lumi::TRGScalers2DB Class Reference

Inheritance diagram for lumi::TRGScalers2DB:

Public Types
typedef std::vector< unsigned int >	BITCOUNT
typedef unsigned long long	DEADCOUNT
typedef float	DEADFRAC
typedef std::map< unsigned int, std::vector< unsigned int > >	PrescaleResult_Algo
typedef std::map< unsigned int, std::vector< unsigned int > >	PrescaleResult_Tech
typedef std::vector< BITCOUNT >	TriggerCountResult_Algo
typedef std::vector< BITCOUNT >	TriggerCountResult_Tech
typedef std::vector< DEADCOUNT >	TriggerDeadCountResult
typedef std::vector< DEADFRAC >	TriggerDeadFracResult
typedef std::vector< std::string >	TriggerNameResult_Algo
typedef std::vector< std::string >	TriggerNameResult_Tech

Public Member Functions
const std::string	dataType () const override
std::string	int2str (unsigned int t, unsigned int width)
unsigned long long	retrieveData (unsigned int runnumber) override
const std::string	sourceType () const override
unsigned int	str2int (const std::string &s)
	TRGScalers2DB (const std::string &dest)
void	writeTrgData (coral::ISessionProxy *session, unsigned int runnumber, const std::string &source, TriggerDeadCountResult::iterator deadtimesBeg, TriggerDeadCountResult::iterator deadtimesEnd, TRGScalers2DB::TriggerDeadFracResult &deadfracs, TriggerNameResult_Algo &algonames, TriggerNameResult_Tech &technames, TriggerCountResult_Algo &algocounts, TriggerCountResult_Tech &techcounts, PrescaleResult_Algo &prescalealgo, PrescaleResult_Tech &prescaletech, unsigned int commitintv)
unsigned long long	writeTrgDataToSchema2 (coral::ISessionProxy *session, unsigned int runnumber, const std::string &source, TriggerDeadCountResult::iterator deadtimesBeg, TriggerDeadCountResult::iterator deadtimesEnd, TRGScalers2DB::TriggerDeadFracResult &deadfracs, TriggerNameResult_Algo &algonames, TriggerNameResult_Tech &technames, TriggerCountResult_Algo &algocounts, TriggerCountResult_Tech &techcounts, PrescaleResult_Algo &prescalealgo, PrescaleResult_Tech &prescaletech, unsigned int commitintv)
	~TRGScalers2DB () override
Public Member Functions inherited from lumi::DataPipe
	DataPipe (const std::string &)
	DataPipe (const DataPipe &)=delete
std::string	getAuthPath () const
std::string	getMode () const
float	getNorm () const
std::string	getSource () const
const DataPipe &	operator= (const DataPipe &)=delete
void	setAuthPath (const std::string &authpath)
void	setMode (const std::string &mode)
void	setNoCheckingStableBeam ()
void	setNorm (float norm)
void	setNoValidate ()
void	setSource (const std::string &source)
virtual	~DataPipe ()

Static Public Attributes
static const unsigned int	COMMITLSINTERVAL = 150
static const unsigned int	COMMITLSTRGINTERVAL = 550

Additional Inherited Members
Protected Attributes inherited from lumi::DataPipe
std::string	m_authpath
std::string	m_dest
std::string	m_mode
bool	m_nocheckingstablebeam
float	m_norm
bool	m_novalidate
std::string	m_source

Detailed Description

Definition at line 33 of file TRGScalers2DB.cc.

Member Typedef Documentation

BITCOUNT

typedef std::vector<unsigned int> lumi::TRGScalers2DB::BITCOUNT

Definition at line 51 of file TRGScalers2DB.cc.

DEADCOUNT

typedef unsigned long long lumi::TRGScalers2DB::DEADCOUNT

Definition at line 47 of file TRGScalers2DB.cc.

DEADFRAC

typedef float lumi::TRGScalers2DB::DEADFRAC

Definition at line 48 of file TRGScalers2DB.cc.

PrescaleResult_Algo

typedef std::map<unsigned int, std::vector<unsigned int> > lumi::TRGScalers2DB::PrescaleResult_Algo

Definition at line 54 of file TRGScalers2DB.cc.

PrescaleResult_Tech

typedef std::map<unsigned int, std::vector<unsigned int> > lumi::TRGScalers2DB::PrescaleResult_Tech

Definition at line 55 of file TRGScalers2DB.cc.

TriggerCountResult_Algo

typedef std::vector<BITCOUNT> lumi::TRGScalers2DB::TriggerCountResult_Algo

Definition at line 52 of file TRGScalers2DB.cc.

TriggerCountResult_Tech

typedef std::vector<BITCOUNT> lumi::TRGScalers2DB::TriggerCountResult_Tech

Definition at line 53 of file TRGScalers2DB.cc.

TriggerDeadCountResult

typedef std::vector<DEADCOUNT> lumi::TRGScalers2DB::TriggerDeadCountResult

Definition at line 49 of file TRGScalers2DB.cc.

TriggerDeadFracResult

typedef std::vector<DEADFRAC> lumi::TRGScalers2DB::TriggerDeadFracResult

Definition at line 50 of file TRGScalers2DB.cc.

TriggerNameResult_Algo

typedef std::vector<std::string> lumi::TRGScalers2DB::TriggerNameResult_Algo

Definition at line 44 of file TRGScalers2DB.cc.

TriggerNameResult_Tech

typedef std::vector<std::string> lumi::TRGScalers2DB::TriggerNameResult_Tech

Definition at line 45 of file TRGScalers2DB.cc.

Constructor & Destructor Documentation

TRGScalers2DB()

lumi::TRGScalers2DB::TRGScalers2DB ( const std::string &  dest )

explicit

Definition at line 111 of file TRGScalers2DB.cc.

: DataPipe(dest) {}

~TRGScalers2DB()

lumi::TRGScalers2DB::~TRGScalers2DB ( )

override

Definition at line 1013 of file TRGScalers2DB.cc.

{}

Member Function Documentation

dataType()

const std::string lumi::TRGScalers2DB::dataType ( ) const

overridevirtual

Implements lumi::DataPipe.

Definition at line 994 of file TRGScalers2DB.cc.

{ return "TRG"; }

int2str()

std::string lumi::TRGScalers2DB::int2str	(	unsigned int	t,
		unsigned int	width
	)

Definition at line 997 of file TRGScalers2DB.cc.

References contentValuesCheck::ss, submitPVValidationJobs::t, and ApeEstimator_cff::width.

Referenced by retrieveData().

                                                                     {
    std::stringstream ss;
    ss.width(width);
    ss.fill('0');
    ss << t;
    return ss.str();
  }

retrieveData()

unsigned long long lumi::TRGScalers2DB::retrieveData ( unsigned int  runnumber )

overridevirtual

Part I query tables in schema cms_gt_mon

Part II query tables in schema cms_gt

Implements lumi::DataPipe.

Definition at line 112 of file TRGScalers2DB.cc.

References HLT_2023v12_cff::algo_name, HltBtagPostValidation_cff::c, COMMITLSINTERVAL, COMMITLSTRGINTERVAL, submitPVResolutionJobs::count, gather_cfg::cout, Exception, int2str(), eostools::ls(), lumi::DataPipe::m_authpath, lumi::DataPipe::m_dest, lumi::DataPipe::m_mode, lumi::DataPipe::m_source, lumi::N_TRGALGOBIT, lumi::N_TRGTECHBIT, cond::runnumber, alignCSCRings::s, lumi::DBConfig::setAuthentication(), contentValuesCheck::ss, AlCaHLTBitMon_QueryRunRegistry::string, writeTrgData(), and writeTrgDataToSchema2().

                                                                       {
    std::string runnumberstr = int2str(runnumber, 6);
    //query source GT database
    coral::ConnectionService* svc = new coral::ConnectionService;
    lumi::DBConfig dbconf(*svc);
    if (!m_authpath.empty()) {
      dbconf.setAuthentication(m_authpath);
    }
    //std::cout<<"m_source "<<m_source<<std::endl;
    coral::ISessionProxy* trgsession = svc->connect(m_source, coral::ReadOnly);
    coral::ITypeConverter& tpc = trgsession->typeConverter();
    tpc.setCppTypeForSqlType("unsigned int", "NUMBER(7)");
    tpc.setCppTypeForSqlType("unsigned int", "NUMBER(10)");
    tpc.setCppTypeForSqlType("unsigned long long", "NUMBER(20)");
    std::string gtmonschema("CMS_GT_MON");
    std::string algoviewname("V_SCALERS_FDL_ALGO");
    std::string techviewname("V_SCALERS_FDL_TECH");
    std::string deadviewname("V_SCALERS_TCS_DEADTIME");
    std::string lstablename("LUMI_SECTIONS");

    std::string gtschema("CMS_GT");
    std::string runtechviewname("GT_RUN_TECH_VIEW");
    std::string runalgoviewname("GT_RUN_ALGO_VIEW");
    std::string runprescalgoviewname("GT_RUN_PRESC_ALGO_VIEW");
    std::string runpresctechviewname("GT_RUN_PRESC_TECH_VIEW");

    //data exchange format
    lumi::TRGScalers2DB::PrescaleResult_Algo algoprescale;
    lumi::TRGScalers2DB::PrescaleResult_Tech techprescale;
    lumi::TRGScalers2DB::BITCOUNT mybitcount_algo;
    mybitcount_algo.reserve(lumi::N_TRGALGOBIT);
    lumi::TRGScalers2DB::BITCOUNT mybitcount_tech;
    mybitcount_tech.reserve(lumi::N_TRGTECHBIT);
    lumi::TRGScalers2DB::TriggerNameResult_Algo algonames;
    algonames.reserve(lumi::N_TRGALGOBIT);
    lumi::TRGScalers2DB::TriggerNameResult_Tech technames;
    technames.reserve(lumi::N_TRGTECHBIT);
    lumi::TRGScalers2DB::TriggerCountResult_Algo algocount;
    //algocount.reserve(400);
    lumi::TRGScalers2DB::TriggerCountResult_Tech techcount;
    //techcount.reserve(400);
    lumi::TRGScalers2DB::TriggerDeadFracResult deadfracresult;
    deadfracresult.reserve(500);
    lumi::TRGScalers2DB::TriggerDeadCountResult deadtimeresult;
    deadtimeresult.reserve(500);
    coral::ITransaction& transaction = trgsession->transaction();
    transaction.start(true);
    coral::ISchema& gtmonschemaHandle = trgsession->schema(gtmonschema);
    if (!gtmonschemaHandle.existsView(algoviewname)) {
      throw lumi::Exception(std::string("non-existing view ") + algoviewname, "retrieveData", "TRGScalers2DB");
    }
    if (!gtmonschemaHandle.existsView(techviewname)) {
      throw lumi::Exception(std::string("non-existing view ") + techviewname, "retrieveData", "TRGScalers2DB");
    }
    if (!gtmonschemaHandle.existsView(deadviewname)) {
      throw lumi::Exception(std::string("non-existing view ") + deadviewname, "retrieveData", "TRGScalers2DB");
    }

    //
    //select count_bx,lumi_section,scaler_index from cms_gt_mon.v_scalers_fdl_algo where run_number=:runnum order by lumi_section,scaler_index;
    //note: scaler_index  0-127
    //note: lumi_section count from 1
    //
    coral::AttributeList bindVariableList;
    bindVariableList.extend("runnumber", typeid(unsigned int));
    bindVariableList["runnumber"].data<unsigned int>() = runnumber;

    coral::IQuery* Queryalgoview = gtmonschemaHandle.newQuery();
    Queryalgoview->addToTableList(algoviewname);
    coral::AttributeList qalgoOutput;
    qalgoOutput.extend("COUNT_BX", typeid(unsigned int));
    qalgoOutput.extend("LUMI_SECTION", typeid(unsigned int));
    qalgoOutput.extend("SCALER_INDEX", typeid(unsigned int));
    Queryalgoview->addToOutputList("COUNT_BX");
    Queryalgoview->addToOutputList("LUMI_SECTION");
    Queryalgoview->addToOutputList("SCALER_INDEX");
    Queryalgoview->setCondition("RUN_NUMBER=:runnumber", bindVariableList);
    Queryalgoview->addToOrderList("LUMI_SECTION");
    Queryalgoview->addToOrderList("SCALER_INDEX");
    Queryalgoview->defineOutput(qalgoOutput);
    coral::ICursor& c = Queryalgoview->execute();

    unsigned int s = 0;
    while (c.next()) {
      const coral::AttributeList& row = c.currentRow();
      //row.toOutputStream( std::cout ) << std::endl;
      unsigned int lsnr = row["LUMI_SECTION"].data<unsigned int>();
      unsigned int count = row["COUNT_BX"].data<unsigned int>();
      unsigned int algobit = row["SCALER_INDEX"].data<unsigned int>();
      mybitcount_algo.push_back(count);
      if (algobit == (lumi::N_TRGALGOBIT - 1)) {
        ++s;
        while (s != lsnr) {
          std::cout << "ALGO COUNT alert: found hole in LS range " << s << std::endl;
          std::cout << "    fill all algocount 0 for LS " << s << std::endl;
          std::vector<unsigned int> tmpzero(lumi::N_TRGALGOBIT, 0);
          algocount.push_back(tmpzero);
          ++s;
        }
        algocount.push_back(mybitcount_algo);
        mybitcount_algo.clear();
      }
    }
    if (s == 0) {
      c.close();
      delete Queryalgoview;
      transaction.commit();
      throw lumi::Exception(std::string("requested run ") + runnumberstr + std::string(" doesn't exist for algocounts"),
                            "retrieveData",
                            "TRGScalers2DB");
    }
    delete Queryalgoview;
    //
    //select count_bx,lumi_section,scaler_index from cms_gt_mon.v_scalers_fdl_tech where run_number=:runnum order by lumi_section,scaler_index;
    //
    //note: techobit 0-63
    //note: lsnr count from 1
    //
    coral::IQuery* Querytechview = gtmonschemaHandle.newQuery();
    Querytechview->addToTableList(techviewname);
    coral::AttributeList qtechOutput;
    qtechOutput.extend("COUNT_BX", typeid(unsigned int));
    qtechOutput.extend("LUMI_SECTION", typeid(unsigned int));
    qtechOutput.extend("SCALER_INDEX", typeid(unsigned int));
    Querytechview->addToOutputList("COUNT_BX");
    Querytechview->addToOutputList("LUMI_SECTION");
    Querytechview->addToOutputList("SCALER_INDEX");
    Querytechview->setCondition("RUN_NUMBER=:runnumber", bindVariableList);
    Querytechview->addToOrderList("LUMI_SECTION");
    Querytechview->addToOrderList("SCALER_INDEX");
    Querytechview->defineOutput(qtechOutput);
    coral::ICursor& techcursor = Querytechview->execute();
    s = 0;
    while (techcursor.next()) {
      const coral::AttributeList& row = techcursor.currentRow();
      //row.toOutputStream( std::cout #include <stdexcept>) << std::endl;
      unsigned int lsnr = row["LUMI_SECTION"].data<unsigned int>();
      unsigned int count = row["COUNT_BX"].data<unsigned int>();
      unsigned int techbit = row["SCALER_INDEX"].data<unsigned int>();
      mybitcount_tech.push_back(count);
      if (techbit == (lumi::N_TRGTECHBIT - 1)) {
        ++s;
        while (s != lsnr) {
          std::cout << "TECH COUNT alert: found hole in LS range " << s << std::endl;
          std::cout << "     fill all techcount with 0 for LS " << s << std::endl;
          std::vector<unsigned int> tmpzero(lumi::N_TRGTECHBIT, 0);
          techcount.push_back(tmpzero);
          ++s;
        }
        techcount.push_back(mybitcount_tech);
        mybitcount_tech.clear();
      }
    }
    if (s == 0) {
      techcursor.close();
      delete Querytechview;
      transaction.commit();
      throw lumi::Exception(std::string("requested run ") + runnumberstr + std::string(" doesn't exist for techcounts"),
                            "retrieveData",
                            "TRGScalers2DB");
    }
    delete Querytechview;

    //
    //select fraction,lumi_section,count_bx from cms_gt_mon.v_scalers_tcs_deadtime where run_number=:runnum and scaler_name='DeadtimeBeamActive' order by lumi_section'
    //
    //note: lsnr count from 1
    //
    coral::IQuery* Querydeadview = gtmonschemaHandle.newQuery();
    Querydeadview->addToTableList(deadviewname);
    coral::AttributeList qdeadOutput;
    qdeadOutput.extend("FRACTION", typeid(float));
    qdeadOutput.extend("LUMI_SECTION", typeid(unsigned int));
    qdeadOutput.extend("COUNT_BX", typeid(unsigned int));
    Querydeadview->addToOutputList("FRACTION");
    Querydeadview->addToOutputList("LUMI_SECTION");
    Querydeadview->addToOutputList("COUNT_BX");
    coral::AttributeList bindVariablesDead;
    bindVariablesDead.extend("runnumber", typeid(int));
    bindVariablesDead.extend("scalername", typeid(std::string));
    bindVariablesDead["runnumber"].data<int>() = runnumber;
    bindVariablesDead["scalername"].data<std::string>() = std::string("DeadtimeBeamActive");
    Querydeadview->setCondition("RUN_NUMBER=:runnumber AND SCALER_NAME=:scalername", bindVariablesDead);
    Querydeadview->addToOrderList("LUMI_SECTION");
    Querydeadview->defineOutput(qdeadOutput);
    coral::ICursor& deadcursor = Querydeadview->execute();
    s = 0;
    while (deadcursor.next()) {
      const coral::AttributeList& row = deadcursor.currentRow();
      //row.toOutputStream( std::cout ) << std::endl;
      ++s;
      unsigned int lsnr = row["LUMI_SECTION"].data<unsigned int>();
      float dfrac = 1.0;
      unsigned int count = 0;
      while (s != lsnr) {
        std::cout << "DEADTIME alert: found hole in LS range" << s << std::endl;
        std::cout << "         fill deadtimefraction 0%, deadtimebeamactive 0 for LS " << s << std::endl;
        deadfracresult.push_back(dfrac);
        deadtimeresult.push_back(count);
        ++s;
      }
      if (!row["FRACTION"].isNull()) {
        dfrac = row["FRACTION"].data<float>();  //deadfraction is null from trigger means "undefined", but insert 1.0...
      } else {
        std::cout << "DEADTIME fraction alert: undefined fraction , assume 100% , LS " << lsnr << std::endl;
      }
      if (dfrac > 1.0) {
        std::cout << "DEADTIME fraction alert: overflow dead fraction , force to 100% , LS " << lsnr << std::endl;
        dfrac = 1.0;
      }
      deadfracresult.push_back(dfrac);
      count = row["COUNT_BX"].data<unsigned int>();
      deadtimeresult.push_back(count);
    }
    if (s == 0) {
      deadcursor.close();
      delete Querydeadview;
      transaction.commit();
      throw lumi::Exception(std::string("requested run ") + runnumberstr + std::string(" doesn't exist for deadcounts"),
                            "retrieveData",
                            "TRGScalers2DB");
      return 0;
    }
    delete Querydeadview;

    //
    //select distinct(prescale_index) from cms_gt_mon.lumi_sections where run_number=:runnumber;
    //
    std::vector<int> prescidx;
    coral::IQuery* allpsidxQuery = gtmonschemaHandle.newQuery();
    allpsidxQuery->addToTableList(lstablename);
    coral::AttributeList allpsidxOutput;
    allpsidxOutput.extend("psidx", typeid(int));
    allpsidxQuery->addToOutputList("distinct(PRESCALE_INDEX)", "psidx");
    coral::AttributeList bindVariablesAllpsidx;
    bindVariablesAllpsidx.extend("runnumber", typeid(int));
    bindVariablesAllpsidx["runnumber"].data<int>() = runnumber;
    allpsidxQuery->setCondition("RUN_NUMBER =:runnumber", bindVariablesAllpsidx);
    allpsidxQuery->defineOutput(allpsidxOutput);
    coral::ICursor& allpsidxCursor = allpsidxQuery->execute();
    while (allpsidxCursor.next()) {
      const coral::AttributeList& row = allpsidxCursor.currentRow();
      int psidx = row["psidx"].data<int>();
      prescidx.push_back(psidx);
    }
    delete allpsidxQuery;
    std::map<int, std::vector<unsigned int> > algoprescMap;
    std::map<int, std::vector<unsigned int> > techprescMap;
    std::vector<int>::iterator prescidxIt;
    std::vector<int>::iterator prescidxItBeg = prescidx.begin();
    std::vector<int>::iterator prescidxItEnd = prescidx.end();
    for (prescidxIt = prescidxItBeg; prescidxIt != prescidxItEnd; ++prescidxIt) {
      std::vector<unsigned int> algopres;
      algopres.reserve(lumi::N_TRGALGOBIT);
      std::vector<unsigned int> techpres;
      techpres.reserve(lumi::N_TRGTECHBIT);
      algoprescMap.insert(std::make_pair(*prescidxIt, algopres));
      techprescMap.insert(std::make_pair(*prescidxIt, techpres));
    }
    //
    //select lumi_section,prescale_index from cms_gt_mon.lumi_sections where run_number=:runnumber
    // {ls:prescale_index}
    //
    std::map<unsigned int, int> lsprescmap;
    coral::IQuery* lstoprescQuery = gtmonschemaHandle.newQuery();
    lstoprescQuery->addToTableList(lstablename);
    coral::AttributeList lstoprescOutput;
    lstoprescOutput.extend("lumisection", typeid(unsigned int));
    lstoprescOutput.extend("psidx", typeid(int));
    lstoprescQuery->addToOutputList("LUMI_SECTION", "lumisection");
    lstoprescQuery->addToOutputList("PRESCALE_INDEX", "psidx");
    coral::AttributeList bindVariablesLstopresc;
    bindVariablesLstopresc.extend("runnumber", typeid(int));
    bindVariablesLstopresc["runnumber"].data<int>() = runnumber;
    lstoprescQuery->setCondition("RUN_NUMBER =:runnumber", bindVariablesLstopresc);
    lstoprescQuery->defineOutput(lstoprescOutput);
    unsigned int lsprescount = 0;
    unsigned int lastpresc = 0;
    coral::ICursor& lstoprescCursor = lstoprescQuery->execute();
    while (lstoprescCursor.next()) {
      ++lsprescount;
      const coral::AttributeList& row = lstoprescCursor.currentRow();
      unsigned int lumisection = row["lumisection"].data<unsigned int>();
      while (lsprescount != lumisection) {
        std::cout << "PRESCALE_INDEX COUNT alert: found hole in LS range " << lsprescount << std::endl;
        std::cout << "     fill this prescale from last availabl prescale " << lastpresc << std::endl;
        unsigned int guesspsidx = lastpresc;
        lsprescmap.insert(std::make_pair(lsprescount, guesspsidx));
        ++lsprescount;
      }
      int psidx = row["psidx"].data<int>();
      lsprescmap.insert(std::make_pair(lumisection, psidx));
      lastpresc = psidx;
    }
    if (lsprescount == 0) {
      lstoprescCursor.close();
      delete lstoprescQuery;
      transaction.commit();
      throw lumi::Exception(
          std::string("requested run ") + runnumberstr + std::string(" doesn't exist for prescale_index"),
          "retrieveData",
          "TRG2DB");
    }
    delete lstoprescQuery;

    for (prescidxIt = prescidxItBeg; prescidxIt != prescidxItEnd; ++prescidxIt) {
      std::vector<unsigned int> algopres;
      algopres.reserve(lumi::N_TRGALGOBIT);
      std::vector<unsigned int> techpres;
      techpres.reserve(lumi::N_TRGTECHBIT);
      algoprescMap.insert(std::make_pair(*prescidxIt, algopres));
      techprescMap.insert(std::make_pair(*prescidxIt, techpres));
    }
    //prefill lsprescmap
    //transaction.commit();
    coral::ISchema& gtschemaHandle = trgsession->schema(gtschema);
    if (!gtschemaHandle.existsView(runtechviewname)) {
      throw lumi::Exception(std::string("non-existing view ") + runtechviewname, "str2int", "TRG2DB");
    }
    if (!gtschemaHandle.existsView(runalgoviewname)) {
      throw lumi::Exception(std::string("non-existing view ") + runalgoviewname, "str2int", "TRG2DB");
    }
    if (!gtschemaHandle.existsView(runprescalgoviewname)) {
      throw lumi::Exception(std::string("non-existing view ") + runprescalgoviewname, "str2int", "TRG2DB");
    }
    if (!gtschemaHandle.existsView(runpresctechviewname)) {
      throw lumi::Exception(std::string("non-existing view ") + runpresctechviewname, "str2int", "TRG2DB");
    }
    //
    //select algo_index,alias from cms_gt.gt_run_algo_view where runnumber=:runnumber //order by algo_index;
    //
    std::map<unsigned int, std::string> triggernamemap;
    coral::IQuery* QueryName = gtschemaHandle.newQuery();
    QueryName->addToTableList(runalgoviewname);
    coral::AttributeList qAlgoNameOutput;
    qAlgoNameOutput.extend("ALGO_INDEX", typeid(unsigned int));
    qAlgoNameOutput.extend("ALIAS", typeid(std::string));
    QueryName->addToOutputList("ALGO_INDEX");
    QueryName->addToOutputList("ALIAS");
    QueryName->setCondition("RUNNUMBER=:runnumber", bindVariableList);
    //QueryName->addToOrderList("algo_index");
    QueryName->defineOutput(qAlgoNameOutput);
    coral::ICursor& algonamecursor = QueryName->execute();
    while (algonamecursor.next()) {
      const coral::AttributeList& row = algonamecursor.currentRow();
      //row.toOutputStream( std::cout ) << std::endl;
      unsigned int algo_index = row["ALGO_INDEX"].data<unsigned int>();
      std::string algo_name = row["ALIAS"].data<std::string>();
      triggernamemap.insert(std::make_pair(algo_index, algo_name));
    }
    delete QueryName;

    //
    //select techtrig_index,name from cms_gt.gt_run_tech_view where runnumber=:runnumber //order by techtrig_index;
    //
    std::map<unsigned int, std::string> techtriggernamemap;
    coral::IQuery* QueryTechName = gtschemaHandle.newQuery();
    QueryTechName->addToTableList(runtechviewname);
    coral::AttributeList qTechNameOutput;
    qTechNameOutput.extend("TECHTRIG_INDEX", typeid(unsigned int));
    qTechNameOutput.extend("NAME", typeid(std::string));
    QueryTechName->addToOutputList("TECHTRIG_INDEX");
    QueryTechName->addToOutputList("NAME");
    QueryTechName->setCondition("RUNNUMBER=:runnumber", bindVariableList);
    //QueryTechName->addToOrderList("techtrig_index");
    QueryTechName->defineOutput(qTechNameOutput);
    coral::ICursor& technamecursor = QueryTechName->execute();
    while (technamecursor.next()) {
      const coral::AttributeList& row = technamecursor.currentRow();
      //row.toOutputStream( std::cout ) << std::endl;
      unsigned int tech_index = row["TECHTRIG_INDEX"].data<unsigned int>();
      std::string tech_name = row["NAME"].data<std::string>();
      techtriggernamemap.insert(std::make_pair(tech_index, tech_name));
    }
    delete QueryTechName;
    //
    //loop over all prescale_index
    //
    //select prescale_factor_algo_000,prescale_factor_algo_001..._127 from cms_gt.gt_run_presc_algo_view where runr=:runnumber and prescale_index=:prescale_index;
    // {prescale_index:[pres]}
    //
    std::vector<int>::iterator presIt;
    std::vector<int>::iterator presItBeg = prescidx.begin();
    std::vector<int>::iterator presItEnd = prescidx.end();
    for (presIt = presItBeg; presIt != presItEnd; ++presIt) {
      coral::IQuery* QueryAlgoPresc = gtschemaHandle.newQuery();
      QueryAlgoPresc->addToTableList(runprescalgoviewname);
      coral::AttributeList qAlgoPrescOutput;
      std::string algoprescBase("PRESCALE_FACTOR_ALGO_");
      for (unsigned int bitidx = 0; bitidx < lumi::N_TRGALGOBIT; ++bitidx) {
        std::string algopresc = algoprescBase + int2str(bitidx, 3);
        qAlgoPrescOutput.extend(algopresc, typeid(unsigned int));
      }
      for (unsigned int bitidx = 0; bitidx < lumi::N_TRGALGOBIT; ++bitidx) {
        std::string algopresc = algoprescBase + int2str(bitidx, 3);
        QueryAlgoPresc->addToOutputList(algopresc);
      }
      coral::AttributeList PrescbindVariable;
      PrescbindVariable.extend("runnumber", typeid(int));
      PrescbindVariable.extend("prescaleindex", typeid(int));
      PrescbindVariable["runnumber"].data<int>() = runnumber;
      PrescbindVariable["prescaleindex"].data<int>() = *presIt;
      QueryAlgoPresc->setCondition("RUNNR=:runnumber AND PRESCALE_INDEX=:prescaleindex", PrescbindVariable);
      QueryAlgoPresc->defineOutput(qAlgoPrescOutput);
      coral::ICursor& algopresccursor = QueryAlgoPresc->execute();
      while (algopresccursor.next()) {
        const coral::AttributeList& row = algopresccursor.currentRow();
        for (unsigned int bitidx = 0; bitidx < lumi::N_TRGALGOBIT; ++bitidx) {
          std::string algopresc = algoprescBase + int2str(bitidx, 3);
          algoprescMap[*presIt].push_back(row[algopresc].data<unsigned int>());
        }
      }
      delete QueryAlgoPresc;
    }
    //
    //select prescale_factor_tt_000,prescale_factor_tt_001..._63 from cms_gt.gt_run_presc_tech_view where runr=:runnumber and prescale_index=0;
    //
    for (presIt = presItBeg; presIt != presItEnd; ++presIt) {
      coral::IQuery* QueryTechPresc = gtschemaHandle.newQuery();
      QueryTechPresc->addToTableList(runpresctechviewname);
      coral::AttributeList qTechPrescOutput;
      std::string techprescBase("PRESCALE_FACTOR_TT_");
      for (unsigned int bitidx = 0; bitidx < lumi::N_TRGTECHBIT; ++bitidx) {
        std::string techpresc = techprescBase + this->int2str(bitidx, 3);
        qTechPrescOutput.extend(techpresc, typeid(unsigned int));
      }
      for (unsigned int bitidx = 0; bitidx < lumi::N_TRGTECHBIT; ++bitidx) {
        std::string techpresc = techprescBase + int2str(bitidx, 3);
        QueryTechPresc->addToOutputList(techpresc);
      }
      coral::AttributeList TechPrescbindVariable;
      TechPrescbindVariable.extend("runnumber", typeid(int));
      TechPrescbindVariable.extend("prescaleindex", typeid(int));
      TechPrescbindVariable["runnumber"].data<int>() = runnumber;
      TechPrescbindVariable["prescaleindex"].data<int>() = *presIt;
      QueryTechPresc->setCondition("RUNNR=:runnumber AND PRESCALE_INDEX=:prescaleindex", TechPrescbindVariable);
      QueryTechPresc->defineOutput(qTechPrescOutput);
      coral::ICursor& techpresccursor = QueryTechPresc->execute();
      while (techpresccursor.next()) {
        const coral::AttributeList& row = techpresccursor.currentRow();
        //row.toOutputStream( std::cout ) << std::endl;
        for (unsigned int bitidx = 0; bitidx < lumi::N_TRGTECHBIT; ++bitidx) {
          std::string techpresc = techprescBase + int2str(bitidx, 3);
          techprescMap[*presIt].push_back(row[techpresc].data<unsigned int>());
        }
      }
      delete QueryTechPresc;
    }
    transaction.commit();
    delete trgsession;

    std::map<unsigned int, int>::iterator lsprescmapIt;
    std::map<unsigned int, int>::iterator lsprescmapItBeg = lsprescmap.begin();
    std::map<unsigned int, int>::iterator lsprescmapItEnd = lsprescmap.end();
    for (lsprescmapIt = lsprescmapItBeg; lsprescmapIt != lsprescmapItEnd; ++lsprescmapIt) {
      unsigned int ls = lsprescmapIt->first;
      int preidx = lsprescmapIt->second;
      algoprescale.insert(std::make_pair(ls, algoprescMap[preidx]));
      techprescale.insert(std::make_pair(ls, techprescMap[preidx]));
    }
    algoprescMap.clear();
    techprescMap.clear();
    //
    //reprocess Algo name result filling unallocated trigger bit with string "False"
    //
    for (size_t algoidx = 0; algoidx < lumi::N_TRGALGOBIT; ++algoidx) {
      std::map<unsigned int, std::string>::iterator pos = triggernamemap.find(algoidx);
      if (pos != triggernamemap.end()) {
        algonames.push_back(pos->second);
      } else {
        algonames.push_back("False");
      }
    }
    //
    //reprocess Tech name result filling unallocated trigger bit with string "False"
    //
    std::stringstream ss;
    for (size_t techidx = 0; techidx < lumi::N_TRGTECHBIT; ++techidx) {
      ss << techidx;
      technames.push_back(ss.str());
      ss.str("");  //clear the string buffer after usage
    }
    //
    //cross check result size
    //
    if (algonames.size() != lumi::N_TRGALGOBIT || technames.size() != lumi::N_TRGTECHBIT) {
      throw lumi::Exception("wrong number of bits", "retrieveData", "TRG2DB");
    }
    //if(algoprescale.size()!=lumi::N_TRGALGOBIT || techprescale.size()!=lumi::N_TRGTECHBIT){
    //  throw lumi::Exception("wrong number of prescale","retrieveData","TRG2DB");
    //}
    if (deadtimeresult.size() != deadfracresult.size() || deadtimeresult.size() != algocount.size() ||
        deadtimeresult.size() != techcount.size() || deadtimeresult.size() != algoprescale.size() ||
        deadtimeresult.size() != techprescale.size()) {
      //throw lumi::Exception("inconsistent number of LS","retrieveData","TRG2DB");
      std::cout
          << "[WARNING] inconsistent number of LS of deadtimecounter,deadfrac,algo,tech,prescalealgo,prescaletech "
          << deadtimeresult.size() << " " << deadfracresult.size() << " " << algocount.size() << " " << techcount.size()
          << " " << algoprescale.size() << " " << techprescale.size() << std::endl;
      TRGScalers2DB::TriggerDeadCountResult::iterator dIt;
      TRGScalers2DB::TriggerDeadCountResult::iterator dBeg = deadtimeresult.begin();
      TRGScalers2DB::TriggerDeadCountResult::iterator dEnd = deadtimeresult.end();
      unsigned int dcnt = 0;
      for (dIt = dBeg; dIt != dEnd; ++dIt) {
        try {
          deadfracresult.at(dcnt);
        } catch (std::out_of_range& er) {
          std::cout << "[WARNING] filling FAKE deadfrac=0.0 at LS " << dcnt << std::endl;
          deadfracresult[dcnt] = 0.0;
        }
        try {
          algocount.at(dcnt);
        } catch (std::out_of_range& er) {
          std::vector<unsigned int> tmpzero(lumi::N_TRGALGOBIT, 0);
          std::cout << "[WARNING] filling FAKE algocount at LS " << dcnt << std::endl;
          algocount[dcnt] = tmpzero;
        }
        try {
          techcount.at(dcnt);
        } catch (std::out_of_range& er) {
          std::vector<unsigned int> tmpzero(lumi::N_TRGTECHBIT, 0);
          std::cout << "[WARNING] filling FAKE techcount at LS " << dcnt << std::endl;
          techcount[dcnt] = tmpzero;
        }
        if (algoprescale.find(dcnt + 1) == algoprescale.end()) {
          std::vector<unsigned int> tmpzero(lumi::N_TRGALGOBIT, 1);
          std::cout << "[WARNING] filling FAKE 1 algoprescale at LS " << dcnt + 1 << std::endl;
          algoprescale[dcnt + 1] = tmpzero;
        }
        if (techprescale.find(dcnt + 1) == techprescale.end()) {
          std::vector<unsigned int> tmpzero(lumi::N_TRGTECHBIT, 1);
          std::cout << "[WARNING] filling FAKE 1 techprescale at LS " << dcnt + 1 << std::endl;
          techprescale[dcnt + 1] = tmpzero;
        }
        ++dcnt;
      }
    }
    //
    //write data into lumi db
    //
    unsigned long long trgdataid = 0;
    coral::ISessionProxy* lumisession = svc->connect(m_dest, coral::Update);
    coral::ITypeConverter& lumitpc = lumisession->typeConverter();
    lumitpc.setCppTypeForSqlType("unsigned int", "NUMBER(7)");
    lumitpc.setCppTypeForSqlType("unsigned int", "NUMBER(10)");
    lumitpc.setCppTypeForSqlType("unsigned long long", "NUMBER(20)");
    try {
      if (m_mode == "loadoldschema") {
        std::cout << "writing trg data to old trg table " << std::endl;
        writeTrgData(lumisession,
                     runnumber,
                     m_source,
                     deadtimeresult.begin(),
                     deadtimeresult.end(),
                     deadfracresult,
                     algonames,
                     technames,
                     algocount,
                     techcount,
                     algoprescale,
                     techprescale,
                     COMMITLSINTERVAL);
        std::cout << "done" << std::endl;
      }
      std::cout << "writing trg data to new lstrg table " << std::endl;
      trgdataid = writeTrgDataToSchema2(lumisession,
                                        runnumber,
                                        m_source,
                                        deadtimeresult.begin(),
                                        deadtimeresult.end(),
                                        deadfracresult,
                                        algonames,
                                        technames,
                                        algocount,
                                        techcount,
                                        algoprescale,
                                        techprescale,
                                        COMMITLSTRGINTERVAL);
      std::cout << "done" << std::endl;
      delete lumisession;
      delete svc;
    } catch (const coral::Exception& er) {
      std::cout << "database error " << er.what() << std::endl;
      lumisession->transaction().rollback();
      delete lumisession;
      delete svc;
      throw er;
    }
    return trgdataid;
  }

sourceType()

const std::string lumi::TRGScalers2DB::sourceType ( ) const

overridevirtual

Implements lumi::DataPipe.

Definition at line 995 of file TRGScalers2DB.cc.

{ return "DB"; }

str2int()

unsigned int lumi::TRGScalers2DB::str2int

(

const std::string &

s

)

Definition at line 1004 of file TRGScalers2DB.cc.

References Exception, mps_fire::i, alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

                                                        {
    std::istringstream myStream(s);
    unsigned int i;
    if (myStream >> i) {
      return i;
    } else {
      throw lumi::Exception(std::string("str2int error"), "str2int", "TRGScalers2DB");
    }
  }

writeTrgData()

void lumi::TRGScalers2DB::writeTrgData	(	coral::ISessionProxy *	session,
		unsigned int	runnumber,
		const std::string &	source,
		TriggerDeadCountResult::iterator	deadtimesBeg,
		TriggerDeadCountResult::iterator	deadtimesEnd,
		TRGScalers2DB::TriggerDeadFracResult &	deadfracs,
		TriggerNameResult_Algo &	algonames,
		TriggerNameResult_Tech &	technames,
		TriggerCountResult_Algo &	algocounts,
		TriggerCountResult_Tech &	techcounts,
		PrescaleResult_Algo &	prescalealgo,
		PrescaleResult_Tech &	prescaletech,
		unsigned int	commitintv
	)

Definition at line 710 of file TRGScalers2DB.cc.

References submitPVResolutionJobs::count, gather_cfg::cout, HLT_2023v12_cff::distance, lumi::idDealer::generateNextIDForTable(), lumi::N_TRGALGOBIT, lumi::N_TRGBIT, cond::runnumber, AlCaHLTBitMon_QueryRunRegistry::string, and lumi::LumiNames::trgTableName().

Referenced by retrieveData().

                                                            {
    TRGScalers2DB::TriggerDeadCountResult::iterator deadIt;
    //unsigned int totalcmsls=deadtimes.size();
    unsigned int totalcmsls = std::distance(deadtimesBeg, deadtimesEnd);
    std::cout << "inserting totalcmsls " << totalcmsls << std::endl;
    std::map<unsigned long long, std::vector<unsigned long long> > idallocationtable;
    std::cout << "\t allocating total ids " << totalcmsls * lumi::N_TRGBIT << std::endl;
    lumisession->transaction().start(false);
    lumi::idDealer idg(lumisession->nominalSchema());
    unsigned long long trgID = idg.generateNextIDForTable(LumiNames::trgTableName(), totalcmsls * lumi::N_TRGBIT) -
                               totalcmsls * lumi::N_TRGBIT;
    //lumisession->transaction().commit();
    unsigned int trglscount = 0;
    for (deadIt = deadtimesBeg; deadIt != deadtimesEnd; ++deadIt, ++trglscount) {
      std::vector<unsigned long long> bitvec;
      bitvec.reserve(lumi::N_TRGBIT);
      const BITCOUNT& algoinbits = algocounts[trglscount];
      const BITCOUNT& techinbits = techcounts[trglscount];
      BITCOUNT::const_iterator algoBitIt;
      BITCOUNT::const_iterator algoBitBeg = algoinbits.begin();
      BITCOUNT::const_iterator algoBitEnd = algoinbits.end();
      for (algoBitIt = algoBitBeg; algoBitIt != algoBitEnd; ++algoBitIt, ++trgID) {
        bitvec.push_back(trgID);
      }
      BITCOUNT::const_iterator techBitIt;
      BITCOUNT::const_iterator techBitBeg = techinbits.begin();
      BITCOUNT::const_iterator techBitEnd = techinbits.end();
      for (techBitIt = techBitBeg; techBitIt != techBitEnd; ++techBitIt, ++trgID) {
        bitvec.push_back(trgID);
      }
      idallocationtable.insert(std::make_pair(trglscount, bitvec));
    }
    std::cout << "\t all ids allocated" << std::endl;
    coral::AttributeList trgData;
    trgData.extend<unsigned long long>("TRG_ID");
    trgData.extend<unsigned int>("RUNNUM");
    trgData.extend<unsigned int>("CMSLSNUM");
    trgData.extend<unsigned int>("BITNUM");
    trgData.extend<std::string>("BITNAME");
    trgData.extend<unsigned int>("TRGCOUNT");
    trgData.extend<unsigned long long>("DEADTIME");
    trgData.extend<float>("DEADFRAC");
    trgData.extend<unsigned int>("PRESCALE");

    unsigned long long& trg_id = trgData["TRG_ID"].data<unsigned long long>();
    unsigned int& trgrunnum = trgData["RUNNUM"].data<unsigned int>();
    unsigned int& cmslsnum = trgData["CMSLSNUM"].data<unsigned int>();
    unsigned int& bitnum = trgData["BITNUM"].data<unsigned int>();
    std::string& bitname = trgData["BITNAME"].data<std::string>();
    unsigned int& count = trgData["TRGCOUNT"].data<unsigned int>();
    unsigned long long& deadtime = trgData["DEADTIME"].data<unsigned long long>();
    float& deadfrac = trgData["DEADFRAC"].data<float>();
    unsigned int& prescale = trgData["PRESCALE"].data<unsigned int>();

    trglscount = 0;
    coral::IBulkOperation* trgInserter = nullptr;
    unsigned int comittedls = 0;
    for (deadIt = deadtimesBeg; deadIt != deadtimesEnd; ++deadIt, ++trglscount) {
      unsigned int cmslscount = trglscount + 1;
      float dfra = deadfracs[trglscount];
      const BITCOUNT& algoinbits = algocounts[trglscount];
      const BITCOUNT& techinbits = techcounts[trglscount];
      unsigned int trgbitcount = 0;
      BITCOUNT::const_iterator algoBitIt;
      BITCOUNT::const_iterator algoBitBeg = algoinbits.begin();
      BITCOUNT::const_iterator algoBitEnd = algoinbits.end();
      if (!lumisession->transaction().isActive()) {
        lumisession->transaction().start(false);
        coral::ITable& trgtable = lumisession->nominalSchema().tableHandle(LumiNames::trgTableName());
        trgInserter = trgtable.dataEditor().bulkInsert(trgData, 2048);
      } else {
        if (deadIt == deadtimesBeg) {
          coral::ITable& trgtable = lumisession->nominalSchema().tableHandle(LumiNames::trgTableName());
          trgInserter = trgtable.dataEditor().bulkInsert(trgData, 2048);
        }
      }
      for (algoBitIt = algoBitBeg; algoBitIt != algoBitEnd; ++algoBitIt, ++trgbitcount) {
        trg_id = idallocationtable[trglscount].at(trgbitcount);
        deadtime = *deadIt;
        deadfrac = dfra;
        trgrunnum = runnumber;
        cmslsnum = cmslscount;
        bitnum = trgbitcount;
        bitname = algonames[trgbitcount];
        count = *algoBitIt;
        prescale = prescalealgo[cmslscount].at(trgbitcount);
        //std::cout<<"cmslsnum "<<cmslsnum<<" bitnum "<<bitnum<<" bitname "<<bitname<<" prescale "<< prescale<<" count "<<count<<std::endl;
        trgInserter->processNextIteration();
      }
      BITCOUNT::const_iterator techBitIt;
      BITCOUNT::const_iterator techBitBeg = techinbits.begin();
      BITCOUNT::const_iterator techBitEnd = techinbits.end();
      for (techBitIt = techBitBeg; techBitIt != techBitEnd; ++techBitIt, ++trgbitcount) {
        trg_id = idallocationtable[trglscount].at(trgbitcount);
        deadtime = *deadIt;
        deadfrac = dfra;
        trgrunnum = runnumber;
        cmslsnum = cmslscount;
        bitnum = trgbitcount;
        bitname = technames[trgbitcount - lumi::N_TRGALGOBIT];
        count = *techBitIt;
        prescale = prescaletech[cmslsnum][trgbitcount - lumi::N_TRGALGOBIT];
        trgInserter->processNextIteration();
      }
      trgInserter->flush();
      ++comittedls;
      if (comittedls == commitintv) {
        std::cout << "\t committing in LS chunck " << comittedls << std::endl;
        delete trgInserter;
        trgInserter = nullptr;
        lumisession->transaction().commit();
        comittedls = 0;
        std::cout << "\t committed " << std::endl;
      } else if (trglscount == (totalcmsls - 1)) {
        std::cout << "\t committing at the end" << std::endl;
        delete trgInserter;
        trgInserter = nullptr;
        lumisession->transaction().commit();
        std::cout << "\t done" << std::endl;
      }
    }
  }

writeTrgDataToSchema2()

unsigned long long lumi::TRGScalers2DB::writeTrgDataToSchema2	(	coral::ISessionProxy *	session,
		unsigned int	runnumber,
		const std::string &	source,
		TriggerDeadCountResult::iterator	deadtimesBeg,
		TriggerDeadCountResult::iterator	deadtimesEnd,
		TRGScalers2DB::TriggerDeadFracResult &	deadfracs,
		TRGScalers2DB::TriggerNameResult_Algo &	algonames,
		TRGScalers2DB::TriggerNameResult_Tech &	technames,
		TRGScalers2DB::TriggerCountResult_Algo &	algocounts,
		TRGScalers2DB::TriggerCountResult_Tech &	techcounts,
		TRGScalers2DB::PrescaleResult_Algo &	prescalealgo,
		TRGScalers2DB::PrescaleResult_Tech &	prescaletech,
		unsigned int	commitintv
	)

Definition at line 844 of file TRGScalers2DB.cc.

References lumi::RevisionDML::addEntry(), lumi::RevisionDML::addRevision(), lumi::RevisionDML::TrgEntry::bitnames, lumi::RevisionDML::TrgEntry::bitzeroname, lumi::RevisionDML::bookNewEntry(), lumi::RevisionDML::bookNewRevision(), gather_cfg::cout, lumi::RevisionDML::Entry::data_id, HLT_2023v12_cff::distance, lumi::RevisionDML::Entry::entry_id, lumi::RevisionDML::Entry::entry_name, lumi::RevisionDML::getEntryInBranchByName(), lumi::RevisionDML::insertTrgRunData(), lumi::LumiNames::lstrgTableName(), lumi::RevisionDML::Entry::revision_id, lumi::RevisionDML::TrgEntry::runnumber, findQualityFiles::size, lumi::RevisionDML::TrgEntry::source, source, AlCaHLTBitMon_QueryRunRegistry::string, and lumi::LumiNames::trgdataTableName().

Referenced by retrieveData().

                                                                                   {
    TRGScalers2DB::TriggerDeadCountResult::iterator deadIt;
    unsigned int totalcmsls = std::distance(deadtimesBeg, deadtimesEnd);
    std::cout << "inserting totalcmsls " << totalcmsls << std::endl;
    coral::AttributeList lstrgData;
    lstrgData.extend<unsigned long long>("DATA_ID");
    lstrgData.extend<unsigned int>("RUNNUM");
    lstrgData.extend<unsigned int>("CMSLSNUM");
    lstrgData.extend<unsigned long long>("DEADTIMECOUNT");
    lstrgData.extend<unsigned int>("BITZEROCOUNT");
    lstrgData.extend<unsigned int>("BITZEROPRESCALE");
    lstrgData.extend<float>("DEADFRAC");
    lstrgData.extend<coral::Blob>("PRESCALEBLOB");
    lstrgData.extend<coral::Blob>("TRGCOUNTBLOB");

    unsigned long long& data_id = lstrgData["DATA_ID"].data<unsigned long long>();
    unsigned int& trgrunnum = lstrgData["RUNNUM"].data<unsigned int>();
    unsigned int& cmslsnum = lstrgData["CMSLSNUM"].data<unsigned int>();
    unsigned long long& deadtime = lstrgData["DEADTIMECOUNT"].data<unsigned long long>();
    unsigned int& bitzerocount = lstrgData["BITZEROCOUNT"].data<unsigned int>();
    unsigned int& bitzeroprescale = lstrgData["BITZEROPRESCALE"].data<unsigned int>();
    float& deadfrac = lstrgData["DEADFRAC"].data<float>();
    coral::Blob& prescaleblob = lstrgData["PRESCALEBLOB"].data<coral::Blob>();
    coral::Blob& trgcountblob = lstrgData["TRGCOUNTBLOB"].data<coral::Blob>();

    unsigned long long branch_id = 3;
    std::string branch_name("DATA");
    lumi::RevisionDML revisionDML;
    lumi::RevisionDML::TrgEntry trgrundata;
    std::stringstream op;
    op << irunnumber;
    std::string runnumberStr = op.str();
    lumisession->transaction().start(false);
    trgrundata.entry_name = runnumberStr;
    trgrundata.source = source;
    trgrundata.runnumber = irunnumber;
    std::string bitnames;
    TriggerNameResult_Algo::iterator bitnameIt;
    TriggerNameResult_Algo::iterator bitnameItBeg = algonames.begin();
    TriggerNameResult_Algo::iterator bitnameItEnd = algonames.end();
    for (bitnameIt = bitnameItBeg; bitnameIt != bitnameItEnd; ++bitnameIt) {
      if (bitnameIt != bitnameItBeg) {
        bitnames += std::string(",");
      }
      bitnames += *bitnameIt;
    }
    TriggerNameResult_Tech::iterator techbitnameIt;
    TriggerNameResult_Tech::iterator techbitnameItBeg = technames.begin();
    TriggerNameResult_Tech::iterator techbitnameItEnd = technames.end();
    for (techbitnameIt = techbitnameItBeg; techbitnameIt != techbitnameItEnd; ++techbitnameIt) {
      bitnames += std::string(",");
      bitnames += *techbitnameIt;
    }
    std::cout << "\tbitnames " << bitnames << std::endl;
    trgrundata.bitzeroname = technames[4];
    trgrundata.bitnames = bitnames;
    trgrundata.entry_id = revisionDML.getEntryInBranchByName(
        lumisession->nominalSchema(), lumi::LumiNames::trgdataTableName(), runnumberStr, branch_name);
    if (trgrundata.entry_id == 0) {
      revisionDML.bookNewEntry(lumisession->nominalSchema(), LumiNames::trgdataTableName(), trgrundata);
      std::cout << "trgrundata revision_id " << trgrundata.revision_id << " entry_id " << trgrundata.entry_id
                << " data_id " << trgrundata.data_id << std::endl;
      revisionDML.addEntry(
          lumisession->nominalSchema(), LumiNames::trgdataTableName(), trgrundata, branch_id, branch_name);
    } else {
      revisionDML.bookNewRevision(lumisession->nominalSchema(), LumiNames::trgdataTableName(), trgrundata);
      std::cout << "trgrundata revision_id " << trgrundata.revision_id << " entry_id " << trgrundata.entry_id
                << " data_id " << trgrundata.data_id << std::endl;
      revisionDML.addRevision(
          lumisession->nominalSchema(), LumiNames::trgdataTableName(), trgrundata, branch_id, branch_name);
    }
    std::cout << "inserting trgrundata " << std::endl;
    revisionDML.insertTrgRunData(lumisession->nominalSchema(), trgrundata);
    std::cout << "inserting lstrg data" << std::endl;

    unsigned int trglscount = 0;
    // trglscount=0;
    coral::IBulkOperation* lstrgInserter = nullptr;
    unsigned int comittedls = 0;
    for (deadIt = deadtimesBeg; deadIt != deadtimesEnd; ++deadIt, ++trglscount) {
      unsigned int cmslscount = trglscount + 1;
      if (!lumisession->transaction().isActive()) {
        lumisession->transaction().start(false);
        coral::ITable& lstrgtable = lumisession->nominalSchema().tableHandle(LumiNames::lstrgTableName());
        lstrgInserter = lstrgtable.dataEditor().bulkInsert(lstrgData, 2048);
      } else {
        if (deadIt == deadtimesBeg) {
          coral::ITable& lstrgtable = lumisession->nominalSchema().tableHandle(LumiNames::lstrgTableName());
          lstrgInserter = lstrgtable.dataEditor().bulkInsert(lstrgData, 2048);
        }
      }
      data_id = trgrundata.data_id;
      trgrunnum = irunnumber;
      cmslsnum = cmslscount;
      deadtime = *deadIt;
      deadfrac = deadfracs[trglscount];
      //bitzerocount = algocounts[trglscount][0];//use algobit_0
      //bitzeroprescale = prescalealgo[cmslsnum][0];
      bitzerocount = techcounts[trglscount][4];  //use techbit_4
      bitzeroprescale = prescaletech[cmslsnum][4];
      std::vector<unsigned int> fullprescales;
      fullprescales.reserve(prescalealgo[cmslsnum].size() + prescaletech[cmslsnum].size());
      fullprescales.insert(fullprescales.end(), prescalealgo[cmslsnum].begin(), prescalealgo[cmslsnum].end());
      fullprescales.insert(fullprescales.end(), prescaletech[cmslsnum].begin(), prescaletech[cmslsnum].end());

      prescaleblob.resize(sizeof(unsigned int) * (fullprescales.size()));
      void* prescaleblob_StartAddress = prescaleblob.startingAddress();
      std::memmove(prescaleblob_StartAddress, &fullprescales[0], sizeof(unsigned int) * (fullprescales.size()));

      std::vector<unsigned int> fullcounts;
      fullcounts.reserve(algocounts[trglscount].size() + techcounts[trglscount].size());
      fullcounts.insert(fullcounts.end(), algocounts[trglscount].begin(), algocounts[trglscount].end());
      fullcounts.insert(fullcounts.end(), techcounts[trglscount].begin(), techcounts[trglscount].end());
      trgcountblob.resize(sizeof(unsigned int) * (fullcounts.size()));
      void* trgcountblob_StartAddress = trgcountblob.startingAddress();
      std::memmove(trgcountblob_StartAddress, &fullcounts[0], sizeof(unsigned int) * (fullcounts.size()));

      lstrgInserter->processNextIteration();
      lstrgInserter->flush();
      ++comittedls;
      if (comittedls == commitintv) {
        std::cout << "\t committing in LS chunck " << comittedls << std::endl;
        delete lstrgInserter;
        lstrgInserter = nullptr;
        lumisession->transaction().commit();
        comittedls = 0;
        std::cout << "\t committed " << std::endl;
      } else if (trglscount == (totalcmsls - 1)) {
        std::cout << "\t committing at the end" << std::endl;
        delete lstrgInserter;
        lstrgInserter = nullptr;
        lumisession->transaction().commit();
        std::cout << "\t done" << std::endl;
      }
    }

    return trgrundata.data_id;
  }

Member Data Documentation

COMMITLSINTERVAL

const unsigned int lumi::TRGScalers2DB::COMMITLSINTERVAL = 150

static

Definition at line 35 of file TRGScalers2DB.cc.

Referenced by retrieveData().

COMMITLSTRGINTERVAL

const unsigned int lumi::TRGScalers2DB::COMMITLSTRGINTERVAL = 550

static

Definition at line 36 of file TRGScalers2DB.cc.

Referenced by retrieveData().