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#include <L1Trigger/RPCTrigger/interface/RPCConeBuilderFromES.h>
Public Member Functions | |
| L1RpcLogConesVec | getConesFromES (edm::Handle< RPCDigiCollection > rpcDigis, edm::ESHandle< L1RPCConeBuilder > coneBuilder, edm::ESHandle< L1RPCConeDefinition > coneDef, edm::ESHandle< L1RPCBxOrConfig > bxOrDef, edm::ESHandle< L1RPCHwConfig > hwConfig, int bx) |
| RPCConeBuilderFromES () | |
| virtual | ~RPCConeBuilderFromES () |
Description: <one line="" class="" summary>="">
Usage: <usage>
Definition at line 44 of file RPCConeBuilderFromES.h.
| RPCConeBuilderFromES::RPCConeBuilderFromES | ( | ) |
Definition at line 31 of file RPCConeBuilderFromES.cc.
{
}
| RPCConeBuilderFromES::~RPCConeBuilderFromES | ( | ) | [virtual] |
Definition at line 40 of file RPCConeBuilderFromES.cc.
{
}
| L1RpcLogConesVec RPCConeBuilderFromES::getConesFromES | ( | edm::Handle< RPCDigiCollection > | rpcDigis, |
| edm::ESHandle< L1RPCConeBuilder > | coneBuilder, | ||
| edm::ESHandle< L1RPCConeDefinition > | coneDef, | ||
| edm::ESHandle< L1RPCBxOrConfig > | bxOrDef, | ||
| edm::ESHandle< L1RPCHwConfig > | hwConfig, | ||
| int | bx | ||
| ) |
Definition at line 44 of file RPCConeBuilderFromES.cc.
References i, DetId::rawId(), RPCLogHit::setDigiIdx(), and RPCLogCone::setIdx().
Referenced by RPCTrigger::produce().
{
std::vector<RPCLogHit> logHits;
std::vector<RPCLogHit> logHitsFromUncomp;
// Build cones from digis
// first build loghits
short int digiIndex = 0;
RPCDigiCollection::DigiRangeIterator detUnitIt;
for (detUnitIt=rpcDigis->begin();
detUnitIt!=rpcDigis->end();
++detUnitIt)
{
const RPCDetId& id = (*detUnitIt).first;
uint32_t rawId = id.rawId();
const RPCDigiCollection::Range& range = (*detUnitIt).second;
std::pair<L1RPCConeBuilder::TCompressedConVec::const_iterator, L1RPCConeBuilder::TCompressedConVec::const_iterator>
compressedConnPair = coneBuilder->getCompConVec(rawId);
// iterate over strips
for (RPCDigiCollection::const_iterator digiIt = range.first;
digiIt!=range.second;
++digiIt)
{
++digiIndex;
if ( digiIt->bx() < bxOrDef->getFirstBX() + bx || digiIt->bx() > bxOrDef->getLastBX() +bx ){
//if ( digiIt->bx() < hwConfig->getFirstBX() + bx || digiIt->bx() > hwConfig->getLastBX() +bx ){
continue;
}
//std::cout << digiIt->bx() << " D " << rawId << " " << id << " S " << digiIt->strip() << std::endl;
// for uncompressed connections
std::pair<L1RPCConeBuilder::TStripConVec::const_iterator, L1RPCConeBuilder::TStripConVec::const_iterator>
itPair = coneBuilder->getConVec(rawId,digiIt->strip());
L1RPCConeBuilder::TStripConVec::const_iterator it = itPair.first;
// Iterate over uncompressed connections, convert digis to logHits
for (; it!=itPair.second;++it){
//std::cout << " Not empty!" << std::endl;
if ( hwConfig->isActive(it->m_tower, it->m_PAC) ){
RPCLogHit lh(it->m_tower, it->m_PAC, it->m_logplane, it->m_logstrip);
lh.setDigiIdx(digiIndex);
logHitsFromUncomp.push_back( lh );
}
}
/*
bool printOut = false;
if (digiIt->strip() == 62 || digiIt->strip() == 63 ){
std::cout << "Strip " << digiIt->strip() << std::endl;
printOut = true;
}
*/
L1RPCConeBuilder::TCompressedConVec::const_iterator itComp = compressedConnPair.first;
for (; itComp!=compressedConnPair.second; ++itComp){
if ( hwConfig->isActive(itComp->m_tower, itComp->m_PAC)){
int logstrip = itComp->getLogStrip(digiIt->strip(),coneDef->getLPSizeVec());
if (logstrip!=-1){
RPCLogHit lh(itComp->m_tower, itComp->m_PAC, itComp->m_logplane, logstrip );
lh.setDigiIdx(digiIndex);
logHits.push_back( lh );
}
/*
if (printOut){
std::cout << "T " << (int)itComp->m_tower << " P "
<< (int)itComp->m_PAC << " LP "
<< (int)itComp->m_logplane << " LS "
<< (int)logstrip << std::endl;
}*/
}
}
} // strip iteration ends
}
// check if we dont have any preferable uncompressed loghits
std::vector<RPCLogHit>::iterator itLHitUncomp = logHitsFromUncomp.begin();
std::vector<RPCLogHit>::iterator itLHitComp;
// overwrite uncompressed with those coming from compressed
for(;itLHitUncomp != logHitsFromUncomp.end(); ++itLHitUncomp) {
for (itLHitComp = logHits.begin(); itLHitComp != logHits.end(); ++itLHitComp){
if ( itLHitComp->getTower() == itLHitUncomp->getTower()
&& itLHitComp->getLogSector() == itLHitUncomp->getLogSector()
&& itLHitComp->getLogSegment() == itLHitUncomp->getLogSegment()
&& itLHitComp->getlogPlaneNumber() == itLHitUncomp->getlogPlaneNumber() )
{
// std::cout<< "Overwrite " << std::endl;
//std::cout.flush();
*itLHitUncomp = *itLHitComp;
}
}
}
// copy missing from compressed to uncompressed
for(;itLHitUncomp != logHitsFromUncomp.end(); ++itLHitUncomp) {
bool present = false;
for (unsigned int i=0; i < logHits.size(); ++i)
{
if ( logHits[i].getTower() == itLHitUncomp->getTower()
&& logHits[i].getLogSector() == itLHitUncomp->getLogSector()
&& logHits[i].getLogSegment() == itLHitUncomp->getLogSegment()
&& logHits[i].getlogPlaneNumber() == itLHitUncomp->getlogPlaneNumber() )
{
present = true;
}
}
if (!present)
{
// std::cout<< "Copy " << std::endl;
//std::cout.flush();
logHits.push_back(*itLHitUncomp);
}
}
// build cones
L1RpcLogConesVec ActiveCones;
std::vector<RPCLogHit>::iterator p_lhit;
for (p_lhit = logHits.begin(); p_lhit != logHits.end(); ++p_lhit){
bool hitTaken = false;
L1RpcLogConesVec::iterator p_cone;
for (p_cone = ActiveCones.begin(); p_cone != ActiveCones.end(); p_cone++){
hitTaken = p_cone->addLogHit(*p_lhit);
if(hitTaken)
break;
}
if(!hitTaken) {
RPCLogCone newcone(*p_lhit);
newcone.setIdx(ActiveCones.size());
ActiveCones.push_back(newcone);
}
}// for loghits
/*
for (int tower = -16; tower<17;++tower)
{
for (int sector = 0; sector<12;++sector)
{
for (int segment = 0; segment<12;++segment)
{
for (L1RpcLogConesVec::iterator it = ActiveCones.begin(); it!=ActiveCones.end(); ++it)
{
if (it->getTower()==tower
&& it->getLogSector()==sector
&& it->getLogSegment()==segment)
{
std::cout << it->toString() << std::endl;
}
}
}
}
}
// */
return ActiveCones;
}
1.7.3