RunSummaryRead.cc

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#include "CondTools/RunInfo/interface/RunSummaryRead.h"
 
#include "RelationalAccess/ISession.h"
#include "RelationalAccess/ITransaction.h"
#include "RelationalAccess/ISchema.h"
#include "RelationalAccess/ITable.h"
#include "RelationalAccess/ITableDataEditor.h"
#include "RelationalAccess/TableDescription.h"
#include "RelationalAccess/IQuery.h"
#include "RelationalAccess/ICursor.h"
#include "CoralBase/AttributeList.h"
#include "CoralBase/Attribute.h"
#include "CoralBase/AttributeSpecification.h"
//#include "SealBase/TimeInfo.h"
 
#include "CondCore/CondDB/interface/Time.h"
 
#include "CoralBase/TimeStamp.h"
 
#include "boost/date_time/posix_time/posix_time.hpp"
#include "boost/date_time.hpp"
 
#include <iostream>
#include <stdexcept>
#include <vector>
#include <cmath>
 
RunSummaryRead::RunSummaryRead(
 
    const std::string& connectionString, const std::string& user, const std::string& pass)
    : TestBase(),
 
      m_connectionString(connectionString),
      m_user(user),
      m_pass(pass) {
  m_tableToRead = "";
  m_columnToRead = "";
}
 
RunSummaryRead::~RunSummaryRead() {}
 
void RunSummaryRead::run() {}
 
RunSummary RunSummaryRead::readData(const std::string& table, const std::string& column, const int r_number) {
  m_tableToRead = table;    // to be  cms_runinfo.runsession_parameter
  m_columnToRead = column;  // to be string_value;
 
  /* query to execute:
     1) to extract the seq_name 
     select  string_value from cms_runinfo.runsession_parameter where cms_runinfo.runsession_parameter.runnumber=r_number AND   cms_runinfo.runsession_parameter.name='CMS.LVL0:SEQ_NAME'
     
 
3) to extract the start_time 
 
select id from cms_runinfo.runsession_parameter where runnumber=45903 and cms_runinfo.runsession_parameter.name='CMS.LVL0:START_TIME_T';
 
and then 
select value from  runsession_date where runsession_parameter_id=1647783
 
 
4) the same for stop_time
 
select string_value from cms_runinfo.runsession_parameter where cms_runinfo.runsession_parameter.runnumber=runnumber AND   cms_runinfo.runsession_parameter.name='CMS.LVL0:STOP_TIME_T'
 
5) to extract the lumisections number for the run
select MAX(lsnumber)   FROM cms_runinfo.hlt_supervisor_lumisections where cms_runinfo.hlt_supervisor_lumisections.runnr=runnumber
 
6) for extract subdt_joined:
select  string_value from cms_runinfo.runsession_parameter   where cms_runinfo.runsession_parameter.runnumber=51770 AND cms_runinfo.runsession_parameter.name LIKE 'CMS.LVL0%' RPC, ECAL,....
  */
 
  RunSummary sum;
  RunSummary temp_sum;
  RunSummary Sum;
 
  // if cursor is null  setting null values
  temp_sum.m_run = r_number;
 
  std::cout << "entering readData" << std::endl;
  coral::ISession* session = this->connect(m_connectionString, m_user, m_pass);
  session->transaction().start();
  std::cout << "starting session " << std::endl;
  coral::ISchema& schema = session->nominalSchema();
  std::cout << " accessing schema " << std::endl;
  std::cout << " trying to handle table ::  " << m_tableToRead << std::endl;
  // coral::IQuery* queryI = schema.newQuery();
  coral::IQuery* queryI = schema.tableHandle(m_tableToRead).newQuery();
 
  queryI->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
 
  coral::AttributeList conditionData;
  conditionData.extend<int>("n_run");
  conditionData[0].data<int>() = r_number;
 
  //  condition
  std::string condition1 = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:SEQ_NAME'";
  queryI->setCondition(condition1, conditionData);
  coral::ICursor& cursorI = queryI->execute();
 
  if (cursorI.next() != 0) {
    const coral::AttributeList& row = cursorI.currentRow();
    temp_sum.m_name = row[m_columnToRead].data<std::string>();
    std::cout << " name extracted == " << temp_sum.m_name << std::endl;
  } else {
    temp_sum.m_name = "null";
    std::cout << " name extracted == " << temp_sum.m_name << std::endl;
  }
  delete queryI;
 
  std::string m_columnToRead_id = "ID";
  long long id_start = 0;
  // new query to obtain the start_time, fist obtaining the id
  coral::IQuery* queryII = schema.tableHandle(m_tableToRead).newQuery();
  //queryIII->addToTableList( m_tableToRead );
  // implemating the query here.......
  queryII->addToOutputList(m_tableToRead + "." + m_columnToRead_id, m_columnToRead_id);
  //  condition
  std::string condition2 = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:START_TIME_T'";
  queryII->setCondition(condition2, conditionData);
  coral::ICursor& cursorII = queryII->execute();
 
  if (cursorII.next() != 0) {
    const coral::AttributeList& row = cursorII.currentRow();
    id_start = row[m_columnToRead_id].data<long long>();
    std::cout << " id for  start time time extracted == " << id_start << std::endl;
  } else {
    id_start = -1;
    std::cout << " id for  start time time extracted == " << id_start << std::endl;
  }
 
  delete queryII;
 
  // now exctracting the start time
  std::string m_tableToRead_date = "RUNSESSION_DATE";
  std::string m_columnToRead_val = "VALUE";
  // new query to obtain the start_time, fist obtaining the id
  coral::IQuery* queryIII = schema.tableHandle(m_tableToRead_date).newQuery();
  //queryIII->addToTableList( m_tableToRead );
  // implemating the query here.......
  queryIII->addToOutputList(m_tableToRead_date + "." + m_columnToRead_val, m_columnToRead_val);
  //  condition
  coral::AttributeList conditionData3;
  conditionData3.extend<long long>("n_id");
  conditionData3[0].data<long long>() = id_start;
  std::string condition3 = m_tableToRead_date + ".runsession_parameter_id=:n_id";
  queryIII->setCondition(condition3, conditionData3);
  coral::ICursor& cursorIII = queryIII->execute();
 
  if (cursorIII.next() != 0) {
    const coral::AttributeList& row = cursorIII.currentRow();
    coral::TimeStamp ts = row[m_columnToRead_val].data<coral::TimeStamp>();
    int year = ts.year();
    int month = ts.month();
    int day = ts.day();
    int hour = ts.hour();
    int minute = ts.minute();
    int second = ts.second();
    long nanosecond = ts.nanosecond();
    //const std::string toString= ts.toString() ;
    //const signed long long int  total_nanoseconds=ts.total_nanoseconds() ;
 
    std::cout << "  start time time extracted == "
              << "-->year " << year << "-- month " << month << "-- day " << day << "-- hour " << hour << "-- minute "
              << minute << "-- second " << second << "-- nanosecond " << nanosecond << std::endl;
    boost::gregorian::date dt(year, month, day);
    // td in microsecond, fix to utc.....
    boost::posix_time::time_duration td(hour - 1, minute, second, nanosecond / 1000);
 
    boost::posix_time::ptime pt(dt, td);
    //boost::gregorian::date(year,month,day),
    //boost::posix_time::hours(hour)+boost::posix_time::minutes(minute)+
    //boost::posix_time::seconds(second)+
    //nanosec(nanosecond));
    // boost::posix_time::ptime pt(ts);
    std::cout << "ptime == " << pt << std::endl;
 
    temp_sum.m_start_time_str = boost::posix_time::to_iso_extended_string(pt);
    std::cout << "start time string  extracted  == " << temp_sum.m_start_time_str << std::endl;
    boost::posix_time::ptime time_at_epoch(boost::gregorian::date(1970, 1, 1));
    // Subtract time_at_epoch from current time to get the required value.
    boost::posix_time::time_duration time_diff = (pt - time_at_epoch);
    temp_sum.m_start_time_ll = time_diff.total_microseconds();
    std::cout << "microsecond since Epoch (UTC) : " << temp_sum.m_start_time_ll << std::endl;
  } else {
    temp_sum.m_start_time_str = "null";
    temp_sum.m_start_time_ll = -1;
  }
  delete queryIII;
 
  // new query to obtain the stop_time, fist obtaining the id
  coral::IQuery* queryIV = schema.tableHandle(m_tableToRead).newQuery();
  //queryIII->addToTableList( m_tableToRead );
  // implemating the query here.......
  queryIV->addToOutputList(m_tableToRead + "." + m_columnToRead_id, m_columnToRead_id);
  //  condition
  std::string condition4 = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:STOP_TIME_T'";
 
  queryIV->setCondition(condition4, conditionData);
 
  coral::ICursor& cursorIV = queryIV->execute();
 
  long long id_stop = 0;
  if (cursorIV.next() != 0) {
    const coral::AttributeList& row = cursorIV.currentRow();
 
    id_stop = row[m_columnToRead_id].data<long long>();
    std::cout << " id for  stop time time extracted == " << id_stop << std::endl;
  } else {
    id_stop = -1;
  }
  delete queryIV;
 
  // now exctracting the start time
  // new query to obtain the start_time, fist obtaining the id
  coral::IQuery* queryIVbis = schema.tableHandle(m_tableToRead_date).newQuery();
  //queryIII->addToTableList( m_tableToRead );
  // implemating the query here.......
  queryIVbis->addToOutputList(m_tableToRead_date + "." + m_columnToRead_val, m_columnToRead_val);
  //  condition
  coral::AttributeList conditionData4bis;
  conditionData4bis.extend<long long>("n_id");
  conditionData4bis[0].data<long long>() = id_stop;
  std::string condition4bis = m_tableToRead_date + ".runsession_parameter_id=:n_id";
  queryIVbis->setCondition(condition4bis, conditionData4bis);
  coral::ICursor& cursorIVbis = queryIVbis->execute();
  if (cursorIVbis.next() != 0) {
    const coral::AttributeList& row = cursorIVbis.currentRow();
    coral::TimeStamp ts = row[m_columnToRead_val].data<coral::TimeStamp>();
    int year = ts.year();
    int month = ts.month();
    int day = ts.day();
    int hour = ts.hour();
    int minute = ts.minute();
    int second = ts.second();
    long nanosecond = ts.nanosecond();
    std::cout << "  stop time time extracted == "
              << "-->year " << year << "-- month " << month << "-- day " << day << "-- hour " << hour << "-- minute "
              << minute << "-- second " << second << "-- nanosecond " << nanosecond << std::endl;
    boost::gregorian::date dt(year, month, day);
    // fix to utc....
    boost::posix_time::time_duration td(hour - 1, minute, second, nanosecond / 1000);
    boost::posix_time::ptime pt(dt, td);
    std::cout << "ptime == " << pt << std::endl;
    temp_sum.m_stop_time_str = boost::posix_time::to_iso_extended_string(pt);
    std::cout << "stop time string  extracted  == " << temp_sum.m_stop_time_str << std::endl;
    boost::posix_time::ptime time_at_epoch(boost::gregorian::date(1970, 1, 1));
    // Subtract time_at_epoch from current time to get the required value.
    boost::posix_time::time_duration time_diff = (pt - time_at_epoch);
    temp_sum.m_stop_time_ll = time_diff.total_microseconds();
    std::cout << "microsecond since Epoch (UTC) : " << temp_sum.m_stop_time_ll << std::endl;
  } else {
    temp_sum.m_stop_time_str = "null";
    temp_sum.m_stop_time_ll = -1;
  }
  delete queryIVbis;
 
  // new query to obtain the lumisections number
  const std::string m_tableToRead_ls = "HLT_SUPERVISOR_LUMISECTIONS_V2";
  const std::string m_columnToRead_ls = "LSNUMBER";
 
  coral::IQuery* queryV = schema.tableHandle(m_tableToRead_ls).newQuery();
  queryV->addToOutputList("MAX(" + m_tableToRead_ls + "." + m_columnToRead_ls + ")", m_columnToRead_ls);
  std::string condition5 = m_tableToRead_ls + ".runnr=:n_run ";
  //coral::AttributeList conditionData5;
  //conditionData5.extend<double>( "n_run" );
  queryV->setCondition(condition5, conditionData);
  // queryV->setCondition(std::string("max_lsnumber"),coral::AttributeList() );
  // queryV->defineOutputType( m_columnToRead_ls, "double" );
  coral::ICursor& cursorV = queryV->execute();
  if (cursorV.next() != 0) {
    const coral::AttributeList& row = cursorV.currentRow();
    double lumisections = row[m_columnToRead_ls].data<double>();
    temp_sum.m_lumisections = static_cast<int>(lumisections);
    std::cout << " lumisections number extracted == " << temp_sum.m_lumisections << std::endl;
  } else {
    temp_sum.m_lumisections = -1;
  }
  std::cout << " leaving the query  " << std::endl;
  delete queryV;
 
  // new queries to obtain the subdetector joining or not
 
  coral::IQuery* queryVIPIXEL = schema.tableHandle(m_tableToRead).newQuery();
  queryVIPIXEL->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
  std::string condition6PIXEL = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:PIXEL'";
  queryVIPIXEL->setCondition(condition6PIXEL, conditionData);
  coral::ICursor& cursorVIPIXEL = queryVIPIXEL->execute();
 
  if (cursorVIPIXEL.next() != 0) {
    const coral::AttributeList& row = cursorVIPIXEL.currentRow();
    //      temp_sum.m_subdt_joining.push_back("PIXEL:" + row[m_columnToRead].data<std::string>());
    if (row[m_columnToRead].data<std::string>() == "In")
      temp_sum.m_subdt_in.push_back(Sum.PIXEL);
  } else {
    //   temp_sum.m_subdt_joining.push_back("PIXEL:null");
  }
  delete queryVIPIXEL;
 
  coral::IQuery* queryVITRACKER = schema.tableHandle(m_tableToRead).newQuery();
  queryVITRACKER->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
  std::string condition6TRACKER = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:TRACKER'";
  queryVITRACKER->setCondition(condition6TRACKER, conditionData);
  coral::ICursor& cursorVITRACKER = queryVITRACKER->execute();
 
  if (cursorVITRACKER.next() != 0) {
    const coral::AttributeList& row = cursorVITRACKER.currentRow();
 
    //  temp_sum.m_subdt_joining.push_back("TRACKER:" + row[m_columnToRead].data<std::string>());
    if (row[m_columnToRead].data<std::string>() == "In")
      temp_sum.m_subdt_in.push_back(Sum.TRACKER);
  } else {
    // temp_sum.m_subdt_joining.push_back("TRACKER:null");
  }
  delete queryVITRACKER;
 
  coral::IQuery* queryVIECAL = schema.tableHandle(m_tableToRead).newQuery();
  queryVIECAL->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
  std::string condition6ECAL = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:ECAL'";
  queryVIECAL->setCondition(condition6ECAL, conditionData);
  coral::ICursor& cursorVIECAL = queryVIECAL->execute();
 
  if (cursorVIECAL.next() != 0) {
    const coral::AttributeList& row = cursorVIECAL.currentRow();
 
    // temp_sum.m_subdt_joining.push_back("ECAL:" + row[m_columnToRead].data<std::string>());
    if (row[m_columnToRead].data<std::string>() == "In")
      temp_sum.m_subdt_in.push_back(Sum.ECAL);
  } else {
    // temp_sum.m_subdt_joining.push_back("ECAL:null");
  }
  delete queryVIECAL;
 
  coral::IQuery* queryVIHCAL = schema.tableHandle(m_tableToRead).newQuery();
  queryVIHCAL->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
  std::string condition6HCAL = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:HCAL'";
  queryVIHCAL->setCondition(condition6HCAL, conditionData);
  coral::ICursor& cursorVIHCAL = queryVIHCAL->execute();
 
  if (cursorVIHCAL.next() != 0) {
    const coral::AttributeList& row = cursorVIHCAL.currentRow();
 
    //temp_sum.m_subdt_joining.push_back("HCAL:" + row[m_columnToRead].data<std::string>());
    if (row[m_columnToRead].data<std::string>() == "In")
      temp_sum.m_subdt_in.push_back(Sum.HCAL);
  } else {
    // temp_sum.m_subdt_joining.push_back("HCAL:null");
  }
  delete queryVIHCAL;
 
  coral::IQuery* queryVIDT = schema.tableHandle(m_tableToRead).newQuery();
  queryVIDT->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
  std::string condition6DT = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:DT'";
  queryVIDT->setCondition(condition6DT, conditionData);
  coral::ICursor& cursorVIDT = queryVIDT->execute();
 
  if (cursorVIDT.next() != 0) {
    const coral::AttributeList& row = cursorVIDT.currentRow();
 
    //  temp_sum.m_subdt_joining.push_back("DT:" + row[m_columnToRead].data<std::string>());
    if (row[m_columnToRead].data<std::string>() == "In")
      temp_sum.m_subdt_in.push_back(Sum.DT);
  } else {
    //   temp_sum.m_subdt_joining.push_back("DT:null");
  }
  delete queryVIDT;
 
  coral::IQuery* queryVICSC = schema.tableHandle(m_tableToRead).newQuery();
  queryVICSC->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
  std::string condition6CSC = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:CSC'";
  queryVICSC->setCondition(condition6CSC, conditionData);
  coral::ICursor& cursorVICSC = queryVICSC->execute();
 
  if (cursorVICSC.next() != 0) {
    const coral::AttributeList& row = cursorVICSC.currentRow();
 
    //  temp_sum.m_subdt_joining.push_back("CSC:" + row[m_columnToRead].data<std::string>());
    if (row[m_columnToRead].data<std::string>() == "In")
      temp_sum.m_subdt_in.push_back(Sum.CSC);
  } else {
    //   temp_sum.m_subdt_joining.push_back("CSC:null");
  }
  delete queryVICSC;
 
  coral::IQuery* queryVIRPC = schema.tableHandle(m_tableToRead).newQuery();
  queryVIRPC->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
  std::string condition6RPC = m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:RPC'";
  queryVIRPC->setCondition(condition6RPC, conditionData);
  coral::ICursor& cursorVIRPC = queryVIRPC->execute();
 
  if (cursorVIRPC.next() != 0) {
    const coral::AttributeList& row = cursorVIRPC.currentRow();
 
    //  temp_sum.m_subdt_joining.push_back("RPC:" + row[m_columnToRead].data<std::string>());
    if (row[m_columnToRead].data<std::string>() == "In")
      temp_sum.m_subdt_in.push_back(Sum.RPC);
  } else {
    //   temp_sum.m_subdt_joining.push_back("RPC:null");
  }
  delete queryVIRPC;
 
  //  for (size_t pos=0; pos<  temp_sum.m_subdt_joining.size(); ++pos){
  //   std::cout <<" value for subdetector joined extracted " <<temp_sum.m_subdt_joining[pos] << std::endl;
  //   }
 
  // new query to catch hlt key
  coral::IQuery* queryVII = schema.tableHandle(m_tableToRead).newQuery();
 
  queryVII->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
 
  coral::AttributeList conditionData7;
  conditionData7.extend<int>("n_run");
  conditionData7[0].data<int>() = r_number;
 
  //  condition
  std::string condition7 =
      m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.LVL0:HLT_KEY_DESCRIPTION'";
  queryVII->setCondition(condition7, conditionData7);
  coral::ICursor& cursorVII = queryVII->execute();
 
  if (cursorVII.next() != 0) {
    const coral::AttributeList& row = cursorVII.currentRow();
    temp_sum.m_hltkey = row[m_columnToRead].data<std::string>();
    std::cout << " hlt key extracted == " << temp_sum.m_hltkey << std::endl;
  } else {
    temp_sum.m_hltkey = "null";
    std::cout << " hlt key extracted == " << temp_sum.m_hltkey << std::endl;
  }
  delete queryVII;
 
  // new query to catch event number
  coral::IQuery* queryVIII = schema.tableHandle(m_tableToRead).newQuery();
 
  queryVIII->addToOutputList(m_tableToRead + "." + m_columnToRead, m_columnToRead);
  //  condition
 
  coral::AttributeList conditionData8;
  conditionData8.extend<int>("n_run");
  conditionData8[0].data<int>() = r_number;
 
  //  condition
  std::string condition8 =
      m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.TRG:EVNR' ORDER BY TIME DESC";
  queryVIII->setCondition(condition8, conditionData8);
  coral::ICursor& cursorVIII = queryVIII->execute();
 
  if (cursorVIII.next() != 0) {
    const coral::AttributeList& row = cursorVIII.currentRow();
 
    temp_sum.m_nevents = atoll(row[m_columnToRead].data<std::string>().c_str());
 
    std::cout << " number of events extracted == " << temp_sum.m_nevents << std::endl;
  } else {
    temp_sum.m_nevents = -1;
    std::cout << " number of events extracted == " << temp_sum.m_nevents << std::endl;
  }
  delete queryVIII;
 
  // new query to catch event number
  coral::IQuery* queryIX = schema.tableHandle(m_tableToRead).newQuery();
 
  queryIX->addToOutputList("AVG(" + m_tableToRead + "." + m_columnToRead + ")", m_columnToRead);
  //  condition
 
  coral::AttributeList conditionData9;
  conditionData9.extend<int>("n_run");
  conditionData9[0].data<int>() = r_number;
 
  //  condition
  std::string condition9 =
      m_tableToRead + ".runnumber=:n_run AND " + m_tableToRead + ".name='CMS.TRG:Rate' ORDER BY TIME";
 
  queryIX->setCondition(condition9, conditionData9);
  coral::ICursor& cursorIX = queryIX->execute();
 
  if (cursorIX.next() != 0) {
    const coral::AttributeList& row = cursorIX.currentRow();
 
    temp_sum.m_rate = (float)row[m_columnToRead].data<double>();
 
    std::cout << " rate extracted == " << temp_sum.m_rate << std::endl;
  } else {
    temp_sum.m_rate = -1;
    std::cout << " rate  extracted == " << temp_sum.m_rate << std::endl;
  }
  delete queryIX;
 
  session->transaction().commit();
  delete session;
 
  sum = temp_sum;
  return sum;
}