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l1t::TriggerMenuParser Class Reference

#include <TriggerMenuParser.h>

Public Member Functions

const std::vector< std::vector< CaloTemplate > > & corCaloTemplate () const
 
const std::vector< std::vector< EnergySumTemplate > > & corEnergySumTemplate () const
 
const std::vector< std::vector< MuonTemplate > > & corMuonTemplate () const
 
std::map< std::string, unsigned int > getExternalSignals (const L1TUtmTriggerMenu *utmMenu)
 
const AlgorithmMapgtAlgorithmAliasMap () const
 get / set the algorithm map (by alias) More...
 
const std::string & gtAlgorithmImplementation () const
 
const AlgorithmMapgtAlgorithmMap () const
 get / set the algorithm map (by name) More...
 
const std::vector< ConditionMap > & gtConditionMap () const
 get / set / build the condition maps More...
 
const unsigned int gtNumberConditionChips () const
 get / set the number of condition chips in GTL More...
 
const unsigned int gtNumberPhysTriggers () const
 get / set the number of physics trigger algorithms More...
 
std::vector< int > gtOrderConditionChip () const
 
const unsigned int gtPinsOnConditionChip () const
 get / set the number of pins on the GTL condition chips More...
 
const std::string & gtScaleDbKey () const
 menu associated scale key More...
 
const GlobalScalesgtScales () const
 menu associated scales More...
 
const std::string & gtTriggerMenuAuthor () const
 
const std::string & gtTriggerMenuDate () const
 
const std::string & gtTriggerMenuDescription () const
 
const unsigned long gtTriggerMenuImplementation () const
 
const std::string & gtTriggerMenuInterface () const
 get / set the trigger menu names More...
 
const std::string & gtTriggerMenuInterfaceAuthor () const
 
const std::string & gtTriggerMenuInterfaceDate () const
 get / set the XML parser creation date, author, description for menu interface, menu More...
 
const std::string & gtTriggerMenuInterfaceDescription () const
 
const std::string & gtTriggerMenuName () const
 
const int gtTriggerMenuUUID () const
 
void parseCondFormats (const L1TUtmTriggerMenu *utmMenu)
 
void setCorCaloTemplate (const std::vector< std::vector< CaloTemplate > > &)
 
void setCorEnergySumTemplate (const std::vector< std::vector< EnergySumTemplate > > &)
 
void setCorMuonTemplate (const std::vector< std::vector< MuonTemplate > > &)
 
void setGtAlgorithmAliasMap (const AlgorithmMap &)
 
void setGtAlgorithmImplementation (const std::string &)
 
void setGtAlgorithmMap (const AlgorithmMap &)
 
void setGtConditionMap (const std::vector< ConditionMap > &)
 
void setGtNumberConditionChips (const unsigned int &)
 
void setGtNumberPhysTriggers (const unsigned int &)
 
void setGtOrderConditionChip (const std::vector< int > &)
 
void setGtPinsOnConditionChip (const unsigned int &)
 
void setGtScaleDbKey (const std::string &)
 
void setGtTriggerMenuAuthor (const std::string &)
 
void setGtTriggerMenuDate (const std::string &)
 
void setGtTriggerMenuDescription (const std::string &)
 
void setGtTriggerMenuImplementation (const unsigned long &)
 
void setGtTriggerMenuInterface (const std::string &)
 
void setGtTriggerMenuInterfaceAuthor (const std::string &)
 
void setGtTriggerMenuInterfaceDate (const std::string &)
 
void setGtTriggerMenuInterfaceDescription (const std::string &)
 
void setGtTriggerMenuName (const std::string &)
 
void setGtTriggerMenuUUID (const int)
 
void setVecCaloTemplate (const std::vector< std::vector< CaloTemplate > > &)
 
void setVecCorrelationTemplate (const std::vector< std::vector< CorrelationTemplate > > &)
 
void setVecCorrelationWithOverlapRemovalTemplate (const std::vector< std::vector< CorrelationWithOverlapRemovalTemplate > > &)
 
void setVecEnergySumTemplate (const std::vector< std::vector< EnergySumTemplate > > &)
 
void setVecExternalTemplate (const std::vector< std::vector< ExternalTemplate > > &)
 
void setVecMuonTemplate (const std::vector< std::vector< MuonTemplate > > &)
 
 TriggerMenuParser ()
 
const std::vector< std::vector< CaloTemplate > > & vecCaloTemplate () const
 
const std::vector< std::vector< CorrelationTemplate > > & vecCorrelationTemplate () const
 
const std::vector< std::vector< CorrelationWithOverlapRemovalTemplate > > & vecCorrelationWithOverlapRemovalTemplate () const
 
const std::vector< std::vector< EnergySumTemplate > > & vecEnergySumTemplate () const
 
const std::vector< std::vector< ExternalTemplate > > & vecExternalTemplate () const
 
const std::vector< std::vector< MuonTemplate > > & vecMuonTemplate () const
 get / set the vectors containing the conditions More...
 
virtual ~TriggerMenuParser ()
 destructor More...
 

Private Member Functions

void clearMaps ()
 
bool insertAlgorithmIntoMap (const GlobalAlgorithm &alg)
 insert an algorithm into algorithm map More...
 
bool insertConditionIntoMap (GlobalCondition &cond, const int chipNr)
 
template<typename T >
std::string l1t2string (T)
 
int l1tstr2int (const std::string data)
 
bool parseAlgorithm (tmeventsetup::esAlgorithm algorithm, unsigned int chipNr=0)
 parse all algorithms More...
 
void parseCalMuEta_LUTS (std::map< std::string, tmeventsetup::esScale > scaleMap, std::string obj1, std::string obj2)
 
void parseCalMuPhi_LUTS (std::map< std::string, tmeventsetup::esScale > scaleMap, std::string obj1, std::string obj2)
 
bool parseCalo (tmeventsetup::esCondition condCalo, unsigned int chipNr=0, const bool corrFlag=false)
 parse a calorimeter condition More...
 
bool parseCaloCorr (const tmeventsetup::esObject *corrCalo, unsigned int chipNr=0)
 
bool parseCorrelation (tmeventsetup::esCondition corrCond, unsigned int chipNr=0)
 parse a correlation condition More...
 
bool parseCorrelationWithOverlapRemoval (const tmeventsetup::esCondition &corrCond, unsigned int chipNr=0)
 parse a correlation condition with overlap removal More...
 
void parseDeltaEta_Cosh_LUTS (std::map< std::string, tmeventsetup::esScale > scaleMap, std::string obj1, std::string obj2, unsigned int prec1, unsigned int prec2)
 
void parseDeltaPhi_Cos_LUTS (const std::map< std::string, tmeventsetup::esScale > &scaleMap, const std::string &obj1, const std::string &obj2, unsigned int prec1, unsigned int prec2)
 
bool parseEnergySum (tmeventsetup::esCondition condEnergySums, unsigned int chipNr=0, const bool corrFlag=false)
 parse an "energy sum" condition More...
 
bool parseEnergySumCorr (const tmeventsetup::esObject *corrESum, unsigned int chipNr=0)
 
bool parseExternal (tmeventsetup::esCondition condExt, unsigned int chipNr=0)
 
bool parseMuon (tmeventsetup::esCondition condMu, unsigned int chipNr=0, const bool corrFlag=false)
 parse a muon condition More...
 
bool parseMuonCorr (const tmeventsetup::esObject *condMu, unsigned int chipNr=0)
 
void parsePhi_Trig_LUTS (const std::map< std::string, tmeventsetup::esScale > &scaleMap, const std::string &obj, TrigFunc_t func, unsigned int prec)
 
void parsePt_LUTS (std::map< std::string, tmeventsetup::esScale > scaleMap, std::string lutpfx, std::string obj1, unsigned int prec)
 
bool parseScales (std::map< std::string, tmeventsetup::esScale > scaleMap)
 parse scales More...
 

Private Attributes

AlgorithmMap m_algorithmAliasMap
 map containing the physics algorithms (by alias) More...
 
std::string m_algorithmImplementation
 
AlgorithmMap m_algorithmMap
 map containing the physics algorithms (by name) More...
 
std::vector< ConditionMapm_conditionMap
 map containing the conditions (per condition chip) - transient More...
 
std::vector< std::vector< CaloTemplate > > m_corCaloTemplate
 
std::vector< std::vector< EnergySumTemplate > > m_corEnergySumTemplate
 
std::vector< std::vector< MuonTemplate > > m_corMuonTemplate
 
GlobalScales m_gtScales
 
unsigned int m_numberConditionChips
 hardware limits More...
 
unsigned int m_numberPhysTriggers
 number of physics trigger algorithms More...
 
std::vector< int > m_orderConditionChip
 
unsigned int m_pinsOnConditionChip
 number of pins on the GTL condition chips More...
 
std::string m_scaleDbKey
 menu associated scale key More...
 
std::string m_triggerMenuAuthor
 
std::string m_triggerMenuDate
 
std::string m_triggerMenuDescription
 
unsigned long m_triggerMenuImplementation
 
std::string m_triggerMenuInterface
 menu names More...
 
std::string m_triggerMenuInterfaceAuthor
 
std::string m_triggerMenuInterfaceDate
 number of technical triggers More...
 
std::string m_triggerMenuInterfaceDescription
 
std::string m_triggerMenuName
 
unsigned long m_triggerMenuUUID
 
std::vector< std::vector< CaloTemplate > > m_vecCaloTemplate
 
std::vector< std::vector< CorrelationTemplate > > m_vecCorrelationTemplate
 
std::vector< std::vector< CorrelationWithOverlapRemovalTemplate > > m_vecCorrelationWithOverlapRemovalTemplate
 
std::vector< std::vector< EnergySumTemplate > > m_vecEnergySumTemplate
 
std::vector< std::vector< ExternalTemplate > > m_vecExternalTemplate
 
std::vector< std::vector< MuonTemplate > > m_vecMuonTemplate
 

Detailed Description

Definition at line 58 of file TriggerMenuParser.h.

Constructor & Destructor Documentation

TriggerMenuParser::TriggerMenuParser ( )

constructor empty

Definition at line 51 of file TriggerMenuParser.cc.

51  :
52  m_triggerMenuInterface("NULL"),
54 
55 {
56 
57  // menu names, scale key initialized to NULL due to ORACLE treatment of strings
58 
59  // empty
60 
61 }
std::string m_triggerMenuInterface
menu names
std::string m_scaleDbKey
menu associated scale key
unsigned long m_triggerMenuImplementation
TriggerMenuParser::~TriggerMenuParser ( )
virtual

destructor

Definition at line 64 of file TriggerMenuParser.cc.

References clearMaps().

64  {
65 
66  clearMaps();
67 
68 }

Member Function Documentation

void TriggerMenuParser::clearMaps ( )
private

clearMaps - delete all conditions and algorithms in the maps and clear the maps.

Definition at line 472 of file TriggerMenuParser.cc.

References m_algorithmMap, and m_conditionMap.

Referenced by gtAlgorithmImplementation(), and ~TriggerMenuParser().

472  {
473 
474  // loop over condition maps (one map per condition chip)
475  // then loop over conditions in the map
476  for (std::vector<ConditionMap>::iterator itCondOnChip = m_conditionMap.begin(); itCondOnChip
477  != m_conditionMap.end(); itCondOnChip++) {
478 
479  // the conditions in the maps are deleted in L1uGtTriggerMenu, not here
480 
481  itCondOnChip->clear();
482 
483  }
484 
485  // the algorithms in the maps are deleted in L1uGtTriggerMenu, not here
486  m_algorithmMap.clear();
487 
488 }
AlgorithmMap m_algorithmMap
map containing the physics algorithms (by name)
std::vector< ConditionMap > m_conditionMap
map containing the conditions (per condition chip) - transient
const std::vector<std::vector<CaloTemplate> >& l1t::TriggerMenuParser::corCaloTemplate ( ) const
inline

Definition at line 206 of file TriggerMenuParser.h.

References m_corCaloTemplate, and setCorCaloTemplate().

Referenced by L1TGlobalProducer::produce().

206  {
207  return m_corCaloTemplate;
208  }
std::vector< std::vector< CaloTemplate > > m_corCaloTemplate
const std::vector<std::vector<EnergySumTemplate> >& l1t::TriggerMenuParser::corEnergySumTemplate ( ) const
inline

Definition at line 213 of file TriggerMenuParser.h.

References m_corEnergySumTemplate, and setCorEnergySumTemplate().

Referenced by L1TGlobalProducer::produce().

213  {
214 
215  return m_corEnergySumTemplate;
216  }
std::vector< std::vector< EnergySumTemplate > > m_corEnergySumTemplate
const std::vector<std::vector<MuonTemplate> >& l1t::TriggerMenuParser::corMuonTemplate ( ) const
inline

Definition at line 199 of file TriggerMenuParser.h.

References m_corMuonTemplate, and setCorMuonTemplate().

Referenced by L1TGlobalProducer::produce().

199  {
200  return m_corMuonTemplate;
201  }
std::vector< std::vector< MuonTemplate > > m_corMuonTemplate
std::map< std::string, unsigned int > TriggerMenuParser::getExternalSignals ( const L1TUtmTriggerMenu utmMenu)

Definition at line 206 of file TriggerMenuParser.cc.

References findQualityFiles::jj, dataset::name, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmAliasMap(), L1TExtCondProducer::produce(), and L1TExtCondLegacyToStage2::produce().

206  {
207 
208  using namespace tmeventsetup;
209  const esTriggerMenu* menu = reinterpret_cast<const esTriggerMenu*> (utmMenu);
210  const std::map<std::string, esCondition>& condMap = menu->getConditionMap();
211 
212  std::map<std::string, unsigned int> extBitMap;
213 
214  //loop over the algorithms
215  for (std::map<std::string, esCondition>::const_iterator cit = condMap.begin();
216  cit != condMap.end(); cit++)
217  {
218  const esCondition& condition = cit->second;
219  if(condition.getType() == esConditionType::Externals ) {
220 
221  // Get object for External conditions
222  const std::vector<esObject>& objects = condition.getObjects();
223  for (size_t jj = 0; jj < objects.size(); jj++) {
224 
225  const esObject object = objects.at(jj);
226  if(object.getType() == esObjectType::EXT) {
227 
228  unsigned int channelID = object.getExternalChannelId();
229  std::string name = object.getExternalSignalName();
230 
231  if (extBitMap.count(name) == 0) extBitMap.insert(std::map<std::string, unsigned int>::value_type(name,channelID));
232  }
233  }
234 
235  }
236 
237  }
238 /*
239  for (std::map<std::string, unsigned int>::const_iterator cit = extBitMap.begin();
240  cit != extBitMap.end(); cit++) {
241  std::cout << " Ext Map: Name " << cit->first << " Bit " << cit->second << std::endl;
242  }
243 */
244  return extBitMap;
245 
246 }
const AlgorithmMap& l1t::TriggerMenuParser::gtAlgorithmAliasMap ( ) const
inline

get / set the algorithm map (by alias)

Definition at line 229 of file TriggerMenuParser.h.

References getExternalSignals(), m_algorithmAliasMap, parseCondFormats(), and setGtAlgorithmAliasMap().

Referenced by L1TGlobalProducer::produce().

229  {
230  return m_algorithmAliasMap;
231  }
AlgorithmMap m_algorithmAliasMap
map containing the physics algorithms (by alias)
const std::string& l1t::TriggerMenuParser::gtAlgorithmImplementation ( ) const
inline
const AlgorithmMap& l1t::TriggerMenuParser::gtAlgorithmMap ( ) const
inline

get / set the algorithm map (by name)

Definition at line 222 of file TriggerMenuParser.h.

References m_algorithmMap, and setGtAlgorithmMap().

Referenced by L1TGlobalProducer::produce().

222  {
223  return m_algorithmMap;
224  }
AlgorithmMap m_algorithmMap
map containing the physics algorithms (by name)
const std::vector<ConditionMap>& l1t::TriggerMenuParser::gtConditionMap ( ) const
inline

get / set / build the condition maps

Definition at line 108 of file TriggerMenuParser.h.

References m_conditionMap, and setGtConditionMap().

108  {
109  return m_conditionMap;
110  }
std::vector< ConditionMap > m_conditionMap
map containing the conditions (per condition chip) - transient
const unsigned int l1t::TriggerMenuParser::gtNumberConditionChips ( ) const
inline

get / set the number of condition chips in GTL

Definition at line 75 of file TriggerMenuParser.h.

References m_numberConditionChips, and setGtNumberConditionChips().

75  {
77  }
unsigned int m_numberConditionChips
hardware limits
const unsigned int l1t::TriggerMenuParser::gtNumberPhysTriggers ( ) const
inline

get / set the number of physics trigger algorithms

Definition at line 97 of file TriggerMenuParser.h.

References m_numberPhysTriggers, and setGtNumberPhysTriggers().

97  {
98  return m_numberPhysTriggers;
99  }
unsigned int m_numberPhysTriggers
number of physics trigger algorithms
std::vector<int> l1t::TriggerMenuParser::gtOrderConditionChip ( ) const
inline

get / set the correspondence "condition chip - GTL algorithm word" in the hardware

Definition at line 90 of file TriggerMenuParser.h.

References m_orderConditionChip, and setGtOrderConditionChip().

90  {
91  return m_orderConditionChip;
92  }
std::vector< int > m_orderConditionChip
const unsigned int l1t::TriggerMenuParser::gtPinsOnConditionChip ( ) const
inline

get / set the number of pins on the GTL condition chips

Definition at line 82 of file TriggerMenuParser.h.

References m_pinsOnConditionChip, and setGtPinsOnConditionChip().

82  {
83  return m_pinsOnConditionChip;
84  }
unsigned int m_pinsOnConditionChip
number of pins on the GTL condition chips
const std::string& l1t::TriggerMenuParser::gtScaleDbKey ( ) const
inline

menu associated scale key

Definition at line 136 of file TriggerMenuParser.h.

References m_scaleDbKey.

Referenced by L1TGlobalProducer::produce().

136  {
137  return m_scaleDbKey;
138  }
std::string m_scaleDbKey
menu associated scale key
const GlobalScales& l1t::TriggerMenuParser::gtScales ( ) const
inline

menu associated scales

Definition at line 141 of file TriggerMenuParser.h.

References m_gtScales, setGtScaleDbKey(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by L1TGlobalProducer::produce().

141  {
142  return m_gtScales;
143  }
const std::string& l1t::TriggerMenuParser::gtTriggerMenuAuthor ( ) const
inline

Definition at line 279 of file TriggerMenuParser.h.

References m_triggerMenuAuthor, setGtTriggerMenuAuthor(), and AlCaHLTBitMon_QueryRunRegistry::string.

279  {
280  return m_triggerMenuAuthor;
281  }
const std::string& l1t::TriggerMenuParser::gtTriggerMenuDate ( ) const
inline

Definition at line 273 of file TriggerMenuParser.h.

References m_triggerMenuDate, setGtTriggerMenuDate(), and AlCaHLTBitMon_QueryRunRegistry::string.

273  {
274  return m_triggerMenuDate;
275  }
const std::string& l1t::TriggerMenuParser::gtTriggerMenuDescription ( ) const
inline
const unsigned long l1t::TriggerMenuParser::gtTriggerMenuImplementation ( ) const
inline

Definition at line 129 of file TriggerMenuParser.h.

References m_triggerMenuImplementation, and setGtTriggerMenuImplementation().

Referenced by L1TGlobalProducer::produce().

129  {
131  }
unsigned long m_triggerMenuImplementation
const std::string& l1t::TriggerMenuParser::gtTriggerMenuInterface ( ) const
inline

get / set the trigger menu names

Definition at line 115 of file TriggerMenuParser.h.

References m_triggerMenuInterface, setGtTriggerMenuInterface(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by L1TGlobalProducer::produce().

115  {
116  return m_triggerMenuInterface;
117  }
std::string m_triggerMenuInterface
menu names
const std::string& l1t::TriggerMenuParser::gtTriggerMenuInterfaceAuthor ( ) const
inline
const std::string& l1t::TriggerMenuParser::gtTriggerMenuInterfaceDate ( ) const
inline

get / set the XML parser creation date, author, description for menu interface, menu

Definition at line 247 of file TriggerMenuParser.h.

References m_triggerMenuInterfaceDate, setGtTriggerMenuInterfaceDate(), and AlCaHLTBitMon_QueryRunRegistry::string.

247  {
249  }
std::string m_triggerMenuInterfaceDate
number of technical triggers
const std::string& l1t::TriggerMenuParser::gtTriggerMenuInterfaceDescription ( ) const
inline
const std::string& l1t::TriggerMenuParser::gtTriggerMenuName ( ) const
inline

Definition at line 122 of file TriggerMenuParser.h.

References m_triggerMenuName, setGtTriggerMenuName(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by L1TGlobalProducer::produce().

122  {
123  return m_triggerMenuName;
124  }
const int l1t::TriggerMenuParser::gtTriggerMenuUUID ( ) const
inline

Definition at line 267 of file TriggerMenuParser.h.

References m_triggerMenuUUID, and setGtTriggerMenuUUID().

Referenced by L1TGlobalProducer::produce().

267  {
268  return m_triggerMenuUUID;
269  }
unsigned long m_triggerMenuUUID
bool TriggerMenuParser::insertAlgorithmIntoMap ( const GlobalAlgorithm alg)
private

insert an algorithm into algorithm map

Definition at line 517 of file TriggerMenuParser.cc.

References GlobalAlgorithm::algoAlias(), GlobalAlgorithm::algoBitNumber(), GlobalAlgorithm::algoChipNumber(), GlobalAlgorithm::algoName(), GlobalAlgorithm::algoOutputPin(), LogTrace, m_algorithmAliasMap, m_algorithmMap, m_numberConditionChips, m_numberPhysTriggers, m_orderConditionChip, m_pinsOnConditionChip, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmImplementation(), and parseAlgorithm().

517  {
518 
519  std::string algName = alg.algoName();
520  std::string algAlias = alg.algoAlias();
521  //LogTrace("TriggerMenuParser")
522  //<< " Trying to insert algorithm \"" << algName << "\" in the algorithm map." ;
523 
524  // no algorithm name has to appear twice!
525  if (m_algorithmMap.count(algName) != 0) {
526  LogTrace("TriggerMenuParser") << " Algorithm \"" << algName
527  << "\"already exists in the algorithm map- not inserted!" << std::endl;
528  return false;
529  }
530 
531  if (m_algorithmAliasMap.count(algAlias) != 0) {
532  LogTrace("TriggerMenuParser") << " Algorithm alias \"" << algAlias
533  << "\"already exists in the algorithm alias map- not inserted!" << std::endl;
534  return false;
535  }
536 
537  // bit number less than zero or greater than maximum number of algorithms
538  int bitNumber = alg.algoBitNumber();
539  if ((bitNumber < 0) || (bitNumber >= static_cast<int>(m_numberPhysTriggers))) {
540  LogTrace("TriggerMenuParser") << " Bit number " << bitNumber
541  << " outside allowed range [0, " << m_numberPhysTriggers
542  << ") - algorithm not inserted!" << std::endl;
543  return false;
544  }
545 
546  // maximum number of algorithms
547  if (m_algorithmMap.size() >= m_numberPhysTriggers) {
548  LogTrace("TriggerMenuParser") << " More than maximum allowed "
549  << m_numberPhysTriggers << " algorithms in the algorithm map - not inserted!"
550  << std::endl;
551  return false;
552  }
553 
554 
555  // chip number outside allowed values
556  int chipNr = alg.algoChipNumber(static_cast<int>(m_numberConditionChips),
557  static_cast<int>(m_pinsOnConditionChip), m_orderConditionChip);
558 
559  if ((chipNr < 0) || (chipNr > static_cast<int>(m_numberConditionChips))) {
560  LogTrace("TriggerMenuParser") << " Chip number " << chipNr
561  << " outside allowed range [0, " << m_numberConditionChips
562  << ") - algorithm not inserted!" << std::endl;
563  return false;
564  }
565 
566  // output pin outside allowed values
567  int outputPin = alg.algoOutputPin(static_cast<int>(m_numberConditionChips),
568  static_cast<int>(m_pinsOnConditionChip), m_orderConditionChip);
569 
570  if ((outputPin < 0) || (outputPin > static_cast<int>(m_pinsOnConditionChip))) {
571  LogTrace("TriggerMenuParser") << " Output pin " << outputPin
572  << " outside allowed range [0, " << m_pinsOnConditionChip
573  << "] - algorithm not inserted!" << std::endl;
574  return false;
575  }
576 
577  // no two algorithms on the same chip can have the same output pin
578  for (CItAlgo itAlgo = m_algorithmMap.begin(); itAlgo != m_algorithmMap.end(); itAlgo++) {
579 
580  int iPin = (itAlgo->second).algoOutputPin( static_cast<int>(m_numberConditionChips),
581  static_cast<int>(m_pinsOnConditionChip), m_orderConditionChip);
582  std::string iName = itAlgo->first;
583  int iChip = (itAlgo->second).algoChipNumber(static_cast<int>(m_numberConditionChips),
584  static_cast<int>(m_pinsOnConditionChip), m_orderConditionChip);
585 
586  if ( (outputPin == iPin) && (chipNr == iChip)) {
587  LogTrace("TriggerMenuParser") << " Output pin " << outputPin
588  << " is the same as for algorithm " << iName
589  << "\n from the same chip number " << chipNr << " - algorithm not inserted!"
590  << std::endl;
591  return false;
592  }
593 
594  }
595 
596  // insert algorithm
597  m_algorithmMap[algName] = alg;
598  m_algorithmAliasMap[algAlias] = alg;
599 
600  //LogTrace("TriggerMenuParser")
601  //<< " OK - algorithm inserted!"
602  //<< std::endl;
603 
604  return true;
605 
606 }
unsigned int m_numberPhysTriggers
number of physics trigger algorithms
unsigned int m_numberConditionChips
hardware limits
AlgorithmMap m_algorithmMap
map containing the physics algorithms (by name)
AlgorithmMap::const_iterator CItAlgo
iterators through map containing the algorithms
int algoBitNumber() const
get / set algorithm bit number
const int algoOutputPin(const int numberConditionChips, const int pinsOnConditionChip, const std::vector< int > &orderConditionChip) const
get the output pin on the condition chip for the algorithm
#define LogTrace(id)
const std::string algoName() const
get / set algorithm name
unsigned int m_pinsOnConditionChip
number of pins on the GTL condition chips
std::vector< int > m_orderConditionChip
std::string const & algoAlias() const
get / set algorithm alias
AlgorithmMap m_algorithmAliasMap
map containing the physics algorithms (by alias)
const int algoChipNumber() const
get / set algorithm bit number
bool TriggerMenuParser::insertConditionIntoMap ( GlobalCondition cond,
const int  chipNr 
)
private

insertConditionIntoMap - safe insert of condition into condition map. if the condition name already exists, do not insert it and return false

Definition at line 492 of file TriggerMenuParser.cc.

References GlobalCondition::condName(), KineDebug3::count(), LogTrace, m_conditionMap, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmImplementation(), parseCalo(), parseCorrelation(), parseCorrelationWithOverlapRemoval(), parseEnergySum(), parseExternal(), and parseMuon().

492  {
493 
494  std::string cName = cond.condName();
495  LogTrace("TriggerMenuParser")
496  << " Trying to insert condition \"" << cName << "\" in the condition map." << std::endl;
497 
498  // no condition name has to appear twice!
499  if ((m_conditionMap[chipNr]).count(cName) != 0) {
500  LogTrace("TriggerMenuParser")
501  << " Condition " << cName
502  << " already exists - not inserted!" << std::endl;
503  return false;
504  }
505 
506  (m_conditionMap[chipNr])[cName] = &cond;
507  LogTrace("TriggerMenuParser")
508  << " OK - condition inserted!"
509  << std::endl;
510 
511 
512  return true;
513 
514 }
std::vector< ConditionMap > m_conditionMap
map containing the conditions (per condition chip) - transient
#define LogTrace(id)
const std::string & condName() const
get / set condition name
template<typename T >
std::string TriggerMenuParser::l1t2string ( T  data)
private

Definition at line 609 of file TriggerMenuParser.cc.

References data.

Referenced by gtAlgorithmImplementation(), parseCalo(), parseCaloCorr(), parseCorrelation(), parseCorrelationWithOverlapRemoval(), parseEnergySum(), parseEnergySumCorr(), parseExternal(), parseMuon(), and parseMuonCorr().

609  {
610  std::stringstream ss;
611  ss << data;
612  return ss.str();
613 }
char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:82
int TriggerMenuParser::l1tstr2int ( const std::string  data)
private

Definition at line 614 of file TriggerMenuParser.cc.

References data, and relativeConstraints::value.

Referenced by gtAlgorithmImplementation(), parseCalo(), parseCaloCorr(), parseMuon(), and parseMuonCorr().

614  {
615  std::stringstream ss;
616  ss << data;
617  int value;
618  ss >> value;
619  return value;
620 }
char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:82
bool TriggerMenuParser::parseAlgorithm ( tmeventsetup::esAlgorithm  algorithm,
unsigned int  chipNr = 0 
)
private

parse all algorithms

workAlgorithm - parse the algorithm and insert it into algorithm map.

Parameters
nodeThe corresponding node to the algorithm.
nameThe name of the algorithm.
chipNrThe number of the chip the conditions for that algorithm are located on.
Returns
"true" on success, "false" if an error occurred.

Definition at line 3370 of file TriggerMenuParser.cc.

References insertAlgorithmIntoMap(), edm::isDebugEnabled(), LogDebug, LogTrace, GlobalAlgorithm::print(), GlobalAlgorithm::setAlgoAlias(), GlobalAlgorithm::setAlgoChipNumber(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmImplementation(), and parseCondFormats().

3371  {
3372 
3373 
3374  using namespace tmeventsetup;
3375  //using namespace Algorithm;
3376 
3377 
3378  // get alias
3379  std::string algAlias = algorithm.getName();
3380  std::string algName = algorithm.getName();
3381 
3382  if (algAlias == "") {
3383  algAlias = algName;
3384  LogDebug("TriggerMenuParser")
3385  << "\n No alias defined for algorithm. Alias set to algorithm name."
3386  << "\n Algorithm name: " << algName << "\n Algorithm alias: " << algAlias
3387  << std::endl;
3388  } else {
3389  //LogDebug("TriggerMenuParser")
3390  LogDebug("TriggerMenuParser") << "\n Alias defined for algorithm."
3391  << "\n Algorithm name: " << algName << "\n Algorithm alias: " << algAlias
3392  << std::endl;
3393  }
3394 
3395  // get the logical expression
3396  std::string logExpression = algorithm.getExpressionInCondition();
3397 
3398  LogDebug("TriggerMenuParser")
3399  << " Logical expression: " << logExpression
3400  << " Chip number: " << chipNr
3401  << std::endl;
3402 
3403  // determine output pin
3404  int outputPin = algorithm.getIndex();
3405 
3406 
3407  //LogTrace("TriggerMenuParser")
3408  LogDebug("TriggerMenuParser") << " Output pin: " << outputPin
3409  << std::endl;
3410 
3411 
3412  // compute the bit number from chip number, output pin and order of the chips
3413  // pin numbering start with 1, bit numbers with 0
3414  int bitNumber = outputPin;// + (m_orderConditionChip[chipNr] -1)*m_pinsOnConditionChip -1;
3415 
3416  //LogTrace("TriggerMenuParser")
3417  LogDebug("TriggerMenuParser") << " Bit number: " << bitNumber
3418  << std::endl;
3419 
3420  // create a new algorithm and insert it into algorithm map
3421  GlobalAlgorithm alg(algName, logExpression, bitNumber);
3422  alg.setAlgoChipNumber(static_cast<int>(chipNr));
3423  alg.setAlgoAlias(algAlias);
3424 
3425  if (edm::isDebugEnabled() ) {
3426 
3427  std::ostringstream myCoutStream;
3428  alg.print(myCoutStream);
3429  LogTrace("TriggerMenuParser") << myCoutStream.str() << "\n" << std::endl;
3430 
3431  }
3432 
3433  // insert algorithm into the map
3434  if ( !insertAlgorithmIntoMap(alg)) {
3435  return false;
3436  }
3437 
3438  return true;
3439 
3440 }
#define LogDebug(id)
bool isDebugEnabled()
#define LogTrace(id)
bool insertAlgorithmIntoMap(const GlobalAlgorithm &alg)
insert an algorithm into algorithm map
void TriggerMenuParser::parseCalMuEta_LUTS ( std::map< std::string, tmeventsetup::esScale >  scaleMap,
std::string  obj1,
std::string  obj2 
)
private

Definition at line 870 of file TriggerMenuParser.cc.

References m_gtScales, l1t::GlobalScales::setLUT_CalMuEta(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmImplementation(), and parseScales().

871 {
872 
873  using namespace tmeventsetup;
874 
875  // First Delta Eta for this set
876  std::string scLabel1 = obj1;
877  scLabel1 += "-ETA";
878  std::string scLabel2 = obj2;
879  scLabel2 += "-ETA";
880 
881  //This LUT does not exist in L1 Menu file, don't fill it
882  if( scaleMap.find(scLabel1) == scaleMap.end() || scaleMap.find(scLabel2) == scaleMap.end()) return;
883 
884  const esScale* scale1 = &scaleMap.find(scLabel1)->second;
885  const esScale* scale2 = &scaleMap.find(scLabel2)->second;
886 
887  std::vector<long long> lut_cal_2_mu_eta;
888  getCaloMuonEtaConversionLut(lut_cal_2_mu_eta, scale1, scale2);
889 
890  std::string lutName = obj1;
891  lutName += "-";
892  lutName += obj2;
893  m_gtScales.setLUT_CalMuEta(lutName,lut_cal_2_mu_eta);
894 
895 
896 }
virtual void setLUT_CalMuEta(const std::string &lutName, std::vector< long long > lut)
Definition: GlobalScales.cc:39
void TriggerMenuParser::parseCalMuPhi_LUTS ( std::map< std::string, tmeventsetup::esScale >  scaleMap,
std::string  obj1,
std::string  obj2 
)
private

Definition at line 898 of file TriggerMenuParser.cc.

References m_gtScales, l1t::GlobalScales::setLUT_CalMuPhi(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmImplementation(), and parseScales().

899 {
900 
901  using namespace tmeventsetup;
902 
903  // First Delta Eta for this set
904  std::string scLabel1 = obj1;
905  scLabel1 += "-PHI";
906  std::string scLabel2 = obj2;
907  scLabel2 += "-PHI";
908 
909  //This LUT does not exist in L1 Menu file, don't fill it
910  if( scaleMap.find(scLabel1) == scaleMap.end() || scaleMap.find(scLabel2) == scaleMap.end()) return;
911 
912  const esScale* scale1 = &scaleMap.find(scLabel1)->second;
913  const esScale* scale2 = &scaleMap.find(scLabel2)->second;
914 
915 
916  std::vector<long long> lut_cal_2_mu_phi;
917  getCaloMuonPhiConversionLut(lut_cal_2_mu_phi, scale1, scale2);
918 
919  std::string lutName = obj1;
920  lutName += "-";
921  lutName += obj2;
922  m_gtScales.setLUT_CalMuPhi(lutName,lut_cal_2_mu_phi);
923 
924 
925 }
virtual void setLUT_CalMuPhi(const std::string &lutName, std::vector< long long > lut)
Definition: GlobalScales.cc:55
bool TriggerMenuParser::parseCalo ( tmeventsetup::esCondition  condCalo,
unsigned int  chipNr = 0,
const bool  corrFlag = false 
)
private

parse a calorimeter condition

parseCalo Parse a calo condition and insert an entry to the conditions map

Parameters
nodeThe corresponding node.
nameThe name of the condition.
chipNrThe number of the chip this condition is located.
Returns
"true" if succeeded, "false" if an error occurred.

Definition at line 1576 of file TriggerMenuParser.cc.

References TkAlMuonSelectors_cfi::cut, particleFlowClusterECALTimeSelected_cfi::cuts, TauDecayModes::dec, reco::tau::disc::Eta(), l1t::gtEG, l1t::gtJet, l1t::gtTau, insertConditionIntoMap(), createfilelist::int, edm::isDebugEnabled(), findQualityFiles::jj, GetRecoTauVFromDQM_MC_cff::kk, l1t2string(), l1tstr2int(), LogDebug, LogTrace, m_corCaloTemplate, m_vecCaloTemplate, dataset::name, colinearityKinematic::Phi, CaloTemplate::print(), GlobalCondition::setCondChipNr(), GlobalCondition::setCondGEq(), CaloTemplate::setConditionParameter(), GlobalCondition::setCondRelativeBx(), GlobalCondition::setCondType(), GlobalCondition::setObjectType(), AlCaHLTBitMon_QueryRunRegistry::string, jetExtractorBlock_cff::Threshold, l1t::Type1s, l1t::Type2s, l1t::Type3s, l1t::Type4s, and l1t::TypeNull.

Referenced by gtAlgorithmImplementation(), and parseCondFormats().

1577  {
1578 
1579 
1580 // XERCES_CPP_NAMESPACE_USE
1581  using namespace tmeventsetup;
1582 
1583  // get condition, particle name and type name
1584 
1585  std::string condition = "calo";
1586  std::string particle = "test-fix" ;
1587  std::string type = l1t2string( condCalo.getType() );
1588  std::string name = l1t2string( condCalo.getName() );
1589 
1590  LogDebug("TriggerMenuParser")
1591  << "\n ****************************************** "
1592  << "\n (in parseCalo) "
1593  << "\n condition = " << condition
1594  << "\n particle = " << particle
1595  << "\n type = " << type
1596  << "\n name = " << name
1597  << std::endl;
1598 
1599 
1601 
1602  // determine object type type
1603  // BLW TO DO: Can this object type wait and be done later in the parsing. Or done differently completely..
1604  GlobalObject caloObjType;
1605  int nrObj = -1;
1606 
1607  if (condCalo.getType() == esConditionType::SingleEgamma) {
1608  caloObjType = gtEG;
1609  type = "1_s";
1610  cType= l1t::Type1s;
1611  nrObj = 1;
1612  } else if (condCalo.getType() == esConditionType::DoubleEgamma) {
1613  caloObjType = gtEG;
1614  type = "2_s";
1615  cType= l1t::Type2s;
1616  nrObj = 2;
1617  } else if (condCalo.getType() == esConditionType::TripleEgamma) {
1618  caloObjType = gtEG;
1619  cType= l1t::Type3s;
1620  type = "3";
1621  nrObj = 3;
1622  } else if (condCalo.getType() == esConditionType::QuadEgamma) {
1623  caloObjType = gtEG;
1624  cType= l1t::Type4s;
1625  type = "4";
1626  nrObj = 4;
1627  } else if (condCalo.getType() == esConditionType::SingleJet) {
1628  caloObjType = gtJet;
1629  cType= l1t::Type1s;
1630  type = "1_s";
1631  nrObj = 1;
1632  } else if (condCalo.getType() == esConditionType::DoubleJet) {
1633  caloObjType = gtJet;
1634  cType= l1t::Type2s;
1635  type = "2_s";
1636  nrObj = 2;
1637  } else if (condCalo.getType() == esConditionType::TripleJet) {
1638  caloObjType = gtJet;
1639  cType= l1t::Type3s;
1640  type = "3";
1641  nrObj = 3;
1642  } else if (condCalo.getType() == esConditionType::QuadJet) {
1643  caloObjType = gtJet;
1644  cType= l1t::Type4s;
1645  type = "4";
1646  nrObj = 4;
1647  } else if (condCalo.getType() == esConditionType::SingleTau) {
1648  caloObjType = gtTau;
1649  cType= l1t::Type1s;
1650  type = "1_s";
1651  nrObj = 1;
1652  } else if (condCalo.getType() == esConditionType::DoubleTau) {
1653  caloObjType = gtTau;
1654  cType= l1t::Type2s;
1655  type = "2_s";
1656  nrObj = 2;
1657  } else if (condCalo.getType() == esConditionType::TripleTau) {
1658  caloObjType = gtTau;
1659  cType= l1t::Type3s;
1660  type = "3";
1661  nrObj = 3;
1662  } else if (condCalo.getType() == esConditionType::QuadTau) {
1663  caloObjType = gtTau;
1664  cType= l1t::Type4s;
1665  type = "4";
1666  nrObj = 4;
1667  } else {
1668  edm::LogError("TriggerMenuParser") << "Wrong particle for calo-condition ("
1669  << particle << ")" << std::endl;
1670  return false;
1671  }
1672 
1673 // std::string str_etComparison = l1t2string( condCalo.comparison_operator() );
1674 
1675  if (nrObj < 0) {
1676  edm::LogError("TriggerMenuParser") << "Unknown type for calo-condition (" << type
1677  << ")" << "\nCan not determine number of trigger objects. " << std::endl;
1678  return false;
1679  }
1680 
1681  // get values
1682 
1683  // temporary storage of the parameters
1684  std::vector<CaloTemplate::ObjectParameter> objParameter(nrObj);
1685 
1686  //BLW TO DO: Can this be dropped?
1687  CaloTemplate::CorrelationParameter corrParameter;
1688 
1689  // need at least one value for deltaPhiRange
1690  std::vector<boost::uint64_t> tmpValues((nrObj > 1) ? nrObj : 1);
1691  tmpValues.reserve( nrObj );
1692 
1693 
1694  if( int(condCalo.getObjects().size())!=nrObj ){
1695  edm::LogError("TriggerMenuParser") << " condCalo objects: nrObj = " << nrObj
1696  << "condCalo.getObjects().size() = "
1697  << condCalo.getObjects().size()
1698  << std::endl;
1699  return false;
1700  }
1701 
1702 
1703 // std::string str_condCalo = "";
1704 // boost::uint64_t tempUIntH, tempUIntL;
1705 // boost::uint64_t dst;
1706  int cnt = 0;
1707 
1708 // BLW TO DO: These needs to the added to the object rather than the whole condition.
1709  int relativeBx = 0;
1710  bool gEq = false;
1711 
1712 // Loop over objects and extract the cuts on the objects
1713  const std::vector<esObject>& objects = condCalo.getObjects();
1714  for (size_t jj = 0; jj < objects.size(); jj++) {
1715 
1716  const esObject object = objects.at(jj);
1717  gEq = (object.getComparisonOperator() == esComparisonOperator::GE);
1718 
1719 // BLW TO DO: This needs to be added to the Object Parameters
1720  relativeBx = object.getBxOffset();
1721 
1722 // Loop over the cuts for this object
1723  int upperThresholdInd = -1;
1724  int lowerThresholdInd = 0;
1725  int upperIndexInd = -1;
1726  int lowerIndexInd = 0;
1727  int cntEta = 0;
1728  unsigned int etaWindow1Lower=-1, etaWindow1Upper=-1, etaWindow2Lower=-1, etaWindow2Upper=-1;
1729  int cntPhi = 0;
1730  unsigned int phiWindow1Lower=-1, phiWindow1Upper=-1, phiWindow2Lower=-1, phiWindow2Upper=-1;
1731  int isolationLUT = 0xF; //default is to ignore isolation unless specified.
1732  int qualityLUT = 0xF; //default is to ignore quality unless specified.
1733 
1734 
1735  const std::vector<esCut>& cuts = object.getCuts();
1736  for (size_t kk = 0; kk < cuts.size(); kk++)
1737  {
1738  const esCut cut = cuts.at(kk);
1739 
1740  switch(cut.getCutType()){
1741  case esCutType::Threshold:
1742  lowerThresholdInd = cut.getMinimum().index;
1743  upperThresholdInd = cut.getMaximum().index;
1744  break;
1745  case esCutType::Slice:
1746  lowerIndexInd = int(cut.getMinimum().value);
1747  upperIndexInd = int(cut.getMaximum().value);
1748  break;
1749  case esCutType::Eta: {
1750 
1751  if(cntEta == 0) {
1752  etaWindow1Lower = cut.getMinimum().index;
1753  etaWindow1Upper = cut.getMaximum().index;
1754  } else if(cntEta == 1) {
1755  etaWindow2Lower = cut.getMinimum().index;
1756  etaWindow2Upper = cut.getMaximum().index;
1757  } else {
1758  edm::LogError("TriggerMenuParser") << "Too Many Eta Cuts for calo-condition ("
1759  << particle << ")" << std::endl;
1760  return false;
1761  }
1762  cntEta++;
1763 
1764  } break;
1765 
1766  case esCutType::Phi: {
1767 
1768  if(cntPhi == 0) {
1769  phiWindow1Lower = cut.getMinimum().index;
1770  phiWindow1Upper = cut.getMaximum().index;
1771  } else if(cntPhi == 1) {
1772  phiWindow2Lower = cut.getMinimum().index;
1773  phiWindow2Upper = cut.getMaximum().index;
1774  } else {
1775  edm::LogError("TriggerMenuParser") << "Too Many Phi Cuts for calo-condition ("
1776  << particle << ")" << std::endl;
1777  return false;
1778  }
1779  cntPhi++;
1780 
1781  }break;
1782 
1783  case esCutType::Charge: {
1784 
1785  edm::LogError("TriggerMenuParser") << "No charge cut for calo-condition ("
1786  << particle << ")" << std::endl;
1787  return false;
1788 
1789  }break;
1790  case esCutType::Quality: {
1791 
1792  qualityLUT = l1tstr2int(cut.getData());
1793 
1794  }break;
1795  case esCutType::Isolation: {
1796 
1797  isolationLUT = l1tstr2int(cut.getData());
1798 
1799  } break;
1800  default:
1801  break;
1802  } //end switch
1803 
1804  } //end loop over cuts
1805 
1806 // Fill the object parameters
1807  objParameter[cnt].etHighThreshold = upperThresholdInd;
1808  objParameter[cnt].etLowThreshold = lowerThresholdInd;
1809  objParameter[cnt].indexHigh = upperIndexInd;
1810  objParameter[cnt].indexLow = lowerIndexInd;
1811  objParameter[cnt].etaWindow1Lower = etaWindow1Lower;
1812  objParameter[cnt].etaWindow1Upper = etaWindow1Upper;
1813  objParameter[cnt].etaWindow2Lower = etaWindow2Lower;
1814  objParameter[cnt].etaWindow2Upper = etaWindow2Upper;
1815  objParameter[cnt].phiWindow1Lower = phiWindow1Lower;
1816  objParameter[cnt].phiWindow1Upper = phiWindow1Upper;
1817  objParameter[cnt].phiWindow2Lower = phiWindow2Lower;
1818  objParameter[cnt].phiWindow2Upper = phiWindow2Upper;
1819  objParameter[cnt].isolationLUT = isolationLUT;
1820  objParameter[cnt].qualityLUT = qualityLUT; //TO DO: Must add
1821 
1822  // Output for debugging
1823  LogDebug("TriggerMenuParser")
1824  << "\n Calo ET high thresholds (hex) for calo object " << caloObjType << " " << cnt << " = "
1825  << std::hex << objParameter[cnt].etLowThreshold << " - " << objParameter[cnt].etHighThreshold
1826  << "\n etaWindow Lower / Upper for calo object " << cnt << " = 0x"
1827  << objParameter[cnt].etaWindow1Lower << " / 0x" << objParameter[cnt].etaWindow1Upper
1828  << "\n etaWindowVeto Lower / Upper for calo object " << cnt << " = 0x"
1829  << objParameter[cnt].etaWindow2Lower << " / 0x" << objParameter[cnt].etaWindow2Upper
1830  << "\n phiWindow Lower / Upper for calo object " << cnt << " = 0x"
1831  << objParameter[cnt].phiWindow1Lower << " / 0x" << objParameter[cnt].phiWindow1Upper
1832  << "\n phiWindowVeto Lower / Upper for calo object " << cnt << " = 0x"
1833  << objParameter[cnt].phiWindow2Lower << " / 0x" << objParameter[cnt].phiWindow2Upper
1834  << "\n Isolation LUT for calo object " << cnt << " = 0x"
1835  << objParameter[cnt].isolationLUT
1836  << "\n Quality LUT for calo object " << cnt << " = 0x"
1837  << objParameter[cnt].qualityLUT << std::dec
1838  << std::endl;
1839 
1840  cnt++;
1841  } //end loop over objects
1842 
1843 
1844 
1845  // object types - all same caloObjType
1846  std::vector<GlobalObject> objType(nrObj, caloObjType);
1847 
1848 
1849 
1850 
1851  // now create a new calo condition
1852  CaloTemplate caloCond(name);
1853 
1854  caloCond.setCondType(cType);
1855  caloCond.setObjectType(objType);
1856 
1857  //BLW TO DO: This needs to be added to the object rather than the whole condition
1858  caloCond.setCondGEq(gEq);
1859  caloCond.setCondChipNr(chipNr);
1860 
1861  //BLW TO DO: This needs to be added to the object rather than the whole condition
1862  caloCond.setCondRelativeBx(relativeBx);
1863 
1864  caloCond.setConditionParameter(objParameter, corrParameter);
1865 
1866  if (edm::isDebugEnabled() ) {
1867 
1868  std::ostringstream myCoutStream;
1869  caloCond.print(myCoutStream);
1870  LogTrace("TriggerMenuParser") << myCoutStream.str() << "\n" << std::endl;
1871 
1872  }
1873 
1874 
1875  // insert condition into the map
1876  if ( !insertConditionIntoMap(caloCond, chipNr)) {
1877 
1878  edm::LogError("TriggerMenuParser")
1879  << " Error: duplicate condition (" << name << ")"
1880  << std::endl;
1881 
1882  return false;
1883  }
1884  else {
1885 
1886  if (corrFlag) {
1887  (m_corCaloTemplate[chipNr]).push_back(caloCond);
1888  }
1889  else {
1890  (m_vecCaloTemplate[chipNr]).push_back(caloCond);
1891  }
1892 
1893  }
1894 
1895 
1896  //
1897  return true;
1898 }
#define LogDebug(id)
type
Definition: HCALResponse.h:21
bool isDebugEnabled()
std::vector< std::vector< CaloTemplate > > m_vecCaloTemplate
std::vector< std::vector< CaloTemplate > > m_corCaloTemplate
bool insertConditionIntoMap(GlobalCondition &cond, const int chipNr)
#define LogTrace(id)
int l1tstr2int(const std::string data)
typedef for correlation parameters
Definition: CaloTemplate.h:84
bool TriggerMenuParser::parseCaloCorr ( const tmeventsetup::esObject *  corrCalo,
unsigned int  chipNr = 0 
)
private

parseCalo Parse a calo condition and insert an entry to the conditions map

Parameters
nodeThe corresponding node.
nameThe name of the condition.
chipNrThe number of the chip this condition is located.
Returns
"true" if succeeded, "false" if an error occurred.

Definition at line 1913 of file TriggerMenuParser.cc.

References TkAlMuonSelectors_cfi::cut, particleFlowClusterECALTimeSelected_cfi::cuts, TauDecayModes::dec, reco::tau::disc::Eta(), l1t::gtEG, l1t::gtJet, l1t::gtTau, createfilelist::int, edm::isDebugEnabled(), configurableAnalysis::Jet, GetRecoTauVFromDQM_MC_cff::kk, l1t2string(), l1tstr2int(), LogDebug, LogTrace, m_corCaloTemplate, dataset::name, colinearityKinematic::Phi, CaloTemplate::print(), GlobalCondition::setCondChipNr(), GlobalCondition::setCondGEq(), CaloTemplate::setConditionParameter(), GlobalCondition::setCondRelativeBx(), GlobalCondition::setCondType(), GlobalCondition::setObjectType(), AlCaHLTBitMon_QueryRunRegistry::string, jetExtractorBlock_cff::Threshold, and l1t::Type1s.

Referenced by gtAlgorithmImplementation(), parseCorrelation(), and parseCorrelationWithOverlapRemoval().

1914  {
1915 
1916 
1917 // XERCES_CPP_NAMESPACE_USE
1918  using namespace tmeventsetup;
1919 
1920  // get condition, particle name and type name
1921 
1922  std::string condition = "calo";
1923  std::string particle = "test-fix" ;
1924  std::string type = l1t2string( corrCalo->getType() );
1925  std::string name = l1t2string( corrCalo->getName() );
1926 
1927  LogDebug("TriggerMenuParser")
1928  << "\n ****************************************** "
1929  << "\n (in parseCalo) "
1930  << "\n condition = " << condition
1931  << "\n particle = " << particle
1932  << "\n type = " << type
1933  << "\n name = " << name
1934  << std::endl;
1935 
1936 
1937  // determine object type type
1938  // BLW TO DO: Can this object type wait and be done later in the parsing. Or done differently completely..
1939  GlobalObject caloObjType;
1940  int nrObj = 1;
1941  type = "1_s";
1942  GtConditionType cType = l1t::Type1s;
1943 
1944 
1945  if (corrCalo->getType() == esObjectType::Egamma) {
1946  caloObjType = gtEG;
1947  } else if (corrCalo->getType() == esObjectType::Jet) {
1948  caloObjType = gtJet;
1949  } else if (corrCalo->getType() == esObjectType::Tau) {
1950  caloObjType = gtTau;
1951  } else {
1952  edm::LogError("TriggerMenuParser") << "Wrong particle for calo-condition ("
1953  << particle << ")" << std::endl;
1954  return false;
1955  }
1956 
1957 
1958 // std::string str_etComparison = l1t2string( condCalo.comparison_operator() );
1959 
1960  if (nrObj < 0) {
1961  edm::LogError("TriggerMenuParser") << "Unknown type for calo-condition (" << type
1962  << ")" << "\nCan not determine number of trigger objects. " << std::endl;
1963  return false;
1964  }
1965 
1966  // get values
1967 
1968  // temporary storage of the parameters
1969  std::vector<CaloTemplate::ObjectParameter> objParameter(nrObj);
1970 
1971  //BLW TO DO: Can this be dropped?
1972  CaloTemplate::CorrelationParameter corrParameter;
1973 
1974  // need at least one value for deltaPhiRange
1975  std::vector<boost::uint64_t> tmpValues((nrObj > 1) ? nrObj : 1);
1976  tmpValues.reserve( nrObj );
1977 
1978 
1979 
1980 // BLW TO DO: These needs to the added to the object rather than the whole condition.
1981  int relativeBx = 0;
1982  bool gEq = false;
1983 
1984 
1985  gEq = (corrCalo->getComparisonOperator() == esComparisonOperator::GE);
1986 
1987 // BLW TO DO: This needs to be added to the Object Parameters
1988  relativeBx = corrCalo->getBxOffset();
1989 
1990 // Loop over the cuts for this object
1991  int upperThresholdInd = -1;
1992  int lowerThresholdInd = 0;
1993  int upperIndexInd = -1;
1994  int lowerIndexInd = 0;
1995  int cntEta = 0;
1996  unsigned int etaWindow1Lower=-1, etaWindow1Upper=-1, etaWindow2Lower=-1, etaWindow2Upper=-1;
1997  int cntPhi = 0;
1998  unsigned int phiWindow1Lower=-1, phiWindow1Upper=-1, phiWindow2Lower=-1, phiWindow2Upper=-1;
1999  int isolationLUT = 0xF; //default is to ignore isolation unless specified.
2000  int qualityLUT = 0xF; //default is to ignore quality unless specified.
2001 
2002 
2003  const std::vector<esCut>& cuts = corrCalo->getCuts();
2004  for (size_t kk = 0; kk < cuts.size(); kk++)
2005  {
2006  const esCut cut = cuts.at(kk);
2007 
2008  switch(cut.getCutType()){
2009  case esCutType::Threshold:
2010  lowerThresholdInd = cut.getMinimum().index;
2011  upperThresholdInd = cut.getMaximum().index;
2012  break;
2013  case esCutType::Slice:
2014  lowerIndexInd = int(cut.getMinimum().value);
2015  upperIndexInd = int(cut.getMaximum().value);
2016  break;
2017  case esCutType::Eta: {
2018 
2019  if(cntEta == 0) {
2020  etaWindow1Lower = cut.getMinimum().index;
2021  etaWindow1Upper = cut.getMaximum().index;
2022  } else if(cntEta == 1) {
2023  etaWindow2Lower = cut.getMinimum().index;
2024  etaWindow2Upper = cut.getMaximum().index;
2025  } else {
2026  edm::LogError("TriggerMenuParser") << "Too Many Eta Cuts for calo-condition ("
2027  << particle << ")" << std::endl;
2028  return false;
2029  }
2030  cntEta++;
2031 
2032  } break;
2033 
2034  case esCutType::Phi: {
2035 
2036  if(cntPhi == 0) {
2037  phiWindow1Lower = cut.getMinimum().index;
2038  phiWindow1Upper = cut.getMaximum().index;
2039  } else if(cntPhi == 1) {
2040  phiWindow2Lower = cut.getMinimum().index;
2041  phiWindow2Upper = cut.getMaximum().index;
2042  } else {
2043  edm::LogError("TriggerMenuParser") << "Too Many Phi Cuts for calo-condition ("
2044  << particle << ")" << std::endl;
2045  return false;
2046  }
2047  cntPhi++;
2048 
2049  }break;
2050 
2051  case esCutType::Charge: {
2052 
2053  edm::LogError("TriggerMenuParser") << "No charge cut for calo-condition ("
2054  << particle << ")" << std::endl;
2055  return false;
2056 
2057  }break;
2058  case esCutType::Quality: {
2059 
2060  qualityLUT = l1tstr2int(cut.getData());
2061 
2062  }break;
2063  case esCutType::Isolation: {
2064 
2065  isolationLUT = l1tstr2int(cut.getData());
2066 
2067  } break;
2068  default:
2069  break;
2070  } //end switch
2071 
2072  } //end loop over cuts
2073 
2074 // Fill the object parameters
2075  objParameter[0].etLowThreshold = lowerThresholdInd;
2076  objParameter[0].etHighThreshold = upperThresholdInd;
2077  objParameter[0].indexHigh = upperIndexInd;
2078  objParameter[0].indexLow = lowerIndexInd;
2079  objParameter[0].etaWindow1Lower = etaWindow1Lower;
2080  objParameter[0].etaWindow1Upper = etaWindow1Upper;
2081  objParameter[0].etaWindow2Lower = etaWindow2Lower;
2082  objParameter[0].etaWindow2Upper = etaWindow2Upper;
2083  objParameter[0].phiWindow1Lower = phiWindow1Lower;
2084  objParameter[0].phiWindow1Upper = phiWindow1Upper;
2085  objParameter[0].phiWindow2Lower = phiWindow2Lower;
2086  objParameter[0].phiWindow2Upper = phiWindow2Upper;
2087  objParameter[0].isolationLUT = isolationLUT;
2088  objParameter[0].qualityLUT = qualityLUT; //TO DO: Must add
2089 
2090  // Output for debugging
2091  LogDebug("TriggerMenuParser")
2092  << "\n Calo ET high threshold (hex) for calo object " << caloObjType << " " << " = "
2093  << std::hex << objParameter[0].etLowThreshold << " - " << objParameter[0].etHighThreshold
2094  << "\n etaWindow Lower / Upper for calo object " << " = 0x"
2095  << objParameter[0].etaWindow1Lower << " / 0x" << objParameter[0].etaWindow1Upper
2096  << "\n etaWindowVeto Lower / Upper for calo object " << " = 0x"
2097  << objParameter[0].etaWindow2Lower << " / 0x" << objParameter[0].etaWindow2Upper
2098  << "\n phiWindow Lower / Upper for calo object " << " = 0x"
2099  << objParameter[0].phiWindow1Lower << " / 0x" << objParameter[0].phiWindow1Upper
2100  << "\n phiWindowVeto Lower / Upper for calo object " << " = 0x"
2101  << objParameter[0].phiWindow2Lower << " / 0x" << objParameter[0].phiWindow2Upper
2102  << "\n Isolation LUT for calo object " << " = 0x"
2103  << objParameter[0].isolationLUT
2104  << "\n Quality LUT for calo object " << " = 0x"
2105  << objParameter[0].qualityLUT << std::dec
2106  << std::endl;
2107 
2108 
2109 
2110 
2111 
2112  // object types - all same caloObjType
2113  std::vector<GlobalObject> objType(nrObj, caloObjType);
2114 
2115 
2116 
2117 
2118  // now create a new calo condition
2119  CaloTemplate caloCond(name);
2120 
2121  caloCond.setCondType(cType);
2122  caloCond.setObjectType(objType);
2123 
2124  //BLW TO DO: This needs to be added to the object rather than the whole condition
2125  caloCond.setCondGEq(gEq);
2126  caloCond.setCondChipNr(chipNr);
2127 
2128  //BLW TO DO: This needs to be added to the object rather than the whole condition
2129  caloCond.setCondRelativeBx(relativeBx);
2130 
2131  caloCond.setConditionParameter(objParameter, corrParameter);
2132 
2133  if (edm::isDebugEnabled() ) {
2134 
2135  std::ostringstream myCoutStream;
2136  caloCond.print(myCoutStream);
2137  LogTrace("TriggerMenuParser") << myCoutStream.str() << "\n" << std::endl;
2138 
2139  }
2140 
2141 /*
2142  // insert condition into the map
2143  if ( !insertConditionIntoMap(caloCond, chipNr)) {
2144 
2145  edm::LogError("TriggerMenuParser")
2146  << " Error: duplicate condition (" << name << ")"
2147  << std::endl;
2148 
2149  return false;
2150  }
2151  else {
2152  (m_corCaloTemplate[chipNr]).push_back(caloCond);
2153  }
2154 */
2155  (m_corCaloTemplate[chipNr]).push_back(caloCond);
2156 
2157  //
2158  return true;
2159 }
#define LogDebug(id)
type
Definition: HCALResponse.h:21
bool isDebugEnabled()
std::vector< std::vector< CaloTemplate > > m_corCaloTemplate
#define LogTrace(id)
int l1tstr2int(const std::string data)
typedef for correlation parameters
Definition: CaloTemplate.h:84
void TriggerMenuParser::parseCondFormats ( const L1TUtmTriggerMenu utmMenu)

Definition at line 249 of file TriggerMenuParser.cc.

References patPFMETCorrections_cff::algo, DefaultClusterizer_cff::Algorithm, KineDebug3::count(), cuy::ii, reco::tau::disc::InvariantMass(), m_conditionMap, m_corCaloTemplate, m_corEnergySumTemplate, m_corMuonTemplate, m_gtScales, m_numberConditionChips, m_triggerMenuDate, m_triggerMenuDescription, m_triggerMenuImplementation, m_triggerMenuInterface, m_triggerMenuName, m_triggerMenuUUID, m_vecCaloTemplate, m_vecCorrelationTemplate, m_vecCorrelationWithOverlapRemovalTemplate, m_vecEnergySumTemplate, m_vecExternalTemplate, m_vecMuonTemplate, parseAlgorithm(), parseCalo(), parseCorrelation(), parseCorrelationWithOverlapRemoval(), parseEnergySum(), parseExternal(), parseMuon(), parseScales(), l1t::GlobalScales::setScalesName(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmAliasMap(), and L1TGlobalProducer::produce().

249  {
250 
251 
252  // resize the vector of condition maps
253  // the number of condition chips should be correctly set before calling parseXmlFile
255 
260 
266 
267  using namespace tmeventsetup;
268  using namespace Algorithm;
269 
270  const esTriggerMenu* menu = reinterpret_cast<const esTriggerMenu*> (utmMenu);
271 
272  //get the meta data
273  m_triggerMenuDescription = menu->getComment();
274  m_triggerMenuDate = menu->getDatetime();
275  m_triggerMenuImplementation = ( getMmHashN(menu->getFirmwareUuid()) & 0xFFFFFFFF); //make sure we only have 32 bits
276  m_triggerMenuName = menu->getName();
277  m_triggerMenuInterface = menu->getVersion(); //BLW: correct descriptor?
278  m_triggerMenuUUID = ( getMmHashN(menu->getName()) & 0xFFFFFFFF); //make sure we only have 32 bits
279 
280  const std::map<std::string, esAlgorithm>& algoMap = menu->getAlgorithmMap();
281  const std::map<std::string, esCondition>& condMap = menu->getConditionMap();
282  const std::map<std::string, esScale>& scaleMap = menu->getScaleMap();
283 
284  // parse the scales
285  m_gtScales.setScalesName( menu->getScaleSetName() );
286  parseScales(scaleMap);
287 
288 
289  //loop over the algorithms
290  for (std::map<std::string, esAlgorithm>::const_iterator cit = algoMap.begin();
291  cit != algoMap.end(); cit++)
292  {
293  //condition chip (artifact) TO DO: Update
294  int chipNr = 0;
295 
296  //get algorithm
297  const esAlgorithm& algo = cit->second;
298 
299  //parse the algorithm
300  parseAlgorithm(algo,chipNr); //blw
301 
302  //get conditions for this algorithm
303  const std::vector<std::string>& rpn_vec = algo.getRpnVector();
304  for (size_t ii = 0; ii < rpn_vec.size(); ii++)
305  {
306  const std::string& token = rpn_vec.at(ii);
307  if (isGate(token)) continue;
308 // long hash = getHash(token);
309  const esCondition& condition = condMap.find(token)->second;
310 
311 
312  //check to see if this condtion already exists
313  if ((m_conditionMap[chipNr]).count(condition.getName()) == 0) {
314 
315  // parse Calo Conditions (EG, Jets, Taus)
316  if(condition.getType() == esConditionType::SingleEgamma ||
317  condition.getType() == esConditionType::DoubleEgamma ||
318  condition.getType() == esConditionType::TripleEgamma ||
319  condition.getType() == esConditionType::QuadEgamma ||
320  condition.getType() == esConditionType::SingleTau ||
321  condition.getType() == esConditionType::DoubleTau ||
322  condition.getType() == esConditionType::TripleTau ||
323  condition.getType() == esConditionType::QuadTau ||
324  condition.getType() == esConditionType::SingleJet ||
325  condition.getType() == esConditionType::DoubleJet ||
326  condition.getType() == esConditionType::TripleJet ||
327  condition.getType() == esConditionType::QuadJet )
328  {
329  parseCalo(condition,chipNr,false);
330 
331  // parse Energy Sums
332  } else if(condition.getType() == esConditionType::TotalEt ||
333  condition.getType() == esConditionType::TotalEtEM ||
334  condition.getType() == esConditionType::TotalHt ||
335  condition.getType() == esConditionType::MissingEt ||
336  condition.getType() == esConditionType::MissingHt ||
337  condition.getType() == esConditionType::MissingEtHF ||
338  condition.getType() == esConditionType::TowerCount ||
339  condition.getType() == esConditionType::MinBiasHFP0 ||
340  condition.getType() == esConditionType::MinBiasHFM0 ||
341  condition.getType() == esConditionType::MinBiasHFP1 ||
342  condition.getType() == esConditionType::MinBiasHFM1 )
343  {
344  parseEnergySum(condition,chipNr,false);
345 
346  //parse Muons
347  } else if(condition.getType() == esConditionType::SingleMuon ||
348  condition.getType() == esConditionType::DoubleMuon ||
349  condition.getType() == esConditionType::TripleMuon ||
350  condition.getType() == esConditionType::QuadMuon )
351  {
352  parseMuon(condition,chipNr,false);
353 
354 
355  //parse Correlation Conditions
356  } else if(condition.getType() == esConditionType::MuonMuonCorrelation ||
357  condition.getType() == esConditionType::MuonEsumCorrelation ||
358  condition.getType() == esConditionType::CaloMuonCorrelation ||
359  condition.getType() == esConditionType::CaloCaloCorrelation ||
360  condition.getType() == esConditionType::CaloEsumCorrelation ||
361  condition.getType() == esConditionType::InvariantMass ||
362  condition.getType() == esConditionType::TransverseMass )
363  {
364  parseCorrelation(condition,chipNr);
365 
366  //parse Externals
367  } else if(condition.getType() == esConditionType::Externals )
368  {
369  parseExternal(condition,chipNr);
370 
371  }
372  else if(condition.getType() == esConditionType::SingleEgammaOvRm ||
373  condition.getType() == esConditionType::DoubleEgammaOvRm ||
374  condition.getType() == esConditionType::TripleEgammaOvRm ||
375  condition.getType() == esConditionType::QuadEgammaOvRm ||
376  condition.getType() == esConditionType::SingleTauOvRm ||
377  condition.getType() == esConditionType::DoubleTauOvRm ||
378  condition.getType() == esConditionType::TripleTauOvRm ||
379  condition.getType() == esConditionType::QuadTauOvRm ||
380  condition.getType() == esConditionType::SingleJetOvRm ||
381  condition.getType() == esConditionType::DoubleJetOvRm ||
382  condition.getType() == esConditionType::TripleJetOvRm ||
383  condition.getType() == esConditionType::QuadJetOvRm) {
384 
385  edm::LogError("TriggerMenuParser") << std::endl
386  << "SingleEgammaOvRm" << std::endl
387  << "DoubleEgammaOvRm" << std::endl
388  << "TripleEgammaOvRm" << std::endl
389  << "QuadEgammaOvRm" << std::endl
390  << "SingleTauOvRm" << std::endl
391  << "DoubleTauOvRm" << std::endl
392  << "TripleTauOvRm" << std::endl
393  << "QuadTauOvRm" << std::endl
394  << "SingleJetOvRm" << std::endl
395  << "DoubleJetOvRm" << std::endl
396  << "TripleJetOvRm" << std::endl
397  << "QuadJetOvRm" << std::endl
398  << "The above conditions types OvRm are not implemented yet in the parser. Please remove alogrithms that use this type of condtion from L1T Menu!" << std::endl;
399 
400  }
401  //parse CorrelationWithOverlapRemoval
402  else if(condition.getType() == esConditionType::CaloCaloCorrelationOvRm ||
403  condition.getType() == esConditionType::InvariantMassOvRm ||
404  condition.getType() == esConditionType::TransverseMassOvRm) {
405 
406  parseCorrelationWithOverlapRemoval(condition,chipNr);
407 
408  }
409 
410  }//if condition is a new one
411  }//loop over conditions
412  }//loop over algorithms
413 
414  return;
415 
416 
417 }
unsigned int m_numberConditionChips
hardware limits
std::vector< std::vector< CaloTemplate > > m_vecCaloTemplate
void setScalesName(const std::string &name)
Definition: GlobalScales.h:80
std::vector< std::vector< EnergySumTemplate > > m_corEnergySumTemplate
bool parseExternal(tmeventsetup::esCondition condExt, unsigned int chipNr=0)
std::vector< std::vector< CaloTemplate > > m_corCaloTemplate
std::vector< std::vector< CorrelationWithOverlapRemovalTemplate > > m_vecCorrelationWithOverlapRemovalTemplate
std::string m_triggerMenuInterface
menu names
std::vector< ConditionMap > m_conditionMap
map containing the conditions (per condition chip) - transient
std::vector< std::vector< MuonTemplate > > m_corMuonTemplate
std::string m_triggerMenuDescription
std::vector< std::vector< CorrelationTemplate > > m_vecCorrelationTemplate
ii
Definition: cuy.py:588
bool parseScales(std::map< std::string, tmeventsetup::esScale > scaleMap)
parse scales
bool parseEnergySum(tmeventsetup::esCondition condEnergySums, unsigned int chipNr=0, const bool corrFlag=false)
parse an "energy sum" condition
unsigned long m_triggerMenuUUID
std::vector< std::vector< ExternalTemplate > > m_vecExternalTemplate
bool parseMuon(tmeventsetup::esCondition condMu, unsigned int chipNr=0, const bool corrFlag=false)
parse a muon condition
bool parseAlgorithm(tmeventsetup::esAlgorithm algorithm, unsigned int chipNr=0)
parse all algorithms
unsigned long m_triggerMenuImplementation
bool parseCorrelationWithOverlapRemoval(const tmeventsetup::esCondition &corrCond, unsigned int chipNr=0)
parse a correlation condition with overlap removal
bool parseCalo(tmeventsetup::esCondition condCalo, unsigned int chipNr=0, const bool corrFlag=false)
parse a calorimeter condition
std::vector< std::vector< EnergySumTemplate > > m_vecEnergySumTemplate
bool parseCorrelation(tmeventsetup::esCondition corrCond, unsigned int chipNr=0)
parse a correlation condition
std::vector< std::vector< MuonTemplate > > m_vecMuonTemplate
bool TriggerMenuParser::parseCorrelation ( tmeventsetup::esCondition  corrCond,
unsigned int  chipNr = 0 
)
private

parse a correlation condition

parseCorrelation Parse a correlation condition and insert an entry to the conditions map

Parameters
nodeThe corresponding node.
nameThe name of the condition.
chipNrThe number of the chip this condition is located.
Returns
"true" if succeeded, "false" if an error occurred.

Definition at line 2716 of file TriggerMenuParser.cc.

References CorrelationTemplate::CorrelationParameter::chargeCorrelation, l1t::CondCalo, l1t::CondEnergySum, l1t::CondMuon, CorrelationTemplate::CorrelationParameter::corrCutType, TkAlMuonSelectors_cfi::cut, particleFlowClusterECALTimeSelected_cfi::cuts, HiRegitMuonDetachedTripletStep_cff::DeltaEta, allConversions_cfi::DeltaPhi, HiRegitMuonDetachedTripletStep_cff::DeltaR, ETM, l1t::gtEG, l1t::gtETM, l1t::gtETMHF, l1t::gtHTM, l1t::gtJet, l1t::gtMu, l1t::gtTau, l1t::gtTowerCount, HTM, insertConditionIntoMap(), edm::isDebugEnabled(), configurableAnalysis::Jet, findQualityFiles::jj, l1t2string(), LogDebug, LogTrace, m_corCaloTemplate, m_corEnergySumTemplate, m_corMuonTemplate, m_vecCorrelationTemplate, bwdGsfElectronPropagator_cff::Mass, CorrelationTemplate::CorrelationParameter::maxDRCutValue, CorrelationTemplate::CorrelationParameter::maxEtaCutValue, CorrelationTemplate::CorrelationParameter::maxMassCutValue, CorrelationTemplate::CorrelationParameter::maxPhiCutValue, CorrelationTemplate::CorrelationParameter::maxTBPTCutValue, CorrelationTemplate::CorrelationParameter::minDRCutValue, CorrelationTemplate::CorrelationParameter::minEtaCutValue, CorrelationTemplate::CorrelationParameter::minMassCutValue, CorrelationTemplate::CorrelationParameter::minPhiCutValue, CorrelationTemplate::CorrelationParameter::minTBPTCutValue, configurableAnalysis::Muon, dataset::name, parseCaloCorr(), parseEnergySumCorr(), parseMuonCorr(), funct::pow(), CorrelationTemplate::CorrelationParameter::precDRCut, CorrelationTemplate::CorrelationParameter::precEtaCut, CorrelationTemplate::CorrelationParameter::precMassCut, CorrelationTemplate::CorrelationParameter::precPhiCut, CorrelationTemplate::CorrelationParameter::precTBPTCut, CorrelationTemplate::print(), CorrelationTemplate::setCond0Category(), CorrelationTemplate::setCond0Index(), CorrelationTemplate::setCond1Category(), CorrelationTemplate::setCond1Index(), GlobalCondition::setCondChipNr(), GlobalCondition::setCondGEq(), GlobalCondition::setCondType(), CorrelationTemplate::setCorrelationParameter(), GlobalCondition::setObjectType(), findQualityFiles::size, AlCaHLTBitMon_QueryRunRegistry::string, and l1t::Type2cor.

Referenced by gtAlgorithmImplementation(), and parseCondFormats().

2718  {
2719 
2720  using namespace tmeventsetup;
2721 
2722  std::string condition = "corr";
2723  std::string particle = "test-fix" ;
2724  std::string type = l1t2string( corrCond.getType() );
2725  std::string name = l1t2string( corrCond.getName() );
2726 
2727  LogDebug("TriggerMenuParser") << " ****************************************** " << std::endl
2728  << " (in parseCorrelation) " << std::endl
2729  << " condition = " << condition << std::endl
2730  << " particle = " << particle << std::endl
2731  << " type = " << type << std::endl
2732  << " name = " << name << std::endl;
2733 
2734 
2735 
2736 
2737  // create a new correlation condition
2738  CorrelationTemplate correlationCond(name);
2739 
2740  // check that the condition does not exist already in the map
2741  if ( !insertConditionIntoMap(correlationCond, chipNr)) {
2742 
2743  edm::LogError("TriggerMenuParser")
2744  << " Error: duplicate correlation condition (" << name << ")"
2745  << std::endl;
2746 
2747  return false;
2748  }
2749 
2750 
2751 // Define some of the quantities to store the parased information
2752 
2753  // condition type BLW (Do we change this to the type of correlation condition?)
2755 
2756  // two objects (for sure)
2757  const int nrObj = 2;
2758 
2759  // object types and greater equal flag - filled in the loop
2760  int intGEq[nrObj] = { -1, -1 };
2761  std::vector<GlobalObject> objType(nrObj); //BLW do we want to define these as a different type?
2762  std::vector<GtConditionCategory> condCateg(nrObj); //BLW do we want to change these categories
2763 
2764  // correlation flag and index in the cor*vector
2765  const bool corrFlag = true;
2766  int corrIndexVal[nrObj] = { -1, -1 };
2767 
2768 
2769  // Storage of the correlation selection
2771  corrParameter.chargeCorrelation = 1; //ignore charge correlation
2772 
2773 // Get the correlation Cuts on the legs
2774  int cutType = 0;
2775  const std::vector<esCut>& cuts = corrCond.getCuts();
2776  for (size_t jj = 0; jj < cuts.size(); jj++)
2777  {
2778  const esCut cut = cuts.at(jj);
2779 
2780  if(cut.getCutType() == esCutType::ChargeCorrelation) {
2781  if( cut.getData()=="ls" ) corrParameter.chargeCorrelation = 2;
2782  else if( cut.getData()=="os" ) corrParameter.chargeCorrelation = 4;
2783  else corrParameter.chargeCorrelation = 1; //ignore charge correlation
2784  } else {
2785 
2786 //
2787 // Unitl utm has method to calculate these, do the integer value calculation with precision.
2788 //
2789  double minV = cut.getMinimum().value;
2790  double maxV = cut.getMaximum().value;
2791 
2792  //Scale down very large numbers out of xml
2793  if(maxV > 1.0e8) maxV = 1.0e8;
2794 
2795  if(cut.getCutType() == esCutType::DeltaEta) {
2796  LogDebug("TriggerMenuParser") << "CutType: " << cut.getCutType() << "\tDeltaEta Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
2797  corrParameter.minEtaCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
2798  corrParameter.maxEtaCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
2799  corrParameter.precEtaCut = cut.getMinimum().index;
2800  cutType = cutType | 0x1;
2801  } else if (cut.getCutType() == esCutType::DeltaPhi) {
2802  LogDebug("TriggerMenuParser") << "CutType: " << cut.getCutType() << "\tDeltaPhi Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
2803  corrParameter.minPhiCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
2804  corrParameter.maxPhiCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
2805  corrParameter.precPhiCut = cut.getMinimum().index;
2806  cutType = cutType | 0x2;
2807  } else if (cut.getCutType() == esCutType::DeltaR) {
2808  LogDebug("TriggerMenuParser") << "CutType: " << cut.getCutType() << "\tDeltaR Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
2809  corrParameter.minDRCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
2810  corrParameter.maxDRCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
2811  corrParameter.precDRCut = cut.getMinimum().index;
2812  cutType = cutType | 0x4;
2813  } else if (cut.getCutType() == esCutType::TwoBodyPt) {
2814  corrParameter.minTBPTCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
2815  corrParameter.maxTBPTCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
2816  corrParameter.precTBPTCut = cut.getMinimum().index;
2817  LogDebug("TriggerMenuParser") << "CutType: " << cut.getCutType() << "\tTPBT Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
2818  cutType = cutType | 0x20;
2819  } else if (cut.getCutType() == esCutType::Mass) {
2820  LogDebug("TriggerMenuParser") << "CutType: " << cut.getCutType() << "\tMass Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
2821  corrParameter.minMassCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
2822  corrParameter.maxMassCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
2823  corrParameter.precMassCut = cut.getMinimum().index;
2824  // cutType = cutType | 0x8;
2825  if (corrCond.getType() == esConditionType::TransverseMass){
2826  cutType = cutType | 0x10;
2827  //std::cout << "CCLA running Transverse mass cutType= " << cutType << std::endl;
2828  }else{
2829  cutType = cutType | 0x8;
2830  //std::cout << "CCLA running Invarient mass cutType= " << cutType << std::endl;
2831  }
2832  }
2833  }
2834 
2835  }
2836  corrParameter.corrCutType = cutType;
2837 
2838 // Get the two objects that form the legs
2839  const std::vector<esObject>& objects = corrCond.getObjects();
2840  if(objects.size() != 2) {
2841  edm::LogError("TriggerMenuParser")
2842  << "incorrect number of objects for the correlation condition " << name << " corrFlag " << corrFlag << std::endl;
2843  return false;
2844  }
2845 
2846 // loop over legs
2847  for (size_t jj = 0; jj < objects.size(); jj++)
2848  {
2849  const esObject object = objects.at(jj);
2850  //std::cout << " obj name = " << object.getName() << "\n";
2851  //std::cout << " obj type = " << object.getType() << "\n";
2852  //std::cout << " obj op = " << object.getComparisonOperator() << "\n";
2853  //std::cout << " obj bx = " << object.getBxOffset() << "\n";
2854 
2855 
2856 // check the leg type
2857  if(object.getType() == esObjectType::Muon) {
2858  // we have a muon
2859 
2860 /*
2861  //BLW Hold on to this code we may need to go back to it at some point.
2862  // Now we are putting ALL leg conditions into the vector (so there are duplicates)
2863  // This is potentially a place to slim down the code. Note: We currently evaluate the
2864  // conditions every time, so even if we put the condition in the vector once, we would
2865  // still evaluate it multiple times. This is a place for optimization.
2866  {
2867 
2868  parseMuonCorr(&object,chipNr);
2869  corrIndexVal[jj] = (m_corMuonTemplate[chipNr]).size() - 1;
2870 
2871  } else {
2872  LogDebug("TriggerMenuParser") << "Not Adding Correlation Muon Condition to Map...looking for the condition in Muon Cor Vector" << std::endl;
2873  bool found = false;
2874  int index = 0;
2875  while(!found && index<(int)((m_corMuonTemplate[chipNr]).size()) ) {
2876  if( (m_corMuonTemplate[chipNr]).at(index).condName() == object.getName() ) {
2877  LogDebug("TriggerMenuParser") << "Found condition " << object.getName() << " in vector at index " << index << std::endl;
2878  found = true;
2879  } else {
2880  index++;
2881  }
2882  }
2883  if(found) {
2884  corrIndexVal[jj] = index;
2885  } else {
2886  edm::LogError("TriggerMenuParser") << "FAILURE: Condition " << object.getName() << " is in map but not in cor. vector " << std::endl;
2887  }
2888 
2889  }
2890 */
2891  parseMuonCorr(&object,chipNr);
2892  corrIndexVal[jj] = (m_corMuonTemplate[chipNr]).size() - 1;
2893 
2894  //Now set some flags for this subCondition
2895  intGEq[jj] = (object.getComparisonOperator() == esComparisonOperator::GE);
2896  objType[jj] = gtMu;
2897  condCateg[jj] = CondMuon;
2898 
2899  } else if(object.getType() == esObjectType::Egamma ||
2900  object.getType() == esObjectType::Jet ||
2901  object.getType() == esObjectType::Tau ) {
2902 
2903  // we have an Calo object
2904  parseCaloCorr(&object,chipNr);
2905  corrIndexVal[jj] = (m_corCaloTemplate[chipNr]).size() - 1;
2906 
2907  //Now set some flags for this subCondition
2908  intGEq[jj] = (object.getComparisonOperator() == esComparisonOperator::GE);
2909  switch(object.getType()) {
2910  case esObjectType::Egamma: {
2911  objType[jj] = gtEG;
2912  }
2913  break;
2914  case esObjectType::Jet: {
2915  objType[jj] = gtJet;
2916  }
2917  break;
2918  case esObjectType::Tau: {
2919  objType[jj] = gtTau;
2920  }
2921  break;
2922  default: {
2923  }
2924  break;
2925  }
2926  condCateg[jj] = CondCalo;
2927 
2928 
2929 
2930 
2931  } else if(object.getType() == esObjectType::ETM ||
2932  object.getType() == esObjectType::ETMHF ||
2933  object.getType() == esObjectType::TOWERCOUNT ||
2934  object.getType() == esObjectType::HTM ) {
2935 
2936  // we have Energy Sum
2937  parseEnergySumCorr(&object,chipNr);
2938  corrIndexVal[jj] = (m_corEnergySumTemplate[chipNr]).size() - 1;
2939 
2940  //Now set some flags for this subCondition
2941  intGEq[jj] = (object.getComparisonOperator() == esComparisonOperator::GE);
2942  switch(object.getType()) {
2943  case esObjectType::ETM: {
2944  objType[jj] = GlobalObject::gtETM;
2945  }
2946  break;
2947  case esObjectType::HTM: {
2948  objType[jj] = GlobalObject::gtHTM;
2949  }
2950  break;
2951  case esObjectType::ETMHF: {
2952  objType[jj] = GlobalObject::gtETMHF;
2953  }
2954  break;
2955  case esObjectType::TOWERCOUNT: {
2956  objType[jj] = GlobalObject::gtTowerCount;
2957  }
2958  break;
2959  default: {
2960  }
2961  break;
2962  }
2963  condCateg[jj] = CondEnergySum;
2964 
2965 
2966  } else {
2967 
2968  edm::LogError("TriggerMenuParser")
2969  << "Illegal Object Type " << object.getType()
2970  << " for the correlation condition " << name << std::endl;
2971  return false;
2972 
2973  } //if block on leg types
2974 
2975  } //loop over legs
2976 
2977 
2978  // get greater equal flag for the correlation condition
2979  bool gEq = true;
2980  if (intGEq[0] != intGEq[1]) {
2981  edm::LogError("TriggerMenuParser")
2982  << "Inconsistent GEq flags for sub-conditions "
2983  << " for the correlation condition " << name << std::endl;
2984  return false;
2985 
2986  }
2987  else {
2988  gEq = (intGEq[0] != 0);
2989 
2990  }
2991 
2992 
2993  // fill the correlation condition
2994  correlationCond.setCondType(cType);
2995  correlationCond.setObjectType(objType);
2996  correlationCond.setCondGEq(gEq);
2997  correlationCond.setCondChipNr(chipNr);
2998 
2999  correlationCond.setCond0Category(condCateg[0]);
3000  correlationCond.setCond1Category(condCateg[1]);
3001 
3002  correlationCond.setCond0Index(corrIndexVal[0]);
3003  correlationCond.setCond1Index(corrIndexVal[1]);
3004 
3005  correlationCond.setCorrelationParameter(corrParameter);
3006 
3007  if (edm::isDebugEnabled() ) {
3008 
3009  std::ostringstream myCoutStream;
3010  correlationCond.print(myCoutStream);
3011  LogTrace("TriggerMenuParser") << myCoutStream.str() << "\n"
3012  << std::endl;
3013 
3014  }
3015 
3016  // insert condition into the map
3017  // condition is not duplicate, check was done at the beginning
3018 
3019  (m_vecCorrelationTemplate[chipNr]).push_back(correlationCond);
3020 
3021 
3022  //
3023  return true;
3024 }
#define LogDebug(id)
size
Write out results.
type
Definition: HCALResponse.h:21
bool isDebugEnabled()
Definition: L1GtObject.h:39
Definition: L1GtObject.h:36
std::vector< std::vector< EnergySumTemplate > > m_corEnergySumTemplate
std::vector< std::vector< CaloTemplate > > m_corCaloTemplate
std::vector< std::vector< MuonTemplate > > m_corMuonTemplate
std::vector< std::vector< CorrelationTemplate > > m_vecCorrelationTemplate
bool insertConditionIntoMap(GlobalCondition &cond, const int chipNr)
#define LogTrace(id)
bool parseCaloCorr(const tmeventsetup::esObject *corrCalo, unsigned int chipNr=0)
bool parseEnergySumCorr(const tmeventsetup::esObject *corrESum, unsigned int chipNr=0)
bool parseMuonCorr(const tmeventsetup::esObject *condMu, unsigned int chipNr=0)
typedef for correlation parameters
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40
bool TriggerMenuParser::parseCorrelationWithOverlapRemoval ( const tmeventsetup::esCondition &  corrCond,
unsigned int  chipNr = 0 
)
private

parse a correlation condition with overlap removal

parseCorrelationWithOverlapRemoval Parse a correlation condition and insert an entry to the conditions map

Parameters
nodeThe corresponding node.
nameThe name of the condition.
chipNrThe number of the chip this condition is located.
Returns
"true" if succeeded, "false" if an error occurred.

Definition at line 3038 of file TriggerMenuParser.cc.

References CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::chargeCorrelation, l1t::CondCalo, l1t::CondEnergySum, l1t::CondMuon, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::corrCutType, TkAlMuonSelectors_cfi::cut, particleFlowClusterECALTimeSelected_cfi::cuts, HiRegitMuonDetachedTripletStep_cff::DeltaEta, allConversions_cfi::DeltaPhi, HiRegitMuonDetachedTripletStep_cff::DeltaR, ETM, l1t::gtEG, l1t::gtETM, l1t::gtETMHF, l1t::gtHTM, l1t::gtJet, l1t::gtMu, l1t::gtTau, l1t::gtTowerCount, HTM, insertConditionIntoMap(), edm::isDebugEnabled(), configurableAnalysis::Jet, findQualityFiles::jj, l1t2string(), LogDebug, LogTrace, m_corCaloTemplate, m_corEnergySumTemplate, m_corMuonTemplate, m_vecCorrelationWithOverlapRemovalTemplate, bwdGsfElectronPropagator_cff::Mass, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::maxDRCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::maxEtaCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::maxMassCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::maxOverlapRemovalDRCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::maxOverlapRemovalEtaCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::maxOverlapRemovalPhiCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::maxPhiCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::minDRCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::minEtaCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::minMassCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::minOverlapRemovalDRCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::minOverlapRemovalEtaCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::minOverlapRemovalPhiCutValue, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::minPhiCutValue, configurableAnalysis::Muon, dataset::name, parseCaloCorr(), parseEnergySumCorr(), parseMuonCorr(), funct::pow(), CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::precDRCut, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::precEtaCut, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::precMassCut, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::precOverlapRemovalDRCut, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::precOverlapRemovalEtaCut, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::precOverlapRemovalPhiCut, CorrelationWithOverlapRemovalTemplate::CorrelationWithOverlapRemovalParameter::precPhiCut, CorrelationWithOverlapRemovalTemplate::print(), CorrelationWithOverlapRemovalTemplate::setCond0Category(), CorrelationWithOverlapRemovalTemplate::setCond0Index(), CorrelationWithOverlapRemovalTemplate::setCond1Category(), CorrelationWithOverlapRemovalTemplate::setCond1Index(), CorrelationWithOverlapRemovalTemplate::setCond2Category(), CorrelationWithOverlapRemovalTemplate::setCond2Index(), GlobalCondition::setCondChipNr(), GlobalCondition::setCondGEq(), GlobalCondition::setCondType(), CorrelationWithOverlapRemovalTemplate::setCorrelationWithOverlapRemovalParameter(), GlobalCondition::setObjectType(), findQualityFiles::size, AlCaHLTBitMon_QueryRunRegistry::string, and l1t::Type2corWithOverlapRemoval.

Referenced by gtAlgorithmImplementation(), and parseCondFormats().

3040  {
3041 
3042  using namespace tmeventsetup;
3043 
3044  std::string condition = "corrWithOverlapRemoval";
3045  std::string particle = "test-fix" ;
3046  std::string type = l1t2string( corrCond.getType() );
3047  std::string name = l1t2string( corrCond.getName() );
3048 
3049  LogDebug("TriggerMenuParser") << " ****************************************** " << std::endl
3050  << " (in parseCorrelationWithOverlapRemoval) " << std::endl
3051  << " condition = " << condition << std::endl
3052  << " particle = " << particle << std::endl
3053  << " type = " << type << std::endl
3054  << " name = " << name << std::endl;
3055 
3056 
3057 
3058 
3059  // create a new correlation condition
3060  CorrelationWithOverlapRemovalTemplate correlationWORCond(name);
3061 
3062  // check that the condition does not exist already in the map
3063  if ( !insertConditionIntoMap(correlationWORCond, chipNr)) {
3064 
3065  edm::LogError("TriggerMenuParser")
3066  << " Error: duplicate correlation condition (" << name << ")"
3067  << std::endl;
3068 
3069  return false;
3070  }
3071 
3072 
3073 // Define some of the quantities to store the parased information
3074 
3075  // condition type BLW (Do we change this to the type of correlation condition?)
3077 
3078  // three objects (for sure)
3079  const int nrObj = 3;
3080 
3081  // object types and greater equal flag - filled in the loop
3082  int intGEq[nrObj] = { -1, -1, -1 };
3083  std::vector<GlobalObject> objType(nrObj); //BLW do we want to define these as a different type?
3084  std::vector<GtConditionCategory> condCateg(nrObj); //BLW do we want to change these categories
3085 
3086  // correlation flag and index in the cor*vector
3087  const bool corrFlag = true;
3088  int corrIndexVal[nrObj] = { -1, -1, -1 };
3089 
3090 
3091  // Storage of the correlation selection
3093  corrParameter.chargeCorrelation = 1; //ignore charge correlation for corr-legs
3094 
3095 // Get the correlation Cuts on the legs
3096  int cutType = 0;
3097  const std::vector<esCut>& cuts = corrCond.getCuts();
3098  for (size_t jj = 0; jj < cuts.size(); jj++)
3099  {
3100  const esCut cut = cuts.at(jj);
3101 
3102  if(cut.getCutType() == esCutType::ChargeCorrelation) {
3103  if( cut.getData()=="ls" ) corrParameter.chargeCorrelation = 2;
3104  else if( cut.getData()=="os" ) corrParameter.chargeCorrelation = 4;
3105  else corrParameter.chargeCorrelation = 1; //ignore charge correlation
3106  } else {
3107 
3108  //
3109  // Unitl utm has method to calculate these, do the integer value calculation with precision.
3110  //
3111  double minV = cut.getMinimum().value;
3112  double maxV = cut.getMaximum().value;
3113 
3114  //Scale down very large numbers out of xml
3115  if(maxV > 1.0e8) maxV = 1.0e8;
3116 
3117  if(cut.getCutType() == esCutType::DeltaEta) {
3118  //std::cout << "DeltaEta Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
3119  corrParameter.minEtaCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
3120  corrParameter.maxEtaCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
3121  corrParameter.precEtaCut = cut.getMinimum().index;
3122  cutType = cutType | 0x1;
3123  } else if (cut.getCutType() == esCutType::DeltaPhi) {
3124  //std::cout << "DeltaPhi Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
3125  corrParameter.minPhiCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
3126  corrParameter.maxPhiCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
3127  corrParameter.precPhiCut = cut.getMinimum().index;
3128  cutType = cutType | 0x2;
3129  } else if (cut.getCutType() == esCutType::DeltaR) {
3130  //std::cout << "DeltaR Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
3131  corrParameter.minDRCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
3132  corrParameter.maxDRCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
3133  corrParameter.precDRCut = cut.getMinimum().index;
3134  cutType = cutType | 0x4;
3135  } else if (cut.getCutType() == esCutType::Mass) {
3136  //std::cout << "Mass Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
3137  corrParameter.minMassCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
3138  corrParameter.maxMassCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
3139  corrParameter.precMassCut = cut.getMinimum().index;
3140  cutType = cutType | 0x8;
3141  }
3142  if(cut.getCutType() == esCutType::OvRmDeltaEta) {
3143  //std::cout << "OverlapRemovalDeltaEta Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
3144  corrParameter.minOverlapRemovalEtaCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
3145  corrParameter.maxOverlapRemovalEtaCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
3146  corrParameter.precOverlapRemovalEtaCut = cut.getMinimum().index;
3147  cutType = cutType | 0x10;
3148  } else if (cut.getCutType() == esCutType::OvRmDeltaPhi) {
3149  //std::cout << "OverlapRemovalDeltaPhi Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
3150  corrParameter.minOverlapRemovalPhiCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
3151  corrParameter.maxOverlapRemovalPhiCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
3152  corrParameter.precOverlapRemovalPhiCut = cut.getMinimum().index;
3153  cutType = cutType | 0x20;
3154  } else if (cut.getCutType() == esCutType::OvRmDeltaR) {
3155  //std::cout << "DeltaR Cut minV = " << minV << " Max = " << maxV << " precMin = " << cut.getMinimum().index << " precMax = " << cut.getMaximum().index << std::endl;
3156  corrParameter.minOverlapRemovalDRCutValue = (long long)(minV * pow(10.,cut.getMinimum().index));
3157  corrParameter.maxOverlapRemovalDRCutValue = (long long)(maxV * pow(10.,cut.getMaximum().index));
3158  corrParameter.precOverlapRemovalDRCut = cut.getMinimum().index;
3159  cutType = cutType | 0x40;
3160  }
3161 
3162  }
3163 
3164  }
3165  corrParameter.corrCutType = cutType;
3166 
3167 // Get the two objects that form the legs
3168  const std::vector<esObject>& objects = corrCond.getObjects();
3169  if(objects.size() != 3) {
3170  edm::LogError("TriggerMenuParser")
3171  << "incorrect number of objects for the correlation condition with overlap removal " << name << " corrFlag " << corrFlag << std::endl;
3172  return false;
3173  }
3174 
3175 // loop over legs
3176  for (size_t jj = 0; jj < objects.size(); jj++)
3177  {
3178  const esObject& object = objects.at(jj);
3179  //std::cout << " obj name = " << object.getName() << "\n";
3180  //std::cout << " obj type = " << object.getType() << "\n";
3181  //std::cout << " obj op = " << object.getComparisonOperator() << "\n";
3182  //std::cout << " obj bx = " << object.getBxOffset() << "\n";
3183  //std::cout << "type = done" << std::endl;
3184 
3185 
3186 // check the leg type
3187  if(object.getType() == esObjectType::Muon) {
3188  // we have a muon
3189 
3190 /*
3191  //BLW Hold on to this code we may need to go back to it at some point.
3192  // Now we are putting ALL leg conditions into the vector (so there are duplicates)
3193  // This is potentially a place to slim down the code. Note: We currently evaluate the
3194  // conditions every time, so even if we put the condition in the vector once, we would
3195  // still evaluate it multiple times. This is a place for optimization.
3196  {
3197 
3198  parseMuonCorr(&object,chipNr);
3199  corrIndexVal[jj] = (m_corMuonTemplate[chipNr]).size() - 1;
3200 
3201  } else {
3202  LogDebug("TriggerMenuParser") << "Not Adding Correlation Muon Condition to Map...looking for the condition in Muon Cor Vector" << std::endl;
3203  bool found = false;
3204  int index = 0;
3205  while(!found && index<(int)((m_corMuonTemplate[chipNr]).size()) ) {
3206  if( (m_corMuonTemplate[chipNr]).at(index).condName() == object.getName() ) {
3207  LogDebug("TriggerMenuParser") << "Found condition " << object.getName() << " in vector at index " << index << std::endl;
3208  found = true;
3209  } else {
3210  index++;
3211  }
3212  }
3213  if(found) {
3214  corrIndexVal[jj] = index;
3215  } else {
3216  edm::LogError("TriggerMenuParser") << "FAILURE: Condition " << object.getName() << " is in map but not in cor. vector " << std::endl;
3217  }
3218 
3219  }
3220 */
3221  parseMuonCorr(&object,chipNr);
3222  corrIndexVal[jj] = (m_corMuonTemplate[chipNr]).size() - 1;
3223 
3224  //Now set some flags for this subCondition
3225  intGEq[jj] = (object.getComparisonOperator() == esComparisonOperator::GE);
3226  objType[jj] = gtMu;
3227  condCateg[jj] = CondMuon;
3228 
3229  } else if(object.getType() == esObjectType::Egamma ||
3230  object.getType() == esObjectType::Jet ||
3231  object.getType() == esObjectType::Tau ) {
3232 
3233  // we have an Calo object
3234  parseCaloCorr(&object,chipNr);
3235  corrIndexVal[jj] = (m_corCaloTemplate[chipNr]).size() - 1;
3236 
3237  //Now set some flags for this subCondition
3238  intGEq[jj] = (object.getComparisonOperator() == esComparisonOperator::GE);
3239  switch(object.getType()) {
3240  case esObjectType::Egamma: {
3241  objType[jj] = gtEG;
3242  }
3243  break;
3244  case esObjectType::Jet: {
3245  objType[jj] = gtJet;
3246  }
3247  break;
3248  case esObjectType::Tau: {
3249  objType[jj] = gtTau;
3250  }
3251  break;
3252  default: {
3253  }
3254  break;
3255  }
3256  condCateg[jj] = CondCalo;
3257 
3258 
3259 
3260 
3261  } else if(object.getType() == esObjectType::ETM ||
3262  object.getType() == esObjectType::ETMHF ||
3263  object.getType() == esObjectType::TOWERCOUNT ||
3264  object.getType() == esObjectType::HTM ) {
3265 
3266  // we have Energy Sum
3267  parseEnergySumCorr(&object,chipNr);
3268  corrIndexVal[jj] = (m_corEnergySumTemplate[chipNr]).size() - 1;
3269 
3270  //Now set some flags for this subCondition
3271  intGEq[jj] = (object.getComparisonOperator() == esComparisonOperator::GE);
3272  switch(object.getType()) {
3273  case esObjectType::ETM: {
3274  objType[jj] = GlobalObject::gtETM;
3275  }
3276  break;
3277  case esObjectType::HTM: {
3278  objType[jj] = GlobalObject::gtHTM;
3279  }
3280  break;
3281  case esObjectType::ETMHF: {
3282  objType[jj] = GlobalObject::gtETMHF;
3283  }
3284  break;
3285  case esObjectType::TOWERCOUNT: {
3286  objType[jj] = GlobalObject::gtTowerCount;
3287  }
3288  break;
3289  default: {
3290  }
3291  break;
3292  }
3293  condCateg[jj] = CondEnergySum;
3294 
3295 
3296  } else {
3297 
3298  edm::LogError("TriggerMenuParser")
3299  << "Illegal Object Type " << object.getType()
3300  << " for the correlation condition " << name << std::endl;
3301  return false;
3302 
3303  } //if block on leg types
3304 
3305  } //loop over legs
3306 
3307 
3308  // get greater equal flag for the correlation condition
3309  bool gEq = true;
3310  if (intGEq[0] != intGEq[1]) {
3311  edm::LogError("TriggerMenuParser")
3312  << "Inconsistent GEq flags for sub-conditions "
3313  << " for the correlation condition " << name << std::endl;
3314  return false;
3315 
3316  }
3317  else {
3318  gEq = (intGEq[0] != 0);
3319 
3320  }
3321 
3322 
3323  // fill the correlation condition
3324  correlationWORCond.setCondType(cType);
3325  correlationWORCond.setObjectType(objType);
3326  correlationWORCond.setCondGEq(gEq);
3327  correlationWORCond.setCondChipNr(chipNr);
3328 
3329  correlationWORCond.setCond0Category(condCateg[0]);
3330  correlationWORCond.setCond1Category(condCateg[1]);
3331  correlationWORCond.setCond2Category(condCateg[2]);
3332 
3333  correlationWORCond.setCond0Index(corrIndexVal[0]);
3334  correlationWORCond.setCond1Index(corrIndexVal[1]);
3335  correlationWORCond.setCond2Index(corrIndexVal[2]);
3336 
3337  correlationWORCond.setCorrelationWithOverlapRemovalParameter(corrParameter);
3338 
3339  if (edm::isDebugEnabled() ) {
3340 
3341  std::ostringstream myCoutStream;
3342  correlationWORCond.print(myCoutStream);
3343  LogTrace("TriggerMenuParser") << myCoutStream.str() << "\n"
3344  << std::endl;
3345 
3346  }
3347 
3348  // insert condition into the map
3349  // condition is not duplicate, check was done at the beginning
3350 
3351  (m_vecCorrelationWithOverlapRemovalTemplate[chipNr]).push_back(correlationWORCond);
3352 
3353 
3354  //
3355  return true;
3356 }
#define LogDebug(id)
size
Write out results.
type
Definition: HCALResponse.h:21
bool isDebugEnabled()
Definition: L1GtObject.h:39
Definition: L1GtObject.h:36
std::vector< std::vector< EnergySumTemplate > > m_corEnergySumTemplate
std::vector< std::vector< CaloTemplate > > m_corCaloTemplate
std::vector< std::vector< CorrelationWithOverlapRemovalTemplate > > m_vecCorrelationWithOverlapRemovalTemplate
std::vector< std::vector< MuonTemplate > > m_corMuonTemplate
bool insertConditionIntoMap(GlobalCondition &cond, const int chipNr)
#define LogTrace(id)
bool parseCaloCorr(const tmeventsetup::esObject *corrCalo, unsigned int chipNr=0)
bool parseEnergySumCorr(const tmeventsetup::esObject *corrESum, unsigned int chipNr=0)
bool parseMuonCorr(const tmeventsetup::esObject *condMu, unsigned int chipNr=0)
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40
void TriggerMenuParser::parseDeltaEta_Cosh_LUTS ( std::map< std::string, tmeventsetup::esScale >  scaleMap,
std::string  obj1,
std::string  obj2,
unsigned int  prec1,
unsigned int  prec2 
)
private

Definition at line 949 of file TriggerMenuParser.cc.

References m_gtScales, gen::n, l1t::GlobalScales::setLUT_Cosh(), l1t::GlobalScales::setLUT_DeltaEta(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmImplementation(), and parseScales().

950 {
951 
952  using namespace tmeventsetup;
953 
954  // First Delta Eta for this set
955  std::string scLabel1 = obj1;
956  scLabel1 += "-ETA";
957  std::string scLabel2 = obj2;
958  scLabel2 += "-ETA";
959 
960  //This LUT does not exist in L1 Menu file, don't fill it
961  if( scaleMap.find(scLabel1) == scaleMap.end() || scaleMap.find(scLabel2) == scaleMap.end()) return;
962 
963  const esScale* scale1 = &scaleMap.find(scLabel1)->second;
964  const esScale* scale2 = &scaleMap.find(scLabel2)->second;
965  std::vector<double> val_delta_eta;
966  std::vector<long long> lut_delta_eta;
967  size_t n = getDeltaVector(val_delta_eta, scale1, scale2);
968  setLut(lut_delta_eta, val_delta_eta, prec1);
969  std::string lutName = obj1;
970  lutName += "-";
971  lutName += obj2;
972  m_gtScales.setLUT_DeltaEta(lutName,lut_delta_eta,prec1);
973 
974  // Second Get the Cosh for this delta Eta Set
975  std::vector<long long> lut_cosh;
976  applyCosh(val_delta_eta, n);
977  setLut(lut_cosh, val_delta_eta, prec2);
978  m_gtScales.setLUT_Cosh(lutName,lut_cosh,prec2);
979 
980 }
virtual void setLUT_DeltaEta(const std::string &lutName, std::vector< long long > lut, unsigned int precision)
Definition: GlobalScales.cc:71
virtual void setLUT_Cosh(const std::string &lutName, std::vector< long long > lut, unsigned int precision)
void TriggerMenuParser::parseDeltaPhi_Cos_LUTS ( const std::map< std::string, tmeventsetup::esScale > &  scaleMap,
const std::string &  obj1,
const std::string &  obj2,
unsigned int  prec1,
unsigned int  prec2 
)
private

Definition at line 982 of file TriggerMenuParser.cc.

References m_gtScales, gen::n, l1t::GlobalScales::setLUT_Cos(), l1t::GlobalScales::setLUT_DeltaPhi(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmImplementation(), and parseScales().

983 {
984 
985  using namespace tmeventsetup;
986 
987  // First Delta phi for this set
988  std::string scLabel1 = obj1;
989  scLabel1 += "-PHI";
990  std::string scLabel2 = obj2;
991  scLabel2 += "-PHI";
992 
993  //This LUT does not exist in L1 Menu file, don't fill it
994  if( scaleMap.find(scLabel1) == scaleMap.end() || scaleMap.find(scLabel2) == scaleMap.end()) return;
995 
996  const esScale* scale1 = &scaleMap.find(scLabel1)->second;
997  const esScale* scale2 = &scaleMap.find(scLabel2)->second;
998  std::vector<double> val_delta_phi;
999  std::vector<long long> lut_delta_phi;
1000  size_t n = getDeltaVector(val_delta_phi, scale1, scale2);
1001  setLut(lut_delta_phi, val_delta_phi, prec1);
1002  std::string lutName = obj1;
1003  lutName += "-";
1004  lutName += obj2;
1005  m_gtScales.setLUT_DeltaPhi(lutName,lut_delta_phi,prec1);
1006 
1007  // Second Get the Cosh for this delta phi Set
1008  std::vector<long long> lut_cos;
1009  applyCos(val_delta_phi, n);
1010  setLut(lut_cos, val_delta_phi, prec2);
1011  m_gtScales.setLUT_Cos(lutName,lut_cos,prec2);
1012 
1013 }
virtual void setLUT_Cos(const std::string &lutName, std::vector< long long > lut, unsigned int precision)
virtual void setLUT_DeltaPhi(const std::string &lutName, std::vector< long long > lut, unsigned int precision)
Definition: GlobalScales.cc:87
bool TriggerMenuParser::parseEnergySum ( tmeventsetup::esCondition  condEnergySum,
unsigned int  chipNr = 0,
const bool  corrFlag = false 
)
private

parse an "energy sum" condition

parseEnergySum Parse an "energy sum" condition and insert an entry to the conditions map

Parameters
nodeThe corresponding node.
nameThe name of the condition.
chipNrThe number of the chip this condition is located.
Returns
"true" if succeeded, "false" if an error occurred.

Definition at line 2174 of file TriggerMenuParser.cc.

References TkAlMuonSelectors_cfi::cut, particleFlowClusterECALTimeSelected_cfi::cuts, TauDecayModes::dec, reco::tau::disc::Eta(), l1t::gtETM, l1t::gtETMHF, l1t::gtETT, l1t::gtETTem, l1t::gtHTM, l1t::gtHTT, l1t::gtMinBiasHFM0, l1t::gtMinBiasHFM1, l1t::gtMinBiasHFP0, l1t::gtMinBiasHFP1, l1t::gtTowerCount, insertConditionIntoMap(), edm::isDebugEnabled(), findQualityFiles::jj, GetRecoTauVFromDQM_MC_cff::kk, l1t2string(), LogDebug, LogTrace, m_corEnergySumTemplate, m_vecEnergySumTemplate, dataset::name, colinearityKinematic::Phi, EnergySumTemplate::print(), GlobalCondition::setCondChipNr(), GlobalCondition::setCondGEq(), EnergySumTemplate::setConditionParameter(), GlobalCondition::setCondRelativeBx(), GlobalCondition::setCondType(), GlobalCondition::setObjectType(), AlCaHLTBitMon_QueryRunRegistry::string, jetExtractorBlock_cff::Threshold, l1t::TypeETM, l1t::TypeETMHF, l1t::TypeETT, l1t::TypeETTem, l1t::TypeHTM, l1t::TypeHTT, l1t::TypeMinBiasHFM0, l1t::TypeMinBiasHFM1, l1t::TypeMinBiasHFP0, l1t::TypeMinBiasHFP1, and l1t::TypeTowerCount.

Referenced by gtAlgorithmImplementation(), and parseCondFormats().

2175  {
2176 
2177 
2178 // XERCES_CPP_NAMESPACE_USE
2179  using namespace tmeventsetup;
2180 
2181  // get condition, particle name and type name
2182 
2183  std::string condition = "calo";
2184  std::string type = l1t2string( condEnergySum.getType() );
2185  std::string name = l1t2string( condEnergySum.getName() );
2186 
2187  LogDebug("TriggerMenuParser")
2188  << "\n ****************************************** "
2189  << "\n (in parseEnergySum) "
2190  << "\n condition = " << condition
2191  << "\n type = " << type
2192  << "\n name = " << name
2193  << std::endl;
2194 
2195 
2196 
2197  // determine object type type
2198  GlobalObject energySumObjType;
2199  GtConditionType cType;
2200 
2201  if( condEnergySum.getType() == esConditionType::MissingEt ){
2202  energySumObjType = GlobalObject::gtETM;
2203  cType = TypeETM;
2204  }
2205  else if( condEnergySum.getType() == esConditionType::TotalEt ){
2206  energySumObjType = GlobalObject::gtETT;
2207  cType = TypeETT;
2208  }
2209  else if( condEnergySum.getType() == esConditionType::TotalEtEM ){
2210  energySumObjType = GlobalObject::gtETTem;
2211  cType = TypeETTem;
2212  }
2213  else if( condEnergySum.getType() == esConditionType::TotalHt ){
2214  energySumObjType = GlobalObject::gtHTT;
2215  cType = TypeHTT;
2216  }
2217  else if( condEnergySum.getType() == esConditionType::MissingHt ){
2218  energySumObjType = GlobalObject::gtHTM;
2219  cType = TypeHTM;
2220  }
2221  else if( condEnergySum.getType() == esConditionType::MissingEtHF ){
2222  energySumObjType = GlobalObject::gtETMHF;
2223  cType = TypeETMHF;
2224  }
2225  else if( condEnergySum.getType() == esConditionType::TowerCount ){
2226  energySumObjType = GlobalObject::gtTowerCount;
2227  cType = TypeTowerCount;
2228  }
2229  else if( condEnergySum.getType() == esConditionType::MinBiasHFP0 ){
2230  energySumObjType = GlobalObject::gtMinBiasHFP0;
2231  cType = TypeMinBiasHFP0;
2232  }
2233  else if( condEnergySum.getType() == esConditionType::MinBiasHFM0 ){
2234  energySumObjType = GlobalObject::gtMinBiasHFM0;
2235  cType = TypeMinBiasHFM0;
2236  }
2237  else if( condEnergySum.getType() == esConditionType::MinBiasHFP1 ){
2238  energySumObjType = GlobalObject::gtMinBiasHFP1;
2239  cType = TypeMinBiasHFP1;
2240  }
2241  else if( condEnergySum.getType() == esConditionType::MinBiasHFM1 ){
2242  energySumObjType = GlobalObject::gtMinBiasHFM1;
2243  cType = TypeMinBiasHFM1;
2244  }
2245  else {
2246  edm::LogError("TriggerMenuParser")
2247  << "Wrong type for energy-sum condition (" << type
2248  << ")" << std::endl;
2249  return false;
2250  }
2251 
2252 
2253 
2254  // global object
2255  int nrObj = 1;
2256 
2257 // std::string str_etComparison = l1t2string( condEnergySum.comparison_operator() );
2258 
2259  // get values
2260 
2261  // temporary storage of the parameters
2262  std::vector<EnergySumTemplate::ObjectParameter> objParameter(nrObj);
2263 
2264 
2265  int cnt = 0;
2266 
2267 // BLW TO DO: These needs to the added to the object rather than the whole condition.
2268  int relativeBx = 0;
2269  bool gEq = false;
2270 
2271 // l1t::EnergySumsObjectRequirement objPar = condEnergySum.objectRequirement();
2272 
2273 // Loop over objects and extract the cuts on the objects
2274  const std::vector<esObject>& objects = condEnergySum.getObjects();
2275  for (size_t jj = 0; jj < objects.size(); jj++) {
2276 
2277  const esObject object = objects.at(jj);
2278  gEq = (object.getComparisonOperator() == esComparisonOperator::GE);
2279 
2280 // BLW TO DO: This needs to be added to the Object Parameters
2281  relativeBx = object.getBxOffset();
2282 
2283 // Loop over the cuts for this object
2284  int lowerThresholdInd = 0;
2285  int upperThresholdInd = -1;
2286  int cntPhi = 0;
2287  unsigned int phiWindow1Lower=-1, phiWindow1Upper=-1, phiWindow2Lower=-1, phiWindow2Upper=-1;
2288 
2289 
2290  const std::vector<esCut>& cuts = object.getCuts();
2291  for (size_t kk = 0; kk < cuts.size(); kk++)
2292  {
2293  const esCut cut = cuts.at(kk);
2294 
2295  switch(cut.getCutType()){
2296  case esCutType::Threshold:
2297  lowerThresholdInd = cut.getMinimum().index;
2298  upperThresholdInd = cut.getMaximum().index;
2299  break;
2300 
2301  case esCutType::Eta:
2302  break;
2303 
2304  case esCutType::Phi: {
2305 
2306  if(cntPhi == 0) {
2307  phiWindow1Lower = cut.getMinimum().index;
2308  phiWindow1Upper = cut.getMaximum().index;
2309  } else if(cntPhi == 1) {
2310  phiWindow2Lower = cut.getMinimum().index;
2311  phiWindow2Upper = cut.getMaximum().index;
2312  } else {
2313  edm::LogError("TriggerMenuParser") << "Too Many Phi Cuts for esum-condition ("
2314  << type << ")" << std::endl;
2315  return false;
2316  }
2317  cntPhi++;
2318 
2319  }
2320  break;
2321 
2322  case esCutType::Count:
2323  lowerThresholdInd = cut.getMinimum().index;
2324  upperThresholdInd = 0xffffff;
2325  break;
2326 
2327  default:
2328  break;
2329  } //end switch
2330 
2331  } //end loop over cuts
2332 
2333 
2334 
2335  // Fill the object parameters
2336  objParameter[cnt].etLowThreshold = lowerThresholdInd;
2337  objParameter[cnt].etHighThreshold = upperThresholdInd;
2338  objParameter[cnt].phiWindow1Lower = phiWindow1Lower;
2339  objParameter[cnt].phiWindow1Upper = phiWindow1Upper;
2340  objParameter[cnt].phiWindow2Lower = phiWindow2Lower;
2341  objParameter[cnt].phiWindow2Upper = phiWindow2Upper;
2342 
2343 
2344  // Output for debugging
2345  LogDebug("TriggerMenuParser")
2346  << "\n EnergySum ET high threshold (hex) for energy sum object " << cnt << " = "
2347  << std::hex << objParameter[cnt].etLowThreshold << " - " << objParameter[cnt].etHighThreshold
2348  << "\n phiWindow Lower / Upper for calo object " << cnt << " = 0x"
2349  << objParameter[cnt].phiWindow1Lower << " / 0x" << objParameter[cnt].phiWindow1Upper
2350  << "\n phiWindowVeto Lower / Upper for calo object " << cnt << " = 0x"
2351  << objParameter[cnt].phiWindow2Lower << " / 0x" << objParameter[cnt].phiWindow2Upper << std::dec
2352  << std::endl;
2353 
2354  cnt++;
2355  } //end loop over objects
2356 
2357  // object types - all same energySumObjType
2358  std::vector<GlobalObject> objType(nrObj, energySumObjType);
2359 
2360  // now create a new energySum condition
2361 
2362  EnergySumTemplate energySumCond(name);
2363 
2364  energySumCond.setCondType(cType);
2365  energySumCond.setObjectType(objType);
2366  energySumCond.setCondGEq(gEq);
2367  energySumCond.setCondChipNr(chipNr);
2368  energySumCond.setCondRelativeBx(relativeBx);
2369 
2370  energySumCond.setConditionParameter(objParameter);
2371 
2372  if (edm::isDebugEnabled() ) {
2373 
2374  std::ostringstream myCoutStream;
2375  energySumCond.print(myCoutStream);
2376  LogTrace("TriggerMenuParser") << myCoutStream.str() << "\n" << std::endl;
2377 
2378  }
2379 
2380  // insert condition into the map
2381  if ( !insertConditionIntoMap(energySumCond, chipNr)) {
2382 
2383  edm::LogError("TriggerMenuParser")
2384  << " Error: duplicate condition (" << name << ")"
2385  << std::endl;
2386 
2387  return false;
2388  }
2389  else {
2390 
2391  if (corrFlag) {
2392  (m_corEnergySumTemplate[chipNr]).push_back(energySumCond);
2393 
2394  }
2395  else {
2396  (m_vecEnergySumTemplate[chipNr]).push_back(energySumCond);
2397  }
2398 
2399  }
2400 
2401 
2402 
2403  //
2404  return true;
2405 }
#define LogDebug(id)
type
Definition: HCALResponse.h:21
bool isDebugEnabled()
std::vector< std::vector< EnergySumTemplate > > m_corEnergySumTemplate
bool insertConditionIntoMap(GlobalCondition &cond, const int chipNr)
#define LogTrace(id)
std::vector< std::vector< EnergySumTemplate > > m_vecEnergySumTemplate
bool TriggerMenuParser::parseEnergySumCorr ( const tmeventsetup::esObject *  corrESum,
unsigned int  chipNr = 0 
)
private

parseEnergySum Parse an "energy sum" condition and insert an entry to the conditions map

Parameters
nodeThe corresponding node.
nameThe name of the condition.
chipNrThe number of the chip this condition is located.
Returns
"true" if succeeded, "false" if an error occurred.

Definition at line 2419 of file TriggerMenuParser.cc.

References TkAlMuonSelectors_cfi::cut, particleFlowClusterECALTimeSelected_cfi::cuts, TauDecayModes::dec, reco::tau::disc::Eta(), ETM, l1t::gtETM, l1t::gtETMHF, l1t::gtHTM, l1t::gtTowerCount, HTM, edm::isDebugEnabled(), GetRecoTauVFromDQM_MC_cff::kk, l1t2string(), LogDebug, LogTrace, m_corEnergySumTemplate, dataset::name, colinearityKinematic::Phi, EnergySumTemplate::print(), GlobalCondition::setCondChipNr(), GlobalCondition::setCondGEq(), EnergySumTemplate::setConditionParameter(), GlobalCondition::setCondRelativeBx(), GlobalCondition::setCondType(), GlobalCondition::setObjectType(), AlCaHLTBitMon_QueryRunRegistry::string, jetExtractorBlock_cff::Threshold, l1t::TypeETM, l1t::TypeETMHF, l1t::TypeHTM, and l1t::TypeTowerCount.

Referenced by gtAlgorithmImplementation(), parseCorrelation(), and parseCorrelationWithOverlapRemoval().

2420  {
2421 
2422 
2423 // XERCES_CPP_NAMESPACE_USE
2424  using namespace tmeventsetup;
2425 
2426  // get condition, particle name and type name
2427 
2428  std::string condition = "calo";
2429  std::string type = l1t2string( corrESum->getType() );
2430  std::string name = l1t2string( corrESum->getName() );
2431 
2432  LogDebug("TriggerMenuParser")
2433  << "\n ****************************************** "
2434  << "\n (in parseEnergySum) "
2435  << "\n condition = " << condition
2436  << "\n type = " << type
2437  << "\n name = " << name
2438  << std::endl;
2439 
2440 
2441 
2442  // determine object type type
2443  GlobalObject energySumObjType;
2444  GtConditionType cType;
2445 
2446  if( corrESum->getType()== esObjectType::ETM ){
2447  energySumObjType = GlobalObject::gtETM;
2448  cType = TypeETM;
2449  }
2450  else if( corrESum->getType()== esObjectType::HTM ){
2451  energySumObjType = GlobalObject::gtHTM;
2452  cType = TypeHTM;
2453  }
2454  else if( corrESum->getType()== esObjectType::ETMHF ){
2455  energySumObjType = GlobalObject::gtETMHF;
2456  cType = TypeETMHF;
2457  }
2458  else if( corrESum->getType()== esObjectType::TOWERCOUNT ){
2459  energySumObjType = GlobalObject::gtTowerCount;
2460  cType = TypeTowerCount;
2461  }
2462  else {
2463  edm::LogError("TriggerMenuParser")
2464  << "Wrong type for energy-sum correclation condition (" << type
2465  << ")" << std::endl;
2466  return false;
2467  }
2468 
2469 
2470 
2471  // global object
2472  int nrObj = 1;
2473 
2474 // std::string str_etComparison = l1t2string( condEnergySum.comparison_operator() );
2475 
2476  // get values
2477 
2478  // temporary storage of the parameters
2479  std::vector<EnergySumTemplate::ObjectParameter> objParameter(nrObj);
2480 
2481 
2482  int cnt = 0;
2483 
2484 // BLW TO DO: These needs to the added to the object rather than the whole condition.
2485  int relativeBx = 0;
2486  bool gEq = false;
2487 
2488 // l1t::EnergySumsObjectRequirement objPar = condEnergySum.objectRequirement();
2489 
2490 
2491  gEq = (corrESum->getComparisonOperator() == esComparisonOperator::GE);
2492 
2493 // BLW TO DO: This needs to be added to the Object Parameters
2494  relativeBx = corrESum->getBxOffset();
2495 
2496 // Loop over the cuts for this object
2497  int lowerThresholdInd = 0;
2498  int upperThresholdInd = -1;
2499  int cntPhi = 0;
2500  unsigned int phiWindow1Lower=-1, phiWindow1Upper=-1, phiWindow2Lower=-1, phiWindow2Upper=-1;
2501 
2502 
2503  const std::vector<esCut>& cuts = corrESum->getCuts();
2504  for (size_t kk = 0; kk < cuts.size(); kk++)
2505  {
2506  const esCut cut = cuts.at(kk);
2507 
2508  switch(cut.getCutType()){
2509  case esCutType::Threshold:
2510  lowerThresholdInd = cut.getMinimum().index;
2511  upperThresholdInd = cut.getMaximum().index;
2512  break;
2513 
2514  case esCutType::Eta:
2515  break;
2516 
2517  case esCutType::Phi: {
2518 
2519  if(cntPhi == 0) {
2520  phiWindow1Lower = cut.getMinimum().index;
2521  phiWindow1Upper = cut.getMaximum().index;
2522  } else if(cntPhi == 1) {
2523  phiWindow2Lower = cut.getMinimum().index;
2524  phiWindow2Upper = cut.getMaximum().index;
2525  } else {
2526  edm::LogError("TriggerMenuParser") << "Too Many Phi Cuts for esum-condition ("
2527  << type << ")" << std::endl;
2528  return false;
2529  }
2530  cntPhi++;
2531 
2532  }
2533  break;
2534 
2535  default:
2536  break;
2537  } //end switch
2538 
2539  } //end loop over cuts
2540 
2541 
2542 
2543  // Fill the object parameters
2544  objParameter[0].etLowThreshold = lowerThresholdInd;
2545  objParameter[0].etHighThreshold = upperThresholdInd;
2546  objParameter[0].phiWindow1Lower = phiWindow1Lower;
2547  objParameter[0].phiWindow1Upper = phiWindow1Upper;
2548  objParameter[0].phiWindow2Lower = phiWindow2Lower;
2549  objParameter[0].phiWindow2Upper = phiWindow2Upper;
2550 
2551 
2552  // Output for debugging
2553  LogDebug("TriggerMenuParser")
2554  << "\n EnergySum ET high threshold (hex) for energy sum object " << cnt << " = "
2555  << std::hex << objParameter[0].etLowThreshold << " - " << objParameter[0].etLowThreshold
2556  << "\n phiWindow Lower / Upper for calo object " << cnt << " = 0x"
2557  << objParameter[0].phiWindow1Lower << " / 0x" << objParameter[0].phiWindow1Upper
2558  << "\n phiWindowVeto Lower / Upper for calo object " << cnt << " = 0x"
2559  << objParameter[0].phiWindow2Lower << " / 0x" << objParameter[0].phiWindow2Upper << std::dec
2560  << std::endl;
2561 
2562 
2563  // object types - all same energySumObjType
2564  std::vector<GlobalObject> objType(nrObj, energySumObjType);
2565 
2566  // now create a new energySum condition
2567 
2568  EnergySumTemplate energySumCond(name);
2569 
2570  energySumCond.setCondType(cType);
2571  energySumCond.setObjectType(objType);
2572  energySumCond.setCondGEq(gEq);
2573  energySumCond.setCondChipNr(chipNr);
2574  energySumCond.setCondRelativeBx(relativeBx);
2575 
2576  energySumCond.setConditionParameter(objParameter);
2577 
2578  if (edm::isDebugEnabled() ) {
2579 
2580  std::ostringstream myCoutStream;
2581  energySumCond.print(myCoutStream);
2582  LogTrace("TriggerMenuParser") << myCoutStream.str() << "\n" << std::endl;
2583 
2584  }
2585 /*
2586  // insert condition into the map
2587  if ( !insertConditionIntoMap(energySumCond, chipNr)) {
2588 
2589  edm::LogError("TriggerMenuParser")
2590  << " Error: duplicate condition (" << name << ")"
2591  << std::endl;
2592 
2593  return false;
2594  }
2595  else {
2596 
2597  (m_corEnergySumTemplate[chipNr]).push_back(energySumCond);
2598 
2599  }
2600 */
2601  (m_corEnergySumTemplate[chipNr]).push_back(energySumCond);
2602 
2603 
2604  //
2605  return true;
2606 }
#define LogDebug(id)
type
Definition: HCALResponse.h:21
bool isDebugEnabled()
Definition: L1GtObject.h:39
Definition: L1GtObject.h:36
std::vector< std::vector< EnergySumTemplate > > m_corEnergySumTemplate
#define LogTrace(id)
bool TriggerMenuParser::parseExternal ( tmeventsetup::esCondition  condExt,
unsigned int  chipNr = 0 
)
private

parseExternal Parse an External condition and insert an entry to the conditions map

Parameters
nodeThe corresponding node.
nameThe name of the condition.
chipNrThe number of the chip this condition is located.
Returns
"true" if succeeded, "false" if an error occurred.

Definition at line 2622 of file TriggerMenuParser.cc.

References l1t::gtExternal, insertConditionIntoMap(), findQualityFiles::jj, l1t2string(), LogDebug, LogTrace, m_vecExternalTemplate, dataset::name, GlobalCondition::setCondChipNr(), GlobalCondition::setCondGEq(), GlobalCondition::setCondRelativeBx(), GlobalCondition::setCondType(), ExternalTemplate::setExternalChannel(), GlobalCondition::setObjectType(), AlCaHLTBitMon_QueryRunRegistry::string, and l1t::TypeExternal.

Referenced by gtAlgorithmImplementation(), and parseCondFormats().

2623  {
2624 
2625 
2626  using namespace tmeventsetup;
2627 
2628 
2629  // get condition, particle name and type name
2630  std::string condition = "ext";
2631  std::string particle = "test-fix";
2632  std::string type = l1t2string( condExt.getType() );
2633  std::string name = l1t2string( condExt.getName() );
2634 
2635 
2636  LogDebug("TriggerMenuParser")
2637  << "\n ****************************************** "
2638  << "\n (in parseExternal) "
2639  << "\n condition = " << condition
2640  << "\n particle = " << particle
2641  << "\n type = " << type
2642  << "\n name = " << name
2643  << std::endl;
2644 
2645 
2646  // object type and condition type
2647  // object type - irrelevant for External conditions
2648  GtConditionType cType = TypeExternal;
2649  GlobalObject extSignalType = GlobalObject::gtExternal;
2650  int nrObj = 1; //only one object for these conditions
2651 
2652  int relativeBx = 0;
2653  unsigned int channelID = 0;
2654 
2655  // Get object for External conditions
2656  const std::vector<esObject>& objects = condExt.getObjects();
2657  for (size_t jj = 0; jj < objects.size(); jj++) {
2658 
2659  const esObject object = objects.at(jj);
2660  if(object.getType() == esObjectType::EXT) {
2661  relativeBx = object.getBxOffset();
2662  channelID = object.getExternalChannelId();
2663  }
2664  }
2665 
2666 
2667  // set the boolean value for the ge_eq mode - irrelevant for External conditions
2668  bool gEq = false;
2669 
2670  //object types - all same for external conditions
2671  std::vector<GlobalObject> objType(nrObj, extSignalType);
2672 
2673  // now create a new External condition
2674  ExternalTemplate externalCond(name);
2675 
2676  externalCond.setCondType(cType);
2677  externalCond.setObjectType(objType);
2678  externalCond.setCondGEq(gEq);
2679  externalCond.setCondChipNr(chipNr);
2680  externalCond.setCondRelativeBx(relativeBx);
2681  externalCond.setExternalChannel(channelID);
2682 
2683  LogTrace("TriggerMenuParser")
2684  << externalCond << "\n" << std::endl;
2685 
2686  // insert condition into the map
2687  if ( !insertConditionIntoMap(externalCond, chipNr)) {
2688 
2689  edm::LogError("TriggerMenuParser")
2690  << " Error: duplicate condition (" << name
2691  << ")" << std::endl;
2692 
2693  return false;
2694  } else {
2695 
2696  (m_vecExternalTemplate[chipNr]).push_back(externalCond);
2697 
2698  }
2699 
2700  return true;
2701 }
#define LogDebug(id)
type
Definition: HCALResponse.h:21
bool insertConditionIntoMap(GlobalCondition &cond, const int chipNr)
#define LogTrace(id)
std::vector< std::vector< ExternalTemplate > > m_vecExternalTemplate
bool TriggerMenuParser::parseMuon ( tmeventsetup::esCondition  condMu,
unsigned int  chipNr = 0,
const bool  corrFlag = false 
)
private

parse a muon condition

parseMuon Parse a muon condition and insert an entry to the conditions map

Parameters
nodeThe corresponding node.
nameThe name of the condition.
chipNrThe number of the chip this condition is located.
Returns
"true" if succeeded, "false" if an error occurred.

Definition at line 1068 of file TriggerMenuParser.cc.

References ALCARECOTkAlJpsiMuMu_cff::charge, MuonTemplate::CorrelationParameter::chargeCorrelation, TkAlMuonSelectors_cfi::cut, particleFlowClusterECALTimeSelected_cfi::cuts, reco::tau::disc::Eta(), l1t::gtMu, insertConditionIntoMap(), createfilelist::int, edm::isDebugEnabled(), findQualityFiles::jj, GetRecoTauVFromDQM_MC_cff::kk, l1t2string(), l1tstr2int(), LogDebug, LogTrace, m_corMuonTemplate, m_vecMuonTemplate, dataset::name, colinearityKinematic::Phi, MuonTemplate::print(), GlobalCondition::setCondChipNr(), GlobalCondition::setCondGEq(), MuonTemplate::setConditionParameter(), GlobalCondition::setCondRelativeBx(), GlobalCondition::setCondType(), GlobalCondition::setObjectType(), AlCaHLTBitMon_QueryRunRegistry::string, jetExtractorBlock_cff::Threshold, l1t::Type1s, l1t::Type2s, l1t::Type3s, l1t::Type4s, and l1t::TypeNull.

Referenced by gtAlgorithmImplementation(), and parseCondFormats().

1069  {
1070 
1071  using namespace tmeventsetup;
1072 
1073  // get condition, particle name (must be muon) and type name
1074  std::string condition = "muon";
1075  std::string particle = "muon";//l1t2string( condMu.objectType() );
1076  std::string type = l1t2string( condMu.getType() );
1077  std::string name = l1t2string( condMu.getName() );
1078  int nrObj = -1;
1079 
1080 
1081 
1083 
1084  if (condMu.getType() == esConditionType::SingleMuon) {
1085  type = "1_s";
1086  cType = l1t::Type1s;
1087  nrObj = 1;
1088  } else if (condMu.getType() == esConditionType::DoubleMuon) {
1089  type = "2_s";
1090  cType = l1t::Type2s;
1091  nrObj = 2;
1092  } else if (condMu.getType() == esConditionType::TripleMuon) {
1093  type = "3";
1094  cType = l1t::Type3s;
1095  nrObj = 3;
1096  } else if (condMu.getType() == esConditionType::QuadMuon) {
1097  type = "4";
1098  cType = l1t::Type4s;
1099  nrObj = 4;
1100  } else {
1101  edm::LogError("TriggerMenuParser") << "Wrong type for muon-condition ("
1102  << type << ")" << std::endl;
1103  return false;
1104  }
1105 
1106  if (nrObj < 0) {
1107  edm::LogError("TriggerMenuParser") << "Unknown type for muon-condition (" << type
1108  << ")" << "\nCan not determine number of trigger objects. " << std::endl;
1109  return false;
1110  }
1111 
1112  LogDebug("TriggerMenuParser")
1113  << "\n ****************************************** "
1114  << "\n parseMuon "
1115  << "\n condition = " << condition
1116  << "\n particle = " << particle
1117  << "\n type = " << type
1118  << "\n name = " << name
1119  << std::endl;
1120 
1121 
1122 
1123 // // get values
1124 
1125  // temporary storage of the parameters
1126  std::vector<MuonTemplate::ObjectParameter> objParameter(nrObj);
1127 
1128  // Do we need this?
1129  MuonTemplate::CorrelationParameter corrParameter;
1130 
1131  // need at least two values for deltaPhi
1132  std::vector<boost::uint64_t> tmpValues((nrObj > 2) ? nrObj : 2);
1133  tmpValues.reserve( nrObj );
1134 
1135  if( int(condMu.getObjects().size())!=nrObj ){
1136  edm::LogError("TriggerMenuParser") << " condMu objects: nrObj = " << nrObj
1137  << "condMu.getObjects().size() = "
1138  << condMu.getObjects().size()
1139  << std::endl;
1140  return false;
1141  }
1142 
1143 
1144 // Look for cuts on the objects in the condition
1145  unsigned int chargeCorrelation = 1;
1146  const std::vector<esCut>& cuts = condMu.getCuts();
1147  for (size_t jj = 0; jj < cuts.size(); jj++)
1148  {
1149  const esCut cut = cuts.at(jj);
1150  if(cut.getCutType() == esCutType::ChargeCorrelation) {
1151  if( cut.getData()=="ls" ) chargeCorrelation = 2;
1152  else if( cut.getData()=="os" ) chargeCorrelation = 4;
1153  else chargeCorrelation = 1; //ignore correlation
1154  }
1155  }
1156 
1157  //set charge correlation parameter
1158  corrParameter.chargeCorrelation = chargeCorrelation;//tmpValues[0];
1159 
1160 
1161  int cnt = 0;
1162 
1163 
1164 // BLW TO DO: These needs to the added to the object rather than the whole condition.
1165  int relativeBx = 0;
1166  bool gEq = false;
1167 
1168 // Loop over objects and extract the cuts on the objects
1169  const std::vector<esObject>& objects = condMu.getObjects();
1170  for (size_t jj = 0; jj < objects.size(); jj++) {
1171 
1172  const esObject object = objects.at(jj);
1173  gEq = (object.getComparisonOperator() == esComparisonOperator::GE);
1174 
1175 // BLW TO DO: This needs to be added to the Object Parameters
1176  relativeBx = object.getBxOffset();
1177 
1178 // Loop over the cuts for this object
1179  int upperThresholdInd = -1;
1180  int lowerThresholdInd = 0;
1181  int upperIndexInd = -1;
1182  int lowerIndexInd = 0;
1183  int cntEta = 0;
1184  unsigned int etaWindow1Lower=-1, etaWindow1Upper=-1, etaWindow2Lower=-1, etaWindow2Upper=-1;
1185  int cntPhi = 0;
1186  unsigned int phiWindow1Lower=-1, phiWindow1Upper=-1, phiWindow2Lower=-1, phiWindow2Upper=-1;
1187  int isolationLUT = 0xF; //default is to ignore unless specified.
1188  int charge = -1; //default value is to ignore unless specified
1189  int qualityLUT = 0xFFFF; //default is to ignore unless specified.
1190 
1191  const std::vector<esCut>& cuts = object.getCuts();
1192  for (size_t kk = 0; kk < cuts.size(); kk++)
1193  {
1194  const esCut cut = cuts.at(kk);
1195 
1196  switch(cut.getCutType()){
1197  case esCutType::Threshold:
1198  lowerThresholdInd = cut.getMinimum().index;
1199  upperThresholdInd = cut.getMaximum().index;
1200  break;
1201 
1202  case esCutType::Slice:
1203  lowerIndexInd = int(cut.getMinimum().value);
1204  upperIndexInd = int(cut.getMaximum().value);
1205  break;
1206 
1207  case esCutType::Eta: {
1208 
1209  if(cntEta == 0) {
1210  etaWindow1Lower = cut.getMinimum().index;
1211  etaWindow1Upper = cut.getMaximum().index;
1212  } else if(cntEta == 1) {
1213  etaWindow2Lower = cut.getMinimum().index;
1214  etaWindow2Upper = cut.getMaximum().index;
1215  } else {
1216  edm::LogError("TriggerMenuParser") << "Too Many Eta Cuts for muon-condition ("
1217  << particle << ")" << std::endl;
1218  return false;
1219  }
1220  cntEta++;
1221 
1222  } break;
1223 
1224  case esCutType::Phi: {
1225 
1226  if(cntPhi == 0) {
1227  phiWindow1Lower = cut.getMinimum().index;
1228  phiWindow1Upper = cut.getMaximum().index;
1229  } else if(cntPhi == 1) {
1230  phiWindow2Lower = cut.getMinimum().index;
1231  phiWindow2Upper = cut.getMaximum().index;
1232  } else {
1233  edm::LogError("TriggerMenuParser") << "Too Many Phi Cuts for muon-condition ("
1234  << particle << ")" << std::endl;
1235  return false;
1236  }
1237  cntPhi++;
1238 
1239  }break;
1240 
1241  case esCutType::Charge:
1242  if( cut.getData()=="positive" ) charge = 0;
1243  else if( cut.getData()=="negative" ) charge = 1;
1244  else charge = -1;
1245  break;
1246  case esCutType::Quality:
1247 
1248  qualityLUT = l1tstr2int(cut.getData());
1249 
1250  break;
1251  case esCutType::Isolation: {
1252 
1253  isolationLUT = l1tstr2int(cut.getData());
1254 
1255  } break;
1256  default:
1257  break;
1258  } //end switch
1259 
1260  } //end loop over cuts
1261 
1262 
1263 // Set the parameter cuts
1264  objParameter[cnt].ptHighThreshold = upperThresholdInd;
1265  objParameter[cnt].ptLowThreshold = lowerThresholdInd;
1266 
1267  objParameter[cnt].indexHigh = upperIndexInd;
1268  objParameter[cnt].indexLow = lowerIndexInd;
1269 
1270  objParameter[cnt].etaWindow1Lower = etaWindow1Lower;
1271  objParameter[cnt].etaWindow1Upper = etaWindow1Upper;
1272  objParameter[cnt].etaWindow2Lower = etaWindow2Lower;
1273  objParameter[cnt].etaWindow2Upper = etaWindow2Upper;
1274 
1275  objParameter[cnt].phiWindow1Lower = phiWindow1Lower;
1276  objParameter[cnt].phiWindow1Upper = phiWindow1Upper;
1277  objParameter[cnt].phiWindow2Lower = phiWindow2Lower;
1278  objParameter[cnt].phiWindow2Upper = phiWindow2Upper;
1279 
1280 // BLW TO DO: Do we need these anymore? Drop them?
1281  objParameter[cnt].enableMip = false;//tmpMip[i];
1282  objParameter[cnt].enableIso = false;//tmpEnableIso[i];
1283  objParameter[cnt].requestIso = false;//tmpRequestIso[i];
1284 
1285  objParameter[cnt].charge = charge;
1286  objParameter[cnt].qualityLUT = qualityLUT;
1287  objParameter[cnt].isolationLUT = isolationLUT;
1288 
1289 
1290  cnt++;
1291  } //end loop over objects
1292 
1293 
1294  // object types - all muons
1295  std::vector<GlobalObject> objType(nrObj, gtMu);
1296 
1297 
1298 
1299  // now create a new CondMuonition
1300  MuonTemplate muonCond(name);
1301 
1302  muonCond.setCondType(cType);
1303  muonCond.setObjectType(objType);
1304  muonCond.setCondGEq(gEq);
1305  muonCond.setCondChipNr(chipNr);
1306  muonCond.setCondRelativeBx(relativeBx);
1307 
1308  muonCond.setConditionParameter(objParameter, corrParameter);
1309 
1310  if (edm::isDebugEnabled()) {
1311  std::ostringstream myCoutStream;
1312  muonCond.print(myCoutStream);
1313  LogTrace("TriggerMenuParser") << myCoutStream.str() << "\n" << std::endl;
1314  }
1315 
1316  // insert condition into the map and into muon template vector
1317  if ( !insertConditionIntoMap(muonCond, chipNr)) {
1318  edm::LogError("TriggerMenuParser")
1319  << " Error: duplicate condition (" << name << ")"
1320  << std::endl;
1321  return false;
1322  }
1323  else {
1324  LogDebug("TriggerMenuParser") << "Added Condition " << name << " to the ConditionMap" << std::endl;
1325  if (corrFlag) {
1326 
1327  (m_corMuonTemplate[chipNr]).push_back(muonCond);
1328  }
1329  else {
1330  LogDebug("TriggerMenuParser") << "Added Condition " << name << " to the vecMuonTemplate vector" << std::endl;
1331  (m_vecMuonTemplate[chipNr]).push_back(muonCond);
1332  }
1333 
1334  }
1335 
1336  //
1337  return true;
1338 }
#define LogDebug(id)
type
Definition: HCALResponse.h:21
bool isDebugEnabled()
std::vector< std::vector< MuonTemplate > > m_corMuonTemplate
bool insertConditionIntoMap(GlobalCondition &cond, const int chipNr)
#define LogTrace(id)
int l1tstr2int(const std::string data)
std::vector< std::vector< MuonTemplate > > m_vecMuonTemplate
bool TriggerMenuParser::parseMuonCorr ( const tmeventsetup::esObject *  condMu,
unsigned int  chipNr = 0 
)
private

Definition at line 1341 of file TriggerMenuParser.cc.

References ALCARECOTkAlJpsiMuMu_cff::charge, MuonTemplate::CorrelationParameter::chargeCorrelation, TkAlMuonSelectors_cfi::cut, particleFlowClusterECALTimeSelected_cfi::cuts, reco::tau::disc::Eta(), l1t::gtMu, createfilelist::int, edm::isDebugEnabled(), GetRecoTauVFromDQM_MC_cff::kk, l1t2string(), l1tstr2int(), LogDebug, LogTrace, m_corMuonTemplate, dataset::name, colinearityKinematic::Phi, MuonTemplate::print(), GlobalCondition::setCondChipNr(), GlobalCondition::setCondGEq(), MuonTemplate::setConditionParameter(), GlobalCondition::setCondRelativeBx(), GlobalCondition::setCondType(), GlobalCondition::setObjectType(), AlCaHLTBitMon_QueryRunRegistry::string, jetExtractorBlock_cff::Threshold, and l1t::Type1s.

Referenced by gtAlgorithmImplementation(), parseCorrelation(), and parseCorrelationWithOverlapRemoval().

1342  {
1343 
1344 
1345 // XERCES_CPP_NAMESPACE_USE
1346  using namespace tmeventsetup;
1347 
1348  // get condition, particle name (must be muon) and type name
1349  std::string condition = "muon";
1350  std::string particle = "muon";//l1t2string( condMu.objectType() );
1351  std::string type = l1t2string( corrMu->getType() );
1352  std::string name = l1t2string( corrMu->getName() );
1353  int nrObj = 1;
1354  type = "1_s";
1355  GtConditionType cType = l1t::Type1s;
1356 
1357 
1358 
1359  if (nrObj < 0) {
1360  edm::LogError("TriggerMenuParser") << "Unknown type for muon-condition (" << type
1361  << ")" << "\nCan not determine number of trigger objects. " << std::endl;
1362  return false;
1363  }
1364 
1365  LogDebug("TriggerMenuParser")
1366  << "\n ****************************************** "
1367  << "\n parseMuon "
1368  << "\n condition = " << condition
1369  << "\n particle = " << particle
1370  << "\n type = " << type
1371  << "\n name = " << name
1372  << std::endl;
1373 
1374 
1375 
1376 // // get values
1377 
1378  // temporary storage of the parameters
1379  std::vector<MuonTemplate::ObjectParameter> objParameter(nrObj);
1380 
1381  // Do we need this?
1382  MuonTemplate::CorrelationParameter corrParameter;
1383 
1384  // need at least two values for deltaPhi
1385  std::vector<boost::uint64_t> tmpValues((nrObj > 2) ? nrObj : 2);
1386  tmpValues.reserve( nrObj );
1387 
1388 
1389 // BLW TO DO: How do we deal with these in the new format
1390 // std::string str_chargeCorrelation = l1t2string( condMu.requestedChargeCorr() );
1391  std::string str_chargeCorrelation = "ig";
1392  unsigned int chargeCorrelation = 0;
1393  if( str_chargeCorrelation=="ig" ) chargeCorrelation = 1;
1394  else if( str_chargeCorrelation=="ls" ) chargeCorrelation = 2;
1395  else if( str_chargeCorrelation=="os" ) chargeCorrelation = 4;
1396 
1397  //getXMLHexTextValue("1", dst);
1398  corrParameter.chargeCorrelation = chargeCorrelation;//tmpValues[0];
1399 
1400 
1401 
1402  // BLW TO DO: These needs to the added to the object rather than the whole condition.
1403  int relativeBx = 0;
1404  bool gEq = false;
1405 
1406 
1407  //const esObject* object = condMu;
1408  gEq = (corrMu->getComparisonOperator() == esComparisonOperator::GE);
1409 
1410  // BLW TO DO: This needs to be added to the Object Parameters
1411  relativeBx = corrMu->getBxOffset();
1412 
1413  // Loop over the cuts for this object
1414  int upperThresholdInd = -1;
1415  int lowerThresholdInd = 0;
1416  int upperIndexInd = -1;
1417  int lowerIndexInd = 0;
1418  int cntEta = 0;
1419  unsigned int etaWindow1Lower=-1, etaWindow1Upper=-1, etaWindow2Lower=-1, etaWindow2Upper=-1;
1420  int cntPhi = 0;
1421  unsigned int phiWindow1Lower=-1, phiWindow1Upper=-1, phiWindow2Lower=-1, phiWindow2Upper=-1;
1422  int isolationLUT = 0xF; //default is to ignore unless specified.
1423  int charge = -1; //defaut is to ignore unless specified
1424  int qualityLUT = 0xFFFF; //default is to ignore unless specified.
1425 
1426  const std::vector<esCut>& cuts = corrMu->getCuts();
1427  for (size_t kk = 0; kk < cuts.size(); kk++)
1428  {
1429  const esCut cut = cuts.at(kk);
1430 
1431  switch(cut.getCutType()){
1432  case esCutType::Threshold:
1433  lowerThresholdInd = cut.getMinimum().index;
1434  upperThresholdInd = cut.getMaximum().index;
1435  break;
1436 
1437  case esCutType::Slice:
1438  lowerIndexInd = int(cut.getMinimum().value);
1439  upperIndexInd = int(cut.getMaximum().value);
1440  break;
1441 
1442  case esCutType::Eta: {
1443 
1444  if(cntEta == 0) {
1445  etaWindow1Lower = cut.getMinimum().index;
1446  etaWindow1Upper = cut.getMaximum().index;
1447  } else if(cntEta == 1) {
1448  etaWindow2Lower = cut.getMinimum().index;
1449  etaWindow2Upper = cut.getMaximum().index;
1450  } else {
1451  edm::LogError("TriggerMenuParser") << "Too Many Eta Cuts for muon-condition ("
1452  << particle << ")" << std::endl;
1453  return false;
1454  }
1455  cntEta++;
1456 
1457  } break;
1458 
1459  case esCutType::Phi: {
1460 
1461  if(cntPhi == 0) {
1462  phiWindow1Lower = cut.getMinimum().index;
1463  phiWindow1Upper = cut.getMaximum().index;
1464  } else if(cntPhi == 1) {
1465  phiWindow2Lower = cut.getMinimum().index;
1466  phiWindow2Upper = cut.getMaximum().index;
1467  } else {
1468  edm::LogError("TriggerMenuParser") << "Too Many Phi Cuts for muon-condition ("
1469  << particle << ")" << std::endl;
1470  return false;
1471  }
1472  cntPhi++;
1473 
1474  }break;
1475 
1476  case esCutType::Charge:
1477  if( cut.getData()=="positive" ) charge = 0;
1478  else if( cut.getData()=="negative" ) charge = 1;
1479  else charge = -1;
1480  break;
1481  case esCutType::Quality:
1482 
1483  qualityLUT = l1tstr2int(cut.getData());
1484 
1485  break;
1486  case esCutType::Isolation: {
1487 
1488  isolationLUT = l1tstr2int(cut.getData());
1489 
1490  } break;
1491  default:
1492  break;
1493  } //end switch
1494 
1495  } //end loop over cuts
1496 
1497 
1498  // Set the parameter cuts
1499  objParameter[0].ptHighThreshold = upperThresholdInd;
1500  objParameter[0].ptLowThreshold = lowerThresholdInd;
1501 
1502  objParameter[0].indexHigh = upperIndexInd;
1503  objParameter[0].indexLow = lowerIndexInd;
1504 
1505  objParameter[0].etaWindow1Lower = etaWindow1Lower;
1506  objParameter[0].etaWindow1Upper = etaWindow1Upper;
1507  objParameter[0].etaWindow2Lower = etaWindow2Lower;
1508  objParameter[0].etaWindow2Upper = etaWindow2Upper;
1509 
1510  objParameter[0].phiWindow1Lower = phiWindow1Lower;
1511  objParameter[0].phiWindow1Upper = phiWindow1Upper;
1512  objParameter[0].phiWindow2Lower = phiWindow2Lower;
1513  objParameter[0].phiWindow2Upper = phiWindow2Upper;
1514 
1515  // BLW TO DO: Do we need these anymore? Drop them?
1516  objParameter[0].enableMip = false;//tmpMip[i];
1517  objParameter[0].enableIso = false;//tmpEnableIso[i];
1518  objParameter[0].requestIso = false;//tmpRequestIso[i];
1519 
1520  objParameter[0].charge = charge;
1521  objParameter[0].qualityLUT = qualityLUT;
1522  objParameter[0].isolationLUT = isolationLUT;
1523 
1524 
1525  // object types - all muons
1526  std::vector<GlobalObject> objType(nrObj, gtMu);
1527 
1528  // now create a new CondMuonition
1529  MuonTemplate muonCond(name);
1530 
1531  muonCond.setCondType(cType);
1532  muonCond.setObjectType(objType);
1533  muonCond.setCondGEq(gEq);
1534  muonCond.setCondChipNr(chipNr);
1535  muonCond.setCondRelativeBx(relativeBx);
1536  muonCond.setConditionParameter(objParameter, corrParameter);
1537 
1538  if (edm::isDebugEnabled()) {
1539  std::ostringstream myCoutStream;
1540  muonCond.print(myCoutStream);
1541  LogTrace("TriggerMenuParser") << myCoutStream.str() << "\n" << std::endl;
1542  }
1543 
1544 /*
1545  // insert condition into the map and into muon template vector
1546  if ( !insertConditionIntoMap(muonCond, chipNr)) {
1547  edm::LogError("TriggerMenuParser")
1548  << " Error: duplicate condition (" << name << ")"
1549  << std::endl;
1550  return false;
1551  }
1552  else {
1553  LogDebug("TriggerMenuParser") << "Added Condition " << name << " to the ConditionMap" << std::endl;
1554  (m_corMuonTemplate[chipNr]).push_back(muonCond);
1555  }
1556 */
1557  (m_corMuonTemplate[chipNr]).push_back(muonCond);
1558 
1559 
1560  //
1561  return true;
1562 }
#define LogDebug(id)
type
Definition: HCALResponse.h:21
bool isDebugEnabled()
std::vector< std::vector< MuonTemplate > > m_corMuonTemplate
#define LogTrace(id)
int l1tstr2int(const std::string data)
void TriggerMenuParser::parsePhi_Trig_LUTS ( const std::map< std::string, tmeventsetup::esScale > &  scaleMap,
const std::string &  obj,
l1t::TrigFunc_t  func,
unsigned int  prec 
)
private

Definition at line 1015 of file TriggerMenuParser.cc.

References mps_check::array, l1t::COS, cuy::ii, lumiPlot::lut, m_gtScales, gen::n, MuonAssociatorByHits_cfi::obj, funct::pow(), Scenarios_cff::scale, l1t::GlobalScales::setLUT_Cos(), l1t::GlobalScales::setLUT_Sin(), l1t::SIN, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmImplementation(), and parseScales().

1016 {
1017 
1018  using namespace tmeventsetup;
1019 
1020  std::string scLabel = obj;
1021  scLabel += "-PHI";
1022 
1023  //This LUT does not exist in L1 Menu file, don't fill it
1024  if( scaleMap.find(scLabel) == scaleMap.end() ) return;
1025  if( func != l1t::SIN and func != l1t::COS) return;
1026 
1027  const esScale* scale = &scaleMap.find(scLabel)->second;
1028 
1029  const double step = scale->getStep();
1030  const double range = scale->getMaximum() - scale->getMinimum();
1031  const size_t n = std::ceil(range / step);
1032  const size_t bitwidth = std::ceil(std::log10(n) / std::log10(2));
1033 
1034  std::vector<double> array(std::pow(2,bitwidth),0);
1035 
1036  for (size_t ii = 0; ii < n; ii++)
1037  {
1038  array.at(ii) = step * ii;
1039  }
1040 
1041  std::string lutName = obj;
1042  std::vector<long long> lut;
1043  if ( func == l1t::SIN ) {
1044  applySin(array, n);
1045  setLut(lut, array, prec);
1046  m_gtScales.setLUT_Sin(lutName,lut,prec);
1047  }else if ( func == l1t::COS ) {
1048  applyCos(array, n);
1049  setLut(lut, array, prec);
1050  m_gtScales.setLUT_Cos(lutName,lut,prec);
1051  }
1052 }
virtual void setLUT_Cos(const std::string &lutName, std::vector< long long > lut, unsigned int precision)
ii
Definition: cuy.py:588
step
virtual void setLUT_Sin(const std::string &lutName, std::vector< long long > lut, unsigned int precision)
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40
void TriggerMenuParser::parsePt_LUTS ( std::map< std::string, tmeventsetup::esScale >  scaleMap,
std::string  lutpfx,
std::string  obj1,
unsigned int  prec 
)
private

Definition at line 927 of file TriggerMenuParser.cc.

References m_gtScales, l1t::GlobalScales::setLUT_Pt(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by gtAlgorithmImplementation(), and parseScales().

928 {
929 
930  using namespace tmeventsetup;
931 
932  // First Delta Eta for this set
933  std::string scLabel1 = obj1;
934  scLabel1 += "-ET";
935 
936  //This LUT does not exist in L1 Menu file, don't fill it
937  if( scaleMap.find(scLabel1) == scaleMap.end()) return;
938 
939  const esScale* scale1 = &scaleMap.find(scLabel1)->second;
940 
941  std::vector<long long> lut_pt;
942  getLut(lut_pt, scale1, prec);
943 
944  m_gtScales.setLUT_Pt(lutpfx + "_" + scLabel1,lut_pt,prec);
945 
946 
947 }
virtual void setLUT_Pt(const std::string &lutName, std::vector< long long > lut, unsigned int precision)
bool TriggerMenuParser::parseScales ( std::map< std::string, tmeventsetup::esScale >  scaleMap)
private

parse scales

parseScales Parse Et, Eta, and Phi Scales

Returns
"true" if succeeded, "false" if an error occurred.

Definition at line 630 of file TriggerMenuParser.cc.

References stringResolutionProvider_cfi::bin, l1t::COS, l1t::GlobalScales::ScaleParameters::etaBins, l1t::GlobalScales::ScaleParameters::etaMax, l1t::GlobalScales::ScaleParameters::etaMin, l1t::GlobalScales::ScaleParameters::etaStep, l1t::GlobalScales::ScaleParameters::etBins, ETM, l1t::GlobalScales::ScaleParameters::etMax, l1t::GlobalScales::ScaleParameters::etMin, l1t::GlobalScales::ScaleParameters::etStep, ETT, HTM, HTT, mps_fire::i, configurableAnalysis::Jet, m_gtScales, configurableAnalysis::Muon, parseCalMuEta_LUTS(), parseCalMuPhi_LUTS(), parseDeltaEta_Cosh_LUTS(), parseDeltaPhi_Cos_LUTS(), parsePhi_Trig_LUTS(), parsePt_LUTS(), l1t::GlobalScales::ScaleParameters::phiBins, l1t::GlobalScales::ScaleParameters::phiMax, l1t::GlobalScales::ScaleParameters::phiMin, l1t::GlobalScales::ScaleParameters::phiStep, funct::pow(), Scenarios_cff::scale, l1t::GlobalScales::setEGScales(), l1t::GlobalScales::setETMHfScales(), l1t::GlobalScales::setETMScales(), l1t::GlobalScales::setETTEmScales(), l1t::GlobalScales::setETTScales(), l1t::GlobalScales::setHTMScales(), l1t::GlobalScales::setHTTScales(), l1t::GlobalScales::setJetScales(), l1t::GlobalScales::setMuonScales(), l1t::GlobalScales::setTauScales(), and l1t::SIN.

Referenced by gtAlgorithmImplementation(), and parseCondFormats().

630  {
631 
632  using namespace tmeventsetup;
633 
634 // Setup ScaleParameter to hold information from parsing
635  GlobalScales::ScaleParameters muScales;
636  GlobalScales::ScaleParameters egScales;
637  GlobalScales::ScaleParameters tauScales;
638  GlobalScales::ScaleParameters jetScales;
639  GlobalScales::ScaleParameters ettScales;
640  GlobalScales::ScaleParameters ettEmScales;
641  GlobalScales::ScaleParameters etmScales;
642  GlobalScales::ScaleParameters etmHfScales;
643  GlobalScales::ScaleParameters httScales;
644  GlobalScales::ScaleParameters htmScales;
645 
646 
647 // Start by parsing the Scale Map
648  for (std::map<std::string, esScale>::const_iterator cit = scaleMap.begin();
649  cit != scaleMap.end(); cit++)
650  {
651  const esScale& scale = cit->second;
652 
653  GlobalScales::ScaleParameters *scaleParam;
654  if (scale.getObjectType() == esObjectType::Muon) scaleParam = &muScales;
655  else if (scale.getObjectType() == esObjectType::Egamma) scaleParam = &egScales;
656  else if (scale.getObjectType() == esObjectType::Tau) scaleParam = &tauScales;
657  else if (scale.getObjectType() == esObjectType::Jet) scaleParam = &jetScales;
658  else if (scale.getObjectType() == esObjectType::ETT) scaleParam = &ettScales;
659  else if (scale.getObjectType() == esObjectType::ETTEM) scaleParam = &ettEmScales;
660  else if (scale.getObjectType() == esObjectType::ETM) scaleParam = &etmScales;
661  else if (scale.getObjectType() == esObjectType::ETMHF) scaleParam = &etmHfScales;
662  else if (scale.getObjectType() == esObjectType::HTT) scaleParam = &httScales;
663  else if (scale.getObjectType() == esObjectType::HTM) scaleParam = &htmScales;
664  else scaleParam = 0;
665 
666  if(scaleParam != 0) {
667  switch(scale.getScaleType()) {
668  case esScaleType::EtScale: {
669  scaleParam->etMin = scale.getMinimum();
670  scaleParam->etMax = scale.getMaximum();
671  scaleParam->etStep = scale.getStep();
672 
673  //Get bin edges
674  const std::vector<esBin> binsV = scale.getBins();
675  for(unsigned int i=0; i<binsV.size(); i++) {
676  const esBin& bin = binsV.at(i);
677  std::pair<double, double> binLimits(bin.minimum, bin.maximum);
678  scaleParam->etBins.push_back(binLimits);
679  }
680 
681  // If this is an energy sum fill dummy values for eta and phi
682  // There are no scales for these in the XML so the other case statements will not be seen....do it here.
683  if(scale.getObjectType() == esObjectType::ETT || scale.getObjectType() == esObjectType::HTT ||
684  scale.getObjectType() == esObjectType::ETM || scale.getObjectType() == esObjectType::HTM ||
685  scale.getObjectType() == esObjectType::ETTEM || scale.getObjectType() == esObjectType::ETMHF) {
686 
687  scaleParam->etaMin = -1.;
688  scaleParam->etaMax = -1.;
689  scaleParam->etaStep = -1.;
690  if(scale.getObjectType() == esObjectType::ETT || scale.getObjectType() == esObjectType::HTT || scale.getObjectType() == esObjectType::ETTEM) {
691 // if(scale.getObjectType() == esObjectType::ETT || scale.getObjectType() == esObjectType::HTT) {
692  scaleParam->phiMin = -1.;
693  scaleParam->phiMax = -1.;
694  scaleParam->phiStep = -1.;
695  }
696  }
697  }
698  break;
699  case esScaleType::EtaScale: {
700  scaleParam->etaMin = scale.getMinimum();
701  scaleParam->etaMax = scale.getMaximum();
702  scaleParam->etaStep = scale.getStep();
703 
704  //Get bin edges
705  const std::vector<esBin> binsV = scale.getBins();
706  scaleParam->etaBins.resize(pow(2,scale.getNbits()));
707  for(unsigned int i=0; i<binsV.size(); i++) {
708  const esBin& bin = binsV.at(i);
709  std::pair<double, double> binLimits(bin.minimum, bin.maximum);
710  scaleParam->etaBins.at(bin.hw_index) = binLimits;
711  }
712  }
713  break;
714  case esScaleType::PhiScale: {
715  scaleParam->phiMin = scale.getMinimum();
716  scaleParam->phiMax = scale.getMaximum();
717  scaleParam->phiStep = scale.getStep();
718 
719  //Get bin edges
720  const std::vector<esBin> binsV = scale.getBins();
721  scaleParam->phiBins.resize(pow(2,scale.getNbits()));
722  for(unsigned int i=0; i<binsV.size(); i++) {
723  const esBin& bin = binsV.at(i);
724  std::pair<double, double> binLimits(bin.minimum, bin.maximum);
725  scaleParam->phiBins.at(bin.hw_index) = binLimits;
726  }
727  }
728  break;
729  default:
730 
731  break;
732  } //end switch
733  } //end valid scale
734  } //end loop over scaleMap
735 
736  // put the ScaleParameters into the class
737  m_gtScales.setMuonScales(muScales);
738  m_gtScales.setEGScales(egScales);
739  m_gtScales.setTauScales(tauScales);
740  m_gtScales.setJetScales(jetScales);
741  m_gtScales.setETTScales(ettScales);
742  m_gtScales.setETTEmScales(ettEmScales);
743  m_gtScales.setETMScales(etmScales);
744  m_gtScales.setETMHfScales(etmHfScales);
745  m_gtScales.setHTTScales(httScales);
746  m_gtScales.setHTMScales(htmScales);
747 
748 
749 
750 // Setup the LUT for the Scale Conversions
751  bool hasPrecision = false;
752  std::map<std::string, unsigned int> precisions;
753  getPrecisions(precisions, scaleMap);
754  for (std::map<std::string, unsigned int>::const_iterator cit = precisions.begin(); cit != precisions.end(); cit++)
755  {
756  //std::cout << cit->first << " = " << cit->second << "\n";
757  hasPrecision = true;
758  }
759 
760 
761  if (hasPrecision)
762  {
763 
764  //Start with the Cal - Muon Eta LUTS
765  //----------------------------------
766  parseCalMuEta_LUTS(scaleMap, "EG", "MU");
767  parseCalMuEta_LUTS(scaleMap, "JET", "MU");
768  parseCalMuEta_LUTS(scaleMap, "TAU", "MU");
769 
770  //Now the Cal - Muon Phi LUTS
771  //-------------------------------------
772  parseCalMuPhi_LUTS(scaleMap, "EG", "MU");
773  parseCalMuPhi_LUTS(scaleMap, "JET", "MU");
774  parseCalMuPhi_LUTS(scaleMap, "TAU", "MU");
775  parseCalMuPhi_LUTS(scaleMap, "HTM", "MU");
776  parseCalMuPhi_LUTS(scaleMap, "ETM", "MU");
777  parseCalMuPhi_LUTS(scaleMap, "ETMHF", "MU");
778 
779  // Now the Pt LUTs (??? more combinations needed ??)
780  // ---------------
781  parsePt_LUTS(scaleMap, "Mass" ,"EG", precisions["PRECISION-EG-MU-MassPt"] );
782  parsePt_LUTS(scaleMap, "Mass" ,"MU", precisions["PRECISION-EG-MU-MassPt"] );
783  parsePt_LUTS(scaleMap, "Mass" ,"JET", precisions["PRECISION-EG-JET-MassPt"] );
784  parsePt_LUTS(scaleMap, "Mass" ,"TAU", precisions["PRECISION-EG-TAU-MassPt"] );
785  parsePt_LUTS(scaleMap, "Mass" ,"ETM", precisions["PRECISION-EG-ETM-MassPt"] );
786  parsePt_LUTS(scaleMap, "Mass" ,"ETMHF", precisions["PRECISION-EG-ETMHF-MassPt"] );
787  parsePt_LUTS(scaleMap, "Mass" ,"HTM", precisions["PRECISION-EG-HTM-MassPt"] );
788 
789  // Now the Pt LUTs for TBPT calculation (??? CCLA following what was done for MASS pt LUTs for now ??)
790  // ---------------
791  parsePt_LUTS(scaleMap,"TwoBody" ,"EG", precisions["PRECISION-EG-MU-TwoBodyPt"] );
792  parsePt_LUTS(scaleMap,"TwoBody" ,"MU", precisions["PRECISION-EG-MU-TwoBodyPt"] );
793  parsePt_LUTS(scaleMap,"TwoBody" ,"JET", precisions["PRECISION-EG-JET-TwoBodyPt"] );
794  parsePt_LUTS(scaleMap,"TwoBody" ,"TAU", precisions["PRECISION-EG-TAU-TwoBodyPt"] );
795  parsePt_LUTS(scaleMap,"TwoBody" ,"ETM", precisions["PRECISION-EG-ETM-TwoBodyPt"] );
796  parsePt_LUTS(scaleMap,"TwoBody" ,"ETMHF", precisions["PRECISION-EG-ETMHF-TwoBodyPt"] );
797  parsePt_LUTS(scaleMap,"TwoBody" ,"HTM", precisions["PRECISION-EG-HTM-TwoBodyPt"] );
798 
799 
800 
801  // Now the Delta Eta/Cosh LUTs (must be done in groups)
802  // ----------------------------------------------------
803  parseDeltaEta_Cosh_LUTS(scaleMap,"EG","EG", precisions["PRECISION-EG-EG-Delta"], precisions["PRECISION-EG-EG-Math"]);
804  parseDeltaEta_Cosh_LUTS(scaleMap,"EG","JET",precisions["PRECISION-EG-JET-Delta"],precisions["PRECISION-EG-JET-Math"]);
805  parseDeltaEta_Cosh_LUTS(scaleMap,"EG","TAU",precisions["PRECISION-EG-TAU-Delta"],precisions["PRECISION-EG-TAU-Math"]);
806  parseDeltaEta_Cosh_LUTS(scaleMap,"EG","MU", precisions["PRECISION-EG-MU-Delta"], precisions["PRECISION-EG-MU-Math"]);
807 
808  parseDeltaEta_Cosh_LUTS(scaleMap,"JET","JET",precisions["PRECISION-JET-JET-Delta"],precisions["PRECISION-JET-JET-Math"]);
809  parseDeltaEta_Cosh_LUTS(scaleMap,"JET","TAU",precisions["PRECISION-JET-TAU-Delta"],precisions["PRECISION-JET-TAU-Math"]);
810  parseDeltaEta_Cosh_LUTS(scaleMap,"JET","MU", precisions["PRECISION-JET-MU-Delta"], precisions["PRECISION-JET-MU-Math"]);
811 
812  parseDeltaEta_Cosh_LUTS(scaleMap,"TAU","TAU",precisions["PRECISION-TAU-TAU-Delta"],precisions["PRECISION-TAU-TAU-Math"]);
813  parseDeltaEta_Cosh_LUTS(scaleMap,"TAU","MU", precisions["PRECISION-TAU-MU-Delta"], precisions["PRECISION-TAU-MU-Math"]);
814 
815  parseDeltaEta_Cosh_LUTS(scaleMap,"MU","MU", precisions["PRECISION-MU-MU-Delta"], precisions["PRECISION-MU-MU-Math"]);
816 
817 
818  // Now the Delta Phi/Cos LUTs (must be done in groups)
819  // ----------------------------------------------------
820  parseDeltaPhi_Cos_LUTS(scaleMap,"EG","EG", precisions["PRECISION-EG-EG-Delta"], precisions["PRECISION-EG-EG-Math"]);
821  parseDeltaPhi_Cos_LUTS(scaleMap,"EG","JET",precisions["PRECISION-EG-JET-Delta"],precisions["PRECISION-EG-JET-Math"]);
822  parseDeltaPhi_Cos_LUTS(scaleMap,"EG","TAU",precisions["PRECISION-EG-TAU-Delta"],precisions["PRECISION-EG-TAU-Math"]);
823  parseDeltaPhi_Cos_LUTS(scaleMap,"EG","ETM",precisions["PRECISION-EG-ETM-Delta"],precisions["PRECISION-EG-ETM-Math"]);
824  parseDeltaPhi_Cos_LUTS(scaleMap,"EG","ETMHF",precisions["PRECISION-EG-ETMHF-Delta"],precisions["PRECISION-EG-ETMHF-Math"]);
825  parseDeltaPhi_Cos_LUTS(scaleMap,"EG","HTM",precisions["PRECISION-EG-HTM-Delta"],precisions["PRECISION-EG-HTM-Math"]);
826  parseDeltaPhi_Cos_LUTS(scaleMap,"EG","MU", precisions["PRECISION-EG-MU-Delta"], precisions["PRECISION-EG-MU-Math"]);
827 
828  parseDeltaPhi_Cos_LUTS(scaleMap,"JET","JET",precisions["PRECISION-JET-JET-Delta"],precisions["PRECISION-JET-JET-Math"]);
829  parseDeltaPhi_Cos_LUTS(scaleMap,"JET","TAU",precisions["PRECISION-JET-TAU-Delta"],precisions["PRECISION-JET-TAU-Math"]);
830  parseDeltaPhi_Cos_LUTS(scaleMap,"JET","ETM",precisions["PRECISION-JET-ETM-Delta"],precisions["PRECISION-JET-ETM-Math"]);
831  parseDeltaPhi_Cos_LUTS(scaleMap,"JET","ETMHF",precisions["PRECISION-JET-ETMHF-Delta"],precisions["PRECISION-JET-ETMHF-Math"]);
832  parseDeltaPhi_Cos_LUTS(scaleMap,"JET","HTM",precisions["PRECISION-JET-HTM-Delta"],precisions["PRECISION-JET-HTM-Math"]);
833  parseDeltaPhi_Cos_LUTS(scaleMap,"JET","MU", precisions["PRECISION-JET-MU-Delta"], precisions["PRECISION-JET-MU-Math"]);
834 
835  parseDeltaPhi_Cos_LUTS(scaleMap,"TAU","TAU",precisions["PRECISION-TAU-TAU-Delta"],precisions["PRECISION-TAU-TAU-Math"]);
836  parseDeltaPhi_Cos_LUTS(scaleMap,"TAU","ETM",precisions["PRECISION-TAU-ETM-Delta"],precisions["PRECISION-TAU-ETM-Math"]);
837  parseDeltaPhi_Cos_LUTS(scaleMap,"TAU","ETMHF",precisions["PRECISION-TAU-ETMHF-Delta"],precisions["PRECISION-TAU-ETMHF-Math"]);
838  parseDeltaPhi_Cos_LUTS(scaleMap,"TAU","HTM",precisions["PRECISION-TAU-HTM-Delta"],precisions["PRECISION-TAU-HTM-Math"]);
839  parseDeltaPhi_Cos_LUTS(scaleMap,"TAU","MU", precisions["PRECISION-TAU-MU-Delta"], precisions["PRECISION-TAU-MU-Math"]);
840 
841  parseDeltaPhi_Cos_LUTS(scaleMap,"MU","ETM",precisions["PRECISION-MU-ETM-Delta"],precisions["PRECISION-MU-ETM-Math"]);
842  parseDeltaPhi_Cos_LUTS(scaleMap,"MU","ETMHF",precisions["PRECISION-MU-ETMHF-Delta"],precisions["PRECISION-MU-ETMHF-Math"]);
843  parseDeltaPhi_Cos_LUTS(scaleMap,"MU","HTM",precisions["PRECISION-MU-HTM-Delta"],precisions["PRECISION-MU-HTM-Math"]);
844  parseDeltaPhi_Cos_LUTS(scaleMap,"MU","MU", precisions["PRECISION-MU-MU-Delta"], precisions["PRECISION-MU-MU-Math"]);
845 
846  parsePhi_Trig_LUTS(scaleMap,"EG", l1t::COS , precisions["PRECISION-EG-EG-Math"]);
847  parsePhi_Trig_LUTS(scaleMap,"JET", l1t::COS , precisions["PRECISION-JET-JET-Math"]);
848  parsePhi_Trig_LUTS(scaleMap,"TAU", l1t::COS , precisions["PRECISION-TAU-TAU-Math"]);
849  parsePhi_Trig_LUTS(scaleMap,"MU", l1t::COS , precisions["PRECISION-MU-MU-Math"]);
850 
851  parsePhi_Trig_LUTS(scaleMap,"EG", l1t::SIN , precisions["PRECISION-EG-EG-Math"]);
852  parsePhi_Trig_LUTS(scaleMap,"JET", l1t::SIN , precisions["PRECISION-JET-JET-Math"]);
853  parsePhi_Trig_LUTS(scaleMap,"TAU", l1t::SIN , precisions["PRECISION-TAU-TAU-Math"]);
854  parsePhi_Trig_LUTS(scaleMap,"MU", l1t::SIN , precisions["PRECISION-MU-MU-Math"]);
855 
856 
857  //CCLA
858  //m_gtScales.dumpAllLUTs(std::cout);
859  //m_gtScales.print(std::cout);
860 
861  }
862 
863 
864 
865 
866 
867  return true;
868 }
void setETMScales(ScaleParameters &scales)
Definition: GlobalScales.h:67
void setJetScales(ScaleParameters &scales)
Definition: GlobalScales.h:62
void parseCalMuEta_LUTS(std::map< std::string, tmeventsetup::esScale > scaleMap, std::string obj1, std::string obj2)
void parseCalMuPhi_LUTS(std::map< std::string, tmeventsetup::esScale > scaleMap, std::string obj1, std::string obj2)
Definition: L1GtObject.h:39
void parseDeltaPhi_Cos_LUTS(const std::map< std::string, tmeventsetup::esScale > &scaleMap, const std::string &obj1, const std::string &obj2, unsigned int prec1, unsigned int prec2)
Definition: L1GtObject.h:36
void setETMHfScales(ScaleParameters &scales)
Definition: GlobalScales.h:68
Definition: L1GtObject.h:38
void parseDeltaEta_Cosh_LUTS(std::map< std::string, tmeventsetup::esScale > scaleMap, std::string obj1, std::string obj2, unsigned int prec1, unsigned int prec2)
void setEGScales(ScaleParameters &scales)
Definition: GlobalScales.h:58
void setTauScales(ScaleParameters &scales)
Definition: GlobalScales.h:59
void setETTEmScales(ScaleParameters &scales)
Definition: GlobalScales.h:65
bin
set the eta bin as selection string.
void setMuonScales(ScaleParameters &scales)
Definition: GlobalScales.h:60
void setHTTScales(ScaleParameters &scales)
Definition: GlobalScales.h:66
void setHTMScales(ScaleParameters &scales)
Definition: GlobalScales.h:69
Definition: L1GtObject.h:37
void setETTScales(ScaleParameters &scales)
Definition: GlobalScales.h:64
void parsePhi_Trig_LUTS(const std::map< std::string, tmeventsetup::esScale > &scaleMap, const std::string &obj, TrigFunc_t func, unsigned int prec)
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40
void parsePt_LUTS(std::map< std::string, tmeventsetup::esScale > scaleMap, std::string lutpfx, std::string obj1, unsigned int prec)
void TriggerMenuParser::setCorCaloTemplate ( const std::vector< std::vector< CaloTemplate > > &  corCaloTempl)

Definition at line 179 of file TriggerMenuParser.cc.

References m_corCaloTemplate.

Referenced by corCaloTemplate().

180  {
181 
182  m_corCaloTemplate = corCaloTempl;
183 }
std::vector< std::vector< CaloTemplate > > m_corCaloTemplate
void TriggerMenuParser::setCorEnergySumTemplate ( const std::vector< std::vector< EnergySumTemplate > > &  corEnergySumTempl)

Definition at line 185 of file TriggerMenuParser.cc.

References m_corEnergySumTemplate.

Referenced by corEnergySumTemplate().

186  {
187 
188  m_corEnergySumTemplate = corEnergySumTempl;
189 }
std::vector< std::vector< EnergySumTemplate > > m_corEnergySumTemplate
void TriggerMenuParser::setCorMuonTemplate ( const std::vector< std::vector< MuonTemplate > > &  corMuonTempl)

Definition at line 173 of file TriggerMenuParser.cc.

References m_corMuonTemplate.

Referenced by corMuonTemplate().

174  {
175 
176  m_corMuonTemplate = corMuonTempl;
177 }
std::vector< std::vector< MuonTemplate > > m_corMuonTemplate
void TriggerMenuParser::setGtAlgorithmAliasMap ( const AlgorithmMap algoMap)

Definition at line 200 of file TriggerMenuParser.cc.

References m_algorithmAliasMap.

Referenced by gtAlgorithmAliasMap().

200  {
201  m_algorithmAliasMap = algoMap;
202 }
AlgorithmMap m_algorithmAliasMap
map containing the physics algorithms (by alias)
void TriggerMenuParser::setGtAlgorithmImplementation ( const std::string &  val)

Definition at line 460 of file TriggerMenuParser.cc.

References m_algorithmImplementation, and heppy_batch::val.

Referenced by gtAlgorithmImplementation().

460  {
461 
463 
464 }
std::string m_algorithmImplementation
void TriggerMenuParser::setGtAlgorithmMap ( const AlgorithmMap algoMap)

Definition at line 195 of file TriggerMenuParser.cc.

References m_algorithmMap.

Referenced by gtAlgorithmMap().

195  {
196  m_algorithmMap = algoMap;
197 }
AlgorithmMap m_algorithmMap
map containing the physics algorithms (by name)
void TriggerMenuParser::setGtConditionMap ( const std::vector< ConditionMap > &  condMap)

Definition at line 104 of file TriggerMenuParser.cc.

References m_conditionMap.

Referenced by gtConditionMap().

104  {
105  m_conditionMap = condMap;
106 }
std::vector< ConditionMap > m_conditionMap
map containing the conditions (per condition chip) - transient
void TriggerMenuParser::setGtNumberConditionChips ( const unsigned int &  numberConditionChipsValue)

Definition at line 71 of file TriggerMenuParser.cc.

References m_numberConditionChips.

Referenced by gtNumberConditionChips(), and L1TGlobalProducer::produce().

72  {
73 
74  m_numberConditionChips = numberConditionChipsValue;
75 
76 }
unsigned int m_numberConditionChips
hardware limits
void TriggerMenuParser::setGtNumberPhysTriggers ( const unsigned int &  numberPhysTriggersValue)

Definition at line 95 of file TriggerMenuParser.cc.

References m_numberPhysTriggers.

Referenced by gtNumberPhysTriggers(), and L1TGlobalProducer::produce().

96  {
97 
98  m_numberPhysTriggers = numberPhysTriggersValue;
99 
100 }
unsigned int m_numberPhysTriggers
number of physics trigger algorithms
void TriggerMenuParser::setGtOrderConditionChip ( const std::vector< int > &  orderConditionChipValue)

Definition at line 87 of file TriggerMenuParser.cc.

References m_orderConditionChip.

Referenced by gtOrderConditionChip(), and L1TGlobalProducer::produce().

88  {
89 
90  m_orderConditionChip = orderConditionChipValue;
91 
92 }
std::vector< int > m_orderConditionChip
void TriggerMenuParser::setGtPinsOnConditionChip ( const unsigned int &  pinsOnConditionChipValue)

Definition at line 79 of file TriggerMenuParser.cc.

References m_pinsOnConditionChip.

Referenced by gtPinsOnConditionChip(), and L1TGlobalProducer::produce().

79  {
80 
81  m_pinsOnConditionChip = pinsOnConditionChipValue;
82 
83 }
unsigned int m_pinsOnConditionChip
number of pins on the GTL condition chips
void TriggerMenuParser::setGtScaleDbKey ( const std::string &  scaleKey)

Definition at line 127 of file TriggerMenuParser.cc.

References m_scaleDbKey.

Referenced by gtScales().

127  {
128  m_scaleDbKey = scaleKey;
129 }
std::string m_scaleDbKey
menu associated scale key
void TriggerMenuParser::setGtTriggerMenuAuthor ( const std::string &  val)

Definition at line 448 of file TriggerMenuParser.cc.

References m_triggerMenuAuthor, and heppy_batch::val.

Referenced by gtTriggerMenuAuthor().

448  {
449 
451 
452 }
void TriggerMenuParser::setGtTriggerMenuDate ( const std::string &  val)

Definition at line 442 of file TriggerMenuParser.cc.

References m_triggerMenuDate, and heppy_batch::val.

Referenced by gtTriggerMenuDate().

442  {
443 
445 
446 }
void TriggerMenuParser::setGtTriggerMenuDescription ( const std::string &  val)

Definition at line 454 of file TriggerMenuParser.cc.

References m_triggerMenuDescription, and heppy_batch::val.

Referenced by gtTriggerMenuDescription().

454  {
455 
457 
458 }
std::string m_triggerMenuDescription
void TriggerMenuParser::setGtTriggerMenuImplementation ( const unsigned long &  menuImplementation)

Definition at line 122 of file TriggerMenuParser.cc.

References m_triggerMenuImplementation.

Referenced by gtTriggerMenuImplementation().

122  {
123  m_triggerMenuImplementation = menuImplementation;
124 }
unsigned long m_triggerMenuImplementation
void TriggerMenuParser::setGtTriggerMenuInterface ( const std::string &  menuInterface)

Definition at line 109 of file TriggerMenuParser.cc.

References m_triggerMenuInterface.

Referenced by gtTriggerMenuInterface().

109  {
110  m_triggerMenuInterface = menuInterface;
111 }
std::string m_triggerMenuInterface
menu names
void TriggerMenuParser::setGtTriggerMenuInterfaceAuthor ( const std::string &  val)

Definition at line 429 of file TriggerMenuParser.cc.

References m_triggerMenuInterfaceAuthor, and heppy_batch::val.

Referenced by gtTriggerMenuInterfaceAuthor().

429  {
430 
432 
433 }
std::string m_triggerMenuInterfaceAuthor
void TriggerMenuParser::setGtTriggerMenuInterfaceDate ( const std::string &  val)

Definition at line 423 of file TriggerMenuParser.cc.

References m_triggerMenuInterfaceDate, and heppy_batch::val.

Referenced by gtTriggerMenuInterfaceDate().

423  {
424 
426 
427 }
std::string m_triggerMenuInterfaceDate
number of technical triggers
void TriggerMenuParser::setGtTriggerMenuInterfaceDescription ( const std::string &  val)

Definition at line 435 of file TriggerMenuParser.cc.

References m_triggerMenuInterfaceDescription, and heppy_batch::val.

Referenced by gtTriggerMenuInterfaceDescription().

435  {
436 
438 
439 }
std::string m_triggerMenuInterfaceDescription
void TriggerMenuParser::setGtTriggerMenuName ( const std::string &  menuName)

Definition at line 118 of file TriggerMenuParser.cc.

References m_triggerMenuName.

Referenced by gtTriggerMenuName().

118  {
119  m_triggerMenuName = menuName;
120 }
void TriggerMenuParser::setGtTriggerMenuUUID ( const int  uuid)

Definition at line 114 of file TriggerMenuParser.cc.

References m_triggerMenuUUID, and createPayload::uuid.

Referenced by gtTriggerMenuUUID().

114  {
116 }
unsigned long m_triggerMenuUUID
void TriggerMenuParser::setVecCaloTemplate ( const std::vector< std::vector< CaloTemplate > > &  vecCaloTempl)

Definition at line 138 of file TriggerMenuParser.cc.

References m_vecCaloTemplate.

Referenced by vecCaloTemplate().

139  {
140 
141  m_vecCaloTemplate = vecCaloTempl;
142 }
std::vector< std::vector< CaloTemplate > > m_vecCaloTemplate
void TriggerMenuParser::setVecCorrelationTemplate ( const std::vector< std::vector< CorrelationTemplate > > &  vecCorrelationTempl)

Definition at line 159 of file TriggerMenuParser.cc.

References m_vecCorrelationTemplate.

Referenced by vecCorrelationTemplate().

160  {
161 
162  m_vecCorrelationTemplate = vecCorrelationTempl;
163 }
std::vector< std::vector< CorrelationTemplate > > m_vecCorrelationTemplate
void TriggerMenuParser::setVecCorrelationWithOverlapRemovalTemplate ( const std::vector< std::vector< CorrelationWithOverlapRemovalTemplate > > &  vecCorrelationWithOverlapRemovalTempl)

Definition at line 165 of file TriggerMenuParser.cc.

References m_vecCorrelationWithOverlapRemovalTemplate.

Referenced by vecCorrelationWithOverlapRemovalTemplate().

166  {
167 
168  m_vecCorrelationWithOverlapRemovalTemplate = vecCorrelationWithOverlapRemovalTempl;
169 }
std::vector< std::vector< CorrelationWithOverlapRemovalTemplate > > m_vecCorrelationWithOverlapRemovalTemplate
void TriggerMenuParser::setVecEnergySumTemplate ( const std::vector< std::vector< EnergySumTemplate > > &  vecEnergySumTempl)

Definition at line 144 of file TriggerMenuParser.cc.

References m_vecEnergySumTemplate.

Referenced by vecEnergySumTemplate().

145  {
146 
147  m_vecEnergySumTemplate = vecEnergySumTempl;
148 }
std::vector< std::vector< EnergySumTemplate > > m_vecEnergySumTemplate
void TriggerMenuParser::setVecExternalTemplate ( const std::vector< std::vector< ExternalTemplate > > &  vecExternalTempl)

Definition at line 152 of file TriggerMenuParser.cc.

References m_vecExternalTemplate.

Referenced by vecExternalTemplate().

153  {
154 
155  m_vecExternalTemplate = vecExternalTempl;
156 }
std::vector< std::vector< ExternalTemplate > > m_vecExternalTemplate
void TriggerMenuParser::setVecMuonTemplate ( const std::vector< std::vector< MuonTemplate > > &  vecMuonTempl)

Definition at line 132 of file TriggerMenuParser.cc.

References m_vecMuonTemplate.

Referenced by vecMuonTemplate().

133  {
134 
135  m_vecMuonTemplate = vecMuonTempl;
136 }
std::vector< std::vector< MuonTemplate > > m_vecMuonTemplate
const std::vector<std::vector<CaloTemplate> >& l1t::TriggerMenuParser::vecCaloTemplate ( ) const
inline

Definition at line 154 of file TriggerMenuParser.h.

References m_vecCaloTemplate, and setVecCaloTemplate().

Referenced by L1TGlobalProducer::produce().

154  {
155  return m_vecCaloTemplate;
156  }
std::vector< std::vector< CaloTemplate > > m_vecCaloTemplate
const std::vector<std::vector<CorrelationTemplate> >& l1t::TriggerMenuParser::vecCorrelationTemplate ( ) const
inline

Definition at line 181 of file TriggerMenuParser.h.

References m_vecCorrelationTemplate, and setVecCorrelationTemplate().

Referenced by L1TGlobalProducer::produce().

181  {
182 
184  }
std::vector< std::vector< CorrelationTemplate > > m_vecCorrelationTemplate
const std::vector<std::vector<CorrelationWithOverlapRemovalTemplate> >& l1t::TriggerMenuParser::vecCorrelationWithOverlapRemovalTemplate ( ) const
inline

Definition at line 189 of file TriggerMenuParser.h.

References m_vecCorrelationWithOverlapRemovalTemplate, and setVecCorrelationWithOverlapRemovalTemplate().

Referenced by L1TGlobalProducer::produce().

189  {
190 
192  }
std::vector< std::vector< CorrelationWithOverlapRemovalTemplate > > m_vecCorrelationWithOverlapRemovalTemplate
const std::vector<std::vector<EnergySumTemplate> >& l1t::TriggerMenuParser::vecEnergySumTemplate ( ) const
inline

Definition at line 161 of file TriggerMenuParser.h.

References m_vecEnergySumTemplate, and setVecEnergySumTemplate().

Referenced by L1TGlobalProducer::produce().

161  {
162 
163  return m_vecEnergySumTemplate;
164  }
std::vector< std::vector< EnergySumTemplate > > m_vecEnergySumTemplate
const std::vector<std::vector<ExternalTemplate> >& l1t::TriggerMenuParser::vecExternalTemplate ( ) const
inline

Definition at line 172 of file TriggerMenuParser.h.

References m_vecExternalTemplate, and setVecExternalTemplate().

Referenced by L1TGlobalProducer::produce().

172  {
173 
174  return m_vecExternalTemplate;
175  }
std::vector< std::vector< ExternalTemplate > > m_vecExternalTemplate
const std::vector<std::vector<MuonTemplate> >& l1t::TriggerMenuParser::vecMuonTemplate ( ) const
inline

get / set the vectors containing the conditions

Definition at line 148 of file TriggerMenuParser.h.

References m_vecMuonTemplate, and setVecMuonTemplate().

Referenced by L1TGlobalProducer::produce().

148  {
149  return m_vecMuonTemplate;
150  }
std::vector< std::vector< MuonTemplate > > m_vecMuonTemplate

Member Data Documentation

AlgorithmMap l1t::TriggerMenuParser::m_algorithmAliasMap
private

map containing the physics algorithms (by alias)

Definition at line 472 of file TriggerMenuParser.h.

Referenced by gtAlgorithmAliasMap(), insertAlgorithmIntoMap(), and setGtAlgorithmAliasMap().

std::string l1t::TriggerMenuParser::m_algorithmImplementation
private

Definition at line 436 of file TriggerMenuParser.h.

Referenced by gtAlgorithmImplementation(), and setGtAlgorithmImplementation().

AlgorithmMap l1t::TriggerMenuParser::m_algorithmMap
private

map containing the physics algorithms (by name)

Definition at line 469 of file TriggerMenuParser.h.

Referenced by clearMaps(), gtAlgorithmMap(), insertAlgorithmIntoMap(), and setGtAlgorithmMap().

std::vector<ConditionMap> l1t::TriggerMenuParser::m_conditionMap
private

map containing the conditions (per condition chip) - transient

Definition at line 442 of file TriggerMenuParser.h.

Referenced by clearMaps(), gtConditionMap(), insertConditionIntoMap(), parseCondFormats(), and setGtConditionMap().

std::vector<std::vector<CaloTemplate> > l1t::TriggerMenuParser::m_corCaloTemplate
private
std::vector<std::vector<EnergySumTemplate> > l1t::TriggerMenuParser::m_corEnergySumTemplate
private
std::vector<std::vector<MuonTemplate> > l1t::TriggerMenuParser::m_corMuonTemplate
private
GlobalScales l1t::TriggerMenuParser::m_gtScales
private
unsigned int l1t::TriggerMenuParser::m_numberConditionChips
private

hardware limits

number of condition chips

Definition at line 409 of file TriggerMenuParser.h.

Referenced by gtNumberConditionChips(), insertAlgorithmIntoMap(), parseCondFormats(), and setGtNumberConditionChips().

unsigned int l1t::TriggerMenuParser::m_numberPhysTriggers
private

number of physics trigger algorithms

Definition at line 419 of file TriggerMenuParser.h.

Referenced by gtNumberPhysTriggers(), insertAlgorithmIntoMap(), and setGtNumberPhysTriggers().

std::vector<int> l1t::TriggerMenuParser::m_orderConditionChip
private

correspondence "condition chip - GTL algorithm word" in the hardware chip 2: 0 - 95; chip 1: 96 - 128 (191)

Definition at line 416 of file TriggerMenuParser.h.

Referenced by gtOrderConditionChip(), insertAlgorithmIntoMap(), and setGtOrderConditionChip().

unsigned int l1t::TriggerMenuParser::m_pinsOnConditionChip
private

number of pins on the GTL condition chips

Definition at line 412 of file TriggerMenuParser.h.

Referenced by gtPinsOnConditionChip(), insertAlgorithmIntoMap(), and setGtPinsOnConditionChip().

std::string l1t::TriggerMenuParser::m_scaleDbKey
private

menu associated scale key

Definition at line 453 of file TriggerMenuParser.h.

Referenced by gtScaleDbKey(), and setGtScaleDbKey().

std::string l1t::TriggerMenuParser::m_triggerMenuAuthor
private

Definition at line 433 of file TriggerMenuParser.h.

Referenced by gtTriggerMenuAuthor(), and setGtTriggerMenuAuthor().

std::string l1t::TriggerMenuParser::m_triggerMenuDate
private

Definition at line 432 of file TriggerMenuParser.h.

Referenced by gtTriggerMenuDate(), parseCondFormats(), and setGtTriggerMenuDate().

std::string l1t::TriggerMenuParser::m_triggerMenuDescription
private
unsigned long l1t::TriggerMenuParser::m_triggerMenuImplementation
private
std::string l1t::TriggerMenuParser::m_triggerMenuInterface
private

menu names

Definition at line 447 of file TriggerMenuParser.h.

Referenced by gtTriggerMenuInterface(), parseCondFormats(), and setGtTriggerMenuInterface().

std::string l1t::TriggerMenuParser::m_triggerMenuInterfaceAuthor
private
std::string l1t::TriggerMenuParser::m_triggerMenuInterfaceDate
private

number of technical triggers

Definition at line 428 of file TriggerMenuParser.h.

Referenced by gtTriggerMenuInterfaceDate(), and setGtTriggerMenuInterfaceDate().

std::string l1t::TriggerMenuParser::m_triggerMenuInterfaceDescription
private
std::string l1t::TriggerMenuParser::m_triggerMenuName
private

Definition at line 448 of file TriggerMenuParser.h.

Referenced by gtTriggerMenuName(), parseCondFormats(), and setGtTriggerMenuName().

unsigned long l1t::TriggerMenuParser::m_triggerMenuUUID
private

Definition at line 450 of file TriggerMenuParser.h.

Referenced by gtTriggerMenuUUID(), parseCondFormats(), and setGtTriggerMenuUUID().

std::vector<std::vector<CaloTemplate> > l1t::TriggerMenuParser::m_vecCaloTemplate
private
std::vector<std::vector<CorrelationTemplate> > l1t::TriggerMenuParser::m_vecCorrelationTemplate
private
std::vector<std::vector<CorrelationWithOverlapRemovalTemplate> > l1t::TriggerMenuParser::m_vecCorrelationWithOverlapRemovalTemplate
private
std::vector<std::vector<EnergySumTemplate> > l1t::TriggerMenuParser::m_vecEnergySumTemplate
private
std::vector<std::vector<ExternalTemplate> > l1t::TriggerMenuParser::m_vecExternalTemplate
private
std::vector<std::vector<MuonTemplate> > l1t::TriggerMenuParser::m_vecMuonTemplate
private

vectors containing the conditions explicit, due to persistency...

Definition at line 457 of file TriggerMenuParser.h.

Referenced by parseCondFormats(), parseMuon(), setVecMuonTemplate(), and vecMuonTemplate().