#include <L1TriggerScalerRead.h>
Public Member Functions | |
void | dropTable (const std::string &table) |
L1TriggerScalerRead (const std::string &connectionString, const std::string &user, const std::string &pass) | |
std::vector < L1TriggerScaler::Lumi > | readData (const int r_number) |
void | run () |
virtual | ~L1TriggerScalerRead () |
Private Attributes | |
std::string | m_connectionString |
std::string | m_pass |
std::string | m_tableToDrop |
std::string | m_user |
Definition at line 11 of file L1TriggerScalerRead.h.
L1TriggerScalerRead::L1TriggerScalerRead | ( | const std::string & | connectionString, |
const std::string & | user, | ||
const std::string & | pass | ||
) |
Definition at line 34 of file L1TriggerScalerRead.cc.
References m_tableToDrop.
: TestBase(), m_connectionString( connectionString ), m_user( user ), m_pass( pass ) { m_tableToDrop=""; // m_tableToRead=""; //m_columnToRead=""; }
L1TriggerScalerRead::~L1TriggerScalerRead | ( | ) | [virtual] |
Definition at line 52 of file L1TriggerScalerRead.cc.
{}
void L1TriggerScalerRead::dropTable | ( | const std::string & | table | ) |
Definition at line 63 of file L1TriggerScalerRead.cc.
References TestBase::connect(), gather_cfg::cout, m_connectionString, m_pass, m_tableToDrop, m_user, python::IdGenerator::schema, python::CommonUtils::session, and asciidump::table.
{ m_tableToDrop = table; coral::ISession* session = this->connect( m_connectionString,m_user, m_pass ); session->transaction().start( ); std::cout << "connected succesfully to omds" <<std::endl; coral::ISchema& schema = session->nominalSchema(); schema.dropIfExistsTable( m_tableToDrop ); }
std::vector< L1TriggerScaler::Lumi > L1TriggerScalerRead::readData | ( | const int | r_number | ) |
Definition at line 77 of file L1TriggerScalerRead.cc.
References TestBase::connect(), gather_cfg::cout, cond::rpcobgas::day, dt, i, m_connectionString, L1TriggerScaler::Lumi::m_date, L1TriggerScaler::Lumi::m_GTAlgoCounts, L1TriggerScaler::Lumi::m_GTAlgoPrescaling, L1TriggerScaler::Lumi::m_GTAlgoRates, L1TriggerScaler::Lumi::m_GTPartition0DeadTime, L1TriggerScaler::Lumi::m_GTPartition0DeadTimeRatio, L1TriggerScaler::Lumi::m_GTPartition0TriggerCounts, L1TriggerScaler::Lumi::m_GTPartition0TriggerRates, L1TriggerScaler::Lumi::m_GTTechCounts, L1TriggerScaler::Lumi::m_GTTechPrescaling, L1TriggerScaler::Lumi::m_GTTechRates, L1TriggerScaler::Lumi::m_lumi_id, L1TriggerScaler::Lumi::m_lumisegment, m_pass, L1TriggerScaler::Lumi::m_rn, L1TriggerScaler::Lumi::m_runnumber, L1TriggerScaler::Lumi::m_start_time, L1TriggerScaler::Lumi::m_string_format, m_user, python::IdGenerator::schema, edm::second(), python::CommonUtils::session, v, and create_public_lumi_plots::year.
Referenced by L1TriggerScalerHandler::getNewObjects().
{ // m_tableToRead = table; // to be cms_runinfo.runsession_parameter // m_columnToRead= column; // to be string_value; /* query to execute select * from runsession_parameter where string_value like '%[%' and name like 'CMS.TR%' order by time; % gets you the parameters of l1 trg select * from runsession_parameter where string_value like '%[%' and name like 'CMS.TR%' and runnumber=51384 order by time; %what is the type? select * from runsession_parameter_meta where name like 'CMS.TRG:GTLumiSegInfo'; %what is the table for that type? select * from runsession_type_meta where type like 'rcms.fm.fw.parameter.type.VectorT'; % give me the data... value_id is the parent_id for the element select * from runsession_vector where runsession_parameter_id = 3392114; % where is the table for that element type? select * from runsession_type_meta where type like 'rcms.fm.fw.parameter.type.IntegerT'; % what is the value of the element (of the vector) select * from runsession_integer where parent_id = 3392118; */ /* let's begin with a query to obtain the number of lumi section and the corresponding string value: select string_value from runsession_parameter where string_value like '%[51384]' and name='CMS.TRG:GTLumiSegInfo' and runnumber=51384 order by time; */ 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; // queryI to access the string_format_value coral::IQuery* query0 = schema.tableHandle("RUNSESSION_PARAMETER").newQuery(); std::cout<< "table handling " << std::endl; query0->addToOutputList("RUNSESSION_PARAMETER.STRING_VALUE" , "STRING_VALUE"); std::string condition0 = "RUNSESSION_PARAMETER.RUNNUMBER=:n_run AND RUNSESSION_PARAMETER.NAME='CMS.TRG:GTLumiSegInfo_format'"; coral::AttributeList conditionData0; conditionData0.extend<int>( "n_run" ); query0->setCondition( condition0, conditionData0 ); conditionData0[0].data<int>() = r_number; coral::ICursor& cursor0 = query0->execute(); std::vector<L1TriggerScaler::Lumi> l1triggerscaler_array; std::string string_format; while ( cursor0.next()!=0 ) { const coral::AttributeList& row = cursor0.currentRow(); std::cout<< " entering the query == " << std::endl; string_format= row["STRING_VALUE"].data<std::string>(); std::cout<< " string value extracted == " << string_format << std::endl; } // queryI to access the id_value coral::IQuery* queryI = schema.tableHandle("RUNSESSION_PARAMETER").newQuery(); // queryI->addToTableList( m_tableToRead ); std::cout<< "table handling " << std::endl; // implemating the query here....... // queryI->addToOutputList("RUNSESSION_PARAMETER.STRING_VALUE" , "STRING_VALUE"); queryI->addToOutputList("RUNSESSION_PARAMETER.ID" , "ID"); // to add the starting time of the lumisection queryI->addToOutputList("RUNSESSION_PARAMETER.TIME" , "TIME"); // condition std::string condition = "RUNSESSION_PARAMETER.RUNNUMBER=:n_run AND RUNSESSION_PARAMETER.NAME LIKE 'CMS.TRG:GTLumiSegInfo%' ORDER BY TIME "; //AND RUNSESSION_PARAMETER.STRING_VALUE LIKE '%[%' ORDER BY TIME"; // controllare................... coral::AttributeList conditionData; conditionData.extend<int>( "n_run" ); queryI->setCondition( condition, conditionData ); conditionData[0].data<int>() = r_number; coral::ICursor& cursorI = queryI->execute(); std::vector<std::pair<int, long long> > v_vid; // parent_id for value_id corresponding to each memeber of the lumi object, paired with his corresponding index to diceded the type if (cursorI.next()==0) { std::cout<< " run " <<r_number <<" not full " << std::endl; } while ( cursorI.next()!=0 ) { // 1 cicle for each lumi L1TriggerScaler::Lumi Itemp; // if cursor is null setting null values Itemp.m_runnumber = r_number; // initializing the date string ... Itemp.m_date="0"; Itemp.m_string_format= string_format; const coral::AttributeList& row = cursorI.currentRow(); std::cout<< " entering the query == " << std::endl; // Itemp.m_string_value= row["STRING_VALUE"].data<std::string>(); // std::cout<< " string value extracted == " << Itemp.m_string_value << std::endl; Itemp.m_lumi_id=row["ID"].data<long long>(); std::cout<< " id value extracted == " << Itemp.m_lumi_id << std::endl; // now we have the id and we can search and fill the lumi odject // retrieving all the value_id one for each member of the lumi scaler coral::TimeStamp st=row["TIME"].data<coral::TimeStamp>(); int year= st.year(); int month= st.month(); int day= st.day(); int hour= st.hour(); int minute= st.minute(); int second = st.second(); long nanosecond = st.nanosecond(); std::cout<< " start time time extracted == " << "-->year " << year << "-- month " << month << "-- day " << day << "-- hour " << hour << "-- minute " << minute << "-- second " << second <<std::endl; boost::gregorian::date dt(year,month,day); boost::posix_time::time_duration td(hour,minute,second,nanosecond/1000); boost::posix_time::ptime pt( dt, td); Itemp.m_start_time = boost::posix_time::to_iso_extended_string(pt); std::cout<< " time extracted == " << Itemp.m_start_time << std::endl; coral::IQuery* queryII = schema.newQuery(); queryII->addToOutputList("RUNSESSION_VECTOR.VALUE_ID" , "VALUE_ID"); queryII->addToOutputList("RUNSESSION_VECTOR.VALUE_INDEX" , "VALUE_INDEX"); queryII->addToTableList("RUNSESSION_VECTOR"); std::string condition2 = "RUNSESSION_VECTOR.PARENT_ID=:n_vid"; coral::AttributeList conditionData2; conditionData2.extend<long>( "n_vid" ); queryII->setCondition( condition2, conditionData2 ); conditionData2[0].data<long>() =Itemp.m_lumi_id +1 ; coral::ICursor& cursorII = queryII->execute(); while ( cursorII.next()!=0 ) { const coral::AttributeList& row = cursorII.currentRow(); std::cout<< " entering the queryII == " << std::endl; long long vid_val = row["VALUE_ID"].data<long long>(); int vid_id = (int)row["VALUE_INDEX"].data<long long>(); v_vid.push_back(std::make_pair(vid_id, vid_val)); std::cout<< " value_id index extracted == " << v_vid.back().first << std::endl; std::cout<< " value_id value extracted == " << v_vid.back().second << std::endl; // depending from the index, fill the object.... coral::AttributeList conditionData3; conditionData3.extend<int>( "n_vid_val" ); conditionData3[0].data<int>() =vid_val ; switch (vid_id){ case 0: { std::cout<<" caso 0" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_INTEGER.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_INTEGER"); std::string condition3 = "RUNSESSION_INTEGER.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); // std::cout<< " entering the queryIII " << std::endl; Itemp.m_rn = row["VALUE"].data<long long>(); std::cout<< " run extracted == " << Itemp.m_rn << std::endl; } delete queryIII; } break; case 1:{ std::cout<<" caso 1" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_INTEGER.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_INTEGER"); std::string condition3 = "RUNSESSION_INTEGER.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; Itemp.m_lumisegment = row["VALUE"].data<long long>(); std::cout<< " lumisegment extracted == " << Itemp.m_lumisegment << std::endl; } delete queryIII; } break; case 2:{ std::cout<<" caso 2" << std::endl; /* coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_STRING.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_STRING"); std::string condition3 = "RUNSESSION_STRING.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; Itemp.m_version = row["VALUE"].data<std::string>(); std::cout<< "version extracted == " << Itemp.m_version << std::endl; } delete queryIII; */ } break; case 3:{ std::cout<<" caso 3" << std::endl; /* coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_STRING.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_STRING"); std::string condition3 = "RUNSESSION_STRING.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; Itemp.m_context = row["VALUE"].data<std::string>(); std::cout<< " context extracted == " << Itemp.m_context << std::endl; } delete queryIII; */ } break; case 4:{ std::cout<<" caso 4" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_DATE.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_DATE"); std::string condition3 = "RUNSESSION_DATE.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); if ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; coral::TimeStamp ts = row["VALUE"].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<< " start time time extracted == " << "-->year " << year << "-- month " << month << "-- day " << day << "-- hour " << hour << "-- minute " << minute << "-- second " << second <<std::endl; boost::gregorian::date dt(year,month,day); boost::posix_time::time_duration td(hour,minute,second,nanosecond/1000); boost::posix_time::ptime pt( dt, td); Itemp.m_date = boost::posix_time::to_iso_extended_string(pt); std::cout<< " date extracted == " << Itemp.m_date << std::endl; } else { Itemp.m_date=="NULL"; std::cout<< "date extracted == " << Itemp.m_date<<std::endl; } delete queryIII; } break; case 5:{ std::cout<<" caso 5" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_INTEGER.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_INTEGER"); std::string condition3 = "RUNSESSION_INTEGER.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; int v = (int)row["VALUE"].data<long long>(); Itemp.m_GTAlgoCounts.push_back(v); // std::cout<< " m_GTAlgoCounts["<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; case 6:{ std::cout<<" caso 6" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_FLOAT.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_FLOAT"); std::string condition3 = "RUNSESSION_FLOAT.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; float v = (float)row["VALUE"].data<double>(); Itemp.m_GTAlgoRates.push_back(v); // std::cout<< " m_GTAlgoRates["<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; case 7:{ std::cout<<" caso 7" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_INTEGER.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_INTEGER"); std::string condition3 = "RUNSESSION_INTEGER.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; int v = (int)row["VALUE"].data<long long>(); Itemp.m_GTAlgoPrescaling.push_back(v); // std::cout<< " m_GTAlgoPrescaling["<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; case 8:{ std::cout<<" caso 8" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_INTEGER.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_INTEGER"); std::string condition3 = "RUNSESSION_INTEGER.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; int v = (int)row["VALUE"].data<long long>(); Itemp.m_GTTechCounts.push_back(v); // std::cout<< " m_GTTechCounts["<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; case 9:{ std::cout<<" caso 9" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_FLOAT.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_FLOAT"); std::string condition3 = "RUNSESSION_FLOAT.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; float v = (float)row["VALUE"].data<double>(); Itemp.m_GTTechRates.push_back(v); // std::cout<< " m_GTTechRates["<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; case 10:{ std::cout<<" caso 10" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_INTEGER.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_INTEGER"); std::string condition3 = "RUNSESSION_INTEGER.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; int v = (int)row["VALUE"].data<long long>(); Itemp.m_GTTechPrescaling.push_back(v); // std::cout<< " m_GTTechPrescaling["<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; case 11:{ std::cout<<" caso 11" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_INTEGER.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_INTEGER"); std::string condition3 = "RUNSESSION_INTEGER.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; int v = (int)row["VALUE"].data<long long>(); Itemp.m_GTPartition0TriggerCounts.push_back(v); // std::cout<< " m_GTPartition0TriggerCounts"<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; case 12:{ std::cout<<" caso 12" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_FLOAT.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_FLOAT"); std::string condition3 = "RUNSESSION_FLOAT.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; float v = (float)row["VALUE"].data<double>(); Itemp.m_GTPartition0TriggerRates.push_back(v); // std::cout<< " m_GTPartition0TriggerRates["<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; case 13:{ std::cout<<" caso 13" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_INTEGER.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_INTEGER"); std::string condition3 = "RUNSESSION_INTEGER.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; int v = (int)row["VALUE"].data<long long>(); Itemp.m_GTPartition0DeadTime.push_back(v); // std::cout<< " m_GTPartition0DeadTime"<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; case 14:{ std::cout<<" caso 14" << std::endl; coral::IQuery* queryIII = schema.newQuery(); queryIII->addToOutputList("RUNSESSION_FLOAT.VALUE" , "VALUE"); queryIII->addToTableList("RUNSESSION_FLOAT"); std::string condition3 = "RUNSESSION_FLOAT.PARENT_ID=:n_vid_val"; queryIII->setCondition( condition3, conditionData3 ); coral::ICursor& cursorIII = queryIII->execute(); int i=0; while ( cursorIII.next()!=0 ) { const coral::AttributeList& row = cursorIII.currentRow(); std::cout<< " entering the queryIII " << std::endl; float v = (float)row["VALUE"].data<double>(); Itemp.m_GTPartition0DeadTimeRatio.push_back(v); // std::cout<< " m_GTPartition0DeadTimeRatio["<< i << "]" << " extracted == " << v << std::endl; i++; } delete queryIII; } break; default: std::cout<< "index out of range" << std::endl; break; } // l1triggerscaler_array.push_back(Itemp); } delete queryII; l1triggerscaler_array.push_back(Itemp); } delete queryI; session->transaction().commit(); delete session; // std::cout<<"filling the lumi array to pass to the object" << std::endl; return l1triggerscaler_array; }
void L1TriggerScalerRead::run | ( | ) | [virtual] |
std::string L1TriggerScalerRead::m_connectionString [private] |
Definition at line 31 of file L1TriggerScalerRead.h.
Referenced by dropTable(), and readData().
std::string L1TriggerScalerRead::m_pass [private] |
Definition at line 33 of file L1TriggerScalerRead.h.
Referenced by dropTable(), and readData().
std::string L1TriggerScalerRead::m_tableToDrop [private] |
Definition at line 28 of file L1TriggerScalerRead.h.
Referenced by dropTable(), and L1TriggerScalerRead().
std::string L1TriggerScalerRead::m_user [private] |
Definition at line 32 of file L1TriggerScalerRead.h.
Referenced by dropTable(), and readData().