CSCDMBStatusDigi(cscData[iCSC].dmbHeader()->data(), cscData[iCSC].dmbTrailer()->data()));
667  if (goodTMB)
668  tmbStatusProduct->insertDigi(
669  layer,
670  CSCTMBStatusDigi(cscData[iCSC].tmbHeader()->data(), cscData[iCSC].tmbData()->tmbTrailer()->data()));
671  if (goodALCT)
672  alctStatusProduct->insertDigi(
673  layer, CSCALCTStatusDigi(cscData[iCSC].alctHeader()->data(), cscData[iCSC].alctTrailer()->data()));
674  }
675 
677  for (int ilayer = CSCDetId::minLayerId(); ilayer <= CSCDetId::maxLayerId(); ++ilayer) {
679  // (You have to be kidding. Line 240 in whose universe?)
680 
681  // Allocate all ME1/1 wire digis to ring 1
682  layer = pcrate->detId(vmecrate, dmb, 0, ilayer);
683  {
684  std::vector<CSCWireDigi> wireDigis = cscData[iCSC].wireDigis(ilayer);
685  wireProduct->move(std::make_pair(wireDigis.begin(), wireDigis.end()), layer);
686  }
687 
688  for (icfeb = 0; icfeb < CSCConstants::MAX_CFEBS_RUN2; ++icfeb) {
689  layer = pcrate->detId(vmecrate, dmb, icfeb, ilayer);
690  if (cscData[iCSC].cfebData(icfeb) && cscData[iCSC].cfebData(icfeb)->check()) {
691  std::vector<CSCStripDigi> stripDigis;
692  cscData[iCSC].cfebData(icfeb)->digis(layer.rawId(), stripDigis);
693  stripProduct->move(std::make_pair(stripDigis.begin(), stripDigis.end()), layer);
694  }
695  }
696 
697  if (goodTMB && (cscData[iCSC].tmbHeader() != nullptr)) {
698  int nCFEBs = cscData[iCSC].tmbHeader()->NCFEBs();
699  for (icfeb = 0; icfeb < nCFEBs; ++icfeb) {
700  layer = pcrate->detId(vmecrate, dmb, icfeb, ilayer);
701  std::vector<CSCComparatorDigi> comparatorDigis =
702  cscData[iCSC].comparatorData()->comparatorDigis(layer.rawId(), icfeb);
703  // Set cfeb=0, so that ME1/a and ME1/b comparators go to
704  // ring 1.
705  layer = pcrate->detId(vmecrate, dmb, 0, ilayer);
706  comparatorProduct->move(std::make_pair(comparatorDigis.begin(), comparatorDigis.end()), layer);
707  }
708  } // end of loop over cfebs
709  } // end of loop over layers
710  } // end of loop over chambers
711  } // endof loop over DDUs
712  } // end of good event
713  else {
714  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << "ERROR! Examiner rejected FED #" << id;
715  if (examiner) {
716  for (int i = 0; i < examiner->nERRORS; ++i) {
717  if (((examinerMask & examiner->errors()) >> i) & 0x1)
718  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << examiner->errName(i);
719  }
720  if (debug) {
721  LogTrace("CSCDCCUnpacker|CSCRawToDigi")
722  << " Examiner errors:0x" << std::hex << examiner->errors() << " & 0x" << examinerMask << " = "
723  << (examiner->errors() & examinerMask);
724  }
725  }
726 
727  // dccStatusProduct->insertDigi(CSCDetId(1,1,1,1,1), CSCDCCStatusDigi(examiner->errors()));
728  // if(instantiateDQM) monitor->process(examiner, NULL);
729  }
730  if (examiner != nullptr)
731  delete examiner;
732  } // end of if fed has data
733  } // end of loop over DCCs
734  // put into the event
735  e.put(std::move(wireProduct), "MuonCSCWireDigi");
736  e.put(std::move(stripProduct), "MuonCSCStripDigi");
737  e.put(std::move(alctProduct), "MuonCSCALCTDigi");
738  e.put(std::move(clctProduct), "MuonCSCCLCTDigi");
739  e.put(std::move(comparatorProduct), "MuonCSCComparatorDigi");
740  e.put(std::move(corrlctProduct), "MuonCSCCorrelatedLCTDigi");
741 
742  if (useFormatStatus)
743  e.put(std::move(formatStatusProduct), "MuonCSCDCCFormatStatusDigi");
744 
745  if (unpackStatusDigis) {
746  e.put(std::move(cfebStatusProduct), "MuonCSCCFEBStatusDigi");
747  e.put(std::move(dmbStatusProduct), "MuonCSCDMBStatusDigi");
748  e.put(std::move(tmbStatusProduct), "MuonCSCTMBStatusDigi");
749  e.put(std::move(dduStatusProduct), "MuonCSCDDUStatusDigi");
750  e.put(std::move(dccStatusProduct), "MuonCSCDCCStatusDigi");
751  e.put(std::move(alctStatusProduct), "MuonCSCALCTStatusDigi");
752  }
753 
754  if (useRPCs_) {
755  e.put(std::move(rpcProduct), "MuonCSCRPCDigi");
756  }
757  if (useGEMs_) {
758  e.put(std::move(gemProduct), "MuonGEMPadDigiCluster");
759  }
760  if (useCSCShowers_) {
761  e.put(std::move(lctShowerProduct), "MuonCSCShowerDigi");
762  e.put(std::move(anodeShowerProductOTMB), "MuonCSCShowerDigiAnode");
763  e.put(std::move(cathodeShowerProductOTMB), "MuonCSCShowerDigiCathode");
764  e.put(std::move(anodeShowerProductALCT), "MuonCSCShowerDigiAnodeALCT");
765  }
766  if (printEventNumber)
767  LogTrace("CSCDCCUnpacker|CSCRawToDigi") << "[CSCDCCUnpacker]: " << numOfEvents << " events processed ";
768 }
01/20/05 A.Tumanov
std::map< CSCIdType, ExaminerStatusType > statusDetailed(void) const
void crcCFEB(bool enable)
bool SuppressZeroLCT
Suppress zeros LCTs.
const bool isValid(const Frame &aFrame, const FrameQuality &aQuality, const uint16_t aExpectedPos)
edm::ESGetToken< CSCChamberMap, CSCChamberMapRcd > cscmapToken
void modeDDU(bool enable)
bool isValid() const
data
const uint16_t nERRORS
CSCMonitorInterface * monitor
ExaminerMaskType getMask() const
size_t size() const
Lenght of the data buffer in bytes.
Definition: FEDRawData.h:48
bool useRPCs_
option to unpack RPC data
void crcALCT(bool enable)
bool visualFEDInspect
Visualization of raw data.
Definition: Electron.h:6
#define LogTrace(id)
Definition: CSCMap.h:8
virtual void process(CSCDCCExaminer *examiner, CSCDCCEventData *dccData)=0
edm::ESGetToken< CSCCrateMap, CSCCrateMapRcd > crateToken
T const * product() const
Definition: ESHandle.h:86
void visual_raw(int hl, int id, int run, int event, bool fedshort, bool fDump, short unsigned int *buf) const
Visualization of raw data in FED-less events (Robert Harr and Alexander Sakharov) ...
std::map< CSCIdType, ExaminerStatusType > payloadDetailed(void) const
void crcTMB(bool enable)
const char * errName(int num) const
bool useCSCShowers_
option to unpack CSC shower data
const FEDRawData & FEDData(int fedid) const
retrieve data for fed
edm::EDGetTokenT< FEDRawDataCollection > i_token
Token for consumes interface & access to data.
unsigned int errorMask
static int minLayerId()
Definition: CSCDetId.h:242
CSCDetId detId(int vme, int dmb, int cfeb, int layer=0) const
Definition: CSCCrateMap.cc:9
unsigned int examinerMask
std::map< CSCIdType, ExaminerStatusType > errorsDetailed(void) const
bool useSelectiveUnpacking
bool useGEMs_
option to unpack GEM cluster data
int ddu(const CSCDetId &) const
ddu id for given DetId
int32_t check(const uint16_t *&buffer, int32_t length)
CSC Format Status Object.
char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:80
ExaminerStatusType errors(void) const
std::map< DDUIdType, ExaminerStatusType > errorsDetailedDDU(void) const
const unsigned char * data() const
Return a const pointer to the beginning of the data buffer.
Definition: FEDRawData.cc:24
static int maxLayerId()
Definition: CSCDetId.h:243
void setMask(ExaminerMaskType mask)
def move(src, dest)
Definition: eostools.py:511
A container for a generic type of digis indexed by some index, implemented with a map<IndexType...

◆ visual_raw()

void CSCDCCUnpacker::visual_raw ( int  hl,
int  id,
int  run,
int  event,
bool  fedshort,
bool  fDump,
short unsigned int *  buf 
) const

Visualization of raw data in FED-less events (Robert Harr and Alexander Sakharov)

Visualization of raw data.

ALCT Header 1,2

Definition at line 772 of file CSCDCCUnpacker.cc.

References visDQMUpload::buf, gather_cfg::cout, formatedEventDump, mps_fire::i, dqmiolumiharvest::j, dqmdumpme::k, GetRecoTauVFromDQM_MC_cff::kk, writedatasetfile::run, and w().

Referenced by produce().

773  {
774  std::cout << std::endl << std::endl << std::endl;
775  std::cout << "Run: " << run << " Event: " << event << std::endl;
776  std::cout << std::endl << std::endl;
777  if (formatedEventDump)
778  std::cout << "FED-" << id << " "
779  << "(scroll down to see summary)" << std::endl;
780  else
781  std::cout << "Problem seems in FED-" << id << " "
782  << "(scroll down to see summary)" << std::endl;
783  std::cout << "********************************************************************************" << std::endl;
784  std::cout << hl << " words of data:" << std::endl;
785 
786  //================================================
787  // FED codes in DCC
788  std::vector<int> dcc_id;
789  int dcc_h1_id = 0;
790  // Current codes
791  for (int i = 750; i < 758; i++)
792  dcc_id.push_back(i);
793  // Codes for upgrade
794  for (int i = 830; i < 838; i++)
795  dcc_id.push_back(i);
796 
797  char dcc_common[] = "DCC-";
798 
799  //================================================
800  // DDU codes per FED
801  std::vector<int> ddu_id;
802  int ddu_h1_12_13 = 0;
803  for (int i = 1; i < 37; i++)
804  ddu_id.push_back(i);
805  // For DDU Headers and tarailers
806  char ddu_common[] = "DDU-";
807  char ddu_header1[] = "Header 1";
808  char ddu_header2[] = "Header 2";
809  char ddu_header3[] = "Header 3";
810  char ddu_trail1[] = "Trailer 1", ddu_trail2[] = "Trailer 2", ddu_trail3[] = "Trailer 3";
811  // For Header 2
812  char ddu_trailer1_bit[] = {'8', '0', '0', '0', 'f', 'f', 'f', 'f', '8', '0', '0', '0', '8', '0', '0', '0'};
813  char ddu_trailer3_bit[] = {'a'};
814  // Corrupted Trailers
815  char ddu_tr1_err_common[] = "Incomplet";
816  //====================================================
817 
818  //DMB
819  char dmb_common[] = "DMB", dmb_header1[] = "Header 1", dmb_header2[] = "Header 2";
820  char dmb_common_crate[] = "crate:", dmb_common_slot[] = "slot:";
821  char dmb_common_l1a[] = "L1A:";
822  char dmb_header1_bit[] = {'9', '9', '9', '9'};
823  char dmb_header2_bit[] = {'a', 'a', 'a', 'a'};
824  char dmb_tr1[] = "Trailer 1", dmb_tr2[] = "Trailer 2";
825  char dmb_tr1_bit[] = {'f', 'f', 'f', 'f'}, dmb_tr2_bit[] = {'e', 'e', 'e', 'e'};
826 
827  //=====================================================
828 
829  // ALCT
830  char alct_common[] = "ALCT", alct_header1[] = "Header 1", alct_header2[] = "Header 2";
831  char alct_common_bxn[] = "BXN:";
832  char alct_common_wcnt2[] = "| Actual word count:";
833  char alct_common_wcnt1[] = "Expected word count:";
834  char alct_header1_bit[] = {'d', 'd', 'd', 'd', 'b', '0', 'a'};
835  char alct_header2_bit[] = {'0', '0', '0', '0'};
836  char alct_tr1[] = "Trailer 1";
837 
838  //======================================================
839 
840  //TMB
841  char tmb_common[] = "TMB", tmb_header1[] = "Header", tmb_tr1[] = "Trailer";
842  char tmb_header1_bit[] = {'d', 'd', 'd', 'd', 'b', '0', 'c'};
843  char tmb_tr1_bit[] = {'d', 'd', 'd', 'd', 'e', '0', 'f'};
844 
845  //======================================================
846 
847  //CFEB
848  char cfeb_common[] = "CFEB", cfeb_tr1[] = "Trailer", cfeb_b[] = "B-word";
849  char cfeb_common_sample[] = "sample:";
850 
851  //======================================================
852 
853  //Auxiliary variables
854 
855  // Bufers
856  int word_lines = hl / 4;
857  char tempbuf[80];
858  char tempbuf1[130];
859  char tempbuf_short[17];
860  char sign1[] = " --->| ";
861 
862  // Counters
863  int word_numbering = 0;
864  int ddu_inst_i = 0, ddu_inst_n = 0, ddu_inst_l1a = 0;
865  int ddu_inst_bxn = 0;
866  int dmb_inst_crate = 0, dmb_inst_slot = 0, dmb_inst_l1a = 0;
867  int cfeb_sample = 0;
868  int alct_inst_l1a = 0;
869  int alct_inst_bxn = 0;
870  int alct_inst_wcnt1 = 0;
871  int alct_inst_wcnt2 = 0;
872  int alct_start = 0;
873  int alct_stop = 0;
874  int tmb_inst_l1a = 0;
875  int tmb_inst_wcnt1 = 0;
876  int tmb_inst_wcnt2 = 0;
877  int tmb_start = 0;
878  int tmb_stop = 0;
879  int dcc_h1_check = 0;
880 
881  //Flags
882  int w = 0;
883 
884  //Logic variables
885  const int sz1 = 5;
886  bool dcc_check = false;
887  bool ddu_h2_check[sz1] = {false};
888  bool ddu_h1_check = false;
889  bool dmb_h1_check[sz1] = {false};
890  bool dmb_h2_check[sz1] = {false};
891  bool ddu_h2_h1 = false;
892  bool ddu_tr1_check[sz1] = {false};
893  bool alct_h1_check[sz1] = {false};
894  bool alct_h2_check[sz1] = {false};
895  bool alct_tr1_check[sz1] = {false};
896  bool dmb_tr1_check[sz1] = {false};
897  bool dmb_tr2_check[sz1] = {false};
898  bool tmb_h1_check[sz1] = {false};
899  bool tmb_tr1_check[sz1] = {false};
900  bool cfeb_tr1_check[sz1] = {false};
901  bool cfeb_b_check[sz1] = {false};
902  bool ddu_tr1_bad_check[sz1] = {false};
903  bool extraction = fedshort;
904 
905  //Summary vectors
906  //DDU
907  std::vector<int> ddu_h1_coll;
908  std::vector<int> ddu_h1_n_coll;
909  std::vector<int> ddu_h2_coll;
910  std::vector<int> ddu_h3_coll;
911  std::vector<int> ddu_t1_coll;
912  std::vector<int> ddu_t2_coll;
913  std::vector<int> ddu_t3_coll;
914  std::vector<int> ddu_l1a_coll;
915  std::vector<int> ddu_bxn_coll;
916  //DMB
917  std::vector<int> dmb_h1_coll;
918  std::vector<int> dmb_h2_coll;
919  std::vector<int> dmb_t1_coll;
920  std::vector<int> dmb_t2_coll;
921  std::vector<int> dmb_crate_coll;
922  std::vector<int> dmb_slot_coll;
923  std::vector<int> dmb_l1a_coll;
924  //ALCT
925  std::vector<int> alct_h1_coll;
926  std::vector<int> alct_h2_coll;
927  std::vector<int> alct_t1_coll;
928  std::vector<int> alct_l1a_coll;
929  std::vector<int> alct_bxn_coll;
930  std::vector<int> alct_wcnt1_coll;
931  std::vector<int> alct_wcnt2_coll;
932  std::vector<int> alct_wcnt2_id_coll;
933  //TMB
934  std::vector<int> tmb_h1_coll;
935  std::vector<int> tmb_t1_coll;
936  std::vector<int> tmb_l1a_coll;
937  std::vector<int> tmb_wcnt1_coll;
938  std::vector<int> tmb_wcnt2_coll;
939  //CFEB
940  std::vector<int> cfeb_t1_coll;
941 
942  //========================================================
943 
944  // DCC Header and Ttrailer information
945  char dcc_header1[] = "DCC Header 1";
946  char dcc_header2[] = "DCC Header 2";
947  char dcc_trail1[] = "DCC Trailer 1", dcc_trail1_bit[] = {'e'};
948  char dcc_trail2[] = "DCC Trailer 2", dcc_trail2_bit[] = {'a'};
949  //=========================================================
950 
951  for (int i = 0; i < hl; i++) {
952  ++word_numbering;
953  for (int j = -1; j < 4; j++) {
954  sprintf(tempbuf_short,
955  "%04x%04x%04x%04x",
956  buf[i + 4 * (j - 1) + 3],
957  buf[i + 4 * (j - 1) + 2],
958  buf[i + 4 * (j - 1) + 1],
959  buf[i + 4 * (j - 1)]);
960 
961  // WARNING in 5_0_X for time being
962  ddu_h2_check[j] = ((buf[i + 4 * (j - 1) + 1] == 0x8000) && (buf[i + 4 * (j - 1) + 2] == 0x0001) &&
963  (buf[i + 4 * (j - 1) + 3] == 0x8000));
964 
965  ddu_tr1_check[j] = ((tempbuf_short[0] == ddu_trailer1_bit[0]) && (tempbuf_short[1] == ddu_trailer1_bit[1]) &&
966  (tempbuf_short[2] == ddu_trailer1_bit[2]) && (tempbuf_short[3] == ddu_trailer1_bit[3]) &&
967  (tempbuf_short[4] == ddu_trailer1_bit[4]) && (tempbuf_short[5] == ddu_trailer1_bit[5]) &&
968  (tempbuf_short[6] == ddu_trailer1_bit[6]) && (tempbuf_short[7] == ddu_trailer1_bit[7]) &&
969  (tempbuf_short[8] == ddu_trailer1_bit[8]) && (tempbuf_short[9] == ddu_trailer1_bit[9]) &&
970  (tempbuf_short[10] == ddu_trailer1_bit[10]) && (tempbuf_short[11] == ddu_trailer1_bit[11]) &&
971  (tempbuf_short[12] == ddu_trailer1_bit[12]) && (tempbuf_short[13] == ddu_trailer1_bit[13]) &&
972  (tempbuf_short[14] == ddu_trailer1_bit[14]) && (tempbuf_short[15] == ddu_trailer1_bit[15]));
973 
974  dmb_h1_check[j] = ((tempbuf_short[0] == dmb_header1_bit[0]) && (tempbuf_short[4] == dmb_header1_bit[1]) &&
975  (tempbuf_short[8] == dmb_header1_bit[2]) && (tempbuf_short[12] == dmb_header1_bit[3]));
976 
977  dmb_h2_check[j] = ((tempbuf_short[0] == dmb_header2_bit[0]) && (tempbuf_short[4] == dmb_header2_bit[1]) &&
978  (tempbuf_short[8] == dmb_header2_bit[2]) && (tempbuf_short[12] == dmb_header2_bit[3]));
979  alct_h1_check[j] = ((tempbuf_short[0] == alct_header1_bit[0]) && (tempbuf_short[4] == alct_header1_bit[1]) &&
980  (tempbuf_short[8] == alct_header1_bit[2]) && (tempbuf_short[12] == alct_header1_bit[3]) &&
981  (tempbuf_short[13] == alct_header1_bit[4]) && (tempbuf_short[14] == alct_header1_bit[5]) &&
982  (tempbuf_short[15] == alct_header1_bit[6]));
983  alct_h2_check[j] = (((tempbuf_short[0] == alct_header2_bit[0]) && (tempbuf_short[1] == alct_header2_bit[1]) &&
984  (tempbuf_short[2] == alct_header2_bit[2]) && (tempbuf_short[3] == alct_header2_bit[3])) ||
985  ((tempbuf_short[4] == alct_header2_bit[0]) && (tempbuf_short[5] == alct_header2_bit[1]) &&
986  (tempbuf_short[6] == alct_header2_bit[2]) && (tempbuf_short[7] == alct_header2_bit[3])) ||
987  ((tempbuf_short[8] == alct_header2_bit[0]) && (tempbuf_short[9] == alct_header2_bit[1]) &&
988  (tempbuf_short[10] == alct_header2_bit[2]) && (tempbuf_short[11] == alct_header2_bit[3])) ||
989  ((tempbuf_short[12] == alct_header2_bit[0]) && (tempbuf_short[13] == alct_header2_bit[1]) &&
990  (tempbuf_short[14] == alct_header2_bit[2]) && (tempbuf_short[15] == alct_header2_bit[3]))
991  //(tempbuf_short[4]==alct_header2_bit[4])&&(tempbuf_short[5]==alct_header2_bit[5])
992  );
993  // ALCT Trailers
994  alct_tr1_check[j] =
995  (((buf[i + 4 * (j - 1)] & 0xFFFF) == 0xDE0D) && ((buf[i + 4 * (j - 1) + 1] & 0xF800) == 0xD000) &&
996  ((buf[i + 4 * (j - 1) + 2] & 0xF800) == 0xD000) && ((buf[i + 4 * (j - 1) + 3] & 0xF000) == 0xD000));
997  // DMB Trailers
998  dmb_tr1_check[j] = ((tempbuf_short[0] == dmb_tr1_bit[0]) && (tempbuf_short[4] == dmb_tr1_bit[1]) &&
999  (tempbuf_short[8] == dmb_tr1_bit[2]) && (tempbuf_short[12] == dmb_tr1_bit[3]));
1000  dmb_tr2_check[j] = ((tempbuf_short[0] == dmb_tr2_bit[0]) && (tempbuf_short[4] == dmb_tr2_bit[1]) &&
1001  (tempbuf_short[8] == dmb_tr2_bit[2]) && (tempbuf_short[12] == dmb_tr2_bit[3]));
1002  // TMB
1003  tmb_h1_check[j] = ((tempbuf_short[0] == tmb_header1_bit[0]) && (tempbuf_short[4] == tmb_header1_bit[1]) &&
1004  (tempbuf_short[8] == tmb_header1_bit[2]) && (tempbuf_short[12] == tmb_header1_bit[3]) &&
1005  (tempbuf_short[13] == tmb_header1_bit[4]) && (tempbuf_short[14] == tmb_header1_bit[5]) &&
1006  (tempbuf_short[15] == tmb_header1_bit[6]));
1007  tmb_tr1_check[j] = ((tempbuf_short[0] == tmb_tr1_bit[0]) && (tempbuf_short[4] == tmb_tr1_bit[1]) &&
1008  (tempbuf_short[8] == tmb_tr1_bit[2]) && (tempbuf_short[12] == tmb_tr1_bit[3]) &&
1009  (tempbuf_short[13] == tmb_tr1_bit[4]) && (tempbuf_short[14] == tmb_tr1_bit[5]) &&
1010  (tempbuf_short[15] == tmb_tr1_bit[6]));
1011  // CFEB
1012  cfeb_tr1_check[j] =
1013  (((buf[i + 4 * (j - 1) + 1] & 0xF000) == 0x7000) && ((buf[i + 4 * (j - 1) + 2] & 0xF000) == 0x7000) &&
1014  ((buf[i + 4 * (j - 1) + 1] != 0x7FFF) || (buf[i + 4 * (j - 1) + 2] != 0x7FFF)) &&
1015  ((buf[i + 4 * (j - 1) + 3] == 0x7FFF) || ((buf[i + 4 * (j - 1) + 3] & buf[i + 4 * (j - 1)]) == 0x0 &&
1016  (buf[i + 4 * (j - 1) + 3] + buf[i + 4 * (j - 1)] == 0x7FFF))));
1017  cfeb_b_check[j] =
1018  (((buf[i + 4 * (j - 1) + 3] & 0xF000) == 0xB000) && ((buf[i + 4 * (j - 1) + 2] & 0xF000) == 0xB000) &&
1019  ((buf[i + 4 * (j - 1) + 1] & 0xF000) == 0xB000) && ((buf[i + 4 * (j - 1)] = 3 & 0xF000) == 0xB000));
1020  // DDU Trailers with errors
1021  ddu_tr1_bad_check[j] =
1022  ((tempbuf_short[0] != ddu_trailer1_bit[0]) &&
1023  //(tempbuf_short[1]!=ddu_trailer1_bit[1])&&(tempbuf_short[2]!=ddu_trailer1_bit[2])&&
1024  //(tempbuf_short[3]==ddu_trailer1_bit[3])&&
1025  (tempbuf_short[4] != ddu_trailer1_bit[4]) &&
1026  //(tempbuf_short[5]==ddu_trailer1_bit[5])&&
1027  //(tempbuf_short[6]==ddu_trailer1_bit[6])&&(tempbuf_short[7]==ddu_trailer1_bit[7])&&
1028  (tempbuf_short[8] == ddu_trailer1_bit[8]) && (tempbuf_short[9] == ddu_trailer1_bit[9]) &&
1029  (tempbuf_short[10] == ddu_trailer1_bit[10]) && (tempbuf_short[11] == ddu_trailer1_bit[11]) &&
1030  (tempbuf_short[12] == ddu_trailer1_bit[12]) && (tempbuf_short[13] == ddu_trailer1_bit[13]) &&
1031  (tempbuf_short[14] == ddu_trailer1_bit[14]) && (tempbuf_short[15] == ddu_trailer1_bit[15]));
1032  }
1033 
1034  // DDU Header 2 next to Header 1
1035  ddu_h2_h1 = ddu_h2_check[2];
1036 
1037  sprintf(tempbuf_short, "%04x%04x%04x%04x", buf[i + 3], buf[i + 2], buf[i + 1], buf[i]);
1038 
1039  // Looking for DDU Header 1
1040  ddu_h1_12_13 = (buf[i] >> 8);
1041  for (int kk = 0; kk < 36; kk++) {
1042  if (((buf[i + 3] & 0xF000) == 0x5000) && (ddu_h1_12_13 == ddu_id[kk]) && ddu_h2_h1) {
1043  ddu_h1_coll.push_back(word_numbering);
1044  ddu_h1_n_coll.push_back(ddu_id[kk]);
1045  ddu_inst_l1a = ((buf[i + 2] & 0xFFFF) + ((buf[i + 3] & 0x00FF) << 16));
1046  ddu_l1a_coll.push_back(ddu_inst_l1a);
1047  ddu_inst_bxn = (buf[i + 1] & 0xFFF0) >> 4;
1048  ddu_bxn_coll.push_back(ddu_inst_bxn);
1049  sprintf(tempbuf1,
1050  "%6i %04x %04x %04x %04x%s%s%i %s%s %s %i %s %i",
1051  word_numbering,
1052  buf[i + 3],
1053  buf[i + 2],
1054  buf[i + 1],
1055  buf[i],
1056  sign1,
1057  ddu_common,
1058  ddu_id[kk],
1059  ddu_header1,
1060  sign1,
1061  dmb_common_l1a,
1062  ddu_inst_l1a,
1063  alct_common_bxn,
1064  ddu_inst_bxn);
1065  std::cout << tempbuf1 << std::endl;
1066  w = 0;
1067  ddu_h1_check = true;
1068  cfeb_sample = 0;
1069  }
1070  }
1071 
1072  // Looking for DCC Header 1
1073  dcc_h1_id = (((buf[i + 1] << 12) & 0xF000) >> 4) + (buf[i] >> 8);
1074  for (int dcci = 0; dcci < 16; dcci++) {
1075  if ((dcc_id[dcci] == dcc_h1_id) && (((buf[i + 3] & 0xF000) == 0x5000) && (!ddu_h1_check))) {
1076  sprintf(tempbuf1,
1077  "%6i %04x %04x %04x %04x%s%s%i %s",
1078  word_numbering,
1079  buf[i + 3],
1080  buf[i + 2],
1081  buf[i + 1],
1082  buf[i],
1083  sign1,
1084  dcc_common,
1085  dcc_h1_id,
1086  dcc_header1);
1087  dcc_h1_check = word_numbering;
1088  w = 0;
1089  dcc_check = true;
1090  std::cout << tempbuf1 << std::endl;
1091  }
1092  }
1093 
1094  // Looking for DCC Header 2 and trailers
1095  if (((word_numbering - 1) == dcc_h1_check) && ((buf[i + 3] & 0xFF00) == 0xD900)) {
1096  sprintf(tempbuf1,
1097  "%6i %04x %04x %04x %04x%s%s",
1098  word_numbering,
1099  buf[i + 3],
1100  buf[i + 2],
1101  buf[i + 1],
1102  buf[i],
1103  sign1,
1104  dcc_header2);
1105  std::cout << tempbuf1 << std::endl;
1106  w = 0;
1107  } else if ((word_numbering == word_lines - 1) && (tempbuf_short[0] == dcc_trail1_bit[0])) {
1108  sprintf(tempbuf1,
1109  "%6i %04x %04x %04x %04x%s%s",
1110  word_numbering,
1111  buf[i + 3],
1112  buf[i + 2],
1113  buf[i + 1],
1114  buf[i],
1115  sign1,
1116  dcc_trail1);
1117  std::cout << tempbuf1 << std::endl;
1118  w = 0;
1119  } else if ((word_numbering == word_lines) && (tempbuf_short[0] == dcc_trail2_bit[0])) {
1120  sprintf(tempbuf1,
1121  "%6i %04x %04x %04x %04x%s%s",
1122  word_numbering,
1123  buf[i + 3],
1124  buf[i + 2],
1125  buf[i + 1],
1126  buf[i],
1127  sign1,
1128  dcc_trail2);
1129  std::cout << tempbuf1 << std::endl;
1130  w = 0;
1131  }
1132 
1133  // DDU Header 2
1134  else if (ddu_h2_check[1]) {
1135  ddu_inst_i = ddu_h1_n_coll.size(); //ddu_inst_n=ddu_h1_n_coll[0];
1136  if (ddu_inst_i > 0) {
1137  ddu_inst_n = ddu_h1_n_coll[ddu_inst_i - 1];
1138  }
1139  sprintf(tempbuf1,
1140  "%6i %04x %04x %04x %04x%s%s%i %s",
1141  word_numbering,
1142  buf[i + 3],
1143  buf[i + 2],
1144  buf[i + 1],
1145  buf[i],
1146  sign1,
1147  ddu_common,
1148  ddu_inst_n,
1149  ddu_header2);
1150  ddu_h2_coll.push_back(word_numbering);
1151  std::cout << tempbuf1 << std::endl;
1152  w = 0;
1153  }
1154 
1155  // DDU Header 3 (either between DDU Header 2 DMB Header or DDU Header 2 DDU Trailer1)
1156  else if ((ddu_h2_check[0] && dmb_h1_check[2]) || (ddu_h2_check[0] && ddu_tr1_check[2])) {
1157  ddu_inst_i = ddu_h1_n_coll.size();
1158  if (ddu_inst_i > 0) {
1159  ddu_inst_n = ddu_h1_n_coll[ddu_inst_i - 1];
1160  }
1161  sprintf(tempbuf1,
1162  "%6i %04x %04x %04x %04x%s%s%i %s",
1163  word_numbering,
1164  buf[i + 3],
1165  buf[i + 2],
1166  buf[i + 1],
1167  buf[i],
1168  sign1,
1169  ddu_common,
1170  ddu_inst_n,
1171  ddu_header3);
1172  ddu_h3_coll.push_back(word_numbering);
1173  std::cout << tempbuf1 << std::endl;
1174  w = 0;
1175  }
1176 
1177  // DMB Header 1,2
1178 
1179  else if (dmb_h1_check[1]) {
1180  dmb_inst_crate = 0;
1181  dmb_inst_slot = 0;
1182  dmb_inst_l1a = ((buf[i] & 0x0FFF) + ((buf[i + 1] & 0xFFF) << 12));
1183  dmb_l1a_coll.push_back(dmb_inst_l1a);
1184  if (dmb_h2_check[2]) {
1185  dmb_inst_crate = ((buf[i + 4 + 1] >> 4) & 0xFF);
1186  dmb_inst_slot = (buf[i + 4 + 1] & 0xF);
1187  dmb_crate_coll.push_back(dmb_inst_crate);
1188  dmb_slot_coll.push_back(dmb_inst_slot);
1189  }
1190  sprintf(tempbuf1,
1191  "%6i %04x %04x %04x %04x%s%s %s%s%s %i %s %i %s %i",
1192  word_numbering,
1193  buf[i + 3],
1194  buf[i + 2],
1195  buf[i + 1],
1196  buf[i],
1197  sign1,
1198  dmb_common,
1199  dmb_header1,
1200  sign1,
1201  dmb_common_crate,
1202  dmb_inst_crate,
1203  dmb_common_slot,
1204  dmb_inst_slot,
1205  dmb_common_l1a,
1206  dmb_inst_l1a);
1207  dmb_h1_coll.push_back(word_numbering);
1208  std::cout << tempbuf1 << std::endl;
1209  w = 0;
1210  }
1211 
1212  else if (dmb_h2_check[1]) {
1213  dmb_inst_crate = ((buf[i + 1] >> 4) & 0xFF);
1214  dmb_inst_slot = (buf[i + 1] & 0xF);
1215  dmb_h2_coll.push_back(word_numbering);
1216  if (dmb_h1_check[0])
1217  dmb_inst_l1a = ((buf[i - 4] & 0x0FFF) + ((buf[i - 4 + 1] & 0xFFF) << 12));
1218  sprintf(tempbuf1,
1219  "%6i %04x %04x %04x %04x%s%s %s%s%s %i %s %i %s %i",
1220  word_numbering,
1221  buf[i + 3],
1222  buf[i + 2],
1223  buf[i + 1],
1224  buf[i],
1225  sign1,
1226  dmb_common,
1227  dmb_header2,
1228  sign1,
1229  dmb_common_crate,
1230  dmb_inst_crate,
1231  dmb_common_slot,
1232  dmb_inst_slot,
1233  dmb_common_l1a,
1234  dmb_inst_l1a);
1235  std::cout << tempbuf1 << std::endl;
1236  w = 0;
1237  }
1238 
1239  //DDU Trailer 1
1240 
1241  else if (ddu_tr1_check[1]) {
1242  ddu_inst_i = ddu_h1_n_coll.size();
1243  if (ddu_inst_i > 0) {
1244  ddu_inst_n = ddu_h1_n_coll[ddu_inst_i - 1];
1245  }
1246  //ddu_inst_n=ddu_h1_n_coll[ddu_inst_i-1];
1247  sprintf(tempbuf1,
1248  "%6i %04x %04x %04x %04x%s%s%i %s",
1249  word_numbering,
1250  buf[i + 3],
1251  buf[i + 2],
1252  buf[i + 1],
1253  buf[i],
1254  sign1,
1255  ddu_common,
1256  ddu_inst_n,
1257  ddu_trail1);
1258  ddu_t1_coll.push_back(word_numbering);
1259  std::cout << tempbuf1 << std::endl;
1260  w = 0;
1261  }
1262 
1264  else if (alct_h1_check[1]) {
1265  alct_start = word_numbering;
1266  alct_inst_l1a = (buf[i + 2] & 0x0FFF);
1267  alct_l1a_coll.push_back(alct_inst_l1a);
1268  sprintf(tempbuf1,
1269  "%6i %04x %04x %04x %04x%s%s %s%s %s %i",
1270  word_numbering,
1271  buf[i + 3],
1272  buf[i + 2],
1273  buf[i + 1],
1274  buf[i],
1275  sign1,
1276  alct_common,
1277  alct_header1,
1278  sign1,
1279  dmb_common_l1a,
1280  alct_inst_l1a);
1281  alct_h1_coll.push_back(word_numbering);
1282  std::cout << tempbuf1 << std::endl;
1283  w = 0;
1284  }
1285 
1286  else if ((alct_h1_check[0]) && (alct_h2_check[2])) {
1287  alct_inst_bxn = (buf[i] & 0x0FFF);
1288  alct_bxn_coll.push_back(alct_inst_bxn);
1289  sprintf(tempbuf1,
1290  "%6i %04x %04x %04x %04x%s%s %s%s%s %i",
1291  word_numbering,
1292  buf[i + 3],
1293  buf[i + 2],
1294  buf[i + 1],
1295  buf[i],
1296  sign1,
1297  alct_common,
1298  alct_header2,
1299  sign1,
1300  alct_common_bxn,
1301  alct_inst_bxn);
1302  alct_h2_coll.push_back(word_numbering);
1303  std::cout << tempbuf1 << std::endl;
1304  w = 0;
1305  }
1306 
1307  //ALCT Trailer 1
1308  else if (alct_tr1_check[1]) {
1309  alct_stop = word_numbering;
1310  if ((alct_start != 0) && (alct_stop != 0) && (alct_stop > alct_start)) {
1311  alct_inst_wcnt2 = 4 * (alct_stop - alct_start + 1);
1312  alct_wcnt2_coll.push_back(alct_inst_wcnt2);
1313  alct_wcnt2_id_coll.push_back(alct_start);
1314  }
1315  alct_inst_wcnt1 = (buf[i + 3] & 0x7FF);
1316  alct_wcnt1_coll.push_back(alct_inst_wcnt1);
1317  sprintf(tempbuf1,
1318  "%6i %04x %04x %04x %04x%s%s %s%s%s %i %s %i",
1319  word_numbering,
1320  buf[i + 3],
1321  buf[i + 2],
1322  buf[i + 1],
1323  buf[i],
1324  sign1,
1325  alct_common,
1326  alct_tr1,
1327  sign1,
1328  alct_common_wcnt1,
1329  alct_inst_wcnt1,
1330  alct_common_wcnt2,
1331  alct_inst_wcnt2);
1332  alct_t1_coll.push_back(word_numbering);
1333  std::cout << tempbuf1 << std::endl;
1334  w = 0;
1335  alct_inst_wcnt2 = 0;
1336  }
1337 
1338  //DDU Trailer 3
1339 
1340  // else if ((ddu_tr1_check[-1])&&(tempbuf_short[0]==ddu_trailer3_bit[0])) { // !!! TO FIX: negative index
1341  else if ((ddu_h2_h1) && (tempbuf_short[0] == ddu_trailer3_bit[0])) {
1342  //&&(tempbuf_short[0]==ddu_trailer3_bit[0])){
1343  ddu_inst_i = ddu_h1_n_coll.size();
1344  if (ddu_inst_i > 0) {
1345  ddu_inst_n = ddu_h1_n_coll[ddu_inst_i - 1];
1346  }
1347  //ddu_inst_n=ddu_h1_n_coll[ddu_inst_i-1];
1348  sprintf(tempbuf1,
1349  "%6i %04x %04x %04x %04x%s%s%i %s",
1350  word_numbering,
1351  buf[i + 3],
1352  buf[i + 2],
1353  buf[i + 1],
1354  buf[i],
1355  sign1,
1356  ddu_common,
1357  ddu_inst_n,
1358  ddu_trail3);
1359  ddu_t3_coll.push_back(word_numbering);
1360  std::cout << tempbuf1 << std::endl;
1361  w = 0;
1362  }
1363  //DDU Trailer 2
1364  else if ((ddu_tr1_check[0]) && (tempbuf_short[0] != ddu_trailer3_bit[0])) {
1365  //&&(tempbuf_short[0]==ddu_trailer3_bit[0])){
1366  ddu_inst_i = ddu_h1_n_coll.size();
1367  if (ddu_inst_i > 0) {
1368  ddu_inst_n = ddu_h1_n_coll[ddu_inst_i - 1];
1369  }
1370  //ddu_inst_n=ddu_h1_n_coll[ddu_inst_i-1];
1371  sprintf(tempbuf1,
1372  "%6i %04x %04x %04x %04x%s%s%i %s",
1373  word_numbering,
1374  buf[i + 3],
1375  buf[i + 2],
1376  buf[i + 1],
1377  buf[i],
1378  sign1,
1379  ddu_common,
1380  ddu_inst_n,
1381  ddu_trail2);
1382  ddu_t2_coll.push_back(word_numbering);
1383  std::cout << tempbuf1 << std::endl;
1384  w = 0;
1385  }
1386 
1387  //DMB Trailer 1,2
1388  else if (dmb_tr1_check[1]) {
1389  sprintf(tempbuf1,
1390  "%6i %04x %04x %04x %04x%s%s %s",
1391  word_numbering,
1392  buf[i + 3],
1393  buf[i + 2],
1394  buf[i + 1],
1395  buf[i],
1396  sign1,
1397  dmb_common,
1398  dmb_tr1);
1399  dmb_t1_coll.push_back(word_numbering);
1400  std::cout << tempbuf1 << std::endl;
1401  w = 0;
1402  cfeb_sample = 0;
1403  }
1404 
1405  else if (dmb_tr2_check[1]) {
1406  sprintf(tempbuf1,
1407  "%6i %04x %04x %04x %04x%s%s %s",
1408  word_numbering,
1409  buf[i + 3],
1410  buf[i + 2],
1411  buf[i + 1],
1412  buf[i],
1413  sign1,
1414  dmb_common,
1415  dmb_tr2);
1416  dmb_t2_coll.push_back(word_numbering);
1417  std::cout << tempbuf1 << std::endl;
1418  w = 0;
1419  }
1420  // TMB
1421  else if (tmb_h1_check[1]) {
1422  tmb_start = word_numbering;
1423  tmb_inst_l1a = (buf[i + 2] & 0x000F);
1424  tmb_l1a_coll.push_back(tmb_inst_l1a);
1425  sprintf(tempbuf1,
1426  "%6i %04x %04x %04x %04x%s%s %s%s%s %i",
1427  word_numbering,
1428  buf[i + 3],
1429  buf[i + 2],
1430  buf[i + 1],
1431  buf[i],
1432  sign1,
1433  tmb_common,
1434  tmb_header1,
1435  sign1,
1436  dmb_common_l1a,
1437  tmb_inst_l1a);
1438  tmb_h1_coll.push_back(word_numbering);
1439  std::cout << tempbuf1 << std::endl;
1440  w = 0;
1441  } else if (tmb_tr1_check[1]) {
1442  tmb_stop = word_numbering;
1443  if ((tmb_start != 0) && (tmb_stop != 0) && (tmb_stop > tmb_start)) {
1444  tmb_inst_wcnt2 = 4 * (tmb_stop - tmb_start + 1);
1445  tmb_wcnt2_coll.push_back(tmb_inst_wcnt2);
1446  }
1447  tmb_inst_wcnt1 = (buf[i + 3] & 0x7FF);
1448  tmb_wcnt1_coll.push_back(tmb_inst_wcnt1);
1449  sprintf(tempbuf1,
1450  "%6i %04x %04x %04x %04x%s%s %s%s%s %i %s %i",
1451  word_numbering,
1452  buf[i + 3],
1453  buf[i + 2],
1454  buf[i + 1],
1455  buf[i],
1456  sign1,
1457  tmb_common,
1458  tmb_tr1,
1459  sign1,
1460  alct_common_wcnt1,
1461  tmb_inst_wcnt1,
1462  alct_common_wcnt2,
1463  tmb_inst_wcnt2);
1464  tmb_t1_coll.push_back(word_numbering);
1465  std::cout << tempbuf1 << std::endl;
1466  w = 0;
1467  tmb_inst_wcnt2 = 0;
1468  }
1469  // CFEB
1470  else if (cfeb_tr1_check[1]) {
1471  ++cfeb_sample;
1472  sprintf(tempbuf1,
1473  "%6i %04x %04x %04x %04x%s%s %s%s %s %i",
1474  word_numbering,
1475  buf[i + 3],
1476  buf[i + 2],
1477  buf[i + 1],
1478  buf[i],
1479  sign1,
1480  cfeb_common,
1481  cfeb_tr1,
1482  sign1,
1483  cfeb_common_sample,
1484  cfeb_sample);
1485  cfeb_t1_coll.push_back(word_numbering);
1486  std::cout << tempbuf1 << std::endl;
1487  w = 0;
1488  } else if (cfeb_b_check[1]) {
1489  sprintf(tempbuf1,
1490  "%6i %04x %04x %04x %04x%s%s %s",
1491  word_numbering,
1492  buf[i + 3],
1493  buf[i + 2],
1494  buf[i + 1],
1495  buf[i],
1496  sign1,
1497  cfeb_common,
1498  cfeb_b);
1499  std::cout << tempbuf1 << std::endl;
1500  w = 0;
1501  }
1502 
1503  //ERRORS ddu_tr1_bad_check
1504 
1505  else if (ddu_tr1_bad_check[1]) {
1506  ddu_inst_i = ddu_h1_n_coll.size();
1507  ddu_inst_n = ddu_h1_n_coll[ddu_inst_i - 1];
1508  sprintf(tempbuf1,
1509  "%6i %04x %04x %04x %04x%s%s%i %s %s",
1510  word_numbering,
1511  buf[i + 3],
1512  buf[i + 2],
1513  buf[i + 1],
1514  buf[i],
1515  sign1,
1516  ddu_common,
1517  ddu_inst_n,
1518  ddu_trail1,
1519  ddu_tr1_err_common);
1520  std::cout << tempbuf1 << std::endl;
1521  w = 0;
1522  }
1523 
1524  else if (extraction && (!ddu_h1_check) && (!dcc_check)) {
1525  if (w < 3) {
1526  sprintf(tempbuf, "%6i %04x %04x %04x %04x", word_numbering, buf[i + 3], buf[i + 2], buf[i + 1], buf[i]);
1527  std::cout << tempbuf << std::endl;
1528  w++;
1529  }
1530  if (w == 3) {
1531  std::cout << "..................................................." << std::endl;
1532  w++;
1533  }
1534  }
1535 
1536  else if ((!ddu_h1_check) && (!dcc_check)) {
1537  sprintf(tempbuf, "%6i %04x %04x %04x %04x", word_numbering, buf[i + 3], buf[i + 2], buf[i + 1], buf[i]);
1538  std::cout << tempbuf << std::endl;
1539  }
1540 
1541  i += 3;
1542  ddu_h1_check = false;
1543  dcc_check = false;
1544  }
1545  //char sign[30]; //WARNING 5_0_X
1546  std::cout << "********************************************************************************" << std::endl
1547  << std::endl;
1548  if (fedshort)
1549  std::cout << "For complete output turn off VisualFEDShort in muonCSCDigis configuration file." << std::endl;
1550  std::cout << "********************************************************************************" << std::endl
1551  << std::endl;
1552  std::cout << std::endl << std::endl;
1553  std::cout << " Summary " << std::endl;
1554  std::cout << std::endl << std::endl;
1555  std::cout << ddu_h1_coll.size() << " " << ddu_common << " " << ddu_header1 << " "
1556  << "found" << std::endl;
1557  /*
1558  std::cout << ddu_h1_coll.size() << " " << ddu_h1_n_coll.size() << " " << ddu_l1a_coll.size() <<
1559  " " << ddu_bxn_coll.size() << std::endl;
1560  */
1561  for (unsigned int k = 0; k < ddu_h1_coll.size(); ++k) {
1562  /*
1563  sprintf(sign,"%s%6i%5s %s%i %s %i %s %i","Line: ",
1564  ddu_h1_coll[k],sign1,ddu_common,ddu_h1_n_coll[k],dmb_common_l1a,ddu_l1a_coll[k],
1565  alct_common_bxn,ddu_bxn_coll[k]);
1566  */
1567  std::cout << "Line: "
1568  << " " << ddu_h1_coll[k] << " " << sign1 << " " << ddu_common << " " << ddu_h1_n_coll[k] << " "
1569  << dmb_common_l1a << " " << ddu_l1a_coll[k] << " " << alct_common_bxn << " " << ddu_bxn_coll[k]
1570  << std::endl;
1571  }
1572 
1573  std::cout << std::endl << std::endl;
1574  std::cout << "||||||||||||||||||||" << std::endl;
1575  std::cout << std::endl << std::endl;
1576  std::cout << ddu_h2_coll.size() << " " << ddu_common << " " << ddu_header2 << " "
1577  << "found" << std::endl;
1578  for (unsigned int k = 0; k < ddu_h2_coll.size(); ++k)
1579  std::cout << "Line: " << ddu_h2_coll[k] << std::endl;
1580  std::cout << std::endl << std::endl;
1581  std::cout << "||||||||||||||||||||" << std::endl;
1582  std::cout << std::endl << std::endl;
1583  std::cout << ddu_h3_coll.size() << " " << ddu_common << " " << ddu_header3 << " "
1584  << "found" << std::endl;
1585  for (unsigned int k = 0; k < ddu_h3_coll.size(); ++k)
1586  std::cout << "Line: " << ddu_h3_coll[k] << std::endl;
1587  std::cout << std::endl << std::endl;
1588  std::cout << "||||||||||||||||||||" << std::endl;
1589  std::cout << std::endl << std::endl;
1590  std::cout << ddu_t1_coll.size() << " " << ddu_common << " " << ddu_trail1 << " "
1591  << "found" << std::endl;
1592  for (unsigned int k = 0; k < ddu_t1_coll.size(); ++k)
1593  std::cout << "Line: " << ddu_t1_coll[k] << std::endl;
1594  std::cout << std::endl << std::endl;
1595  std::cout << "||||||||||||||||||||" << std::endl;
1596  std::cout << std::endl << std::endl;
1597  std::cout << ddu_t2_coll.size() << " " << ddu_common << " " << ddu_trail2 << " "
1598  << "found" << std::endl;
1599  for (unsigned int k = 0; k < ddu_t2_coll.size(); ++k)
1600  std::cout << "Line: " << ddu_t2_coll[k] << std::endl;
1601  std::cout << std::endl << std::endl;
1602  std::cout << "||||||||||||||||||||" << std::endl;
1603  std::cout << std::endl << std::endl;
1604  std::cout << ddu_t3_coll.size() << " " << ddu_common << " " << ddu_trail3 << " "
1605  << "found" << std::endl;
1606  for (unsigned int k = 0; k < ddu_t3_coll.size(); ++k)
1607  std::cout << "Line: " << ddu_t3_coll[k] << std::endl;
1608  std::cout << std::endl << std::endl;
1609  std::cout << "||||||||||||||||||||" << std::endl;
1610  std::cout << std::endl << std::endl;
1611  std::cout << dmb_h1_coll.size() << " " << dmb_common << " " << dmb_header1 << " "
1612  << "found" << std::endl;
1613 
1614  for (unsigned int k = 0; k < dmb_h1_coll.size(); ++k) {
1615  /*
1616  sprintf(sign,"%s%6i%5s %s %s %i %s %i %s %i","Line: ",
1617  dmb_h1_coll[k],sign1,dmb_common,dmb_common_crate,dmb_crate_coll[k],dmb_common_slot,
1618  dmb_slot_coll[k],dmb_common_l1a,dmb_l1a_coll[k]);
1619  */
1620  std::cout << "Line: "
1621  << " " << dmb_h1_coll[k] << " " << sign1 << dmb_common << " " << dmb_common_crate << " "
1622  << dmb_crate_coll[k] << " " << dmb_common_slot << " " << dmb_slot_coll[k] << " " << dmb_common_l1a << " "
1623  << dmb_l1a_coll[k] << std::endl;
1624  }
1625  std::cout << std::endl << std::endl;
1626  std::cout << "||||||||||||||||||||" << std::endl;
1627  std::cout << std::endl << std::endl;
1628  std::cout << dmb_h2_coll.size() << " " << dmb_common << " " << dmb_header2 << " "
1629  << "found" << std::endl;
1630  for (unsigned int k = 0; k < dmb_h2_coll.size(); ++k)
1631  std::cout << "Line: " << dmb_h2_coll[k] << std::endl;
1632  std::cout << std::endl << std::endl;
1633  std::cout << "||||||||||||||||||||" << std::endl;
1634  std::cout << std::endl << std::endl;
1635  std::cout << dmb_t1_coll.size() << " " << dmb_common << " " << dmb_tr1 << " "
1636  << "found" << std::endl;
1637  for (unsigned int k = 0; k < dmb_t1_coll.size(); ++k)
1638  std::cout << "Line: " << dmb_t1_coll[k] << std::endl;
1639  std::cout << std::endl << std::endl;
1640  std::cout << "||||||||||||||||||||" << std::endl;
1641  std::cout << std::endl << std::endl;
1642  std::cout << dmb_t2_coll.size() << " " << dmb_common << " " << dmb_tr2 << " "
1643  << "found" << std::endl;
1644  for (unsigned int k = 0; k < dmb_t2_coll.size(); ++k)
1645  std::cout << "Line: " << dmb_t2_coll[k] << std::endl;
1646  std::cout << std::endl << std::endl;
1647  std::cout << "||||||||||||||||||||" << std::endl;
1648  std::cout << std::endl << std::endl;
1649  std::cout << alct_h1_coll.size() << " " << alct_common << " " << alct_header1 << " "
1650  << "found" << std::endl;
1651  for (unsigned int k = 0; k < alct_h1_coll.size(); ++k) {
1652  /*
1653  sprintf(sign,"%s%6i%5s %s %s %i","Line: ",
1654  alct_h1_coll[k],sign1,alct_common,
1655  dmb_common_l1a,alct_l1a_coll[k]);
1656  std::cout << sign << std::endl;
1657  */
1658  std::cout << "Line: "
1659  << " " << alct_h1_coll[k] << " " << sign1 << " " << alct_common << " " << dmb_common_l1a << " "
1660  << alct_l1a_coll[k] << std::endl;
1661  }
1662 
1663  std::cout << std::endl << std::endl;
1664  std::cout << "||||||||||||||||||||" << std::endl;
1665  std::cout << std::endl << std::endl;
1666  std::cout << alct_h2_coll.size() << " " << alct_common << " " << alct_header2 << " "
1667  << "found" << std::endl;
1668  for (unsigned int k = 0; k < alct_h2_coll.size(); ++k) {
1669  /*
1670  sprintf(sign,"%s%6i%5s %s %s %i","Line: ",
1671  alct_h1_coll[k],sign1,alct_common,
1672  alct_common_bxn,alct_bxn_coll[k]);
1673  std::cout << sign << std::endl;
1674  */
1675  std::cout << "Line: "
1676  << " " << alct_h1_coll[k] << " " << sign1 << " " << alct_common << " " << alct_common_bxn << " "
1677  << alct_bxn_coll[k] << std::endl;
1678  }
1679 
1680  std::cout << std::endl << std::endl;
1681  std::cout << "||||||||||||||||||||" << std::endl;
1682  std::cout << std::endl << std::endl;
1683  std::cout << alct_t1_coll.size() << " " << alct_common << " " << alct_tr1 << " "
1684  << "found" << std::endl;
1685  for (unsigned int k = 0; k < alct_t1_coll.size(); ++k) {
1686  /*
1687  sprintf(sign,"%s%6i%5s %s %s %i %s %i","Line: ",
1688  alct_t1_coll[k],sign1,alct_common,
1689  alct_common_wcnt1,alct_wcnt1_coll[k],alct_common_wcnt2,alct_wcnt2_coll[k]);
1690  std::cout << sign << std::endl;
1691  */
1692  std::cout << "Line: "
1693  << " " << alct_t1_coll[k] << " " << sign1 << " " << alct_common << " " << alct_common_wcnt1 << " "
1694  << alct_wcnt1_coll[k] << " " << alct_common_wcnt2 << " ";
1695  if (!alct_wcnt2_coll.empty()) {
1696  std::cout << alct_wcnt2_coll[k] << std::endl;
1697  } else {
1698  std::cout << "Undefined (ALCT Header is not found) " << std::endl;
1699  }
1700  }
1701 
1702  std::cout << std::endl << std::endl;
1703  std::cout << "||||||||||||||||||||" << std::endl;
1704  std::cout << std::endl << std::endl;
1705  std::cout << tmb_h1_coll.size() << " " << tmb_common << " " << tmb_header1 << " "
1706  << "found" << std::endl;
1707  for (unsigned int k = 0; k < tmb_h1_coll.size(); ++k) {
1708  /*
1709  sprintf(sign,"%s%6i%5s %s %s %i","Line: ",
1710  tmb_h1_coll[k],sign1,tmb_common,
1711  dmb_common_l1a,tmb_l1a_coll[k]);
1712  std::cout << sign << std::endl;
1713  */
1714  std::cout << "Line: "
1715  << " " << tmb_h1_coll[k] << " " << sign1 << " " << tmb_common << " " << dmb_common_l1a << " "
1716  << tmb_l1a_coll[k] << std::endl;
1717  }
1718 
1719  std::cout << std::endl << std::endl;
1720  std::cout << "||||||||||||||||||||" << std::endl;
1721  std::cout << std::endl << std::endl;
1722  std::cout << tmb_t1_coll.size() << " " << tmb_common << " " << tmb_tr1 << " "
1723  << "found" << std::endl;
1724  for (unsigned int k = 0; k < tmb_t1_coll.size(); ++k) {
1725  /*
1726  sprintf(sign,"%s%6i%5s %s %s %i %s %i","Line: ",
1727  tmb_t1_coll[k],sign1,tmb_common,
1728  alct_common_wcnt1,tmb_wcnt1_coll[k],alct_common_wcnt2,tmb_wcnt2_coll[k]);
1729  std::cout << sign << std::endl;
1730  */
1731  std::cout << "Line: "
1732  << " " << tmb_t1_coll[k] << " " << sign1 << " " << tmb_common << " " << alct_common_wcnt1 << " "
1733  << tmb_wcnt1_coll[k] << " " << alct_common_wcnt2 << " " << tmb_wcnt2_coll[k] << std::endl;
1734  }
1735 
1736  std::cout << std::endl << std::endl;
1737  std::cout << "||||||||||||||||||||" << std::endl;
1738  std::cout << std::endl << std::endl;
1739  std::cout << cfeb_t1_coll.size() << " " << cfeb_common << " " << cfeb_tr1 << " "
1740  << "found" << std::endl;
1741  for (unsigned int k = 0; k < cfeb_t1_coll.size(); ++k)
1742  std::cout << "Line: " << cfeb_t1_coll[k] << std::endl;
1743  std::cout << "********************************************************************************" << std::endl;
1744 }
T w() const

Member Data Documentation

◆ b904dmb

int CSCDCCUnpacker::b904dmb
private

Definition at line 106 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ b904Setup

bool CSCDCCUnpacker::b904Setup
private

Definition at line 105 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ b904vmecrate

int CSCDCCUnpacker::b904vmecrate
private

Definition at line 106 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ crateToken

edm::ESGetToken<CSCCrateMap, CSCCrateMapRcd> CSCDCCUnpacker::crateToken
private

Definition at line 112 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ cscmapToken

edm::ESGetToken<CSCChamberMap, CSCChamberMapRcd> CSCDCCUnpacker::cscmapToken
private

Definition at line 113 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ debug

bool CSCDCCUnpacker::debug
private

◆ disableMappingCheck

bool CSCDCCUnpacker::disableMappingCheck
private

Definition at line 105 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ errorMask

unsigned int CSCDCCUnpacker::errorMask
private

Definition at line 102 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ examinerMask

unsigned int CSCDCCUnpacker::examinerMask
private

Definition at line 102 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ formatedEventDump

bool CSCDCCUnpacker::formatedEventDump
private

Definition at line 97 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), produce(), and visual_raw().

◆ goodEvent

bool CSCDCCUnpacker::goodEvent
private

Definition at line 84 of file CSCDCCUnpacker.cc.

Referenced by produce().

◆ i_token

edm::EDGetTokenT<FEDRawDataCollection> CSCDCCUnpacker::i_token
private

Token for consumes interface & access to data.

Definition at line 111 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ instantiateDQM

bool CSCDCCUnpacker::instantiateDQM
private

Definition at line 103 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ monitor

CSCMonitorInterface* CSCDCCUnpacker::monitor
private

Definition at line 108 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), produce(), and production_tasks.MonitorJobs::run().

◆ numOfEvents

int CSCDCCUnpacker::numOfEvents
private

Definition at line 101 of file CSCDCCUnpacker.cc.

Referenced by produce().

◆ printEventNumber

bool CSCDCCUnpacker::printEventNumber
private

Definition at line 84 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ SuppressZeroLCT

bool CSCDCCUnpacker::SuppressZeroLCT
private

Suppress zeros LCTs.

Definition at line 99 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ unpackStatusDigis

bool CSCDCCUnpacker::unpackStatusDigis
private

Definition at line 84 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ useCSCShowers_

bool CSCDCCUnpacker::useCSCShowers_
private

option to unpack CSC shower data

Definition at line 94 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ useExaminer

bool CSCDCCUnpacker::useExaminer
private

Definition at line 84 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ useFormatStatus

bool CSCDCCUnpacker::useFormatStatus
private

Definition at line 85 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ useGEMs_

bool CSCDCCUnpacker::useGEMs_
private

option to unpack GEM cluster data

Definition at line 91 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ useRPCs_

bool CSCDCCUnpacker::useRPCs_
private

option to unpack RPC data

Definition at line 88 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ useSelectiveUnpacking

bool CSCDCCUnpacker::useSelectiveUnpacking
private

Definition at line 85 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ visualFEDInspect

bool CSCDCCUnpacker::visualFEDInspect
private

Visualization of raw data.

Definition at line 97 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().

◆ visualFEDShort

bool CSCDCCUnpacker::visualFEDShort
private

Definition at line 97 of file CSCDCCUnpacker.cc.

Referenced by CSCDCCUnpacker(), and produce().