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#include "DQM/HcalCommon/interface/ContainerProf1D.h"
namespace hcaldqm {
using namespace mapper;
using namespace quantity;
using namespace constants;
ContainerProf1D::ContainerProf1D() {
_qx = nullptr;
_qy = nullptr;
}
ContainerProf1D::ContainerProf1D(std::string const &folder,
hashfunctions::HashType hashtype,
Quantity *qx,
Quantity *qy)
: Container1D(folder, hashtype, qx, qy) {
_qx->setAxisType(quantity::fXAxis);
_qy->setAxisType(quantity::fYAxis);
}
/* virtual */ void ContainerProf1D::initialize(
std::string const &folder, hashfunctions::HashType hashtype, Quantity *qx, Quantity *qy, int debug /*=0*/) {
Container1D::initialize(folder, hashtype, qx, qy, debug);
_qx->setAxisType(quantity::fXAxis);
_qy->setAxisType(quantity::fYAxis);
}
/* virtual */ void ContainerProf1D::initialize(std::string const &folder,
std::string const &qname,
hashfunctions::HashType hashtype,
Quantity *qx,
Quantity *qy,
int debug /*=0*/) {
Container1D::initialize(folder, qname, hashtype, qx, qy, debug);
_qx->setAxisType(quantity::fXAxis);
_qy->setAxisType(quantity::fYAxis);
}
/* virtual */ void ContainerProf1D::book(DQMStore::IBooker &ib,
HcalElectronicsMap const *emap,
std::string subsystem,
std::string aux) {
// check Container1D.cc for the format
//
ib.setCurrentFolder(subsystem + "/" + _folder + "/" + _qname + (aux.empty() ? aux : "_" + aux) + "/" +
_hashmap.getHashTypeName());
if (_hashmap.isDHash()) {
std::vector<HcalGenericDetId> dids = emap->allPrecisionId();
for (std::vector<HcalGenericDetId>::const_iterator it = dids.begin(); it != dids.end(); ++it) {
// skip trigger towers and calibration
if (!it->isHcalDetId())
continue;
HcalDetId did = HcalDetId(it->rawId());
uint32_t hash = _hashmap.getHash(did);
MEMap::iterator mit = _mes.find(hash);
if (mit != _mes.end())
continue;
_logger.debug(_hashmap.getName(did));
_mes.insert(std::make_pair(hash,
ib.bookProfile(_hashmap.getName(did),
_hashmap.getName(did),
_qx->nbins(),
_qx->min(),
_qx->max(),
_qy->min(),
_qy->max())));
customize(_mes[hash]);
}
} else if (_hashmap.isEHash()) {
std::vector<HcalElectronicsId> eids = emap->allElectronicsIdPrecision();
for (std::vector<HcalElectronicsId>::const_iterator it = eids.begin(); it != eids.end(); ++it) {
HcalElectronicsId eid = HcalElectronicsId(it->rawId());
uint32_t hash = _hashmap.getHash(eid);
MEMap::iterator mit = _mes.find(hash);
if (mit != _mes.end())
continue;
_logger.debug(_hashmap.getName(eid));
_mes.insert(std::make_pair(hash,
ib.bookProfile(_hashmap.getName(eid),
_hashmap.getName(eid),
_qx->nbins(),
_qx->min(),
_qx->max(),
_qy->min(),
_qy->max())));
customize(_mes[hash]);
}
} else if (_hashmap.isTHash()) {
std::vector<HcalTrigTowerDetId> tids = emap->allTriggerId();
for (std::vector<HcalTrigTowerDetId>::const_iterator it = tids.begin(); it != tids.end(); ++it) {
HcalTrigTowerDetId tid = HcalTrigTowerDetId(it->rawId());
uint32_t hash = _hashmap.getHash(tid);
MEMap::iterator mit = _mes.find(hash);
if (mit != _mes.end())
continue;
_logger.debug(_hashmap.getName(tid));
_mes.insert(std::make_pair(hash,
ib.bookProfile(_hashmap.getName(tid),
_hashmap.getName(tid),
_qx->nbins(),
_qx->min(),
_qx->max(),
_qy->min(),
_qy->max())));
customize(_mes[hash]);
}
}
}
/* virtual */ void ContainerProf1D::book(DQMStore::IBooker &ib,
HcalElectronicsMap const *emap,
filter::HashFilter const &filter,
std::string subsystem,
std::string aux) {
// check Container1D.cc for the format
//
ib.setCurrentFolder(subsystem + "/" + _folder + "/" + _qname + (aux.empty() ? aux : "_" + aux) + "/" +
_hashmap.getHashTypeName());
if (_hashmap.isDHash()) {
std::vector<HcalGenericDetId> dids = emap->allPrecisionId();
for (std::vector<HcalGenericDetId>::const_iterator it = dids.begin(); it != dids.end(); ++it) {
// skip trigger towers and calibration
if (!it->isHcalDetId())
continue;
HcalDetId did = HcalDetId(it->rawId());
uint32_t hash = _hashmap.getHash(did);
MEMap::iterator mit = _mes.find(hash);
if (mit != _mes.end())
continue;
if (filter.filter(did))
continue;
_logger.debug(_hashmap.getName(did));
_mes.insert(std::make_pair(hash,
ib.bookProfile(_hashmap.getName(did),
_hashmap.getName(did),
_qx->nbins(),
_qx->min(),
_qx->max(),
_qy->min(),
_qy->max())));
customize(_mes[hash]);
}
} else if (_hashmap.isEHash()) {
std::vector<HcalElectronicsId> eids = emap->allElectronicsIdPrecision();
for (std::vector<HcalElectronicsId>::const_iterator it = eids.begin(); it != eids.end(); ++it) {
HcalElectronicsId eid = HcalElectronicsId(it->rawId());
uint32_t hash = _hashmap.getHash(eid);
MEMap::iterator mit = _mes.find(hash);
if (mit != _mes.end())
continue;
if (filter.filter(eid))
continue;
_logger.debug(_hashmap.getName(eid));
_mes.insert(std::make_pair(hash,
ib.bookProfile(_hashmap.getName(eid),
_hashmap.getName(eid),
_qx->nbins(),
_qx->min(),
_qx->max(),
_qy->min(),
_qy->max())));
customize(_mes[hash]);
}
} else if (_hashmap.isTHash()) {
std::vector<HcalTrigTowerDetId> tids = emap->allTriggerId();
for (std::vector<HcalTrigTowerDetId>::const_iterator it = tids.begin(); it != tids.end(); ++it) {
HcalTrigTowerDetId tid = HcalTrigTowerDetId(it->rawId());
uint32_t hash = _hashmap.getHash(tid);
MEMap::iterator mit = _mes.find(hash);
if (mit != _mes.end())
continue;
if (filter.filter(tid))
continue;
_logger.debug(_hashmap.getName(tid));
_mes.insert(std::make_pair(hash,
ib.bookProfile(_hashmap.getName(tid),
_hashmap.getName(tid),
_qx->nbins(),
_qx->min(),
_qx->max(),
_qy->min(),
_qy->max())));
customize(_mes[hash]);
}
}
}
} // namespace hcaldqm
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