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sistrip::RawToDigiUnpacker Class Reference

#include <SiStripRawToDigiUnpacker.h>

Classes

class  Registry
 private class to register start and end index of digis in a collection More...
 

Public Types

typedef edm::DetSetVector< SiStripDigiDigis
 
typedef edm::DetSetVector< SiStripRawDigiRawDigis
 

Public Member Functions

void createDigis (const SiStripFedCabling &, const FEDRawDataCollection &, SiStripEventSummary &, RawDigis &scope_mode, RawDigis &virgin_raw, RawDigis &proc_raw, Digis &zero_suppr, DetIdCollection &, RawDigis &common_mode)
 creates digis More...
 
void doAPVEmulatorCheck (bool)
 
void doFullCorruptBufferChecks (bool)
 
void extractCm (bool)
 
void legacy (bool)
 
void locateStartOfFedBuffer (const uint16_t &fed_id, const FEDRawData &input, FEDRawData &output)
 Removes any data appended prior to FED buffer and reorders 32-bit words if swapped. More...
 
void printWarningSummary () const
 
void quiet (bool)
 verbosity More...
 
 RawToDigiUnpacker (int16_t appended_bytes, int16_t fed_buffer_dump_freq, int16_t fed_event_dump_freq, int16_t trigger_fed_id, bool using_fed_key, bool unpack_bad_channels, bool mark_missing_feds, const uint32_t errorThreshold)
 constructor More...
 
void triggerFed (const FEDRawDataCollection &, SiStripEventSummary &, const uint32_t &event)
 trigger info More...
 
void useDaqRegister (bool)
 EventSummary update request -> not yet implemented for FEDBuffer class. More...
 
 ~RawToDigiUnpacker ()
 default constructor More...
 

Private Member Functions

void cleanupWorkVectors ()
 method to clear registries and digi collections More...
 
sistrip::FedBufferFormat fedBufferFormat (const uint16_t &register_value)
 returns buffer format More...
 
sistrip::FedReadoutMode fedReadoutMode (const uint16_t &register_value)
 returns buffer readout mode More...
 
void handleException (std::string method_name, std::string extra_info="")
 catches all possible exceptions and rethrows them as cms::Exceptions More...
 
void physicalOrder (uint16_t &readout_order, uint16_t &physical_order)
 order of strips More...
 
 RawToDigiUnpacker ()=delete
 private default constructor More...
 
void readoutOrder (uint16_t &physical_order, uint16_t &readout_order)
 order of strips More...
 
void update (RawDigis &scope_mode, RawDigis &virgin_raw, RawDigis &proc_raw, Digis &zero_suppr, RawDigis &common_mode)
 fill DetSetVectors using registries More...
 
void updateEventSummary (const sistrip::FEDBuffer &, SiStripEventSummary &)
 sets the SiStripEventSummary -> not yet implemented for FEDBuffer class More...
 

Static Private Member Functions

static void dumpRawData (uint16_t fed_id, const FEDRawData &, std::stringstream &)
 dumps raw data to stdout (NB: payload is byte-swapped,headers/trailer are not). More...
 

Private Attributes

std::vector< SiStripRawDigicm_work_digis_
 
std::vector< Registrycm_work_registry_
 
bool doAPVEmulatorCheck_
 
bool doFullCorruptBufferChecks_
 
uint32_t errorThreshold_
 
uint32_t event_
 other values More...
 
bool extractCm_
 
int16_t fedBufferDumpFreq_
 
int16_t fedEventDumpFreq_
 
bool first_
 
int16_t headerBytes_
 configurables More...
 
bool legacy_
 
bool markMissingFeds_
 
bool once_
 
std::vector< SiStripRawDigiproc_work_digis_
 
std::vector< Registryproc_work_registry_
 
bool quiet_
 
std::vector< SiStripRawDigiscope_work_digis_
 
std::vector< Registryscope_work_registry_
 
int16_t triggerFedId_
 
bool unpackBadChannels_
 
bool useDaqRegister_
 
bool useFedKey_
 
std::vector< SiStripRawDigivirgin_work_digis_
 
std::vector< Registryvirgin_work_registry_
 
WarningSummary warnings_
 
std::vector< SiStripDigizs_work_digis_
 digi collections More...
 
std::vector< Registryzs_work_registry_
 registries More...
 

Friends

class RawToClustersLazyUnpacker
 

Detailed Description

Definition at line 26 of file SiStripRawToDigiUnpacker.h.

Member Typedef Documentation

Definition at line 32 of file SiStripRawToDigiUnpacker.h.

Definition at line 33 of file SiStripRawToDigiUnpacker.h.

Constructor & Destructor Documentation

sistrip::RawToDigiUnpacker::RawToDigiUnpacker ( int16_t  appended_bytes,
int16_t  fed_buffer_dump_freq,
int16_t  fed_event_dump_freq,
int16_t  trigger_fed_id,
bool  using_fed_key,
bool  unpack_bad_channels,
bool  mark_missing_feds,
const uint32_t  errorThreshold 
)

constructor

Definition at line 24 of file SiStripRawToDigiUnpacker.cc.

References edm::isDebugEnabled(), LogTrace, and unpackBadChannels_.

25  :
26  headerBytes_( appended_bytes ),
27  fedBufferDumpFreq_( fed_buffer_dump_freq ),
28  fedEventDumpFreq_( fed_event_dump_freq ),
29  triggerFedId_( trigger_fed_id ),
30  useFedKey_( using_fed_key ),
31  unpackBadChannels_( unpack_bad_channels ),
32  markMissingFeds_( mark_missing_feds ),
33  event_(0),
34  once_(true),
35  first_(true),
36  useDaqRegister_(false),
37  quiet_(true),
38  extractCm_(false),
40  doAPVEmulatorCheck_(true),
41  errorThreshold_(errorThreshold),
42  warnings_(sistrip::mlRawToDigi_, "[sistrip::RawToDigiUnpacker::createDigis]", edm::isDebugEnabled())
43  {
44  if ( edm::isDebugEnabled() ) {
45  LogTrace("SiStripRawToDigi")
46  << "[sistrip::RawToDigiUnpacker::"<<__func__<<"]"
47  <<" Constructing object...";
48  }
49  if (unpackBadChannels_) {
50  edm::LogWarning("SiStripRawToDigi") << "Warning: Unpacking of bad channels enabled. Only enable this if you know what you are doing. " << std::endl;
51  }
52  }
bool isDebugEnabled()
static const char mlRawToDigi_[]
#define LogTrace(id)
sistrip::RawToDigiUnpacker::~RawToDigiUnpacker ( )

default constructor

Definition at line 54 of file SiStripRawToDigiUnpacker.cc.

References edm::isDebugEnabled(), and LogTrace.

54  {
55  if ( edm::isDebugEnabled() ) {
56  LogTrace("SiStripRawToDigi")
57  << "[sistrip::RawToDigiUnpacker::"<<__func__<<"]"
58  << " Destructing object...";
59  }
60  }
bool isDebugEnabled()
#define LogTrace(id)
sistrip::RawToDigiUnpacker::RawToDigiUnpacker ( )
privatedelete

private default constructor

Member Function Documentation

void sistrip::RawToDigiUnpacker::cleanupWorkVectors ( )
private

method to clear registries and digi collections

Definition at line 817 of file SiStripRawToDigiUnpacker.cc.

References cm_work_digis_, cm_work_registry_, proc_work_digis_, proc_work_registry_, scope_work_digis_, scope_work_registry_, virgin_work_digis_, virgin_work_registry_, zs_work_digis_, and zs_work_registry_.

Referenced by createDigis().

817  {
818  // Clear working areas and registries
819 
820  localRA.update(zs_work_digis_.size());
821  zs_work_registry_.clear(); zs_work_digis_.clear(); zs_work_digis_.shrink_to_fit(); assert(zs_work_digis_.capacity()==0);
822  virgin_work_registry_.clear(); virgin_work_digis_.clear();
823  proc_work_registry_.clear(); proc_work_digis_.clear();
824  scope_work_registry_.clear(); scope_work_digis_.clear();
825  cm_work_registry_.clear(); cm_work_digis_.clear();
826  }
std::vector< Registry > proc_work_registry_
std::vector< SiStripDigi > zs_work_digis_
digi collections
std::vector< Registry > scope_work_registry_
std::vector< Registry > zs_work_registry_
registries
std::vector< SiStripRawDigi > virgin_work_digis_
std::vector< SiStripRawDigi > scope_work_digis_
std::vector< SiStripRawDigi > proc_work_digis_
std::vector< SiStripRawDigi > cm_work_digis_
std::vector< Registry > cm_work_registry_
std::vector< Registry > virgin_work_registry_
void sistrip::RawToDigiUnpacker::createDigis ( const SiStripFedCabling cabling,
const FEDRawDataCollection buffers,
SiStripEventSummary summary,
RawDigis scope_mode,
RawDigis virgin_raw,
RawDigis proc_raw,
Digis zero_suppr,
DetIdCollection detids,
RawDigis common_mode 
)

creates digis

extract readout mode

FED channel

create unpacker

unpack -> add check to make sure strip < nstrips && strip > last strip......

create unpacker

unpack -> add check to make sure strip < nstrips && strip > last strip......

create unpacker

unpack -> add check to make sure strip < nstrips && strip > last strip......

create unpacker

unpack -> add check to make sure strip < nstrips && strip > last strip......

create unpacker and unpack -> add check to make sure strip < nstrips && strip > last strip......

create unpacker

unpack -> add check to make sure strip < nstrips && strip > last strip......

create unpacker

unpack -> add check to make sure strip < nstrips && strip > last strip......

create unpacker

unpack -> add check to make sure strip < nstrips && strip > last strip......

Definition at line 69 of file SiStripRawToDigiUnpacker.cc.

References sistrip::FEDZSChannelUnpacker::adc(), sistrip::FEDRawChannelUnpacker::adc(), sistrip::FEDBSChannelUnpacker::adc(), sistrip::FEDZSChannelUnpacker::adcPreMix(), sistrip::WarningSummary::add(), sistrip::APV_LATENCY, edmScanValgrind::buffer, officialStyle::chan, cleanupWorkVectors(), cm_work_digis_, cm_work_registry_, FEDRawData::data(), TauDecayModes::dec, doAPVEmulatorCheck_, doFullCorruptBufferChecks_, dumpRawData(), MillePedeFileConverter_cfg::e, errorThreshold_, event_, Exception, extractCm_, sistrip::FED_CABLING, fedBufferDumpFreq_, sistrip::FEDCH_PER_FEUNIT, SiStripFedCabling::fedConnections(), FEDRawDataCollection::FEDData(), fedEventDumpFreq_, SiStripFedCabling::fedIds(), sistrip::FINE_DELAY, first_, cmsPerfStripChart::format, sistrip::FEDZSChannelUnpacker::hasData(), sistrip::FEDRawChannelUnpacker::hasData(), sistrip::FEDBSChannelUnpacker::hasData(), mps_fire::i, input, sistrip::invalid32_, sistrip::invalid_, edm::isDebugEnabled(), SiStripEventSummary::isSet(), crabWrapper::key, legacy_, LogTrace, FEDNumbering::MAXSiStripFEDID, FEDNumbering::MINSiStripFEDID, sistrip::mlRawToDigi_, ALCARECOPromptCalibProdSiPixelAli0T_cff::mode, gen::n, sistrip::PACKET_CODE_VIRGIN_RAW, sistrip::PACKET_CODE_VIRGIN_RAW10, sistrip::PACKET_CODE_VIRGIN_RAW8_BOTBOT, sistrip::PACKET_CODE_VIRGIN_RAW8_TOPBOT, sistrip::PACKET_CODE_ZERO_SUPPRESSED, sistrip::PACKET_CODE_ZERO_SUPPRESSED10, sistrip::PACKET_CODE_ZERO_SUPPRESSED8_BOTBOT, sistrip::PACKET_CODE_ZERO_SUPPRESSED8_TOPBOT, sistrip::FEDZSChannelUnpacker::preMixRawModeUnpacker(), proc_work_digis_, proc_work_registry_, sistrip::FEDRawChannelUnpacker::procRawModeUnpacker(), edm::EDCollection< T >::push_back(), quiet_, sistrip::READOUT_MODE_LEGACY_INVALID, sistrip::READOUT_MODE_LEGACY_PREMIX_RAW, sistrip::READOUT_MODE_LEGACY_PROC_RAW_FAKE, sistrip::READOUT_MODE_LEGACY_PROC_RAW_REAL, sistrip::READOUT_MODE_LEGACY_SCOPE, sistrip::READOUT_MODE_LEGACY_VIRGIN_RAW_FAKE, sistrip::READOUT_MODE_LEGACY_VIRGIN_RAW_REAL, sistrip::READOUT_MODE_LEGACY_ZERO_SUPPRESSED_FAKE, sistrip::READOUT_MODE_LEGACY_ZERO_SUPPRESSED_LITE_FAKE, sistrip::READOUT_MODE_LEGACY_ZERO_SUPPRESSED_LITE_REAL, sistrip::READOUT_MODE_LEGACY_ZERO_SUPPRESSED_REAL, sistrip::READOUT_MODE_PREMIX_RAW, sistrip::READOUT_MODE_PROC_RAW, sistrip::READOUT_MODE_SCOPE, sistrip::READOUT_MODE_VIRGIN_RAW, sistrip::READOUT_MODE_ZERO_SUPPRESSED, sistrip::READOUT_MODE_ZERO_SUPPRESSED_FAKE, sistrip::READOUT_MODE_ZERO_SUPPRESSED_LITE10, sistrip::READOUT_MODE_ZERO_SUPPRESSED_LITE10_CMOVERRIDE, sistrip::READOUT_MODE_ZERO_SUPPRESSED_LITE8, sistrip::READOUT_MODE_ZERO_SUPPRESSED_LITE8_BOTBOT, sistrip::READOUT_MODE_ZERO_SUPPRESSED_LITE8_BOTBOT_CMOVERRIDE, sistrip::READOUT_MODE_ZERO_SUPPRESSED_LITE8_CMOVERRIDE, sistrip::READOUT_MODE_ZERO_SUPPRESSED_LITE8_TOPBOT, sistrip::READOUT_MODE_ZERO_SUPPRESSED_LITE8_TOPBOT_CMOVERRIDE, readoutOrder(), edm::EDCollection< T >::reserve(), SiStripEventSummary::runType(), sistrip::FEDZSChannelUnpacker::sampleNumber(), sistrip::FEDBSChannelUnpacker::sampleNumber(), hcalTTPDigis_cfi::samples, scope_work_digis_, scope_work_registry_, sistrip::FEDRawChannelUnpacker::scopeModeUnpacker(), edm::EDCollection< T >::size(), FEDRawData::size(), str, triggerFedId_, unpackBadChannels_, update(), updateEventSummary(), useDaqRegister_, useFedKey_, SiStripEventSummary::valid(), virgin_work_digis_, virgin_work_registry_, sistrip::FEDRawChannelUnpacker::virginRawModeUnpacker(), sistrip::FEDBSChannelUnpacker::virginRawModeUnpacker(), warnings_, cms::Exception::what(), sistrip::FEDZSChannelUnpacker::zeroSuppressedLiteModeUnpacker(), sistrip::FEDBSChannelUnpacker::zeroSuppressedLiteModeUnpacker(), sistrip::FEDZSChannelUnpacker::zeroSuppressedModeUnpacker(), sistrip::FEDBSChannelUnpacker::zeroSuppressedModeUnpacker(), zs_work_digis_, and zs_work_registry_.

Referenced by sistrip::RawToDigiModule::produce().

69  {
70 
71  // Clear done at the end
72  assert(zs_work_digis_.empty());
73  zs_work_digis_.reserve(localRA.upper());
74  // Reserve space in bad module list
75  detids.reserve(100);
76 
77  // Check if FEDs found in cabling map and event data
78  if ( cabling.fedIds().empty() ) {
79  warnings_.add("No FEDs found in cabling map!");
80  if ( edm::isDebugEnabled() ) {
81  // Check which FED ids have non-zero size buffers
82  std::vector<uint16_t> feds;
83  for ( uint16_t ifed = FEDNumbering::MINSiStripFEDID; ifed < FEDNumbering::MAXSiStripFEDID; ifed++ ) {
84  if ( ifed != triggerFedId_ &&
85  buffers.FEDData( static_cast<int>(ifed) ).size() ) {
86  feds.push_back(ifed);
87  }
88  }
89  LogTrace("SiStripRawToDigi")
90  << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
91  << " Found "
92  << feds.size()
93  << " FED buffers with non-zero size!";
94  }
95  }
96 
97  // Flag for EventSummary update using DAQ register
98  bool first_fed = true;
99 
100  // Retrieve FED ids from cabling map and iterate through
101  std::vector<uint16_t>::const_iterator ifed = cabling.fedIds().begin();
102  for ( ; ifed != cabling.fedIds().end(); ifed++ ) {
103 
104  // ignore trigger FED
105  if ( *ifed == triggerFedId_ ) { continue; }
106 
107  // Retrieve FED raw data for given FED
108  const FEDRawData& input = buffers.FEDData( static_cast<int>(*ifed) );
109 
110  // Some debug on FED buffer size
111  if ( edm::isDebugEnabled() ) {
112  if ( first_ && input.data() ) {
113  std::stringstream ss;
114  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
115  << " Found FED id "
116  << std::setw(4) << std::setfill(' ') << *ifed
117  << " in FEDRawDataCollection"
118  << " with non-zero pointer 0x"
119  << std::hex
120  << std::setw(8) << std::setfill('0')
121  << reinterpret_cast<uint32_t*>( const_cast<uint8_t*>(input.data()))
122  << std::dec
123  << " and size "
124  << std::setw(5) << std::setfill(' ') << input.size()
125  << " chars";
126  LogTrace("SiStripRawToDigi") << ss.str();
127  }
128  }
129 
130  // Dump of FEDRawData to stdout
131  if ( edm::isDebugEnabled() ) {
133  std::stringstream ss;
134  dumpRawData( *ifed, input, ss );
136  }
137  }
138 
139  // get the cabling connections for this FED
140  auto conns = cabling.fedConnections(*ifed);
141 
142  // Check on FEDRawData pointer
143  if ( !input.data() ) {
144  warnings_.add("NULL pointer to FEDRawData for FED", (boost::format("id %1%") % *ifed).str());
145  // Mark FED modules as bad
146  detids.reserve(detids.size()+conns.size());
147  std::vector<FedChannelConnection>::const_iterator iconn = conns.begin();
148  for ( ; iconn != conns.end(); iconn++ ) {
149  if ( !iconn->detId() || iconn->detId() == sistrip::invalid32_ ) continue;
150  detids.push_back(iconn->detId()); //@@ Possible multiple entries (ok for Giovanni)
151  }
152  continue;
153  }
154 
155  // Check on FEDRawData size
156  if ( !input.size() ) {
157  warnings_.add("FEDRawData has zero size for FED", (boost::format("id %1%") % *ifed).str());
158  // Mark FED modules as bad
159  detids.reserve(detids.size()+conns.size());
160  std::vector<FedChannelConnection>::const_iterator iconn = conns.begin();
161  for ( ; iconn != conns.end(); iconn++ ) {
162  if ( !iconn->detId() || iconn->detId() == sistrip::invalid32_ ) continue;
163  detids.push_back(iconn->detId()); //@@ Possible multiple entries (ok for Giovanni)
164  }
165  continue;
166  }
167 
168  // construct FEDBuffer
169  std::unique_ptr<sistrip::FEDBuffer> buffer;
170  try {
171  buffer.reset(new sistrip::FEDBuffer(input.data(),input.size()));
172  buffer->setLegacyMode(legacy_);
173  if (!buffer->doChecks(true)) {
174  if (!unpackBadChannels_ || !buffer->checkNoFEOverflows() )
175  throw cms::Exception("FEDBuffer") << "FED Buffer check fails for FED ID " << *ifed << ".";
176  }
177  if (doFullCorruptBufferChecks_ && !buffer->doCorruptBufferChecks()) {
178  throw cms::Exception("FEDBuffer") << "FED corrupt buffer check fails for FED ID " << *ifed << ".";
179  }
180  }
181  catch (const cms::Exception& e) {
182  warnings_.add("Exception caught when creating FEDBuffer object for FED", (boost::format("id %1%: %2%") % *ifed % e.what()).str());
183  // FED buffer is bad and should not be unpacked. Skip this FED and mark all modules as bad.
184  std::vector<FedChannelConnection>::const_iterator iconn = conns.begin();
185  for ( ; iconn != conns.end(); iconn++ ) {
186  if ( !iconn->detId() || iconn->detId() == sistrip::invalid32_ ) continue;
187  detids.push_back(iconn->detId()); //@@ Possible multiple entries (ok for Giovanni)
188  }
189  continue;
190  }
191 
192  // Check if EventSummary ("trigger FED info") needs updating
193  if ( first_fed && useDaqRegister_ ) { updateEventSummary( *buffer, summary ); first_fed = false; }
194 
195  // Check to see if EventSummary info is set
196  if ( !quiet_ && !summary.isSet() ) {
197  warnings_.add("EventSummary is not set correctly! Missing information from both \"trigger FED\" and \"DAQ registers\"!");
198  }
199 
200  // Check to see if event is to be analyzed according to EventSummary
201  if ( !summary.valid() ) {
202  if ( edm::isDebugEnabled() ) {
203  LogTrace("SiStripRawToDigi")
204  << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
205  << " EventSummary is not valid: skipping...";
206  }
207  continue;
208  }
209 
211  sistrip::FEDReadoutMode mode = buffer->readoutMode();
212  sistrip::FEDLegacyReadoutMode lmode = (legacy_) ? buffer->legacyReadoutMode() : sistrip::READOUT_MODE_LEGACY_INVALID;
213 
214  // Retrive run type
215  sistrip::RunType runType_ = summary.runType();
216  if( runType_ == sistrip::APV_LATENCY || runType_ == sistrip::FINE_DELAY ) { useFedKey_ = false; }
217 
218  // Dump of FED buffer
219  if ( edm::isDebugEnabled() ) {
221  std::stringstream ss;
222  buffer->dump( ss );
224  }
225  }
226 
227  // Iterate through FED channels, extract payload and create Digis
228  std::vector<FedChannelConnection>::const_iterator iconn = conns.begin();
229  for ( ; iconn != conns.end(); iconn++ ) {
230 
232  uint16_t chan = iconn->fedCh();
233 
234  // Check if fed connection is valid
235  if ( !iconn->isConnected() ) { continue; }
236 
237  // Check DetId is valid (if to be used as key)
238  if ( !useFedKey_ && ( !iconn->detId() || iconn->detId() == sistrip::invalid32_ ) ) { continue; }
239 
240  // Check FED channel
241  if (!buffer->channelGood(iconn->fedCh(),doAPVEmulatorCheck_)) {
242  if (!unpackBadChannels_ || !(buffer->fePresent(iconn->fedCh()/FEDCH_PER_FEUNIT) && buffer->feEnabled(iconn->fedCh()/FEDCH_PER_FEUNIT)) ) {
243  detids.push_back(iconn->detId()); //@@ Possible multiple entries (ok for Giovanni)
244  continue;
245  }
246  }
247 
248  // Determine whether FED key is inferred from cabling or channel loop
249  uint32_t fed_key = ( summary.runType() == sistrip::FED_CABLING ) ? ( ( *ifed & sistrip::invalid_ ) << 16 ) | ( chan & sistrip::invalid_ ) : ( ( iconn->fedId() & sistrip::invalid_ ) << 16 ) | ( iconn->fedCh() & sistrip::invalid_ );
250 
251  // Determine whether DetId or FED key should be used to index digi containers
252  uint32_t key = ( useFedKey_ || (!legacy_ && mode == sistrip::READOUT_MODE_SCOPE) || (legacy_ && lmode == sistrip::READOUT_MODE_LEGACY_SCOPE) ) ? fed_key : iconn->detId();
253 
254  // Determine APV std::pair number (needed only when using DetId)
255  uint16_t ipair = ( useFedKey_ || (!legacy_ && mode == sistrip::READOUT_MODE_SCOPE) || (legacy_ && lmode == sistrip::READOUT_MODE_LEGACY_SCOPE) ) ? 0 : iconn->apvPairNumber();
256 
259 
260  Registry regItem(key, 0, zs_work_digis_.size(), 0);
261 
262  try {
265  const uint8_t packet_code = buffer->packetCode(legacy_, iconn->fedCh());
266  switch (packet_code) {
269  while (unpacker.hasData()) {zs_work_digis_.push_back(SiStripDigi(unpacker.sampleNumber()+ipair*256,unpacker.adc())); unpacker++;}
270  break; }
273  while (unpacker.hasData()) {zs_work_digis_.push_back(SiStripDigi(unpacker.sampleNumber()+ipair*256,unpacker.adc())); unpacker++;}
274  break; }
277  while (unpacker.hasData()) {zs_work_digis_.push_back(SiStripDigi(unpacker.sampleNumber()+ipair*256,unpacker.adc()<<2)); unpacker++;}
278  break; }
281  while (unpacker.hasData()) {zs_work_digis_.push_back(SiStripDigi(unpacker.sampleNumber()+ipair*256,unpacker.adc()<<1)); unpacker++;}
282  break; }
283  default: {
284  warnings_.add((boost::format("Invalid packet code %1$#x for zero-suppressed data") % uint16_t(buffer->packetCode(legacy_, iconn->fedCh()))).str(), (boost::format("FED %1% channel %2%") % *ifed % iconn->fedCh()).str());
285  if ( packet_code == 0 ) {
286  // workaround for a pre-2015 bug in the packer: assume default ZS packing
288  while (unpacker.hasData()) {zs_work_digis_.push_back(SiStripDigi(unpacker.sampleNumber()+ipair*256,unpacker.adc())); unpacker++;}
289  }
290  }
291  }
292  } catch (const cms::Exception& e) {
293  warnings_.add("Clusters are not ordered", (boost::format("FED %1% channel %2% : %3%") % *ifed % iconn->fedCh() % e.what()).str());
294  detids.push_back(iconn->detId()); //@@ Possible multiple entries (ok for Giovanni)
295  continue;
296  }
297 
298  regItem.length = zs_work_digis_.size() - regItem.index;
299  if (regItem.length > 0) {
300  regItem.first = zs_work_digis_[regItem.index].strip();
301  zs_work_registry_.push_back(regItem);
302  }
303 
304 
305  // Common mode values
306  if ( extractCm_ ) {
307  try {
308  Registry regItem2( key, 2*ipair, cm_work_digis_.size(), 2 );
309  cm_work_digis_.push_back( SiStripRawDigi( buffer->channel(iconn->fedCh()).cmMedian(0) ) );
310  cm_work_digis_.push_back( SiStripRawDigi( buffer->channel(iconn->fedCh()).cmMedian(1) ) );
311  cm_work_registry_.push_back( regItem2 );
312  } catch (const cms::Exception& e) {
313  warnings_.add("Problem extracting common modes", (boost::format("FED %1% channel %2%:\n %3%") % *ifed % iconn->fedCh() % e.what()).str());
314  }
315  }
316 
317  }
318 
320 
321  Registry regItem(key, 0, zs_work_digis_.size(), 0);
322 
323  try {
326 
328  while (unpacker.hasData()) {zs_work_digis_.push_back(SiStripDigi(unpacker.sampleNumber()+ipair*256,unpacker.adc()));unpacker++;}
329  } catch (const cms::Exception& e) {
330  warnings_.add("Clusters are not ordered", (boost::format("FED %1% channel %2%: %3%") % *ifed % iconn->fedCh() % e.what()).str());
331  detids.push_back(iconn->detId()); //@@ Possible multiple entries (ok for Giovanni)
332  continue;
333  }
334 
335  regItem.length = zs_work_digis_.size() - regItem.index;
336  if (regItem.length > 0) {
337  regItem.first = zs_work_digis_[regItem.index].strip();
338  zs_work_registry_.push_back(regItem);
339  }
340 
341 
342  }
343 
344  else if ((!legacy_ &&
349 
350  Registry regItem(key, 0, zs_work_digis_.size(), 0);
351 
352  size_t bits_shift = 0;
355 
356  try {
359 
361  while (unpacker.hasData()) {zs_work_digis_.push_back(SiStripDigi(unpacker.sampleNumber()+ipair*256,unpacker.adc()<<bits_shift));unpacker++;}
362  } catch (const cms::Exception& e) {
363  warnings_.add("Clusters are not ordered", (boost::format("FED %1% channel %2%: %3%") % *ifed % iconn->fedCh() % e.what()).str());
364  detids.push_back(iconn->detId()); //@@ Possible multiple entries (ok for Giovanni)
365  continue;
366  }
367 
368  regItem.length = zs_work_digis_.size() - regItem.index;
369  if (regItem.length > 0) {
370  regItem.first = zs_work_digis_[regItem.index].strip();
371  zs_work_registry_.push_back(regItem);
372  }
373 
374  }
375 
376  else if ((!legacy_ && mode == sistrip::READOUT_MODE_PREMIX_RAW)
378  ) {
379 
380  Registry regItem(key, 0, zs_work_digis_.size(), 0);
381 
382  try {
383 
386 
388  while (unpacker.hasData()) {zs_work_digis_.push_back(SiStripDigi(unpacker.sampleNumber()+ipair*256,unpacker.adcPreMix()));unpacker++;}
389  } catch (const cms::Exception& e) {
390  warnings_.add("Clusters are not ordered", (boost::format("FED %1% channel %2%: %3%") % *ifed % iconn->fedCh() % e.what()).str());
391  detids.push_back(iconn->detId()); //@@ Possible multiple entries (ok for Giovanni)
392  continue;
393  }
394 
395  regItem.length = zs_work_digis_.size() - regItem.index;
396  if (regItem.length > 0) {
397  regItem.first = zs_work_digis_[regItem.index].strip();
398  zs_work_registry_.push_back(regItem);
399  }
400 
401 
402  }
403 
404  else if ((!legacy_ && mode == sistrip::READOUT_MODE_VIRGIN_RAW)
406  ) {
407 
408  std::vector<uint16_t> samples;
409 
412 
413  uint8_t packet_code = buffer->packetCode(legacy_);
414  if ( packet_code == PACKET_CODE_VIRGIN_RAW ) {
416  while (unpacker.hasData()) {samples.push_back(unpacker.adc());unpacker++;}
417  }
418  else {
419  if ( packet_code == PACKET_CODE_VIRGIN_RAW10 ) {
420  sistrip::FEDBSChannelUnpacker unpacker = sistrip::FEDBSChannelUnpacker::virginRawModeUnpacker(buffer->channel(iconn->fedCh()), 10);
421  while (unpacker.hasData()) {samples.push_back(unpacker.adc());unpacker.sampleNumber();unpacker++;}
422  }
423  else if ( packet_code == PACKET_CODE_VIRGIN_RAW8_BOTBOT ) {
424  sistrip::FEDBSChannelUnpacker unpacker = sistrip::FEDBSChannelUnpacker::virginRawModeUnpacker(buffer->channel(iconn->fedCh()), 8);
425  while (unpacker.hasData()) {samples.push_back(( unpacker.adc()<<2 ));unpacker++;}
426  }
427  else if ( packet_code == PACKET_CODE_VIRGIN_RAW8_TOPBOT ) {
428  sistrip::FEDBSChannelUnpacker unpacker = sistrip::FEDBSChannelUnpacker::virginRawModeUnpacker(buffer->channel(iconn->fedCh()), 8);
429  while (unpacker.hasData()) {samples.push_back(( unpacker.adc()<<1 ));unpacker++;}
430  }
431  }
432  if ( !samples.empty() ) {
433  Registry regItem(key, 256*ipair, virgin_work_digis_.size(), samples.size());
434  uint16_t physical;
435  uint16_t readout;
436  for ( uint16_t i = 0, n = samples.size(); i < n; i++ ) {
437  physical = i%128;
438  readoutOrder( physical, readout ); // convert index from physical to readout order
439  (i/128) ? readout=readout*2+1 : readout=readout*2; // un-multiplex data
440  virgin_work_digis_.push_back( SiStripRawDigi( samples[readout] ) );
441  }
442  virgin_work_registry_.push_back( regItem );
443  }
444  }
445 
446  else if ((!legacy_ && mode == sistrip::READOUT_MODE_PROC_RAW)
448  ) {
449 
450  std::vector<uint16_t> samples;
451 
454 
456  while (unpacker.hasData()) {samples.push_back(unpacker.adc());unpacker++;}
457 
458  if ( !samples.empty() ) {
459  Registry regItem(key, 256*ipair, proc_work_digis_.size(), samples.size());
460  for ( uint16_t i = 0, n = samples.size(); i < n; i++ ) {
461  proc_work_digis_.push_back( SiStripRawDigi( samples[i] ) );
462  }
463  proc_work_registry_.push_back( regItem );
464  }
465  }
466 
467  else if ((!legacy_ && mode == sistrip::READOUT_MODE_SCOPE)
469  ) {
470 
471  std::vector<uint16_t> samples;
472 
474  sistrip::FEDRawChannelUnpacker unpacker = sistrip::FEDRawChannelUnpacker::scopeModeUnpacker(buffer->channel(iconn->fedCh()));
475 
477  while (unpacker.hasData()) {samples.push_back(unpacker.adc());unpacker++;}
478 
479  if ( !samples.empty() ) {
480  Registry regItem(key, 0, scope_work_digis_.size(), samples.size());
481  for ( uint16_t i = 0, n = samples.size(); i < n; i++ ) {
482  scope_work_digis_.push_back( SiStripRawDigi( samples[i] ) );
483  }
484  scope_work_registry_.push_back( regItem );
485  }
486  }
487 
488  else { // Unknown readout mode! => assume scope mode
489 
490  warnings_.add((boost::format("Unknown FED readout mode (%1%)! Assuming SCOPE MODE...") % mode).str());
491 
492  std::vector<uint16_t> samples;
493 
495  sistrip::FEDRawChannelUnpacker unpacker = sistrip::FEDRawChannelUnpacker::scopeModeUnpacker(buffer->channel(iconn->fedCh()));
496 
498  while (unpacker.hasData()) {samples.push_back(unpacker.adc());unpacker++;}
499 
500  if ( !samples.empty() ) {
501  Registry regItem(key, 0, scope_work_digis_.size(), samples.size());
502  for ( uint16_t i = 0, n = samples.size(); i < n; i++ ) {
503  scope_work_digis_.push_back( SiStripRawDigi( samples[i] ) );
504  }
505  scope_work_registry_.push_back( regItem );
506 
507  if ( edm::isDebugEnabled() ) {
508  std::stringstream ss;
509  ss << "Extracted " << samples.size()
510  << " SCOPE MODE digis (samples[0] = "
511  << samples[0]
512  << ") from FED id/ch "
513  << iconn->fedId()
514  << "/"
515  << iconn->fedCh();
516  LogTrace("SiStripRawToDigi") << ss.str();
517  }
518  } else {
519  warnings_.add("No SM digis found!");
520  }
521  }
522  } // channel loop
523  } // fed loop
524 
525  // bad channels warning
526  unsigned int detIdsSize = detids.size();
527  if ( edm::isDebugEnabled() && detIdsSize ) {
528  std::ostringstream ss;
529  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
530  << " Problems were found in data and " << detIdsSize << " channels could not be unpacked. "
531  << "See output of FED Hardware monitoring for more information. ";
533  }
534  if( (errorThreshold_ != 0) && (detIdsSize > errorThreshold_) ) {
535  edm::LogError("TooManyErrors") << "Total number of errors = " << detIdsSize;
536  }
537 
538  // update DetSetVectors
539  update(scope_mode, virgin_raw, proc_raw, zero_suppr, cm_values);
540 
541  // increment event counter
542  event_++;
543 
544  // no longer first event!
545  if ( first_ ) { first_ = false; }
546 
547  // final cleanup, just in case
549  }
static FEDRawChannelUnpacker procRawModeUnpacker(const FEDChannel &channel)
size_type size() const
Definition: EDCollection.h:97
static const uint8_t PACKET_CODE_ZERO_SUPPRESSED8_BOTBOT
bool isDebugEnabled()
void update(RawDigis &scope_mode, RawDigis &virgin_raw, RawDigis &proc_raw, Digis &zero_suppr, RawDigis &common_mode)
fill DetSetVectors using registries
std::vector< Registry > proc_work_registry_
void updateEventSummary(const sistrip::FEDBuffer &, SiStripEventSummary &)
sets the SiStripEventSummary -> not yet implemented for FEDBuffer class
static FEDZSChannelUnpacker zeroSuppressedModeUnpacker(const FEDChannel &channel)
std::vector< SiStripDigi > zs_work_digis_
digi collections
std::vector< Registry > scope_work_registry_
void cleanupWorkVectors()
method to clear registries and digi collections
std::vector< Registry > zs_work_registry_
registries
static FEDZSChannelUnpacker preMixRawModeUnpacker(const FEDChannel &channel)
static const uint32_t invalid32_
Definition: Constants.h:15
static FEDRawChannelUnpacker scopeModeUnpacker(const FEDChannel &channel)
static FEDRawChannelUnpacker virginRawModeUnpacker(const FEDChannel &channel)
static FEDBSChannelUnpacker zeroSuppressedModeUnpacker(const FEDChannel &channel, uint16_t num_bits)
static const char mlRawToDigi_[]
void push_back(T const &t)
Definition: EDCollection.h:67
char const * what() const override
Definition: Exception.cc:103
static FEDBSChannelUnpacker zeroSuppressedLiteModeUnpacker(const FEDChannel &channel, uint16_t num_bits)
static FEDBSChannelUnpacker virginRawModeUnpacker(const FEDChannel &channel, uint16_t num_bits)
size_t size() const
Lenght of the data buffer in bytes.
Definition: FEDRawData.h:47
static std::string const input
Definition: EdmProvDump.cc:48
static const uint8_t PACKET_CODE_ZERO_SUPPRESSED8_TOPBOT
static const uint8_t PACKET_CODE_ZERO_SUPPRESSED10
const sistrip::RunType & runType() const
std::vector< SiStripRawDigi > virgin_work_digis_
static const uint8_t PACKET_CODE_VIRGIN_RAW10
void readoutOrder(uint16_t &physical_order, uint16_t &readout_order)
order of strips
static const uint8_t PACKET_CODE_ZERO_SUPPRESSED
const FEDRawData & FEDData(int fedid) const
retrieve data for fed
static void dumpRawData(uint16_t fed_id, const FEDRawData &, std::stringstream &)
dumps raw data to stdout (NB: payload is byte-swapped,headers/trailer are not).
FedsConstIterRange fedIds() const
std::vector< SiStripRawDigi > scope_work_digis_
format
Some error handling for the usage.
A Digi for the silicon strip detector, containing both strip and adc information, and suitable for st...
Definition: SiStripDigi.h:12
static const uint8_t PACKET_CODE_VIRGIN_RAW8_TOPBOT
std::vector< SiStripRawDigi > proc_work_digis_
#define LogTrace(id)
void add(const std::string &message, const std::string &details="")
void reserve(size_type n)
Definition: EDCollection.h:111
std::vector< SiStripRawDigi > cm_work_digis_
static const uint8_t PACKET_CODE_VIRGIN_RAW8_BOTBOT
static FEDZSChannelUnpacker zeroSuppressedLiteModeUnpacker(const FEDChannel &channel)
static const uint16_t FEDCH_PER_FEUNIT
static const uint16_t invalid_
Definition: Constants.h:16
ConnsConstIterRange fedConnections(uint16_t fed_id) const
chan
lumi = TPaveText(lowX+0.38, lowY+0.061, lowX+0.45, lowY+0.161, "NDC") lumi.SetBorderSize( 0 ) lumi...
const unsigned char * data() const
Return a const pointer to the beginning of the data buffer.
Definition: FEDRawData.cc:28
std::vector< Registry > cm_work_registry_
A Digi for the silicon strip detector, containing only adc information, and suitable for storing raw ...
#define str(s)
static const uint8_t PACKET_CODE_VIRGIN_RAW
std::vector< Registry > virgin_work_registry_
void sistrip::RawToDigiUnpacker::doAPVEmulatorCheck ( bool  do_APVEmulator_check)
inline

Definition at line 184 of file SiStripRawToDigiUnpacker.h.

184 { doAPVEmulatorCheck_ = do_APVEmulator_check; }
void sistrip::RawToDigiUnpacker::doFullCorruptBufferChecks ( bool  do_full_corrupt_buffer_checks)
inline

Definition at line 182 of file SiStripRawToDigiUnpacker.h.

182 { doFullCorruptBufferChecks_ = do_full_corrupt_buffer_checks; }
void sistrip::RawToDigiUnpacker::dumpRawData ( uint16_t  fed_id,
const FEDRawData buffer,
std::stringstream &  ss 
)
staticprivate

dumps raw data to stdout (NB: payload is byte-swapped,headers/trailer are not).

Definition at line 1127 of file SiStripRawToDigiUnpacker.cc.

References FEDRawData::data(), TauDecayModes::dec, relativeConstraints::empty, mps_fire::i, sistrip::invalid32_, and FEDRawData::size().

Referenced by createDigis().

1127  {
1128 
1129  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1130  << " Dump of buffer for FED id " << fed_id << std::endl
1131  << " Buffer contains " << buffer.size()
1132  << " bytes (NB: payload is byte-swapped)" << std::endl;
1133 
1134  if ( false ) {
1135  uint32_t* buffer_u32 = reinterpret_cast<uint32_t*>( const_cast<unsigned char*>( buffer.data() ) );
1136  unsigned int empty = 0;
1137 
1138  ss << "Byte-> 4 5 6 7 0 1 2 3\n";
1139  for ( uint32_t i = 0; i < buffer.size()/8; i++ ) {
1140  unsigned int temp0 = buffer_u32[i*2] & sistrip::invalid32_;
1141  unsigned int temp1 = buffer_u32[i*2+1] & sistrip::invalid32_;
1142  if ( !temp0 && !temp1 ) { empty++; }
1143  else {
1144  if ( empty ) {
1145  ss << " [ empty words ]" << std::endl;
1146  empty = 0;
1147  }
1148  ss << std::dec
1149  << std::setfill(' ') << std::setw(6) << i*8 << ": "
1150  << std::hex
1151  << std::setfill('0') << std::setw(8) << temp0
1152  << std::setfill('0') << std::setw(8) << temp1
1153  << std::dec
1154  << std::endl;
1155  }
1156  }
1157 
1158  } else {
1159 
1160  ss << " Byte | <---- Byte order ----< | Byte" << std::endl;
1161  ss << " cntr | 7 6 5 4 3 2 1 0 | cntr" << std::endl;
1162  for ( uint32_t i = 0; i < buffer.size()/8; i++ ) {
1163  //if ( i>=20 && ((i+4)<(buffer.size()/8)) ) { continue; }
1164  uint16_t tmp0 = buffer.data()[i*8+0] & 0xFF;
1165  uint16_t tmp1 = buffer.data()[i*8+1] & 0xFF;
1166  uint16_t tmp2 = buffer.data()[i*8+2] & 0xFF;
1167  uint16_t tmp3 = buffer.data()[i*8+3] & 0xFF;
1168  uint16_t tmp4 = buffer.data()[i*8+4] & 0xFF;
1169  uint16_t tmp5 = buffer.data()[i*8+5] & 0xFF;
1170  uint16_t tmp6 = buffer.data()[i*8+6] & 0xFF;
1171  uint16_t tmp7 = buffer.data()[i*8+7] & 0xFF;
1172 // if ( !tmp0 && !tmp1 && !tmp2 && !tmp3 &&
1173 // !tmp4 && !tmp5 && !tmp6 && !tmp7 ) { empty++; }
1174 // else {
1175 // if ( empty ) {
1176 // ss << " [.."
1177 // << std::dec << std::setfill('.') << std::setw(4) << empty
1178 // << " null words....]" << std::endl;
1179 // empty = 0;
1180 // }
1181  ss << std::dec
1182  << std::setfill(' ') << std::setw(6) << i*8+7 << " : "
1183  << std::hex
1184  << std::setfill('0') << std::setw(2) << tmp7 << " "
1185  << std::setfill('0') << std::setw(2) << tmp6 << " "
1186  << std::setfill('0') << std::setw(2) << tmp5 << " "
1187  << std::setfill('0') << std::setw(2) << tmp4 << " "
1188  << std::setfill('0') << std::setw(2) << tmp3 << " "
1189  << std::setfill('0') << std::setw(2) << tmp2 << " "
1190  << std::setfill('0') << std::setw(2) << tmp1 << " "
1191  << std::setfill('0') << std::setw(2) << tmp0
1192  << std::dec
1193  << " :" << std::setfill(' ') << std::setw(6) << i*8
1194  << std::endl;
1195 // }
1196  }
1197 
1198  }
1199  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1200  << " End of FED buffer";
1201  }
static const uint32_t invalid32_
Definition: Constants.h:15
size_t size() const
Lenght of the data buffer in bytes.
Definition: FEDRawData.h:47
const unsigned char * data() const
Return a const pointer to the beginning of the data buffer.
Definition: FEDRawData.cc:28
void sistrip::RawToDigiUnpacker::extractCm ( bool  extract_cm)
inline

Definition at line 180 of file SiStripRawToDigiUnpacker.h.

180 { extractCm_ = extract_cm; }
sistrip::FedBufferFormat sistrip::RawToDigiUnpacker::fedBufferFormat ( const uint16_t &  register_value)
inlineprivate
sistrip::FedReadoutMode sistrip::RawToDigiUnpacker::fedReadoutMode ( const uint16_t &  register_value)
inlineprivate

returns buffer readout mode

Definition at line 171 of file SiStripRawToDigiUnpacker.h.

172 {
173  return static_cast<sistrip::FedReadoutMode>(register_value&0xF);
174 }
void sistrip::RawToDigiUnpacker::handleException ( std::string  method_name,
std::string  extra_info = "" 
)
private

catches all possible exceptions and rethrows them as cms::Exceptions

Definition at line 1203 of file SiStripRawToDigiUnpacker.cc.

References MillePedeFileConverter_cfg::e, cppFunctionSkipper::exception, edm::isDebugEnabled(), and sistrip::mlRawToDigi_.

1203  {
1204 
1205  method_name = "sistrip::RawToDigiUnpacker::" + method_name;
1206  try {
1207  throw; // rethrow caught exception to be dealt with below
1208  }
1209  catch ( const cms::Exception& e ) {
1210  //throw e; // rethrow cms::Exception to be caught by framework
1211  }
1212  catch ( const std::exception& e ) {
1213  if ( edm::isDebugEnabled() ) {
1214  std::stringstream ss;
1215  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1216  << " Caught std::exception!" << std::endl;
1217  if ( !extra_info.empty() ) {
1218  ss << " Information: " << extra_info << std::endl;
1219  }
1220  ss << " Caught std::exception in ["
1221  << method_name << "] with message:" << std::endl
1222  << e.what();
1224  }
1225  //throw cms::Exception(sistrip::mlRawToDigi_) << ss.str();
1226  }
1227  catch (...) {
1228  if ( edm::isDebugEnabled() ) {
1229  std::stringstream ss;
1230  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1231  << " Caught unknown exception!" << std::endl;
1232  if ( !extra_info.empty() ) {
1233  ss << " Information: " << extra_info << std::endl;
1234  }
1235  ss << "Caught unknown exception in ["
1236  << method_name << "]" << std::endl;
1238  }
1239  //throw cms::Exception(sistrip::mlRawToDigi_) << ss.str();
1240  }
1241  }
bool isDebugEnabled()
static const char mlRawToDigi_[]
void sistrip::RawToDigiUnpacker::legacy ( bool  legacy)
inline
void sistrip::RawToDigiUnpacker::locateStartOfFedBuffer ( const uint16_t &  fed_id,
const FEDRawData input,
FEDRawData output 
)

Removes any data appended prior to FED buffer and reorders 32-bit words if swapped.

Definition at line 946 of file SiStripRawToDigiUnpacker.cc.

References FEDRawData::data(), TauDecayModes::dec, runEdmFileComparison::found, headerBytes_, edm::isDebugEnabled(), LogTrace, sistrip::mlRawToDigi_, PFRecoTauDiscriminationByIsolation_cfi::offset, FEDRawData::resize(), and FEDRawData::size().

946  {
947 
948  // Check size of input buffer
949  if ( input.size() < 24 ) {
950  output.resize( input.size() ); // Return UNadjusted buffer start position and size
951  memcpy( output.data(), input.data(), input.size() );
952  if ( edm::isDebugEnabled() ) {
953  std::stringstream ss;
954  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "] "
955  << "Input FEDRawData with FED id " << fed_id
956  << " has size " << input.size();
958  }
959  return;
960  }
961 
962  // Iterator through buffer to find DAQ header
963  bool found = false;
964  uint16_t ichar = 0;
965  while ( ichar < input.size()-16 && !found ) {
966  uint16_t offset = headerBytes_ < 0 ? ichar : headerBytes_; // Negative value means use "search mode" to find DAQ header
967  uint32_t* input_u32 = reinterpret_cast<uint32_t*>( const_cast<unsigned char*>( input.data() ) + offset );
968  uint32_t* fed_trailer = reinterpret_cast<uint32_t*>( const_cast<unsigned char*>( input.data() ) + input.size() - 8 );
969 
970  // see info on FED 32-bit swapping at end-of-file
971 
972  bool old_vme_header = ( input_u32[0] & 0xF0000000 ) == 0x50000000 && ( fed_trailer[0] & 0xF0000000 ) == 0xA0000000 && ( (fed_trailer[0] & 0x00FFFFFF)*0x8 ) == (input.size() - offset);
973 
974  bool old_slink_header = ( input_u32[1] & 0xF0000000 ) == 0x50000000 && ( fed_trailer[1] & 0xF0000000 ) == 0xA0000000 && ( (fed_trailer[1] & 0x00FFFFFF)*0x8 ) == (input.size() - offset);
975 
976  bool old_slink_payload = ( input_u32[3] & 0xFF000000 ) == 0xED000000;
977 
978  bool new_buffer_format = ( input_u32[2] & 0xFF000000 ) == 0xC5000000;
979 
980  if ( old_vme_header ) {
981 
982  // Found DAQ header at byte position 'offset'
983  found = true;
984  output.resize( input.size()-offset );
985  memcpy( output.data(), // target
986  input.data()+offset, // source
987  input.size()-offset ); // nbytes
988  if ( headerBytes_ < 0 ) {
989  if ( edm::isDebugEnabled() ) {
990  std::stringstream ss;
991  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
992  << " Buffer for FED id " << fed_id
993  << " has been found at byte position " << offset
994  << " with a size of " << input.size()-offset << " bytes."
995  << " Adjust the configurable 'AppendedBytes' to " << offset;
996  LogTrace("SiStripRawToDigi") << ss.str();
997  }
998  }
999 
1000  } else if ( old_slink_header ) {
1001 
1002  if ( old_slink_payload ) {
1003 
1004  // Found DAQ header (with MSB and LSB 32-bit words swapped) at byte position 'offset'
1005  found = true;
1006  output.resize( input.size()-offset );
1007  uint32_t* output_u32 = reinterpret_cast<uint32_t*>( const_cast<unsigned char*>( output.data() ) );
1008  uint16_t iter = offset;
1009  while ( iter < output.size() / sizeof(uint32_t) ) {
1010  output_u32[iter] = input_u32[iter+1];
1011  output_u32[iter+1] = input_u32[iter];
1012  iter+=2;
1013  }
1014  if ( headerBytes_ < 0 ) {
1015  if ( edm::isDebugEnabled() ) {
1016  std::stringstream ss;
1017  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1018  << " Buffer (with MSB and LSB 32-bit words swapped) for FED id " << fed_id
1019  << " has been found at byte position " << offset
1020  << " with a size of " << output.size() << " bytes."
1021  << " Adjust the configurable 'AppendedBytes' to " << offset;
1022  LogTrace("SiStripRawToDigi") << ss.str();
1023  }
1024  }
1025 
1026  } else if ( new_buffer_format ) {
1027 
1028  // Found DAQ header at byte position 'offset'
1029  found = true;
1030  output.resize( input.size()-offset );
1031  memcpy( output.data(), // target
1032  input.data()+offset, // source
1033  input.size()-offset ); // nbytes
1034  if ( headerBytes_ < 0 ) {
1035  if ( edm::isDebugEnabled() ) {
1036  std::stringstream ss;
1037  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1038  << " Buffer for FED id " << fed_id
1039  << " has been found at byte position " << offset
1040  << " with a size of " << input.size()-offset << " bytes."
1041  << " Adjust the configurable 'AppendedBytes' to " << offset;
1042  LogTrace("SiStripRawToDigi") << ss.str();
1043  }
1044  }
1045 
1046  } else { headerBytes_ < 0 ? found = false : found = true; }
1047  } else { headerBytes_ < 0 ? found = false : found = true; }
1048  ichar++;
1049  }
1050 
1051  // Check size of output buffer
1052  if ( output.size() == 0 ) {
1053 
1054  // Did not find DAQ header after search => return buffer with null size
1055  output.resize( 0 ); //@@ NULL SIZE
1056  memcpy( output.data(), input.data(), 0 ); //@@ NULL SIZE
1057  if ( edm::isDebugEnabled() ) {
1058  std::stringstream ss;
1059  if ( headerBytes_ < 0 ) {
1060  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1061  << " DAQ header not found within buffer for FED id: " << fed_id;
1062  } else {
1063  uint32_t* input_u32 = reinterpret_cast<uint32_t*>( const_cast<unsigned char*>( input.data() ) );
1064  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1065  << " DAQ header not found at expected location for FED id: " << fed_id << std::endl
1066  << " First 64-bit word of buffer is 0x"
1067  << std::hex
1068  << std::setfill('0') << std::setw(8) << input_u32[0]
1069  << std::setfill('0') << std::setw(8) << input_u32[1]
1070  << std::dec << std::endl
1071  << " Adjust 'AppendedBytes' configurable to '-1' to activate 'search mode'";
1072  }
1074  }
1075 
1076  } else if ( output.size() < 24 ) { // Found DAQ header after search, but too few words
1077 
1078  if ( edm::isDebugEnabled() ) {
1079  std::stringstream ss;
1080  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1081  << " Unexpected buffer size! FEDRawData with FED id " << fed_id
1082  << " has size " << output.size();
1084  }
1085  }
1086  }
bool isDebugEnabled()
static const char mlRawToDigi_[]
size_t size() const
Lenght of the data buffer in bytes.
Definition: FEDRawData.h:47
void resize(size_t newsize)
Definition: FEDRawData.cc:32
#define LogTrace(id)
const unsigned char * data() const
Return a const pointer to the beginning of the data buffer.
Definition: FEDRawData.cc:28
void sistrip::RawToDigiUnpacker::physicalOrder ( uint16_t &  readout_order,
uint16_t &  physical_order 
)
inlineprivate

order of strips

Definition at line 158 of file SiStripRawToDigiUnpacker.h.

159 {
160  physical_order = ( (32 * (readout_order%4)) + (8 * static_cast<uint16_t>(static_cast<float>(readout_order)/4.0)) - (31 * static_cast<uint16_t>(static_cast<float>(readout_order)/16.0)) );
161 }
void sistrip::RawToDigiUnpacker::printWarningSummary ( ) const
inline
void sistrip::RawToDigiUnpacker::quiet ( bool  quiet)
inline

verbosity

Definition at line 176 of file SiStripRawToDigiUnpacker.h.

void sistrip::RawToDigiUnpacker::readoutOrder ( uint16_t &  physical_order,
uint16_t &  readout_order 
)
inlineprivate

order of strips

Definition at line 153 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

154 {
155  readout_order = ( 4*((static_cast<uint16_t>((static_cast<float>(physical_order)/8.0)))%4) + static_cast<uint16_t>(static_cast<float>(physical_order)/32.0) + 16*(physical_order%8) );
156 }
void sistrip::RawToDigiUnpacker::triggerFed ( const FEDRawDataCollection buffers,
SiStripEventSummary summary,
const uint32_t &  event 
)

trigger info

Definition at line 828 of file SiStripRawToDigiUnpacker.cc.

References SiStripEventSummary::bx(), SiStripEventSummary::commissioningInfo(), FEDRawData::data(), SiStripEventSummary::event(), FEDRawDataCollection::FEDData(), TFHeaderDescription::getBunchCrossing(), TFHeaderDescription::getFedEventNumber(), RecoTauValidation_cfi::header, edm::isDebugEnabled(), SiStripEventSummary::isSet(), FEDNumbering::lastFEDId(), FEDHeader::length, FEDTrailer::length, LogTrace, sistrip::mlRawToDigi_, once_, FEDRawData::size(), heppy_report::summary, groupFilesInBlocks::temp, SiStripEventSummary::triggerFed(), and triggerFedId_.

Referenced by sistrip::RawToDigiModule::produce().

828  {
829 
830  // Pointer to data (recast as 32-bit words) and number of 32-bit words
831  uint32_t* data_u32 = nullptr;
832  uint32_t size_u32 = 0;
833 
834  // Search mode
835  if ( triggerFedId_ < 0 ) {
836 
837  uint16_t ifed = 0;
838  while ( triggerFedId_ < 0 &&
839  ifed < 1 + FEDNumbering::lastFEDId() ) {
840  const FEDRawData& trigger_fed = buffers.FEDData( ifed );
841  if ( trigger_fed.data() && trigger_fed.size() ) {
842  uint8_t* temp = const_cast<uint8_t*>( trigger_fed.data() );
843  data_u32 = reinterpret_cast<uint32_t*>( temp ) + FEDHeader::length/sizeof(uint32_t) + 1;
844  size_u32 = trigger_fed.size()/sizeof(uint32_t) - FEDHeader::length/sizeof(uint32_t) - 1;
845  const FEDTrailer fedTrailer( temp + trigger_fed.size() - FEDTrailer::length );
846  if ( fedTrailer.conscheck() == 0xDEADFACE ) {
847  triggerFedId_ = ifed;
848  if ( edm::isDebugEnabled() ) {
849  std::stringstream ss;
850  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
851  << " Search mode for 'trigger FED' activated!"
852  << " Found 'trigger FED' info with id " << triggerFedId_;
853  LogTrace("SiStripRawToDigi") << ss.str();
854  }
855  }
856  }
857  ifed++;
858  }
859  if ( triggerFedId_ < 0 ) {
860  triggerFedId_ = 0;
861  if ( edm::isDebugEnabled() ) {
862  std::stringstream ss;
863  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
864  << " Search mode for 'trigger FED' activated!"
865  << " 'Trigger FED' info not found!";
867  }
868  }
869  }
870 
871  // "Trigger FED" id given in .cfg file
872  else if ( triggerFedId_ > 0 ) {
873 
874  const FEDRawData& trigger_fed = buffers.FEDData( triggerFedId_ );
875  if ( trigger_fed.data() && trigger_fed.size() ) {
876  uint8_t* temp = const_cast<uint8_t*>( trigger_fed.data() );
877  data_u32 = reinterpret_cast<uint32_t*>( temp ) + FEDHeader::length/sizeof(uint32_t) + 1;
878  size_u32 = trigger_fed.size()/sizeof(uint32_t) - FEDHeader::length/sizeof(uint32_t) - 1;
879  const FEDTrailer fedTrailer( temp + trigger_fed.size() - FEDTrailer::length );
880  if ( fedTrailer.conscheck() != 0xDEADFACE ) {
881  if ( edm::isDebugEnabled() ) {
883  << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
884  << " Unexpected stamp found in DAQ trailer (ie, not 0xDEADFACE)!"
885  << " Buffer appears not to contain 'trigger FED' data!";
886  }
887  triggerFedId_ = 0;
888  }
889  }
890 
891  } else {
892  triggerFedId_ = 0;
893  data_u32 = nullptr;
894  size_u32 = 0;
895  }
896 
897  // Populate summary object with commissioning information
898  if ( triggerFedId_ > 0 ) {
899 
900  // Some checks
901  if ( !data_u32 ) {
902  if ( edm::isDebugEnabled() ) {
903  std::stringstream ss;
904  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
905  << " NULL pointer to 'trigger FED' data";
907  }
908  return;
909  }
910  if ( size_u32 < sizeof(TFHeaderDescription)/sizeof(uint32_t) ) {
911  if ( edm::isDebugEnabled() ) {
912  std::stringstream ss;
913  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
914  << " Unexpected 'Trigger FED' data size [32-bit words]: " << size_u32;
916  }
917  return;
918  }
919 
920  // Write event-specific data to event
922  summary.event( static_cast<uint32_t>( header->getFedEventNumber()) );
923  summary.bx( static_cast<uint32_t>( header->getBunchCrossing()) );
924 
925  // Write commissioning information to event
926  uint32_t hsize = sizeof(TFHeaderDescription)/sizeof(uint32_t);
927  uint32_t* head = &data_u32[hsize];
928  summary.commissioningInfo( head, event );
929  summary.triggerFed( triggerFedId_ );
930 
931  }
932 
933  // Some debug
934  if ( summary.isSet() && once_ ) {
935  if ( edm::isDebugEnabled() ) {
936  std::stringstream ss;
937  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
938  << " EventSummary built from \"trigger FED\":"
939  << std::endl << summary;
940  LogTrace("SiStripRawToDigi") << ss.str();
941  }
942  once_ = false;
943  }
944  }
bool isDebugEnabled()
static const uint32_t length
Definition: FEDTrailer.h:61
static const uint32_t length
Definition: FEDHeader.h:54
static const char mlRawToDigi_[]
unsigned long getBunchCrossing()
size_t size() const
Lenght of the data buffer in bytes.
Definition: FEDRawData.h:47
unsigned long getFedEventNumber()
const uint32_t & bx() const
const FEDRawData & FEDData(int fedid) const
retrieve data for fed
void commissioningInfo(const uint32_t *const buffer, const uint32_t &event)
const uint32_t & event() const
#define LogTrace(id)
uint16_t triggerFed() const
const unsigned char * data() const
Return a const pointer to the beginning of the data buffer.
Definition: FEDRawData.cc:28
static constexpr int lastFEDId()
Definition: FEDNumbering.h:22
Definition: event.py:1
void sistrip::RawToDigiUnpacker::update ( RawDigis scope_mode,
RawDigis virgin_raw,
RawDigis proc_raw,
Digis zero_suppr,
RawDigis common_mode 
)
private

fill DetSetVectors using registries

Definition at line 551 of file SiStripRawToDigiUnpacker.cc.

References cm_work_digis_, cm_work_registry_, popcon2dropbox::copy(), end, Exception, extractCm_, min(), proc_work_digis_, proc_work_registry_, scope_work_digis_, scope_work_registry_, jetUpdater_cfi::sort, edm::DetSetVector< T >::swap(), virgin_work_digis_, virgin_work_registry_, zs_work_digis_, and zs_work_registry_.

Referenced by progressbar.ProgressBar::__next__(), MatrixUtil.Matrix::__setitem__(), MatrixUtil.Steps::__setitem__(), Vispa.Gui.VispaWidget.VispaWidget::autosize(), createDigis(), Vispa.Views.LineDecayView.LineDecayContainer::createObject(), Vispa.Views.LineDecayView.LineDecayContainer::deselectAllObjects(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::deselectAllWidgets(), Vispa.Gui.VispaWidget.VispaWidget::enableAutosizing(), progressbar.ProgressBar::finish(), Vispa.Gui.MenuWidget.MenuWidget::leaveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseMoveEvent(), Vispa.Gui.MenuWidget.MenuWidget::mouseMoveEvent(), Vispa.Views.LineDecayView.LineDecayContainer::mouseMoveEvent(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner::mouseReleaseEvent(), Vispa.Views.LineDecayView.LineDecayContainer::objectMoved(), MatrixUtil.Steps::overwrite(), Vispa.Views.LineDecayView.LineDecayContainer::removeObject(), Vispa.Gui.ConnectableWidget.ConnectableWidget::removePorts(), Vispa.Gui.FindDialog.FindDialog::reset(), Vispa.Gui.PortConnection.PointToPointConnection::select(), Vispa.Gui.VispaWidget.VispaWidget::select(), Vispa.Views.LineDecayView.LineDecayContainer::select(), Vispa.Gui.VispaWidget.VispaWidget::setText(), Vispa.Gui.VispaWidget.VispaWidget::setTitle(), Vispa.Gui.ZoomableWidget.ZoomableWidget::setZoom(), Vispa.Views.LineDecayView.LineDecayContainer::setZoom(), and Vispa.Gui.PortConnection.PointToPointConnection::updateConnection().

551  {
552 
553  if ( ! zs_work_registry_.empty() ) {
555  std::vector< edm::DetSet<SiStripDigi> > sorted_and_merged;
556  sorted_and_merged.reserve( std::min(zs_work_registry_.size(), size_t(17000)) );
557 
558  bool errorInData = false;
559  std::vector<Registry>::iterator it = zs_work_registry_.begin(), it2 = it+1, end = zs_work_registry_.end();
560  while (it < end) {
561  sorted_and_merged.push_back( edm::DetSet<SiStripDigi>(it->detid) );
562  std::vector<SiStripDigi> & digis = sorted_and_merged.back().data;
563  // first count how many digis we have
564  size_t len = it->length;
565  for (it2 = it+1; (it2 != end) && (it2->detid == it->detid); ++it2) { len += it2->length; }
566  // reserve memory
567  digis.reserve(len);
568  // push them in
569  for (it2 = it+0; (it2 != end) && (it2->detid == it->detid); ++it2) {
570  digis.insert( digis.end(), & zs_work_digis_[it2->index], & zs_work_digis_[it2->index + it2->length] );
571  }
572  it = it2;
573  }
574 
575  // check sorting
576  if (!__gnu_cxx::is_sorted( sorted_and_merged.begin(), sorted_and_merged.end() )) {
577  // this is an error in the code: i DID sort it already!
578  throw cms::Exception("Bug Found")
579  << "Container must be already sorted!\nat "
580  << __FILE__
581  << ", line "
582  << __LINE__
583  <<"\n";
584  }
585 
586  std::vector< edm::DetSet<SiStripDigi> >::iterator iii = sorted_and_merged.begin();
587  std::vector< edm::DetSet<SiStripDigi> >::iterator jjj = sorted_and_merged.end();
588  for ( ; iii != jjj; ++iii ) {
589  if ( ! __gnu_cxx::is_sorted( iii->begin(), iii->end() ) ) {
590  // this might be an error in the data, if the raws from one FED are not sorted
591  iii->clear();
592  errorInData = true;
593  }
594  }
595 
596  // output error
597  if (errorInData) edm::LogWarning("CorruptData") << "Some modules contained corrupted ZS raw data, and have been skipped in unpacking\n";
598 
599  // make output DetSetVector
600  edm::DetSetVector<SiStripDigi> zero_suppr_dsv( sorted_and_merged, true );
601  zero_suppr.swap( zero_suppr_dsv );
602  }
603 
604  // Populate final DetSetVector container with VR data
605  if ( !virgin_work_registry_.empty() ) {
606 
608 
609  std::vector< edm::DetSet<SiStripRawDigi> > sorted_and_merged;
610  sorted_and_merged.reserve( std::min(virgin_work_registry_.size(), size_t(17000)) );
611 
612  bool errorInData = false;
613  std::vector<Registry>::iterator it = virgin_work_registry_.begin(), it2, end = virgin_work_registry_.end();
614  while (it < end) {
615  sorted_and_merged.push_back( edm::DetSet<SiStripRawDigi>(it->detid) );
616  std::vector<SiStripRawDigi> & digis = sorted_and_merged.back().data;
617 
618  bool isDetOk = true;
619  // first count how many digis we have
620  int maxFirstStrip = it->first;
621  for (it2 = it+1; (it2 != end) && (it2->detid == it->detid); ++it2) {
622  // duplicated APV or data corruption. DO NOT 'break' here!
623  if (it2->first <= maxFirstStrip) { isDetOk = false; continue; }
624  maxFirstStrip = it2->first;
625  }
626  if (!isDetOk) { errorInData = true; it = it2; continue; } // skip whole det
627 
628  // make room for 256 * (max_apv_pair + 1) Raw Digis
629  digis.resize(maxFirstStrip + 256);
630  // push them in
631  for (it2 = it+0; (it2 != end) && (it2->detid == it->detid); ++it2) {
632  // data corruption. DO NOT 'break' here
633  if (it->length != 256) { isDetOk = false; continue; }
634  std::copy( & virgin_work_digis_[it2->index], & virgin_work_digis_[it2->index + it2->length], & digis[it2->first] );
635  }
636  if (!isDetOk) { errorInData = true; digis.clear(); it = it2; continue; } // skip whole det
637  it = it2;
638  }
639 
640  // output error
641  if (errorInData) edm::LogWarning("CorruptData") << "Some modules contained corrupted virgin raw data, and have been skipped in unpacking\n";
642 
643  // check sorting
644  if ( !__gnu_cxx::is_sorted( sorted_and_merged.begin(), sorted_and_merged.end() ) ) {
645  // this is an error in the code: i DID sort it already!
646  throw cms::Exception("Bug Found")
647  << "Container must be already sorted!\nat "
648  << __FILE__
649  << ", line "
650  << __LINE__
651  <<"\n";
652  }
653 
654  // make output DetSetVector
655  edm::DetSetVector<SiStripRawDigi> virgin_raw_dsv( sorted_and_merged, true );
656  virgin_raw.swap( virgin_raw_dsv );
657  }
658 
659  // Populate final DetSetVector container with VR data
660  if ( !proc_work_registry_.empty() ) {
662 
663  std::vector< edm::DetSet<SiStripRawDigi> > sorted_and_merged;
664  sorted_and_merged.reserve( std::min(proc_work_registry_.size(), size_t(17000)) );
665 
666  bool errorInData = false;
667  std::vector<Registry>::iterator it = proc_work_registry_.begin(), it2, end = proc_work_registry_.end();
668  while (it < end) {
669  sorted_and_merged.push_back( edm::DetSet<SiStripRawDigi>(it->detid) );
670  std::vector<SiStripRawDigi> & digis = sorted_and_merged.back().data;
671 
672  bool isDetOk = true;
673  // first count how many digis we have
674  int maxFirstStrip = it->first;
675  for (it2 = it+1; (it2 != end) && (it2->detid == it->detid); ++it2) {
676  // duplicated APV or data corruption. DO NOT 'break' here!
677  if (it2->first <= maxFirstStrip) { isDetOk = false; continue; }
678  maxFirstStrip = it2->first;
679  }
680  // skip whole det
681  if (!isDetOk) { errorInData = true; it = it2; continue; }
682 
683  // make room for 256 * (max_apv_pair + 1) Raw Digis
684  digis.resize(maxFirstStrip + 256);
685  // push them in
686  for (it2 = it+0; (it2 != end) && (it2->detid == it->detid); ++it2) {
687  // data corruption. DO NOT 'break' here
688  if (it->length != 256) { isDetOk = false; continue; }
689  std::copy( & proc_work_digis_[it2->index], & proc_work_digis_[it2->index + it2->length], & digis[it2->first] );
690  }
691  // skip whole det
692  if (!isDetOk) { errorInData = true; digis.clear(); it = it2; continue; }
693  it = it2;
694  }
695 
696  // output error
697  if (errorInData) edm::LogWarning("CorruptData") << "Some modules contained corrupted proc raw data, and have been skipped in unpacking\n";
698 
699  // check sorting
700  if ( !__gnu_cxx::is_sorted( sorted_and_merged.begin(), sorted_and_merged.end() ) ) {
701  // this is an error in the code: i DID sort it already!
702  throw cms::Exception("Bug Found")
703  << "Container must be already sorted!\nat "
704  << __FILE__
705  << ", line "
706  << __LINE__
707  <<"\n";
708  }
709 
710  // make output DetSetVector
711  edm::DetSetVector<SiStripRawDigi> proc_raw_dsv( sorted_and_merged, true );
712  proc_raw.swap( proc_raw_dsv );
713  }
714 
715  // Populate final DetSetVector container with SM data
716  if ( !scope_work_registry_.empty() ) {
718 
719  std::vector< edm::DetSet<SiStripRawDigi> > sorted_and_merged;
720  sorted_and_merged.reserve( scope_work_registry_.size() );
721 
722  bool errorInData = false;
723  std::vector<Registry>::iterator it, end;
724  for (it = scope_work_registry_.begin(), end = scope_work_registry_.end() ; it != end; ++it) {
725  sorted_and_merged.push_back( edm::DetSet<SiStripRawDigi>(it->detid) );
726  std::vector<SiStripRawDigi> & digis = sorted_and_merged.back().data;
727  digis.insert( digis.end(), & scope_work_digis_[it->index], & scope_work_digis_[it->index + it->length] );
728 
729  if ( (it +1 != end) && (it->detid == (it+1)->detid) ) {
730  errorInData = true;
731  // let's skip *all* the detsets for that key, as we don't know which is the correct one!
732  do { ++it; } while ( ( it+1 != end) && (it->detid == (it+1)->detid) );
733  }
734  }
735 
736  // output error
737  if (errorInData) edm::LogWarning("CorruptData") << "Some fed keys contained corrupted scope mode data, and have been skipped in unpacking\n";
738 
739  // check sorting
740  if ( !__gnu_cxx::is_sorted( sorted_and_merged.begin(), sorted_and_merged.end() ) ) {
741  // this is an error in the code: i DID sort it already!
742  throw cms::Exception("Bug Found")
743  << "Container must be already sorted!\nat "
744  << __FILE__
745  << ", line "
746  << __LINE__
747  <<"\n";
748  }
749 
750  // make output DetSetVector
751  edm::DetSetVector<SiStripRawDigi> scope_mode_dsv( sorted_and_merged, true );
752  scope_mode.swap( scope_mode_dsv );
753  }
754 
755  // Populate DetSetVector with Common Mode values
756  if ( extractCm_ ) {
757 
758  // Populate final DetSetVector container with VR data
759  if ( !cm_work_registry_.empty() ) {
760 
762 
763  std::vector< edm::DetSet<SiStripRawDigi> > sorted_and_merged;
764  sorted_and_merged.reserve( std::min(cm_work_registry_.size(), size_t(17000)) );
765 
766  bool errorInData = false;
767  std::vector<Registry>::iterator it = cm_work_registry_.begin(), it2, end = cm_work_registry_.end();
768  while (it < end) {
769  sorted_and_merged.push_back( edm::DetSet<SiStripRawDigi>(it->detid) );
770  std::vector<SiStripRawDigi> & digis = sorted_and_merged.back().data;
771 
772  bool isDetOk = true;
773  // first count how many digis we have
774  int maxFirstStrip = it->first;
775  for (it2 = it+1; (it2 != end) && (it2->detid == it->detid); ++it2) {
776  // duplicated APV or data corruption. DO NOT 'break' here!
777  if (it2->first <= maxFirstStrip) { isDetOk = false; continue; }
778  maxFirstStrip = it2->first;
779  }
780  if (!isDetOk) { errorInData = true; it = it2; continue; } // skip whole det
781 
782  // make room for 2 * (max_apv_pair + 1) Common mode values
783  digis.resize(maxFirstStrip + 2);
784  // push them in
785  for (it2 = it+0; (it2 != end) && (it2->detid == it->detid); ++it2) {
786  // data corruption. DO NOT 'break' here
787  if (it->length != 2) { isDetOk = false; continue; }
788  std::copy( & cm_work_digis_[it2->index], & cm_work_digis_[it2->index + it2->length], & digis[it2->first] );
789  }
790  if (!isDetOk) { errorInData = true; digis.clear(); it = it2; continue; } // skip whole det
791  it = it2;
792  }
793 
794  // output error
795  if (errorInData) edm::LogWarning("CorruptData") << "Some modules contained corrupted common mode data, and have been skipped in unpacking\n";
796 
797  // check sorting
798  if ( !__gnu_cxx::is_sorted( sorted_and_merged.begin(), sorted_and_merged.end() ) ) {
799  // this is an error in the code: i DID sort it already!
800  throw cms::Exception("Bug Found")
801  << "Container must be already sorted!\nat "
802  << __FILE__
803  << ", line "
804  << __LINE__
805  <<"\n";
806  }
807 
808  // make output DetSetVector
809  edm::DetSetVector<SiStripRawDigi> common_mode_dsv( sorted_and_merged, true );
810  common_mode.swap( common_mode_dsv );
811  }
812 
813  }
814 
815  }
std::vector< Registry > proc_work_registry_
std::vector< SiStripDigi > zs_work_digis_
digi collections
std::vector< Registry > scope_work_registry_
def copy(args, dbName)
std::vector< Registry > zs_work_registry_
registries
std::vector< SiStripRawDigi > virgin_work_digis_
std::vector< SiStripRawDigi > scope_work_digis_
#define end
Definition: vmac.h:39
T min(T a, T b)
Definition: MathUtil.h:58
std::vector< SiStripRawDigi > proc_work_digis_
std::vector< SiStripRawDigi > cm_work_digis_
std::vector< Registry > cm_work_registry_
std::vector< Registry > virgin_work_registry_
void sistrip::RawToDigiUnpacker::updateEventSummary ( const sistrip::FEDBuffer fed,
SiStripEventSummary summary 
)
private

sets the SiStripEventSummary -> not yet implemented for FEDBuffer class

Definition at line 1088 of file SiStripRawToDigiUnpacker.cc.

References SiStripEventSummary::bx(), sistrip::FEDDAQHeader::bxID(), SiStripEventSummary::commissioningInfo(), sistrip::FEDBufferBase::daqEventType(), sistrip::FEDBufferBase::daqHeader(), sistrip::FEDFullDebugHeader::daqRegister(), sistrip::FEDFullDebugHeader::daqRegister2(), SiStripEventSummary::event(), SiStripEventSummary::fedReadoutMode(), sistrip::FEDBuffer::feHeader(), RecoTauValidation_cfi::header, sistrip::HEADER_TYPE_FULL_DEBUG, sistrip::FEDBufferBase::headerType(), sistrip::invalid32_, edm::isDebugEnabled(), SiStripEventSummary::isSet(), sistrip::FEDDAQHeader::l1ID(), LogTrace, once_, heppy_report::summary, SiStripEventSummary::triggerFed(), and triggerFedId_.

Referenced by createDigis().

1088  {
1089 
1090  summary.event(fed.daqHeader().l1ID());
1091  summary.bx(fed.daqHeader().bxID());
1092 
1093  // Retrieve contents of DAQ registers
1094 
1095  sistrip::FEDDAQEventType readout_mode = fed.daqEventType();
1096  uint32_t daq1 = sistrip::invalid32_;
1097  uint32_t daq2 = sistrip::invalid32_;
1098 
1100  const sistrip::FEDFullDebugHeader* header = nullptr;
1101  header = dynamic_cast<const sistrip::FEDFullDebugHeader*>(fed.feHeader());
1102  daq1 = static_cast<uint32_t>( header->daqRegister() );
1103  daq2 = static_cast<uint32_t>( header->daqRegister2() );
1104  }
1105 
1106 
1107  // If FED DAQ registers contain info, update (and possibly overwrite) EventSummary
1108  if ( daq1 != 0 && daq1 != sistrip::invalid32_ ) {
1109 
1110  summary.triggerFed( triggerFedId_ );
1111  summary.fedReadoutMode( readout_mode );
1112  summary.commissioningInfo( daq1, daq2 );
1113 
1114  if ( summary.isSet() && once_ ) {
1115  if ( edm::isDebugEnabled() ) {
1116  std::stringstream ss;
1117  ss << "[sistrip::RawToDigiUnpacker::" << __func__ << "]"
1118  << " EventSummary built from FED DAQ registers:"
1119  << std::endl << summary;
1120  LogTrace("SiStripRawToDigi") << ss.str();
1121  }
1122  once_ = false;
1123  }
1124  }
1125  }
bool isDebugEnabled()
static const uint32_t invalid32_
Definition: Constants.h:15
const FEDFEHeader * feHeader() const
FEDDAQEventType daqEventType() const
const uint32_t & bx() const
void commissioningInfo(const uint32_t *const buffer, const uint32_t &event)
const uint32_t & event() const
FEDHeaderType headerType() const
#define LogTrace(id)
uint16_t triggerFed() const
const sistrip::FedReadoutMode & fedReadoutMode() const
void sistrip::RawToDigiUnpacker::useDaqRegister ( bool  use)
inline

EventSummary update request -> not yet implemented for FEDBuffer class.

Definition at line 178 of file SiStripRawToDigiUnpacker.h.

Friends And Related Function Documentation

friend class RawToClustersLazyUnpacker
friend

Definition at line 28 of file SiStripRawToDigiUnpacker.h.

Member Data Documentation

std::vector<SiStripRawDigi> sistrip::RawToDigiUnpacker::cm_work_digis_
private

Definition at line 147 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().

std::vector<Registry> sistrip::RawToDigiUnpacker::cm_work_registry_
private

Definition at line 140 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().

bool sistrip::RawToDigiUnpacker::doAPVEmulatorCheck_
private

Definition at line 131 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

bool sistrip::RawToDigiUnpacker::doFullCorruptBufferChecks_
private

Definition at line 130 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

uint32_t sistrip::RawToDigiUnpacker::errorThreshold_
private

Definition at line 133 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

uint32_t sistrip::RawToDigiUnpacker::event_
private

other values

Definition at line 124 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

bool sistrip::RawToDigiUnpacker::extractCm_
private

Definition at line 129 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis(), and update().

int16_t sistrip::RawToDigiUnpacker::fedBufferDumpFreq_
private

Definition at line 116 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

int16_t sistrip::RawToDigiUnpacker::fedEventDumpFreq_
private

Definition at line 117 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

bool sistrip::RawToDigiUnpacker::first_
private

Definition at line 126 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

int16_t sistrip::RawToDigiUnpacker::headerBytes_
private

configurables

Definition at line 115 of file SiStripRawToDigiUnpacker.h.

Referenced by locateStartOfFedBuffer().

bool sistrip::RawToDigiUnpacker::legacy_
private

Definition at line 132 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

bool sistrip::RawToDigiUnpacker::markMissingFeds_
private

Definition at line 121 of file SiStripRawToDigiUnpacker.h.

bool sistrip::RawToDigiUnpacker::once_
private

Definition at line 125 of file SiStripRawToDigiUnpacker.h.

Referenced by triggerFed(), and updateEventSummary().

std::vector<SiStripRawDigi> sistrip::RawToDigiUnpacker::proc_work_digis_
private

Definition at line 146 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().

std::vector<Registry> sistrip::RawToDigiUnpacker::proc_work_registry_
private

Definition at line 139 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().

bool sistrip::RawToDigiUnpacker::quiet_
private

Definition at line 128 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

std::vector<SiStripRawDigi> sistrip::RawToDigiUnpacker::scope_work_digis_
private

Definition at line 145 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().

std::vector<Registry> sistrip::RawToDigiUnpacker::scope_work_registry_
private

Definition at line 138 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().

int16_t sistrip::RawToDigiUnpacker::triggerFedId_
private

Definition at line 118 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis(), triggerFed(), and updateEventSummary().

bool sistrip::RawToDigiUnpacker::unpackBadChannels_
private

Definition at line 120 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis(), and RawToDigiUnpacker().

bool sistrip::RawToDigiUnpacker::useDaqRegister_
private

Definition at line 127 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

bool sistrip::RawToDigiUnpacker::useFedKey_
private

Definition at line 119 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

std::vector<SiStripRawDigi> sistrip::RawToDigiUnpacker::virgin_work_digis_
private

Definition at line 144 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().

std::vector<Registry> sistrip::RawToDigiUnpacker::virgin_work_registry_
private

Definition at line 137 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().

WarningSummary sistrip::RawToDigiUnpacker::warnings_
private

Definition at line 149 of file SiStripRawToDigiUnpacker.h.

Referenced by createDigis().

std::vector<SiStripDigi> sistrip::RawToDigiUnpacker::zs_work_digis_
private

digi collections

Definition at line 143 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().

std::vector<Registry> sistrip::RawToDigiUnpacker::zs_work_registry_
private

registries

Definition at line 136 of file SiStripRawToDigiUnpacker.h.

Referenced by cleanupWorkVectors(), createDigis(), and update().