#include <CaliCrystalIntercalDat.h>
Public Member Functions | |
CaliCrystalIntercalDat () | |
float | getCali () const |
float | getCaliRMS () const |
int | getNumEvents () const |
std::string | getTable () |
bool | getTaskStatus () const |
void | setCali (float c) |
void | setCaliRMS (float c) |
void | setNumEvents (int n) |
void | setTaskStatus (bool s) |
~CaliCrystalIntercalDat () | |
Private Member Functions | |
void | fetchData (std::map< EcalLogicID, CaliCrystalIntercalDat > *fillVec, CaliIOV *iov) throw (std::runtime_error) |
void | prepareWrite () throw (std::runtime_error) |
void | writeArrayDB (const std::map< EcalLogicID, CaliCrystalIntercalDat > *data, CaliIOV *iov) throw (std::runtime_error) |
void | writeDB (const EcalLogicID *ecid, const CaliCrystalIntercalDat *item, CaliIOV *iov) throw (std::runtime_error) |
Private Attributes | |
float | m_cali |
float | m_caliRMS |
int | m_numEvents |
bool | m_taskStatus |
Friends | |
class | EcalCondDBInterface |
Definition at line 12 of file CaliCrystalIntercalDat.h.
CaliCrystalIntercalDat::CaliCrystalIntercalDat | ( | ) |
Definition at line 12 of file CaliCrystalIntercalDat.cc.
References NULL.
{ m_env = NULL; m_conn = NULL; m_writeStmt = NULL; m_cali = 0; m_caliRMS = 0; m_numEvents = 0; m_taskStatus = false; }
CaliCrystalIntercalDat::~CaliCrystalIntercalDat | ( | ) |
Definition at line 26 of file CaliCrystalIntercalDat.cc.
{ }
void CaliCrystalIntercalDat::fetchData | ( | std::map< EcalLogicID, CaliCrystalIntercalDat > * | fillVec, |
CaliIOV * | iov | ||
) | throw (std::runtime_error) [private] |
Definition at line 79 of file CaliCrystalIntercalDat.cc.
References alignCSCRings::e, edm::pset::fillMap(), o2o::iov, AlCaHLTBitMon_ParallelJobs::p, setCali(), setCaliRMS(), setNumEvents(), and setTaskStatus().
{ this->checkConnection(); fillMap->clear(); iov->setConnection(m_env, m_conn); int iovID = iov->fetchID(); if (!iovID) { // throw(std::runtime_error("CaliCrystalIntercalDat::writeDB: IOV not in DB")); return; } try { m_readStmt->setSQL("SELECT cv.name, cv.logic_id, cv.id1, cv.id2, cv.id3, cv.maps_to, " "d.cali, d.cali_rms, d.num_events, d.task_status " "FROM channelview cv JOIN cali_crystal_intercal_dat d " "ON cv.logic_id = d.logic_id AND cv.name = cv.maps_to " "WHERE d.iov_id = :iov_id"); m_readStmt->setInt(1, iovID); ResultSet* rset = m_readStmt->executeQuery(); std::pair< EcalLogicID, CaliCrystalIntercalDat > p; CaliCrystalIntercalDat dat; while(rset->next()) { p.first = EcalLogicID( rset->getString(1), // name rset->getInt(2), // logic_id rset->getInt(3), // id1 rset->getInt(4), // id2 rset->getInt(5), // id3 rset->getString(6)); // maps_to dat.setCali( rset->getFloat(7) ); dat.setCaliRMS( rset->getFloat(8) ); dat.setNumEvents( rset->getInt(9) ); dat.setTaskStatus( rset->getInt(10) ); p.second = dat; fillMap->insert(p); } } catch (SQLException &e) { throw(std::runtime_error("CaliCrystalIntercalDat::fetchData(): "+e.getMessage())); } }
float CaliCrystalIntercalDat::getCali | ( | ) | const [inline] |
Definition at line 22 of file CaliCrystalIntercalDat.h.
References m_cali.
Referenced by writeArrayDB().
{ return m_cali; }
float CaliCrystalIntercalDat::getCaliRMS | ( | ) | const [inline] |
Definition at line 25 of file CaliCrystalIntercalDat.h.
References m_caliRMS.
Referenced by writeArrayDB().
{ return m_caliRMS; }
int CaliCrystalIntercalDat::getNumEvents | ( | ) | const [inline] |
Definition at line 28 of file CaliCrystalIntercalDat.h.
References m_numEvents.
Referenced by writeArrayDB().
{ return m_numEvents; }
std::string CaliCrystalIntercalDat::getTable | ( | ) | [inline, virtual] |
Implements IDataItem.
Definition at line 19 of file CaliCrystalIntercalDat.h.
{ return "CALI_CRYSTAL_INTERCAL_DAT"; }
bool CaliCrystalIntercalDat::getTaskStatus | ( | ) | const [inline] |
Definition at line 31 of file CaliCrystalIntercalDat.h.
References m_taskStatus.
Referenced by writeArrayDB().
{ return m_taskStatus; }
void CaliCrystalIntercalDat::prepareWrite | ( | ) | throw (std::runtime_error) [private, virtual] |
Implements IDataItem.
Definition at line 32 of file CaliCrystalIntercalDat.cc.
References alignCSCRings::e.
{ this->checkConnection(); try { m_writeStmt = m_conn->createStatement(); m_writeStmt->setSQL("INSERT INTO cali_crystal_intercal_dat (iov_id, logic_id, " "cali, cali_rms, num_events, task_status) " "VALUES (:iov_id, :logic_id, " ":3, :4, :5, :6)"); } catch (SQLException &e) { throw(std::runtime_error("CaliCrystalIntercalDat::prepareWrite(): "+e.getMessage())); } }
void CaliCrystalIntercalDat::setCali | ( | float | c | ) | [inline] |
Definition at line 21 of file CaliCrystalIntercalDat.h.
References trackerHits::c, and m_cali.
Referenced by fetchData().
void CaliCrystalIntercalDat::setCaliRMS | ( | float | c | ) | [inline] |
Definition at line 24 of file CaliCrystalIntercalDat.h.
References trackerHits::c, and m_caliRMS.
Referenced by fetchData().
void CaliCrystalIntercalDat::setNumEvents | ( | int | n | ) | [inline] |
Definition at line 27 of file CaliCrystalIntercalDat.h.
References m_numEvents, and n.
Referenced by fetchData().
{ m_numEvents = n; }
void CaliCrystalIntercalDat::setTaskStatus | ( | bool | s | ) | [inline] |
Definition at line 30 of file CaliCrystalIntercalDat.h.
References m_taskStatus, and alignCSCRings::s.
Referenced by fetchData().
{ m_taskStatus = s; }
void CaliCrystalIntercalDat::writeArrayDB | ( | const std::map< EcalLogicID, CaliCrystalIntercalDat > * | data, |
CaliIOV * | iov | ||
) | throw (std::runtime_error) [private] |
Definition at line 125 of file CaliCrystalIntercalDat.cc.
References prof2calltree::count, data, alignCSCRings::e, getCali(), getCaliRMS(), EcalLogicID::getLogicID(), getNumEvents(), getTaskStatus(), o2o::iov, AlCaHLTBitMon_ParallelJobs::p, groupFilesInBlocks::tt, x, and detailsBasic3DVector::y.
{ this->checkConnection(); this->checkPrepare(); int iovID = iov->fetchID(); if (!iovID) { throw(std::runtime_error("CaliCrystalIntercalDat::writeArrayDB: IOV not in DB")); } int nrows=data->size(); int* ids= new int[nrows]; int* iovid_vec= new int[nrows]; float* xx= new float[nrows]; float* yy= new float[nrows]; int* tt= new int[nrows]; int* st= new int[nrows]; ub2* ids_len= new ub2[nrows]; ub2* iov_len= new ub2[nrows]; ub2* x_len= new ub2[nrows]; ub2* y_len= new ub2[nrows]; ub2* tt_len= new ub2[nrows]; ub2* st_len= new ub2[nrows]; const EcalLogicID* channel; const CaliCrystalIntercalDat* dataitem; int count=0; typedef map< EcalLogicID, CaliCrystalIntercalDat >::const_iterator CI; for (CI p = data->begin(); p != data->end(); ++p) { channel = &(p->first); int logicID = channel->getLogicID(); if (!logicID) { throw(std::runtime_error("CaliCrystalIntercalDat::writeArrayDB: Bad EcalLogicID")); } ids[count]=logicID; iovid_vec[count]=iovID; dataitem = &(p->second); // dataIface.writeDB( channel, dataitem, iov); float x=dataitem->getCali(); float y=dataitem->getCaliRMS(); int xtt=dataitem->getNumEvents(); int statu=dataitem->getTaskStatus(); xx[count]=x; yy[count]=y; tt[count]=xtt; st[count]=statu; ids_len[count]=sizeof(ids[count]); iov_len[count]=sizeof(iovid_vec[count]); x_len[count]=sizeof(xx[count]); y_len[count]=sizeof(yy[count]); tt_len[count]=sizeof(tt[count]); st_len[count]=sizeof(st[count]); count++; } try { m_writeStmt->setDataBuffer(1, (dvoid*)iovid_vec, OCCIINT, sizeof(iovid_vec[0]),iov_len); m_writeStmt->setDataBuffer(2, (dvoid*)ids, OCCIINT, sizeof(ids[0]), ids_len ); m_writeStmt->setDataBuffer(3, (dvoid*)xx, OCCIFLOAT , sizeof(xx[0]), x_len ); m_writeStmt->setDataBuffer(4, (dvoid*)yy, OCCIFLOAT , sizeof(yy[0]), y_len ); m_writeStmt->setDataBuffer(5, (dvoid*)tt, OCCIINT , sizeof(tt[0]), tt_len ); m_writeStmt->setDataBuffer(6, (dvoid*)st, OCCIINT , sizeof(st[0]), st_len ); m_writeStmt->executeArrayUpdate(nrows); delete [] ids; delete [] iovid_vec; delete [] xx; delete [] yy; delete [] st; delete [] tt; delete [] ids_len; delete [] iov_len; delete [] x_len; delete [] y_len; delete [] tt_len; delete [] st_len; } catch (SQLException &e) { throw(std::runtime_error("MonPedestalsDat::writeArrayDB(): "+e.getMessage())); } }
void CaliCrystalIntercalDat::writeDB | ( | const EcalLogicID * | ecid, |
const CaliCrystalIntercalDat * | item, | ||
CaliIOV * | iov | ||
) | throw (std::runtime_error) [private] |
Definition at line 50 of file CaliCrystalIntercalDat.cc.
References alignCSCRings::e, and o2o::iov.
{ this->checkConnection(); this->checkPrepare(); int iovID = iov->fetchID(); if (!iovID) { throw(std::runtime_error("CaliCrystalIntercalDat::writeDB: IOV not in DB")); } int logicID = ecid->getLogicID(); if (!logicID) { throw(std::runtime_error("CaliCrystalIntercalDat::writeDB: Bad EcalLogicID")); } try { m_writeStmt->setInt(1, iovID); m_writeStmt->setInt(2, logicID); m_writeStmt->setFloat(3, item->getCali() ); m_writeStmt->setFloat(4, item->getCaliRMS() ); m_writeStmt->setInt(5, item->getNumEvents() ); m_writeStmt->setInt(6, item->getTaskStatus() ); m_writeStmt->executeUpdate(); } catch (SQLException &e) { throw(std::runtime_error("CaliCrystalIntercalDat::writeDB(): "+e.getMessage())); } }
friend class EcalCondDBInterface [friend] |
Reimplemented from IDBObject.
Definition at line 14 of file CaliCrystalIntercalDat.h.
float CaliCrystalIntercalDat::m_cali [private] |
Definition at line 49 of file CaliCrystalIntercalDat.h.
float CaliCrystalIntercalDat::m_caliRMS [private] |
Definition at line 50 of file CaliCrystalIntercalDat.h.
Referenced by getCaliRMS(), and setCaliRMS().
int CaliCrystalIntercalDat::m_numEvents [private] |
Definition at line 51 of file CaliCrystalIntercalDat.h.
Referenced by getNumEvents(), and setNumEvents().
bool CaliCrystalIntercalDat::m_taskStatus [private] |
Definition at line 52 of file CaliCrystalIntercalDat.h.
Referenced by getTaskStatus(), and setTaskStatus().