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#include <L1TriggerOffline/BSCTriggerSimulation/src/BSCTrigger.cc>
Public Member Functions | |
| BSCTrigger (const edm::ParameterSet &) | |
| ~BSCTrigger () | |
Private Member Functions | |
| virtual void | beginJob () |
| virtual void | endJob () |
| int | getBSCNum (int id, float z) |
| bool | isInner (int id) |
| bool | isZplus (int id) |
| virtual void | produce (edm::Event &, const edm::EventSetup &) |
Private Attributes | |
| std::vector< std::string > | names_ |
| int | nevt_ |
| unsigned | nEvt_ |
| float | theCoincidence_ |
| edm::InputTag | TheHits_tag_ |
| int | theNinner_ |
| int | theNouter_ |
| float | theResolution_ |
| std::vector< unsigned > | ttBits_ |
Description: <one line="" class="" summary>="">
Implementation: <Notes on="" implementation>="">
Definition at line 45 of file BSCTrigger.cc.
| BSCTrigger::BSCTrigger | ( | const edm::ParameterSet & | iConfig | ) | [explicit] |
Definition at line 81 of file BSCTrigger.cc.
References edm::ParameterSet::getParameter(), names_, nevt_, theCoincidence_, TheHits_tag_, theResolution_, and ttBits_.
{
ttBits_=iConfig.getParameter< std::vector<unsigned> >("bitNumbers");
names_= iConfig.getParameter< std::vector<std::string> >("bitNames");
theCoincidence_= iConfig.getParameter<double>("coincidence");
theResolution_= iConfig.getParameter<double>("resolution");
TheHits_tag_= iConfig.getParameter<edm::InputTag>("theHits");
produces<L1GtTechnicalTriggerRecord>();
nevt_=0;
}
| BSCTrigger::~BSCTrigger | ( | ) |
Definition at line 93 of file BSCTrigger.cc.
{
// do anything here that needs to be done at desctruction time
// (e.g. close files, deallocate resources etc.)
}
| void BSCTrigger::beginJob | ( | void | ) | [private, virtual] |
| void BSCTrigger::endJob | ( | void | ) | [private, virtual] |
| int BSCTrigger::getBSCNum | ( | int | id, |
| float | z | ||
| ) | [private] |
Definition at line 251 of file BSCTrigger.cc.
References edm::isDebugEnabled(), LogTrace, and relativeConstraints::station.
Referenced by produce().
{
int zside = 0;
if ( z > 0 ) zside = 1;
if ( edm::isDebugEnabled() ) {
int det = (id&24)>>3;
int station = id&7;
LogTrace("BSCTrig")<<"id="<<id<<" zside="<<zside<<" det="<<det<<" station="<<station;
}
int BSCNum;
if (id&16) BSCNum=32+(id&1)+(zside<<1) ; // small paddles further from IP
else BSCNum= (id&15)+(zside<<4); // the BSC on the HF
return BSCNum;
}
| bool BSCTrigger::isInner | ( | int | id | ) | [private] |
| bool BSCTrigger::isZplus | ( | int | id | ) | [private] |
| void BSCTrigger::produce | ( | edm::Event & | iEvent, |
| const edm::EventSetup & | iSetup | ||
| ) | [private, virtual] |
Implements edm::EDProducer.
Definition at line 107 of file BSCTrigger.cc.
References abs, MixCollection< T >::begin(), trackerHits::c, MixCollection< T >::end(), edm::HandleBase::failedToGet(), getBSCNum(), edm::Event::getByLabel(), i, edm::isDebugEnabled(), isInner(), isZplus(), LogDebug, LogTrace, names_, nevt_, convertSQLitetoXML_cfg::output, edm::Handle< T >::product(), edm::Event::put(), mathSSE::sqrt(), lumiQTWidget::t, theCoincidence_, TheHits_tag_, theResolution_, and ttBits_.
{
std::vector<L1GtTechnicalTrigger> ttVec(ttBits_.size());
std::vector<float>EnergyBX(32);
std::vector<float>EnergyBXMinusDt(32);
int ZMinnerBX=0, ZMouterBX=0;
int ZPinnerBX=0, ZPouterBX=0;
int ZMinnerBXMinusDt=0, ZMouterBXMinusDt=0;
int ZPinnerBXMinusDt=0, ZPouterBXMinusDt=0;
++nevt_;
std::auto_ptr<L1GtTechnicalTriggerRecord> BscRecord;
float MipFraction=0.5;
float MipEnergy=0.0027;
float theThreshold=MipFraction*MipEnergy;
edm::Handle<CrossingFrame<PSimHit> > cf;
iEvent.getByLabel(TheHits_tag_, cf);
if (!cf.failedToGet()) {
for ( int c=0;c<32;++c){
EnergyBX[c]=0;
EnergyBXMinusDt[c]=0;
}
std::auto_ptr<MixCollection<PSimHit> > theBSCHitContainer( new MixCollection <PSimHit>(cf.product()));
MixCollection<PSimHit>::MixItr itHit;
float dt1,dt2;
dt1=theCoincidence_/2 + theResolution_;
dt2=theCoincidence_/2 - theResolution_;
if ( edm::isDebugEnabled() ) LogDebug("BSCTrig")<<" ----------------new event ---with "<<theBSCHitContainer->size()<<" hits in the BSC";
// collect total deposited energy in BSC segments -> EnergyBX[segment id], in GeV units ---------------------------------------------------------------
for (itHit = theBSCHitContainer->begin(); itHit != theBSCHitContainer->end(); ++itHit) {
float zh=itHit->entryPoint().z()/10;
int id=getBSCNum(itHit->detUnitId(),zh);
if ( id > 31 ) continue; // the small 2 paddles further from the IP
float t=itHit->timeOfFlight();
if ( edm::isDebugEnabled() ) {
float rh=sqrt(itHit->entryPoint().x()*itHit->entryPoint().x()+itHit->entryPoint().y()*itHit->entryPoint().y())/10;
LogTrace("BSCTrig")<<" BSC Num "<<id<<" z="<<zh<<" isZplus="<<isZplus(id)<<" Hit DetId="<<getBSCNum(id,zh)<<" r="<<rh<<" isInner="<<isInner(id);
LogTrace("BSCTrig")<<" Hit time="<<t<<" accepted range=["<<dt2<<","<<dt1<<"] from a "<<abs(itHit->particleType())<<" with energy " <<itHit->energyLoss();
}
if (fabs(t)> dt1 || fabs(t) <dt2 ) continue;
if (t>0) EnergyBX[id]+=itHit->energyLoss();
else EnergyBXMinusDt[id]+=itHit->energyLoss();
}
// count number of segments hit in inner/outer and +z, -z ---------------------------------------------------------------------------------------------
for ( unsigned int ipad = 0 ; ipad<32; ipad++) {
if ( edm::isDebugEnabled() ) LogTrace("BSCTrig")<<" EnergyBX["<<ipad<<"]="<<EnergyBX[ipad];
// hits after the bunch crossing
if ( EnergyBX[ipad] > theThreshold ) {
if ( isZplus(ipad)) {
if ( isInner(ipad) ) ZPinnerBX++;
else ZPouterBX++;
} else {
if ( isInner(ipad) ) ZMinnerBX++;
else ZMouterBX++;
}
}
// hits before the bunch crossing
if ( EnergyBXMinusDt[ipad] > theThreshold ) {
if ( isZplus(ipad)) {
if ( isInner(ipad) ) ZPinnerBXMinusDt++;
else ZPouterBXMinusDt++;
} else {
if ( isInner(ipad) ) ZMinnerBXMinusDt++;
else ZMouterBXMinusDt++;
}
}
}
if ( edm::isDebugEnabled() ) LogTrace("BSCTrig")<<" Zplus I="<<ZPinnerBX<<" Zminus I="<<ZMinnerBX<<" Zplus O="<<ZPouterBX<<" Zminus O="<<ZMouterBX;
// minimum bias technical triggers that are also connected to 'external condition' triggers -----------------
bool bit32=false; // min bias inner >=1
if(ZPinnerBX >= 1 && ZMinnerBX >= 1) bit32 = true;
bool bit33=false; // min bias inner >=2
if(ZPinnerBX >= 2 && ZMinnerBX >= 2) bit33 = true;
bool bit34=false; // min bias OR
if(ZPinnerBX + ZMinnerBX + ZPouterBX + ZMouterBX >= 1) bit34 = true;
bool bit35=false; // high multiplicity
if(ZPinnerBX == 8 && ZMinnerBX == 8) bit35 = true;
// beam halo technical triggers ----------------------------------------------------------------
bool bit36=false; // beam 2 halo inner
if(ZPinnerBX >= 1 && ZMinnerBXMinusDt >= 1) bit36 = true;
bool bit37=false; // beam 2 halo outer
if(ZPouterBX >= 1 && ZMouterBXMinusDt >= 1) bit37 = true;
bool bit38=false; // beam 1 halo inner
if(ZMinnerBX >= 1 && ZPinnerBXMinusDt >= 1) bit38 = true;
bool bit39=false; // beam 1 halo outer
if(ZMouterBX >= 1 && ZPouterBXMinusDt >= 1) bit39 = true;
// minimum bias technical triggers ---------------------------------------------------------
bool bit40=false; // min bias all >=1
if(ZPinnerBX + ZPouterBX >= 1 && ZMinnerBX + ZMouterBX >= 1) bit40 = true;
bool bit41=false; // min bias all >=2
if(ZPinnerBX + ZPouterBX >= 2 && ZMinnerBX + ZMouterBX >= 2) bit41 = true;
bool bit42=false; // beam 1 splash (-z)
if(ZMinnerBX >= 2) bit42 = true;
bool bit43=false; // beam 2 splash (+z)
if(ZPinnerBX >= 2) bit43 = true;
for ( unsigned i=0; i< ttBits_.size();++i ){
bool bit = false;
if ( names_.at(i) == names_[0] ) bit = bit32;
if ( names_.at(i) == names_[1] ) bit = bit33;
if ( names_.at(i) == names_[2] ) bit = bit34;
if ( names_.at(i) == names_[3] ) bit = bit35;
if ( names_.at(i) == names_[4] ) bit = bit36;
if ( names_.at(i) == names_[5] ) bit = bit37;
if ( names_.at(i) == names_[6] ) bit = bit38;
if ( names_.at(i) == names_[7] ) bit = bit39;
if ( names_.at(i) == names_[8] ) bit = bit40;
if ( names_.at(i) == names_[9] ) bit = bit41;
if ( names_.at(i) == names_[10]) bit = bit42;
if ( names_.at(i) == names_[11]) bit = bit43;
ttVec.at(i)=L1GtTechnicalTrigger(names_.at(i), ttBits_.at(i), 0, bit) ;
if ( edm::isDebugEnabled() ) LogTrace("AnaBsc") << "bit: "<<ttBits_[i] << " VALUE:"<<bit ;
}
} else ttVec.clear();
std::auto_ptr<L1GtTechnicalTriggerRecord> output(new L1GtTechnicalTriggerRecord());
output->setGtTechnicalTrigger(ttVec);
iEvent.put(output);
}
std::vector<std::string> BSCTrigger::names_ [private] |
Definition at line 59 of file BSCTrigger.cc.
Referenced by BSCTrigger(), and produce().
int BSCTrigger::nevt_ [private] |
Definition at line 65 of file BSCTrigger.cc.
Referenced by BSCTrigger(), and produce().
unsigned BSCTrigger::nEvt_ [private] |
Definition at line 60 of file BSCTrigger.cc.
float BSCTrigger::theCoincidence_ [private] |
Definition at line 61 of file BSCTrigger.cc.
Referenced by BSCTrigger(), and produce().
edm::InputTag BSCTrigger::TheHits_tag_ [private] |
Definition at line 66 of file BSCTrigger.cc.
Referenced by BSCTrigger(), and produce().
int BSCTrigger::theNinner_ [private] |
Definition at line 63 of file BSCTrigger.cc.
int BSCTrigger::theNouter_ [private] |
Definition at line 64 of file BSCTrigger.cc.
float BSCTrigger::theResolution_ [private] |
Definition at line 62 of file BSCTrigger.cc.
Referenced by BSCTrigger(), and produce().
std::vector<unsigned> BSCTrigger::ttBits_ [private] |
Definition at line 58 of file BSCTrigger.cc.
Referenced by BSCTrigger(), and produce().
1.7.3