CMS 3D CMS Logo

Public Member Functions | Public Attributes | Private Attributes

RPCFw Class Reference

#include <RPCFw.h>

Inheritance diagram for RPCFw:
RPCDBCom

List of all members.

Public Member Functions

std::vector
< RPCObFebmap::Feb_Item
createFEB (long long since, long long till)
std::vector< RPCObGas::ItemcreateGAS (long long since, long long till)
std::vector< RPCObPVSSmap::ItemcreateIDMAP ()
std::vector< RPCObImon::I_ItemcreateIMON (long long since, long long till)
std::vector< RPCObGasMix::ItemcreateMix (long long since, long long till)
std::vector< RPCObStatus::S_ItemcreateSTATUS (long long since, long long till)
std::vector< RPCObTemp::T_ItemcreateT (long long since, long long till)
std::vector< RPCObUXC::ItemcreateUXC (long long since, long long till)
std::vector< RPCObVmon::V_ItemcreateVMON (long long from, long long till)
bool isMajor (coral::TimeStamp fir, coral::TimeStamp sec)
 RPCFw (const std::string &connectionString, const std::string &userName, const std::string &password)
void run ()
unsigned long long TtoUT (coral::TimeStamp time)
coral::TimeStamp UTtoT (long long utime)
virtual ~RPCFw ()

Public Attributes

unsigned long long N_IOV
coral::TimeStamp tMAX
coral::TimeStamp tMIN

Private Attributes

std::string m_connectionString
std::string m_password
std::string m_userName

Detailed Description

Definition at line 32 of file RPCFw.h.


Constructor & Destructor Documentation

RPCFw::RPCFw ( const std::string &  connectionString,
const std::string &  userName,
const std::string &  password 
)

Definition at line 30 of file RPCFw.cc.

                                        :
  RPCDBCom(),
  m_connectionString( connectionString ),
  m_userName( userName ),
  m_password( password )
{}
RPCFw::~RPCFw ( ) [virtual]

Definition at line 40 of file RPCFw.cc.

{}

Member Function Documentation

std::vector< RPCObFebmap::Feb_Item > RPCFw::createFEB ( long long  since,
long long  till 
)

Definition at line 634 of file RPCFw.cc.

References RPCDBCom::connect(), gather_cfg::cout, RPCObFebmap::Feb_Item::day, RPCObFebmap::Feb_Item::dpid, m_connectionString, m_password, m_userName, RPCObFebmap::Feb_Item::noise1, RPCObFebmap::Feb_Item::noise2, RPCObFebmap::Feb_Item::noise3, RPCObFebmap::Feb_Item::noise4, python::IdGenerator::schema, python::CommonUtils::session, AlCaHLTBitMon_QueryRunRegistry::string, RPCObFebmap::Feb_Item::temp1, RPCObFebmap::Feb_Item::temp2, RPCObFebmap::Feb_Item::thr1, RPCObFebmap::Feb_Item::thr2, RPCObFebmap::Feb_Item::thr3, RPCObFebmap::Feb_Item::thr4, RPCObFebmap::Feb_Item::time, tMAX, tMIN, UTtoT(), RPCObFebmap::Feb_Item::vmon1, RPCObFebmap::Feb_Item::vmon2, RPCObFebmap::Feb_Item::vmon3, and RPCObFebmap::Feb_Item::vmon4.

Referenced by popcon::RpcDataFebmap::getNewObjects().

{
  tMIN = UTtoT(since);
  std::cout <<">> Processing since: "<<tMIN.day()<<"/"<<tMIN.month()<<"/"<<tMIN.year()<<" "<<tMIN.hour()<<":"<<tMIN.minute()<<"."<<tMIN.second()<< std::endl;

  coral::ISession* session = this->connect( m_connectionString,
                                            m_userName, m_password );
  session->transaction().start( true );
  coral::ISchema& schema = session->nominalSchema();
  std::cout << ">> creating FEB object..." << std::endl;

  // VTH1
  coral::IQuery* queryFVTH1 = schema.newQuery();
  queryFVTH1->addToTableList( "RPCFEB");
  queryFVTH1->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFVTH1->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFVTH1->addToOutputList( "RPCFEB.VTH1", "VTH1" );

  // VTH2
  coral::IQuery* queryFVTH2 = schema.newQuery();
  queryFVTH2->addToTableList( "RPCFEB");
  queryFVTH2->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFVTH2->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFVTH2->addToOutputList( "RPCFEB.VTH2", "VTH2" );

  // VTH3
  coral::IQuery* queryFVTH3 = schema.newQuery();
  queryFVTH3->addToTableList( "RPCFEB");
  queryFVTH3->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFVTH3->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFVTH3->addToOutputList( "RPCFEB.VTH3", "VTH3" );

  // VTH4
  coral::IQuery* queryFVTH4 = schema.newQuery();
  queryFVTH4->addToTableList( "RPCFEB");
  queryFVTH4->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFVTH4->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFVTH4->addToOutputList( "RPCFEB.VTH4", "VTH4" );

  // VMON1
  coral::IQuery* queryFVMON1 = schema.newQuery();
  queryFVMON1->addToTableList( "RPCFEB");
  queryFVMON1->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFVMON1->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFVMON1->addToOutputList( "RPCFEB.VMON1", "VMON1" );

  // VMON2
  coral::IQuery* queryFVMON2 = schema.newQuery();
  queryFVMON2->addToTableList( "RPCFEB");
  queryFVMON2->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFVMON2->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFVMON2->addToOutputList( "RPCFEB.VMON2", "VMON2" );

  // VMON3
  coral::IQuery* queryFVMON3 = schema.newQuery();
  queryFVMON3->addToTableList( "RPCFEB");
  queryFVMON3->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFVMON3->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFVMON3->addToOutputList( "RPCFEB.VMON3", "VMON3" );

  // VMON4
  coral::IQuery* queryFVMON4 = schema.newQuery();
  queryFVMON4->addToTableList( "RPCFEB");
  queryFVMON4->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFVMON4->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFVMON4->addToOutputList( "RPCFEB.VMON4", "VMON4" );

  // TEMP1
  coral::IQuery* queryFTEMP1 = schema.newQuery();
  queryFTEMP1->addToTableList( "RPCFEB");
  queryFTEMP1->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFTEMP1->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFTEMP1->addToOutputList( "RPCFEB.TEMPERATURE1", "TEMP1" );

  // TEMP2
  coral::IQuery* queryFTEMP2 = schema.newQuery();
  queryFTEMP2->addToTableList( "RPCFEB");
  queryFTEMP2->addToOutputList( "RPCFEB.DPID", "DPID" );
  queryFTEMP2->addToOutputList( "RPCFEB.CHANGE_DATE", "TSTAMP" );
  queryFTEMP2->addToOutputList( "RPCFEB.TEMPERATURE2", "TEMP2" );

  RPCObFebmap::Feb_Item Itemp;
  std::vector<RPCObFebmap::Feb_Item> febarray;
  coral::TimeStamp tlast = tMIN;
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout <<">> Processing till: "<<tMAX.day()<<"/"<<tMAX.month()<<"/"<<tMAX.year()<<" "<<tMAX.hour()<<":"<<tMAX.minute()<<"."<<tMAX.second()<< std::endl;
    std::cout << "Processing VTH1..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionVTH1 = "RPCFEB.VTH1 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFVTH1->setCondition( conditionVTH1, conditionData );
    coral::ICursor& cursorFVTH1 = queryFVTH1->execute();
    while ( cursorFVTH1.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVTH1.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vth1 = row["VTH1"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.thr1 = vth1;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    } 
  }else {
    std::cout << ">> Processing VTH1..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionVTH1 = "RPCFEB.VTH1 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFVTH1->setCondition( conditionVTH1, conditionData );
    coral::ICursor& cursorFVTH1 = queryFVTH1->execute();
    while ( cursorFVTH1.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVTH1.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vth1 = row["VTH1"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.thr1 = vth1;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }
  
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout << "Processing VTH2..." << std::endl;
     coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionVTH2 = "RPCFEB.VTH2 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFVTH2->setCondition( conditionVTH2, conditionData );
    coral::ICursor& cursorFVTH2 = queryFVTH2->execute();
    while ( cursorFVTH2.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVTH2.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vth2 = row["VTH2"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.thr2 = vth2;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }  
  } else {
    std::cout << ">> Processing VTH2..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionVTH2 = "RPCFEB.VTH2 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFVTH2->setCondition( conditionVTH2, conditionData );
    coral::ICursor& cursorFVTH2 = queryFVTH2->execute();
    while ( cursorFVTH2.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVTH2.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vth2 = row["VTH2"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.thr2 = vth2;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }
    
  
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout << "Processing VTH3..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionVTH3 = "RPCFEB.VTH3 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFVTH3->setCondition( conditionVTH3, conditionData );
    coral::ICursor& cursorFVTH3 = queryFVTH3->execute();
    while ( cursorFVTH3.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVTH3.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vth3 = row["VTH3"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.thr3 = vth3;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  } else {
    std::cout << ">> Processing VTH3..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionVTH3 = "RPCFEB.VTH3 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFVTH3->setCondition( conditionVTH3, conditionData );
    coral::ICursor& cursorFVTH3 = queryFVTH3->execute();
    while ( cursorFVTH3.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVTH3.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vth3 = row["VTH3"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.thr3 = vth3;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }
  

  if (till > since) {
    tMAX = UTtoT(till);
    std::cout << "Processing VTH4..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionVTH4 = "RPCFEB.VTH4 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFVTH4->setCondition( conditionVTH4, conditionData );
    coral::ICursor& cursorFVTH4 = queryFVTH4->execute();
    while ( cursorFVTH4.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVTH4.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vth4 = row["VTH4"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.thr4 = vth4;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  } else {
    std::cout << ">> Processing VTH4..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionVTH4 = "RPCFEB.VTH4 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFVTH4->setCondition( conditionVTH4, conditionData );
    coral::ICursor& cursorFVTH4 = queryFVTH4->execute();
    while ( cursorFVTH4.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVTH4.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vth4 = row["VTH4"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.thr4 = vth4;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }
  
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout << "Processing VMON1..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionVMON1 = "RPCFEB.VMON1 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFVMON1->setCondition( conditionVMON1, conditionData );
    coral::ICursor& cursorFVMON1 = queryFVMON1->execute();
    while ( cursorFVMON1.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVMON1.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vmon1 = row["VMON1"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.vmon1 = vmon1;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  } else {
    std::cout << ">> Processing VMON1..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionVMON1 = "RPCFEB.VMON1 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFVMON1->setCondition( conditionVMON1, conditionData );
    coral::ICursor& cursorFVMON1 = queryFVMON1->execute();
    while ( cursorFVMON1.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVMON1.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vmon1 = row["VMON1"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.vmon1 = vmon1;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }
  
  
  
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout << "Processing VMON2..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionVMON2 = "RPCFEB.VMON2 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFVMON2->setCondition( conditionVMON2, conditionData );
    coral::ICursor& cursorFVMON2 = queryFVMON2->execute();
    while ( cursorFVMON2.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVMON2.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vmon2 = row["VMON2"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.vmon2 = vmon2;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  } else {
    std::cout << ">> Processing VMON2..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionVMON2 = "RPCFEB.VMON2 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFVMON2->setCondition( conditionVMON2, conditionData );
    coral::ICursor& cursorFVMON2 = queryFVMON2->execute();
    while ( cursorFVMON2.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVMON2.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vmon2 = row["VMON2"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.vmon2 = vmon2;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }


  if (till > since) {
    tMAX = UTtoT(till);
    std::cout << "Processing VMON3..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionVMON3 = "RPCFEB.VMON3 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFVMON3->setCondition( conditionVMON3, conditionData );
    coral::ICursor& cursorFVMON3 = queryFVMON3->execute();
    while ( cursorFVMON3.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVMON3.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vmon3 = row["VMON3"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.vmon3 = vmon3;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  } else {
    std::cout << ">> Processing VMON3..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionVMON3 = "RPCFEB.VMON3 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFVMON3->setCondition( conditionVMON3, conditionData );
    coral::ICursor& cursorFVMON3 = queryFVMON3->execute();
    while ( cursorFVMON3.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVMON3.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vmon3 = row["VMON3"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.vmon3 = vmon3;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }
  

  if (till > since) {
    tMAX = UTtoT(till);
    std::cout << "Processing VMON4..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionVMON4 = "RPCFEB.VMON4 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFVMON4->setCondition( conditionVMON4, conditionData );
    coral::ICursor& cursorFVMON4 = queryFVMON4->execute();
    while ( cursorFVMON4.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVMON4.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vmon4 = row["VMON4"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.vmon4 = vmon4;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  } else {
    std::cout << ">> Processing VMON4..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionVMON4 = "RPCFEB.VMON4 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFVMON4->setCondition( conditionVMON4, conditionData );
    coral::ICursor& cursorFVMON4 = queryFVMON4->execute();
    while ( cursorFVMON4.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFVMON4.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float vmon4 = row["VMON4"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.vmon4 = vmon4;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }
  
  
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout << "Processing TEMP1..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionTEMP1 = "RPCFEB.TEMPERATURE1 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFTEMP1->setCondition( conditionTEMP1, conditionData );
    coral::ICursor& cursorFTEMP1 = queryFTEMP1->execute();
    while ( cursorFTEMP1.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFTEMP1.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float temp1 = row["TEMP1"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.temp1 = temp1;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  } else {
    std::cout << ">> Processing TEMP1..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionTEMP1 = "RPCFEB.TEMPERATURE1 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFTEMP1->setCondition( conditionTEMP1, conditionData );
    coral::ICursor& cursorFTEMP1 = queryFTEMP1->execute();
    while ( cursorFTEMP1.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFTEMP1.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float temp1 = row["TEMP1"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.temp1 = temp1;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }


  if (till > since) {
    tMAX = UTtoT(till);
    std::cout << "Processing TEMP2..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionTEMP2 = "RPCFEB.TEMPERATURE2 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin AND RPCFEB.CHANGE_DATE <:tmax";
    queryFTEMP2->setCondition( conditionTEMP2, conditionData );
    coral::ICursor& cursorFTEMP2 = queryFTEMP2->execute();
    while ( cursorFTEMP2.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFTEMP2.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float temp2 = row["TEMP2"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.temp2 = temp2;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  } else {
    std::cout << ">> Processing TEMP2..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionTEMP2 = "RPCFEB.TEMPERATURE2 IS NOT NULL AND RPCFEB.CHANGE_DATE >:tmin";
    queryFTEMP2->setCondition( conditionTEMP2, conditionData );
    coral::ICursor& cursorFTEMP2 = queryFTEMP2->execute();
        while ( cursorFTEMP2.next() ) {
      Itemp.thr1=0;Itemp.thr2=0;Itemp.thr3=0;Itemp.thr4=0;Itemp.vmon1=0;Itemp.vmon2=0;Itemp.vmon3=0;
      Itemp.vmon4=0;Itemp.temp1=0;Itemp.temp2=0;Itemp.noise1=0;Itemp.noise2=0;Itemp.noise3=0;Itemp.noise4=0;
      const coral::AttributeList& row = cursorFTEMP2.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float temp2 = row["TEMP2"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.temp2 = temp2;
      Itemp.day = ndate;
      Itemp.time = ntime;
      febarray.push_back(Itemp);
    }
  }

  std::cout << ">> FEB array --> size: " << febarray.size() << " >> done." << std::endl;
  delete queryFVTH1;
  delete queryFVTH2;
  delete queryFVTH3;
  delete queryFVTH4;
  delete queryFTEMP1;
  session->transaction().commit();
  delete session;
  return febarray;
}
std::vector< RPCObGas::Item > RPCFw::createGAS ( long long  since,
long long  till 
)

Definition at line 297 of file RPCFw.cc.

References RPCDBCom::connect(), gather_cfg::cout, RPCObGas::Item::day, RPCObGas::Item::dpid, RPCObGas::Item::flowin, RPCObGas::Item::flowout, m_connectionString, m_password, m_userName, N_IOV, python::IdGenerator::schema, python::CommonUtils::session, AlCaHLTBitMon_QueryRunRegistry::string, RPCObGas::Item::time, tMAX, tMIN, TtoUT(), and UTtoT().

Referenced by popcon::RpcObGasData::getNewObjects().

{
  tMIN = UTtoT(since);
  std::cout <<">> Processing since: "<<tMIN.day()<<"/"<<tMIN.month()<<"/"<<tMIN.year()<<" "<<tMIN.hour()<<":"<<tMIN.minute()<<"."<<tMIN.second()<< std::endl;

  coral::ISession* session = this->connect( m_connectionString,
                                            m_userName, m_password );
  session->transaction().start( true );
  coral::ISchema& schema = session->nominalSchema();
  
  coral::TimeStamp tlast = tMIN;  

  // FLOWIN
  coral::IQuery* querySIN = schema.newQuery();
  querySIN->addToTableList( "RPCGASCHANNEL" );
  querySIN->addToOutputList( "RPCGASCHANNEL.DPID", "DPID" );
  querySIN->addToOutputList( "RPCGASCHANNEL.CHANGE_DATE", "TSTAMP" );
  querySIN->addToOutputList( "RPCGASCHANNEL.FLOWIN", "FLOWIN" );

  // FLOWOUT
  coral::IQuery* querySOUT = schema.newQuery();
  querySOUT->addToTableList( "RPCGASCHANNEL" );
  querySOUT->addToOutputList( "RPCGASCHANNEL.DPID", "DPID" );
  querySOUT->addToOutputList( "RPCGASCHANNEL.CHANGE_DATE", "TSTAMP" );
  querySOUT->addToOutputList( "RPCGASCHANNEL.FLOWOUT", "FLOWOUT" );


  RPCObGas::Item gastemp;
  std::vector<RPCObGas::Item> gasarray;

  if (till > since) {
    tMAX = UTtoT(till);
    std::cout <<">> Processing till: "<<tMAX.day()<<"/"<<tMAX.month()<<"/"<<tMAX.year()<<" "<<tMAX.hour()<<":"<<tMAX.minute()<<"."<<tMAX.second()<< std::endl;
    std::cout << ">> creating GAS object..." << std::endl;
    std::cout << ">> processing FLOWIN..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionIN = "RPCGASCHANNEL.FLOWIN IS NOT NULL AND CHANGE_DATE >:tmin AND CHANGE_DATE <:tmax";
    
    querySIN->setCondition( conditionIN, conditionData );
    coral::ICursor& cursorSIN = querySIN->execute();
    while ( cursorSIN.next() ) {
      gastemp.dpid=0;gastemp.flowin=0;gastemp.flowout=0;gastemp.day=0;gastemp.time=0;
      const coral::AttributeList& row = cursorSIN.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["FLOWIN"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      gastemp.dpid = id;
      gastemp.flowin = val;
      gastemp.day = ndate;
      gastemp.time = ntime;
      gasarray.push_back(gastemp);
    }
  } else {
    std::cout << ">> creating GAS object..." << std::endl;
    std::cout << ">> processing FLOWIN..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string conditionIN = "RPCGASCHANNEL.FLOWIN IS NOT NULL AND CHANGE_DATE >:tmin";
    std::cout << "processing FLOWIN..." << std::endl;
    querySIN->setCondition( conditionIN, conditionData );
    coral::ICursor& cursorSIN = querySIN->execute();
    while ( cursorSIN.next() ) {
      gastemp.dpid=0;gastemp.flowin=0;gastemp.flowout=0;gastemp.day=0;gastemp.time=0;
      const coral::AttributeList& row = cursorSIN.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["FLOWIN"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      gastemp.dpid = id;
      gastemp.flowin = val;
      gastemp.day = ndate;
      gastemp.time = ntime;
      gasarray.push_back(gastemp);
    }
  }


    if (till > since) {
    tMAX = UTtoT(till);
    //    std::cout <<">> Processing till: "<<tMAX.day()<<"/"<<tMAX.month()<<"/"<<tMAX.year()<<" "<<tMAX.hour()<<":"<<tMAX.minute()<<"."<<tMAX.second()<< std::endl;
    std::cout << ">> processing FLOWOUT..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionOUT = "RPCGASCHANNEL.FLOWOUT IS NOT NULL AND CHANGE_DATE >:tmin AND CHANGE_DATE <:tmax";
  
    querySOUT->setCondition( conditionOUT, conditionData );
    coral::ICursor& cursorSOUT = querySOUT->execute();
    while ( cursorSOUT.next() ) {
      gastemp.dpid=0;gastemp.flowin=0;gastemp.flowout=0;gastemp.day=0;gastemp.time=0;
      const coral::AttributeList& row = cursorSOUT.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["FLOWOUT"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      gastemp.dpid = id;
      gastemp.flowout = val;
      gastemp.day = ndate;
      gastemp.time = ntime;
      gasarray.push_back(gastemp);
    } 
    } else {
      std::cout << ">> processing FLOWOUT..." << std::endl;
      coral::AttributeList conditionData;
      conditionData.extend<coral::TimeStamp>( "tmin" );
      conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
      std::string conditionOUT = "RPCGASCHANNEL.FLOWOUT IS NOT NULL AND CHANGE_DATE >:tmin";
      querySOUT->setCondition( conditionOUT, conditionData );
      coral::ICursor& cursorSOUT = querySOUT->execute();
      while ( cursorSOUT.next() ) {
        gastemp.dpid=0;gastemp.flowin=0;gastemp.flowout=0;gastemp.day=0;gastemp.time=0;
        const coral::AttributeList& row = cursorSOUT.currentRow();
        float idoub = row["DPID"].data<float>();
        int id = static_cast<int>(idoub);
        float val = row["FLOWOUT"].data<float>();
        coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
        int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
        int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
        gastemp.dpid = id;
        gastemp.flowout = val;
        gastemp.day = ndate;
        gastemp.time = ntime;
        gasarray.push_back(gastemp);
      }
    }
    
    
    N_IOV = TtoUT(tlast);
    if (till > since) N_IOV = till;
    std::cout << ">> Gas array --> size: " << gasarray.size() << " >> done." << std::endl << std::endl << std::endl;
    
    delete querySIN;
    delete querySOUT;
    session->transaction().commit();
    delete session;
    
    return gasarray;
    
}
std::vector< RPCObPVSSmap::Item > RPCFw::createIDMAP ( )

Definition at line 541 of file RPCFw.cc.

References RPCDBCom::connect(), gather_cfg::cout, RPCObPVSSmap::Item::dpid, RPCObPVSSmap::Item::layer, m_connectionString, m_password, m_userName, RPCObPVSSmap::Item::region, RPCObPVSSmap::Item::ring, python::IdGenerator::schema, RPCObPVSSmap::Item::sector, python::CommonUtils::session, RPCObPVSSmap::Item::since, RPCObPVSSmap::Item::station, AlCaHLTBitMon_QueryRunRegistry::string, RPCObPVSSmap::Item::subsector, and RPCObPVSSmap::Item::suptype.

Referenced by popcon::RPCObPVSSmapData::getNewObjects().

{
  //  float tMINi = 0;
  std::cout <<">> Processing data..." << std::endl;

  coral::ISession* session = this->connect( m_connectionString,
                                            m_userName, m_password );
  session->transaction().start( true );
  coral::ISchema& schema = session->nominalSchema();
  int nRows = 0;
  std::cout << ">> creating IDMAP object..." << std::endl;
  coral::IQuery* queryM = schema.newQuery();
  queryM->addToTableList( "RPCPVSSDETID");
  queryM->addToOutputList( "RPCPVSSDETID.SINCE", "SINCE" );
  queryM->addToOutputList( "RPCPVSSDETID.PVSS_ID", "PVSS_ID" );
  queryM->addToOutputList( "RPCPVSSDETID.REGION", "REGION" );
  queryM->addToOutputList( "RPCPVSSDETID.RING", "RING" );
  queryM->addToOutputList( "RPCPVSSDETID.STATION", "STATION" );
  queryM->addToOutputList( "RPCPVSSDETID.SECTOR", "SECTOR" );
  queryM->addToOutputList( "RPCPVSSDETID.LAYER", "LAYER" );
  queryM->addToOutputList( "RPCPVSSDETID.SUBSECTOR", "SUBSECTOR" );
  queryM->addToOutputList( "RPCPVSSDETID.SUPPLYTYPE", "SUPPLYTYPE" );

  std::string condM = "RPCPVSSDETID.PVSS_ID is not NULL";

  //  queryM->setCondition(condM);
  coral::ICursor& cursorM = queryM->execute();

  RPCObPVSSmap::Item Itemp;
  std::vector<RPCObPVSSmap::Item> idmaparray;
  while ( cursorM.next() ) {
    const coral::AttributeList& row = cursorM.currentRow();
    int id = row["PVSS_ID"].data<int>();
    std::string reg_s = row["REGION"].data<std::string>();
    std::string rin_s = row["RING"].data<std::string>();
    std::string sta_s = row["STATION"].data<std::string>();
    std::string sec_s = row["SECTOR"].data<std::string>();
    std::string lay_s = row["LAYER"].data<std::string>();
    std::string sub_s = row["SUBSECTOR"].data<std::string>();
    std::string sup_s = row["SUPPLYTYPE"].data<std::string>();

    int reg = atoi(reg_s.c_str()); 
    int rin = atoi(rin_s.c_str()); 
    int sta = atoi(sta_s.c_str()); 
    int sec = atoi(sec_s.c_str()); 
    int lay = atoi(lay_s.c_str()); 
    int sub = atoi(sub_s.c_str());
    int sup = 5;

    if (sup_s == "HV")  sup = 0;
    if (sup_s == "LVA") sup = 1;
    if (sup_s == "LVD") sup = 2;
    if (sup_s == "LB")  sup = 3;
    if (sup_s == "T")   sup = 4;


    coral::TimeStamp ts =  row["SINCE"].data<coral::TimeStamp>();

    std::ostringstream dday;
    std::ostringstream dmon;
    std::ostringstream dyea;
    dday << ts.day();
    dmon << ts.month();
    dyea << ts.year();
    std::string date = dday.str() + "-" + dmon.str() + "-" + dyea.str();

    Itemp.since = atoi(date.c_str());
    Itemp.dpid = id;
    Itemp.region = reg;
    Itemp.ring = rin;
    Itemp.station = sta;
    Itemp.sector = sec;
    Itemp.layer = lay;
    Itemp.subsector = sub;
    Itemp.suptype = sup;

    idmaparray.push_back(Itemp);

    ++nRows;
  }


  std::cout << ">> IDMAP array --> size: " << idmaparray.size() << " >> done." << std::endl;
  delete queryM;
  session->transaction().commit();
  delete session;
  return idmaparray;
}
std::vector< RPCObImon::I_Item > RPCFw::createIMON ( long long  since,
long long  till 
)

Definition at line 50 of file RPCFw.cc.

References RPCDBCom::connect(), gather_cfg::cout, RPCObImon::I_Item::day, RPCObImon::I_Item::dpid, isMajor(), m_connectionString, m_password, m_userName, N_IOV, python::IdGenerator::schema, python::CommonUtils::session, AlCaHLTBitMon_QueryRunRegistry::string, RPCObImon::I_Item::time, tMAX, tMIN, TtoUT(), UTtoT(), and RPCObImon::I_Item::value.

Referenced by popcon::RpcDataI::getNewObjects().

{
  tMIN = UTtoT(since);
  std::cout <<">> Processing since: "<<tMIN.day()<<"/"<<tMIN.month()<<"/"<<tMIN.year()<<" "<<tMIN.hour()<<":"<<tMIN.minute()<<"."<<tMIN.second()<< std::endl;

  coral::ISession* session = this->connect( m_connectionString,
                                            m_userName, m_password );
  session->transaction().start( true );
  coral::ISchema& schema = session->nominalSchema();
  int nRows = 0;
  coral::IQuery* queryI = schema.newQuery();
  queryI->addToTableList( "FWCAENCHANNEL" );
  queryI->addToOutputList( "FWCAENCHANNEL.DPID", "DPID" );
  queryI->addToOutputList( "FWCAENCHANNEL.CHANGE_DATE", "TSTAMP" );
  queryI->addToOutputList( "FWCAENCHANNEL.ACTUAL_IMON", "IMON" );
  
  RPCObImon::I_Item Itemp;
  std::vector<RPCObImon::I_Item> imonarray;
  coral::TimeStamp tlast = tMIN;
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout <<">> Processing till: "<<tMAX.day()<<"/"<<tMAX.month()<<"/"<<tMAX.year()<<" "<<tMAX.hour()<<":"<<tMAX.minute()<<"."<<tMAX.second()<< std::endl;
    std::cout << ">> creating IMON object..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string condition = "FWCAENCHANNEL.ACTUAL_IMON IS NOT NULL AND CHANGE_DATE >:tmin AND CHANGE_DATE <:tmax";
    queryI->setCondition( condition , conditionData );
    coral::ICursor& cursorI = queryI->execute();
    while ( cursorI.next() ) {
      const coral::AttributeList& row = cursorI.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["IMON"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.value = val;
      Itemp.day = ndate;
      Itemp.time = ntime;
      imonarray.push_back(Itemp);
      ++nRows;
    }
  } else {
    std::cout << ">> creating IMON object..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string condition = "FWCAENCHANNEL.ACTUAL_IMON IS NOT NULL AND FWCAENCHANNEL.CHANGE_DATE >:tmin";
    queryI->setCondition( condition , conditionData );
    coral::ICursor& cursorI = queryI->execute();
    while ( cursorI.next() ) {
      const coral::AttributeList& row = cursorI.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["IMON"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      if (isMajor(ts, tlast)) tlast = ts;
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Itemp.dpid = id;
      Itemp.value = val;
      Itemp.day = ndate;
      Itemp.time = ntime;
      imonarray.push_back(Itemp);
      ++nRows;
    }
  }
  N_IOV = TtoUT(tlast);
  if (till > since) N_IOV = till;
  std::cout << ">> Imon array --> size: " << imonarray.size() << " >> done." << std::endl;
  delete queryI;
  session->transaction().commit();
  delete session;
  return imonarray;
}
std::vector< RPCObGasMix::Item > RPCFw::createMix ( long long  since,
long long  till 
)

Definition at line 1380 of file RPCFw.cc.

References RPCDBCom::connect(), gather_cfg::cout, RPCObGasMix::Item::gas1, RPCObGasMix::Item::gas2, RPCObGasMix::Item::gas3, m_connectionString, m_password, m_userName, python::IdGenerator::schema, python::CommonUtils::session, AlCaHLTBitMon_QueryRunRegistry::string, tMAX, tMIN, TtoUT(), RPCObGasMix::Item::unixtime, UTtoT(), and relativeConstraints::value.

Referenced by popcon::RpcDataGasMix::getNewObjects().

{
  tMIN = UTtoT(since);
  std::cout <<">> Processing since: "<<tMIN.day()<<"/"<<tMIN.month()<<"/"<<tMIN.year()<<" "<<tMIN.hour()<<":"<<tMIN.minute()<<"."<<tMIN.second()<< std::endl;

  coral::ISession* session = this->connect( m_connectionString,
                                            m_userName, m_password );
  session->transaction().start( true );
  coral::ISchema& schema = session->nominalSchema();
  std::cout << ">> creating UXC object..." << std::endl;

  coral::IQuery* queryMix = schema.newQuery();
  queryMix->addToTableList( "RPCGASPARAMETERS");
  queryMix->addToTableList( "DP_NAME2ID" );
  queryMix->addToOutputList( "DP_NAME2ID.DPNAME", "DPNAME" );
  queryMix->addToOutputList("DP_NAME2ID.ID","ID");
  queryMix->addToOutputList( "RPCGASPARAMETERS.DPID", "DPID" );
  queryMix->addToOutputList( "RPCGASPARAMETERS.CHANGE_DATE", "TSTAMP" );
  queryMix->addToOutputList( "RPCGASPARAMETERS.VALUE", "VALUE" );

  coral::IQuery* queryMix2 = schema.newQuery();
  queryMix2->addToTableList( "RPCGASPARAMETERS");
  queryMix2->addToTableList( "DP_NAME2ID" );
  queryMix2->addToOutputList( "DP_NAME2ID.DPNAME", "DPNAME" );
  queryMix2->addToOutputList("DP_NAME2ID.ID","ID");
  queryMix2->addToOutputList( "RPCGASPARAMETERS.DPID", "DPID" );
  queryMix2->addToOutputList( "RPCGASPARAMETERS.CHANGE_DATE", "TSTAMP" );
  queryMix2->addToOutputList( "RPCGASPARAMETERS.VALUE", "VALUE" );

  coral::IQuery* queryMix3 = schema.newQuery();
  queryMix3->addToTableList( "RPCGASPARAMETERS");
  queryMix3->addToTableList( "DP_NAME2ID" );
  queryMix3->addToOutputList( "DP_NAME2ID.DPNAME", "DPNAME" );
  queryMix3->addToOutputList("DP_NAME2ID.ID","ID");
  queryMix3->addToOutputList( "RPCGASPARAMETERS.DPID", "DPID" );
  queryMix3->addToOutputList( "RPCGASPARAMETERS.CHANGE_DATE", "TSTAMP" );
  queryMix3->addToOutputList( "RPCGASPARAMETERS.VALUE", "VALUE" );

  RPCObGasMix::Item Mtemp;
  std::vector<RPCObGasMix::Item> marray;
  coral::TimeStamp tlast = tMIN;
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout <<">> Processing till: "<<tMAX.day()<<"/"<<tMAX.month()<<"/"<<tMAX.year()<<" "<<tMAX.hour()<<":"<<tMAX.minute()<<"."<<tMAX.second()<< std::endl;
    std::cout << "Processing UXC..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionM1 = "RPCGASPARAMETERS.DPID = DP_NAME2ID.ID AND RPCGASPARAMETERS.CHANGE_DATE >:tmin AND RPCGASPARAMETERS.CHANGE_DATE <:tmax AND (DP_NAME2ID.DPNAME like '%IC4H10Ratio%')";
    queryMix->setCondition( conditionM1, conditionData );
    coral::ICursor& cursorMix = queryMix->execute();
    while ( cursorMix.next() ) {
      Mtemp.gas1=0;Mtemp.gas2=0;Mtemp.gas3=0;
      const coral::AttributeList& row = cursorMix.currentRow();
      float value = row["VALUE"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      unsigned long long ut_time = TtoUT(ts);
      Mtemp.gas1 = value;
      Mtemp.unixtime = ut_time;
      marray.push_back(Mtemp);
    }
    std::string conditionM2 = "RPCGASPARAMETERS.DPID = DP_NAME2ID.ID AND RPCGASPARAMETERS.CHANGE_DATE >:tmin AND RPCGASPARAMETERS.CHANGE_DATE <:tmax AND (DP_NAME2ID.DPNAME like '%C2H2F4Ratio%')";
    queryMix2->setCondition( conditionM2, conditionData );
    coral::ICursor& cursorMix2 = queryMix2->execute();
    while ( cursorMix2.next() ) {
      Mtemp.gas1=0;Mtemp.gas2=0;Mtemp.gas3=0;
      const coral::AttributeList& row = cursorMix2.currentRow();
      float value = row["VALUE"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      unsigned long long ut_time = TtoUT(ts);
      Mtemp.gas2 = value;
      Mtemp.unixtime = ut_time;
      marray.push_back(Mtemp);
    }
    std::string conditionM3 = "RPCGASPARAMETERS.DPID = DP_NAME2ID.ID AND RPCGASPARAMETERS.CHANGE_DATE >:tmin AND RPCGASPARAMETERS.CHANGE_DATE <:tmax AND (DP_NAME2ID.DPNAME like '%SF6Ratio%')";
    queryMix3->setCondition( conditionM3, conditionData );
    coral::ICursor& cursorMix3 = queryMix3->execute();
    while ( cursorMix3.next() ) {
      Mtemp.gas1=0;Mtemp.gas2=0;Mtemp.gas3=0;
      const coral::AttributeList& row = cursorMix3.currentRow();
      float value = row["VALUE"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      unsigned long long ut_time = TtoUT(ts);
      Mtemp.gas3 = value;
      Mtemp.unixtime = ut_time;
      marray.push_back(Mtemp);
    }
  } else {
    
    std::cout << "This objects cannot be copied in this mode. Use RANGE mode!" << std::endl;
    
  }
  
  
  std::cout << ">> GasMix array --> size: " << marray.size() << " >> done." << std::endl;
  delete queryMix;
  session->transaction().commit();
  delete session;
  return marray;
  
}
std::vector< RPCObStatus::S_Item > RPCFw::createSTATUS ( long long  since,
long long  till 
)

Definition at line 214 of file RPCFw.cc.

References RPCDBCom::connect(), gather_cfg::cout, RPCObStatus::S_Item::day, RPCObStatus::S_Item::dpid, m_connectionString, m_password, m_userName, python::IdGenerator::schema, python::CommonUtils::session, AlCaHLTBitMon_QueryRunRegistry::string, RPCObStatus::S_Item::time, tMAX, tMIN, UTtoT(), and RPCObStatus::S_Item::value.

Referenced by popcon::RpcDataS::getNewObjects().

{
  tMIN = UTtoT(since);
  std::cout <<">> Processing since: "<<tMIN.day()<<"/"<<tMIN.month()<<"/"<<tMIN.year()<<" "<<tMIN.hour()<<":"<<tMIN.minute()<<"."<<tMIN.second()<< std::endl;
  
  coral::ISession* session = this->connect( m_connectionString,
                                            m_userName, m_password );
  session->transaction().start( true );
  coral::ISchema& schema = session->nominalSchema();
  int nRows = 0;
  std::cout << ">> creating STATUS object..." << std::endl;
  coral::IQuery* queryS = schema.newQuery();
  queryS->addToTableList( "FWCAENCHANNEL" );
  queryS->addToOutputList( "FWCAENCHANNEL.DPID", "DPID" );
  queryS->addToOutputList( "FWCAENCHANNEL.CHANGE_DATE", "TSTAMP" );
  queryS->addToOutputList( "FWCAENCHANNEL.ACTUAL_STATUS", "STATUS" );
  RPCObStatus::S_Item Stemp;
  std::vector<RPCObStatus::S_Item> statusarray;
  coral::TimeStamp tlast = tMIN;
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout <<">> Processing till: "<<tMAX.day()<<"/"<<tMAX.month()<<"/"<<tMAX.year()<<" "<<tMAX.hour()<<":"<<tMAX.minute()<<"."<<tMAX.second()<< std::endl;
    std::cout << ">> creating STATUS object..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string condition = " NOT FWCAENCHANNEL.ACTUAL_STATUS IS NULL AND FWCAENCHANNEL.CHANGE_DATE >:tmin AND FWCAENCHANNEL.CHANGE_DATE <:tmax";
    queryS->setCondition( condition , conditionData );
    coral::ICursor& cursorS = queryS->execute();
    while ( cursorS.next() ) {
      const coral::AttributeList& row = cursorS.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["STATUS"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Stemp.dpid = id;
      Stemp.value = val;
      Stemp.day = ndate;
      Stemp.time = ntime;
      statusarray.push_back(Stemp);
      ++nRows;
    } 
  }else {
    std::cout << ">> creating STATUS object..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string condition = " NOT FWCAENCHANNEL.ACTUAL_STATUS IS NULL AND FWCAENCHANNEL.CHANGE_DATE >:tmin";
    queryS->setCondition( condition , conditionData );
    coral::ICursor& cursorS = queryS->execute();
    while ( cursorS.next() ) {
      const coral::AttributeList& row = cursorS.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["STATUS"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Stemp.dpid = id;
      Stemp.value = val;
      Stemp.day = ndate;
      Stemp.time = ntime;
      statusarray.push_back(Stemp);
      ++nRows;
    }
  }
  std::cout << ">> Staus array --> size: " << statusarray.size() << " >> done." << std::endl << std::endl << std::endl;
  
  delete queryS;
  session->transaction().commit();
  delete session;
  
  return statusarray;
  
}
std::vector< RPCObTemp::T_Item > RPCFw::createT ( long long  since,
long long  till 
)

Definition at line 454 of file RPCFw.cc.

References RPCDBCom::connect(), gather_cfg::cout, RPCObTemp::T_Item::day, RPCObTemp::T_Item::dpid, m_connectionString, m_password, m_userName, N_IOV, python::IdGenerator::schema, python::CommonUtils::session, AlCaHLTBitMon_QueryRunRegistry::string, RPCObTemp::T_Item::time, tMAX, tMIN, TtoUT(), UTtoT(), and RPCObTemp::T_Item::value.

Referenced by popcon::RpcDataT::getNewObjects().

{
  tMIN = UTtoT(since);
  std::cout <<">> Processing since: "<<tMIN.day()<<"/"<<tMIN.month()<<"/"<<tMIN.year()<<" "<<tMIN.hour()<<":"<<tMIN.minute()<<"."<<tMIN.second()<< std::endl;

  coral::ISession* session = this->connect( m_connectionString,
                                            m_userName, m_password );
  session->transaction().start( true );
  coral::ISchema& schema = session->nominalSchema();
  int nRows = 0;
  coral::IQuery* queryS = schema.newQuery();
  queryS->addToTableList( "FWCAENCHANNELADC" );
  queryS->addToOutputList( "FWCAENCHANNELADC.DPID", "DPID" );
  queryS->addToOutputList( "FWCAENCHANNELADC.CHANGE_DATE", "TSTAMP" );
  queryS->addToOutputList( "FWCAENCHANNELADC.ACTUAL_TEMPERATURE", "TEMPERATURE" );
  RPCObTemp::T_Item Ttemp;
  std::vector<RPCObTemp::T_Item> temparray;
  coral::TimeStamp tlast = tMIN;
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout <<">> Processing till: "<<tMAX.day()<<"/"<<tMAX.month()<<"/"<<tMAX.year()<<" "<<tMAX.hour()<<":"<<tMAX.minute()<<"."<<tMAX.second()<< std::endl;
    std::cout << ">> creating TEMPERATURE object..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string condition = "FWCAENCHANNELADC.ACTUAL_TEMPERATURE IS NOT NULL AND CHANGE_DATE >:tmin AND CHANGE_DATE <:tmax";
    queryS->setCondition( condition , conditionData );
    coral::ICursor& cursorS = queryS->execute();
    while ( cursorS.next() ) {
      const coral::AttributeList& row = cursorS.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["TEMPERATURE"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      
      Ttemp.dpid = id;
      Ttemp.value = val;
      Ttemp.day = ndate;
      Ttemp.time = ntime;
      temparray.push_back(Ttemp);
      
      ++nRows;
    }
  } else {
    std::cout << ">> creating TEMPERATURE object..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string condition = "FWCAENCHANNELADC.ACTUAL_TEMPERATURE IS NOT NULL AND CHANGE_DATE >:tmin";
    queryS->setCondition( condition , conditionData );
    coral::ICursor& cursorS = queryS->execute();
    while ( cursorS.next() ) {
      const coral::AttributeList& row = cursorS.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["TEMPERATURE"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      
      Ttemp.dpid = id;
      Ttemp.value = val;
      Ttemp.day = ndate;
      Ttemp.time = ntime;
      temparray.push_back(Ttemp);
      
      ++nRows;
    }
  }
  N_IOV = TtoUT(tlast);
  if (till > since) N_IOV = till;
  std::cout << ">> Temperature array --> size: " << temparray.size() << " >> done." << std::endl << std::endl << std::endl;

  delete queryS;
  session->transaction().commit();
  delete session;

  return temparray;

}
std::vector< RPCObUXC::Item > RPCFw::createUXC ( long long  since,
long long  till 
)

Definition at line 1271 of file RPCFw.cc.

References RPCDBCom::connect(), gather_cfg::cout, RPCObUXC::Item::dewpoint, m_connectionString, m_password, m_userName, RPCObUXC::Item::pressure, python::IdGenerator::schema, python::CommonUtils::session, AlCaHLTBitMon_QueryRunRegistry::string, RPCObUXC::Item::temperature, tMAX, tMIN, TtoUT(), RPCObUXC::Item::unixtime, UTtoT(), and relativeConstraints::value.

Referenced by popcon::RpcDataUXC::getNewObjects().

{
  tMIN = UTtoT(since);
  std::cout <<">> Processing since: "<<tMIN.day()<<"/"<<tMIN.month()<<"/"<<tMIN.year()<<" "<<tMIN.hour()<<":"<<tMIN.minute()<<"."<<tMIN.second()<< std::endl;
    
  coral::ISession* session = this->connect( m_connectionString,
                                            m_userName, m_password );
  session->transaction().start( true );  
  coral::ISchema& schema = session->nominalSchema();
  std::cout << ">> creating UXC object..." << std::endl;
  
  // UXCT
  coral::IQuery* queryUXCP = schema.newQuery();
  queryUXCP->addToTableList( "RPCGASPARAMETERS");
  queryUXCP->addToTableList( "DP_NAME2ID" );
  queryUXCP->addToOutputList( "DP_NAME2ID.DPNAME", "DPNAME" );
  queryUXCP->addToOutputList("DP_NAME2ID.ID","ID");
  queryUXCP->addToOutputList( "RPCGASPARAMETERS.DPID", "DPID" );
  queryUXCP->addToOutputList( "RPCGASPARAMETERS.CHANGE_DATE", "TSTAMP" );
  queryUXCP->addToOutputList( "RPCGASPARAMETERS.VALUE", "VALUE" );
  coral::IQuery* queryUXCT = schema.newQuery();
  queryUXCT->addToTableList( "RPCCOOLING");
  queryUXCT->addToTableList( "DP_NAME2ID" );
  queryUXCT->addToOutputList( "DP_NAME2ID.DPNAME", "DPNAME" );
  queryUXCT->addToOutputList("DP_NAME2ID.ID","ID");
  queryUXCT->addToOutputList( "RPCCOOLING.DPID", "DPID" );
  queryUXCT->addToOutputList( "RPCCOOLING.CHANGE_DATE", "TSTAMP" );
  queryUXCT->addToOutputList( "RPCCOOLING.VALUE", "VALUE" );
  coral::IQuery* queryUXCH = schema.newQuery();
  queryUXCH->addToTableList( "RPCCOOLING");
  queryUXCH->addToTableList( "DP_NAME2ID" );
  queryUXCH->addToOutputList( "DP_NAME2ID.DPNAME", "DPNAME" );
  queryUXCH->addToOutputList("DP_NAME2ID.ID","ID");
  queryUXCH->addToOutputList( "RPCCOOLING.DPID", "DPID" );
  queryUXCH->addToOutputList( "RPCCOOLING.CHANGE_DATE", "TSTAMP" );
  queryUXCH->addToOutputList( "RPCCOOLING.VALUE", "VALUE" );


  RPCObUXC::Item Itemp;
  std::vector<RPCObUXC::Item> uxcarray;
  coral::TimeStamp tlast = tMIN;
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout <<">> Processing till: "<<tMAX.day()<<"/"<<tMAX.month()<<"/"<<tMAX.year()<<" "<<tMAX.hour()<<":"<<tMAX.minute()<<"."<<tMAX.second()<< std::endl;
    std::cout << "Processing UXC..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );   
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string conditionUXCP = "RPCGASPARAMETERS.DPID = DP_NAME2ID.ID AND RPCGASPARAMETERS.CHANGE_DATE >:tmin AND RPCGASPARAMETERS.CHANGE_DATE <:tmax AND (DP_NAME2ID.DPNAME like '%UXCPressure%')";
    queryUXCP->setCondition( conditionUXCP, conditionData );
    coral::ICursor& cursorUXCP = queryUXCP->execute();
    while ( cursorUXCP.next() ) {
      Itemp.temperature=0;Itemp.pressure=0;Itemp.dewpoint=0;
      const coral::AttributeList& row = cursorUXCP.currentRow();
      float value = row["VALUE"].data<float>(); 
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      unsigned long long ut_time = TtoUT(ts);
      Itemp.pressure = value;
      Itemp.unixtime = ut_time;
      uxcarray.push_back(Itemp);
    }
    std::string conditionUXCT = "RPCCOOLING.DPID = DP_NAME2ID.ID AND RPCCOOLING.CHANGE_DATE >:tmin AND RPCCOOLING.CHANGE_DATE <:tmax AND (DP_NAME2ID.DPNAME like '%TempUXC%')";
    queryUXCT->setCondition( conditionUXCT, conditionData );
    coral::ICursor& cursorUXCT = queryUXCT->execute();
    while ( cursorUXCT.next() ) {
      Itemp.temperature=0;Itemp.pressure=0;Itemp.dewpoint=0;
      const coral::AttributeList& row = cursorUXCT.currentRow();
      float value = row["VALUE"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      unsigned long long ut_time = TtoUT(ts);
      Itemp.temperature = value;                                                                                                                                                 
      Itemp.unixtime = ut_time;                                                                                                                                                  
      uxcarray.push_back(Itemp);                                                                                                                                                 
      }
    std::string conditionUXCH = "RPCCOOLING.DPID = DP_NAME2ID.ID AND RPCCOOLING.CHANGE_DATE >:tmin AND RPCCOOLING.CHANGE_DATE <:tmax AND (DP_NAME2ID.DPNAME like '%DewpointUXC%')";
    queryUXCH->setCondition( conditionUXCH, conditionData );
    coral::ICursor& cursorUXCH = queryUXCH->execute();
    while ( cursorUXCH.next() ) {
      Itemp.temperature=0;Itemp.pressure=0;Itemp.dewpoint=0;
      const coral::AttributeList& row = cursorUXCH.currentRow();
      float value = row["VALUE"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      unsigned long long ut_time = TtoUT(ts);
      Itemp.dewpoint = value;
      Itemp.unixtime = ut_time;
      uxcarray.push_back(Itemp);
    }
  }else {
  
    std::cout << "This objects cannot be copied in this mode. Use RANGE mode!" << std::endl;
    
  }
  
  
  std::cout << ">> UXC array --> size: " << uxcarray.size() << " >> done." << std::endl;
  delete queryUXCT;
  delete queryUXCP;
  delete queryUXCH;
  session->transaction().commit();
  delete session;
  return uxcarray;

}
std::vector< RPCObVmon::V_Item > RPCFw::createVMON ( long long  from,
long long  till 
)

Definition at line 133 of file RPCFw.cc.

References RPCDBCom::connect(), gather_cfg::cout, RPCObVmon::V_Item::day, RPCObVmon::V_Item::dpid, isMajor(), m_connectionString, m_password, m_userName, python::IdGenerator::schema, python::CommonUtils::session, AlCaHLTBitMon_QueryRunRegistry::string, RPCObVmon::V_Item::time, tMAX, tMIN, UTtoT(), and RPCObVmon::V_Item::value.

Referenced by popcon::RpcDataV::getNewObjects().

{
  tMIN = UTtoT(since);
  std::cout <<">> Processing since: "<<tMIN.day()<<"/"<<tMIN.month()<<"/"<<tMIN.year()<<" "<<tMIN.hour()<<":"<<tMIN.minute()<<"."<<tMIN.second()<< std::endl;

  coral::ISession* session = this->connect( m_connectionString,
                                            m_userName, m_password );
  session->transaction().start( true );
  coral::ISchema& schema = session->nominalSchema();
  int nRows = 0;
  coral::IQuery* queryV = schema.newQuery();
  queryV->addToTableList( "FWCAENCHANNEL" );
  queryV->addToOutputList( "FWCAENCHANNEL.DPID", "DPID" );
  queryV->addToOutputList( "FWCAENCHANNEL.CHANGE_DATE", "TSTAMP" );
  queryV->addToOutputList( "FWCAENCHANNEL.ACTUAL_VMON", "VMON" );
  RPCObVmon::V_Item Vtemp;
  std::vector<RPCObVmon::V_Item> vmonarray;
  coral::TimeStamp tlast = tMIN;
  if (till > since) {
    tMAX = UTtoT(till);
    std::cout <<">> Processing till: "<<tMAX.day()<<"/"<<tMAX.month()<<"/"<<tMAX.year()<<" "<<tMAX.hour()<<":"<<tMAX.minute()<<"."<<tMAX.second()<< std::endl;
    std::cout << ">> creating VMON object..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData.extend<coral::TimeStamp>( "tmax" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    conditionData["tmax"].data<coral::TimeStamp>() = tMAX;
    std::string condition = " NOT FWCAENCHANNEL.ACTUAL_VMON IS NULL AND FWCAENCHANNEL.CHANGE_DATE >:tmin AND FWCAENCHANNEL.CHANGE_DATE <:tmax";
    queryV->setCondition( condition , conditionData );
    coral::ICursor& cursorV = queryV->execute();
    while ( cursorV.next() ) {
      const coral::AttributeList& row = cursorV.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["VMON"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      if (isMajor(ts, tlast)) tlast = ts;
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Vtemp.dpid = id;
      Vtemp.value = val;
      Vtemp.day = ndate;
      Vtemp.time = ntime;
      vmonarray.push_back(Vtemp);
      ++nRows;
    }
  } else {
    std::cout << ">> creating VMON object..." << std::endl;
    coral::AttributeList conditionData;
    conditionData.extend<coral::TimeStamp>( "tmin" );
    conditionData["tmin"].data<coral::TimeStamp>() = tMIN;
    std::string condition = " NOT FWCAENCHANNEL.ACTUAL_VMON IS NULL AND FWCAENCHANNEL.CHANGE_DATE >:tmin";
    queryV->setCondition( condition , conditionData );
    coral::ICursor& cursorV = queryV->execute();
    while ( cursorV.next() ) {
      const coral::AttributeList& row = cursorV.currentRow();
      float idoub = row["DPID"].data<float>();
      int id = static_cast<int>(idoub);
      float val = row["VMON"].data<float>();
      coral::TimeStamp ts =  row["TSTAMP"].data<coral::TimeStamp>();
      if (isMajor(ts, tlast)) tlast = ts;
      int ndate = (ts.day() * 10000) + (ts.month() * 100) + (ts.year()-2000);
      int ntime = (ts.hour() * 10000) + (ts.minute() * 100) + ts.second();
      Vtemp.dpid = id;
      Vtemp.value = val;
      Vtemp.day = ndate;
      Vtemp.time = ntime;
      vmonarray.push_back(Vtemp);
      ++nRows;
    }
  }

  std::cout << ">> Vmon array --> size: " << vmonarray.size() << " >> done." << std::endl;
  delete queryV;
  session->transaction().commit();
  delete session;
  return vmonarray;
}
bool RPCFw::isMajor ( coral::TimeStamp  fir,
coral::TimeStamp  sec 
)

Definition at line 1643 of file RPCFw.cc.

References first, and edm::second().

Referenced by createIMON(), and createVMON().

{

  double first  = fir.year()*1e10+fir.month()+1e8+fir.day()*1e6+fir.hour()*1e4+fir.minute()*1e2+fir.second();
  double second = sec.year()*1e10+sec.month()+1e8+sec.day()*1e6+sec.hour()*1e4+sec.minute()*1e2+sec.second();

  if (first > second) return true;

      return false;
}
void RPCFw::run ( ) [virtual]

Implements RPCDBCom.

Definition at line 44 of file RPCFw.cc.

{
}
unsigned long long RPCFw::TtoUT ( coral::TimeStamp  time)

Definition at line 1621 of file RPCFw.cc.

References estimatePileup_makeJSON::trunc, and evf::utils::utime.

Referenced by createGAS(), createIMON(), createMix(), createT(), createUXC(), RPCRunIOV::filterIMON(), and RPCRunIOV::toUNIX().

{
  
  long long utime = (time.year()-1970)*31536000+static_cast<int>(trunc((time.year()-1972)/4))*86400+
    (((time.month()-1)*31)*86400)+((time.day()-1)*86400)+time.hour()*3600+time.minute()*60+time.second();
  
  if (time.month() == 3) utime = utime - 3*86400;
  if (time.month() == 4) utime = utime - 3*86400;
  if (time.month() == 5) utime = utime - 4*86400;
  if (time.month() == 6) utime = utime - 4*86400;
  if (time.month() == 7) utime = utime - 5*86400;
  if (time.month() == 8) utime = utime - 5*86400;
  if (time.month() == 9) utime = utime - 5*86400;
  if (time.month() == 10) utime = utime - 6*86400;
  if (time.month() == 11) utime = utime - 6*86400;
  if (time.month() == 12) utime = utime - 7*86400;
  
  return utime;
}
coral::TimeStamp RPCFw::UTtoT ( long long  utime)

Definition at line 1487 of file RPCFw.cc.

References cond::rpcobgas::day, min, LaserDQM_cfi::mon, and estimatePileup_makeJSON::trunc.

Referenced by CondReader::analyze(), createFEB(), createGAS(), createIMON(), createMix(), createSTATUS(), createT(), createUXC(), and createVMON().

{
  
  
  int yea = static_cast<int>(trunc(utime/31536000) + 1970);
  int yes = (yea-1970)*31536000;
  int cony = ((yea-1972)%4)+1;
  if (cony == 0) yes = yes + (yea-1972)/4*86400; 
  else yes = yes +  static_cast<int>(trunc((yea-1972)/4))*86400;
  int day = static_cast<int>(trunc((utime - yes)/86400));
  int rest = static_cast<int>(utime - yes - day*86400);
  int mon = 0;
  // BISESTILE YEAR
  if (cony == 0) {
    day = day + 1; 
    if (day < 32){
      mon = 1;
      day = day - 0;
    }
    if (day >= 32 && day < 61){
      mon = 2;
      day = day - 31;
    }
    if (day >= 61 && day < 92){
      mon = 3;
      day = day - 60;
    }
    if (day >= 92 && day < 122){
      mon = 4;
      day = day - 91;
    }
    if (day >= 122 && day < 153){
      mon = 5;
      day = day - 121;
    }
    if (day >= 153 && day < 183){
      mon = 6;
      day = day - 152;
    }
    if (day >= 183 && day < 214){
      mon = 7;
      day = day - 182;
    }
    if (day >= 214 && day < 245){
      mon = 8;
      day = day - 213;
    }
    if (day >= 245 && day < 275){
      mon = 9;
      day = day - 244;
    }
    if (day >= 275 && day < 306){
      mon = 10;
      day = day - 274;
    }
    if (day >= 306 && day < 336){
      mon = 11;
      day = day - 305;
    }
    if (day >= 336){
      mon = 12;
      day = day - 335;
    }
  }
  // NOT BISESTILE YEAR
  else {
    if (day < 32){
      mon = 1;   
      day = day - 0;
    }
    if (day >= 32 && day < 60){
      mon = 2;
      day = day - 31;
    }
    if (day >= 60 && day < 91){
      mon = 3;
      day = day - 59;
    }
    if (day >= 91 && day < 121){
      mon = 4;
      day = day - 90;
    }
    if (day >= 121 && day < 152){
      mon = 5;
      day = day - 120;
    }
    if (day >= 152 && day < 182){
      mon = 6;
      day = day - 151;
    }
    if (day >= 182 && day < 213){
      mon = 7;
      day = day - 181;
    }
    if (day >= 213 && day < 244){
      mon = 8;
      day = day - 212;
    }
    if (day >= 244 && day < 274){
      mon = 9;
      day = day - 243;
    }
    if (day >= 274 && day < 305){
      mon = 10;
      day = day - 273;
    }
    if (day >= 305 && day < 335){
      mon = 11;
      day = day - 304;
    }
    if (day >= 335){
      mon = 12;
      day = day - 334;
    }
  }
  
  int hou = static_cast<int>(trunc(rest/3600)); 
  rest = rest - hou*3600;
  int min = static_cast<int>(trunc(rest/60));
  rest = rest - min*60;
  int sec = rest; 
  int nan = 0;

  //  std::cout <<">> Processing since: "<<day<<"/"<<mon<<"/"<<yea<<" "<<hou<<":"<<min<<"."<<sec<< std::endl;

  coral::TimeStamp Tthr;  

  Tthr = coral::TimeStamp(yea, mon, day, hou, min, sec, nan);
  return Tthr;
}

Member Data Documentation

std::string RPCFw::m_connectionString [private]
std::string RPCFw::m_password [private]
std::string RPCFw::m_userName [private]
unsigned long long RPCFw::N_IOV

Definition at line 46 of file RPCFw.h.

Referenced by createGAS(), createIMON(), and createT().

coral::TimeStamp RPCFw::tMAX
coral::TimeStamp RPCFw::tMIN