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GenericTriggerEventFlag.cc
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1 //
2 // $Id: GenericTriggerEventFlag.cc,v 1.13 2012/04/22 15:09:29 vadler Exp $
3 //
4 
5 
7 
13 
14 #include <vector>
15 
17 
18 
19 // Constants' definitions
20 static const bool useL1EventSetup( true );
21 static const bool useL1GtTriggerMenuLite( false );
22 
23 
26 {
27  if ( config.exists( "andOrL1" ) ) {
28  if (stage2_){
29  l1uGt_.reset(new l1t::L1TGlobalUtil(config, iC));
30  }
31  }
32 }
33 
36  : watchDB_()
38  , andOr_( false )
39  , dbLabel_( "" )
40  , verbose_( 0 )
41  , andOrDcs_( false )
43  , andOrGt_( false )
44  , gtInputTag_( "" )
45  , gtEvmInputTag_( "" )
46  , gtDBKey_( "" )
47  , errorReplyGt_( false )
48  , andOrL1_( false )
49  , stage2_( false )
50  , l1BeforeMask_( true )
51  , l1DBKey_( "" )
52  , errorReplyL1_( false )
53  , andOrHlt_( false )
54  , hltDBKey_( "" )
56  , on_( true )
57  , onDcs_( true )
58  , onGt_( true )
59  , onL1_( true )
60  , onHlt_( true )
61  , configError_( "CONFIG_ERROR" )
62  , emptyKeyError_( "EMPTY_KEY_ERROR" )
63 {
64 
65  // General switch(es)
66  if ( config.exists( "andOr" ) ) {
67  andOr_ = config.getParameter< bool >( "andOr" );
68  if ( config.exists( "verbosityLevel" ) ) verbose_ = config.getParameter< unsigned >( "verbosityLevel" );
69  } else {
70  on_ = false;
71  onDcs_ = false;
72  onGt_ = false;
73  onL1_ = false;
74  onHlt_ = false;
75  }
76 
77  if ( on_ ) {
78  if ( config.exists( "andOrDcs" ) ) {
79  andOrDcs_ = config.getParameter< bool >( "andOrDcs" );
80  dcsInputTag_ = config.getParameter< edm::InputTag >( "dcsInputTag" );
82  dcsPartitions_ = config.getParameter< std::vector< int > >( "dcsPartitions" );
83  errorReplyDcs_ = config.getParameter< bool >( "errorReplyDcs" );
84  } else {
85  onDcs_ = false;
86  }
87  if ( config.exists( "andOrGt" ) ) {
88  andOrGt_ = config.getParameter< bool >( "andOrGt" );
89  gtInputTag_ = config.getParameter< edm::InputTag >( "gtInputTag" );
91  gtLogicalExpressions_ = config.getParameter< std::vector< std::string > >( "gtStatusBits" );
92  errorReplyGt_ = config.getParameter< bool >( "errorReplyGt" );
93  if ( config.exists( "gtEvmInputTag" ) ) {
94  gtEvmInputTag_ = config.getParameter< edm::InputTag >( "gtEvmInputTag" );
96  }
97  if ( config.exists( "gtDBKey" ) ) gtDBKey_ = config.getParameter< std::string >( "gtDBKey" );
98  } else {
99  onGt_ = false;
100  }
101  if ( config.exists( "andOrL1" ) ) {
102  andOrL1_ = config.getParameter< bool >( "andOrL1" );
103  if ( config.exists( "stage2" ) )
104  stage2_ = config.getParameter< bool> ( "stage2" );
105  else
106  stage2_ = false;
107  l1LogicalExpressionsCache_ = config.getParameter< std::vector< std::string > >( "l1Algorithms" );
108  errorReplyL1_ = config.getParameter< bool >( "errorReplyL1" );
109  if ( config.exists( "l1DBKey" ) ) l1DBKey_ = config.getParameter< std::string >( "l1DBKey" );
110  if ( config.exists( "l1BeforeMask" ) ) l1BeforeMask_ = config.getParameter< bool >( "l1BeforeMask" );
111  } else {
112  onL1_ = false;
113  }
114  if ( config.exists( "andOrHlt" ) ) {
115  andOrHlt_ = config.getParameter< bool >( "andOrHlt" );
116  hltInputTag_ = config.getParameter< edm::InputTag >( "hltInputTag" );
118  hltLogicalExpressionsCache_ = config.getParameter< std::vector< std::string > >( "hltPaths" );
119  errorReplyHlt_ = config.getParameter< bool >( "errorReplyHlt" );
120  if ( config.exists( "hltDBKey" ) ) hltDBKey_ = config.getParameter< std::string >( "hltDBKey" );
121  } else {
122  onHlt_ = false;
123  }
124  if ( ! onDcs_ && ! onGt_ && ! onL1_ && ! onHlt_ ) on_ = false;
125  else {
126  if ( config.exists( "dbLabel" ) ) dbLabel_ = config.getParameter< std::string >( "dbLabel" );
127  watchDB_ = std::make_unique<edm::ESWatcher< AlCaRecoTriggerBitsRcd > >();
128  }
129  }
130  //check to see we arent trying to setup legacy / stage-1 from a constructor call
131  //that does not support it
132  if ( config.exists( "andOrL1" ) && stage2_ == false ){ //stage-1 setup
133  if( stage1Valid==false ) throw cms::Exception("ConfigError") <<" Error when constructing GenericTriggerEventFlag, legacy/stage-1 is requested but the constructor called is stage2 only";
134  }
135 }
136 
137 
140 {
141 
142  if ( watchDB_->check( setup ) ) {
143  if ( onGt_ && gtDBKey_.size() > 0 ) {
144  const std::vector< std::string > exprs( expressionsFromDB( gtDBKey_, setup ) );
145  if ( exprs.empty() || exprs.at( 0 ) != configError_ ) gtLogicalExpressions_ = exprs;
146  }
147  if ( onL1_ && l1DBKey_.size() > 0 ) {
148  const std::vector< std::string > exprs( expressionsFromDB( l1DBKey_, setup ) );
149  if ( exprs.empty() || exprs.at( 0 ) != configError_ ) l1LogicalExpressionsCache_ = exprs;
150  }
151  if ( onHlt_ && hltDBKey_.size() > 0 ) {
152  const std::vector< std::string > exprs( expressionsFromDB( hltDBKey_, setup ) );
153  if ( exprs.empty() || exprs.at( 0 ) != configError_ ) hltLogicalExpressionsCache_ = exprs;
154  }
155  }
156 
157  // Re-initialise starting valuse before wild-card expansion
160 
161  hltConfigInit_ = false;
162  if ( onHlt_ ) {
163  if ( hltInputTag_.process().size() == 0 ) {
164  if ( verbose_ > 0 ) edm::LogError( "GenericTriggerEventFlag" ) << "HLT TriggerResults InputTag \"" << hltInputTag_.encode() << "\" specifies no process";
165  } else {
166  bool hltChanged( false );
167  if ( ! hltConfig_.init( run, setup, hltInputTag_.process(), hltChanged ) ) {
168  if ( verbose_ > 0 ) edm::LogError( "GenericTriggerEventFlag" ) << "HLT config initialization error with process name \"" << hltInputTag_.process() << "\"";
169  } else if ( hltConfig_.size() <= 0 ) {
170  if ( verbose_ > 0 ) edm::LogError( "GenericTriggerEventFlag" ) << "HLT config size error";
171  } else hltConfigInit_ = true;
172  }
173  }
174 
175  // Expand version wild-cards in HLT logical expressions
176  // L1
177  if ( onL1_ ) {
178  // build vector of algo names
179 
180  std::vector< std::string > algoNames;
181 
182  if (stage2_) {
183  l1uGt_->retrieveL1Setup(setup);
184 
185  const std::vector<std::pair<std::string, int> > prescales = l1uGt_->prescales();
186  for(auto ip : prescales)
187  algoNames.push_back(ip.first);
188  } else {
189  l1Gt_->getL1GtRunCache( run, setup, useL1EventSetup, useL1GtTriggerMenuLite );
190  edm::ESHandle< L1GtTriggerMenu > handleL1GtTriggerMenu;
191  setup.get< L1GtTriggerMenuRcd >().get( handleL1GtTriggerMenu );
192 
193  const AlgorithmMap l1GtPhys( handleL1GtTriggerMenu->gtAlgorithmMap() );
194  for ( CItAlgo iAlgo = l1GtPhys.begin(); iAlgo != l1GtPhys.end(); ++iAlgo ) {
195  algoNames.push_back( iAlgo->second.algoName() );
196  }
197  const AlgorithmMap l1GtTech( handleL1GtTriggerMenu->gtTechnicalTriggerMap() );
198  for ( CItAlgo iAlgo = l1GtTech.begin(); iAlgo != l1GtTech.end(); ++iAlgo ) {
199  algoNames.push_back( iAlgo->second.algoName() );
200  }
201  }
202 
203 
204  for ( unsigned iExpr = 0; iExpr < l1LogicalExpressions_.size(); ++iExpr ) {
205  std::string l1LogicalExpression( l1LogicalExpressions_.at( iExpr ) );
206  L1GtLogicParser l1AlgoLogicParser( l1LogicalExpression );
207  // Loop over algorithms
208  for ( size_t iAlgo = 0; iAlgo < l1AlgoLogicParser.operandTokenVector().size(); ++iAlgo ) {
209  const std::string l1AlgoName( l1AlgoLogicParser.operandTokenVector().at( iAlgo ).tokenName );
210  if ( l1AlgoName.find( '*' ) != std::string::npos ) {
211  l1LogicalExpression.replace( l1LogicalExpression.find( l1AlgoName ), l1AlgoName.size(), expandLogicalExpression( algoNames, l1AlgoName ) );
212  }
213  }
214  l1LogicalExpressions_[ iExpr ] = l1LogicalExpression;
215  }
216  std::vector<std::string> tmp = l1LogicalExpressions_;
217  for ( unsigned iExpr = 0; iExpr < tmp.size(); ++iExpr )
218  if ( std::find(algoNames.begin(),algoNames.end(),tmp[ iExpr ]) == algoNames.end() ) {
219  l1LogicalExpressions_.erase(l1LogicalExpressions_.begin()+iExpr);
220  if ( verbose_ > 1 )
221  edm::LogWarning( "GenericTriggerEventFlag" ) << "L1 algorithm \"" << tmp[ iExpr ] << "\" does not exist in the L1 menu ==> drop it from the list of l1LogicalExpressions";
222  }
223  }
224  // HLT
225  if ( hltConfigInit_ ) {
226  for ( unsigned iExpr = 0; iExpr < hltLogicalExpressions_.size(); ++iExpr ) {
227  std::string hltLogicalExpression( hltLogicalExpressions_.at( iExpr ) );
228  L1GtLogicParser hltAlgoLogicParser( hltLogicalExpression );
229  // Loop over paths
230  for ( size_t iPath = 0; iPath < hltAlgoLogicParser.operandTokenVector().size(); ++iPath ) {
231  const std::string hltPathName( hltAlgoLogicParser.operandTokenVector().at( iPath ).tokenName );
232  if ( hltPathName.find( '*' ) != std::string::npos ) {
233  hltLogicalExpression.replace( hltLogicalExpression.find( hltPathName ), hltPathName.size(), expandLogicalExpression( hltConfig_.triggerNames(), hltPathName ) );
234  }
235  }
236  hltLogicalExpressions_[ iExpr ] = hltLogicalExpression;
237  }
238  }
239 
240 }
241 
242 
245 {
246 
247  if ( ! on_ ) return true;
248 
249  // Determine decision
250  if ( andOr_ ) return ( acceptDcs( event ) || acceptGt( event ) || acceptL1( event, setup ) || acceptHlt( event ) );
251  return ( acceptDcs( event ) && acceptGt( event ) && acceptL1( event, setup ) && acceptHlt( event ) );
252 
253 }
254 
255 
257 {
258 
259  // An empty DCS partitions list acts as switch.
260  if ( ! onDcs_ || dcsPartitions_.empty() ) return ( ! andOr_ ); // logically neutral, depending on base logical connective
261 
262  // Accessing the DcsStatusCollection
264  event.getByToken( dcsInputToken_, dcsStatus );
265  if ( ! dcsStatus.isValid() ) {
266  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "DcsStatusCollection product with InputTag \"" << dcsInputTag_.encode() << "\" not in event ==> decision: " << errorReplyDcs_;
267  return errorReplyDcs_;
268  }
269  if ( ( *dcsStatus ).size() == 0 ) {
270  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "DcsStatusCollection product with InputTag \"" << dcsInputTag_.encode() << "\" empty ==> decision: " << errorReplyDcs_;
271  return errorReplyDcs_;
272  }
273 
274  // Determine decision of DCS partition combination and return
275  if ( andOrDcs_ ) { // OR combination
276  for ( std::vector< int >::const_iterator partitionNumber = dcsPartitions_.begin(); partitionNumber != dcsPartitions_.end(); ++partitionNumber ) {
277  if ( acceptDcsPartition( dcsStatus, *partitionNumber ) ) return true;
278  }
279  return false;
280  }
281  for ( std::vector< int >::const_iterator partitionNumber = dcsPartitions_.begin(); partitionNumber != dcsPartitions_.end(); ++partitionNumber ) {
282  if ( ! acceptDcsPartition( dcsStatus, *partitionNumber ) ) return false;
283  }
284  return true;
285 
286 }
287 
288 
290 {
291 
292  // Error checks
293  switch( dcsPartition ) {
294  case DcsStatus::EBp :
295  case DcsStatus::EBm :
296  case DcsStatus::EEp :
297  case DcsStatus::EEm :
298  case DcsStatus::HBHEa :
299  case DcsStatus::HBHEb :
300  case DcsStatus::HBHEc :
301  case DcsStatus::HF :
302  case DcsStatus::HO :
303  case DcsStatus::RPC :
304  case DcsStatus::DT0 :
305  case DcsStatus::DTp :
306  case DcsStatus::DTm :
307  case DcsStatus::CSCp :
308  case DcsStatus::CSCm :
309  case DcsStatus::CASTOR:
310  case DcsStatus::TIBTID:
311  case DcsStatus::TOB :
312  case DcsStatus::TECp :
313  case DcsStatus::TECm :
314  case DcsStatus::BPIX :
315  case DcsStatus::FPIX :
316  case DcsStatus::ESp :
317  case DcsStatus::ESm :
318  break;
319  default:
320  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "DCS partition number \"" << dcsPartition << "\" does not exist ==> decision: " << errorReplyDcs_;
321  return errorReplyDcs_;
322  }
323 
324  // Determine decision
325  return dcsStatus->at( 0 ).ready( dcsPartition );
326 
327 }
328 
329 
332 {
333 
334  // An empty GT status bits logical expressions list acts as switch.
335  if ( ! onGt_ || gtLogicalExpressions_.empty() ) return ( ! andOr_ ); // logically neutral, depending on base logical connective
336 
337  // Determine decision of GT status bits logical expression combination and return
338  if ( andOrGt_ ) { // OR combination
339  for ( std::vector< std::string >::const_iterator gtLogicalExpression = gtLogicalExpressions_.begin(); gtLogicalExpression != gtLogicalExpressions_.end(); ++gtLogicalExpression ) {
340  if ( acceptGtLogicalExpression( event, *gtLogicalExpression ) ) return true;
341  }
342  return false;
343  }
344  for ( std::vector< std::string >::const_iterator gtLogicalExpression = gtLogicalExpressions_.begin(); gtLogicalExpression != gtLogicalExpressions_.end(); ++gtLogicalExpression ) {
345  if ( ! acceptGtLogicalExpression( event, *gtLogicalExpression ) ) return false;
346  }
347  return true;
348 
349 }
350 
351 
354 {
355 
356  // Check empty std::strings
357  if ( gtLogicalExpression.empty() ) {
358  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "Empty logical expression ==> decision: " << errorReplyGt_;
359  return errorReplyGt_;
360  }
361 
362  // Negated paths
363  bool negExpr( negate( gtLogicalExpression ) );
364  if ( negExpr && gtLogicalExpression.empty() ) {
365  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "Empty (negated) logical expression ==> decision: " << errorReplyGt_;
366  return errorReplyGt_;
367  }
368 
369  // Parse logical expression and determine GT status bit decision
370  L1GtLogicParser gtAlgoLogicParser( gtLogicalExpression );
371  // Loop over status bits
372  for ( size_t iStatusBit = 0; iStatusBit < gtAlgoLogicParser.operandTokenVector().size(); ++iStatusBit ) {
373  const std::string gtStatusBit( gtAlgoLogicParser.operandTokenVector().at( iStatusBit ).tokenName );
374  // Manipulate status bit decision as stored in the parser
375  bool decision( errorReplyDcs_ );
376  // Hard-coded status bits!!!
377  if ( gtStatusBit == "PhysDecl" || gtStatusBit == "PhysicsDeclared" ) {
379  event.getByToken( gtInputToken_, gtReadoutRecord );
380  if ( ! gtReadoutRecord.isValid() ) {
381  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "L1GlobalTriggerReadoutRecord product with InputTag \"" << gtInputTag_.encode() << "\" not in event ==> decision: " << errorReplyGt_;
382  gtAlgoLogicParser.operandTokenVector().at( iStatusBit ).tokenResult = errorReplyDcs_;
383  continue;
384  }
385  decision = ( gtReadoutRecord->gtFdlWord().physicsDeclared() == 1 );
386  } else if ( gtStatusBit == "Stable" || gtStatusBit == "StableBeam" || gtStatusBit == "Adjust" || gtStatusBit == "Sqeeze" || gtStatusBit == "Flat" || gtStatusBit == "FlatTop" ||
387  gtStatusBit == "7TeV" || gtStatusBit == "8TeV" || gtStatusBit == "13TeV" || gtStatusBit == "2360GeV" || gtStatusBit == "900GeV" ) {
389  event.getByToken( gtEvmInputToken_, gtEvmReadoutRecord );
390  if ( ! gtEvmReadoutRecord.isValid() ) {
391  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "L1GlobalTriggerEvmReadoutRecord product with InputTag \"" << gtEvmInputTag_.encode() << "\" not in event ==> decision: " << errorReplyGt_;
392  gtAlgoLogicParser.operandTokenVector().at( iStatusBit ).tokenResult = errorReplyDcs_;
393  continue;
394  }
395  if ( gtStatusBit == "Stable" || gtStatusBit == "StableBeam" ) {
396  decision = ( gtEvmReadoutRecord->gtfeWord().beamMode() == 11 );
397  } else if ( gtStatusBit == "Adjust" ) {
398  decision = ( 10 <= gtEvmReadoutRecord->gtfeWord().beamMode() && gtEvmReadoutRecord->gtfeWord().beamMode() <= 11 );
399  } else if ( gtStatusBit == "Sqeeze" ) {
400  decision = ( 9 <= gtEvmReadoutRecord->gtfeWord().beamMode() && gtEvmReadoutRecord->gtfeWord().beamMode() <= 11 );
401  } else if ( gtStatusBit == "Flat" || gtStatusBit == "FlatTop" ) {
402  decision = ( 8 <= gtEvmReadoutRecord->gtfeWord().beamMode() && gtEvmReadoutRecord->gtfeWord().beamMode() <= 11 );
403  } else if ( gtStatusBit == "7TeV" ) {
404  decision = ( gtEvmReadoutRecord->gtfeWord().beamMomentum() == 3500 );
405  } else if ( gtStatusBit == "8TeV" ) {
406  decision = ( gtEvmReadoutRecord->gtfeWord().beamMomentum() == 4000 );
407  } else if ( gtStatusBit == "13TeV" ) {
408  decision = ( gtEvmReadoutRecord->gtfeWord().beamMomentum() == 6500 );
409  } else if ( gtStatusBit == "2360GeV" ) {
410  decision = ( gtEvmReadoutRecord->gtfeWord().beamMomentum() == 1180 );
411  } else if ( gtStatusBit == "900GeV" ) {
412  decision = ( gtEvmReadoutRecord->gtfeWord().beamMomentum() == 450 );
413  }
414  } else {
415  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "GT status bit \"" << gtStatusBit << "\" is not defined ==> decision: " << errorReplyGt_;
416  }
417  gtAlgoLogicParser.operandTokenVector().at( iStatusBit ).tokenResult = decision;
418  }
419 
420  // Determine decision
421  const bool gtDecision( gtAlgoLogicParser.expressionResult() );
422  return negExpr ? ( ! gtDecision ) : gtDecision;
423 
424 }
425 
426 
429 {
430 
431  // An empty L1 logical expressions list acts as switch.
432  if ( ! onL1_ || l1LogicalExpressions_.empty() ) return ( ! andOr_ ); // logically neutral, depending on base logical connective
433 
434  // Determine decision of L1 logical expression combination and return
435  if ( andOrL1_ ) { // OR combination
436  for ( std::vector< std::string >::const_iterator l1LogicalExpression = l1LogicalExpressions_.begin(); l1LogicalExpression != l1LogicalExpressions_.end(); ++l1LogicalExpression ) {
437  if ( acceptL1LogicalExpression( event, setup, *l1LogicalExpression ) ) return true;
438  }
439  return false;
440  }
441  for ( std::vector< std::string >::const_iterator l1LogicalExpression = l1LogicalExpressions_.begin(); l1LogicalExpression != l1LogicalExpressions_.end(); ++l1LogicalExpression ) {
442  if ( ! acceptL1LogicalExpression( event, setup, *l1LogicalExpression ) ) return false;
443  }
444  return true;
445 
446 }
447 
448 
451 {
452 
453  // Getting the L1 event setup
454  if ( stage2_ )
455  l1uGt_->retrieveL1(event,setup);
456  else
457  l1Gt_->getL1GtRunCache( event, setup, useL1EventSetup, useL1GtTriggerMenuLite ); // FIXME This can possibly go to initRun()
458 
459 
460  // Check empty std::strings
461  if ( l1LogicalExpression.empty() ) {
462  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "Empty logical expression ==> decision: " << errorReplyL1_;
463  return errorReplyL1_;
464  }
465 
466  // Negated logical expression
467  bool negExpr( negate( l1LogicalExpression ) );
468  if ( negExpr && l1LogicalExpression.empty() ) {
469  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "Empty (negated) logical expression ==> decision: " << errorReplyL1_;
470  return errorReplyL1_;
471  }
472 
473  // Parse logical expression and determine L1 decision
474  L1GtLogicParser l1AlgoLogicParser( l1LogicalExpression );
475  // Loop over algorithms
476  for ( size_t iAlgorithm = 0; iAlgorithm < l1AlgoLogicParser.operandTokenVector().size(); ++iAlgorithm ) {
477  const std::string l1AlgoName( l1AlgoLogicParser.operandTokenVector().at( iAlgorithm ).tokenName );
478 
479 
480  bool decision = false;
481  bool error = false;
482  if ( stage2_ ) {
483  bool errorBOOL = (l1BeforeMask_ ? l1uGt_->getInitialDecisionByName(l1AlgoName,decision) : l1uGt_->getFinalDecisionByName(l1AlgoName,decision) );
484  error = !errorBOOL;
485  } else {
486  int errorINT( -1 );
487  // const bool decision( l1BeforeMask_ ? l1Gt_->decisionBeforeMask( event, l1AlgoName, errorINT ) : l1Gt_->decisionAfterMask( event, l1AlgoName, errorINT ) );
488  decision = ( l1BeforeMask_ ? l1Gt_->decisionBeforeMask( event, l1AlgoName, errorINT ) : l1Gt_->decisionAfterMask( event, l1AlgoName, errorINT ) );
489  error = ( errorINT != 0 );
490  if ( errorINT > 1 )
491  if ( verbose_ > 1 )
492  edm::LogWarning( "GenericTriggerEventFlag" ) << "L1 algorithm \"" << l1AlgoName << "\" received error code " << error << " from L1GtUtils::decisionBeforeMask ==> decision: " << errorReplyL1_;
493  }
494 
495  // Error checks
496  if ( error ) {
497  if ( verbose_ > 1 )
498  edm::LogWarning( "GenericTriggerEventFlag" ) << "L1 algorithm \"" << l1AlgoName << "\" does not exist in the L1 menu ==> decision: " << errorReplyL1_;
499  l1AlgoLogicParser.operandTokenVector().at( iAlgorithm ).tokenResult = errorReplyL1_;
500  continue;
501  }
502  // Manipulate algo decision as stored in the parser
503  l1AlgoLogicParser.operandTokenVector().at( iAlgorithm ).tokenResult = decision;
504  }
505 
506  // Return decision
507  const bool l1Decision( l1AlgoLogicParser.expressionResult() );
508  return negExpr ? ( ! l1Decision ) : l1Decision;
509 
510 }
511 
512 
515 {
516 
517  // An empty HLT logical expressions list acts as switch.
518  if ( ! onHlt_ || hltLogicalExpressions_.empty() ) return ( ! andOr_ ); // logically neutral, depending on base logical connective
519 
520  // Checking the HLT configuration,
521  if ( ! hltConfigInit_ ) {
522  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "HLT config error ==> decision: " << errorReplyHlt_;
523  return errorReplyHlt_;
524  }
525 
526  // Accessing the TriggerResults
527  edm::Handle< edm::TriggerResults > hltTriggerResults;
528  event.getByToken( hltInputToken_, hltTriggerResults );
529  if ( ! hltTriggerResults.isValid() ) {
530  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "TriggerResults product with InputTag \"" << hltInputTag_.encode() << "\" not in event ==> decision: " << errorReplyHlt_;
531  return errorReplyHlt_;
532  }
533  if ( ( *hltTriggerResults ).size() == 0 ) {
534  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "TriggerResults product with InputTag \"" << hltInputTag_.encode() << "\" empty ==> decision: " << errorReplyHlt_;
535  return errorReplyDcs_;
536  }
537 
538  // Determine decision of HLT logical expression combination and return
539  if ( andOrHlt_ ) { // OR combination
540  for ( std::vector< std::string >::const_iterator hltLogicalExpression = hltLogicalExpressions_.begin(); hltLogicalExpression != hltLogicalExpressions_.end(); ++hltLogicalExpression ) {
541  if ( acceptHltLogicalExpression( hltTriggerResults, *hltLogicalExpression ) ) return true;
542  }
543  return false;
544  }
545  for ( std::vector< std::string >::const_iterator hltLogicalExpression = hltLogicalExpressions_.begin(); hltLogicalExpression != hltLogicalExpressions_.end(); ++hltLogicalExpression ) {
546  if ( ! acceptHltLogicalExpression( hltTriggerResults, *hltLogicalExpression ) ) return false;
547  }
548  return true;
549 
550 }
551 
552 
555 {
556 
557  // Check empty std::strings
558  if ( hltLogicalExpression.empty() ) {
559  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "Empty logical expression ==> decision: " << errorReplyHlt_;
560  return errorReplyHlt_;
561  }
562 
563  // Negated paths
564  bool negExpr( negate( hltLogicalExpression ) );
565  if ( negExpr && hltLogicalExpression.empty() ) {
566  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "Empty (negated) logical expression ==> decision: " << errorReplyHlt_;
567  return errorReplyHlt_;
568  }
569 
570  // Parse logical expression and determine HLT decision
571  L1GtLogicParser hltAlgoLogicParser( hltLogicalExpression );
572  // Loop over paths
573  for ( size_t iPath = 0; iPath < hltAlgoLogicParser.operandTokenVector().size(); ++iPath ) {
574  const std::string hltPathName( hltAlgoLogicParser.operandTokenVector().at( iPath ).tokenName );
575  const unsigned indexPath( hltConfig_.triggerIndex( hltPathName ) );
576  // Further error checks
577  if ( indexPath == hltConfig_.size() ) {
578  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "HLT path \"" << hltPathName << "\" is not found in process " << hltInputTag_.process() << " ==> decision: " << errorReplyHlt_;
579  hltAlgoLogicParser.operandTokenVector().at( iPath ).tokenResult = errorReplyHlt_;
580  continue;
581  }
582  if ( hltTriggerResults->error( indexPath ) ) {
583  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "HLT path \"" << hltPathName << "\" in error ==> decision: " << errorReplyHlt_;
584  hltAlgoLogicParser.operandTokenVector().at( iPath ).tokenResult = errorReplyHlt_;
585  continue;
586  }
587  // Manipulate algo decision as stored in the parser
588  const bool decision( hltTriggerResults->accept( indexPath ) );
589  hltAlgoLogicParser.operandTokenVector().at( iPath ).tokenResult = decision;
590  }
591 
592  // Determine decision
593  const bool hltDecision( hltAlgoLogicParser.expressionResult() );
594  return negExpr ? ( ! hltDecision ) : hltDecision;
595 
596 }
597 
598 
599 
601 std::string GenericTriggerEventFlag::expandLogicalExpression( const std::vector< std::string > & targets, const std::string & expr, bool useAnd ) const
602 {
603 
604  // Find matching entries in the menu
605  std::vector< std::string > matched;
606  const std::string versionWildcard( "_v*" );
607  if ( expr.substr( expr.size() - versionWildcard.size() ) == versionWildcard ) {
608  const std::string exprBase( expr.substr( 0, expr.size() - versionWildcard.size() ) );
609  matched = hltConfig_.restoreVersion( targets, exprBase );
610  } else {
611  matched = hltConfig_.matched( targets, expr );
612  }
613 
614  // Return input, if no match is found
615  if ( matched.empty() ) {
616  if ( verbose_ > 1 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "Logical expression: \"" << expr << "\" could not be resolved";
617  return expr;
618  }
619 
620  // Compose logical expression
621  std::string expanded( "(" );
622  for ( unsigned iVers = 0; iVers < matched.size(); ++iVers ) {
623  if ( iVers > 0 ) expanded.append( useAnd ? " AND " : " OR " );
624  expanded.append( matched.at( iVers ) );
625  }
626  expanded.append( ")" );
627  if ( verbose_ > 1 ) edm::LogInfo( "GenericTriggerEventFlag" ) << "Logical expression: \"" << expr << "\"\n"
628  << " --> expanded to \"" << expanded << "\"";
629 
630  return expanded;
631 
632 }
633 
634 
635 
638 {
639 
640  bool negate( false );
641  if ( word.at( 0 ) == '~' ) {
642  negate = true;
643  word.erase( 0, 1 );
644  }
645  return negate;
646 
647 }
648 
649 
650 
653 {
654  if ( key.size() == 0 ) return std::vector< std::string >( 1, emptyKeyError_ );
655  edm::ESHandle< AlCaRecoTriggerBits > logicalExpressions;
656  std::vector< edm::eventsetup::DataKey > labels;
657  setup.get< AlCaRecoTriggerBitsRcd >().fillRegisteredDataKeys( labels );
658  std::vector< edm::eventsetup::DataKey >::const_iterator iKey = labels.begin();
659  while ( iKey != labels.end() && iKey->name().value() != dbLabel_ ) ++iKey;
660  if ( iKey == labels.end() ) {
661  if ( verbose_ > 0 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "Label " << dbLabel_ << " not found in DB for 'AlCaRecoTriggerBitsRcd'";
662  return std::vector< std::string >( 1, configError_ );
663  }
664  setup.get< AlCaRecoTriggerBitsRcd >().get( dbLabel_, logicalExpressions );
665  const std::map< std::string, std::string > & expressionMap = logicalExpressions->m_alcarecoToTrig;
666  std::map< std::string, std::string >::const_iterator listIter = expressionMap.find( key );
667  if ( listIter == expressionMap.end() ) {
668  if ( verbose_ > 0 ) edm::LogWarning( "GenericTriggerEventFlag" ) << "No logical expressions found under key " << key << " in 'AlCaRecoTriggerBitsRcd'";
669  return std::vector< std::string >( 1, configError_ );
670  }
671  return logicalExpressions->decompose( listIter->second );
672 
673 }
unsigned int size() const
number of trigger paths in trigger table
bool negate(std::string &word) const
Checks for negated words.
T getParameter(std::string const &) const
std::map< std::string, std::string > m_alcarecoToTrig
std::vector< int > dcsPartitions_
static const std::vector< std::string > matched(const std::vector< std::string > &inputs, const std::string &pattern)
regexp processing
static const bool useL1GtTriggerMenuLite(false)
edm::EDGetTokenT< L1GlobalTriggerReadoutRecord > gtInputToken_
EDGetTokenT< ProductType > mayConsume(edm::InputTag const &tag)
std::map< std::string, L1GtAlgorithm > AlgorithmMap
map containing the algorithms
std::vector< std::string > gtLogicalExpressions_
const L1GtfeExtWord gtfeWord() const
get / set GTFE word (record) in the GT readout record
bool accept() const
Has at least one path accepted the event?
std::vector< std::string > hltLogicalExpressions_
const std::vector< std::string > & triggerNames() const
names of trigger paths
bool exists(std::string const &parameterName) const
checks if a parameter exists
def setup(process, global_tag, zero_tesla=False)
Definition: GeneralSetup.py:1
std::vector< std::string > decompose(const std::string &concatPaths) const
Decompose one value of map from concatenated string.
edm::EDGetTokenT< edm::TriggerResults > hltInputToken_
Provides a code based selection for trigger and DCS information in order to have no failing filters i...
Definition: config.py:1
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:20
std::string encode() const
Definition: InputTag.cc:166
std::unique_ptr< L1GtUtils > l1Gt_
std::vector< std::string > l1LogicalExpressionsCache_
bool acceptHlt(const edm::Event &event)
Was this event accepted by the configured HLT logical expression combination?
AlgorithmMap::const_iterator CItAlgo
iterators through map containing the algorithms
bool acceptDcsPartition(const edm::Handle< DcsStatusCollection > &dcsStatus, int dcsPartition) const
const cms_uint16_t beamMomentum() const
unsigned int triggerIndex(const std::string &triggerName) const
slot position of trigger path in trigger table (0 to size-1)
edm::EDGetTokenT< DcsStatusCollection > dcsInputToken_
std::vector< std::string > expressionsFromDB(const std::string &key, const edm::EventSetup &setup)
Reads and returns logical expressions from DB.
std::unique_ptr< edm::ESWatcher< AlCaRecoTriggerBitsRcd > > watchDB_
std::vector< OperandToken > & operandTokenVector()
return the vector of operand tokens
bool accept(const edm::Event &event, const edm::EventSetup &setup)
To be called from analyze/filter() methods.
bool acceptGtLogicalExpression(const edm::Event &event, std::string gtLogicalExpression)
Does this event fulfill this particular GT status bits&#39; logical expression?
bool error() const
Has any path encountered an error (exception)
edm::EDGetTokenT< L1GlobalTriggerEvmReadoutRecord > gtEvmInputToken_
static const bool useL1EventSetup(true)
bool isValid() const
Definition: HandleBase.h:74
std::vector< DcsStatus > DcsStatusCollection
Definition: DcsStatus.h:116
bool acceptDcs(const edm::Event &event)
std::vector< std::string > hltLogicalExpressionsCache_
const L1GtFdlWord gtFdlWord(int bxInEventValue) const
get / set FDL word (record) in the GT readout record
static const std::vector< std::string > restoreVersion(const std::vector< std::string > &inputs, const std::string &trigger)
bool init(const edm::Run &iRun, const edm::EventSetup &iSetup, const std::string &processName, bool &changed)
d&#39;tor
const T & get() const
Definition: EventSetup.h:56
const cms_uint16_t physicsDeclared() const
get/set "physics declared" bit
Definition: L1GtFdlWord.h:227
bool acceptL1LogicalExpression(const edm::Event &event, const edm::EventSetup &setup, std::string l1LogicalExpression)
Was this event accepted by this particular L1 algorithms&#39; logical expression?
std::vector< std::string > l1LogicalExpressions_
std::string const & process() const
Definition: InputTag.h:40
std::vector< std::vector< double > > tmp
Definition: MVATrainer.cc:100
const AlgorithmMap & gtAlgorithmMap() const
get / set the algorithm map (by name)
const AlgorithmMap & gtTechnicalTriggerMap() const
get / set the technical trigger map
GenericTriggerEventFlag(const edm::ParameterSet &config, edm::ConsumesCollector &&iC)
void initRun(const edm::Run &run, const edm::EventSetup &setup)
To be called from beginRun() methods.
std::string expandLogicalExpression(const std::vector< std::string > &target, const std::string &expr, bool useAnd=false) const
Expand wild-carded logical expressions, giving version postfixes priority.
const cms_uint16_t beamMode() const
std::unique_ptr< l1t::L1TGlobalUtil > l1uGt_
Definition: event.py:1
Definition: Run.h:42
bool acceptHltLogicalExpression(const edm::Handle< edm::TriggerResults > &hltTriggerResults, std::string hltLogicalExpression) const
Was this event accepted by this particular HLT paths&#39; logical expression?
bool acceptL1(const edm::Event &event, const edm::EventSetup &setup)
Was this event accepted by the configured L1 logical expression combination?
virtual const bool expressionResult() const
bool acceptGt(const edm::Event &event)
Does this event fulfill the configured GT status logical expression combination?